mirror of https://github.com/PCSX2/pcsx2.git
microVU: Finished most of the caching/memory model rewrite (whats left is mostly just tweaking/cleanup...), mVU should be back to stable status now afaik.
With this rewrite, God of War 1/2 games don't constantly recompile and play a lot more smoother on mVU than they did before; this was one of my goals with the rewrite as i always hated how crappy GoW ran with mVU. Also a nice big noticeable change, pcsx2's memory footprint was reduced by around ~170 mb! microVU was taking up a lot of memory because it made GoW games run better to have a huge rec-cache with the old model, but now thats not needed anymore. git-svn-id: http://pcsx2.googlecode.com/svn/trunk@2668 96395faa-99c1-11dd-bbfe-3dabce05a288
This commit is contained in:
parent
c19dfa41d4
commit
69fd9fb395
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@ -92,8 +92,6 @@ _f void mVUinit(VURegs* vuRegsPtr, int vuIndex) {
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mVU->progSize = (vuIndex ? 0x4000 : 0x1000) / 4;
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mVU->cache = NULL;
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mVU->cacheSize = mVUcacheSize;
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mVU->prog.max = mMaxProg - 1;
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mVU->prog.prog = (microProgram*)_aligned_malloc(sizeof(microProgram)*(mVU->prog.max+1), 64);
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mVU->regAlloc = new microRegAlloc(mVU->regs);
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mVUprint((vuIndex) ? "microVU1: init" : "microVU0: init");
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@ -105,10 +103,9 @@ _f void mVUinit(VURegs* vuRegsPtr, int vuIndex) {
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if (!mVU->cache) throw Exception::OutOfMemory( "microVU Error: Failed to allocate recompiler memory!" );
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memset(mVU->cache, 0xcc, mVU->cacheSize + 0x1000);
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memset(mVU->prog.prog, 0, sizeof(microProgram)*(mVU->prog.max+1));
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for (u32 i = 0; i < (mVU->progSize / 2); i++) {
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mVU->prog.list[i].list = new deque<microProgram*>();
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mVU->prog.prog[i].list = new deque<microProgram*>();
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}
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// Setup Entrance/Exit Points
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@ -131,10 +128,9 @@ _f void mVUreset(mV) {
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// Program Variables
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mVU->prog.cleared = 1;
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mVU->prog.isSame = -1;
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mVU->prog.cur = -1;
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mVU->prog.cur = NULL;
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mVU->prog.total = -1;
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mVU->prog.curFrame = 0;
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mVU->prog.max = mMaxProg - 1;
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// Setup Dynarec Cache Limits for Each Program
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u8* z = (mVU->cache + 0x1000); // Dispatcher Code is in first page of cache
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@ -143,16 +139,9 @@ _f void mVUreset(mV) {
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mVU->prog.x86end = (u8*)((uptr)z + (uptr)(mVU->cacheSize - (_1mb * 3))); // 3mb "Safe Zone"
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for (u32 i = 0; i < (mVU->progSize / 2); i++) {
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mVU->prog.list[i].list->clear();
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mVU->prog.list[i].size = 0;
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mVU->prog.list[i].quick = NULL;
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mVU->prog.list[i].quickIdx = -1;
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}
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for (int i = 0; i <= mVU->prog.max; i++) {
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if (!mVU->index) mVUclearProg<0>(mVU->prog.prog[i]);
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else mVUclearProg<1>(mVU->prog.prog[i]);
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mVU->prog.prog[i].idx = i;
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mVU->prog.prog[i].list->clear();
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mVU->prog.quick[i].block = NULL;
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mVU->prog.quick[i].prog = NULL;
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}
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}
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@ -164,17 +153,14 @@ _f void mVUclose(mV) {
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if (mVU->cache) { HostSys::Munmap(mVU->cache, mVU->cacheSize); mVU->cache = NULL; }
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// Delete Programs and Block Managers
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if (mVU->prog.prog) {
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for (int i = 0; i <= mVU->prog.max; i++) {
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for (u32 j = 0; j < (mVU->progSize / 2); j++) {
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safe_delete(mVU->prog.prog[i].block[j]);
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}
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}
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safe_aligned_free(mVU->prog.prog);
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}
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for (u32 i = 0; i < (mVU->progSize / 2); i++) {
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safe_delete(mVU->prog.list[i].list);
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deque<microProgram*>::iterator it = mVU->prog.prog[i].list->begin();
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for ( ; it != mVU->prog.prog[i].list->end(); it++) {
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safe_aligned_free(it[0]);
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}
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safe_delete(mVU->prog.prog[i].list);
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}
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safe_delete(mVU->regAlloc);
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}
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@ -184,8 +170,8 @@ _f void mVUclear(mV, u32 addr, u32 size) {
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memzero(mVU->prog.lpState); // Clear pipeline state
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mVU->prog.cleared = 1; // Next execution searches/creates a new microprogram
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for (u32 i = 0; i < (mVU->progSize / 2); i++) {
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mVU->prog.list[i].quick = NULL; // Clear current quick-reference prog list
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mVU->prog.list[i].quickIdx = -1; // Set to 'invalid' index
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mVU->prog.quick[i].block = NULL; // Clear current quick-reference block
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mVU->prog.quick[i].prog = NULL; // Clear current quick-reference prog
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}
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}
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}
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@ -195,7 +181,7 @@ _f void mVUclear(mV, u32 addr, u32 size) {
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//------------------------------------------------------------------
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// Clears program data
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_mVUt _f void mVUclearProg(microProgram& program) {
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_mVUt _f void mVUclearProg(microProgram& program, bool deleteBlocks) {
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microVU* mVU = mVUx;
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program.used = 0;
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program.age = isDead;
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@ -207,15 +193,27 @@ _mVUt _f void mVUclearProg(microProgram& program) {
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program.ranges.total = -1;
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}
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for (u32 i = 0; i < (mVU->progSize / 2); i++) {
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safe_delete(program.block[i]);
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if (deleteBlocks) safe_delete(program.block[i]);
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}
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}
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/*
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microProgram* mVUcreateProg(int progIndex, int startPC) {
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return (microProgram*)_aligned_malloc(sizeof(microProgram), 64);
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// Creates a new Micro Program
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_mVUt _f microProgram* mVUcreateProg(int startPC) {
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microVU* mVU = mVUx;
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microProgram* prog = (microProgram*)_aligned_malloc(sizeof(microProgram), 64);
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memzero_ptr<sizeof(microProgram)>(prog);
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mVUclearProg<vuIndex>(*prog);
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prog->age = isYoung;
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prog->used = 1;
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prog->idx = mVU->prog.total++;
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prog->startPC = startPC;
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mVUcacheProg<vuIndex>(*prog); // Cache Micro Program
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float cacheSize = (float)(u32)((u32)mVU->prog.x86end - (u32)mVU->prog.x86start);
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float cacheStat =((float)(u32)((u32)mVU->prog.x86ptr - (u32)mVU->prog.x86start)) / cacheSize * 100;
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Console.WriteLn(Color_Orange, "microVU%d: Cached MicroPrograms = [%03d] [PC=%04x] [List=%02d] (Cache = %f%%)",
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vuIndex, mVU->prog.total, startPC, mVU->prog.prog[startPC].list->size()+1, cacheStat);
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return prog;
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}
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*/
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// Caches Micro Program
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_mVUt _f void mVUcacheProg(microProgram& prog) {
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@ -225,57 +223,15 @@ _mVUt _f void mVUcacheProg(microProgram& prog) {
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mVUdumpProg(prog.idx);
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}
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// Finds the least used program, (if program list full clears and returns an old program; if not-full, returns free program)
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_mVUt _f int mVUfindLeastUsedProg() {
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microVU* mVU = mVUx;
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for (int i = 0; i <= mVU->prog.max; i++) {
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if (mVU->prog.prog[i].age == isDead) {
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mVU->prog.total++;
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mVUcacheProg<vuIndex>(mVU->prog.prog[i]); // Cache Micro Program
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mVU->prog.prog[i].age = isYoung;
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mVU->prog.prog[i].used = 1;
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Console.WriteLn(Color_Orange, "microVU%d: Cached MicroPrograms = [%03d] [%03d]", vuIndex, i+1, mVU->prog.total+1);
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return i;
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}
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}
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// If we reach this, it means all program slots are used, so delete old ones...
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static int clearIdx = 0;
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int pIdx = clearIdx;
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for (int i = 0; i < ((mVU->prog.max+1)/4); i++) {
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if (mVU->prog.prog[i].used) continue; // Don't delete currently executing program(s)
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assert(mVU->prog.prog[i].startPC < (mVU->progSize / 2));
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microProgramList& list = mVU->prog.list[mVU->prog.prog[i].startPC];
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deque<microProgram*>::iterator it = list.list->begin();
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for ( ; it != list.list->end(); it++) {
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if (it[0] == &mVU->prog.prog[i]) {
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list.list->erase(it);
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list.quick = NULL;
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DevCon.WriteLn("Deleting List Reference!");
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break;
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}
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}
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mVUclearProg<vuIndex>(mVU->prog.prog[clearIdx]);
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clearIdx = aWrap(clearIdx+1, mVU->prog.max);
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}
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mVU->prog.total -= ((mVU->prog.max+1)/4)-1;
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mVUcacheProg<vuIndex>(mVU->prog.prog[pIdx]); // Cache Micro Program
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mVU->prog.prog[pIdx].age = isYoung;
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mVU->prog.prog[pIdx].used = 1;
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Console.WriteLn(Color_Orange, "microVU%d: Cached MicroPrograms = [%03d] [%03d]", vuIndex, pIdx+1, mVU->prog.total+1);
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return pIdx;
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}
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// Finds and Ages/Kills Programs if they haven't been used in a while.
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_f void mVUvsyncUpdate(mV) {
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for (int i = 0; i <= mVU->prog.max; i++) {
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/*for (int i = 0; i <= mVU->prog.max; i++) {
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if (mVU->prog.prog[i].age == isDead) continue;
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if (mVU->prog.prog[i].used) {
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mVU->prog.prog[i].used = 0;
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mVU->prog.prog[i].frame = mVU->prog.curFrame;
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}
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/*else { // Age Micro Program that wasn't used
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else { // Age Micro Program that wasn't used
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s32 diff = mVU->prog.curFrame - mVU->prog.prog[i].frame;
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if (diff >= (60 * 1)) {
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if (i == mVU->prog.cur) continue; // Don't Age/Kill last used program
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}
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//elif(diff >= (60 * 1)) { mVU->prog.prog[i].age = isOld; }
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//elif(diff >= (20 * 1)) { mVU->prog.prog[i].age = isAged; }
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}*/
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}
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}
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}*/
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mVU->prog.curFrame++;
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}
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@ -310,7 +266,7 @@ _mVUt _f bool mVUcmpProg(microProgram& prog, const bool cmpWholeProg) {
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if ((cmpWholeProg && !memcmp_mmx((u8*)prog.data, mVU->regs->Micro, mVU->microMemSize))
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|| (!cmpWholeProg && mVUcmpPartial<vuIndex>(prog))) {
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mVU->prog.cleared = 0;
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mVU->prog.cur = prog.idx;
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mVU->prog.cur =&prog;
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mVU->prog.isSame = cmpWholeProg ? 1 : -1;
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prog.used = 1;
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prog.age = isYoung;
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@ -322,35 +278,34 @@ _mVUt _f bool mVUcmpProg(microProgram& prog, const bool cmpWholeProg) {
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// Searches for Cached Micro Program and sets prog.cur to it (returns entry-point to program)
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_mVUt _f void* mVUsearchProg(u32 startPC, uptr pState) {
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microVU* mVU = mVUx;
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microProgramList& list = mVU->prog.list[startPC/8];
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if(!list.quick) { // If null, we need to search for new program
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microProgramQuick& quick = mVU->prog.quick[startPC/8];
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microProgramList& list = mVU->prog.prog [startPC/8];
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if(!quick.prog) { // If null, we need to search for new program
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deque<microProgram*>::iterator it = list.list->begin();
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for ( ; it != list.list->end(); it++) {
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if (mVUcmpProg<vuIndex>(*it[0], 0)) {
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microProgram* t = it[0];
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quick.block = it[0]->block[startPC/8];
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quick.prog = it[0];
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list.list->erase(it);
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list.list->push_front(t);
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list.quick = t->block[startPC/8];
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list.quickIdx = t->idx;
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return mVUentryGet(mVU, list.quick, startPC, pState);
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list.list->push_front(quick.prog);
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return mVUentryGet(mVU, quick.block, startPC, pState);
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}
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}
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mVU->prog.cur = mVUfindLeastUsedProg<vuIndex>(); // If cleared and program not found, make a new program instance
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mVU->prog.cur = mVUcreateProg<vuIndex>(startPC/8); // If cleared and program not found, make a new program instance
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mVU->prog.cleared = 0;
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mVU->prog.isSame = 1;
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mVUcurProg.startPC = startPC / 8;
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void* entryPoint = mVUblockFetch(mVU, startPC, pState);
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list.quick = mVUcurProg.block[startPC/8];
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list.quickIdx = mVUcurProg.idx;
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quick.block = mVUcurProg.block[startPC/8];
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quick.prog = &mVUcurProg;
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list.list->push_front(&mVUcurProg);
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DevCon.WriteLn("List[%d].Size = %d", startPC/8, list.list->size());
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return entryPoint;
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}
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mVU->prog.cur = list.quickIdx;
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mVU->prog.isSame = -1;
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mVUcurProg.used = 1;
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mVUcurProg.age = isYoung;
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return mVUentryGet(mVU, list.quick, startPC, pState); // If list.quick, then we've already found and recompiled the program ;)
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mVU->prog.isSame = -1;
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mVU->prog.cur = quick.prog;
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mVU->prog.cur->used = 1;
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mVU->prog.cur->age = isYoung;
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return mVUentryGet(mVU, quick.block, startPC, pState); // If list.quick, then we've already found and recompiled the program ;)
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}
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//------------------------------------------------------------------
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@ -121,7 +121,6 @@ enum microProgramAge {
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};
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#define mProgSize (0x4000/4)
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#define mMaxProg ((mVU->index)?400:8) // The amount of Micro Programs Recs will 'remember'
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struct microProgram {
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u32 data [mProgSize]; // Holds a copy of the VU microProgram
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microBlockManager* block[mProgSize/2]; // Array of Block Managers
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};
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struct microProgramList {
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deque<microProgram*>* list; // List of microPrograms who start with the same startPC value
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microBlockManager* quick; // Quick reference to valid microBlockManager for current startPC
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int quickIdx; // Index of the microProgram who is the owner of 'quick'
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int size; // Current size of the list...
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deque<microProgram*>* list; // List of microPrograms who start with the same startPC value
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};
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struct microProgramQuick {
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microBlockManager* block; // Quick reference to valid microBlockManager for current startPC
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microProgram* prog; // The microProgram who is the owner of 'block'
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};
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struct microProgManager {
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microIR<mProgSize> IRinfo; // IR information
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microProgram* prog; // Cache MicroPrograms in memory (indirect jumps are treated as new programs)
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microProgramList list[mProgSize/2]; // List of microProgram references indexed by startPC values
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//int* progList; // List of program indexes ordered by age (ordered from newest to oldest)
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int max; // Max Number of MicroPrograms minus 1
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int total; // Total Number of valid MicroPrograms minus 1
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int cur; // Index to Current MicroProgram thats running (-1 = uncached)
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microProgramList prog [mProgSize/2]; // List of microPrograms indexed by startPC values
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microProgramQuick quick[mProgSize/2]; // Quick reference to valid microPrograms for current execution
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microProgram* cur; // Pointer to currently running MicroProgram
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int total; // Total Number of valid MicroPrograms
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int isSame; // Current cached microProgram is Exact Same program as mVU->regs->Micro (-1 = unknown, 0 = No, 1 = Yes)
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int cleared; // Micro Program is Indeterminate so must be searched for (and if no matches are found then recompile a new one)
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u32 curFrame; // Frame Counter
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@ -157,7 +156,7 @@ struct microProgManager {
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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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#define mVUcacheSize ((mMaxProg < 20) ? (_1mb * 10) : (mMaxProg * (_1mb * 0.5))) // 0.5mb per program
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#define mVUcacheSize ((mVU->index) ? (_1mb * 20) : (_1mb * 5))
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struct microVU {
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__aligned16 u32 macFlag[4]; // 4 instances of mac flag (used in execution)
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@ -215,10 +214,10 @@ mVUop(mVUopU);
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mVUop(mVUopL);
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// Private Functions
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_mVUt _f void mVUclearProg(microProgram& prog);
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_mVUt _f void mVUcacheProg(microProgram& prog);
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_mVUt _f int mVUfindLeastUsedProg();
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_mVUt _f void mVUclearProg(microProgram& prog, bool deleteBlocks = 1);
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_mVUt _f void mVUcacheProg(microProgram& prog);
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_mVUt _f void* mVUsearchProg(u32 startPC, uptr pState);
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_mVUt _f microProgram* mVUfindLeastUsedProg();
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void* __fastcall mVUexecuteVU0(u32 startPC, u32 cycles);
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void* __fastcall mVUexecuteVU1(u32 startPC, u32 cycles);
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@ -37,8 +37,8 @@ _f void mVUcheckIsSame(mV) {
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mVU->prog.isSame = !memcmp_mmx((u8*)mVUcurProg.data, mVU->regs->Micro, mVU->microMemSize);
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}
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if (mVU->prog.isSame == 0) {
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if (!isVU1) mVUcacheProg<0>(mVU->prog.prog[mVU->prog.cur]);
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else mVUcacheProg<1>(mVU->prog.prog[mVU->prog.cur]);
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if (!isVU1) mVUcacheProg<0>(*mVU->prog.cur);
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else mVUcacheProg<1>(*mVU->prog.cur);
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mVU->prog.isSame = 1;
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}
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}
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@ -447,7 +447,6 @@ _f void* mVUblockFetch(microVU* mVU, u32 startPC, uptr pState) {
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// mVUcompileJIT() - Called By JR/JALR during execution
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_mVUt void* __fastcall mVUcompileJIT(u32 startPC, uptr pState) {
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//DevCon.WriteLn("JR/JALR!");
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//return mVUblockFetch(mVUx, startPC, pState);
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return mVUsearchProg<vuIndex>(startPC, pState); // Find and set correct program
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}
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@ -156,9 +156,8 @@ typedef u32 (__fastcall *mVUCall)(void*, void*);
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// Misc Macros...
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#define __four(val) { val, val, val, val }
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#define mVUprogI mVU->prog.prog[progIndex]
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#define mVUcurProg mVU->prog.prog[mVU->prog.cur]
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#define mVUblocks mVU->prog.prog[mVU->prog.cur].block
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#define mVUcurProg mVU->prog.cur[0]
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#define mVUblocks mVU->prog.cur->block
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#define mVUir mVU->prog.IRinfo
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#define mVUbranch mVU->prog.IRinfo.branch
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#define mVUcycles mVU->prog.IRinfo.cycles
|
||||
|
|
Loading…
Reference in New Issue