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/* 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: https://scummvm.svn.sourceforge.net/svnroot/scummvm/scummvm/trunk/backends/platform/psp/osys_psp.cpp $
 * $Id: osys_psp.cpp 46126 2009-11-24 14:18:46Z fingolfin $
 *
 */

// PSP speed and unit tests. Activate in tests.h 
// You may also want to build without any engines. 
 
#include "backends/platform/psp/tests.h"

#if defined (PSP_ENABLE_UNIT_TESTS) || defined (PSP_ENABLE_SPEED_TESTS)	
 
#include "common/scummsys.h"
#include <pspiofilemgr_fcntl.h>
#include <pspiofilemgr_stat.h>
#include <pspiofilemgr.h>
#include <pspthreadman.h>
#include <pspsdk.h>
#include <psprtc.h>
#include <stdlib.h>
#include <stdio.h>
#include <psputils.h>
#include "backends/platform/psp/rtc.h"
#include "backends/platform/psp/thread.h"
#include "backends/platform/psp/memory.h"


#define UNCACHED(x)		((byte *)(((uint32)(x)) | 0x40000000))	/* make an uncached access */
#define CACHED(x)		((byte *)(((uint32)(x)) & 0xBFFFFFFF))	/* make an uncached access into a cached one */
 
//#define __PSP_DEBUG_FUNCS__
//#define __PSP_DEBUG_PRINT__
 
// Results: (333Mhz/222Mhz)
// Getting a tick: 1-2 us
// Getting a time structure: 9/14us
// ie. using a tick and just dividing by 1000 saves us time.
  
#include "backends/platform/psp/trace.h" 

class PspSpeedTests {
public:
	void tickSpeed();
	void getMicrosSpeed();
	void seekSpeed();
	void msReadSpeed();
	void threadFunctionsSpeed();
	void semaphoreSpeed(); 
	static int threadFunc(SceSize args, void *argp);
	void semaphoreManyThreadSpeed();
	void fastCopySpeed();
	
private:
	enum {
		MEMCPY_BUFFER_SIZE = 8192
	};
	static PspSemaphore _sem;	// semaphore

	void readAndTime(uint32 bytes, char *buffer, FILE *file);
	void seekAndTime(int bytes, int origin, FILE *file);
	void fastCopySpecificSize(byte *dst, byte *src, uint32 bytes);
	void fastCopyDifferentSizes(byte *dst, byte *src);
	int getThreadIdSpeed();
	void getPrioritySpeed();
	void changePrioritySpeed(int id, int priority);
};

PspSemaphore PspSpeedTests::_sem(0);

void PspSpeedTests::tickSpeed() {
	uint32 ticksPerSecond = sceRtcGetTickResolution();
	PSP_INFO_PRINT("ticksPerSecond[%d]\n", ticksPerSecond);

	uint32 currentTicks1[2];
	uint32 currentTicks2[2];
	
	sceRtcGetCurrentTick((u64 *)currentTicks1);
	sceRtcGetCurrentTick((u64 *)currentTicks2);
	PSP_INFO_PRINT("current tick[%x %x][%u %u]\n", currentTicks1[0], currentTicks1[1], currentTicks1[0], currentTicks1[1]);
	PSP_INFO_PRINT("current tick[%x %x][%u %u]\n", currentTicks2[0], currentTicks2[1], currentTicks2[0], currentTicks2[1]);
	
	pspTime time;
	sceRtcSetTick(&time, (u64 *)currentTicks2);
	PSP_INFO_PRINT("current tick in time, year[%d] month[%d] day[%d] hour[%d] minutes[%d] seconds[%d] us[%d]\n", time.year, time.month, time.day, time.hour, time.minutes, time.seconds, time.microseconds);	
	
	pspTime time1;
	pspTime time2;
	sceRtcGetCurrentClockLocalTime(&time1);
	sceRtcGetCurrentClockLocalTime(&time2);
	PSP_INFO_PRINT("time1, year[%d] month[%d] day[%d] hour[%d] minutes[%d] seconds[%d] us[%d]\n", time1.year, time1.month, time1.day, time1.hour, time1.minutes, time1.seconds, time1.microseconds);
	PSP_INFO_PRINT("time2, year[%d] month[%d] day[%d] hour[%d] minutes[%d] seconds[%d] us[%d]\n", time2.year, time2.month, time2.day, time2.hour, time2.minutes, time2.seconds, time2.microseconds);
}

void PspSpeedTests::getMicrosSpeed() {
	uint32 time1, time2, time3, time4;
	time1 = PspRtc::instance().getMicros();
	time2 = PspRtc::instance().getMicros();
	time3 = PspRtc::instance().getMicros();
	time4 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("getMicros() times: %d, %d, %d\n", time4-time3, time3-time2, time2-time1);
}

void PspSpeedTests::readAndTime(uint32 bytes, char *buffer, FILE *file) {
	uint32 time1 = PspRtc::instance().getMicros();
	// test minimal read
	fread(buffer, bytes, 1, file);
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Reading %d byte takes %dus\n", bytes, time2-time1);	
}

/*
	333MHz/222MHz
	Reading 1 byte takes 2590us / 3167
	Reading 10 byte takes 8us / 9
	Reading 50 byte takes 8us / 11
	Reading 100 byte takes 8us / 11
	Reading 1000 byte takes 915us / 1131
	Reading 2000 byte takes 1806us / 2,284
	Reading 3000 byte takes 2697us / 3,374
	Reading 5000 byte takes 4551us / 5,544
	Reading 6000 byte takes 5356us / 6,676
	Reading 7000 byte takes 6800us / 8,358
	Reading 8000 byte takes 6794us / 8,454
	Reading 9000 byte takes 6782us / 8,563
	Reading 10000 byte takes 8497us / 10,631
	Reading 30000 byte takes 25995us / 32,473
	Reading 80000 byte takes 68457us / 85,291
	Reading 100000 byte takes 85103us / 106,163
*/
// Function to test the impact of MS reads
// These tests can't be done from shell - the cache screws them up
void PspSpeedTests::msReadSpeed() {
	FILE *file;
	file = fopen("ms0:/psp/music/track1.mp3", "r");

	char *buffer = (char *)malloc(2 * 1024 * 1024);
	
	readAndTime(1, buffer, file);
	readAndTime(10, buffer, file);
	readAndTime(50, buffer, file);
	readAndTime(100, buffer, file);
	readAndTime(1000, buffer, file);
	readAndTime(2000, buffer, file);
	readAndTime(3000, buffer, file);
	readAndTime(5000, buffer, file);
	readAndTime(6000, buffer, file);
	readAndTime(7000, buffer, file);
	readAndTime(8000, buffer, file);
	readAndTime(9000, buffer, file);	
	readAndTime(10000, buffer, file);
	readAndTime(30000, buffer, file);
	readAndTime(50000, buffer, file);
	readAndTime(80000, buffer, file);
	readAndTime(100000, buffer, file);
	
	fclose(file);
	free(buffer);	
}
 
void PspSpeedTests::seekAndTime(int bytes, int origin, FILE *file) {
	char buffer[1000];
	
	uint32 time1 = PspRtc::instance().getMicros();
	// test minimal read
	fseek(file, bytes, origin);
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Seeking %d byte from %d took %dus\n", bytes, origin, time2-time1);

	time1 = PspRtc::instance().getMicros();
	// test minimal read
	fread(buffer, 1000, 1, file);
	time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Reading 1000 bytes took %dus\n", time2-time1);
}

/*
333MHz
Seeking 0 byte from 0 took 946us
Reading 1000 bytes took 1781us
Seeking 5 byte from 0 took 6us
Reading 1000 bytes took 19us
Seeking 1000 byte from 0 took 5us
Reading 1000 bytes took 913us
Seeking 100 byte from 0 took 955us
Reading 1000 bytes took 906us
Seeking 10000 byte from 0 took 963us
Reading 1000 bytes took 905us
Seeking -5 byte from 1 took 1022us
Reading 1000 bytes took 949us
Seeking -100 byte from 1 took 1040us
Reading 1000 bytes took 907us
Seeking 100 byte from 1 took 1044us
Reading 1000 bytes took 930us
Seeking 0 byte from 2 took 7211us
Reading 1000 bytes took 80us
Seeking 10000 byte from 2 took 3636us
Reading 1000 bytes took 110us
*/

void PspSpeedTests::seekSpeed() {
	FILE *file;
	file = fopen("ms0:/psp/music/track1.mp3", "r");

	seekAndTime(0, SEEK_SET, file);
	seekAndTime(5, SEEK_SET, file);
	seekAndTime(1000, SEEK_SET, file);
	seekAndTime(100, SEEK_SET, file);
	seekAndTime(10000, SEEK_SET, file);
	seekAndTime(-5, SEEK_CUR, file);
	seekAndTime(-100, SEEK_CUR, file);
	seekAndTime(100, SEEK_CUR, file);
	seekAndTime(0, SEEK_END, file);
	seekAndTime(-10000, SEEK_END, file);

	fclose(file);
}

// 222: 5-7us
int PspSpeedTests::getThreadIdSpeed() {
	uint32 time1 = PspRtc::instance().getMicros();
	int threadId = sceKernelGetThreadId();
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Getting thread ID %d took %dus\n", threadId, time2-time1);
	
	return threadId;
}

// 222: 4-5us
void PspSpeedTests::getPrioritySpeed() {
	uint32 time1 = PspRtc::instance().getMicros();
	int priority = sceKernelGetThreadCurrentPriority();
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Getting thread priority %d took %dus\n", priority, time2-time1);
}

// 222: 9-10us
void PspSpeedTests::changePrioritySpeed(int id, int priority) {
	uint32 time1 = PspRtc::instance().getMicros();
	sceKernelChangeThreadPriority(id, priority);
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("Changing thread priority to %d for id %d took %dus\n", priority, id, time2-time1);
}

void PspSpeedTests::threadFunctionsSpeed() {
	// very unscientific -- just ballpark
	int id;
	id = getThreadIdSpeed();
	getThreadIdSpeed();
	getPrioritySpeed();
	getPrioritySpeed();
	changePrioritySpeed(id, 30);
	changePrioritySpeed(id, 35);
	changePrioritySpeed(id, 25);
	
	// test context switch time
	for (int i=0; i<10; i++) {
		uint time1 = PspRtc::instance().getMicros();
		PspThread::delayMicros(0);
		uint time2 = PspRtc::instance().getMicros();
		PSP_INFO_PRINT("poll %d. context switch Time = %dus\n", i, time2-time1);	// 10-15us	
	}	
}
 
void PspSpeedTests::semaphoreSpeed() { 
	PspSemaphore sem(1);
	
	uint32 time1 = PspRtc::instance().getMicros();
	
	sem.take();
	
	uint32 time2 = PspRtc::instance().getMicros();
	
	PSP_INFO_PRINT("taking semaphore took %d us\n", time2-time1);	// 10us
	
	uint32 time3 = PspRtc::instance().getMicros();
	
	sem.give();
	
	uint32 time4 = PspRtc::instance().getMicros();
	PSP_INFO_PRINT("releasing semaphore took %d us\n", time4-time3);	//10us-55us
}

int PspSpeedTests::threadFunc(SceSize args, void *argp) {
	PSP_INFO_PRINT("thread %x created.\n", sceKernelGetThreadId());
	
	_sem.take();
	
	PSP_INFO_PRINT("grabbed semaphore. Quitting thread\n");
	
	return 0;
}

void PspSpeedTests::semaphoreManyThreadSpeed() {	
	
	// create 4 threads
	for (int i=0; i<4; i++) {
		int thid = sceKernelCreateThread("my_thread", PspSpeedTests::threadFunc, 0x18, 0x10000, THREAD_ATTR_USER, NULL);
		sceKernelStartThread(thid, 0, 0);
	}
		
	PSP_INFO_PRINT("main thread. created threads\n");

	uint32 threads = _sem.numOfWaitingThreads();
	while (threads < 4) {
		threads = _sem.numOfWaitingThreads();
		PSP_INFO_PRINT("main thread: waiting threads[%d]\n", threads);
	}
	
	PSP_INFO_PRINT("main: semaphore value[%d]\n", _sem.getValue());
	PSP_INFO_PRINT("main thread: waiting threads[%d]\n", _sem.numOfWaitingThreads());
	
	_sem.give(4);
}

void PspSpeedTests::fastCopySpecificSize(byte *dst, byte *src, uint32 bytes) {
	uint32 time1, time2;
	uint32 fastcopyTime, memcpyTime;
	const int iterations = 2000;
	int intc;
	
	intc = pspSdkDisableInterrupts();
	
	time1 = PspRtc::instance().getMicros();
	for (int i=0; i<iterations; i++) {
		PspMemory::fastCopy(dst, src, bytes);
	}	
	time2 = PspRtc::instance().getMicros();
	
	pspSdkEnableInterrupts(intc);
	
	fastcopyTime = time2-time1;
	
	intc = pspSdkDisableInterrupts();
	
	time1 = PspRtc::instance().getMicros();
	for (int i=0; i<iterations; i++) {
		memcpy(dst, src, bytes);
	}	
	time2 = PspRtc::instance().getMicros();
	
	pspSdkEnableInterrupts(intc);
	
	memcpyTime = time2-time1;
	
	PSP_INFO_PRINT("%d bytes. memcpy[%d], fastcopy[%d]\n", bytes, memcpyTime, fastcopyTime);
}

void PspSpeedTests::fastCopyDifferentSizes(byte *dst, byte *src) {
	PSP_INFO_PRINT("\nsrc[%p], dst[%p]\n", src, dst);
	fastCopySpecificSize(dst, src, 1);
	fastCopySpecificSize(dst, src, 2);
	fastCopySpecificSize(dst, src, 3);
	fastCopySpecificSize(dst, src, 4);
	fastCopySpecificSize(dst, src, 5);
	fastCopySpecificSize(dst, src, 8);
	fastCopySpecificSize(dst, src, 10);
	fastCopySpecificSize(dst, src, 16);
	fastCopySpecificSize(dst, src, 32);
	fastCopySpecificSize(dst, src, 50);
	fastCopySpecificSize(dst, src, 100);
	fastCopySpecificSize(dst, src, 500);
	fastCopySpecificSize(dst, src, 1024);
	fastCopySpecificSize(dst, src, 2048);
}

void PspSpeedTests::fastCopySpeed() {
	PSP_INFO_PRINT("running fastCopy speed test\n");

	uint32 *bufferSrc32 = (uint32 *)memalign(16, MEMCPY_BUFFER_SIZE);
	uint32 *bufferDst32 = (uint32 *)memalign(16, MEMCPY_BUFFER_SIZE);
	
	// fill buffer 1
	for (int i=0; i<MEMCPY_BUFFER_SIZE/4; i++)
		bufferSrc32[i] = i | (((MEMCPY_BUFFER_SIZE/4)-i)<<16);
		
	// print buffer
	for (int i=0; i<50; i++)
		PSP_INFO_PRINT("%x ", bufferSrc32[i]);
	PSP_INFO_PRINT("\n");
	
	byte *bufferSrc = ((byte *)bufferSrc32);
	byte *bufferDst = ((byte *)bufferDst32);

	PSP_INFO_PRINT("\n\ndst and src cached: -----------------\n");
	fastCopyDifferentSizes(bufferDst, bufferSrc);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc);
	
	PSP_INFO_PRINT("\n\ndst cached, src uncached: -----------------\n");
	bufferSrc = UNCACHED(bufferSrc);
	fastCopyDifferentSizes(bufferDst, bufferSrc);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc);

	PSP_INFO_PRINT("\n\ndst uncached, src uncached: --------------\n");
	bufferDst = UNCACHED(bufferDst);
	fastCopyDifferentSizes(bufferDst, bufferSrc);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc);
	
	PSP_INFO_PRINT("\n\ndst uncached, src cached: -------------------\n");
	bufferSrc = CACHED(bufferSrc);
	fastCopyDifferentSizes(bufferDst, bufferSrc);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc);

	
	free(bufferSrc32);
	free(bufferDst32);
}

//-------Unit Tests -------------------------------

class PspUnitTests {
public:
	void testFastCopy();

private:
	enum {
		MEMCPY_BUFFER_SIZE = 8192
	};
	
	void fastCopySpecificSize(byte *dst, byte *src, uint32 bytes, bool swap = false);
	void fastCopyDifferentSizes(byte *dst, byte *src, bool swap = false);
};	

void PspUnitTests::testFastCopy() {
	PSP_INFO_PRINT("running fastcopy unit test ***********\n");
	PSP_INFO_PRINT("this test requires the test flag to be on in fastCopy\n\n");

	uint32 *bufferSrc32 = (uint32 *)memalign(16, MEMCPY_BUFFER_SIZE);
	uint32 *bufferDst32 = (uint32 *)memalign(16, MEMCPY_BUFFER_SIZE);
	
	// fill buffer 1
	for (int i=0; i<MEMCPY_BUFFER_SIZE/4; i++)
		bufferSrc32[i] = i | (((MEMCPY_BUFFER_SIZE/4)-i)<<16);
		
	// print buffer
	for (int i=0; i<50; i++)
		PSP_INFO_PRINT("%x ", bufferSrc32[i]);
	PSP_INFO_PRINT("\n");
	
	byte *bufferSrc = ((byte *)bufferSrc32);
	byte *bufferDst = ((byte *)bufferDst32);
	
	fastCopyDifferentSizes(bufferDst, bufferSrc, true);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+2, bufferSrc+2, true);
	fastCopyDifferentSizes(bufferDst+3, bufferSrc+3);
	fastCopyDifferentSizes(bufferDst, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst, bufferSrc+2, true);
	fastCopyDifferentSizes(bufferDst+2, bufferSrc, true);
	fastCopyDifferentSizes(bufferDst, bufferSrc+3);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+2);
	fastCopyDifferentSizes(bufferDst+1, bufferSrc+3);
	fastCopyDifferentSizes(bufferDst+2, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+2, bufferSrc+3);
	fastCopyDifferentSizes(bufferDst+3, bufferSrc+1);
	fastCopyDifferentSizes(bufferDst+3, bufferSrc+2);	
	
	free(bufferSrc32);
	free(bufferDst32);
}
	
void PspUnitTests::fastCopyDifferentSizes(byte *dst, byte *src, bool swap) {
	fastCopySpecificSize(dst, src, 1);
	fastCopySpecificSize(dst, src, 2, swap);
	fastCopySpecificSize(dst, src, 4, swap);
	fastCopySpecificSize(dst, src, 6, swap);
	fastCopySpecificSize(dst, src, 8, swap);
	fastCopySpecificSize(dst, src, 9);
	fastCopySpecificSize(dst, src, 10, swap);
	fastCopySpecificSize(dst, src, 11);
	fastCopySpecificSize(dst, src, 12, swap);
	fastCopySpecificSize(dst, src, 13);
	fastCopySpecificSize(dst, src, 14, swap);
	fastCopySpecificSize(dst, src, 15);	
	fastCopySpecificSize(dst, src, 16, swap);
	fastCopySpecificSize(dst, src, 17);
	fastCopySpecificSize(dst, src, 18, swap);
	fastCopySpecificSize(dst, src, 19);
	fastCopySpecificSize(dst, src, 20, swap);
	fastCopySpecificSize(dst, src, 32, swap);
	fastCopySpecificSize(dst, src, 33);
	fastCopySpecificSize(dst, src, 34, swap);
	fastCopySpecificSize(dst, src, 35);
	fastCopySpecificSize(dst, src, 36, swap);
	fastCopySpecificSize(dst, src, 50, swap);
	fastCopySpecificSize(dst, src, 100, swap);
	fastCopySpecificSize(dst, src, 500, swap);
	fastCopySpecificSize(dst, src, 1000, swap);
}

void PspUnitTests::fastCopySpecificSize(byte *dst, byte *src, uint32 bytes, bool swap) {
	memset(dst, 0, bytes);
	PspMemory::fastCopy(dst, src, bytes);
	
	if (swap) {	// test swap also
		memset(dst, 0, bytes);
		
		// pixelformat for swap
		PSPPixelFormat format;
		format.set(PSPPixelFormat::Type_4444, true);
	
		PspMemory::fastSwap(dst, src, bytes, format);
	}	
}

void psp_tests() {
	PSP_INFO_PRINT("in tests\n");
	
#ifdef PSP_ENABLE_SPEED_TESTS
	// Speed tests
	PspSpeedTests speedTests;
	speedTests.tickSpeed();
	speedTests.getMicrosSpeed();
	speedTests.msReadSpeed();
	speedTests.seekSpeed();
	speedTests.msReadSpeed();
	speedTests.threadFunctionsSpeed();
	speedTests.semaphoreSpeed();	
	speedTests.semaphoreManyThreadSpeed();
	speedTests.fastCopySpeed();
#endif	
	
#ifdef PSP_ENABLE_UNIT_TESTS
	// Unit tests
	PspUnitTests unitTests;
	
	unitTests.testFastCopy();
#endif	
}	

#endif /* (PSP_ENABLE_UNIT_TESTS) || defined (PSP_ENABLE_SPEED_TESTS) */