/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 2 * 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. * * $URL$ * $Id$ * */ #include "common/scummsys.h" //#include "graphics/scaler.h" #include "common/system.h" #include "backends/intern.h" #include "engines/engine.h" #include "gp32std.h" #include "gp32std_grap.h" #include "gp32std_memory.h" ///////////////////// //Memory management #define USER_MEMORY_SIZE (256 * 1024) #define USER_BLOCK_SIZE 24 #define NUM_BLOCK (USER_MEMORY_SIZE / USER_BLOCK_SIZE) // use fixed block size for small allocations // consumes about 128k for block array // consumes 256k for user memory class MemBlock { protected: static byte *userMem; // static size_t allocSize; // static MemBlock *head; static int numBlock; static int prevBlock; // Linked list is slow for this task. :) static MemBlock *block; byte *blockData; size_t size; // MemBlock *next; int used; public: static void init(); static void deinit(); static void *addBlock(size_t size); static void deleteBlock(void *dstBlock); }; byte *MemBlock::userMem = NULL; //MemBlock *MemBlock::head = NULL; //size_t MemBlock::allocSize = 0; int MemBlock::numBlock = 0; int MemBlock::prevBlock = 0; MemBlock *MemBlock::block = NULL; void MemBlock::init() { userMem = (byte *)gm_malloc(USER_MEMORY_SIZE + USER_BLOCK_SIZE); block = (MemBlock *)gm_malloc(NUM_BLOCK * sizeof(MemBlock)); if (!(userMem && block)) { //error } memset(userMem, 0, USER_MEMORY_SIZE + USER_BLOCK_SIZE); memset(block, 0, NUM_BLOCK * sizeof(MemBlock)); } void MemBlock::deinit() { if (!(userMem && block)) { //error } gm_free(userMem); gm_free(block); userMem = NULL; block = NULL; } void *MemBlock::addBlock(size_t size) { int i; MemBlock *blk = &block[prevBlock]; // some optimizaion with loop for (i = prevBlock; i < NUM_BLOCK; i++) { if (!blk->used) { break; } blk++; } if (i == NUM_BLOCK) { blk = &block[0]; for (i = 0; i < prevBlock; i++) { if (!blk->used) { break; } blk++; } if (i == prevBlock) { prevBlock = 0; return gm_malloc(size); } } byte *ptr = userMem + (i * USER_BLOCK_SIZE); blk->size = size; blk->blockData = ptr; blk->used = 1; prevBlock = i; return (void *) ptr; } void MemBlock::deleteBlock(void *dstBlock) { // Faster method uint32 np = (uint32) dstBlock - (uint32) userMem; if ((np / USER_BLOCK_SIZE) * USER_BLOCK_SIZE != np) { gm_free(dstBlock); // warning("wrong block! (%d / %d)", (np / USER_BLOCK_SIZE) * USER_BLOCK_SIZE, np); return; } int i = np / USER_BLOCK_SIZE; if (i > NUM_BLOCK) { gm_free(dstBlock); return; } block[i].used = 0; /* int i = 0; for (i = 0; i < NUM_BLOCK; i++) { if (block[i].blockData == dstBlock) break; } if (i == NUM_BLOCK) { gm_free(dstBlock); //fixme? //warning("wrong block! %x", (uint32)block - (uint32)userMem); } else { GPDEBUG("deleteing block %d", i); block[i].used = 0; }*/ } // HACK not to include struct MemBlock void memBlockInit() { MemBlock::init(); } void memBlockDeinit() { MemBlock::deinit(); } #undef memcpy #undef memset void *gp_memcpy(void *dst, const void *src, size_t count) { return memcpy(dst, src, count); } void *gp_memset(void *dst, int val, size_t count) { return memset(dst, val, count); } #define MALLOC_MASK 0xAB800000 // WE HAVE TO ALIGN MEMORY ADDRESS ON THE ARM PROCESSOR! #define ALIGNED_SIZE(size) ((size) + (4 - ((size) & 3))) void *gp_malloc(size_t size) { uint32 np; uint32 *up; // size + 8 bytes : stores block size int allocSize = ALIGNED_SIZE(size) + sizeof(uint32) + sizeof(uint32); if (allocSize <= USER_BLOCK_SIZE) { np = (uint32) MemBlock::addBlock(allocSize); } else { np = (uint32) gm_malloc(allocSize); } if (np) { up = (uint32 *)np; *up = ALIGNED_SIZE(size) | MALLOC_MASK; // mem size: up to 8mb up = (uint32 *)(np + ALIGNED_SIZE(size) + sizeof(uint32)); *up = 0x1234; // catches oob acess return (void *)(np + sizeof(uint32)); } return NULL; } void gp_free(void *block) { uint32 np; uint32 *up; if (!block) { return; } np = ((uint32) block) - sizeof(uint32); up = (uint32 *) np; if (*up == 0x4321) { warning("%s: double deallocation", __FUNCTION__); return; } if (*up & MALLOC_MASK != MALLOC_MASK) { warning("%s: corrupt block", __FUNCTION__); return; } int blockSize = (*up & 0x7fffff); up = (uint32 *)(np + blockSize + sizeof(uint32)); if (*up != 0x1234) { warning("gp_free: corrupt block - OOB access", __FUNCTION__); return; } np = ((uint32) block) - sizeof(uint32); up = (uint32 *) np; *up = 0x4321; if (blockSize + 8 <= USER_BLOCK_SIZE) { MemBlock::deleteBlock(up); } else { gm_free(up); } } void *gp_calloc(size_t nitems, size_t size) { void *p = gp_malloc(nitems * size); //gpcalloc doesnt clear? gp_memset(p, 0, nitems * size); // if (*(uint8 *)p != 0) // warning("%s: calloc doesn't clear", __FUNCTION__); //fixme: was error return p; } ////////////////////////////////////////////////// // GP32 stuff ////////////////////////////////////////////////// static char usedMemStr[16]; int gUsedMem = 1024 * 1024; //#define CLEAN_MEMORY_WITH_0xE7 //#define CHECK_USED_MEMORY //#define CHECK_NEW_TIME //#define CHECK_NEW_SIZE void *operator new(size_t size) { #if defined(CHECK_NEW_TIME) static int ftick; ftick = GpTickCountGet(); #endif // printf("BP:operator new(%d)", size); void *ptr = gp_malloc(size); #if defined(CLEAN_MEMORY_WITH_0xE7) if (ptr != NULL) { gp_memset(ptr, 0xE7, size); } #endif #if defined(CHECK_USED_MEMORY) // Check free memory. gUsedMem = ((int)(ptr) + size) - 0xc000000; sprintf(usedMemStr, "%8d", gUsedMem); gp_fillRect(frameBuffer1, 0, 0, 64, 12, 0); gp_textOut(frameBuffer1, 0, 0, usedMemStr, 0xfffff); #endif #if defined(CHECK_NEW_TIME) sprintf(usedMemStr, "%2d", GpTickCountGet() - ftick); gp_fillRect(frameBuffer1, 72, 0, 24, 12, 0); gp_textOut(frameBuffer1, 72, 0, usedMemStr, 0xfffff); #endif #if defined(CHECK_NEW_SIZE) sprintf(usedMemStr, "%8d", size); gp_fillRect(frameBuffer1, 108, 0, 64, 12, 0); gp_textOut(frameBuffer1, 108, 0, usedMemStr, 0xfffff); #endif return ptr; } void operator delete(void *ptr) { // printf("operator delete(%x)", ptr); gp_free(ptr); }