/*
             LUFA Library
     Copyright (C) Dean Camera, 2009.
              
  dean [at] fourwalledcubicle [dot] com
      www.fourwalledcubicle.com
*/

/*
  Copyright 2009  Dean Camera (dean [at] fourwalledcubicle [dot] com)

  Permission to use, copy, modify, and distribute this software
  and its documentation for any purpose and without fee is hereby
  granted, provided that the above copyright notice appear in all
  copies and that both that the copyright notice and this
  permission notice and warranty disclaimer appear in supporting
  documentation, and that the name of the author not be used in
  advertising or publicity pertaining to distribution of the
  software without specific, written prior permission.

  The author disclaim all warranties with regard to this
  software, including all implied warranties of merchantability
  and fitness.  In no event shall the author be liable for any
  special, indirect or consequential damages or any damages
  whatsoever resulting from loss of use, data or profits, whether
  in an action of contract, negligence or other tortious action,
  arising out of or in connection with the use or performance of
  this software.
*/

#define  INCLUDE_FROM_DYNALLOC_C
#include "DynAlloc.h"

struct
{
	char    Mem_Heap[NUM_BLOCKS * BLOCK_SIZE];
	void*   Mem_Handles[NUM_HANDLES];
	uint8_t Mem_Block_Flags[(NUM_BLOCKS / 4) + ((NUM_BLOCKS % 4) ? 1 : 0)];
	uint8_t FlagMaskLookupMask[4];
	uint8_t FlagMaskLookupNum[4];
} Mem_MemData = {.FlagMaskLookupMask = {(3 << 0), (3 << 2), (3 << 4), (3 << 6)},
                 .FlagMaskLookupNum  = {      0,        2,        4,        6}};

static uint8_t Mem_GetBlockFlags(const Block_Number_t BlockNum)
{
	const Block_Number_t BlockIndex    = (BlockNum >> 2);
	const uint8_t        FlagMask      = Mem_MemData.FlagMaskLookupMask[BlockNum & 0x03];
	const uint8_t        FlagMaskShift = Mem_MemData.FlagMaskLookupNum[BlockNum & 0x03];

	return ((Mem_MemData.Mem_Block_Flags[BlockIndex] & FlagMask) >> FlagMaskShift);
}

static void Mem_SetBlockFlags(const Block_Number_t BlockNum, const uint8_t Flags)
{
	const Block_Number_t BlockIndex    = (BlockNum >> 2);
	const uint8_t        FlagMask      = Mem_MemData.FlagMaskLookupMask[BlockNum & 0x03];
	const uint8_t        FlagMaskShift = Mem_MemData.FlagMaskLookupNum[BlockNum & 0x03];

	Mem_MemData.Mem_Block_Flags[BlockIndex] &= ~FlagMask;
	Mem_MemData.Mem_Block_Flags[BlockIndex] |= (Flags << FlagMaskShift);
}

static inline void Mem_Defrag(void)
{
	Block_Number_t FreeStartBlock = 0;
	char*          FreeStartPtr   = NULL;
	char*          UsedStartPtr   = NULL;
	Block_Number_t CurrBlock;
	
	for (CurrBlock = 0; CurrBlock < NUM_BLOCKS; CurrBlock++)
	{
		if (!(Mem_GetBlockFlags(CurrBlock) & BLOCK_USED_MASK))
		{
			FreeStartPtr   = &Mem_MemData.Mem_Heap[CurrBlock * BLOCK_SIZE];
			FreeStartBlock = CurrBlock;
			break;
		}
	}
	
	if (FreeStartPtr == NULL)
	  return;

	while (++CurrBlock < NUM_BLOCKS)
	{
		uint8_t CurrBlockFlags = Mem_GetBlockFlags(CurrBlock);
	
		if (CurrBlockFlags & BLOCK_USED_MASK)
		{
			UsedStartPtr = &Mem_MemData.Mem_Heap[CurrBlock * BLOCK_SIZE];
		
			for (Handle_Number_t HandleNum = 0; HandleNum < NUM_HANDLES; HandleNum++)
			{
				if (Mem_MemData.Mem_Handles[HandleNum] == UsedStartPtr)
				{
					Mem_MemData.Mem_Handles[HandleNum] = FreeStartPtr;
					break;
				}
			}

			memcpy(FreeStartPtr, UsedStartPtr, BLOCK_SIZE);
			FreeStartPtr += BLOCK_SIZE;
			  
			Mem_SetBlockFlags(FreeStartBlock++, CurrBlockFlags);
			Mem_SetBlockFlags(CurrBlock, 0);
		}
	}
}

static inline bool Mem_FindFreeBlocks(Block_Number_t* const RetStartPtr, const Block_Number_t Blocks)
{
	Block_Number_t FreeInCurrSec = 0;

	for (Block_Number_t CurrBlock = 0; CurrBlock < NUM_BLOCKS; CurrBlock++)
	{
		if (Mem_GetBlockFlags(CurrBlock) & BLOCK_USED_MASK)
		  FreeInCurrSec = 0;
		else
		  FreeInCurrSec++;

		if (FreeInCurrSec >= Blocks)
		{
			*RetStartPtr = CurrBlock;
			return true;
		}
	}

	return false;
}

Mem_Handle_t Mem_Alloc(const Alloc_Size_t Bytes)
{
	Block_Number_t ReqBlocks = (Bytes / BLOCK_SIZE);
	Block_Number_t StartBlock;
	
	if (Bytes % BLOCK_SIZE)
	  ReqBlocks++;
	
	if (!(Mem_FindFreeBlocks(&StartBlock, ReqBlocks)))
	{
		Mem_Defrag();
		
		if (!(Mem_FindFreeBlocks(&StartBlock, ReqBlocks)))
		  return NULL;	
	}

	for (Block_Number_t UsedBlock = 0; UsedBlock < (ReqBlocks - 1); UsedBlock++)
	  Mem_SetBlockFlags((StartBlock + UsedBlock), (BLOCK_USED_MASK | BLOCK_LINKED_MASK));

	Mem_SetBlockFlags((StartBlock + (ReqBlocks - 1)), BLOCK_USED_MASK);
	
	for (Handle_Number_t AllocEntry = 0; AllocEntry < NUM_HANDLES; AllocEntry++)
	{
		Mem_Handle_t CurrHdl = (Mem_Handle_t)&Mem_MemData.Mem_Handles[AllocEntry];
	
		if (DEREF(CurrHdl, void*) == NULL)
		{
			DEREF(CurrHdl, void*) = &Mem_MemData.Mem_Heap[StartBlock * BLOCK_SIZE];
			return CurrHdl;
		}
	}

	return NULL;
}

Mem_Handle_t Mem_Realloc(Mem_Handle_t CurrAllocHdl, const Alloc_Size_t Bytes)
{
	Mem_Free(CurrAllocHdl);
	return Mem_Alloc(Bytes);
}

Mem_Handle_t Mem_Calloc(const Alloc_Size_t Bytes)
{
	Mem_Handle_t AllocHdl = Mem_Alloc(Bytes);
	
	if (AllocHdl != NULL)
	  memset(DEREF(AllocHdl, void*), 0x00, Bytes);

	return AllocHdl;
}

void Mem_Free(Mem_Handle_t CurrAllocHdl)
{
	char*          MemBlockPtr = DEREF(CurrAllocHdl, char*);
	Block_Number_t CurrBlock   = ((uint16_t)(MemBlockPtr - Mem_MemData.Mem_Heap) / BLOCK_SIZE);
	uint8_t        CurrBlockFlags;

	if ((CurrAllocHdl == NULL) || (MemBlockPtr == NULL))
	  return;

	do
	{
		CurrBlockFlags = Mem_GetBlockFlags(CurrBlock);
		Mem_SetBlockFlags(CurrBlock, 0);

		CurrBlock++;
	}
	while (CurrBlockFlags & BLOCK_LINKED_MASK);
	
	DEREF(CurrAllocHdl, void*) = NULL;
}

Block_Number_t Mem_TotalFreeBlocks(void)
{
	Block_Number_t FreeBlocks = 0;
	
	for (Block_Number_t CurrBlock = 0; CurrBlock < NUM_BLOCKS; CurrBlock++)
	{
		if (!(Mem_GetBlockFlags(CurrBlock) & BLOCK_USED_MASK))
		  FreeBlocks++;
	}
	
	return FreeBlocks;
}

Handle_Number_t Mem_TotalFreeHandles(void)
{
	Handle_Number_t FreeHandles = 0;
	
	for (Handle_Number_t CurrHandle = 0; CurrHandle < NUM_HANDLES; CurrHandle++)
	{
		if (Mem_MemData.Mem_Handles[CurrHandle] == NULL)
		  FreeHandles++;
	}
	
	return FreeHandles;
}