project64/Source/Project64/N64 System/Profiling Class.cpp

#include "..\N64 System.h"

#include <Windows.h>

enum { MAX_FRAMES = 13 };

CProfiling::CProfiling (CNotification * Notify) {
	_Notify = Notify;
	CurrentTimerAddr = Timer_None;
	CurrentDisplayCount = MAX_FRAMES;
}

DWORD CProfiling::StartTimer(DWORD Address) {
	DWORD OldTimerAddr = StopTimer();
	CurrentTimerAddr = Address;

	DWORD HiValue, LoValue;
	_asm {
		pushad
		rdtsc
		mov HiValue, edx
		mov LoValue, eax
		popad
	}
	StartTimeHi = HiValue;
	StartTimeLo = LoValue;
	return OldTimerAddr;
}

DWORD CProfiling::StopTimer(void) {
	DWORD HiValue, LoValue;
	
	if (CurrentTimerAddr == Timer_None) { return CurrentTimerAddr; }

	_asm {
		pushad
		rdtsc
		mov HiValue, edx
		mov LoValue, eax
		popad
	}

	__int64 StopTime  = ((unsigned __int64)HiValue << 32) + (unsigned __int64)LoValue;
	__int64 StartTime = ((unsigned __int64)StartTimeHi << 32) + (unsigned __int64)StartTimeLo;
	__int64 TimeTaken = StopTime - StartTime;
	
	PROFILE_ENRTY Entry = Entries.find(CurrentTimerAddr);
	if (Entry != Entries.end()) {
		Entry->second += TimeTaken;
	} else {
		Entries.insert(PROFILE_ENRTIES::value_type(CurrentTimerAddr,TimeTaken));
	}

	DWORD OldTimerAddr = CurrentTimerAddr;
	CurrentTimerAddr = Timer_None;
	return OldTimerAddr;
}

void CProfiling::ShowCPU_Usage (void) {
	__int64 TotalTime, CPU = 0, Alist = 0, Dlist = 0, Idle = 0;
	PROFILE_ENRTY Entry;
	
	if (CurrentDisplayCount > 0) { CurrentDisplayCount -= 1; return;  }
	CurrentDisplayCount = MAX_FRAMES;

	Entry = Entries.find(Timer_R4300);
	if (Entry != Entries.end()) { CPU = Entry->second; }

	Entry = Entries.find(Timer_RefreshScreen);
	if (Entry != Entries.end()) { CPU += Entry->second; }

	Entry = Entries.find(Timer_RSP_Dlist);
	if (Entry != Entries.end()) { Dlist = Entry->second; }
	
	Entry = Entries.find(Timer_UpdateScreen);
	if (Entry != Entries.end()) { Dlist += Entry->second; }

	Entry = Entries.find(Timer_RSP_Alist);
	if (Entry != Entries.end()) { Alist = Entry->second; }

	Entry = Entries.find(Timer_Idel);
	if (Entry != Entries.end()) { Idle = Entry->second; }


	TotalTime = CPU + Alist + Dlist + Idle;

	_Notify->DisplayMessage(0,"r4300i: %0.1f%c    GFX: %0.1f%c    Alist: %0.1f%c    Idle: %0.1f%c",
		(float)(((double)CPU / (double)TotalTime) * 100),'%',
		(float)(((double)Dlist / (double)TotalTime) * 100),'%',
		(float)(((double)Alist / (double)TotalTime) * 100),'%',
		(float)(((double)Idle / (double)TotalTime) * 100),'%');

	ResetCounters();
}

void CProfiling::ResetCounters (void) {
	Entries.clear();
}

typedef struct { SPECIAL_TIMERS Timer; char * Name; } TIMER_NAME;

void CProfiling::GenerateLog(void) {
	stdstr LogFileName;
	{
		CLog Log;
		Log.Open("Profiling.txt");
		LogFileName = Log.FileName();

		//Get the total time
		__int64 TotalTime = 0;
		for (PROFILE_ENRTY itemTime = Entries.begin(); itemTime != Entries.end(); itemTime++ ) {
			TotalTime += itemTime->second;
		}

		//Create a sortable list of items
		std::vector<PROFILE_VALUE *> ItemList;
		for (PROFILE_ENRTY Entry = Entries.begin(); Entry != Entries.end(); Entry++ ) {
			ItemList.push_back(&(*Entry));
		}
		
		//sort the list with a basic bubble sort
		for (int OuterPass = 0; OuterPass < (ItemList.size() - 1); OuterPass++ ) {
			for (int InnerPass = 0; InnerPass < (ItemList.size() - 1); InnerPass++ ) {
				if (ItemList[InnerPass]->second < ItemList[InnerPass + 1]->second) {
					PROFILE_VALUE * TempPtr = ItemList[InnerPass];
					ItemList[InnerPass] = ItemList[InnerPass + 1];
					ItemList[InnerPass + 1] = TempPtr;
				}
			}
		}

		TIMER_NAME TimerNames[] = {
			{Timer_R4300,         "R4300"},
			{Timer_RSP_Dlist,     "RSP: Dlist"},
			{Timer_RSP_Alist,     "RSP: Alist"},
			{Timer_RSP_Unknown,   "RSP: Unknown"},
			{Timer_RefreshScreen, "Refresh Screen"},
			{Timer_UpdateScreen,  "Update Screen"},
			{Timer_UpdateFPS,     "Update FPS"},
			{Timer_FuncLookup,    "Function Lookup"},
			{Timer_Done,    "Timer_Done"},
			{Timer_GetBlockInfo,    "Timer_GetBlockInfo"},
			{Timer_AnalyseBlock,    "Timer_AnalyseBlock"},
			{Timer_CompileBlock,    "Timer_CompileBlock"},
			{Timer_CompileDone,    "Timer_CompileDone"},
		};
		
		for (int count =0; count < ItemList.size(); count++ ) {
			char Buffer[255];
			float CpuUsage = ((double)ItemList[count]->second / (double)TotalTime) * 100;
			if (CpuUsage <= 0.2) { continue; }
			sprintf(Buffer,"Func 0x%08X",ItemList[count]->first);
			for (int NameID = 0; NameID < (sizeof(TimerNames) / sizeof(TIMER_NAME)); NameID++) {
				if (ItemList[count]->first == TimerNames[NameID].Timer) {
					strcpy(Buffer,TimerNames[NameID].Name);
					break;
				}
			}
			Log.LogF("%s\t%2.2f",Buffer,  CpuUsage);
		}
	}

	ShellExecute(NULL,"open",LogFileName.c_str(),NULL,NULL,SW_SHOW);
	ResetCounters();
}
git-svn-id: https://localhost/svn/Project64/trunk@2 111125ac-702d-7242-af9c-5ba8ae61c1ef 2008-09-18 03:15:49 +00:00			`#include "..\N64 System.h"`

			`#include <Windows.h>`

			`enum { MAX_FRAMES = 13 };`

			`CProfiling::CProfiling (CNotification * Notify) {`
			`_Notify = Notify;`
			`CurrentTimerAddr = Timer_None;`
			`CurrentDisplayCount = MAX_FRAMES;`
			`}`

			`DWORD CProfiling::StartTimer(DWORD Address) {`
			`DWORD OldTimerAddr = StopTimer();`
			`CurrentTimerAddr = Address;`

			`DWORD HiValue, LoValue;`
			`_asm {`
			`pushad`
			`rdtsc`
			`mov HiValue, edx`
			`mov LoValue, eax`
			`popad`
			`}`
			`StartTimeHi = HiValue;`
			`StartTimeLo = LoValue;`
			`return OldTimerAddr;`
			`}`

			`DWORD CProfiling::StopTimer(void) {`
			`DWORD HiValue, LoValue;`

			`if (CurrentTimerAddr == Timer_None) { return CurrentTimerAddr; }`

			`_asm {`
			`pushad`
			`rdtsc`
			`mov HiValue, edx`
			`mov LoValue, eax`
			`popad`
			`}`

			`__int64 StopTime = ((unsigned __int64)HiValue << 32) + (unsigned __int64)LoValue;`
			`__int64 StartTime = ((unsigned __int64)StartTimeHi << 32) + (unsigned __int64)StartTimeLo;`
			`__int64 TimeTaken = StopTime - StartTime;`

			`PROFILE_ENRTY Entry = Entries.find(CurrentTimerAddr);`
			`if (Entry != Entries.end()) {`
			`Entry->second += TimeTaken;`
			`} else {`
			`Entries.insert(PROFILE_ENRTIES::value_type(CurrentTimerAddr,TimeTaken));`
			`}`

			`DWORD OldTimerAddr = CurrentTimerAddr;`
			`CurrentTimerAddr = Timer_None;`
			`return OldTimerAddr;`
			`}`

			`void CProfiling::ShowCPU_Usage (void) {`
			`__int64 TotalTime, CPU = 0, Alist = 0, Dlist = 0, Idle = 0;`
			`PROFILE_ENRTY Entry;`

			`if (CurrentDisplayCount > 0) { CurrentDisplayCount -= 1; return; }`
			`CurrentDisplayCount = MAX_FRAMES;`

			`Entry = Entries.find(Timer_R4300);`
			`if (Entry != Entries.end()) { CPU = Entry->second; }`

			`Entry = Entries.find(Timer_RefreshScreen);`
			`if (Entry != Entries.end()) { CPU += Entry->second; }`

			`Entry = Entries.find(Timer_RSP_Dlist);`
			`if (Entry != Entries.end()) { Dlist = Entry->second; }`

			`Entry = Entries.find(Timer_UpdateScreen);`
			`if (Entry != Entries.end()) { Dlist += Entry->second; }`

			`Entry = Entries.find(Timer_RSP_Alist);`
			`if (Entry != Entries.end()) { Alist = Entry->second; }`

			`Entry = Entries.find(Timer_Idel);`
			`if (Entry != Entries.end()) { Idle = Entry->second; }`


			`TotalTime = CPU + Alist + Dlist + Idle;`

			`_Notify->DisplayMessage(0,"r4300i: %0.1f%c GFX: %0.1f%c Alist: %0.1f%c Idle: %0.1f%c",`
			`(float)(((double)CPU / (double)TotalTime) * 100),'%',`
			`(float)(((double)Dlist / (double)TotalTime) * 100),'%',`
			`(float)(((double)Alist / (double)TotalTime) * 100),'%',`
			`(float)(((double)Idle / (double)TotalTime) * 100),'%');`

			`ResetCounters();`
			`}`

			`void CProfiling::ResetCounters (void) {`
			`Entries.clear();`
			`}`

			`typedef struct { SPECIAL_TIMERS Timer; char * Name; } TIMER_NAME;`

			`void CProfiling::GenerateLog(void) {`
			`stdstr LogFileName;`
			`{`
			`CLog Log;`
			`Log.Open("Profiling.txt");`
			`LogFileName = Log.FileName();`

			`//Get the total time`
			`__int64 TotalTime = 0;`
			`for (PROFILE_ENRTY itemTime = Entries.begin(); itemTime != Entries.end(); itemTime++ ) {`
			`TotalTime += itemTime->second;`
			`}`

			`//Create a sortable list of items`
			`std::vector<PROFILE_VALUE *> ItemList;`
			`for (PROFILE_ENRTY Entry = Entries.begin(); Entry != Entries.end(); Entry++ ) {`
			`ItemList.push_back(&(*Entry));`
			`}`

			`//sort the list with a basic bubble sort`
			`for (int OuterPass = 0; OuterPass < (ItemList.size() - 1); OuterPass++ ) {`
			`for (int InnerPass = 0; InnerPass < (ItemList.size() - 1); InnerPass++ ) {`
			`if (ItemList[InnerPass]->second < ItemList[InnerPass + 1]->second) {`
			`PROFILE_VALUE * TempPtr = ItemList[InnerPass];`
			`ItemList[InnerPass] = ItemList[InnerPass + 1];`
			`ItemList[InnerPass + 1] = TempPtr;`
			`}`
			`}`
			`}`

			`TIMER_NAME TimerNames[] = {`
			`{Timer_R4300, "R4300"},`
			`{Timer_RSP_Dlist, "RSP: Dlist"},`
			`{Timer_RSP_Alist, "RSP: Alist"},`
			`{Timer_RSP_Unknown, "RSP: Unknown"},`
			`{Timer_RefreshScreen, "Refresh Screen"},`
			`{Timer_UpdateScreen, "Update Screen"},`
			`{Timer_UpdateFPS, "Update FPS"},`
			`{Timer_FuncLookup, "Function Lookup"},`
			`{Timer_Done, "Timer_Done"},`
			`{Timer_GetBlockInfo, "Timer_GetBlockInfo"},`
			`{Timer_AnalyseBlock, "Timer_AnalyseBlock"},`
			`{Timer_CompileBlock, "Timer_CompileBlock"},`
			`{Timer_CompileDone, "Timer_CompileDone"},`
			`};`

			`for (int count =0; count < ItemList.size(); count++ ) {`
			`char Buffer[255];`
			`float CpuUsage = ((double)ItemList[count]->second / (double)TotalTime) * 100;`
			`if (CpuUsage <= 0.2) { continue; }`
			`sprintf(Buffer,"Func 0x%08X",ItemList[count]->first);`
			`for (int NameID = 0; NameID < (sizeof(TimerNames) / sizeof(TIMER_NAME)); NameID++) {`
			`if (ItemList[count]->first == TimerNames[NameID].Timer) {`
			`strcpy(Buffer,TimerNames[NameID].Name);`
			`break;`
			`}`
			`}`
			`Log.LogF("%s\t%2.2f",Buffer, CpuUsage);`
			`}`
			`}`

			`ShellExecute(NULL,"open",LogFileName.c_str(),NULL,NULL,SW_SHOW);`
			`ResetCounters();`
			`}`