mirror of https://github.com/PCSX2/pcsx2.git
microVU: Minor changes/cleanups
git-svn-id: http://pcsx2.googlecode.com/svn/trunk@4412 96395faa-99c1-11dd-bbfe-3dabce05a288
This commit is contained in:
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7edaa221b8
commit
ed35dcac17
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@ -82,106 +82,114 @@ const __aligned(32) mVU_Globals mVUglob = {
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static __fi void mVUthrowHardwareDeficiency(const wxChar* extFail, int vuIndex) {
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static __fi void mVUthrowHardwareDeficiency(const wxChar* extFail, int vuIndex) {
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throw Exception::HardwareDeficiency()
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throw Exception::HardwareDeficiency()
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.SetDiagMsg(pxsFmt(L"microVU%d recompiler init failed: %s is not available.", vuIndex, extFail))
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.SetDiagMsg(pxsFmt(L"microVU%d recompiler init failed: %s is not available.", vuIndex, extFail))
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.SetUserMsg(pxsFmt(_("%s Extensions not found. microVU requires a host CPU with MMX, SSE, and SSE2 extensions."), extFail ));
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.SetUserMsg(pxsFmt(_("%s Extensions not found. microVU requires a host CPU with MMX, SSE, and SSE2 extensions."), extFail));
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}
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}
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void microVU::reserveCache()
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void mVUreserveCache(microVU& mVU) {
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{
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cache_reserve = new RecompiledCodeReserve( pxsFmt("Micro VU%u Recompiler Cache", index) );
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cache_reserve->SetProfilerName( pxsFmt("mVU%urec", index) );
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cache = index ?
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mVU.cache_reserve = new RecompiledCodeReserve(pxsFmt("Micro VU%u Recompiler Cache", mVU.index));
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(u8*)cache_reserve->Reserve( cacheSize * _1mb, HostMemoryMap::mVU1rec ) :
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mVU.cache_reserve->SetProfilerName(pxsFmt("mVU%urec", mVU.index));
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(u8*)cache_reserve->Reserve( cacheSize * _1mb, HostMemoryMap::mVU0rec );
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cache_reserve->ThrowIfNotOk();
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mVU.cache = mVU.index ?
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(u8*)mVU.cache_reserve->Reserve(mVU.cacheSize * _1mb, HostMemoryMap::mVU1rec):
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(u8*)mVU.cache_reserve->Reserve(mVU.cacheSize * _1mb, HostMemoryMap::mVU0rec);
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mVU.cache_reserve->ThrowIfNotOk();
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}
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}
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// Only run this once per VU! ;)
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// Only run this once per VU! ;)
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void microVU::init(uint vuIndex) {
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void mVUinit(microVU& mVU, uint vuIndex) {
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if(!x86caps.hasMultimediaExtensions) mVUthrowHardwareDeficiency( L"MMX", vuIndex );
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if(!x86caps.hasMultimediaExtensions) mVUthrowHardwareDeficiency( L"MMX", vuIndex );
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if(!x86caps.hasStreamingSIMDExtensions) mVUthrowHardwareDeficiency( L"SSE", vuIndex );
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if(!x86caps.hasStreamingSIMDExtensions) mVUthrowHardwareDeficiency( L"SSE", vuIndex );
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if(!x86caps.hasStreamingSIMD2Extensions) mVUthrowHardwareDeficiency( L"SSE2", vuIndex );
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if(!x86caps.hasStreamingSIMD2Extensions) mVUthrowHardwareDeficiency( L"SSE2", vuIndex );
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memzero(prog);
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memzero(mVU.prog);
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index = vuIndex;
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mVU.index = vuIndex;
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cop2 = 0;
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mVU.cop2 = 0;
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vuMemSize = (index ? 0x4000 : 0x1000);
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mVU.vuMemSize = (mVU.index ? 0x4000 : 0x1000);
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microMemSize = (index ? 0x4000 : 0x1000);
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mVU.microMemSize = (mVU.index ? 0x4000 : 0x1000);
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progSize = (index ? 0x4000 : 0x1000) / 4;
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mVU.progSize = (mVU.index ? 0x4000 : 0x1000) / 4;
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progMemMask = progSize-1;
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mVU.progMemMask = mVU.progSize-1;
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mVU.cacheSize = vuIndex ? mVU1cacheReserve : mVU0cacheReserve;
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mVU.cache = NULL;
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mVU.dispCache = NULL;
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mVU.startFunct = NULL;
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mVU.exitFunct = NULL;
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reserveCache();
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mVUreserveCache(mVU);
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dispCache = SysMmapEx(0, mVUdispCacheSize, 0, (index ? "Micro VU1 Dispatcher" : "Micro VU0 Dispatcher"));
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mVU.dispCache = SysMmapEx(0, mVUdispCacheSize, 0,(mVU.index ? "Micro VU1 Dispatcher" : "Micro VU0 Dispatcher"));
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if (!dispCache) throw Exception::OutOfMemory( index ? L"Micro VU1 Dispatcher" : L"Micro VU0 Dispatcher" );
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if (!mVU.dispCache) throw Exception::OutOfMemory (mVU.index ? L"Micro VU1 Dispatcher" : L"Micro VU0 Dispatcher");
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memset(dispCache, 0xcc, mVUdispCacheSize);
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memset(mVU.dispCache, 0xcc, mVUdispCacheSize);
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regAlloc = new microRegAlloc(index);
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mVU.regAlloc = new microRegAlloc(mVU.index);
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}
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}
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// Resets Rec Data
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// Resets Rec Data
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void microVU::reset() {
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void mVUreset(microVU& mVU, bool resetReserve) {
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x86SetPtr(dispCache);
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// Restore reserve to uncommitted state
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mVUdispatcherA(this);
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if (resetReserve) mVU.cache_reserve->Reset();
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mVUdispatcherB(this);
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mVUdispatcherC(this);
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x86SetPtr(mVU.dispCache);
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mVUdispatcherD(this);
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mVUdispatcherA(&mVU);
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mVUdispatcherB(&mVU);
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mVUdispatcherC(&mVU);
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mVUdispatcherD(&mVU);
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mVUemitSearch();
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mVUemitSearch();
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// Clear All Program Data
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// Clear All Program Data
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//memset(&prog, 0, sizeof(prog));
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//memset(&mVU.prog, 0, sizeof(mVU.prog));
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memset(&prog.lpState, 0, sizeof(prog.lpState));
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memset(&mVU.prog.lpState, 0, sizeof(mVU.prog.lpState));
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// Program Variables
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// Program Variables
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prog.cleared = 1;
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mVU.prog.cleared = 1;
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prog.isSame = -1;
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mVU.prog.isSame = -1;
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prog.cur = NULL;
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mVU.prog.cur = NULL;
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prog.total = 0;
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mVU.prog.total = 0;
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prog.curFrame = 0;
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mVU.prog.curFrame = 0;
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// Setup Dynarec Cache Limits for Each Program
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// Setup Dynarec Cache Limits for Each Program
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u8* z = cache;
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u8* z = mVU.cache;
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prog.x86start = z;
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mVU.prog.x86start = z;
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prog.x86ptr = z;
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mVU.prog.x86ptr = z;
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prog.x86end = z + ((cacheSize - mVUcacheSafeZone) * _1mb);
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mVU.prog.x86end = z + ((mVU.cacheSize - mVUcacheSafeZone) * _1mb);
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for (u32 i = 0; i < (progSize / 2); i++) {
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for(u32 i = 0; i < (mVU.progSize / 2); i++) {
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if(!prog.prog[i]) {
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if(!mVU.prog.prog[i]) {
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prog.prog[i] = new deque<microProgram*>();
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mVU.prog.prog[i] = new deque<microProgram*>();
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continue;
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continue;
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}
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}
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deque<microProgram*>::iterator it(prog.prog[i]->begin());
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deque<microProgram*>::iterator it(mVU.prog.prog[i]->begin());
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for ( ; it != prog.prog[i]->end(); ++it) {
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for ( ; it != mVU.prog.prog[i]->end(); ++it) {
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if (index) mVUdeleteProg<1>(it[0]);
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if (mVU.index) mVUdeleteProg<1>(it[0]);
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else mVUdeleteProg<0>(it[0]);
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else mVUdeleteProg<0>(it[0]);
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}
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}
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prog.prog[i]->clear();
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mVU.prog.prog[i]->clear();
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prog.quick[i].block = NULL;
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mVU.prog.quick[i].block = NULL;
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prog.quick[i].prog = NULL;
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mVU.prog.quick[i].prog = NULL;
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}
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}
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}
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}
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// Free Allocated Resources
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// Free Allocated Resources
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void microVU::close() {
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void mVUclose(microVU& mVU) {
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safe_delete(cache_reserve);
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safe_delete(mVU.cache_reserve);
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SafeSysMunmap(dispCache, mVUdispCacheSize);
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SafeSysMunmap(mVU.dispCache, mVUdispCacheSize);
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// Delete Programs and Block Managers
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// Delete Programs and Block Managers
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for (u32 i = 0; i < (progSize / 2); i++) {
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for (u32 i = 0; i < (mVU.progSize / 2); i++) {
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if (!prog.prog[i]) continue;
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if (!mVU.prog.prog[i]) continue;
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deque<microProgram*>::iterator it(prog.prog[i]->begin());
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deque<microProgram*>::iterator it(mVU.prog.prog[i]->begin());
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for ( ; it != prog.prog[i]->end(); ++it) {
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for ( ; it != mVU.prog.prog[i]->end(); ++it) {
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if (index) mVUdeleteProg<1>(it[0]);
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if (mVU.index) mVUdeleteProg<1>(it[0]);
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else mVUdeleteProg<0>(it[0]);
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else mVUdeleteProg<0>(it[0]);
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}
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}
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safe_delete(prog.prog[i]);
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safe_delete(mVU.prog.prog[i]);
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}
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}
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}
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}
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@ -347,29 +355,29 @@ void recMicroVU1::Vsync() throw() { mVUvsyncUpdate(µVU1); }
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void recMicroVU0::Reserve() {
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void recMicroVU0::Reserve() {
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if (AtomicExchange(m_Reserved, 1) == 0)
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if (AtomicExchange(m_Reserved, 1) == 0)
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microVU0.init(0);
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mVUinit(microVU0, 0);
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}
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}
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void recMicroVU1::Reserve() {
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void recMicroVU1::Reserve() {
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if (AtomicExchange(m_Reserved, 1) == 0)
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if (AtomicExchange(m_Reserved, 1) == 0)
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microVU1.init(1);
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mVUinit(microVU1, 1);
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}
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}
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void recMicroVU0::Shutdown() throw() {
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void recMicroVU0::Shutdown() throw() {
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if (AtomicExchange(m_Reserved, 0) == 1)
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if (AtomicExchange(m_Reserved, 0) == 1)
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microVU0.close();
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mVUclose(microVU0);
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}
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}
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void recMicroVU1::Shutdown() throw() {
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void recMicroVU1::Shutdown() throw() {
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if (AtomicExchange(m_Reserved, 0) == 1)
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if (AtomicExchange(m_Reserved, 0) == 1)
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microVU1.close();
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mVUclose(microVU1);
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}
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}
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void recMicroVU0::Reset() {
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void recMicroVU0::Reset() {
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if(!pxAssertDev(m_Reserved, "MicroVU0 CPU Provider has not been reserved prior to reset!")) return;
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if(!pxAssertDev(m_Reserved, "MicroVU0 CPU Provider has not been reserved prior to reset!")) return;
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microVU0.reset();
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mVUreset(microVU0, true);
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}
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}
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void recMicroVU1::Reset() {
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void recMicroVU1::Reset() {
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if(!pxAssertDev(m_Reserved, "MicroVU1 CPU Provider has not been reserved prior to reset!")) return;
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if(!pxAssertDev(m_Reserved, "MicroVU1 CPU Provider has not been reserved prior to reset!")) return;
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microVU1.reset();
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mVUreset(microVU1, true);
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}
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}
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void recMicroVU0::Execute(u32 cycles) {
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void recMicroVU0::Execute(u32 cycles) {
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@ -405,13 +413,17 @@ uint recMicroVU1::GetCacheReserve() const {
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return microVU1.cacheSize;
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return microVU1.cacheSize;
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}
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}
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void recMicroVU0::SetCacheReserve( uint reserveInMegs ) const {
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void recMicroVU0::SetCacheReserve(uint reserveInMegs) const {
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DevCon.WriteLn("microVU0: Upping cache size [%dmb]", reserveInMegs);
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DevCon.WriteLn("microVU0: Changing cache size [%dmb]", reserveInMegs);
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microVU0.cacheSize = min(reserveInMegs, mVUcacheMaxReserve);
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microVU0.cacheSize = min(reserveInMegs, mVU0cacheReserve);
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safe_delete(microVU0.cache_reserve); // I assume this unmaps the memory
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mVUreserveCache(microVU0); // Need rec-reset after this
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}
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}
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void recMicroVU1::SetCacheReserve( uint reserveInMegs ) const {
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void recMicroVU1::SetCacheReserve(uint reserveInMegs) const {
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DevCon.WriteLn("microVU1: Upping cache size [%dmb]", reserveInMegs);
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DevCon.WriteLn("microVU1: Changing cache size [%dmb]", reserveInMegs);
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microVU1.cacheSize = min(reserveInMegs, mVUcacheMaxReserve);
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microVU1.cacheSize = min(reserveInMegs, mVU1cacheReserve);
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safe_delete(microVU1.cache_reserve); // I assume this unmaps the memory
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mVUreserveCache(microVU1); // Need rec-reset after this
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}
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}
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void recMicroVU1::ResumeXGkick() {
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void recMicroVU1::ResumeXGkick() {
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@ -162,10 +162,10 @@ struct microProgManager {
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microRegInfo lpState; // Pipeline state from where program left off (useful for continuing execution)
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microRegInfo lpState; // Pipeline state from where program left off (useful for continuing execution)
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};
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};
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static const uint mVUdispCacheSize = __pagesize; // Dispatcher Cache Size (in bytes)
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static const uint mVUdispCacheSize = __pagesize; // Dispatcher Cache Size (in bytes)
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static const uint mVUcacheSafeZone = 3; // Safe-Zone for program recompilation (in megabytes)
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static const uint mVUcacheSafeZone = 3; // Safe-Zone for program recompilation (in megabytes)
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static const uint mVUcacheInitReserve = 64; // Initial Reserve Cache Size (in megabytes)
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static const uint mVU0cacheReserve = 64; // mVU0 Reserve Cache Size (in megabytes)
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static const uint mVUcacheMaxReserve = 128; // Max Reserve Cache Size (in megabytes)
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static const uint mVU1cacheReserve = 64; // mVU1 Reserve Cache Size (in megabytes)
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struct microVU {
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struct microVU {
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@ -241,20 +241,6 @@ struct microVU {
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pxAssumeDev((prog.IRinfo.curPC & 1) == 0, "microVU recompiler: Upper instructions cannot have valid branch addresses.");
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pxAssumeDev((prog.IRinfo.curPC & 1) == 0, "microVU recompiler: Upper instructions cannot have valid branch addresses.");
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return (((prog.IRinfo.curPC + 4) + (Imm11() * 2)) & progMemMask) * 4;
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return (((prog.IRinfo.curPC + 4) + (Imm11() * 2)) & progMemMask) * 4;
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}
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}
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microVU()
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{
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cacheSize = mVUcacheInitReserve;
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cache = NULL;
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dispCache = NULL;
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startFunct = NULL;
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exitFunct = NULL;
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}
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void reserveCache();
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void init(uint vuIndex);
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void reset();
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void close();
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};
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};
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// microVU rec structs
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// microVU rec structs
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@ -191,7 +191,7 @@ _mVUt void mVUcleanUp() {
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if ((xGetPtr() < mVU->prog.x86start) || (xGetPtr() >= mVU->prog.x86end)) {
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if ((xGetPtr() < mVU->prog.x86start) || (xGetPtr() >= mVU->prog.x86end)) {
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Console.WriteLn(vuIndex ? Color_Orange : Color_Magenta, "microVU%d: Program cache limit reached.", mVU->index);
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Console.WriteLn(vuIndex ? Color_Orange : Color_Magenta, "microVU%d: Program cache limit reached.", mVU->index);
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mVU->reset();
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mVUreset(*mVU, false);
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}
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}
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mVU->cycles = mVU->totalCycles - mVU->cycles;
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mVU->cycles = mVU->totalCycles - mVU->cycles;
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@ -36,20 +36,16 @@ static void mVUupdateFlags(mV, const xmm& reg, const xmm& regT1in = xEmptyReg, c
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const xmm& regT1 = regT1b ? mVU->regAlloc->allocReg() : regT1in;
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const xmm& regT1 = regT1b ? mVU->regAlloc->allocReg() : regT1in;
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xmm regT2 = reg;
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xmm regT2 = reg;
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if ((mFLAG.doFlag && !(_XYZW_SS && modXYZW)))
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if ((mFLAG.doFlag && !(_XYZW_SS && modXYZW))) {
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{
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regT2 = regT2in;
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regT2 = regT2in;
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if (regT2.IsEmpty())
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if (regT2.IsEmpty()) {
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{
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regT2 = mVU->regAlloc->allocReg();
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regT2 = mVU->regAlloc->allocReg();
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regT2b = true;
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regT2b = true;
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}
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}
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xPSHUF.D(regT2, reg, 0x1B); // Flip wzyx to xyzw
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xPSHUF.D(regT2, reg, 0x1B); // Flip wzyx to xyzw
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}
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}
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else regT2 = reg;
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else regT2 = reg;
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if (sFLAG.doFlag) {
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if (sFLAG.doFlag) {
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mVUallocSFLAGa(sReg, sFLAG.lastWrite); // Get Prev Status Flag
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mVUallocSFLAGa(sReg, sFLAG.lastWrite); // Get Prev Status Flag
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if (sFLAG.doNonSticky) xAND(sReg, 0xfffc00ff); // Clear O,U,S,Z flags
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if (sFLAG.doNonSticky) xAND(sReg, 0xfffc00ff); // Clear O,U,S,Z flags
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