GB: Add double speed

This commit is contained in:
Jeffrey Pfau 2016-02-17 01:18:41 -08:00
parent fb0555e4fb
commit 8608f11154
8 changed files with 63 additions and 50 deletions

View File

@ -27,6 +27,7 @@ static int32_t _updateChannel2(struct GBAudioChannel2* ch);
static int32_t _updateChannel3(struct GBAudioChannel3* ch, enum GBAudioStyle style);
static int32_t _updateChannel4(struct GBAudioChannel4* ch);
static void _sample(struct GBAudio* audio, int32_t cycles);
static void _scheduleEvent(struct GBAudio* audio);
void GBAudioInit(struct GBAudio* audio, size_t samples, uint8_t* nr52, enum GBAudioStyle style) {
audio->samples = samples;
@ -158,13 +159,7 @@ void GBAudioWriteNR14(struct GBAudio* audio, uint8_t value) {
--audio->ch1.control.length;
}
}
// TODO: Don't need p
if (audio->p) {
audio->nextEvent = audio->p->cpu->cycles;
audio->p->cpu->nextEvent = audio->nextEvent;
} else {
audio->nextEvent = 0;
}
_scheduleEvent(audio);
}
*audio->nr52 &= ~0x0001;
*audio->nr52 |= audio->playingCh1;
@ -216,13 +211,7 @@ void GBAudioWriteNR24(struct GBAudio* audio, uint8_t value) {
--audio->ch2.control.length;
}
}
// TODO: Don't need p
if (audio->p) {
audio->nextEvent = audio->p->cpu->cycles;
audio->p->cpu->nextEvent = audio->nextEvent;
} else {
audio->nextEvent = 0;
}
_scheduleEvent(audio);
}
*audio->nr52 &= ~0x0002;
*audio->nr52 |= audio->playingCh2 << 1;
@ -287,16 +276,9 @@ void GBAudioWriteNR34(struct GBAudio* audio, uint8_t value) {
audio->eventDiff = 0;
}
audio->ch3.readable = audio->style != GB_AUDIO_DMG;
// TODO: Don't need p
if (audio->p) {
_scheduleEvent(audio);
// TODO: Where does this cycle delay come from?
audio->nextCh3 = audio->eventDiff + audio->p->cpu->cycles + 4 + 2 * (2048 - audio->ch3.rate);
audio->nextEvent = audio->p->cpu->cycles;
audio->p->cpu->nextEvent = audio->nextEvent;
} else {
audio->nextCh3 = audio->eventDiff + 4 + 2 * (2048 - audio->ch3.rate);
audio->nextEvent = 0;
}
audio->nextCh3 = audio->eventDiff + audio->nextEvent + 4 + 2 * (2048 - audio->ch3.rate);
}
*audio->nr52 &= ~0x0004;
*audio->nr52 |= audio->playingCh3 << 2;
@ -352,13 +334,7 @@ void GBAudioWriteNR44(struct GBAudio* audio, uint8_t value) {
--audio->ch4.length;
}
}
// TODO: Don't need p
if (audio->p) {
audio->nextEvent = audio->p->cpu->cycles;
audio->p->cpu->nextEvent = audio->nextEvent;
} else {
audio->nextEvent = 0;
}
_scheduleEvent(audio);
}
*audio->nr52 &= ~0x0008;
*audio->nr52 |= audio->playingCh4 << 3;
@ -865,3 +841,13 @@ static int32_t _updateChannel4(struct GBAudioChannel4* ch) {
timing *= 8;
return timing;
}
void _scheduleEvent(struct GBAudio* audio) {
// TODO: Don't need p
if (audio->p) {
audio->nextEvent = audio->p->cpu->cycles >> audio->p->doubleSpeed;
audio->p->cpu->nextEvent = audio->nextEvent;
} else {
audio->nextEvent = 0;
}
}

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@ -62,6 +62,7 @@ static void GBInit(void* cpu, struct mCPUComponent* component) {
gb->yankedRomSize = 0;
gb->eiPending = false;
gb->doubleSpeed = 0;
}
bool GBLoadROM(struct GB* gb, struct VFile* vf) {
@ -160,7 +161,7 @@ void GBInterruptHandlerInit(struct LR35902InterruptHandler* irqh) {
irqh->processEvents = GBProcessEvents;
irqh->setInterrupts = GBSetInterrupts;
irqh->hitIllegal = GBIllegal;
irqh->hitStub = GBHitStub;
irqh->stop = GBStop;
irqh->halt = GBHalt;
}
@ -253,15 +254,21 @@ void GBProcessEvents(struct LR35902Core* cpu) {
}
}
testEvent = GBVideoProcessEvents(&gb->video, cycles);
testEvent = GBVideoProcessEvents(&gb->video, cycles >> gb->doubleSpeed);
if (testEvent != INT_MAX) {
testEvent <<= gb->doubleSpeed;
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
}
testEvent = GBAudioProcessEvents(&gb->audio, cycles);
testEvent = GBAudioProcessEvents(&gb->audio, cycles >> gb->doubleSpeed);
if (testEvent != INT_MAX) {
testEvent <<= gb->doubleSpeed;
if (testEvent < nextEvent) {
nextEvent = testEvent;
}
}
testEvent = GBTimerProcessEvents(&gb->timer, cycles);
if (testEvent < nextEvent) {
@ -301,16 +308,21 @@ void GBHalt(struct LR35902Core* cpu) {
cpu->halted = true;
}
void GBStop(struct LR35902Core* cpu) {
struct GB* gb = (struct GB*) cpu->master;
if (gb->memory.io[REG_KEY1] & 1) {
gb->doubleSpeed ^= 1;
gb->memory.io[REG_KEY1] &= 1;
gb->memory.io[REG_KEY1] |= gb->doubleSpeed << 7;
}
// TODO: Actually stop
}
void GBIllegal(struct LR35902Core* cpu) {
// TODO
mLOG(GB, GAME_ERROR, "Hit illegal opcode at address %04X:%02X\n", cpu->pc, cpu->bus);
}
void GBHitStub(struct LR35902Core* cpu) {
// TODO
mLOG(GB, STUB, "Hit stub at address %04X:%02X\n", cpu->pc, cpu->bus);
}
bool GBIsROM(struct VFile* vf) {
vf->seek(vf, 0x104, SEEK_SET);
uint8_t header[4];

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@ -67,6 +67,7 @@ struct GB {
struct mAVStream* stream;
int32_t eiPending;
unsigned doubleSpeed;
};
struct GBCartridge {

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@ -35,6 +35,7 @@ const static uint8_t _registerMask[] = {
[REG_NR51] = 0x00,
[REG_NR52] = 0x70,
[REG_STAT] = 0x80,
[REG_KEY1] = 0x7E,
[REG_VBK] = 0xFE,
[REG_OCPS] = 0x40,
[REG_BCPS] = 0x40,
@ -308,6 +309,10 @@ void GBIOWrite(struct GB* gb, unsigned address, uint8_t value) {
default:
if (gb->model >= GB_MODEL_CGB) {
switch (address) {
case REG_KEY1:
value &= 0x1;
value |= gb->memory.io[address] & 0x80;
break;
case REG_VBK:
GBVideoSwitchBank(&gb->video, value);
break;
@ -455,6 +460,7 @@ uint8_t GBIORead(struct GB* gb, unsigned address) {
case REG_HDMA4:
case REG_HDMA5:
case REG_SVBK:
case REG_KEY1:
// Handled transparently by the registers
goto success;
default:

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@ -221,7 +221,7 @@ void GBVideoProcessDots(struct GBVideo* video) {
return;
}
int oldX = video->x;
video->x = video->dotCounter + video->eventDiff + video->p->cpu->cycles;
video->x = video->dotCounter + video->eventDiff + (video->p->cpu->cycles >> video->p->doubleSpeed);
if (video->x > GB_VIDEO_HORIZONTAL_PIXELS) {
video->x = GB_VIDEO_HORIZONTAL_PIXELS;
}
@ -238,15 +238,15 @@ void GBVideoWriteLCDC(struct GBVideo* video, GBRegisterLCDC value) {
video->mode = 2;
video->nextMode = GB_VIDEO_MODE_2_LENGTH - 5; // TODO: Why is this fudge factor needed? Might be related to T-cycles for load/store differing
video->nextEvent = video->nextMode;
video->eventDiff = -video->p->cpu->cycles;
video->eventDiff = -video->p->cpu->cycles >> video->p->doubleSpeed;
// TODO: Does this read as 0 for 4 T-cycles?
video->stat = GBRegisterSTATSetMode(video->stat, 2);
video->p->memory.io[REG_STAT] = video->stat;
video->ly = 0;
video->p->memory.io[REG_LY] = 0;
if (video->p->cpu->cycles + video->nextEvent < video->p->cpu->nextEvent) {
video->p->cpu->nextEvent = video->p->cpu->cycles + video->nextEvent;
if (video->p->cpu->cycles + (video->nextEvent << video->p->doubleSpeed) < video->p->cpu->nextEvent) {
video->p->cpu->nextEvent = video->p->cpu->cycles + (video->nextEvent << video->p->doubleSpeed);
}
return;
}

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@ -26,7 +26,7 @@
DECLARE_INSTRUCTION_LR35902(EMITTER, DECC), \
DECLARE_INSTRUCTION_LR35902(EMITTER, LDC_), \
DECLARE_INSTRUCTION_LR35902(EMITTER, RRCA_), \
DECLARE_INSTRUCTION_LR35902(EMITTER, STUB), \
DECLARE_INSTRUCTION_LR35902(EMITTER, STOP), \
DECLARE_INSTRUCTION_LR35902(EMITTER, LDDE), \
DECLARE_INSTRUCTION_LR35902(EMITTER, LDDE_A), \
DECLARE_INSTRUCTION_LR35902(EMITTER, INCDE), \

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@ -767,7 +767,15 @@ DEFINE_RST_INSTRUCTION_LR35902(30);
DEFINE_RST_INSTRUCTION_LR35902(38);
DEFINE_INSTRUCTION_LR35902(ILL, cpu->irqh.hitIllegal(cpu));
DEFINE_INSTRUCTION_LR35902(STUB, cpu->irqh.hitStub(cpu));
DEFINE_INSTRUCTION_LR35902(STOP2,
if (!cpu->bus) {
cpu->irqh.stop(cpu);
});
DEFINE_INSTRUCTION_LR35902(STOP, \
cpu->executionState = LR35902_CORE_READ_PC; \
cpu->instruction = _LR35902InstructionSTOP2;)
static const LR35902Instruction _lr35902CBInstructionTable[0x100] = {
DECLARE_LR35902_CB_EMITTER_BLOCK(_LR35902Instruction)

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@ -63,9 +63,9 @@ struct LR35902InterruptHandler {
void (*processEvents)(struct LR35902Core* cpu);
void (*setInterrupts)(struct LR35902Core* cpu, bool enable);
void (*halt)(struct LR35902Core* cpu);
void (*stop)(struct LR35902Core* cpu);
void (*hitIllegal)(struct LR35902Core* cpu);
void (*hitStub)(struct LR35902Core* cpu);
};
struct LR35902Core {