Mesen/Core/MemoryAccessCounter.cpp

186 lines
6.2 KiB
C++
Raw Normal View History

#include "stdafx.h"
#include "MemoryAccessCounter.h"
#include "Console.h"
#include "CPU.h"
#include "DebugBreakHelper.h"
#include "Debugger.h"
#include "MemoryDumper.h"
#include "PPU.h"
#include "BaseMapper.h"
MemoryAccessCounter::MemoryAccessCounter(Debugger* debugger)
{
_debugger = debugger;
uint32_t memorySizes[4] = {
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::InternalRam),
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::PrgRom),
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::WorkRam),
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::SaveRam)
};
for(int i = 0; i < 4; i++) {
_counters[i].reserve(memorySizes[i]);
2020-04-18 17:38:35 +00:00
for(uint32_t j = 0; j < memorySizes[i]; j++) {
_counters[i].push_back({ (uint32_t)j });
}
}
uint32_t ppuMemorySizes[4] = {
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::ChrRom),
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::ChrRam),
_debugger->GetMemoryDumper()->GetMemorySize(DebugMemoryType::PaletteMemory),
BaseMapper::NametableSize * BaseMapper::NametableCount,
};
for(int i = 0; i < 4; i++) {
_ppuCounters[i].reserve(ppuMemorySizes[i]);
2020-04-18 17:38:35 +00:00
for(uint32_t j = 0; j < ppuMemorySizes[i]; j++) {
_ppuCounters[i].push_back({ (uint32_t)j });
}
}
}
bool MemoryAccessCounter::IsAddressUninitialized(AddressTypeInfo &addressInfo)
{
if(addressInfo.Type == AddressType::InternalRam || addressInfo.Type == AddressType::WorkRam) {
return _counters[(int)addressInfo.Type][addressInfo.Address].WriteCount == 0;
}
return false;
}
void MemoryAccessCounter::ProcessPpuMemoryRead(PpuAddressTypeInfo &addressInfo, uint64_t cpuCycle)
{
if(addressInfo.Address < 0) {
return;
}
AddressCounters& counts = _ppuCounters[(int)addressInfo.Type][addressInfo.Address];
counts.ReadCount++;
counts.ReadStamp = cpuCycle;
}
void MemoryAccessCounter::ProcessPpuMemoryWrite(PpuAddressTypeInfo& addressInfo, uint64_t cpuCycle)
{
if(addressInfo.Address < 0) {
return;
}
AddressCounters& counts = _ppuCounters[(int)addressInfo.Type][addressInfo.Address];
counts.WriteCount++;
counts.WriteStamp = cpuCycle;
}
bool MemoryAccessCounter::ProcessMemoryRead(AddressTypeInfo &addressInfo, uint64_t cpuCycle)
{
if(addressInfo.Address < 0) {
return false;
}
AddressCounters& counts = _counters[(int)addressInfo.Type][addressInfo.Address];
counts.ReadCount++;
counts.ReadStamp = cpuCycle;
if(counts.WriteCount == 0 && (addressInfo.Type == AddressType::InternalRam || addressInfo.Type == AddressType::WorkRam)) {
//Mark address as read before being written to (if trying to read/execute)
counts.UninitRead = true;
return true;
}
return false;
}
void MemoryAccessCounter::ProcessMemoryWrite(AddressTypeInfo& addressInfo, uint64_t cpuCycle)
{
if(addressInfo.Address < 0) {
return;
}
AddressCounters& counts = _counters[(int)addressInfo.Type][addressInfo.Address];
counts.WriteCount++;
counts.WriteStamp = cpuCycle;
}
void MemoryAccessCounter::ProcessMemoryExec(AddressTypeInfo& addressInfo, uint64_t cpuCycle)
{
if(addressInfo.Address < 0) {
return;
}
AddressCounters& counts = _counters[(int)addressInfo.Type][addressInfo.Address];
counts.ExecCount++;
counts.ExecStamp = cpuCycle;
}
void MemoryAccessCounter::ResetCounts()
{
DebugBreakHelper helper(_debugger);
for(int i = 0; i < 4; i++) {
for(int j = 0; j < _counters[i].size(); j++) {
_counters[i][j] = { (uint32_t)j };
}
for(int j = 0; j < _ppuCounters[i].size(); j++) {
_ppuCounters[i][j] = { (uint32_t)j };
}
}
}
void MemoryAccessCounter::GetNametableChangedData(bool ntChangedData[])
{
PpuAddressTypeInfo addressInfo;
uint64_t cpuCycle = _debugger->GetConsole()->GetCpu()->GetCycleCount();
NesModel model = _debugger->GetConsole()->GetModel();
double frameRate = model == NesModel::NTSC ? 60.1 : 50.01;
double overclockRate = _debugger->GetConsole()->GetPpu()->GetOverclockRate() * 100;
uint32_t cyclesPerFrame = (uint32_t)(_debugger->GetConsole()->GetCpu()->GetClockRate(model) / frameRate * overclockRate);
for(int i = 0; i < 0x1000; i++) {
_debugger->GetPpuAbsoluteAddressAndType(0x2000+i, &addressInfo);
if(addressInfo.Type != PpuAddressType::None) {
ntChangedData[i] = (cpuCycle - _ppuCounters[(int)addressInfo.Type][addressInfo.Address].WriteStamp) < cyclesPerFrame;
} else {
ntChangedData[i] = false;
}
}
}
void MemoryAccessCounter::GetAccessCounts(uint32_t offset, uint32_t length, DebugMemoryType memoryType, AddressCounters counts[])
{
switch(memoryType) {
default: break;
case DebugMemoryType::PrgRom: memcpy(counts, _counters[(int)AddressType::PrgRom].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::WorkRam: memcpy(counts, _counters[(int)AddressType::WorkRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::SaveRam: memcpy(counts, _counters[(int)AddressType::SaveRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::InternalRam: memcpy(counts, _counters[(int)AddressType::InternalRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::ChrRom: memcpy(counts, _ppuCounters[(int)PpuAddressType::ChrRom].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::ChrRam: memcpy(counts, _ppuCounters[(int)PpuAddressType::ChrRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::NametableRam: memcpy(counts, _ppuCounters[(int)PpuAddressType::NametableRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::PaletteMemory: memcpy(counts, _ppuCounters[(int)PpuAddressType::PaletteRam].data() + offset, length * sizeof(AddressCounters)); break;
case DebugMemoryType::CpuMemory:
for(uint32_t i = 0; i < length; i++) {
AddressTypeInfo info;
_debugger->GetAbsoluteAddressAndType(offset + i, &info);
if(info.Address >= 0) {
counts[i] = _counters[(int)info.Type][info.Address];
} else {
counts[i] = {};
}
}
break;
case DebugMemoryType::PpuMemory:
for(uint32_t i = 0; i < length; i++) {
PpuAddressTypeInfo info;
_debugger->GetPpuAbsoluteAddressAndType(offset + i, &info);
if(info.Address >= 0) {
counts[i] = _ppuCounters[(int)info.Type][info.Address];
} else {
counts[i] = {};
}
}
break;
}
}