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415 lines
13 KiB
415 lines
13 KiB
/*********************
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* FT810_SPI.h *
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*********************/
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/****************************************************************************
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* Written By Mark Pelletier 2017 - Aleph Objects, Inc. *
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* *
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* This program is free software: you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation, either version 3 of the License, or *
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* (at your option) any later version. *
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* *
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* This program is distributed in the hope that it will be useful, *
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* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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* GNU General Public License for more details. *
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* *
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* To view a copy of the GNU General Public License, go to the following *
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* location: <http://www.gnu.org/licenses/>. *
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****************************************************************************/
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#ifndef _AO_FT810_SPI_H
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#define _AO_FT810_SPI_H
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#if defined(PIN_DIR_OUT)
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// If SET_OUTPUT is defined, then map Marlin routines to those
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#define SET_OUTPUT PIN_DIR_OUT
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#define SET_INPUT_PULLUP(a) _PIN_DIR_IN(a); _PIN_HIGH(a);
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#define SET_INPUT PIN_DIR_IN
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#define WRITE SET_PIN
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#define READ GET_PIN
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#endif
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/********************************* SPI Functions *********************************/
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void CLCD::spiInit (void) {
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#if defined(USE_ARDUINO_HW_SPI)
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SPI.begin();
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SPI.beginTransaction(LCDsettings);
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#else
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SET_OUTPUT(CLCD_MOD_RESET); // CLCD_MOD_RST - Module Reset, not SPI
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WRITE(CLCD_MOD_RESET, 1);
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SET_OUTPUT(CLCD_BB_SPI_MOSI); // CLCD_MOSI
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WRITE(CLCD_BB_SPI_MOSI, 1);
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SET_OUTPUT(CLCD_BB_SPI_SCLK); // CLCD_SCLK
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WRITE(CLCD_BB_SPI_SCLK, 0);
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SET_OUTPUT(CLCD_BB_SPI_CS); // CLCD_CS
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WRITE(CLCD_BB_SPI_CS, 1);
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SET_INPUT_PULLUP(CLCD_BB_SPI_MISO); // CLCD_MISO
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delay(50);
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#endif
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}
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void CLCD::spiSelect (void) { // CLCD Bitbanged SPI - Chip Select
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WRITE(CLCD_BB_SPI_CS, 0);
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}
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void CLCD::spiDeselect (void) { // CLCD Bitbanged SPI - Chip Deselect
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WRITE(CLCD_BB_SPI_CS, 1);
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}
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void CLCD::Reset (void) {
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WRITE(CLCD_MOD_RESET, 0);
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delay(100);
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WRITE(CLCD_MOD_RESET, 1);
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}
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void CLCD::Test_Pulse(void)
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{
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WRITE(CLCD_AUX_0, 1);
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delayMicroseconds(10);
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WRITE(CLCD_AUX_0, 0);
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}
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uint8_t CLCD::spiTransfer (uint8_t spiOutByte) {
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#ifdef IS_ARDUINO
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SPI.transfer(spiOutByte);
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#else
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uint8_t spiIndex = 0x80;
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uint8_t spiInByte = 0;
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uint8_t k;
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for(k = 0; k <8; k++) { // Output and Read each bit of spiOutByte and spiInByte
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if(spiOutByte & spiIndex) { // Output MOSI Bit
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WRITE(CLCD_BB_SPI_MOSI, 1);
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}
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else {
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WRITE(CLCD_BB_SPI_MOSI, 0);
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}
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WRITE(CLCD_BB_SPI_SCLK, 1); // Pulse Clock
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WRITE(CLCD_BB_SPI_SCLK, 0);
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if(READ(CLCD_BB_SPI_MISO)) {
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spiInByte |= spiIndex;
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}
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spiIndex >>= 1;
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}
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return spiInByte;
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#endif
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}
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// MEMORY READ FUNCTIONS
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void CLCD::Mem_ReadAddr (uint32_t Reg_Address) { // Write 4-Byte Address
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CLCD::spiTransfer((Reg_Address >> 16) & 0x3F); // Address [21:16]
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CLCD::spiTransfer((Reg_Address >> 8 ) & 0xFF); // Address [15:8]
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CLCD::spiTransfer((Reg_Address >> 0) & 0xFF); // Address [7:0]
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CLCD::spiTransfer(0x00); // Dummy Byte
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}
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void CLCD::Mem_Read_Bulk (uint32_t Reg_Address, uint8_t *Data, uint16_t Len) { // Write 4-Byte Address, Read Multiple Bytes
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CLCD::spiSelect();
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CLCD::Mem_ReadAddr(Reg_Address);
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while(Len--) {
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*Data = CLCD::spiTransfer(0x00); // Read 1 Byte
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*Data++;
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}
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CLCD::spiDeselect();
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}
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uint8_t CLCD::Mem_Read8 (uint32_t Reg_Address) { // Write 4-Byte Address, Read 1-Byte Data
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CLCD::spiSelect();
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CLCD::Mem_ReadAddr(Reg_Address);
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uint8_t R_Data = CLCD::spiTransfer(0x00); // Read 1 Byte
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CLCD::spiDeselect();
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return(R_Data);
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}
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uint16_t CLCD::Mem_Read16 (uint32_t Reg_Address) { // Write 4-Byte Address, Read 2-Bytes Data
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CLCD::spiSelect();
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CLCD::Mem_ReadAddr(Reg_Address);
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uint16_t R_Data = (((uint16_t) CLCD::spiTransfer(0x00)) << 0) | // Read Byte 1
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(((uint16_t) CLCD::spiTransfer(0x00)) << 8); // Read Byte 2
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CLCD::spiDeselect();
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return(R_Data);
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}
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uint32_t CLCD::Mem_Read32 (uint32_t Reg_Address) { // Write 4-Byte Address, Read 4-Bytes Data
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CLCD::spiSelect();
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CLCD::Mem_ReadAddr(Reg_Address);
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uint32_t R_Data = (((uint32_t) CLCD::spiTransfer(0x00)) << 0) | // Read Byte 1
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(((uint32_t) CLCD::spiTransfer(0x00)) << 8) | // Read Byte 2
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(((uint32_t) CLCD::spiTransfer(0x00)) << 16) | // Read Byte 3
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(((uint32_t) CLCD::spiTransfer(0x00)) << 24); // Read Byte 4
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CLCD::spiDeselect();
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return(R_Data);
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}
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// MEMORY WRITE FUNCTIONS
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void CLCD::Mem_WriteAddr (uint32_t Reg_Address) { // Write 3-Byte Address
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CLCD::spiTransfer((Reg_Address >> 16) | 0x80); // Address [21:16]
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CLCD::spiTransfer((Reg_Address >> 8 ) & 0xFF); // Address [15:8]
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CLCD::spiTransfer((Reg_Address >> 0) & 0xFF); // Address [7:0]
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}
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void CLCD::Mem_Write_Bulk (uint32_t Reg_Address, const void *Data, uint16_t Len, uint8_t Padding) { // Write 3-Byte Address, Multiple Bytes, plus padding bytes
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const uint8_t* p = (const uint8_t *)Data;
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CLCD::spiSelect();
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CLCD::Mem_WriteAddr(Reg_Address);
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while(Len--) {
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CLCD::spiTransfer(*p++); // Write 1 Byte
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}
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while(Padding--) {
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CLCD::spiTransfer(0); // Padding Bytes
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}
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CLCD::spiDeselect();
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}
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void CLCD::Mem_Write_Bulk (uint32_t Reg_Address, progmem_str Str, uint16_t Len, uint8_t Padding) { // Write 3-Byte Address, Multiple Bytes, plus padding bytes
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const uint8_t* p = (const uint8_t *)Str;
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CLCD::spiSelect();
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CLCD::Mem_WriteAddr(Reg_Address);
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while(Len--) {
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CLCD::spiTransfer(pgm_read_byte_near(p++)); // Write 1 Byte
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}
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while(Padding--) {
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CLCD::spiTransfer(0); // Padding Bytes
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}
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CLCD::spiDeselect();
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}
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void CLCD::Mem_Write8 (uint32_t Reg_Address, uint8_t W_Data) { // Write 3-Byte Address, Write 1-Byte Data
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CLCD::spiSelect();
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CLCD::Mem_WriteAddr(Reg_Address);
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CLCD::spiTransfer(W_Data); // Write 1 Byte
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CLCD::spiDeselect();
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}
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void CLCD::Mem_Write16 (uint32_t Reg_Address, uint16_t W_Data) { // Write 3-Byte Address, Write 2-Bytes Data
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CLCD::spiSelect();
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CLCD::Mem_WriteAddr(Reg_Address);
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CLCD::spiTransfer((uint8_t) ((W_Data >> 0) & 0x00FF)); // Write Byte 0
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CLCD::spiTransfer((uint8_t) ((W_Data >> 8) & 0x00FF)); // Write Byte 1
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CLCD::spiDeselect();
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}
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void CLCD::Mem_Write32 (uint32_t Reg_Address, uint32_t W_Data) { // Write 3-Byte Address, Write 4-Bytes Data
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CLCD::spiSelect();
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CLCD::Mem_WriteAddr(Reg_Address);
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CLCD::spiTransfer(W_Data >> 0); // Write Byte 0
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CLCD::spiTransfer(W_Data >> 8); // Write Byte 1
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CLCD::spiTransfer(W_Data >> 16); // Write Byte 2
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CLCD::spiTransfer(W_Data >> 24); // Write Byte 3
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CLCD::spiDeselect();
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}
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/**************************** FT800/810 Co-Processor Command FIFO ****************************/
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uint32_t CLCD::CommandFifo::getRegCmdWrite() {
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return Mem_Read32(REG_CMD_WRITE) & 0x0FFF;
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}
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uint32_t CLCD::CommandFifo::getRegCmdRead() {
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return Mem_Read32(REG_CMD_READ) & 0x0FFF;
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}
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bool CLCD::CommandFifo::Cmd_Is_Idle() {
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return getRegCmdRead() == getRegCmdWrite();
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}
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void CLCD::CommandFifo::Cmd_Wait_Until_Idle() {
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#if defined(UI_FRAMEWORK_DEBUG)
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const uint32_t startTime = millis();
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#endif
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do {
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#if defined(UI_FRAMEWORK_DEBUG)
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if(millis() - startTime > 3) {
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#if defined (SERIAL_PROTOCOLLNPGM)
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SERIAL_PROTOCOLLNPGM("Timeout on CommandFifo::Wait_Until_Idle()");
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#else
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Serial.println(F("Timeout on CommandFifo::Wait_Until_Idle()"));
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#endif
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break;
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}
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#endif
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} while(!Cmd_Is_Idle());
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}
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#if defined(LCD_IS_FT800)
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void CLCD::CommandFifo::Cmd_Start() {
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if(command_write_ptr == 0xFFFFFFFFul) {
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command_write_ptr = getRegCmdWrite();
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}
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}
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void CLCD::CommandFifo::Cmd_Execute() {
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if(command_write_ptr != 0xFFFFFFFFul) {
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Mem_Write32(REG_CMD_WRITE, command_write_ptr);
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}
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}
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void CLCD::CommandFifo::Cmd_Reset() {
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Mem_Write32(REG_CMD_WRITE, 0x00000000);
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Mem_Write32(REG_CMD_READ, 0x00000000);
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command_write_ptr = 0xFFFFFFFFul;
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};
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template <class T> void CLCD::CommandFifo::_write_unaligned(T data, uint16_t len) {
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const char *ptr = (const char*)data;
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uint32_t bytes_tail, bytes_head;
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uint32_t command_read_ptr;
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#if defined(UI_FRAMEWORK_DEBUG)
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if(command_write_ptr == 0xFFFFFFFFul) {
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#if defined (SERIAL_PROTOCOLLNPGM)
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SERIAL_PROTOCOLLNPGM("Attempt to write to FIFO before CommandFifo::Cmd_Start().");
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#else
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Serial.println(F("Attempt to write to FIFO before CommandFifo::Cmd_Start()."));
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#endif
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}
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#endif
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/* Wait until there is enough space in the circular buffer for the transfer */
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do {
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command_read_ptr = getRegCmdRead();
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if (command_read_ptr <= command_write_ptr) {
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bytes_tail = 4096U - command_write_ptr;
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bytes_head = command_read_ptr;
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} else {
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bytes_tail = command_read_ptr - command_write_ptr;
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bytes_head = 0;
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}
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} while((bytes_tail + bytes_head) < len);
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/* Write as many bytes as possible following REG_CMD_WRITE */
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uint16_t bytes_to_write = min(len, bytes_tail);
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Mem_Write_Bulk (RAM_CMD + command_write_ptr, T(ptr), bytes_to_write);
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command_write_ptr += bytes_to_write;
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ptr += bytes_to_write;
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len -= bytes_to_write;
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if(len > 0) {
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/* Write remaining bytes at start of circular buffer */
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Mem_Write_Bulk (RAM_CMD, T(ptr), len);
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command_write_ptr = len;
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}
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if(command_write_ptr == 4096U) {
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command_write_ptr = 0;
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}
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}
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// Writes len bytes into the FIFO, if len is not
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// divisible by four, zero bytes will be written
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// to align to the boundary.
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template <class T> void CLCD::CommandFifo::write(T data, uint16_t len) {
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const uint8_t padding = MULTIPLE_OF_4(len) - len;
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uint8_t pad_bytes[] = {0, 0, 0, 0};
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_write_unaligned(data, len);
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_write_unaligned(pad_bytes, padding);
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}
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#else
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uint32_t CLCD::CommandFifo::getRegCmdBSpace() {
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return Mem_Read32(REG_CMDB_SPACE) & 0x0FFF;
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}
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void CLCD::CommandFifo::Cmd_Start() {
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}
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void CLCD::CommandFifo::Cmd_Execute() {
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}
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void CLCD::CommandFifo::Cmd_Reset() {
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Mem_Write32(REG_CMD_WRITE, 0x00000000);
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Mem_Write32(REG_CMD_READ, 0x00000000);
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};
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// Writes len bytes into the FIFO, if len is not
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// divisible by four, zero bytes will be written
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// to align to the boundary.
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template <class T> void CLCD::CommandFifo::write(T data, uint16_t len) {
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const uint8_t padding = MULTIPLE_OF_4(len) - len;
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// The FT810 provides a special register that can be used
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// for writing data without us having to do our own FIFO
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// management.
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uint32_t Command_Space = getRegCmdBSpace();
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while(Command_Space < len + padding) {
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Command_Space = getRegCmdBSpace();
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}
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Mem_Write_Bulk(REG_CMDB_WRITE, data, len, padding);
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}
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#endif
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// CO_PROCESSOR COMMANDS
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void CLCD::CommandFifo::Cmd (uint32_t cmd32) { // Writes a 32-bit (4 Bytes) Value to the Co-processor Command Buffer FIFO
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write(&cmd32, sizeof(uint32_t));
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}
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void CLCD::CommandFifo::Cmd (void* data, uint16_t len) { // Writes a data structure - always a multiple of 32 bits - to the Co_Processor FIFO. // Data structure includes the 32-bit Co_Processor command.
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write(data, len);
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}
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void CLCD::CommandFifo::Cmd_Str (char* data) {
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write(data, strlen(data)+1);
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}
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void CLCD::CommandFifo::Cmd_Str (progmem_str data) {
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write(data, strlen_P((const char*)data)+1);
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}
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#endif // _AO_FT810_SPI_H
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