diff --git a/Marlin/FatStructs.h b/Marlin/FatStructs.h
index 5713467ce..f5bdaa594 100644
--- a/Marlin/FatStructs.h
+++ b/Marlin/FatStructs.h
@@ -1,418 +1,418 @@
-/* Arduino SdFat Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#ifndef FatStructs_h
-#define FatStructs_h
-/**
- * \file
- * FAT file structures
- */
-/*
- * mostly from Microsoft document fatgen103.doc
- * http://www.microsoft.com/whdc/system/platform/firmware/fatgen.mspx
- */
-//------------------------------------------------------------------------------
-/** Value for byte 510 of boot block or MBR */
-uint8_t const BOOTSIG0 = 0X55;
-/** Value for byte 511 of boot block or MBR */
-uint8_t const BOOTSIG1 = 0XAA;
-//------------------------------------------------------------------------------
-/**
- * \struct partitionTable
- * \brief MBR partition table entry
- *
- * A partition table entry for a MBR formatted storage device.
- * The MBR partition table has four entries.
- */
-struct partitionTable {
-          /**
-           * Boot Indicator . Indicates whether the volume is the active
-           * partition.  Legal values include: 0X00. Do not use for booting.
-           * 0X80 Active partition.
-           */
-  uint8_t  boot;
-          /**
-            * Head part of Cylinder-head-sector address of the first block in
-            * the partition. Legal values are 0-255. Only used in old PC BIOS.
-            */
-  uint8_t  beginHead;
-          /**
-           * Sector part of Cylinder-head-sector address of the first block in
-           * the partition. Legal values are 1-63. Only used in old PC BIOS.
-           */
-  unsigned beginSector : 6;
-           /** High bits cylinder for first block in partition. */
-  unsigned beginCylinderHigh : 2;
-          /**
-           * Combine beginCylinderLow with beginCylinderHigh. Legal values
-           * are 0-1023.  Only used in old PC BIOS.
-           */
-  uint8_t  beginCylinderLow;
-          /**
-           * Partition type. See defines that begin with PART_TYPE_ for
-           * some Microsoft partition types.
-           */
-  uint8_t  type;
-          /**
-           * head part of cylinder-head-sector address of the last sector in the
-           * partition.  Legal values are 0-255. Only used in old PC BIOS.
-           */
-  uint8_t  endHead;
-          /**
-           * Sector part of cylinder-head-sector address of the last sector in
-           * the partition.  Legal values are 1-63. Only used in old PC BIOS.
-           */
-  unsigned endSector : 6;
-           /** High bits of end cylinder */
-  unsigned endCylinderHigh : 2;
-          /**
-           * Combine endCylinderLow with endCylinderHigh. Legal values
-           * are 0-1023.  Only used in old PC BIOS.
-           */
-  uint8_t  endCylinderLow;
-           /** Logical block address of the first block in the partition. */
-  uint32_t firstSector;
-           /** Length of the partition, in blocks. */
-  uint32_t totalSectors;
-};
-/** Type name for partitionTable */
-typedef struct partitionTable part_t;
-//------------------------------------------------------------------------------
-/**
- * \struct masterBootRecord
- *
- * \brief Master Boot Record
- *
- * The first block of a storage device that is formatted with a MBR.
- */
-struct masterBootRecord {
-           /** Code Area for master boot program. */
-  uint8_t  codeArea[440];
-           /** Optional WindowsNT disk signature. May contain more boot code. */
-  uint32_t diskSignature;
-           /** Usually zero but may be more boot code. */
-  uint16_t usuallyZero;
-           /** Partition tables. */
-  part_t   part[4];
-           /** First MBR signature byte. Must be 0X55 */
-  uint8_t  mbrSig0;
-           /** Second MBR signature byte. Must be 0XAA */
-  uint8_t  mbrSig1;
-};
-/** Type name for masterBootRecord */
-typedef struct masterBootRecord mbr_t;
-//------------------------------------------------------------------------------
-/** 
- * \struct biosParmBlock
- *
- * \brief BIOS parameter block
- * 
- *  The BIOS parameter block describes the physical layout of a FAT volume.
- */
-struct biosParmBlock {
-          /**
-           * Count of bytes per sector. This value may take on only the
-           * following values: 512, 1024, 2048 or 4096
-           */
-  uint16_t bytesPerSector;
-          /**
-           * Number of sectors per allocation unit. This value must be a
-           * power of 2 that is greater than 0. The legal values are
-           * 1, 2, 4, 8, 16, 32, 64, and 128.
-           */
-  uint8_t  sectorsPerCluster;
-          /**
-           * Number of sectors before the first FAT.
-           * This value must not be zero.
-           */
-  uint16_t reservedSectorCount;
-          /** The count of FAT data structures on the volume. This field should
-           *  always contain the value 2 for any FAT volume of any type.
-           */
-  uint8_t  fatCount;
-          /**
-          * For FAT12 and FAT16 volumes, this field contains the count of
-          * 32-byte directory entries in the root directory. For FAT32 volumes,
-          * this field must be set to 0. For FAT12 and FAT16 volumes, this
-          * value should always specify a count that when multiplied by 32
-          * results in a multiple of bytesPerSector.  FAT16 volumes should
-          * use the value 512.
-          */
-  uint16_t rootDirEntryCount;
-          /**
-           * This field is the old 16-bit total count of sectors on the volume.
-           * This count includes the count of all sectors in all four regions
-           * of the volume. This field can be 0; if it is 0, then totalSectors32
-           * must be non-zero.  For FAT32 volumes, this field must be 0. For
-           * FAT12 and FAT16 volumes, this field contains the sector count, and
-           * totalSectors32 is 0 if the total sector count fits
-           * (is less than 0x10000).
-           */
-  uint16_t totalSectors16;
-          /**
-           * This dates back to the old MS-DOS 1.x media determination and is
-           * no longer usually used for anything.  0xF8 is the standard value
-           * for fixed (non-removable) media. For removable media, 0xF0 is
-           * frequently used. Legal values are 0xF0 or 0xF8-0xFF.
-           */
-  uint8_t  mediaType;
-          /**
-           * Count of sectors occupied by one FAT on FAT12/FAT16 volumes.
-           * On FAT32 volumes this field must be 0, and sectorsPerFat32
-           * contains the FAT size count.
-           */
-  uint16_t sectorsPerFat16;
-           /** Sectors per track for interrupt 0x13. Not used otherwise. */
-  uint16_t sectorsPerTrtack;
-           /** Number of heads for interrupt 0x13.  Not used otherwise. */
-  uint16_t headCount;
-          /**
-           * Count of hidden sectors preceding the partition that contains this
-           * FAT volume. This field is generally only relevant for media
-           *  visible on interrupt 0x13.
-           */
-  uint32_t hidddenSectors;
-          /**
-           * This field is the new 32-bit total count of sectors on the volume.
-           * This count includes the count of all sectors in all four regions
-           * of the volume.  This field can be 0; if it is 0, then
-           * totalSectors16 must be non-zero.
-           */
-  uint32_t totalSectors32;
-          /**
-           * Count of sectors occupied by one FAT on FAT32 volumes.
-           */
-  uint32_t sectorsPerFat32;
-          /**
-           * This field is only defined for FAT32 media and does not exist on
-           * FAT12 and FAT16 media.
-           * Bits 0-3 -- Zero-based number of active FAT.
-           *             Only valid if mirroring is disabled.
-           * Bits 4-6 -- Reserved.
-           * Bit 7	-- 0 means the FAT is mirrored at runtime into all FATs.
-	         *        -- 1 means only one FAT is active; it is the one referenced in bits 0-3.
-           * Bits 8-15 	-- Reserved.
-           */
-  uint16_t fat32Flags;
-          /**
-           * FAT32 version. High byte is major revision number.
-           * Low byte is minor revision number. Only 0.0 define.
-           */
-  uint16_t fat32Version;
-          /**
-           * Cluster number of the first cluster of the root directory for FAT32.
-           * This usually 2 but not required to be 2.
-           */
-  uint32_t fat32RootCluster;
-          /**
-           * Sector number of FSINFO structure in the reserved area of the
-           * FAT32 volume. Usually 1.
-           */
-  uint16_t fat32FSInfo;
-          /**
-           * If non-zero, indicates the sector number in the reserved area
-           * of the volume of a copy of the boot record. Usually 6.
-           * No value other than 6 is recommended.
-           */
-  uint16_t fat32BackBootBlock;
-          /**
-           * Reserved for future expansion. Code that formats FAT32 volumes
-           * should always set all of the bytes of this field to 0.
-           */
-  uint8_t  fat32Reserved[12];
-};
-/** Type name for biosParmBlock */
-typedef struct biosParmBlock bpb_t;
-//------------------------------------------------------------------------------
-/**
- * \struct fat32BootSector
- *
- * \brief Boot sector for a FAT16 or FAT32 volume.
- * 
- */  
-struct fat32BootSector {
-           /** X86 jmp to boot program */
-  uint8_t  jmpToBootCode[3];
-           /** informational only - don't depend on it */
-  char     oemName[8];
-           /** BIOS Parameter Block */
-  bpb_t    bpb;
-           /** for int0x13 use value 0X80 for hard drive */
-  uint8_t  driveNumber;
-           /** used by Windows NT - should be zero for FAT */
-  uint8_t  reserved1;
-           /** 0X29 if next three fields are valid */
-  uint8_t  bootSignature;
-           /** usually generated by combining date and time */
-  uint32_t volumeSerialNumber;
-           /** should match volume label in root dir */
-  char     volumeLabel[11];
-           /** informational only - don't depend on it */
-  char     fileSystemType[8];
-           /** X86 boot code */
-  uint8_t  bootCode[420];
-           /** must be 0X55 */
-  uint8_t  bootSectorSig0;
-           /** must be 0XAA */
-  uint8_t  bootSectorSig1;
-};
-//------------------------------------------------------------------------------
-// End Of Chain values for FAT entries
-/** FAT16 end of chain value used by Microsoft. */
-uint16_t const FAT16EOC = 0XFFFF;
-/** Minimum value for FAT16 EOC.  Use to test for EOC. */
-uint16_t const FAT16EOC_MIN = 0XFFF8;
-/** FAT32 end of chain value used by Microsoft. */
-uint32_t const FAT32EOC = 0X0FFFFFFF;
-/** Minimum value for FAT32 EOC.  Use to test for EOC. */
-uint32_t const FAT32EOC_MIN = 0X0FFFFFF8;
-/** Mask a for FAT32 entry. Entries are 28 bits. */
-uint32_t const FAT32MASK = 0X0FFFFFFF;
-
-/** Type name for fat32BootSector */
-typedef struct fat32BootSector fbs_t;
-//------------------------------------------------------------------------------
-/**
- * \struct directoryEntry
- * \brief FAT short directory entry
- *
- * Short means short 8.3 name, not the entry size.
- *  
- * Date Format. A FAT directory entry date stamp is a 16-bit field that is 
- * basically a date relative to the MS-DOS epoch of 01/01/1980. Here is the
- * format (bit 0 is the LSB of the 16-bit word, bit 15 is the MSB of the 
- * 16-bit word):
- *   
- * Bits 9-15: Count of years from 1980, valid value range 0-127 
- * inclusive (1980-2107).
- *   
- * Bits 5-8: Month of year, 1 = January, valid value range 1-12 inclusive.
- *
- * Bits 0-4: Day of month, valid value range 1-31 inclusive.
- *
- * Time Format. A FAT directory entry time stamp is a 16-bit field that has
- * a granularity of 2 seconds. Here is the format (bit 0 is the LSB of the 
- * 16-bit word, bit 15 is the MSB of the 16-bit word).
- *   
- * Bits 11-15: Hours, valid value range 0-23 inclusive.
- * 
- * Bits 5-10: Minutes, valid value range 0-59 inclusive.
- *      
- * Bits 0-4: 2-second count, valid value range 0-29 inclusive (0 - 58 seconds).
- *   
- * The valid time range is from Midnight 00:00:00 to 23:59:58.
- */
-struct directoryEntry {
-           /**
-            * Short 8.3 name.
-            * The first eight bytes contain the file name with blank fill.
-            * The last three bytes contain the file extension with blank fill.
-            */
-  uint8_t  name[11];
-          /** Entry attributes.
-           *
-           * The upper two bits of the attribute byte are reserved and should
-           * always be set to 0 when a file is created and never modified or
-           * looked at after that.  See defines that begin with DIR_ATT_.
-           */
-  uint8_t  attributes;
-          /**
-           * Reserved for use by Windows NT. Set value to 0 when a file is
-           * created and never modify or look at it after that.
-           */
-  uint8_t  reservedNT;
-          /**
-           * The granularity of the seconds part of creationTime is 2 seconds
-           * so this field is a count of tenths of a second and its valid
-           * value range is 0-199 inclusive. (WHG note - seems to be hundredths)
-           */
-  uint8_t  creationTimeTenths;
-           /** Time file was created. */
-  uint16_t creationTime;
-           /** Date file was created. */
-  uint16_t creationDate;
-          /**
-           * Last access date. Note that there is no last access time, only
-           * a date.  This is the date of last read or write. In the case of
-           * a write, this should be set to the same date as lastWriteDate.
-           */
-  uint16_t lastAccessDate;
-          /**
-           * High word of this entry's first cluster number (always 0 for a
-           * FAT12 or FAT16 volume).
-           */
-  uint16_t firstClusterHigh;
-           /** Time of last write. File creation is considered a write. */
-  uint16_t lastWriteTime;
-           /** Date of last write. File creation is considered a write. */
-  uint16_t lastWriteDate;
-           /** Low word of this entry's first cluster number. */
-  uint16_t firstClusterLow;
-           /** 32-bit unsigned holding this file's size in bytes. */
-  uint32_t fileSize;
-};
-//------------------------------------------------------------------------------
-// Definitions for directory entries
-//
-/** Type name for directoryEntry */
-typedef struct directoryEntry dir_t;
-/** escape for name[0] = 0XE5 */
-uint8_t const DIR_NAME_0XE5 = 0X05;
-/** name[0] value for entry that is free after being "deleted" */
-uint8_t const DIR_NAME_DELETED = 0XE5;
-/** name[0] value for entry that is free and no allocated entries follow */
-uint8_t const DIR_NAME_FREE = 0X00;
-/** file is read-only */
-uint8_t const DIR_ATT_READ_ONLY = 0X01;
-/** File should hidden in directory listings */
-uint8_t const DIR_ATT_HIDDEN = 0X02;
-/** Entry is for a system file */
-uint8_t const DIR_ATT_SYSTEM = 0X04;
-/** Directory entry contains the volume label */
-uint8_t const DIR_ATT_VOLUME_ID = 0X08;
-/** Entry is for a directory */
-uint8_t const DIR_ATT_DIRECTORY = 0X10;
-/** Old DOS archive bit for backup support */
-uint8_t const DIR_ATT_ARCHIVE = 0X20;
-/** Test value for long name entry.  Test is
-  (d->attributes & DIR_ATT_LONG_NAME_MASK) == DIR_ATT_LONG_NAME. */
-uint8_t const DIR_ATT_LONG_NAME = 0X0F;
-/** Test mask for long name entry */
-uint8_t const DIR_ATT_LONG_NAME_MASK = 0X3F;
-/** defined attribute bits */
-uint8_t const DIR_ATT_DEFINED_BITS = 0X3F;
-/** Directory entry is part of a long name */
-static inline uint8_t DIR_IS_LONG_NAME(const dir_t* dir) {
-  return (dir->attributes & DIR_ATT_LONG_NAME_MASK) == DIR_ATT_LONG_NAME;
-}
-/** Mask for file/subdirectory tests */
-uint8_t const DIR_ATT_FILE_TYPE_MASK = (DIR_ATT_VOLUME_ID | DIR_ATT_DIRECTORY);
-/** Directory entry is for a file */
-static inline uint8_t DIR_IS_FILE(const dir_t* dir) {
-  return (dir->attributes & DIR_ATT_FILE_TYPE_MASK) == 0;
-}
-/** Directory entry is for a subdirectory */
-static inline uint8_t DIR_IS_SUBDIR(const dir_t* dir) {
-  return (dir->attributes & DIR_ATT_FILE_TYPE_MASK) == DIR_ATT_DIRECTORY;
-}
-/** Directory entry is for a file or subdirectory */
-static inline uint8_t DIR_IS_FILE_OR_SUBDIR(const dir_t* dir) {
-  return (dir->attributes & DIR_ATT_VOLUME_ID) == 0;
-}
-#endif  // FatStructs_h
+/* Arduino SdFat Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#ifndef FatStructs_h
+#define FatStructs_h
+/**
+ * \file
+ * FAT file structures
+ */
+/*
+ * mostly from Microsoft document fatgen103.doc
+ * http://www.microsoft.com/whdc/system/platform/firmware/fatgen.mspx
+ */
+//------------------------------------------------------------------------------
+/** Value for byte 510 of boot block or MBR */
+uint8_t const BOOTSIG0 = 0X55;
+/** Value for byte 511 of boot block or MBR */
+uint8_t const BOOTSIG1 = 0XAA;
+//------------------------------------------------------------------------------
+/**
+ * \struct partitionTable
+ * \brief MBR partition table entry
+ *
+ * A partition table entry for a MBR formatted storage device.
+ * The MBR partition table has four entries.
+ */
+struct partitionTable {
+          /**
+           * Boot Indicator . Indicates whether the volume is the active
+           * partition.  Legal values include: 0X00. Do not use for booting.
+           * 0X80 Active partition.
+           */
+  uint8_t  boot;
+          /**
+            * Head part of Cylinder-head-sector address of the first block in
+            * the partition. Legal values are 0-255. Only used in old PC BIOS.
+            */
+  uint8_t  beginHead;
+          /**
+           * Sector part of Cylinder-head-sector address of the first block in
+           * the partition. Legal values are 1-63. Only used in old PC BIOS.
+           */
+  unsigned beginSector : 6;
+           /** High bits cylinder for first block in partition. */
+  unsigned beginCylinderHigh : 2;
+          /**
+           * Combine beginCylinderLow with beginCylinderHigh. Legal values
+           * are 0-1023.  Only used in old PC BIOS.
+           */
+  uint8_t  beginCylinderLow;
+          /**
+           * Partition type. See defines that begin with PART_TYPE_ for
+           * some Microsoft partition types.
+           */
+  uint8_t  type;
+          /**
+           * head part of cylinder-head-sector address of the last sector in the
+           * partition.  Legal values are 0-255. Only used in old PC BIOS.
+           */
+  uint8_t  endHead;
+          /**
+           * Sector part of cylinder-head-sector address of the last sector in
+           * the partition.  Legal values are 1-63. Only used in old PC BIOS.
+           */
+  unsigned endSector : 6;
+           /** High bits of end cylinder */
+  unsigned endCylinderHigh : 2;
+          /**
+           * Combine endCylinderLow with endCylinderHigh. Legal values
+           * are 0-1023.  Only used in old PC BIOS.
+           */
+  uint8_t  endCylinderLow;
+           /** Logical block address of the first block in the partition. */
+  uint32_t firstSector;
+           /** Length of the partition, in blocks. */
+  uint32_t totalSectors;
+};
+/** Type name for partitionTable */
+typedef struct partitionTable part_t;
+//------------------------------------------------------------------------------
+/**
+ * \struct masterBootRecord
+ *
+ * \brief Master Boot Record
+ *
+ * The first block of a storage device that is formatted with a MBR.
+ */
+struct masterBootRecord {
+           /** Code Area for master boot program. */
+  uint8_t  codeArea[440];
+           /** Optional WindowsNT disk signature. May contain more boot code. */
+  uint32_t diskSignature;
+           /** Usually zero but may be more boot code. */
+  uint16_t usuallyZero;
+           /** Partition tables. */
+  part_t   part[4];
+           /** First MBR signature byte. Must be 0X55 */
+  uint8_t  mbrSig0;
+           /** Second MBR signature byte. Must be 0XAA */
+  uint8_t  mbrSig1;
+};
+/** Type name for masterBootRecord */
+typedef struct masterBootRecord mbr_t;
+//------------------------------------------------------------------------------
+/** 
+ * \struct biosParmBlock
+ *
+ * \brief BIOS parameter block
+ * 
+ *  The BIOS parameter block describes the physical layout of a FAT volume.
+ */
+struct biosParmBlock {
+          /**
+           * Count of bytes per sector. This value may take on only the
+           * following values: 512, 1024, 2048 or 4096
+           */
+  uint16_t bytesPerSector;
+          /**
+           * Number of sectors per allocation unit. This value must be a
+           * power of 2 that is greater than 0. The legal values are
+           * 1, 2, 4, 8, 16, 32, 64, and 128.
+           */
+  uint8_t  sectorsPerCluster;
+          /**
+           * Number of sectors before the first FAT.
+           * This value must not be zero.
+           */
+  uint16_t reservedSectorCount;
+          /** The count of FAT data structures on the volume. This field should
+           *  always contain the value 2 for any FAT volume of any type.
+           */
+  uint8_t  fatCount;
+          /**
+          * For FAT12 and FAT16 volumes, this field contains the count of
+          * 32-byte directory entries in the root directory. For FAT32 volumes,
+          * this field must be set to 0. For FAT12 and FAT16 volumes, this
+          * value should always specify a count that when multiplied by 32
+          * results in a multiple of bytesPerSector.  FAT16 volumes should
+          * use the value 512.
+          */
+  uint16_t rootDirEntryCount;
+          /**
+           * This field is the old 16-bit total count of sectors on the volume.
+           * This count includes the count of all sectors in all four regions
+           * of the volume. This field can be 0; if it is 0, then totalSectors32
+           * must be non-zero.  For FAT32 volumes, this field must be 0. For
+           * FAT12 and FAT16 volumes, this field contains the sector count, and
+           * totalSectors32 is 0 if the total sector count fits
+           * (is less than 0x10000).
+           */
+  uint16_t totalSectors16;
+          /**
+           * This dates back to the old MS-DOS 1.x media determination and is
+           * no longer usually used for anything.  0xF8 is the standard value
+           * for fixed (non-removable) media. For removable media, 0xF0 is
+           * frequently used. Legal values are 0xF0 or 0xF8-0xFF.
+           */
+  uint8_t  mediaType;
+          /**
+           * Count of sectors occupied by one FAT on FAT12/FAT16 volumes.
+           * On FAT32 volumes this field must be 0, and sectorsPerFat32
+           * contains the FAT size count.
+           */
+  uint16_t sectorsPerFat16;
+           /** Sectors per track for interrupt 0x13. Not used otherwise. */
+  uint16_t sectorsPerTrtack;
+           /** Number of heads for interrupt 0x13.  Not used otherwise. */
+  uint16_t headCount;
+          /**
+           * Count of hidden sectors preceding the partition that contains this
+           * FAT volume. This field is generally only relevant for media
+           *  visible on interrupt 0x13.
+           */
+  uint32_t hidddenSectors;
+          /**
+           * This field is the new 32-bit total count of sectors on the volume.
+           * This count includes the count of all sectors in all four regions
+           * of the volume.  This field can be 0; if it is 0, then
+           * totalSectors16 must be non-zero.
+           */
+  uint32_t totalSectors32;
+          /**
+           * Count of sectors occupied by one FAT on FAT32 volumes.
+           */
+  uint32_t sectorsPerFat32;
+          /**
+           * This field is only defined for FAT32 media and does not exist on
+           * FAT12 and FAT16 media.
+           * Bits 0-3 -- Zero-based number of active FAT.
+           *             Only valid if mirroring is disabled.
+           * Bits 4-6 -- Reserved.
+           * Bit 7	-- 0 means the FAT is mirrored at runtime into all FATs.
+	         *        -- 1 means only one FAT is active; it is the one referenced in bits 0-3.
+           * Bits 8-15 	-- Reserved.
+           */
+  uint16_t fat32Flags;
+          /**
+           * FAT32 version. High byte is major revision number.
+           * Low byte is minor revision number. Only 0.0 define.
+           */
+  uint16_t fat32Version;
+          /**
+           * Cluster number of the first cluster of the root directory for FAT32.
+           * This usually 2 but not required to be 2.
+           */
+  uint32_t fat32RootCluster;
+          /**
+           * Sector number of FSINFO structure in the reserved area of the
+           * FAT32 volume. Usually 1.
+           */
+  uint16_t fat32FSInfo;
+          /**
+           * If non-zero, indicates the sector number in the reserved area
+           * of the volume of a copy of the boot record. Usually 6.
+           * No value other than 6 is recommended.
+           */
+  uint16_t fat32BackBootBlock;
+          /**
+           * Reserved for future expansion. Code that formats FAT32 volumes
+           * should always set all of the bytes of this field to 0.
+           */
+  uint8_t  fat32Reserved[12];
+};
+/** Type name for biosParmBlock */
+typedef struct biosParmBlock bpb_t;
+//------------------------------------------------------------------------------
+/**
+ * \struct fat32BootSector
+ *
+ * \brief Boot sector for a FAT16 or FAT32 volume.
+ * 
+ */  
+struct fat32BootSector {
+           /** X86 jmp to boot program */
+  uint8_t  jmpToBootCode[3];
+           /** informational only - don't depend on it */
+  char     oemName[8];
+           /** BIOS Parameter Block */
+  bpb_t    bpb;
+           /** for int0x13 use value 0X80 for hard drive */
+  uint8_t  driveNumber;
+           /** used by Windows NT - should be zero for FAT */
+  uint8_t  reserved1;
+           /** 0X29 if next three fields are valid */
+  uint8_t  bootSignature;
+           /** usually generated by combining date and time */
+  uint32_t volumeSerialNumber;
+           /** should match volume label in root dir */
+  char     volumeLabel[11];
+           /** informational only - don't depend on it */
+  char     fileSystemType[8];
+           /** X86 boot code */
+  uint8_t  bootCode[420];
+           /** must be 0X55 */
+  uint8_t  bootSectorSig0;
+           /** must be 0XAA */
+  uint8_t  bootSectorSig1;
+};
+//------------------------------------------------------------------------------
+// End Of Chain values for FAT entries
+/** FAT16 end of chain value used by Microsoft. */
+uint16_t const FAT16EOC = 0XFFFF;
+/** Minimum value for FAT16 EOC.  Use to test for EOC. */
+uint16_t const FAT16EOC_MIN = 0XFFF8;
+/** FAT32 end of chain value used by Microsoft. */
+uint32_t const FAT32EOC = 0X0FFFFFFF;
+/** Minimum value for FAT32 EOC.  Use to test for EOC. */
+uint32_t const FAT32EOC_MIN = 0X0FFFFFF8;
+/** Mask a for FAT32 entry. Entries are 28 bits. */
+uint32_t const FAT32MASK = 0X0FFFFFFF;
+
+/** Type name for fat32BootSector */
+typedef struct fat32BootSector fbs_t;
+//------------------------------------------------------------------------------
+/**
+ * \struct directoryEntry
+ * \brief FAT short directory entry
+ *
+ * Short means short 8.3 name, not the entry size.
+ *  
+ * Date Format. A FAT directory entry date stamp is a 16-bit field that is 
+ * basically a date relative to the MS-DOS epoch of 01/01/1980. Here is the
+ * format (bit 0 is the LSB of the 16-bit word, bit 15 is the MSB of the 
+ * 16-bit word):
+ *   
+ * Bits 9-15: Count of years from 1980, valid value range 0-127 
+ * inclusive (1980-2107).
+ *   
+ * Bits 5-8: Month of year, 1 = January, valid value range 1-12 inclusive.
+ *
+ * Bits 0-4: Day of month, valid value range 1-31 inclusive.
+ *
+ * Time Format. A FAT directory entry time stamp is a 16-bit field that has
+ * a granularity of 2 seconds. Here is the format (bit 0 is the LSB of the 
+ * 16-bit word, bit 15 is the MSB of the 16-bit word).
+ *   
+ * Bits 11-15: Hours, valid value range 0-23 inclusive.
+ * 
+ * Bits 5-10: Minutes, valid value range 0-59 inclusive.
+ *      
+ * Bits 0-4: 2-second count, valid value range 0-29 inclusive (0 - 58 seconds).
+ *   
+ * The valid time range is from Midnight 00:00:00 to 23:59:58.
+ */
+struct directoryEntry {
+           /**
+            * Short 8.3 name.
+            * The first eight bytes contain the file name with blank fill.
+            * The last three bytes contain the file extension with blank fill.
+            */
+  uint8_t  name[11];
+          /** Entry attributes.
+           *
+           * The upper two bits of the attribute byte are reserved and should
+           * always be set to 0 when a file is created and never modified or
+           * looked at after that.  See defines that begin with DIR_ATT_.
+           */
+  uint8_t  attributes;
+          /**
+           * Reserved for use by Windows NT. Set value to 0 when a file is
+           * created and never modify or look at it after that.
+           */
+  uint8_t  reservedNT;
+          /**
+           * The granularity of the seconds part of creationTime is 2 seconds
+           * so this field is a count of tenths of a second and its valid
+           * value range is 0-199 inclusive. (WHG note - seems to be hundredths)
+           */
+  uint8_t  creationTimeTenths;
+           /** Time file was created. */
+  uint16_t creationTime;
+           /** Date file was created. */
+  uint16_t creationDate;
+          /**
+           * Last access date. Note that there is no last access time, only
+           * a date.  This is the date of last read or write. In the case of
+           * a write, this should be set to the same date as lastWriteDate.
+           */
+  uint16_t lastAccessDate;
+          /**
+           * High word of this entry's first cluster number (always 0 for a
+           * FAT12 or FAT16 volume).
+           */
+  uint16_t firstClusterHigh;
+           /** Time of last write. File creation is considered a write. */
+  uint16_t lastWriteTime;
+           /** Date of last write. File creation is considered a write. */
+  uint16_t lastWriteDate;
+           /** Low word of this entry's first cluster number. */
+  uint16_t firstClusterLow;
+           /** 32-bit unsigned holding this file's size in bytes. */
+  uint32_t fileSize;
+};
+//------------------------------------------------------------------------------
+// Definitions for directory entries
+//
+/** Type name for directoryEntry */
+typedef struct directoryEntry dir_t;
+/** escape for name[0] = 0XE5 */
+uint8_t const DIR_NAME_0XE5 = 0X05;
+/** name[0] value for entry that is free after being "deleted" */
+uint8_t const DIR_NAME_DELETED = 0XE5;
+/** name[0] value for entry that is free and no allocated entries follow */
+uint8_t const DIR_NAME_FREE = 0X00;
+/** file is read-only */
+uint8_t const DIR_ATT_READ_ONLY = 0X01;
+/** File should hidden in directory listings */
+uint8_t const DIR_ATT_HIDDEN = 0X02;
+/** Entry is for a system file */
+uint8_t const DIR_ATT_SYSTEM = 0X04;
+/** Directory entry contains the volume label */
+uint8_t const DIR_ATT_VOLUME_ID = 0X08;
+/** Entry is for a directory */
+uint8_t const DIR_ATT_DIRECTORY = 0X10;
+/** Old DOS archive bit for backup support */
+uint8_t const DIR_ATT_ARCHIVE = 0X20;
+/** Test value for long name entry.  Test is
+  (d->attributes & DIR_ATT_LONG_NAME_MASK) == DIR_ATT_LONG_NAME. */
+uint8_t const DIR_ATT_LONG_NAME = 0X0F;
+/** Test mask for long name entry */
+uint8_t const DIR_ATT_LONG_NAME_MASK = 0X3F;
+/** defined attribute bits */
+uint8_t const DIR_ATT_DEFINED_BITS = 0X3F;
+/** Directory entry is part of a long name */
+static inline uint8_t DIR_IS_LONG_NAME(const dir_t* dir) {
+  return (dir->attributes & DIR_ATT_LONG_NAME_MASK) == DIR_ATT_LONG_NAME;
+}
+/** Mask for file/subdirectory tests */
+uint8_t const DIR_ATT_FILE_TYPE_MASK = (DIR_ATT_VOLUME_ID | DIR_ATT_DIRECTORY);
+/** Directory entry is for a file */
+static inline uint8_t DIR_IS_FILE(const dir_t* dir) {
+  return (dir->attributes & DIR_ATT_FILE_TYPE_MASK) == 0;
+}
+/** Directory entry is for a subdirectory */
+static inline uint8_t DIR_IS_SUBDIR(const dir_t* dir) {
+  return (dir->attributes & DIR_ATT_FILE_TYPE_MASK) == DIR_ATT_DIRECTORY;
+}
+/** Directory entry is for a file or subdirectory */
+static inline uint8_t DIR_IS_FILE_OR_SUBDIR(const dir_t* dir) {
+  return (dir->attributes & DIR_ATT_VOLUME_ID) == 0;
+}
+#endif  // FatStructs_h
diff --git a/Marlin/Sd2Card.cpp b/Marlin/Sd2Card.cpp
index 62c115917..8222cfd93 100644
--- a/Marlin/Sd2Card.cpp
+++ b/Marlin/Sd2Card.cpp
@@ -1,643 +1,643 @@
-/* Arduino Sd2Card Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino Sd2Card Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino Sd2Card Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#include <WProgram.h>
-#include "Sd2Card.h"
-//------------------------------------------------------------------------------
-#ifndef SOFTWARE_SPI
-// functions for hardware SPI
-/** Send a byte to the card */
-static void spiSend(uint8_t b) {
-  SPDR = b;
-  while (!(SPSR & (1 << SPIF)));
-}
-/** Receive a byte from the card */
-static  uint8_t spiRec(void) {
-  spiSend(0XFF);
-  return SPDR;
-}
-#else  // SOFTWARE_SPI
-//------------------------------------------------------------------------------
-/** nop to tune soft SPI timing */
-#define nop asm volatile ("nop\n\t")
-//------------------------------------------------------------------------------
-/** Soft SPI receive */
-uint8_t spiRec(void) {
-  uint8_t data = 0;
-  // no interrupts during byte receive - about 8 us
-  cli();
-  // output pin high - like sending 0XFF
-  fastDigitalWrite(SPI_MOSI_PIN, HIGH);
-
-  for (uint8_t i = 0; i < 8; i++) {
-    fastDigitalWrite(SPI_SCK_PIN, HIGH);
-
-    // adjust so SCK is nice
-    nop;
-    nop;
-
-    data <<= 1;
-
-    if (fastDigitalRead(SPI_MISO_PIN)) data |= 1;
-
-    fastDigitalWrite(SPI_SCK_PIN, LOW);
-  }
-  // enable interrupts
-  sei();
-  return data;
-}
-//------------------------------------------------------------------------------
-/** Soft SPI send */
-void spiSend(uint8_t data) {
-  // no interrupts during byte send - about 8 us
-  cli();
-  for (uint8_t i = 0; i < 8; i++) {
-    fastDigitalWrite(SPI_SCK_PIN, LOW);
-
-    fastDigitalWrite(SPI_MOSI_PIN, data & 0X80);
-
-    data <<= 1;
-
-    fastDigitalWrite(SPI_SCK_PIN, HIGH);
-  }
-  // hold SCK high for a few ns
-  nop;
-  nop;
-  nop;
-  nop;
-
-  fastDigitalWrite(SPI_SCK_PIN, LOW);
-  // enable interrupts
-  sei();
-}
-#endif  // SOFTWARE_SPI
-//------------------------------------------------------------------------------
-// send command and return error code.  Return zero for OK
-uint8_t Sd2Card::cardCommand(uint8_t cmd, uint32_t arg) {
-  // end read if in partialBlockRead mode
-  readEnd();
-
-  // select card
-  chipSelectLow();
-
-  // wait up to 300 ms if busy
-  waitNotBusy(300);
-
-  // send command
-  spiSend(cmd | 0x40);
-
-  // send argument
-  for (int8_t s = 24; s >= 0; s -= 8) spiSend(arg >> s);
-
-  // send CRC
-  uint8_t crc = 0XFF;
-  if (cmd == CMD0) crc = 0X95;  // correct crc for CMD0 with arg 0
-  if (cmd == CMD8) crc = 0X87;  // correct crc for CMD8 with arg 0X1AA
-  spiSend(crc);
-
-  // wait for response
-  for (uint8_t i = 0; ((status_ = spiRec()) & 0X80) && i != 0XFF; i++);
-  return status_;
-}
-//------------------------------------------------------------------------------
-/**
- * Determine the size of an SD flash memory card.
- *
- * \return The number of 512 byte data blocks in the card
- *         or zero if an error occurs.
- */
-uint32_t Sd2Card::cardSize(void) {
-  csd_t csd;
-  if (!readCSD(&csd)) return 0;
-  if (csd.v1.csd_ver == 0) {
-    uint8_t read_bl_len = csd.v1.read_bl_len;
-    uint16_t c_size = (csd.v1.c_size_high << 10)
-                      | (csd.v1.c_size_mid << 2) | csd.v1.c_size_low;
-    uint8_t c_size_mult = (csd.v1.c_size_mult_high << 1)
-                          | csd.v1.c_size_mult_low;
-    return (uint32_t)(c_size + 1) << (c_size_mult + read_bl_len - 7);
-  } else if (csd.v2.csd_ver == 1) {
-    uint32_t c_size = ((uint32_t)csd.v2.c_size_high << 16)
-                      | (csd.v2.c_size_mid << 8) | csd.v2.c_size_low;
-    return (c_size + 1) << 10;
-  } else {
-    error(SD_CARD_ERROR_BAD_CSD);
-    return 0;
-  }
-}
-//------------------------------------------------------------------------------
-void Sd2Card::chipSelectHigh(void) {
-  digitalWrite(chipSelectPin_, HIGH);
-}
-//------------------------------------------------------------------------------
-void Sd2Card::chipSelectLow(void) {
-  digitalWrite(chipSelectPin_, LOW);
-}
-//------------------------------------------------------------------------------
-/** Erase a range of blocks.
- *
- * \param[in] firstBlock The address of the first block in the range.
- * \param[in] lastBlock The address of the last block in the range.
- *
- * \note This function requests the SD card to do a flash erase for a
- * range of blocks.  The data on the card after an erase operation is
- * either 0 or 1, depends on the card vendor.  The card must support
- * single block erase.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::erase(uint32_t firstBlock, uint32_t lastBlock) {
-  if (!eraseSingleBlockEnable()) {
-    error(SD_CARD_ERROR_ERASE_SINGLE_BLOCK);
-    goto fail;
-  }
-  if (type_ != SD_CARD_TYPE_SDHC) {
-    firstBlock <<= 9;
-    lastBlock <<= 9;
-  }
-  if (cardCommand(CMD32, firstBlock)
-    || cardCommand(CMD33, lastBlock)
-    || cardCommand(CMD38, 0)) {
-      error(SD_CARD_ERROR_ERASE);
-      goto fail;
-  }
-  if (!waitNotBusy(SD_ERASE_TIMEOUT)) {
-    error(SD_CARD_ERROR_ERASE_TIMEOUT);
-    goto fail;
-  }
-  chipSelectHigh();
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/** Determine if card supports single block erase.
- *
- * \return The value one, true, is returned if single block erase is supported.
- * The value zero, false, is returned if single block erase is not supported.
- */
-uint8_t Sd2Card::eraseSingleBlockEnable(void) {
-  csd_t csd;
-  return readCSD(&csd) ? csd.v1.erase_blk_en : 0;
-}
-//------------------------------------------------------------------------------
-/**
- * Initialize an SD flash memory card.
- *
- * \param[in] sckRateID SPI clock rate selector. See setSckRate().
- * \param[in] chipSelectPin SD chip select pin number.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.  The reason for failure
- * can be determined by calling errorCode() and errorData().
- */
-uint8_t Sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin) {
-  errorCode_ = inBlock_ = partialBlockRead_ = type_ = 0;
-  chipSelectPin_ = chipSelectPin;
-  // 16-bit init start time allows over a minute
-  uint16_t t0 = (uint16_t)millis();
-  uint32_t arg;
-
-  // set pin modes
-  pinMode(chipSelectPin_, OUTPUT);
-  chipSelectHigh();
-  pinMode(SPI_MISO_PIN, INPUT);
-  pinMode(SPI_MOSI_PIN, OUTPUT);
-  pinMode(SPI_SCK_PIN, OUTPUT);
-
-#ifndef SOFTWARE_SPI
-  // SS must be in output mode even it is not chip select
-  pinMode(SS_PIN, OUTPUT);
-  // Enable SPI, Master, clock rate f_osc/128
-  SPCR = (1 << SPE) | (1 << MSTR) | (1 << SPR1) | (1 << SPR0);
-  // clear double speed
-  SPSR &= ~(1 << SPI2X);
-#endif  // SOFTWARE_SPI
-
-  // must supply min of 74 clock cycles with CS high.
-  for (uint8_t i = 0; i < 10; i++) spiSend(0XFF);
-
-  chipSelectLow();
-
-  // command to go idle in SPI mode
-  while ((status_ = cardCommand(CMD0, 0)) != R1_IDLE_STATE) {
-    if (((uint16_t)millis() - t0) > SD_INIT_TIMEOUT) {
-      error(SD_CARD_ERROR_CMD0);
-      goto fail;
-    }
-  }
-  // check SD version
-  if ((cardCommand(CMD8, 0x1AA) & R1_ILLEGAL_COMMAND)) {
-    type(SD_CARD_TYPE_SD1);
-  } else {
-    // only need last byte of r7 response
-    for (uint8_t i = 0; i < 4; i++) status_ = spiRec();
-    if (status_ != 0XAA) {
-      error(SD_CARD_ERROR_CMD8);
-      goto fail;
-    }
-    type(SD_CARD_TYPE_SD2);
-  }
-  // initialize card and send host supports SDHC if SD2
-  arg = type() == SD_CARD_TYPE_SD2 ? 0X40000000 : 0;
-
-  while ((status_ = cardAcmd(ACMD41, arg)) != R1_READY_STATE) {
-    // check for timeout
-    if (((uint16_t)millis() - t0) > SD_INIT_TIMEOUT) {
-      error(SD_CARD_ERROR_ACMD41);
-      goto fail;
-    }
-  }
-  // if SD2 read OCR register to check for SDHC card
-  if (type() == SD_CARD_TYPE_SD2) {
-    if (cardCommand(CMD58, 0)) {
-      error(SD_CARD_ERROR_CMD58);
-      goto fail;
-    }
-    if ((spiRec() & 0XC0) == 0XC0) type(SD_CARD_TYPE_SDHC);
-    // discard rest of ocr - contains allowed voltage range
-    for (uint8_t i = 0; i < 3; i++) spiRec();
-  }
-  chipSelectHigh();
-
-#ifndef SOFTWARE_SPI
-  return setSckRate(sckRateID);
-#else  // SOFTWARE_SPI
-  return true;
-#endif  // SOFTWARE_SPI
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/**
- * Enable or disable partial block reads.
- *
- * Enabling partial block reads improves performance by allowing a block
- * to be read over the SPI bus as several sub-blocks.  Errors may occur
- * if the time between reads is too long since the SD card may timeout.
- * The SPI SS line will be held low until the entire block is read or
- * readEnd() is called.
- *
- * Use this for applications like the Adafruit Wave Shield.
- *
- * \param[in] value The value TRUE (non-zero) or FALSE (zero).)
- */
-void Sd2Card::partialBlockRead(uint8_t value) {
-  readEnd();
-  partialBlockRead_ = value;
-}
-//------------------------------------------------------------------------------
-/**
- * Read a 512 byte block from an SD card device.
- *
- * \param[in] block Logical block to be read.
- * \param[out] dst Pointer to the location that will receive the data.
-
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::readBlock(uint32_t block, uint8_t* dst) {
-  return readData(block, 0, 512, dst);
-}
-//------------------------------------------------------------------------------
-/**
- * Read part of a 512 byte block from an SD card.
- *
- * \param[in] block Logical block to be read.
- * \param[in] offset Number of bytes to skip at start of block
- * \param[out] dst Pointer to the location that will receive the data.
- * \param[in] count Number of bytes to read
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::readData(uint32_t block,
-        uint16_t offset, uint16_t count, uint8_t* dst) {
-  uint16_t n;
-  if (count == 0) return true;
-  if ((count + offset) > 512) {
-    goto fail;
-  }
-  if (!inBlock_ || block != block_ || offset < offset_) {
-    block_ = block;
-    // use address if not SDHC card
-    if (type()!= SD_CARD_TYPE_SDHC) block <<= 9;
-    if (cardCommand(CMD17, block)) {
-      error(SD_CARD_ERROR_CMD17);
-      goto fail;
-    }
-    if (!waitStartBlock()) {
-      goto fail;
-    }
-    offset_ = 0;
-    inBlock_ = 1;
-  }
-
-#ifdef OPTIMIZE_HARDWARE_SPI
-  // start first spi transfer
-  SPDR = 0XFF;
-
-  // skip data before offset
-  for (;offset_ < offset; offset_++) {
-    while (!(SPSR & (1 << SPIF)));
-    SPDR = 0XFF;
-  }
-  // transfer data
-  n = count - 1;
-  for (uint16_t i = 0; i < n; i++) {
-    while (!(SPSR & (1 << SPIF)));
-    dst[i] = SPDR;
-    SPDR = 0XFF;
-  }
-  // wait for last byte
-  while (!(SPSR & (1 << SPIF)));
-  dst[n] = SPDR;
-
-#else  // OPTIMIZE_HARDWARE_SPI
-
-  // skip data before offset
-  for (;offset_ < offset; offset_++) {
-    spiRec();
-  }
-  // transfer data
-  for (uint16_t i = 0; i < count; i++) {
-    dst[i] = spiRec();
-  }
-#endif  // OPTIMIZE_HARDWARE_SPI
-
-  offset_ += count;
-  if (!partialBlockRead_ || offset_ >= 512) {
-    // read rest of data, checksum and set chip select high
-    readEnd();
-  }
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/** Skip remaining data in a block when in partial block read mode. */
-void Sd2Card::readEnd(void) {
-  if (inBlock_) {
-      // skip data and crc
-#ifdef OPTIMIZE_HARDWARE_SPI
-    // optimize skip for hardware
-    SPDR = 0XFF;
-    while (offset_++ < 513) {
-      while (!(SPSR & (1 << SPIF)));
-      SPDR = 0XFF;
-    }
-    // wait for last crc byte
-    while (!(SPSR & (1 << SPIF)));
-#else  // OPTIMIZE_HARDWARE_SPI
-    while (offset_++ < 514) spiRec();
-#endif  // OPTIMIZE_HARDWARE_SPI
-    chipSelectHigh();
-    inBlock_ = 0;
-  }
-}
-//------------------------------------------------------------------------------
-/** read CID or CSR register */
-uint8_t Sd2Card::readRegister(uint8_t cmd, void* buf) {
-  uint8_t* dst = reinterpret_cast<uint8_t*>(buf);
-  if (cardCommand(cmd, 0)) {
-    error(SD_CARD_ERROR_READ_REG);
-    goto fail;
-  }
-  if (!waitStartBlock()) goto fail;
-  // transfer data
-  for (uint16_t i = 0; i < 16; i++) dst[i] = spiRec();
-  spiRec();  // get first crc byte
-  spiRec();  // get second crc byte
-  chipSelectHigh();
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/**
- * Set the SPI clock rate.
- *
- * \param[in] sckRateID A value in the range [0, 6].
- *
- * The SPI clock will be set to F_CPU/pow(2, 1 + sckRateID). The maximum
- * SPI rate is F_CPU/2 for \a sckRateID = 0 and the minimum rate is F_CPU/128
- * for \a scsRateID = 6.
- *
- * \return The value one, true, is returned for success and the value zero,
- * false, is returned for an invalid value of \a sckRateID.
- */
-uint8_t Sd2Card::setSckRate(uint8_t sckRateID) {
-  if (sckRateID > 6) {
-    error(SD_CARD_ERROR_SCK_RATE);
-    return false;
-  }
-  // see avr processor datasheet for SPI register bit definitions
-  if ((sckRateID & 1) || sckRateID == 6) {
-    SPSR &= ~(1 << SPI2X);
-  } else {
-    SPSR |= (1 << SPI2X);
-  }
-  SPCR &= ~((1 <<SPR1) | (1 << SPR0));
-  SPCR |= (sckRateID & 4 ? (1 << SPR1) : 0)
-    | (sckRateID & 2 ? (1 << SPR0) : 0);
-  return true;
-}
-//------------------------------------------------------------------------------
-// wait for card to go not busy
-uint8_t Sd2Card::waitNotBusy(uint16_t timeoutMillis) {
-  uint16_t t0 = millis();
-  do {
-    if (spiRec() == 0XFF) return true;
-  }
-  while (((uint16_t)millis() - t0) < timeoutMillis);
-  return false;
-}
-//------------------------------------------------------------------------------
-/** Wait for start block token */
-uint8_t Sd2Card::waitStartBlock(void) {
-  uint16_t t0 = millis();
-  while ((status_ = spiRec()) == 0XFF) {
-    if (((uint16_t)millis() - t0) > SD_READ_TIMEOUT) {
-      error(SD_CARD_ERROR_READ_TIMEOUT);
-      goto fail;
-    }
-  }
-  if (status_ != DATA_START_BLOCK) {
-    error(SD_CARD_ERROR_READ);
-    goto fail;
-  }
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/**
- * Writes a 512 byte block to an SD card.
- *
- * \param[in] blockNumber Logical block to be written.
- * \param[in] src Pointer to the location of the data to be written.
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::writeBlock(uint32_t blockNumber, const uint8_t* src) {
-#if SD_PROTECT_BLOCK_ZERO
-  // don't allow write to first block
-  if (blockNumber == 0) {
-    error(SD_CARD_ERROR_WRITE_BLOCK_ZERO);
-    goto fail;
-  }
-#endif  // SD_PROTECT_BLOCK_ZERO
-
-  // use address if not SDHC card
-  if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9;
-  if (cardCommand(CMD24, blockNumber)) {
-    error(SD_CARD_ERROR_CMD24);
-    goto fail;
-  }
-  if (!writeData(DATA_START_BLOCK, src)) goto fail;
-
-  // wait for flash programming to complete
-  if (!waitNotBusy(SD_WRITE_TIMEOUT)) {
-    error(SD_CARD_ERROR_WRITE_TIMEOUT);
-    goto fail;
-  }
-  // response is r2 so get and check two bytes for nonzero
-  if (cardCommand(CMD13, 0) || spiRec()) {
-    error(SD_CARD_ERROR_WRITE_PROGRAMMING);
-    goto fail;
-  }
-  chipSelectHigh();
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/** Write one data block in a multiple block write sequence */
-uint8_t Sd2Card::writeData(const uint8_t* src) {
-  // wait for previous write to finish
-  if (!waitNotBusy(SD_WRITE_TIMEOUT)) {
-    error(SD_CARD_ERROR_WRITE_MULTIPLE);
-    chipSelectHigh();
-    return false;
-  }
-  return writeData(WRITE_MULTIPLE_TOKEN, src);
-}
-//------------------------------------------------------------------------------
-// send one block of data for write block or write multiple blocks
-uint8_t Sd2Card::writeData(uint8_t token, const uint8_t* src) {
-#ifdef OPTIMIZE_HARDWARE_SPI
-
-  // send data - optimized loop
-  SPDR = token;
-
-  // send two byte per iteration
-  for (uint16_t i = 0; i < 512; i += 2) {
-    while (!(SPSR & (1 << SPIF)));
-    SPDR = src[i];
-    while (!(SPSR & (1 << SPIF)));
-    SPDR = src[i+1];
-  }
-
-  // wait for last data byte
-  while (!(SPSR & (1 << SPIF)));
-
-#else  // OPTIMIZE_HARDWARE_SPI
-  spiSend(token);
-  for (uint16_t i = 0; i < 512; i++) {
-    spiSend(src[i]);
-  }
-#endif  // OPTIMIZE_HARDWARE_SPI
-  spiSend(0xff);  // dummy crc
-  spiSend(0xff);  // dummy crc
-
-  status_ = spiRec();
-  if ((status_ & DATA_RES_MASK) != DATA_RES_ACCEPTED) {
-    error(SD_CARD_ERROR_WRITE);
-    chipSelectHigh();
-    return false;
-  }
-  return true;
-}
-//------------------------------------------------------------------------------
-/** Start a write multiple blocks sequence.
- *
- * \param[in] blockNumber Address of first block in sequence.
- * \param[in] eraseCount The number of blocks to be pre-erased.
- *
- * \note This function is used with writeData() and writeStop()
- * for optimized multiple block writes.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::writeStart(uint32_t blockNumber, uint32_t eraseCount) {
-#if SD_PROTECT_BLOCK_ZERO
-  // don't allow write to first block
-  if (blockNumber == 0) {
-    error(SD_CARD_ERROR_WRITE_BLOCK_ZERO);
-    goto fail;
-  }
-#endif  // SD_PROTECT_BLOCK_ZERO
-  // send pre-erase count
-  if (cardAcmd(ACMD23, eraseCount)) {
-    error(SD_CARD_ERROR_ACMD23);
-    goto fail;
-  }
-  // use address if not SDHC card
-  if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9;
-  if (cardCommand(CMD25, blockNumber)) {
-    error(SD_CARD_ERROR_CMD25);
-    goto fail;
-  }
-  return true;
-
- fail:
-  chipSelectHigh();
-  return false;
-}
-//------------------------------------------------------------------------------
-/** End a write multiple blocks sequence.
- *
-* \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t Sd2Card::writeStop(void) {
-  if (!waitNotBusy(SD_WRITE_TIMEOUT)) goto fail;
-  spiSend(STOP_TRAN_TOKEN);
-  if (!waitNotBusy(SD_WRITE_TIMEOUT)) goto fail;
-  chipSelectHigh();
-  return true;
-
- fail:
-  error(SD_CARD_ERROR_STOP_TRAN);
-  chipSelectHigh();
-  return false;
-}
+/* Arduino Sd2Card Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino Sd2Card Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino Sd2Card Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#include <WProgram.h>
+#include "Sd2Card.h"
+//------------------------------------------------------------------------------
+#ifndef SOFTWARE_SPI
+// functions for hardware SPI
+/** Send a byte to the card */
+static void spiSend(uint8_t b) {
+  SPDR = b;
+  while (!(SPSR & (1 << SPIF)));
+}
+/** Receive a byte from the card */
+static  uint8_t spiRec(void) {
+  spiSend(0XFF);
+  return SPDR;
+}
+#else  // SOFTWARE_SPI
+//------------------------------------------------------------------------------
+/** nop to tune soft SPI timing */
+#define nop asm volatile ("nop\n\t")
+//------------------------------------------------------------------------------
+/** Soft SPI receive */
+uint8_t spiRec(void) {
+  uint8_t data = 0;
+  // no interrupts during byte receive - about 8 us
+  cli();
+  // output pin high - like sending 0XFF
+  fastDigitalWrite(SPI_MOSI_PIN, HIGH);
+
+  for (uint8_t i = 0; i < 8; i++) {
+    fastDigitalWrite(SPI_SCK_PIN, HIGH);
+
+    // adjust so SCK is nice
+    nop;
+    nop;
+
+    data <<= 1;
+
+    if (fastDigitalRead(SPI_MISO_PIN)) data |= 1;
+
+    fastDigitalWrite(SPI_SCK_PIN, LOW);
+  }
+  // enable interrupts
+  sei();
+  return data;
+}
+//------------------------------------------------------------------------------
+/** Soft SPI send */
+void spiSend(uint8_t data) {
+  // no interrupts during byte send - about 8 us
+  cli();
+  for (uint8_t i = 0; i < 8; i++) {
+    fastDigitalWrite(SPI_SCK_PIN, LOW);
+
+    fastDigitalWrite(SPI_MOSI_PIN, data & 0X80);
+
+    data <<= 1;
+
+    fastDigitalWrite(SPI_SCK_PIN, HIGH);
+  }
+  // hold SCK high for a few ns
+  nop;
+  nop;
+  nop;
+  nop;
+
+  fastDigitalWrite(SPI_SCK_PIN, LOW);
+  // enable interrupts
+  sei();
+}
+#endif  // SOFTWARE_SPI
+//------------------------------------------------------------------------------
+// send command and return error code.  Return zero for OK
+uint8_t Sd2Card::cardCommand(uint8_t cmd, uint32_t arg) {
+  // end read if in partialBlockRead mode
+  readEnd();
+
+  // select card
+  chipSelectLow();
+
+  // wait up to 300 ms if busy
+  waitNotBusy(300);
+
+  // send command
+  spiSend(cmd | 0x40);
+
+  // send argument
+  for (int8_t s = 24; s >= 0; s -= 8) spiSend(arg >> s);
+
+  // send CRC
+  uint8_t crc = 0XFF;
+  if (cmd == CMD0) crc = 0X95;  // correct crc for CMD0 with arg 0
+  if (cmd == CMD8) crc = 0X87;  // correct crc for CMD8 with arg 0X1AA
+  spiSend(crc);
+
+  // wait for response
+  for (uint8_t i = 0; ((status_ = spiRec()) & 0X80) && i != 0XFF; i++);
+  return status_;
+}
+//------------------------------------------------------------------------------
+/**
+ * Determine the size of an SD flash memory card.
+ *
+ * \return The number of 512 byte data blocks in the card
+ *         or zero if an error occurs.
+ */
+uint32_t Sd2Card::cardSize(void) {
+  csd_t csd;
+  if (!readCSD(&csd)) return 0;
+  if (csd.v1.csd_ver == 0) {
+    uint8_t read_bl_len = csd.v1.read_bl_len;
+    uint16_t c_size = (csd.v1.c_size_high << 10)
+                      | (csd.v1.c_size_mid << 2) | csd.v1.c_size_low;
+    uint8_t c_size_mult = (csd.v1.c_size_mult_high << 1)
+                          | csd.v1.c_size_mult_low;
+    return (uint32_t)(c_size + 1) << (c_size_mult + read_bl_len - 7);
+  } else if (csd.v2.csd_ver == 1) {
+    uint32_t c_size = ((uint32_t)csd.v2.c_size_high << 16)
+                      | (csd.v2.c_size_mid << 8) | csd.v2.c_size_low;
+    return (c_size + 1) << 10;
+  } else {
+    error(SD_CARD_ERROR_BAD_CSD);
+    return 0;
+  }
+}
+//------------------------------------------------------------------------------
+void Sd2Card::chipSelectHigh(void) {
+  digitalWrite(chipSelectPin_, HIGH);
+}
+//------------------------------------------------------------------------------
+void Sd2Card::chipSelectLow(void) {
+  digitalWrite(chipSelectPin_, LOW);
+}
+//------------------------------------------------------------------------------
+/** Erase a range of blocks.
+ *
+ * \param[in] firstBlock The address of the first block in the range.
+ * \param[in] lastBlock The address of the last block in the range.
+ *
+ * \note This function requests the SD card to do a flash erase for a
+ * range of blocks.  The data on the card after an erase operation is
+ * either 0 or 1, depends on the card vendor.  The card must support
+ * single block erase.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::erase(uint32_t firstBlock, uint32_t lastBlock) {
+  if (!eraseSingleBlockEnable()) {
+    error(SD_CARD_ERROR_ERASE_SINGLE_BLOCK);
+    goto fail;
+  }
+  if (type_ != SD_CARD_TYPE_SDHC) {
+    firstBlock <<= 9;
+    lastBlock <<= 9;
+  }
+  if (cardCommand(CMD32, firstBlock)
+    || cardCommand(CMD33, lastBlock)
+    || cardCommand(CMD38, 0)) {
+      error(SD_CARD_ERROR_ERASE);
+      goto fail;
+  }
+  if (!waitNotBusy(SD_ERASE_TIMEOUT)) {
+    error(SD_CARD_ERROR_ERASE_TIMEOUT);
+    goto fail;
+  }
+  chipSelectHigh();
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/** Determine if card supports single block erase.
+ *
+ * \return The value one, true, is returned if single block erase is supported.
+ * The value zero, false, is returned if single block erase is not supported.
+ */
+uint8_t Sd2Card::eraseSingleBlockEnable(void) {
+  csd_t csd;
+  return readCSD(&csd) ? csd.v1.erase_blk_en : 0;
+}
+//------------------------------------------------------------------------------
+/**
+ * Initialize an SD flash memory card.
+ *
+ * \param[in] sckRateID SPI clock rate selector. See setSckRate().
+ * \param[in] chipSelectPin SD chip select pin number.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.  The reason for failure
+ * can be determined by calling errorCode() and errorData().
+ */
+uint8_t Sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin) {
+  errorCode_ = inBlock_ = partialBlockRead_ = type_ = 0;
+  chipSelectPin_ = chipSelectPin;
+  // 16-bit init start time allows over a minute
+  uint16_t t0 = (uint16_t)millis();
+  uint32_t arg;
+
+  // set pin modes
+  pinMode(chipSelectPin_, OUTPUT);
+  chipSelectHigh();
+  pinMode(SPI_MISO_PIN, INPUT);
+  pinMode(SPI_MOSI_PIN, OUTPUT);
+  pinMode(SPI_SCK_PIN, OUTPUT);
+
+#ifndef SOFTWARE_SPI
+  // SS must be in output mode even it is not chip select
+  pinMode(SS_PIN, OUTPUT);
+  // Enable SPI, Master, clock rate f_osc/128
+  SPCR = (1 << SPE) | (1 << MSTR) | (1 << SPR1) | (1 << SPR0);
+  // clear double speed
+  SPSR &= ~(1 << SPI2X);
+#endif  // SOFTWARE_SPI
+
+  // must supply min of 74 clock cycles with CS high.
+  for (uint8_t i = 0; i < 10; i++) spiSend(0XFF);
+
+  chipSelectLow();
+
+  // command to go idle in SPI mode
+  while ((status_ = cardCommand(CMD0, 0)) != R1_IDLE_STATE) {
+    if (((uint16_t)millis() - t0) > SD_INIT_TIMEOUT) {
+      error(SD_CARD_ERROR_CMD0);
+      goto fail;
+    }
+  }
+  // check SD version
+  if ((cardCommand(CMD8, 0x1AA) & R1_ILLEGAL_COMMAND)) {
+    type(SD_CARD_TYPE_SD1);
+  } else {
+    // only need last byte of r7 response
+    for (uint8_t i = 0; i < 4; i++) status_ = spiRec();
+    if (status_ != 0XAA) {
+      error(SD_CARD_ERROR_CMD8);
+      goto fail;
+    }
+    type(SD_CARD_TYPE_SD2);
+  }
+  // initialize card and send host supports SDHC if SD2
+  arg = type() == SD_CARD_TYPE_SD2 ? 0X40000000 : 0;
+
+  while ((status_ = cardAcmd(ACMD41, arg)) != R1_READY_STATE) {
+    // check for timeout
+    if (((uint16_t)millis() - t0) > SD_INIT_TIMEOUT) {
+      error(SD_CARD_ERROR_ACMD41);
+      goto fail;
+    }
+  }
+  // if SD2 read OCR register to check for SDHC card
+  if (type() == SD_CARD_TYPE_SD2) {
+    if (cardCommand(CMD58, 0)) {
+      error(SD_CARD_ERROR_CMD58);
+      goto fail;
+    }
+    if ((spiRec() & 0XC0) == 0XC0) type(SD_CARD_TYPE_SDHC);
+    // discard rest of ocr - contains allowed voltage range
+    for (uint8_t i = 0; i < 3; i++) spiRec();
+  }
+  chipSelectHigh();
+
+#ifndef SOFTWARE_SPI
+  return setSckRate(sckRateID);
+#else  // SOFTWARE_SPI
+  return true;
+#endif  // SOFTWARE_SPI
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/**
+ * Enable or disable partial block reads.
+ *
+ * Enabling partial block reads improves performance by allowing a block
+ * to be read over the SPI bus as several sub-blocks.  Errors may occur
+ * if the time between reads is too long since the SD card may timeout.
+ * The SPI SS line will be held low until the entire block is read or
+ * readEnd() is called.
+ *
+ * Use this for applications like the Adafruit Wave Shield.
+ *
+ * \param[in] value The value TRUE (non-zero) or FALSE (zero).)
+ */
+void Sd2Card::partialBlockRead(uint8_t value) {
+  readEnd();
+  partialBlockRead_ = value;
+}
+//------------------------------------------------------------------------------
+/**
+ * Read a 512 byte block from an SD card device.
+ *
+ * \param[in] block Logical block to be read.
+ * \param[out] dst Pointer to the location that will receive the data.
+
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::readBlock(uint32_t block, uint8_t* dst) {
+  return readData(block, 0, 512, dst);
+}
+//------------------------------------------------------------------------------
+/**
+ * Read part of a 512 byte block from an SD card.
+ *
+ * \param[in] block Logical block to be read.
+ * \param[in] offset Number of bytes to skip at start of block
+ * \param[out] dst Pointer to the location that will receive the data.
+ * \param[in] count Number of bytes to read
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::readData(uint32_t block,
+        uint16_t offset, uint16_t count, uint8_t* dst) {
+  uint16_t n;
+  if (count == 0) return true;
+  if ((count + offset) > 512) {
+    goto fail;
+  }
+  if (!inBlock_ || block != block_ || offset < offset_) {
+    block_ = block;
+    // use address if not SDHC card
+    if (type()!= SD_CARD_TYPE_SDHC) block <<= 9;
+    if (cardCommand(CMD17, block)) {
+      error(SD_CARD_ERROR_CMD17);
+      goto fail;
+    }
+    if (!waitStartBlock()) {
+      goto fail;
+    }
+    offset_ = 0;
+    inBlock_ = 1;
+  }
+
+#ifdef OPTIMIZE_HARDWARE_SPI
+  // start first spi transfer
+  SPDR = 0XFF;
+
+  // skip data before offset
+  for (;offset_ < offset; offset_++) {
+    while (!(SPSR & (1 << SPIF)));
+    SPDR = 0XFF;
+  }
+  // transfer data
+  n = count - 1;
+  for (uint16_t i = 0; i < n; i++) {
+    while (!(SPSR & (1 << SPIF)));
+    dst[i] = SPDR;
+    SPDR = 0XFF;
+  }
+  // wait for last byte
+  while (!(SPSR & (1 << SPIF)));
+  dst[n] = SPDR;
+
+#else  // OPTIMIZE_HARDWARE_SPI
+
+  // skip data before offset
+  for (;offset_ < offset; offset_++) {
+    spiRec();
+  }
+  // transfer data
+  for (uint16_t i = 0; i < count; i++) {
+    dst[i] = spiRec();
+  }
+#endif  // OPTIMIZE_HARDWARE_SPI
+
+  offset_ += count;
+  if (!partialBlockRead_ || offset_ >= 512) {
+    // read rest of data, checksum and set chip select high
+    readEnd();
+  }
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/** Skip remaining data in a block when in partial block read mode. */
+void Sd2Card::readEnd(void) {
+  if (inBlock_) {
+      // skip data and crc
+#ifdef OPTIMIZE_HARDWARE_SPI
+    // optimize skip for hardware
+    SPDR = 0XFF;
+    while (offset_++ < 513) {
+      while (!(SPSR & (1 << SPIF)));
+      SPDR = 0XFF;
+    }
+    // wait for last crc byte
+    while (!(SPSR & (1 << SPIF)));
+#else  // OPTIMIZE_HARDWARE_SPI
+    while (offset_++ < 514) spiRec();
+#endif  // OPTIMIZE_HARDWARE_SPI
+    chipSelectHigh();
+    inBlock_ = 0;
+  }
+}
+//------------------------------------------------------------------------------
+/** read CID or CSR register */
+uint8_t Sd2Card::readRegister(uint8_t cmd, void* buf) {
+  uint8_t* dst = reinterpret_cast<uint8_t*>(buf);
+  if (cardCommand(cmd, 0)) {
+    error(SD_CARD_ERROR_READ_REG);
+    goto fail;
+  }
+  if (!waitStartBlock()) goto fail;
+  // transfer data
+  for (uint16_t i = 0; i < 16; i++) dst[i] = spiRec();
+  spiRec();  // get first crc byte
+  spiRec();  // get second crc byte
+  chipSelectHigh();
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/**
+ * Set the SPI clock rate.
+ *
+ * \param[in] sckRateID A value in the range [0, 6].
+ *
+ * The SPI clock will be set to F_CPU/pow(2, 1 + sckRateID). The maximum
+ * SPI rate is F_CPU/2 for \a sckRateID = 0 and the minimum rate is F_CPU/128
+ * for \a scsRateID = 6.
+ *
+ * \return The value one, true, is returned for success and the value zero,
+ * false, is returned for an invalid value of \a sckRateID.
+ */
+uint8_t Sd2Card::setSckRate(uint8_t sckRateID) {
+  if (sckRateID > 6) {
+    error(SD_CARD_ERROR_SCK_RATE);
+    return false;
+  }
+  // see avr processor datasheet for SPI register bit definitions
+  if ((sckRateID & 1) || sckRateID == 6) {
+    SPSR &= ~(1 << SPI2X);
+  } else {
+    SPSR |= (1 << SPI2X);
+  }
+  SPCR &= ~((1 <<SPR1) | (1 << SPR0));
+  SPCR |= (sckRateID & 4 ? (1 << SPR1) : 0)
+    | (sckRateID & 2 ? (1 << SPR0) : 0);
+  return true;
+}
+//------------------------------------------------------------------------------
+// wait for card to go not busy
+uint8_t Sd2Card::waitNotBusy(uint16_t timeoutMillis) {
+  uint16_t t0 = millis();
+  do {
+    if (spiRec() == 0XFF) return true;
+  }
+  while (((uint16_t)millis() - t0) < timeoutMillis);
+  return false;
+}
+//------------------------------------------------------------------------------
+/** Wait for start block token */
+uint8_t Sd2Card::waitStartBlock(void) {
+  uint16_t t0 = millis();
+  while ((status_ = spiRec()) == 0XFF) {
+    if (((uint16_t)millis() - t0) > SD_READ_TIMEOUT) {
+      error(SD_CARD_ERROR_READ_TIMEOUT);
+      goto fail;
+    }
+  }
+  if (status_ != DATA_START_BLOCK) {
+    error(SD_CARD_ERROR_READ);
+    goto fail;
+  }
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/**
+ * Writes a 512 byte block to an SD card.
+ *
+ * \param[in] blockNumber Logical block to be written.
+ * \param[in] src Pointer to the location of the data to be written.
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::writeBlock(uint32_t blockNumber, const uint8_t* src) {
+#if SD_PROTECT_BLOCK_ZERO
+  // don't allow write to first block
+  if (blockNumber == 0) {
+    error(SD_CARD_ERROR_WRITE_BLOCK_ZERO);
+    goto fail;
+  }
+#endif  // SD_PROTECT_BLOCK_ZERO
+
+  // use address if not SDHC card
+  if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9;
+  if (cardCommand(CMD24, blockNumber)) {
+    error(SD_CARD_ERROR_CMD24);
+    goto fail;
+  }
+  if (!writeData(DATA_START_BLOCK, src)) goto fail;
+
+  // wait for flash programming to complete
+  if (!waitNotBusy(SD_WRITE_TIMEOUT)) {
+    error(SD_CARD_ERROR_WRITE_TIMEOUT);
+    goto fail;
+  }
+  // response is r2 so get and check two bytes for nonzero
+  if (cardCommand(CMD13, 0) || spiRec()) {
+    error(SD_CARD_ERROR_WRITE_PROGRAMMING);
+    goto fail;
+  }
+  chipSelectHigh();
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/** Write one data block in a multiple block write sequence */
+uint8_t Sd2Card::writeData(const uint8_t* src) {
+  // wait for previous write to finish
+  if (!waitNotBusy(SD_WRITE_TIMEOUT)) {
+    error(SD_CARD_ERROR_WRITE_MULTIPLE);
+    chipSelectHigh();
+    return false;
+  }
+  return writeData(WRITE_MULTIPLE_TOKEN, src);
+}
+//------------------------------------------------------------------------------
+// send one block of data for write block or write multiple blocks
+uint8_t Sd2Card::writeData(uint8_t token, const uint8_t* src) {
+#ifdef OPTIMIZE_HARDWARE_SPI
+
+  // send data - optimized loop
+  SPDR = token;
+
+  // send two byte per iteration
+  for (uint16_t i = 0; i < 512; i += 2) {
+    while (!(SPSR & (1 << SPIF)));
+    SPDR = src[i];
+    while (!(SPSR & (1 << SPIF)));
+    SPDR = src[i+1];
+  }
+
+  // wait for last data byte
+  while (!(SPSR & (1 << SPIF)));
+
+#else  // OPTIMIZE_HARDWARE_SPI
+  spiSend(token);
+  for (uint16_t i = 0; i < 512; i++) {
+    spiSend(src[i]);
+  }
+#endif  // OPTIMIZE_HARDWARE_SPI
+  spiSend(0xff);  // dummy crc
+  spiSend(0xff);  // dummy crc
+
+  status_ = spiRec();
+  if ((status_ & DATA_RES_MASK) != DATA_RES_ACCEPTED) {
+    error(SD_CARD_ERROR_WRITE);
+    chipSelectHigh();
+    return false;
+  }
+  return true;
+}
+//------------------------------------------------------------------------------
+/** Start a write multiple blocks sequence.
+ *
+ * \param[in] blockNumber Address of first block in sequence.
+ * \param[in] eraseCount The number of blocks to be pre-erased.
+ *
+ * \note This function is used with writeData() and writeStop()
+ * for optimized multiple block writes.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::writeStart(uint32_t blockNumber, uint32_t eraseCount) {
+#if SD_PROTECT_BLOCK_ZERO
+  // don't allow write to first block
+  if (blockNumber == 0) {
+    error(SD_CARD_ERROR_WRITE_BLOCK_ZERO);
+    goto fail;
+  }
+#endif  // SD_PROTECT_BLOCK_ZERO
+  // send pre-erase count
+  if (cardAcmd(ACMD23, eraseCount)) {
+    error(SD_CARD_ERROR_ACMD23);
+    goto fail;
+  }
+  // use address if not SDHC card
+  if (type() != SD_CARD_TYPE_SDHC) blockNumber <<= 9;
+  if (cardCommand(CMD25, blockNumber)) {
+    error(SD_CARD_ERROR_CMD25);
+    goto fail;
+  }
+  return true;
+
+ fail:
+  chipSelectHigh();
+  return false;
+}
+//------------------------------------------------------------------------------
+/** End a write multiple blocks sequence.
+ *
+* \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t Sd2Card::writeStop(void) {
+  if (!waitNotBusy(SD_WRITE_TIMEOUT)) goto fail;
+  spiSend(STOP_TRAN_TOKEN);
+  if (!waitNotBusy(SD_WRITE_TIMEOUT)) goto fail;
+  chipSelectHigh();
+  return true;
+
+ fail:
+  error(SD_CARD_ERROR_STOP_TRAN);
+  chipSelectHigh();
+  return false;
+}
diff --git a/Marlin/Sd2Card.h b/Marlin/Sd2Card.h
index 9160c3d7a..73b46fb44 100644
--- a/Marlin/Sd2Card.h
+++ b/Marlin/Sd2Card.h
@@ -1,233 +1,233 @@
-/* Arduino Sd2Card Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino Sd2Card Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino Sd2Card Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#ifndef Sd2Card_h
-#define Sd2Card_h
-/**
- * \file
- * Sd2Card class
- */
-#include "Sd2PinMap.h"
-#include "SdInfo.h"
-/** Set SCK to max rate of F_CPU/2. See Sd2Card::setSckRate(). */
-uint8_t const SPI_FULL_SPEED = 0;
-/** Set SCK rate to F_CPU/4. See Sd2Card::setSckRate(). */
-uint8_t const SPI_HALF_SPEED = 1;
-/** Set SCK rate to F_CPU/8. Sd2Card::setSckRate(). */
-uint8_t const SPI_QUARTER_SPEED = 2;
-/**
- * Define MEGA_SOFT_SPI non-zero to use software SPI on Mega Arduinos.
- * Pins used are SS 10, MOSI 11, MISO 12, and SCK 13.
- *
- * MEGA_SOFT_SPI allows an unmodified Adafruit GPS Shield to be used
- * on Mega Arduinos.  Software SPI works well with GPS Shield V1.1
- * but many SD cards will fail with GPS Shield V1.0.
- */
-#define MEGA_SOFT_SPI 0
-//------------------------------------------------------------------------------
-#if MEGA_SOFT_SPI && (defined(__AVR_ATmega1280__)||defined(__AVR_ATmega2560__))
-#define SOFTWARE_SPI
-#endif  // MEGA_SOFT_SPI
-//------------------------------------------------------------------------------
-// SPI pin definitions
-//
-#ifndef SOFTWARE_SPI
-// hardware pin defs
-/**
- * SD Chip Select pin
- *
- * Warning if this pin is redefined the hardware SS will pin will be enabled
- * as an output by init().  An avr processor will not function as an SPI
- * master unless SS is set to output mode.
- */
-/** The default chip select pin for the SD card is SS. */
-uint8_t const  SD_CHIP_SELECT_PIN = SS_PIN;
-// The following three pins must not be redefined for hardware SPI.
-/** SPI Master Out Slave In pin */
-uint8_t const  SPI_MOSI_PIN = MOSI_PIN;
-/** SPI Master In Slave Out pin */
-uint8_t const  SPI_MISO_PIN = MISO_PIN;
-/** SPI Clock pin */
-uint8_t const  SPI_SCK_PIN = SCK_PIN;
-/** optimize loops for hardware SPI */
-#define OPTIMIZE_HARDWARE_SPI
-
-#else  // SOFTWARE_SPI
-// define software SPI pins so Mega can use unmodified GPS Shield
-/** SPI chip select pin */
-uint8_t const SD_CHIP_SELECT_PIN = 10;
-/** SPI Master Out Slave In pin */
-uint8_t const SPI_MOSI_PIN = 11;
-/** SPI Master In Slave Out pin */
-uint8_t const SPI_MISO_PIN = 12;
-/** SPI Clock pin */
-uint8_t const SPI_SCK_PIN = 13;
-#endif  // SOFTWARE_SPI
-//------------------------------------------------------------------------------
-/** Protect block zero from write if nonzero */
-#define SD_PROTECT_BLOCK_ZERO 1
-/** init timeout ms */
-uint16_t const SD_INIT_TIMEOUT = 2000;
-/** erase timeout ms */
-uint16_t const SD_ERASE_TIMEOUT = 10000;
-/** read timeout ms */
-uint16_t const SD_READ_TIMEOUT = 300;
-/** write time out ms */
-uint16_t const SD_WRITE_TIMEOUT = 600;
-//------------------------------------------------------------------------------
-// SD card errors
-/** timeout error for command CMD0 */
-uint8_t const SD_CARD_ERROR_CMD0 = 0X1;
-/** CMD8 was not accepted - not a valid SD card*/
-uint8_t const SD_CARD_ERROR_CMD8 = 0X2;
-/** card returned an error response for CMD17 (read block) */
-uint8_t const SD_CARD_ERROR_CMD17 = 0X3;
-/** card returned an error response for CMD24 (write block) */
-uint8_t const SD_CARD_ERROR_CMD24 = 0X4;
-/**  WRITE_MULTIPLE_BLOCKS command failed */
-uint8_t const SD_CARD_ERROR_CMD25 = 0X05;
-/** card returned an error response for CMD58 (read OCR) */
-uint8_t const SD_CARD_ERROR_CMD58 = 0X06;
-/** SET_WR_BLK_ERASE_COUNT failed */
-uint8_t const SD_CARD_ERROR_ACMD23 = 0X07;
-/** card's ACMD41 initialization process timeout */
-uint8_t const SD_CARD_ERROR_ACMD41 = 0X08;
-/** card returned a bad CSR version field */
-uint8_t const SD_CARD_ERROR_BAD_CSD = 0X09;
-/** erase block group command failed */
-uint8_t const SD_CARD_ERROR_ERASE = 0X0A;
-/** card not capable of single block erase */
-uint8_t const SD_CARD_ERROR_ERASE_SINGLE_BLOCK = 0X0B;
-/** Erase sequence timed out */
-uint8_t const SD_CARD_ERROR_ERASE_TIMEOUT = 0X0C;
-/** card returned an error token instead of read data */
-uint8_t const SD_CARD_ERROR_READ = 0X0D;
-/** read CID or CSD failed */
-uint8_t const SD_CARD_ERROR_READ_REG = 0X0E;
-/** timeout while waiting for start of read data */
-uint8_t const SD_CARD_ERROR_READ_TIMEOUT = 0X0F;
-/** card did not accept STOP_TRAN_TOKEN */
-uint8_t const SD_CARD_ERROR_STOP_TRAN = 0X10;
-/** card returned an error token as a response to a write operation */
-uint8_t const SD_CARD_ERROR_WRITE = 0X11;
-/** attempt to write protected block zero */
-uint8_t const SD_CARD_ERROR_WRITE_BLOCK_ZERO = 0X12;
-/** card did not go ready for a multiple block write */
-uint8_t const SD_CARD_ERROR_WRITE_MULTIPLE = 0X13;
-/** card returned an error to a CMD13 status check after a write */
-uint8_t const SD_CARD_ERROR_WRITE_PROGRAMMING = 0X14;
-/** timeout occurred during write programming */
-uint8_t const SD_CARD_ERROR_WRITE_TIMEOUT = 0X15;
-/** incorrect rate selected */
-uint8_t const SD_CARD_ERROR_SCK_RATE = 0X16;
-//------------------------------------------------------------------------------
-// card types
-/** Standard capacity V1 SD card */
-uint8_t const SD_CARD_TYPE_SD1 = 1;
-/** Standard capacity V2 SD card */
-uint8_t const SD_CARD_TYPE_SD2 = 2;
-/** High Capacity SD card */
-uint8_t const SD_CARD_TYPE_SDHC = 3;
-//------------------------------------------------------------------------------
-/**
- * \class Sd2Card
- * \brief Raw access to SD and SDHC flash memory cards.
- */
-class Sd2Card {
- public:
-  /** Construct an instance of Sd2Card. */
-  Sd2Card(void) : errorCode_(0), inBlock_(0), partialBlockRead_(0), type_(0) {}
-  uint32_t cardSize(void);
-  uint8_t erase(uint32_t firstBlock, uint32_t lastBlock);
-  uint8_t eraseSingleBlockEnable(void);
-  /**
-   * \return error code for last error. See Sd2Card.h for a list of error codes.
-   */
-  uint8_t errorCode(void) const {return errorCode_;}
-  /** \return error data for last error. */
-  uint8_t errorData(void) const {return status_;}
-  /**
-   * Initialize an SD flash memory card with default clock rate and chip
-   * select pin.  See sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin).
-   */
-  uint8_t init(void) {
-    return init(SPI_FULL_SPEED, SD_CHIP_SELECT_PIN);
-  }
-  /**
-   * Initialize an SD flash memory card with the selected SPI clock rate
-   * and the default SD chip select pin.
-   * See sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin).
-   */
-  uint8_t init(uint8_t sckRateID) {
-    return init(sckRateID, SD_CHIP_SELECT_PIN);
-  }
-  uint8_t init(uint8_t sckRateID, uint8_t chipSelectPin);
-  void partialBlockRead(uint8_t value);
-  /** Returns the current value, true or false, for partial block read. */
-  uint8_t partialBlockRead(void) const {return partialBlockRead_;}
-  uint8_t readBlock(uint32_t block, uint8_t* dst);
-  uint8_t readData(uint32_t block,
-          uint16_t offset, uint16_t count, uint8_t* dst);
-  /**
-   * Read a cards CID register. The CID contains card identification
-   * information such as Manufacturer ID, Product name, Product serial
-   * number and Manufacturing date. */
-  uint8_t readCID(cid_t* cid) {
-    return readRegister(CMD10, cid);
-  }
-  /**
-   * Read a cards CSD register. The CSD contains Card-Specific Data that
-   * provides information regarding access to the card's contents. */
-  uint8_t readCSD(csd_t* csd) {
-    return readRegister(CMD9, csd);
-  }
-  void readEnd(void);
-  uint8_t setSckRate(uint8_t sckRateID);
-  /** Return the card type: SD V1, SD V2 or SDHC */
-  uint8_t type(void) const {return type_;}
-  uint8_t writeBlock(uint32_t blockNumber, const uint8_t* src);
-  uint8_t writeData(const uint8_t* src);
-  uint8_t writeStart(uint32_t blockNumber, uint32_t eraseCount);
-  uint8_t writeStop(void);
- private:
-  uint32_t block_;
-  uint8_t chipSelectPin_;
-  uint8_t errorCode_;
-  uint8_t inBlock_;
-  uint16_t offset_;
-  uint8_t partialBlockRead_;
-  uint8_t status_;
-  uint8_t type_;
-  // private functions
-  uint8_t cardAcmd(uint8_t cmd, uint32_t arg) {
-    cardCommand(CMD55, 0);
-    return cardCommand(cmd, arg);
-  }
-  uint8_t cardCommand(uint8_t cmd, uint32_t arg);
-  void error(uint8_t code) {errorCode_ = code;}
-  uint8_t readRegister(uint8_t cmd, void* buf);
-  uint8_t sendWriteCommand(uint32_t blockNumber, uint32_t eraseCount);
-  void chipSelectHigh(void);
-  void chipSelectLow(void);
-  void type(uint8_t value) {type_ = value;}
-  uint8_t waitNotBusy(uint16_t timeoutMillis);
-  uint8_t writeData(uint8_t token, const uint8_t* src);
-  uint8_t waitStartBlock(void);
-};
-#endif  // Sd2Card_h
+/* Arduino Sd2Card Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino Sd2Card Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino Sd2Card Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#ifndef Sd2Card_h
+#define Sd2Card_h
+/**
+ * \file
+ * Sd2Card class
+ */
+#include "Sd2PinMap.h"
+#include "SdInfo.h"
+/** Set SCK to max rate of F_CPU/2. See Sd2Card::setSckRate(). */
+uint8_t const SPI_FULL_SPEED = 0;
+/** Set SCK rate to F_CPU/4. See Sd2Card::setSckRate(). */
+uint8_t const SPI_HALF_SPEED = 1;
+/** Set SCK rate to F_CPU/8. Sd2Card::setSckRate(). */
+uint8_t const SPI_QUARTER_SPEED = 2;
+/**
+ * Define MEGA_SOFT_SPI non-zero to use software SPI on Mega Arduinos.
+ * Pins used are SS 10, MOSI 11, MISO 12, and SCK 13.
+ *
+ * MEGA_SOFT_SPI allows an unmodified Adafruit GPS Shield to be used
+ * on Mega Arduinos.  Software SPI works well with GPS Shield V1.1
+ * but many SD cards will fail with GPS Shield V1.0.
+ */
+#define MEGA_SOFT_SPI 0
+//------------------------------------------------------------------------------
+#if MEGA_SOFT_SPI && (defined(__AVR_ATmega1280__)||defined(__AVR_ATmega2560__))
+#define SOFTWARE_SPI
+#endif  // MEGA_SOFT_SPI
+//------------------------------------------------------------------------------
+// SPI pin definitions
+//
+#ifndef SOFTWARE_SPI
+// hardware pin defs
+/**
+ * SD Chip Select pin
+ *
+ * Warning if this pin is redefined the hardware SS will pin will be enabled
+ * as an output by init().  An avr processor will not function as an SPI
+ * master unless SS is set to output mode.
+ */
+/** The default chip select pin for the SD card is SS. */
+uint8_t const  SD_CHIP_SELECT_PIN = SS_PIN;
+// The following three pins must not be redefined for hardware SPI.
+/** SPI Master Out Slave In pin */
+uint8_t const  SPI_MOSI_PIN = MOSI_PIN;
+/** SPI Master In Slave Out pin */
+uint8_t const  SPI_MISO_PIN = MISO_PIN;
+/** SPI Clock pin */
+uint8_t const  SPI_SCK_PIN = SCK_PIN;
+/** optimize loops for hardware SPI */
+#define OPTIMIZE_HARDWARE_SPI
+
+#else  // SOFTWARE_SPI
+// define software SPI pins so Mega can use unmodified GPS Shield
+/** SPI chip select pin */
+uint8_t const SD_CHIP_SELECT_PIN = 10;
+/** SPI Master Out Slave In pin */
+uint8_t const SPI_MOSI_PIN = 11;
+/** SPI Master In Slave Out pin */
+uint8_t const SPI_MISO_PIN = 12;
+/** SPI Clock pin */
+uint8_t const SPI_SCK_PIN = 13;
+#endif  // SOFTWARE_SPI
+//------------------------------------------------------------------------------
+/** Protect block zero from write if nonzero */
+#define SD_PROTECT_BLOCK_ZERO 1
+/** init timeout ms */
+uint16_t const SD_INIT_TIMEOUT = 2000;
+/** erase timeout ms */
+uint16_t const SD_ERASE_TIMEOUT = 10000;
+/** read timeout ms */
+uint16_t const SD_READ_TIMEOUT = 300;
+/** write time out ms */
+uint16_t const SD_WRITE_TIMEOUT = 600;
+//------------------------------------------------------------------------------
+// SD card errors
+/** timeout error for command CMD0 */
+uint8_t const SD_CARD_ERROR_CMD0 = 0X1;
+/** CMD8 was not accepted - not a valid SD card*/
+uint8_t const SD_CARD_ERROR_CMD8 = 0X2;
+/** card returned an error response for CMD17 (read block) */
+uint8_t const SD_CARD_ERROR_CMD17 = 0X3;
+/** card returned an error response for CMD24 (write block) */
+uint8_t const SD_CARD_ERROR_CMD24 = 0X4;
+/**  WRITE_MULTIPLE_BLOCKS command failed */
+uint8_t const SD_CARD_ERROR_CMD25 = 0X05;
+/** card returned an error response for CMD58 (read OCR) */
+uint8_t const SD_CARD_ERROR_CMD58 = 0X06;
+/** SET_WR_BLK_ERASE_COUNT failed */
+uint8_t const SD_CARD_ERROR_ACMD23 = 0X07;
+/** card's ACMD41 initialization process timeout */
+uint8_t const SD_CARD_ERROR_ACMD41 = 0X08;
+/** card returned a bad CSR version field */
+uint8_t const SD_CARD_ERROR_BAD_CSD = 0X09;
+/** erase block group command failed */
+uint8_t const SD_CARD_ERROR_ERASE = 0X0A;
+/** card not capable of single block erase */
+uint8_t const SD_CARD_ERROR_ERASE_SINGLE_BLOCK = 0X0B;
+/** Erase sequence timed out */
+uint8_t const SD_CARD_ERROR_ERASE_TIMEOUT = 0X0C;
+/** card returned an error token instead of read data */
+uint8_t const SD_CARD_ERROR_READ = 0X0D;
+/** read CID or CSD failed */
+uint8_t const SD_CARD_ERROR_READ_REG = 0X0E;
+/** timeout while waiting for start of read data */
+uint8_t const SD_CARD_ERROR_READ_TIMEOUT = 0X0F;
+/** card did not accept STOP_TRAN_TOKEN */
+uint8_t const SD_CARD_ERROR_STOP_TRAN = 0X10;
+/** card returned an error token as a response to a write operation */
+uint8_t const SD_CARD_ERROR_WRITE = 0X11;
+/** attempt to write protected block zero */
+uint8_t const SD_CARD_ERROR_WRITE_BLOCK_ZERO = 0X12;
+/** card did not go ready for a multiple block write */
+uint8_t const SD_CARD_ERROR_WRITE_MULTIPLE = 0X13;
+/** card returned an error to a CMD13 status check after a write */
+uint8_t const SD_CARD_ERROR_WRITE_PROGRAMMING = 0X14;
+/** timeout occurred during write programming */
+uint8_t const SD_CARD_ERROR_WRITE_TIMEOUT = 0X15;
+/** incorrect rate selected */
+uint8_t const SD_CARD_ERROR_SCK_RATE = 0X16;
+//------------------------------------------------------------------------------
+// card types
+/** Standard capacity V1 SD card */
+uint8_t const SD_CARD_TYPE_SD1 = 1;
+/** Standard capacity V2 SD card */
+uint8_t const SD_CARD_TYPE_SD2 = 2;
+/** High Capacity SD card */
+uint8_t const SD_CARD_TYPE_SDHC = 3;
+//------------------------------------------------------------------------------
+/**
+ * \class Sd2Card
+ * \brief Raw access to SD and SDHC flash memory cards.
+ */
+class Sd2Card {
+ public:
+  /** Construct an instance of Sd2Card. */
+  Sd2Card(void) : errorCode_(0), inBlock_(0), partialBlockRead_(0), type_(0) {}
+  uint32_t cardSize(void);
+  uint8_t erase(uint32_t firstBlock, uint32_t lastBlock);
+  uint8_t eraseSingleBlockEnable(void);
+  /**
+   * \return error code for last error. See Sd2Card.h for a list of error codes.
+   */
+  uint8_t errorCode(void) const {return errorCode_;}
+  /** \return error data for last error. */
+  uint8_t errorData(void) const {return status_;}
+  /**
+   * Initialize an SD flash memory card with default clock rate and chip
+   * select pin.  See sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin).
+   */
+  uint8_t init(void) {
+    return init(SPI_FULL_SPEED, SD_CHIP_SELECT_PIN);
+  }
+  /**
+   * Initialize an SD flash memory card with the selected SPI clock rate
+   * and the default SD chip select pin.
+   * See sd2Card::init(uint8_t sckRateID, uint8_t chipSelectPin).
+   */
+  uint8_t init(uint8_t sckRateID) {
+    return init(sckRateID, SD_CHIP_SELECT_PIN);
+  }
+  uint8_t init(uint8_t sckRateID, uint8_t chipSelectPin);
+  void partialBlockRead(uint8_t value);
+  /** Returns the current value, true or false, for partial block read. */
+  uint8_t partialBlockRead(void) const {return partialBlockRead_;}
+  uint8_t readBlock(uint32_t block, uint8_t* dst);
+  uint8_t readData(uint32_t block,
+          uint16_t offset, uint16_t count, uint8_t* dst);
+  /**
+   * Read a cards CID register. The CID contains card identification
+   * information such as Manufacturer ID, Product name, Product serial
+   * number and Manufacturing date. */
+  uint8_t readCID(cid_t* cid) {
+    return readRegister(CMD10, cid);
+  }
+  /**
+   * Read a cards CSD register. The CSD contains Card-Specific Data that
+   * provides information regarding access to the card's contents. */
+  uint8_t readCSD(csd_t* csd) {
+    return readRegister(CMD9, csd);
+  }
+  void readEnd(void);
+  uint8_t setSckRate(uint8_t sckRateID);
+  /** Return the card type: SD V1, SD V2 or SDHC */
+  uint8_t type(void) const {return type_;}
+  uint8_t writeBlock(uint32_t blockNumber, const uint8_t* src);
+  uint8_t writeData(const uint8_t* src);
+  uint8_t writeStart(uint32_t blockNumber, uint32_t eraseCount);
+  uint8_t writeStop(void);
+ private:
+  uint32_t block_;
+  uint8_t chipSelectPin_;
+  uint8_t errorCode_;
+  uint8_t inBlock_;
+  uint16_t offset_;
+  uint8_t partialBlockRead_;
+  uint8_t status_;
+  uint8_t type_;
+  // private functions
+  uint8_t cardAcmd(uint8_t cmd, uint32_t arg) {
+    cardCommand(CMD55, 0);
+    return cardCommand(cmd, arg);
+  }
+  uint8_t cardCommand(uint8_t cmd, uint32_t arg);
+  void error(uint8_t code) {errorCode_ = code;}
+  uint8_t readRegister(uint8_t cmd, void* buf);
+  uint8_t sendWriteCommand(uint32_t blockNumber, uint32_t eraseCount);
+  void chipSelectHigh(void);
+  void chipSelectLow(void);
+  void type(uint8_t value) {type_ = value;}
+  uint8_t waitNotBusy(uint16_t timeoutMillis);
+  uint8_t writeData(uint8_t token, const uint8_t* src);
+  uint8_t waitStartBlock(void);
+};
+#endif  // Sd2Card_h
diff --git a/Marlin/Sd2PinMap.h b/Marlin/Sd2PinMap.h
index bba0dd027..4bd75a35d 100644
--- a/Marlin/Sd2PinMap.h
+++ b/Marlin/Sd2PinMap.h
@@ -1,353 +1,353 @@
-/* Arduino SdFat Library
- * Copyright (C) 2010 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-// Warning this file was generated by a program.
-#ifndef Sd2PinMap_h
-#define Sd2PinMap_h
-#include <avr/io.h>
-
-//------------------------------------------------------------------------------
-/** struct for mapping digital pins */
-struct pin_map_t {
-  volatile uint8_t* ddr;
-  volatile uint8_t* pin;
-  volatile uint8_t* port;
-  uint8_t bit;
-};
-//------------------------------------------------------------------------------
-#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
-// Mega
-
-// Two Wire (aka I2C) ports
-uint8_t const SDA_PIN = 20;
-uint8_t const SCL_PIN = 21;
-
-// SPI port
-uint8_t const SS_PIN = 53;
-uint8_t const MOSI_PIN = 51;
-uint8_t const MISO_PIN = 50;
-uint8_t const SCK_PIN = 52;
-
-static const pin_map_t digitalPinMap[] = {
-  {&DDRE, &PINE, &PORTE, 0},  // E0  0
-  {&DDRE, &PINE, &PORTE, 1},  // E1  1
-  {&DDRE, &PINE, &PORTE, 4},  // E4  2
-  {&DDRE, &PINE, &PORTE, 5},  // E5  3
-  {&DDRG, &PING, &PORTG, 5},  // G5  4
-  {&DDRE, &PINE, &PORTE, 3},  // E3  5
-  {&DDRH, &PINH, &PORTH, 3},  // H3  6
-  {&DDRH, &PINH, &PORTH, 4},  // H4  7
-  {&DDRH, &PINH, &PORTH, 5},  // H5  8
-  {&DDRH, &PINH, &PORTH, 6},  // H6  9
-  {&DDRB, &PINB, &PORTB, 4},  // B4 10
-  {&DDRB, &PINB, &PORTB, 5},  // B5 11
-  {&DDRB, &PINB, &PORTB, 6},  // B6 12
-  {&DDRB, &PINB, &PORTB, 7},  // B7 13
-  {&DDRJ, &PINJ, &PORTJ, 1},  // J1 14
-  {&DDRJ, &PINJ, &PORTJ, 0},  // J0 15
-  {&DDRH, &PINH, &PORTH, 1},  // H1 16
-  {&DDRH, &PINH, &PORTH, 0},  // H0 17
-  {&DDRD, &PIND, &PORTD, 3},  // D3 18
-  {&DDRD, &PIND, &PORTD, 2},  // D2 19
-  {&DDRD, &PIND, &PORTD, 1},  // D1 20
-  {&DDRD, &PIND, &PORTD, 0},  // D0 21
-  {&DDRA, &PINA, &PORTA, 0},  // A0 22
-  {&DDRA, &PINA, &PORTA, 1},  // A1 23
-  {&DDRA, &PINA, &PORTA, 2},  // A2 24
-  {&DDRA, &PINA, &PORTA, 3},  // A3 25
-  {&DDRA, &PINA, &PORTA, 4},  // A4 26
-  {&DDRA, &PINA, &PORTA, 5},  // A5 27
-  {&DDRA, &PINA, &PORTA, 6},  // A6 28
-  {&DDRA, &PINA, &PORTA, 7},  // A7 29
-  {&DDRC, &PINC, &PORTC, 7},  // C7 30
-  {&DDRC, &PINC, &PORTC, 6},  // C6 31
-  {&DDRC, &PINC, &PORTC, 5},  // C5 32
-  {&DDRC, &PINC, &PORTC, 4},  // C4 33
-  {&DDRC, &PINC, &PORTC, 3},  // C3 34
-  {&DDRC, &PINC, &PORTC, 2},  // C2 35
-  {&DDRC, &PINC, &PORTC, 1},  // C1 36
-  {&DDRC, &PINC, &PORTC, 0},  // C0 37
-  {&DDRD, &PIND, &PORTD, 7},  // D7 38
-  {&DDRG, &PING, &PORTG, 2},  // G2 39
-  {&DDRG, &PING, &PORTG, 1},  // G1 40
-  {&DDRG, &PING, &PORTG, 0},  // G0 41
-  {&DDRL, &PINL, &PORTL, 7},  // L7 42
-  {&DDRL, &PINL, &PORTL, 6},  // L6 43
-  {&DDRL, &PINL, &PORTL, 5},  // L5 44
-  {&DDRL, &PINL, &PORTL, 4},  // L4 45
-  {&DDRL, &PINL, &PORTL, 3},  // L3 46
-  {&DDRL, &PINL, &PORTL, 2},  // L2 47
-  {&DDRL, &PINL, &PORTL, 1},  // L1 48
-  {&DDRL, &PINL, &PORTL, 0},  // L0 49
-  {&DDRB, &PINB, &PORTB, 3},  // B3 50
-  {&DDRB, &PINB, &PORTB, 2},  // B2 51
-  {&DDRB, &PINB, &PORTB, 1},  // B1 52
-  {&DDRB, &PINB, &PORTB, 0},  // B0 53
-  {&DDRF, &PINF, &PORTF, 0},  // F0 54
-  {&DDRF, &PINF, &PORTF, 1},  // F1 55
-  {&DDRF, &PINF, &PORTF, 2},  // F2 56
-  {&DDRF, &PINF, &PORTF, 3},  // F3 57
-  {&DDRF, &PINF, &PORTF, 4},  // F4 58
-  {&DDRF, &PINF, &PORTF, 5},  // F5 59
-  {&DDRF, &PINF, &PORTF, 6},  // F6 60
-  {&DDRF, &PINF, &PORTF, 7},  // F7 61
-  {&DDRK, &PINK, &PORTK, 0},  // K0 62
-  {&DDRK, &PINK, &PORTK, 1},  // K1 63
-  {&DDRK, &PINK, &PORTK, 2},  // K2 64
-  {&DDRK, &PINK, &PORTK, 3},  // K3 65
-  {&DDRK, &PINK, &PORTK, 4},  // K4 66
-  {&DDRK, &PINK, &PORTK, 5},  // K5 67
-  {&DDRK, &PINK, &PORTK, 6},  // K6 68
-  {&DDRK, &PINK, &PORTK, 7}   // K7 69
-};
-//------------------------------------------------------------------------------
-#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
-// Sanguino
-
-// Two Wire (aka I2C) ports
-uint8_t const SDA_PIN = 17;
-uint8_t const SCL_PIN = 18;
-
-// SPI port
-uint8_t const SS_PIN = 4;
-uint8_t const MOSI_PIN = 5;
-uint8_t const MISO_PIN = 6;
-uint8_t const SCK_PIN = 7;
-
-static const pin_map_t digitalPinMap[] = {
-  {&DDRB, &PINB, &PORTB, 0},  // B0  0
-  {&DDRB, &PINB, &PORTB, 1},  // B1  1
-  {&DDRB, &PINB, &PORTB, 2},  // B2  2
-  {&DDRB, &PINB, &PORTB, 3},  // B3  3
-  {&DDRB, &PINB, &PORTB, 4},  // B4  4
-  {&DDRB, &PINB, &PORTB, 5},  // B5  5
-  {&DDRB, &PINB, &PORTB, 6},  // B6  6
-  {&DDRB, &PINB, &PORTB, 7},  // B7  7
-  {&DDRD, &PIND, &PORTD, 0},  // D0  8
-  {&DDRD, &PIND, &PORTD, 1},  // D1  9
-  {&DDRD, &PIND, &PORTD, 2},  // D2 10
-  {&DDRD, &PIND, &PORTD, 3},  // D3 11
-  {&DDRD, &PIND, &PORTD, 4},  // D4 12
-  {&DDRD, &PIND, &PORTD, 5},  // D5 13
-  {&DDRD, &PIND, &PORTD, 6},  // D6 14
-  {&DDRD, &PIND, &PORTD, 7},  // D7 15
-  {&DDRC, &PINC, &PORTC, 0},  // C0 16
-  {&DDRC, &PINC, &PORTC, 1},  // C1 17
-  {&DDRC, &PINC, &PORTC, 2},  // C2 18
-  {&DDRC, &PINC, &PORTC, 3},  // C3 19
-  {&DDRC, &PINC, &PORTC, 4},  // C4 20
-  {&DDRC, &PINC, &PORTC, 5},  // C5 21
-  {&DDRC, &PINC, &PORTC, 6},  // C6 22
-  {&DDRC, &PINC, &PORTC, 7},  // C7 23
-  {&DDRA, &PINA, &PORTA, 7},  // A7 24
-  {&DDRA, &PINA, &PORTA, 6},  // A6 25
-  {&DDRA, &PINA, &PORTA, 5},  // A5 26
-  {&DDRA, &PINA, &PORTA, 4},  // A4 27
-  {&DDRA, &PINA, &PORTA, 3},  // A3 28
-  {&DDRA, &PINA, &PORTA, 2},  // A2 29
-  {&DDRA, &PINA, &PORTA, 1},  // A1 30
-  {&DDRA, &PINA, &PORTA, 0}   // A0 31
-};
-//------------------------------------------------------------------------------
-#elif defined(__AVR_ATmega32U4__)
-// Teensy 2.0
-
-// Two Wire (aka I2C) ports
-uint8_t const SDA_PIN = 6;
-uint8_t const SCL_PIN = 5;
-
-// SPI port
-uint8_t const SS_PIN = 0;
-uint8_t const MOSI_PIN = 2;
-uint8_t const MISO_PIN = 3;
-uint8_t const SCK_PIN = 1;
-
-static const pin_map_t digitalPinMap[] = {
-  {&DDRB, &PINB, &PORTB, 0},  // B0  0
-  {&DDRB, &PINB, &PORTB, 1},  // B1  1
-  {&DDRB, &PINB, &PORTB, 2},  // B2  2
-  {&DDRB, &PINB, &PORTB, 3},  // B3  3
-  {&DDRB, &PINB, &PORTB, 7},  // B7  4
-  {&DDRD, &PIND, &PORTD, 0},  // D0  5
-  {&DDRD, &PIND, &PORTD, 1},  // D1  6
-  {&DDRD, &PIND, &PORTD, 2},  // D2  7
-  {&DDRD, &PIND, &PORTD, 3},  // D3  8
-  {&DDRC, &PINC, &PORTC, 6},  // C6  9
-  {&DDRC, &PINC, &PORTC, 7},  // C7 10
-  {&DDRD, &PIND, &PORTD, 6},  // D6 11
-  {&DDRD, &PIND, &PORTD, 7},  // D7 12
-  {&DDRB, &PINB, &PORTB, 4},  // B4 13
-  {&DDRB, &PINB, &PORTB, 5},  // B5 14
-  {&DDRB, &PINB, &PORTB, 6},  // B6 15
-  {&DDRF, &PINF, &PORTF, 7},  // F7 16
-  {&DDRF, &PINF, &PORTF, 6},  // F6 17
-  {&DDRF, &PINF, &PORTF, 5},  // F5 18
-  {&DDRF, &PINF, &PORTF, 4},  // F4 19
-  {&DDRF, &PINF, &PORTF, 1},  // F1 20
-  {&DDRF, &PINF, &PORTF, 0},  // F0 21
-  {&DDRD, &PIND, &PORTD, 4},  // D4 22
-  {&DDRD, &PIND, &PORTD, 5},  // D5 23
-  {&DDRE, &PINE, &PORTE, 6}   // E6 24
-};
-//------------------------------------------------------------------------------
-#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
-// Teensy++ 1.0 & 2.0
-
-// Two Wire (aka I2C) ports
-uint8_t const SDA_PIN = 1;
-uint8_t const SCL_PIN = 0;
-
-// SPI port
-uint8_t const SS_PIN = 20;
-uint8_t const MOSI_PIN = 22;
-uint8_t const MISO_PIN = 23;
-uint8_t const SCK_PIN = 21;
-
-static const pin_map_t digitalPinMap[] = {
-  {&DDRD, &PIND, &PORTD, 0},  // D0  0
-  {&DDRD, &PIND, &PORTD, 1},  // D1  1
-  {&DDRD, &PIND, &PORTD, 2},  // D2  2
-  {&DDRD, &PIND, &PORTD, 3},  // D3  3
-  {&DDRD, &PIND, &PORTD, 4},  // D4  4
-  {&DDRD, &PIND, &PORTD, 5},  // D5  5
-  {&DDRD, &PIND, &PORTD, 6},  // D6  6
-  {&DDRD, &PIND, &PORTD, 7},  // D7  7
-  {&DDRE, &PINE, &PORTE, 0},  // E0  8
-  {&DDRE, &PINE, &PORTE, 1},  // E1  9
-  {&DDRC, &PINC, &PORTC, 0},  // C0 10
-  {&DDRC, &PINC, &PORTC, 1},  // C1 11
-  {&DDRC, &PINC, &PORTC, 2},  // C2 12
-  {&DDRC, &PINC, &PORTC, 3},  // C3 13
-  {&DDRC, &PINC, &PORTC, 4},  // C4 14
-  {&DDRC, &PINC, &PORTC, 5},  // C5 15
-  {&DDRC, &PINC, &PORTC, 6},  // C6 16
-  {&DDRC, &PINC, &PORTC, 7},  // C7 17
-  {&DDRE, &PINE, &PORTE, 6},  // E6 18
-  {&DDRE, &PINE, &PORTE, 7},  // E7 19
-  {&DDRB, &PINB, &PORTB, 0},  // B0 20
-  {&DDRB, &PINB, &PORTB, 1},  // B1 21
-  {&DDRB, &PINB, &PORTB, 2},  // B2 22
-  {&DDRB, &PINB, &PORTB, 3},  // B3 23
-  {&DDRB, &PINB, &PORTB, 4},  // B4 24
-  {&DDRB, &PINB, &PORTB, 5},  // B5 25
-  {&DDRB, &PINB, &PORTB, 6},  // B6 26
-  {&DDRB, &PINB, &PORTB, 7},  // B7 27
-  {&DDRA, &PINA, &PORTA, 0},  // A0 28
-  {&DDRA, &PINA, &PORTA, 1},  // A1 29
-  {&DDRA, &PINA, &PORTA, 2},  // A2 30
-  {&DDRA, &PINA, &PORTA, 3},  // A3 31
-  {&DDRA, &PINA, &PORTA, 4},  // A4 32
-  {&DDRA, &PINA, &PORTA, 5},  // A5 33
-  {&DDRA, &PINA, &PORTA, 6},  // A6 34
-  {&DDRA, &PINA, &PORTA, 7},  // A7 35
-  {&DDRE, &PINE, &PORTE, 4},  // E4 36
-  {&DDRE, &PINE, &PORTE, 5},  // E5 37
-  {&DDRF, &PINF, &PORTF, 0},  // F0 38
-  {&DDRF, &PINF, &PORTF, 1},  // F1 39
-  {&DDRF, &PINF, &PORTF, 2},  // F2 40
-  {&DDRF, &PINF, &PORTF, 3},  // F3 41
-  {&DDRF, &PINF, &PORTF, 4},  // F4 42
-  {&DDRF, &PINF, &PORTF, 5},  // F5 43
-  {&DDRF, &PINF, &PORTF, 6},  // F6 44
-  {&DDRF, &PINF, &PORTF, 7}   // F7 45
-};
-//------------------------------------------------------------------------------
-#else  // defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
-// 168 and 328 Arduinos
-
-// Two Wire (aka I2C) ports
-uint8_t const SDA_PIN = 18;
-uint8_t const SCL_PIN = 19;
-
-// SPI port
-uint8_t const SS_PIN = 10;
-uint8_t const MOSI_PIN = 11;
-uint8_t const MISO_PIN = 12;
-uint8_t const SCK_PIN = 13;
-
-static const pin_map_t digitalPinMap[] = {
-  {&DDRD, &PIND, &PORTD, 0},  // D0  0
-  {&DDRD, &PIND, &PORTD, 1},  // D1  1
-  {&DDRD, &PIND, &PORTD, 2},  // D2  2
-  {&DDRD, &PIND, &PORTD, 3},  // D3  3
-  {&DDRD, &PIND, &PORTD, 4},  // D4  4
-  {&DDRD, &PIND, &PORTD, 5},  // D5  5
-  {&DDRD, &PIND, &PORTD, 6},  // D6  6
-  {&DDRD, &PIND, &PORTD, 7},  // D7  7
-  {&DDRB, &PINB, &PORTB, 0},  // B0  8
-  {&DDRB, &PINB, &PORTB, 1},  // B1  9
-  {&DDRB, &PINB, &PORTB, 2},  // B2 10
-  {&DDRB, &PINB, &PORTB, 3},  // B3 11
-  {&DDRB, &PINB, &PORTB, 4},  // B4 12
-  {&DDRB, &PINB, &PORTB, 5},  // B5 13
-  {&DDRC, &PINC, &PORTC, 0},  // C0 14
-  {&DDRC, &PINC, &PORTC, 1},  // C1 15
-  {&DDRC, &PINC, &PORTC, 2},  // C2 16
-  {&DDRC, &PINC, &PORTC, 3},  // C3 17
-  {&DDRC, &PINC, &PORTC, 4},  // C4 18
-  {&DDRC, &PINC, &PORTC, 5}   // C5 19
-};
-#endif  // defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
-//------------------------------------------------------------------------------
-static const uint8_t digitalPinCount = sizeof(digitalPinMap)/sizeof(pin_map_t);
-
-uint8_t badPinNumber(void)
-  __attribute__((error("Pin number is too large or not a constant")));
-
-static inline __attribute__((always_inline))
-  uint8_t getPinMode(uint8_t pin) {
-  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
-    return (*digitalPinMap[pin].ddr >> digitalPinMap[pin].bit) & 1;
-  } else {
-    return badPinNumber();
-  }
-}
-static inline __attribute__((always_inline))
-  void setPinMode(uint8_t pin, uint8_t mode) {
-  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
-    if (mode) {
-      *digitalPinMap[pin].ddr |= 1 << digitalPinMap[pin].bit;
-    } else {
-      *digitalPinMap[pin].ddr &= ~(1 << digitalPinMap[pin].bit);
-    }
-  } else {
-    badPinNumber();
-  }
-}
-static inline __attribute__((always_inline))
-  uint8_t fastDigitalRead(uint8_t pin) {
-  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
-    return (*digitalPinMap[pin].pin >> digitalPinMap[pin].bit) & 1;
-  } else {
-    return badPinNumber();
-  }
-}
-static inline __attribute__((always_inline))
-  void fastDigitalWrite(uint8_t pin, uint8_t value) {
-  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
-    if (value) {
-      *digitalPinMap[pin].port |= 1 << digitalPinMap[pin].bit;
-    } else {
-      *digitalPinMap[pin].port &= ~(1 << digitalPinMap[pin].bit);
-    }
-  } else {
-    badPinNumber();
-  }
-}
-#endif  // Sd2PinMap_h
+/* Arduino SdFat Library
+ * Copyright (C) 2010 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+// Warning this file was generated by a program.
+#ifndef Sd2PinMap_h
+#define Sd2PinMap_h
+#include <avr/io.h>
+
+//------------------------------------------------------------------------------
+/** struct for mapping digital pins */
+struct pin_map_t {
+  volatile uint8_t* ddr;
+  volatile uint8_t* pin;
+  volatile uint8_t* port;
+  uint8_t bit;
+};
+//------------------------------------------------------------------------------
+#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+// Mega
+
+// Two Wire (aka I2C) ports
+uint8_t const SDA_PIN = 20;
+uint8_t const SCL_PIN = 21;
+
+// SPI port
+uint8_t const SS_PIN = 53;
+uint8_t const MOSI_PIN = 51;
+uint8_t const MISO_PIN = 50;
+uint8_t const SCK_PIN = 52;
+
+static const pin_map_t digitalPinMap[] = {
+  {&DDRE, &PINE, &PORTE, 0},  // E0  0
+  {&DDRE, &PINE, &PORTE, 1},  // E1  1
+  {&DDRE, &PINE, &PORTE, 4},  // E4  2
+  {&DDRE, &PINE, &PORTE, 5},  // E5  3
+  {&DDRG, &PING, &PORTG, 5},  // G5  4
+  {&DDRE, &PINE, &PORTE, 3},  // E3  5
+  {&DDRH, &PINH, &PORTH, 3},  // H3  6
+  {&DDRH, &PINH, &PORTH, 4},  // H4  7
+  {&DDRH, &PINH, &PORTH, 5},  // H5  8
+  {&DDRH, &PINH, &PORTH, 6},  // H6  9
+  {&DDRB, &PINB, &PORTB, 4},  // B4 10
+  {&DDRB, &PINB, &PORTB, 5},  // B5 11
+  {&DDRB, &PINB, &PORTB, 6},  // B6 12
+  {&DDRB, &PINB, &PORTB, 7},  // B7 13
+  {&DDRJ, &PINJ, &PORTJ, 1},  // J1 14
+  {&DDRJ, &PINJ, &PORTJ, 0},  // J0 15
+  {&DDRH, &PINH, &PORTH, 1},  // H1 16
+  {&DDRH, &PINH, &PORTH, 0},  // H0 17
+  {&DDRD, &PIND, &PORTD, 3},  // D3 18
+  {&DDRD, &PIND, &PORTD, 2},  // D2 19
+  {&DDRD, &PIND, &PORTD, 1},  // D1 20
+  {&DDRD, &PIND, &PORTD, 0},  // D0 21
+  {&DDRA, &PINA, &PORTA, 0},  // A0 22
+  {&DDRA, &PINA, &PORTA, 1},  // A1 23
+  {&DDRA, &PINA, &PORTA, 2},  // A2 24
+  {&DDRA, &PINA, &PORTA, 3},  // A3 25
+  {&DDRA, &PINA, &PORTA, 4},  // A4 26
+  {&DDRA, &PINA, &PORTA, 5},  // A5 27
+  {&DDRA, &PINA, &PORTA, 6},  // A6 28
+  {&DDRA, &PINA, &PORTA, 7},  // A7 29
+  {&DDRC, &PINC, &PORTC, 7},  // C7 30
+  {&DDRC, &PINC, &PORTC, 6},  // C6 31
+  {&DDRC, &PINC, &PORTC, 5},  // C5 32
+  {&DDRC, &PINC, &PORTC, 4},  // C4 33
+  {&DDRC, &PINC, &PORTC, 3},  // C3 34
+  {&DDRC, &PINC, &PORTC, 2},  // C2 35
+  {&DDRC, &PINC, &PORTC, 1},  // C1 36
+  {&DDRC, &PINC, &PORTC, 0},  // C0 37
+  {&DDRD, &PIND, &PORTD, 7},  // D7 38
+  {&DDRG, &PING, &PORTG, 2},  // G2 39
+  {&DDRG, &PING, &PORTG, 1},  // G1 40
+  {&DDRG, &PING, &PORTG, 0},  // G0 41
+  {&DDRL, &PINL, &PORTL, 7},  // L7 42
+  {&DDRL, &PINL, &PORTL, 6},  // L6 43
+  {&DDRL, &PINL, &PORTL, 5},  // L5 44
+  {&DDRL, &PINL, &PORTL, 4},  // L4 45
+  {&DDRL, &PINL, &PORTL, 3},  // L3 46
+  {&DDRL, &PINL, &PORTL, 2},  // L2 47
+  {&DDRL, &PINL, &PORTL, 1},  // L1 48
+  {&DDRL, &PINL, &PORTL, 0},  // L0 49
+  {&DDRB, &PINB, &PORTB, 3},  // B3 50
+  {&DDRB, &PINB, &PORTB, 2},  // B2 51
+  {&DDRB, &PINB, &PORTB, 1},  // B1 52
+  {&DDRB, &PINB, &PORTB, 0},  // B0 53
+  {&DDRF, &PINF, &PORTF, 0},  // F0 54
+  {&DDRF, &PINF, &PORTF, 1},  // F1 55
+  {&DDRF, &PINF, &PORTF, 2},  // F2 56
+  {&DDRF, &PINF, &PORTF, 3},  // F3 57
+  {&DDRF, &PINF, &PORTF, 4},  // F4 58
+  {&DDRF, &PINF, &PORTF, 5},  // F5 59
+  {&DDRF, &PINF, &PORTF, 6},  // F6 60
+  {&DDRF, &PINF, &PORTF, 7},  // F7 61
+  {&DDRK, &PINK, &PORTK, 0},  // K0 62
+  {&DDRK, &PINK, &PORTK, 1},  // K1 63
+  {&DDRK, &PINK, &PORTK, 2},  // K2 64
+  {&DDRK, &PINK, &PORTK, 3},  // K3 65
+  {&DDRK, &PINK, &PORTK, 4},  // K4 66
+  {&DDRK, &PINK, &PORTK, 5},  // K5 67
+  {&DDRK, &PINK, &PORTK, 6},  // K6 68
+  {&DDRK, &PINK, &PORTK, 7}   // K7 69
+};
+//------------------------------------------------------------------------------
+#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
+// Sanguino
+
+// Two Wire (aka I2C) ports
+uint8_t const SDA_PIN = 17;
+uint8_t const SCL_PIN = 18;
+
+// SPI port
+uint8_t const SS_PIN = 4;
+uint8_t const MOSI_PIN = 5;
+uint8_t const MISO_PIN = 6;
+uint8_t const SCK_PIN = 7;
+
+static const pin_map_t digitalPinMap[] = {
+  {&DDRB, &PINB, &PORTB, 0},  // B0  0
+  {&DDRB, &PINB, &PORTB, 1},  // B1  1
+  {&DDRB, &PINB, &PORTB, 2},  // B2  2
+  {&DDRB, &PINB, &PORTB, 3},  // B3  3
+  {&DDRB, &PINB, &PORTB, 4},  // B4  4
+  {&DDRB, &PINB, &PORTB, 5},  // B5  5
+  {&DDRB, &PINB, &PORTB, 6},  // B6  6
+  {&DDRB, &PINB, &PORTB, 7},  // B7  7
+  {&DDRD, &PIND, &PORTD, 0},  // D0  8
+  {&DDRD, &PIND, &PORTD, 1},  // D1  9
+  {&DDRD, &PIND, &PORTD, 2},  // D2 10
+  {&DDRD, &PIND, &PORTD, 3},  // D3 11
+  {&DDRD, &PIND, &PORTD, 4},  // D4 12
+  {&DDRD, &PIND, &PORTD, 5},  // D5 13
+  {&DDRD, &PIND, &PORTD, 6},  // D6 14
+  {&DDRD, &PIND, &PORTD, 7},  // D7 15
+  {&DDRC, &PINC, &PORTC, 0},  // C0 16
+  {&DDRC, &PINC, &PORTC, 1},  // C1 17
+  {&DDRC, &PINC, &PORTC, 2},  // C2 18
+  {&DDRC, &PINC, &PORTC, 3},  // C3 19
+  {&DDRC, &PINC, &PORTC, 4},  // C4 20
+  {&DDRC, &PINC, &PORTC, 5},  // C5 21
+  {&DDRC, &PINC, &PORTC, 6},  // C6 22
+  {&DDRC, &PINC, &PORTC, 7},  // C7 23
+  {&DDRA, &PINA, &PORTA, 7},  // A7 24
+  {&DDRA, &PINA, &PORTA, 6},  // A6 25
+  {&DDRA, &PINA, &PORTA, 5},  // A5 26
+  {&DDRA, &PINA, &PORTA, 4},  // A4 27
+  {&DDRA, &PINA, &PORTA, 3},  // A3 28
+  {&DDRA, &PINA, &PORTA, 2},  // A2 29
+  {&DDRA, &PINA, &PORTA, 1},  // A1 30
+  {&DDRA, &PINA, &PORTA, 0}   // A0 31
+};
+//------------------------------------------------------------------------------
+#elif defined(__AVR_ATmega32U4__)
+// Teensy 2.0
+
+// Two Wire (aka I2C) ports
+uint8_t const SDA_PIN = 6;
+uint8_t const SCL_PIN = 5;
+
+// SPI port
+uint8_t const SS_PIN = 0;
+uint8_t const MOSI_PIN = 2;
+uint8_t const MISO_PIN = 3;
+uint8_t const SCK_PIN = 1;
+
+static const pin_map_t digitalPinMap[] = {
+  {&DDRB, &PINB, &PORTB, 0},  // B0  0
+  {&DDRB, &PINB, &PORTB, 1},  // B1  1
+  {&DDRB, &PINB, &PORTB, 2},  // B2  2
+  {&DDRB, &PINB, &PORTB, 3},  // B3  3
+  {&DDRB, &PINB, &PORTB, 7},  // B7  4
+  {&DDRD, &PIND, &PORTD, 0},  // D0  5
+  {&DDRD, &PIND, &PORTD, 1},  // D1  6
+  {&DDRD, &PIND, &PORTD, 2},  // D2  7
+  {&DDRD, &PIND, &PORTD, 3},  // D3  8
+  {&DDRC, &PINC, &PORTC, 6},  // C6  9
+  {&DDRC, &PINC, &PORTC, 7},  // C7 10
+  {&DDRD, &PIND, &PORTD, 6},  // D6 11
+  {&DDRD, &PIND, &PORTD, 7},  // D7 12
+  {&DDRB, &PINB, &PORTB, 4},  // B4 13
+  {&DDRB, &PINB, &PORTB, 5},  // B5 14
+  {&DDRB, &PINB, &PORTB, 6},  // B6 15
+  {&DDRF, &PINF, &PORTF, 7},  // F7 16
+  {&DDRF, &PINF, &PORTF, 6},  // F6 17
+  {&DDRF, &PINF, &PORTF, 5},  // F5 18
+  {&DDRF, &PINF, &PORTF, 4},  // F4 19
+  {&DDRF, &PINF, &PORTF, 1},  // F1 20
+  {&DDRF, &PINF, &PORTF, 0},  // F0 21
+  {&DDRD, &PIND, &PORTD, 4},  // D4 22
+  {&DDRD, &PIND, &PORTD, 5},  // D5 23
+  {&DDRE, &PINE, &PORTE, 6}   // E6 24
+};
+//------------------------------------------------------------------------------
+#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
+// Teensy++ 1.0 & 2.0
+
+// Two Wire (aka I2C) ports
+uint8_t const SDA_PIN = 1;
+uint8_t const SCL_PIN = 0;
+
+// SPI port
+uint8_t const SS_PIN = 20;
+uint8_t const MOSI_PIN = 22;
+uint8_t const MISO_PIN = 23;
+uint8_t const SCK_PIN = 21;
+
+static const pin_map_t digitalPinMap[] = {
+  {&DDRD, &PIND, &PORTD, 0},  // D0  0
+  {&DDRD, &PIND, &PORTD, 1},  // D1  1
+  {&DDRD, &PIND, &PORTD, 2},  // D2  2
+  {&DDRD, &PIND, &PORTD, 3},  // D3  3
+  {&DDRD, &PIND, &PORTD, 4},  // D4  4
+  {&DDRD, &PIND, &PORTD, 5},  // D5  5
+  {&DDRD, &PIND, &PORTD, 6},  // D6  6
+  {&DDRD, &PIND, &PORTD, 7},  // D7  7
+  {&DDRE, &PINE, &PORTE, 0},  // E0  8
+  {&DDRE, &PINE, &PORTE, 1},  // E1  9
+  {&DDRC, &PINC, &PORTC, 0},  // C0 10
+  {&DDRC, &PINC, &PORTC, 1},  // C1 11
+  {&DDRC, &PINC, &PORTC, 2},  // C2 12
+  {&DDRC, &PINC, &PORTC, 3},  // C3 13
+  {&DDRC, &PINC, &PORTC, 4},  // C4 14
+  {&DDRC, &PINC, &PORTC, 5},  // C5 15
+  {&DDRC, &PINC, &PORTC, 6},  // C6 16
+  {&DDRC, &PINC, &PORTC, 7},  // C7 17
+  {&DDRE, &PINE, &PORTE, 6},  // E6 18
+  {&DDRE, &PINE, &PORTE, 7},  // E7 19
+  {&DDRB, &PINB, &PORTB, 0},  // B0 20
+  {&DDRB, &PINB, &PORTB, 1},  // B1 21
+  {&DDRB, &PINB, &PORTB, 2},  // B2 22
+  {&DDRB, &PINB, &PORTB, 3},  // B3 23
+  {&DDRB, &PINB, &PORTB, 4},  // B4 24
+  {&DDRB, &PINB, &PORTB, 5},  // B5 25
+  {&DDRB, &PINB, &PORTB, 6},  // B6 26
+  {&DDRB, &PINB, &PORTB, 7},  // B7 27
+  {&DDRA, &PINA, &PORTA, 0},  // A0 28
+  {&DDRA, &PINA, &PORTA, 1},  // A1 29
+  {&DDRA, &PINA, &PORTA, 2},  // A2 30
+  {&DDRA, &PINA, &PORTA, 3},  // A3 31
+  {&DDRA, &PINA, &PORTA, 4},  // A4 32
+  {&DDRA, &PINA, &PORTA, 5},  // A5 33
+  {&DDRA, &PINA, &PORTA, 6},  // A6 34
+  {&DDRA, &PINA, &PORTA, 7},  // A7 35
+  {&DDRE, &PINE, &PORTE, 4},  // E4 36
+  {&DDRE, &PINE, &PORTE, 5},  // E5 37
+  {&DDRF, &PINF, &PORTF, 0},  // F0 38
+  {&DDRF, &PINF, &PORTF, 1},  // F1 39
+  {&DDRF, &PINF, &PORTF, 2},  // F2 40
+  {&DDRF, &PINF, &PORTF, 3},  // F3 41
+  {&DDRF, &PINF, &PORTF, 4},  // F4 42
+  {&DDRF, &PINF, &PORTF, 5},  // F5 43
+  {&DDRF, &PINF, &PORTF, 6},  // F6 44
+  {&DDRF, &PINF, &PORTF, 7}   // F7 45
+};
+//------------------------------------------------------------------------------
+#else  // defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+// 168 and 328 Arduinos
+
+// Two Wire (aka I2C) ports
+uint8_t const SDA_PIN = 18;
+uint8_t const SCL_PIN = 19;
+
+// SPI port
+uint8_t const SS_PIN = 10;
+uint8_t const MOSI_PIN = 11;
+uint8_t const MISO_PIN = 12;
+uint8_t const SCK_PIN = 13;
+
+static const pin_map_t digitalPinMap[] = {
+  {&DDRD, &PIND, &PORTD, 0},  // D0  0
+  {&DDRD, &PIND, &PORTD, 1},  // D1  1
+  {&DDRD, &PIND, &PORTD, 2},  // D2  2
+  {&DDRD, &PIND, &PORTD, 3},  // D3  3
+  {&DDRD, &PIND, &PORTD, 4},  // D4  4
+  {&DDRD, &PIND, &PORTD, 5},  // D5  5
+  {&DDRD, &PIND, &PORTD, 6},  // D6  6
+  {&DDRD, &PIND, &PORTD, 7},  // D7  7
+  {&DDRB, &PINB, &PORTB, 0},  // B0  8
+  {&DDRB, &PINB, &PORTB, 1},  // B1  9
+  {&DDRB, &PINB, &PORTB, 2},  // B2 10
+  {&DDRB, &PINB, &PORTB, 3},  // B3 11
+  {&DDRB, &PINB, &PORTB, 4},  // B4 12
+  {&DDRB, &PINB, &PORTB, 5},  // B5 13
+  {&DDRC, &PINC, &PORTC, 0},  // C0 14
+  {&DDRC, &PINC, &PORTC, 1},  // C1 15
+  {&DDRC, &PINC, &PORTC, 2},  // C2 16
+  {&DDRC, &PINC, &PORTC, 3},  // C3 17
+  {&DDRC, &PINC, &PORTC, 4},  // C4 18
+  {&DDRC, &PINC, &PORTC, 5}   // C5 19
+};
+#endif  // defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
+//------------------------------------------------------------------------------
+static const uint8_t digitalPinCount = sizeof(digitalPinMap)/sizeof(pin_map_t);
+
+uint8_t badPinNumber(void)
+  __attribute__((error("Pin number is too large or not a constant")));
+
+static inline __attribute__((always_inline))
+  uint8_t getPinMode(uint8_t pin) {
+  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
+    return (*digitalPinMap[pin].ddr >> digitalPinMap[pin].bit) & 1;
+  } else {
+    return badPinNumber();
+  }
+}
+static inline __attribute__((always_inline))
+  void setPinMode(uint8_t pin, uint8_t mode) {
+  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
+    if (mode) {
+      *digitalPinMap[pin].ddr |= 1 << digitalPinMap[pin].bit;
+    } else {
+      *digitalPinMap[pin].ddr &= ~(1 << digitalPinMap[pin].bit);
+    }
+  } else {
+    badPinNumber();
+  }
+}
+static inline __attribute__((always_inline))
+  uint8_t fastDigitalRead(uint8_t pin) {
+  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
+    return (*digitalPinMap[pin].pin >> digitalPinMap[pin].bit) & 1;
+  } else {
+    return badPinNumber();
+  }
+}
+static inline __attribute__((always_inline))
+  void fastDigitalWrite(uint8_t pin, uint8_t value) {
+  if (__builtin_constant_p(pin) && pin < digitalPinCount) {
+    if (value) {
+      *digitalPinMap[pin].port |= 1 << digitalPinMap[pin].bit;
+    } else {
+      *digitalPinMap[pin].port &= ~(1 << digitalPinMap[pin].bit);
+    }
+  } else {
+    badPinNumber();
+  }
+}
+#endif  // Sd2PinMap_h
diff --git a/Marlin/SdFat.h b/Marlin/SdFat.h
index aa018dd13..048fa711e 100644
--- a/Marlin/SdFat.h
+++ b/Marlin/SdFat.h
@@ -1,547 +1,547 @@
-/* Arduino SdFat Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#ifndef SdFat_h
-#define SdFat_h
-/**
- * \file
- * SdFile and SdVolume classes
- */
-#include <avr/pgmspace.h>
-#include "Sd2Card.h"
-#include "FatStructs.h"
-#include "Print.h"
-//------------------------------------------------------------------------------
-/**
- * Allow use of deprecated functions if non-zero
- */
-#define ALLOW_DEPRECATED_FUNCTIONS 1
-//------------------------------------------------------------------------------
-// forward declaration since SdVolume is used in SdFile
-class SdVolume;
-//==============================================================================
-// SdFile class
-
-// flags for ls()
-/** ls() flag to print modify date */
-uint8_t const LS_DATE = 1;
-/** ls() flag to print file size */
-uint8_t const LS_SIZE = 2;
-/** ls() flag for recursive list of subdirectories */
-uint8_t const LS_R = 4;
-
-// use the gnu style oflag in open()
-/** open() oflag for reading */
-uint8_t const O_READ = 0X01;
-/** open() oflag - same as O_READ */
-uint8_t const O_RDONLY = O_READ;
-/** open() oflag for write */
-uint8_t const O_WRITE = 0X02;
-/** open() oflag - same as O_WRITE */
-uint8_t const O_WRONLY = O_WRITE;
-/** open() oflag for reading and writing */
-uint8_t const O_RDWR = (O_READ | O_WRITE);
-/** open() oflag mask for access modes */
-uint8_t const O_ACCMODE = (O_READ | O_WRITE);
-/** The file offset shall be set to the end of the file prior to each write. */
-uint8_t const O_APPEND = 0X04;
-/** synchronous writes - call sync() after each write */
-uint8_t const O_SYNC = 0X08;
-/** create the file if nonexistent */
-uint8_t const O_CREAT = 0X10;
-/** If O_CREAT and O_EXCL are set, open() shall fail if the file exists */
-uint8_t const O_EXCL = 0X20;
-/** truncate the file to zero length */
-uint8_t const O_TRUNC = 0X40;
-
-// flags for timestamp
-/** set the file's last access date */
-uint8_t const T_ACCESS = 1;
-/** set the file's creation date and time */
-uint8_t const T_CREATE = 2;
-/** Set the file's write date and time */
-uint8_t const T_WRITE = 4;
-// values for type_
-/** This SdFile has not been opened. */
-uint8_t const FAT_FILE_TYPE_CLOSED = 0;
-/** SdFile for a file */
-uint8_t const FAT_FILE_TYPE_NORMAL = 1;
-/** SdFile for a FAT16 root directory */
-uint8_t const FAT_FILE_TYPE_ROOT16 = 2;
-/** SdFile for a FAT32 root directory */
-uint8_t const FAT_FILE_TYPE_ROOT32 = 3;
-/** SdFile for a subdirectory */
-uint8_t const FAT_FILE_TYPE_SUBDIR = 4;
-/** Test value for directory type */
-uint8_t const FAT_FILE_TYPE_MIN_DIR = FAT_FILE_TYPE_ROOT16;
-
-/** date field for FAT directory entry */
-static inline uint16_t FAT_DATE(uint16_t year, uint8_t month, uint8_t day) {
-  return (year - 1980) << 9 | month << 5 | day;
-}
-/** year part of FAT directory date field */
-static inline uint16_t FAT_YEAR(uint16_t fatDate) {
-  return 1980 + (fatDate >> 9);
-}
-/** month part of FAT directory date field */
-static inline uint8_t FAT_MONTH(uint16_t fatDate) {
-  return (fatDate >> 5) & 0XF;
-}
-/** day part of FAT directory date field */
-static inline uint8_t FAT_DAY(uint16_t fatDate) {
-  return fatDate & 0X1F;
-}
-/** time field for FAT directory entry */
-static inline uint16_t FAT_TIME(uint8_t hour, uint8_t minute, uint8_t second) {
-  return hour << 11 | minute << 5 | second >> 1;
-}
-/** hour part of FAT directory time field */
-static inline uint8_t FAT_HOUR(uint16_t fatTime) {
-  return fatTime >> 11;
-}
-/** minute part of FAT directory time field */
-static inline uint8_t FAT_MINUTE(uint16_t fatTime) {
-  return(fatTime >> 5) & 0X3F;
-}
-/** second part of FAT directory time field */
-static inline uint8_t FAT_SECOND(uint16_t fatTime) {
-  return 2*(fatTime & 0X1F);
-}
-/** Default date for file timestamps is 1 Jan 2000 */
-uint16_t const FAT_DEFAULT_DATE = ((2000 - 1980) << 9) | (1 << 5) | 1;
-/** Default time for file timestamp is 1 am */
-uint16_t const FAT_DEFAULT_TIME = (1 << 11);
-//------------------------------------------------------------------------------
-/**
- * \class SdFile
- * \brief Access FAT16 and FAT32 files on SD and SDHC cards.
- */
-class SdFile : public Print {
- public:
-  /** Create an instance of SdFile. */
-  SdFile(void) : type_(FAT_FILE_TYPE_CLOSED) {}
-  /**
-   * writeError is set to true if an error occurs during a write().
-   * Set writeError to false before calling print() and/or write() and check
-   * for true after calls to print() and/or write().
-   */
-  bool writeError;
-  /**
-   * Cancel unbuffered reads for this file.
-   * See setUnbufferedRead()
-   */
-  void clearUnbufferedRead(void) {
-    flags_ &= ~F_FILE_UNBUFFERED_READ;
-  }
-  uint8_t close(void);
-  uint8_t contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock);
-  uint8_t createContiguous(SdFile* dirFile,
-          const char* fileName, uint32_t size);
-  /** \return The current cluster number for a file or directory. */
-  uint32_t curCluster(void) const {return curCluster_;}
-  /** \return The current position for a file or directory. */
-  uint32_t curPosition(void) const {return curPosition_;}
-  /**
-   * Set the date/time callback function
-   *
-   * \param[in] dateTime The user's call back function.  The callback
-   * function is of the form:
-   *
-   * \code
-   * void dateTime(uint16_t* date, uint16_t* time) {
-   *   uint16_t year;
-   *   uint8_t month, day, hour, minute, second;
-   *
-   *   // User gets date and time from GPS or real-time clock here
-   *
-   *   // return date using FAT_DATE macro to format fields
-   *   *date = FAT_DATE(year, month, day);
-   *
-   *   // return time using FAT_TIME macro to format fields
-   *   *time = FAT_TIME(hour, minute, second);
-   * }
-   * \endcode
-   *
-   * Sets the function that is called when a file is created or when
-   * a file's directory entry is modified by sync(). All timestamps,
-   * access, creation, and modify, are set when a file is created.
-   * sync() maintains the last access date and last modify date/time.
-   *
-   * See the timestamp() function.
-   */
-  static void dateTimeCallback(
-    void (*dateTime)(uint16_t* date, uint16_t* time)) {
-    dateTime_ = dateTime;
-  }
-  /**
-   * Cancel the date/time callback function.
-   */
-  static void dateTimeCallbackCancel(void) {
-    // use explicit zero since NULL is not defined for Sanguino
-    dateTime_ = 0;
-  }
-  /** \return Address of the block that contains this file's directory. */
-  uint32_t dirBlock(void) const {return dirBlock_;}
-  uint8_t dirEntry(dir_t* dir);
-  /** \return Index of this file's directory in the block dirBlock. */
-  uint8_t dirIndex(void) const {return dirIndex_;}
-  static void dirName(const dir_t& dir, char* name);
-  /** \return The total number of bytes in a file or directory. */
-  uint32_t fileSize(void) const {return fileSize_;}
-  /** \return The first cluster number for a file or directory. */
-  uint32_t firstCluster(void) const {return firstCluster_;}
-  /** \return True if this is a SdFile for a directory else false. */
-  uint8_t isDir(void) const {return type_ >= FAT_FILE_TYPE_MIN_DIR;}
-  /** \return True if this is a SdFile for a file else false. */
-  uint8_t isFile(void) const {return type_ == FAT_FILE_TYPE_NORMAL;}
-  /** \return True if this is a SdFile for an open file/directory else false. */
-  uint8_t isOpen(void) const {return type_ != FAT_FILE_TYPE_CLOSED;}
-  /** \return True if this is a SdFile for a subdirectory else false. */
-  uint8_t isSubDir(void) const {return type_ == FAT_FILE_TYPE_SUBDIR;}
-  /** \return True if this is a SdFile for the root directory. */
-  uint8_t isRoot(void) const {
-    return type_ == FAT_FILE_TYPE_ROOT16 || type_ == FAT_FILE_TYPE_ROOT32;
-  }
-  void ls(uint8_t flags = 0, uint8_t indent = 0);
-  uint8_t makeDir(SdFile* dir, const char* dirName);
-  uint8_t open(SdFile* dirFile, uint16_t index, uint8_t oflag);
-  uint8_t open(SdFile* dirFile, const char* fileName, uint8_t oflag);
-
-  uint8_t openRoot(SdVolume* vol);
-  static void printDirName(const dir_t& dir, uint8_t width);
-  static void printFatDate(uint16_t fatDate);
-  static void printFatTime(uint16_t fatTime);
-  static void printTwoDigits(uint8_t v);
-  /**
-   * Read the next byte from a file.
-   *
-   * \return For success read returns the next byte in the file as an int.
-   * If an error occurs or end of file is reached -1 is returned.
-   */
-  int16_t read(void) {
-    uint8_t b;
-    return read(&b, 1) == 1 ? b : -1;
-  }
-  int16_t read(void* buf, uint16_t nbyte);
-  int8_t readDir(dir_t* dir);
-  static uint8_t remove(SdFile* dirFile, const char* fileName);
-  uint8_t remove(void);
-  /** Set the file's current position to zero. */
-  void rewind(void) {
-    curPosition_ = curCluster_ = 0;
-  }
-  uint8_t rmDir(void);
-  uint8_t rmRfStar(void);
-  /** Set the files position to current position + \a pos. See seekSet(). */
-  uint8_t seekCur(uint32_t pos) {
-    return seekSet(curPosition_ + pos);
-  }
-  /**
-   *  Set the files current position to end of file.  Useful to position
-   *  a file for append. See seekSet().
-   */
-  uint8_t seekEnd(void) {return seekSet(fileSize_);}
-  uint8_t seekSet(uint32_t pos);
-  /**
-   * Use unbuffered reads to access this file.  Used with Wave
-   * Shield ISR.  Used with Sd2Card::partialBlockRead() in WaveRP.
-   *
-   * Not recommended for normal applications.
-   */
-  void setUnbufferedRead(void) {
-    if (isFile()) flags_ |= F_FILE_UNBUFFERED_READ;
-  }
-  uint8_t timestamp(uint8_t flag, uint16_t year, uint8_t month, uint8_t day,
-          uint8_t hour, uint8_t minute, uint8_t second);
-  uint8_t sync(void);
-  /** Type of this SdFile.  You should use isFile() or isDir() instead of type()
-   * if possible.
-   *
-   * \return The file or directory type.
-   */
-  uint8_t type(void) const {return type_;}
-  uint8_t truncate(uint32_t size);
-  /** \return Unbuffered read flag. */
-  uint8_t unbufferedRead(void) const {
-    return flags_ & F_FILE_UNBUFFERED_READ;
-  }
-  /** \return SdVolume that contains this file. */
-  SdVolume* volume(void) const {return vol_;}
-  void write(uint8_t b);
-  int16_t write(const void* buf, uint16_t nbyte);
-  void write(const char* str);
-  void write_P(PGM_P str);
-  void writeln_P(PGM_P str);
-//------------------------------------------------------------------------------
-#if ALLOW_DEPRECATED_FUNCTIONS
-// Deprecated functions  - suppress cpplint warnings with NOLINT comment
-  /** \deprecated Use:
-   * uint8_t SdFile::contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock);
-   */
-  uint8_t contiguousRange(uint32_t& bgnBlock, uint32_t& endBlock) {  // NOLINT
-    return contiguousRange(&bgnBlock, &endBlock);
-  }
- /** \deprecated Use:
-   * uint8_t SdFile::createContiguous(SdFile* dirFile,
-   *   const char* fileName, uint32_t size)
-   */
-  uint8_t createContiguous(SdFile& dirFile,  // NOLINT
-    const char* fileName, uint32_t size) {
-    return createContiguous(&dirFile, fileName, size);
-  }
-
-  /**
-   * \deprecated Use:
-   * static void SdFile::dateTimeCallback(
-   *   void (*dateTime)(uint16_t* date, uint16_t* time));
-   */
-  static void dateTimeCallback(
-    void (*dateTime)(uint16_t& date, uint16_t& time)) {  // NOLINT
-    oldDateTime_ = dateTime;
-    dateTime_ = dateTime ? oldToNew : 0;
-  }
-  /** \deprecated Use: uint8_t SdFile::dirEntry(dir_t* dir); */
-  uint8_t dirEntry(dir_t& dir) {return dirEntry(&dir);}  // NOLINT
-  /** \deprecated Use:
-   * uint8_t SdFile::makeDir(SdFile* dir, const char* dirName);
-   */
-  uint8_t makeDir(SdFile& dir, const char* dirName) {  // NOLINT
-    return makeDir(&dir, dirName);
-  }
-  /** \deprecated Use:
-   * uint8_t SdFile::open(SdFile* dirFile, const char* fileName, uint8_t oflag);
-   */
-  uint8_t open(SdFile& dirFile, // NOLINT
-    const char* fileName, uint8_t oflag) {
-    return open(&dirFile, fileName, oflag);
-  }
-  /** \deprecated  Do not use in new apps */
-  uint8_t open(SdFile& dirFile, const char* fileName) {  // NOLINT
-    return open(dirFile, fileName, O_RDWR);
-  }
-  /** \deprecated Use:
-   * uint8_t SdFile::open(SdFile* dirFile, uint16_t index, uint8_t oflag);
-   */
-  uint8_t open(SdFile& dirFile, uint16_t index, uint8_t oflag) {  // NOLINT
-    return open(&dirFile, index, oflag);
-  }
-  /** \deprecated Use: uint8_t SdFile::openRoot(SdVolume* vol); */
-  uint8_t openRoot(SdVolume& vol) {return openRoot(&vol);}  // NOLINT
-
-  /** \deprecated Use: int8_t SdFile::readDir(dir_t* dir); */
-  int8_t readDir(dir_t& dir) {return readDir(&dir);}  // NOLINT
-  /** \deprecated Use:
-   * static uint8_t SdFile::remove(SdFile* dirFile, const char* fileName);
-   */
-  static uint8_t remove(SdFile& dirFile, const char* fileName) {  // NOLINT
-    return remove(&dirFile, fileName);
-  }
-//------------------------------------------------------------------------------
-// rest are private
- private:
-  static void (*oldDateTime_)(uint16_t& date, uint16_t& time);  // NOLINT
-  static void oldToNew(uint16_t* date, uint16_t* time) {
-    uint16_t d;
-    uint16_t t;
-    oldDateTime_(d, t);
-    *date = d;
-    *time = t;
-  }
-#endif  // ALLOW_DEPRECATED_FUNCTIONS
- private:
-  // bits defined in flags_
-  // should be 0XF
-  static uint8_t const F_OFLAG = (O_ACCMODE | O_APPEND | O_SYNC);
-  // available bits
-  static uint8_t const F_UNUSED = 0X30;
-  // use unbuffered SD read
-  static uint8_t const F_FILE_UNBUFFERED_READ = 0X40;
-  // sync of directory entry required
-  static uint8_t const F_FILE_DIR_DIRTY = 0X80;
-
-// make sure F_OFLAG is ok
-#if ((F_UNUSED | F_FILE_UNBUFFERED_READ | F_FILE_DIR_DIRTY) & F_OFLAG)
-#error flags_ bits conflict
-#endif  // flags_ bits
-
-  // private data
-  uint8_t   flags_;         // See above for definition of flags_ bits
-  uint8_t   type_;          // type of file see above for values
-  uint32_t  curCluster_;    // cluster for current file position
-  uint32_t  curPosition_;   // current file position in bytes from beginning
-  uint32_t  dirBlock_;      // SD block that contains directory entry for file
-  uint8_t   dirIndex_;      // index of entry in dirBlock 0 <= dirIndex_ <= 0XF
-  uint32_t  fileSize_;      // file size in bytes
-  uint32_t  firstCluster_;  // first cluster of file
-  SdVolume* vol_;           // volume where file is located
-
-  // private functions
-  uint8_t addCluster(void);
-  uint8_t addDirCluster(void);
-  dir_t* cacheDirEntry(uint8_t action);
-  static void (*dateTime_)(uint16_t* date, uint16_t* time);
-  static uint8_t make83Name(const char* str, uint8_t* name);
-  uint8_t openCachedEntry(uint8_t cacheIndex, uint8_t oflags);
-  dir_t* readDirCache(void);
-};
-//==============================================================================
-// SdVolume class
-/**
- * \brief Cache for an SD data block
- */
-union cache_t {
-           /** Used to access cached file data blocks. */
-  uint8_t  data[512];
-           /** Used to access cached FAT16 entries. */
-  uint16_t fat16[256];
-           /** Used to access cached FAT32 entries. */
-  uint32_t fat32[128];
-           /** Used to access cached directory entries. */
-  dir_t    dir[16];
-           /** Used to access a cached MasterBoot Record. */
-  mbr_t    mbr;
-           /** Used to access to a cached FAT boot sector. */
-  fbs_t    fbs;
-};
-//------------------------------------------------------------------------------
-/**
- * \class SdVolume
- * \brief Access FAT16 and FAT32 volumes on SD and SDHC cards.
- */
-class SdVolume {
- public:
-  /** Create an instance of SdVolume */
-  SdVolume(void) :allocSearchStart_(2), fatType_(0) {}
-  /** Clear the cache and returns a pointer to the cache.  Used by the WaveRP
-   *  recorder to do raw write to the SD card.  Not for normal apps.
-   */
-  static uint8_t* cacheClear(void) {
-    cacheFlush();
-    cacheBlockNumber_ = 0XFFFFFFFF;
-    return cacheBuffer_.data;
-  }
-  /**
-   * Initialize a FAT volume.  Try partition one first then try super
-   * floppy format.
-   *
-   * \param[in] dev The Sd2Card where the volume is located.
-   *
-   * \return The value one, true, is returned for success and
-   * the value zero, false, is returned for failure.  Reasons for
-   * failure include not finding a valid partition, not finding a valid
-   * FAT file system or an I/O error.
-   */
-  uint8_t init(Sd2Card* dev) { return init(dev, 1) ? true : init(dev, 0);}
-  uint8_t init(Sd2Card* dev, uint8_t part);
-
-  // inline functions that return volume info
-  /** \return The volume's cluster size in blocks. */
-  uint8_t blocksPerCluster(void) const {return blocksPerCluster_;}
-  /** \return The number of blocks in one FAT. */
-  uint32_t blocksPerFat(void)  const {return blocksPerFat_;}
-  /** \return The total number of clusters in the volume. */
-  uint32_t clusterCount(void) const {return clusterCount_;}
-  /** \return The shift count required to multiply by blocksPerCluster. */
-  uint8_t clusterSizeShift(void) const {return clusterSizeShift_;}
-  /** \return The logical block number for the start of file data. */
-  uint32_t dataStartBlock(void) const {return dataStartBlock_;}
-  /** \return The number of FAT structures on the volume. */
-  uint8_t fatCount(void) const {return fatCount_;}
-  /** \return The logical block number for the start of the first FAT. */
-  uint32_t fatStartBlock(void) const {return fatStartBlock_;}
-  /** \return The FAT type of the volume. Values are 12, 16 or 32. */
-  uint8_t fatType(void) const {return fatType_;}
-  /** \return The number of entries in the root directory for FAT16 volumes. */
-  uint32_t rootDirEntryCount(void) const {return rootDirEntryCount_;}
-  /** \return The logical block number for the start of the root directory
-       on FAT16 volumes or the first cluster number on FAT32 volumes. */
-  uint32_t rootDirStart(void) const {return rootDirStart_;}
-  /** return a pointer to the Sd2Card object for this volume */
-  static Sd2Card* sdCard(void) {return sdCard_;}
-//------------------------------------------------------------------------------
-#if ALLOW_DEPRECATED_FUNCTIONS
-  // Deprecated functions  - suppress cpplint warnings with NOLINT comment
-  /** \deprecated Use: uint8_t SdVolume::init(Sd2Card* dev); */
-  uint8_t init(Sd2Card& dev) {return init(&dev);}  // NOLINT
-
-  /** \deprecated Use: uint8_t SdVolume::init(Sd2Card* dev, uint8_t vol); */
-  uint8_t init(Sd2Card& dev, uint8_t part) {  // NOLINT
-    return init(&dev, part);
-  }
-#endif  // ALLOW_DEPRECATED_FUNCTIONS
-//------------------------------------------------------------------------------
-  private:
-  // Allow SdFile access to SdVolume private data.
-  friend class SdFile;
-
-  // value for action argument in cacheRawBlock to indicate read from cache
-  static uint8_t const CACHE_FOR_READ = 0;
-  // value for action argument in cacheRawBlock to indicate cache dirty
-  static uint8_t const CACHE_FOR_WRITE = 1;
-
-  static cache_t cacheBuffer_;        // 512 byte cache for device blocks
-  static uint32_t cacheBlockNumber_;  // Logical number of block in the cache
-  static Sd2Card* sdCard_;            // Sd2Card object for cache
-  static uint8_t cacheDirty_;         // cacheFlush() will write block if true
-  static uint32_t cacheMirrorBlock_;  // block number for mirror FAT
-//
-  uint32_t allocSearchStart_;   // start cluster for alloc search
-  uint8_t blocksPerCluster_;    // cluster size in blocks
-  uint32_t blocksPerFat_;       // FAT size in blocks
-  uint32_t clusterCount_;       // clusters in one FAT
-  uint8_t clusterSizeShift_;    // shift to convert cluster count to block count
-  uint32_t dataStartBlock_;     // first data block number
-  uint8_t fatCount_;            // number of FATs on volume
-  uint32_t fatStartBlock_;      // start block for first FAT
-  uint8_t fatType_;             // volume type (12, 16, OR 32)
-  uint16_t rootDirEntryCount_;  // number of entries in FAT16 root dir
-  uint32_t rootDirStart_;       // root start block for FAT16, cluster for FAT32
-  //----------------------------------------------------------------------------
-  uint8_t allocContiguous(uint32_t count, uint32_t* curCluster);
-  uint8_t blockOfCluster(uint32_t position) const {
-          return (position >> 9) & (blocksPerCluster_ - 1);}
-  uint32_t clusterStartBlock(uint32_t cluster) const {
-           return dataStartBlock_ + ((cluster - 2) << clusterSizeShift_);}
-  uint32_t blockNumber(uint32_t cluster, uint32_t position) const {
-           return clusterStartBlock(cluster) + blockOfCluster(position);}
-  static uint8_t cacheFlush(void);
-  static uint8_t cacheRawBlock(uint32_t blockNumber, uint8_t action);
-  static void cacheSetDirty(void) {cacheDirty_ |= CACHE_FOR_WRITE;}
-  static uint8_t cacheZeroBlock(uint32_t blockNumber);
-  uint8_t chainSize(uint32_t beginCluster, uint32_t* size) const;
-  uint8_t fatGet(uint32_t cluster, uint32_t* value) const;
-  uint8_t fatPut(uint32_t cluster, uint32_t value);
-  uint8_t fatPutEOC(uint32_t cluster) {
-    return fatPut(cluster, 0x0FFFFFFF);
-  }
-  uint8_t freeChain(uint32_t cluster);
-  uint8_t isEOC(uint32_t cluster) const {
-    return  cluster >= (fatType_ == 16 ? FAT16EOC_MIN : FAT32EOC_MIN);
-  }
-  uint8_t readBlock(uint32_t block, uint8_t* dst) {
-    return sdCard_->readBlock(block, dst);}
-  uint8_t readData(uint32_t block, uint16_t offset,
-    uint16_t count, uint8_t* dst) {
-      return sdCard_->readData(block, offset, count, dst);
-  }
-  uint8_t writeBlock(uint32_t block, const uint8_t* dst) {
-    return sdCard_->writeBlock(block, dst);
-  }
-};
-#endif  // SdFat_h
+/* Arduino SdFat Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#ifndef SdFat_h
+#define SdFat_h
+/**
+ * \file
+ * SdFile and SdVolume classes
+ */
+#include <avr/pgmspace.h>
+#include "Sd2Card.h"
+#include "FatStructs.h"
+#include "Print.h"
+//------------------------------------------------------------------------------
+/**
+ * Allow use of deprecated functions if non-zero
+ */
+#define ALLOW_DEPRECATED_FUNCTIONS 1
+//------------------------------------------------------------------------------
+// forward declaration since SdVolume is used in SdFile
+class SdVolume;
+//==============================================================================
+// SdFile class
+
+// flags for ls()
+/** ls() flag to print modify date */
+uint8_t const LS_DATE = 1;
+/** ls() flag to print file size */
+uint8_t const LS_SIZE = 2;
+/** ls() flag for recursive list of subdirectories */
+uint8_t const LS_R = 4;
+
+// use the gnu style oflag in open()
+/** open() oflag for reading */
+uint8_t const O_READ = 0X01;
+/** open() oflag - same as O_READ */
+uint8_t const O_RDONLY = O_READ;
+/** open() oflag for write */
+uint8_t const O_WRITE = 0X02;
+/** open() oflag - same as O_WRITE */
+uint8_t const O_WRONLY = O_WRITE;
+/** open() oflag for reading and writing */
+uint8_t const O_RDWR = (O_READ | O_WRITE);
+/** open() oflag mask for access modes */
+uint8_t const O_ACCMODE = (O_READ | O_WRITE);
+/** The file offset shall be set to the end of the file prior to each write. */
+uint8_t const O_APPEND = 0X04;
+/** synchronous writes - call sync() after each write */
+uint8_t const O_SYNC = 0X08;
+/** create the file if nonexistent */
+uint8_t const O_CREAT = 0X10;
+/** If O_CREAT and O_EXCL are set, open() shall fail if the file exists */
+uint8_t const O_EXCL = 0X20;
+/** truncate the file to zero length */
+uint8_t const O_TRUNC = 0X40;
+
+// flags for timestamp
+/** set the file's last access date */
+uint8_t const T_ACCESS = 1;
+/** set the file's creation date and time */
+uint8_t const T_CREATE = 2;
+/** Set the file's write date and time */
+uint8_t const T_WRITE = 4;
+// values for type_
+/** This SdFile has not been opened. */
+uint8_t const FAT_FILE_TYPE_CLOSED = 0;
+/** SdFile for a file */
+uint8_t const FAT_FILE_TYPE_NORMAL = 1;
+/** SdFile for a FAT16 root directory */
+uint8_t const FAT_FILE_TYPE_ROOT16 = 2;
+/** SdFile for a FAT32 root directory */
+uint8_t const FAT_FILE_TYPE_ROOT32 = 3;
+/** SdFile for a subdirectory */
+uint8_t const FAT_FILE_TYPE_SUBDIR = 4;
+/** Test value for directory type */
+uint8_t const FAT_FILE_TYPE_MIN_DIR = FAT_FILE_TYPE_ROOT16;
+
+/** date field for FAT directory entry */
+static inline uint16_t FAT_DATE(uint16_t year, uint8_t month, uint8_t day) {
+  return (year - 1980) << 9 | month << 5 | day;
+}
+/** year part of FAT directory date field */
+static inline uint16_t FAT_YEAR(uint16_t fatDate) {
+  return 1980 + (fatDate >> 9);
+}
+/** month part of FAT directory date field */
+static inline uint8_t FAT_MONTH(uint16_t fatDate) {
+  return (fatDate >> 5) & 0XF;
+}
+/** day part of FAT directory date field */
+static inline uint8_t FAT_DAY(uint16_t fatDate) {
+  return fatDate & 0X1F;
+}
+/** time field for FAT directory entry */
+static inline uint16_t FAT_TIME(uint8_t hour, uint8_t minute, uint8_t second) {
+  return hour << 11 | minute << 5 | second >> 1;
+}
+/** hour part of FAT directory time field */
+static inline uint8_t FAT_HOUR(uint16_t fatTime) {
+  return fatTime >> 11;
+}
+/** minute part of FAT directory time field */
+static inline uint8_t FAT_MINUTE(uint16_t fatTime) {
+  return(fatTime >> 5) & 0X3F;
+}
+/** second part of FAT directory time field */
+static inline uint8_t FAT_SECOND(uint16_t fatTime) {
+  return 2*(fatTime & 0X1F);
+}
+/** Default date for file timestamps is 1 Jan 2000 */
+uint16_t const FAT_DEFAULT_DATE = ((2000 - 1980) << 9) | (1 << 5) | 1;
+/** Default time for file timestamp is 1 am */
+uint16_t const FAT_DEFAULT_TIME = (1 << 11);
+//------------------------------------------------------------------------------
+/**
+ * \class SdFile
+ * \brief Access FAT16 and FAT32 files on SD and SDHC cards.
+ */
+class SdFile : public Print {
+ public:
+  /** Create an instance of SdFile. */
+  SdFile(void) : type_(FAT_FILE_TYPE_CLOSED) {}
+  /**
+   * writeError is set to true if an error occurs during a write().
+   * Set writeError to false before calling print() and/or write() and check
+   * for true after calls to print() and/or write().
+   */
+  bool writeError;
+  /**
+   * Cancel unbuffered reads for this file.
+   * See setUnbufferedRead()
+   */
+  void clearUnbufferedRead(void) {
+    flags_ &= ~F_FILE_UNBUFFERED_READ;
+  }
+  uint8_t close(void);
+  uint8_t contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock);
+  uint8_t createContiguous(SdFile* dirFile,
+          const char* fileName, uint32_t size);
+  /** \return The current cluster number for a file or directory. */
+  uint32_t curCluster(void) const {return curCluster_;}
+  /** \return The current position for a file or directory. */
+  uint32_t curPosition(void) const {return curPosition_;}
+  /**
+   * Set the date/time callback function
+   *
+   * \param[in] dateTime The user's call back function.  The callback
+   * function is of the form:
+   *
+   * \code
+   * void dateTime(uint16_t* date, uint16_t* time) {
+   *   uint16_t year;
+   *   uint8_t month, day, hour, minute, second;
+   *
+   *   // User gets date and time from GPS or real-time clock here
+   *
+   *   // return date using FAT_DATE macro to format fields
+   *   *date = FAT_DATE(year, month, day);
+   *
+   *   // return time using FAT_TIME macro to format fields
+   *   *time = FAT_TIME(hour, minute, second);
+   * }
+   * \endcode
+   *
+   * Sets the function that is called when a file is created or when
+   * a file's directory entry is modified by sync(). All timestamps,
+   * access, creation, and modify, are set when a file is created.
+   * sync() maintains the last access date and last modify date/time.
+   *
+   * See the timestamp() function.
+   */
+  static void dateTimeCallback(
+    void (*dateTime)(uint16_t* date, uint16_t* time)) {
+    dateTime_ = dateTime;
+  }
+  /**
+   * Cancel the date/time callback function.
+   */
+  static void dateTimeCallbackCancel(void) {
+    // use explicit zero since NULL is not defined for Sanguino
+    dateTime_ = 0;
+  }
+  /** \return Address of the block that contains this file's directory. */
+  uint32_t dirBlock(void) const {return dirBlock_;}
+  uint8_t dirEntry(dir_t* dir);
+  /** \return Index of this file's directory in the block dirBlock. */
+  uint8_t dirIndex(void) const {return dirIndex_;}
+  static void dirName(const dir_t& dir, char* name);
+  /** \return The total number of bytes in a file or directory. */
+  uint32_t fileSize(void) const {return fileSize_;}
+  /** \return The first cluster number for a file or directory. */
+  uint32_t firstCluster(void) const {return firstCluster_;}
+  /** \return True if this is a SdFile for a directory else false. */
+  uint8_t isDir(void) const {return type_ >= FAT_FILE_TYPE_MIN_DIR;}
+  /** \return True if this is a SdFile for a file else false. */
+  uint8_t isFile(void) const {return type_ == FAT_FILE_TYPE_NORMAL;}
+  /** \return True if this is a SdFile for an open file/directory else false. */
+  uint8_t isOpen(void) const {return type_ != FAT_FILE_TYPE_CLOSED;}
+  /** \return True if this is a SdFile for a subdirectory else false. */
+  uint8_t isSubDir(void) const {return type_ == FAT_FILE_TYPE_SUBDIR;}
+  /** \return True if this is a SdFile for the root directory. */
+  uint8_t isRoot(void) const {
+    return type_ == FAT_FILE_TYPE_ROOT16 || type_ == FAT_FILE_TYPE_ROOT32;
+  }
+  void ls(uint8_t flags = 0, uint8_t indent = 0);
+  uint8_t makeDir(SdFile* dir, const char* dirName);
+  uint8_t open(SdFile* dirFile, uint16_t index, uint8_t oflag);
+  uint8_t open(SdFile* dirFile, const char* fileName, uint8_t oflag);
+
+  uint8_t openRoot(SdVolume* vol);
+  static void printDirName(const dir_t& dir, uint8_t width);
+  static void printFatDate(uint16_t fatDate);
+  static void printFatTime(uint16_t fatTime);
+  static void printTwoDigits(uint8_t v);
+  /**
+   * Read the next byte from a file.
+   *
+   * \return For success read returns the next byte in the file as an int.
+   * If an error occurs or end of file is reached -1 is returned.
+   */
+  int16_t read(void) {
+    uint8_t b;
+    return read(&b, 1) == 1 ? b : -1;
+  }
+  int16_t read(void* buf, uint16_t nbyte);
+  int8_t readDir(dir_t* dir);
+  static uint8_t remove(SdFile* dirFile, const char* fileName);
+  uint8_t remove(void);
+  /** Set the file's current position to zero. */
+  void rewind(void) {
+    curPosition_ = curCluster_ = 0;
+  }
+  uint8_t rmDir(void);
+  uint8_t rmRfStar(void);
+  /** Set the files position to current position + \a pos. See seekSet(). */
+  uint8_t seekCur(uint32_t pos) {
+    return seekSet(curPosition_ + pos);
+  }
+  /**
+   *  Set the files current position to end of file.  Useful to position
+   *  a file for append. See seekSet().
+   */
+  uint8_t seekEnd(void) {return seekSet(fileSize_);}
+  uint8_t seekSet(uint32_t pos);
+  /**
+   * Use unbuffered reads to access this file.  Used with Wave
+   * Shield ISR.  Used with Sd2Card::partialBlockRead() in WaveRP.
+   *
+   * Not recommended for normal applications.
+   */
+  void setUnbufferedRead(void) {
+    if (isFile()) flags_ |= F_FILE_UNBUFFERED_READ;
+  }
+  uint8_t timestamp(uint8_t flag, uint16_t year, uint8_t month, uint8_t day,
+          uint8_t hour, uint8_t minute, uint8_t second);
+  uint8_t sync(void);
+  /** Type of this SdFile.  You should use isFile() or isDir() instead of type()
+   * if possible.
+   *
+   * \return The file or directory type.
+   */
+  uint8_t type(void) const {return type_;}
+  uint8_t truncate(uint32_t size);
+  /** \return Unbuffered read flag. */
+  uint8_t unbufferedRead(void) const {
+    return flags_ & F_FILE_UNBUFFERED_READ;
+  }
+  /** \return SdVolume that contains this file. */
+  SdVolume* volume(void) const {return vol_;}
+  void write(uint8_t b);
+  int16_t write(const void* buf, uint16_t nbyte);
+  void write(const char* str);
+  void write_P(PGM_P str);
+  void writeln_P(PGM_P str);
+//------------------------------------------------------------------------------
+#if ALLOW_DEPRECATED_FUNCTIONS
+// Deprecated functions  - suppress cpplint warnings with NOLINT comment
+  /** \deprecated Use:
+   * uint8_t SdFile::contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock);
+   */
+  uint8_t contiguousRange(uint32_t& bgnBlock, uint32_t& endBlock) {  // NOLINT
+    return contiguousRange(&bgnBlock, &endBlock);
+  }
+ /** \deprecated Use:
+   * uint8_t SdFile::createContiguous(SdFile* dirFile,
+   *   const char* fileName, uint32_t size)
+   */
+  uint8_t createContiguous(SdFile& dirFile,  // NOLINT
+    const char* fileName, uint32_t size) {
+    return createContiguous(&dirFile, fileName, size);
+  }
+
+  /**
+   * \deprecated Use:
+   * static void SdFile::dateTimeCallback(
+   *   void (*dateTime)(uint16_t* date, uint16_t* time));
+   */
+  static void dateTimeCallback(
+    void (*dateTime)(uint16_t& date, uint16_t& time)) {  // NOLINT
+    oldDateTime_ = dateTime;
+    dateTime_ = dateTime ? oldToNew : 0;
+  }
+  /** \deprecated Use: uint8_t SdFile::dirEntry(dir_t* dir); */
+  uint8_t dirEntry(dir_t& dir) {return dirEntry(&dir);}  // NOLINT
+  /** \deprecated Use:
+   * uint8_t SdFile::makeDir(SdFile* dir, const char* dirName);
+   */
+  uint8_t makeDir(SdFile& dir, const char* dirName) {  // NOLINT
+    return makeDir(&dir, dirName);
+  }
+  /** \deprecated Use:
+   * uint8_t SdFile::open(SdFile* dirFile, const char* fileName, uint8_t oflag);
+   */
+  uint8_t open(SdFile& dirFile, // NOLINT
+    const char* fileName, uint8_t oflag) {
+    return open(&dirFile, fileName, oflag);
+  }
+  /** \deprecated  Do not use in new apps */
+  uint8_t open(SdFile& dirFile, const char* fileName) {  // NOLINT
+    return open(dirFile, fileName, O_RDWR);
+  }
+  /** \deprecated Use:
+   * uint8_t SdFile::open(SdFile* dirFile, uint16_t index, uint8_t oflag);
+   */
+  uint8_t open(SdFile& dirFile, uint16_t index, uint8_t oflag) {  // NOLINT
+    return open(&dirFile, index, oflag);
+  }
+  /** \deprecated Use: uint8_t SdFile::openRoot(SdVolume* vol); */
+  uint8_t openRoot(SdVolume& vol) {return openRoot(&vol);}  // NOLINT
+
+  /** \deprecated Use: int8_t SdFile::readDir(dir_t* dir); */
+  int8_t readDir(dir_t& dir) {return readDir(&dir);}  // NOLINT
+  /** \deprecated Use:
+   * static uint8_t SdFile::remove(SdFile* dirFile, const char* fileName);
+   */
+  static uint8_t remove(SdFile& dirFile, const char* fileName) {  // NOLINT
+    return remove(&dirFile, fileName);
+  }
+//------------------------------------------------------------------------------
+// rest are private
+ private:
+  static void (*oldDateTime_)(uint16_t& date, uint16_t& time);  // NOLINT
+  static void oldToNew(uint16_t* date, uint16_t* time) {
+    uint16_t d;
+    uint16_t t;
+    oldDateTime_(d, t);
+    *date = d;
+    *time = t;
+  }
+#endif  // ALLOW_DEPRECATED_FUNCTIONS
+ private:
+  // bits defined in flags_
+  // should be 0XF
+  static uint8_t const F_OFLAG = (O_ACCMODE | O_APPEND | O_SYNC);
+  // available bits
+  static uint8_t const F_UNUSED = 0X30;
+  // use unbuffered SD read
+  static uint8_t const F_FILE_UNBUFFERED_READ = 0X40;
+  // sync of directory entry required
+  static uint8_t const F_FILE_DIR_DIRTY = 0X80;
+
+// make sure F_OFLAG is ok
+#if ((F_UNUSED | F_FILE_UNBUFFERED_READ | F_FILE_DIR_DIRTY) & F_OFLAG)
+#error flags_ bits conflict
+#endif  // flags_ bits
+
+  // private data
+  uint8_t   flags_;         // See above for definition of flags_ bits
+  uint8_t   type_;          // type of file see above for values
+  uint32_t  curCluster_;    // cluster for current file position
+  uint32_t  curPosition_;   // current file position in bytes from beginning
+  uint32_t  dirBlock_;      // SD block that contains directory entry for file
+  uint8_t   dirIndex_;      // index of entry in dirBlock 0 <= dirIndex_ <= 0XF
+  uint32_t  fileSize_;      // file size in bytes
+  uint32_t  firstCluster_;  // first cluster of file
+  SdVolume* vol_;           // volume where file is located
+
+  // private functions
+  uint8_t addCluster(void);
+  uint8_t addDirCluster(void);
+  dir_t* cacheDirEntry(uint8_t action);
+  static void (*dateTime_)(uint16_t* date, uint16_t* time);
+  static uint8_t make83Name(const char* str, uint8_t* name);
+  uint8_t openCachedEntry(uint8_t cacheIndex, uint8_t oflags);
+  dir_t* readDirCache(void);
+};
+//==============================================================================
+// SdVolume class
+/**
+ * \brief Cache for an SD data block
+ */
+union cache_t {
+           /** Used to access cached file data blocks. */
+  uint8_t  data[512];
+           /** Used to access cached FAT16 entries. */
+  uint16_t fat16[256];
+           /** Used to access cached FAT32 entries. */
+  uint32_t fat32[128];
+           /** Used to access cached directory entries. */
+  dir_t    dir[16];
+           /** Used to access a cached MasterBoot Record. */
+  mbr_t    mbr;
+           /** Used to access to a cached FAT boot sector. */
+  fbs_t    fbs;
+};
+//------------------------------------------------------------------------------
+/**
+ * \class SdVolume
+ * \brief Access FAT16 and FAT32 volumes on SD and SDHC cards.
+ */
+class SdVolume {
+ public:
+  /** Create an instance of SdVolume */
+  SdVolume(void) :allocSearchStart_(2), fatType_(0) {}
+  /** Clear the cache and returns a pointer to the cache.  Used by the WaveRP
+   *  recorder to do raw write to the SD card.  Not for normal apps.
+   */
+  static uint8_t* cacheClear(void) {
+    cacheFlush();
+    cacheBlockNumber_ = 0XFFFFFFFF;
+    return cacheBuffer_.data;
+  }
+  /**
+   * Initialize a FAT volume.  Try partition one first then try super
+   * floppy format.
+   *
+   * \param[in] dev The Sd2Card where the volume is located.
+   *
+   * \return The value one, true, is returned for success and
+   * the value zero, false, is returned for failure.  Reasons for
+   * failure include not finding a valid partition, not finding a valid
+   * FAT file system or an I/O error.
+   */
+  uint8_t init(Sd2Card* dev) { return init(dev, 1) ? true : init(dev, 0);}
+  uint8_t init(Sd2Card* dev, uint8_t part);
+
+  // inline functions that return volume info
+  /** \return The volume's cluster size in blocks. */
+  uint8_t blocksPerCluster(void) const {return blocksPerCluster_;}
+  /** \return The number of blocks in one FAT. */
+  uint32_t blocksPerFat(void)  const {return blocksPerFat_;}
+  /** \return The total number of clusters in the volume. */
+  uint32_t clusterCount(void) const {return clusterCount_;}
+  /** \return The shift count required to multiply by blocksPerCluster. */
+  uint8_t clusterSizeShift(void) const {return clusterSizeShift_;}
+  /** \return The logical block number for the start of file data. */
+  uint32_t dataStartBlock(void) const {return dataStartBlock_;}
+  /** \return The number of FAT structures on the volume. */
+  uint8_t fatCount(void) const {return fatCount_;}
+  /** \return The logical block number for the start of the first FAT. */
+  uint32_t fatStartBlock(void) const {return fatStartBlock_;}
+  /** \return The FAT type of the volume. Values are 12, 16 or 32. */
+  uint8_t fatType(void) const {return fatType_;}
+  /** \return The number of entries in the root directory for FAT16 volumes. */
+  uint32_t rootDirEntryCount(void) const {return rootDirEntryCount_;}
+  /** \return The logical block number for the start of the root directory
+       on FAT16 volumes or the first cluster number on FAT32 volumes. */
+  uint32_t rootDirStart(void) const {return rootDirStart_;}
+  /** return a pointer to the Sd2Card object for this volume */
+  static Sd2Card* sdCard(void) {return sdCard_;}
+//------------------------------------------------------------------------------
+#if ALLOW_DEPRECATED_FUNCTIONS
+  // Deprecated functions  - suppress cpplint warnings with NOLINT comment
+  /** \deprecated Use: uint8_t SdVolume::init(Sd2Card* dev); */
+  uint8_t init(Sd2Card& dev) {return init(&dev);}  // NOLINT
+
+  /** \deprecated Use: uint8_t SdVolume::init(Sd2Card* dev, uint8_t vol); */
+  uint8_t init(Sd2Card& dev, uint8_t part) {  // NOLINT
+    return init(&dev, part);
+  }
+#endif  // ALLOW_DEPRECATED_FUNCTIONS
+//------------------------------------------------------------------------------
+  private:
+  // Allow SdFile access to SdVolume private data.
+  friend class SdFile;
+
+  // value for action argument in cacheRawBlock to indicate read from cache
+  static uint8_t const CACHE_FOR_READ = 0;
+  // value for action argument in cacheRawBlock to indicate cache dirty
+  static uint8_t const CACHE_FOR_WRITE = 1;
+
+  static cache_t cacheBuffer_;        // 512 byte cache for device blocks
+  static uint32_t cacheBlockNumber_;  // Logical number of block in the cache
+  static Sd2Card* sdCard_;            // Sd2Card object for cache
+  static uint8_t cacheDirty_;         // cacheFlush() will write block if true
+  static uint32_t cacheMirrorBlock_;  // block number for mirror FAT
+//
+  uint32_t allocSearchStart_;   // start cluster for alloc search
+  uint8_t blocksPerCluster_;    // cluster size in blocks
+  uint32_t blocksPerFat_;       // FAT size in blocks
+  uint32_t clusterCount_;       // clusters in one FAT
+  uint8_t clusterSizeShift_;    // shift to convert cluster count to block count
+  uint32_t dataStartBlock_;     // first data block number
+  uint8_t fatCount_;            // number of FATs on volume
+  uint32_t fatStartBlock_;      // start block for first FAT
+  uint8_t fatType_;             // volume type (12, 16, OR 32)
+  uint16_t rootDirEntryCount_;  // number of entries in FAT16 root dir
+  uint32_t rootDirStart_;       // root start block for FAT16, cluster for FAT32
+  //----------------------------------------------------------------------------
+  uint8_t allocContiguous(uint32_t count, uint32_t* curCluster);
+  uint8_t blockOfCluster(uint32_t position) const {
+          return (position >> 9) & (blocksPerCluster_ - 1);}
+  uint32_t clusterStartBlock(uint32_t cluster) const {
+           return dataStartBlock_ + ((cluster - 2) << clusterSizeShift_);}
+  uint32_t blockNumber(uint32_t cluster, uint32_t position) const {
+           return clusterStartBlock(cluster) + blockOfCluster(position);}
+  static uint8_t cacheFlush(void);
+  static uint8_t cacheRawBlock(uint32_t blockNumber, uint8_t action);
+  static void cacheSetDirty(void) {cacheDirty_ |= CACHE_FOR_WRITE;}
+  static uint8_t cacheZeroBlock(uint32_t blockNumber);
+  uint8_t chainSize(uint32_t beginCluster, uint32_t* size) const;
+  uint8_t fatGet(uint32_t cluster, uint32_t* value) const;
+  uint8_t fatPut(uint32_t cluster, uint32_t value);
+  uint8_t fatPutEOC(uint32_t cluster) {
+    return fatPut(cluster, 0x0FFFFFFF);
+  }
+  uint8_t freeChain(uint32_t cluster);
+  uint8_t isEOC(uint32_t cluster) const {
+    return  cluster >= (fatType_ == 16 ? FAT16EOC_MIN : FAT32EOC_MIN);
+  }
+  uint8_t readBlock(uint32_t block, uint8_t* dst) {
+    return sdCard_->readBlock(block, dst);}
+  uint8_t readData(uint32_t block, uint16_t offset,
+    uint16_t count, uint8_t* dst) {
+      return sdCard_->readData(block, offset, count, dst);
+  }
+  uint8_t writeBlock(uint32_t block, const uint8_t* dst) {
+    return sdCard_->writeBlock(block, dst);
+  }
+};
+#endif  // SdFat_h
diff --git a/Marlin/SdFatUtil.h b/Marlin/SdFatUtil.h
index 7992031f7..8bf90483d 100644
--- a/Marlin/SdFatUtil.h
+++ b/Marlin/SdFatUtil.h
@@ -1,70 +1,70 @@
-/* Arduino SdFat Library
- * Copyright (C) 2008 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
-
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#ifndef SdFatUtil_h
-#define SdFatUtil_h
-/**
- * \file
- * Useful utility functions.
- */
-#include <WProgram.h>
-#include <avr/pgmspace.h>
-/** Store and print a string in flash memory.*/
-#define PgmPrint(x) SerialPrint_P(PSTR(x))
-/** Store and print a string in flash memory followed by a CR/LF.*/
-#define PgmPrintln(x) SerialPrintln_P(PSTR(x))
-/** Defined so doxygen works for function definitions. */
-#define NOINLINE __attribute__((noinline))
-//------------------------------------------------------------------------------
-/** Return the number of bytes currently free in RAM. */
-static int FreeRam(void) {
-  extern int  __bss_end;
-  extern int* __brkval;
-  int free_memory;
-  if (reinterpret_cast<int>(__brkval) == 0) {
-    // if no heap use from end of bss section
-    free_memory = reinterpret_cast<int>(&free_memory)
-                  - reinterpret_cast<int>(&__bss_end);
-  } else {
-    // use from top of stack to heap
-    free_memory = reinterpret_cast<int>(&free_memory)
-                  - reinterpret_cast<int>(__brkval);
-  }
-  return free_memory;
-}
-//------------------------------------------------------------------------------
-/**
- * %Print a string in flash memory to the serial port.
- *
- * \param[in] str Pointer to string stored in flash memory.
- */
-static NOINLINE void SerialPrint_P(PGM_P str) {
-  for (uint8_t c; (c = pgm_read_byte(str)); str++) Serial.print(c);
-}
-//------------------------------------------------------------------------------
-/**
- * %Print a string in flash memory followed by a CR/LF.
- *
- * \param[in] str Pointer to string stored in flash memory.
- */
-static NOINLINE void SerialPrintln_P(PGM_P str) {
-  SerialPrint_P(str);
-  Serial.println();
-}
-#endif  // #define SdFatUtil_h
+/* Arduino SdFat Library
+ * Copyright (C) 2008 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#ifndef SdFatUtil_h
+#define SdFatUtil_h
+/**
+ * \file
+ * Useful utility functions.
+ */
+#include <WProgram.h>
+#include <avr/pgmspace.h>
+/** Store and print a string in flash memory.*/
+#define PgmPrint(x) SerialPrint_P(PSTR(x))
+/** Store and print a string in flash memory followed by a CR/LF.*/
+#define PgmPrintln(x) SerialPrintln_P(PSTR(x))
+/** Defined so doxygen works for function definitions. */
+#define NOINLINE __attribute__((noinline))
+//------------------------------------------------------------------------------
+/** Return the number of bytes currently free in RAM. */
+static int FreeRam(void) {
+  extern int  __bss_end;
+  extern int* __brkval;
+  int free_memory;
+  if (reinterpret_cast<int>(__brkval) == 0) {
+    // if no heap use from end of bss section
+    free_memory = reinterpret_cast<int>(&free_memory)
+                  - reinterpret_cast<int>(&__bss_end);
+  } else {
+    // use from top of stack to heap
+    free_memory = reinterpret_cast<int>(&free_memory)
+                  - reinterpret_cast<int>(__brkval);
+  }
+  return free_memory;
+}
+//------------------------------------------------------------------------------
+/**
+ * %Print a string in flash memory to the serial port.
+ *
+ * \param[in] str Pointer to string stored in flash memory.
+ */
+static NOINLINE void SerialPrint_P(PGM_P str) {
+  for (uint8_t c; (c = pgm_read_byte(str)); str++) Serial.print(c);
+}
+//------------------------------------------------------------------------------
+/**
+ * %Print a string in flash memory followed by a CR/LF.
+ *
+ * \param[in] str Pointer to string stored in flash memory.
+ */
+static NOINLINE void SerialPrintln_P(PGM_P str) {
+  SerialPrint_P(str);
+  Serial.println();
+}
+#endif  // #define SdFatUtil_h
diff --git a/Marlin/SdFatmainpage.h b/Marlin/SdFatmainpage.h
index d26cb854c..73b3b63bd 100644
--- a/Marlin/SdFatmainpage.h
+++ b/Marlin/SdFatmainpage.h
@@ -1,202 +1,202 @@
-/* Arduino SdFat Library
- * Copyright (C) 2009 by William Greiman
- *  
- * This file is part of the Arduino SdFat Library
- *  
- * This Library is free software: you can redistribute it and/or modify 
- * it under the terms of the GNU General Public License as published by 
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- * 
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-
-/**
-\mainpage Arduino SdFat Library
-<CENTER>Copyright &copy; 2009 by William Greiman
-</CENTER>
-
-\section Intro Introduction
-The Arduino SdFat Library is a minimal implementation of FAT16 and FAT32
-file systems on SD flash memory cards.  Standard SD and high capacity
-SDHC cards are supported.
-
-The SdFat only supports short 8.3 names.
-
-The main classes in SdFat are Sd2Card, SdVolume, and SdFile.
-
-The Sd2Card class supports access to standard SD cards and SDHC cards.  Most
-applications will only need to call the Sd2Card::init() member function.
-
-The SdVolume class supports FAT16 and FAT32 partitions.  Most applications
-will only need to call the SdVolume::init() member function.
-
-The SdFile class provides file access functions such as open(), read(),
-remove(), write(), close() and sync(). This class supports access to the root
-directory and subdirectories.
-
-A number of example are provided in the SdFat/examples folder.  These were
-developed to test SdFat and illustrate its use.
-
-SdFat was developed for high speed data recording.  SdFat was used to implement
-an audio record/play class, WaveRP, for the Adafruit Wave Shield.  This
-application uses special Sd2Card calls to write to contiguous files in raw mode.
-These functions reduce write latency so that audio can be recorded with the
-small amount of RAM in the Arduino.
-
-\section SDcard SD\SDHC Cards
-
-Arduinos access SD cards using the cards SPI protocol.  PCs, Macs, and
-most consumer devices use the 4-bit parallel SD protocol.  A card that
-functions well on A PC or Mac may not work well on the Arduino.
-
-Most cards have good SPI read performance but cards vary widely in SPI
-write performance.  Write performance is limited by how efficiently the
-card manages internal erase/remapping operations.  The Arduino cannot
-optimize writes to reduce erase operations because of its limit RAM.
-
-SanDisk cards generally have good write performance.  They seem to have
-more internal RAM buffering than other cards and therefore can limit
-the number of flash erase operations that the Arduino forces due to its
-limited RAM.
-
-\section Hardware Hardware Configuration
-
-SdFat was developed using an
-<A HREF = "http://www.adafruit.com/"> Adafruit Industries</A> 
-<A HREF = "http://www.ladyada.net/make/waveshield/"> Wave Shield</A>.
-
-The hardware interface to the SD card should not use a resistor based level
-shifter.  SdFat sets the SPI bus frequency to 8 MHz which results in signal
-rise times that are too slow for the edge detectors in many newer SD card
-controllers when resistor voltage dividers are used.
-
-The 5 to 3.3 V level shifter for 5 V Arduinos should be IC based like the
-74HC4050N based circuit shown in the file SdLevel.png.  The Adafruit Wave Shield
-uses a 74AHC125N.  Gravitech sells SD and MicroSD Card Adapters based on the
-74LCX245.
-
-If you are using a resistor based level shifter and are having problems try
-setting the SPI bus frequency to 4 MHz.  This can be done by using 
-card.init(SPI_HALF_SPEED) to initialize the SD card.
-
-\section comment Bugs and Comments
-
-If you wish to report bugs or have comments, send email to fat16lib@sbcglobal.net.
-
-\section SdFatClass SdFat Usage
-
-SdFat uses a slightly restricted form of short names.
-Only printable ASCII characters are supported. No characters with code point
-values greater than 127 are allowed.  Space is not allowed even though space
-was allowed in the API of early versions of DOS.
-
-Short names are limited to 8 characters followed by an optional period (.)
-and extension of up to 3 characters.  The characters may be any combination
-of letters and digits.  The following special characters are also allowed:
-
-$ % ' - _ @ ~ ` ! ( ) { } ^ # &
-
-Short names are always converted to upper case and their original case
-value is lost.
-
-\note
-  The Arduino Print class uses character
-at a time writes so it was necessary to use a \link SdFile::sync() sync() \endlink
-function to control when data is written to the SD card.
-
-\par
-An application which writes to a file using \link Print::print() print()\endlink,
-\link Print::println() println() \endlink
-or \link SdFile::write write() \endlink must call \link SdFile::sync() sync() \endlink
-at the appropriate time to force data and directory information to be written
-to the SD Card.  Data and directory information are also written to the SD card
-when \link SdFile::close() close() \endlink is called.
-
-\par
-Applications must use care calling \link SdFile::sync() sync() \endlink
-since 2048 bytes of I/O is required to update file and
-directory information.  This includes writing the current data block, reading
-the block that contains the directory entry for update, writing the directory
-block back and reading back the current data block.
-
-It is possible to open a file with two or more instances of SdFile.  A file may
-be corrupted if data is written to the file by more than one instance of SdFile.
-
-\section HowTo How to format SD Cards as FAT Volumes
-
-You should use a freshly formatted SD card for best performance.  FAT
-file systems become slower if many files have been created and deleted.
-This is because the directory entry for a deleted file is marked as deleted,
-but is not deleted.  When a new file is created, these entries must be scanned
-before creating the file, a flaw in the FAT design.  Also files can become
-fragmented which causes reads and writes to be slower.
-
-Microsoft operating systems support removable media formatted with a
-Master Boot Record, MBR, or formatted as a super floppy with a FAT Boot Sector
-in block zero.
-
-Microsoft operating systems expect MBR formatted removable media
-to have only one partition. The first partition should be used.
-
-Microsoft operating systems do not support partitioning SD flash cards.
-If you erase an SD card with a program like KillDisk, Most versions of
-Windows will format the card as a super floppy.
-
-The best way to restore an SD card's format is to use SDFormatter
-which can be downloaded from:
-
-http://www.sdcard.org/consumers/formatter/
-
-SDFormatter aligns flash erase boundaries with file
-system structures which reduces write latency and file system overhead.
-
-SDFormatter does not have an option for FAT type so it may format
-small cards as FAT12.
-
-After the MBR is restored by SDFormatter you may need to reformat small
-cards that have been formatted FAT12 to force the volume type to be FAT16.
-
-If you reformat the SD card with an OS utility, choose a cluster size that
-will result in:
-
-4084 < CountOfClusters && CountOfClusters < 65525
-
-The volume will then be FAT16.
-
-If you are formatting an SD card on OS X or Linux, be sure to use the first
-partition. Format this partition with a cluster count in above range.
-
-\section  References References
-
-Adafruit Industries:
-
-http://www.adafruit.com/
-
-http://www.ladyada.net/make/waveshield/
-
-The Arduino site:
-
-http://www.arduino.cc/
-
-For more information about FAT file systems see:
-
-http://www.microsoft.com/whdc/system/platform/firmware/fatgen.mspx
-
-For information about using SD cards as SPI devices see:
-
-http://www.sdcard.org/developers/tech/sdcard/pls/Simplified_Physical_Layer_Spec.pdf
-
-The ATmega328 datasheet:
-
-http://www.atmel.com/dyn/resources/prod_documents/doc8161.pdf
- 
-
- */  
+/* Arduino SdFat Library
+ * Copyright (C) 2009 by William Greiman
+ *  
+ * This file is part of the Arduino SdFat Library
+ *  
+ * This Library is free software: you can redistribute it and/or modify 
+ * it under the terms of the GNU General Public License as published by 
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ * 
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+
+/**
+\mainpage Arduino SdFat Library
+<CENTER>Copyright &copy; 2009 by William Greiman
+</CENTER>
+
+\section Intro Introduction
+The Arduino SdFat Library is a minimal implementation of FAT16 and FAT32
+file systems on SD flash memory cards.  Standard SD and high capacity
+SDHC cards are supported.
+
+The SdFat only supports short 8.3 names.
+
+The main classes in SdFat are Sd2Card, SdVolume, and SdFile.
+
+The Sd2Card class supports access to standard SD cards and SDHC cards.  Most
+applications will only need to call the Sd2Card::init() member function.
+
+The SdVolume class supports FAT16 and FAT32 partitions.  Most applications
+will only need to call the SdVolume::init() member function.
+
+The SdFile class provides file access functions such as open(), read(),
+remove(), write(), close() and sync(). This class supports access to the root
+directory and subdirectories.
+
+A number of example are provided in the SdFat/examples folder.  These were
+developed to test SdFat and illustrate its use.
+
+SdFat was developed for high speed data recording.  SdFat was used to implement
+an audio record/play class, WaveRP, for the Adafruit Wave Shield.  This
+application uses special Sd2Card calls to write to contiguous files in raw mode.
+These functions reduce write latency so that audio can be recorded with the
+small amount of RAM in the Arduino.
+
+\section SDcard SD\SDHC Cards
+
+Arduinos access SD cards using the cards SPI protocol.  PCs, Macs, and
+most consumer devices use the 4-bit parallel SD protocol.  A card that
+functions well on A PC or Mac may not work well on the Arduino.
+
+Most cards have good SPI read performance but cards vary widely in SPI
+write performance.  Write performance is limited by how efficiently the
+card manages internal erase/remapping operations.  The Arduino cannot
+optimize writes to reduce erase operations because of its limit RAM.
+
+SanDisk cards generally have good write performance.  They seem to have
+more internal RAM buffering than other cards and therefore can limit
+the number of flash erase operations that the Arduino forces due to its
+limited RAM.
+
+\section Hardware Hardware Configuration
+
+SdFat was developed using an
+<A HREF = "http://www.adafruit.com/"> Adafruit Industries</A> 
+<A HREF = "http://www.ladyada.net/make/waveshield/"> Wave Shield</A>.
+
+The hardware interface to the SD card should not use a resistor based level
+shifter.  SdFat sets the SPI bus frequency to 8 MHz which results in signal
+rise times that are too slow for the edge detectors in many newer SD card
+controllers when resistor voltage dividers are used.
+
+The 5 to 3.3 V level shifter for 5 V Arduinos should be IC based like the
+74HC4050N based circuit shown in the file SdLevel.png.  The Adafruit Wave Shield
+uses a 74AHC125N.  Gravitech sells SD and MicroSD Card Adapters based on the
+74LCX245.
+
+If you are using a resistor based level shifter and are having problems try
+setting the SPI bus frequency to 4 MHz.  This can be done by using 
+card.init(SPI_HALF_SPEED) to initialize the SD card.
+
+\section comment Bugs and Comments
+
+If you wish to report bugs or have comments, send email to fat16lib@sbcglobal.net.
+
+\section SdFatClass SdFat Usage
+
+SdFat uses a slightly restricted form of short names.
+Only printable ASCII characters are supported. No characters with code point
+values greater than 127 are allowed.  Space is not allowed even though space
+was allowed in the API of early versions of DOS.
+
+Short names are limited to 8 characters followed by an optional period (.)
+and extension of up to 3 characters.  The characters may be any combination
+of letters and digits.  The following special characters are also allowed:
+
+$ % ' - _ @ ~ ` ! ( ) { } ^ # &
+
+Short names are always converted to upper case and their original case
+value is lost.
+
+\note
+  The Arduino Print class uses character
+at a time writes so it was necessary to use a \link SdFile::sync() sync() \endlink
+function to control when data is written to the SD card.
+
+\par
+An application which writes to a file using \link Print::print() print()\endlink,
+\link Print::println() println() \endlink
+or \link SdFile::write write() \endlink must call \link SdFile::sync() sync() \endlink
+at the appropriate time to force data and directory information to be written
+to the SD Card.  Data and directory information are also written to the SD card
+when \link SdFile::close() close() \endlink is called.
+
+\par
+Applications must use care calling \link SdFile::sync() sync() \endlink
+since 2048 bytes of I/O is required to update file and
+directory information.  This includes writing the current data block, reading
+the block that contains the directory entry for update, writing the directory
+block back and reading back the current data block.
+
+It is possible to open a file with two or more instances of SdFile.  A file may
+be corrupted if data is written to the file by more than one instance of SdFile.
+
+\section HowTo How to format SD Cards as FAT Volumes
+
+You should use a freshly formatted SD card for best performance.  FAT
+file systems become slower if many files have been created and deleted.
+This is because the directory entry for a deleted file is marked as deleted,
+but is not deleted.  When a new file is created, these entries must be scanned
+before creating the file, a flaw in the FAT design.  Also files can become
+fragmented which causes reads and writes to be slower.
+
+Microsoft operating systems support removable media formatted with a
+Master Boot Record, MBR, or formatted as a super floppy with a FAT Boot Sector
+in block zero.
+
+Microsoft operating systems expect MBR formatted removable media
+to have only one partition. The first partition should be used.
+
+Microsoft operating systems do not support partitioning SD flash cards.
+If you erase an SD card with a program like KillDisk, Most versions of
+Windows will format the card as a super floppy.
+
+The best way to restore an SD card's format is to use SDFormatter
+which can be downloaded from:
+
+http://www.sdcard.org/consumers/formatter/
+
+SDFormatter aligns flash erase boundaries with file
+system structures which reduces write latency and file system overhead.
+
+SDFormatter does not have an option for FAT type so it may format
+small cards as FAT12.
+
+After the MBR is restored by SDFormatter you may need to reformat small
+cards that have been formatted FAT12 to force the volume type to be FAT16.
+
+If you reformat the SD card with an OS utility, choose a cluster size that
+will result in:
+
+4084 < CountOfClusters && CountOfClusters < 65525
+
+The volume will then be FAT16.
+
+If you are formatting an SD card on OS X or Linux, be sure to use the first
+partition. Format this partition with a cluster count in above range.
+
+\section  References References
+
+Adafruit Industries:
+
+http://www.adafruit.com/
+
+http://www.ladyada.net/make/waveshield/
+
+The Arduino site:
+
+http://www.arduino.cc/
+
+For more information about FAT file systems see:
+
+http://www.microsoft.com/whdc/system/platform/firmware/fatgen.mspx
+
+For information about using SD cards as SPI devices see:
+
+http://www.sdcard.org/developers/tech/sdcard/pls/Simplified_Physical_Layer_Spec.pdf
+
+The ATmega328 datasheet:
+
+http://www.atmel.com/dyn/resources/prod_documents/doc8161.pdf
+ 
+
+ */  
diff --git a/Marlin/SdFile.cpp b/Marlin/SdFile.cpp
index 0a27159f4..e7e23d1db 100644
--- a/Marlin/SdFile.cpp
+++ b/Marlin/SdFile.cpp
@@ -1,1252 +1,1252 @@
-/* Arduino SdFat Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#include "SdFat.h"
-#include <avr/pgmspace.h>
-#include <WProgram.h>
-//------------------------------------------------------------------------------
-// callback function for date/time
-void (*SdFile::dateTime_)(uint16_t* date, uint16_t* time) = NULL;
-
-#if ALLOW_DEPRECATED_FUNCTIONS
-// suppress cpplint warnings with NOLINT comment
-void (*SdFile::oldDateTime_)(uint16_t& date, uint16_t& time) = NULL;  // NOLINT
-#endif  // ALLOW_DEPRECATED_FUNCTIONS
-//------------------------------------------------------------------------------
-// add a cluster to a file
-uint8_t SdFile::addCluster() {
-  if (!vol_->allocContiguous(1, &curCluster_)) return false;
-
-  // if first cluster of file link to directory entry
-  if (firstCluster_ == 0) {
-    firstCluster_ = curCluster_;
-    flags_ |= F_FILE_DIR_DIRTY;
-  }
-  return true;
-}
-//------------------------------------------------------------------------------
-// Add a cluster to a directory file and zero the cluster.
-// return with first block of cluster in the cache
-uint8_t SdFile::addDirCluster(void) {
-  if (!addCluster()) return false;
-
-  // zero data in cluster insure first cluster is in cache
-  uint32_t block = vol_->clusterStartBlock(curCluster_);
-  for (uint8_t i = vol_->blocksPerCluster_; i != 0; i--) {
-    if (!SdVolume::cacheZeroBlock(block + i - 1)) return false;
-  }
-  // Increase directory file size by cluster size
-  fileSize_ += 512UL << vol_->clusterSizeShift_;
-  return true;
-}
-//------------------------------------------------------------------------------
-// cache a file's directory entry
-// return pointer to cached entry or null for failure
-dir_t* SdFile::cacheDirEntry(uint8_t action) {
-  if (!SdVolume::cacheRawBlock(dirBlock_, action)) return NULL;
-  return SdVolume::cacheBuffer_.dir + dirIndex_;
-}
-//------------------------------------------------------------------------------
-/**
- *  Close a file and force cached data and directory information
- *  to be written to the storage device.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include no file is open or an I/O error.
- */
-uint8_t SdFile::close(void) {
-  if (!sync())return false;
-  type_ = FAT_FILE_TYPE_CLOSED;
-  return true;
-}
-//------------------------------------------------------------------------------
-/**
- * Check for contiguous file and return its raw block range.
- *
- * \param[out] bgnBlock the first block address for the file.
- * \param[out] endBlock the last  block address for the file.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include file is not contiguous, file has zero length
- * or an I/O error occurred.
- */
-uint8_t SdFile::contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock) {
-  // error if no blocks
-  if (firstCluster_ == 0) return false;
-
-  for (uint32_t c = firstCluster_; ; c++) {
-    uint32_t next;
-    if (!vol_->fatGet(c, &next)) return false;
-
-    // check for contiguous
-    if (next != (c + 1)) {
-      // error if not end of chain
-      if (!vol_->isEOC(next)) return false;
-      *bgnBlock = vol_->clusterStartBlock(firstCluster_);
-      *endBlock = vol_->clusterStartBlock(c)
-                  + vol_->blocksPerCluster_ - 1;
-      return true;
-    }
-  }
-}
-//------------------------------------------------------------------------------
-/**
- * Create and open a new contiguous file of a specified size.
- *
- * \note This function only supports short DOS 8.3 names.
- * See open() for more information.
- *
- * \param[in] dirFile The directory where the file will be created.
- * \param[in] fileName A valid DOS 8.3 file name.
- * \param[in] size The desired file size.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include \a fileName contains
- * an invalid DOS 8.3 file name, the FAT volume has not been initialized,
- * a file is already open, the file already exists, the root
- * directory is full or an I/O error.
- *
- */
-uint8_t SdFile::createContiguous(SdFile* dirFile,
-        const char* fileName, uint32_t size) {
-  // don't allow zero length file
-  if (size == 0) return false;
-  if (!open(dirFile, fileName, O_CREAT | O_EXCL | O_RDWR)) return false;
-
-  // calculate number of clusters needed
-  uint32_t count = ((size - 1) >> (vol_->clusterSizeShift_ + 9)) + 1;
-
-  // allocate clusters
-  if (!vol_->allocContiguous(count, &firstCluster_)) {
-    remove();
-    return false;
-  }
-  fileSize_ = size;
-
-  // insure sync() will update dir entry
-  flags_ |= F_FILE_DIR_DIRTY;
-  return sync();
-}
-//------------------------------------------------------------------------------
-/**
- * Return a files directory entry
- *
- * \param[out] dir Location for return of the files directory entry.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t SdFile::dirEntry(dir_t* dir) {
-  // make sure fields on SD are correct
-  if (!sync()) return false;
-
-  // read entry
-  dir_t* p = cacheDirEntry(SdVolume::CACHE_FOR_READ);
-  if (!p) return false;
-
-  // copy to caller's struct
-  memcpy(dir, p, sizeof(dir_t));
-  return true;
-}
-//------------------------------------------------------------------------------
-/**
- * Format the name field of \a dir into the 13 byte array
- * \a name in standard 8.3 short name format.
- *
- * \param[in] dir The directory structure containing the name.
- * \param[out] name A 13 byte char array for the formatted name.
- */
-void SdFile::dirName(const dir_t& dir, char* name) {
-  uint8_t j = 0;
-  for (uint8_t i = 0; i < 11; i++) {
-    if (dir.name[i] == ' ')continue;
-    if (i == 8) name[j++] = '.';
-    name[j++] = dir.name[i];
-  }
-  name[j] = 0;
-}
-//------------------------------------------------------------------------------
-/** List directory contents to Serial.
- *
- * \param[in] flags The inclusive OR of
- *
- * LS_DATE - %Print file modification date
- *
- * LS_SIZE - %Print file size.
- *
- * LS_R - Recursive list of subdirectories.
- *
- * \param[in] indent Amount of space before file name. Used for recursive
- * list to indicate subdirectory level.
- */
-void SdFile::ls(uint8_t flags, uint8_t indent) {
-  dir_t* p;
-
-  rewind();
-  while ((p = readDirCache())) {
-    // done if past last used entry
-    if (p->name[0] == DIR_NAME_FREE) break;
-
-    // skip deleted entry and entries for . and  ..
-    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
-
-    // only list subdirectories and files
-    if (!DIR_IS_FILE_OR_SUBDIR(p)) continue;
-
-    // print any indent spaces
-    for (int8_t i = 0; i < indent; i++) Serial.print(' ');
-
-    // print file name with possible blank fill
-    printDirName(*p, flags & (LS_DATE | LS_SIZE) ? 14 : 0);
-
-    // print modify date/time if requested
-    if (flags & LS_DATE) {
-       printFatDate(p->lastWriteDate);
-       Serial.print(' ');
-       printFatTime(p->lastWriteTime);
-    }
-    // print size if requested
-    if (!DIR_IS_SUBDIR(p) && (flags & LS_SIZE)) {
-      Serial.print(' ');
-      Serial.print(p->fileSize);
-    }
-    Serial.println();
-
-    // list subdirectory content if requested
-    if ((flags & LS_R) && DIR_IS_SUBDIR(p)) {
-      uint16_t index = curPosition()/32 - 1;
-      SdFile s;
-      if (s.open(this, index, O_READ)) s.ls(flags, indent + 2);
-      seekSet(32 * (index + 1));
-    }
-  }
-}
-//------------------------------------------------------------------------------
-// format directory name field from a 8.3 name string
-uint8_t SdFile::make83Name(const char* str, uint8_t* name) {
-  uint8_t c;
-  uint8_t n = 7;  // max index for part before dot
-  uint8_t i = 0;
-  // blank fill name and extension
-  while (i < 11) name[i++] = ' ';
-  i = 0;
-  while ((c = *str++) != '\0') {
-    if (c == '.') {
-      if (n == 10) return false;  // only one dot allowed
-      n = 10;  // max index for full 8.3 name
-      i = 8;   // place for extension
-    } else {
-      // illegal FAT characters
-      PGM_P p = PSTR("|<>^+=?/[];,*\"\\");
-      uint8_t b;
-      while ((b = pgm_read_byte(p++))) if (b == c) return false;
-      // check size and only allow ASCII printable characters
-      if (i > n || c < 0X21 || c > 0X7E)return false;
-      // only upper case allowed in 8.3 names - convert lower to upper
-      name[i++] = c < 'a' || c > 'z' ?  c : c + ('A' - 'a');
-    }
-  }
-  // must have a file name, extension is optional
-  return name[0] != ' ';
-}
-//------------------------------------------------------------------------------
-/** Make a new directory.
- *
- * \param[in] dir An open SdFat instance for the directory that will containing
- * the new directory.
- *
- * \param[in] dirName A valid 8.3 DOS name for the new directory.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include this SdFile is already open, \a dir is not a
- * directory, \a dirName is invalid or already exists in \a dir.
- */
-uint8_t SdFile::makeDir(SdFile* dir, const char* dirName) {
-  dir_t d;
-
-  // create a normal file
-  if (!open(dir, dirName, O_CREAT | O_EXCL | O_RDWR)) return false;
-
-  // convert SdFile to directory
-  flags_ = O_READ;
-  type_ = FAT_FILE_TYPE_SUBDIR;
-
-  // allocate and zero first cluster
-  if (!addDirCluster())return false;
-
-  // force entry to SD
-  if (!sync()) return false;
-
-  // cache entry - should already be in cache due to sync() call
-  dir_t* p = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
-  if (!p) return false;
-
-  // change directory entry  attribute
-  p->attributes = DIR_ATT_DIRECTORY;
-
-  // make entry for '.'
-  memcpy(&d, p, sizeof(d));
-  for (uint8_t i = 1; i < 11; i++) d.name[i] = ' ';
-  d.name[0] = '.';
-
-  // cache block for '.'  and '..'
-  uint32_t block = vol_->clusterStartBlock(firstCluster_);
-  if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_WRITE)) return false;
-
-  // copy '.' to block
-  memcpy(&SdVolume::cacheBuffer_.dir[0], &d, sizeof(d));
-
-  // make entry for '..'
-  d.name[1] = '.';
-  if (dir->isRoot()) {
-    d.firstClusterLow = 0;
-    d.firstClusterHigh = 0;
-  } else {
-    d.firstClusterLow = dir->firstCluster_ & 0XFFFF;
-    d.firstClusterHigh = dir->firstCluster_ >> 16;
-  }
-  // copy '..' to block
-  memcpy(&SdVolume::cacheBuffer_.dir[1], &d, sizeof(d));
-
-  // set position after '..'
-  curPosition_ = 2 * sizeof(d);
-
-  // write first block
-  return SdVolume::cacheFlush();
-}
-//------------------------------------------------------------------------------
-/**
- * Open a file or directory by name.
- *
- * \param[in] dirFile An open SdFat instance for the directory containing the
- * file to be opened.
- *
- * \param[in] fileName A valid 8.3 DOS name for a file to be opened.
- *
- * \param[in] oflag Values for \a oflag are constructed by a bitwise-inclusive
- * OR of flags from the following list
- *
- * O_READ - Open for reading.
- *
- * O_RDONLY - Same as O_READ.
- *
- * O_WRITE - Open for writing.
- *
- * O_WRONLY - Same as O_WRITE.
- *
- * O_RDWR - Open for reading and writing.
- *
- * O_APPEND - If set, the file offset shall be set to the end of the
- * file prior to each write.
- *
- * O_CREAT - If the file exists, this flag has no effect except as noted
- * under O_EXCL below. Otherwise, the file shall be created
- *
- * O_EXCL - If O_CREAT and O_EXCL are set, open() shall fail if the file exists.
- *
- * O_SYNC - Call sync() after each write.  This flag should not be used with
- * write(uint8_t), write_P(PGM_P), writeln_P(PGM_P), or the Arduino Print class.
- * These functions do character at a time writes so sync() will be called
- * after each byte.
- *
- * O_TRUNC - If the file exists and is a regular file, and the file is
- * successfully opened and is not read only, its length shall be truncated to 0.
- *
- * \note Directory files must be opened read only.  Write and truncation is
- * not allowed for directory files.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include this SdFile is already open, \a difFile is not
- * a directory, \a fileName is invalid, the file does not exist
- * or can't be opened in the access mode specified by oflag.
- */
-uint8_t SdFile::open(SdFile* dirFile, const char* fileName, uint8_t oflag) {
-  uint8_t dname[11];
-  dir_t* p;
-
-  // error if already open
-  if (isOpen())return false;
-
-  if (!make83Name(fileName, dname)) return false;
-  vol_ = dirFile->vol_;
-  dirFile->rewind();
-
-  // bool for empty entry found
-  uint8_t emptyFound = false;
-
-  // search for file
-  while (dirFile->curPosition_ < dirFile->fileSize_) {
-    uint8_t index = 0XF & (dirFile->curPosition_ >> 5);
-    p = dirFile->readDirCache();
-    if (p == NULL) return false;
-
-    if (p->name[0] == DIR_NAME_FREE || p->name[0] == DIR_NAME_DELETED) {
-      // remember first empty slot
-      if (!emptyFound) {
-        emptyFound = true;
-        dirIndex_ = index;
-        dirBlock_ = SdVolume::cacheBlockNumber_;
-      }
-      // done if no entries follow
-      if (p->name[0] == DIR_NAME_FREE) break;
-    } else if (!memcmp(dname, p->name, 11)) {
-      // don't open existing file if O_CREAT and O_EXCL
-      if ((oflag & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL)) return false;
-
-      // open found file
-      return openCachedEntry(0XF & index, oflag);
-    }
-  }
-  // only create file if O_CREAT and O_WRITE
-  if ((oflag & (O_CREAT | O_WRITE)) != (O_CREAT | O_WRITE)) return false;
-
-  // cache found slot or add cluster if end of file
-  if (emptyFound) {
-    p = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
-    if (!p) return false;
-  } else {
-    if (dirFile->type_ == FAT_FILE_TYPE_ROOT16) return false;
-
-    // add and zero cluster for dirFile - first cluster is in cache for write
-    if (!dirFile->addDirCluster()) return false;
-
-    // use first entry in cluster
-    dirIndex_ = 0;
-    p = SdVolume::cacheBuffer_.dir;
-  }
-  // initialize as empty file
-  memset(p, 0, sizeof(dir_t));
-  memcpy(p->name, dname, 11);
-
-  // set timestamps
-  if (dateTime_) {
-    // call user function
-    dateTime_(&p->creationDate, &p->creationTime);
-  } else {
-    // use default date/time
-    p->creationDate = FAT_DEFAULT_DATE;
-    p->creationTime = FAT_DEFAULT_TIME;
-  }
-  p->lastAccessDate = p->creationDate;
-  p->lastWriteDate = p->creationDate;
-  p->lastWriteTime = p->creationTime;
-
-  // force write of entry to SD
-  if (!SdVolume::cacheFlush()) return false;
-
-  // open entry in cache
-  return openCachedEntry(dirIndex_, oflag);
-}
-//------------------------------------------------------------------------------
-/**
- * Open a file by index.
- *
- * \param[in] dirFile An open SdFat instance for the directory.
- *
- * \param[in] index The \a index of the directory entry for the file to be
- * opened.  The value for \a index is (directory file position)/32.
- *
- * \param[in] oflag Values for \a oflag are constructed by a bitwise-inclusive
- * OR of flags O_READ, O_WRITE, O_TRUNC, and O_SYNC.
- *
- * See open() by fileName for definition of flags and return values.
- *
- */
-uint8_t SdFile::open(SdFile* dirFile, uint16_t index, uint8_t oflag) {
-  // error if already open
-  if (isOpen())return false;
-
-  // don't open existing file if O_CREAT and O_EXCL - user call error
-  if ((oflag & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL)) return false;
-
-  vol_ = dirFile->vol_;
-
-  // seek to location of entry
-  if (!dirFile->seekSet(32 * index)) return false;
-
-  // read entry into cache
-  dir_t* p = dirFile->readDirCache();
-  if (p == NULL) return false;
-
-  // error if empty slot or '.' or '..'
-  if (p->name[0] == DIR_NAME_FREE ||
-      p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') {
-    return false;
-  }
-  // open cached entry
-  return openCachedEntry(index & 0XF, oflag);
-}
-//------------------------------------------------------------------------------
-// open a cached directory entry. Assumes vol_ is initializes
-uint8_t SdFile::openCachedEntry(uint8_t dirIndex, uint8_t oflag) {
-  // location of entry in cache
-  dir_t* p = SdVolume::cacheBuffer_.dir + dirIndex;
-
-  // write or truncate is an error for a directory or read-only file
-  if (p->attributes & (DIR_ATT_READ_ONLY | DIR_ATT_DIRECTORY)) {
-    if (oflag & (O_WRITE | O_TRUNC)) return false;
-  }
-  // remember location of directory entry on SD
-  dirIndex_ = dirIndex;
-  dirBlock_ = SdVolume::cacheBlockNumber_;
-
-  // copy first cluster number for directory fields
-  firstCluster_ = (uint32_t)p->firstClusterHigh << 16;
-  firstCluster_ |= p->firstClusterLow;
-
-  // make sure it is a normal file or subdirectory
-  if (DIR_IS_FILE(p)) {
-    fileSize_ = p->fileSize;
-    type_ = FAT_FILE_TYPE_NORMAL;
-  } else if (DIR_IS_SUBDIR(p)) {
-    if (!vol_->chainSize(firstCluster_, &fileSize_)) return false;
-    type_ = FAT_FILE_TYPE_SUBDIR;
-  } else {
-    return false;
-  }
-  // save open flags for read/write
-  flags_ = oflag & (O_ACCMODE | O_SYNC | O_APPEND);
-
-  // set to start of file
-  curCluster_ = 0;
-  curPosition_ = 0;
-
-  // truncate file to zero length if requested
-  if (oflag & O_TRUNC) return truncate(0);
-  return true;
-}
-//------------------------------------------------------------------------------
-/**
- * Open a volume's root directory.
- *
- * \param[in] vol The FAT volume containing the root directory to be opened.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include the FAT volume has not been initialized
- * or it a FAT12 volume.
- */
-uint8_t SdFile::openRoot(SdVolume* vol) {
-  // error if file is already open
-  if (isOpen()) return false;
-
-  if (vol->fatType() == 16) {
-    type_ = FAT_FILE_TYPE_ROOT16;
-    firstCluster_ = 0;
-    fileSize_ = 32 * vol->rootDirEntryCount();
-  } else if (vol->fatType() == 32) {
-    type_ = FAT_FILE_TYPE_ROOT32;
-    firstCluster_ = vol->rootDirStart();
-    if (!vol->chainSize(firstCluster_, &fileSize_)) return false;
-  } else {
-    // volume is not initialized or FAT12
-    return false;
-  }
-  vol_ = vol;
-  // read only
-  flags_ = O_READ;
-
-  // set to start of file
-  curCluster_ = 0;
-  curPosition_ = 0;
-
-  // root has no directory entry
-  dirBlock_ = 0;
-  dirIndex_ = 0;
-  return true;
-}
-//------------------------------------------------------------------------------
-/** %Print the name field of a directory entry in 8.3 format to Serial.
- *
- * \param[in] dir The directory structure containing the name.
- * \param[in] width Blank fill name if length is less than \a width.
- */
-void SdFile::printDirName(const dir_t& dir, uint8_t width) {
-  uint8_t w = 0;
-  for (uint8_t i = 0; i < 11; i++) {
-    if (dir.name[i] == ' ')continue;
-    if (i == 8) {
-      Serial.print('.');
-      w++;
-    }
-    Serial.print(dir.name[i]);
-    w++;
-  }
-  if (DIR_IS_SUBDIR(&dir)) {
-    Serial.print('/');
-    w++;
-  }
-  while (w < width) {
-    Serial.print(' ');
-    w++;
-  }
-}
-//------------------------------------------------------------------------------
-/** %Print a directory date field to Serial.
- *
- *  Format is yyyy-mm-dd.
- *
- * \param[in] fatDate The date field from a directory entry.
- */
-void SdFile::printFatDate(uint16_t fatDate) {
-  Serial.print(FAT_YEAR(fatDate));
-  Serial.print('-');
-  printTwoDigits(FAT_MONTH(fatDate));
-  Serial.print('-');
-  printTwoDigits(FAT_DAY(fatDate));
-}
-//------------------------------------------------------------------------------
-/** %Print a directory time field to Serial.
- *
- * Format is hh:mm:ss.
- *
- * \param[in] fatTime The time field from a directory entry.
- */
-void SdFile::printFatTime(uint16_t fatTime) {
-  printTwoDigits(FAT_HOUR(fatTime));
-  Serial.print(':');
-  printTwoDigits(FAT_MINUTE(fatTime));
-  Serial.print(':');
-  printTwoDigits(FAT_SECOND(fatTime));
-}
-//------------------------------------------------------------------------------
-/** %Print a value as two digits to Serial.
- *
- * \param[in] v Value to be printed, 0 <= \a v <= 99
- */
-void SdFile::printTwoDigits(uint8_t v) {
-  char str[3];
-  str[0] = '0' + v/10;
-  str[1] = '0' + v % 10;
-  str[2] = 0;
-  Serial.print(str);
-}
-//------------------------------------------------------------------------------
-/**
- * Read data from a file starting at the current position.
- *
- * \param[out] buf Pointer to the location that will receive the data.
- *
- * \param[in] nbyte Maximum number of bytes to read.
- *
- * \return For success read() returns the number of bytes read.
- * A value less than \a nbyte, including zero, will be returned
- * if end of file is reached.
- * If an error occurs, read() returns -1.  Possible errors include
- * read() called before a file has been opened, corrupt file system
- * or an I/O error occurred.
- */
-int16_t SdFile::read(void* buf, uint16_t nbyte) {
-  uint8_t* dst = reinterpret_cast<uint8_t*>(buf);
-
-  // error if not open or write only
-  if (!isOpen() || !(flags_ & O_READ)) return -1;
-
-  // max bytes left in file
-  if (nbyte > (fileSize_ - curPosition_)) nbyte = fileSize_ - curPosition_;
-
-  // amount left to read
-  uint16_t toRead = nbyte;
-  while (toRead > 0) {
-    uint32_t block;  // raw device block number
-    uint16_t offset = curPosition_ & 0X1FF;  // offset in block
-    if (type_ == FAT_FILE_TYPE_ROOT16) {
-      block = vol_->rootDirStart() + (curPosition_ >> 9);
-    } else {
-      uint8_t blockOfCluster = vol_->blockOfCluster(curPosition_);
-      if (offset == 0 && blockOfCluster == 0) {
-        // start of new cluster
-        if (curPosition_ == 0) {
-          // use first cluster in file
-          curCluster_ = firstCluster_;
-        } else {
-          // get next cluster from FAT
-          if (!vol_->fatGet(curCluster_, &curCluster_)) return -1;
-        }
-      }
-      block = vol_->clusterStartBlock(curCluster_) + blockOfCluster;
-    }
-    uint16_t n = toRead;
-
-    // amount to be read from current block
-    if (n > (512 - offset)) n = 512 - offset;
-
-    // no buffering needed if n == 512 or user requests no buffering
-    if ((unbufferedRead() || n == 512) &&
-      block != SdVolume::cacheBlockNumber_) {
-      if (!vol_->readData(block, offset, n, dst)) return -1;
-      dst += n;
-    } else {
-      // read block to cache and copy data to caller
-      if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_READ)) return -1;
-      uint8_t* src = SdVolume::cacheBuffer_.data + offset;
-      uint8_t* end = src + n;
-      while (src != end) *dst++ = *src++;
-    }
-    curPosition_ += n;
-    toRead -= n;
-  }
-  return nbyte;
-}
-//------------------------------------------------------------------------------
-/**
- * Read the next directory entry from a directory file.
- *
- * \param[out] dir The dir_t struct that will receive the data.
- *
- * \return For success readDir() returns the number of bytes read.
- * A value of zero will be returned if end of file is reached.
- * If an error occurs, readDir() returns -1.  Possible errors include
- * readDir() called before a directory has been opened, this is not
- * a directory file or an I/O error occurred.
- */
-int8_t SdFile::readDir(dir_t* dir) {
-  int8_t n;
-  // if not a directory file or miss-positioned return an error
-  if (!isDir() || (0X1F & curPosition_)) return -1;
-
-  while ((n = read(dir, sizeof(dir_t))) == sizeof(dir_t)) {
-    // last entry if DIR_NAME_FREE
-    if (dir->name[0] == DIR_NAME_FREE) break;
-    // skip empty entries and entry for .  and ..
-    if (dir->name[0] == DIR_NAME_DELETED || dir->name[0] == '.') continue;
-    // return if normal file or subdirectory
-    if (DIR_IS_FILE_OR_SUBDIR(dir)) return n;
-  }
-  // error, end of file, or past last entry
-  return n < 0 ? -1 : 0;
-}
-//------------------------------------------------------------------------------
-// Read next directory entry into the cache
-// Assumes file is correctly positioned
-dir_t* SdFile::readDirCache(void) {
-  // error if not directory
-  if (!isDir()) return NULL;
-
-  // index of entry in cache
-  uint8_t i = (curPosition_ >> 5) & 0XF;
-
-  // use read to locate and cache block
-  if (read() < 0) return NULL;
-
-  // advance to next entry
-  curPosition_ += 31;
-
-  // return pointer to entry
-  return (SdVolume::cacheBuffer_.dir + i);
-}
-//------------------------------------------------------------------------------
-/**
- * Remove a file.
- *
- * The directory entry and all data for the file are deleted.
- *
- * \note This function should not be used to delete the 8.3 version of a
- * file that has a long name. For example if a file has the long name
- * "New Text Document.txt" you should not delete the 8.3 name "NEWTEX~1.TXT".
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include the file read-only, is a directory,
- * or an I/O error occurred.
- */
-uint8_t SdFile::remove(void) {
-  // free any clusters - will fail if read-only or directory
-  if (!truncate(0)) return false;
-
-  // cache directory entry
-  dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
-  if (!d) return false;
-
-  // mark entry deleted
-  d->name[0] = DIR_NAME_DELETED;
-
-  // set this SdFile closed
-  type_ = FAT_FILE_TYPE_CLOSED;
-
-  // write entry to SD
-  return SdVolume::cacheFlush();
-}
-//------------------------------------------------------------------------------
-/**
- * Remove a file.
- *
- * The directory entry and all data for the file are deleted.
- *
- * \param[in] dirFile The directory that contains the file.
- * \param[in] fileName The name of the file to be removed.
- *
- * \note This function should not be used to delete the 8.3 version of a
- * file that has a long name. For example if a file has the long name
- * "New Text Document.txt" you should not delete the 8.3 name "NEWTEX~1.TXT".
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include the file is a directory, is read only,
- * \a dirFile is not a directory, \a fileName is not found
- * or an I/O error occurred.
- */
-uint8_t SdFile::remove(SdFile* dirFile, const char* fileName) {
-  SdFile file;
-  if (!file.open(dirFile, fileName, O_WRITE)) return false;
-  return file.remove();
-}
-//------------------------------------------------------------------------------
-/** Remove a directory file.
- *
- * The directory file will be removed only if it is empty and is not the
- * root directory.  rmDir() follows DOS and Windows and ignores the
- * read-only attribute for the directory.
- *
- * \note This function should not be used to delete the 8.3 version of a
- * directory that has a long name. For example if a directory has the
- * long name "New folder" you should not delete the 8.3 name "NEWFOL~1".
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include the file is not a directory, is the root
- * directory, is not empty, or an I/O error occurred.
- */
-uint8_t SdFile::rmDir(void) {
-  // must be open subdirectory
-  if (!isSubDir()) return false;
-
-  rewind();
-
-  // make sure directory is empty
-  while (curPosition_ < fileSize_) {
-    dir_t* p = readDirCache();
-    if (p == NULL) return false;
-    // done if past last used entry
-    if (p->name[0] == DIR_NAME_FREE) break;
-    // skip empty slot or '.' or '..'
-    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
-    // error not empty
-    if (DIR_IS_FILE_OR_SUBDIR(p)) return false;
-  }
-  // convert empty directory to normal file for remove
-  type_ = FAT_FILE_TYPE_NORMAL;
-  flags_ |= O_WRITE;
-  return remove();
-}
-//------------------------------------------------------------------------------
-/** Recursively delete a directory and all contained files.
- *
- * This is like the Unix/Linux 'rm -rf *' if called with the root directory
- * hence the name.
- *
- * Warning - This will remove all contents of the directory including
- * subdirectories.  The directory will then be removed if it is not root.
- * The read-only attribute for files will be ignored.
- *
- * \note This function should not be used to delete the 8.3 version of
- * a directory that has a long name.  See remove() and rmDir().
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t SdFile::rmRfStar(void) {
-  rewind();
-  while (curPosition_ < fileSize_) {
-    SdFile f;
-
-    // remember position
-    uint16_t index = curPosition_/32;
-
-    dir_t* p = readDirCache();
-    if (!p) return false;
-
-    // done if past last entry
-    if (p->name[0] == DIR_NAME_FREE) break;
-
-    // skip empty slot or '.' or '..'
-    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
-
-    // skip if part of long file name or volume label in root
-    if (!DIR_IS_FILE_OR_SUBDIR(p)) continue;
-
-    if (!f.open(this, index, O_READ)) return false;
-    if (f.isSubDir()) {
-      // recursively delete
-      if (!f.rmRfStar()) return false;
-    } else {
-      // ignore read-only
-      f.flags_ |= O_WRITE;
-      if (!f.remove()) return false;
-    }
-    // position to next entry if required
-    if (curPosition_ != (32*(index + 1))) {
-      if (!seekSet(32*(index + 1))) return false;
-    }
-  }
-  // don't try to delete root
-  if (isRoot()) return true;
-  return rmDir();
-}
-//------------------------------------------------------------------------------
-/**
- * Sets a file's position.
- *
- * \param[in] pos The new position in bytes from the beginning of the file.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t SdFile::seekSet(uint32_t pos) {
-  // error if file not open or seek past end of file
-  if (!isOpen() || pos > fileSize_) return false;
-
-  if (type_ == FAT_FILE_TYPE_ROOT16) {
-    curPosition_ = pos;
-    return true;
-  }
-  if (pos == 0) {
-    // set position to start of file
-    curCluster_ = 0;
-    curPosition_ = 0;
-    return true;
-  }
-  // calculate cluster index for cur and new position
-  uint32_t nCur = (curPosition_ - 1) >> (vol_->clusterSizeShift_ + 9);
-  uint32_t nNew = (pos - 1) >> (vol_->clusterSizeShift_ + 9);
-
-  if (nNew < nCur || curPosition_ == 0) {
-    // must follow chain from first cluster
-    curCluster_ = firstCluster_;
-  } else {
-    // advance from curPosition
-    nNew -= nCur;
-  }
-  while (nNew--) {
-    if (!vol_->fatGet(curCluster_, &curCluster_)) return false;
-  }
-  curPosition_ = pos;
-  return true;
-}
-//------------------------------------------------------------------------------
-/**
- * The sync() call causes all modified data and directory fields
- * to be written to the storage device.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include a call to sync() before a file has been
- * opened or an I/O error.
- */
-uint8_t SdFile::sync(void) {
-  // only allow open files and directories
-  if (!isOpen()) return false;
-
-  if (flags_ & F_FILE_DIR_DIRTY) {
-    dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
-    if (!d) return false;
-
-    // do not set filesize for dir files
-    if (!isDir()) d->fileSize = fileSize_;
-
-    // update first cluster fields
-    d->firstClusterLow = firstCluster_ & 0XFFFF;
-    d->firstClusterHigh = firstCluster_ >> 16;
-
-    // set modify time if user supplied a callback date/time function
-    if (dateTime_) {
-      dateTime_(&d->lastWriteDate, &d->lastWriteTime);
-      d->lastAccessDate = d->lastWriteDate;
-    }
-    // clear directory dirty
-    flags_ &= ~F_FILE_DIR_DIRTY;
-  }
-  return SdVolume::cacheFlush();
-}
-//------------------------------------------------------------------------------
-/**
- * Set a file's timestamps in its directory entry.
- *
- * \param[in] flags Values for \a flags are constructed by a bitwise-inclusive
- * OR of flags from the following list
- *
- * T_ACCESS - Set the file's last access date.
- *
- * T_CREATE - Set the file's creation date and time.
- *
- * T_WRITE - Set the file's last write/modification date and time.
- *
- * \param[in] year Valid range 1980 - 2107 inclusive.
- *
- * \param[in] month Valid range 1 - 12 inclusive.
- *
- * \param[in] day Valid range 1 - 31 inclusive.
- *
- * \param[in] hour Valid range 0 - 23 inclusive.
- *
- * \param[in] minute Valid range 0 - 59 inclusive.
- *
- * \param[in] second Valid range 0 - 59 inclusive
- *
- * \note It is possible to set an invalid date since there is no check for
- * the number of days in a month.
- *
- * \note
- * Modify and access timestamps may be overwritten if a date time callback
- * function has been set by dateTimeCallback().
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- */
-uint8_t SdFile::timestamp(uint8_t flags, uint16_t year, uint8_t month,
-         uint8_t day, uint8_t hour, uint8_t minute, uint8_t second) {
-  if (!isOpen()
-    || year < 1980
-    || year > 2107
-    || month < 1
-    || month > 12
-    || day < 1
-    || day > 31
-    || hour > 23
-    || minute > 59
-    || second > 59) {
-      return false;
-  }
-  dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
-  if (!d) return false;
-
-  uint16_t dirDate = FAT_DATE(year, month, day);
-  uint16_t dirTime = FAT_TIME(hour, minute, second);
-  if (flags & T_ACCESS) {
-    d->lastAccessDate = dirDate;
-  }
-  if (flags & T_CREATE) {
-    d->creationDate = dirDate;
-    d->creationTime = dirTime;
-    // seems to be units of 1/100 second not 1/10 as Microsoft states
-    d->creationTimeTenths = second & 1 ? 100 : 0;
-  }
-  if (flags & T_WRITE) {
-    d->lastWriteDate = dirDate;
-    d->lastWriteTime = dirTime;
-  }
-  SdVolume::cacheSetDirty();
-  return sync();
-}
-//------------------------------------------------------------------------------
-/**
- * Truncate a file to a specified length.  The current file position
- * will be maintained if it is less than or equal to \a length otherwise
- * it will be set to end of file.
- *
- * \param[in] length The desired length for the file.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.
- * Reasons for failure include file is read only, file is a directory,
- * \a length is greater than the current file size or an I/O error occurs.
- */
-uint8_t SdFile::truncate(uint32_t length) {
-// error if not a normal file or read-only
-  if (!isFile() || !(flags_ & O_WRITE)) return false;
-
-  // error if length is greater than current size
-  if (length > fileSize_) return false;
-
-  // fileSize and length are zero - nothing to do
-  if (fileSize_ == 0) return true;
-
-  // remember position for seek after truncation
-  uint32_t newPos = curPosition_ > length ? length : curPosition_;
-
-  // position to last cluster in truncated file
-  if (!seekSet(length)) return false;
-
-  if (length == 0) {
-    // free all clusters
-    if (!vol_->freeChain(firstCluster_)) return false;
-    firstCluster_ = 0;
-  } else {
-    uint32_t toFree;
-    if (!vol_->fatGet(curCluster_, &toFree)) return false;
-
-    if (!vol_->isEOC(toFree)) {
-      // free extra clusters
-      if (!vol_->freeChain(toFree)) return false;
-
-      // current cluster is end of chain
-      if (!vol_->fatPutEOC(curCluster_)) return false;
-    }
-  }
-  fileSize_ = length;
-
-  // need to update directory entry
-  flags_ |= F_FILE_DIR_DIRTY;
-
-  if (!sync()) return false;
-
-  // set file to correct position
-  return seekSet(newPos);
-}
-//------------------------------------------------------------------------------
-/**
- * Write data to an open file.
- *
- * \note Data is moved to the cache but may not be written to the
- * storage device until sync() is called.
- *
- * \param[in] buf Pointer to the location of the data to be written.
- *
- * \param[in] nbyte Number of bytes to write.
- *
- * \return For success write() returns the number of bytes written, always
- * \a nbyte.  If an error occurs, write() returns -1.  Possible errors
- * include write() is called before a file has been opened, write is called
- * for a read-only file, device is full, a corrupt file system or an I/O error.
- *
- */
-int16_t SdFile::write(const void* buf, uint16_t nbyte) {
-  // convert void* to uint8_t*  -  must be before goto statements
-  const uint8_t* src = reinterpret_cast<const uint8_t*>(buf);
-
-  // number of bytes left to write  -  must be before goto statements
-  uint16_t nToWrite = nbyte;
-
-  // error if not a normal file or is read-only
-  if (!isFile() || !(flags_ & O_WRITE)) goto writeErrorReturn;
-
-  // seek to end of file if append flag
-  if ((flags_ & O_APPEND) && curPosition_ != fileSize_) {
-    if (!seekEnd()) goto writeErrorReturn;
-  }
-
-  while (nToWrite > 0) {
-    uint8_t blockOfCluster = vol_->blockOfCluster(curPosition_);
-    uint16_t blockOffset = curPosition_ & 0X1FF;
-    if (blockOfCluster == 0 && blockOffset == 0) {
-      // start of new cluster
-      if (curCluster_ == 0) {
-        if (firstCluster_ == 0) {
-          // allocate first cluster of file
-          if (!addCluster()) goto writeErrorReturn;
-        } else {
-          curCluster_ = firstCluster_;
-        }
-      } else {
-        uint32_t next;
-        if (!vol_->fatGet(curCluster_, &next)) return false;
-        if (vol_->isEOC(next)) {
-          // add cluster if at end of chain
-          if (!addCluster()) goto writeErrorReturn;
-        } else {
-          curCluster_ = next;
-        }
-      }
-    }
-    // max space in block
-    uint16_t n = 512 - blockOffset;
-
-    // lesser of space and amount to write
-    if (n > nToWrite) n = nToWrite;
-
-    // block for data write
-    uint32_t block = vol_->clusterStartBlock(curCluster_) + blockOfCluster;
-    if (n == 512) {
-      // full block - don't need to use cache
-      // invalidate cache if block is in cache
-      if (SdVolume::cacheBlockNumber_ == block) {
-        SdVolume::cacheBlockNumber_ = 0XFFFFFFFF;
-      }
-      if (!vol_->writeBlock(block, src)) goto writeErrorReturn;
-      src += 512;
-    } else {
-      if (blockOffset == 0 && curPosition_ >= fileSize_) {
-        // start of new block don't need to read into cache
-        if (!SdVolume::cacheFlush()) goto writeErrorReturn;
-        SdVolume::cacheBlockNumber_ = block;
-        SdVolume::cacheSetDirty();
-      } else {
-        // rewrite part of block
-        if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_WRITE)) {
-          goto writeErrorReturn;
-        }
-      }
-      uint8_t* dst = SdVolume::cacheBuffer_.data + blockOffset;
-      uint8_t* end = dst + n;
-      while (dst != end) *dst++ = *src++;
-    }
-    nToWrite -= n;
-    curPosition_ += n;
-  }
-  if (curPosition_ > fileSize_) {
-    // update fileSize and insure sync will update dir entry
-    fileSize_ = curPosition_;
-    flags_ |= F_FILE_DIR_DIRTY;
-  } else if (dateTime_ && nbyte) {
-    // insure sync will update modified date and time
-    flags_ |= F_FILE_DIR_DIRTY;
-  }
-
-  if (flags_ & O_SYNC) {
-    if (!sync()) goto writeErrorReturn;
-  }
-  return nbyte;
-
- writeErrorReturn:
-  // return for write error
-  writeError = true;
-  return -1;
-}
-//------------------------------------------------------------------------------
-/**
- * Write a byte to a file. Required by the Arduino Print class.
- *
- * Use SdFile::writeError to check for errors.
- */
-void SdFile::write(uint8_t b) {
-  write(&b, 1);
-}
-//------------------------------------------------------------------------------
-/**
- * Write a string to a file. Used by the Arduino Print class.
- *
- * Use SdFile::writeError to check for errors.
- */
-void SdFile::write(const char* str) {
-  write(str, strlen(str));
-}
-//------------------------------------------------------------------------------
-/**
- * Write a PROGMEM string to a file.
- *
- * Use SdFile::writeError to check for errors.
- */
-void SdFile::write_P(PGM_P str) {
-  for (uint8_t c; (c = pgm_read_byte(str)); str++) write(c);
-}
-//------------------------------------------------------------------------------
-/**
- * Write a PROGMEM string followed by CR/LF to a file.
- *
- * Use SdFile::writeError to check for errors.
- */
-void SdFile::writeln_P(PGM_P str) {
-  write_P(str);
-  println();
-}
+/* Arduino SdFat Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#include "SdFat.h"
+#include <avr/pgmspace.h>
+#include <WProgram.h>
+//------------------------------------------------------------------------------
+// callback function for date/time
+void (*SdFile::dateTime_)(uint16_t* date, uint16_t* time) = NULL;
+
+#if ALLOW_DEPRECATED_FUNCTIONS
+// suppress cpplint warnings with NOLINT comment
+void (*SdFile::oldDateTime_)(uint16_t& date, uint16_t& time) = NULL;  // NOLINT
+#endif  // ALLOW_DEPRECATED_FUNCTIONS
+//------------------------------------------------------------------------------
+// add a cluster to a file
+uint8_t SdFile::addCluster() {
+  if (!vol_->allocContiguous(1, &curCluster_)) return false;
+
+  // if first cluster of file link to directory entry
+  if (firstCluster_ == 0) {
+    firstCluster_ = curCluster_;
+    flags_ |= F_FILE_DIR_DIRTY;
+  }
+  return true;
+}
+//------------------------------------------------------------------------------
+// Add a cluster to a directory file and zero the cluster.
+// return with first block of cluster in the cache
+uint8_t SdFile::addDirCluster(void) {
+  if (!addCluster()) return false;
+
+  // zero data in cluster insure first cluster is in cache
+  uint32_t block = vol_->clusterStartBlock(curCluster_);
+  for (uint8_t i = vol_->blocksPerCluster_; i != 0; i--) {
+    if (!SdVolume::cacheZeroBlock(block + i - 1)) return false;
+  }
+  // Increase directory file size by cluster size
+  fileSize_ += 512UL << vol_->clusterSizeShift_;
+  return true;
+}
+//------------------------------------------------------------------------------
+// cache a file's directory entry
+// return pointer to cached entry or null for failure
+dir_t* SdFile::cacheDirEntry(uint8_t action) {
+  if (!SdVolume::cacheRawBlock(dirBlock_, action)) return NULL;
+  return SdVolume::cacheBuffer_.dir + dirIndex_;
+}
+//------------------------------------------------------------------------------
+/**
+ *  Close a file and force cached data and directory information
+ *  to be written to the storage device.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include no file is open or an I/O error.
+ */
+uint8_t SdFile::close(void) {
+  if (!sync())return false;
+  type_ = FAT_FILE_TYPE_CLOSED;
+  return true;
+}
+//------------------------------------------------------------------------------
+/**
+ * Check for contiguous file and return its raw block range.
+ *
+ * \param[out] bgnBlock the first block address for the file.
+ * \param[out] endBlock the last  block address for the file.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include file is not contiguous, file has zero length
+ * or an I/O error occurred.
+ */
+uint8_t SdFile::contiguousRange(uint32_t* bgnBlock, uint32_t* endBlock) {
+  // error if no blocks
+  if (firstCluster_ == 0) return false;
+
+  for (uint32_t c = firstCluster_; ; c++) {
+    uint32_t next;
+    if (!vol_->fatGet(c, &next)) return false;
+
+    // check for contiguous
+    if (next != (c + 1)) {
+      // error if not end of chain
+      if (!vol_->isEOC(next)) return false;
+      *bgnBlock = vol_->clusterStartBlock(firstCluster_);
+      *endBlock = vol_->clusterStartBlock(c)
+                  + vol_->blocksPerCluster_ - 1;
+      return true;
+    }
+  }
+}
+//------------------------------------------------------------------------------
+/**
+ * Create and open a new contiguous file of a specified size.
+ *
+ * \note This function only supports short DOS 8.3 names.
+ * See open() for more information.
+ *
+ * \param[in] dirFile The directory where the file will be created.
+ * \param[in] fileName A valid DOS 8.3 file name.
+ * \param[in] size The desired file size.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include \a fileName contains
+ * an invalid DOS 8.3 file name, the FAT volume has not been initialized,
+ * a file is already open, the file already exists, the root
+ * directory is full or an I/O error.
+ *
+ */
+uint8_t SdFile::createContiguous(SdFile* dirFile,
+        const char* fileName, uint32_t size) {
+  // don't allow zero length file
+  if (size == 0) return false;
+  if (!open(dirFile, fileName, O_CREAT | O_EXCL | O_RDWR)) return false;
+
+  // calculate number of clusters needed
+  uint32_t count = ((size - 1) >> (vol_->clusterSizeShift_ + 9)) + 1;
+
+  // allocate clusters
+  if (!vol_->allocContiguous(count, &firstCluster_)) {
+    remove();
+    return false;
+  }
+  fileSize_ = size;
+
+  // insure sync() will update dir entry
+  flags_ |= F_FILE_DIR_DIRTY;
+  return sync();
+}
+//------------------------------------------------------------------------------
+/**
+ * Return a files directory entry
+ *
+ * \param[out] dir Location for return of the files directory entry.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t SdFile::dirEntry(dir_t* dir) {
+  // make sure fields on SD are correct
+  if (!sync()) return false;
+
+  // read entry
+  dir_t* p = cacheDirEntry(SdVolume::CACHE_FOR_READ);
+  if (!p) return false;
+
+  // copy to caller's struct
+  memcpy(dir, p, sizeof(dir_t));
+  return true;
+}
+//------------------------------------------------------------------------------
+/**
+ * Format the name field of \a dir into the 13 byte array
+ * \a name in standard 8.3 short name format.
+ *
+ * \param[in] dir The directory structure containing the name.
+ * \param[out] name A 13 byte char array for the formatted name.
+ */
+void SdFile::dirName(const dir_t& dir, char* name) {
+  uint8_t j = 0;
+  for (uint8_t i = 0; i < 11; i++) {
+    if (dir.name[i] == ' ')continue;
+    if (i == 8) name[j++] = '.';
+    name[j++] = dir.name[i];
+  }
+  name[j] = 0;
+}
+//------------------------------------------------------------------------------
+/** List directory contents to Serial.
+ *
+ * \param[in] flags The inclusive OR of
+ *
+ * LS_DATE - %Print file modification date
+ *
+ * LS_SIZE - %Print file size.
+ *
+ * LS_R - Recursive list of subdirectories.
+ *
+ * \param[in] indent Amount of space before file name. Used for recursive
+ * list to indicate subdirectory level.
+ */
+void SdFile::ls(uint8_t flags, uint8_t indent) {
+  dir_t* p;
+
+  rewind();
+  while ((p = readDirCache())) {
+    // done if past last used entry
+    if (p->name[0] == DIR_NAME_FREE) break;
+
+    // skip deleted entry and entries for . and  ..
+    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
+
+    // only list subdirectories and files
+    if (!DIR_IS_FILE_OR_SUBDIR(p)) continue;
+
+    // print any indent spaces
+    for (int8_t i = 0; i < indent; i++) Serial.print(' ');
+
+    // print file name with possible blank fill
+    printDirName(*p, flags & (LS_DATE | LS_SIZE) ? 14 : 0);
+
+    // print modify date/time if requested
+    if (flags & LS_DATE) {
+       printFatDate(p->lastWriteDate);
+       Serial.print(' ');
+       printFatTime(p->lastWriteTime);
+    }
+    // print size if requested
+    if (!DIR_IS_SUBDIR(p) && (flags & LS_SIZE)) {
+      Serial.print(' ');
+      Serial.print(p->fileSize);
+    }
+    Serial.println();
+
+    // list subdirectory content if requested
+    if ((flags & LS_R) && DIR_IS_SUBDIR(p)) {
+      uint16_t index = curPosition()/32 - 1;
+      SdFile s;
+      if (s.open(this, index, O_READ)) s.ls(flags, indent + 2);
+      seekSet(32 * (index + 1));
+    }
+  }
+}
+//------------------------------------------------------------------------------
+// format directory name field from a 8.3 name string
+uint8_t SdFile::make83Name(const char* str, uint8_t* name) {
+  uint8_t c;
+  uint8_t n = 7;  // max index for part before dot
+  uint8_t i = 0;
+  // blank fill name and extension
+  while (i < 11) name[i++] = ' ';
+  i = 0;
+  while ((c = *str++) != '\0') {
+    if (c == '.') {
+      if (n == 10) return false;  // only one dot allowed
+      n = 10;  // max index for full 8.3 name
+      i = 8;   // place for extension
+    } else {
+      // illegal FAT characters
+      PGM_P p = PSTR("|<>^+=?/[];,*\"\\");
+      uint8_t b;
+      while ((b = pgm_read_byte(p++))) if (b == c) return false;
+      // check size and only allow ASCII printable characters
+      if (i > n || c < 0X21 || c > 0X7E)return false;
+      // only upper case allowed in 8.3 names - convert lower to upper
+      name[i++] = c < 'a' || c > 'z' ?  c : c + ('A' - 'a');
+    }
+  }
+  // must have a file name, extension is optional
+  return name[0] != ' ';
+}
+//------------------------------------------------------------------------------
+/** Make a new directory.
+ *
+ * \param[in] dir An open SdFat instance for the directory that will containing
+ * the new directory.
+ *
+ * \param[in] dirName A valid 8.3 DOS name for the new directory.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include this SdFile is already open, \a dir is not a
+ * directory, \a dirName is invalid or already exists in \a dir.
+ */
+uint8_t SdFile::makeDir(SdFile* dir, const char* dirName) {
+  dir_t d;
+
+  // create a normal file
+  if (!open(dir, dirName, O_CREAT | O_EXCL | O_RDWR)) return false;
+
+  // convert SdFile to directory
+  flags_ = O_READ;
+  type_ = FAT_FILE_TYPE_SUBDIR;
+
+  // allocate and zero first cluster
+  if (!addDirCluster())return false;
+
+  // force entry to SD
+  if (!sync()) return false;
+
+  // cache entry - should already be in cache due to sync() call
+  dir_t* p = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
+  if (!p) return false;
+
+  // change directory entry  attribute
+  p->attributes = DIR_ATT_DIRECTORY;
+
+  // make entry for '.'
+  memcpy(&d, p, sizeof(d));
+  for (uint8_t i = 1; i < 11; i++) d.name[i] = ' ';
+  d.name[0] = '.';
+
+  // cache block for '.'  and '..'
+  uint32_t block = vol_->clusterStartBlock(firstCluster_);
+  if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_WRITE)) return false;
+
+  // copy '.' to block
+  memcpy(&SdVolume::cacheBuffer_.dir[0], &d, sizeof(d));
+
+  // make entry for '..'
+  d.name[1] = '.';
+  if (dir->isRoot()) {
+    d.firstClusterLow = 0;
+    d.firstClusterHigh = 0;
+  } else {
+    d.firstClusterLow = dir->firstCluster_ & 0XFFFF;
+    d.firstClusterHigh = dir->firstCluster_ >> 16;
+  }
+  // copy '..' to block
+  memcpy(&SdVolume::cacheBuffer_.dir[1], &d, sizeof(d));
+
+  // set position after '..'
+  curPosition_ = 2 * sizeof(d);
+
+  // write first block
+  return SdVolume::cacheFlush();
+}
+//------------------------------------------------------------------------------
+/**
+ * Open a file or directory by name.
+ *
+ * \param[in] dirFile An open SdFat instance for the directory containing the
+ * file to be opened.
+ *
+ * \param[in] fileName A valid 8.3 DOS name for a file to be opened.
+ *
+ * \param[in] oflag Values for \a oflag are constructed by a bitwise-inclusive
+ * OR of flags from the following list
+ *
+ * O_READ - Open for reading.
+ *
+ * O_RDONLY - Same as O_READ.
+ *
+ * O_WRITE - Open for writing.
+ *
+ * O_WRONLY - Same as O_WRITE.
+ *
+ * O_RDWR - Open for reading and writing.
+ *
+ * O_APPEND - If set, the file offset shall be set to the end of the
+ * file prior to each write.
+ *
+ * O_CREAT - If the file exists, this flag has no effect except as noted
+ * under O_EXCL below. Otherwise, the file shall be created
+ *
+ * O_EXCL - If O_CREAT and O_EXCL are set, open() shall fail if the file exists.
+ *
+ * O_SYNC - Call sync() after each write.  This flag should not be used with
+ * write(uint8_t), write_P(PGM_P), writeln_P(PGM_P), or the Arduino Print class.
+ * These functions do character at a time writes so sync() will be called
+ * after each byte.
+ *
+ * O_TRUNC - If the file exists and is a regular file, and the file is
+ * successfully opened and is not read only, its length shall be truncated to 0.
+ *
+ * \note Directory files must be opened read only.  Write and truncation is
+ * not allowed for directory files.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include this SdFile is already open, \a difFile is not
+ * a directory, \a fileName is invalid, the file does not exist
+ * or can't be opened in the access mode specified by oflag.
+ */
+uint8_t SdFile::open(SdFile* dirFile, const char* fileName, uint8_t oflag) {
+  uint8_t dname[11];
+  dir_t* p;
+
+  // error if already open
+  if (isOpen())return false;
+
+  if (!make83Name(fileName, dname)) return false;
+  vol_ = dirFile->vol_;
+  dirFile->rewind();
+
+  // bool for empty entry found
+  uint8_t emptyFound = false;
+
+  // search for file
+  while (dirFile->curPosition_ < dirFile->fileSize_) {
+    uint8_t index = 0XF & (dirFile->curPosition_ >> 5);
+    p = dirFile->readDirCache();
+    if (p == NULL) return false;
+
+    if (p->name[0] == DIR_NAME_FREE || p->name[0] == DIR_NAME_DELETED) {
+      // remember first empty slot
+      if (!emptyFound) {
+        emptyFound = true;
+        dirIndex_ = index;
+        dirBlock_ = SdVolume::cacheBlockNumber_;
+      }
+      // done if no entries follow
+      if (p->name[0] == DIR_NAME_FREE) break;
+    } else if (!memcmp(dname, p->name, 11)) {
+      // don't open existing file if O_CREAT and O_EXCL
+      if ((oflag & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL)) return false;
+
+      // open found file
+      return openCachedEntry(0XF & index, oflag);
+    }
+  }
+  // only create file if O_CREAT and O_WRITE
+  if ((oflag & (O_CREAT | O_WRITE)) != (O_CREAT | O_WRITE)) return false;
+
+  // cache found slot or add cluster if end of file
+  if (emptyFound) {
+    p = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
+    if (!p) return false;
+  } else {
+    if (dirFile->type_ == FAT_FILE_TYPE_ROOT16) return false;
+
+    // add and zero cluster for dirFile - first cluster is in cache for write
+    if (!dirFile->addDirCluster()) return false;
+
+    // use first entry in cluster
+    dirIndex_ = 0;
+    p = SdVolume::cacheBuffer_.dir;
+  }
+  // initialize as empty file
+  memset(p, 0, sizeof(dir_t));
+  memcpy(p->name, dname, 11);
+
+  // set timestamps
+  if (dateTime_) {
+    // call user function
+    dateTime_(&p->creationDate, &p->creationTime);
+  } else {
+    // use default date/time
+    p->creationDate = FAT_DEFAULT_DATE;
+    p->creationTime = FAT_DEFAULT_TIME;
+  }
+  p->lastAccessDate = p->creationDate;
+  p->lastWriteDate = p->creationDate;
+  p->lastWriteTime = p->creationTime;
+
+  // force write of entry to SD
+  if (!SdVolume::cacheFlush()) return false;
+
+  // open entry in cache
+  return openCachedEntry(dirIndex_, oflag);
+}
+//------------------------------------------------------------------------------
+/**
+ * Open a file by index.
+ *
+ * \param[in] dirFile An open SdFat instance for the directory.
+ *
+ * \param[in] index The \a index of the directory entry for the file to be
+ * opened.  The value for \a index is (directory file position)/32.
+ *
+ * \param[in] oflag Values for \a oflag are constructed by a bitwise-inclusive
+ * OR of flags O_READ, O_WRITE, O_TRUNC, and O_SYNC.
+ *
+ * See open() by fileName for definition of flags and return values.
+ *
+ */
+uint8_t SdFile::open(SdFile* dirFile, uint16_t index, uint8_t oflag) {
+  // error if already open
+  if (isOpen())return false;
+
+  // don't open existing file if O_CREAT and O_EXCL - user call error
+  if ((oflag & (O_CREAT | O_EXCL)) == (O_CREAT | O_EXCL)) return false;
+
+  vol_ = dirFile->vol_;
+
+  // seek to location of entry
+  if (!dirFile->seekSet(32 * index)) return false;
+
+  // read entry into cache
+  dir_t* p = dirFile->readDirCache();
+  if (p == NULL) return false;
+
+  // error if empty slot or '.' or '..'
+  if (p->name[0] == DIR_NAME_FREE ||
+      p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') {
+    return false;
+  }
+  // open cached entry
+  return openCachedEntry(index & 0XF, oflag);
+}
+//------------------------------------------------------------------------------
+// open a cached directory entry. Assumes vol_ is initializes
+uint8_t SdFile::openCachedEntry(uint8_t dirIndex, uint8_t oflag) {
+  // location of entry in cache
+  dir_t* p = SdVolume::cacheBuffer_.dir + dirIndex;
+
+  // write or truncate is an error for a directory or read-only file
+  if (p->attributes & (DIR_ATT_READ_ONLY | DIR_ATT_DIRECTORY)) {
+    if (oflag & (O_WRITE | O_TRUNC)) return false;
+  }
+  // remember location of directory entry on SD
+  dirIndex_ = dirIndex;
+  dirBlock_ = SdVolume::cacheBlockNumber_;
+
+  // copy first cluster number for directory fields
+  firstCluster_ = (uint32_t)p->firstClusterHigh << 16;
+  firstCluster_ |= p->firstClusterLow;
+
+  // make sure it is a normal file or subdirectory
+  if (DIR_IS_FILE(p)) {
+    fileSize_ = p->fileSize;
+    type_ = FAT_FILE_TYPE_NORMAL;
+  } else if (DIR_IS_SUBDIR(p)) {
+    if (!vol_->chainSize(firstCluster_, &fileSize_)) return false;
+    type_ = FAT_FILE_TYPE_SUBDIR;
+  } else {
+    return false;
+  }
+  // save open flags for read/write
+  flags_ = oflag & (O_ACCMODE | O_SYNC | O_APPEND);
+
+  // set to start of file
+  curCluster_ = 0;
+  curPosition_ = 0;
+
+  // truncate file to zero length if requested
+  if (oflag & O_TRUNC) return truncate(0);
+  return true;
+}
+//------------------------------------------------------------------------------
+/**
+ * Open a volume's root directory.
+ *
+ * \param[in] vol The FAT volume containing the root directory to be opened.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include the FAT volume has not been initialized
+ * or it a FAT12 volume.
+ */
+uint8_t SdFile::openRoot(SdVolume* vol) {
+  // error if file is already open
+  if (isOpen()) return false;
+
+  if (vol->fatType() == 16) {
+    type_ = FAT_FILE_TYPE_ROOT16;
+    firstCluster_ = 0;
+    fileSize_ = 32 * vol->rootDirEntryCount();
+  } else if (vol->fatType() == 32) {
+    type_ = FAT_FILE_TYPE_ROOT32;
+    firstCluster_ = vol->rootDirStart();
+    if (!vol->chainSize(firstCluster_, &fileSize_)) return false;
+  } else {
+    // volume is not initialized or FAT12
+    return false;
+  }
+  vol_ = vol;
+  // read only
+  flags_ = O_READ;
+
+  // set to start of file
+  curCluster_ = 0;
+  curPosition_ = 0;
+
+  // root has no directory entry
+  dirBlock_ = 0;
+  dirIndex_ = 0;
+  return true;
+}
+//------------------------------------------------------------------------------
+/** %Print the name field of a directory entry in 8.3 format to Serial.
+ *
+ * \param[in] dir The directory structure containing the name.
+ * \param[in] width Blank fill name if length is less than \a width.
+ */
+void SdFile::printDirName(const dir_t& dir, uint8_t width) {
+  uint8_t w = 0;
+  for (uint8_t i = 0; i < 11; i++) {
+    if (dir.name[i] == ' ')continue;
+    if (i == 8) {
+      Serial.print('.');
+      w++;
+    }
+    Serial.print(dir.name[i]);
+    w++;
+  }
+  if (DIR_IS_SUBDIR(&dir)) {
+    Serial.print('/');
+    w++;
+  }
+  while (w < width) {
+    Serial.print(' ');
+    w++;
+  }
+}
+//------------------------------------------------------------------------------
+/** %Print a directory date field to Serial.
+ *
+ *  Format is yyyy-mm-dd.
+ *
+ * \param[in] fatDate The date field from a directory entry.
+ */
+void SdFile::printFatDate(uint16_t fatDate) {
+  Serial.print(FAT_YEAR(fatDate));
+  Serial.print('-');
+  printTwoDigits(FAT_MONTH(fatDate));
+  Serial.print('-');
+  printTwoDigits(FAT_DAY(fatDate));
+}
+//------------------------------------------------------------------------------
+/** %Print a directory time field to Serial.
+ *
+ * Format is hh:mm:ss.
+ *
+ * \param[in] fatTime The time field from a directory entry.
+ */
+void SdFile::printFatTime(uint16_t fatTime) {
+  printTwoDigits(FAT_HOUR(fatTime));
+  Serial.print(':');
+  printTwoDigits(FAT_MINUTE(fatTime));
+  Serial.print(':');
+  printTwoDigits(FAT_SECOND(fatTime));
+}
+//------------------------------------------------------------------------------
+/** %Print a value as two digits to Serial.
+ *
+ * \param[in] v Value to be printed, 0 <= \a v <= 99
+ */
+void SdFile::printTwoDigits(uint8_t v) {
+  char str[3];
+  str[0] = '0' + v/10;
+  str[1] = '0' + v % 10;
+  str[2] = 0;
+  Serial.print(str);
+}
+//------------------------------------------------------------------------------
+/**
+ * Read data from a file starting at the current position.
+ *
+ * \param[out] buf Pointer to the location that will receive the data.
+ *
+ * \param[in] nbyte Maximum number of bytes to read.
+ *
+ * \return For success read() returns the number of bytes read.
+ * A value less than \a nbyte, including zero, will be returned
+ * if end of file is reached.
+ * If an error occurs, read() returns -1.  Possible errors include
+ * read() called before a file has been opened, corrupt file system
+ * or an I/O error occurred.
+ */
+int16_t SdFile::read(void* buf, uint16_t nbyte) {
+  uint8_t* dst = reinterpret_cast<uint8_t*>(buf);
+
+  // error if not open or write only
+  if (!isOpen() || !(flags_ & O_READ)) return -1;
+
+  // max bytes left in file
+  if (nbyte > (fileSize_ - curPosition_)) nbyte = fileSize_ - curPosition_;
+
+  // amount left to read
+  uint16_t toRead = nbyte;
+  while (toRead > 0) {
+    uint32_t block;  // raw device block number
+    uint16_t offset = curPosition_ & 0X1FF;  // offset in block
+    if (type_ == FAT_FILE_TYPE_ROOT16) {
+      block = vol_->rootDirStart() + (curPosition_ >> 9);
+    } else {
+      uint8_t blockOfCluster = vol_->blockOfCluster(curPosition_);
+      if (offset == 0 && blockOfCluster == 0) {
+        // start of new cluster
+        if (curPosition_ == 0) {
+          // use first cluster in file
+          curCluster_ = firstCluster_;
+        } else {
+          // get next cluster from FAT
+          if (!vol_->fatGet(curCluster_, &curCluster_)) return -1;
+        }
+      }
+      block = vol_->clusterStartBlock(curCluster_) + blockOfCluster;
+    }
+    uint16_t n = toRead;
+
+    // amount to be read from current block
+    if (n > (512 - offset)) n = 512 - offset;
+
+    // no buffering needed if n == 512 or user requests no buffering
+    if ((unbufferedRead() || n == 512) &&
+      block != SdVolume::cacheBlockNumber_) {
+      if (!vol_->readData(block, offset, n, dst)) return -1;
+      dst += n;
+    } else {
+      // read block to cache and copy data to caller
+      if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_READ)) return -1;
+      uint8_t* src = SdVolume::cacheBuffer_.data + offset;
+      uint8_t* end = src + n;
+      while (src != end) *dst++ = *src++;
+    }
+    curPosition_ += n;
+    toRead -= n;
+  }
+  return nbyte;
+}
+//------------------------------------------------------------------------------
+/**
+ * Read the next directory entry from a directory file.
+ *
+ * \param[out] dir The dir_t struct that will receive the data.
+ *
+ * \return For success readDir() returns the number of bytes read.
+ * A value of zero will be returned if end of file is reached.
+ * If an error occurs, readDir() returns -1.  Possible errors include
+ * readDir() called before a directory has been opened, this is not
+ * a directory file or an I/O error occurred.
+ */
+int8_t SdFile::readDir(dir_t* dir) {
+  int8_t n;
+  // if not a directory file or miss-positioned return an error
+  if (!isDir() || (0X1F & curPosition_)) return -1;
+
+  while ((n = read(dir, sizeof(dir_t))) == sizeof(dir_t)) {
+    // last entry if DIR_NAME_FREE
+    if (dir->name[0] == DIR_NAME_FREE) break;
+    // skip empty entries and entry for .  and ..
+    if (dir->name[0] == DIR_NAME_DELETED || dir->name[0] == '.') continue;
+    // return if normal file or subdirectory
+    if (DIR_IS_FILE_OR_SUBDIR(dir)) return n;
+  }
+  // error, end of file, or past last entry
+  return n < 0 ? -1 : 0;
+}
+//------------------------------------------------------------------------------
+// Read next directory entry into the cache
+// Assumes file is correctly positioned
+dir_t* SdFile::readDirCache(void) {
+  // error if not directory
+  if (!isDir()) return NULL;
+
+  // index of entry in cache
+  uint8_t i = (curPosition_ >> 5) & 0XF;
+
+  // use read to locate and cache block
+  if (read() < 0) return NULL;
+
+  // advance to next entry
+  curPosition_ += 31;
+
+  // return pointer to entry
+  return (SdVolume::cacheBuffer_.dir + i);
+}
+//------------------------------------------------------------------------------
+/**
+ * Remove a file.
+ *
+ * The directory entry and all data for the file are deleted.
+ *
+ * \note This function should not be used to delete the 8.3 version of a
+ * file that has a long name. For example if a file has the long name
+ * "New Text Document.txt" you should not delete the 8.3 name "NEWTEX~1.TXT".
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include the file read-only, is a directory,
+ * or an I/O error occurred.
+ */
+uint8_t SdFile::remove(void) {
+  // free any clusters - will fail if read-only or directory
+  if (!truncate(0)) return false;
+
+  // cache directory entry
+  dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
+  if (!d) return false;
+
+  // mark entry deleted
+  d->name[0] = DIR_NAME_DELETED;
+
+  // set this SdFile closed
+  type_ = FAT_FILE_TYPE_CLOSED;
+
+  // write entry to SD
+  return SdVolume::cacheFlush();
+}
+//------------------------------------------------------------------------------
+/**
+ * Remove a file.
+ *
+ * The directory entry and all data for the file are deleted.
+ *
+ * \param[in] dirFile The directory that contains the file.
+ * \param[in] fileName The name of the file to be removed.
+ *
+ * \note This function should not be used to delete the 8.3 version of a
+ * file that has a long name. For example if a file has the long name
+ * "New Text Document.txt" you should not delete the 8.3 name "NEWTEX~1.TXT".
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include the file is a directory, is read only,
+ * \a dirFile is not a directory, \a fileName is not found
+ * or an I/O error occurred.
+ */
+uint8_t SdFile::remove(SdFile* dirFile, const char* fileName) {
+  SdFile file;
+  if (!file.open(dirFile, fileName, O_WRITE)) return false;
+  return file.remove();
+}
+//------------------------------------------------------------------------------
+/** Remove a directory file.
+ *
+ * The directory file will be removed only if it is empty and is not the
+ * root directory.  rmDir() follows DOS and Windows and ignores the
+ * read-only attribute for the directory.
+ *
+ * \note This function should not be used to delete the 8.3 version of a
+ * directory that has a long name. For example if a directory has the
+ * long name "New folder" you should not delete the 8.3 name "NEWFOL~1".
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include the file is not a directory, is the root
+ * directory, is not empty, or an I/O error occurred.
+ */
+uint8_t SdFile::rmDir(void) {
+  // must be open subdirectory
+  if (!isSubDir()) return false;
+
+  rewind();
+
+  // make sure directory is empty
+  while (curPosition_ < fileSize_) {
+    dir_t* p = readDirCache();
+    if (p == NULL) return false;
+    // done if past last used entry
+    if (p->name[0] == DIR_NAME_FREE) break;
+    // skip empty slot or '.' or '..'
+    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
+    // error not empty
+    if (DIR_IS_FILE_OR_SUBDIR(p)) return false;
+  }
+  // convert empty directory to normal file for remove
+  type_ = FAT_FILE_TYPE_NORMAL;
+  flags_ |= O_WRITE;
+  return remove();
+}
+//------------------------------------------------------------------------------
+/** Recursively delete a directory and all contained files.
+ *
+ * This is like the Unix/Linux 'rm -rf *' if called with the root directory
+ * hence the name.
+ *
+ * Warning - This will remove all contents of the directory including
+ * subdirectories.  The directory will then be removed if it is not root.
+ * The read-only attribute for files will be ignored.
+ *
+ * \note This function should not be used to delete the 8.3 version of
+ * a directory that has a long name.  See remove() and rmDir().
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t SdFile::rmRfStar(void) {
+  rewind();
+  while (curPosition_ < fileSize_) {
+    SdFile f;
+
+    // remember position
+    uint16_t index = curPosition_/32;
+
+    dir_t* p = readDirCache();
+    if (!p) return false;
+
+    // done if past last entry
+    if (p->name[0] == DIR_NAME_FREE) break;
+
+    // skip empty slot or '.' or '..'
+    if (p->name[0] == DIR_NAME_DELETED || p->name[0] == '.') continue;
+
+    // skip if part of long file name or volume label in root
+    if (!DIR_IS_FILE_OR_SUBDIR(p)) continue;
+
+    if (!f.open(this, index, O_READ)) return false;
+    if (f.isSubDir()) {
+      // recursively delete
+      if (!f.rmRfStar()) return false;
+    } else {
+      // ignore read-only
+      f.flags_ |= O_WRITE;
+      if (!f.remove()) return false;
+    }
+    // position to next entry if required
+    if (curPosition_ != (32*(index + 1))) {
+      if (!seekSet(32*(index + 1))) return false;
+    }
+  }
+  // don't try to delete root
+  if (isRoot()) return true;
+  return rmDir();
+}
+//------------------------------------------------------------------------------
+/**
+ * Sets a file's position.
+ *
+ * \param[in] pos The new position in bytes from the beginning of the file.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t SdFile::seekSet(uint32_t pos) {
+  // error if file not open or seek past end of file
+  if (!isOpen() || pos > fileSize_) return false;
+
+  if (type_ == FAT_FILE_TYPE_ROOT16) {
+    curPosition_ = pos;
+    return true;
+  }
+  if (pos == 0) {
+    // set position to start of file
+    curCluster_ = 0;
+    curPosition_ = 0;
+    return true;
+  }
+  // calculate cluster index for cur and new position
+  uint32_t nCur = (curPosition_ - 1) >> (vol_->clusterSizeShift_ + 9);
+  uint32_t nNew = (pos - 1) >> (vol_->clusterSizeShift_ + 9);
+
+  if (nNew < nCur || curPosition_ == 0) {
+    // must follow chain from first cluster
+    curCluster_ = firstCluster_;
+  } else {
+    // advance from curPosition
+    nNew -= nCur;
+  }
+  while (nNew--) {
+    if (!vol_->fatGet(curCluster_, &curCluster_)) return false;
+  }
+  curPosition_ = pos;
+  return true;
+}
+//------------------------------------------------------------------------------
+/**
+ * The sync() call causes all modified data and directory fields
+ * to be written to the storage device.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include a call to sync() before a file has been
+ * opened or an I/O error.
+ */
+uint8_t SdFile::sync(void) {
+  // only allow open files and directories
+  if (!isOpen()) return false;
+
+  if (flags_ & F_FILE_DIR_DIRTY) {
+    dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
+    if (!d) return false;
+
+    // do not set filesize for dir files
+    if (!isDir()) d->fileSize = fileSize_;
+
+    // update first cluster fields
+    d->firstClusterLow = firstCluster_ & 0XFFFF;
+    d->firstClusterHigh = firstCluster_ >> 16;
+
+    // set modify time if user supplied a callback date/time function
+    if (dateTime_) {
+      dateTime_(&d->lastWriteDate, &d->lastWriteTime);
+      d->lastAccessDate = d->lastWriteDate;
+    }
+    // clear directory dirty
+    flags_ &= ~F_FILE_DIR_DIRTY;
+  }
+  return SdVolume::cacheFlush();
+}
+//------------------------------------------------------------------------------
+/**
+ * Set a file's timestamps in its directory entry.
+ *
+ * \param[in] flags Values for \a flags are constructed by a bitwise-inclusive
+ * OR of flags from the following list
+ *
+ * T_ACCESS - Set the file's last access date.
+ *
+ * T_CREATE - Set the file's creation date and time.
+ *
+ * T_WRITE - Set the file's last write/modification date and time.
+ *
+ * \param[in] year Valid range 1980 - 2107 inclusive.
+ *
+ * \param[in] month Valid range 1 - 12 inclusive.
+ *
+ * \param[in] day Valid range 1 - 31 inclusive.
+ *
+ * \param[in] hour Valid range 0 - 23 inclusive.
+ *
+ * \param[in] minute Valid range 0 - 59 inclusive.
+ *
+ * \param[in] second Valid range 0 - 59 inclusive
+ *
+ * \note It is possible to set an invalid date since there is no check for
+ * the number of days in a month.
+ *
+ * \note
+ * Modify and access timestamps may be overwritten if a date time callback
+ * function has been set by dateTimeCallback().
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ */
+uint8_t SdFile::timestamp(uint8_t flags, uint16_t year, uint8_t month,
+         uint8_t day, uint8_t hour, uint8_t minute, uint8_t second) {
+  if (!isOpen()
+    || year < 1980
+    || year > 2107
+    || month < 1
+    || month > 12
+    || day < 1
+    || day > 31
+    || hour > 23
+    || minute > 59
+    || second > 59) {
+      return false;
+  }
+  dir_t* d = cacheDirEntry(SdVolume::CACHE_FOR_WRITE);
+  if (!d) return false;
+
+  uint16_t dirDate = FAT_DATE(year, month, day);
+  uint16_t dirTime = FAT_TIME(hour, minute, second);
+  if (flags & T_ACCESS) {
+    d->lastAccessDate = dirDate;
+  }
+  if (flags & T_CREATE) {
+    d->creationDate = dirDate;
+    d->creationTime = dirTime;
+    // seems to be units of 1/100 second not 1/10 as Microsoft states
+    d->creationTimeTenths = second & 1 ? 100 : 0;
+  }
+  if (flags & T_WRITE) {
+    d->lastWriteDate = dirDate;
+    d->lastWriteTime = dirTime;
+  }
+  SdVolume::cacheSetDirty();
+  return sync();
+}
+//------------------------------------------------------------------------------
+/**
+ * Truncate a file to a specified length.  The current file position
+ * will be maintained if it is less than or equal to \a length otherwise
+ * it will be set to end of file.
+ *
+ * \param[in] length The desired length for the file.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.
+ * Reasons for failure include file is read only, file is a directory,
+ * \a length is greater than the current file size or an I/O error occurs.
+ */
+uint8_t SdFile::truncate(uint32_t length) {
+// error if not a normal file or read-only
+  if (!isFile() || !(flags_ & O_WRITE)) return false;
+
+  // error if length is greater than current size
+  if (length > fileSize_) return false;
+
+  // fileSize and length are zero - nothing to do
+  if (fileSize_ == 0) return true;
+
+  // remember position for seek after truncation
+  uint32_t newPos = curPosition_ > length ? length : curPosition_;
+
+  // position to last cluster in truncated file
+  if (!seekSet(length)) return false;
+
+  if (length == 0) {
+    // free all clusters
+    if (!vol_->freeChain(firstCluster_)) return false;
+    firstCluster_ = 0;
+  } else {
+    uint32_t toFree;
+    if (!vol_->fatGet(curCluster_, &toFree)) return false;
+
+    if (!vol_->isEOC(toFree)) {
+      // free extra clusters
+      if (!vol_->freeChain(toFree)) return false;
+
+      // current cluster is end of chain
+      if (!vol_->fatPutEOC(curCluster_)) return false;
+    }
+  }
+  fileSize_ = length;
+
+  // need to update directory entry
+  flags_ |= F_FILE_DIR_DIRTY;
+
+  if (!sync()) return false;
+
+  // set file to correct position
+  return seekSet(newPos);
+}
+//------------------------------------------------------------------------------
+/**
+ * Write data to an open file.
+ *
+ * \note Data is moved to the cache but may not be written to the
+ * storage device until sync() is called.
+ *
+ * \param[in] buf Pointer to the location of the data to be written.
+ *
+ * \param[in] nbyte Number of bytes to write.
+ *
+ * \return For success write() returns the number of bytes written, always
+ * \a nbyte.  If an error occurs, write() returns -1.  Possible errors
+ * include write() is called before a file has been opened, write is called
+ * for a read-only file, device is full, a corrupt file system or an I/O error.
+ *
+ */
+int16_t SdFile::write(const void* buf, uint16_t nbyte) {
+  // convert void* to uint8_t*  -  must be before goto statements
+  const uint8_t* src = reinterpret_cast<const uint8_t*>(buf);
+
+  // number of bytes left to write  -  must be before goto statements
+  uint16_t nToWrite = nbyte;
+
+  // error if not a normal file or is read-only
+  if (!isFile() || !(flags_ & O_WRITE)) goto writeErrorReturn;
+
+  // seek to end of file if append flag
+  if ((flags_ & O_APPEND) && curPosition_ != fileSize_) {
+    if (!seekEnd()) goto writeErrorReturn;
+  }
+
+  while (nToWrite > 0) {
+    uint8_t blockOfCluster = vol_->blockOfCluster(curPosition_);
+    uint16_t blockOffset = curPosition_ & 0X1FF;
+    if (blockOfCluster == 0 && blockOffset == 0) {
+      // start of new cluster
+      if (curCluster_ == 0) {
+        if (firstCluster_ == 0) {
+          // allocate first cluster of file
+          if (!addCluster()) goto writeErrorReturn;
+        } else {
+          curCluster_ = firstCluster_;
+        }
+      } else {
+        uint32_t next;
+        if (!vol_->fatGet(curCluster_, &next)) return false;
+        if (vol_->isEOC(next)) {
+          // add cluster if at end of chain
+          if (!addCluster()) goto writeErrorReturn;
+        } else {
+          curCluster_ = next;
+        }
+      }
+    }
+    // max space in block
+    uint16_t n = 512 - blockOffset;
+
+    // lesser of space and amount to write
+    if (n > nToWrite) n = nToWrite;
+
+    // block for data write
+    uint32_t block = vol_->clusterStartBlock(curCluster_) + blockOfCluster;
+    if (n == 512) {
+      // full block - don't need to use cache
+      // invalidate cache if block is in cache
+      if (SdVolume::cacheBlockNumber_ == block) {
+        SdVolume::cacheBlockNumber_ = 0XFFFFFFFF;
+      }
+      if (!vol_->writeBlock(block, src)) goto writeErrorReturn;
+      src += 512;
+    } else {
+      if (blockOffset == 0 && curPosition_ >= fileSize_) {
+        // start of new block don't need to read into cache
+        if (!SdVolume::cacheFlush()) goto writeErrorReturn;
+        SdVolume::cacheBlockNumber_ = block;
+        SdVolume::cacheSetDirty();
+      } else {
+        // rewrite part of block
+        if (!SdVolume::cacheRawBlock(block, SdVolume::CACHE_FOR_WRITE)) {
+          goto writeErrorReturn;
+        }
+      }
+      uint8_t* dst = SdVolume::cacheBuffer_.data + blockOffset;
+      uint8_t* end = dst + n;
+      while (dst != end) *dst++ = *src++;
+    }
+    nToWrite -= n;
+    curPosition_ += n;
+  }
+  if (curPosition_ > fileSize_) {
+    // update fileSize and insure sync will update dir entry
+    fileSize_ = curPosition_;
+    flags_ |= F_FILE_DIR_DIRTY;
+  } else if (dateTime_ && nbyte) {
+    // insure sync will update modified date and time
+    flags_ |= F_FILE_DIR_DIRTY;
+  }
+
+  if (flags_ & O_SYNC) {
+    if (!sync()) goto writeErrorReturn;
+  }
+  return nbyte;
+
+ writeErrorReturn:
+  // return for write error
+  writeError = true;
+  return -1;
+}
+//------------------------------------------------------------------------------
+/**
+ * Write a byte to a file. Required by the Arduino Print class.
+ *
+ * Use SdFile::writeError to check for errors.
+ */
+void SdFile::write(uint8_t b) {
+  write(&b, 1);
+}
+//------------------------------------------------------------------------------
+/**
+ * Write a string to a file. Used by the Arduino Print class.
+ *
+ * Use SdFile::writeError to check for errors.
+ */
+void SdFile::write(const char* str) {
+  write(str, strlen(str));
+}
+//------------------------------------------------------------------------------
+/**
+ * Write a PROGMEM string to a file.
+ *
+ * Use SdFile::writeError to check for errors.
+ */
+void SdFile::write_P(PGM_P str) {
+  for (uint8_t c; (c = pgm_read_byte(str)); str++) write(c);
+}
+//------------------------------------------------------------------------------
+/**
+ * Write a PROGMEM string followed by CR/LF to a file.
+ *
+ * Use SdFile::writeError to check for errors.
+ */
+void SdFile::writeln_P(PGM_P str) {
+  write_P(str);
+  println();
+}
diff --git a/Marlin/SdInfo.h b/Marlin/SdInfo.h
index bc4c6137f..acde74d97 100644
--- a/Marlin/SdInfo.h
+++ b/Marlin/SdInfo.h
@@ -1,232 +1,232 @@
-/* Arduino Sd2Card Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino Sd2Card Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino Sd2Card Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#ifndef SdInfo_h
-#define SdInfo_h
-#include <stdint.h>
-// Based on the document:
-//
-// SD Specifications
-// Part 1
-// Physical Layer
-// Simplified Specification
-// Version 2.00
-// September 25, 2006
-//
-// www.sdcard.org/developers/tech/sdcard/pls/Simplified_Physical_Layer_Spec.pdf
-//------------------------------------------------------------------------------
-// SD card commands
-/** GO_IDLE_STATE - init card in spi mode if CS low */
-uint8_t const CMD0 = 0X00;
-/** SEND_IF_COND - verify SD Memory Card interface operating condition.*/
-uint8_t const CMD8 = 0X08;
-/** SEND_CSD - read the Card Specific Data (CSD register) */
-uint8_t const CMD9 = 0X09;
-/** SEND_CID - read the card identification information (CID register) */
-uint8_t const CMD10 = 0X0A;
-/** SEND_STATUS - read the card status register */
-uint8_t const CMD13 = 0X0D;
-/** READ_BLOCK - read a single data block from the card */
-uint8_t const CMD17 = 0X11;
-/** WRITE_BLOCK - write a single data block to the card */
-uint8_t const CMD24 = 0X18;
-/** WRITE_MULTIPLE_BLOCK - write blocks of data until a STOP_TRANSMISSION */
-uint8_t const CMD25 = 0X19;
-/** ERASE_WR_BLK_START - sets the address of the first block to be erased */
-uint8_t const CMD32 = 0X20;
-/** ERASE_WR_BLK_END - sets the address of the last block of the continuous
-    range to be erased*/
-uint8_t const CMD33 = 0X21;
-/** ERASE - erase all previously selected blocks */
-uint8_t const CMD38 = 0X26;
-/** APP_CMD - escape for application specific command */
-uint8_t const CMD55 = 0X37;
-/** READ_OCR - read the OCR register of a card */
-uint8_t const CMD58 = 0X3A;
-/** SET_WR_BLK_ERASE_COUNT - Set the number of write blocks to be
-     pre-erased before writing */
-uint8_t const ACMD23 = 0X17;
-/** SD_SEND_OP_COMD - Sends host capacity support information and
-    activates the card's initialization process */
-uint8_t const ACMD41 = 0X29;
-//------------------------------------------------------------------------------
-/** status for card in the ready state */
-uint8_t const R1_READY_STATE = 0X00;
-/** status for card in the idle state */
-uint8_t const R1_IDLE_STATE = 0X01;
-/** status bit for illegal command */
-uint8_t const R1_ILLEGAL_COMMAND = 0X04;
-/** start data token for read or write single block*/
-uint8_t const DATA_START_BLOCK = 0XFE;
-/** stop token for write multiple blocks*/
-uint8_t const STOP_TRAN_TOKEN = 0XFD;
-/** start data token for write multiple blocks*/
-uint8_t const WRITE_MULTIPLE_TOKEN = 0XFC;
-/** mask for data response tokens after a write block operation */
-uint8_t const DATA_RES_MASK = 0X1F;
-/** write data accepted token */
-uint8_t const DATA_RES_ACCEPTED = 0X05;
-//------------------------------------------------------------------------------
-typedef struct CID {
-  // byte 0
-  uint8_t mid;  // Manufacturer ID
-  // byte 1-2
-  char oid[2];  // OEM/Application ID
-  // byte 3-7
-  char pnm[5];  // Product name
-  // byte 8
-  unsigned prv_m : 4;  // Product revision n.m
-  unsigned prv_n : 4;
-  // byte 9-12
-  uint32_t psn;  // Product serial number
-  // byte 13
-  unsigned mdt_year_high : 4;  // Manufacturing date
-  unsigned reserved : 4;
-  // byte 14
-  unsigned mdt_month : 4;
-  unsigned mdt_year_low :4;
-  // byte 15
-  unsigned always1 : 1;
-  unsigned crc : 7;
-}cid_t;
-//------------------------------------------------------------------------------
-// CSD for version 1.00 cards
-typedef struct CSDV1 {
-  // byte 0
-  unsigned reserved1 : 6;
-  unsigned csd_ver : 2;
-  // byte 1
-  uint8_t taac;
-  // byte 2
-  uint8_t nsac;
-  // byte 3
-  uint8_t tran_speed;
-  // byte 4
-  uint8_t ccc_high;
-  // byte 5
-  unsigned read_bl_len : 4;
-  unsigned ccc_low : 4;
-  // byte 6
-  unsigned c_size_high : 2;
-  unsigned reserved2 : 2;
-  unsigned dsr_imp : 1;
-  unsigned read_blk_misalign :1;
-  unsigned write_blk_misalign : 1;
-  unsigned read_bl_partial : 1;
-  // byte 7
-  uint8_t c_size_mid;
-  // byte 8
-  unsigned vdd_r_curr_max : 3;
-  unsigned vdd_r_curr_min : 3;
-  unsigned c_size_low :2;
-  // byte 9
-  unsigned c_size_mult_high : 2;
-  unsigned vdd_w_cur_max : 3;
-  unsigned vdd_w_curr_min : 3;
-  // byte 10
-  unsigned sector_size_high : 6;
-  unsigned erase_blk_en : 1;
-  unsigned c_size_mult_low : 1;
-  // byte 11
-  unsigned wp_grp_size : 7;
-  unsigned sector_size_low : 1;
-  // byte 12
-  unsigned write_bl_len_high : 2;
-  unsigned r2w_factor : 3;
-  unsigned reserved3 : 2;
-  unsigned wp_grp_enable : 1;
-  // byte 13
-  unsigned reserved4 : 5;
-  unsigned write_partial : 1;
-  unsigned write_bl_len_low : 2;
-  // byte 14
-  unsigned reserved5: 2;
-  unsigned file_format : 2;
-  unsigned tmp_write_protect : 1;
-  unsigned perm_write_protect : 1;
-  unsigned copy : 1;
-  unsigned file_format_grp : 1;
-  // byte 15
-  unsigned always1 : 1;
-  unsigned crc : 7;
-}csd1_t;
-//------------------------------------------------------------------------------
-// CSD for version 2.00 cards
-typedef struct CSDV2 {
-  // byte 0
-  unsigned reserved1 : 6;
-  unsigned csd_ver : 2;
-  // byte 1
-  uint8_t taac;
-  // byte 2
-  uint8_t nsac;
-  // byte 3
-  uint8_t tran_speed;
-  // byte 4
-  uint8_t ccc_high;
-  // byte 5
-  unsigned read_bl_len : 4;
-  unsigned ccc_low : 4;
-  // byte 6
-  unsigned reserved2 : 4;
-  unsigned dsr_imp : 1;
-  unsigned read_blk_misalign :1;
-  unsigned write_blk_misalign : 1;
-  unsigned read_bl_partial : 1;
-  // byte 7
-  unsigned reserved3 : 2;
-  unsigned c_size_high : 6;
-  // byte 8
-  uint8_t c_size_mid;
-  // byte 9
-  uint8_t c_size_low;
-  // byte 10
-  unsigned sector_size_high : 6;
-  unsigned erase_blk_en : 1;
-  unsigned reserved4 : 1;
-  // byte 11
-  unsigned wp_grp_size : 7;
-  unsigned sector_size_low : 1;
-  // byte 12
-  unsigned write_bl_len_high : 2;
-  unsigned r2w_factor : 3;
-  unsigned reserved5 : 2;
-  unsigned wp_grp_enable : 1;
-  // byte 13
-  unsigned reserved6 : 5;
-  unsigned write_partial : 1;
-  unsigned write_bl_len_low : 2;
-  // byte 14
-  unsigned reserved7: 2;
-  unsigned file_format : 2;
-  unsigned tmp_write_protect : 1;
-  unsigned perm_write_protect : 1;
-  unsigned copy : 1;
-  unsigned file_format_grp : 1;
-  // byte 15
-  unsigned always1 : 1;
-  unsigned crc : 7;
-}csd2_t;
-//------------------------------------------------------------------------------
-// union of old and new style CSD register
-union csd_t {
-  csd1_t v1;
-  csd2_t v2;
-};
-#endif  // SdInfo_h
+/* Arduino Sd2Card Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino Sd2Card Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino Sd2Card Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#ifndef SdInfo_h
+#define SdInfo_h
+#include <stdint.h>
+// Based on the document:
+//
+// SD Specifications
+// Part 1
+// Physical Layer
+// Simplified Specification
+// Version 2.00
+// September 25, 2006
+//
+// www.sdcard.org/developers/tech/sdcard/pls/Simplified_Physical_Layer_Spec.pdf
+//------------------------------------------------------------------------------
+// SD card commands
+/** GO_IDLE_STATE - init card in spi mode if CS low */
+uint8_t const CMD0 = 0X00;
+/** SEND_IF_COND - verify SD Memory Card interface operating condition.*/
+uint8_t const CMD8 = 0X08;
+/** SEND_CSD - read the Card Specific Data (CSD register) */
+uint8_t const CMD9 = 0X09;
+/** SEND_CID - read the card identification information (CID register) */
+uint8_t const CMD10 = 0X0A;
+/** SEND_STATUS - read the card status register */
+uint8_t const CMD13 = 0X0D;
+/** READ_BLOCK - read a single data block from the card */
+uint8_t const CMD17 = 0X11;
+/** WRITE_BLOCK - write a single data block to the card */
+uint8_t const CMD24 = 0X18;
+/** WRITE_MULTIPLE_BLOCK - write blocks of data until a STOP_TRANSMISSION */
+uint8_t const CMD25 = 0X19;
+/** ERASE_WR_BLK_START - sets the address of the first block to be erased */
+uint8_t const CMD32 = 0X20;
+/** ERASE_WR_BLK_END - sets the address of the last block of the continuous
+    range to be erased*/
+uint8_t const CMD33 = 0X21;
+/** ERASE - erase all previously selected blocks */
+uint8_t const CMD38 = 0X26;
+/** APP_CMD - escape for application specific command */
+uint8_t const CMD55 = 0X37;
+/** READ_OCR - read the OCR register of a card */
+uint8_t const CMD58 = 0X3A;
+/** SET_WR_BLK_ERASE_COUNT - Set the number of write blocks to be
+     pre-erased before writing */
+uint8_t const ACMD23 = 0X17;
+/** SD_SEND_OP_COMD - Sends host capacity support information and
+    activates the card's initialization process */
+uint8_t const ACMD41 = 0X29;
+//------------------------------------------------------------------------------
+/** status for card in the ready state */
+uint8_t const R1_READY_STATE = 0X00;
+/** status for card in the idle state */
+uint8_t const R1_IDLE_STATE = 0X01;
+/** status bit for illegal command */
+uint8_t const R1_ILLEGAL_COMMAND = 0X04;
+/** start data token for read or write single block*/
+uint8_t const DATA_START_BLOCK = 0XFE;
+/** stop token for write multiple blocks*/
+uint8_t const STOP_TRAN_TOKEN = 0XFD;
+/** start data token for write multiple blocks*/
+uint8_t const WRITE_MULTIPLE_TOKEN = 0XFC;
+/** mask for data response tokens after a write block operation */
+uint8_t const DATA_RES_MASK = 0X1F;
+/** write data accepted token */
+uint8_t const DATA_RES_ACCEPTED = 0X05;
+//------------------------------------------------------------------------------
+typedef struct CID {
+  // byte 0
+  uint8_t mid;  // Manufacturer ID
+  // byte 1-2
+  char oid[2];  // OEM/Application ID
+  // byte 3-7
+  char pnm[5];  // Product name
+  // byte 8
+  unsigned prv_m : 4;  // Product revision n.m
+  unsigned prv_n : 4;
+  // byte 9-12
+  uint32_t psn;  // Product serial number
+  // byte 13
+  unsigned mdt_year_high : 4;  // Manufacturing date
+  unsigned reserved : 4;
+  // byte 14
+  unsigned mdt_month : 4;
+  unsigned mdt_year_low :4;
+  // byte 15
+  unsigned always1 : 1;
+  unsigned crc : 7;
+}cid_t;
+//------------------------------------------------------------------------------
+// CSD for version 1.00 cards
+typedef struct CSDV1 {
+  // byte 0
+  unsigned reserved1 : 6;
+  unsigned csd_ver : 2;
+  // byte 1
+  uint8_t taac;
+  // byte 2
+  uint8_t nsac;
+  // byte 3
+  uint8_t tran_speed;
+  // byte 4
+  uint8_t ccc_high;
+  // byte 5
+  unsigned read_bl_len : 4;
+  unsigned ccc_low : 4;
+  // byte 6
+  unsigned c_size_high : 2;
+  unsigned reserved2 : 2;
+  unsigned dsr_imp : 1;
+  unsigned read_blk_misalign :1;
+  unsigned write_blk_misalign : 1;
+  unsigned read_bl_partial : 1;
+  // byte 7
+  uint8_t c_size_mid;
+  // byte 8
+  unsigned vdd_r_curr_max : 3;
+  unsigned vdd_r_curr_min : 3;
+  unsigned c_size_low :2;
+  // byte 9
+  unsigned c_size_mult_high : 2;
+  unsigned vdd_w_cur_max : 3;
+  unsigned vdd_w_curr_min : 3;
+  // byte 10
+  unsigned sector_size_high : 6;
+  unsigned erase_blk_en : 1;
+  unsigned c_size_mult_low : 1;
+  // byte 11
+  unsigned wp_grp_size : 7;
+  unsigned sector_size_low : 1;
+  // byte 12
+  unsigned write_bl_len_high : 2;
+  unsigned r2w_factor : 3;
+  unsigned reserved3 : 2;
+  unsigned wp_grp_enable : 1;
+  // byte 13
+  unsigned reserved4 : 5;
+  unsigned write_partial : 1;
+  unsigned write_bl_len_low : 2;
+  // byte 14
+  unsigned reserved5: 2;
+  unsigned file_format : 2;
+  unsigned tmp_write_protect : 1;
+  unsigned perm_write_protect : 1;
+  unsigned copy : 1;
+  unsigned file_format_grp : 1;
+  // byte 15
+  unsigned always1 : 1;
+  unsigned crc : 7;
+}csd1_t;
+//------------------------------------------------------------------------------
+// CSD for version 2.00 cards
+typedef struct CSDV2 {
+  // byte 0
+  unsigned reserved1 : 6;
+  unsigned csd_ver : 2;
+  // byte 1
+  uint8_t taac;
+  // byte 2
+  uint8_t nsac;
+  // byte 3
+  uint8_t tran_speed;
+  // byte 4
+  uint8_t ccc_high;
+  // byte 5
+  unsigned read_bl_len : 4;
+  unsigned ccc_low : 4;
+  // byte 6
+  unsigned reserved2 : 4;
+  unsigned dsr_imp : 1;
+  unsigned read_blk_misalign :1;
+  unsigned write_blk_misalign : 1;
+  unsigned read_bl_partial : 1;
+  // byte 7
+  unsigned reserved3 : 2;
+  unsigned c_size_high : 6;
+  // byte 8
+  uint8_t c_size_mid;
+  // byte 9
+  uint8_t c_size_low;
+  // byte 10
+  unsigned sector_size_high : 6;
+  unsigned erase_blk_en : 1;
+  unsigned reserved4 : 1;
+  // byte 11
+  unsigned wp_grp_size : 7;
+  unsigned sector_size_low : 1;
+  // byte 12
+  unsigned write_bl_len_high : 2;
+  unsigned r2w_factor : 3;
+  unsigned reserved5 : 2;
+  unsigned wp_grp_enable : 1;
+  // byte 13
+  unsigned reserved6 : 5;
+  unsigned write_partial : 1;
+  unsigned write_bl_len_low : 2;
+  // byte 14
+  unsigned reserved7: 2;
+  unsigned file_format : 2;
+  unsigned tmp_write_protect : 1;
+  unsigned perm_write_protect : 1;
+  unsigned copy : 1;
+  unsigned file_format_grp : 1;
+  // byte 15
+  unsigned always1 : 1;
+  unsigned crc : 7;
+}csd2_t;
+//------------------------------------------------------------------------------
+// union of old and new style CSD register
+union csd_t {
+  csd1_t v1;
+  csd2_t v2;
+};
+#endif  // SdInfo_h
diff --git a/Marlin/SdVolume.cpp b/Marlin/SdVolume.cpp
index 3c1e641c7..2fbb8100b 100644
--- a/Marlin/SdVolume.cpp
+++ b/Marlin/SdVolume.cpp
@@ -1,295 +1,295 @@
-/* Arduino SdFat Library
- * Copyright (C) 2009 by William Greiman
- *
- * This file is part of the Arduino SdFat Library
- *
- * This Library is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This Library is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with the Arduino SdFat Library.  If not, see
- * <http://www.gnu.org/licenses/>.
- */
-#include "SdFat.h"
-//------------------------------------------------------------------------------
-// raw block cache
-// init cacheBlockNumber_to invalid SD block number
-uint32_t SdVolume::cacheBlockNumber_ = 0XFFFFFFFF;
-cache_t  SdVolume::cacheBuffer_;     // 512 byte cache for Sd2Card
-Sd2Card* SdVolume::sdCard_;          // pointer to SD card object
-uint8_t  SdVolume::cacheDirty_ = 0;  // cacheFlush() will write block if true
-uint32_t SdVolume::cacheMirrorBlock_ = 0;  // mirror  block for second FAT
-//------------------------------------------------------------------------------
-// find a contiguous group of clusters
-uint8_t SdVolume::allocContiguous(uint32_t count, uint32_t* curCluster) {
-  // start of group
-  uint32_t bgnCluster;
-
-  // flag to save place to start next search
-  uint8_t setStart;
-
-  // set search start cluster
-  if (*curCluster) {
-    // try to make file contiguous
-    bgnCluster = *curCluster + 1;
-
-    // don't save new start location
-    setStart = false;
-  } else {
-    // start at likely place for free cluster
-    bgnCluster = allocSearchStart_;
-
-    // save next search start if one cluster
-    setStart = 1 == count;
-  }
-  // end of group
-  uint32_t endCluster = bgnCluster;
-
-  // last cluster of FAT
-  uint32_t fatEnd = clusterCount_ + 1;
-
-  // search the FAT for free clusters
-  for (uint32_t n = 0;; n++, endCluster++) {
-    // can't find space checked all clusters
-    if (n >= clusterCount_) return false;
-
-    // past end - start from beginning of FAT
-    if (endCluster > fatEnd) {
-      bgnCluster = endCluster = 2;
-    }
-    uint32_t f;
-    if (!fatGet(endCluster, &f)) return false;
-
-    if (f != 0) {
-      // cluster in use try next cluster as bgnCluster
-      bgnCluster = endCluster + 1;
-    } else if ((endCluster - bgnCluster + 1) == count) {
-      // done - found space
-      break;
-    }
-  }
-  // mark end of chain
-  if (!fatPutEOC(endCluster)) return false;
-
-  // link clusters
-  while (endCluster > bgnCluster) {
-    if (!fatPut(endCluster - 1, endCluster)) return false;
-    endCluster--;
-  }
-  if (*curCluster != 0) {
-    // connect chains
-    if (!fatPut(*curCluster, bgnCluster)) return false;
-  }
-  // return first cluster number to caller
-  *curCluster = bgnCluster;
-
-  // remember possible next free cluster
-  if (setStart) allocSearchStart_ = bgnCluster + 1;
-
-  return true;
-}
-//------------------------------------------------------------------------------
-uint8_t SdVolume::cacheFlush(void) {
-  if (cacheDirty_) {
-    if (!sdCard_->writeBlock(cacheBlockNumber_, cacheBuffer_.data)) {
-      return false;
-    }
-    // mirror FAT tables
-    if (cacheMirrorBlock_) {
-      if (!sdCard_->writeBlock(cacheMirrorBlock_, cacheBuffer_.data)) {
-        return false;
-      }
-      cacheMirrorBlock_ = 0;
-    }
-    cacheDirty_ = 0;
-  }
-  return true;
-}
-//------------------------------------------------------------------------------
-uint8_t SdVolume::cacheRawBlock(uint32_t blockNumber, uint8_t action) {
-  if (cacheBlockNumber_ != blockNumber) {
-    if (!cacheFlush()) return false;
-    if (!sdCard_->readBlock(blockNumber, cacheBuffer_.data)) return false;
-    cacheBlockNumber_ = blockNumber;
-  }
-  cacheDirty_ |= action;
-  return true;
-}
-//------------------------------------------------------------------------------
-// cache a zero block for blockNumber
-uint8_t SdVolume::cacheZeroBlock(uint32_t blockNumber) {
-  if (!cacheFlush()) return false;
-
-  // loop take less flash than memset(cacheBuffer_.data, 0, 512);
-  for (uint16_t i = 0; i < 512; i++) {
-    cacheBuffer_.data[i] = 0;
-  }
-  cacheBlockNumber_ = blockNumber;
-  cacheSetDirty();
-  return true;
-}
-//------------------------------------------------------------------------------
-// return the size in bytes of a cluster chain
-uint8_t SdVolume::chainSize(uint32_t cluster, uint32_t* size) const {
-  uint32_t s = 0;
-  do {
-    if (!fatGet(cluster, &cluster)) return false;
-    s += 512UL << clusterSizeShift_;
-  } while (!isEOC(cluster));
-  *size = s;
-  return true;
-}
-//------------------------------------------------------------------------------
-// Fetch a FAT entry
-uint8_t SdVolume::fatGet(uint32_t cluster, uint32_t* value) const {
-  if (cluster > (clusterCount_ + 1)) return false;
-  uint32_t lba = fatStartBlock_;
-  lba += fatType_ == 16 ? cluster >> 8 : cluster >> 7;
-  if (lba != cacheBlockNumber_) {
-    if (!cacheRawBlock(lba, CACHE_FOR_READ)) return false;
-  }
-  if (fatType_ == 16) {
-    *value = cacheBuffer_.fat16[cluster & 0XFF];
-  } else {
-    *value = cacheBuffer_.fat32[cluster & 0X7F] & FAT32MASK;
-  }
-  return true;
-}
-//------------------------------------------------------------------------------
-// Store a FAT entry
-uint8_t SdVolume::fatPut(uint32_t cluster, uint32_t value) {
-  // error if reserved cluster
-  if (cluster < 2) return false;
-
-  // error if not in FAT
-  if (cluster > (clusterCount_ + 1)) return false;
-
-  // calculate block address for entry
-  uint32_t lba = fatStartBlock_;
-  lba += fatType_ == 16 ? cluster >> 8 : cluster >> 7;
-
-  if (lba != cacheBlockNumber_) {
-    if (!cacheRawBlock(lba, CACHE_FOR_READ)) return false;
-  }
-  // store entry
-  if (fatType_ == 16) {
-    cacheBuffer_.fat16[cluster & 0XFF] = value;
-  } else {
-    cacheBuffer_.fat32[cluster & 0X7F] = value;
-  }
-  cacheSetDirty();
-
-  // mirror second FAT
-  if (fatCount_ > 1) cacheMirrorBlock_ = lba + blocksPerFat_;
-  return true;
-}
-//------------------------------------------------------------------------------
-// free a cluster chain
-uint8_t SdVolume::freeChain(uint32_t cluster) {
-  // clear free cluster location
-  allocSearchStart_ = 2;
-
-  do {
-    uint32_t next;
-    if (!fatGet(cluster, &next)) return false;
-
-    // free cluster
-    if (!fatPut(cluster, 0)) return false;
-
-    cluster = next;
-  } while (!isEOC(cluster));
-
-  return true;
-}
-//------------------------------------------------------------------------------
-/**
- * Initialize a FAT volume.
- *
- * \param[in] dev The SD card where the volume is located.
- *
- * \param[in] part The partition to be used.  Legal values for \a part are
- * 1-4 to use the corresponding partition on a device formatted with
- * a MBR, Master Boot Record, or zero if the device is formatted as
- * a super floppy with the FAT boot sector in block zero.
- *
- * \return The value one, true, is returned for success and
- * the value zero, false, is returned for failure.  Reasons for
- * failure include not finding a valid partition, not finding a valid
- * FAT file system in the specified partition or an I/O error.
- */
-uint8_t SdVolume::init(Sd2Card* dev, uint8_t part) {
-  uint32_t volumeStartBlock = 0;
-  sdCard_ = dev;
-  // if part == 0 assume super floppy with FAT boot sector in block zero
-  // if part > 0 assume mbr volume with partition table
-  if (part) {
-    if (part > 4)return false;
-    if (!cacheRawBlock(volumeStartBlock, CACHE_FOR_READ)) return false;
-    part_t* p = &cacheBuffer_.mbr.part[part-1];
-    if ((p->boot & 0X7F) !=0  ||
-      p->totalSectors < 100 ||
-      p->firstSector == 0) {
-      // not a valid partition
-      return false;
-    }
-    volumeStartBlock = p->firstSector;
-  }
-  if (!cacheRawBlock(volumeStartBlock, CACHE_FOR_READ)) return false;
-  bpb_t* bpb = &cacheBuffer_.fbs.bpb;
-  if (bpb->bytesPerSector != 512 ||
-    bpb->fatCount == 0 ||
-    bpb->reservedSectorCount == 0 ||
-    bpb->sectorsPerCluster == 0) {
-       // not valid FAT volume
-      return false;
-  }
-  fatCount_ = bpb->fatCount;
-  blocksPerCluster_ = bpb->sectorsPerCluster;
-
-  // determine shift that is same as multiply by blocksPerCluster_
-  clusterSizeShift_ = 0;
-  while (blocksPerCluster_ != (1 << clusterSizeShift_)) {
-    // error if not power of 2
-    if (clusterSizeShift_++ > 7) return false;
-  }
-  blocksPerFat_ = bpb->sectorsPerFat16 ?
-                    bpb->sectorsPerFat16 : bpb->sectorsPerFat32;
-
-  fatStartBlock_ = volumeStartBlock + bpb->reservedSectorCount;
-
-  // count for FAT16 zero for FAT32
-  rootDirEntryCount_ = bpb->rootDirEntryCount;
-
-  // directory start for FAT16 dataStart for FAT32
-  rootDirStart_ = fatStartBlock_ + bpb->fatCount * blocksPerFat_;
-
-  // data start for FAT16 and FAT32
-  dataStartBlock_ = rootDirStart_ + ((32 * bpb->rootDirEntryCount + 511)/512);
-
-  // total blocks for FAT16 or FAT32
-  uint32_t totalBlocks = bpb->totalSectors16 ?
-                           bpb->totalSectors16 : bpb->totalSectors32;
-  // total data blocks
-  clusterCount_ = totalBlocks - (dataStartBlock_ - volumeStartBlock);
-
-  // divide by cluster size to get cluster count
-  clusterCount_ >>= clusterSizeShift_;
-
-  // FAT type is determined by cluster count
-  if (clusterCount_ < 4085) {
-    fatType_ = 12;
-  } else if (clusterCount_ < 65525) {
-    fatType_ = 16;
-  } else {
-    rootDirStart_ = bpb->fat32RootCluster;
-    fatType_ = 32;
-  }
-  return true;
-}
+/* Arduino SdFat Library
+ * Copyright (C) 2009 by William Greiman
+ *
+ * This file is part of the Arduino SdFat Library
+ *
+ * This Library is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 3 of the License, or
+ * (at your option) any later version.
+ *
+ * This Library is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with the Arduino SdFat Library.  If not, see
+ * <http://www.gnu.org/licenses/>.
+ */
+#include "SdFat.h"
+//------------------------------------------------------------------------------
+// raw block cache
+// init cacheBlockNumber_to invalid SD block number
+uint32_t SdVolume::cacheBlockNumber_ = 0XFFFFFFFF;
+cache_t  SdVolume::cacheBuffer_;     // 512 byte cache for Sd2Card
+Sd2Card* SdVolume::sdCard_;          // pointer to SD card object
+uint8_t  SdVolume::cacheDirty_ = 0;  // cacheFlush() will write block if true
+uint32_t SdVolume::cacheMirrorBlock_ = 0;  // mirror  block for second FAT
+//------------------------------------------------------------------------------
+// find a contiguous group of clusters
+uint8_t SdVolume::allocContiguous(uint32_t count, uint32_t* curCluster) {
+  // start of group
+  uint32_t bgnCluster;
+
+  // flag to save place to start next search
+  uint8_t setStart;
+
+  // set search start cluster
+  if (*curCluster) {
+    // try to make file contiguous
+    bgnCluster = *curCluster + 1;
+
+    // don't save new start location
+    setStart = false;
+  } else {
+    // start at likely place for free cluster
+    bgnCluster = allocSearchStart_;
+
+    // save next search start if one cluster
+    setStart = 1 == count;
+  }
+  // end of group
+  uint32_t endCluster = bgnCluster;
+
+  // last cluster of FAT
+  uint32_t fatEnd = clusterCount_ + 1;
+
+  // search the FAT for free clusters
+  for (uint32_t n = 0;; n++, endCluster++) {
+    // can't find space checked all clusters
+    if (n >= clusterCount_) return false;
+
+    // past end - start from beginning of FAT
+    if (endCluster > fatEnd) {
+      bgnCluster = endCluster = 2;
+    }
+    uint32_t f;
+    if (!fatGet(endCluster, &f)) return false;
+
+    if (f != 0) {
+      // cluster in use try next cluster as bgnCluster
+      bgnCluster = endCluster + 1;
+    } else if ((endCluster - bgnCluster + 1) == count) {
+      // done - found space
+      break;
+    }
+  }
+  // mark end of chain
+  if (!fatPutEOC(endCluster)) return false;
+
+  // link clusters
+  while (endCluster > bgnCluster) {
+    if (!fatPut(endCluster - 1, endCluster)) return false;
+    endCluster--;
+  }
+  if (*curCluster != 0) {
+    // connect chains
+    if (!fatPut(*curCluster, bgnCluster)) return false;
+  }
+  // return first cluster number to caller
+  *curCluster = bgnCluster;
+
+  // remember possible next free cluster
+  if (setStart) allocSearchStart_ = bgnCluster + 1;
+
+  return true;
+}
+//------------------------------------------------------------------------------
+uint8_t SdVolume::cacheFlush(void) {
+  if (cacheDirty_) {
+    if (!sdCard_->writeBlock(cacheBlockNumber_, cacheBuffer_.data)) {
+      return false;
+    }
+    // mirror FAT tables
+    if (cacheMirrorBlock_) {
+      if (!sdCard_->writeBlock(cacheMirrorBlock_, cacheBuffer_.data)) {
+        return false;
+      }
+      cacheMirrorBlock_ = 0;
+    }
+    cacheDirty_ = 0;
+  }
+  return true;
+}
+//------------------------------------------------------------------------------
+uint8_t SdVolume::cacheRawBlock(uint32_t blockNumber, uint8_t action) {
+  if (cacheBlockNumber_ != blockNumber) {
+    if (!cacheFlush()) return false;
+    if (!sdCard_->readBlock(blockNumber, cacheBuffer_.data)) return false;
+    cacheBlockNumber_ = blockNumber;
+  }
+  cacheDirty_ |= action;
+  return true;
+}
+//------------------------------------------------------------------------------
+// cache a zero block for blockNumber
+uint8_t SdVolume::cacheZeroBlock(uint32_t blockNumber) {
+  if (!cacheFlush()) return false;
+
+  // loop take less flash than memset(cacheBuffer_.data, 0, 512);
+  for (uint16_t i = 0; i < 512; i++) {
+    cacheBuffer_.data[i] = 0;
+  }
+  cacheBlockNumber_ = blockNumber;
+  cacheSetDirty();
+  return true;
+}
+//------------------------------------------------------------------------------
+// return the size in bytes of a cluster chain
+uint8_t SdVolume::chainSize(uint32_t cluster, uint32_t* size) const {
+  uint32_t s = 0;
+  do {
+    if (!fatGet(cluster, &cluster)) return false;
+    s += 512UL << clusterSizeShift_;
+  } while (!isEOC(cluster));
+  *size = s;
+  return true;
+}
+//------------------------------------------------------------------------------
+// Fetch a FAT entry
+uint8_t SdVolume::fatGet(uint32_t cluster, uint32_t* value) const {
+  if (cluster > (clusterCount_ + 1)) return false;
+  uint32_t lba = fatStartBlock_;
+  lba += fatType_ == 16 ? cluster >> 8 : cluster >> 7;
+  if (lba != cacheBlockNumber_) {
+    if (!cacheRawBlock(lba, CACHE_FOR_READ)) return false;
+  }
+  if (fatType_ == 16) {
+    *value = cacheBuffer_.fat16[cluster & 0XFF];
+  } else {
+    *value = cacheBuffer_.fat32[cluster & 0X7F] & FAT32MASK;
+  }
+  return true;
+}
+//------------------------------------------------------------------------------
+// Store a FAT entry
+uint8_t SdVolume::fatPut(uint32_t cluster, uint32_t value) {
+  // error if reserved cluster
+  if (cluster < 2) return false;
+
+  // error if not in FAT
+  if (cluster > (clusterCount_ + 1)) return false;
+
+  // calculate block address for entry
+  uint32_t lba = fatStartBlock_;
+  lba += fatType_ == 16 ? cluster >> 8 : cluster >> 7;
+
+  if (lba != cacheBlockNumber_) {
+    if (!cacheRawBlock(lba, CACHE_FOR_READ)) return false;
+  }
+  // store entry
+  if (fatType_ == 16) {
+    cacheBuffer_.fat16[cluster & 0XFF] = value;
+  } else {
+    cacheBuffer_.fat32[cluster & 0X7F] = value;
+  }
+  cacheSetDirty();
+
+  // mirror second FAT
+  if (fatCount_ > 1) cacheMirrorBlock_ = lba + blocksPerFat_;
+  return true;
+}
+//------------------------------------------------------------------------------
+// free a cluster chain
+uint8_t SdVolume::freeChain(uint32_t cluster) {
+  // clear free cluster location
+  allocSearchStart_ = 2;
+
+  do {
+    uint32_t next;
+    if (!fatGet(cluster, &next)) return false;
+
+    // free cluster
+    if (!fatPut(cluster, 0)) return false;
+
+    cluster = next;
+  } while (!isEOC(cluster));
+
+  return true;
+}
+//------------------------------------------------------------------------------
+/**
+ * Initialize a FAT volume.
+ *
+ * \param[in] dev The SD card where the volume is located.
+ *
+ * \param[in] part The partition to be used.  Legal values for \a part are
+ * 1-4 to use the corresponding partition on a device formatted with
+ * a MBR, Master Boot Record, or zero if the device is formatted as
+ * a super floppy with the FAT boot sector in block zero.
+ *
+ * \return The value one, true, is returned for success and
+ * the value zero, false, is returned for failure.  Reasons for
+ * failure include not finding a valid partition, not finding a valid
+ * FAT file system in the specified partition or an I/O error.
+ */
+uint8_t SdVolume::init(Sd2Card* dev, uint8_t part) {
+  uint32_t volumeStartBlock = 0;
+  sdCard_ = dev;
+  // if part == 0 assume super floppy with FAT boot sector in block zero
+  // if part > 0 assume mbr volume with partition table
+  if (part) {
+    if (part > 4)return false;
+    if (!cacheRawBlock(volumeStartBlock, CACHE_FOR_READ)) return false;
+    part_t* p = &cacheBuffer_.mbr.part[part-1];
+    if ((p->boot & 0X7F) !=0  ||
+      p->totalSectors < 100 ||
+      p->firstSector == 0) {
+      // not a valid partition
+      return false;
+    }
+    volumeStartBlock = p->firstSector;
+  }
+  if (!cacheRawBlock(volumeStartBlock, CACHE_FOR_READ)) return false;
+  bpb_t* bpb = &cacheBuffer_.fbs.bpb;
+  if (bpb->bytesPerSector != 512 ||
+    bpb->fatCount == 0 ||
+    bpb->reservedSectorCount == 0 ||
+    bpb->sectorsPerCluster == 0) {
+       // not valid FAT volume
+      return false;
+  }
+  fatCount_ = bpb->fatCount;
+  blocksPerCluster_ = bpb->sectorsPerCluster;
+
+  // determine shift that is same as multiply by blocksPerCluster_
+  clusterSizeShift_ = 0;
+  while (blocksPerCluster_ != (1 << clusterSizeShift_)) {
+    // error if not power of 2
+    if (clusterSizeShift_++ > 7) return false;
+  }
+  blocksPerFat_ = bpb->sectorsPerFat16 ?
+                    bpb->sectorsPerFat16 : bpb->sectorsPerFat32;
+
+  fatStartBlock_ = volumeStartBlock + bpb->reservedSectorCount;
+
+  // count for FAT16 zero for FAT32
+  rootDirEntryCount_ = bpb->rootDirEntryCount;
+
+  // directory start for FAT16 dataStart for FAT32
+  rootDirStart_ = fatStartBlock_ + bpb->fatCount * blocksPerFat_;
+
+  // data start for FAT16 and FAT32
+  dataStartBlock_ = rootDirStart_ + ((32 * bpb->rootDirEntryCount + 511)/512);
+
+  // total blocks for FAT16 or FAT32
+  uint32_t totalBlocks = bpb->totalSectors16 ?
+                           bpb->totalSectors16 : bpb->totalSectors32;
+  // total data blocks
+  clusterCount_ = totalBlocks - (dataStartBlock_ - volumeStartBlock);
+
+  // divide by cluster size to get cluster count
+  clusterCount_ >>= clusterSizeShift_;
+
+  // FAT type is determined by cluster count
+  if (clusterCount_ < 4085) {
+    fatType_ = 12;
+  } else if (clusterCount_ < 65525) {
+    fatType_ = 16;
+  } else {
+    rootDirStart_ = bpb->fat32RootCluster;
+    fatType_ = 32;
+  }
+  return true;
+}
diff --git a/Marlin/fastio.h b/Marlin/fastio.h
index 2d1396252..7fd42a6c8 100644
--- a/Marlin/fastio.h
+++ b/Marlin/fastio.h
@@ -1,2559 +1,2559 @@
-/*
-	This code contibuted by Triffid_Hunter and modified by Kliment
-	why double up on these macros? see http://gcc.gnu.org/onlinedocs/cpp/Stringification.html
-*/
-
-#ifndef	_ARDUINO_H
-#define	_ARDUINO_H
-
-#include	<avr/io.h>
-
-/*
-	utility functions
-*/
-
-#ifndef		MASK
-/// MASKING- returns \f$2^PIN\f$
-	#define		MASK(PIN)				(1 << PIN)
-#endif
-
-/*
-	magic I/O routines
-
-	now you can simply SET_OUTPUT(STEP); WRITE(STEP, 1); WRITE(STEP, 0);
-*/
-
-/// Read a pin
-#define         _READ(IO)                                       ((bool)(DIO ## IO ## _RPORT & MASK(DIO ## IO ## _PIN)))
-/// write to a pin
-#define         _WRITE(IO, v)                   do { if (v) {DIO ##  IO ## _WPORT |= MASK(DIO ## IO ## _PIN); } else {DIO ##  IO ## _WPORT &= ~MASK(DIO ## IO ## _PIN); }; } while (0)
-//#define               _WRITE(IO, v)   do { #if (DIO ##  IO ## _WPORT >= 0x100) CRITICAL_SECTION_START; if (v) {DIO ##  IO ## _WPORT |= MASK(DIO ## IO ## _PIN); } else {DIO ##  IO ## _WPORT &= ~MASK(DIO ## IO ## _PIN); };#if (DIO ##  IO ## _WPORT >= 0x100) CRITICAL_SECTION_END; } while (0)
-/// toggle a pin
-#define         _TOGGLE(IO)                             do {DIO ##  IO ## _RPORT = MASK(DIO ## IO ## _PIN); } while (0)
-
-/// set pin as input
-#define		_SET_INPUT(IO)		do {DIO ##  IO ## _DDR &= ~MASK(DIO ## IO ## _PIN); } while (0)
-/// set pin as output
-#define		_SET_OUTPUT(IO)		do {DIO ##  IO ## _DDR |=  MASK(DIO ## IO ## _PIN); } while (0)
-
-/// check if pin is an input
-#define		_GET_INPUT(IO)		((DIO ## IO ## _DDR & MASK(DIO ## IO ## _PIN)) == 0)
-/// check if pin is an output
-#define		_GET_OUTPUT(IO)		((DIO ## IO ## _DDR & MASK(DIO ## IO ## _PIN)) != 0)
-
-//	why double up on these macros? see http://gcc.gnu.org/onlinedocs/cpp/Stringification.html
-
-/// Read a pin wrapper
-#define		READ(IO)					_READ(IO)
-/// Write to a pin wrapper
-#define		WRITE(IO, v)			_WRITE(IO, v)
-/// toggle a pin wrapper
-#define		TOGGLE(IO)				_TOGGLE(IO)
-
-/// set pin as input wrapper
-#define		SET_INPUT(IO)			_SET_INPUT(IO)
-/// set pin as output wrapper
-#define		SET_OUTPUT(IO)		_SET_OUTPUT(IO)
-
-/// check if pin is an input wrapper
-#define		GET_INPUT(IO)			_GET_INPUT(IO)
-/// check if pin is an output wrapper
-#define		GET_OUTPUT(IO)		_GET_OUTPUT(IO)
-
-/*
-	ports and functions
-
-	added as necessary or if I feel like it- not a comprehensive list!
-*/
-
-#if defined (__AVR_ATmega168__) || defined (__AVR_ATmega328__) || defined (__AVR_ATmega328P__)
-// UART
-#define	RXD					DIO0
-#define	TXD					DIO1
-
-// SPI
-#define	SCK					DIO13
-#define	MISO				DIO12
-#define	MOSI				DIO11
-#define	SS					DIO10
-
-// TWI (I2C)
-#define	SCL					AIO5
-#define	SDA					AIO4
-
-// timers and PWM
-#define	OC0A				DIO6
-#define	OC0B				DIO5
-#define	OC1A				DIO9
-#define	OC1B				DIO10
-#define	OC2A				DIO11
-#define	OC2B				DIO3
-
-#define	DEBUG_LED		AIO5
-
-/*
-pins
-*/
-
-#define DIO0_PIN		PIND0
-#define DIO0_RPORT	PIND
-#define DIO0_WPORT	PORTD
-#define DIO0_DDR		DDRD
-#define DIO0_PWM		NULL
-
-#define DIO1_PIN		PIND1
-#define DIO1_RPORT	PIND
-#define DIO1_WPORT	PORTD
-#define DIO1_DDR		DDRD
-#define DIO1_PWM		NULL
-
-#define DIO2_PIN		PIND2
-#define DIO2_RPORT	PIND
-#define DIO2_WPORT	PORTD
-#define DIO2_DDR		DDRD
-#define DIO2_PWM		NULL
-
-#define DIO3_PIN		PIND3
-#define DIO3_RPORT	PIND
-#define DIO3_WPORT	PORTD
-#define DIO3_DDR		DDRD
-#define DIO3_PWM		&OCR2B
-
-#define DIO4_PIN		PIND4
-#define DIO4_RPORT	PIND
-#define DIO4_WPORT	PORTD
-#define DIO4_DDR		DDRD
-#define DIO4_PWM		NULL
-
-#define DIO5_PIN		PIND5
-#define DIO5_RPORT	PIND
-#define DIO5_WPORT	PORTD
-#define DIO5_DDR		DDRD
-#define DIO5_PWM		&OCR0B
-
-#define DIO6_PIN		PIND6
-#define DIO6_RPORT	PIND
-#define DIO6_WPORT	PORTD
-#define DIO6_DDR		DDRD
-#define DIO6_PWM		&OCR0A
-
-#define DIO7_PIN		PIND7
-#define DIO7_RPORT	PIND
-#define DIO7_WPORT	PORTD
-#define DIO7_DDR		DDRD
-#define DIO7_PWM		NULL
-
-#define DIO8_PIN		PINB0
-#define DIO8_RPORT	PINB
-#define DIO8_WPORT	PORTB
-#define DIO8_DDR		DDRB
-#define DIO8_PWM		NULL
-
-#define DIO9_PIN		PINB1
-#define DIO9_RPORT	PINB
-#define DIO9_WPORT	PORTB
-#define DIO9_DDR		DDRB
-#define DIO9_PWM		NULL
-
-#define DIO10_PIN		PINB2
-#define DIO10_RPORT	PINB
-#define DIO10_WPORT	PORTB
-#define DIO10_DDR		DDRB
-#define DIO10_PWM		NULL
-
-#define DIO11_PIN		PINB3
-#define DIO11_RPORT	PINB
-#define DIO11_WPORT	PORTB
-#define DIO11_DDR		DDRB
-#define DIO11_PWM		&OCR2A
-
-#define DIO12_PIN		PINB4
-#define DIO12_RPORT	PINB
-#define DIO12_WPORT	PORTB
-#define DIO12_DDR		DDRB
-#define DIO12_PWM		NULL
-
-#define DIO13_PIN		PINB5
-#define DIO13_RPORT	PINB
-#define DIO13_WPORT	PORTB
-#define DIO13_DDR		DDRB
-#define DIO13_PWM		NULL
-
-
-#define DIO14_PIN		PINC0
-#define DIO14_RPORT	PINC
-#define DIO14_WPORT	PORTC
-#define DIO14_DDR		DDRC
-#define DIO14_PWM		NULL
-
-#define DIO15_PIN		PINC1
-#define DIO15_RPORT	PINC
-#define DIO15_WPORT	PORTC
-#define DIO15_DDR		DDRC
-#define DIO15_PWM		NULL
-
-#define DIO16_PIN		PINC2
-#define DIO16_RPORT	PINC
-#define DIO16_WPORT	PORTC
-#define DIO16_DDR		DDRC
-#define DIO16_PWM		NULL
-
-#define DIO17_PIN		PINC3
-#define DIO17_RPORT	PINC
-#define DIO17_WPORT	PORTC
-#define DIO17_DDR		DDRC
-#define DIO17_PWM		NULL
-
-#define DIO18_PIN		PINC4
-#define DIO18_RPORT	PINC
-#define DIO18_WPORT	PORTC
-#define DIO18_DDR		DDRC
-#define DIO18_PWM		NULL
-
-#define DIO19_PIN		PINC5
-#define DIO19_RPORT	PINC
-#define DIO19_WPORT	PORTC
-#define DIO19_DDR		DDRC
-#define DIO19_PWM		NULL
-
-#define DIO20_PIN		PINC6
-#define DIO20_RPORT	PINC
-#define DIO20_WPORT	PORTC
-#define DIO20_DDR		DDRC
-#define DIO20_PWM		NULL
-
-#define DIO21_PIN		PINC7
-#define DIO21_RPORT	PINC
-#define DIO21_WPORT	PORTC
-#define DIO21_DDR		DDRC
-#define DIO21_PWM		NULL
-
-
-
-#undef PB0
-#define PB0_PIN			PINB0
-#define PB0_RPORT		PINB
-#define PB0_WPORT		PORTB
-#define PB0_DDR			DDRB
-#define PB0_PWM			NULL
-
-#undef PB1
-#define PB1_PIN			PINB1
-#define PB1_RPORT		PINB
-#define PB1_WPORT		PORTB
-#define PB1_DDR			DDRB
-#define PB1_PWM			NULL
-
-#undef PB2
-#define PB2_PIN			PINB2
-#define PB2_RPORT		PINB
-#define PB2_WPORT		PORTB
-#define PB2_DDR			DDRB
-#define PB2_PWM			NULL
-
-#undef PB3
-#define PB3_PIN			PINB3
-#define PB3_RPORT		PINB
-#define PB3_WPORT		PORTB
-#define PB3_DDR			DDRB
-#define PB3_PWM			&OCR2A
-
-#undef PB4
-#define PB4_PIN			PINB4
-#define PB4_RPORT		PINB
-#define PB4_WPORT		PORTB
-#define PB4_DDR			DDRB
-#define PB4_PWM			NULL
-
-#undef PB5
-#define PB5_PIN			PINB5
-#define PB5_RPORT		PINB
-#define PB5_WPORT		PORTB
-#define PB5_DDR			DDRB
-#define PB5_PWM			NULL
-
-#undef PB6
-#define PB6_PIN			PINB6
-#define PB6_RPORT		PINB
-#define PB6_WPORT		PORTB
-#define PB6_DDR			DDRB
-#define PB6_PWM			NULL
-
-#undef PB7
-#define PB7_PIN			PINB7
-#define PB7_RPORT		PINB
-#define PB7_WPORT		PORTB
-#define PB7_DDR			DDRB
-#define PB7_PWM			NULL
-
-
-#undef PC0
-#define PC0_PIN			PINC0
-#define PC0_RPORT		PINC
-#define PC0_WPORT		PORTC
-#define PC0_DDR			DDRC
-#define PC0_PWM			NULL
-
-#undef PC1
-#define PC1_PIN			PINC1
-#define PC1_RPORT		PINC
-#define PC1_WPORT		PORTC
-#define PC1_DDR			DDRC
-#define PC1_PWM			NULL
-
-#undef PC2
-#define PC2_PIN			PINC2
-#define PC2_RPORT		PINC
-#define PC2_WPORT		PORTC
-#define PC2_DDR			DDRC
-#define PC2_PWM			NULL
-
-#undef PC3
-#define PC3_PIN			PINC3
-#define PC3_RPORT		PINC
-#define PC3_WPORT		PORTC
-#define PC3_DDR			DDRC
-#define PC3_PWM			NULL
-
-#undef PC4
-#define PC4_PIN			PINC4
-#define PC4_RPORT		PINC
-#define PC4_WPORT		PORTC
-#define PC4_DDR			DDRC
-#define PC4_PWM			NULL
-
-#undef PC5
-#define PC5_PIN			PINC5
-#define PC5_RPORT		PINC
-#define PC5_WPORT		PORTC
-#define PC5_DDR			DDRC
-#define PC5_PWM			NULL
-
-#undef PC6
-#define PC6_PIN			PINC6
-#define PC6_RPORT		PINC
-#define PC6_WPORT		PORTC
-#define PC6_DDR			DDRC
-#define PC6_PWM			NULL
-
-#undef PC7
-#define PC7_PIN			PINC7
-#define PC7_RPORT		PINC
-#define PC7_WPORT		PORTC
-#define PC7_DDR			DDRC
-#define PC7_PWM			NULL
-
-
-#undef PD0
-#define PD0_PIN			PIND0
-#define PD0_RPORT		PIND
-#define PD0_WPORT		PORTD
-#define PD0_DDR			DDRD
-#define PD0_PWM			NULL
-
-#undef PD1
-#define PD1_PIN			PIND1
-#define PD1_RPORT		PIND
-#define PD1_WPORT		PORTD
-#define PD1_DDR			DDRD
-#define PD1_PWM			NULL
-
-#undef PD2
-#define PD2_PIN			PIND2
-#define PD2_RPORT		PIND
-#define PD2_WPORT		PORTD
-#define PD2_DDR			DDRD
-#define PD2_PWM			NULL
-
-#undef PD3
-#define PD3_PIN			PIND3
-#define PD3_RPORT		PIND
-#define PD3_WPORT		PORTD
-#define PD3_DDR			DDRD
-#define PD3_PWM			&OCR2B
-
-#undef PD4
-#define PD4_PIN			PIND4
-#define PD4_RPORT		PIND
-#define PD4_WPORT		PORTD
-#define PD4_DDR			DDRD
-#define PD4_PWM			NULL
-
-#undef PD5
-#define PD5_PIN			PIND5
-#define PD5_RPORT		PIND
-#define PD5_WPORT		PORTD
-#define PD5_DDR			DDRD
-#define PD5_PWM			&OCR0B
-
-#undef PD6
-#define PD6_PIN			PIND6
-#define PD6_RPORT		PIND
-#define PD6_WPORT		PORTD
-#define PD6_DDR			DDRD
-#define PD6_PWM			&OCR0A
-
-#undef PD7
-#define PD7_PIN			PIND7
-#define PD7_RPORT		PIND
-#define PD7_WPORT		PORTD
-#define PD7_DDR			DDRD
-#define PD7_PWM			NULL
-#endif	/*	_AVR_ATmega{168,328,328P}__ */
-
-#if defined (__AVR_ATmega644__) || defined (__AVR_ATmega644P__) || defined (__AVR_ATmega644PA__)
-// UART
-#define	RXD					DIO8
-#define	TXD					DIO9
-#define	RXD0				DIO8
-#define	TXD0				DIO9
-
-#define	RXD1				DIO10
-#define	TXD1				DIO11
-
-// SPI
-#define	SCK					DIO7
-#define	MISO				DIO6
-#define	MOSI				DIO5
-#define	SS					DIO4
-
-// TWI (I2C)
-#define	SCL					DIO16
-#define	SDA					DIO17
-
-// timers and PWM
-#define	OC0A				DIO3
-#define	OC0B				DIO4
-#define	OC1A				DIO13
-#define	OC1B				DIO12
-#define	OC2A				DIO15
-#define	OC2B				DIO14
-
-#define	DEBUG_LED		DIO0
-/*
-pins
-*/
-
-#define DIO0_PIN		PINB0
-#define DIO0_RPORT	PINB
-#define DIO0_WPORT	PORTB
-#define DIO0_DDR		DDRB
-#define DIO0_PWM		NULL
-
-#define DIO1_PIN		PINB1
-#define DIO1_RPORT	PINB
-#define DIO1_WPORT	PORTB
-#define DIO1_DDR		DDRB
-#define DIO1_PWM		NULL
-
-#define DIO2_PIN		PINB2
-#define DIO2_RPORT	PINB
-#define DIO2_WPORT	PORTB
-#define DIO2_DDR		DDRB
-#define DIO2_PWM		NULL
-
-#define DIO3_PIN		PINB3
-#define DIO3_RPORT	PINB
-#define DIO3_WPORT	PORTB
-#define DIO3_DDR		DDRB
-#define DIO3_PWM		&OCR0A
-
-#define DIO4_PIN		PINB4
-#define DIO4_RPORT	PINB
-#define DIO4_WPORT	PORTB
-#define DIO4_DDR		DDRB
-#define DIO4_PWM		&OCR0B
-
-#define DIO5_PIN		PINB5
-#define DIO5_RPORT	PINB
-#define DIO5_WPORT	PORTB
-#define DIO5_DDR		DDRB
-#define DIO5_PWM		NULL
-
-#define DIO6_PIN		PINB6
-#define DIO6_RPORT	PINB
-#define DIO6_WPORT	PORTB
-#define DIO6_DDR		DDRB
-#define DIO6_PWM		NULL
-
-#define DIO7_PIN		PINB7
-#define DIO7_RPORT	PINB
-#define DIO7_WPORT	PORTB
-#define DIO7_DDR		DDRB
-#define DIO7_PWM		NULL
-
-#define DIO8_PIN		PIND0
-#define DIO8_RPORT	PIND
-#define DIO8_WPORT	PORTD
-#define DIO8_DDR		DDRD
-#define DIO8_PWM		NULL
-
-#define DIO9_PIN		PIND1
-#define DIO9_RPORT	PIND
-#define DIO9_WPORT	PORTD
-#define DIO9_DDR		DDRD
-#define DIO9_PWM		NULL
-
-#define DIO10_PIN		PIND2
-#define DIO10_RPORT	PIND
-#define DIO10_WPORT	PORTD
-#define DIO10_DDR		DDRD
-#define DIO10_PWM		NULL
-
-#define DIO11_PIN		PIND3
-#define DIO11_RPORT	PIND
-#define DIO11_WPORT	PORTD
-#define DIO11_DDR		DDRD
-#define DIO11_PWM		NULL
-
-#define DIO12_PIN		PIND4
-#define DIO12_RPORT	PIND
-#define DIO12_WPORT	PORTD
-#define DIO12_DDR		DDRD
-#define DIO12_PWM		NULL
-
-#define DIO13_PIN		PIND5
-#define DIO13_RPORT	PIND
-#define DIO13_WPORT	PORTD
-#define DIO13_DDR		DDRD
-#define DIO13_PWM		NULL
-
-#define DIO14_PIN		PIND6
-#define DIO14_RPORT	PIND
-#define DIO14_WPORT	PORTD
-#define DIO14_DDR		DDRD
-#define DIO14_PWM		&OCR2B
-
-#define DIO15_PIN		PIND7
-#define DIO15_RPORT	PIND
-#define DIO15_WPORT	PORTD
-#define DIO15_DDR		DDRD
-#define DIO15_PWM		&OCR2A
-
-#define DIO16_PIN		PINC0
-#define DIO16_RPORT	PINC
-#define DIO16_WPORT	PORTC
-#define DIO16_DDR		DDRC
-#define DIO16_PWM		NULL
-
-#define DIO17_PIN		PINC1
-#define DIO17_RPORT	PINC
-#define DIO17_WPORT	PORTC
-#define DIO17_DDR		DDRC
-#define DIO17_PWM		NULL
-
-#define DIO18_PIN		PINC2
-#define DIO18_RPORT	PINC
-#define DIO18_WPORT	PORTC
-#define DIO18_DDR		DDRC
-#define DIO18_PWM		NULL
-
-#define DIO19_PIN		PINC3
-#define DIO19_RPORT	PINC
-#define DIO19_WPORT	PORTC
-#define DIO19_DDR		DDRC
-#define DIO19_PWM		NULL
-
-#define DIO20_PIN		PINC4
-#define DIO20_RPORT	PINC
-#define DIO20_WPORT	PORTC
-#define DIO20_DDR		DDRC
-#define DIO20_PWM		NULL
-
-#define DIO21_PIN		PINC5
-#define DIO21_RPORT	PINC
-#define DIO21_WPORT	PORTC
-#define DIO21_DDR		DDRC
-#define DIO21_PWM		NULL
-
-#define DIO22_PIN		PINC6
-#define DIO22_RPORT	PINC
-#define DIO22_WPORT	PORTC
-#define DIO22_DDR		DDRC
-#define DIO22_PWM		NULL
-
-#define DIO23_PIN		PINC7
-#define DIO23_RPORT	PINC
-#define DIO23_WPORT	PORTC
-#define DIO23_DDR		DDRC
-#define DIO23_PWM		NULL
-
-#define DIO24_PIN		PINA7
-#define DIO24_RPORT	PINA
-#define DIO24_WPORT	PORTA
-#define DIO24_DDR		DDRA
-#define DIO24_PWM		NULL
-
-#define DIO25_PIN		PINA6
-#define DIO25_RPORT	PINA
-#define DIO25_WPORT	PORTA
-#define DIO25_DDR		DDRA
-#define DIO25_PWM		NULL
-
-#define DIO26_PIN		PINA5
-#define DIO26_RPORT	PINA
-#define DIO26_WPORT	PORTA
-#define DIO26_DDR		DDRA
-#define DIO26_PWM		NULL
-
-#define DIO27_PIN		PINA4
-#define DIO27_RPORT	PINA
-#define DIO27_WPORT	PORTA
-#define DIO27_DDR		DDRA
-#define DIO27_PWM		NULL
-
-#define DIO28_PIN		PINA3
-#define DIO28_RPORT	PINA
-#define DIO28_WPORT	PORTA
-#define DIO28_DDR		DDRA
-#define DIO28_PWM		NULL
-
-#define DIO29_PIN		PINA2
-#define DIO29_RPORT	PINA
-#define DIO29_WPORT	PORTA
-#define DIO29_DDR		DDRA
-#define DIO29_PWM		NULL
-
-#define DIO30_PIN		PINA1
-#define DIO30_RPORT	PINA
-#define DIO30_WPORT	PORTA
-#define DIO30_DDR		DDRA
-#define DIO30_PWM		NULL
-
-#define DIO31_PIN		PINA0
-#define DIO31_RPORT	PINA
-#define DIO31_WPORT	PORTA
-#define DIO31_DDR		DDRA
-#define DIO31_PWM		NULL
-
-#define AIO0_PIN		PINA0
-#define AIO0_RPORT	PINA
-#define AIO0_WPORT	PORTA
-#define AIO0_DDR		DDRA
-#define AIO0_PWM		NULL
-
-#define AIO1_PIN		PINA1
-#define AIO1_RPORT	PINA
-#define AIO1_WPORT	PORTA
-#define AIO1_DDR		DDRA
-#define AIO1_PWM		NULL
-
-#define AIO2_PIN		PINA2
-#define AIO2_RPORT	PINA
-#define AIO2_WPORT	PORTA
-#define AIO2_DDR		DDRA
-#define AIO2_PWM		NULL
-
-#define AIO3_PIN		PINA3
-#define AIO3_RPORT	PINA
-#define AIO3_WPORT	PORTA
-#define AIO3_DDR		DDRA
-#define AIO3_PWM		NULL
-
-#define AIO4_PIN		PINA4
-#define AIO4_RPORT	PINA
-#define AIO4_WPORT	PORTA
-#define AIO4_DDR		DDRA
-#define AIO4_PWM		NULL
-
-#define AIO5_PIN		PINA5
-#define AIO5_RPORT	PINA
-#define AIO5_WPORT	PORTA
-#define AIO5_DDR		DDRA
-#define AIO5_PWM		NULL
-
-#define AIO6_PIN		PINA6
-#define AIO6_RPORT	PINA
-#define AIO6_WPORT	PORTA
-#define AIO6_DDR		DDRA
-#define AIO6_PWM		NULL
-
-#define AIO7_PIN		PINA7
-#define AIO7_RPORT	PINA
-#define AIO7_WPORT	PORTA
-#define AIO7_DDR		DDRA
-#define AIO7_PWM		NULL
-
-
-
-#undef PA0
-#define PA0_PIN			PINA0
-#define PA0_RPORT		PINA
-#define PA0_WPORT		PORTA
-#define PA0_DDR			DDRA
-#define PA0_PWM			NULL
-
-#undef PA1
-#define PA1_PIN			PINA1
-#define PA1_RPORT		PINA
-#define PA1_WPORT		PORTA
-#define PA1_DDR			DDRA
-#define PA1_PWM			NULL
-
-#undef PA2
-#define PA2_PIN			PINA2
-#define PA2_RPORT		PINA
-#define PA2_WPORT		PORTA
-#define PA2_DDR			DDRA
-#define PA2_PWM			NULL
-
-#undef PA3
-#define PA3_PIN			PINA3
-#define PA3_RPORT		PINA
-#define PA3_WPORT		PORTA
-#define PA3_DDR			DDRA
-#define PA3_PWM			NULL
-
-#undef PA4
-#define PA4_PIN			PINA4
-#define PA4_RPORT		PINA
-#define PA4_WPORT		PORTA
-#define PA4_DDR			DDRA
-#define PA4_PWM			NULL
-
-#undef PA5
-#define PA5_PIN			PINA5
-#define PA5_RPORT		PINA
-#define PA5_WPORT		PORTA
-#define PA5_DDR			DDRA
-#define PA5_PWM			NULL
-
-#undef PA6
-#define PA6_PIN			PINA6
-#define PA6_RPORT		PINA
-#define PA6_WPORT		PORTA
-#define PA6_DDR			DDRA
-#define PA6_PWM			NULL
-
-#undef PA7
-#define PA7_PIN			PINA7
-#define PA7_RPORT		PINA
-#define PA7_WPORT		PORTA
-#define PA7_DDR			DDRA
-#define PA7_PWM			NULL
-
-
-#undef PB0
-#define PB0_PIN			PINB0
-#define PB0_RPORT		PINB
-#define PB0_WPORT		PORTB
-#define PB0_DDR			DDRB
-#define PB0_PWM			NULL
-
-#undef PB1
-#define PB1_PIN			PINB1
-#define PB1_RPORT		PINB
-#define PB1_WPORT		PORTB
-#define PB1_DDR			DDRB
-#define PB1_PWM			NULL
-
-#undef PB2
-#define PB2_PIN			PINB2
-#define PB2_RPORT		PINB
-#define PB2_WPORT		PORTB
-#define PB2_DDR			DDRB
-#define PB2_PWM			NULL
-
-#undef PB3
-#define PB3_PIN			PINB3
-#define PB3_RPORT		PINB
-#define PB3_WPORT		PORTB
-#define PB3_DDR			DDRB
-#define PB3_PWM			&OCR0A
-
-#undef PB4
-#define PB4_PIN			PINB4
-#define PB4_RPORT		PINB
-#define PB4_WPORT		PORTB
-#define PB4_DDR			DDRB
-#define PB4_PWM			&OCR0B
-
-#undef PB5
-#define PB5_PIN			PINB5
-#define PB5_RPORT		PINB
-#define PB5_WPORT		PORTB
-#define PB5_DDR			DDRB
-#define PB5_PWM			NULL
-
-#undef PB6
-#define PB6_PIN			PINB6
-#define PB6_RPORT		PINB
-#define PB6_WPORT		PORTB
-#define PB6_DDR			DDRB
-#define PB6_PWM			NULL
-
-#undef PB7
-#define PB7_PIN			PINB7
-#define PB7_RPORT		PINB
-#define PB7_WPORT		PORTB
-#define PB7_DDR			DDRB
-#define PB7_PWM			NULL
-
-
-#undef PC0
-#define PC0_PIN			PINC0
-#define PC0_RPORT		PINC
-#define PC0_WPORT		PORTC
-#define PC0_DDR			DDRC
-#define PC0_PWM			NULL
-
-#undef PC1
-#define PC1_PIN			PINC1
-#define PC1_RPORT		PINC
-#define PC1_WPORT		PORTC
-#define PC1_DDR			DDRC
-#define PC1_PWM			NULL
-
-#undef PC2
-#define PC2_PIN			PINC2
-#define PC2_RPORT		PINC
-#define PC2_WPORT		PORTC
-#define PC2_DDR			DDRC
-#define PC2_PWM			NULL
-
-#undef PC3
-#define PC3_PIN			PINC3
-#define PC3_RPORT		PINC
-#define PC3_WPORT		PORTC
-#define PC3_DDR			DDRC
-#define PC3_PWM			NULL
-
-#undef PC4
-#define PC4_PIN			PINC4
-#define PC4_RPORT		PINC
-#define PC4_WPORT		PORTC
-#define PC4_DDR			DDRC
-#define PC4_PWM			NULL
-
-#undef PC5
-#define PC5_PIN			PINC5
-#define PC5_RPORT		PINC
-#define PC5_WPORT		PORTC
-#define PC5_DDR			DDRC
-#define PC5_PWM			NULL
-
-#undef PC6
-#define PC6_PIN			PINC6
-#define PC6_RPORT		PINC
-#define PC6_WPORT		PORTC
-#define PC6_DDR			DDRC
-#define PC6_PWM			NULL
-
-#undef PC7
-#define PC7_PIN			PINC7
-#define PC7_RPORT		PINC
-#define PC7_WPORT		PORTC
-#define PC7_DDR			DDRC
-#define PC7_PWM			NULL
-
-
-#undef PD0
-#define PD0_PIN			PIND0
-#define PD0_RPORT		PIND
-#define PD0_WPORT		PORTD
-#define PD0_DDR			DDRD
-#define PD0_PWM			NULL
-
-#undef PD1
-#define PD1_PIN			PIND1
-#define PD1_RPORT		PIND
-#define PD1_WPORT		PORTD
-#define PD1_DDR			DDRD
-#define PD1_PWM			NULL
-
-#undef PD2
-#define PD2_PIN			PIND2
-#define PD2_RPORT		PIND
-#define PD2_WPORT		PORTD
-#define PD2_DDR			DDRD
-#define PD2_PWM			NULL
-
-#undef PD3
-#define PD3_PIN			PIND3
-#define PD3_RPORT		PIND
-#define PD3_WPORT		PORTD
-#define PD3_DDR			DDRD
-#define PD3_PWM			NULL
-
-#undef PD4
-#define PD4_PIN			PIND4
-#define PD4_RPORT		PIND
-#define PD4_WPORT		PORTD
-#define PD4_DDR			DDRD
-#define PD4_PWM			NULL
-
-#undef PD5
-#define PD5_PIN			PIND5
-#define PD5_RPORT		PIND
-#define PD5_WPORT		PORTD
-#define PD5_DDR			DDRD
-#define PD5_PWM			NULL
-
-#undef PD6
-#define PD6_PIN			PIND6
-#define PD6_RPORT		PIND
-#define PD6_WPORT		PORTD
-#define PD6_DDR			DDRD
-#define PD6_PWM			&OCR2B
-
-#undef PD7
-#define PD7_PIN			PIND7
-#define PD7_RPORT		PIND
-#define PD7_WPORT		PORTD
-#define PD7_DDR			DDRD
-#define PD7_PWM			&OCR2A
-#endif	/*	_AVR_ATmega{644,644P,644PA}__ */
-
-#if defined (__AVR_ATmega1280__) || defined (__AVR_ATmega2560__)
-// UART
-#define	RXD					DIO0
-#define	TXD					DIO1
-
-// SPI
-#define	SCK					DIO52
-#define	MISO				DIO50
-#define	MOSI				DIO51
-#define	SS					DIO53
-
-// TWI (I2C)
-#define	SCL					DIO21
-#define	SDA					DIO20
-
-// timers and PWM
-#define	OC0A				DIO13
-#define	OC0B				DIO4
-#define	OC1A				DIO11
-#define	OC1B				DIO12
-#define	OC2A				DIO10
-#define	OC2B				DIO9
-#define	OC3A				DIO5
-#define	OC3B				DIO2
-#define	OC3C				DIO3
-#define	OC4A				DIO6
-#define	OC4B				DIO7
-#define	OC4C				DIO8
-#define	OC5A				DIO46
-#define	OC5B				DIO45
-#define	OC5C				DIO44
-
-// change for your board
-#define	DEBUG_LED		DIO21
-
-/*
-pins
-*/
-#define	DIO0_PIN		PINE0
-#define	DIO0_RPORT	PINE
-#define	DIO0_WPORT	PORTE
-#define	DIO0_DDR		DDRE
-#define DIO0_PWM		NULL
-
-#define	DIO1_PIN		PINE1
-#define	DIO1_RPORT	PINE
-#define	DIO1_WPORT	PORTE
-#define	DIO1_DDR		DDRE
-#define DIO1_PWM		NULL
-
-#define	DIO2_PIN		PINE4
-#define	DIO2_RPORT	PINE
-#define	DIO2_WPORT	PORTE
-#define	DIO2_DDR		DDRE
-#define DIO2_PWM		&OCR3BL
-
-#define	DIO3_PIN		PINE5
-#define	DIO3_RPORT	PINE
-#define	DIO3_WPORT	PORTE
-#define	DIO3_DDR		DDRE
-#define DIO3_PWM		&OCR3CL
-
-#define	DIO4_PIN		PING5
-#define	DIO4_RPORT	PING
-#define	DIO4_WPORT	PORTG
-#define	DIO4_DDR		DDRG
-#define DIO4_PWM		&OCR0B
-
-#define	DIO5_PIN		PINE3
-#define	DIO5_RPORT	PINE
-#define	DIO5_WPORT	PORTE
-#define	DIO5_DDR		DDRE
-#define DIO5_PWM		&OCR3AL
-
-#define	DIO6_PIN		PINH3
-#define	DIO6_RPORT	PINH
-#define	DIO6_WPORT	PORTH
-#define	DIO6_DDR		DDRH
-#define DIO6_PWM		&OCR4AL
-
-#define	DIO7_PIN		PINH4
-#define	DIO7_RPORT	PINH
-#define	DIO7_WPORT	PORTH
-#define	DIO7_DDR		DDRH
-#define DIO7_PWM		&OCR4BL
-
-#define	DIO8_PIN		PINH5
-#define	DIO8_RPORT	PINH
-#define	DIO8_WPORT	PORTH
-#define	DIO8_DDR		DDRH
-#define DIO8_PWM		&OCR4CL
-
-#define	DIO9_PIN		PINH6
-#define	DIO9_RPORT	PINH
-#define	DIO9_WPORT	PORTH
-#define	DIO9_DDR		DDRH
-#define DIO9_PWM		&OCR2B
-
-#define	DIO10_PIN		PINB4
-#define	DIO10_RPORT	PINB
-#define	DIO10_WPORT	PORTB
-#define	DIO10_DDR		DDRB
-#define DIO10_PWM		&OCR2A
-
-#define	DIO11_PIN		PINB5
-#define	DIO11_RPORT	PINB
-#define	DIO11_WPORT	PORTB
-#define	DIO11_DDR		DDRB
-#define DIO11_PWM		NULL
-
-#define	DIO12_PIN		PINB6
-#define	DIO12_RPORT	PINB
-#define	DIO12_WPORT	PORTB
-#define	DIO12_DDR		DDRB
-#define DIO12_PWM		NULL
-
-#define	DIO13_PIN		PINB7
-#define	DIO13_RPORT	PINB
-#define	DIO13_WPORT	PORTB
-#define	DIO13_DDR		DDRB
-#define DIO13_PWM		&OCR0A
-
-#define	DIO14_PIN		PINJ1
-#define	DIO14_RPORT	PINJ
-#define	DIO14_WPORT	PORTJ
-#define	DIO14_DDR		DDRJ
-#define DIO14_PWM		NULL
-
-#define	DIO15_PIN		PINJ0
-#define	DIO15_RPORT	PINJ
-#define	DIO15_WPORT	PORTJ
-#define	DIO15_DDR		DDRJ
-#define DIO15_PWM		NULL
-
-#define	DIO16_PIN		PINH1
-#define	DIO16_RPORT	PINH
-#define	DIO16_WPORT	PORTH
-#define	DIO16_DDR		DDRH
-#define DIO16_PWM		NULL
-
-#define	DIO17_PIN		PINH0
-#define	DIO17_RPORT	PINH
-#define	DIO17_WPORT	PORTH
-#define	DIO17_DDR		DDRH
-#define DIO17_PWM		NULL
-
-#define	DIO18_PIN		PIND3
-#define	DIO18_RPORT	PIND
-#define	DIO18_WPORT	PORTD
-#define	DIO18_DDR		DDRD
-#define DIO18_PWM		NULL
-
-#define	DIO19_PIN		PIND2
-#define	DIO19_RPORT	PIND
-#define	DIO19_WPORT	PORTD
-#define	DIO19_DDR		DDRD
-#define DIO19_PWM		NULL
-
-#define	DIO20_PIN		PIND1
-#define	DIO20_RPORT	PIND
-#define	DIO20_WPORT	PORTD
-#define	DIO20_DDR		DDRD
-#define DIO20_PWM		NULL
-
-#define	DIO21_PIN		PIND0
-#define	DIO21_RPORT	PIND
-#define	DIO21_WPORT	PORTD
-#define	DIO21_DDR		DDRD
-#define DIO21_PWM		NULL
-
-#define	DIO22_PIN		PINA0
-#define	DIO22_RPORT	PINA
-#define	DIO22_WPORT	PORTA
-#define	DIO22_DDR		DDRA
-#define DIO22_PWM		NULL
-
-#define	DIO23_PIN		PINA1
-#define	DIO23_RPORT	PINA
-#define	DIO23_WPORT	PORTA
-#define	DIO23_DDR		DDRA
-#define DIO23_PWM		NULL
-
-#define	DIO24_PIN		PINA2
-#define	DIO24_RPORT	PINA
-#define	DIO24_WPORT	PORTA
-#define	DIO24_DDR		DDRA
-#define DIO24_PWM		NULL
-
-#define	DIO25_PIN		PINA3
-#define	DIO25_RPORT	PINA
-#define	DIO25_WPORT	PORTA
-#define	DIO25_DDR		DDRA
-#define DIO25_PWM		NULL
-
-#define	DIO26_PIN		PINA4
-#define	DIO26_RPORT	PINA
-#define	DIO26_WPORT	PORTA
-#define	DIO26_DDR		DDRA
-#define DIO26_PWM		NULL
-
-#define	DIO27_PIN		PINA5
-#define	DIO27_RPORT	PINA
-#define	DIO27_WPORT	PORTA
-#define	DIO27_DDR		DDRA
-#define DIO27_PWM		NULL
-
-#define	DIO28_PIN		PINA6
-#define	DIO28_RPORT	PINA
-#define	DIO28_WPORT	PORTA
-#define	DIO28_DDR		DDRA
-#define DIO28_PWM		NULL
-
-#define	DIO29_PIN		PINA7
-#define	DIO29_RPORT	PINA
-#define	DIO29_WPORT	PORTA
-#define	DIO29_DDR		DDRA
-#define DIO29_PWM		NULL
-
-#define	DIO30_PIN		PINC7
-#define	DIO30_RPORT	PINC
-#define	DIO30_WPORT	PORTC
-#define	DIO30_DDR		DDRC
-#define DIO30_PWM		NULL
-
-#define	DIO31_PIN		PINC6
-#define	DIO31_RPORT	PINC
-#define	DIO31_WPORT	PORTC
-#define	DIO31_DDR		DDRC
-#define DIO31_PWM		NULL
-
-#define	DIO32_PIN		PINC5
-#define	DIO32_RPORT	PINC
-#define	DIO32_WPORT	PORTC
-#define	DIO32_DDR		DDRC
-#define DIO32_PWM		NULL
-
-#define	DIO33_PIN		PINC4
-#define	DIO33_RPORT	PINC
-#define	DIO33_WPORT	PORTC
-#define	DIO33_DDR		DDRC
-#define DIO33_PWM		NULL
-
-#define	DIO34_PIN		PINC3
-#define	DIO34_RPORT	PINC
-#define	DIO34_WPORT	PORTC
-#define	DIO34_DDR		DDRC
-#define DIO34_PWM		NULL
-
-#define	DIO35_PIN		PINC2
-#define	DIO35_RPORT	PINC
-#define	DIO35_WPORT	PORTC
-#define	DIO35_DDR		DDRC
-#define DIO35_PWM		NULL
-
-#define	DIO36_PIN		PINC1
-#define	DIO36_RPORT	PINC
-#define	DIO36_WPORT	PORTC
-#define	DIO36_DDR		DDRC
-#define DIO36_PWM		NULL
-
-#define	DIO37_PIN		PINC0
-#define	DIO37_RPORT	PINC
-#define	DIO37_WPORT	PORTC
-#define	DIO37_DDR		DDRC
-#define DIO37_PWM		NULL
-
-#define	DIO38_PIN		PIND7
-#define	DIO38_RPORT	PIND
-#define	DIO38_WPORT	PORTD
-#define	DIO38_DDR		DDRD
-#define DIO38_PWM		NULL
-
-#define	DIO39_PIN		PING2
-#define	DIO39_RPORT	PING
-#define	DIO39_WPORT	PORTG
-#define	DIO39_DDR		DDRG
-#define DIO39_PWM		NULL
-
-#define	DIO40_PIN		PING1
-#define	DIO40_RPORT	PING
-#define	DIO40_WPORT	PORTG
-#define	DIO40_DDR		DDRG
-#define DIO40_PWM		NULL
-
-#define	DIO41_PIN		PING0
-#define	DIO41_RPORT	PING
-#define	DIO41_WPORT	PORTG
-#define	DIO41_DDR		DDRG
-#define DIO41_PWM		NULL
-
-#define	DIO42_PIN		PINL7
-#define	DIO42_RPORT	PINL
-#define	DIO42_WPORT	PORTL
-#define	DIO42_DDR		DDRL
-#define DIO42_PWM		NULL
-
-#define	DIO43_PIN		PINL6
-#define	DIO43_RPORT	PINL
-#define	DIO43_WPORT	PORTL
-#define	DIO43_DDR		DDRL
-#define DIO43_PWM		NULL
-
-#define	DIO44_PIN		PINL5
-#define	DIO44_RPORT	PINL
-#define	DIO44_WPORT	PORTL
-#define	DIO44_DDR		DDRL
-#define DIO44_PWM		&OCR5CL
-
-#define	DIO45_PIN		PINL4
-#define	DIO45_RPORT	PINL
-#define	DIO45_WPORT	PORTL
-#define	DIO45_DDR		DDRL
-#define DIO45_PWM		&OCR5BL
-
-#define	DIO46_PIN		PINL3
-#define	DIO46_RPORT	PINL
-#define	DIO46_WPORT	PORTL
-#define	DIO46_DDR		DDRL
-#define DIO46_PWM		&OCR5AL
-
-#define	DIO47_PIN		PINL2
-#define	DIO47_RPORT	PINL
-#define	DIO47_WPORT	PORTL
-#define	DIO47_DDR		DDRL
-#define DIO47_PWM		NULL
-
-#define	DIO48_PIN		PINL1
-#define	DIO48_RPORT	PINL
-#define	DIO48_WPORT	PORTL
-#define	DIO48_DDR		DDRL
-#define DIO48_PWM		NULL
-
-#define	DIO49_PIN		PINL0
-#define	DIO49_RPORT	PINL
-#define	DIO49_WPORT	PORTL
-#define	DIO49_DDR		DDRL
-#define DIO49_PWM		NULL
-
-#define	DIO50_PIN		PINB3
-#define	DIO50_RPORT	PINB
-#define	DIO50_WPORT	PORTB
-#define	DIO50_DDR		DDRB
-#define DIO50_PWM		NULL
-
-#define	DIO51_PIN		PINB2
-#define	DIO51_RPORT	PINB
-#define	DIO51_WPORT	PORTB
-#define	DIO51_DDR		DDRB
-#define DIO51_PWM		NULL
-
-#define	DIO52_PIN		PINB1
-#define	DIO52_RPORT	PINB
-#define	DIO52_WPORT	PORTB
-#define	DIO52_DDR		DDRB
-#define DIO52_PWM		NULL
-
-#define	DIO53_PIN		PINB0
-#define	DIO53_RPORT	PINB
-#define	DIO53_WPORT	PORTB
-#define	DIO53_DDR		DDRB
-#define DIO53_PWM		NULL
-
-#define DIO54_PIN		PINF0
-#define DIO54_RPORT	PINF
-#define DIO54_WPORT	PORTF
-#define DIO54_DDR		DDRF
-#define DIO54_PWM		NULL
-
-#define DIO55_PIN		PINF1
-#define DIO55_RPORT	PINF
-#define DIO55_WPORT	PORTF
-#define DIO55_DDR		DDRF
-#define DIO55_PWM		NULL
-
-#define DIO56_PIN		PINF2
-#define DIO56_RPORT	PINF
-#define DIO56_WPORT	PORTF
-#define DIO56_DDR		DDRF
-#define DIO56_PWM		NULL
-
-#define DIO57_PIN		PINF3
-#define DIO57_RPORT	PINF
-#define DIO57_WPORT	PORTF
-#define DIO57_DDR		DDRF
-#define DIO57_PWM		NULL
-
-#define DIO58_PIN		PINF4
-#define DIO58_RPORT	PINF
-#define DIO58_WPORT	PORTF
-#define DIO58_DDR		DDRF
-#define DIO58_PWM		NULL
-
-#define DIO59_PIN		PINF5
-#define DIO59_RPORT	PINF
-#define DIO59_WPORT	PORTF
-#define DIO59_DDR		DDRF
-#define DIO59_PWM		NULL
-
-#define DIO60_PIN		PINF6
-#define DIO60_RPORT	PINF
-#define DIO60_WPORT	PORTF
-#define DIO60_DDR		DDRF
-#define DIO60_PWM		NULL
-
-#define DIO61_PIN		PINF7
-#define DIO61_RPORT	PINF
-#define DIO61_WPORT	PORTF
-#define DIO61_DDR		DDRF
-#define DIO61_PWM		NULL
-
-#define DIO62_PIN		PINK0
-#define DIO62_RPORT	PINK
-#define DIO62_WPORT	PORTK
-#define DIO62_DDR		DDRK
-#define DIO62_PWM		NULL
-
-#define DIO63_PIN		PINK1
-#define DIO63_RPORT	PINK
-#define DIO63_WPORT	PORTK
-#define DIO63_DDR		DDRK
-#define DIO63_PWM		NULL
-
-#define DIO64_PIN		PINK2
-#define DIO64_RPORT	PINK
-#define DIO64_WPORT	PORTK
-#define DIO64_DDR		DDRK
-#define DIO64_PWM		NULL
-
-#define DIO65_PIN		PINK3
-#define DIO65_RPORT	PINK
-#define DIO65_WPORT	PORTK
-#define DIO65_DDR		DDRK
-#define DIO65_PWM		NULL
-
-#define DIO66_PIN		PINK4
-#define DIO66_RPORT	PINK
-#define DIO66_WPORT	PORTK
-#define DIO66_DDR		DDRK
-#define DIO66_PWM		NULL
-
-#define DIO67_PIN		PINK5
-#define DIO67_RPORT	PINK
-#define DIO67_WPORT	PORTK
-#define DIO67_DDR		DDRK
-#define DIO67_PWM		NULL
-
-#define DIO68_PIN		PINK6
-#define DIO68_RPORT	PINK
-#define DIO68_WPORT	PORTK
-#define DIO68_DDR		DDRK
-#define DIO68_PWM		NULL
-
-#define DIO69_PIN		PINK7
-#define DIO69_RPORT	PINK
-#define DIO69_WPORT	PORTK
-#define DIO69_DDR		DDRK
-#define DIO69_PWM		NULL
-
-
-
-#undef PA0
-#define PA0_PIN			PINA0
-#define PA0_RPORT		PINA
-#define PA0_WPORT		PORTA
-#define PA0_DDR			DDRA
-#define PA0_PWM			NULL
-#undef PA1
-#define PA1_PIN			PINA1
-#define PA1_RPORT		PINA
-#define PA1_WPORT		PORTA
-#define PA1_DDR			DDRA
-#define PA1_PWM			NULL
-#undef PA2
-#define PA2_PIN			PINA2
-#define PA2_RPORT		PINA
-#define PA2_WPORT		PORTA
-#define PA2_DDR			DDRA
-#define PA2_PWM			NULL
-#undef PA3
-#define PA3_PIN			PINA3
-#define PA3_RPORT		PINA
-#define PA3_WPORT		PORTA
-#define PA3_DDR			DDRA
-#define PA3_PWM			NULL
-#undef PA4
-#define PA4_PIN			PINA4
-#define PA4_RPORT		PINA
-#define PA4_WPORT		PORTA
-#define PA4_DDR			DDRA
-#define PA4_PWM			NULL
-#undef PA5
-#define PA5_PIN			PINA5
-#define PA5_RPORT		PINA
-#define PA5_WPORT		PORTA
-#define PA5_DDR			DDRA
-#define PA5_PWM			NULL
-#undef PA6
-#define PA6_PIN			PINA6
-#define PA6_RPORT		PINA
-#define PA6_WPORT		PORTA
-#define PA6_DDR			DDRA
-#define PA6_PWM			NULL
-#undef PA7
-#define PA7_PIN			PINA7
-#define PA7_RPORT		PINA
-#define PA7_WPORT		PORTA
-#define PA7_DDR			DDRA
-#define PA7_PWM			NULL
-
-#undef PB0
-#define PB0_PIN			PINB0
-#define PB0_RPORT		PINB
-#define PB0_WPORT		PORTB
-#define PB0_DDR			DDRB
-#define PB0_PWM			NULL
-#undef PB1
-#define PB1_PIN			PINB1
-#define PB1_RPORT		PINB
-#define PB1_WPORT		PORTB
-#define PB1_DDR			DDRB
-#define PB1_PWM			NULL
-#undef PB2
-#define PB2_PIN			PINB2
-#define PB2_RPORT		PINB
-#define PB2_WPORT		PORTB
-#define PB2_DDR			DDRB
-#define PB2_PWM			NULL
-#undef PB3
-#define PB3_PIN			PINB3
-#define PB3_RPORT		PINB
-#define PB3_WPORT		PORTB
-#define PB3_DDR			DDRB
-#define PB3_PWM			NULL
-#undef PB4
-#define PB4_PIN			PINB4
-#define PB4_RPORT		PINB
-#define PB4_WPORT		PORTB
-#define PB4_DDR			DDRB
-#define PB4_PWM			&OCR2A
-#undef PB5
-#define PB5_PIN			PINB5
-#define PB5_RPORT		PINB
-#define PB5_WPORT		PORTB
-#define PB5_DDR			DDRB
-#define PB5_PWM			NULL
-#undef PB6
-#define PB6_PIN			PINB6
-#define PB6_RPORT		PINB
-#define PB6_WPORT		PORTB
-#define PB6_DDR			DDRB
-#define PB6_PWM			NULL
-#undef PB7
-#define PB7_PIN			PINB7
-#define PB7_RPORT		PINB
-#define PB7_WPORT		PORTB
-#define PB7_DDR			DDRB
-#define PB7_PWM			&OCR0A
-
-#undef PC0
-#define PC0_PIN			PINC0
-#define PC0_RPORT		PINC
-#define PC0_WPORT		PORTC
-#define PC0_DDR			DDRC
-#define PC0_PWM			NULL
-#undef PC1
-#define PC1_PIN			PINC1
-#define PC1_RPORT		PINC
-#define PC1_WPORT		PORTC
-#define PC1_DDR			DDRC
-#define PC1_PWM			NULL
-#undef PC2
-#define PC2_PIN			PINC2
-#define PC2_RPORT		PINC
-#define PC2_WPORT		PORTC
-#define PC2_DDR			DDRC
-#define PC2_PWM			NULL
-#undef PC3
-#define PC3_PIN			PINC3
-#define PC3_RPORT		PINC
-#define PC3_WPORT		PORTC
-#define PC3_DDR			DDRC
-#define PC3_PWM			NULL
-#undef PC4
-#define PC4_PIN			PINC4
-#define PC4_RPORT		PINC
-#define PC4_WPORT		PORTC
-#define PC4_DDR			DDRC
-#define PC4_PWM			NULL
-#undef PC5
-#define PC5_PIN			PINC5
-#define PC5_RPORT		PINC
-#define PC5_WPORT		PORTC
-#define PC5_DDR			DDRC
-#define PC5_PWM			NULL
-#undef PC6
-#define PC6_PIN			PINC6
-#define PC6_RPORT		PINC
-#define PC6_WPORT		PORTC
-#define PC6_DDR			DDRC
-#define PC6_PWM			NULL
-#undef PC7
-#define PC7_PIN			PINC7
-#define PC7_RPORT		PINC
-#define PC7_WPORT		PORTC
-#define PC7_DDR			DDRC
-#define PC7_PWM			NULL
-
-#undef PD0
-#define PD0_PIN			PIND0
-#define PD0_RPORT		PIND
-#define PD0_WPORT		PORTD
-#define PD0_DDR			DDRD
-#define PD0_PWM			NULL
-#undef PD1
-#define PD1_PIN			PIND1
-#define PD1_RPORT		PIND
-#define PD1_WPORT		PORTD
-#define PD1_DDR			DDRD
-#define PD1_PWM			NULL
-#undef PD2
-#define PD2_PIN			PIND2
-#define PD2_RPORT		PIND
-#define PD2_WPORT		PORTD
-#define PD2_DDR			DDRD
-#define PD2_PWM			NULL
-#undef PD3
-#define PD3_PIN			PIND3
-#define PD3_RPORT		PIND
-#define PD3_WPORT		PORTD
-#define PD3_DDR			DDRD
-#define PD3_PWM			NULL
-#undef PD4
-#define PD4_PIN			PIND4
-#define PD4_RPORT		PIND
-#define PD4_WPORT		PORTD
-#define PD4_DDR			DDRD
-#define PD4_PWM			NULL
-#undef PD5
-#define PD5_PIN			PIND5
-#define PD5_RPORT		PIND
-#define PD5_WPORT		PORTD
-#define PD5_DDR			DDRD
-#define PD5_PWM			NULL
-#undef PD6
-#define PD6_PIN			PIND6
-#define PD6_RPORT		PIND
-#define PD6_WPORT		PORTD
-#define PD6_DDR			DDRD
-#define PD6_PWM			NULL
-#undef PD7
-#define PD7_PIN			PIND7
-#define PD7_RPORT		PIND
-#define PD7_WPORT		PORTD
-#define PD7_DDR			DDRD
-#define PD7_PWM			NULL
-
-#undef PE0
-#define PE0_PIN			PINE0
-#define PE0_RPORT		PINE
-#define PE0_WPORT		PORTE
-#define PE0_DDR			DDRE
-#define PE0_PWM			NULL
-#undef PE1
-#define PE1_PIN			PINE1
-#define PE1_RPORT		PINE
-#define PE1_WPORT		PORTE
-#define PE1_DDR			DDRE
-#define PE1_PWM			NULL
-#undef PE2
-#define PE2_PIN			PINE2
-#define PE2_RPORT		PINE
-#define PE2_WPORT		PORTE
-#define PE2_DDR			DDRE
-#define PE2_PWM			NULL
-#undef PE3
-#define PE3_PIN			PINE3
-#define PE3_RPORT		PINE
-#define PE3_WPORT		PORTE
-#define PE3_DDR			DDRE
-#define PE3_PWM			&OCR3AL
-#undef PE4
-#define PE4_PIN			PINE4
-#define PE4_RPORT		PINE
-#define PE4_WPORT		PORTE
-#define PE4_DDR			DDRE
-#define PE4_PWM			&OCR3BL
-#undef PE5
-#define PE5_PIN			PINE5
-#define PE5_RPORT		PINE
-#define PE5_WPORT		PORTE
-#define PE5_DDR			DDRE
-#define PE5_PWM			&OCR3CL
-#undef PE6
-#define PE6_PIN			PINE6
-#define PE6_RPORT		PINE
-#define PE6_WPORT		PORTE
-#define PE6_DDR			DDRE
-#define PE6_PWM			NULL
-#undef PE7
-#define PE7_PIN			PINE7
-#define PE7_RPORT		PINE
-#define PE7_WPORT		PORTE
-#define PE7_DDR			DDRE
-#define PE7_PWM			NULL
-
-#undef PF0
-#define PF0_PIN			PINF0
-#define PF0_RPORT		PINF
-#define PF0_WPORT		PORTF
-#define PF0_DDR			DDRF
-#define PF0_PWM			NULL
-#undef PF1
-#define PF1_PIN			PINF1
-#define PF1_RPORT		PINF
-#define PF1_WPORT		PORTF
-#define PF1_DDR			DDRF
-#define PF1_PWM			NULL
-#undef PF2
-#define PF2_PIN			PINF2
-#define PF2_RPORT		PINF
-#define PF2_WPORT		PORTF
-#define PF2_DDR			DDRF
-#define PF2_PWM			NULL
-#undef PF3
-#define PF3_PIN			PINF3
-#define PF3_RPORT		PINF
-#define PF3_WPORT		PORTF
-#define PF3_DDR			DDRF
-#define PF3_PWM			NULL
-#undef PF4
-#define PF4_PIN			PINF4
-#define PF4_RPORT		PINF
-#define PF4_WPORT		PORTF
-#define PF4_DDR			DDRF
-#define PF4_PWM			NULL
-#undef PF5
-#define PF5_PIN			PINF5
-#define PF5_RPORT		PINF
-#define PF5_WPORT		PORTF
-#define PF5_DDR			DDRF
-#define PF5_PWM			NULL
-#undef PF6
-#define PF6_PIN			PINF6
-#define PF6_RPORT		PINF
-#define PF6_WPORT		PORTF
-#define PF6_DDR			DDRF
-#define PF6_PWM			NULL
-#undef PF7
-#define PF7_PIN			PINF7
-#define PF7_RPORT		PINF
-#define PF7_WPORT		PORTF
-#define PF7_DDR			DDRF
-#define PF7_PWM			NULL
-
-#undef PG0
-#define PG0_PIN			PING0
-#define PG0_RPORT		PING
-#define PG0_WPORT		PORTG
-#define PG0_DDR			DDRG
-#define PG0_PWM			NULL
-#undef PG1
-#define PG1_PIN			PING1
-#define PG1_RPORT		PING
-#define PG1_WPORT		PORTG
-#define PG1_DDR			DDRG
-#define PG1_PWM			NULL
-#undef PG2
-#define PG2_PIN			PING2
-#define PG2_RPORT		PING
-#define PG2_WPORT		PORTG
-#define PG2_DDR			DDRG
-#define PG2_PWM			NULL
-#undef PG3
-#define PG3_PIN			PING3
-#define PG3_RPORT		PING
-#define PG3_WPORT		PORTG
-#define PG3_DDR			DDRG
-#define PG3_PWM			NULL
-#undef PG4
-#define PG4_PIN			PING4
-#define PG4_RPORT		PING
-#define PG4_WPORT		PORTG
-#define PG4_DDR			DDRG
-#define PG4_PWM			NULL
-#undef PG5
-#define PG5_PIN			PING5
-#define PG5_RPORT		PING
-#define PG5_WPORT		PORTG
-#define PG5_DDR			DDRG
-#define PG5_PWM			&OCR0B
-#undef PG6
-#define PG6_PIN			PING6
-#define PG6_RPORT		PING
-#define PG6_WPORT		PORTG
-#define PG6_DDR			DDRG
-#define PG6_PWM			NULL
-#undef PG7
-#define PG7_PIN			PING7
-#define PG7_RPORT		PING
-#define PG7_WPORT		PORTG
-#define PG7_DDR			DDRG
-#define PG7_PWM			NULL
-
-#undef PH0
-#define PH0_PIN			PINH0
-#define PH0_RPORT		PINH
-#define PH0_WPORT		PORTH
-#define PH0_DDR			DDRH
-#define PH0_PWM			NULL
-#undef PH1
-#define PH1_PIN			PINH1
-#define PH1_RPORT		PINH
-#define PH1_WPORT		PORTH
-#define PH1_DDR			DDRH
-#define PH1_PWM			NULL
-#undef PH2
-#define PH2_PIN			PINH2
-#define PH2_RPORT		PINH
-#define PH2_WPORT		PORTH
-#define PH2_DDR			DDRH
-#define PH2_PWM			NULL
-#undef PH3
-#define PH3_PIN			PINH3
-#define PH3_RPORT		PINH
-#define PH3_WPORT		PORTH
-#define PH3_DDR			DDRH
-#define PH3_PWM			&OCR4AL
-#undef PH4
-#define PH4_PIN			PINH4
-#define PH4_RPORT		PINH
-#define PH4_WPORT		PORTH
-#define PH4_DDR			DDRH
-#define PH4_PWM			&OCR4BL
-#undef PH5
-#define PH5_PIN			PINH5
-#define PH5_RPORT		PINH
-#define PH5_WPORT		PORTH
-#define PH5_DDR			DDRH
-#define PH5_PWM			&OCR4CL
-#undef PH6
-#define PH6_PIN			PINH6
-#define PH6_RPORT		PINH
-#define PH6_WPORT		PORTH
-#define PH6_DDR			DDRH
-#define PH6_PWM			&OCR2B
-#undef PH7
-#define PH7_PIN			PINH7
-#define PH7_RPORT		PINH
-#define PH7_WPORT		PORTH
-#define PH7_DDR			DDRH
-#define PH7_PWM			NULL
-
-#undef PJ0
-#define PJ0_PIN			PINJ0
-#define PJ0_RPORT		PINJ
-#define PJ0_WPORT		PORTJ
-#define PJ0_DDR			DDRJ
-#define PJ0_PWM			NULL
-#undef PJ1
-#define PJ1_PIN			PINJ1
-#define PJ1_RPORT		PINJ
-#define PJ1_WPORT		PORTJ
-#define PJ1_DDR			DDRJ
-#define PJ1_PWM			NULL
-#undef PJ2
-#define PJ2_PIN			PINJ2
-#define PJ2_RPORT		PINJ
-#define PJ2_WPORT		PORTJ
-#define PJ2_DDR			DDRJ
-#define PJ2_PWM			NULL
-#undef PJ3
-#define PJ3_PIN			PINJ3
-#define PJ3_RPORT		PINJ
-#define PJ3_WPORT		PORTJ
-#define PJ3_DDR			DDRJ
-#define PJ3_PWM			NULL
-#undef PJ4
-#define PJ4_PIN			PINJ4
-#define PJ4_RPORT		PINJ
-#define PJ4_WPORT		PORTJ
-#define PJ4_DDR			DDRJ
-#define PJ4_PWM			NULL
-#undef PJ5
-#define PJ5_PIN			PINJ5
-#define PJ5_RPORT		PINJ
-#define PJ5_WPORT		PORTJ
-#define PJ5_DDR			DDRJ
-#define PJ5_PWM			NULL
-#undef PJ6
-#define PJ6_PIN			PINJ6
-#define PJ6_RPORT		PINJ
-#define PJ6_WPORT		PORTJ
-#define PJ6_DDR			DDRJ
-#define PJ6_PWM			NULL
-#undef PJ7
-#define PJ7_PIN			PINJ7
-#define PJ7_RPORT		PINJ
-#define PJ7_WPORT		PORTJ
-#define PJ7_DDR			DDRJ
-#define PJ7_PWM			NULL
-
-#undef PK0
-#define PK0_PIN			PINK0
-#define PK0_RPORT		PINK
-#define PK0_WPORT		PORTK
-#define PK0_DDR			DDRK
-#define PK0_PWM			NULL
-#undef PK1
-#define PK1_PIN			PINK1
-#define PK1_RPORT		PINK
-#define PK1_WPORT		PORTK
-#define PK1_DDR			DDRK
-#define PK1_PWM			NULL
-#undef PK2
-#define PK2_PIN			PINK2
-#define PK2_RPORT		PINK
-#define PK2_WPORT		PORTK
-#define PK2_DDR			DDRK
-#define PK2_PWM			NULL
-#undef PK3
-#define PK3_PIN			PINK3
-#define PK3_RPORT		PINK
-#define PK3_WPORT		PORTK
-#define PK3_DDR			DDRK
-#define PK3_PWM			NULL
-#undef PK4
-#define PK4_PIN			PINK4
-#define PK4_RPORT		PINK
-#define PK4_WPORT		PORTK
-#define PK4_DDR			DDRK
-#define PK4_PWM			NULL
-#undef PK5
-#define PK5_PIN			PINK5
-#define PK5_RPORT		PINK
-#define PK5_WPORT		PORTK
-#define PK5_DDR			DDRK
-#define PK5_PWM			NULL
-#undef PK6
-#define PK6_PIN			PINK6
-#define PK6_RPORT		PINK
-#define PK6_WPORT		PORTK
-#define PK6_DDR			DDRK
-#define PK6_PWM			NULL
-#undef PK7
-#define PK7_PIN			PINK7
-#define PK7_RPORT		PINK
-#define PK7_WPORT		PORTK
-#define PK7_DDR			DDRK
-#define PK7_PWM			NULL
-
-#undef PL0
-#define PL0_PIN			PINL0
-#define PL0_RPORT		PINL
-#define PL0_WPORT		PORTL
-#define PL0_DDR			DDRL
-#define PL0_PWM			NULL
-#undef PL1
-#define PL1_PIN			PINL1
-#define PL1_RPORT		PINL
-#define PL1_WPORT		PORTL
-#define PL1_DDR			DDRL
-#define PL1_PWM			NULL
-#undef PL2
-#define PL2_PIN			PINL2
-#define PL2_RPORT		PINL
-#define PL2_WPORT		PORTL
-#define PL2_DDR			DDRL
-#define PL2_PWM			NULL
-#undef PL3
-#define PL3_PIN			PINL3
-#define PL3_RPORT		PINL
-#define PL3_WPORT		PORTL
-#define PL3_DDR			DDRL
-#define PL3_PWM			&OCR5AL
-#undef PL4
-#define PL4_PIN			PINL4
-#define PL4_RPORT		PINL
-#define PL4_WPORT		PORTL
-#define PL4_DDR			DDRL
-#define PL4_PWM			&OCR5BL
-#undef PL5
-#define PL5_PIN			PINL5
-#define PL5_RPORT		PINL
-#define PL5_WPORT		PORTL
-#define PL5_DDR			DDRL
-#define PL5_PWM			&OCR5CL
-#undef PL6
-#define PL6_PIN			PINL6
-#define PL6_RPORT		PINL
-#define PL6_WPORT		PORTL
-#define PL6_DDR			DDRL
-#define PL6_PWM			NULL
-#undef PL7
-#define PL7_PIN			PINL7
-#define PL7_RPORT		PINL
-#define PL7_WPORT		PORTL
-#define PL7_DDR			DDRL
-#define PL7_PWM			NULL
-
-#endif
-
-#if defined (__AVR_AT90USB1287__)
-// SPI
-#define	SCK					DIO9
-#define	MISO				DIO11
-#define	MOSI				DIO10
-#define	SS					DIO8
-
-// change for your board
-#define	DEBUG_LED		DIO31 /* led D5 red */
-
-/*
-pins
-*/
-#define DIO0_PIN        PINA0
-#define DIO0_RPORT      PINA
-#define DIO0_WPORT      PORTA
-#define DIO0_PWM			NULL
-#define DIO0_DDR        DDRA
-
-#define DIO1_PIN        PINA1
-#define DIO1_RPORT      PINA
-#define DIO1_WPORT      PORTA
-#define DIO1_PWM			NULL
-#define DIO1_DDR        DDRA
-
-#define DIO2_PIN        PINA2
-#define DIO2_RPORT      PINA
-#define DIO2_WPORT      PORTA
-#define DIO2_PWM			NULL
-#define DIO2_DDR        DDRA
-
-#define DIO3_PIN        PINA3
-#define DIO3_RPORT      PINA
-#define DIO3_WPORT      PORTA
-#define DIO3_PWM			NULL
-#define DIO3_DDR        DDRA
-
-#define DIO4_PIN        PINA4
-#define DIO4_RPORT      PINA
-#define DIO4_WPORT      PORTA
-#define DIO4_PWM			NULL
-#define DIO4_DDR        DDRA
-
-#define DIO5_PIN        PINA5
-#define DIO5_RPORT      PINA
-#define DIO5_WPORT      PORTA
-#define DIO5_PWM			NULL
-#define DIO5_DDR        DDRA
-
-#define DIO6_PIN        PINA6
-#define DIO6_RPORT      PINA
-#define DIO6_WPORT      PORTA
-#define DIO6_PWM			NULL
-#define DIO6_DDR        DDRA
-
-#define DIO7_PIN        PINA7
-#define DIO7_RPORT      PINA
-#define DIO7_WPORT      PORTA
-#define DIO7_PWM			NULL
-#define DIO7_DDR        DDRA
-
-#define DIO8_PIN        PINB0
-#define DIO8_RPORT      PINB
-#define DIO8_WPORT      PORTB
-#define DIO8_PWM			NULL
-#define DIO8_DDR        DDRB
-
-#define DIO9_PIN        PINB1
-#define DIO9_RPORT      PINB
-#define DIO9_WPORT      PORTB
-#define DIO9_PWM			NULL
-#define DIO9_DDR        DDRB
-
-#define DIO10_PIN       PINB2
-#define DIO10_RPORT     PINB
-#define DIO10_WPORT     PORTB
-#define DIO10_PWM			NULL
-#define DIO10_DDR       DDRB
-
-#define DIO11_PIN       PINB3
-#define DIO11_RPORT     PINB
-#define DIO11_WPORT     PORTB
-#define DIO11_PWM			NULL
-#define DIO11_DDR       DDRB
-
-#define DIO12_PIN       PINB4
-#define DIO12_RPORT     PINB
-#define DIO12_WPORT     PORTB
-#define DIO12_PWM			NULL
-#define DIO12_DDR       DDRB
-
-#define DIO13_PIN       PINB5
-#define DIO13_RPORT     PINB
-#define DIO13_WPORT     PORTB
-#define DIO13_PWM			NULL
-#define DIO13_DDR       DDRB
-
-#define DIO14_PIN       PINB6
-#define DIO14_RPORT     PINB
-#define DIO14_WPORT     PORTB
-#define DIO14_PWM			NULL
-#define DIO14_DDR       DDRB
-
-#define DIO15_PIN       PINB7
-#define DIO15_RPORT     PINB
-#define DIO15_WPORT     PORTB
-#define DIO15_PWM			NULL
-#define DIO15_DDR       DDRB
-
-#define DIO16_PIN       PINC0
-#define DIO16_RPORT     PINC
-#define DIO16_WPORT     PORTC
-#define DIO16_PWM			NULL
-#define DIO16_DDR       DDRC
-
-#define DIO17_PIN       PINC1
-#define DIO17_RPORT     PINC
-#define DIO17_WPORT     PORTC
-#define DIO17_PWM			NULL
-#define DIO17_DDR       DDRC
-
-#define DIO18_PIN       PINC2
-#define DIO18_RPORT     PINC
-#define DIO18_WPORT     PORTC
-#define DIO18_PWM			NULL
-#define DIO18_DDR       DDRC
-
-#define DIO19_PIN       PINC3
-#define DIO19_RPORT     PINC
-#define DIO19_WPORT     PORTC
-#define DIO19_PWM			NULL
-#define DIO19_DDR       DDRC
-
-#define DIO20_PIN       PINC4
-#define DIO20_RPORT     PINC
-#define DIO20_WPORT     PORTC
-#define DIO20_PWM			NULL
-#define DIO20_DDR       DDRC
-
-#define DIO21_PIN       PINC5
-#define DIO21_RPORT     PINC
-#define DIO21_WPORT     PORTC
-#define DIO21_PWM			NULL
-#define DIO21_DDR       DDRC
-
-#define DIO22_PIN       PINC6
-#define DIO22_RPORT     PINC
-#define DIO22_WPORT     PORTC
-#define DIO22_PWM			NULL
-#define DIO22_DDR       DDRC
-
-#define DIO23_PIN       PINC7
-#define DIO23_RPORT     PINC
-#define DIO23_WPORT     PORTC
-#define DIO23_PWM			NULL
-#define DIO23_DDR       DDRC
-
-#define DIO24_PIN       PIND0
-#define DIO24_RPORT     PIND
-#define DIO24_WPORT     PORTD
-#define DIO24_PWM			NULL
-#define DIO24_DDR       DDRD
-
-#define DIO25_PIN       PIND1
-#define DIO25_RPORT     PIND
-#define DIO25_WPORT     PORTD
-#define DIO25_PWM			NULL
-#define DIO25_DDR       DDRD
-
-#define DIO26_PIN       PIND2
-#define DIO26_RPORT     PIND
-#define DIO26_WPORT     PORTD
-#define DIO26_PWM			NULL
-#define DIO26_DDR       DDRD
-
-#define DIO27_PIN       PIND3
-#define DIO27_RPORT     PIND
-#define DIO27_WPORT     PORTD
-#define DIO27_PWM			NULL
-#define DIO27_DDR       DDRD
-
-#define DIO28_PIN       PIND4
-#define DIO28_RPORT     PIND
-#define DIO28_WPORT     PORTD
-#define DIO28_PWM			NULL
-#define DIO28_DDR       DDRD
-
-#define DIO29_PIN       PIND5
-#define DIO29_RPORT     PIND
-#define DIO29_WPORT     PORTD
-#define DIO29_PWM			NULL
-#define DIO29_DDR       DDRD
-
-#define DIO30_PIN       PIND6
-#define DIO30_RPORT     PIND
-#define DIO30_WPORT     PORTD
-#define DIO30_PWM			NULL
-#define DIO30_DDR       DDRD
-
-#define DIO31_PIN       PIND7
-#define DIO31_RPORT     PIND
-#define DIO31_WPORT     PORTD
-#define DIO31_PWM			NULL
-#define DIO31_DDR       DDRD
-
-
-#define DIO32_PIN       PINE0
-#define DIO32_RPORT     PINE
-#define DIO32_WPORT     PORTE
-#define DIO32_PWM			NULL
-#define DIO32_DDR       DDRE
-
-#define DIO33_PIN       PINE1
-#define DIO33_RPORT     PINE
-#define DIO33_WPORT     PORTE
-#define DIO33_PWM			NULL
-#define DIO33_DDR       DDRE
-
-#define DIO34_PIN       PINE2
-#define DIO34_RPORT     PINE
-#define DIO34_WPORT     PORTE
-#define DIO34_PWM			NULL
-#define DIO34_DDR       DDRE
-
-#define DIO35_PIN       PINE3
-#define DIO35_RPORT     PINE
-#define DIO35_WPORT     PORTE
-#define DIO35_PWM			NULL
-#define DIO35_DDR       DDRE
-
-#define DIO36_PIN       PINE4
-#define DIO36_RPORT     PINE
-#define DIO36_WPORT     PORTE
-#define DIO36_PWM			NULL
-#define DIO36_DDR       DDRE
-
-#define DIO37_PIN       PINE5
-#define DIO37_RPORT     PINE
-#define DIO37_WPORT     PORTE
-#define DIO37_PWM			NULL
-#define DIO37_DDR       DDRE
-
-#define DIO38_PIN       PINE6
-#define DIO38_RPORT     PINE
-#define DIO38_WPORT     PORTE
-#define DIO38_PWM			NULL
-#define DIO38_DDR       DDRE
-
-#define DIO39_PIN       PINE7
-#define DIO39_RPORT     PINE
-#define DIO39_WPORT     PORTE
-#define DIO39_PWM			NULL
-#define DIO39_DDR       DDRE
-
-#define AIO0_PIN PINF0
-#define AIO0_RPORT PINF
-#define AIO0_WPORT PORTF
-#define AIO0_PWM			NULL
-#define AIO0_DDR DDRF
-
-#define AIO1_PIN PINF1
-#define AIO1_RPORT PINF
-#define AIO1_WPORT PORTF
-#define AIO1_PWM			NULL
-#define AIO1_DDR DDRF
-
-#define AIO2_PIN PINF2
-#define AIO2_RPORT PINF
-#define AIO2_WPORT PORTF
-#define AIO2_PWM			NULL
-#define AIO2_DDR DDRF
-
-#define AIO3_PIN PINF3
-#define AIO3_RPORT PINF
-#define AIO3_WPORT PORTF
-#define AIO3_PWM			NULL
-#define AIO3_DDR DDRF
-
-#define AIO4_PIN PINF4
-#define AIO4_RPORT PINF
-#define AIO4_WPORT PORTF
-#define AIO4_PWM			NULL
-#define AIO4_DDR DDRF
-
-#define AIO5_PIN PINF5
-#define AIO5_RPORT PINF
-#define AIO5_WPORT PORTF
-#define AIO5_PWM			NULL
-#define AIO5_DDR DDRF
-
-#define AIO6_PIN PINF6
-#define AIO6_RPORT PINF
-#define AIO6_WPORT PORTF
-#define AIO6_PWM			NULL
-#define AIO6_DDR DDRF
-
-#define AIO7_PIN PINF7
-#define AIO7_RPORT PINF
-#define AIO7_WPORT PORTF
-#define AIO7_PWM			NULL
-#define AIO7_DDR DDRF
-
-#define DIO40_PIN       PINF0
-#define DIO40_RPORT     PINF
-#define DIO40_WPORT     PORTF
-#define DIO40_PWM			NULL
-#define DIO40_DDR       DDRF
-
-#define DIO41_PIN       PINF1
-#define DIO41_RPORT     PINF
-#define DIO41_WPORT     PORTF
-#define DIO41_PWM			NULL
-#define DIO41_DDR       DDRF
-
-#define DIO42_PIN       PINF2
-#define DIO42_RPORT     PINF
-#define DIO42_WPORT     PORTF
-#define DIO42_PWM			NULL
-#define DIO42_DDR       DDRF
-
-#define DIO43_PIN       PINF3
-#define DIO43_RPORT     PINF
-#define DIO43_WPORT     PORTF
-#define DIO43_PWM			NULL
-#define DIO43_DDR       DDRF
-
-#define DIO44_PIN       PINF4
-#define DIO44_RPORT     PINF
-#define DIO44_WPORT     PORTF
-#define DIO44_PWM			NULL
-#define DIO44_DDR       DDRF
-
-#define DIO45_PIN       PINF5
-#define DIO45_RPORT     PINF
-#define DIO45_WPORT     PORTF
-#define DIO45_PWM			NULL
-#define DIO45_DDR       DDRF
-
-#define DIO46_PIN       PINF6
-#define DIO46_RPORT     PINF
-#define DIO46_WPORT     PORTF
-#define DIO46_PWM			NULL
-#define DIO46_DDR       DDRF
-
-#define DIO47_PIN       PINF7
-#define DIO47_RPORT     PINF
-#define DIO47_WPORT     PORTF
-#define DIO47_PWM			NULL
-#define DIO47_DDR       DDRF
-
-
-
-#undef PA0
-#define PA0_PIN			PINA0
-#define PA0_RPORT		PINA
-#define PA0_WPORT		PORTA
-#define PA0_PWM			NULL
-#define PA0_DDR			DDRA
-#undef PA1
-#define PA1_PIN			PINA1
-#define PA1_RPORT		PINA
-#define PA1_WPORT		PORTA
-#define PA1_PWM			NULL
-#define PA1_DDR			DDRA
-#undef PA2
-#define PA2_PIN			PINA2
-#define PA2_RPORT		PINA
-#define PA2_WPORT		PORTA
-#define PA2_PWM			NULL
-#define PA2_DDR			DDRA
-#undef PA3
-#define PA3_PIN			PINA3
-#define PA3_RPORT		PINA
-#define PA3_WPORT		PORTA
-#define PA3_PWM			NULL
-#define PA3_DDR			DDRA
-#undef PA4
-#define PA4_PIN			PINA4
-#define PA4_RPORT		PINA
-#define PA4_WPORT		PORTA
-#define PA4_PWM			NULL
-#define PA4_DDR			DDRA
-#undef PA5
-#define PA5_PIN			PINA5
-#define PA5_RPORT		PINA
-#define PA5_WPORT		PORTA
-#define PA5_PWM			NULL
-#define PA5_DDR			DDRA
-#undef PA6
-#define PA6_PIN			PINA6
-#define PA6_RPORT		PINA
-#define PA6_WPORT		PORTA
-#define PA6_PWM			NULL
-#define PA6_DDR			DDRA
-#undef PA7
-#define PA7_PIN			PINA7
-#define PA7_RPORT		PINA
-#define PA7_WPORT		PORTA
-#define PA7_PWM			NULL
-#define PA7_DDR			DDRA
-
-#undef PB0
-#define PB0_PIN			PINB0
-#define PB0_RPORT		PINB
-#define PB0_WPORT		PORTB
-#define PB0_PWM			NULL
-#define PB0_DDR			DDRB
-#undef PB1
-#define PB1_PIN			PINB1
-#define PB1_RPORT		PINB
-#define PB1_WPORT		PORTB
-#define PB1_PWM			NULL
-#define PB1_DDR			DDRB
-#undef PB2
-#define PB2_PIN			PINB2
-#define PB2_RPORT		PINB
-#define PB2_WPORT		PORTB
-#define PB2_PWM			NULL
-#define PB2_DDR			DDRB
-#undef PB3
-#define PB3_PIN			PINB3
-#define PB3_RPORT		PINB
-#define PB3_WPORT		PORTB
-#define PB3_PWM			NULL
-#define PB3_DDR			DDRB
-#undef PB4
-#define PB4_PIN			PINB4
-#define PB4_RPORT		PINB
-#define PB4_WPORT		PORTB
-#define PB4_PWM			NULL
-#define PB4_DDR			DDRB
-#undef PB5
-#define PB5_PIN			PINB5
-#define PB5_RPORT		PINB
-#define PB5_WPORT		PORTB
-#define PB5_PWM			NULL
-#define PB5_DDR			DDRB
-#undef PB6
-#define PB6_PIN			PINB6
-#define PB6_RPORT		PINB
-#define PB6_WPORT		PORTB
-#define PB6_PWM			NULL
-#define PB6_DDR			DDRB
-#undef PB7
-#define PB7_PIN			PINB7
-#define PB7_RPORT		PINB
-#define PB7_WPORT		PORTB
-#define PB7_PWM			NULL
-#define PB7_DDR			DDRB
-
-#undef PC0
-#define PC0_PIN			PINC0
-#define PC0_RPORT		PINC
-#define PC0_WPORT		PORTC
-#define PC0_PWM			NULL
-#define PC0_DDR			DDRC
-#undef PC1
-#define PC1_PIN			PINC1
-#define PC1_RPORT		PINC
-#define PC1_WPORT		PORTC
-#define PC1_PWM			NULL
-#define PC1_DDR			DDRC
-#undef PC2
-#define PC2_PIN			PINC2
-#define PC2_RPORT		PINC
-#define PC2_WPORT		PORTC
-#define PC2_PWM			NULL
-#define PC2_DDR			DDRC
-#undef PC3
-#define PC3_PIN			PINC3
-#define PC3_RPORT		PINC
-#define PC3_WPORT		PORTC
-#define PC3_PWM			NULL
-#define PC3_DDR			DDRC
-#undef PC4
-#define PC4_PIN			PINC4
-#define PC4_RPORT		PINC
-#define PC4_WPORT		PORTC
-#define PC4_PWM			NULL
-#define PC4_DDR			DDRC
-#undef PC5
-#define PC5_PIN			PINC5
-#define PC5_RPORT		PINC
-#define PC5_WPORT		PORTC
-#define PC5_PWM			NULL
-#define PC5_DDR			DDRC
-#undef PC6
-#define PC6_PIN			PINC6
-#define PC6_RPORT		PINC
-#define PC6_WPORT		PORTC
-#define PC6_PWM			NULL
-#define PC6_DDR			DDRC
-#undef PC7
-#define PC7_PIN			PINC7
-#define PC7_RPORT		PINC
-#define PC7_WPORT		PORTC
-#define PC7_PWM			NULL
-#define PC7_DDR			DDRC
-
-#undef PD0
-#define PD0_PIN			PIND0
-#define PD0_RPORT		PIND
-#define PD0_WPORT		PORTD
-#define PD0_PWM			NULL
-#define PD0_DDR			DDRD
-#undef PD1
-#define PD1_PIN			PIND1
-#define PD1_RPORT		PIND
-#define PD1_WPORT		PORTD
-#define PD1_PWM			NULL
-#define PD1_DDR			DDRD
-#undef PD2
-#define PD2_PIN			PIND2
-#define PD2_RPORT		PIND
-#define PD2_WPORT		PORTD
-#define PD2_PWM			NULL
-#define PD2_DDR			DDRD
-#undef PD3
-#define PD3_PIN			PIND3
-#define PD3_RPORT		PIND
-#define PD3_WPORT		PORTD
-#define PD3_PWM			NULL
-#define PD3_DDR			DDRD
-#undef PD4
-#define PD4_PIN			PIND4
-#define PD4_RPORT		PIND
-#define PD4_WPORT		PORTD
-#define PD4_PWM			NULL
-#define PD4_DDR			DDRD
-#undef PD5
-#define PD5_PIN			PIND5
-#define PD5_RPORT		PIND
-#define PD5_WPORT		PORTD
-#define PD5_PWM			NULL
-#define PD5_DDR			DDRD
-#undef PD6
-#define PD6_PIN			PIND6
-#define PD6_RPORT		PIND
-#define PD6_WPORT		PORTD
-#define PD6_PWM			NULL
-#define PD6_DDR			DDRD
-#undef PD7
-#define PD7_PIN			PIND7
-#define PD7_RPORT		PIND
-#define PD7_WPORT		PORTD
-#define PD7_PWM			NULL
-#define PD7_DDR			DDRD
-
-#undef PE0
-#define PE0_PIN			PINE0
-#define PE0_RPORT		PINE
-#define PE0_WPORT		PORTE
-#define PE0_PWM			NULL
-#define PE0_DDR			DDRE
-#undef PE1
-#define PE1_PIN			PINE1
-#define PE1_RPORT		PINE
-#define PE1_WPORT		PORTE
-#define PE1_PWM			NULL
-#define PE1_DDR			DDRE
-#undef PE2
-#define PE2_PIN			PINE2
-#define PE2_RPORT		PINE
-#define PE2_WPORT		PORTE
-#define PE2_PWM			NULL
-#define PE2_DDR			DDRE
-#undef PE3
-#define PE3_PIN			PINE3
-#define PE3_RPORT		PINE
-#define PE3_WPORT		PORTE
-#define PE3_PWM			NULL
-#define PE3_DDR			DDRE
-#undef PE4
-#define PE4_PIN			PINE4
-#define PE4_RPORT		PINE
-#define PE4_WPORT		PORTE
-#define PE4_PWM			NULL
-#define PE4_DDR			DDRE
-#undef PE5
-#define PE5_PIN			PINE5
-#define PE5_RPORT		PINE
-#define PE5_WPORT		PORTE
-#define PE5_PWM			NULL
-#define PE5_DDR			DDRE
-#undef PE6
-#define PE6_PIN			PINE6
-#define PE6_RPORT		PINE
-#define PE6_WPORT		PORTE
-#define PE6_PWM			NULL
-#define PE6_DDR			DDRE
-#undef PE7
-#define PE7_PIN			PINE7
-#define PE7_RPORT		PINE
-#define PE7_WPORT		PORTE
-#define PE7_PWM			NULL
-#define PE7_DDR			DDRE
-
-#undef PF0
-#define PF0_PIN			PINF0
-#define PF0_RPORT		PINF
-#define PF0_WPORT		PORTF
-#define PF0_PWM			NULL
-#define PF0_DDR			DDRF
-#undef PF1
-#define PF1_PIN			PINF1
-#define PF1_RPORT		PINF
-#define PF1_WPORT		PORTF
-#define PF1_PWM			NULL
-#define PF1_DDR			DDRF
-#undef PF2
-#define PF2_PIN			PINF2
-#define PF2_RPORT		PINF
-#define PF2_WPORT		PORTF
-#define PF2_PWM			NULL
-#define PF2_DDR			DDRF
-#undef PF3
-#define PF3_PIN			PINF3
-#define PF3_RPORT		PINF
-#define PF3_WPORT		PORTF
-#define PF3_PWM			NULL
-#define PF3_DDR			DDRF
-#undef PF4
-#define PF4_PIN			PINF4
-#define PF4_RPORT		PINF
-#define PF4_WPORT		PORTF
-#define PF4_PWM			NULL
-#define PF4_DDR			DDRF
-#undef PF5
-#define PF5_PIN			PINF5
-#define PF5_RPORT		PINF
-#define PF5_WPORT		PORTF
-#define PF5_PWM			NULL
-#define PF5_DDR			DDRF
-#undef PF6
-#define PF6_PIN			PINF6
-#define PF6_RPORT		PINF
-#define PF6_WPORT		PORTF
-#define PF6_PWM			NULL
-#define PF6_DDR			DDRF
-#undef PF7
-#define PF7_PIN			PINF7
-#define PF7_RPORT		PINF
-#define PF7_WPORT		PORTF
-#define PF7_PWM			NULL
-#define PF7_DDR			DDRF
-#endif
-
-#ifndef	DIO0_PIN
-#error pins for this chip not defined in arduino.h! If you write an appropriate pin definition and have this firmware work on your chip, please submit a pull request
-#endif
-
+/*
+	This code contibuted by Triffid_Hunter and modified by Kliment
+	why double up on these macros? see http://gcc.gnu.org/onlinedocs/cpp/Stringification.html
+*/
+
+#ifndef	_ARDUINO_H
+#define	_ARDUINO_H
+
+#include	<avr/io.h>
+
+/*
+	utility functions
+*/
+
+#ifndef		MASK
+/// MASKING- returns \f$2^PIN\f$
+	#define		MASK(PIN)				(1 << PIN)
+#endif
+
+/*
+	magic I/O routines
+
+	now you can simply SET_OUTPUT(STEP); WRITE(STEP, 1); WRITE(STEP, 0);
+*/
+
+/// Read a pin
+#define         _READ(IO)                                       ((bool)(DIO ## IO ## _RPORT & MASK(DIO ## IO ## _PIN)))
+/// write to a pin
+#define         _WRITE(IO, v)                   do { if (v) {DIO ##  IO ## _WPORT |= MASK(DIO ## IO ## _PIN); } else {DIO ##  IO ## _WPORT &= ~MASK(DIO ## IO ## _PIN); }; } while (0)
+//#define               _WRITE(IO, v)   do { #if (DIO ##  IO ## _WPORT >= 0x100) CRITICAL_SECTION_START; if (v) {DIO ##  IO ## _WPORT |= MASK(DIO ## IO ## _PIN); } else {DIO ##  IO ## _WPORT &= ~MASK(DIO ## IO ## _PIN); };#if (DIO ##  IO ## _WPORT >= 0x100) CRITICAL_SECTION_END; } while (0)
+/// toggle a pin
+#define         _TOGGLE(IO)                             do {DIO ##  IO ## _RPORT = MASK(DIO ## IO ## _PIN); } while (0)
+
+/// set pin as input
+#define		_SET_INPUT(IO)		do {DIO ##  IO ## _DDR &= ~MASK(DIO ## IO ## _PIN); } while (0)
+/// set pin as output
+#define		_SET_OUTPUT(IO)		do {DIO ##  IO ## _DDR |=  MASK(DIO ## IO ## _PIN); } while (0)
+
+/// check if pin is an input
+#define		_GET_INPUT(IO)		((DIO ## IO ## _DDR & MASK(DIO ## IO ## _PIN)) == 0)
+/// check if pin is an output
+#define		_GET_OUTPUT(IO)		((DIO ## IO ## _DDR & MASK(DIO ## IO ## _PIN)) != 0)
+
+//	why double up on these macros? see http://gcc.gnu.org/onlinedocs/cpp/Stringification.html
+
+/// Read a pin wrapper
+#define		READ(IO)					_READ(IO)
+/// Write to a pin wrapper
+#define		WRITE(IO, v)			_WRITE(IO, v)
+/// toggle a pin wrapper
+#define		TOGGLE(IO)				_TOGGLE(IO)
+
+/// set pin as input wrapper
+#define		SET_INPUT(IO)			_SET_INPUT(IO)
+/// set pin as output wrapper
+#define		SET_OUTPUT(IO)		_SET_OUTPUT(IO)
+
+/// check if pin is an input wrapper
+#define		GET_INPUT(IO)			_GET_INPUT(IO)
+/// check if pin is an output wrapper
+#define		GET_OUTPUT(IO)		_GET_OUTPUT(IO)
+
+/*
+	ports and functions
+
+	added as necessary or if I feel like it- not a comprehensive list!
+*/
+
+#if defined (__AVR_ATmega168__) || defined (__AVR_ATmega328__) || defined (__AVR_ATmega328P__)
+// UART
+#define	RXD					DIO0
+#define	TXD					DIO1
+
+// SPI
+#define	SCK					DIO13
+#define	MISO				DIO12
+#define	MOSI				DIO11
+#define	SS					DIO10
+
+// TWI (I2C)
+#define	SCL					AIO5
+#define	SDA					AIO4
+
+// timers and PWM
+#define	OC0A				DIO6
+#define	OC0B				DIO5
+#define	OC1A				DIO9
+#define	OC1B				DIO10
+#define	OC2A				DIO11
+#define	OC2B				DIO3
+
+#define	DEBUG_LED		AIO5
+
+/*
+pins
+*/
+
+#define DIO0_PIN		PIND0
+#define DIO0_RPORT	PIND
+#define DIO0_WPORT	PORTD
+#define DIO0_DDR		DDRD
+#define DIO0_PWM		NULL
+
+#define DIO1_PIN		PIND1
+#define DIO1_RPORT	PIND
+#define DIO1_WPORT	PORTD
+#define DIO1_DDR		DDRD
+#define DIO1_PWM		NULL
+
+#define DIO2_PIN		PIND2
+#define DIO2_RPORT	PIND
+#define DIO2_WPORT	PORTD
+#define DIO2_DDR		DDRD
+#define DIO2_PWM		NULL
+
+#define DIO3_PIN		PIND3
+#define DIO3_RPORT	PIND
+#define DIO3_WPORT	PORTD
+#define DIO3_DDR		DDRD
+#define DIO3_PWM		&OCR2B
+
+#define DIO4_PIN		PIND4
+#define DIO4_RPORT	PIND
+#define DIO4_WPORT	PORTD
+#define DIO4_DDR		DDRD
+#define DIO4_PWM		NULL
+
+#define DIO5_PIN		PIND5
+#define DIO5_RPORT	PIND
+#define DIO5_WPORT	PORTD
+#define DIO5_DDR		DDRD
+#define DIO5_PWM		&OCR0B
+
+#define DIO6_PIN		PIND6
+#define DIO6_RPORT	PIND
+#define DIO6_WPORT	PORTD
+#define DIO6_DDR		DDRD
+#define DIO6_PWM		&OCR0A
+
+#define DIO7_PIN		PIND7
+#define DIO7_RPORT	PIND
+#define DIO7_WPORT	PORTD
+#define DIO7_DDR		DDRD
+#define DIO7_PWM		NULL
+
+#define DIO8_PIN		PINB0
+#define DIO8_RPORT	PINB
+#define DIO8_WPORT	PORTB
+#define DIO8_DDR		DDRB
+#define DIO8_PWM		NULL
+
+#define DIO9_PIN		PINB1
+#define DIO9_RPORT	PINB
+#define DIO9_WPORT	PORTB
+#define DIO9_DDR		DDRB
+#define DIO9_PWM		NULL
+
+#define DIO10_PIN		PINB2
+#define DIO10_RPORT	PINB
+#define DIO10_WPORT	PORTB
+#define DIO10_DDR		DDRB
+#define DIO10_PWM		NULL
+
+#define DIO11_PIN		PINB3
+#define DIO11_RPORT	PINB
+#define DIO11_WPORT	PORTB
+#define DIO11_DDR		DDRB
+#define DIO11_PWM		&OCR2A
+
+#define DIO12_PIN		PINB4
+#define DIO12_RPORT	PINB
+#define DIO12_WPORT	PORTB
+#define DIO12_DDR		DDRB
+#define DIO12_PWM		NULL
+
+#define DIO13_PIN		PINB5
+#define DIO13_RPORT	PINB
+#define DIO13_WPORT	PORTB
+#define DIO13_DDR		DDRB
+#define DIO13_PWM		NULL
+
+
+#define DIO14_PIN		PINC0
+#define DIO14_RPORT	PINC
+#define DIO14_WPORT	PORTC
+#define DIO14_DDR		DDRC
+#define DIO14_PWM		NULL
+
+#define DIO15_PIN		PINC1
+#define DIO15_RPORT	PINC
+#define DIO15_WPORT	PORTC
+#define DIO15_DDR		DDRC
+#define DIO15_PWM		NULL
+
+#define DIO16_PIN		PINC2
+#define DIO16_RPORT	PINC
+#define DIO16_WPORT	PORTC
+#define DIO16_DDR		DDRC
+#define DIO16_PWM		NULL
+
+#define DIO17_PIN		PINC3
+#define DIO17_RPORT	PINC
+#define DIO17_WPORT	PORTC
+#define DIO17_DDR		DDRC
+#define DIO17_PWM		NULL
+
+#define DIO18_PIN		PINC4
+#define DIO18_RPORT	PINC
+#define DIO18_WPORT	PORTC
+#define DIO18_DDR		DDRC
+#define DIO18_PWM		NULL
+
+#define DIO19_PIN		PINC5
+#define DIO19_RPORT	PINC
+#define DIO19_WPORT	PORTC
+#define DIO19_DDR		DDRC
+#define DIO19_PWM		NULL
+
+#define DIO20_PIN		PINC6
+#define DIO20_RPORT	PINC
+#define DIO20_WPORT	PORTC
+#define DIO20_DDR		DDRC
+#define DIO20_PWM		NULL
+
+#define DIO21_PIN		PINC7
+#define DIO21_RPORT	PINC
+#define DIO21_WPORT	PORTC
+#define DIO21_DDR		DDRC
+#define DIO21_PWM		NULL
+
+
+
+#undef PB0
+#define PB0_PIN			PINB0
+#define PB0_RPORT		PINB
+#define PB0_WPORT		PORTB
+#define PB0_DDR			DDRB
+#define PB0_PWM			NULL
+
+#undef PB1
+#define PB1_PIN			PINB1
+#define PB1_RPORT		PINB
+#define PB1_WPORT		PORTB
+#define PB1_DDR			DDRB
+#define PB1_PWM			NULL
+
+#undef PB2
+#define PB2_PIN			PINB2
+#define PB2_RPORT		PINB
+#define PB2_WPORT		PORTB
+#define PB2_DDR			DDRB
+#define PB2_PWM			NULL
+
+#undef PB3
+#define PB3_PIN			PINB3
+#define PB3_RPORT		PINB
+#define PB3_WPORT		PORTB
+#define PB3_DDR			DDRB
+#define PB3_PWM			&OCR2A
+
+#undef PB4
+#define PB4_PIN			PINB4
+#define PB4_RPORT		PINB
+#define PB4_WPORT		PORTB
+#define PB4_DDR			DDRB
+#define PB4_PWM			NULL
+
+#undef PB5
+#define PB5_PIN			PINB5
+#define PB5_RPORT		PINB
+#define PB5_WPORT		PORTB
+#define PB5_DDR			DDRB
+#define PB5_PWM			NULL
+
+#undef PB6
+#define PB6_PIN			PINB6
+#define PB6_RPORT		PINB
+#define PB6_WPORT		PORTB
+#define PB6_DDR			DDRB
+#define PB6_PWM			NULL
+
+#undef PB7
+#define PB7_PIN			PINB7
+#define PB7_RPORT		PINB
+#define PB7_WPORT		PORTB
+#define PB7_DDR			DDRB
+#define PB7_PWM			NULL
+
+
+#undef PC0
+#define PC0_PIN			PINC0
+#define PC0_RPORT		PINC
+#define PC0_WPORT		PORTC
+#define PC0_DDR			DDRC
+#define PC0_PWM			NULL
+
+#undef PC1
+#define PC1_PIN			PINC1
+#define PC1_RPORT		PINC
+#define PC1_WPORT		PORTC
+#define PC1_DDR			DDRC
+#define PC1_PWM			NULL
+
+#undef PC2
+#define PC2_PIN			PINC2
+#define PC2_RPORT		PINC
+#define PC2_WPORT		PORTC
+#define PC2_DDR			DDRC
+#define PC2_PWM			NULL
+
+#undef PC3
+#define PC3_PIN			PINC3
+#define PC3_RPORT		PINC
+#define PC3_WPORT		PORTC
+#define PC3_DDR			DDRC
+#define PC3_PWM			NULL
+
+#undef PC4
+#define PC4_PIN			PINC4
+#define PC4_RPORT		PINC
+#define PC4_WPORT		PORTC
+#define PC4_DDR			DDRC
+#define PC4_PWM			NULL
+
+#undef PC5
+#define PC5_PIN			PINC5
+#define PC5_RPORT		PINC
+#define PC5_WPORT		PORTC
+#define PC5_DDR			DDRC
+#define PC5_PWM			NULL
+
+#undef PC6
+#define PC6_PIN			PINC6
+#define PC6_RPORT		PINC
+#define PC6_WPORT		PORTC
+#define PC6_DDR			DDRC
+#define PC6_PWM			NULL
+
+#undef PC7
+#define PC7_PIN			PINC7
+#define PC7_RPORT		PINC
+#define PC7_WPORT		PORTC
+#define PC7_DDR			DDRC
+#define PC7_PWM			NULL
+
+
+#undef PD0
+#define PD0_PIN			PIND0
+#define PD0_RPORT		PIND
+#define PD0_WPORT		PORTD
+#define PD0_DDR			DDRD
+#define PD0_PWM			NULL
+
+#undef PD1
+#define PD1_PIN			PIND1
+#define PD1_RPORT		PIND
+#define PD1_WPORT		PORTD
+#define PD1_DDR			DDRD
+#define PD1_PWM			NULL
+
+#undef PD2
+#define PD2_PIN			PIND2
+#define PD2_RPORT		PIND
+#define PD2_WPORT		PORTD
+#define PD2_DDR			DDRD
+#define PD2_PWM			NULL
+
+#undef PD3
+#define PD3_PIN			PIND3
+#define PD3_RPORT		PIND
+#define PD3_WPORT		PORTD
+#define PD3_DDR			DDRD
+#define PD3_PWM			&OCR2B
+
+#undef PD4
+#define PD4_PIN			PIND4
+#define PD4_RPORT		PIND
+#define PD4_WPORT		PORTD
+#define PD4_DDR			DDRD
+#define PD4_PWM			NULL
+
+#undef PD5
+#define PD5_PIN			PIND5
+#define PD5_RPORT		PIND
+#define PD5_WPORT		PORTD
+#define PD5_DDR			DDRD
+#define PD5_PWM			&OCR0B
+
+#undef PD6
+#define PD6_PIN			PIND6
+#define PD6_RPORT		PIND
+#define PD6_WPORT		PORTD
+#define PD6_DDR			DDRD
+#define PD6_PWM			&OCR0A
+
+#undef PD7
+#define PD7_PIN			PIND7
+#define PD7_RPORT		PIND
+#define PD7_WPORT		PORTD
+#define PD7_DDR			DDRD
+#define PD7_PWM			NULL
+#endif	/*	_AVR_ATmega{168,328,328P}__ */
+
+#if defined (__AVR_ATmega644__) || defined (__AVR_ATmega644P__) || defined (__AVR_ATmega644PA__)
+// UART
+#define	RXD					DIO8
+#define	TXD					DIO9
+#define	RXD0				DIO8
+#define	TXD0				DIO9
+
+#define	RXD1				DIO10
+#define	TXD1				DIO11
+
+// SPI
+#define	SCK					DIO7
+#define	MISO				DIO6
+#define	MOSI				DIO5
+#define	SS					DIO4
+
+// TWI (I2C)
+#define	SCL					DIO16
+#define	SDA					DIO17
+
+// timers and PWM
+#define	OC0A				DIO3
+#define	OC0B				DIO4
+#define	OC1A				DIO13
+#define	OC1B				DIO12
+#define	OC2A				DIO15
+#define	OC2B				DIO14
+
+#define	DEBUG_LED		DIO0
+/*
+pins
+*/
+
+#define DIO0_PIN		PINB0
+#define DIO0_RPORT	PINB
+#define DIO0_WPORT	PORTB
+#define DIO0_DDR		DDRB
+#define DIO0_PWM		NULL
+
+#define DIO1_PIN		PINB1
+#define DIO1_RPORT	PINB
+#define DIO1_WPORT	PORTB
+#define DIO1_DDR		DDRB
+#define DIO1_PWM		NULL
+
+#define DIO2_PIN		PINB2
+#define DIO2_RPORT	PINB
+#define DIO2_WPORT	PORTB
+#define DIO2_DDR		DDRB
+#define DIO2_PWM		NULL
+
+#define DIO3_PIN		PINB3
+#define DIO3_RPORT	PINB
+#define DIO3_WPORT	PORTB
+#define DIO3_DDR		DDRB
+#define DIO3_PWM		&OCR0A
+
+#define DIO4_PIN		PINB4
+#define DIO4_RPORT	PINB
+#define DIO4_WPORT	PORTB
+#define DIO4_DDR		DDRB
+#define DIO4_PWM		&OCR0B
+
+#define DIO5_PIN		PINB5
+#define DIO5_RPORT	PINB
+#define DIO5_WPORT	PORTB
+#define DIO5_DDR		DDRB
+#define DIO5_PWM		NULL
+
+#define DIO6_PIN		PINB6
+#define DIO6_RPORT	PINB
+#define DIO6_WPORT	PORTB
+#define DIO6_DDR		DDRB
+#define DIO6_PWM		NULL
+
+#define DIO7_PIN		PINB7
+#define DIO7_RPORT	PINB
+#define DIO7_WPORT	PORTB
+#define DIO7_DDR		DDRB
+#define DIO7_PWM		NULL
+
+#define DIO8_PIN		PIND0
+#define DIO8_RPORT	PIND
+#define DIO8_WPORT	PORTD
+#define DIO8_DDR		DDRD
+#define DIO8_PWM		NULL
+
+#define DIO9_PIN		PIND1
+#define DIO9_RPORT	PIND
+#define DIO9_WPORT	PORTD
+#define DIO9_DDR		DDRD
+#define DIO9_PWM		NULL
+
+#define DIO10_PIN		PIND2
+#define DIO10_RPORT	PIND
+#define DIO10_WPORT	PORTD
+#define DIO10_DDR		DDRD
+#define DIO10_PWM		NULL
+
+#define DIO11_PIN		PIND3
+#define DIO11_RPORT	PIND
+#define DIO11_WPORT	PORTD
+#define DIO11_DDR		DDRD
+#define DIO11_PWM		NULL
+
+#define DIO12_PIN		PIND4
+#define DIO12_RPORT	PIND
+#define DIO12_WPORT	PORTD
+#define DIO12_DDR		DDRD
+#define DIO12_PWM		NULL
+
+#define DIO13_PIN		PIND5
+#define DIO13_RPORT	PIND
+#define DIO13_WPORT	PORTD
+#define DIO13_DDR		DDRD
+#define DIO13_PWM		NULL
+
+#define DIO14_PIN		PIND6
+#define DIO14_RPORT	PIND
+#define DIO14_WPORT	PORTD
+#define DIO14_DDR		DDRD
+#define DIO14_PWM		&OCR2B
+
+#define DIO15_PIN		PIND7
+#define DIO15_RPORT	PIND
+#define DIO15_WPORT	PORTD
+#define DIO15_DDR		DDRD
+#define DIO15_PWM		&OCR2A
+
+#define DIO16_PIN		PINC0
+#define DIO16_RPORT	PINC
+#define DIO16_WPORT	PORTC
+#define DIO16_DDR		DDRC
+#define DIO16_PWM		NULL
+
+#define DIO17_PIN		PINC1
+#define DIO17_RPORT	PINC
+#define DIO17_WPORT	PORTC
+#define DIO17_DDR		DDRC
+#define DIO17_PWM		NULL
+
+#define DIO18_PIN		PINC2
+#define DIO18_RPORT	PINC
+#define DIO18_WPORT	PORTC
+#define DIO18_DDR		DDRC
+#define DIO18_PWM		NULL
+
+#define DIO19_PIN		PINC3
+#define DIO19_RPORT	PINC
+#define DIO19_WPORT	PORTC
+#define DIO19_DDR		DDRC
+#define DIO19_PWM		NULL
+
+#define DIO20_PIN		PINC4
+#define DIO20_RPORT	PINC
+#define DIO20_WPORT	PORTC
+#define DIO20_DDR		DDRC
+#define DIO20_PWM		NULL
+
+#define DIO21_PIN		PINC5
+#define DIO21_RPORT	PINC
+#define DIO21_WPORT	PORTC
+#define DIO21_DDR		DDRC
+#define DIO21_PWM		NULL
+
+#define DIO22_PIN		PINC6
+#define DIO22_RPORT	PINC
+#define DIO22_WPORT	PORTC
+#define DIO22_DDR		DDRC
+#define DIO22_PWM		NULL
+
+#define DIO23_PIN		PINC7
+#define DIO23_RPORT	PINC
+#define DIO23_WPORT	PORTC
+#define DIO23_DDR		DDRC
+#define DIO23_PWM		NULL
+
+#define DIO24_PIN		PINA7
+#define DIO24_RPORT	PINA
+#define DIO24_WPORT	PORTA
+#define DIO24_DDR		DDRA
+#define DIO24_PWM		NULL
+
+#define DIO25_PIN		PINA6
+#define DIO25_RPORT	PINA
+#define DIO25_WPORT	PORTA
+#define DIO25_DDR		DDRA
+#define DIO25_PWM		NULL
+
+#define DIO26_PIN		PINA5
+#define DIO26_RPORT	PINA
+#define DIO26_WPORT	PORTA
+#define DIO26_DDR		DDRA
+#define DIO26_PWM		NULL
+
+#define DIO27_PIN		PINA4
+#define DIO27_RPORT	PINA
+#define DIO27_WPORT	PORTA
+#define DIO27_DDR		DDRA
+#define DIO27_PWM		NULL
+
+#define DIO28_PIN		PINA3
+#define DIO28_RPORT	PINA
+#define DIO28_WPORT	PORTA
+#define DIO28_DDR		DDRA
+#define DIO28_PWM		NULL
+
+#define DIO29_PIN		PINA2
+#define DIO29_RPORT	PINA
+#define DIO29_WPORT	PORTA
+#define DIO29_DDR		DDRA
+#define DIO29_PWM		NULL
+
+#define DIO30_PIN		PINA1
+#define DIO30_RPORT	PINA
+#define DIO30_WPORT	PORTA
+#define DIO30_DDR		DDRA
+#define DIO30_PWM		NULL
+
+#define DIO31_PIN		PINA0
+#define DIO31_RPORT	PINA
+#define DIO31_WPORT	PORTA
+#define DIO31_DDR		DDRA
+#define DIO31_PWM		NULL
+
+#define AIO0_PIN		PINA0
+#define AIO0_RPORT	PINA
+#define AIO0_WPORT	PORTA
+#define AIO0_DDR		DDRA
+#define AIO0_PWM		NULL
+
+#define AIO1_PIN		PINA1
+#define AIO1_RPORT	PINA
+#define AIO1_WPORT	PORTA
+#define AIO1_DDR		DDRA
+#define AIO1_PWM		NULL
+
+#define AIO2_PIN		PINA2
+#define AIO2_RPORT	PINA
+#define AIO2_WPORT	PORTA
+#define AIO2_DDR		DDRA
+#define AIO2_PWM		NULL
+
+#define AIO3_PIN		PINA3
+#define AIO3_RPORT	PINA
+#define AIO3_WPORT	PORTA
+#define AIO3_DDR		DDRA
+#define AIO3_PWM		NULL
+
+#define AIO4_PIN		PINA4
+#define AIO4_RPORT	PINA
+#define AIO4_WPORT	PORTA
+#define AIO4_DDR		DDRA
+#define AIO4_PWM		NULL
+
+#define AIO5_PIN		PINA5
+#define AIO5_RPORT	PINA
+#define AIO5_WPORT	PORTA
+#define AIO5_DDR		DDRA
+#define AIO5_PWM		NULL
+
+#define AIO6_PIN		PINA6
+#define AIO6_RPORT	PINA
+#define AIO6_WPORT	PORTA
+#define AIO6_DDR		DDRA
+#define AIO6_PWM		NULL
+
+#define AIO7_PIN		PINA7
+#define AIO7_RPORT	PINA
+#define AIO7_WPORT	PORTA
+#define AIO7_DDR		DDRA
+#define AIO7_PWM		NULL
+
+
+
+#undef PA0
+#define PA0_PIN			PINA0
+#define PA0_RPORT		PINA
+#define PA0_WPORT		PORTA
+#define PA0_DDR			DDRA
+#define PA0_PWM			NULL
+
+#undef PA1
+#define PA1_PIN			PINA1
+#define PA1_RPORT		PINA
+#define PA1_WPORT		PORTA
+#define PA1_DDR			DDRA
+#define PA1_PWM			NULL
+
+#undef PA2
+#define PA2_PIN			PINA2
+#define PA2_RPORT		PINA
+#define PA2_WPORT		PORTA
+#define PA2_DDR			DDRA
+#define PA2_PWM			NULL
+
+#undef PA3
+#define PA3_PIN			PINA3
+#define PA3_RPORT		PINA
+#define PA3_WPORT		PORTA
+#define PA3_DDR			DDRA
+#define PA3_PWM			NULL
+
+#undef PA4
+#define PA4_PIN			PINA4
+#define PA4_RPORT		PINA
+#define PA4_WPORT		PORTA
+#define PA4_DDR			DDRA
+#define PA4_PWM			NULL
+
+#undef PA5
+#define PA5_PIN			PINA5
+#define PA5_RPORT		PINA
+#define PA5_WPORT		PORTA
+#define PA5_DDR			DDRA
+#define PA5_PWM			NULL
+
+#undef PA6
+#define PA6_PIN			PINA6
+#define PA6_RPORT		PINA
+#define PA6_WPORT		PORTA
+#define PA6_DDR			DDRA
+#define PA6_PWM			NULL
+
+#undef PA7
+#define PA7_PIN			PINA7
+#define PA7_RPORT		PINA
+#define PA7_WPORT		PORTA
+#define PA7_DDR			DDRA
+#define PA7_PWM			NULL
+
+
+#undef PB0
+#define PB0_PIN			PINB0
+#define PB0_RPORT		PINB
+#define PB0_WPORT		PORTB
+#define PB0_DDR			DDRB
+#define PB0_PWM			NULL
+
+#undef PB1
+#define PB1_PIN			PINB1
+#define PB1_RPORT		PINB
+#define PB1_WPORT		PORTB
+#define PB1_DDR			DDRB
+#define PB1_PWM			NULL
+
+#undef PB2
+#define PB2_PIN			PINB2
+#define PB2_RPORT		PINB
+#define PB2_WPORT		PORTB
+#define PB2_DDR			DDRB
+#define PB2_PWM			NULL
+
+#undef PB3
+#define PB3_PIN			PINB3
+#define PB3_RPORT		PINB
+#define PB3_WPORT		PORTB
+#define PB3_DDR			DDRB
+#define PB3_PWM			&OCR0A
+
+#undef PB4
+#define PB4_PIN			PINB4
+#define PB4_RPORT		PINB
+#define PB4_WPORT		PORTB
+#define PB4_DDR			DDRB
+#define PB4_PWM			&OCR0B
+
+#undef PB5
+#define PB5_PIN			PINB5
+#define PB5_RPORT		PINB
+#define PB5_WPORT		PORTB
+#define PB5_DDR			DDRB
+#define PB5_PWM			NULL
+
+#undef PB6
+#define PB6_PIN			PINB6
+#define PB6_RPORT		PINB
+#define PB6_WPORT		PORTB
+#define PB6_DDR			DDRB
+#define PB6_PWM			NULL
+
+#undef PB7
+#define PB7_PIN			PINB7
+#define PB7_RPORT		PINB
+#define PB7_WPORT		PORTB
+#define PB7_DDR			DDRB
+#define PB7_PWM			NULL
+
+
+#undef PC0
+#define PC0_PIN			PINC0
+#define PC0_RPORT		PINC
+#define PC0_WPORT		PORTC
+#define PC0_DDR			DDRC
+#define PC0_PWM			NULL
+
+#undef PC1
+#define PC1_PIN			PINC1
+#define PC1_RPORT		PINC
+#define PC1_WPORT		PORTC
+#define PC1_DDR			DDRC
+#define PC1_PWM			NULL
+
+#undef PC2
+#define PC2_PIN			PINC2
+#define PC2_RPORT		PINC
+#define PC2_WPORT		PORTC
+#define PC2_DDR			DDRC
+#define PC2_PWM			NULL
+
+#undef PC3
+#define PC3_PIN			PINC3
+#define PC3_RPORT		PINC
+#define PC3_WPORT		PORTC
+#define PC3_DDR			DDRC
+#define PC3_PWM			NULL
+
+#undef PC4
+#define PC4_PIN			PINC4
+#define PC4_RPORT		PINC
+#define PC4_WPORT		PORTC
+#define PC4_DDR			DDRC
+#define PC4_PWM			NULL
+
+#undef PC5
+#define PC5_PIN			PINC5
+#define PC5_RPORT		PINC
+#define PC5_WPORT		PORTC
+#define PC5_DDR			DDRC
+#define PC5_PWM			NULL
+
+#undef PC6
+#define PC6_PIN			PINC6
+#define PC6_RPORT		PINC
+#define PC6_WPORT		PORTC
+#define PC6_DDR			DDRC
+#define PC6_PWM			NULL
+
+#undef PC7
+#define PC7_PIN			PINC7
+#define PC7_RPORT		PINC
+#define PC7_WPORT		PORTC
+#define PC7_DDR			DDRC
+#define PC7_PWM			NULL
+
+
+#undef PD0
+#define PD0_PIN			PIND0
+#define PD0_RPORT		PIND
+#define PD0_WPORT		PORTD
+#define PD0_DDR			DDRD
+#define PD0_PWM			NULL
+
+#undef PD1
+#define PD1_PIN			PIND1
+#define PD1_RPORT		PIND
+#define PD1_WPORT		PORTD
+#define PD1_DDR			DDRD
+#define PD1_PWM			NULL
+
+#undef PD2
+#define PD2_PIN			PIND2
+#define PD2_RPORT		PIND
+#define PD2_WPORT		PORTD
+#define PD2_DDR			DDRD
+#define PD2_PWM			NULL
+
+#undef PD3
+#define PD3_PIN			PIND3
+#define PD3_RPORT		PIND
+#define PD3_WPORT		PORTD
+#define PD3_DDR			DDRD
+#define PD3_PWM			NULL
+
+#undef PD4
+#define PD4_PIN			PIND4
+#define PD4_RPORT		PIND
+#define PD4_WPORT		PORTD
+#define PD4_DDR			DDRD
+#define PD4_PWM			NULL
+
+#undef PD5
+#define PD5_PIN			PIND5
+#define PD5_RPORT		PIND
+#define PD5_WPORT		PORTD
+#define PD5_DDR			DDRD
+#define PD5_PWM			NULL
+
+#undef PD6
+#define PD6_PIN			PIND6
+#define PD6_RPORT		PIND
+#define PD6_WPORT		PORTD
+#define PD6_DDR			DDRD
+#define PD6_PWM			&OCR2B
+
+#undef PD7
+#define PD7_PIN			PIND7
+#define PD7_RPORT		PIND
+#define PD7_WPORT		PORTD
+#define PD7_DDR			DDRD
+#define PD7_PWM			&OCR2A
+#endif	/*	_AVR_ATmega{644,644P,644PA}__ */
+
+#if defined (__AVR_ATmega1280__) || defined (__AVR_ATmega2560__)
+// UART
+#define	RXD					DIO0
+#define	TXD					DIO1
+
+// SPI
+#define	SCK					DIO52
+#define	MISO				DIO50
+#define	MOSI				DIO51
+#define	SS					DIO53
+
+// TWI (I2C)
+#define	SCL					DIO21
+#define	SDA					DIO20
+
+// timers and PWM
+#define	OC0A				DIO13
+#define	OC0B				DIO4
+#define	OC1A				DIO11
+#define	OC1B				DIO12
+#define	OC2A				DIO10
+#define	OC2B				DIO9
+#define	OC3A				DIO5
+#define	OC3B				DIO2
+#define	OC3C				DIO3
+#define	OC4A				DIO6
+#define	OC4B				DIO7
+#define	OC4C				DIO8
+#define	OC5A				DIO46
+#define	OC5B				DIO45
+#define	OC5C				DIO44
+
+// change for your board
+#define	DEBUG_LED		DIO21
+
+/*
+pins
+*/
+#define	DIO0_PIN		PINE0
+#define	DIO0_RPORT	PINE
+#define	DIO0_WPORT	PORTE
+#define	DIO0_DDR		DDRE
+#define DIO0_PWM		NULL
+
+#define	DIO1_PIN		PINE1
+#define	DIO1_RPORT	PINE
+#define	DIO1_WPORT	PORTE
+#define	DIO1_DDR		DDRE
+#define DIO1_PWM		NULL
+
+#define	DIO2_PIN		PINE4
+#define	DIO2_RPORT	PINE
+#define	DIO2_WPORT	PORTE
+#define	DIO2_DDR		DDRE
+#define DIO2_PWM		&OCR3BL
+
+#define	DIO3_PIN		PINE5
+#define	DIO3_RPORT	PINE
+#define	DIO3_WPORT	PORTE
+#define	DIO3_DDR		DDRE
+#define DIO3_PWM		&OCR3CL
+
+#define	DIO4_PIN		PING5
+#define	DIO4_RPORT	PING
+#define	DIO4_WPORT	PORTG
+#define	DIO4_DDR		DDRG
+#define DIO4_PWM		&OCR0B
+
+#define	DIO5_PIN		PINE3
+#define	DIO5_RPORT	PINE
+#define	DIO5_WPORT	PORTE
+#define	DIO5_DDR		DDRE
+#define DIO5_PWM		&OCR3AL
+
+#define	DIO6_PIN		PINH3
+#define	DIO6_RPORT	PINH
+#define	DIO6_WPORT	PORTH
+#define	DIO6_DDR		DDRH
+#define DIO6_PWM		&OCR4AL
+
+#define	DIO7_PIN		PINH4
+#define	DIO7_RPORT	PINH
+#define	DIO7_WPORT	PORTH
+#define	DIO7_DDR		DDRH
+#define DIO7_PWM		&OCR4BL
+
+#define	DIO8_PIN		PINH5
+#define	DIO8_RPORT	PINH
+#define	DIO8_WPORT	PORTH
+#define	DIO8_DDR		DDRH
+#define DIO8_PWM		&OCR4CL
+
+#define	DIO9_PIN		PINH6
+#define	DIO9_RPORT	PINH
+#define	DIO9_WPORT	PORTH
+#define	DIO9_DDR		DDRH
+#define DIO9_PWM		&OCR2B
+
+#define	DIO10_PIN		PINB4
+#define	DIO10_RPORT	PINB
+#define	DIO10_WPORT	PORTB
+#define	DIO10_DDR		DDRB
+#define DIO10_PWM		&OCR2A
+
+#define	DIO11_PIN		PINB5
+#define	DIO11_RPORT	PINB
+#define	DIO11_WPORT	PORTB
+#define	DIO11_DDR		DDRB
+#define DIO11_PWM		NULL
+
+#define	DIO12_PIN		PINB6
+#define	DIO12_RPORT	PINB
+#define	DIO12_WPORT	PORTB
+#define	DIO12_DDR		DDRB
+#define DIO12_PWM		NULL
+
+#define	DIO13_PIN		PINB7
+#define	DIO13_RPORT	PINB
+#define	DIO13_WPORT	PORTB
+#define	DIO13_DDR		DDRB
+#define DIO13_PWM		&OCR0A
+
+#define	DIO14_PIN		PINJ1
+#define	DIO14_RPORT	PINJ
+#define	DIO14_WPORT	PORTJ
+#define	DIO14_DDR		DDRJ
+#define DIO14_PWM		NULL
+
+#define	DIO15_PIN		PINJ0
+#define	DIO15_RPORT	PINJ
+#define	DIO15_WPORT	PORTJ
+#define	DIO15_DDR		DDRJ
+#define DIO15_PWM		NULL
+
+#define	DIO16_PIN		PINH1
+#define	DIO16_RPORT	PINH
+#define	DIO16_WPORT	PORTH
+#define	DIO16_DDR		DDRH
+#define DIO16_PWM		NULL
+
+#define	DIO17_PIN		PINH0
+#define	DIO17_RPORT	PINH
+#define	DIO17_WPORT	PORTH
+#define	DIO17_DDR		DDRH
+#define DIO17_PWM		NULL
+
+#define	DIO18_PIN		PIND3
+#define	DIO18_RPORT	PIND
+#define	DIO18_WPORT	PORTD
+#define	DIO18_DDR		DDRD
+#define DIO18_PWM		NULL
+
+#define	DIO19_PIN		PIND2
+#define	DIO19_RPORT	PIND
+#define	DIO19_WPORT	PORTD
+#define	DIO19_DDR		DDRD
+#define DIO19_PWM		NULL
+
+#define	DIO20_PIN		PIND1
+#define	DIO20_RPORT	PIND
+#define	DIO20_WPORT	PORTD
+#define	DIO20_DDR		DDRD
+#define DIO20_PWM		NULL
+
+#define	DIO21_PIN		PIND0
+#define	DIO21_RPORT	PIND
+#define	DIO21_WPORT	PORTD
+#define	DIO21_DDR		DDRD
+#define DIO21_PWM		NULL
+
+#define	DIO22_PIN		PINA0
+#define	DIO22_RPORT	PINA
+#define	DIO22_WPORT	PORTA
+#define	DIO22_DDR		DDRA
+#define DIO22_PWM		NULL
+
+#define	DIO23_PIN		PINA1
+#define	DIO23_RPORT	PINA
+#define	DIO23_WPORT	PORTA
+#define	DIO23_DDR		DDRA
+#define DIO23_PWM		NULL
+
+#define	DIO24_PIN		PINA2
+#define	DIO24_RPORT	PINA
+#define	DIO24_WPORT	PORTA
+#define	DIO24_DDR		DDRA
+#define DIO24_PWM		NULL
+
+#define	DIO25_PIN		PINA3
+#define	DIO25_RPORT	PINA
+#define	DIO25_WPORT	PORTA
+#define	DIO25_DDR		DDRA
+#define DIO25_PWM		NULL
+
+#define	DIO26_PIN		PINA4
+#define	DIO26_RPORT	PINA
+#define	DIO26_WPORT	PORTA
+#define	DIO26_DDR		DDRA
+#define DIO26_PWM		NULL
+
+#define	DIO27_PIN		PINA5
+#define	DIO27_RPORT	PINA
+#define	DIO27_WPORT	PORTA
+#define	DIO27_DDR		DDRA
+#define DIO27_PWM		NULL
+
+#define	DIO28_PIN		PINA6
+#define	DIO28_RPORT	PINA
+#define	DIO28_WPORT	PORTA
+#define	DIO28_DDR		DDRA
+#define DIO28_PWM		NULL
+
+#define	DIO29_PIN		PINA7
+#define	DIO29_RPORT	PINA
+#define	DIO29_WPORT	PORTA
+#define	DIO29_DDR		DDRA
+#define DIO29_PWM		NULL
+
+#define	DIO30_PIN		PINC7
+#define	DIO30_RPORT	PINC
+#define	DIO30_WPORT	PORTC
+#define	DIO30_DDR		DDRC
+#define DIO30_PWM		NULL
+
+#define	DIO31_PIN		PINC6
+#define	DIO31_RPORT	PINC
+#define	DIO31_WPORT	PORTC
+#define	DIO31_DDR		DDRC
+#define DIO31_PWM		NULL
+
+#define	DIO32_PIN		PINC5
+#define	DIO32_RPORT	PINC
+#define	DIO32_WPORT	PORTC
+#define	DIO32_DDR		DDRC
+#define DIO32_PWM		NULL
+
+#define	DIO33_PIN		PINC4
+#define	DIO33_RPORT	PINC
+#define	DIO33_WPORT	PORTC
+#define	DIO33_DDR		DDRC
+#define DIO33_PWM		NULL
+
+#define	DIO34_PIN		PINC3
+#define	DIO34_RPORT	PINC
+#define	DIO34_WPORT	PORTC
+#define	DIO34_DDR		DDRC
+#define DIO34_PWM		NULL
+
+#define	DIO35_PIN		PINC2
+#define	DIO35_RPORT	PINC
+#define	DIO35_WPORT	PORTC
+#define	DIO35_DDR		DDRC
+#define DIO35_PWM		NULL
+
+#define	DIO36_PIN		PINC1
+#define	DIO36_RPORT	PINC
+#define	DIO36_WPORT	PORTC
+#define	DIO36_DDR		DDRC
+#define DIO36_PWM		NULL
+
+#define	DIO37_PIN		PINC0
+#define	DIO37_RPORT	PINC
+#define	DIO37_WPORT	PORTC
+#define	DIO37_DDR		DDRC
+#define DIO37_PWM		NULL
+
+#define	DIO38_PIN		PIND7
+#define	DIO38_RPORT	PIND
+#define	DIO38_WPORT	PORTD
+#define	DIO38_DDR		DDRD
+#define DIO38_PWM		NULL
+
+#define	DIO39_PIN		PING2
+#define	DIO39_RPORT	PING
+#define	DIO39_WPORT	PORTG
+#define	DIO39_DDR		DDRG
+#define DIO39_PWM		NULL
+
+#define	DIO40_PIN		PING1
+#define	DIO40_RPORT	PING
+#define	DIO40_WPORT	PORTG
+#define	DIO40_DDR		DDRG
+#define DIO40_PWM		NULL
+
+#define	DIO41_PIN		PING0
+#define	DIO41_RPORT	PING
+#define	DIO41_WPORT	PORTG
+#define	DIO41_DDR		DDRG
+#define DIO41_PWM		NULL
+
+#define	DIO42_PIN		PINL7
+#define	DIO42_RPORT	PINL
+#define	DIO42_WPORT	PORTL
+#define	DIO42_DDR		DDRL
+#define DIO42_PWM		NULL
+
+#define	DIO43_PIN		PINL6
+#define	DIO43_RPORT	PINL
+#define	DIO43_WPORT	PORTL
+#define	DIO43_DDR		DDRL
+#define DIO43_PWM		NULL
+
+#define	DIO44_PIN		PINL5
+#define	DIO44_RPORT	PINL
+#define	DIO44_WPORT	PORTL
+#define	DIO44_DDR		DDRL
+#define DIO44_PWM		&OCR5CL
+
+#define	DIO45_PIN		PINL4
+#define	DIO45_RPORT	PINL
+#define	DIO45_WPORT	PORTL
+#define	DIO45_DDR		DDRL
+#define DIO45_PWM		&OCR5BL
+
+#define	DIO46_PIN		PINL3
+#define	DIO46_RPORT	PINL
+#define	DIO46_WPORT	PORTL
+#define	DIO46_DDR		DDRL
+#define DIO46_PWM		&OCR5AL
+
+#define	DIO47_PIN		PINL2
+#define	DIO47_RPORT	PINL
+#define	DIO47_WPORT	PORTL
+#define	DIO47_DDR		DDRL
+#define DIO47_PWM		NULL
+
+#define	DIO48_PIN		PINL1
+#define	DIO48_RPORT	PINL
+#define	DIO48_WPORT	PORTL
+#define	DIO48_DDR		DDRL
+#define DIO48_PWM		NULL
+
+#define	DIO49_PIN		PINL0
+#define	DIO49_RPORT	PINL
+#define	DIO49_WPORT	PORTL
+#define	DIO49_DDR		DDRL
+#define DIO49_PWM		NULL
+
+#define	DIO50_PIN		PINB3
+#define	DIO50_RPORT	PINB
+#define	DIO50_WPORT	PORTB
+#define	DIO50_DDR		DDRB
+#define DIO50_PWM		NULL
+
+#define	DIO51_PIN		PINB2
+#define	DIO51_RPORT	PINB
+#define	DIO51_WPORT	PORTB
+#define	DIO51_DDR		DDRB
+#define DIO51_PWM		NULL
+
+#define	DIO52_PIN		PINB1
+#define	DIO52_RPORT	PINB
+#define	DIO52_WPORT	PORTB
+#define	DIO52_DDR		DDRB
+#define DIO52_PWM		NULL
+
+#define	DIO53_PIN		PINB0
+#define	DIO53_RPORT	PINB
+#define	DIO53_WPORT	PORTB
+#define	DIO53_DDR		DDRB
+#define DIO53_PWM		NULL
+
+#define DIO54_PIN		PINF0
+#define DIO54_RPORT	PINF
+#define DIO54_WPORT	PORTF
+#define DIO54_DDR		DDRF
+#define DIO54_PWM		NULL
+
+#define DIO55_PIN		PINF1
+#define DIO55_RPORT	PINF
+#define DIO55_WPORT	PORTF
+#define DIO55_DDR		DDRF
+#define DIO55_PWM		NULL
+
+#define DIO56_PIN		PINF2
+#define DIO56_RPORT	PINF
+#define DIO56_WPORT	PORTF
+#define DIO56_DDR		DDRF
+#define DIO56_PWM		NULL
+
+#define DIO57_PIN		PINF3
+#define DIO57_RPORT	PINF
+#define DIO57_WPORT	PORTF
+#define DIO57_DDR		DDRF
+#define DIO57_PWM		NULL
+
+#define DIO58_PIN		PINF4
+#define DIO58_RPORT	PINF
+#define DIO58_WPORT	PORTF
+#define DIO58_DDR		DDRF
+#define DIO58_PWM		NULL
+
+#define DIO59_PIN		PINF5
+#define DIO59_RPORT	PINF
+#define DIO59_WPORT	PORTF
+#define DIO59_DDR		DDRF
+#define DIO59_PWM		NULL
+
+#define DIO60_PIN		PINF6
+#define DIO60_RPORT	PINF
+#define DIO60_WPORT	PORTF
+#define DIO60_DDR		DDRF
+#define DIO60_PWM		NULL
+
+#define DIO61_PIN		PINF7
+#define DIO61_RPORT	PINF
+#define DIO61_WPORT	PORTF
+#define DIO61_DDR		DDRF
+#define DIO61_PWM		NULL
+
+#define DIO62_PIN		PINK0
+#define DIO62_RPORT	PINK
+#define DIO62_WPORT	PORTK
+#define DIO62_DDR		DDRK
+#define DIO62_PWM		NULL
+
+#define DIO63_PIN		PINK1
+#define DIO63_RPORT	PINK
+#define DIO63_WPORT	PORTK
+#define DIO63_DDR		DDRK
+#define DIO63_PWM		NULL
+
+#define DIO64_PIN		PINK2
+#define DIO64_RPORT	PINK
+#define DIO64_WPORT	PORTK
+#define DIO64_DDR		DDRK
+#define DIO64_PWM		NULL
+
+#define DIO65_PIN		PINK3
+#define DIO65_RPORT	PINK
+#define DIO65_WPORT	PORTK
+#define DIO65_DDR		DDRK
+#define DIO65_PWM		NULL
+
+#define DIO66_PIN		PINK4
+#define DIO66_RPORT	PINK
+#define DIO66_WPORT	PORTK
+#define DIO66_DDR		DDRK
+#define DIO66_PWM		NULL
+
+#define DIO67_PIN		PINK5
+#define DIO67_RPORT	PINK
+#define DIO67_WPORT	PORTK
+#define DIO67_DDR		DDRK
+#define DIO67_PWM		NULL
+
+#define DIO68_PIN		PINK6
+#define DIO68_RPORT	PINK
+#define DIO68_WPORT	PORTK
+#define DIO68_DDR		DDRK
+#define DIO68_PWM		NULL
+
+#define DIO69_PIN		PINK7
+#define DIO69_RPORT	PINK
+#define DIO69_WPORT	PORTK
+#define DIO69_DDR		DDRK
+#define DIO69_PWM		NULL
+
+
+
+#undef PA0
+#define PA0_PIN			PINA0
+#define PA0_RPORT		PINA
+#define PA0_WPORT		PORTA
+#define PA0_DDR			DDRA
+#define PA0_PWM			NULL
+#undef PA1
+#define PA1_PIN			PINA1
+#define PA1_RPORT		PINA
+#define PA1_WPORT		PORTA
+#define PA1_DDR			DDRA
+#define PA1_PWM			NULL
+#undef PA2
+#define PA2_PIN			PINA2
+#define PA2_RPORT		PINA
+#define PA2_WPORT		PORTA
+#define PA2_DDR			DDRA
+#define PA2_PWM			NULL
+#undef PA3
+#define PA3_PIN			PINA3
+#define PA3_RPORT		PINA
+#define PA3_WPORT		PORTA
+#define PA3_DDR			DDRA
+#define PA3_PWM			NULL
+#undef PA4
+#define PA4_PIN			PINA4
+#define PA4_RPORT		PINA
+#define PA4_WPORT		PORTA
+#define PA4_DDR			DDRA
+#define PA4_PWM			NULL
+#undef PA5
+#define PA5_PIN			PINA5
+#define PA5_RPORT		PINA
+#define PA5_WPORT		PORTA
+#define PA5_DDR			DDRA
+#define PA5_PWM			NULL
+#undef PA6
+#define PA6_PIN			PINA6
+#define PA6_RPORT		PINA
+#define PA6_WPORT		PORTA
+#define PA6_DDR			DDRA
+#define PA6_PWM			NULL
+#undef PA7
+#define PA7_PIN			PINA7
+#define PA7_RPORT		PINA
+#define PA7_WPORT		PORTA
+#define PA7_DDR			DDRA
+#define PA7_PWM			NULL
+
+#undef PB0
+#define PB0_PIN			PINB0
+#define PB0_RPORT		PINB
+#define PB0_WPORT		PORTB
+#define PB0_DDR			DDRB
+#define PB0_PWM			NULL
+#undef PB1
+#define PB1_PIN			PINB1
+#define PB1_RPORT		PINB
+#define PB1_WPORT		PORTB
+#define PB1_DDR			DDRB
+#define PB1_PWM			NULL
+#undef PB2
+#define PB2_PIN			PINB2
+#define PB2_RPORT		PINB
+#define PB2_WPORT		PORTB
+#define PB2_DDR			DDRB
+#define PB2_PWM			NULL
+#undef PB3
+#define PB3_PIN			PINB3
+#define PB3_RPORT		PINB
+#define PB3_WPORT		PORTB
+#define PB3_DDR			DDRB
+#define PB3_PWM			NULL
+#undef PB4
+#define PB4_PIN			PINB4
+#define PB4_RPORT		PINB
+#define PB4_WPORT		PORTB
+#define PB4_DDR			DDRB
+#define PB4_PWM			&OCR2A
+#undef PB5
+#define PB5_PIN			PINB5
+#define PB5_RPORT		PINB
+#define PB5_WPORT		PORTB
+#define PB5_DDR			DDRB
+#define PB5_PWM			NULL
+#undef PB6
+#define PB6_PIN			PINB6
+#define PB6_RPORT		PINB
+#define PB6_WPORT		PORTB
+#define PB6_DDR			DDRB
+#define PB6_PWM			NULL
+#undef PB7
+#define PB7_PIN			PINB7
+#define PB7_RPORT		PINB
+#define PB7_WPORT		PORTB
+#define PB7_DDR			DDRB
+#define PB7_PWM			&OCR0A
+
+#undef PC0
+#define PC0_PIN			PINC0
+#define PC0_RPORT		PINC
+#define PC0_WPORT		PORTC
+#define PC0_DDR			DDRC
+#define PC0_PWM			NULL
+#undef PC1
+#define PC1_PIN			PINC1
+#define PC1_RPORT		PINC
+#define PC1_WPORT		PORTC
+#define PC1_DDR			DDRC
+#define PC1_PWM			NULL
+#undef PC2
+#define PC2_PIN			PINC2
+#define PC2_RPORT		PINC
+#define PC2_WPORT		PORTC
+#define PC2_DDR			DDRC
+#define PC2_PWM			NULL
+#undef PC3
+#define PC3_PIN			PINC3
+#define PC3_RPORT		PINC
+#define PC3_WPORT		PORTC
+#define PC3_DDR			DDRC
+#define PC3_PWM			NULL
+#undef PC4
+#define PC4_PIN			PINC4
+#define PC4_RPORT		PINC
+#define PC4_WPORT		PORTC
+#define PC4_DDR			DDRC
+#define PC4_PWM			NULL
+#undef PC5
+#define PC5_PIN			PINC5
+#define PC5_RPORT		PINC
+#define PC5_WPORT		PORTC
+#define PC5_DDR			DDRC
+#define PC5_PWM			NULL
+#undef PC6
+#define PC6_PIN			PINC6
+#define PC6_RPORT		PINC
+#define PC6_WPORT		PORTC
+#define PC6_DDR			DDRC
+#define PC6_PWM			NULL
+#undef PC7
+#define PC7_PIN			PINC7
+#define PC7_RPORT		PINC
+#define PC7_WPORT		PORTC
+#define PC7_DDR			DDRC
+#define PC7_PWM			NULL
+
+#undef PD0
+#define PD0_PIN			PIND0
+#define PD0_RPORT		PIND
+#define PD0_WPORT		PORTD
+#define PD0_DDR			DDRD
+#define PD0_PWM			NULL
+#undef PD1
+#define PD1_PIN			PIND1
+#define PD1_RPORT		PIND
+#define PD1_WPORT		PORTD
+#define PD1_DDR			DDRD
+#define PD1_PWM			NULL
+#undef PD2
+#define PD2_PIN			PIND2
+#define PD2_RPORT		PIND
+#define PD2_WPORT		PORTD
+#define PD2_DDR			DDRD
+#define PD2_PWM			NULL
+#undef PD3
+#define PD3_PIN			PIND3
+#define PD3_RPORT		PIND
+#define PD3_WPORT		PORTD
+#define PD3_DDR			DDRD
+#define PD3_PWM			NULL
+#undef PD4
+#define PD4_PIN			PIND4
+#define PD4_RPORT		PIND
+#define PD4_WPORT		PORTD
+#define PD4_DDR			DDRD
+#define PD4_PWM			NULL
+#undef PD5
+#define PD5_PIN			PIND5
+#define PD5_RPORT		PIND
+#define PD5_WPORT		PORTD
+#define PD5_DDR			DDRD
+#define PD5_PWM			NULL
+#undef PD6
+#define PD6_PIN			PIND6
+#define PD6_RPORT		PIND
+#define PD6_WPORT		PORTD
+#define PD6_DDR			DDRD
+#define PD6_PWM			NULL
+#undef PD7
+#define PD7_PIN			PIND7
+#define PD7_RPORT		PIND
+#define PD7_WPORT		PORTD
+#define PD7_DDR			DDRD
+#define PD7_PWM			NULL
+
+#undef PE0
+#define PE0_PIN			PINE0
+#define PE0_RPORT		PINE
+#define PE0_WPORT		PORTE
+#define PE0_DDR			DDRE
+#define PE0_PWM			NULL
+#undef PE1
+#define PE1_PIN			PINE1
+#define PE1_RPORT		PINE
+#define PE1_WPORT		PORTE
+#define PE1_DDR			DDRE
+#define PE1_PWM			NULL
+#undef PE2
+#define PE2_PIN			PINE2
+#define PE2_RPORT		PINE
+#define PE2_WPORT		PORTE
+#define PE2_DDR			DDRE
+#define PE2_PWM			NULL
+#undef PE3
+#define PE3_PIN			PINE3
+#define PE3_RPORT		PINE
+#define PE3_WPORT		PORTE
+#define PE3_DDR			DDRE
+#define PE3_PWM			&OCR3AL
+#undef PE4
+#define PE4_PIN			PINE4
+#define PE4_RPORT		PINE
+#define PE4_WPORT		PORTE
+#define PE4_DDR			DDRE
+#define PE4_PWM			&OCR3BL
+#undef PE5
+#define PE5_PIN			PINE5
+#define PE5_RPORT		PINE
+#define PE5_WPORT		PORTE
+#define PE5_DDR			DDRE
+#define PE5_PWM			&OCR3CL
+#undef PE6
+#define PE6_PIN			PINE6
+#define PE6_RPORT		PINE
+#define PE6_WPORT		PORTE
+#define PE6_DDR			DDRE
+#define PE6_PWM			NULL
+#undef PE7
+#define PE7_PIN			PINE7
+#define PE7_RPORT		PINE
+#define PE7_WPORT		PORTE
+#define PE7_DDR			DDRE
+#define PE7_PWM			NULL
+
+#undef PF0
+#define PF0_PIN			PINF0
+#define PF0_RPORT		PINF
+#define PF0_WPORT		PORTF
+#define PF0_DDR			DDRF
+#define PF0_PWM			NULL
+#undef PF1
+#define PF1_PIN			PINF1
+#define PF1_RPORT		PINF
+#define PF1_WPORT		PORTF
+#define PF1_DDR			DDRF
+#define PF1_PWM			NULL
+#undef PF2
+#define PF2_PIN			PINF2
+#define PF2_RPORT		PINF
+#define PF2_WPORT		PORTF
+#define PF2_DDR			DDRF
+#define PF2_PWM			NULL
+#undef PF3
+#define PF3_PIN			PINF3
+#define PF3_RPORT		PINF
+#define PF3_WPORT		PORTF
+#define PF3_DDR			DDRF
+#define PF3_PWM			NULL
+#undef PF4
+#define PF4_PIN			PINF4
+#define PF4_RPORT		PINF
+#define PF4_WPORT		PORTF
+#define PF4_DDR			DDRF
+#define PF4_PWM			NULL
+#undef PF5
+#define PF5_PIN			PINF5
+#define PF5_RPORT		PINF
+#define PF5_WPORT		PORTF
+#define PF5_DDR			DDRF
+#define PF5_PWM			NULL
+#undef PF6
+#define PF6_PIN			PINF6
+#define PF6_RPORT		PINF
+#define PF6_WPORT		PORTF
+#define PF6_DDR			DDRF
+#define PF6_PWM			NULL
+#undef PF7
+#define PF7_PIN			PINF7
+#define PF7_RPORT		PINF
+#define PF7_WPORT		PORTF
+#define PF7_DDR			DDRF
+#define PF7_PWM			NULL
+
+#undef PG0
+#define PG0_PIN			PING0
+#define PG0_RPORT		PING
+#define PG0_WPORT		PORTG
+#define PG0_DDR			DDRG
+#define PG0_PWM			NULL
+#undef PG1
+#define PG1_PIN			PING1
+#define PG1_RPORT		PING
+#define PG1_WPORT		PORTG
+#define PG1_DDR			DDRG
+#define PG1_PWM			NULL
+#undef PG2
+#define PG2_PIN			PING2
+#define PG2_RPORT		PING
+#define PG2_WPORT		PORTG
+#define PG2_DDR			DDRG
+#define PG2_PWM			NULL
+#undef PG3
+#define PG3_PIN			PING3
+#define PG3_RPORT		PING
+#define PG3_WPORT		PORTG
+#define PG3_DDR			DDRG
+#define PG3_PWM			NULL
+#undef PG4
+#define PG4_PIN			PING4
+#define PG4_RPORT		PING
+#define PG4_WPORT		PORTG
+#define PG4_DDR			DDRG
+#define PG4_PWM			NULL
+#undef PG5
+#define PG5_PIN			PING5
+#define PG5_RPORT		PING
+#define PG5_WPORT		PORTG
+#define PG5_DDR			DDRG
+#define PG5_PWM			&OCR0B
+#undef PG6
+#define PG6_PIN			PING6
+#define PG6_RPORT		PING
+#define PG6_WPORT		PORTG
+#define PG6_DDR			DDRG
+#define PG6_PWM			NULL
+#undef PG7
+#define PG7_PIN			PING7
+#define PG7_RPORT		PING
+#define PG7_WPORT		PORTG
+#define PG7_DDR			DDRG
+#define PG7_PWM			NULL
+
+#undef PH0
+#define PH0_PIN			PINH0
+#define PH0_RPORT		PINH
+#define PH0_WPORT		PORTH
+#define PH0_DDR			DDRH
+#define PH0_PWM			NULL
+#undef PH1
+#define PH1_PIN			PINH1
+#define PH1_RPORT		PINH
+#define PH1_WPORT		PORTH
+#define PH1_DDR			DDRH
+#define PH1_PWM			NULL
+#undef PH2
+#define PH2_PIN			PINH2
+#define PH2_RPORT		PINH
+#define PH2_WPORT		PORTH
+#define PH2_DDR			DDRH
+#define PH2_PWM			NULL
+#undef PH3
+#define PH3_PIN			PINH3
+#define PH3_RPORT		PINH
+#define PH3_WPORT		PORTH
+#define PH3_DDR			DDRH
+#define PH3_PWM			&OCR4AL
+#undef PH4
+#define PH4_PIN			PINH4
+#define PH4_RPORT		PINH
+#define PH4_WPORT		PORTH
+#define PH4_DDR			DDRH
+#define PH4_PWM			&OCR4BL
+#undef PH5
+#define PH5_PIN			PINH5
+#define PH5_RPORT		PINH
+#define PH5_WPORT		PORTH
+#define PH5_DDR			DDRH
+#define PH5_PWM			&OCR4CL
+#undef PH6
+#define PH6_PIN			PINH6
+#define PH6_RPORT		PINH
+#define PH6_WPORT		PORTH
+#define PH6_DDR			DDRH
+#define PH6_PWM			&OCR2B
+#undef PH7
+#define PH7_PIN			PINH7
+#define PH7_RPORT		PINH
+#define PH7_WPORT		PORTH
+#define PH7_DDR			DDRH
+#define PH7_PWM			NULL
+
+#undef PJ0
+#define PJ0_PIN			PINJ0
+#define PJ0_RPORT		PINJ
+#define PJ0_WPORT		PORTJ
+#define PJ0_DDR			DDRJ
+#define PJ0_PWM			NULL
+#undef PJ1
+#define PJ1_PIN			PINJ1
+#define PJ1_RPORT		PINJ
+#define PJ1_WPORT		PORTJ
+#define PJ1_DDR			DDRJ
+#define PJ1_PWM			NULL
+#undef PJ2
+#define PJ2_PIN			PINJ2
+#define PJ2_RPORT		PINJ
+#define PJ2_WPORT		PORTJ
+#define PJ2_DDR			DDRJ
+#define PJ2_PWM			NULL
+#undef PJ3
+#define PJ3_PIN			PINJ3
+#define PJ3_RPORT		PINJ
+#define PJ3_WPORT		PORTJ
+#define PJ3_DDR			DDRJ
+#define PJ3_PWM			NULL
+#undef PJ4
+#define PJ4_PIN			PINJ4
+#define PJ4_RPORT		PINJ
+#define PJ4_WPORT		PORTJ
+#define PJ4_DDR			DDRJ
+#define PJ4_PWM			NULL
+#undef PJ5
+#define PJ5_PIN			PINJ5
+#define PJ5_RPORT		PINJ
+#define PJ5_WPORT		PORTJ
+#define PJ5_DDR			DDRJ
+#define PJ5_PWM			NULL
+#undef PJ6
+#define PJ6_PIN			PINJ6
+#define PJ6_RPORT		PINJ
+#define PJ6_WPORT		PORTJ
+#define PJ6_DDR			DDRJ
+#define PJ6_PWM			NULL
+#undef PJ7
+#define PJ7_PIN			PINJ7
+#define PJ7_RPORT		PINJ
+#define PJ7_WPORT		PORTJ
+#define PJ7_DDR			DDRJ
+#define PJ7_PWM			NULL
+
+#undef PK0
+#define PK0_PIN			PINK0
+#define PK0_RPORT		PINK
+#define PK0_WPORT		PORTK
+#define PK0_DDR			DDRK
+#define PK0_PWM			NULL
+#undef PK1
+#define PK1_PIN			PINK1
+#define PK1_RPORT		PINK
+#define PK1_WPORT		PORTK
+#define PK1_DDR			DDRK
+#define PK1_PWM			NULL
+#undef PK2
+#define PK2_PIN			PINK2
+#define PK2_RPORT		PINK
+#define PK2_WPORT		PORTK
+#define PK2_DDR			DDRK
+#define PK2_PWM			NULL
+#undef PK3
+#define PK3_PIN			PINK3
+#define PK3_RPORT		PINK
+#define PK3_WPORT		PORTK
+#define PK3_DDR			DDRK
+#define PK3_PWM			NULL
+#undef PK4
+#define PK4_PIN			PINK4
+#define PK4_RPORT		PINK
+#define PK4_WPORT		PORTK
+#define PK4_DDR			DDRK
+#define PK4_PWM			NULL
+#undef PK5
+#define PK5_PIN			PINK5
+#define PK5_RPORT		PINK
+#define PK5_WPORT		PORTK
+#define PK5_DDR			DDRK
+#define PK5_PWM			NULL
+#undef PK6
+#define PK6_PIN			PINK6
+#define PK6_RPORT		PINK
+#define PK6_WPORT		PORTK
+#define PK6_DDR			DDRK
+#define PK6_PWM			NULL
+#undef PK7
+#define PK7_PIN			PINK7
+#define PK7_RPORT		PINK
+#define PK7_WPORT		PORTK
+#define PK7_DDR			DDRK
+#define PK7_PWM			NULL
+
+#undef PL0
+#define PL0_PIN			PINL0
+#define PL0_RPORT		PINL
+#define PL0_WPORT		PORTL
+#define PL0_DDR			DDRL
+#define PL0_PWM			NULL
+#undef PL1
+#define PL1_PIN			PINL1
+#define PL1_RPORT		PINL
+#define PL1_WPORT		PORTL
+#define PL1_DDR			DDRL
+#define PL1_PWM			NULL
+#undef PL2
+#define PL2_PIN			PINL2
+#define PL2_RPORT		PINL
+#define PL2_WPORT		PORTL
+#define PL2_DDR			DDRL
+#define PL2_PWM			NULL
+#undef PL3
+#define PL3_PIN			PINL3
+#define PL3_RPORT		PINL
+#define PL3_WPORT		PORTL
+#define PL3_DDR			DDRL
+#define PL3_PWM			&OCR5AL
+#undef PL4
+#define PL4_PIN			PINL4
+#define PL4_RPORT		PINL
+#define PL4_WPORT		PORTL
+#define PL4_DDR			DDRL
+#define PL4_PWM			&OCR5BL
+#undef PL5
+#define PL5_PIN			PINL5
+#define PL5_RPORT		PINL
+#define PL5_WPORT		PORTL
+#define PL5_DDR			DDRL
+#define PL5_PWM			&OCR5CL
+#undef PL6
+#define PL6_PIN			PINL6
+#define PL6_RPORT		PINL
+#define PL6_WPORT		PORTL
+#define PL6_DDR			DDRL
+#define PL6_PWM			NULL
+#undef PL7
+#define PL7_PIN			PINL7
+#define PL7_RPORT		PINL
+#define PL7_WPORT		PORTL
+#define PL7_DDR			DDRL
+#define PL7_PWM			NULL
+
+#endif
+
+#if defined (__AVR_AT90USB1287__)
+// SPI
+#define	SCK					DIO9
+#define	MISO				DIO11
+#define	MOSI				DIO10
+#define	SS					DIO8
+
+// change for your board
+#define	DEBUG_LED		DIO31 /* led D5 red */
+
+/*
+pins
+*/
+#define DIO0_PIN        PINA0
+#define DIO0_RPORT      PINA
+#define DIO0_WPORT      PORTA
+#define DIO0_PWM			NULL
+#define DIO0_DDR        DDRA
+
+#define DIO1_PIN        PINA1
+#define DIO1_RPORT      PINA
+#define DIO1_WPORT      PORTA
+#define DIO1_PWM			NULL
+#define DIO1_DDR        DDRA
+
+#define DIO2_PIN        PINA2
+#define DIO2_RPORT      PINA
+#define DIO2_WPORT      PORTA
+#define DIO2_PWM			NULL
+#define DIO2_DDR        DDRA
+
+#define DIO3_PIN        PINA3
+#define DIO3_RPORT      PINA
+#define DIO3_WPORT      PORTA
+#define DIO3_PWM			NULL
+#define DIO3_DDR        DDRA
+
+#define DIO4_PIN        PINA4
+#define DIO4_RPORT      PINA
+#define DIO4_WPORT      PORTA
+#define DIO4_PWM			NULL
+#define DIO4_DDR        DDRA
+
+#define DIO5_PIN        PINA5
+#define DIO5_RPORT      PINA
+#define DIO5_WPORT      PORTA
+#define DIO5_PWM			NULL
+#define DIO5_DDR        DDRA
+
+#define DIO6_PIN        PINA6
+#define DIO6_RPORT      PINA
+#define DIO6_WPORT      PORTA
+#define DIO6_PWM			NULL
+#define DIO6_DDR        DDRA
+
+#define DIO7_PIN        PINA7
+#define DIO7_RPORT      PINA
+#define DIO7_WPORT      PORTA
+#define DIO7_PWM			NULL
+#define DIO7_DDR        DDRA
+
+#define DIO8_PIN        PINB0
+#define DIO8_RPORT      PINB
+#define DIO8_WPORT      PORTB
+#define DIO8_PWM			NULL
+#define DIO8_DDR        DDRB
+
+#define DIO9_PIN        PINB1
+#define DIO9_RPORT      PINB
+#define DIO9_WPORT      PORTB
+#define DIO9_PWM			NULL
+#define DIO9_DDR        DDRB
+
+#define DIO10_PIN       PINB2
+#define DIO10_RPORT     PINB
+#define DIO10_WPORT     PORTB
+#define DIO10_PWM			NULL
+#define DIO10_DDR       DDRB
+
+#define DIO11_PIN       PINB3
+#define DIO11_RPORT     PINB
+#define DIO11_WPORT     PORTB
+#define DIO11_PWM			NULL
+#define DIO11_DDR       DDRB
+
+#define DIO12_PIN       PINB4
+#define DIO12_RPORT     PINB
+#define DIO12_WPORT     PORTB
+#define DIO12_PWM			NULL
+#define DIO12_DDR       DDRB
+
+#define DIO13_PIN       PINB5
+#define DIO13_RPORT     PINB
+#define DIO13_WPORT     PORTB
+#define DIO13_PWM			NULL
+#define DIO13_DDR       DDRB
+
+#define DIO14_PIN       PINB6
+#define DIO14_RPORT     PINB
+#define DIO14_WPORT     PORTB
+#define DIO14_PWM			NULL
+#define DIO14_DDR       DDRB
+
+#define DIO15_PIN       PINB7
+#define DIO15_RPORT     PINB
+#define DIO15_WPORT     PORTB
+#define DIO15_PWM			NULL
+#define DIO15_DDR       DDRB
+
+#define DIO16_PIN       PINC0
+#define DIO16_RPORT     PINC
+#define DIO16_WPORT     PORTC
+#define DIO16_PWM			NULL
+#define DIO16_DDR       DDRC
+
+#define DIO17_PIN       PINC1
+#define DIO17_RPORT     PINC
+#define DIO17_WPORT     PORTC
+#define DIO17_PWM			NULL
+#define DIO17_DDR       DDRC
+
+#define DIO18_PIN       PINC2
+#define DIO18_RPORT     PINC
+#define DIO18_WPORT     PORTC
+#define DIO18_PWM			NULL
+#define DIO18_DDR       DDRC
+
+#define DIO19_PIN       PINC3
+#define DIO19_RPORT     PINC
+#define DIO19_WPORT     PORTC
+#define DIO19_PWM			NULL
+#define DIO19_DDR       DDRC
+
+#define DIO20_PIN       PINC4
+#define DIO20_RPORT     PINC
+#define DIO20_WPORT     PORTC
+#define DIO20_PWM			NULL
+#define DIO20_DDR       DDRC
+
+#define DIO21_PIN       PINC5
+#define DIO21_RPORT     PINC
+#define DIO21_WPORT     PORTC
+#define DIO21_PWM			NULL
+#define DIO21_DDR       DDRC
+
+#define DIO22_PIN       PINC6
+#define DIO22_RPORT     PINC
+#define DIO22_WPORT     PORTC
+#define DIO22_PWM			NULL
+#define DIO22_DDR       DDRC
+
+#define DIO23_PIN       PINC7
+#define DIO23_RPORT     PINC
+#define DIO23_WPORT     PORTC
+#define DIO23_PWM			NULL
+#define DIO23_DDR       DDRC
+
+#define DIO24_PIN       PIND0
+#define DIO24_RPORT     PIND
+#define DIO24_WPORT     PORTD
+#define DIO24_PWM			NULL
+#define DIO24_DDR       DDRD
+
+#define DIO25_PIN       PIND1
+#define DIO25_RPORT     PIND
+#define DIO25_WPORT     PORTD
+#define DIO25_PWM			NULL
+#define DIO25_DDR       DDRD
+
+#define DIO26_PIN       PIND2
+#define DIO26_RPORT     PIND
+#define DIO26_WPORT     PORTD
+#define DIO26_PWM			NULL
+#define DIO26_DDR       DDRD
+
+#define DIO27_PIN       PIND3
+#define DIO27_RPORT     PIND
+#define DIO27_WPORT     PORTD
+#define DIO27_PWM			NULL
+#define DIO27_DDR       DDRD
+
+#define DIO28_PIN       PIND4
+#define DIO28_RPORT     PIND
+#define DIO28_WPORT     PORTD
+#define DIO28_PWM			NULL
+#define DIO28_DDR       DDRD
+
+#define DIO29_PIN       PIND5
+#define DIO29_RPORT     PIND
+#define DIO29_WPORT     PORTD
+#define DIO29_PWM			NULL
+#define DIO29_DDR       DDRD
+
+#define DIO30_PIN       PIND6
+#define DIO30_RPORT     PIND
+#define DIO30_WPORT     PORTD
+#define DIO30_PWM			NULL
+#define DIO30_DDR       DDRD
+
+#define DIO31_PIN       PIND7
+#define DIO31_RPORT     PIND
+#define DIO31_WPORT     PORTD
+#define DIO31_PWM			NULL
+#define DIO31_DDR       DDRD
+
+
+#define DIO32_PIN       PINE0
+#define DIO32_RPORT     PINE
+#define DIO32_WPORT     PORTE
+#define DIO32_PWM			NULL
+#define DIO32_DDR       DDRE
+
+#define DIO33_PIN       PINE1
+#define DIO33_RPORT     PINE
+#define DIO33_WPORT     PORTE
+#define DIO33_PWM			NULL
+#define DIO33_DDR       DDRE
+
+#define DIO34_PIN       PINE2
+#define DIO34_RPORT     PINE
+#define DIO34_WPORT     PORTE
+#define DIO34_PWM			NULL
+#define DIO34_DDR       DDRE
+
+#define DIO35_PIN       PINE3
+#define DIO35_RPORT     PINE
+#define DIO35_WPORT     PORTE
+#define DIO35_PWM			NULL
+#define DIO35_DDR       DDRE
+
+#define DIO36_PIN       PINE4
+#define DIO36_RPORT     PINE
+#define DIO36_WPORT     PORTE
+#define DIO36_PWM			NULL
+#define DIO36_DDR       DDRE
+
+#define DIO37_PIN       PINE5
+#define DIO37_RPORT     PINE
+#define DIO37_WPORT     PORTE
+#define DIO37_PWM			NULL
+#define DIO37_DDR       DDRE
+
+#define DIO38_PIN       PINE6
+#define DIO38_RPORT     PINE
+#define DIO38_WPORT     PORTE
+#define DIO38_PWM			NULL
+#define DIO38_DDR       DDRE
+
+#define DIO39_PIN       PINE7
+#define DIO39_RPORT     PINE
+#define DIO39_WPORT     PORTE
+#define DIO39_PWM			NULL
+#define DIO39_DDR       DDRE
+
+#define AIO0_PIN PINF0
+#define AIO0_RPORT PINF
+#define AIO0_WPORT PORTF
+#define AIO0_PWM			NULL
+#define AIO0_DDR DDRF
+
+#define AIO1_PIN PINF1
+#define AIO1_RPORT PINF
+#define AIO1_WPORT PORTF
+#define AIO1_PWM			NULL
+#define AIO1_DDR DDRF
+
+#define AIO2_PIN PINF2
+#define AIO2_RPORT PINF
+#define AIO2_WPORT PORTF
+#define AIO2_PWM			NULL
+#define AIO2_DDR DDRF
+
+#define AIO3_PIN PINF3
+#define AIO3_RPORT PINF
+#define AIO3_WPORT PORTF
+#define AIO3_PWM			NULL
+#define AIO3_DDR DDRF
+
+#define AIO4_PIN PINF4
+#define AIO4_RPORT PINF
+#define AIO4_WPORT PORTF
+#define AIO4_PWM			NULL
+#define AIO4_DDR DDRF
+
+#define AIO5_PIN PINF5
+#define AIO5_RPORT PINF
+#define AIO5_WPORT PORTF
+#define AIO5_PWM			NULL
+#define AIO5_DDR DDRF
+
+#define AIO6_PIN PINF6
+#define AIO6_RPORT PINF
+#define AIO6_WPORT PORTF
+#define AIO6_PWM			NULL
+#define AIO6_DDR DDRF
+
+#define AIO7_PIN PINF7
+#define AIO7_RPORT PINF
+#define AIO7_WPORT PORTF
+#define AIO7_PWM			NULL
+#define AIO7_DDR DDRF
+
+#define DIO40_PIN       PINF0
+#define DIO40_RPORT     PINF
+#define DIO40_WPORT     PORTF
+#define DIO40_PWM			NULL
+#define DIO40_DDR       DDRF
+
+#define DIO41_PIN       PINF1
+#define DIO41_RPORT     PINF
+#define DIO41_WPORT     PORTF
+#define DIO41_PWM			NULL
+#define DIO41_DDR       DDRF
+
+#define DIO42_PIN       PINF2
+#define DIO42_RPORT     PINF
+#define DIO42_WPORT     PORTF
+#define DIO42_PWM			NULL
+#define DIO42_DDR       DDRF
+
+#define DIO43_PIN       PINF3
+#define DIO43_RPORT     PINF
+#define DIO43_WPORT     PORTF
+#define DIO43_PWM			NULL
+#define DIO43_DDR       DDRF
+
+#define DIO44_PIN       PINF4
+#define DIO44_RPORT     PINF
+#define DIO44_WPORT     PORTF
+#define DIO44_PWM			NULL
+#define DIO44_DDR       DDRF
+
+#define DIO45_PIN       PINF5
+#define DIO45_RPORT     PINF
+#define DIO45_WPORT     PORTF
+#define DIO45_PWM			NULL
+#define DIO45_DDR       DDRF
+
+#define DIO46_PIN       PINF6
+#define DIO46_RPORT     PINF
+#define DIO46_WPORT     PORTF
+#define DIO46_PWM			NULL
+#define DIO46_DDR       DDRF
+
+#define DIO47_PIN       PINF7
+#define DIO47_RPORT     PINF
+#define DIO47_WPORT     PORTF
+#define DIO47_PWM			NULL
+#define DIO47_DDR       DDRF
+
+
+
+#undef PA0
+#define PA0_PIN			PINA0
+#define PA0_RPORT		PINA
+#define PA0_WPORT		PORTA
+#define PA0_PWM			NULL
+#define PA0_DDR			DDRA
+#undef PA1
+#define PA1_PIN			PINA1
+#define PA1_RPORT		PINA
+#define PA1_WPORT		PORTA
+#define PA1_PWM			NULL
+#define PA1_DDR			DDRA
+#undef PA2
+#define PA2_PIN			PINA2
+#define PA2_RPORT		PINA
+#define PA2_WPORT		PORTA
+#define PA2_PWM			NULL
+#define PA2_DDR			DDRA
+#undef PA3
+#define PA3_PIN			PINA3
+#define PA3_RPORT		PINA
+#define PA3_WPORT		PORTA
+#define PA3_PWM			NULL
+#define PA3_DDR			DDRA
+#undef PA4
+#define PA4_PIN			PINA4
+#define PA4_RPORT		PINA
+#define PA4_WPORT		PORTA
+#define PA4_PWM			NULL
+#define PA4_DDR			DDRA
+#undef PA5
+#define PA5_PIN			PINA5
+#define PA5_RPORT		PINA
+#define PA5_WPORT		PORTA
+#define PA5_PWM			NULL
+#define PA5_DDR			DDRA
+#undef PA6
+#define PA6_PIN			PINA6
+#define PA6_RPORT		PINA
+#define PA6_WPORT		PORTA
+#define PA6_PWM			NULL
+#define PA6_DDR			DDRA
+#undef PA7
+#define PA7_PIN			PINA7
+#define PA7_RPORT		PINA
+#define PA7_WPORT		PORTA
+#define PA7_PWM			NULL
+#define PA7_DDR			DDRA
+
+#undef PB0
+#define PB0_PIN			PINB0
+#define PB0_RPORT		PINB
+#define PB0_WPORT		PORTB
+#define PB0_PWM			NULL
+#define PB0_DDR			DDRB
+#undef PB1
+#define PB1_PIN			PINB1
+#define PB1_RPORT		PINB
+#define PB1_WPORT		PORTB
+#define PB1_PWM			NULL
+#define PB1_DDR			DDRB
+#undef PB2
+#define PB2_PIN			PINB2
+#define PB2_RPORT		PINB
+#define PB2_WPORT		PORTB
+#define PB2_PWM			NULL
+#define PB2_DDR			DDRB
+#undef PB3
+#define PB3_PIN			PINB3
+#define PB3_RPORT		PINB
+#define PB3_WPORT		PORTB
+#define PB3_PWM			NULL
+#define PB3_DDR			DDRB
+#undef PB4
+#define PB4_PIN			PINB4
+#define PB4_RPORT		PINB
+#define PB4_WPORT		PORTB
+#define PB4_PWM			NULL
+#define PB4_DDR			DDRB
+#undef PB5
+#define PB5_PIN			PINB5
+#define PB5_RPORT		PINB
+#define PB5_WPORT		PORTB
+#define PB5_PWM			NULL
+#define PB5_DDR			DDRB
+#undef PB6
+#define PB6_PIN			PINB6
+#define PB6_RPORT		PINB
+#define PB6_WPORT		PORTB
+#define PB6_PWM			NULL
+#define PB6_DDR			DDRB
+#undef PB7
+#define PB7_PIN			PINB7
+#define PB7_RPORT		PINB
+#define PB7_WPORT		PORTB
+#define PB7_PWM			NULL
+#define PB7_DDR			DDRB
+
+#undef PC0
+#define PC0_PIN			PINC0
+#define PC0_RPORT		PINC
+#define PC0_WPORT		PORTC
+#define PC0_PWM			NULL
+#define PC0_DDR			DDRC
+#undef PC1
+#define PC1_PIN			PINC1
+#define PC1_RPORT		PINC
+#define PC1_WPORT		PORTC
+#define PC1_PWM			NULL
+#define PC1_DDR			DDRC
+#undef PC2
+#define PC2_PIN			PINC2
+#define PC2_RPORT		PINC
+#define PC2_WPORT		PORTC
+#define PC2_PWM			NULL
+#define PC2_DDR			DDRC
+#undef PC3
+#define PC3_PIN			PINC3
+#define PC3_RPORT		PINC
+#define PC3_WPORT		PORTC
+#define PC3_PWM			NULL
+#define PC3_DDR			DDRC
+#undef PC4
+#define PC4_PIN			PINC4
+#define PC4_RPORT		PINC
+#define PC4_WPORT		PORTC
+#define PC4_PWM			NULL
+#define PC4_DDR			DDRC
+#undef PC5
+#define PC5_PIN			PINC5
+#define PC5_RPORT		PINC
+#define PC5_WPORT		PORTC
+#define PC5_PWM			NULL
+#define PC5_DDR			DDRC
+#undef PC6
+#define PC6_PIN			PINC6
+#define PC6_RPORT		PINC
+#define PC6_WPORT		PORTC
+#define PC6_PWM			NULL
+#define PC6_DDR			DDRC
+#undef PC7
+#define PC7_PIN			PINC7
+#define PC7_RPORT		PINC
+#define PC7_WPORT		PORTC
+#define PC7_PWM			NULL
+#define PC7_DDR			DDRC
+
+#undef PD0
+#define PD0_PIN			PIND0
+#define PD0_RPORT		PIND
+#define PD0_WPORT		PORTD
+#define PD0_PWM			NULL
+#define PD0_DDR			DDRD
+#undef PD1
+#define PD1_PIN			PIND1
+#define PD1_RPORT		PIND
+#define PD1_WPORT		PORTD
+#define PD1_PWM			NULL
+#define PD1_DDR			DDRD
+#undef PD2
+#define PD2_PIN			PIND2
+#define PD2_RPORT		PIND
+#define PD2_WPORT		PORTD
+#define PD2_PWM			NULL
+#define PD2_DDR			DDRD
+#undef PD3
+#define PD3_PIN			PIND3
+#define PD3_RPORT		PIND
+#define PD3_WPORT		PORTD
+#define PD3_PWM			NULL
+#define PD3_DDR			DDRD
+#undef PD4
+#define PD4_PIN			PIND4
+#define PD4_RPORT		PIND
+#define PD4_WPORT		PORTD
+#define PD4_PWM			NULL
+#define PD4_DDR			DDRD
+#undef PD5
+#define PD5_PIN			PIND5
+#define PD5_RPORT		PIND
+#define PD5_WPORT		PORTD
+#define PD5_PWM			NULL
+#define PD5_DDR			DDRD
+#undef PD6
+#define PD6_PIN			PIND6
+#define PD6_RPORT		PIND
+#define PD6_WPORT		PORTD
+#define PD6_PWM			NULL
+#define PD6_DDR			DDRD
+#undef PD7
+#define PD7_PIN			PIND7
+#define PD7_RPORT		PIND
+#define PD7_WPORT		PORTD
+#define PD7_PWM			NULL
+#define PD7_DDR			DDRD
+
+#undef PE0
+#define PE0_PIN			PINE0
+#define PE0_RPORT		PINE
+#define PE0_WPORT		PORTE
+#define PE0_PWM			NULL
+#define PE0_DDR			DDRE
+#undef PE1
+#define PE1_PIN			PINE1
+#define PE1_RPORT		PINE
+#define PE1_WPORT		PORTE
+#define PE1_PWM			NULL
+#define PE1_DDR			DDRE
+#undef PE2
+#define PE2_PIN			PINE2
+#define PE2_RPORT		PINE
+#define PE2_WPORT		PORTE
+#define PE2_PWM			NULL
+#define PE2_DDR			DDRE
+#undef PE3
+#define PE3_PIN			PINE3
+#define PE3_RPORT		PINE
+#define PE3_WPORT		PORTE
+#define PE3_PWM			NULL
+#define PE3_DDR			DDRE
+#undef PE4
+#define PE4_PIN			PINE4
+#define PE4_RPORT		PINE
+#define PE4_WPORT		PORTE
+#define PE4_PWM			NULL
+#define PE4_DDR			DDRE
+#undef PE5
+#define PE5_PIN			PINE5
+#define PE5_RPORT		PINE
+#define PE5_WPORT		PORTE
+#define PE5_PWM			NULL
+#define PE5_DDR			DDRE
+#undef PE6
+#define PE6_PIN			PINE6
+#define PE6_RPORT		PINE
+#define PE6_WPORT		PORTE
+#define PE6_PWM			NULL
+#define PE6_DDR			DDRE
+#undef PE7
+#define PE7_PIN			PINE7
+#define PE7_RPORT		PINE
+#define PE7_WPORT		PORTE
+#define PE7_PWM			NULL
+#define PE7_DDR			DDRE
+
+#undef PF0
+#define PF0_PIN			PINF0
+#define PF0_RPORT		PINF
+#define PF0_WPORT		PORTF
+#define PF0_PWM			NULL
+#define PF0_DDR			DDRF
+#undef PF1
+#define PF1_PIN			PINF1
+#define PF1_RPORT		PINF
+#define PF1_WPORT		PORTF
+#define PF1_PWM			NULL
+#define PF1_DDR			DDRF
+#undef PF2
+#define PF2_PIN			PINF2
+#define PF2_RPORT		PINF
+#define PF2_WPORT		PORTF
+#define PF2_PWM			NULL
+#define PF2_DDR			DDRF
+#undef PF3
+#define PF3_PIN			PINF3
+#define PF3_RPORT		PINF
+#define PF3_WPORT		PORTF
+#define PF3_PWM			NULL
+#define PF3_DDR			DDRF
+#undef PF4
+#define PF4_PIN			PINF4
+#define PF4_RPORT		PINF
+#define PF4_WPORT		PORTF
+#define PF4_PWM			NULL
+#define PF4_DDR			DDRF
+#undef PF5
+#define PF5_PIN			PINF5
+#define PF5_RPORT		PINF
+#define PF5_WPORT		PORTF
+#define PF5_PWM			NULL
+#define PF5_DDR			DDRF
+#undef PF6
+#define PF6_PIN			PINF6
+#define PF6_RPORT		PINF
+#define PF6_WPORT		PORTF
+#define PF6_PWM			NULL
+#define PF6_DDR			DDRF
+#undef PF7
+#define PF7_PIN			PINF7
+#define PF7_RPORT		PINF
+#define PF7_WPORT		PORTF
+#define PF7_PWM			NULL
+#define PF7_DDR			DDRF
+#endif
+
+#ifndef	DIO0_PIN
+#error pins for this chip not defined in arduino.h! If you write an appropriate pin definition and have this firmware work on your chip, please submit a pull request
+#endif
+
 #endif /* _ARDUINO_H */
diff --git a/Marlin/pins.h b/Marlin/pins.h
index 1e2fd65fd..e9ebd4412 100644
--- a/Marlin/pins.h
+++ b/Marlin/pins.h
@@ -1,570 +1,570 @@
-#ifndef PINS_H
-#define PINS_H
-
-/****************************************************************************************
-* Arduino pin assignment
-*
-*                  ATMega168
-*                   +-\/-+
-*             PC6  1|    |28  PC5 (AI 5 / D19)
-*       (D 0) PD0  2|    |27  PC4 (AI 4 / D18)
-*       (D 1) PD1  3|    |26  PC3 (AI 3 / D17)
-*       (D 2) PD2  4|    |25  PC2 (AI 2 / D16)
-*  PWM+ (D 3) PD3  5|    |24  PC1 (AI 1 / D15)
-*       (D 4) PD4  6|    |23  PC0 (AI 0 / D14)
-*             VCC  7|    |22  GND
-*             GND  8|    |21  AREF
-*             PB6  9|    |20  AVCC
-*             PB7 10|    |19  PB5 (D 13)
-*  PWM+ (D 5) PD5 11|    |18  PB4 (D 12)
-*  PWM+ (D 6) PD6 12|    |17  PB3 (D 11) PWM
-*       (D 7) PD7 13|    |16  PB2 (D 10) PWM
-*       (D 8) PB0 14|    |15  PB1 (D 9)  PWM
-*                   +----+
-****************************************************************************************/
-#if MOTHERBOARD == 0
-#define KNOWN_BOARD 1
-
-#ifndef __AVR_ATmega168__
-#error Oops!  Make sure you have 'Arduino Diecimila' selected from the boards menu.
-#endif
-
-#define X_STEP_PIN          2
-#define X_DIR_PIN           3
-#define X_ENABLE_PIN       -1
-#define X_MIN_PIN           4
-#define X_MAX_PIN           9
-
-#define Y_STEP_PIN         10
-#define Y_DIR_PIN           7
-#define Y_ENABLE_PIN       -1
-#define Y_MIN_PIN           8
-#define Y_MAX_PIN          13
-
-#define Z_STEP_PIN         19
-#define Z_DIR_PIN          18
-#define Z_ENABLE_PIN        5
-#define Z_MIN_PIN          17
-#define Z_MAX_PIN          16
-
-#define E_STEP_PIN         11
-#define E_DIR_PIN          12
-#define E_ENABLE_PIN       -1
-
-#define SDPOWER          -1
-#define SDSS          -1
-#define LED_PIN            -1
-#define FAN_PIN            -1
-#define PS_ON_PIN          15
-#define KILL_PIN           -1
-
-#define HEATER_0_PIN        6
-#define TEMP_0_PIN          0    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define HEATER_1_PIN        -1
-#define HEATER_2_PIN        -1
-#endif
-
-
-
-/****************************************************************************************
-* Sanguino/RepRap Motherboard with direct-drive extruders
-*
-*                        ATMega644P
-*
-*                        +---\/---+
-*            (D 0) PB0  1|        |40  PA0 (AI 0 / D31)
-*            (D 1) PB1  2|        |39  PA1 (AI 1 / D30)
-*       INT2 (D 2) PB2  3|        |38  PA2 (AI 2 / D29)
-*        PWM (D 3) PB3  4|        |37  PA3 (AI 3 / D28)
-*        PWM (D 4) PB4  5|        |36  PA4 (AI 4 / D27)
-*       MOSI (D 5) PB5  6|        |35  PA5 (AI 5 / D26)
-*       MISO (D 6) PB6  7|        |34  PA6 (AI 6 / D25)
-*        SCK (D 7) PB7  8|        |33  PA7 (AI 7 / D24)
-*                  RST  9|        |32  AREF
-*                  VCC 10|        |31  GND 
-*                  GND 11|        |30  AVCC
-*                XTAL2 12|        |29  PC7 (D 23)
-*                XTAL1 13|        |28  PC6 (D 22)
-*       RX0 (D 8)  PD0 14|        |27  PC5 (D 21) TDI
-*       TX0 (D 9)  PD1 15|        |26  PC4 (D 20) TDO
-*  INT0 RX1 (D 10) PD2 16|        |25  PC3 (D 19) TMS
-*  INT1 TX1 (D 11) PD3 17|        |24  PC2 (D 18) TCK
-*       PWM (D 12) PD4 18|        |23  PC1 (D 17) SDA
-*       PWM (D 13) PD5 19|        |22  PC0 (D 16) SCL
-*       PWM (D 14) PD6 20|        |21  PD7 (D 15) PWM
-*                        +--------+
-*
-****************************************************************************************/
-#if MOTHERBOARD == 1
-#define KNOWN_BOARD 1
-
-#ifndef __AVR_ATmega644P__
-#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
-#endif
-
-#define X_STEP_PIN         15
-#define X_DIR_PIN          18
-#define X_ENABLE_PIN       19
-#define X_MIN_PIN          20
-#define X_MAX_PIN          21
-
-#define Y_STEP_PIN         23
-#define Y_DIR_PIN          22
-#define Y_ENABLE_PIN       19
-#define Y_MIN_PIN          25
-#define Y_MAX_PIN          26
-
-#define Z_STEP_PIN         29
-#define Z_DIR_PIN          30
-#define Z_ENABLE_PIN       31
-#define Z_MIN_PIN           2
-#define Z_MAX_PIN           1
-
-#define E_STEP_PIN         12
-#define E_DIR_PIN          16
-#define E_ENABLE_PIN        3
-
-#define SDPOWER          -1
-#define SDSS          -1
-#define LED_PIN             0
-#define FAN_PIN            -1
-#define PS_ON_PIN          -1
-#define KILL_PIN           -1
-
-#define HEATER_0_PIN       14
-#define TEMP_0_PIN          4 //D27   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define HEATER_1_PIN        -1
-#define HEATER_2_PIN        -1
-/*  Unused (1) (2) (3) 4 5 6 7 8 9 10 11 12 13 (14) (15) (16) 17 (18) (19) (20) (21) (22) (23) 24 (25) (26) (27) 28 (29) (30) (31)  */
-
-
-
-#endif
-
-
-/****************************************************************************************
-* RepRap Motherboard  ****---NOOOOOO RS485/EXTRUDER CONTROLLER!!!!!!!!!!!!!!!!!---*******
-*
-****************************************************************************************/
-#if MOTHERBOARD == 2
-#define KNOWN_BOARD 1
-
-#ifndef __AVR_ATmega644P__
-#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
-#endif
-
-#define X_STEP_PIN      15
-#define X_DIR_PIN       18
-#define X_ENABLE_PIN    19
-#define X_MIN_PIN       20
-#define X_MAX_PIN       21
-
-#define Y_STEP_PIN      23
-#define Y_DIR_PIN       22
-#define Y_ENABLE_PIN    24
-#define Y_MIN_PIN       25
-#define Y_MAX_PIN       26
-
-#define Z_STEP_PINN     27
-#define Z_DIR_PINN      28
-#define Z_ENABLE_PIN    29
-#define Z_MIN_PIN       30
-#define Z_MAX_PIN       31
-
-#define E_STEP_PIN      17
-#define E_DIR_PIN       16
-#define E_ENABLE_PIN    -1
-
-#define SDPOWER          -1
-#define SDSS          4
-#define LED_PIN          0
-
-#define SD_CARD_WRITE    2
-#define SD_CARD_DETECT   3
-#define SD_CARD_SELECT   4
-
-//our RS485 pins
-#define TX_ENABLE_PIN	12
-#define RX_ENABLE_PIN	13
-
-//pin for controlling the PSU.
-#define PS_ON_PIN       14
-
-#define FAN_PIN         -1
-#define KILL_PIN        -1
-
-#define HEATER_0_PIN    -1
-#define TEMP_0_PIN      -1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define HEATER_1_PIN        -1
-#define HEATER_2_PIN        -1
-
-
-
-#endif
-
-/****************************************************************************************
-* Arduino Mega pin assignment
-*
-****************************************************************************************/
-#if MOTHERBOARD == 33
-#define MOTHERBOARD 3
-#define RAMPS_V_1_3
-#endif
-#if MOTHERBOARD == 3
-#define KNOWN_BOARD 1
-
-//////////////////FIX THIS//////////////
-#ifndef __AVR_ATmega1280__
- #ifndef __AVR_ATmega2560__
- #error Oops!  Make sure you have 'Arduino Mega' selected from the 'Tools -> Boards' menu.
- #endif
-#endif
-
-// uncomment one of the following lines for RAMPS v1.3 or v1.0, comment both for v1.2 or 1.1
-// #define RAMPS_V_1_3
-// #define RAMPS_V_1_0
-
-#ifdef RAMPS_V_1_3
-
-#define X_STEP_PIN         54
-#define X_DIR_PIN          55
-#define X_ENABLE_PIN       38
-#define X_MIN_PIN           3
-#define X_MAX_PIN          -1   //2 //Max endstops default to disabled "-1", set to commented value to enable.
-
-#define Y_STEP_PIN         60
-#define Y_DIR_PIN          61
-#define Y_ENABLE_PIN       56
-#define Y_MIN_PIN          14
-#define Y_MAX_PIN          -1   //15
-
-#define Z_STEP_PIN         46
-#define Z_DIR_PIN          48
-#define Z_ENABLE_PIN       62
-#define Z_MIN_PIN          18
-#define Z_MAX_PIN          -1   //19
-
-#define E_STEP_PIN         26
-#define E_DIR_PIN          28
-#define E_ENABLE_PIN       24
-
-#define SDPOWER            -1
-#define SDSS               53
-#define LED_PIN            13
-#define FAN_PIN            9
-#define PS_ON_PIN          12
-#define KILL_PIN           -1
-
-#define HEATER_0_PIN       10
-#define HEATER_1_PIN       8
-#define HEATER_2_PIN        -1
-#define TEMP_0_PIN         13   // ANALOG NUMBERING
-#define TEMP_1_PIN         14   // ANALOG NUMBERING
-#define TEMP_2_PIN         -1   // ANALOG NUMBERING
-
-
-#else // RAMPS_V_1_1 or RAMPS_V_1_2 as default
-
-#define X_STEP_PIN         26
-#define X_DIR_PIN          28
-#define X_ENABLE_PIN       24
-#define X_MIN_PIN           3
-#define X_MAX_PIN          -1    //2
-
-#define Y_STEP_PIN         38
-#define Y_DIR_PIN          40
-#define Y_ENABLE_PIN       36
-#define Y_MIN_PIN          16
-#define Y_MAX_PIN          -1    //17
-
-#define Z_STEP_PIN         44
-#define Z_DIR_PIN          46
-#define Z_ENABLE_PIN       42
-#define Z_MIN_PIN          18
-#define Z_MAX_PIN          -1    //19
-
-#define E_STEP_PIN         32
-#define E_DIR_PIN          34
-#define E_ENABLE_PIN       30
-
-#define SDPOWER            48
-#define SDSS               53
-#define LED_PIN            13
-#define PS_ON_PIN          -1
-#define KILL_PIN           -1
-
-
-
-#ifdef RAMPS_V_1_0 // RAMPS_V_1_0
-  #define HEATER_0_PIN     12    // RAMPS 1.0
-  #define HEATER_1_PIN     -1    // RAMPS 1.0
-  #define FAN_PIN          11    // RAMPS 1.0
-
-#else // RAMPS_V_1_1 or RAMPS_V_1_2
-  #define HEATER_0_PIN     10    // RAMPS 1.1
-  #define HEATER_1_PIN      8    // RAMPS 1.1
-  #define FAN_PIN           9    // RAMPS 1.1
-#endif
-#define HEATER_2_PIN        -1
-#define TEMP_0_PIN          2    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define TEMP_1_PIN          1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define TEMP_2_PIN          -1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#endif
-
-// SPI for Max6675 Thermocouple 
-
-#ifndef SDSUPPORT
-// these pins are defined in the SD library if building with SD support  #define SCK_PIN          52
-  #define MISO_PIN         50
-  #define MOSI_PIN         51
-  #define MAX6675_SS       53
-#else
-  #define MAX6675_SS       49
-#endif
-
-
-#endif
-/****************************************************************************************
-* Duemilanove w/ ATMega328P pin assignment
-*
-****************************************************************************************/
-#if MOTHERBOARD == 4
-#define KNOWN_BOARD 1
-
-#ifndef __AVR_ATmega328P__
-#error Oops!  Make sure you have 'Arduino Duemilanove w/ ATMega328' selected from the 'Tools -> Boards' menu.
-#endif
-
-#define X_STEP_PIN         19
-#define X_DIR_PIN          18
-#define X_ENABLE_PIN       -1
-#define X_MIN_PIN          17
-#define X_MAX_PIN          -1
-
-#define Y_STEP_PIN         10
-#define Y_DIR_PIN           7
-#define Y_ENABLE_PIN       -1
-#define Y_MIN_PIN           8
-#define Y_MAX_PIN          -1
-
-#define Z_STEP_PIN         13
-#define Z_DIR_PIN           3
-#define Z_ENABLE_PIN        2
-#define Z_MIN_PIN           4
-#define Z_MAX_PIN          -1
-
-#define E_STEP_PIN         11
-#define E_DIR_PIN          12
-#define E_ENABLE_PIN       -1
-
-#define SDPOWER          -1
-#define SDSS          -1
-#define LED_PIN            -1
-#define FAN_PIN             5
-#define PS_ON_PIN          -1
-#define KILL_PIN           -1
-
-#define HEATER_0_PIN        6
-#define TEMP_0_PIN          0    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
-#define HEATER_1_PIN        -1
-#define HEATER_2_PIN        -1
-
-#endif
-
-/****************************************************************************************
-* Gen6 pin assignment
-*
-****************************************************************************************/
-#if MOTHERBOARD == 5
-#define KNOWN_BOARD 1
-
-#ifndef __AVR_ATmega644P__
-    #error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
-#endif
-
-//x axis pins
-    #define X_STEP_PIN      15
-    #define X_DIR_PIN       18
-    #define X_ENABLE_PIN    19
-    #define X_MIN_PIN       20
-    #define X_MAX_PIN       -1
-    
-    //y axis pins
-    #define Y_STEP_PIN      23
-    #define Y_DIR_PIN       22
-    #define Y_ENABLE_PIN    24
-    #define Y_MIN_PIN       25
-    #define Y_MAX_PIN       -1
-    
-    //z axis pins
-    #define Z_STEP_PIN      27
-    #define Z_DIR_PIN       28
-    #define Z_ENABLE_PIN    29
-    #define Z_MIN_PIN       30
-    #define Z_MAX_PIN       -1
-    
-    //extruder pins
-    #define E_STEP_PIN      4     //Edited @ EJE Electronics 20100715
-    #define E_DIR_PIN       2     //Edited @ EJE Electronics 20100715
-    #define E_ENABLE_PIN    3     //Added @ EJE Electronics 20100715
-    #define TEMP_0_PIN      5     //changed @ rkoeppl 20110410
-    #define HEATER_0_PIN    14    //changed @ rkoeppl 20110410
-    #define HEATER_1_PIN    -1    //changed @ rkoeppl 20110410
-    #define HEATER_2_PIN        -1
-    
-    #define SDPOWER          -1
-    #define SDSS          17
-    #define LED_PIN         -1    //changed @ rkoeppl 20110410
-    #define TEMP_1_PIN      -1    //changed @ rkoeppl 20110410
-    #define TEMP_2_PIN      -1
-    #define FAN_PIN         -1    //changed @ rkoeppl 20110410
-    #define PS_ON_PIN       -1    //changed @ rkoeppl 20110410
-    //our pin for debugging.
-    
-    #define DEBUG_PIN        0
-    
-    //our RS485 pins
-    #define TX_ENABLE_PIN	12
-    #define RX_ENABLE_PIN	13
-
-#endif
-
-/****************************************************************************************
-* Sanguinololu pin assignment
-*
-****************************************************************************************/
-#if MOTHERBOARD == 62
-#define MOTHERBOARD 6
-#define SANGUINOLOLU_V_1_2 
-#endif
-#if MOTHERBOARD == 6
-#define KNOWN_BOARD 1
-#ifndef __AVR_ATmega644P__
-#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
-#endif
-
-#define X_STEP_PIN         15
-#define X_DIR_PIN          21
-#define X_MIN_PIN          18
-#define X_MAX_PIN           -2
-
-#define Y_STEP_PIN         22
-#define Y_DIR_PIN          23
-#define Y_MIN_PIN          19
-#define Y_MAX_PIN          -1
-
-#define Z_STEP_PIN         3
-#define Z_DIR_PIN          2
-#define Z_MIN_PIN          20
-#define Z_MAX_PIN          -1
-
-#define E_STEP_PIN         1
-#define E_DIR_PIN          0
-
-#define LED_PIN            -1
-
-#define FAN_PIN            -1 
-
-#define PS_ON_PIN          -1
-#define KILL_PIN           -1
-
-#define HEATER_0_PIN       13 // (extruder)
-
-#ifdef SANGUINOLOLU_V_1_2
-
-#define HEATER_1_PIN       12 // (bed)
-#define X_ENABLE_PIN       14
-#define Y_ENABLE_PIN       14
-#define Z_ENABLE_PIN       26
-#define E_ENABLE_PIN       14
-
-#else
-
-#define HEATER_1_PIN       14  // (bed)
-#define X_ENABLE_PIN       -1
-#define Y_ENABLE_PIN       -1
-#define Z_ENABLE_PIN       -1
-#define E_ENABLE_PIN       -1
-
-#endif
-
-#define TEMP_0_PIN          7   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!! (pin 33 extruder)
-#define TEMP_1_PIN          6   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!! (pin 34 bed)
-#define TEMP_2_PIN         -1
-#define SDPOWER            -1
-#define SDSS               31
-#define HEATER_2_PIN       -1
-
-#endif
-
-
-#if MOTHERBOARD == 7
-#define KNOWN_BOARD
-/*****************************************************************
-* Ultimaker pin assignment
-******************************************************************/
-
-#ifndef __AVR_ATmega1280__
- #ifndef __AVR_ATmega2560__
- #error Oops!  Make sure you have 'Arduino Mega' selected from the 'Tools -> Boards' menu.
- #endif
-#endif
-
-#define X_STEP_PIN 25
-#define X_DIR_PIN 23
-#define X_MIN_PIN 22
-#define X_MAX_PIN 24
-#define X_ENABLE_PIN 27
-
-#define Y_STEP_PIN 31
-#define Y_DIR_PIN 33
-#define Y_MIN_PIN 26
-#define Y_MAX_PIN 28
-#define Y_ENABLE_PIN 29
-
-#define Z_STEP_PIN 37 
-#define Z_DIR_PIN 39
-#define Z_MIN_PIN 30
-#define Z_MAX_PIN 32
-#define Z_ENABLE_PIN 35
-
-#define HEATER_1_PIN 4 
-#define TEMP_1_PIN 11  
-
-#define EXTRUDER_0_STEP_PIN 43 
-#define EXTRUDER_0_DIR_PIN 45
-#define EXTRUDER_0_ENABLE_PIN 41
-#define HEATER_0_PIN  2
-#define TEMP_0_PIN 8   
-
-#define EXTRUDER_1_STEP_PIN 49 
-#define EXTRUDER_1_DIR_PIN 47
-#define EXTRUDER_1_ENABLE_PIN 51
-#define EXTRUDER_1_HEATER_PIN 3
-#define EXTRUDER_1_TEMPERATURE_PIN 10 
-#define HEATER_2_PIN 51
-#define TEMP_2_PIN 3
-
-
-
-#define E_STEP_PIN         EXTRUDER_0_STEP_PIN
-#define E_DIR_PIN          EXTRUDER_0_DIR_PIN
-#define E_ENABLE_PIN       EXTRUDER_0_ENABLE_PIN
-
-#define SDPOWER            -1
-#define SDSS               53
-#define LED_PIN            13
-#define FAN_PIN            7
-#define PS_ON_PIN          12
-#define KILL_PIN           -1
-#endif
-
-
-#ifndef KNOWN_BOARD
-#error Unknown MOTHERBOARD value in configuration.h
-#endif
-
-//List of pins which to ignore when asked to change by gcode, 0 and 1 are RX and TX, do not mess with those!
-#define SENSITIVE_PINS {0, 1, X_STEP_PIN, X_DIR_PIN, X_ENABLE_PIN, X_MIN_PIN, X_MAX_PIN, Y_STEP_PIN, Y_DIR_PIN, Y_ENABLE_PIN, Y_MIN_PIN, Y_MAX_PIN, Z_STEP_PIN, Z_DIR_PIN, Z_ENABLE_PIN, Z_MIN_PIN, Z_MAX_PIN, E_STEP_PIN, E_DIR_PIN, E_ENABLE_PIN, LED_PIN, PS_ON_PIN, HEATER_0_PIN, HEATER_1_PIN, HEATER_2_PIN, FAN_PIN, TEMP_0_PIN, TEMP_1_PIN, TEMP_2_PIN}
-
-#endif
+#ifndef PINS_H
+#define PINS_H
+
+/****************************************************************************************
+* Arduino pin assignment
+*
+*                  ATMega168
+*                   +-\/-+
+*             PC6  1|    |28  PC5 (AI 5 / D19)
+*       (D 0) PD0  2|    |27  PC4 (AI 4 / D18)
+*       (D 1) PD1  3|    |26  PC3 (AI 3 / D17)
+*       (D 2) PD2  4|    |25  PC2 (AI 2 / D16)
+*  PWM+ (D 3) PD3  5|    |24  PC1 (AI 1 / D15)
+*       (D 4) PD4  6|    |23  PC0 (AI 0 / D14)
+*             VCC  7|    |22  GND
+*             GND  8|    |21  AREF
+*             PB6  9|    |20  AVCC
+*             PB7 10|    |19  PB5 (D 13)
+*  PWM+ (D 5) PD5 11|    |18  PB4 (D 12)
+*  PWM+ (D 6) PD6 12|    |17  PB3 (D 11) PWM
+*       (D 7) PD7 13|    |16  PB2 (D 10) PWM
+*       (D 8) PB0 14|    |15  PB1 (D 9)  PWM
+*                   +----+
+****************************************************************************************/
+#if MOTHERBOARD == 0
+#define KNOWN_BOARD 1
+
+#ifndef __AVR_ATmega168__
+#error Oops!  Make sure you have 'Arduino Diecimila' selected from the boards menu.
+#endif
+
+#define X_STEP_PIN          2
+#define X_DIR_PIN           3
+#define X_ENABLE_PIN       -1
+#define X_MIN_PIN           4
+#define X_MAX_PIN           9
+
+#define Y_STEP_PIN         10
+#define Y_DIR_PIN           7
+#define Y_ENABLE_PIN       -1
+#define Y_MIN_PIN           8
+#define Y_MAX_PIN          13
+
+#define Z_STEP_PIN         19
+#define Z_DIR_PIN          18
+#define Z_ENABLE_PIN        5
+#define Z_MIN_PIN          17
+#define Z_MAX_PIN          16
+
+#define E_STEP_PIN         11
+#define E_DIR_PIN          12
+#define E_ENABLE_PIN       -1
+
+#define SDPOWER          -1
+#define SDSS          -1
+#define LED_PIN            -1
+#define FAN_PIN            -1
+#define PS_ON_PIN          15
+#define KILL_PIN           -1
+
+#define HEATER_0_PIN        6
+#define TEMP_0_PIN          0    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define HEATER_1_PIN        -1
+#define HEATER_2_PIN        -1
+#endif
+
+
+
+/****************************************************************************************
+* Sanguino/RepRap Motherboard with direct-drive extruders
+*
+*                        ATMega644P
+*
+*                        +---\/---+
+*            (D 0) PB0  1|        |40  PA0 (AI 0 / D31)
+*            (D 1) PB1  2|        |39  PA1 (AI 1 / D30)
+*       INT2 (D 2) PB2  3|        |38  PA2 (AI 2 / D29)
+*        PWM (D 3) PB3  4|        |37  PA3 (AI 3 / D28)
+*        PWM (D 4) PB4  5|        |36  PA4 (AI 4 / D27)
+*       MOSI (D 5) PB5  6|        |35  PA5 (AI 5 / D26)
+*       MISO (D 6) PB6  7|        |34  PA6 (AI 6 / D25)
+*        SCK (D 7) PB7  8|        |33  PA7 (AI 7 / D24)
+*                  RST  9|        |32  AREF
+*                  VCC 10|        |31  GND 
+*                  GND 11|        |30  AVCC
+*                XTAL2 12|        |29  PC7 (D 23)
+*                XTAL1 13|        |28  PC6 (D 22)
+*       RX0 (D 8)  PD0 14|        |27  PC5 (D 21) TDI
+*       TX0 (D 9)  PD1 15|        |26  PC4 (D 20) TDO
+*  INT0 RX1 (D 10) PD2 16|        |25  PC3 (D 19) TMS
+*  INT1 TX1 (D 11) PD3 17|        |24  PC2 (D 18) TCK
+*       PWM (D 12) PD4 18|        |23  PC1 (D 17) SDA
+*       PWM (D 13) PD5 19|        |22  PC0 (D 16) SCL
+*       PWM (D 14) PD6 20|        |21  PD7 (D 15) PWM
+*                        +--------+
+*
+****************************************************************************************/
+#if MOTHERBOARD == 1
+#define KNOWN_BOARD 1
+
+#ifndef __AVR_ATmega644P__
+#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
+#endif
+
+#define X_STEP_PIN         15
+#define X_DIR_PIN          18
+#define X_ENABLE_PIN       19
+#define X_MIN_PIN          20
+#define X_MAX_PIN          21
+
+#define Y_STEP_PIN         23
+#define Y_DIR_PIN          22
+#define Y_ENABLE_PIN       19
+#define Y_MIN_PIN          25
+#define Y_MAX_PIN          26
+
+#define Z_STEP_PIN         29
+#define Z_DIR_PIN          30
+#define Z_ENABLE_PIN       31
+#define Z_MIN_PIN           2
+#define Z_MAX_PIN           1
+
+#define E_STEP_PIN         12
+#define E_DIR_PIN          16
+#define E_ENABLE_PIN        3
+
+#define SDPOWER          -1
+#define SDSS          -1
+#define LED_PIN             0
+#define FAN_PIN            -1
+#define PS_ON_PIN          -1
+#define KILL_PIN           -1
+
+#define HEATER_0_PIN       14
+#define TEMP_0_PIN          4 //D27   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define HEATER_1_PIN        -1
+#define HEATER_2_PIN        -1
+/*  Unused (1) (2) (3) 4 5 6 7 8 9 10 11 12 13 (14) (15) (16) 17 (18) (19) (20) (21) (22) (23) 24 (25) (26) (27) 28 (29) (30) (31)  */
+
+
+
+#endif
+
+
+/****************************************************************************************
+* RepRap Motherboard  ****---NOOOOOO RS485/EXTRUDER CONTROLLER!!!!!!!!!!!!!!!!!---*******
+*
+****************************************************************************************/
+#if MOTHERBOARD == 2
+#define KNOWN_BOARD 1
+
+#ifndef __AVR_ATmega644P__
+#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
+#endif
+
+#define X_STEP_PIN      15
+#define X_DIR_PIN       18
+#define X_ENABLE_PIN    19
+#define X_MIN_PIN       20
+#define X_MAX_PIN       21
+
+#define Y_STEP_PIN      23
+#define Y_DIR_PIN       22
+#define Y_ENABLE_PIN    24
+#define Y_MIN_PIN       25
+#define Y_MAX_PIN       26
+
+#define Z_STEP_PINN     27
+#define Z_DIR_PINN      28
+#define Z_ENABLE_PIN    29
+#define Z_MIN_PIN       30
+#define Z_MAX_PIN       31
+
+#define E_STEP_PIN      17
+#define E_DIR_PIN       16
+#define E_ENABLE_PIN    -1
+
+#define SDPOWER          -1
+#define SDSS          4
+#define LED_PIN          0
+
+#define SD_CARD_WRITE    2
+#define SD_CARD_DETECT   3
+#define SD_CARD_SELECT   4
+
+//our RS485 pins
+#define TX_ENABLE_PIN	12
+#define RX_ENABLE_PIN	13
+
+//pin for controlling the PSU.
+#define PS_ON_PIN       14
+
+#define FAN_PIN         -1
+#define KILL_PIN        -1
+
+#define HEATER_0_PIN    -1
+#define TEMP_0_PIN      -1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define HEATER_1_PIN        -1
+#define HEATER_2_PIN        -1
+
+
+
+#endif
+
+/****************************************************************************************
+* Arduino Mega pin assignment
+*
+****************************************************************************************/
+#if MOTHERBOARD == 33
+#define MOTHERBOARD 3
+#define RAMPS_V_1_3
+#endif
+#if MOTHERBOARD == 3
+#define KNOWN_BOARD 1
+
+//////////////////FIX THIS//////////////
+#ifndef __AVR_ATmega1280__
+ #ifndef __AVR_ATmega2560__
+ #error Oops!  Make sure you have 'Arduino Mega' selected from the 'Tools -> Boards' menu.
+ #endif
+#endif
+
+// uncomment one of the following lines for RAMPS v1.3 or v1.0, comment both for v1.2 or 1.1
+// #define RAMPS_V_1_3
+// #define RAMPS_V_1_0
+
+#ifdef RAMPS_V_1_3
+
+#define X_STEP_PIN         54
+#define X_DIR_PIN          55
+#define X_ENABLE_PIN       38
+#define X_MIN_PIN           3
+#define X_MAX_PIN          -1   //2 //Max endstops default to disabled "-1", set to commented value to enable.
+
+#define Y_STEP_PIN         60
+#define Y_DIR_PIN          61
+#define Y_ENABLE_PIN       56
+#define Y_MIN_PIN          14
+#define Y_MAX_PIN          -1   //15
+
+#define Z_STEP_PIN         46
+#define Z_DIR_PIN          48
+#define Z_ENABLE_PIN       62
+#define Z_MIN_PIN          18
+#define Z_MAX_PIN          -1   //19
+
+#define E_STEP_PIN         26
+#define E_DIR_PIN          28
+#define E_ENABLE_PIN       24
+
+#define SDPOWER            -1
+#define SDSS               53
+#define LED_PIN            13
+#define FAN_PIN            9
+#define PS_ON_PIN          12
+#define KILL_PIN           -1
+
+#define HEATER_0_PIN       10
+#define HEATER_1_PIN       8
+#define HEATER_2_PIN        -1
+#define TEMP_0_PIN         13   // ANALOG NUMBERING
+#define TEMP_1_PIN         14   // ANALOG NUMBERING
+#define TEMP_2_PIN         -1   // ANALOG NUMBERING
+
+
+#else // RAMPS_V_1_1 or RAMPS_V_1_2 as default
+
+#define X_STEP_PIN         26
+#define X_DIR_PIN          28
+#define X_ENABLE_PIN       24
+#define X_MIN_PIN           3
+#define X_MAX_PIN          -1    //2
+
+#define Y_STEP_PIN         38
+#define Y_DIR_PIN          40
+#define Y_ENABLE_PIN       36
+#define Y_MIN_PIN          16
+#define Y_MAX_PIN          -1    //17
+
+#define Z_STEP_PIN         44
+#define Z_DIR_PIN          46
+#define Z_ENABLE_PIN       42
+#define Z_MIN_PIN          18
+#define Z_MAX_PIN          -1    //19
+
+#define E_STEP_PIN         32
+#define E_DIR_PIN          34
+#define E_ENABLE_PIN       30
+
+#define SDPOWER            48
+#define SDSS               53
+#define LED_PIN            13
+#define PS_ON_PIN          -1
+#define KILL_PIN           -1
+
+
+
+#ifdef RAMPS_V_1_0 // RAMPS_V_1_0
+  #define HEATER_0_PIN     12    // RAMPS 1.0
+  #define HEATER_1_PIN     -1    // RAMPS 1.0
+  #define FAN_PIN          11    // RAMPS 1.0
+
+#else // RAMPS_V_1_1 or RAMPS_V_1_2
+  #define HEATER_0_PIN     10    // RAMPS 1.1
+  #define HEATER_1_PIN      8    // RAMPS 1.1
+  #define FAN_PIN           9    // RAMPS 1.1
+#endif
+#define HEATER_2_PIN        -1
+#define TEMP_0_PIN          2    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define TEMP_1_PIN          1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define TEMP_2_PIN          -1    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#endif
+
+// SPI for Max6675 Thermocouple 
+
+#ifndef SDSUPPORT
+// these pins are defined in the SD library if building with SD support  #define SCK_PIN          52
+  #define MISO_PIN         50
+  #define MOSI_PIN         51
+  #define MAX6675_SS       53
+#else
+  #define MAX6675_SS       49
+#endif
+
+
+#endif
+/****************************************************************************************
+* Duemilanove w/ ATMega328P pin assignment
+*
+****************************************************************************************/
+#if MOTHERBOARD == 4
+#define KNOWN_BOARD 1
+
+#ifndef __AVR_ATmega328P__
+#error Oops!  Make sure you have 'Arduino Duemilanove w/ ATMega328' selected from the 'Tools -> Boards' menu.
+#endif
+
+#define X_STEP_PIN         19
+#define X_DIR_PIN          18
+#define X_ENABLE_PIN       -1
+#define X_MIN_PIN          17
+#define X_MAX_PIN          -1
+
+#define Y_STEP_PIN         10
+#define Y_DIR_PIN           7
+#define Y_ENABLE_PIN       -1
+#define Y_MIN_PIN           8
+#define Y_MAX_PIN          -1
+
+#define Z_STEP_PIN         13
+#define Z_DIR_PIN           3
+#define Z_ENABLE_PIN        2
+#define Z_MIN_PIN           4
+#define Z_MAX_PIN          -1
+
+#define E_STEP_PIN         11
+#define E_DIR_PIN          12
+#define E_ENABLE_PIN       -1
+
+#define SDPOWER          -1
+#define SDSS          -1
+#define LED_PIN            -1
+#define FAN_PIN             5
+#define PS_ON_PIN          -1
+#define KILL_PIN           -1
+
+#define HEATER_0_PIN        6
+#define TEMP_0_PIN          0    // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!!
+#define HEATER_1_PIN        -1
+#define HEATER_2_PIN        -1
+
+#endif
+
+/****************************************************************************************
+* Gen6 pin assignment
+*
+****************************************************************************************/
+#if MOTHERBOARD == 5
+#define KNOWN_BOARD 1
+
+#ifndef __AVR_ATmega644P__
+    #error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
+#endif
+
+//x axis pins
+    #define X_STEP_PIN      15
+    #define X_DIR_PIN       18
+    #define X_ENABLE_PIN    19
+    #define X_MIN_PIN       20
+    #define X_MAX_PIN       -1
+    
+    //y axis pins
+    #define Y_STEP_PIN      23
+    #define Y_DIR_PIN       22
+    #define Y_ENABLE_PIN    24
+    #define Y_MIN_PIN       25
+    #define Y_MAX_PIN       -1
+    
+    //z axis pins
+    #define Z_STEP_PIN      27
+    #define Z_DIR_PIN       28
+    #define Z_ENABLE_PIN    29
+    #define Z_MIN_PIN       30
+    #define Z_MAX_PIN       -1
+    
+    //extruder pins
+    #define E_STEP_PIN      4     //Edited @ EJE Electronics 20100715
+    #define E_DIR_PIN       2     //Edited @ EJE Electronics 20100715
+    #define E_ENABLE_PIN    3     //Added @ EJE Electronics 20100715
+    #define TEMP_0_PIN      5     //changed @ rkoeppl 20110410
+    #define HEATER_0_PIN    14    //changed @ rkoeppl 20110410
+    #define HEATER_1_PIN    -1    //changed @ rkoeppl 20110410
+    #define HEATER_2_PIN        -1
+    
+    #define SDPOWER          -1
+    #define SDSS          17
+    #define LED_PIN         -1    //changed @ rkoeppl 20110410
+    #define TEMP_1_PIN      -1    //changed @ rkoeppl 20110410
+    #define TEMP_2_PIN      -1
+    #define FAN_PIN         -1    //changed @ rkoeppl 20110410
+    #define PS_ON_PIN       -1    //changed @ rkoeppl 20110410
+    //our pin for debugging.
+    
+    #define DEBUG_PIN        0
+    
+    //our RS485 pins
+    #define TX_ENABLE_PIN	12
+    #define RX_ENABLE_PIN	13
+
+#endif
+
+/****************************************************************************************
+* Sanguinololu pin assignment
+*
+****************************************************************************************/
+#if MOTHERBOARD == 62
+#define MOTHERBOARD 6
+#define SANGUINOLOLU_V_1_2 
+#endif
+#if MOTHERBOARD == 6
+#define KNOWN_BOARD 1
+#ifndef __AVR_ATmega644P__
+#error Oops!  Make sure you have 'Sanguino' selected from the 'Tools -> Boards' menu.
+#endif
+
+#define X_STEP_PIN         15
+#define X_DIR_PIN          21
+#define X_MIN_PIN          18
+#define X_MAX_PIN           -2
+
+#define Y_STEP_PIN         22
+#define Y_DIR_PIN          23
+#define Y_MIN_PIN          19
+#define Y_MAX_PIN          -1
+
+#define Z_STEP_PIN         3
+#define Z_DIR_PIN          2
+#define Z_MIN_PIN          20
+#define Z_MAX_PIN          -1
+
+#define E_STEP_PIN         1
+#define E_DIR_PIN          0
+
+#define LED_PIN            -1
+
+#define FAN_PIN            -1 
+
+#define PS_ON_PIN          -1
+#define KILL_PIN           -1
+
+#define HEATER_0_PIN       13 // (extruder)
+
+#ifdef SANGUINOLOLU_V_1_2
+
+#define HEATER_1_PIN       12 // (bed)
+#define X_ENABLE_PIN       14
+#define Y_ENABLE_PIN       14
+#define Z_ENABLE_PIN       26
+#define E_ENABLE_PIN       14
+
+#else
+
+#define HEATER_1_PIN       14  // (bed)
+#define X_ENABLE_PIN       -1
+#define Y_ENABLE_PIN       -1
+#define Z_ENABLE_PIN       -1
+#define E_ENABLE_PIN       -1
+
+#endif
+
+#define TEMP_0_PIN          7   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!! (pin 33 extruder)
+#define TEMP_1_PIN          6   // MUST USE ANALOG INPUT NUMBERING NOT DIGITAL OUTPUT NUMBERING!!!!!!!!! (pin 34 bed)
+#define TEMP_2_PIN         -1
+#define SDPOWER            -1
+#define SDSS               31
+#define HEATER_2_PIN       -1
+
+#endif
+
+
+#if MOTHERBOARD == 7
+#define KNOWN_BOARD
+/*****************************************************************
+* Ultimaker pin assignment
+******************************************************************/
+
+#ifndef __AVR_ATmega1280__
+ #ifndef __AVR_ATmega2560__
+ #error Oops!  Make sure you have 'Arduino Mega' selected from the 'Tools -> Boards' menu.
+ #endif
+#endif
+
+#define X_STEP_PIN 25
+#define X_DIR_PIN 23
+#define X_MIN_PIN 22
+#define X_MAX_PIN 24
+#define X_ENABLE_PIN 27
+
+#define Y_STEP_PIN 31
+#define Y_DIR_PIN 33
+#define Y_MIN_PIN 26
+#define Y_MAX_PIN 28
+#define Y_ENABLE_PIN 29
+
+#define Z_STEP_PIN 37 
+#define Z_DIR_PIN 39
+#define Z_MIN_PIN 30
+#define Z_MAX_PIN 32
+#define Z_ENABLE_PIN 35
+
+#define HEATER_1_PIN 4 
+#define TEMP_1_PIN 11  
+
+#define EXTRUDER_0_STEP_PIN 43 
+#define EXTRUDER_0_DIR_PIN 45
+#define EXTRUDER_0_ENABLE_PIN 41
+#define HEATER_0_PIN  2
+#define TEMP_0_PIN 8   
+
+#define EXTRUDER_1_STEP_PIN 49 
+#define EXTRUDER_1_DIR_PIN 47
+#define EXTRUDER_1_ENABLE_PIN 51
+#define EXTRUDER_1_HEATER_PIN 3
+#define EXTRUDER_1_TEMPERATURE_PIN 10 
+#define HEATER_2_PIN 51
+#define TEMP_2_PIN 3
+
+
+
+#define E_STEP_PIN         EXTRUDER_0_STEP_PIN
+#define E_DIR_PIN          EXTRUDER_0_DIR_PIN
+#define E_ENABLE_PIN       EXTRUDER_0_ENABLE_PIN
+
+#define SDPOWER            -1
+#define SDSS               53
+#define LED_PIN            13
+#define FAN_PIN            7
+#define PS_ON_PIN          12
+#define KILL_PIN           -1
+#endif
+
+
+#ifndef KNOWN_BOARD
+#error Unknown MOTHERBOARD value in configuration.h
+#endif
+
+//List of pins which to ignore when asked to change by gcode, 0 and 1 are RX and TX, do not mess with those!
+#define SENSITIVE_PINS {0, 1, X_STEP_PIN, X_DIR_PIN, X_ENABLE_PIN, X_MIN_PIN, X_MAX_PIN, Y_STEP_PIN, Y_DIR_PIN, Y_ENABLE_PIN, Y_MIN_PIN, Y_MAX_PIN, Z_STEP_PIN, Z_DIR_PIN, Z_ENABLE_PIN, Z_MIN_PIN, Z_MAX_PIN, E_STEP_PIN, E_DIR_PIN, E_ENABLE_PIN, LED_PIN, PS_ON_PIN, HEATER_0_PIN, HEATER_1_PIN, HEATER_2_PIN, FAN_PIN, TEMP_0_PIN, TEMP_1_PIN, TEMP_2_PIN}
+
+#endif
diff --git a/Marlin/planner.cpp b/Marlin/planner.cpp
index f0ca29821..14f0bb104 100644
--- a/Marlin/planner.cpp
+++ b/Marlin/planner.cpp
@@ -1,398 +1,398 @@
-/*
-  planner.c - buffers movement commands and manages the acceleration profile plan
-  Part of Grbl
-
-  Copyright (c) 2009-2011 Simen Svale Skogsrud
-
-  Grbl is free software: you can redistribute it and/or modify
-  it under the terms of the GNU General Public License as published by
-  the Free Software Foundation, either version 3 of the License, or
-  (at your option) any later version.
-
-  Grbl is distributed in the hope that it will be useful,
-  but WITHOUT ANY WARRANTY; without even the implied warranty of
-  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-  GNU General Public License for more details.
-
-  You should have received a copy of the GNU General Public License
-  along with Grbl.  If not, see <http://www.gnu.org/licenses/>.
-*/
-
-/* The ring buffer implementation gleaned from the wiring_serial library by David A. Mellis. */
-
-/*  
-  Reasoning behind the mathematics in this module (in the key of 'Mathematica'):
-  
-  s == speed, a == acceleration, t == time, d == distance
-
-  Basic definitions:
-
-    Speed[s_, a_, t_] := s + (a*t) 
-    Travel[s_, a_, t_] := Integrate[Speed[s, a, t], t]
-
-  Distance to reach a specific speed with a constant acceleration:
-
-    Solve[{Speed[s, a, t] == m, Travel[s, a, t] == d}, d, t]
-      d -> (m^2 - s^2)/(2 a) --> estimate_acceleration_distance()
-
-  Speed after a given distance of travel with constant acceleration:
-
-    Solve[{Speed[s, a, t] == m, Travel[s, a, t] == d}, m, t]
-      m -> Sqrt[2 a d + s^2]    
-
-    DestinationSpeed[s_, a_, d_] := Sqrt[2 a d + s^2]
-
-  When to start braking (di) to reach a specified destionation speed (s2) after accelerating
-  from initial speed s1 without ever stopping at a plateau:
-
-    Solve[{DestinationSpeed[s1, a, di] == DestinationSpeed[s2, a, d - di]}, di]
-      di -> (2 a d - s1^2 + s2^2)/(4 a) --> intersection_distance()
-
-    IntersectionDistance[s1_, s2_, a_, d_] := (2 a d - s1^2 + s2^2)/(4 a)
-*/
-                                                                                                            
-
-//#include <inttypes.h>
-//#include <math.h>       
-//#include <stdlib.h>
-
-#include "Marlin.h"
-#include "Configuration.h"
-#include "pins.h"
-#include "fastio.h"
-#include "planner.h"
-#include "stepper.h"
-#include "temperature.h"
-#include "ultralcd.h"
-
-unsigned long minsegmenttime;
-float max_feedrate[4]; // set the max speeds
-float axis_steps_per_unit[4];
-long max_acceleration_units_per_sq_second[4]; // Use M201 to override by software
-float minimumfeedrate;
-float acceleration;         // Normal acceleration mm/s^2  THIS IS THE DEFAULT ACCELERATION for all moves. M204 SXXXX
-float retract_acceleration; //  mm/s^2   filament pull-pack and push-forward  while standing still in the other axis M204 TXXXX
-float max_xy_jerk; //speed than can be stopped at once, if i understand correctly.
-float max_z_jerk;
-float mintravelfeedrate;
-unsigned long axis_steps_per_sqr_second[NUM_AXIS];
-// Manage heater variables.
-
-static block_t block_buffer[BLOCK_BUFFER_SIZE];            // A ring buffer for motion instfructions
-static volatile unsigned char block_buffer_head;           // Index of the next block to be pushed
-static volatile unsigned char block_buffer_tail;           // Index of the block to process now
-
-// The current position of the tool in absolute steps
- long position[4];   
-
-#define ONE_MINUTE_OF_MICROSECONDS 60000000.0
-
-// Calculates the distance (not time) it takes to accelerate from initial_rate to target_rate using the 
-// given acceleration:
-inline float estimate_acceleration_distance(float initial_rate, float target_rate, float acceleration) {
-  if (acceleration!=0) {
-  return((target_rate*target_rate-initial_rate*initial_rate)/
-         (2.0*acceleration));
-  }
-  else {
-    return 0.0;  // acceleration was 0, set acceleration distance to 0
-  }
-}
-
-// This function gives you the point at which you must start braking (at the rate of -acceleration) if 
-// you started at speed initial_rate and accelerated until this point and want to end at the final_rate after
-// a total travel of distance. This can be used to compute the intersection point between acceleration and
-// deceleration in the cases where the trapezoid has no plateau (i.e. never reaches maximum speed)
-
-inline float intersection_distance(float initial_rate, float final_rate, float acceleration, float distance) {
- if (acceleration!=0) {
-  return((2.0*acceleration*distance-initial_rate*initial_rate+final_rate*final_rate)/
-         (4.0*acceleration) );
-  }
-  else {
-    return 0.0;  // acceleration was 0, set intersection distance to 0
-  }
-}
-
-// Calculates trapezoid parameters so that the entry- and exit-speed is compensated by the provided factors.
-
-void calculate_trapezoid_for_block(block_t *block, float entry_speed, float exit_speed) {
-  if(block->busy == true) return; // If block is busy then bail out.
-  float entry_factor = entry_speed / block->nominal_speed;
-  float exit_factor = exit_speed / block->nominal_speed;
-  long initial_rate = ceil(block->nominal_rate*entry_factor);
-  long final_rate = ceil(block->nominal_rate*exit_factor);
-  
-#ifdef ADVANCE
-  long initial_advance = block->advance*entry_factor*entry_factor;
-  long final_advance = block->advance*exit_factor*exit_factor;
-#endif // ADVANCE
-
-  // Limit minimal step rate (Otherwise the timer will overflow.)
-  if(initial_rate <120) initial_rate=120;
-  if(final_rate < 120) final_rate=120;
-  
-  // Calculate the acceleration steps
-  long acceleration = block->acceleration_st;
-  long accelerate_steps = estimate_acceleration_distance(initial_rate, block->nominal_rate, acceleration);
-  long decelerate_steps = estimate_acceleration_distance(final_rate, block->nominal_rate, acceleration);
-  // Calculate the size of Plateau of Nominal Rate. 
-  long plateau_steps = block->step_event_count-accelerate_steps-decelerate_steps;
-
-  // Is the Plateau of Nominal Rate smaller than nothing? That means no cruising, and we will
-  // have to use intersection_distance() to calculate when to abort acceleration and start braking 
-  // in order to reach the final_rate exactly at the end of this block.
-  if (plateau_steps < 0) {  
-    accelerate_steps = intersection_distance(initial_rate, final_rate, acceleration, block->step_event_count);
-    plateau_steps = 0;
-  }  
-
-  long decelerate_after = accelerate_steps+plateau_steps;
-
-  CRITICAL_SECTION_START;  // Fill variables used by the stepper in a critical section
-  if(block->busy == false) { // Don't update variables if block is busy.
-    block->accelerate_until = accelerate_steps;
-    block->decelerate_after = decelerate_after;
-    block->initial_rate = initial_rate;
-    block->final_rate = final_rate;
-#ifdef ADVANCE
-    block->initial_advance = initial_advance;
-    block->final_advance = final_advance;
-#endif //ADVANCE
-  }
-  CRITICAL_SECTION_END;
-}                    
-
-// Calculates the maximum allowable speed at this point when you must be able to reach target_velocity using the 
-// acceleration within the allotted distance.
-inline float max_allowable_speed(float acceleration, float target_velocity, float distance) {
-  return(
-  sqrt(target_velocity*target_velocity-2*acceleration*60*60*distance)
-    );
-}
-
-// "Junction jerk" in this context is the immediate change in speed at the junction of two blocks.
-// This method will calculate the junction jerk as the euclidean distance between the nominal 
-// velocities of the respective blocks.
-inline float junction_jerk(block_t *before, block_t *after) {
-  return(sqrt(
-    pow((before->speed_x-after->speed_x), 2)+
-    pow((before->speed_y-after->speed_y), 2)));
-}
-
-// Return the safe speed which is max_jerk/2, e.g. the 
-// speed under which you cannot exceed max_jerk no matter what you do.
-float safe_speed(block_t *block) {
-  float safe_speed;
-  safe_speed = max_xy_jerk/2;  
-  if(abs(block->speed_z) > max_z_jerk/2) safe_speed = max_z_jerk/2;
-  if (safe_speed > block->nominal_speed) safe_speed = block->nominal_speed;
-  return safe_speed;  
-}
-
-// The kernel called by planner_recalculate() when scanning the plan from last to first entry.
-void planner_reverse_pass_kernel(block_t *previous, block_t *current, block_t *next) {
-  if(!current) { 
-    return; 
-  }
-
-  float entry_speed = current->nominal_speed;
-  float exit_factor;
-  float exit_speed;
-  if (next) {
-    exit_speed = next->entry_speed;
-  } 
-  else {
-    exit_speed = safe_speed(current);
-  }
-
-  // Calculate the entry_factor for the current block. 
-  if (previous) {
-    // Reduce speed so that junction_jerk is within the maximum allowed
-    float jerk = junction_jerk(previous, current);
-    if((previous->steps_x == 0) && (previous->steps_y == 0)) {
-      entry_speed = safe_speed(current);
-    }
-    else if (jerk > max_xy_jerk) {
-      entry_speed = (max_xy_jerk/jerk) * entry_speed;
-    } 
-    if(abs(previous->speed_z - current->speed_z) > max_z_jerk) {
-      entry_speed = (max_z_jerk/abs(previous->speed_z - current->speed_z)) * entry_speed;
-    } 
-    // If the required deceleration across the block is too rapid, reduce the entry_factor accordingly.
-    if (entry_speed > exit_speed) {
-      float max_entry_speed = max_allowable_speed(-current->acceleration,exit_speed, current->millimeters);
-      if (max_entry_speed < entry_speed) {
-        entry_speed = max_entry_speed;
-      }
-    }    
-  } 
-  else {
-    entry_speed = safe_speed(current);
-  }
-  // Store result
-  current->entry_speed = entry_speed;
-}
-
-// planner_recalculate() needs to go over the current plan twice. Once in reverse and once forward. This 
-// implements the reverse pass.
-void planner_reverse_pass() {
-  char block_index = block_buffer_head;
-  if(((block_buffer_head-block_buffer_tail + BLOCK_BUFFER_SIZE) & (BLOCK_BUFFER_SIZE - 1)) > 3) {
-    block_index = (block_buffer_head - 3) & (BLOCK_BUFFER_SIZE - 1);
-    block_t *block[5] = {
-      NULL, NULL, NULL, NULL, NULL  };
-    while(block_index != block_buffer_tail) { 
-      block_index = (block_index-1) & (BLOCK_BUFFER_SIZE -1); 
-      block[2]= block[1];
-      block[1]= block[0];
-      block[0] = &block_buffer[block_index];
-      planner_reverse_pass_kernel(block[0], block[1], block[2]);
-    }
-    planner_reverse_pass_kernel(NULL, block[0], block[1]);
-  }
-}
-
-// The kernel called by planner_recalculate() when scanning the plan from first to last entry.
-void planner_forward_pass_kernel(block_t *previous, block_t *current, block_t *next) {
-  if(!current) { 
-    return; 
-  }
-  if(previous) {
-    // If the previous block is an acceleration block, but it is not long enough to 
-    // complete the full speed change within the block, we need to adjust out entry
-    // speed accordingly. Remember current->entry_factor equals the exit factor of 
-    // the previous block.
-    if(previous->entry_speed < current->entry_speed) {
-      float max_entry_speed = max_allowable_speed(-previous->acceleration, previous->entry_speed, previous->millimeters);
-      if (max_entry_speed < current->entry_speed) {
-        current->entry_speed = max_entry_speed;
-      }
-    }
-  }
-}
-
-// planner_recalculate() needs to go over the current plan twice. Once in reverse and once forward. This 
-// implements the forward pass.
-void planner_forward_pass() {
-  char block_index = block_buffer_tail;
-  block_t *block[3] = {
-    NULL, NULL, NULL  };
-
-  while(block_index != block_buffer_head) {
-    block[0] = block[1];
-    block[1] = block[2];
-    block[2] = &block_buffer[block_index];
-    planner_forward_pass_kernel(block[0],block[1],block[2]);
-    block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
-  }
-  planner_forward_pass_kernel(block[1], block[2], NULL);
-}
-
-// Recalculates the trapezoid speed profiles for all blocks in the plan according to the 
-// entry_factor for each junction. Must be called by planner_recalculate() after 
-// updating the blocks.
-void planner_recalculate_trapezoids() {
-  char block_index = block_buffer_tail;
-  block_t *current;
-  block_t *next = NULL;
-  while(block_index != block_buffer_head) {
-    current = next;
-    next = &block_buffer[block_index];
-    if (current) {
-      calculate_trapezoid_for_block(current, current->entry_speed, next->entry_speed);      
-    }
-    block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
-  }
-  calculate_trapezoid_for_block(next, next->entry_speed, safe_speed(next));
-}
-
-// Recalculates the motion plan according to the following algorithm:
-//
-//   1. Go over every block in reverse order and calculate a junction speed reduction (i.e. block_t.entry_factor) 
-//      so that:
-//     a. The junction jerk is within the set limit
-//     b. No speed reduction within one block requires faster deceleration than the one, true constant 
-//        acceleration.
-//   2. Go over every block in chronological order and dial down junction speed reduction values if 
-//     a. The speed increase within one block would require faster accelleration than the one, true 
-//        constant acceleration.
-//
-// When these stages are complete all blocks have an entry_factor that will allow all speed changes to 
-// be performed using only the one, true constant acceleration, and where no junction jerk is jerkier than 
-// the set limit. Finally it will:
-//
-//   3. Recalculate trapezoids for all blocks.
-
-void planner_recalculate() {   
-  planner_reverse_pass();
-  planner_forward_pass();
-  planner_recalculate_trapezoids();
-}
-
-void plan_init() {
-  block_buffer_head = 0;
-  block_buffer_tail = 0;
-  memset(position, 0, sizeof(position)); // clear position
-}
-
-
-void plan_discard_current_block() {
-  if (block_buffer_head != block_buffer_tail) {
-    block_buffer_tail = (block_buffer_tail + 1) & (BLOCK_BUFFER_SIZE - 1);  
-  }
-}
-
-block_t *plan_get_current_block() {
-  if (block_buffer_head == block_buffer_tail) { 
-    return(NULL); 
-  }
-  block_t *block = &block_buffer[block_buffer_tail];
-  block->busy = true;
-  return(block);
-}
-
-void check_axes_activity() {
-  unsigned char x_active = 0;
-  unsigned char y_active = 0;  
-  unsigned char z_active = 0;
-  unsigned char e_active = 0;
-  block_t *block;
-
-  if(block_buffer_tail != block_buffer_head) {
-    char block_index = block_buffer_tail;
-    while(block_index != block_buffer_head) {
-      block = &block_buffer[block_index];
-      if(block->steps_x != 0) x_active++;
-      if(block->steps_y != 0) y_active++;
-      if(block->steps_z != 0) z_active++;
-      if(block->steps_e != 0) e_active++;
-      block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
-    }
-  }
-  if((DISABLE_X) && (x_active == 0)) disable_x();
-  if((DISABLE_Y) && (y_active == 0)) disable_y();
-  if((DISABLE_Z) && (z_active == 0)) disable_z();
-  if((DISABLE_E) && (e_active == 0)) disable_e();
-}
-
-// Add a new linear movement to the buffer. steps_x, _y and _z is the absolute position in 
-// mm. Microseconds specify how many microseconds the move should take to perform. To aid acceleration
-// calculation the caller must also provide the physical length of the line in millimeters.
-void plan_buffer_line(float x, float y, float z, float e, float feed_rate) {
-
-
-  // Calculate the buffer head after we push this byte
-  int next_buffer_head = (block_buffer_head + 1) & (BLOCK_BUFFER_SIZE - 1);
-
-  // If the buffer is full: good! That means we are well ahead of the robot. 
-  // Rest here until there is room in the buffer.
-  while(block_buffer_tail == next_buffer_head) { 
-    manage_heater(); 
-    manage_inactivity(1); 
-    LCD_STATUS;
-  }
-
+/*
+  planner.c - buffers movement commands and manages the acceleration profile plan
+  Part of Grbl
+
+  Copyright (c) 2009-2011 Simen Svale Skogsrud
+
+  Grbl is free software: you can redistribute it and/or modify
+  it under the terms of the GNU General Public License as published by
+  the Free Software Foundation, either version 3 of the License, or
+  (at your option) any later version.
+
+  Grbl is distributed in the hope that it will be useful,
+  but WITHOUT ANY WARRANTY; without even the implied warranty of
+  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+  GNU General Public License for more details.
+
+  You should have received a copy of the GNU General Public License
+  along with Grbl.  If not, see <http://www.gnu.org/licenses/>.
+*/
+
+/* The ring buffer implementation gleaned from the wiring_serial library by David A. Mellis. */
+
+/*  
+  Reasoning behind the mathematics in this module (in the key of 'Mathematica'):
+  
+  s == speed, a == acceleration, t == time, d == distance
+
+  Basic definitions:
+
+    Speed[s_, a_, t_] := s + (a*t) 
+    Travel[s_, a_, t_] := Integrate[Speed[s, a, t], t]
+
+  Distance to reach a specific speed with a constant acceleration:
+
+    Solve[{Speed[s, a, t] == m, Travel[s, a, t] == d}, d, t]
+      d -> (m^2 - s^2)/(2 a) --> estimate_acceleration_distance()
+
+  Speed after a given distance of travel with constant acceleration:
+
+    Solve[{Speed[s, a, t] == m, Travel[s, a, t] == d}, m, t]
+      m -> Sqrt[2 a d + s^2]    
+
+    DestinationSpeed[s_, a_, d_] := Sqrt[2 a d + s^2]
+
+  When to start braking (di) to reach a specified destionation speed (s2) after accelerating
+  from initial speed s1 without ever stopping at a plateau:
+
+    Solve[{DestinationSpeed[s1, a, di] == DestinationSpeed[s2, a, d - di]}, di]
+      di -> (2 a d - s1^2 + s2^2)/(4 a) --> intersection_distance()
+
+    IntersectionDistance[s1_, s2_, a_, d_] := (2 a d - s1^2 + s2^2)/(4 a)
+*/
+                                                                                                            
+
+//#include <inttypes.h>
+//#include <math.h>       
+//#include <stdlib.h>
+
+#include "Marlin.h"
+#include "Configuration.h"
+#include "pins.h"
+#include "fastio.h"
+#include "planner.h"
+#include "stepper.h"
+#include "temperature.h"
+#include "ultralcd.h"
+
+unsigned long minsegmenttime;
+float max_feedrate[4]; // set the max speeds
+float axis_steps_per_unit[4];
+long max_acceleration_units_per_sq_second[4]; // Use M201 to override by software
+float minimumfeedrate;
+float acceleration;         // Normal acceleration mm/s^2  THIS IS THE DEFAULT ACCELERATION for all moves. M204 SXXXX
+float retract_acceleration; //  mm/s^2   filament pull-pack and push-forward  while standing still in the other axis M204 TXXXX
+float max_xy_jerk; //speed than can be stopped at once, if i understand correctly.
+float max_z_jerk;
+float mintravelfeedrate;
+unsigned long axis_steps_per_sqr_second[NUM_AXIS];
+// Manage heater variables.
+
+static block_t block_buffer[BLOCK_BUFFER_SIZE];            // A ring buffer for motion instfructions
+static volatile unsigned char block_buffer_head;           // Index of the next block to be pushed
+static volatile unsigned char block_buffer_tail;           // Index of the block to process now
+
+// The current position of the tool in absolute steps
+ long position[4];   
+
+#define ONE_MINUTE_OF_MICROSECONDS 60000000.0
+
+// Calculates the distance (not time) it takes to accelerate from initial_rate to target_rate using the 
+// given acceleration:
+inline float estimate_acceleration_distance(float initial_rate, float target_rate, float acceleration) {
+  if (acceleration!=0) {
+  return((target_rate*target_rate-initial_rate*initial_rate)/
+         (2.0*acceleration));
+  }
+  else {
+    return 0.0;  // acceleration was 0, set acceleration distance to 0
+  }
+}
+
+// This function gives you the point at which you must start braking (at the rate of -acceleration) if 
+// you started at speed initial_rate and accelerated until this point and want to end at the final_rate after
+// a total travel of distance. This can be used to compute the intersection point between acceleration and
+// deceleration in the cases where the trapezoid has no plateau (i.e. never reaches maximum speed)
+
+inline float intersection_distance(float initial_rate, float final_rate, float acceleration, float distance) {
+ if (acceleration!=0) {
+  return((2.0*acceleration*distance-initial_rate*initial_rate+final_rate*final_rate)/
+         (4.0*acceleration) );
+  }
+  else {
+    return 0.0;  // acceleration was 0, set intersection distance to 0
+  }
+}
+
+// Calculates trapezoid parameters so that the entry- and exit-speed is compensated by the provided factors.
+
+void calculate_trapezoid_for_block(block_t *block, float entry_speed, float exit_speed) {
+  if(block->busy == true) return; // If block is busy then bail out.
+  float entry_factor = entry_speed / block->nominal_speed;
+  float exit_factor = exit_speed / block->nominal_speed;
+  long initial_rate = ceil(block->nominal_rate*entry_factor);
+  long final_rate = ceil(block->nominal_rate*exit_factor);
+  
+#ifdef ADVANCE
+  long initial_advance = block->advance*entry_factor*entry_factor;
+  long final_advance = block->advance*exit_factor*exit_factor;
+#endif // ADVANCE
+
+  // Limit minimal step rate (Otherwise the timer will overflow.)
+  if(initial_rate <120) initial_rate=120;
+  if(final_rate < 120) final_rate=120;
+  
+  // Calculate the acceleration steps
+  long acceleration = block->acceleration_st;
+  long accelerate_steps = estimate_acceleration_distance(initial_rate, block->nominal_rate, acceleration);
+  long decelerate_steps = estimate_acceleration_distance(final_rate, block->nominal_rate, acceleration);
+  // Calculate the size of Plateau of Nominal Rate. 
+  long plateau_steps = block->step_event_count-accelerate_steps-decelerate_steps;
+
+  // Is the Plateau of Nominal Rate smaller than nothing? That means no cruising, and we will
+  // have to use intersection_distance() to calculate when to abort acceleration and start braking 
+  // in order to reach the final_rate exactly at the end of this block.
+  if (plateau_steps < 0) {  
+    accelerate_steps = intersection_distance(initial_rate, final_rate, acceleration, block->step_event_count);
+    plateau_steps = 0;
+  }  
+
+  long decelerate_after = accelerate_steps+plateau_steps;
+
+  CRITICAL_SECTION_START;  // Fill variables used by the stepper in a critical section
+  if(block->busy == false) { // Don't update variables if block is busy.
+    block->accelerate_until = accelerate_steps;
+    block->decelerate_after = decelerate_after;
+    block->initial_rate = initial_rate;
+    block->final_rate = final_rate;
+#ifdef ADVANCE
+    block->initial_advance = initial_advance;
+    block->final_advance = final_advance;
+#endif //ADVANCE
+  }
+  CRITICAL_SECTION_END;
+}                    
+
+// Calculates the maximum allowable speed at this point when you must be able to reach target_velocity using the 
+// acceleration within the allotted distance.
+inline float max_allowable_speed(float acceleration, float target_velocity, float distance) {
+  return(
+  sqrt(target_velocity*target_velocity-2*acceleration*60*60*distance)
+    );
+}
+
+// "Junction jerk" in this context is the immediate change in speed at the junction of two blocks.
+// This method will calculate the junction jerk as the euclidean distance between the nominal 
+// velocities of the respective blocks.
+inline float junction_jerk(block_t *before, block_t *after) {
+  return(sqrt(
+    pow((before->speed_x-after->speed_x), 2)+
+    pow((before->speed_y-after->speed_y), 2)));
+}
+
+// Return the safe speed which is max_jerk/2, e.g. the 
+// speed under which you cannot exceed max_jerk no matter what you do.
+float safe_speed(block_t *block) {
+  float safe_speed;
+  safe_speed = max_xy_jerk/2;  
+  if(abs(block->speed_z) > max_z_jerk/2) safe_speed = max_z_jerk/2;
+  if (safe_speed > block->nominal_speed) safe_speed = block->nominal_speed;
+  return safe_speed;  
+}
+
+// The kernel called by planner_recalculate() when scanning the plan from last to first entry.
+void planner_reverse_pass_kernel(block_t *previous, block_t *current, block_t *next) {
+  if(!current) { 
+    return; 
+  }
+
+  float entry_speed = current->nominal_speed;
+  float exit_factor;
+  float exit_speed;
+  if (next) {
+    exit_speed = next->entry_speed;
+  } 
+  else {
+    exit_speed = safe_speed(current);
+  }
+
+  // Calculate the entry_factor for the current block. 
+  if (previous) {
+    // Reduce speed so that junction_jerk is within the maximum allowed
+    float jerk = junction_jerk(previous, current);
+    if((previous->steps_x == 0) && (previous->steps_y == 0)) {
+      entry_speed = safe_speed(current);
+    }
+    else if (jerk > max_xy_jerk) {
+      entry_speed = (max_xy_jerk/jerk) * entry_speed;
+    } 
+    if(abs(previous->speed_z - current->speed_z) > max_z_jerk) {
+      entry_speed = (max_z_jerk/abs(previous->speed_z - current->speed_z)) * entry_speed;
+    } 
+    // If the required deceleration across the block is too rapid, reduce the entry_factor accordingly.
+    if (entry_speed > exit_speed) {
+      float max_entry_speed = max_allowable_speed(-current->acceleration,exit_speed, current->millimeters);
+      if (max_entry_speed < entry_speed) {
+        entry_speed = max_entry_speed;
+      }
+    }    
+  } 
+  else {
+    entry_speed = safe_speed(current);
+  }
+  // Store result
+  current->entry_speed = entry_speed;
+}
+
+// planner_recalculate() needs to go over the current plan twice. Once in reverse and once forward. This 
+// implements the reverse pass.
+void planner_reverse_pass() {
+  char block_index = block_buffer_head;
+  if(((block_buffer_head-block_buffer_tail + BLOCK_BUFFER_SIZE) & (BLOCK_BUFFER_SIZE - 1)) > 3) {
+    block_index = (block_buffer_head - 3) & (BLOCK_BUFFER_SIZE - 1);
+    block_t *block[5] = {
+      NULL, NULL, NULL, NULL, NULL  };
+    while(block_index != block_buffer_tail) { 
+      block_index = (block_index-1) & (BLOCK_BUFFER_SIZE -1); 
+      block[2]= block[1];
+      block[1]= block[0];
+      block[0] = &block_buffer[block_index];
+      planner_reverse_pass_kernel(block[0], block[1], block[2]);
+    }
+    planner_reverse_pass_kernel(NULL, block[0], block[1]);
+  }
+}
+
+// The kernel called by planner_recalculate() when scanning the plan from first to last entry.
+void planner_forward_pass_kernel(block_t *previous, block_t *current, block_t *next) {
+  if(!current) { 
+    return; 
+  }
+  if(previous) {
+    // If the previous block is an acceleration block, but it is not long enough to 
+    // complete the full speed change within the block, we need to adjust out entry
+    // speed accordingly. Remember current->entry_factor equals the exit factor of 
+    // the previous block.
+    if(previous->entry_speed < current->entry_speed) {
+      float max_entry_speed = max_allowable_speed(-previous->acceleration, previous->entry_speed, previous->millimeters);
+      if (max_entry_speed < current->entry_speed) {
+        current->entry_speed = max_entry_speed;
+      }
+    }
+  }
+}
+
+// planner_recalculate() needs to go over the current plan twice. Once in reverse and once forward. This 
+// implements the forward pass.
+void planner_forward_pass() {
+  char block_index = block_buffer_tail;
+  block_t *block[3] = {
+    NULL, NULL, NULL  };
+
+  while(block_index != block_buffer_head) {
+    block[0] = block[1];
+    block[1] = block[2];
+    block[2] = &block_buffer[block_index];
+    planner_forward_pass_kernel(block[0],block[1],block[2]);
+    block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
+  }
+  planner_forward_pass_kernel(block[1], block[2], NULL);
+}
+
+// Recalculates the trapezoid speed profiles for all blocks in the plan according to the 
+// entry_factor for each junction. Must be called by planner_recalculate() after 
+// updating the blocks.
+void planner_recalculate_trapezoids() {
+  char block_index = block_buffer_tail;
+  block_t *current;
+  block_t *next = NULL;
+  while(block_index != block_buffer_head) {
+    current = next;
+    next = &block_buffer[block_index];
+    if (current) {
+      calculate_trapezoid_for_block(current, current->entry_speed, next->entry_speed);      
+    }
+    block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
+  }
+  calculate_trapezoid_for_block(next, next->entry_speed, safe_speed(next));
+}
+
+// Recalculates the motion plan according to the following algorithm:
+//
+//   1. Go over every block in reverse order and calculate a junction speed reduction (i.e. block_t.entry_factor) 
+//      so that:
+//     a. The junction jerk is within the set limit
+//     b. No speed reduction within one block requires faster deceleration than the one, true constant 
+//        acceleration.
+//   2. Go over every block in chronological order and dial down junction speed reduction values if 
+//     a. The speed increase within one block would require faster accelleration than the one, true 
+//        constant acceleration.
+//
+// When these stages are complete all blocks have an entry_factor that will allow all speed changes to 
+// be performed using only the one, true constant acceleration, and where no junction jerk is jerkier than 
+// the set limit. Finally it will:
+//
+//   3. Recalculate trapezoids for all blocks.
+
+void planner_recalculate() {   
+  planner_reverse_pass();
+  planner_forward_pass();
+  planner_recalculate_trapezoids();
+}
+
+void plan_init() {
+  block_buffer_head = 0;
+  block_buffer_tail = 0;
+  memset(position, 0, sizeof(position)); // clear position
+}
+
+
+void plan_discard_current_block() {
+  if (block_buffer_head != block_buffer_tail) {
+    block_buffer_tail = (block_buffer_tail + 1) & (BLOCK_BUFFER_SIZE - 1);  
+  }
+}
+
+block_t *plan_get_current_block() {
+  if (block_buffer_head == block_buffer_tail) { 
+    return(NULL); 
+  }
+  block_t *block = &block_buffer[block_buffer_tail];
+  block->busy = true;
+  return(block);
+}
+
+void check_axes_activity() {
+  unsigned char x_active = 0;
+  unsigned char y_active = 0;  
+  unsigned char z_active = 0;
+  unsigned char e_active = 0;
+  block_t *block;
+
+  if(block_buffer_tail != block_buffer_head) {
+    char block_index = block_buffer_tail;
+    while(block_index != block_buffer_head) {
+      block = &block_buffer[block_index];
+      if(block->steps_x != 0) x_active++;
+      if(block->steps_y != 0) y_active++;
+      if(block->steps_z != 0) z_active++;
+      if(block->steps_e != 0) e_active++;
+      block_index = (block_index+1) & (BLOCK_BUFFER_SIZE - 1);
+    }
+  }
+  if((DISABLE_X) && (x_active == 0)) disable_x();
+  if((DISABLE_Y) && (y_active == 0)) disable_y();
+  if((DISABLE_Z) && (z_active == 0)) disable_z();
+  if((DISABLE_E) && (e_active == 0)) disable_e();
+}
+
+// Add a new linear movement to the buffer. steps_x, _y and _z is the absolute position in 
+// mm. Microseconds specify how many microseconds the move should take to perform. To aid acceleration
+// calculation the caller must also provide the physical length of the line in millimeters.
+void plan_buffer_line(float x, float y, float z, float e, float feed_rate) {
+
+
+  // Calculate the buffer head after we push this byte
+  int next_buffer_head = (block_buffer_head + 1) & (BLOCK_BUFFER_SIZE - 1);
+
+  // If the buffer is full: good! That means we are well ahead of the robot. 
+  // Rest here until there is room in the buffer.
+  while(block_buffer_tail == next_buffer_head) { 
+    manage_heater(); 
+    manage_inactivity(1); 
+    LCD_STATUS;
+  }
+
   // The target position of the tool in absolute steps
   // Calculate target position in absolute steps
   //this should be done after the wait, because otherwise a M92 code within the gcode disrupts this calculation somehow
@@ -402,185 +402,185 @@ void plan_buffer_line(float x, float y, float z, float e, float feed_rate) {
   target[Z_AXIS] = lround(z*axis_steps_per_unit[Z_AXIS]);     
   target[E_AXIS] = lround(e*axis_steps_per_unit[E_AXIS]); 
   
-  // Prepare to set up new block
-  block_t *block = &block_buffer[block_buffer_head];
-  
-  // Mark block as not busy (Not executed by the stepper interrupt)
-  block->busy = false;
-
-  // Number of steps for each axis
-  block->steps_x = labs(target[X_AXIS]-position[X_AXIS]);
-  block->steps_y = labs(target[Y_AXIS]-position[Y_AXIS]);
-  block->steps_z = labs(target[Z_AXIS]-position[Z_AXIS]);
-  block->steps_e = labs(target[E_AXIS]-position[E_AXIS]);
-  block->step_event_count = max(block->steps_x, max(block->steps_y, max(block->steps_z, block->steps_e)));
-
-  // Bail if this is a zero-length block
-  if (block->step_event_count <=dropsegments) { 
-    return; 
-  };
-
-  //enable active axes
-  if(block->steps_x != 0) enable_x();
-  if(block->steps_y != 0) enable_y();
-  if(block->steps_z != 0) enable_z();
-  if(block->steps_e != 0) enable_e();
-
-  float delta_x_mm = (target[X_AXIS]-position[X_AXIS])/axis_steps_per_unit[X_AXIS];
-  float delta_y_mm = (target[Y_AXIS]-position[Y_AXIS])/axis_steps_per_unit[Y_AXIS];
-  float delta_z_mm = (target[Z_AXIS]-position[Z_AXIS])/axis_steps_per_unit[Z_AXIS];
-  float delta_e_mm = (target[E_AXIS]-position[E_AXIS])/axis_steps_per_unit[E_AXIS];
-  block->millimeters = sqrt(square(delta_x_mm) + square(delta_y_mm) + square(delta_z_mm) + square(delta_e_mm));
-
-  unsigned long microseconds;
-
-  if (block->steps_e == 0) {
-        if(feed_rate<mintravelfeedrate) feed_rate=mintravelfeedrate;
-  }
-  else {
-    	if(feed_rate<minimumfeedrate) feed_rate=minimumfeedrate;
-  } 
-
-  microseconds = lround((block->millimeters/feed_rate)*1000000);
-
-  // slow down when de buffer starts to empty, rather than wait at the corner for a buffer refill
-  // reduces/removes corner blobs as the machine won't come to a full stop.
-  int blockcount=(block_buffer_head-block_buffer_tail + BLOCK_BUFFER_SIZE) & (BLOCK_BUFFER_SIZE - 1);
-  
-  if ((blockcount>0) && (blockcount < (BLOCK_BUFFER_SIZE - 4))) {
-    if (microseconds<minsegmenttime)  { // buffer is draining, add extra time.  The amount of time added increases if the buffer is still emptied more.
-        microseconds=microseconds+lround(2*(minsegmenttime-microseconds)/blockcount);
-    }
-  }
-  else {
-    if (microseconds<minsegmenttime) microseconds=minsegmenttime;
-  }
-  //  END OF SLOW DOWN SECTION  
-  
-  
-  // Calculate speed in mm/minute for each axis
-  float multiplier = 60.0*1000000.0/microseconds;
-  block->speed_z = delta_z_mm * multiplier; 
-  block->speed_x = delta_x_mm * multiplier;
-  block->speed_y = delta_y_mm * multiplier;
-  block->speed_e = delta_e_mm * multiplier; 
-
-
-  // Limit speed per axis
-  float speed_factor = 1; //factor <=1 do decrease speed
-  if(abs(block->speed_x) > max_feedrate[X_AXIS]) {
-    //// [ErikDeBruijn] IS THIS THE BUG WE'RE LOOING FOR????
-    //// [bernhard] No its not, according to Zalm.
-		//// the if would always be true, since tmp_speedfactor <=0 due the inial if, so its safe to set. the next lines actually compare.
-    speed_factor = max_feedrate[X_AXIS] / abs(block->speed_x);
-    //if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
-  }
-  if(abs(block->speed_y) > max_feedrate[Y_AXIS]){
-    float tmp_speed_factor = max_feedrate[Y_AXIS] / abs(block->speed_y);
-    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
-  }
-  if(abs(block->speed_z) > max_feedrate[Z_AXIS]){
-    float tmp_speed_factor = max_feedrate[Z_AXIS] / abs(block->speed_z);
-    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
-  }
-  if(abs(block->speed_e) > max_feedrate[E_AXIS]){
-    float tmp_speed_factor = max_feedrate[E_AXIS] / abs(block->speed_e);
-    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
-  }
-  multiplier = multiplier * speed_factor;
-  block->speed_z = delta_z_mm * multiplier; 
-  block->speed_x = delta_x_mm * multiplier;
-  block->speed_y = delta_y_mm * multiplier;
-  block->speed_e = delta_e_mm * multiplier; 
-  block->nominal_speed = block->millimeters * multiplier;
-  block->nominal_rate = ceil(block->step_event_count * multiplier / 60);  
-
-  if(block->nominal_rate < 120) block->nominal_rate = 120;
-  block->entry_speed = safe_speed(block);
-
-  // Compute the acceleration rate for the trapezoid generator. 
-  float travel_per_step = block->millimeters/block->step_event_count;
-  if(block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0) {
-    block->acceleration_st = ceil( (retract_acceleration)/travel_per_step); // convert to: acceleration steps/sec^2
-  }
-  else {
-    block->acceleration_st = ceil( (acceleration)/travel_per_step);      // convert to: acceleration steps/sec^2
-    float tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
-    // Limit acceleration per axis
-    if((tmp_acceleration * block->steps_x) > axis_steps_per_sqr_second[X_AXIS]) {
-      block->acceleration_st = axis_steps_per_sqr_second[X_AXIS];
-      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
-    }
-    if((tmp_acceleration * block->steps_y) > axis_steps_per_sqr_second[Y_AXIS]) {
-      block->acceleration_st = axis_steps_per_sqr_second[Y_AXIS];
-      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
-    }
-    if((tmp_acceleration * block->steps_e) > axis_steps_per_sqr_second[E_AXIS]) {
-      block->acceleration_st = axis_steps_per_sqr_second[E_AXIS];
-      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
-    }
-    if((tmp_acceleration * block->steps_z) > axis_steps_per_sqr_second[Z_AXIS]) {
-      block->acceleration_st = axis_steps_per_sqr_second[Z_AXIS];
-      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
-    }
-  }
-  block->acceleration = block->acceleration_st * travel_per_step;
-  block->acceleration_rate = (long)((float)block->acceleration_st * 8.388608);
-
-#ifdef ADVANCE
-  // Calculate advance rate
-  if((block->steps_e == 0) || (block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0)) {
-    block->advance_rate = 0;
-    block->advance = 0;
-  }
-  else {
-    long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_st);
-    float advance = (STEPS_PER_CUBIC_MM_E * EXTRUDER_ADVANCE_K) * 
-      (block->speed_e * block->speed_e * EXTRUTION_AREA * EXTRUTION_AREA / 3600.0)*65536;
-    block->advance = advance;
-    if(acc_dist == 0) {
-      block->advance_rate = 0;
-    } 
-    else {
-      block->advance_rate = advance / (float)acc_dist;
-    }
-  }
-#endif // ADVANCE
-
-  // compute a preliminary conservative acceleration trapezoid
-  float safespeed = safe_speed(block);
-  calculate_trapezoid_for_block(block, safespeed, safespeed); 
-
-  // Compute direction bits for this block
-  block->direction_bits = 0;
-  if (target[X_AXIS] < position[X_AXIS]) { 
-    block->direction_bits |= (1<<X_AXIS); 
-  }
-  if (target[Y_AXIS] < position[Y_AXIS]) { 
-    block->direction_bits |= (1<<Y_AXIS); 
-  }
-  if (target[Z_AXIS] < position[Z_AXIS]) { 
-    block->direction_bits |= (1<<Z_AXIS); 
-  }
-  if (target[E_AXIS] < position[E_AXIS]) { 
-    block->direction_bits |= (1<<E_AXIS); 
-  }
-
-  // Move buffer head
-  block_buffer_head = next_buffer_head;     
-
-  // Update position 
-  memcpy(position, target, sizeof(target)); // position[] = target[]
-
-  planner_recalculate();
-  st_wake_up();
-}
-
-void plan_set_position(float x, float y, float z, float e)
-{
-  position[X_AXIS] = lround(x*axis_steps_per_unit[X_AXIS]);
-  position[Y_AXIS] = lround(y*axis_steps_per_unit[Y_AXIS]);
-  position[Z_AXIS] = lround(z*axis_steps_per_unit[Z_AXIS]);     
-  position[E_AXIS] = lround(e*axis_steps_per_unit[E_AXIS]);     
-}
-
+  // Prepare to set up new block
+  block_t *block = &block_buffer[block_buffer_head];
+  
+  // Mark block as not busy (Not executed by the stepper interrupt)
+  block->busy = false;
+
+  // Number of steps for each axis
+  block->steps_x = labs(target[X_AXIS]-position[X_AXIS]);
+  block->steps_y = labs(target[Y_AXIS]-position[Y_AXIS]);
+  block->steps_z = labs(target[Z_AXIS]-position[Z_AXIS]);
+  block->steps_e = labs(target[E_AXIS]-position[E_AXIS]);
+  block->step_event_count = max(block->steps_x, max(block->steps_y, max(block->steps_z, block->steps_e)));
+
+  // Bail if this is a zero-length block
+  if (block->step_event_count <=dropsegments) { 
+    return; 
+  };
+
+  //enable active axes
+  if(block->steps_x != 0) enable_x();
+  if(block->steps_y != 0) enable_y();
+  if(block->steps_z != 0) enable_z();
+  if(block->steps_e != 0) enable_e();
+
+  float delta_x_mm = (target[X_AXIS]-position[X_AXIS])/axis_steps_per_unit[X_AXIS];
+  float delta_y_mm = (target[Y_AXIS]-position[Y_AXIS])/axis_steps_per_unit[Y_AXIS];
+  float delta_z_mm = (target[Z_AXIS]-position[Z_AXIS])/axis_steps_per_unit[Z_AXIS];
+  float delta_e_mm = (target[E_AXIS]-position[E_AXIS])/axis_steps_per_unit[E_AXIS];
+  block->millimeters = sqrt(square(delta_x_mm) + square(delta_y_mm) + square(delta_z_mm) + square(delta_e_mm));
+
+  unsigned long microseconds;
+
+  if (block->steps_e == 0) {
+        if(feed_rate<mintravelfeedrate) feed_rate=mintravelfeedrate;
+  }
+  else {
+    	if(feed_rate<minimumfeedrate) feed_rate=minimumfeedrate;
+  } 
+
+  microseconds = lround((block->millimeters/feed_rate)*1000000);
+
+  // slow down when de buffer starts to empty, rather than wait at the corner for a buffer refill
+  // reduces/removes corner blobs as the machine won't come to a full stop.
+  int blockcount=(block_buffer_head-block_buffer_tail + BLOCK_BUFFER_SIZE) & (BLOCK_BUFFER_SIZE - 1);
+  
+  if ((blockcount>0) && (blockcount < (BLOCK_BUFFER_SIZE - 4))) {
+    if (microseconds<minsegmenttime)  { // buffer is draining, add extra time.  The amount of time added increases if the buffer is still emptied more.
+        microseconds=microseconds+lround(2*(minsegmenttime-microseconds)/blockcount);
+    }
+  }
+  else {
+    if (microseconds<minsegmenttime) microseconds=minsegmenttime;
+  }
+  //  END OF SLOW DOWN SECTION  
+  
+  
+  // Calculate speed in mm/minute for each axis
+  float multiplier = 60.0*1000000.0/microseconds;
+  block->speed_z = delta_z_mm * multiplier; 
+  block->speed_x = delta_x_mm * multiplier;
+  block->speed_y = delta_y_mm * multiplier;
+  block->speed_e = delta_e_mm * multiplier; 
+
+
+  // Limit speed per axis
+  float speed_factor = 1; //factor <=1 do decrease speed
+  if(abs(block->speed_x) > max_feedrate[X_AXIS]) {
+    //// [ErikDeBruijn] IS THIS THE BUG WE'RE LOOING FOR????
+    //// [bernhard] No its not, according to Zalm.
+		//// the if would always be true, since tmp_speedfactor <=0 due the inial if, so its safe to set. the next lines actually compare.
+    speed_factor = max_feedrate[X_AXIS] / abs(block->speed_x);
+    //if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
+  }
+  if(abs(block->speed_y) > max_feedrate[Y_AXIS]){
+    float tmp_speed_factor = max_feedrate[Y_AXIS] / abs(block->speed_y);
+    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
+  }
+  if(abs(block->speed_z) > max_feedrate[Z_AXIS]){
+    float tmp_speed_factor = max_feedrate[Z_AXIS] / abs(block->speed_z);
+    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
+  }
+  if(abs(block->speed_e) > max_feedrate[E_AXIS]){
+    float tmp_speed_factor = max_feedrate[E_AXIS] / abs(block->speed_e);
+    if(speed_factor > tmp_speed_factor) speed_factor = tmp_speed_factor;
+  }
+  multiplier = multiplier * speed_factor;
+  block->speed_z = delta_z_mm * multiplier; 
+  block->speed_x = delta_x_mm * multiplier;
+  block->speed_y = delta_y_mm * multiplier;
+  block->speed_e = delta_e_mm * multiplier; 
+  block->nominal_speed = block->millimeters * multiplier;
+  block->nominal_rate = ceil(block->step_event_count * multiplier / 60);  
+
+  if(block->nominal_rate < 120) block->nominal_rate = 120;
+  block->entry_speed = safe_speed(block);
+
+  // Compute the acceleration rate for the trapezoid generator. 
+  float travel_per_step = block->millimeters/block->step_event_count;
+  if(block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0) {
+    block->acceleration_st = ceil( (retract_acceleration)/travel_per_step); // convert to: acceleration steps/sec^2
+  }
+  else {
+    block->acceleration_st = ceil( (acceleration)/travel_per_step);      // convert to: acceleration steps/sec^2
+    float tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
+    // Limit acceleration per axis
+    if((tmp_acceleration * block->steps_x) > axis_steps_per_sqr_second[X_AXIS]) {
+      block->acceleration_st = axis_steps_per_sqr_second[X_AXIS];
+      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
+    }
+    if((tmp_acceleration * block->steps_y) > axis_steps_per_sqr_second[Y_AXIS]) {
+      block->acceleration_st = axis_steps_per_sqr_second[Y_AXIS];
+      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
+    }
+    if((tmp_acceleration * block->steps_e) > axis_steps_per_sqr_second[E_AXIS]) {
+      block->acceleration_st = axis_steps_per_sqr_second[E_AXIS];
+      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
+    }
+    if((tmp_acceleration * block->steps_z) > axis_steps_per_sqr_second[Z_AXIS]) {
+      block->acceleration_st = axis_steps_per_sqr_second[Z_AXIS];
+      tmp_acceleration = (float)block->acceleration_st / (float)block->step_event_count;
+    }
+  }
+  block->acceleration = block->acceleration_st * travel_per_step;
+  block->acceleration_rate = (long)((float)block->acceleration_st * 8.388608);
+
+#ifdef ADVANCE
+  // Calculate advance rate
+  if((block->steps_e == 0) || (block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0)) {
+    block->advance_rate = 0;
+    block->advance = 0;
+  }
+  else {
+    long acc_dist = estimate_acceleration_distance(0, block->nominal_rate, block->acceleration_st);
+    float advance = (STEPS_PER_CUBIC_MM_E * EXTRUDER_ADVANCE_K) * 
+      (block->speed_e * block->speed_e * EXTRUTION_AREA * EXTRUTION_AREA / 3600.0)*65536;
+    block->advance = advance;
+    if(acc_dist == 0) {
+      block->advance_rate = 0;
+    } 
+    else {
+      block->advance_rate = advance / (float)acc_dist;
+    }
+  }
+#endif // ADVANCE
+
+  // compute a preliminary conservative acceleration trapezoid
+  float safespeed = safe_speed(block);
+  calculate_trapezoid_for_block(block, safespeed, safespeed); 
+
+  // Compute direction bits for this block
+  block->direction_bits = 0;
+  if (target[X_AXIS] < position[X_AXIS]) { 
+    block->direction_bits |= (1<<X_AXIS); 
+  }
+  if (target[Y_AXIS] < position[Y_AXIS]) { 
+    block->direction_bits |= (1<<Y_AXIS); 
+  }
+  if (target[Z_AXIS] < position[Z_AXIS]) { 
+    block->direction_bits |= (1<<Z_AXIS); 
+  }
+  if (target[E_AXIS] < position[E_AXIS]) { 
+    block->direction_bits |= (1<<E_AXIS); 
+  }
+
+  // Move buffer head
+  block_buffer_head = next_buffer_head;     
+
+  // Update position 
+  memcpy(position, target, sizeof(target)); // position[] = target[]
+
+  planner_recalculate();
+  st_wake_up();
+}
+
+void plan_set_position(float x, float y, float z, float e)
+{
+  position[X_AXIS] = lround(x*axis_steps_per_unit[X_AXIS]);
+  position[Y_AXIS] = lround(y*axis_steps_per_unit[Y_AXIS]);
+  position[Z_AXIS] = lround(z*axis_steps_per_unit[Z_AXIS]);     
+  position[E_AXIS] = lround(e*axis_steps_per_unit[E_AXIS]);     
+}
+
diff --git a/Marlin/speed_lookuptable.h b/Marlin/speed_lookuptable.h
index 43ef89980..05dae47df 100644
--- a/Marlin/speed_lookuptable.h
+++ b/Marlin/speed_lookuptable.h
@@ -1,75 +1,75 @@
-#ifndef SPEED_LOOKUPTABLE_H
-#define SPEED_LOOKUPTABLE_H
-
-#include <avr/pgmspace.h>
-
-uint16_t speed_lookuptable_fast[256][2] PROGMEM = {\
-{ 62500, 55556}, { 6944, 3268}, { 3676, 1176}, { 2500, 607}, { 1893, 369}, { 1524, 249}, { 1275, 179}, { 1096, 135}, 
-{ 961, 105}, { 856, 85}, { 771, 69}, { 702, 58}, { 644, 49}, { 595, 42}, { 553, 37}, { 516, 32}, 
-{ 484, 28}, { 456, 25}, { 431, 23}, { 408, 20}, { 388, 19}, { 369, 16}, { 353, 16}, { 337, 14}, 
-{ 323, 13}, { 310, 11}, { 299, 11}, { 288, 11}, { 277, 9}, { 268, 9}, { 259, 8}, { 251, 8}, 
-{ 243, 8}, { 235, 7}, { 228, 6}, { 222, 6}, { 216, 6}, { 210, 6}, { 204, 5}, { 199, 5}, 
-{ 194, 5}, { 189, 4}, { 185, 4}, { 181, 4}, { 177, 4}, { 173, 4}, { 169, 4}, { 165, 3}, 
-{ 162, 3}, { 159, 4}, { 155, 3}, { 152, 3}, { 149, 2}, { 147, 3}, { 144, 3}, { 141, 2}, 
-{ 139, 3}, { 136, 2}, { 134, 2}, { 132, 3}, { 129, 2}, { 127, 2}, { 125, 2}, { 123, 2}, 
-{ 121, 2}, { 119, 1}, { 118, 2}, { 116, 2}, { 114, 1}, { 113, 2}, { 111, 2}, { 109, 1}, 
-{ 108, 2}, { 106, 1}, { 105, 2}, { 103, 1}, { 102, 1}, { 101, 1}, { 100, 2}, { 98, 1}, 
-{ 97, 1}, { 96, 1}, { 95, 2}, { 93, 1}, { 92, 1}, { 91, 1}, { 90, 1}, { 89, 1}, 
-{ 88, 1}, { 87, 1}, { 86, 1}, { 85, 1}, { 84, 1}, { 83, 0}, { 83, 1}, { 82, 1}, 
-{ 81, 1}, { 80, 1}, { 79, 1}, { 78, 0}, { 78, 1}, { 77, 1}, { 76, 1}, { 75, 0}, 
-{ 75, 1}, { 74, 1}, { 73, 1}, { 72, 0}, { 72, 1}, { 71, 1}, { 70, 0}, { 70, 1}, 
-{ 69, 0}, { 69, 1}, { 68, 1}, { 67, 0}, { 67, 1}, { 66, 0}, { 66, 1}, { 65, 0}, 
-{ 65, 1}, { 64, 1}, { 63, 0}, { 63, 1}, { 62, 0}, { 62, 1}, { 61, 0}, { 61, 1}, 
-{ 60, 0}, { 60, 0}, { 60, 1}, { 59, 0}, { 59, 1}, { 58, 0}, { 58, 1}, { 57, 0}, 
-{ 57, 1}, { 56, 0}, { 56, 0}, { 56, 1}, { 55, 0}, { 55, 1}, { 54, 0}, { 54, 0}, 
-{ 54, 1}, { 53, 0}, { 53, 0}, { 53, 1}, { 52, 0}, { 52, 0}, { 52, 1}, { 51, 0}, 
-{ 51, 0}, { 51, 1}, { 50, 0}, { 50, 0}, { 50, 1}, { 49, 0}, { 49, 0}, { 49, 1}, 
-{ 48, 0}, { 48, 0}, { 48, 1}, { 47, 0}, { 47, 0}, { 47, 0}, { 47, 1}, { 46, 0}, 
-{ 46, 0}, { 46, 1}, { 45, 0}, { 45, 0}, { 45, 0}, { 45, 1}, { 44, 0}, { 44, 0}, 
-{ 44, 0}, { 44, 1}, { 43, 0}, { 43, 0}, { 43, 0}, { 43, 1}, { 42, 0}, { 42, 0}, 
-{ 42, 0}, { 42, 1}, { 41, 0}, { 41, 0}, { 41, 0}, { 41, 0}, { 41, 1}, { 40, 0}, 
-{ 40, 0}, { 40, 0}, { 40, 0}, { 40, 1}, { 39, 0}, { 39, 0}, { 39, 0}, { 39, 0}, 
-{ 39, 1}, { 38, 0}, { 38, 0}, { 38, 0}, { 38, 0}, { 38, 1}, { 37, 0}, { 37, 0}, 
-{ 37, 0}, { 37, 0}, { 37, 0}, { 37, 1}, { 36, 0}, { 36, 0}, { 36, 0}, { 36, 0}, 
-{ 36, 1}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 1}, 
-{ 34, 0}, { 34, 0}, { 34, 0}, { 34, 0}, { 34, 0}, { 34, 1}, { 33, 0}, { 33, 0}, 
-{ 33, 0}, { 33, 0}, { 33, 0}, { 33, 0}, { 33, 1}, { 32, 0}, { 32, 0}, { 32, 0}, 
-{ 32, 0}, { 32, 0}, { 32, 0}, { 32, 0}, { 32, 1}, { 31, 0}, { 31, 0}, { 31, 0}, 
-{ 31, 0}, { 31, 0}, { 31, 0}, { 31, 1}, { 30, 0}, { 30, 0}, { 30, 0}, { 30, 0}
-};
-uint16_t speed_lookuptable_slow[256][2] PROGMEM = {\
-{ 62500, 12500}, { 50000, 8334}, { 41666, 5952}, { 35714, 4464}, { 31250, 3473}, { 27777, 2777}, { 25000, 2273}, { 22727, 1894}, 
-{ 20833, 1603}, { 19230, 1373}, { 17857, 1191}, { 16666, 1041}, { 15625, 920}, { 14705, 817}, { 13888, 731}, { 13157, 657}, 
-{ 12500, 596}, { 11904, 541}, { 11363, 494}, { 10869, 453}, { 10416, 416}, { 10000, 385}, { 9615, 356}, { 9259, 331}, 
-{ 8928, 308}, { 8620, 287}, { 8333, 269}, { 8064, 252}, { 7812, 237}, { 7575, 223}, { 7352, 210}, { 7142, 198}, 
-{ 6944, 188}, { 6756, 178}, { 6578, 168}, { 6410, 160}, { 6250, 153}, { 6097, 145}, { 5952, 139}, { 5813, 132}, 
-{ 5681, 126}, { 5555, 121}, { 5434, 115}, { 5319, 111}, { 5208, 106}, { 5102, 102}, { 5000, 99}, { 4901, 94}, 
-{ 4807, 91}, { 4716, 87}, { 4629, 84}, { 4545, 81}, { 4464, 79}, { 4385, 75}, { 4310, 73}, { 4237, 71}, 
-{ 4166, 68}, { 4098, 66}, { 4032, 64}, { 3968, 62}, { 3906, 60}, { 3846, 59}, { 3787, 56}, { 3731, 55}, 
-{ 3676, 53}, { 3623, 52}, { 3571, 50}, { 3521, 49}, { 3472, 48}, { 3424, 46}, { 3378, 45}, { 3333, 44}, 
-{ 3289, 43}, { 3246, 41}, { 3205, 41}, { 3164, 39}, { 3125, 39}, { 3086, 38}, { 3048, 36}, { 3012, 36}, 
-{ 2976, 35}, { 2941, 35}, { 2906, 33}, { 2873, 33}, { 2840, 32}, { 2808, 31}, { 2777, 30}, { 2747, 30}, 
-{ 2717, 29}, { 2688, 29}, { 2659, 28}, { 2631, 27}, { 2604, 27}, { 2577, 26}, { 2551, 26}, { 2525, 25}, 
-{ 2500, 25}, { 2475, 25}, { 2450, 23}, { 2427, 24}, { 2403, 23}, { 2380, 22}, { 2358, 22}, { 2336, 22}, 
-{ 2314, 21}, { 2293, 21}, { 2272, 20}, { 2252, 20}, { 2232, 20}, { 2212, 20}, { 2192, 19}, { 2173, 18}, 
-{ 2155, 19}, { 2136, 18}, { 2118, 18}, { 2100, 17}, { 2083, 17}, { 2066, 17}, { 2049, 17}, { 2032, 16}, 
-{ 2016, 16}, { 2000, 16}, { 1984, 16}, { 1968, 15}, { 1953, 16}, { 1937, 14}, { 1923, 15}, { 1908, 15}, 
-{ 1893, 14}, { 1879, 14}, { 1865, 14}, { 1851, 13}, { 1838, 14}, { 1824, 13}, { 1811, 13}, { 1798, 13}, 
-{ 1785, 12}, { 1773, 13}, { 1760, 12}, { 1748, 12}, { 1736, 12}, { 1724, 12}, { 1712, 12}, { 1700, 11}, 
-{ 1689, 12}, { 1677, 11}, { 1666, 11}, { 1655, 11}, { 1644, 11}, { 1633, 10}, { 1623, 11}, { 1612, 10}, 
-{ 1602, 10}, { 1592, 10}, { 1582, 10}, { 1572, 10}, { 1562, 10}, { 1552, 9}, { 1543, 10}, { 1533, 9}, 
-{ 1524, 9}, { 1515, 9}, { 1506, 9}, { 1497, 9}, { 1488, 9}, { 1479, 9}, { 1470, 9}, { 1461, 8}, 
-{ 1453, 8}, { 1445, 9}, { 1436, 8}, { 1428, 8}, { 1420, 8}, { 1412, 8}, { 1404, 8}, { 1396, 8}, 
-{ 1388, 7}, { 1381, 8}, { 1373, 7}, { 1366, 8}, { 1358, 7}, { 1351, 7}, { 1344, 8}, { 1336, 7}, 
-{ 1329, 7}, { 1322, 7}, { 1315, 7}, { 1308, 6}, { 1302, 7}, { 1295, 7}, { 1288, 6}, { 1282, 7}, 
-{ 1275, 6}, { 1269, 7}, { 1262, 6}, { 1256, 6}, { 1250, 7}, { 1243, 6}, { 1237, 6}, { 1231, 6}, 
-{ 1225, 6}, { 1219, 6}, { 1213, 6}, { 1207, 6}, { 1201, 5}, { 1196, 6}, { 1190, 6}, { 1184, 5}, 
-{ 1179, 6}, { 1173, 5}, { 1168, 6}, { 1162, 5}, { 1157, 5}, { 1152, 6}, { 1146, 5}, { 1141, 5}, 
-{ 1136, 5}, { 1131, 5}, { 1126, 5}, { 1121, 5}, { 1116, 5}, { 1111, 5}, { 1106, 5}, { 1101, 5}, 
-{ 1096, 5}, { 1091, 5}, { 1086, 4}, { 1082, 5}, { 1077, 5}, { 1072, 4}, { 1068, 5}, { 1063, 4}, 
-{ 1059, 5}, { 1054, 4}, { 1050, 4}, { 1046, 5}, { 1041, 4}, { 1037, 4}, { 1033, 5}, { 1028, 4}, 
-{ 1024, 4}, { 1020, 4}, { 1016, 4}, { 1012, 4}, { 1008, 4}, { 1004, 4}, { 1000, 4}, { 996, 4}, 
-{ 992, 4}, { 988, 4}, { 984, 4}, { 980, 4}, { 976, 4}, { 972, 4}, { 968, 3}, { 965, 3}
-};
-
-#endif
+#ifndef SPEED_LOOKUPTABLE_H
+#define SPEED_LOOKUPTABLE_H
+
+#include <avr/pgmspace.h>
+
+uint16_t speed_lookuptable_fast[256][2] PROGMEM = {\
+{ 62500, 55556}, { 6944, 3268}, { 3676, 1176}, { 2500, 607}, { 1893, 369}, { 1524, 249}, { 1275, 179}, { 1096, 135}, 
+{ 961, 105}, { 856, 85}, { 771, 69}, { 702, 58}, { 644, 49}, { 595, 42}, { 553, 37}, { 516, 32}, 
+{ 484, 28}, { 456, 25}, { 431, 23}, { 408, 20}, { 388, 19}, { 369, 16}, { 353, 16}, { 337, 14}, 
+{ 323, 13}, { 310, 11}, { 299, 11}, { 288, 11}, { 277, 9}, { 268, 9}, { 259, 8}, { 251, 8}, 
+{ 243, 8}, { 235, 7}, { 228, 6}, { 222, 6}, { 216, 6}, { 210, 6}, { 204, 5}, { 199, 5}, 
+{ 194, 5}, { 189, 4}, { 185, 4}, { 181, 4}, { 177, 4}, { 173, 4}, { 169, 4}, { 165, 3}, 
+{ 162, 3}, { 159, 4}, { 155, 3}, { 152, 3}, { 149, 2}, { 147, 3}, { 144, 3}, { 141, 2}, 
+{ 139, 3}, { 136, 2}, { 134, 2}, { 132, 3}, { 129, 2}, { 127, 2}, { 125, 2}, { 123, 2}, 
+{ 121, 2}, { 119, 1}, { 118, 2}, { 116, 2}, { 114, 1}, { 113, 2}, { 111, 2}, { 109, 1}, 
+{ 108, 2}, { 106, 1}, { 105, 2}, { 103, 1}, { 102, 1}, { 101, 1}, { 100, 2}, { 98, 1}, 
+{ 97, 1}, { 96, 1}, { 95, 2}, { 93, 1}, { 92, 1}, { 91, 1}, { 90, 1}, { 89, 1}, 
+{ 88, 1}, { 87, 1}, { 86, 1}, { 85, 1}, { 84, 1}, { 83, 0}, { 83, 1}, { 82, 1}, 
+{ 81, 1}, { 80, 1}, { 79, 1}, { 78, 0}, { 78, 1}, { 77, 1}, { 76, 1}, { 75, 0}, 
+{ 75, 1}, { 74, 1}, { 73, 1}, { 72, 0}, { 72, 1}, { 71, 1}, { 70, 0}, { 70, 1}, 
+{ 69, 0}, { 69, 1}, { 68, 1}, { 67, 0}, { 67, 1}, { 66, 0}, { 66, 1}, { 65, 0}, 
+{ 65, 1}, { 64, 1}, { 63, 0}, { 63, 1}, { 62, 0}, { 62, 1}, { 61, 0}, { 61, 1}, 
+{ 60, 0}, { 60, 0}, { 60, 1}, { 59, 0}, { 59, 1}, { 58, 0}, { 58, 1}, { 57, 0}, 
+{ 57, 1}, { 56, 0}, { 56, 0}, { 56, 1}, { 55, 0}, { 55, 1}, { 54, 0}, { 54, 0}, 
+{ 54, 1}, { 53, 0}, { 53, 0}, { 53, 1}, { 52, 0}, { 52, 0}, { 52, 1}, { 51, 0}, 
+{ 51, 0}, { 51, 1}, { 50, 0}, { 50, 0}, { 50, 1}, { 49, 0}, { 49, 0}, { 49, 1}, 
+{ 48, 0}, { 48, 0}, { 48, 1}, { 47, 0}, { 47, 0}, { 47, 0}, { 47, 1}, { 46, 0}, 
+{ 46, 0}, { 46, 1}, { 45, 0}, { 45, 0}, { 45, 0}, { 45, 1}, { 44, 0}, { 44, 0}, 
+{ 44, 0}, { 44, 1}, { 43, 0}, { 43, 0}, { 43, 0}, { 43, 1}, { 42, 0}, { 42, 0}, 
+{ 42, 0}, { 42, 1}, { 41, 0}, { 41, 0}, { 41, 0}, { 41, 0}, { 41, 1}, { 40, 0}, 
+{ 40, 0}, { 40, 0}, { 40, 0}, { 40, 1}, { 39, 0}, { 39, 0}, { 39, 0}, { 39, 0}, 
+{ 39, 1}, { 38, 0}, { 38, 0}, { 38, 0}, { 38, 0}, { 38, 1}, { 37, 0}, { 37, 0}, 
+{ 37, 0}, { 37, 0}, { 37, 0}, { 37, 1}, { 36, 0}, { 36, 0}, { 36, 0}, { 36, 0}, 
+{ 36, 1}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 0}, { 35, 1}, 
+{ 34, 0}, { 34, 0}, { 34, 0}, { 34, 0}, { 34, 0}, { 34, 1}, { 33, 0}, { 33, 0}, 
+{ 33, 0}, { 33, 0}, { 33, 0}, { 33, 0}, { 33, 1}, { 32, 0}, { 32, 0}, { 32, 0}, 
+{ 32, 0}, { 32, 0}, { 32, 0}, { 32, 0}, { 32, 1}, { 31, 0}, { 31, 0}, { 31, 0}, 
+{ 31, 0}, { 31, 0}, { 31, 0}, { 31, 1}, { 30, 0}, { 30, 0}, { 30, 0}, { 30, 0}
+};
+uint16_t speed_lookuptable_slow[256][2] PROGMEM = {\
+{ 62500, 12500}, { 50000, 8334}, { 41666, 5952}, { 35714, 4464}, { 31250, 3473}, { 27777, 2777}, { 25000, 2273}, { 22727, 1894}, 
+{ 20833, 1603}, { 19230, 1373}, { 17857, 1191}, { 16666, 1041}, { 15625, 920}, { 14705, 817}, { 13888, 731}, { 13157, 657}, 
+{ 12500, 596}, { 11904, 541}, { 11363, 494}, { 10869, 453}, { 10416, 416}, { 10000, 385}, { 9615, 356}, { 9259, 331}, 
+{ 8928, 308}, { 8620, 287}, { 8333, 269}, { 8064, 252}, { 7812, 237}, { 7575, 223}, { 7352, 210}, { 7142, 198}, 
+{ 6944, 188}, { 6756, 178}, { 6578, 168}, { 6410, 160}, { 6250, 153}, { 6097, 145}, { 5952, 139}, { 5813, 132}, 
+{ 5681, 126}, { 5555, 121}, { 5434, 115}, { 5319, 111}, { 5208, 106}, { 5102, 102}, { 5000, 99}, { 4901, 94}, 
+{ 4807, 91}, { 4716, 87}, { 4629, 84}, { 4545, 81}, { 4464, 79}, { 4385, 75}, { 4310, 73}, { 4237, 71}, 
+{ 4166, 68}, { 4098, 66}, { 4032, 64}, { 3968, 62}, { 3906, 60}, { 3846, 59}, { 3787, 56}, { 3731, 55}, 
+{ 3676, 53}, { 3623, 52}, { 3571, 50}, { 3521, 49}, { 3472, 48}, { 3424, 46}, { 3378, 45}, { 3333, 44}, 
+{ 3289, 43}, { 3246, 41}, { 3205, 41}, { 3164, 39}, { 3125, 39}, { 3086, 38}, { 3048, 36}, { 3012, 36}, 
+{ 2976, 35}, { 2941, 35}, { 2906, 33}, { 2873, 33}, { 2840, 32}, { 2808, 31}, { 2777, 30}, { 2747, 30}, 
+{ 2717, 29}, { 2688, 29}, { 2659, 28}, { 2631, 27}, { 2604, 27}, { 2577, 26}, { 2551, 26}, { 2525, 25}, 
+{ 2500, 25}, { 2475, 25}, { 2450, 23}, { 2427, 24}, { 2403, 23}, { 2380, 22}, { 2358, 22}, { 2336, 22}, 
+{ 2314, 21}, { 2293, 21}, { 2272, 20}, { 2252, 20}, { 2232, 20}, { 2212, 20}, { 2192, 19}, { 2173, 18}, 
+{ 2155, 19}, { 2136, 18}, { 2118, 18}, { 2100, 17}, { 2083, 17}, { 2066, 17}, { 2049, 17}, { 2032, 16}, 
+{ 2016, 16}, { 2000, 16}, { 1984, 16}, { 1968, 15}, { 1953, 16}, { 1937, 14}, { 1923, 15}, { 1908, 15}, 
+{ 1893, 14}, { 1879, 14}, { 1865, 14}, { 1851, 13}, { 1838, 14}, { 1824, 13}, { 1811, 13}, { 1798, 13}, 
+{ 1785, 12}, { 1773, 13}, { 1760, 12}, { 1748, 12}, { 1736, 12}, { 1724, 12}, { 1712, 12}, { 1700, 11}, 
+{ 1689, 12}, { 1677, 11}, { 1666, 11}, { 1655, 11}, { 1644, 11}, { 1633, 10}, { 1623, 11}, { 1612, 10}, 
+{ 1602, 10}, { 1592, 10}, { 1582, 10}, { 1572, 10}, { 1562, 10}, { 1552, 9}, { 1543, 10}, { 1533, 9}, 
+{ 1524, 9}, { 1515, 9}, { 1506, 9}, { 1497, 9}, { 1488, 9}, { 1479, 9}, { 1470, 9}, { 1461, 8}, 
+{ 1453, 8}, { 1445, 9}, { 1436, 8}, { 1428, 8}, { 1420, 8}, { 1412, 8}, { 1404, 8}, { 1396, 8}, 
+{ 1388, 7}, { 1381, 8}, { 1373, 7}, { 1366, 8}, { 1358, 7}, { 1351, 7}, { 1344, 8}, { 1336, 7}, 
+{ 1329, 7}, { 1322, 7}, { 1315, 7}, { 1308, 6}, { 1302, 7}, { 1295, 7}, { 1288, 6}, { 1282, 7}, 
+{ 1275, 6}, { 1269, 7}, { 1262, 6}, { 1256, 6}, { 1250, 7}, { 1243, 6}, { 1237, 6}, { 1231, 6}, 
+{ 1225, 6}, { 1219, 6}, { 1213, 6}, { 1207, 6}, { 1201, 5}, { 1196, 6}, { 1190, 6}, { 1184, 5}, 
+{ 1179, 6}, { 1173, 5}, { 1168, 6}, { 1162, 5}, { 1157, 5}, { 1152, 6}, { 1146, 5}, { 1141, 5}, 
+{ 1136, 5}, { 1131, 5}, { 1126, 5}, { 1121, 5}, { 1116, 5}, { 1111, 5}, { 1106, 5}, { 1101, 5}, 
+{ 1096, 5}, { 1091, 5}, { 1086, 4}, { 1082, 5}, { 1077, 5}, { 1072, 4}, { 1068, 5}, { 1063, 4}, 
+{ 1059, 5}, { 1054, 4}, { 1050, 4}, { 1046, 5}, { 1041, 4}, { 1037, 4}, { 1033, 5}, { 1028, 4}, 
+{ 1024, 4}, { 1020, 4}, { 1016, 4}, { 1012, 4}, { 1008, 4}, { 1004, 4}, { 1000, 4}, { 996, 4}, 
+{ 992, 4}, { 988, 4}, { 984, 4}, { 980, 4}, { 976, 4}, { 972, 4}, { 968, 3}, { 965, 3}
+};
+
+#endif
diff --git a/Marlin/stepper.cpp b/Marlin/stepper.cpp
index 15f143349..f4bd1289e 100644
--- a/Marlin/stepper.cpp
+++ b/Marlin/stepper.cpp
@@ -1,592 +1,592 @@
-/*
-  stepper.c - stepper motor driver: executes motion plans using stepper motors
-  Part of Grbl
-
-  Copyright (c) 2009-2011 Simen Svale Skogsrud
-
-  Grbl is free software: you can redistribute it and/or modify
-  it under the terms of the GNU General Public License as published by
-  the Free Software Foundation, either version 3 of the License, or
-  (at your option) any later version.
-
-  Grbl is distributed in the hope that it will be useful,
-  but WITHOUT ANY WARRANTY; without even the implied warranty of
-  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-  GNU General Public License for more details.
-
-  You should have received a copy of the GNU General Public License
-  along with Grbl.  If not, see <http://www.gnu.org/licenses/>.
-*/
-
-/* The timer calculations of this module informed by the 'RepRap cartesian firmware' by Zack Smith
-   and Philipp Tiefenbacher. */
-
-#include "stepper.h"
-#include "Configuration.h"
-#include "Marlin.h"
-#include "planner.h"
-#include "pins.h"
-#include "fastio.h"
-#include "temperature.h"
-#include "ultralcd.h"
-
-#include "speed_lookuptable.h"
-
-// if DEBUG_STEPS is enabled, M114 can be used to compare two methods of determining the X,Y,Z position of the printer.
-// for debugging purposes only, should be disabled by default
-#ifdef DEBUG_STEPS
-volatile long count_position[NUM_AXIS] = { 0, 0, 0, 0};
-volatile int count_direction[NUM_AXIS] = { 1, 1, 1, 1};
-#endif
-
-
-// intRes = intIn1 * intIn2 >> 16
-// uses:
-// r26 to store 0
-// r27 to store the byte 1 of the 24 bit result
-#define MultiU16X8toH16(intRes, charIn1, intIn2) \
-asm volatile ( \
-"clr r26 \n\t" \
-"mul %A1, %B2 \n\t" \
-"movw %A0, r0 \n\t" \
-"mul %A1, %A2 \n\t" \
-"add %A0, r1 \n\t" \
-"adc %B0, r26 \n\t" \
-"lsr r0 \n\t" \
-"adc %A0, r26 \n\t" \
-"adc %B0, r26 \n\t" \
-"clr r1 \n\t" \
-: \
-"=&r" (intRes) \
-: \
-"d" (charIn1), \
-"d" (intIn2) \
-: \
-"r26" \
-)
-
-// intRes = longIn1 * longIn2 >> 24
-// uses:
-// r26 to store 0
-// r27 to store the byte 1 of the 48bit result
-#define MultiU24X24toH16(intRes, longIn1, longIn2) \
-asm volatile ( \
-"clr r26 \n\t" \
-"mul %A1, %B2 \n\t" \
-"mov r27, r1 \n\t" \
-"mul %B1, %C2 \n\t" \
-"movw %A0, r0 \n\t" \
-"mul %C1, %C2 \n\t" \
-"add %B0, r0 \n\t" \
-"mul %C1, %B2 \n\t" \
-"add %A0, r0 \n\t" \
-"adc %B0, r1 \n\t" \
-"mul %A1, %C2 \n\t" \
-"add r27, r0 \n\t" \
-"adc %A0, r1 \n\t" \
-"adc %B0, r26 \n\t" \
-"mul %B1, %B2 \n\t" \
-"add r27, r0 \n\t" \
-"adc %A0, r1 \n\t" \
-"adc %B0, r26 \n\t" \
-"mul %C1, %A2 \n\t" \
-"add r27, r0 \n\t" \
-"adc %A0, r1 \n\t" \
-"adc %B0, r26 \n\t" \
-"mul %B1, %A2 \n\t" \
-"add r27, r1 \n\t" \
-"adc %A0, r26 \n\t" \
-"adc %B0, r26 \n\t" \
-"lsr r27 \n\t" \
-"adc %A0, r26 \n\t" \
-"adc %B0, r26 \n\t" \
-"clr r1 \n\t" \
-: \
-"=&r" (intRes) \
-: \
-"d" (longIn1), \
-"d" (longIn2) \
-: \
-"r26" , "r27" \
-)
-
-// Some useful constants
-
-#define ENABLE_STEPPER_DRIVER_INTERRUPT()  TIMSK1 |= (1<<OCIE1A)
-#define DISABLE_STEPPER_DRIVER_INTERRUPT() TIMSK1 &= ~(1<<OCIE1A)
-
-block_t *current_block;  // A pointer to the block currently being traced
-
-// Variables used by The Stepper Driver Interrupt
-static unsigned char out_bits;        // The next stepping-bits to be output
-static long counter_x,       // Counter variables for the bresenham line tracer
-            counter_y, 
-            counter_z,       
-            counter_e;
-static unsigned long step_events_completed; // The number of step events executed in the current block
-#ifdef ADVANCE
-static long advance_rate, advance, final_advance = 0;
-static short old_advance = 0;
-static short e_steps;
-#endif
-static unsigned char busy = false; // TRUE when SIG_OUTPUT_COMPARE1A is being serviced. Used to avoid retriggering that handler.
-static long acceleration_time, deceleration_time;
-//static unsigned long accelerate_until, decelerate_after, acceleration_rate, initial_rate, final_rate, nominal_rate;
-static unsigned short acc_step_rate; // needed for deccelaration start point
-static char step_loops;
-
-
-//         __________________________
-//        /|                        |\     _________________         ^
-//       / |                        | \   /|               |\        |
-//      /  |                        |  \ / |               | \       s
-//     /   |                        |   |  |               |  \      p
-//    /    |                        |   |  |               |   \     e
-//   +-----+------------------------+---+--+---------------+----+    e
-//   |               BLOCK 1            |      BLOCK 2          |    d
-//
-//                           time ----->
-// 
-//  The trapezoid is the shape the speed curve over time. It starts at block->initial_rate, accelerates 
-//  first block->accelerate_until step_events_completed, then keeps going at constant speed until 
-//  step_events_completed reaches block->decelerate_after after which it decelerates until the trapezoid generator is reset.
-//  The slope of acceleration is calculated with the leib ramp alghorithm.
-
-void st_wake_up() {
-  //  TCNT1 = 0;
-  ENABLE_STEPPER_DRIVER_INTERRUPT();  
-}
-
-inline unsigned short calc_timer(unsigned short step_rate) {
-  unsigned short timer;
-  if(step_rate > MAX_STEP_FREQUENCY) step_rate = MAX_STEP_FREQUENCY;
-  
-  if(step_rate > 20000) { // If steprate > 20kHz >> step 4 times
-    step_rate = step_rate >> 2;
-    step_loops = 4;
-  }
-  else if(step_rate > 10000) { // If steprate > 10kHz >> step 2 times
-    step_rate = step_rate >> 1;
-    step_loops = 2;
-  }
-  else {
-    step_loops = 1;
-  } 
-  
-  if(step_rate < 32) step_rate = 32;
-  step_rate -= 32; // Correct for minimal speed
-  if(step_rate >= (8*256)){ // higher step rate 
-    unsigned short table_address = (unsigned short)&speed_lookuptable_fast[(unsigned char)(step_rate>>8)][0];
-    unsigned char tmp_step_rate = (step_rate & 0x00ff);
-    unsigned short gain = (unsigned short)pgm_read_word_near(table_address+2);
-    MultiU16X8toH16(timer, tmp_step_rate, gain);
-    timer = (unsigned short)pgm_read_word_near(table_address) - timer;
-  }
-  else { // lower step rates
-    unsigned short table_address = (unsigned short)&speed_lookuptable_slow[0][0];
-    table_address += ((step_rate)>>1) & 0xfffc;
-    timer = (unsigned short)pgm_read_word_near(table_address);
-    timer -= (((unsigned short)pgm_read_word_near(table_address+2) * (unsigned char)(step_rate & 0x0007))>>3);
-  }
-  if(timer < 100) timer = 100;
-  return timer;
-}
-
-// Initializes the trapezoid generator from the current block. Called whenever a new 
-// block begins.
-inline void trapezoid_generator_reset() {
-#ifdef ADVANCE
-  advance = current_block->initial_advance;
-  final_advance = current_block->final_advance;
-#endif
-  deceleration_time = 0;
-  // advance_rate = current_block->advance_rate;
-  // step_rate to timer interval
-  acc_step_rate = current_block->initial_rate;
-  acceleration_time = calc_timer(acc_step_rate);
-  OCR1A = acceleration_time;
-}
-
-// "The Stepper Driver Interrupt" - This timer interrupt is the workhorse.  
-// It pops blocks from the block_buffer and executes them by pulsing the stepper pins appropriately. 
-ISR(TIMER1_COMPA_vect)
-{        
-  if(busy){ Serial.print(*(unsigned short *)OCR1A); Serial.println(" BUSY");
-    return; 
-  } // The busy-flag is used to avoid reentering this interrupt
-
-  busy = true;
-  sei(); // Re enable interrupts (normally disabled while inside an interrupt handler)
-
-  // If there is no current block, attempt to pop one from the buffer
-  if (current_block == NULL) {
-    // Anything in the buffer?
-    current_block = plan_get_current_block();
-    if (current_block != NULL) {
-      trapezoid_generator_reset();
-      counter_x = -(current_block->step_event_count >> 1);
-      counter_y = counter_x;
-      counter_z = counter_x;
-      counter_e = counter_x;
-      step_events_completed = 0;
-      #ifdef ADVANCE
-      e_steps = 0;
-      #endif
-    } 
-    else {
-//      DISABLE_STEPPER_DRIVER_INTERRUPT();
-    }    
-  } 
-
-  if (current_block != NULL) {
-    // Set directions TO DO This should be done once during init of trapezoid. Endstops -> interrupt
-    out_bits = current_block->direction_bits;
-
-#ifdef ADVANCE
-    // Calculate E early.
-    counter_e += current_block->steps_e;
-    if (counter_e > 0) {
-      counter_e -= current_block->step_event_count;
-      if ((out_bits & (1<<E_AXIS)) != 0) { // - direction
-        CRITICAL_SECTION_START;
-        e_steps--;
-        CRITICAL_SECTION_END;
-      }
-      else {
-        CRITICAL_SECTION_START;
-        e_steps++;
-        CRITICAL_SECTION_END;
-      }
-    }    
-    // Do E steps + advance steps
-    CRITICAL_SECTION_START;
-    e_steps += ((advance >> 16) - old_advance);
-    CRITICAL_SECTION_END;
-    old_advance = advance >> 16;  
-#endif //ADVANCE
-
-    // Set direction en check limit switches
-if ((out_bits & (1<<X_AXIS)) != 0) {   // -direction
-      WRITE(X_DIR_PIN, INVERT_X_DIR);
-      #ifdef DEBUG_STEPS
-      count_direction[X_AXIS]=-1;
-      #endif
-#if X_MIN_PIN > -1
-      if(READ(X_MIN_PIN) != ENDSTOPS_INVERTING) {
-        step_events_completed = current_block->step_event_count;
-      }
-#endif
-    }
-    else { // +direction 
-        WRITE(X_DIR_PIN,!INVERT_X_DIR);
-        #ifdef DEBUG_STEPS
-        count_direction[X_AXIS]=1;
-        #endif
-#if X_MAX_PIN > -1
-        if((READ(X_MAX_PIN) != ENDSTOPS_INVERTING)  && (current_block->steps_x >0)){
-          step_events_completed = current_block->step_event_count;
-        }
-#endif
-    }
-
-    if ((out_bits & (1<<Y_AXIS)) != 0) {   // -direction
-      WRITE(Y_DIR_PIN,INVERT_Y_DIR);
-      #ifdef DEBUG_STEPS
-      count_direction[Y_AXIS]=-1;
-      #endif
-#if Y_MIN_PIN > -1
-      if(READ(Y_MIN_PIN) != ENDSTOPS_INVERTING) {
-        step_events_completed = current_block->step_event_count;
-      }
-#endif
-    }
-    else { // +direction
-    WRITE(Y_DIR_PIN,!INVERT_Y_DIR);
-      #ifdef DEBUG_STEPS
-      count_direction[Y_AXIS]=1;
-      #endif
-#if Y_MAX_PIN > -1
-    if((READ(Y_MAX_PIN) != ENDSTOPS_INVERTING) && (current_block->steps_y >0)){
-        step_events_completed = current_block->step_event_count;
-      }
-#endif
-    }
-
-    if ((out_bits & (1<<Z_AXIS)) != 0) {   // -direction
-      WRITE(Z_DIR_PIN,INVERT_Z_DIR);
-      #ifdef DEBUG_STEPS
-      count_direction[Z_AXIS]=-1;
-      #endif
-#if Z_MIN_PIN > -1
-      if(READ(Z_MIN_PIN) != ENDSTOPS_INVERTING) {
-        step_events_completed = current_block->step_event_count;
-      }
-#endif
-    }
-    else { // +direction
-        WRITE(Z_DIR_PIN,!INVERT_Z_DIR);
-        #ifdef DEBUG_STEPS
-        count_direction[Z_AXIS]=1;
-        #endif
-#if Z_MAX_PIN > -1
-        if((READ(Z_MAX_PIN) != ENDSTOPS_INVERTING)  && (current_block->steps_z >0)){
-          step_events_completed = current_block->step_event_count;
-        }
-#endif
-    }
-
-#ifndef ADVANCE
-    if ((out_bits & (1<<E_AXIS)) != 0)   // -direction
-      WRITE(E_DIR_PIN,INVERT_E_DIR);
-    else // +direction
-      WRITE(E_DIR_PIN,!INVERT_E_DIR);
-#endif //!ADVANCE
-
-    for(char i=0; i < step_loops; i++) { // Take multiple steps per interrupt (For high speed moves) 
-      counter_x += current_block->steps_x;
-      if (counter_x > 0) {
-        WRITE(X_STEP_PIN, HIGH);
-        counter_x -= current_block->step_event_count;
-        WRITE(X_STEP_PIN, LOW);
-        #ifdef DEBUG_STEPS
-        count_position[X_AXIS]+=count_direction[X_AXIS];   
-        #endif
-      }
-
-      counter_y += current_block->steps_y;
-      if (counter_y > 0) {
-        WRITE(Y_STEP_PIN, HIGH);
-        counter_y -= current_block->step_event_count;
-        WRITE(Y_STEP_PIN, LOW);
-        #ifdef DEBUG_STEPS
-        count_position[Y_AXIS]+=count_direction[Y_AXIS];
-        #endif
-      }
-
-      counter_z += current_block->steps_z;
-      if (counter_z > 0) {
-        WRITE(Z_STEP_PIN, HIGH);
-        counter_z -= current_block->step_event_count;
-        WRITE(Z_STEP_PIN, LOW);
-        #ifdef DEBUG_STEPS
-        count_position[Z_AXIS]+=count_direction[Z_AXIS];
-        #endif
-      }
-
-#ifndef ADVANCE
-      counter_e += current_block->steps_e;
-      if (counter_e > 0) {
-        WRITE(E_STEP_PIN, HIGH);
-        counter_e -= current_block->step_event_count;
-        WRITE(E_STEP_PIN, LOW);
-      }
-#endif //!ADVANCE
-      step_events_completed += 1;  
-      if(step_events_completed >= current_block->step_event_count) break;
-    }
-    // Calculare new timer value
-    unsigned short timer;
-    unsigned short step_rate;
-    if (step_events_completed <= current_block->accelerate_until) {
-      MultiU24X24toH16(acc_step_rate, acceleration_time, current_block->acceleration_rate);
-      acc_step_rate += current_block->initial_rate;
-      
-      // upper limit
-      if(acc_step_rate > current_block->nominal_rate)
-        acc_step_rate = current_block->nominal_rate;
-
-      // step_rate to timer interval
-      timer = calc_timer(acc_step_rate);
-#ifdef ADVANCE
-      advance += advance_rate;
-#endif
-      acceleration_time += timer;
-      OCR1A = timer;
-    } 
-    else if (step_events_completed > current_block->decelerate_after) {   
-      MultiU24X24toH16(step_rate, deceleration_time, current_block->acceleration_rate);
-      
-      if(step_rate > acc_step_rate) { // Check step_rate stays positive
-        step_rate = current_block->final_rate;
-      }
-      else {
-        step_rate = acc_step_rate - step_rate; // Decelerate from aceleration end point.
-      }
-
-      // lower limit
-      if(step_rate < current_block->final_rate)
-        step_rate = current_block->final_rate;
-
-      // step_rate to timer interval
-      timer = calc_timer(step_rate);
-#ifdef ADVANCE
-      advance -= advance_rate;
-      if(advance < final_advance)
-        advance = final_advance;
-#endif //ADVANCE
-      deceleration_time += timer;
-      OCR1A = timer;
-    }       
-    // If current block is finished, reset pointer 
-    if (step_events_completed >= current_block->step_event_count) {
-      current_block = NULL;
-      plan_discard_current_block();
-    }   
-  } 
-  cli(); // disable interrupts
-  busy=false;
-}
-
-#ifdef ADVANCE
-
-unsigned char old_OCR0A;
-// Timer interrupt for E. e_steps is set in the main routine;
-// Timer 0 is shared with millies
-ISR(TIMER0_COMPA_vect)
-{
-  // Critical section needed because Timer 1 interrupt has higher priority. 
-  // The pin set functions are placed on trategic position to comply with the stepper driver timing.
-  WRITE(E_STEP_PIN, LOW);
-  // Set E direction (Depends on E direction + advance)
-  if (e_steps < 0) {
-    WRITE(E_DIR_PIN,INVERT_E_DIR);    
-    e_steps++;
-    WRITE(E_STEP_PIN, HIGH);
-  } 
-  if (e_steps > 0) {
-    WRITE(E_DIR_PIN,!INVERT_E_DIR);
-    e_steps--;
-    WRITE(E_STEP_PIN, HIGH);
-  }
-  old_OCR0A += 25; // 10kHz interrupt
-  OCR0A = old_OCR0A;
-}
-#endif // ADVANCE
-
-void st_init()
-{
-    //Initialize Dir Pins
-#if X_DIR_PIN > -1
-  SET_OUTPUT(X_DIR_PIN);
-#endif
-#if Y_DIR_PIN > -1 
-  SET_OUTPUT(Y_DIR_PIN);
-#endif
-#if Z_DIR_PIN > -1 
-  SET_OUTPUT(Z_DIR_PIN);
-#endif
-#if E_DIR_PIN > -1 
-  SET_OUTPUT(E_DIR_PIN);
-#endif
-
-  //Initialize Enable Pins - steppers default to disabled.
-
-#if (X_ENABLE_PIN > -1)
-  SET_OUTPUT(X_ENABLE_PIN);
-  if(!X_ENABLE_ON) WRITE(X_ENABLE_PIN,HIGH);
-#endif
-#if (Y_ENABLE_PIN > -1)
-  SET_OUTPUT(Y_ENABLE_PIN);
-  if(!Y_ENABLE_ON) WRITE(Y_ENABLE_PIN,HIGH);
-#endif
-#if (Z_ENABLE_PIN > -1)
-  SET_OUTPUT(Z_ENABLE_PIN);
-  if(!Z_ENABLE_ON) WRITE(Z_ENABLE_PIN,HIGH);
-#endif
-#if (E_ENABLE_PIN > -1)
-  SET_OUTPUT(E_ENABLE_PIN);
-  if(!E_ENABLE_ON) WRITE(E_ENABLE_PIN,HIGH);
-#endif
-
-  //endstops and pullups
-#ifdef ENDSTOPPULLUPS
-#if X_MIN_PIN > -1
-  SET_INPUT(X_MIN_PIN); 
-  WRITE(X_MIN_PIN,HIGH);
-#endif
-#if X_MAX_PIN > -1
-  SET_INPUT(X_MAX_PIN); 
-  WRITE(X_MAX_PIN,HIGH);
-#endif
-#if Y_MIN_PIN > -1
-  SET_INPUT(Y_MIN_PIN); 
-  WRITE(Y_MIN_PIN,HIGH);
-#endif
-#if Y_MAX_PIN > -1
-  SET_INPUT(Y_MAX_PIN); 
-  WRITE(Y_MAX_PIN,HIGH);
-#endif
-#if Z_MIN_PIN > -1
-  SET_INPUT(Z_MIN_PIN); 
-  WRITE(Z_MIN_PIN,HIGH);
-#endif
-#if Z_MAX_PIN > -1
-  SET_INPUT(Z_MAX_PIN); 
-  WRITE(Z_MAX_PIN,HIGH);
-#endif
-#else //ENDSTOPPULLUPS
-#if X_MIN_PIN > -1
-  SET_INPUT(X_MIN_PIN); 
-#endif
-#if X_MAX_PIN > -1
-  SET_INPUT(X_MAX_PIN); 
-#endif
-#if Y_MIN_PIN > -1
-  SET_INPUT(Y_MIN_PIN); 
-#endif
-#if Y_MAX_PIN > -1
-  SET_INPUT(Y_MAX_PIN); 
-#endif
-#if Z_MIN_PIN > -1
-  SET_INPUT(Z_MIN_PIN); 
-#endif
-#if Z_MAX_PIN > -1
-  SET_INPUT(Z_MAX_PIN); 
-#endif
-#endif //ENDSTOPPULLUPS
- 
-
-  //Initialize Step Pins
-#if (X_STEP_PIN > -1) 
-  SET_OUTPUT(X_STEP_PIN);
-#endif  
-#if (Y_STEP_PIN > -1) 
-  SET_OUTPUT(Y_STEP_PIN);
-#endif  
-#if (Z_STEP_PIN > -1) 
-  SET_OUTPUT(Z_STEP_PIN);
-#endif  
-#if (E_STEP_PIN > -1) 
-  SET_OUTPUT(E_STEP_PIN);
-#endif  
-
-  // waveform generation = 0100 = CTC
-  TCCR1B &= ~(1<<WGM13);
-  TCCR1B |=  (1<<WGM12);
-  TCCR1A &= ~(1<<WGM11); 
-  TCCR1A &= ~(1<<WGM10);
-
-  // output mode = 00 (disconnected)
-  TCCR1A &= ~(3<<COM1A0); 
-  TCCR1A &= ~(3<<COM1B0); 
-  TCCR1B = (TCCR1B & ~(0x07<<CS10)) | (2<<CS10); // 2MHz timer
-
-  OCR1A = 0x4000;
-  DISABLE_STEPPER_DRIVER_INTERRUPT();  
-
-#ifdef ADVANCE
-  e_steps = 0;
-  TIMSK0 |= (1<<OCIE0A);
-#endif //ADVANCE
-  sei();
-}
-
-// Block until all buffered steps are executed
-void st_synchronize()
-{
-  while(plan_get_current_block()) {
-    manage_heater();
-    manage_inactivity(1);
-    LCD_STATUS;
-  }   
-}
+/*
+  stepper.c - stepper motor driver: executes motion plans using stepper motors
+  Part of Grbl
+
+  Copyright (c) 2009-2011 Simen Svale Skogsrud
+
+  Grbl is free software: you can redistribute it and/or modify
+  it under the terms of the GNU General Public License as published by
+  the Free Software Foundation, either version 3 of the License, or
+  (at your option) any later version.
+
+  Grbl is distributed in the hope that it will be useful,
+  but WITHOUT ANY WARRANTY; without even the implied warranty of
+  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+  GNU General Public License for more details.
+
+  You should have received a copy of the GNU General Public License
+  along with Grbl.  If not, see <http://www.gnu.org/licenses/>.
+*/
+
+/* The timer calculations of this module informed by the 'RepRap cartesian firmware' by Zack Smith
+   and Philipp Tiefenbacher. */
+
+#include "stepper.h"
+#include "Configuration.h"
+#include "Marlin.h"
+#include "planner.h"
+#include "pins.h"
+#include "fastio.h"
+#include "temperature.h"
+#include "ultralcd.h"
+
+#include "speed_lookuptable.h"
+
+// if DEBUG_STEPS is enabled, M114 can be used to compare two methods of determining the X,Y,Z position of the printer.
+// for debugging purposes only, should be disabled by default
+#ifdef DEBUG_STEPS
+volatile long count_position[NUM_AXIS] = { 0, 0, 0, 0};
+volatile int count_direction[NUM_AXIS] = { 1, 1, 1, 1};
+#endif
+
+
+// intRes = intIn1 * intIn2 >> 16
+// uses:
+// r26 to store 0
+// r27 to store the byte 1 of the 24 bit result
+#define MultiU16X8toH16(intRes, charIn1, intIn2) \
+asm volatile ( \
+"clr r26 \n\t" \
+"mul %A1, %B2 \n\t" \
+"movw %A0, r0 \n\t" \
+"mul %A1, %A2 \n\t" \
+"add %A0, r1 \n\t" \
+"adc %B0, r26 \n\t" \
+"lsr r0 \n\t" \
+"adc %A0, r26 \n\t" \
+"adc %B0, r26 \n\t" \
+"clr r1 \n\t" \
+: \
+"=&r" (intRes) \
+: \
+"d" (charIn1), \
+"d" (intIn2) \
+: \
+"r26" \
+)
+
+// intRes = longIn1 * longIn2 >> 24
+// uses:
+// r26 to store 0
+// r27 to store the byte 1 of the 48bit result
+#define MultiU24X24toH16(intRes, longIn1, longIn2) \
+asm volatile ( \
+"clr r26 \n\t" \
+"mul %A1, %B2 \n\t" \
+"mov r27, r1 \n\t" \
+"mul %B1, %C2 \n\t" \
+"movw %A0, r0 \n\t" \
+"mul %C1, %C2 \n\t" \
+"add %B0, r0 \n\t" \
+"mul %C1, %B2 \n\t" \
+"add %A0, r0 \n\t" \
+"adc %B0, r1 \n\t" \
+"mul %A1, %C2 \n\t" \
+"add r27, r0 \n\t" \
+"adc %A0, r1 \n\t" \
+"adc %B0, r26 \n\t" \
+"mul %B1, %B2 \n\t" \
+"add r27, r0 \n\t" \
+"adc %A0, r1 \n\t" \
+"adc %B0, r26 \n\t" \
+"mul %C1, %A2 \n\t" \
+"add r27, r0 \n\t" \
+"adc %A0, r1 \n\t" \
+"adc %B0, r26 \n\t" \
+"mul %B1, %A2 \n\t" \
+"add r27, r1 \n\t" \
+"adc %A0, r26 \n\t" \
+"adc %B0, r26 \n\t" \
+"lsr r27 \n\t" \
+"adc %A0, r26 \n\t" \
+"adc %B0, r26 \n\t" \
+"clr r1 \n\t" \
+: \
+"=&r" (intRes) \
+: \
+"d" (longIn1), \
+"d" (longIn2) \
+: \
+"r26" , "r27" \
+)
+
+// Some useful constants
+
+#define ENABLE_STEPPER_DRIVER_INTERRUPT()  TIMSK1 |= (1<<OCIE1A)
+#define DISABLE_STEPPER_DRIVER_INTERRUPT() TIMSK1 &= ~(1<<OCIE1A)
+
+block_t *current_block;  // A pointer to the block currently being traced
+
+// Variables used by The Stepper Driver Interrupt
+static unsigned char out_bits;        // The next stepping-bits to be output
+static long counter_x,       // Counter variables for the bresenham line tracer
+            counter_y, 
+            counter_z,       
+            counter_e;
+static unsigned long step_events_completed; // The number of step events executed in the current block
+#ifdef ADVANCE
+static long advance_rate, advance, final_advance = 0;
+static short old_advance = 0;
+static short e_steps;
+#endif
+static unsigned char busy = false; // TRUE when SIG_OUTPUT_COMPARE1A is being serviced. Used to avoid retriggering that handler.
+static long acceleration_time, deceleration_time;
+//static unsigned long accelerate_until, decelerate_after, acceleration_rate, initial_rate, final_rate, nominal_rate;
+static unsigned short acc_step_rate; // needed for deccelaration start point
+static char step_loops;
+
+
+//         __________________________
+//        /|                        |\     _________________         ^
+//       / |                        | \   /|               |\        |
+//      /  |                        |  \ / |               | \       s
+//     /   |                        |   |  |               |  \      p
+//    /    |                        |   |  |               |   \     e
+//   +-----+------------------------+---+--+---------------+----+    e
+//   |               BLOCK 1            |      BLOCK 2          |    d
+//
+//                           time ----->
+// 
+//  The trapezoid is the shape the speed curve over time. It starts at block->initial_rate, accelerates 
+//  first block->accelerate_until step_events_completed, then keeps going at constant speed until 
+//  step_events_completed reaches block->decelerate_after after which it decelerates until the trapezoid generator is reset.
+//  The slope of acceleration is calculated with the leib ramp alghorithm.
+
+void st_wake_up() {
+  //  TCNT1 = 0;
+  ENABLE_STEPPER_DRIVER_INTERRUPT();  
+}
+
+inline unsigned short calc_timer(unsigned short step_rate) {
+  unsigned short timer;
+  if(step_rate > MAX_STEP_FREQUENCY) step_rate = MAX_STEP_FREQUENCY;
+  
+  if(step_rate > 20000) { // If steprate > 20kHz >> step 4 times
+    step_rate = step_rate >> 2;
+    step_loops = 4;
+  }
+  else if(step_rate > 10000) { // If steprate > 10kHz >> step 2 times
+    step_rate = step_rate >> 1;
+    step_loops = 2;
+  }
+  else {
+    step_loops = 1;
+  } 
+  
+  if(step_rate < 32) step_rate = 32;
+  step_rate -= 32; // Correct for minimal speed
+  if(step_rate >= (8*256)){ // higher step rate 
+    unsigned short table_address = (unsigned short)&speed_lookuptable_fast[(unsigned char)(step_rate>>8)][0];
+    unsigned char tmp_step_rate = (step_rate & 0x00ff);
+    unsigned short gain = (unsigned short)pgm_read_word_near(table_address+2);
+    MultiU16X8toH16(timer, tmp_step_rate, gain);
+    timer = (unsigned short)pgm_read_word_near(table_address) - timer;
+  }
+  else { // lower step rates
+    unsigned short table_address = (unsigned short)&speed_lookuptable_slow[0][0];
+    table_address += ((step_rate)>>1) & 0xfffc;
+    timer = (unsigned short)pgm_read_word_near(table_address);
+    timer -= (((unsigned short)pgm_read_word_near(table_address+2) * (unsigned char)(step_rate & 0x0007))>>3);
+  }
+  if(timer < 100) timer = 100;
+  return timer;
+}
+
+// Initializes the trapezoid generator from the current block. Called whenever a new 
+// block begins.
+inline void trapezoid_generator_reset() {
+#ifdef ADVANCE
+  advance = current_block->initial_advance;
+  final_advance = current_block->final_advance;
+#endif
+  deceleration_time = 0;
+  // advance_rate = current_block->advance_rate;
+  // step_rate to timer interval
+  acc_step_rate = current_block->initial_rate;
+  acceleration_time = calc_timer(acc_step_rate);
+  OCR1A = acceleration_time;
+}
+
+// "The Stepper Driver Interrupt" - This timer interrupt is the workhorse.  
+// It pops blocks from the block_buffer and executes them by pulsing the stepper pins appropriately. 
+ISR(TIMER1_COMPA_vect)
+{        
+  if(busy){ Serial.print(*(unsigned short *)OCR1A); Serial.println(" BUSY");
+    return; 
+  } // The busy-flag is used to avoid reentering this interrupt
+
+  busy = true;
+  sei(); // Re enable interrupts (normally disabled while inside an interrupt handler)
+
+  // If there is no current block, attempt to pop one from the buffer
+  if (current_block == NULL) {
+    // Anything in the buffer?
+    current_block = plan_get_current_block();
+    if (current_block != NULL) {
+      trapezoid_generator_reset();
+      counter_x = -(current_block->step_event_count >> 1);
+      counter_y = counter_x;
+      counter_z = counter_x;
+      counter_e = counter_x;
+      step_events_completed = 0;
+      #ifdef ADVANCE
+      e_steps = 0;
+      #endif
+    } 
+    else {
+//      DISABLE_STEPPER_DRIVER_INTERRUPT();
+    }    
+  } 
+
+  if (current_block != NULL) {
+    // Set directions TO DO This should be done once during init of trapezoid. Endstops -> interrupt
+    out_bits = current_block->direction_bits;
+
+#ifdef ADVANCE
+    // Calculate E early.
+    counter_e += current_block->steps_e;
+    if (counter_e > 0) {
+      counter_e -= current_block->step_event_count;
+      if ((out_bits & (1<<E_AXIS)) != 0) { // - direction
+        CRITICAL_SECTION_START;
+        e_steps--;
+        CRITICAL_SECTION_END;
+      }
+      else {
+        CRITICAL_SECTION_START;
+        e_steps++;
+        CRITICAL_SECTION_END;
+      }
+    }    
+    // Do E steps + advance steps
+    CRITICAL_SECTION_START;
+    e_steps += ((advance >> 16) - old_advance);
+    CRITICAL_SECTION_END;
+    old_advance = advance >> 16;  
+#endif //ADVANCE
+
+    // Set direction en check limit switches
+if ((out_bits & (1<<X_AXIS)) != 0) {   // -direction
+      WRITE(X_DIR_PIN, INVERT_X_DIR);
+      #ifdef DEBUG_STEPS
+      count_direction[X_AXIS]=-1;
+      #endif
+#if X_MIN_PIN > -1
+      if(READ(X_MIN_PIN) != ENDSTOPS_INVERTING) {
+        step_events_completed = current_block->step_event_count;
+      }
+#endif
+    }
+    else { // +direction 
+        WRITE(X_DIR_PIN,!INVERT_X_DIR);
+        #ifdef DEBUG_STEPS
+        count_direction[X_AXIS]=1;
+        #endif
+#if X_MAX_PIN > -1
+        if((READ(X_MAX_PIN) != ENDSTOPS_INVERTING)  && (current_block->steps_x >0)){
+          step_events_completed = current_block->step_event_count;
+        }
+#endif
+    }
+
+    if ((out_bits & (1<<Y_AXIS)) != 0) {   // -direction
+      WRITE(Y_DIR_PIN,INVERT_Y_DIR);
+      #ifdef DEBUG_STEPS
+      count_direction[Y_AXIS]=-1;
+      #endif
+#if Y_MIN_PIN > -1
+      if(READ(Y_MIN_PIN) != ENDSTOPS_INVERTING) {
+        step_events_completed = current_block->step_event_count;
+      }
+#endif
+    }
+    else { // +direction
+    WRITE(Y_DIR_PIN,!INVERT_Y_DIR);
+      #ifdef DEBUG_STEPS
+      count_direction[Y_AXIS]=1;
+      #endif
+#if Y_MAX_PIN > -1
+    if((READ(Y_MAX_PIN) != ENDSTOPS_INVERTING) && (current_block->steps_y >0)){
+        step_events_completed = current_block->step_event_count;
+      }
+#endif
+    }
+
+    if ((out_bits & (1<<Z_AXIS)) != 0) {   // -direction
+      WRITE(Z_DIR_PIN,INVERT_Z_DIR);
+      #ifdef DEBUG_STEPS
+      count_direction[Z_AXIS]=-1;
+      #endif
+#if Z_MIN_PIN > -1
+      if(READ(Z_MIN_PIN) != ENDSTOPS_INVERTING) {
+        step_events_completed = current_block->step_event_count;
+      }
+#endif
+    }
+    else { // +direction
+        WRITE(Z_DIR_PIN,!INVERT_Z_DIR);
+        #ifdef DEBUG_STEPS
+        count_direction[Z_AXIS]=1;
+        #endif
+#if Z_MAX_PIN > -1
+        if((READ(Z_MAX_PIN) != ENDSTOPS_INVERTING)  && (current_block->steps_z >0)){
+          step_events_completed = current_block->step_event_count;
+        }
+#endif
+    }
+
+#ifndef ADVANCE
+    if ((out_bits & (1<<E_AXIS)) != 0)   // -direction
+      WRITE(E_DIR_PIN,INVERT_E_DIR);
+    else // +direction
+      WRITE(E_DIR_PIN,!INVERT_E_DIR);
+#endif //!ADVANCE
+
+    for(char i=0; i < step_loops; i++) { // Take multiple steps per interrupt (For high speed moves) 
+      counter_x += current_block->steps_x;
+      if (counter_x > 0) {
+        WRITE(X_STEP_PIN, HIGH);
+        counter_x -= current_block->step_event_count;
+        WRITE(X_STEP_PIN, LOW);
+        #ifdef DEBUG_STEPS
+        count_position[X_AXIS]+=count_direction[X_AXIS];   
+        #endif
+      }
+
+      counter_y += current_block->steps_y;
+      if (counter_y > 0) {
+        WRITE(Y_STEP_PIN, HIGH);
+        counter_y -= current_block->step_event_count;
+        WRITE(Y_STEP_PIN, LOW);
+        #ifdef DEBUG_STEPS
+        count_position[Y_AXIS]+=count_direction[Y_AXIS];
+        #endif
+      }
+
+      counter_z += current_block->steps_z;
+      if (counter_z > 0) {
+        WRITE(Z_STEP_PIN, HIGH);
+        counter_z -= current_block->step_event_count;
+        WRITE(Z_STEP_PIN, LOW);
+        #ifdef DEBUG_STEPS
+        count_position[Z_AXIS]+=count_direction[Z_AXIS];
+        #endif
+      }
+
+#ifndef ADVANCE
+      counter_e += current_block->steps_e;
+      if (counter_e > 0) {
+        WRITE(E_STEP_PIN, HIGH);
+        counter_e -= current_block->step_event_count;
+        WRITE(E_STEP_PIN, LOW);
+      }
+#endif //!ADVANCE
+      step_events_completed += 1;  
+      if(step_events_completed >= current_block->step_event_count) break;
+    }
+    // Calculare new timer value
+    unsigned short timer;
+    unsigned short step_rate;
+    if (step_events_completed <= current_block->accelerate_until) {
+      MultiU24X24toH16(acc_step_rate, acceleration_time, current_block->acceleration_rate);
+      acc_step_rate += current_block->initial_rate;
+      
+      // upper limit
+      if(acc_step_rate > current_block->nominal_rate)
+        acc_step_rate = current_block->nominal_rate;
+
+      // step_rate to timer interval
+      timer = calc_timer(acc_step_rate);
+#ifdef ADVANCE
+      advance += advance_rate;
+#endif
+      acceleration_time += timer;
+      OCR1A = timer;
+    } 
+    else if (step_events_completed > current_block->decelerate_after) {   
+      MultiU24X24toH16(step_rate, deceleration_time, current_block->acceleration_rate);
+      
+      if(step_rate > acc_step_rate) { // Check step_rate stays positive
+        step_rate = current_block->final_rate;
+      }
+      else {
+        step_rate = acc_step_rate - step_rate; // Decelerate from aceleration end point.
+      }
+
+      // lower limit
+      if(step_rate < current_block->final_rate)
+        step_rate = current_block->final_rate;
+
+      // step_rate to timer interval
+      timer = calc_timer(step_rate);
+#ifdef ADVANCE
+      advance -= advance_rate;
+      if(advance < final_advance)
+        advance = final_advance;
+#endif //ADVANCE
+      deceleration_time += timer;
+      OCR1A = timer;
+    }       
+    // If current block is finished, reset pointer 
+    if (step_events_completed >= current_block->step_event_count) {
+      current_block = NULL;
+      plan_discard_current_block();
+    }   
+  } 
+  cli(); // disable interrupts
+  busy=false;
+}
+
+#ifdef ADVANCE
+
+unsigned char old_OCR0A;
+// Timer interrupt for E. e_steps is set in the main routine;
+// Timer 0 is shared with millies
+ISR(TIMER0_COMPA_vect)
+{
+  // Critical section needed because Timer 1 interrupt has higher priority. 
+  // The pin set functions are placed on trategic position to comply with the stepper driver timing.
+  WRITE(E_STEP_PIN, LOW);
+  // Set E direction (Depends on E direction + advance)
+  if (e_steps < 0) {
+    WRITE(E_DIR_PIN,INVERT_E_DIR);    
+    e_steps++;
+    WRITE(E_STEP_PIN, HIGH);
+  } 
+  if (e_steps > 0) {
+    WRITE(E_DIR_PIN,!INVERT_E_DIR);
+    e_steps--;
+    WRITE(E_STEP_PIN, HIGH);
+  }
+  old_OCR0A += 25; // 10kHz interrupt
+  OCR0A = old_OCR0A;
+}
+#endif // ADVANCE
+
+void st_init()
+{
+    //Initialize Dir Pins
+#if X_DIR_PIN > -1
+  SET_OUTPUT(X_DIR_PIN);
+#endif
+#if Y_DIR_PIN > -1 
+  SET_OUTPUT(Y_DIR_PIN);
+#endif
+#if Z_DIR_PIN > -1 
+  SET_OUTPUT(Z_DIR_PIN);
+#endif
+#if E_DIR_PIN > -1 
+  SET_OUTPUT(E_DIR_PIN);
+#endif
+
+  //Initialize Enable Pins - steppers default to disabled.
+
+#if (X_ENABLE_PIN > -1)
+  SET_OUTPUT(X_ENABLE_PIN);
+  if(!X_ENABLE_ON) WRITE(X_ENABLE_PIN,HIGH);
+#endif
+#if (Y_ENABLE_PIN > -1)
+  SET_OUTPUT(Y_ENABLE_PIN);
+  if(!Y_ENABLE_ON) WRITE(Y_ENABLE_PIN,HIGH);
+#endif
+#if (Z_ENABLE_PIN > -1)
+  SET_OUTPUT(Z_ENABLE_PIN);
+  if(!Z_ENABLE_ON) WRITE(Z_ENABLE_PIN,HIGH);
+#endif
+#if (E_ENABLE_PIN > -1)
+  SET_OUTPUT(E_ENABLE_PIN);
+  if(!E_ENABLE_ON) WRITE(E_ENABLE_PIN,HIGH);
+#endif
+
+  //endstops and pullups
+#ifdef ENDSTOPPULLUPS
+#if X_MIN_PIN > -1
+  SET_INPUT(X_MIN_PIN); 
+  WRITE(X_MIN_PIN,HIGH);
+#endif
+#if X_MAX_PIN > -1
+  SET_INPUT(X_MAX_PIN); 
+  WRITE(X_MAX_PIN,HIGH);
+#endif
+#if Y_MIN_PIN > -1
+  SET_INPUT(Y_MIN_PIN); 
+  WRITE(Y_MIN_PIN,HIGH);
+#endif
+#if Y_MAX_PIN > -1
+  SET_INPUT(Y_MAX_PIN); 
+  WRITE(Y_MAX_PIN,HIGH);
+#endif
+#if Z_MIN_PIN > -1
+  SET_INPUT(Z_MIN_PIN); 
+  WRITE(Z_MIN_PIN,HIGH);
+#endif
+#if Z_MAX_PIN > -1
+  SET_INPUT(Z_MAX_PIN); 
+  WRITE(Z_MAX_PIN,HIGH);
+#endif
+#else //ENDSTOPPULLUPS
+#if X_MIN_PIN > -1
+  SET_INPUT(X_MIN_PIN); 
+#endif
+#if X_MAX_PIN > -1
+  SET_INPUT(X_MAX_PIN); 
+#endif
+#if Y_MIN_PIN > -1
+  SET_INPUT(Y_MIN_PIN); 
+#endif
+#if Y_MAX_PIN > -1
+  SET_INPUT(Y_MAX_PIN); 
+#endif
+#if Z_MIN_PIN > -1
+  SET_INPUT(Z_MIN_PIN); 
+#endif
+#if Z_MAX_PIN > -1
+  SET_INPUT(Z_MAX_PIN); 
+#endif
+#endif //ENDSTOPPULLUPS
+ 
+
+  //Initialize Step Pins
+#if (X_STEP_PIN > -1) 
+  SET_OUTPUT(X_STEP_PIN);
+#endif  
+#if (Y_STEP_PIN > -1) 
+  SET_OUTPUT(Y_STEP_PIN);
+#endif  
+#if (Z_STEP_PIN > -1) 
+  SET_OUTPUT(Z_STEP_PIN);
+#endif  
+#if (E_STEP_PIN > -1) 
+  SET_OUTPUT(E_STEP_PIN);
+#endif  
+
+  // waveform generation = 0100 = CTC
+  TCCR1B &= ~(1<<WGM13);
+  TCCR1B |=  (1<<WGM12);
+  TCCR1A &= ~(1<<WGM11); 
+  TCCR1A &= ~(1<<WGM10);
+
+  // output mode = 00 (disconnected)
+  TCCR1A &= ~(3<<COM1A0); 
+  TCCR1A &= ~(3<<COM1B0); 
+  TCCR1B = (TCCR1B & ~(0x07<<CS10)) | (2<<CS10); // 2MHz timer
+
+  OCR1A = 0x4000;
+  DISABLE_STEPPER_DRIVER_INTERRUPT();  
+
+#ifdef ADVANCE
+  e_steps = 0;
+  TIMSK0 |= (1<<OCIE0A);
+#endif //ADVANCE
+  sei();
+}
+
+// Block until all buffered steps are executed
+void st_synchronize()
+{
+  while(plan_get_current_block()) {
+    manage_heater();
+    manage_inactivity(1);
+    LCD_STATUS;
+  }   
+}
diff --git a/Marlin/streaming.h b/Marlin/streaming.h
index 2abf64f14..1a6afe73d 100644
--- a/Marlin/streaming.h
+++ b/Marlin/streaming.h
@@ -1,84 +1,84 @@
-/*
-Streaming.h - Arduino library for supporting the << streaming operator
-Copyright (c) 2010 Mikal Hart.  All rights reserved.
-
-This library is free software; you can redistribute it and/or
-modify it under the terms of the GNU Lesser General Public
-License as published by the Free Software Foundation; either
-version 2.1 of the License, or (at your option) any later version.
-
-This library is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
-Lesser General Public License for more details.
-
-You should have received a copy of the GNU Lesser General Public
-License along with this library; if not, write to the Free Software
-Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
-*/
-
-#ifndef ARDUINO_STREAMING
-#define ARDUINO_STREAMING
-
-//#include <WProgram.h>
-
-#define STREAMING_LIBRARY_VERSION 4
-
-// Generic template
-template<class T> 
-inline Print &operator <<(Print &stream, T arg) 
-{ stream.print(arg); return stream; }
-
-struct _BASED 
-{ 
-  long val; 
-  int base;
-  _BASED(long v, int b): val(v), base(b) 
-  {}
-};
-
-#define _HEX(a)     _BASED(a, HEX)
-#define _DEC(a)     _BASED(a, DEC)
-#define _OCT(a)     _BASED(a, OCT)
-#define _BIN(a)     _BASED(a, BIN)
-#define _BYTE(a)    _BASED(a, BYTE)
-
-// Specialization for class _BASED
-// Thanks to Arduino forum user Ben Combee who suggested this 
-// clever technique to allow for expressions like
-//   Serial << _HEX(a);
-
-inline Print &operator <<(Print &obj, const _BASED &arg)
-{ obj.print(arg.val, arg.base); return obj; } 
-
-#if ARDUINO >= 18
-// Specialization for class _FLOAT
-// Thanks to Michael Margolis for suggesting a way
-// to accommodate Arduino 0018's floating point precision
-// feature like this:
-//   Serial << _FLOAT(gps_latitude, 6); // 6 digits of precision
-
-struct _FLOAT
-{
-  float val;
-  int digits;
-  _FLOAT(double v, int d): val(v), digits(d)
-  {}
-};
-
-inline Print &operator <<(Print &obj, const _FLOAT &arg)
-{ obj.print(arg.val, arg.digits); return obj; }
-#endif
-
-// Specialization for enum _EndLineCode
-// Thanks to Arduino forum user Paul V. who suggested this
-// clever technique to allow for expressions like
-//   Serial << "Hello!" << endl;
-
-enum _EndLineCode { endl };
-
-inline Print &operator <<(Print &obj, _EndLineCode arg) 
-{ obj.println(); return obj; }
-
-#endif
-
+/*
+Streaming.h - Arduino library for supporting the << streaming operator
+Copyright (c) 2010 Mikal Hart.  All rights reserved.
+
+This library is free software; you can redistribute it and/or
+modify it under the terms of the GNU Lesser General Public
+License as published by the Free Software Foundation; either
+version 2.1 of the License, or (at your option) any later version.
+
+This library is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
+Lesser General Public License for more details.
+
+You should have received a copy of the GNU Lesser General Public
+License along with this library; if not, write to the Free Software
+Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301  USA
+*/
+
+#ifndef ARDUINO_STREAMING
+#define ARDUINO_STREAMING
+
+//#include <WProgram.h>
+
+#define STREAMING_LIBRARY_VERSION 4
+
+// Generic template
+template<class T> 
+inline Print &operator <<(Print &stream, T arg) 
+{ stream.print(arg); return stream; }
+
+struct _BASED 
+{ 
+  long val; 
+  int base;
+  _BASED(long v, int b): val(v), base(b) 
+  {}
+};
+
+#define _HEX(a)     _BASED(a, HEX)
+#define _DEC(a)     _BASED(a, DEC)
+#define _OCT(a)     _BASED(a, OCT)
+#define _BIN(a)     _BASED(a, BIN)
+#define _BYTE(a)    _BASED(a, BYTE)
+
+// Specialization for class _BASED
+// Thanks to Arduino forum user Ben Combee who suggested this 
+// clever technique to allow for expressions like
+//   Serial << _HEX(a);
+
+inline Print &operator <<(Print &obj, const _BASED &arg)
+{ obj.print(arg.val, arg.base); return obj; } 
+
+#if ARDUINO >= 18
+// Specialization for class _FLOAT
+// Thanks to Michael Margolis for suggesting a way
+// to accommodate Arduino 0018's floating point precision
+// feature like this:
+//   Serial << _FLOAT(gps_latitude, 6); // 6 digits of precision
+
+struct _FLOAT
+{
+  float val;
+  int digits;
+  _FLOAT(double v, int d): val(v), digits(d)
+  {}
+};
+
+inline Print &operator <<(Print &obj, const _FLOAT &arg)
+{ obj.print(arg.val, arg.digits); return obj; }
+#endif
+
+// Specialization for enum _EndLineCode
+// Thanks to Arduino forum user Paul V. who suggested this
+// clever technique to allow for expressions like
+//   Serial << "Hello!" << endl;
+
+enum _EndLineCode { endl };
+
+inline Print &operator <<(Print &obj, _EndLineCode arg) 
+{ obj.println(); return obj; }
+
+#endif
+
diff --git a/Marlin/temperature.cpp b/Marlin/temperature.cpp
index 5aaf6fd97..ebc772e1d 100644
--- a/Marlin/temperature.cpp
+++ b/Marlin/temperature.cpp
@@ -1,483 +1,483 @@
-/*
-  temperature.c - temperature control
-  Part of Marlin
-  
- Copyright (C) 2011 Camiel Gubbels / Erik van der Zalm
- 
- This program is free software: you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation, either version 3 of the License, or
- (at your option) any later version.
- 
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
- GNU General Public License for more details.
- 
- You should have received a copy of the GNU General Public License
- along with this program.  If not, see <http://www.gnu.org/licenses/>.
- */
-
-/*
- This firmware is a mashup between Sprinter and grbl.
-  (https://github.com/kliment/Sprinter)
-  (https://github.com/simen/grbl/tree)
- 
- It has preliminary support for Matthew Roberts advance algorithm 
-    http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
-
- This firmware is optimized for gen6 electronics.
- */
-
-#include "fastio.h"
-#include "Configuration.h"
-#include "pins.h"
-#include "Marlin.h"
-#include "ultralcd.h"
-#include "streaming.h"
-#include "temperature.h"
-
-int target_bed_raw = 0;
-int current_bed_raw = 0;
-
-int target_raw[3] = {0, 0, 0};
-int current_raw[3] = {0, 0, 0};
-unsigned char temp_meas_ready = false;
-
-unsigned long previous_millis_heater, previous_millis_bed_heater;
-
-#ifdef PIDTEMP
-  double temp_iState = 0;
-  double temp_dState = 0;
-  double pTerm;
-  double iTerm;
-  double dTerm;
-      //int output;
-  double pid_error;
-  double temp_iState_min;
-  double temp_iState_max;
-  double pid_setpoint = 0.0;
-  double pid_input;
-  double pid_output;
-  bool pid_reset;
-  float HeaterPower;
-  
-  float Kp=DEFAULT_Kp;
-  float Ki=DEFAULT_Ki;
-  float Kd=DEFAULT_Kd;
-  float Kc=DEFAULT_Kc;
-#endif //PIDTEMP
-
-#ifdef MINTEMP
-int minttemp = temp2analog(MINTEMP);
-#endif //MINTEMP
-#ifdef MAXTEMP
-int maxttemp = temp2analog(MAXTEMP);
-#endif //MAXTEMP
-
-#ifdef BED_MINTEMP
-int bed_minttemp = temp2analog(BED_MINTEMP);
-#endif //BED_MINTEMP
-#ifdef BED_MAXTEMP
-int bed_maxttemp = temp2analog(BED_MAXTEMP);
-#endif //BED_MAXTEMP
-
-void manage_heater()
-{
-#ifdef USE_WATCHDOG
-  wd_reset();
-#endif
-  
-  float pid_input;
-  float pid_output;
+/*
+  temperature.c - temperature control
+  Part of Marlin
+  
+ Copyright (C) 2011 Camiel Gubbels / Erik van der Zalm
+ 
+ This program is free software: you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation, either version 3 of the License, or
+ (at your option) any later version.
+ 
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ GNU General Public License for more details.
+ 
+ You should have received a copy of the GNU General Public License
+ along with this program.  If not, see <http://www.gnu.org/licenses/>.
+ */
+
+/*
+ This firmware is a mashup between Sprinter and grbl.
+  (https://github.com/kliment/Sprinter)
+  (https://github.com/simen/grbl/tree)
+ 
+ It has preliminary support for Matthew Roberts advance algorithm 
+    http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
+
+ This firmware is optimized for gen6 electronics.
+ */
+
+#include "fastio.h"
+#include "Configuration.h"
+#include "pins.h"
+#include "Marlin.h"
+#include "ultralcd.h"
+#include "streaming.h"
+#include "temperature.h"
+
+int target_bed_raw = 0;
+int current_bed_raw = 0;
+
+int target_raw[3] = {0, 0, 0};
+int current_raw[3] = {0, 0, 0};
+unsigned char temp_meas_ready = false;
+
+unsigned long previous_millis_heater, previous_millis_bed_heater;
+
+#ifdef PIDTEMP
+  double temp_iState = 0;
+  double temp_dState = 0;
+  double pTerm;
+  double iTerm;
+  double dTerm;
+      //int output;
+  double pid_error;
+  double temp_iState_min;
+  double temp_iState_max;
+  double pid_setpoint = 0.0;
+  double pid_input;
+  double pid_output;
+  bool pid_reset;
+  float HeaterPower;
+  
+  float Kp=DEFAULT_Kp;
+  float Ki=DEFAULT_Ki;
+  float Kd=DEFAULT_Kd;
+  float Kc=DEFAULT_Kc;
+#endif //PIDTEMP
+
+#ifdef MINTEMP
+int minttemp = temp2analog(MINTEMP);
+#endif //MINTEMP
+#ifdef MAXTEMP
+int maxttemp = temp2analog(MAXTEMP);
+#endif //MAXTEMP
+
+#ifdef BED_MINTEMP
+int bed_minttemp = temp2analog(BED_MINTEMP);
+#endif //BED_MINTEMP
+#ifdef BED_MAXTEMP
+int bed_maxttemp = temp2analog(BED_MAXTEMP);
+#endif //BED_MAXTEMP
+
+void manage_heater()
+{
+#ifdef USE_WATCHDOG
+  wd_reset();
+#endif
+  
+  float pid_input;
+  float pid_output;
   if(temp_meas_ready != true)   //better readability
     return; 
-
-CRITICAL_SECTION_START;
-    temp_meas_ready = false;
-CRITICAL_SECTION_END;
-
-#ifdef PIDTEMP
+
+CRITICAL_SECTION_START;
+    temp_meas_ready = false;
+CRITICAL_SECTION_END;
+
+#ifdef PIDTEMP
     pid_input = analog2temp(current_raw[TEMPSENSOR_HOTEND]);
-
-#ifndef PID_OPENLOOP
-    pid_error = pid_setpoint - pid_input;
-    if(pid_error > 10){
-      pid_output = PID_MAX;
-      pid_reset = true;
-    }
-    else if(pid_error < -10) {
-      pid_output = 0;
-      pid_reset = true;
-    }
-    else {
-      if(pid_reset == true) {
-        temp_iState = 0.0;
-        pid_reset = false;
-      }
-      pTerm = Kp * pid_error;
-      temp_iState += pid_error;
-      temp_iState = constrain(temp_iState, temp_iState_min, temp_iState_max);
-      iTerm = Ki * temp_iState;
+
+#ifndef PID_OPENLOOP
+    pid_error = pid_setpoint - pid_input;
+    if(pid_error > 10){
+      pid_output = PID_MAX;
+      pid_reset = true;
+    }
+    else if(pid_error < -10) {
+      pid_output = 0;
+      pid_reset = true;
+    }
+    else {
+      if(pid_reset == true) {
+        temp_iState = 0.0;
+        pid_reset = false;
+      }
+      pTerm = Kp * pid_error;
+      temp_iState += pid_error;
+      temp_iState = constrain(temp_iState, temp_iState_min, temp_iState_max);
+      iTerm = Ki * temp_iState;
       //K1 defined in Configuration.h in the PID settings
-      #define K2 (1.0-K1)
-      dTerm = (Kd * (pid_input - temp_dState))*K2 + (K1 * dTerm);
-      temp_dState = pid_input;
+      #define K2 (1.0-K1)
+      dTerm = (Kd * (pid_input - temp_dState))*K2 + (K1 * dTerm);
+      temp_dState = pid_input;
       #ifdef PID_ADD_EXTRUSION_RATE
         pTerm+=Kc*current_block->speed_e; //additional heating if extrusion speed is high
       #endif
-      pid_output = constrain(pTerm + iTerm - dTerm, 0, PID_MAX);
-    }
-#endif //PID_OPENLOOP
-#ifdef PID_DEBUG
-     Serial.print(" Input ");
-     Serial.print(pid_input);
-     Serial.print(" Output ");
-     Serial.print(pid_output);    
-     Serial.print(" pTerm ");
-     Serial.print(pTerm); 
-     Serial.print(" iTerm ");
-     Serial.print(iTerm); 
-     Serial.print(" dTerm ");
-     Serial.print(dTerm); 
-     Serial.println();
-#endif //PID_DEBUG
-    analogWrite(HEATER_0_PIN, pid_output);
-#endif //PIDTEMP
-
-#ifndef PIDTEMP
-    if(current_raw[0] >= target_raw[0])
-    {
-      WRITE(HEATER_0_PIN,LOW);
-    }
-    else 
-    {
-      WRITE(HEATER_0_PIN,HIGH);
-    }
-#endif
-    
-  if(millis() - previous_millis_bed_heater < BED_CHECK_INTERVAL)
-    return;
-  previous_millis_bed_heater = millis();
-  
-  #if TEMP_1_PIN > -1
+      pid_output = constrain(pTerm + iTerm - dTerm, 0, PID_MAX);
+    }
+#endif //PID_OPENLOOP
+#ifdef PID_DEBUG
+     Serial.print(" Input ");
+     Serial.print(pid_input);
+     Serial.print(" Output ");
+     Serial.print(pid_output);    
+     Serial.print(" pTerm ");
+     Serial.print(pTerm); 
+     Serial.print(" iTerm ");
+     Serial.print(iTerm); 
+     Serial.print(" dTerm ");
+     Serial.print(dTerm); 
+     Serial.println();
+#endif //PID_DEBUG
+    analogWrite(HEATER_0_PIN, pid_output);
+#endif //PIDTEMP
+
+#ifndef PIDTEMP
+    if(current_raw[0] >= target_raw[0])
+    {
+      WRITE(HEATER_0_PIN,LOW);
+    }
+    else 
+    {
+      WRITE(HEATER_0_PIN,HIGH);
+    }
+#endif
+    
+  if(millis() - previous_millis_bed_heater < BED_CHECK_INTERVAL)
+    return;
+  previous_millis_bed_heater = millis();
+  
+  #if TEMP_1_PIN > -1
     if(current_raw[TEMPSENSOR_BED] >= target_raw[TEMPSENSOR_BED])
-    {
-      WRITE(HEATER_1_PIN,LOW);
-    }
-    else 
-    {
-      WRITE(HEATER_1_PIN,HIGH);
-    }
-  #endif
-  }
-
-// Takes hot end temperature value as input and returns corresponding raw value. 
-// For a thermistor, it uses the RepRap thermistor temp table.
-// This is needed because PID in hydra firmware hovers around a given analog value, not a temp value.
-// This function is derived from inversing the logic from a portion of getTemperature() in FiveD RepRap firmware.
-float temp2analog(int celsius) {
-  #ifdef HEATER_USES_THERMISTOR_1
-    int raw = 0;
-    byte i;
-    
-    for (i=1; i<NUMTEMPS_HEATER_1; i++)
-    {
-      if (temptable_1[i][1] < celsius)
-      {
-        raw = temptable_1[i-1][0] + 
-          (celsius - temptable_1[i-1][1]) * 
-          (temptable_1[i][0] - temptable_1[i-1][0]) /
-          (temptable_1[i][1] - temptable_1[i-1][1]);
-      
-        break;
-      }
-    }
-
-    // Overflow: Set to last value in the table
-    if (i == NUMTEMPS_1) raw = temptable_1[i-1][0];
-
-    return (1023 * OVERSAMPLENR) - raw;
-  #elif defined HEATER_1_USES_AD595
-    return celsius * (1024.0 / (5.0 * 100.0) ) * OVERSAMPLENR;
-  #endif
-}
-
-// Takes bed temperature value as input and returns corresponding raw value. 
-// For a thermistor, it uses the RepRap thermistor temp table.
-// This is needed because PID in hydra firmware hovers around a given analog value, not a temp value.
-// This function is derived from inversing the logic from a portion of getTemperature() in FiveD RepRap firmware.
-float temp2analogBed(int celsius) {
-  #ifdef BED_USES_THERMISTOR
-
-    int raw = 0;
-    byte i;
-    
-    for (i=1; i<BNUMTEMPS; i++)
-    {
-      if (bedtemptable[i][1] < celsius)
-      {
-        raw = bedtemptable[i-1][0] + 
-          (celsius - bedtemptable[i-1][1]) * 
-          (bedtemptable[i][0] - bedtemptable[i-1][0]) /
-          (bedtemptable[i][1] - bedtemptable[i-1][1]);
-      
-        break;
-      }
-    }
-
-    // Overflow: Set to last value in the table
-    if (i == BNUMTEMPS) raw = bedtemptable[i-1][0];
-
-    return (1023 * OVERSAMPLENR) - raw;
-  #elif defined BED_USES_AD595
-    return celsius * (1024.0 / (5.0 * 100.0) ) * OVERSAMPLENR;
-  #endif
-}
-
-// Derived from RepRap FiveD extruder::getTemperature()
-// For hot end temperature measurement.
-float analog2temp(int raw) {
-  #ifdef HEATER_1_USES_THERMISTOR
-    int celsius = 0;
-    byte i;  
-    raw = (1023 * OVERSAMPLENR) - raw;
-    for (i=1; i<NUMTEMPS_HEATER_1; i++)
-    {
-      if (temptable_1[i][0] > raw)
-      {
-        celsius  = temptable_1[i-1][1] + 
-          (raw - temptable_1[i-1][0]) * 
-          (temptable_1[i][1] - temptable_1[i-1][1]) /
-          (temptable_1[i][0] - temptable_1[i-1][0]);
-
-        break;
-      }
-    }
-
-    // Overflow: Set to last value in the table
-    if (i == NUMTEMPS_HEATER_1) celsius = temptable_1[i-1][1];
-
-    return celsius;
-  #elif defined HEATER_1_USES_AD595
-    return raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR;
-  #endif
-}
-
-// Derived from RepRap FiveD extruder::getTemperature()
-// For bed temperature measurement.
-float analog2tempBed(int raw) {
-  #ifdef BED_USES_THERMISTOR
-    int celsius = 0;
-    byte i;
-
-    raw = (1023 * OVERSAMPLENR) - raw;
-
-    for (i=1; i<BNUMTEMPS; i++)
-    {
-      if (bedtemptable[i][0] > raw)
-      {
-        celsius  = bedtemptable[i-1][1] + 
-          (raw - bedtemptable[i-1][0]) * 
-          (bedtemptable[i][1] - bedtemptable[i-1][1]) /
-          (bedtemptable[i][0] - bedtemptable[i-1][0]);
-
-        break;
-      }
-    }
-
-    // Overflow: Set to last value in the table
-    if (i == BNUMTEMPS) celsius = bedtemptable[i-1][1];
-
-    return celsius;
-    
-  #elif defined BED_USES_AD595
-    return raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR;
-  #endif
-}
-
-void tp_init()
-{
-#if (HEATER_0_PIN > -1) 
-  SET_OUTPUT(HEATER_0_PIN);
-#endif  
-#if (HEATER_1_PIN > -1) 
-  SET_OUTPUT(HEATER_1_PIN);
-#endif  
-#if (HEATER_2_PIN > -1) 
-  SET_OUTPUT(HEATER_2_PIN);
-#endif  
-
-#ifdef PIDTEMP
-  temp_iState_min = 0.0;
-  temp_iState_max = PID_INTEGRAL_DRIVE_MAX / Ki;
-#endif //PIDTEMP
-
-// Set analog inputs
-  ADCSRA = 1<<ADEN | 1<<ADSC | 1<<ADIF | 0x07;
-  
-// Use timer0 for temperature measurement
-// Interleave temperature interrupt with millies interrupt
-  OCR0B = 128;
-  TIMSK0 |= (1<<OCIE0B);  
-}
-
-static unsigned char temp_count = 0;
-static unsigned long raw_temp_0_value = 0;
-static unsigned long raw_temp_1_value = 0;
-static unsigned long raw_temp_2_value = 0;
-static unsigned char temp_state = 0;
-
-// Timer 0 is shared with millies
-ISR(TIMER0_COMPB_vect)
-{
-  switch(temp_state) {
-    case 0: // Prepare TEMP_0
-            #if (TEMP_0_PIN > -1)
-              #if TEMP_0_PIN < 8
-                DIDR0 = 1 << TEMP_0_PIN; 
-              #else
-                DIDR2 = 1<<(TEMP_0_PIN - 8); 
-                ADCSRB = 1<<MUX5;
-              #endif
-              ADMUX = ((1 << REFS0) | (TEMP_0_PIN & 0x07));
-              ADCSRA |= 1<<ADSC; // Start conversion
-            #endif
-            #ifdef ULTIPANEL
-              buttons_check();
-            #endif
-            temp_state = 1;
-            break;
-    case 1: // Measure TEMP_0
-            #if (TEMP_0_PIN > -1)
-              raw_temp_0_value += ADC;
-            #endif
-            temp_state = 2;
-            break;
-    case 2: // Prepare TEMP_1
-            #if (TEMP_1_PIN > -1)
-              #if TEMP_1_PIN < 7
-                DIDR0 = 1<<TEMP_1_PIN; 
-              #else
-                DIDR2 = 1<<(TEMP_1_PIN - 8); 
-                ADCSRB = 1<<MUX5;
-              #endif
-              ADMUX = ((1 << REFS0) | (TEMP_1_PIN & 0x07));
-              ADCSRA |= 1<<ADSC; // Start conversion
-            #endif
-            #ifdef ULTIPANEL
-              buttons_check();
-            #endif
-            temp_state = 3;
-            break;
-    case 3: // Measure TEMP_1
-            #if (TEMP_1_PIN > -1)
-              raw_temp_1_value += ADC;
-            #endif
-            temp_state = 4;
-            break;
-    case 4: // Prepare TEMP_2
-            #if (TEMP_2_PIN > -1)
-              #if TEMP_2_PIN < 7
-                DIDR0 = 1 << TEMP_2_PIN; 
-              #else
-                DIDR2 = 1<<(TEMP_2_PIN - 8); 
-                ADCSRB = 1<<MUX5;
-              #endif
-              ADMUX = ((1 << REFS0) | (TEMP_2_PIN & 0x07));
-              ADCSRA |= 1<<ADSC; // Start conversion
-            #endif
-            #ifdef ULTIPANEL
-              buttons_check();
-            #endif
-            temp_state = 5;
-            break;
-    case 5: // Measure TEMP_2
-            #if (TEMP_2_PIN > -1)
-              raw_temp_2_value += ADC;
-            #endif
-            temp_state = 0;
-            temp_count++;
-            break;
-    default:
-            Serial.println("!! Temp measurement error !!");
-            break;
-  }
-    
-  if(temp_count >= 16) // 6 ms * 16 = 96ms.
-  {
-    #ifdef HEATER_1_USES_AD595
-      current_raw[0] = raw_temp_0_value;
-    #else
-      current_raw[0] = 16383 - raw_temp_0_value;
-    #endif
-    
-    #ifdef HEATER_2_USES_AD595
-      current_raw[2] = raw_temp_2_value;
-    #else
-      current_raw[2] = 16383 - raw_temp_2_value;
-    #endif
-    
-    #ifdef BED_USES_AD595
-      current_raw[1] = raw_temp_1_value;
-    #else
-      current_raw[1] = 16383 - raw_temp_1_value;
-    #endif
-    
-    temp_meas_ready = true;
-    temp_count = 0;
-    raw_temp_0_value = 0;
-    raw_temp_1_value = 0;
-    raw_temp_2_value = 0;
-#ifdef MAXTEMP
-  #if (HEATER_0_PIN > -1)
+    {
+      WRITE(HEATER_1_PIN,LOW);
+    }
+    else 
+    {
+      WRITE(HEATER_1_PIN,HIGH);
+    }
+  #endif
+  }
+
+// Takes hot end temperature value as input and returns corresponding raw value. 
+// For a thermistor, it uses the RepRap thermistor temp table.
+// This is needed because PID in hydra firmware hovers around a given analog value, not a temp value.
+// This function is derived from inversing the logic from a portion of getTemperature() in FiveD RepRap firmware.
+float temp2analog(int celsius) {
+  #ifdef HEATER_USES_THERMISTOR_1
+    int raw = 0;
+    byte i;
+    
+    for (i=1; i<NUMTEMPS_HEATER_1; i++)
+    {
+      if (temptable_1[i][1] < celsius)
+      {
+        raw = temptable_1[i-1][0] + 
+          (celsius - temptable_1[i-1][1]) * 
+          (temptable_1[i][0] - temptable_1[i-1][0]) /
+          (temptable_1[i][1] - temptable_1[i-1][1]);
+      
+        break;
+      }
+    }
+
+    // Overflow: Set to last value in the table
+    if (i == NUMTEMPS_1) raw = temptable_1[i-1][0];
+
+    return (1023 * OVERSAMPLENR) - raw;
+  #elif defined HEATER_1_USES_AD595
+    return celsius * (1024.0 / (5.0 * 100.0) ) * OVERSAMPLENR;
+  #endif
+}
+
+// Takes bed temperature value as input and returns corresponding raw value. 
+// For a thermistor, it uses the RepRap thermistor temp table.
+// This is needed because PID in hydra firmware hovers around a given analog value, not a temp value.
+// This function is derived from inversing the logic from a portion of getTemperature() in FiveD RepRap firmware.
+float temp2analogBed(int celsius) {
+  #ifdef BED_USES_THERMISTOR
+
+    int raw = 0;
+    byte i;
+    
+    for (i=1; i<BNUMTEMPS; i++)
+    {
+      if (bedtemptable[i][1] < celsius)
+      {
+        raw = bedtemptable[i-1][0] + 
+          (celsius - bedtemptable[i-1][1]) * 
+          (bedtemptable[i][0] - bedtemptable[i-1][0]) /
+          (bedtemptable[i][1] - bedtemptable[i-1][1]);
+      
+        break;
+      }
+    }
+
+    // Overflow: Set to last value in the table
+    if (i == BNUMTEMPS) raw = bedtemptable[i-1][0];
+
+    return (1023 * OVERSAMPLENR) - raw;
+  #elif defined BED_USES_AD595
+    return celsius * (1024.0 / (5.0 * 100.0) ) * OVERSAMPLENR;
+  #endif
+}
+
+// Derived from RepRap FiveD extruder::getTemperature()
+// For hot end temperature measurement.
+float analog2temp(int raw) {
+  #ifdef HEATER_1_USES_THERMISTOR
+    int celsius = 0;
+    byte i;  
+    raw = (1023 * OVERSAMPLENR) - raw;
+    for (i=1; i<NUMTEMPS_HEATER_1; i++)
+    {
+      if (temptable_1[i][0] > raw)
+      {
+        celsius  = temptable_1[i-1][1] + 
+          (raw - temptable_1[i-1][0]) * 
+          (temptable_1[i][1] - temptable_1[i-1][1]) /
+          (temptable_1[i][0] - temptable_1[i-1][0]);
+
+        break;
+      }
+    }
+
+    // Overflow: Set to last value in the table
+    if (i == NUMTEMPS_HEATER_1) celsius = temptable_1[i-1][1];
+
+    return celsius;
+  #elif defined HEATER_1_USES_AD595
+    return raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR;
+  #endif
+}
+
+// Derived from RepRap FiveD extruder::getTemperature()
+// For bed temperature measurement.
+float analog2tempBed(int raw) {
+  #ifdef BED_USES_THERMISTOR
+    int celsius = 0;
+    byte i;
+
+    raw = (1023 * OVERSAMPLENR) - raw;
+
+    for (i=1; i<BNUMTEMPS; i++)
+    {
+      if (bedtemptable[i][0] > raw)
+      {
+        celsius  = bedtemptable[i-1][1] + 
+          (raw - bedtemptable[i-1][0]) * 
+          (bedtemptable[i][1] - bedtemptable[i-1][1]) /
+          (bedtemptable[i][0] - bedtemptable[i-1][0]);
+
+        break;
+      }
+    }
+
+    // Overflow: Set to last value in the table
+    if (i == BNUMTEMPS) celsius = bedtemptable[i-1][1];
+
+    return celsius;
+    
+  #elif defined BED_USES_AD595
+    return raw * ((5.0 * 100.0) / 1024.0) / OVERSAMPLENR;
+  #endif
+}
+
+void tp_init()
+{
+#if (HEATER_0_PIN > -1) 
+  SET_OUTPUT(HEATER_0_PIN);
+#endif  
+#if (HEATER_1_PIN > -1) 
+  SET_OUTPUT(HEATER_1_PIN);
+#endif  
+#if (HEATER_2_PIN > -1) 
+  SET_OUTPUT(HEATER_2_PIN);
+#endif  
+
+#ifdef PIDTEMP
+  temp_iState_min = 0.0;
+  temp_iState_max = PID_INTEGRAL_DRIVE_MAX / Ki;
+#endif //PIDTEMP
+
+// Set analog inputs
+  ADCSRA = 1<<ADEN | 1<<ADSC | 1<<ADIF | 0x07;
+  
+// Use timer0 for temperature measurement
+// Interleave temperature interrupt with millies interrupt
+  OCR0B = 128;
+  TIMSK0 |= (1<<OCIE0B);  
+}
+
+static unsigned char temp_count = 0;
+static unsigned long raw_temp_0_value = 0;
+static unsigned long raw_temp_1_value = 0;
+static unsigned long raw_temp_2_value = 0;
+static unsigned char temp_state = 0;
+
+// Timer 0 is shared with millies
+ISR(TIMER0_COMPB_vect)
+{
+  switch(temp_state) {
+    case 0: // Prepare TEMP_0
+            #if (TEMP_0_PIN > -1)
+              #if TEMP_0_PIN < 8
+                DIDR0 = 1 << TEMP_0_PIN; 
+              #else
+                DIDR2 = 1<<(TEMP_0_PIN - 8); 
+                ADCSRB = 1<<MUX5;
+              #endif
+              ADMUX = ((1 << REFS0) | (TEMP_0_PIN & 0x07));
+              ADCSRA |= 1<<ADSC; // Start conversion
+            #endif
+            #ifdef ULTIPANEL
+              buttons_check();
+            #endif
+            temp_state = 1;
+            break;
+    case 1: // Measure TEMP_0
+            #if (TEMP_0_PIN > -1)
+              raw_temp_0_value += ADC;
+            #endif
+            temp_state = 2;
+            break;
+    case 2: // Prepare TEMP_1
+            #if (TEMP_1_PIN > -1)
+              #if TEMP_1_PIN < 7
+                DIDR0 = 1<<TEMP_1_PIN; 
+              #else
+                DIDR2 = 1<<(TEMP_1_PIN - 8); 
+                ADCSRB = 1<<MUX5;
+              #endif
+              ADMUX = ((1 << REFS0) | (TEMP_1_PIN & 0x07));
+              ADCSRA |= 1<<ADSC; // Start conversion
+            #endif
+            #ifdef ULTIPANEL
+              buttons_check();
+            #endif
+            temp_state = 3;
+            break;
+    case 3: // Measure TEMP_1
+            #if (TEMP_1_PIN > -1)
+              raw_temp_1_value += ADC;
+            #endif
+            temp_state = 4;
+            break;
+    case 4: // Prepare TEMP_2
+            #if (TEMP_2_PIN > -1)
+              #if TEMP_2_PIN < 7
+                DIDR0 = 1 << TEMP_2_PIN; 
+              #else
+                DIDR2 = 1<<(TEMP_2_PIN - 8); 
+                ADCSRB = 1<<MUX5;
+              #endif
+              ADMUX = ((1 << REFS0) | (TEMP_2_PIN & 0x07));
+              ADCSRA |= 1<<ADSC; // Start conversion
+            #endif
+            #ifdef ULTIPANEL
+              buttons_check();
+            #endif
+            temp_state = 5;
+            break;
+    case 5: // Measure TEMP_2
+            #if (TEMP_2_PIN > -1)
+              raw_temp_2_value += ADC;
+            #endif
+            temp_state = 0;
+            temp_count++;
+            break;
+    default:
+            Serial.println("!! Temp measurement error !!");
+            break;
+  }
+    
+  if(temp_count >= 16) // 6 ms * 16 = 96ms.
+  {
+    #ifdef HEATER_1_USES_AD595
+      current_raw[0] = raw_temp_0_value;
+    #else
+      current_raw[0] = 16383 - raw_temp_0_value;
+    #endif
+    
+    #ifdef HEATER_2_USES_AD595
+      current_raw[2] = raw_temp_2_value;
+    #else
+      current_raw[2] = 16383 - raw_temp_2_value;
+    #endif
+    
+    #ifdef BED_USES_AD595
+      current_raw[1] = raw_temp_1_value;
+    #else
+      current_raw[1] = 16383 - raw_temp_1_value;
+    #endif
+    
+    temp_meas_ready = true;
+    temp_count = 0;
+    raw_temp_0_value = 0;
+    raw_temp_1_value = 0;
+    raw_temp_2_value = 0;
+#ifdef MAXTEMP
+  #if (HEATER_0_PIN > -1)
     if(current_raw[TEMPSENSOR_HOTEND] >= maxttemp) {
       target_raw[TEMPSENSOR_HOTEND] = 0;
-      analogWrite(HEATER_0_PIN, 0);
-      Serial.println("!! Temperature extruder 0 switched off. MAXTEMP triggered !!");
-    }
-  #endif
-  #if (HEATER_2_PIN > -1)
+      analogWrite(HEATER_0_PIN, 0);
+      Serial.println("!! Temperature extruder 0 switched off. MAXTEMP triggered !!");
+    }
+  #endif
+  #if (HEATER_2_PIN > -1)
     if(current_raw[TEMPSENSOR_AUX] >= maxttemp) {
       target_raw[TEMPSENSOR_AUX] = 0;
-      analogWrite(HEATER_2_PIN, 0);
-      Serial.println("!! Temperature extruder 1 switched off. MAXTEMP triggered !!");
-    }
-  #endif
-#endif //MAXTEMP
-#ifdef MINTEMP
-  #if (HEATER_0_PIN > -1)
+      analogWrite(HEATER_2_PIN, 0);
+      Serial.println("!! Temperature extruder 1 switched off. MAXTEMP triggered !!");
+    }
+  #endif
+#endif //MAXTEMP
+#ifdef MINTEMP
+  #if (HEATER_0_PIN > -1)
     if(current_raw[TEMPSENSOR_HOTEND] <= minttemp) {
       target_raw[TEMPSENSOR_HOTEND] = 0;
-      analogWrite(HEATER_0_PIN, 0);
-      Serial.println("!! Temperature extruder 0 switched off. MINTEMP triggered !!");
-    }
-  #endif
-  #if (HEATER_2_PIN > -1)
+      analogWrite(HEATER_0_PIN, 0);
+      Serial.println("!! Temperature extruder 0 switched off. MINTEMP triggered !!");
+    }
+  #endif
+  #if (HEATER_2_PIN > -1)
     if(current_raw[TEMPSENSOR_AUX] <= minttemp) {
       target_raw[TEMPSENSOR_AUX] = 0;
-      analogWrite(HEATER_2_PIN, 0);
-      Serial.println("!! Temperature extruder 1 switched off. MINTEMP triggered !!");
-    }
-  #endif
-#endif //MAXTEMP
-#ifdef BED_MINTEMP
-  #if (HEATER_1_PIN > -1)
-    if(current_raw[1] <= bed_minttemp) {
-      target_raw[1] = 0;
-      WRITE(HEATER_1_PIN, 0);
-      Serial.println("!! Temperatur heated bed switched off. MINTEMP triggered !!");
-    }
-  #endif
-#endif
-#ifdef BED_MAXTEMP
-  #if (HEATER_1_PIN > -1)
-    if(current_raw[1] >= bed_maxttemp) {
-      target_raw[1] = 0;
-      WRITE(HEATER_1_PIN, 0);
-      Serial.println("!! Temperature heated bed switched off. MAXTEMP triggered !!");
-    }
-  #endif
-#endif
-  }
-}
+      analogWrite(HEATER_2_PIN, 0);
+      Serial.println("!! Temperature extruder 1 switched off. MINTEMP triggered !!");
+    }
+  #endif
+#endif //MAXTEMP
+#ifdef BED_MINTEMP
+  #if (HEATER_1_PIN > -1)
+    if(current_raw[1] <= bed_minttemp) {
+      target_raw[1] = 0;
+      WRITE(HEATER_1_PIN, 0);
+      Serial.println("!! Temperatur heated bed switched off. MINTEMP triggered !!");
+    }
+  #endif
+#endif
+#ifdef BED_MAXTEMP
+  #if (HEATER_1_PIN > -1)
+    if(current_raw[1] >= bed_maxttemp) {
+      target_raw[1] = 0;
+      WRITE(HEATER_1_PIN, 0);
+      Serial.println("!! Temperature heated bed switched off. MAXTEMP triggered !!");
+    }
+  #endif
+#endif
+  }
+}
diff --git a/Marlin/thermistortables.h b/Marlin/thermistortables.h
index 6d43d7273..fcefa550f 100644
--- a/Marlin/thermistortables.h
+++ b/Marlin/thermistortables.h
@@ -1,410 +1,410 @@
-#ifndef THERMISTORTABLES_H_
-#define THERMISTORTABLES_H_
-
-#define OVERSAMPLENR 16
-
-#if (THERMISTORHEATER_1 == 1) || (THERMISTORHEATER_2 == 1) || (THERMISTORBED == 1) //100k bed thermistor
-
-#define NUMTEMPS_1 61
-const short temptable_1[NUMTEMPS_1][2] = {
-{       23*OVERSAMPLENR ,       300     },
-{       25*OVERSAMPLENR ,       295     },
-{       27*OVERSAMPLENR ,       290     },
-{       28*OVERSAMPLENR ,       285     },
-{       31*OVERSAMPLENR ,       280     },
-{       33*OVERSAMPLENR ,       275     },
-{       35*OVERSAMPLENR ,       270     },
-{       38*OVERSAMPLENR ,       265     },
-{       41*OVERSAMPLENR ,       260     },
-{       44*OVERSAMPLENR ,       255     },
-{       48*OVERSAMPLENR ,       250     },
-{       52*OVERSAMPLENR ,       245     },
-{       56*OVERSAMPLENR ,       240     },
-{       61*OVERSAMPLENR ,       235     },
-{       66*OVERSAMPLENR ,       230     },
-{       71*OVERSAMPLENR ,       225     },
-{       78*OVERSAMPLENR ,       220     },
-{       84*OVERSAMPLENR ,       215     },
-{       92*OVERSAMPLENR ,       210     },
-{       100*OVERSAMPLENR        ,       205     },
-{       109*OVERSAMPLENR        ,       200     },
-{       120*OVERSAMPLENR        ,       195     },
-{       131*OVERSAMPLENR        ,       190     },
-{       143*OVERSAMPLENR        ,       185     },
-{       156*OVERSAMPLENR        ,       180     },
-{       171*OVERSAMPLENR        ,       175     },
-{       187*OVERSAMPLENR        ,       170     },
-{       205*OVERSAMPLENR        ,       165     },
-{       224*OVERSAMPLENR        ,       160     },
-{       245*OVERSAMPLENR        ,       155     },
-{       268*OVERSAMPLENR        ,       150     },
-{       293*OVERSAMPLENR        ,       145     },
-{       320*OVERSAMPLENR        ,       140     },
-{       348*OVERSAMPLENR        ,       135     },
-{       379*OVERSAMPLENR        ,       130     },
-{       411*OVERSAMPLENR        ,       125     },
-{       445*OVERSAMPLENR        ,       120     },
-{       480*OVERSAMPLENR        ,       115     },
-{       516*OVERSAMPLENR        ,       110     },
-{       553*OVERSAMPLENR        ,       105     },
-{       591*OVERSAMPLENR        ,       100     },
-{       628*OVERSAMPLENR        ,       95      },
-{       665*OVERSAMPLENR        ,       90      },
-{       702*OVERSAMPLENR        ,       85      },
-{       737*OVERSAMPLENR        ,       80      },
-{       770*OVERSAMPLENR        ,       75      },
-{       801*OVERSAMPLENR        ,       70      },
-{       830*OVERSAMPLENR        ,       65      },
-{       857*OVERSAMPLENR        ,       60      },
-{       881*OVERSAMPLENR        ,       55      },
-{       903*OVERSAMPLENR        ,       50      },
-{       922*OVERSAMPLENR        ,       45      },
-{       939*OVERSAMPLENR        ,       40      },
-{       954*OVERSAMPLENR        ,       35      },
-{       966*OVERSAMPLENR        ,       30      },
-{       977*OVERSAMPLENR        ,       25      },
-{       985*OVERSAMPLENR        ,       20      },
-{       993*OVERSAMPLENR        ,       15      },
-{       999*OVERSAMPLENR        ,       10      },
-{       1004*OVERSAMPLENR       ,       5       },
-{       1008*OVERSAMPLENR       ,       0       } //safety
-};
-#endif
-#if (THERMISTORHEATER_1 == 2) || (THERMISTORHEATER_2 == 2) || (THERMISTORBED == 2) //200k bed thermistor
-#define NUMTEMPS_2 21
-const short temptable_2[NUMTEMPS_2][2] = {
-   {1*OVERSAMPLENR, 848},
-   {54*OVERSAMPLENR, 275},
-   {107*OVERSAMPLENR, 228},
-   {160*OVERSAMPLENR, 202},
-   {213*OVERSAMPLENR, 185},
-   {266*OVERSAMPLENR, 171},
-   {319*OVERSAMPLENR, 160},
-   {372*OVERSAMPLENR, 150},
-   {425*OVERSAMPLENR, 141},
-   {478*OVERSAMPLENR, 133},
-   {531*OVERSAMPLENR, 125},
-   {584*OVERSAMPLENR, 118},
-   {637*OVERSAMPLENR, 110},
-   {690*OVERSAMPLENR, 103},
-   {743*OVERSAMPLENR, 95},
-   {796*OVERSAMPLENR, 86},
-   {849*OVERSAMPLENR, 77},
-   {902*OVERSAMPLENR, 65},
-   {955*OVERSAMPLENR, 49},
-   {1008*OVERSAMPLENR, 17},
-   {1020*OVERSAMPLENR, 0} //safety
-};
-
-#endif
-#if (THERMISTORHEATER_1 == 3) || (THERMISTORHEATER_2 == 3) || (THERMISTORBED == 3) //mendel-parts
-#define NUMTEMPS_3 28
-const short temptable_3[NUMTEMPS_3][2] = {
-                {1*OVERSAMPLENR,864},
-                {21*OVERSAMPLENR,300},
-                {25*OVERSAMPLENR,290},
-                {29*OVERSAMPLENR,280},
-                {33*OVERSAMPLENR,270},
-                {39*OVERSAMPLENR,260},
-                {46*OVERSAMPLENR,250},
-                {54*OVERSAMPLENR,240},
-                {64*OVERSAMPLENR,230},
-                {75*OVERSAMPLENR,220},
-                {90*OVERSAMPLENR,210},
-                {107*OVERSAMPLENR,200},
-                {128*OVERSAMPLENR,190},
-                {154*OVERSAMPLENR,180},
-                {184*OVERSAMPLENR,170},
-                {221*OVERSAMPLENR,160},
-                {265*OVERSAMPLENR,150},
-                {316*OVERSAMPLENR,140},
-                {375*OVERSAMPLENR,130},
-                {441*OVERSAMPLENR,120},
-                {513*OVERSAMPLENR,110},
-                {588*OVERSAMPLENR,100},
-                {734*OVERSAMPLENR,80},
-                {856*OVERSAMPLENR,60},
-                {938*OVERSAMPLENR,40},
-                {986*OVERSAMPLENR,20},
-                {1008*OVERSAMPLENR,0},
-                {1018*OVERSAMPLENR,-20}
-        };
-
-#endif
-#if (THERMISTORHEATER_1 == 4) || (THERMISTORHEATER_2 == 4) || (THERMISTORBED == 4) //10k thermistor
-
-#define NUMTEMPS_4 20
-short temptable_4[NUMTEMPS_4][2] = {
-   {1*OVERSAMPLENR, 430},
-   {54*OVERSAMPLENR, 137},
-   {107*OVERSAMPLENR, 107},
-   {160*OVERSAMPLENR, 91},
-   {213*OVERSAMPLENR, 80},
-   {266*OVERSAMPLENR, 71},
-   {319*OVERSAMPLENR, 64},
-   {372*OVERSAMPLENR, 57},
-   {425*OVERSAMPLENR, 51},
-   {478*OVERSAMPLENR, 46},
-   {531*OVERSAMPLENR, 41},
-   {584*OVERSAMPLENR, 35},
-   {637*OVERSAMPLENR, 30},
-   {690*OVERSAMPLENR, 25},
-   {743*OVERSAMPLENR, 20},
-   {796*OVERSAMPLENR, 14},
-   {849*OVERSAMPLENR, 7},
-   {902*OVERSAMPLENR, 0},
-   {955*OVERSAMPLENR, -11},
-   {1008*OVERSAMPLENR, -35}
-};
-#endif
-
-#if (THERMISTORHEATER_1 == 5) || (THERMISTORHEATER_2 == 5) || (THERMISTORBED == 5) //100k ParCan thermistor (104GT-2)
-
-#define NUMTEMPS_5 61
-const short temptable_5[NUMTEMPS_5][2] = {
-{1*OVERSAMPLENR, 713},
-{18*OVERSAMPLENR, 316},
-{35*OVERSAMPLENR, 266},
-{52*OVERSAMPLENR, 239},
-{69*OVERSAMPLENR, 221},
-{86*OVERSAMPLENR, 208},
-{103*OVERSAMPLENR, 197},
-{120*OVERSAMPLENR, 188},
-{137*OVERSAMPLENR, 181},
-{154*OVERSAMPLENR, 174},
-{171*OVERSAMPLENR, 169},
-{188*OVERSAMPLENR, 163},
-{205*OVERSAMPLENR, 159},
-{222*OVERSAMPLENR, 154},
-{239*OVERSAMPLENR, 150},
-{256*OVERSAMPLENR, 147},
-{273*OVERSAMPLENR, 143},
-{290*OVERSAMPLENR, 140},
-{307*OVERSAMPLENR, 136},
-{324*OVERSAMPLENR, 133},
-{341*OVERSAMPLENR, 130},
-{358*OVERSAMPLENR, 128},
-{375*OVERSAMPLENR, 125},
-{392*OVERSAMPLENR, 122},
-{409*OVERSAMPLENR, 120},
-{426*OVERSAMPLENR, 117},
-{443*OVERSAMPLENR, 115},
-{460*OVERSAMPLENR, 112},
-{477*OVERSAMPLENR, 110},
-{494*OVERSAMPLENR, 108},
-{511*OVERSAMPLENR, 106},
-{528*OVERSAMPLENR, 103},
-{545*OVERSAMPLENR, 101},
-{562*OVERSAMPLENR, 99},
-{579*OVERSAMPLENR, 97},
-{596*OVERSAMPLENR, 95},
-{613*OVERSAMPLENR, 92},
-{630*OVERSAMPLENR, 90},
-{647*OVERSAMPLENR, 88},
-{664*OVERSAMPLENR, 86},
-{681*OVERSAMPLENR, 84},
-{698*OVERSAMPLENR, 81},
-{715*OVERSAMPLENR, 79},
-{732*OVERSAMPLENR, 77},
-{749*OVERSAMPLENR, 75},
-{766*OVERSAMPLENR, 72},
-{783*OVERSAMPLENR, 70},
-{800*OVERSAMPLENR, 67},
-{817*OVERSAMPLENR, 64},
-{834*OVERSAMPLENR, 61},
-{851*OVERSAMPLENR, 58},
-{868*OVERSAMPLENR, 55},
-{885*OVERSAMPLENR, 52},
-{902*OVERSAMPLENR, 48},
-{919*OVERSAMPLENR, 44},
-{936*OVERSAMPLENR, 40},
-{953*OVERSAMPLENR, 34},
-{970*OVERSAMPLENR, 28},
-{987*OVERSAMPLENR, 20},
-{1004*OVERSAMPLENR, 8},
-{1021*OVERSAMPLENR, 0}
-};
-#endif
-
-#if (THERMISTORHEATER_1 == 6) || (THERMISTORHEATER_2 == 6) || (THERMISTORBED == 6) // 100k Epcos thermistor
-#define NUMTEMPS_6 36
-const short temptable_6[NUMTEMPS_6][2] = {
-   {28*OVERSAMPLENR, 250},
-   {31*OVERSAMPLENR, 245},
-   {35*OVERSAMPLENR, 240},
-   {39*OVERSAMPLENR, 235},
-   {42*OVERSAMPLENR, 230},
-   {44*OVERSAMPLENR, 225},
-   {49*OVERSAMPLENR, 220},
-   {53*OVERSAMPLENR, 215},
-   {62*OVERSAMPLENR, 210},
-   {73*OVERSAMPLENR, 205},
-   {72*OVERSAMPLENR, 200},
-   {94*OVERSAMPLENR, 190},
-   {102*OVERSAMPLENR, 185},
-   {116*OVERSAMPLENR, 170},
-   {143*OVERSAMPLENR, 160},
-   {183*OVERSAMPLENR, 150},
-   {223*OVERSAMPLENR, 140},
-   {270*OVERSAMPLENR, 130},
-   {318*OVERSAMPLENR, 120},
-   {383*OVERSAMPLENR, 110},
-   {413*OVERSAMPLENR, 105},
-   {439*OVERSAMPLENR, 100},
-   {484*OVERSAMPLENR, 95},
-   {513*OVERSAMPLENR, 90},
-   {607*OVERSAMPLENR, 80},
-   {664*OVERSAMPLENR, 70},
-   {781*OVERSAMPLENR, 60},
-   {810*OVERSAMPLENR, 55},
-   {849*OVERSAMPLENR, 50},
-   {914*OVERSAMPLENR, 45},
-   {914*OVERSAMPLENR, 40},
-   {935*OVERSAMPLENR, 35},
-   {954*OVERSAMPLENR, 30},
-   {970*OVERSAMPLENR, 25},
-   {978*OVERSAMPLENR, 22},
-   {1008*OVERSAMPLENR, 3}
-};
-#endif
-
-#if (THERMISTORHEATER_1 == 7) || (THERMISTORHEATER_2 == 7) || (THERMISTORBED == 7) // 100k Honeywell 135-104LAG-J01
-#define NUMTEMPS_7 54
-const short temptable_7[NUMTEMPS_7][2] = {
-   {46*OVERSAMPLENR, 270},
-   {50*OVERSAMPLENR, 265},
-   {54*OVERSAMPLENR, 260},
-   {58*OVERSAMPLENR, 255},
-   {62*OVERSAMPLENR, 250},
-   {67*OVERSAMPLENR, 245},
-   {72*OVERSAMPLENR, 240},
-   {79*OVERSAMPLENR, 235},
-   {85*OVERSAMPLENR, 230},
-   {91*OVERSAMPLENR, 225},
-   {99*OVERSAMPLENR, 220},
-   {107*OVERSAMPLENR, 215},
-   {116*OVERSAMPLENR, 210},
-   {126*OVERSAMPLENR, 205},
-   {136*OVERSAMPLENR, 200},
-   {149*OVERSAMPLENR, 195},
-   {160*OVERSAMPLENR, 190},
-   {175*OVERSAMPLENR, 185},
-   {191*OVERSAMPLENR, 180},
-   {209*OVERSAMPLENR, 175},
-   {224*OVERSAMPLENR, 170},
-   {246*OVERSAMPLENR, 165},
-   {267*OVERSAMPLENR, 160},
-   {293*OVERSAMPLENR, 155},
-   {316*OVERSAMPLENR, 150},
-   {340*OVERSAMPLENR, 145},
-   {364*OVERSAMPLENR, 140},
-   {396*OVERSAMPLENR, 135},
-   {425*OVERSAMPLENR, 130},
-   {460*OVERSAMPLENR, 125},
-   {489*OVERSAMPLENR, 120},
-   {526*OVERSAMPLENR, 115},
-   {558*OVERSAMPLENR, 110},
-   {591*OVERSAMPLENR, 105},
-   {628*OVERSAMPLENR, 100},
-   {660*OVERSAMPLENR, 95},
-   {696*OVERSAMPLENR, 90},
-   {733*OVERSAMPLENR, 85},
-   {761*OVERSAMPLENR, 80},
-   {794*OVERSAMPLENR, 75},
-   {819*OVERSAMPLENR, 70},
-   {847*OVERSAMPLENR, 65},
-   {870*OVERSAMPLENR, 60},
-   {892*OVERSAMPLENR, 55},
-   {911*OVERSAMPLENR, 50},
-   {929*OVERSAMPLENR, 45},
-   {944*OVERSAMPLENR, 40},
-   {959*OVERSAMPLENR, 35},
-   {971*OVERSAMPLENR, 30},
-   {981*OVERSAMPLENR, 25},
-   {989*OVERSAMPLENR, 20},
-   {994*OVERSAMPLENR, 15},
-   {1001*OVERSAMPLENR, 10},
-   {1005*OVERSAMPLENR, 5}
-};
-#endif
-
-
-
-#if THERMISTORHEATER_1 == 1
-#define NUMTEMPS_HEATER_1 NUMTEMPS_1
-#define temptable_1 temptable_1
-#elif THERMISTORHEATER_1 == 2
-#define NUMTEMPS_HEATER_1 NUMTEMPS_2
-#define temptable_1 temptable_2
-#elif THERMISTORHEATER_1 == 3
-#define NUMTEMPS_HEATER_1 NUMTEMPS_3
-#define temptable_1 temptable_3
-#elif THERMISTORHEATER_1 == 4
-#define NUMTEMPS_HEATER_1 NUMTEMPS_4
-#define temptable_1 temptable_4
-#elif THERMISTORHEATER_1 == 5
-#define NUMTEMPS_HEATER_1 NUMTEMPS_5
-#define temptable_1 temptable_5
-#elif THERMISTORHEATER_1 == 6
-#define NUMTEMPS_HEATER_1 NUMTEMPS_6
-#define temptable_1 temptable_6
-#elif THERMISTORHEATER_1 == 7
-#define NUMTEMPS_HEATER_1 NUMTEMPS_7
-#define temptable_1 temptable_7
-#elif defined HEATER_1_USES_THERMISTOR
-#error No heater 1 thermistor table specified
-#endif
-
-#if THERMISTORHEATER_2 == 1
-#define NUMTEMPS_HEATER_2 NUMTEMPS_1
-#define temptable_2 temptable_1
-#elif THERMISTORHEATER_2 == 2
-#define NUMTEMPS_HEATER_2 NUMTEMPS_2
-#define temptable_2 temptable_2
-#elif THERMISTORHEATER_2 == 3
-#define NUMTEMPS_HEATER_2 NUMTEMPS_3
-#define temptable_2 temptable_3
-#elif THERMISTORHEATER_2 == 4
-#define NUMTEMPS_HEATER_2 NUMTEMPS_4
-#define temptable_2 temptable_4
-#elif THERMISTORHEATER_2 == 5
-#define NUMTEMPS_HEATER_2 NUMTEMPS_5
-#define temptable_2 temptable_5
-#elif THERMISTORHEATER_2 == 6
-#define NUMTEMPS_HEATER_2 NUMTEMPS_6
-#define temptable_2 temptable_6
-#elif THERMISTORHEATER_2 == 7
-#define NUMTEMPS_HEATER22 NUMTEMPS_7
-#define temptable_2 temptable_7
-#elif defined HEATER_2_USES_THERMISTOR
-#error No heater 2 thermistor table specified
-#endif
-
-
-#if THERMISTORBED == 1
-#define BNUMTEMPS NUMTEMPS_1
-#define bedtemptable temptable_1
-#elif THERMISTORBED == 2
-#define BNUMTEMPS NUMTEMPS_2
-#define bedtemptable temptable_2
-#elif THERMISTORBED == 3
-#define BNUMTEMPS NUMTEMPS_3
-#define bedtemptable temptable_3
-#elif THERMISTORBED == 4
-#define BNUMTEMPS NUMTEMPS_4
-#define bedtemptable temptable_4
-#elif THERMISTORBED == 5
-#define BNUMTEMPS NUMTEMPS_5
-#define bedtemptable temptable_5
-#elif THERMISTORBED == 6
-#define BNUMTEMPS NUMTEMPS_6
-#define bedtemptable temptable_6
-#elif THERMISTORBED == 7
-#define BNUMTEMPS NUMTEMPS_7
-#define bedtemptable temptable_7
-#elif defined BED_USES_THERMISTOR
-#error No bed thermistor table specified
-#endif
-
-#endif //THERMISTORTABLES_H_
-
+#ifndef THERMISTORTABLES_H_
+#define THERMISTORTABLES_H_
+
+#define OVERSAMPLENR 16
+
+#if (THERMISTORHEATER_1 == 1) || (THERMISTORHEATER_2 == 1) || (THERMISTORBED == 1) //100k bed thermistor
+
+#define NUMTEMPS_1 61
+const short temptable_1[NUMTEMPS_1][2] = {
+{       23*OVERSAMPLENR ,       300     },
+{       25*OVERSAMPLENR ,       295     },
+{       27*OVERSAMPLENR ,       290     },
+{       28*OVERSAMPLENR ,       285     },
+{       31*OVERSAMPLENR ,       280     },
+{       33*OVERSAMPLENR ,       275     },
+{       35*OVERSAMPLENR ,       270     },
+{       38*OVERSAMPLENR ,       265     },
+{       41*OVERSAMPLENR ,       260     },
+{       44*OVERSAMPLENR ,       255     },
+{       48*OVERSAMPLENR ,       250     },
+{       52*OVERSAMPLENR ,       245     },
+{       56*OVERSAMPLENR ,       240     },
+{       61*OVERSAMPLENR ,       235     },
+{       66*OVERSAMPLENR ,       230     },
+{       71*OVERSAMPLENR ,       225     },
+{       78*OVERSAMPLENR ,       220     },
+{       84*OVERSAMPLENR ,       215     },
+{       92*OVERSAMPLENR ,       210     },
+{       100*OVERSAMPLENR        ,       205     },
+{       109*OVERSAMPLENR        ,       200     },
+{       120*OVERSAMPLENR        ,       195     },
+{       131*OVERSAMPLENR        ,       190     },
+{       143*OVERSAMPLENR        ,       185     },
+{       156*OVERSAMPLENR        ,       180     },
+{       171*OVERSAMPLENR        ,       175     },
+{       187*OVERSAMPLENR        ,       170     },
+{       205*OVERSAMPLENR        ,       165     },
+{       224*OVERSAMPLENR        ,       160     },
+{       245*OVERSAMPLENR        ,       155     },
+{       268*OVERSAMPLENR        ,       150     },
+{       293*OVERSAMPLENR        ,       145     },
+{       320*OVERSAMPLENR        ,       140     },
+{       348*OVERSAMPLENR        ,       135     },
+{       379*OVERSAMPLENR        ,       130     },
+{       411*OVERSAMPLENR        ,       125     },
+{       445*OVERSAMPLENR        ,       120     },
+{       480*OVERSAMPLENR        ,       115     },
+{       516*OVERSAMPLENR        ,       110     },
+{       553*OVERSAMPLENR        ,       105     },
+{       591*OVERSAMPLENR        ,       100     },
+{       628*OVERSAMPLENR        ,       95      },
+{       665*OVERSAMPLENR        ,       90      },
+{       702*OVERSAMPLENR        ,       85      },
+{       737*OVERSAMPLENR        ,       80      },
+{       770*OVERSAMPLENR        ,       75      },
+{       801*OVERSAMPLENR        ,       70      },
+{       830*OVERSAMPLENR        ,       65      },
+{       857*OVERSAMPLENR        ,       60      },
+{       881*OVERSAMPLENR        ,       55      },
+{       903*OVERSAMPLENR        ,       50      },
+{       922*OVERSAMPLENR        ,       45      },
+{       939*OVERSAMPLENR        ,       40      },
+{       954*OVERSAMPLENR        ,       35      },
+{       966*OVERSAMPLENR        ,       30      },
+{       977*OVERSAMPLENR        ,       25      },
+{       985*OVERSAMPLENR        ,       20      },
+{       993*OVERSAMPLENR        ,       15      },
+{       999*OVERSAMPLENR        ,       10      },
+{       1004*OVERSAMPLENR       ,       5       },
+{       1008*OVERSAMPLENR       ,       0       } //safety
+};
+#endif
+#if (THERMISTORHEATER_1 == 2) || (THERMISTORHEATER_2 == 2) || (THERMISTORBED == 2) //200k bed thermistor
+#define NUMTEMPS_2 21
+const short temptable_2[NUMTEMPS_2][2] = {
+   {1*OVERSAMPLENR, 848},
+   {54*OVERSAMPLENR, 275},
+   {107*OVERSAMPLENR, 228},
+   {160*OVERSAMPLENR, 202},
+   {213*OVERSAMPLENR, 185},
+   {266*OVERSAMPLENR, 171},
+   {319*OVERSAMPLENR, 160},
+   {372*OVERSAMPLENR, 150},
+   {425*OVERSAMPLENR, 141},
+   {478*OVERSAMPLENR, 133},
+   {531*OVERSAMPLENR, 125},
+   {584*OVERSAMPLENR, 118},
+   {637*OVERSAMPLENR, 110},
+   {690*OVERSAMPLENR, 103},
+   {743*OVERSAMPLENR, 95},
+   {796*OVERSAMPLENR, 86},
+   {849*OVERSAMPLENR, 77},
+   {902*OVERSAMPLENR, 65},
+   {955*OVERSAMPLENR, 49},
+   {1008*OVERSAMPLENR, 17},
+   {1020*OVERSAMPLENR, 0} //safety
+};
+
+#endif
+#if (THERMISTORHEATER_1 == 3) || (THERMISTORHEATER_2 == 3) || (THERMISTORBED == 3) //mendel-parts
+#define NUMTEMPS_3 28
+const short temptable_3[NUMTEMPS_3][2] = {
+                {1*OVERSAMPLENR,864},
+                {21*OVERSAMPLENR,300},
+                {25*OVERSAMPLENR,290},
+                {29*OVERSAMPLENR,280},
+                {33*OVERSAMPLENR,270},
+                {39*OVERSAMPLENR,260},
+                {46*OVERSAMPLENR,250},
+                {54*OVERSAMPLENR,240},
+                {64*OVERSAMPLENR,230},
+                {75*OVERSAMPLENR,220},
+                {90*OVERSAMPLENR,210},
+                {107*OVERSAMPLENR,200},
+                {128*OVERSAMPLENR,190},
+                {154*OVERSAMPLENR,180},
+                {184*OVERSAMPLENR,170},
+                {221*OVERSAMPLENR,160},
+                {265*OVERSAMPLENR,150},
+                {316*OVERSAMPLENR,140},
+                {375*OVERSAMPLENR,130},
+                {441*OVERSAMPLENR,120},
+                {513*OVERSAMPLENR,110},
+                {588*OVERSAMPLENR,100},
+                {734*OVERSAMPLENR,80},
+                {856*OVERSAMPLENR,60},
+                {938*OVERSAMPLENR,40},
+                {986*OVERSAMPLENR,20},
+                {1008*OVERSAMPLENR,0},
+                {1018*OVERSAMPLENR,-20}
+        };
+
+#endif
+#if (THERMISTORHEATER_1 == 4) || (THERMISTORHEATER_2 == 4) || (THERMISTORBED == 4) //10k thermistor
+
+#define NUMTEMPS_4 20
+short temptable_4[NUMTEMPS_4][2] = {
+   {1*OVERSAMPLENR, 430},
+   {54*OVERSAMPLENR, 137},
+   {107*OVERSAMPLENR, 107},
+   {160*OVERSAMPLENR, 91},
+   {213*OVERSAMPLENR, 80},
+   {266*OVERSAMPLENR, 71},
+   {319*OVERSAMPLENR, 64},
+   {372*OVERSAMPLENR, 57},
+   {425*OVERSAMPLENR, 51},
+   {478*OVERSAMPLENR, 46},
+   {531*OVERSAMPLENR, 41},
+   {584*OVERSAMPLENR, 35},
+   {637*OVERSAMPLENR, 30},
+   {690*OVERSAMPLENR, 25},
+   {743*OVERSAMPLENR, 20},
+   {796*OVERSAMPLENR, 14},
+   {849*OVERSAMPLENR, 7},
+   {902*OVERSAMPLENR, 0},
+   {955*OVERSAMPLENR, -11},
+   {1008*OVERSAMPLENR, -35}
+};
+#endif
+
+#if (THERMISTORHEATER_1 == 5) || (THERMISTORHEATER_2 == 5) || (THERMISTORBED == 5) //100k ParCan thermistor (104GT-2)
+
+#define NUMTEMPS_5 61
+const short temptable_5[NUMTEMPS_5][2] = {
+{1*OVERSAMPLENR, 713},
+{18*OVERSAMPLENR, 316},
+{35*OVERSAMPLENR, 266},
+{52*OVERSAMPLENR, 239},
+{69*OVERSAMPLENR, 221},
+{86*OVERSAMPLENR, 208},
+{103*OVERSAMPLENR, 197},
+{120*OVERSAMPLENR, 188},
+{137*OVERSAMPLENR, 181},
+{154*OVERSAMPLENR, 174},
+{171*OVERSAMPLENR, 169},
+{188*OVERSAMPLENR, 163},
+{205*OVERSAMPLENR, 159},
+{222*OVERSAMPLENR, 154},
+{239*OVERSAMPLENR, 150},
+{256*OVERSAMPLENR, 147},
+{273*OVERSAMPLENR, 143},
+{290*OVERSAMPLENR, 140},
+{307*OVERSAMPLENR, 136},
+{324*OVERSAMPLENR, 133},
+{341*OVERSAMPLENR, 130},
+{358*OVERSAMPLENR, 128},
+{375*OVERSAMPLENR, 125},
+{392*OVERSAMPLENR, 122},
+{409*OVERSAMPLENR, 120},
+{426*OVERSAMPLENR, 117},
+{443*OVERSAMPLENR, 115},
+{460*OVERSAMPLENR, 112},
+{477*OVERSAMPLENR, 110},
+{494*OVERSAMPLENR, 108},
+{511*OVERSAMPLENR, 106},
+{528*OVERSAMPLENR, 103},
+{545*OVERSAMPLENR, 101},
+{562*OVERSAMPLENR, 99},
+{579*OVERSAMPLENR, 97},
+{596*OVERSAMPLENR, 95},
+{613*OVERSAMPLENR, 92},
+{630*OVERSAMPLENR, 90},
+{647*OVERSAMPLENR, 88},
+{664*OVERSAMPLENR, 86},
+{681*OVERSAMPLENR, 84},
+{698*OVERSAMPLENR, 81},
+{715*OVERSAMPLENR, 79},
+{732*OVERSAMPLENR, 77},
+{749*OVERSAMPLENR, 75},
+{766*OVERSAMPLENR, 72},
+{783*OVERSAMPLENR, 70},
+{800*OVERSAMPLENR, 67},
+{817*OVERSAMPLENR, 64},
+{834*OVERSAMPLENR, 61},
+{851*OVERSAMPLENR, 58},
+{868*OVERSAMPLENR, 55},
+{885*OVERSAMPLENR, 52},
+{902*OVERSAMPLENR, 48},
+{919*OVERSAMPLENR, 44},
+{936*OVERSAMPLENR, 40},
+{953*OVERSAMPLENR, 34},
+{970*OVERSAMPLENR, 28},
+{987*OVERSAMPLENR, 20},
+{1004*OVERSAMPLENR, 8},
+{1021*OVERSAMPLENR, 0}
+};
+#endif
+
+#if (THERMISTORHEATER_1 == 6) || (THERMISTORHEATER_2 == 6) || (THERMISTORBED == 6) // 100k Epcos thermistor
+#define NUMTEMPS_6 36
+const short temptable_6[NUMTEMPS_6][2] = {
+   {28*OVERSAMPLENR, 250},
+   {31*OVERSAMPLENR, 245},
+   {35*OVERSAMPLENR, 240},
+   {39*OVERSAMPLENR, 235},
+   {42*OVERSAMPLENR, 230},
+   {44*OVERSAMPLENR, 225},
+   {49*OVERSAMPLENR, 220},
+   {53*OVERSAMPLENR, 215},
+   {62*OVERSAMPLENR, 210},
+   {73*OVERSAMPLENR, 205},
+   {72*OVERSAMPLENR, 200},
+   {94*OVERSAMPLENR, 190},
+   {102*OVERSAMPLENR, 185},
+   {116*OVERSAMPLENR, 170},
+   {143*OVERSAMPLENR, 160},
+   {183*OVERSAMPLENR, 150},
+   {223*OVERSAMPLENR, 140},
+   {270*OVERSAMPLENR, 130},
+   {318*OVERSAMPLENR, 120},
+   {383*OVERSAMPLENR, 110},
+   {413*OVERSAMPLENR, 105},
+   {439*OVERSAMPLENR, 100},
+   {484*OVERSAMPLENR, 95},
+   {513*OVERSAMPLENR, 90},
+   {607*OVERSAMPLENR, 80},
+   {664*OVERSAMPLENR, 70},
+   {781*OVERSAMPLENR, 60},
+   {810*OVERSAMPLENR, 55},
+   {849*OVERSAMPLENR, 50},
+   {914*OVERSAMPLENR, 45},
+   {914*OVERSAMPLENR, 40},
+   {935*OVERSAMPLENR, 35},
+   {954*OVERSAMPLENR, 30},
+   {970*OVERSAMPLENR, 25},
+   {978*OVERSAMPLENR, 22},
+   {1008*OVERSAMPLENR, 3}
+};
+#endif
+
+#if (THERMISTORHEATER_1 == 7) || (THERMISTORHEATER_2 == 7) || (THERMISTORBED == 7) // 100k Honeywell 135-104LAG-J01
+#define NUMTEMPS_7 54
+const short temptable_7[NUMTEMPS_7][2] = {
+   {46*OVERSAMPLENR, 270},
+   {50*OVERSAMPLENR, 265},
+   {54*OVERSAMPLENR, 260},
+   {58*OVERSAMPLENR, 255},
+   {62*OVERSAMPLENR, 250},
+   {67*OVERSAMPLENR, 245},
+   {72*OVERSAMPLENR, 240},
+   {79*OVERSAMPLENR, 235},
+   {85*OVERSAMPLENR, 230},
+   {91*OVERSAMPLENR, 225},
+   {99*OVERSAMPLENR, 220},
+   {107*OVERSAMPLENR, 215},
+   {116*OVERSAMPLENR, 210},
+   {126*OVERSAMPLENR, 205},
+   {136*OVERSAMPLENR, 200},
+   {149*OVERSAMPLENR, 195},
+   {160*OVERSAMPLENR, 190},
+   {175*OVERSAMPLENR, 185},
+   {191*OVERSAMPLENR, 180},
+   {209*OVERSAMPLENR, 175},
+   {224*OVERSAMPLENR, 170},
+   {246*OVERSAMPLENR, 165},
+   {267*OVERSAMPLENR, 160},
+   {293*OVERSAMPLENR, 155},
+   {316*OVERSAMPLENR, 150},
+   {340*OVERSAMPLENR, 145},
+   {364*OVERSAMPLENR, 140},
+   {396*OVERSAMPLENR, 135},
+   {425*OVERSAMPLENR, 130},
+   {460*OVERSAMPLENR, 125},
+   {489*OVERSAMPLENR, 120},
+   {526*OVERSAMPLENR, 115},
+   {558*OVERSAMPLENR, 110},
+   {591*OVERSAMPLENR, 105},
+   {628*OVERSAMPLENR, 100},
+   {660*OVERSAMPLENR, 95},
+   {696*OVERSAMPLENR, 90},
+   {733*OVERSAMPLENR, 85},
+   {761*OVERSAMPLENR, 80},
+   {794*OVERSAMPLENR, 75},
+   {819*OVERSAMPLENR, 70},
+   {847*OVERSAMPLENR, 65},
+   {870*OVERSAMPLENR, 60},
+   {892*OVERSAMPLENR, 55},
+   {911*OVERSAMPLENR, 50},
+   {929*OVERSAMPLENR, 45},
+   {944*OVERSAMPLENR, 40},
+   {959*OVERSAMPLENR, 35},
+   {971*OVERSAMPLENR, 30},
+   {981*OVERSAMPLENR, 25},
+   {989*OVERSAMPLENR, 20},
+   {994*OVERSAMPLENR, 15},
+   {1001*OVERSAMPLENR, 10},
+   {1005*OVERSAMPLENR, 5}
+};
+#endif
+
+
+
+#if THERMISTORHEATER_1 == 1
+#define NUMTEMPS_HEATER_1 NUMTEMPS_1
+#define temptable_1 temptable_1
+#elif THERMISTORHEATER_1 == 2
+#define NUMTEMPS_HEATER_1 NUMTEMPS_2
+#define temptable_1 temptable_2
+#elif THERMISTORHEATER_1 == 3
+#define NUMTEMPS_HEATER_1 NUMTEMPS_3
+#define temptable_1 temptable_3
+#elif THERMISTORHEATER_1 == 4
+#define NUMTEMPS_HEATER_1 NUMTEMPS_4
+#define temptable_1 temptable_4
+#elif THERMISTORHEATER_1 == 5
+#define NUMTEMPS_HEATER_1 NUMTEMPS_5
+#define temptable_1 temptable_5
+#elif THERMISTORHEATER_1 == 6
+#define NUMTEMPS_HEATER_1 NUMTEMPS_6
+#define temptable_1 temptable_6
+#elif THERMISTORHEATER_1 == 7
+#define NUMTEMPS_HEATER_1 NUMTEMPS_7
+#define temptable_1 temptable_7
+#elif defined HEATER_1_USES_THERMISTOR
+#error No heater 1 thermistor table specified
+#endif
+
+#if THERMISTORHEATER_2 == 1
+#define NUMTEMPS_HEATER_2 NUMTEMPS_1
+#define temptable_2 temptable_1
+#elif THERMISTORHEATER_2 == 2
+#define NUMTEMPS_HEATER_2 NUMTEMPS_2
+#define temptable_2 temptable_2
+#elif THERMISTORHEATER_2 == 3
+#define NUMTEMPS_HEATER_2 NUMTEMPS_3
+#define temptable_2 temptable_3
+#elif THERMISTORHEATER_2 == 4
+#define NUMTEMPS_HEATER_2 NUMTEMPS_4
+#define temptable_2 temptable_4
+#elif THERMISTORHEATER_2 == 5
+#define NUMTEMPS_HEATER_2 NUMTEMPS_5
+#define temptable_2 temptable_5
+#elif THERMISTORHEATER_2 == 6
+#define NUMTEMPS_HEATER_2 NUMTEMPS_6
+#define temptable_2 temptable_6
+#elif THERMISTORHEATER_2 == 7
+#define NUMTEMPS_HEATER22 NUMTEMPS_7
+#define temptable_2 temptable_7
+#elif defined HEATER_2_USES_THERMISTOR
+#error No heater 2 thermistor table specified
+#endif
+
+
+#if THERMISTORBED == 1
+#define BNUMTEMPS NUMTEMPS_1
+#define bedtemptable temptable_1
+#elif THERMISTORBED == 2
+#define BNUMTEMPS NUMTEMPS_2
+#define bedtemptable temptable_2
+#elif THERMISTORBED == 3
+#define BNUMTEMPS NUMTEMPS_3
+#define bedtemptable temptable_3
+#elif THERMISTORBED == 4
+#define BNUMTEMPS NUMTEMPS_4
+#define bedtemptable temptable_4
+#elif THERMISTORBED == 5
+#define BNUMTEMPS NUMTEMPS_5
+#define bedtemptable temptable_5
+#elif THERMISTORBED == 6
+#define BNUMTEMPS NUMTEMPS_6
+#define bedtemptable temptable_6
+#elif THERMISTORBED == 7
+#define BNUMTEMPS NUMTEMPS_7
+#define bedtemptable temptable_7
+#elif defined BED_USES_THERMISTOR
+#error No bed thermistor table specified
+#endif
+
+#endif //THERMISTORTABLES_H_
+
diff --git a/Marlin/ultralcd.h b/Marlin/ultralcd.h
index 39cca278e..b7092c9cb 100644
--- a/Marlin/ultralcd.h
+++ b/Marlin/ultralcd.h
@@ -1,156 +1,156 @@
-#ifndef __ULTRALCDH
-#define __ULTRALCDH
-#include "Configuration.h"
-
-#ifdef ULTRA_LCD
-
-  void lcd_status();
-  void lcd_init();
-  void lcd_status(const char* message);
-  void beep();
-  void buttons_check();
-  #define LCDSTATUSRIGHT
-
-  #define LCD_UPDATE_INTERVAL 100
-  #define STATUSTIMEOUT 15000
-
-  #include "Configuration.h"
-
-  #include <LiquidCrystal.h>
-  extern LiquidCrystal lcd;
-
-  //lcd display size
-
-#ifdef NEWPANEL
- //arduino pin witch triggers an piezzo beeper
-  #define BEEPER 18
-
-  #define LCD_PINS_RS 20 
-  #define LCD_PINS_ENABLE 17
-  #define LCD_PINS_D4 16
-  #define LCD_PINS_D5 21 
-  #define LCD_PINS_D6 5
-  #define LCD_PINS_D7 6
-  
-  //buttons are directly attached
-  #define BTN_EN1 40
-  #define BTN_EN2 42
-  #define BTN_ENC 19  //the click
-  
-  #define BLEN_C 2
-  #define BLEN_B 1
-  #define BLEN_A 0
-  
-  #define SDCARDDETECT 38
-  
-  #define EN_C (1<<BLEN_C)
-  #define EN_B (1<<BLEN_B)
-  #define EN_A (1<<BLEN_A)
-  
-   //encoder rotation values
-  #define encrot0 0
-  #define encrot1 2
-  #define encrot2 3
-  #define encrot3 1
-
-  
-  #define CLICKED (buttons&EN_C)
-  #define BLOCK {blocking=millis()+blocktime;}
-  #define CARDINSERTED (READ(SDCARDDETECT)==0)
-  
-#else
-  //arduino pin witch triggers an piezzo beeper
-  #define BEEPER 18
-
-  //buttons are attached to a shift register
-  #define SHIFT_CLK 38
-  #define SHIFT_LD 42
-  #define SHIFT_OUT 40
-  #define SHIFT_EN 17
-  
-  #define LCD_PINS_RS 16 
-  #define LCD_PINS_ENABLE 5
-  #define LCD_PINS_D4 6
-  #define LCD_PINS_D5 21 
-  #define LCD_PINS_D6 20
-  #define LCD_PINS_D7 19
-  
-   //bits in the shift register that carry the buttons for:
-  // left up center down right red
-  #define BL_LE 7
-  #define BL_UP 6
-  #define BL_MI 5
-  #define BL_DW 4
-  #define BL_RI 3
-  #define BL_ST 2
-
-  #define BLEN_B 1
-  #define BLEN_A 0
-
-  //encoder rotation values
-  #define encrot0 0
-  #define encrot1 2
-  #define encrot2 3
-  #define encrot3 1
-
-  //atomatic, do not change
-  #define B_LE (1<<BL_LE)
-  #define B_UP (1<<BL_UP)
-  #define B_MI (1<<BL_MI)
-  #define B_DW (1<<BL_DW)
-  #define B_RI (1<<BL_RI)
-  #define B_ST (1<<BL_ST)
-  #define EN_B (1<<BLEN_B)
-  #define EN_A (1<<BLEN_A)
-  
-  #define CLICKED ((buttons&B_MI)||(buttons&B_ST))
-  #define BLOCK {blocking[BL_MI]=millis()+blocktime;blocking[BL_ST]=millis()+blocktime;}
-  
-#endif
-  // blocking time for recognizing a new keypress of one key, ms
-#define blocktime 500
-#define lcdslow 5
-  enum MainStatus{Main_Status, Main_Menu, Main_Prepare, Main_Control, Main_SD};
-
-  class MainMenu{
-  public:
-    MainMenu();
-    void update();
-    void getfilename(const uint8_t nr);
-    uint8_t activeline;
-    MainStatus status;
-    uint8_t displayStartingRow;
-    
-    void showStatus();
-    void showMainMenu();
-    void showPrepare();
-    void showControl();
-    void showSD();
-    bool force_lcd_update;
-    int lastencoderpos;
-    int8_t lineoffset;
-    int8_t lastlineoffset;
-    char filename[11];
-    bool linechanging;
-  };
-
-  char *fillto(int8_t n,char *c);
-  char *ftostr51(const float &x);
-  char *ftostr31(const float &x);
-  char *ftostr3(const float &x);
-
-
-
-  #define LCD_MESSAGE(x) lcd_status(x);
-  #define LCD_STATUS lcd_status()
-#else //no lcd
-  #define LCD_STATUS
-  #define LCD_MESSAGE(x)
-#endif
-  
-#ifndef ULTIPANEL  
- #define CLICKED false
-#define BLOCK ;
-#endif 
-#endif //ULTRALCD
+#ifndef __ULTRALCDH
+#define __ULTRALCDH
+#include "Configuration.h"
+
+#ifdef ULTRA_LCD
+
+  void lcd_status();
+  void lcd_init();
+  void lcd_status(const char* message);
+  void beep();
+  void buttons_check();
+  #define LCDSTATUSRIGHT
+
+  #define LCD_UPDATE_INTERVAL 100
+  #define STATUSTIMEOUT 15000
+
+  #include "Configuration.h"
+
+  #include <LiquidCrystal.h>
+  extern LiquidCrystal lcd;
+
+  //lcd display size
+
+#ifdef NEWPANEL
+ //arduino pin witch triggers an piezzo beeper
+  #define BEEPER 18
+
+  #define LCD_PINS_RS 20 
+  #define LCD_PINS_ENABLE 17
+  #define LCD_PINS_D4 16
+  #define LCD_PINS_D5 21 
+  #define LCD_PINS_D6 5
+  #define LCD_PINS_D7 6
+  
+  //buttons are directly attached
+  #define BTN_EN1 40
+  #define BTN_EN2 42
+  #define BTN_ENC 19  //the click
+  
+  #define BLEN_C 2
+  #define BLEN_B 1
+  #define BLEN_A 0
+  
+  #define SDCARDDETECT 38
+  
+  #define EN_C (1<<BLEN_C)
+  #define EN_B (1<<BLEN_B)
+  #define EN_A (1<<BLEN_A)
+  
+   //encoder rotation values
+  #define encrot0 0
+  #define encrot1 2
+  #define encrot2 3
+  #define encrot3 1
+
+  
+  #define CLICKED (buttons&EN_C)
+  #define BLOCK {blocking=millis()+blocktime;}
+  #define CARDINSERTED (READ(SDCARDDETECT)==0)
+  
+#else
+  //arduino pin witch triggers an piezzo beeper
+  #define BEEPER 18
+
+  //buttons are attached to a shift register
+  #define SHIFT_CLK 38
+  #define SHIFT_LD 42
+  #define SHIFT_OUT 40
+  #define SHIFT_EN 17
+  
+  #define LCD_PINS_RS 16 
+  #define LCD_PINS_ENABLE 5
+  #define LCD_PINS_D4 6
+  #define LCD_PINS_D5 21 
+  #define LCD_PINS_D6 20
+  #define LCD_PINS_D7 19
+  
+   //bits in the shift register that carry the buttons for:
+  // left up center down right red
+  #define BL_LE 7
+  #define BL_UP 6
+  #define BL_MI 5
+  #define BL_DW 4
+  #define BL_RI 3
+  #define BL_ST 2
+
+  #define BLEN_B 1
+  #define BLEN_A 0
+
+  //encoder rotation values
+  #define encrot0 0
+  #define encrot1 2
+  #define encrot2 3
+  #define encrot3 1
+
+  //atomatic, do not change
+  #define B_LE (1<<BL_LE)
+  #define B_UP (1<<BL_UP)
+  #define B_MI (1<<BL_MI)
+  #define B_DW (1<<BL_DW)
+  #define B_RI (1<<BL_RI)
+  #define B_ST (1<<BL_ST)
+  #define EN_B (1<<BLEN_B)
+  #define EN_A (1<<BLEN_A)
+  
+  #define CLICKED ((buttons&B_MI)||(buttons&B_ST))
+  #define BLOCK {blocking[BL_MI]=millis()+blocktime;blocking[BL_ST]=millis()+blocktime;}
+  
+#endif
+  // blocking time for recognizing a new keypress of one key, ms
+#define blocktime 500
+#define lcdslow 5
+  enum MainStatus{Main_Status, Main_Menu, Main_Prepare, Main_Control, Main_SD};
+
+  class MainMenu{
+  public:
+    MainMenu();
+    void update();
+    void getfilename(const uint8_t nr);
+    uint8_t activeline;
+    MainStatus status;
+    uint8_t displayStartingRow;
+    
+    void showStatus();
+    void showMainMenu();
+    void showPrepare();
+    void showControl();
+    void showSD();
+    bool force_lcd_update;
+    int lastencoderpos;
+    int8_t lineoffset;
+    int8_t lastlineoffset;
+    char filename[11];
+    bool linechanging;
+  };
+
+  char *fillto(int8_t n,char *c);
+  char *ftostr51(const float &x);
+  char *ftostr31(const float &x);
+  char *ftostr3(const float &x);
+
+
+
+  #define LCD_MESSAGE(x) lcd_status(x);
+  #define LCD_STATUS lcd_status()
+#else //no lcd
+  #define LCD_STATUS
+  #define LCD_MESSAGE(x)
+#endif
+  
+#ifndef ULTIPANEL  
+ #define CLICKED false
+#define BLOCK ;
+#endif 
+#endif //ULTRALCD
 
diff --git a/README b/README
index ecaa62129..2487d4875 100644
--- a/README
+++ b/README
@@ -1,64 +1,64 @@
-This RepRap firmware is a mashup between Sprinter, grbl and many original parts.
- (https://github.com/kliment/Sprinter)
- (https://github.com/simen/grbl/tree)
-
-Derived from Sprinter and Grbl by Erik van der Zalm.
-Sprinters lead developers are Kliment and caru.
-Grbls lead developer is Simen Svale Skogsrud.
-It has been adapted to the Ultimaker Printer by:
-Bernhard Kubicek, Matthijs Keuper, Bradley Feldman, and others...
-
-
-Features:
- - Interrupt based movement with real linear acceleration
- - High steprate
- - Look ahead (Keep the speed high when possible. High cornering speed)
- - Interrupt based temperature protection
- - preliminary support for Matthew Roberts advance algorithm 
-   For more info see: http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
- - Full endstop support
- - Simple LCD support (16x2)
- - SD Card support
- - Provisions for Bernhard Kubicek's new hardware control console and 20x4 lcd
-
-This firmware is optimized for Ultimaker's gen6 electronics (including the Ultimaker 1.5.x daughterboard and Arduino Mega 2560).
-
-The default baudrate is 115200. 
-
-
-========================================================================================
-
-Configuring and compilation
-
-
-Install the latest arduino software IDE/toolset (currently 0022)
-   http://www.arduino.cc/en/Main/Software
-
-Install Ultimaker's RepG 25 build
-    http://software.ultimaker.com
-(or alternatively install Kliment's printrun/pronterface  https://github.com/kliment/Printrun_)
-
-Copy the Ultimaker Marlin firmware
-   https:/github.com/bkubicek/Marlin
-   (Use the download button)
-
-Start the arduino IDE.
-Select Tools -> Board -> Arduino Mega 2560 
-Select the correct serial port in Tools ->Serial Port
-Open Marlin.pde
-
-Click the Verify/Compile button
-
-Click the Upload button
-If all goes well the firmware is uploading
-
-Start Ultimaker's Custom RepG 25
-Make sure Show Experimental Profiles is enabled in Preferences
-Select Sprinter as the Driver
-
-Press the Connect button.
-
-KNOWN ISSUES: RepG will display:  Unknown: marlin x.y.z
-
-That's ok.  Enjoy Silky Smooth Printing.
-
+This RepRap firmware is a mashup between Sprinter, grbl and many original parts.
+ (https://github.com/kliment/Sprinter)
+ (https://github.com/simen/grbl/tree)
+
+Derived from Sprinter and Grbl by Erik van der Zalm.
+Sprinters lead developers are Kliment and caru.
+Grbls lead developer is Simen Svale Skogsrud.
+It has been adapted to the Ultimaker Printer by:
+Bernhard Kubicek, Matthijs Keuper, Bradley Feldman, and others...
+
+
+Features:
+ - Interrupt based movement with real linear acceleration
+ - High steprate
+ - Look ahead (Keep the speed high when possible. High cornering speed)
+ - Interrupt based temperature protection
+ - preliminary support for Matthew Roberts advance algorithm 
+   For more info see: http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
+ - Full endstop support
+ - Simple LCD support (16x2)
+ - SD Card support
+ - Provisions for Bernhard Kubicek's new hardware control console and 20x4 lcd
+
+This firmware is optimized for Ultimaker's gen6 electronics (including the Ultimaker 1.5.x daughterboard and Arduino Mega 2560).
+
+The default baudrate is 115200. 
+
+
+========================================================================================
+
+Configuring and compilation
+
+
+Install the latest arduino software IDE/toolset (currently 0022)
+   http://www.arduino.cc/en/Main/Software
+
+Install Ultimaker's RepG 25 build
+    http://software.ultimaker.com
+(or alternatively install Kliment's printrun/pronterface  https://github.com/kliment/Printrun_)
+
+Copy the Ultimaker Marlin firmware
+   https:/github.com/bkubicek/Marlin
+   (Use the download button)
+
+Start the arduino IDE.
+Select Tools -> Board -> Arduino Mega 2560 
+Select the correct serial port in Tools ->Serial Port
+Open Marlin.pde
+
+Click the Verify/Compile button
+
+Click the Upload button
+If all goes well the firmware is uploading
+
+Start Ultimaker's Custom RepG 25
+Make sure Show Experimental Profiles is enabled in Preferences
+Select Sprinter as the Driver
+
+Press the Connect button.
+
+KNOWN ISSUES: RepG will display:  Unknown: marlin x.y.z
+
+That's ok.  Enjoy Silky Smooth Printing.
+
diff --git a/README.md b/README.md
index 6cab9fa52..699ebdd64 100644
--- a/README.md
+++ b/README.md
@@ -1,69 +1,69 @@
-WARNING: THIS IN A PROCESS OF HEAVY OVERWORKING.
-DO NOT USE THIS ON YOUR MACHINE UNTIL FURTHER NOTICE!!!
-
-===========================================
-
-This RepRap firmware is a mashup between <a href="https://github.com/kliment/Sprinter">Sprinter</a>, <a href="https://github.com/simen/grbl/tree">grbl</a> and many original parts.
-
-Derived from Sprinter and Grbl by Erik van der Zalm.
-Sprinters lead developers are Kliment and caru.
-Grbls lead developer is Simen Svale Skogsrud.
-Some features have been added by and configuration has been added by:
-Bernhard Kubicek, Matthijs Keuper, Bradley Feldman, and others...
-
-
-Features:
- - Interrupt based movement with real linear acceleration
- - High steprate
- - Look ahead (Keep the speed high when possible. High cornering speed)
- - Interrupt based temperature protection
- - preliminary support for Matthew Roberts advance algorithm 
-   For more info see: http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
- - Full endstop support
- - Simple LCD support (16x2)
- - SD Card support
- - Provisions for Bernhard Kubicek's new hardware control console and 20x4 lcd
-
-This firmware is optimized for Ultimaker's gen6 electronics (including the Ultimaker 1.5.x daughterboard and Arduino Mega 2560).
-
-The default baudrate is 115200. 
-
-
-========================================================================================
-
-Configuring and compilation
-
-
-Install the latest arduino software IDE/toolset (currently 0022)
-   http://www.arduino.cc/en/Main/Software
-
-Install Ultimaker's RepG 25 build
-    http://software.ultimaker.com
-(or alternatively install Kliment's printrun/pronterface  https://github.com/kliment/Printrun_)
-
-Copy the Ultimaker Marlin firmware
-   https:/github.com/bkubicek/Marlin
-   (Use the download button)
-
-Start the arduino IDE.
-Select Tools -> Board -> Arduino Mega 2560 
-Select the correct serial port in Tools ->Serial Port
-Open Marlin.pde
-
-Click the Verify/Compile button
-
-Click the Upload button
-If all goes well the firmware is uploading
-
-Start Ultimaker's Custom RepG 25
-Make sure Show Experimental Profiles is enabled in Preferences
-Select Sprinter as the Driver
-
-Press the Connect button.
-
-KNOWN ISSUES: RepG will display:  Unknown: marlin x.y.z
-
-That's ok.  Enjoy Silky Smooth Printing.
-
-
-
+WARNING: THIS IN A PROCESS OF HEAVY OVERWORKING.
+DO NOT USE THIS ON YOUR MACHINE UNTIL FURTHER NOTICE!!!
+
+===========================================
+
+This RepRap firmware is a mashup between <a href="https://github.com/kliment/Sprinter">Sprinter</a>, <a href="https://github.com/simen/grbl/tree">grbl</a> and many original parts.
+
+Derived from Sprinter and Grbl by Erik van der Zalm.
+Sprinters lead developers are Kliment and caru.
+Grbls lead developer is Simen Svale Skogsrud.
+Some features have been added by and configuration has been added by:
+Bernhard Kubicek, Matthijs Keuper, Bradley Feldman, and others...
+
+
+Features:
+ - Interrupt based movement with real linear acceleration
+ - High steprate
+ - Look ahead (Keep the speed high when possible. High cornering speed)
+ - Interrupt based temperature protection
+ - preliminary support for Matthew Roberts advance algorithm 
+   For more info see: http://reprap.org/pipermail/reprap-dev/2011-May/003323.html
+ - Full endstop support
+ - Simple LCD support (16x2)
+ - SD Card support
+ - Provisions for Bernhard Kubicek's new hardware control console and 20x4 lcd
+
+This firmware is optimized for Ultimaker's gen6 electronics (including the Ultimaker 1.5.x daughterboard and Arduino Mega 2560).
+
+The default baudrate is 115200. 
+
+
+========================================================================================
+
+Configuring and compilation
+
+
+Install the latest arduino software IDE/toolset (currently 0022)
+   http://www.arduino.cc/en/Main/Software
+
+Install Ultimaker's RepG 25 build
+    http://software.ultimaker.com
+(or alternatively install Kliment's printrun/pronterface  https://github.com/kliment/Printrun_)
+
+Copy the Ultimaker Marlin firmware
+   https:/github.com/bkubicek/Marlin
+   (Use the download button)
+
+Start the arduino IDE.
+Select Tools -> Board -> Arduino Mega 2560 
+Select the correct serial port in Tools ->Serial Port
+Open Marlin.pde
+
+Click the Verify/Compile button
+
+Click the Upload button
+If all goes well the firmware is uploading
+
+Start Ultimaker's Custom RepG 25
+Make sure Show Experimental Profiles is enabled in Preferences
+Select Sprinter as the Driver
+
+Press the Connect button.
+
+KNOWN ISSUES: RepG will display:  Unknown: marlin x.y.z
+
+That's ok.  Enjoy Silky Smooth Printing.
+
+
+
diff --git a/merging still needs.txt b/merging still needs.txt
index 2d369c968..18e91dcad 100644
--- a/merging still needs.txt	
+++ b/merging still needs.txt	
@@ -1,58 +1,58 @@
-files to compare manually:
-planner.cpp
-stepper.cpp
-temperature.cpp
-
----
-things that changed:
-* planner.cpp
-estimate_acc_distance now works with floats.
-in calculate_trapezoid:for_block
- long acceleration_rate=(long)((float)acceleration*8.388608) is gone
- so is block_>acceleration_rate
-void planner_reverse_pass:
- some stuff I don't understand right now changed
-in planner_forward_pass:
- done: BLOCK_BUFFER_SIZE is now necessarily power of 2 (aka 8 16, 32). Inportant to document this somewhere.
-no more inline in void plan_discard_current_block()
-no more inline in plan_get_current_block()
-in plan_buffer_line(...)
- the long target[4]; and calculations of thoose should go after the while(block_buffer_tail==..). if the axis_steps_per_unit are changed from the gcode (M92) the calculation for the currently planned buffer move will be corrupt, because Target is calculated with one value, and the stuff afterwards with another. At least this solved the problem I had with the M92 E* changes in the code. Very sure about this, I took me 20min to find this as the solution for the bug I was hunting.
-around if(feed_rate<minimumfeedrate) this only should be done if it is not a pure extrusion. I think there is a bug right now.
-~line 447 blockcount= 
- not sure if this also works if the difference is negative, as it would happen if the ringbuffer runs over the end and start at 0.
-~line 507 tmp_aceleration. not sure whats going on, but a lot changed.
-
-
-* stepper.cpp
-~214: if (busy) should be a echoln, maybe
-~331: great, The Z_M_PIN checks are in :)
-
-*temperature.cpp
-done: enum for heater, bed,
-manage_heater() is seriously different.
-  done: if tem_meas_ready ==true->!true+return?
-done #define K1 0.95 maybe in the configuration.h?
-semi-done: PID-C checking needed. Untested but added.
-----
-
-still needed to finish the merge, before testin!
-
- manage_heater
- ISR
- movement planner
-
-TODO:
-
-remove traveling at maxpseed
-remove Simplelcd
-
-remove DEBUG_STEPS?
-
-block_t
-pid_dt ->0.1  whats the changes to the PID, checking needed
-
-
-----
-second merge saturday morning:
+files to compare manually:
+planner.cpp
+stepper.cpp
+temperature.cpp
+
+---
+things that changed:
+* planner.cpp
+estimate_acc_distance now works with floats.
+in calculate_trapezoid:for_block
+ long acceleration_rate=(long)((float)acceleration*8.388608) is gone
+ so is block_>acceleration_rate
+void planner_reverse_pass:
+ some stuff I don't understand right now changed
+in planner_forward_pass:
+ done: BLOCK_BUFFER_SIZE is now necessarily power of 2 (aka 8 16, 32). Inportant to document this somewhere.
+no more inline in void plan_discard_current_block()
+no more inline in plan_get_current_block()
+in plan_buffer_line(...)
+ the long target[4]; and calculations of thoose should go after the while(block_buffer_tail==..). if the axis_steps_per_unit are changed from the gcode (M92) the calculation for the currently planned buffer move will be corrupt, because Target is calculated with one value, and the stuff afterwards with another. At least this solved the problem I had with the M92 E* changes in the code. Very sure about this, I took me 20min to find this as the solution for the bug I was hunting.
+around if(feed_rate<minimumfeedrate) this only should be done if it is not a pure extrusion. I think there is a bug right now.
+~line 447 blockcount= 
+ not sure if this also works if the difference is negative, as it would happen if the ringbuffer runs over the end and start at 0.
+~line 507 tmp_aceleration. not sure whats going on, but a lot changed.
+
+
+* stepper.cpp
+~214: if (busy) should be a echoln, maybe
+~331: great, The Z_M_PIN checks are in :)
+
+*temperature.cpp
+done: enum for heater, bed,
+manage_heater() is seriously different.
+  done: if tem_meas_ready ==true->!true+return?
+done #define K1 0.95 maybe in the configuration.h?
+semi-done: PID-C checking needed. Untested but added.
+----
+
+still needed to finish the merge, before testin!
+
+ manage_heater
+ ISR
+ movement planner
+
+TODO:
+
+remove traveling at maxpseed
+remove Simplelcd
+
+remove DEBUG_STEPS?
+
+block_t
+pid_dt ->0.1  whats the changes to the PID, checking needed
+
+
+----
+second merge saturday morning:
 done: PID_dt->0.1
\ No newline at end of file