#include "stdafx.h" #include #include #include #include CRecompMemory::CRecompMemory() : m_RecompCode(NULL), m_RecompSize(0) { m_RecompPos = NULL; } CRecompMemory::~CRecompMemory() { if (m_RecompCode) { FreeAddressSpace(m_RecompCode,MaxCompileBufferSize + 4); m_RecompCode = NULL; } m_RecompPos = NULL; } bool CRecompMemory::AllocateMemory() { WriteTrace(TraceRecompiler, TraceDebug, "Start"); uint8_t * RecompCodeBase = (uint8_t *)AllocateAddressSpace(MaxCompileBufferSize + 4); WriteTrace(TraceRecompiler, TraceDebug, "RecompCodeBase = %X", RecompCodeBase); if (RecompCodeBase == NULL) { WriteTrace(TraceRecompiler, TraceError, "failed to allocate RecompCodeBase"); g_Notify->DisplayError(MSG_MEM_ALLOC_ERROR); return false; } m_RecompCode = (uint8_t *)CommitMemory(RecompCodeBase, InitialCompileBufferSize, MEM_EXECUTE_READWRITE); if (m_RecompCode == NULL) { WriteTrace(TraceRecompiler, TraceError, "failed to commit initial buffer"); FreeAddressSpace(RecompCodeBase,MaxCompileBufferSize + 4); g_Notify->DisplayError(MSG_MEM_ALLOC_ERROR); return false; } m_RecompSize = InitialCompileBufferSize; m_RecompPos = m_RecompCode; memset(m_RecompCode, 0, InitialCompileBufferSize); WriteTrace(TraceRecompiler, TraceDebug, "Done"); return true; } void CRecompMemory::CheckRecompMem() { uint32_t Size = (uint32_t)((uint8_t *)m_RecompPos - (uint8_t *)m_RecompCode); if ((Size + 0x20000) < m_RecompSize) { return; } if (m_RecompSize == MaxCompileBufferSize) { g_Recompiler->ResetRecompCode(true); return; } void * MemAddr = CommitMemory(m_RecompCode + m_RecompSize, IncreaseCompileBufferSize, MEM_EXECUTE_READWRITE); if (MemAddr == NULL) { WriteTrace(TraceRecompiler, TraceError, "failed to increase buffer"); g_Notify->FatalError(MSG_MEM_ALLOC_ERROR); } m_RecompSize += IncreaseCompileBufferSize; } void CRecompMemory::Reset() { m_RecompPos = m_RecompCode; } void CRecompMemory::ShowMemUsed() { uint32_t Size = m_RecompPos - m_RecompCode; uint32_t MB = Size / 0x100000; Size -= MB * 0x100000; uint32_t KB = Size / 1024; Size -= KB * 1024; uint32_t TotalAvaliable = m_RecompSize / 0x100000; g_Notify->DisplayMessage(0, stdstr_f("Memory used: %d mb %-3d kb %-3d bytes Total Available: %d mb", MB, KB, Size, TotalAvaliable).c_str()); }