#include "CMemory.hpp" #include "CGameAllocator.hpp" #include "CCallStack.hpp" #include "logvisor/logvisor.hpp" namespace urde { static logvisor::Module Log("CMemory"); static CGameAllocator g_gameAllocator; static IAllocator* g_memoryAllocator = &g_gameAllocator; static bool g_memoryAllocatorReady = false; void CMemory::Startup() { g_memoryAllocatorReady = g_memoryAllocator->Initialize(); } void CMemory::Shutdown() { g_memoryAllocator->Shutdown(); g_memoryAllocatorReady = false; } void CMemory::SetAllocator(IAllocator& alloc) { if (&alloc != g_memoryAllocator) { g_memoryAllocator = &alloc; g_memoryAllocator->Initialize(); } } void CMemory::OffsetFakeStatics(int val) { g_memoryAllocator->OffsetFakeStatics(val); } void CMemory::SetOutOfMemoryCallback(const IAllocator::TOutOfMemoryCallback cb, void* ctx) { g_memoryAllocator->SetOutOfMemoryCallback(cb, ctx); } void CMemory::Free(void* ptr) { g_memoryAllocator->Free(ptr); } void* CMemory::Alloc(size_t sz, IAllocator::EHint hint, IAllocator::EScope scope, IAllocator::EType type, const CCallStack& cs) { void* newPtr = g_memoryAllocator->Alloc(sz, hint, scope, type, cs); if (!newPtr) Log.report(logvisor::Error, "Alloc Failed! - Size %d", sz); return newPtr; } CMemorySys::CMemorySys(IAllocator& alloc) { CMemory::Startup(); CMemory::SetAllocator(alloc); } CMemorySys::~CMemorySys() { CMemory::Shutdown(); } IAllocator& CMemorySys::GetGameAllocator() {return g_gameAllocator;} } #if 0 void* operator new(std::size_t sz) { if (!urde::g_memoryAllocatorReady) return malloc(sz); urde::CCallStack cs("?\?(?\?)", "UnknownType"); return urde::CMemory::Alloc(sz, urde::IAllocator::EHint::None, urde::IAllocator::EScope::Default, urde::IAllocator::EType::Primitive, cs); } void* operator new(std::size_t sz, const char* funcName, const char* typeName) { if (!urde::g_memoryAllocatorReady) return malloc(sz); urde::CCallStack cs(funcName, typeName); return urde::CMemory::Alloc(sz, urde::IAllocator::EHint::None, urde::IAllocator::EScope::Default, urde::IAllocator::EType::Primitive, cs); } void operator delete(void* ptr) noexcept { if (!urde::g_memoryAllocatorReady) { free(ptr); return; } urde::CMemory::Free(ptr); } void* operator new[](std::size_t sz) { if (!urde::g_memoryAllocatorReady) return malloc(sz); urde::CCallStack cs("?\?(?\?)", "UnknownType"); return urde::CMemory::Alloc(sz, urde::IAllocator::EHint::None, urde::IAllocator::EScope::Default, urde::IAllocator::EType::Array, cs); } void* operator new[](std::size_t sz, const char* funcName, const char* typeName) { if (!urde::g_memoryAllocatorReady) return malloc(sz); urde::CCallStack cs(funcName, typeName); return urde::CMemory::Alloc(sz, urde::IAllocator::EHint::None, urde::IAllocator::EScope::Default, urde::IAllocator::EType::Array, cs); } void operator delete[](void* ptr) noexcept { if (!urde::g_memoryAllocatorReady) { free(ptr); return; } urde::CMemory::Free(ptr); } #endif