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https://github.com/dolphin-emu/dolphin.git
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HW: Pass System to MMIO handlers.
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@ -1168,10 +1168,10 @@ public:
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}
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template <typename T, typename... Args>
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void ABI_CallLambdaC(const std::function<T(Args...)>* f, u32 p1)
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void ABI_CallLambdaPC(const std::function<T(Args...)>* f, void* p1, u32 p2)
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{
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auto trampoline = &XEmitter::CallLambdaTrampoline<T, Args...>;
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ABI_CallFunctionPC(trampoline, reinterpret_cast<const void*>(f), p1);
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ABI_CallFunctionPPC(trampoline, reinterpret_cast<const void*>(f), p1, p2);
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}
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}; // class XEmitter
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@ -282,10 +282,10 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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mmio->Register(
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base | AI_CONTROL_REGISTER, MMIO::DirectRead<u32>(&state.control.hex),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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const AICR tmp_ai_ctrl(val);
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auto& state = Core::System::GetInstance().GetAudioInterfaceState().GetData();
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auto& state = system.GetAudioInterfaceState().GetData();
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if (state.control.AIINTMSK != tmp_ai_ctrl.AIINTMSK)
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{
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DEBUG_LOG_FMT(AUDIO_INTERFACE, "Change AIINTMSK to {}", tmp_ai_ctrl.AIINTMSK);
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@ -347,25 +347,24 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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}));
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mmio->Register(base | AI_VOLUME_REGISTER, MMIO::DirectRead<u32>(&state.volume.hex),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetAudioInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetAudioInterfaceState().GetData();
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state.volume.hex = val;
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auto& system = Core::System::GetInstance();
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SoundStream* sound_stream = system.GetSoundStream();
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sound_stream->GetMixer()->SetStreamingVolume(state.volume.left,
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state.volume.right);
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}));
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mmio->Register(base | AI_SAMPLE_COUNTER, MMIO::ComplexRead<u32>([](u32) {
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auto& state = Core::System::GetInstance().GetAudioInterfaceState().GetData();
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mmio->Register(base | AI_SAMPLE_COUNTER, MMIO::ComplexRead<u32>([](Core::System& system, u32) {
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auto& state = system.GetAudioInterfaceState().GetData();
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const u64 cycles_streamed = IsPlaying() ?
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(CoreTiming::GetTicks() - state.last_cpu_time) :
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state.last_cpu_time;
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return state.sample_counter +
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static_cast<u32>(cycles_streamed / state.cpu_cycles_per_sample);
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}),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetAudioInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetAudioInterfaceState().GetData();
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state.sample_counter = val;
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state.last_cpu_time = CoreTiming::GetTicks();
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CoreTiming::RemoveEvent(state.event_type_ai);
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@ -373,8 +372,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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}));
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mmio->Register(base | AI_INTERRUPT_TIMING, MMIO::DirectRead<u32>(&state.interrupt_timing),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetAudioInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetAudioInterfaceState().GetData();
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DEBUG_LOG_FMT(AUDIO_INTERFACE, "AI_INTERRUPT_TIMING={:08x} at PC: {:08x}", val,
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PowerPC::ppcState.pc);
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state.interrupt_timing = val;
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@ -301,8 +301,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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}
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// DSP mail MMIOs call DSP emulator functions to get results or write data.
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mmio->Register(base | DSP_MAIL_TO_DSP_HI, MMIO::ComplexRead<u16>([](u32) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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mmio->Register(base | DSP_MAIL_TO_DSP_HI, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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auto& state = system.GetDSPState().GetData();
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if (state.dsp_slice > DSP_MAIL_SLICE && state.is_lle)
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{
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state.dsp_emulator->DSP_Update(DSP_MAIL_SLICE);
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@ -310,20 +310,20 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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}
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return state.dsp_emulator->DSP_ReadMailBoxHigh(true);
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}),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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state.dsp_emulator->DSP_WriteMailBoxHigh(true, val);
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}));
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mmio->Register(base | DSP_MAIL_TO_DSP_LO, MMIO::ComplexRead<u16>([](u32) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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mmio->Register(base | DSP_MAIL_TO_DSP_LO, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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auto& state = system.GetDSPState().GetData();
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return state.dsp_emulator->DSP_ReadMailBoxLow(true);
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}),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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state.dsp_emulator->DSP_WriteMailBoxLow(true, val);
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}));
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mmio->Register(base | DSP_MAIL_FROM_DSP_HI, MMIO::ComplexRead<u16>([](u32) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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mmio->Register(base | DSP_MAIL_FROM_DSP_HI, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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auto& state = system.GetDSPState().GetData();
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if (state.dsp_slice > DSP_MAIL_SLICE && state.is_lle)
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{
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state.dsp_emulator->DSP_Update(DSP_MAIL_SLICE);
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@ -332,20 +332,20 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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return state.dsp_emulator->DSP_ReadMailBoxHigh(false);
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}),
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MMIO::InvalidWrite<u16>());
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mmio->Register(base | DSP_MAIL_FROM_DSP_LO, MMIO::ComplexRead<u16>([](u32) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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mmio->Register(base | DSP_MAIL_FROM_DSP_LO, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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auto& state = system.GetDSPState().GetData();
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return state.dsp_emulator->DSP_ReadMailBoxLow(false);
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}),
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MMIO::InvalidWrite<u16>());
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mmio->Register(
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base | DSP_CONTROL, MMIO::ComplexRead<u16>([](u32) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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base | DSP_CONTROL, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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auto& state = system.GetDSPState().GetData();
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return (state.dsp_control.Hex & ~DSP_CONTROL_MASK) |
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(state.dsp_emulator->DSP_ReadControlRegister() & DSP_CONTROL_MASK);
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}),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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UDSPControl tmpControl;
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tmpControl.Hex = (val & ~DSP_CONTROL_MASK) |
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@ -394,8 +394,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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// ARAM MMIO controlling the DMA start.
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mmio->Register(base | AR_DMA_CNT_L,
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MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&state.aram_dma.Cnt.Hex)),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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state.aram_dma.Cnt.Hex =
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(state.aram_dma.Cnt.Hex & 0xFFFF0000) | (val & WMASK_LO_ALIGN_32BIT);
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Do_ARAM_DMA();
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@ -403,8 +403,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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mmio->Register(base | AUDIO_DMA_START_HI,
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MMIO::DirectRead<u16>(MMIO::Utils::HighPart(&state.audio_dma.SourceAddress)),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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*MMIO::Utils::HighPart(&state.audio_dma.SourceAddress) =
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val & (SConfig::GetInstance().bWii ? WMASK_AUDIO_HI_RESTRICT_WII :
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WMASK_AUDIO_HI_RESTRICT_GCN);
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@ -413,8 +413,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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// Audio DMA MMIO controlling the DMA start.
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mmio->Register(
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base | AUDIO_DMA_CONTROL_LEN, MMIO::DirectRead<u16>(&state.audio_dma.AudioDMAControl.Hex),
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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auto& system = Core::System::GetInstance();
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MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
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auto& state = system.GetDSPState().GetData();
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bool already_enabled = state.audio_dma.AudioDMAControl.Enable;
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state.audio_dma.AudioDMAControl.Hex = val;
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@ -439,10 +438,11 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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// Audio DMA blocks remaining is invalid to write to, and requires logic on
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// the read side.
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mmio->Register(base | AUDIO_DMA_BLOCKS_LEFT, MMIO::ComplexRead<u16>([](u32) {
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mmio->Register(base | AUDIO_DMA_BLOCKS_LEFT,
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MMIO::ComplexRead<u16>([](Core::System& system, u32) {
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// remaining_blocks_count is zero-based. DreamMix World Fighters will hang if it
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// never reaches zero.
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auto& state = Core::System::GetInstance().GetDSPState().GetData();
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auto& state = system.GetDSPState().GetData();
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return (state.audio_dma.remaining_blocks_count > 0 ?
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state.audio_dma.remaining_blocks_count - 1 :
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0);
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@ -640,8 +640,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base, bool is_wii)
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{
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auto& state = Core::System::GetInstance().GetDVDInterfaceState().GetData();
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mmio->Register(base | DI_STATUS_REGISTER, MMIO::DirectRead<u32>(&state.DISR.Hex),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetDVDInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetDVDInterfaceState().GetData();
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const UDISR tmp_status_reg(val);
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state.DISR.DEINTMASK = tmp_status_reg.DEINTMASK.Value();
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@ -667,8 +667,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base, bool is_wii)
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}));
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mmio->Register(base | DI_COVER_REGISTER, MMIO::DirectRead<u32>(&state.DICVR.Hex),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetDVDInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetDVDInterfaceState().GetData();
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const UDICVR tmp_cover_reg(val);
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state.DICVR.CVRINTMASK = tmp_cover_reg.CVRINTMASK.Value();
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@ -705,8 +705,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base, bool is_wii)
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mmio->Register(base | DI_DMA_LENGTH_REGISTER, MMIO::DirectRead<u32>(&state.DILENGTH),
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MMIO::DirectWrite<u32>(&state.DILENGTH, ~0x1F));
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mmio->Register(base | DI_DMA_CONTROL_REGISTER, MMIO::DirectRead<u32>(&state.DICR.Hex),
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MMIO::ComplexWrite<u32>([](u32, u32 val) {
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auto& state = Core::System::GetInstance().GetDVDInterfaceState().GetData();
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MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
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auto& state = system.GetDVDInterfaceState().GetData();
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state.DICR.Hex = val & 7;
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if (state.DICR.TSTART)
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{
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@ -47,7 +47,7 @@ void CEXIChannel::RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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// Warning: the base is not aligned on a page boundary here. We can't use |
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// to select a register address, instead we need to use +.
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mmio->Register(base + EXI_STATUS, MMIO::ComplexRead<u32>([this](u32) {
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mmio->Register(base + EXI_STATUS, MMIO::ComplexRead<u32>([this](Core::System&, u32) {
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// check if external device is present
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// pretty sure it is memcard only, not entirely sure
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if (m_channel_id == 2)
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@ -61,7 +61,7 @@ void CEXIChannel::RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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return m_status.Hex;
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}),
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MMIO::ComplexWrite<u32>([this](u32, u32 val) {
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MMIO::ComplexWrite<u32>([this](Core::System&, u32, u32 val) {
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UEXI_STATUS new_status(val);
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m_status.EXIINTMASK = new_status.EXIINTMASK;
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@ -98,7 +98,7 @@ void CEXIChannel::RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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mmio->Register(base + EXI_DMA_LENGTH, MMIO::DirectRead<u32>(&m_dma_length),
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MMIO::DirectWrite<u32>(&m_dma_length));
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mmio->Register(base + EXI_DMA_CONTROL, MMIO::DirectRead<u32>(&m_control.Hex),
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MMIO::ComplexWrite<u32>([this](u32, u32 val) {
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MMIO::ComplexWrite<u32>([this](Core::System&, u32, u32 val) {
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m_control.Hex = val;
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if (m_control.TSTART)
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@ -112,12 +112,12 @@ template <typename T>
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class ComplexHandlingMethod : public ReadHandlingMethod<T>, public WriteHandlingMethod<T>
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{
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public:
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explicit ComplexHandlingMethod(std::function<T(u32)> read_lambda)
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explicit ComplexHandlingMethod(std::function<T(Core::System&, u32)> read_lambda)
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: read_lambda_(read_lambda), write_lambda_(InvalidWriteLambda())
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{
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}
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explicit ComplexHandlingMethod(std::function<void(u32, T)> write_lambda)
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explicit ComplexHandlingMethod(std::function<void(Core::System&, u32, T)> write_lambda)
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: read_lambda_(InvalidReadLambda()), write_lambda_(write_lambda)
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{
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}
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@ -134,9 +134,9 @@ public:
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}
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private:
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std::function<T(u32)> InvalidReadLambda() const
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std::function<T(Core::System&, u32)> InvalidReadLambda() const
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{
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return [](u32) {
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return [](Core::System&, u32) {
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DEBUG_ASSERT_MSG(MEMMAP, 0,
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"Called the read lambda on a write "
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"complex handler.");
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@ -144,25 +144,25 @@ private:
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};
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}
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std::function<void(u32, T)> InvalidWriteLambda() const
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std::function<void(Core::System&, u32, T)> InvalidWriteLambda() const
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{
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return [](u32, T) {
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return [](Core::System&, u32, T) {
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DEBUG_ASSERT_MSG(MEMMAP, 0,
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"Called the write lambda on a read "
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"complex handler.");
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};
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}
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std::function<T(u32)> read_lambda_;
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std::function<void(u32, T)> write_lambda_;
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std::function<T(Core::System&, u32)> read_lambda_;
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std::function<void(Core::System&, u32, T)> write_lambda_;
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};
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template <typename T>
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ReadHandlingMethod<T>* ComplexRead(std::function<T(u32)> lambda)
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ReadHandlingMethod<T>* ComplexRead(std::function<T(Core::System&, u32)> lambda)
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{
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return new ComplexHandlingMethod<T>(lambda);
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}
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template <typename T>
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WriteHandlingMethod<T>* ComplexWrite(std::function<void(u32, T)> lambda)
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WriteHandlingMethod<T>* ComplexWrite(std::function<void(Core::System&, u32, T)> lambda)
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{
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return new ComplexHandlingMethod<T>(lambda);
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}
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@ -172,7 +172,7 @@ WriteHandlingMethod<T>* ComplexWrite(std::function<void(u32, T)> lambda)
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template <typename T>
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ReadHandlingMethod<T>* InvalidRead()
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{
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return ComplexRead<T>([](u32 addr) {
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return ComplexRead<T>([](Core::System&, u32 addr) {
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ERROR_LOG_FMT(MEMMAP, "Trying to read {} bits from an invalid MMIO (addr={:08x})",
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8 * sizeof(T), addr);
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return -1;
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@ -181,7 +181,7 @@ ReadHandlingMethod<T>* InvalidRead()
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template <typename T>
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WriteHandlingMethod<T>* InvalidWrite()
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{
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return ComplexWrite<T>([](u32 addr, T val) {
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return ComplexWrite<T>([](Core::System&, u32 addr, T val) {
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ERROR_LOG_FMT(MEMMAP, "Trying to write {} bits to an invalid MMIO (addr={:08x}, val={:08x})",
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8 * sizeof(T), addr, val);
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});
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@ -229,8 +229,9 @@ ReadHandlingMethod<T>* ReadToSmaller(Mapping* mmio, u32 high_part_addr, u32 low_
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ReadHandler<ST>* low_part = &mmio->GetHandlerForRead<ST>(low_part_addr);
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// TODO(delroth): optimize
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return ComplexRead<T>([=](u32 addr) {
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return ((T)high_part->Read(high_part_addr) << (8 * sizeof(ST))) | low_part->Read(low_part_addr);
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return ComplexRead<T>([=](Core::System& system, u32 addr) {
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return ((T)high_part->Read(system, high_part_addr) << (8 * sizeof(ST))) |
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low_part->Read(system, low_part_addr);
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});
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}
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|
||||
@ -243,9 +244,9 @@ WriteHandlingMethod<T>* WriteToSmaller(Mapping* mmio, u32 high_part_addr, u32 lo
|
||||
WriteHandler<ST>* low_part = &mmio->GetHandlerForWrite<ST>(low_part_addr);
|
||||
|
||||
// TODO(delroth): optimize
|
||||
return ComplexWrite<T>([=](u32 addr, T val) {
|
||||
high_part->Write(high_part_addr, val >> (8 * sizeof(ST)));
|
||||
low_part->Write(low_part_addr, (ST)val);
|
||||
return ComplexWrite<T>([=](Core::System& system, u32 addr, T val) {
|
||||
high_part->Write(system, high_part_addr, val >> (8 * sizeof(ST)));
|
||||
low_part->Write(system, low_part_addr, (ST)val);
|
||||
});
|
||||
}
|
||||
|
||||
@ -257,8 +258,9 @@ ReadHandlingMethod<T>* ReadToLarger(Mapping* mmio, u32 larger_addr, u32 shift)
|
||||
ReadHandler<LT>* large = &mmio->GetHandlerForRead<LT>(larger_addr);
|
||||
|
||||
// TODO(delroth): optimize
|
||||
return ComplexRead<T>(
|
||||
[large, shift](u32 addr) { return large->Read(addr & ~(sizeof(LT) - 1)) >> shift; });
|
||||
return ComplexRead<T>([large, shift](Core::System& system, u32 addr) {
|
||||
return large->Read(system, addr & ~(sizeof(LT) - 1)) >> shift;
|
||||
});
|
||||
}
|
||||
|
||||
// Inplementation of the ReadHandler and WriteHandler class. There is a lot of
|
||||
@ -290,7 +292,7 @@ void ReadHandler<T>::Visit(ReadHandlingMethodVisitor<T>& visitor)
|
||||
}
|
||||
|
||||
template <typename T>
|
||||
T ReadHandler<T>::Read(u32 addr)
|
||||
T ReadHandler<T>::Read(Core::System& system, u32 addr)
|
||||
{
|
||||
// Check if the handler has already been initialized. For real
|
||||
// handlers, this will always be the case, so this branch should be
|
||||
@ -298,7 +300,7 @@ T ReadHandler<T>::Read(u32 addr)
|
||||
if (!m_Method)
|
||||
InitializeInvalid();
|
||||
|
||||
return m_ReadFunc(addr);
|
||||
return m_ReadFunc(system, addr);
|
||||
}
|
||||
|
||||
template <typename T>
|
||||
@ -310,19 +312,22 @@ void ReadHandler<T>::ResetMethod(ReadHandlingMethod<T>* method)
|
||||
{
|
||||
virtual ~FuncCreatorVisitor() = default;
|
||||
|
||||
std::function<T(u32)> ret;
|
||||
std::function<T(Core::System&, u32)> ret;
|
||||
|
||||
void VisitConstant(T value) override
|
||||
{
|
||||
ret = [value](u32) { return value; };
|
||||
ret = [value](Core::System&, u32) { return value; };
|
||||
}
|
||||
|
||||
void VisitDirect(const T* addr, u32 mask) override
|
||||
{
|
||||
ret = [addr, mask](u32) { return *addr & mask; };
|
||||
ret = [addr, mask](Core::System&, u32) { return *addr & mask; };
|
||||
}
|
||||
|
||||
void VisitComplex(const std::function<T(u32)>* lambda) override { ret = *lambda; }
|
||||
void VisitComplex(const std::function<T(Core::System&, u32)>* lambda) override
|
||||
{
|
||||
ret = *lambda;
|
||||
}
|
||||
};
|
||||
|
||||
FuncCreatorVisitor v;
|
||||
@ -362,7 +367,7 @@ void WriteHandler<T>::Visit(WriteHandlingMethodVisitor<T>& visitor)
|
||||
}
|
||||
|
||||
template <typename T>
|
||||
void WriteHandler<T>::Write(u32 addr, T val)
|
||||
void WriteHandler<T>::Write(Core::System& system, u32 addr, T val)
|
||||
{
|
||||
// Check if the handler has already been initialized. For real
|
||||
// handlers, this will always be the case, so this branch should be
|
||||
@ -370,7 +375,7 @@ void WriteHandler<T>::Write(u32 addr, T val)
|
||||
if (!m_Method)
|
||||
InitializeInvalid();
|
||||
|
||||
m_WriteFunc(addr, val);
|
||||
m_WriteFunc(system, addr, val);
|
||||
}
|
||||
|
||||
template <typename T>
|
||||
@ -382,19 +387,22 @@ void WriteHandler<T>::ResetMethod(WriteHandlingMethod<T>* method)
|
||||
{
|
||||
virtual ~FuncCreatorVisitor() = default;
|
||||
|
||||
std::function<void(u32, T)> ret;
|
||||
std::function<void(Core::System&, u32, T)> ret;
|
||||
|
||||
void VisitNop() override
|
||||
{
|
||||
ret = [](u32, T) {};
|
||||
ret = [](Core::System&, u32, T) {};
|
||||
}
|
||||
|
||||
void VisitDirect(T* ptr, u32 mask) override
|
||||
{
|
||||
ret = [ptr, mask](u32, T val) { *ptr = val & mask; };
|
||||
ret = [ptr, mask](Core::System&, u32, T val) { *ptr = val & mask; };
|
||||
}
|
||||
|
||||
void VisitComplex(const std::function<void(u32, T)>* lambda) override { ret = *lambda; }
|
||||
void VisitComplex(const std::function<void(Core::System&, u32, T)>* lambda) override
|
||||
{
|
||||
ret = *lambda;
|
||||
}
|
||||
};
|
||||
|
||||
FuncCreatorVisitor v;
|
||||
|
@ -15,6 +15,7 @@
|
||||
#include "Core/ConfigManager.h"
|
||||
#include "Core/HW/GPFifo.h"
|
||||
#include "Core/HW/MMIOHandlers.h"
|
||||
#include "Core/System.h"
|
||||
|
||||
namespace MMIO
|
||||
{
|
||||
@ -132,13 +133,13 @@ public:
|
||||
template <typename Unit>
|
||||
Unit Read(u32 addr)
|
||||
{
|
||||
return GetHandlerForRead<Unit>(addr).Read(addr);
|
||||
return GetHandlerForRead<Unit>(addr).Read(Core::System::GetInstance(), addr);
|
||||
}
|
||||
|
||||
template <typename Unit>
|
||||
void Write(u32 addr, Unit val)
|
||||
{
|
||||
GetHandlerForWrite<Unit>(addr).Write(addr, val);
|
||||
GetHandlerForWrite<Unit>(addr).Write(Core::System::GetInstance(), addr, val);
|
||||
}
|
||||
|
||||
// Handlers access interface.
|
||||
|
@ -18,6 +18,10 @@
|
||||
// u8/u16/u32 with the same code while providing type safety: it is impossible
|
||||
// to mix code from these types, and the type system enforces it.
|
||||
|
||||
namespace Core
|
||||
{
|
||||
class System;
|
||||
}
|
||||
namespace MMIO
|
||||
{
|
||||
class Mapping;
|
||||
@ -51,9 +55,9 @@ WriteHandlingMethod<T>* DirectWrite(T* addr, u32 mask = 0xFFFFFFFF);
|
||||
// to directly provide a function that will be called when a read/write needs
|
||||
// to be done.
|
||||
template <typename T>
|
||||
ReadHandlingMethod<T>* ComplexRead(std::function<T(u32)>);
|
||||
ReadHandlingMethod<T>* ComplexRead(std::function<T(Core::System&, u32)>);
|
||||
template <typename T>
|
||||
WriteHandlingMethod<T>* ComplexWrite(std::function<void(u32, T)>);
|
||||
WriteHandlingMethod<T>* ComplexWrite(std::function<void(Core::System&, u32, T)>);
|
||||
|
||||
// Invalid: log an error and return -1 in case of a read. These are the default
|
||||
// handlers set for all MMIO types.
|
||||
@ -97,7 +101,7 @@ class ReadHandlingMethodVisitor
|
||||
public:
|
||||
virtual void VisitConstant(T value) = 0;
|
||||
virtual void VisitDirect(const T* addr, u32 mask) = 0;
|
||||
virtual void VisitComplex(const std::function<T(u32)>* lambda) = 0;
|
||||
virtual void VisitComplex(const std::function<T(Core::System&, u32)>* lambda) = 0;
|
||||
};
|
||||
template <typename T>
|
||||
class WriteHandlingMethodVisitor
|
||||
@ -105,7 +109,7 @@ class WriteHandlingMethodVisitor
|
||||
public:
|
||||
virtual void VisitNop() = 0;
|
||||
virtual void VisitDirect(T* addr, u32 mask) = 0;
|
||||
virtual void VisitComplex(const std::function<void(u32, T)>* lambda) = 0;
|
||||
virtual void VisitComplex(const std::function<void(Core::System&, u32, T)>* lambda) = 0;
|
||||
};
|
||||
|
||||
// These classes are INTERNAL. Do not use outside of the MMIO implementation
|
||||
@ -126,7 +130,7 @@ public:
|
||||
// Entry point for read handling method visitors.
|
||||
void Visit(ReadHandlingMethodVisitor<T>& visitor);
|
||||
|
||||
T Read(u32 addr);
|
||||
T Read(Core::System& system, u32 addr);
|
||||
|
||||
// Internal method called when changing the internal method object. Its
|
||||
// main role is to make sure the read function is updated at the same time.
|
||||
@ -137,7 +141,7 @@ private:
|
||||
// useless initialization of thousands of unused handler objects.
|
||||
void InitializeInvalid();
|
||||
std::unique_ptr<ReadHandlingMethod<T>> m_Method;
|
||||
std::function<T(u32)> m_ReadFunc;
|
||||
std::function<T(Core::System&, u32)> m_ReadFunc;
|
||||
};
|
||||
template <typename T>
|
||||
class WriteHandler
|
||||
@ -153,7 +157,7 @@ public:
|
||||
// Entry point for write handling method visitors.
|
||||
void Visit(WriteHandlingMethodVisitor<T>& visitor);
|
||||
|
||||
void Write(u32 addr, T val);
|
||||
void Write(Core::System& system, u32 addr, T val);
|
||||
|
||||
// Internal method called when changing the internal method object. Its
|
||||
// main role is to make sure the write function is updated at the same
|
||||
@ -165,7 +169,7 @@ private:
|
||||
// useless initialization of thousands of unused handler objects.
|
||||
void InitializeInvalid();
|
||||
std::unique_ptr<WriteHandlingMethod<T>> m_Method;
|
||||
std::function<void(u32, T)> m_WriteFunc;
|
||||
std::function<void(Core::System&, u32, T)> m_WriteFunc;
|
||||
};
|
||||
|
||||
// Boilerplate boilerplate boilerplate.
|
||||
@ -182,8 +186,10 @@ private:
|
||||
MaybeExtern template WriteHandlingMethod<T>* Nop<T>(); \
|
||||
MaybeExtern template ReadHandlingMethod<T>* DirectRead(const T* addr, u32 mask); \
|
||||
MaybeExtern template WriteHandlingMethod<T>* DirectWrite(T* addr, u32 mask); \
|
||||
MaybeExtern template ReadHandlingMethod<T>* ComplexRead<T>(std::function<T(u32)>); \
|
||||
MaybeExtern template WriteHandlingMethod<T>* ComplexWrite<T>(std::function<void(u32, T)>); \
|
||||
MaybeExtern template ReadHandlingMethod<T>* ComplexRead<T>( \
|
||||
std::function<T(Core::System&, u32)>); \
|
||||
MaybeExtern template WriteHandlingMethod<T>* ComplexWrite<T>( \
|
||||
std::function<void(Core::System&, u32, T)>); \
|
||||
MaybeExtern template ReadHandlingMethod<T>* InvalidRead<T>(); \
|
||||
MaybeExtern template WriteHandlingMethod<T>* InvalidWrite<T>(); \
|
||||
MaybeExtern template class ReadHandler<T>; \
|
||||
|
@ -82,13 +82,13 @@ void Init()
|
||||
void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
{
|
||||
mmio->Register(base | PI_INTERRUPT_CAUSE, MMIO::DirectRead<u32>(&m_InterruptCause),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
m_InterruptCause &= ~val;
|
||||
UpdateException();
|
||||
}));
|
||||
|
||||
mmio->Register(base | PI_INTERRUPT_MASK, MMIO::DirectRead<u32>(&m_InterruptMask),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
m_InterruptMask = val;
|
||||
UpdateException();
|
||||
}));
|
||||
@ -103,7 +103,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::DirectWrite<u32>(&Fifo_CPUWritePointer, 0xFFFFFFE0));
|
||||
|
||||
mmio->Register(base | PI_FIFO_RESET, MMIO::InvalidRead<u32>(),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
// Used by GXAbortFrame
|
||||
INFO_LOG_FMT(PROCESSORINTERFACE, "Wrote PI_FIFO_RESET: {:08x}", val);
|
||||
if ((val & 1) != 0)
|
||||
@ -125,11 +125,11 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
}
|
||||
}));
|
||||
|
||||
mmio->Register(base | PI_RESET_CODE, MMIO::ComplexRead<u32>([](u32) {
|
||||
mmio->Register(base | PI_RESET_CODE, MMIO::ComplexRead<u32>([](Core::System&, u32) {
|
||||
DEBUG_LOG_FMT(PROCESSORINTERFACE, "Read PI_RESET_CODE: {:08x}", m_ResetCode);
|
||||
return m_ResetCode;
|
||||
}),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
m_ResetCode = val;
|
||||
INFO_LOG_FMT(PROCESSORINTERFACE, "Wrote PI_RESET_CODE: {:08x}", m_ResetCode);
|
||||
if (!SConfig::GetInstance().bWii && ~m_ResetCode & 0x4)
|
||||
|
@ -490,14 +490,14 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
{
|
||||
const u32 address = base | static_cast<u32>(io_buffer_base + i);
|
||||
|
||||
mmio->Register(address, MMIO::ComplexRead<u32>([i](u32) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
mmio->Register(address, MMIO::ComplexRead<u32>([i](Core::System& system, u32) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
u32 val;
|
||||
std::memcpy(&val, &state.si_buffer[i], sizeof(val));
|
||||
return Common::swap32(val);
|
||||
}),
|
||||
MMIO::ComplexWrite<u32>([i](u32, u32 val) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u32>([i](Core::System& system, u32, u32 val) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
val = Common::swap32(val);
|
||||
std::memcpy(&state.si_buffer[i], &val, sizeof(val));
|
||||
}));
|
||||
@ -506,14 +506,14 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
{
|
||||
const u32 address = base | static_cast<u32>(io_buffer_base + i);
|
||||
|
||||
mmio->Register(address, MMIO::ComplexRead<u16>([i](u32) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
mmio->Register(address, MMIO::ComplexRead<u16>([i](Core::System& system, u32) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
u16 val;
|
||||
std::memcpy(&val, &state.si_buffer[i], sizeof(val));
|
||||
return Common::swap16(val);
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([i](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([i](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
val = Common::swap16(val);
|
||||
std::memcpy(&state.si_buffer[i], &val, sizeof(val));
|
||||
}));
|
||||
@ -533,16 +533,16 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::DirectRead<u32>(&state.channel[i].out.hex),
|
||||
MMIO::DirectWrite<u32>(&state.channel[i].out.hex));
|
||||
mmio->Register(base | (SI_CHANNEL_0_IN_HI + 0xC * i),
|
||||
MMIO::ComplexRead<u32>([i, rdst_bit](u32) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
MMIO::ComplexRead<u32>([i, rdst_bit](Core::System& system, u32) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
state.status_reg.hex &= ~(1U << rdst_bit);
|
||||
UpdateInterrupts();
|
||||
return state.channel[i].in_hi.hex;
|
||||
}),
|
||||
MMIO::DirectWrite<u32>(&state.channel[i].in_hi.hex));
|
||||
mmio->Register(base | (SI_CHANNEL_0_IN_LO + 0xC * i),
|
||||
MMIO::ComplexRead<u32>([i, rdst_bit](u32) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
MMIO::ComplexRead<u32>([i, rdst_bit](Core::System& system, u32) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
state.status_reg.hex &= ~(1U << rdst_bit);
|
||||
UpdateInterrupts();
|
||||
return state.channel[i].in_lo.hex;
|
||||
@ -554,8 +554,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::DirectWrite<u32>(&state.poll.hex));
|
||||
|
||||
mmio->Register(base | SI_COM_CSR, MMIO::DirectRead<u32>(&state.com_csr.hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
auto& system = Core::System::GetInstance();
|
||||
MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
const USIComCSR tmp_com_csr(val);
|
||||
|
||||
@ -584,8 +583,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
}));
|
||||
|
||||
mmio->Register(base | SI_STATUS_REG, MMIO::DirectRead<u32>(&state.status_reg.hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
auto& state = Core::System::GetInstance().GetSerialInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u32>([](Core::System& system, u32, u32 val) {
|
||||
auto& state = system.GetSerialInterfaceState().GetData();
|
||||
const USIStatusReg tmp_status(val);
|
||||
|
||||
// clear bits ( if (tmp.bit) SISR.bit=0 )
|
||||
|
@ -266,7 +266,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
for (auto& mapped_var : update_params_on_read_vars)
|
||||
{
|
||||
mmio->Register(base | mapped_var.addr, MMIO::DirectRead<u16>(mapped_var.ptr),
|
||||
MMIO::ComplexWrite<u16>([mapped_var](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([mapped_var](Core::System&, u32, u16 val) {
|
||||
*mapped_var.ptr = val;
|
||||
UpdateParameters();
|
||||
}));
|
||||
@ -274,29 +274,29 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
|
||||
// XFB related MMIOs that require special handling on writes.
|
||||
mmio->Register(base | VI_FB_LEFT_TOP_HI, MMIO::DirectRead<u16>(&state.xfb_info_top.Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.xfb_info_top.Hi = val;
|
||||
if (state.xfb_info_top.CLRPOFF)
|
||||
state.xfb_info_top.POFF = 0;
|
||||
}));
|
||||
mmio->Register(base | VI_FB_LEFT_BOTTOM_HI, MMIO::DirectRead<u16>(&state.xfb_info_bottom.Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.xfb_info_bottom.Hi = val;
|
||||
if (state.xfb_info_bottom.CLRPOFF)
|
||||
state.xfb_info_bottom.POFF = 0;
|
||||
}));
|
||||
mmio->Register(base | VI_FB_RIGHT_TOP_HI, MMIO::DirectRead<u16>(&state.xfb_3d_info_top.Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.xfb_3d_info_top.Hi = val;
|
||||
if (state.xfb_3d_info_top.CLRPOFF)
|
||||
state.xfb_3d_info_top.POFF = 0;
|
||||
}));
|
||||
mmio->Register(base | VI_FB_RIGHT_BOTTOM_HI, MMIO::DirectRead<u16>(&state.xfb_3d_info_bottom.Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.xfb_3d_info_bottom.Hi = val;
|
||||
if (state.xfb_3d_info_bottom.CLRPOFF)
|
||||
state.xfb_3d_info_bottom.POFF = 0;
|
||||
@ -304,24 +304,24 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
|
||||
// MMIOs with unimplemented writes that trigger warnings.
|
||||
mmio->Register(
|
||||
base | VI_VERTICAL_BEAM_POSITION, MMIO::ComplexRead<u16>([](u32) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
base | VI_VERTICAL_BEAM_POSITION, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
return 1 + (state.half_line_count) / 2;
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
WARN_LOG_FMT(
|
||||
VIDEOINTERFACE,
|
||||
"Changing vertical beam position to {:#06x} - not documented or implemented yet", val);
|
||||
}));
|
||||
mmio->Register(
|
||||
base | VI_HORIZONTAL_BEAM_POSITION, MMIO::ComplexRead<u16>([](u32) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
base | VI_HORIZONTAL_BEAM_POSITION, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
u16 value = static_cast<u16>(
|
||||
1 + state.h_timing_0.HLW * (CoreTiming::GetTicks() - state.ticks_last_line_start) /
|
||||
(GetTicksPerHalfLine()));
|
||||
return std::clamp<u16>(value, 1, state.h_timing_0.HLW * 2);
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
WARN_LOG_FMT(
|
||||
VIDEOINTERFACE,
|
||||
"Changing horizontal beam position to {:#06x} - not documented or implemented yet",
|
||||
@ -331,50 +331,50 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// The following MMIOs are interrupts related and update interrupt status
|
||||
// on writes.
|
||||
mmio->Register(base | VI_PRERETRACE_HI, MMIO::DirectRead<u16>(&state.interrupt_register[0].Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.interrupt_register[0].Hi = val;
|
||||
UpdateInterrupts();
|
||||
}));
|
||||
mmio->Register(base | VI_POSTRETRACE_HI, MMIO::DirectRead<u16>(&state.interrupt_register[1].Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.interrupt_register[1].Hi = val;
|
||||
UpdateInterrupts();
|
||||
}));
|
||||
mmio->Register(base | VI_DISPLAY_INTERRUPT_2_HI,
|
||||
MMIO::DirectRead<u16>(&state.interrupt_register[2].Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.interrupt_register[2].Hi = val;
|
||||
UpdateInterrupts();
|
||||
}));
|
||||
mmio->Register(base | VI_DISPLAY_INTERRUPT_3_HI,
|
||||
MMIO::DirectRead<u16>(&state.interrupt_register[3].Hi),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.interrupt_register[3].Hi = val;
|
||||
UpdateInterrupts();
|
||||
}));
|
||||
|
||||
// Unknown anti-aliasing related MMIO register: puts a warning on log and
|
||||
// needs to shift/mask when reading/writing.
|
||||
mmio->Register(base | VI_UNK_AA_REG_HI, MMIO::ComplexRead<u16>([](u32) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
mmio->Register(base | VI_UNK_AA_REG_HI, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
return state.unknown_aa_register >> 16;
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.unknown_aa_register =
|
||||
(state.unknown_aa_register & 0x0000FFFF) | ((u32)val << 16);
|
||||
WARN_LOG_FMT(VIDEOINTERFACE, "Writing to the unknown AA register (hi)");
|
||||
}));
|
||||
mmio->Register(base | VI_UNK_AA_REG_LO, MMIO::ComplexRead<u16>([](u32) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
mmio->Register(base | VI_UNK_AA_REG_LO, MMIO::ComplexRead<u16>([](Core::System& system, u32) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
return state.unknown_aa_register & 0xFFFF;
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
state.unknown_aa_register = (state.unknown_aa_register & 0xFFFF0000) | val;
|
||||
WARN_LOG_FMT(VIDEOINTERFACE, "Writing to the unknown AA register (lo)");
|
||||
}));
|
||||
@ -383,8 +383,8 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// processing needs to be done if a reset is requested.
|
||||
mmio->Register(base | VI_CONTROL_REGISTER,
|
||||
MMIO::DirectRead<u16>(&state.display_control_register.Hex),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
auto& state = Core::System::GetInstance().GetVideoInterfaceState().GetData();
|
||||
MMIO::ComplexWrite<u16>([](Core::System& system, u32, u16 val) {
|
||||
auto& state = system.GetVideoInterfaceState().GetData();
|
||||
|
||||
UVIDisplayControlRegister tmpConfig(val);
|
||||
state.display_control_register.ENB = tmpConfig.ENB;
|
||||
|
@ -174,8 +174,9 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
{
|
||||
mmio->Register(base | IPC_PPCMSG, MMIO::InvalidRead<u32>(), MMIO::DirectWrite<u32>(&ppc_msg));
|
||||
|
||||
mmio->Register(base | IPC_PPCCTRL, MMIO::ComplexRead<u32>([](u32) { return ctrl.ppc(); }),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
mmio->Register(base | IPC_PPCCTRL,
|
||||
MMIO::ComplexRead<u32>([](Core::System&, u32) { return ctrl.ppc(); }),
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
ctrl.ppc(val);
|
||||
// The IPC interrupt is triggered when IY1/IY2 is set and
|
||||
// Y1/Y2 is written to -- even when this results in clearing the bit.
|
||||
@ -190,14 +191,14 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
mmio->Register(base | IPC_ARMMSG, MMIO::DirectRead<u32>(&arm_msg), MMIO::InvalidWrite<u32>());
|
||||
|
||||
mmio->Register(base | PPC_IRQFLAG, MMIO::InvalidRead<u32>(),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
ppc_irq_flags &= ~val;
|
||||
HLE::GetIOS()->UpdateIPC();
|
||||
CoreTiming::ScheduleEvent(0, updateInterrupts, 0);
|
||||
}));
|
||||
|
||||
mmio->Register(base | PPC_IRQMASK, MMIO::InvalidRead<u32>(),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
ppc_irq_masks = val;
|
||||
if (ppc_irq_masks & INT_CAUSE_IPC_BROADWAY) // wtf?
|
||||
Reset();
|
||||
@ -206,7 +207,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
}));
|
||||
|
||||
mmio->Register(base | GPIOB_OUT, MMIO::DirectRead<u32>(&g_gpio_out.m_hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
g_gpio_out.m_hex =
|
||||
(val & gpio_owner.m_hex) | (g_gpio_out.m_hex & ~gpio_owner.m_hex);
|
||||
if (g_gpio_out[GPIO::DO_EJECT])
|
||||
@ -218,10 +219,10 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// TODO: AVE, SLOT_LED
|
||||
}));
|
||||
mmio->Register(base | GPIOB_DIR, MMIO::DirectRead<u32>(&gpio_dir.m_hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
gpio_dir.m_hex = (val & gpio_owner.m_hex) | (gpio_dir.m_hex & ~gpio_owner.m_hex);
|
||||
}));
|
||||
mmio->Register(base | GPIOB_IN, MMIO::ComplexRead<u32>([](u32) {
|
||||
mmio->Register(base | GPIOB_IN, MMIO::ComplexRead<u32>([](Core::System&, u32) {
|
||||
Common::Flags<GPIO> gpio_in;
|
||||
gpio_in[GPIO::SLOT_IN] = DVDInterface::IsDiscInside();
|
||||
return gpio_in.m_hex;
|
||||
@ -239,7 +240,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// go through the HW_GPIOB registers if the corresponding bit is set in the HW_GPIO_OWNER
|
||||
// register.
|
||||
mmio->Register(base | GPIO_OUT, MMIO::DirectRead<u32>(&g_gpio_out.m_hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
g_gpio_out.m_hex =
|
||||
(g_gpio_out.m_hex & gpio_owner.m_hex) | (val & ~gpio_owner.m_hex);
|
||||
if (g_gpio_out[GPIO::DO_EJECT])
|
||||
@ -251,10 +252,10 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// TODO: AVE, SLOT_LED
|
||||
}));
|
||||
mmio->Register(base | GPIO_DIR, MMIO::DirectRead<u32>(&gpio_dir.m_hex),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
gpio_dir.m_hex = (gpio_dir.m_hex & gpio_owner.m_hex) | (val & ~gpio_owner.m_hex);
|
||||
}));
|
||||
mmio->Register(base | GPIO_IN, MMIO::ComplexRead<u32>([](u32) {
|
||||
mmio->Register(base | GPIO_IN, MMIO::ComplexRead<u32>([](Core::System&, u32) {
|
||||
Common::Flags<GPIO> gpio_in;
|
||||
gpio_in[GPIO::SLOT_IN] = DVDInterface::IsDiscInside();
|
||||
return gpio_in.m_hex;
|
||||
@ -262,7 +263,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::Nop<u32>());
|
||||
|
||||
mmio->Register(base | HW_RESETS, MMIO::DirectRead<u32>(&resets),
|
||||
MMIO::ComplexWrite<u32>([](u32, u32 val) {
|
||||
MMIO::ComplexWrite<u32>([](Core::System&, u32, u32 val) {
|
||||
// A reset occurs when the corresponding bit is cleared
|
||||
const bool di_reset_triggered = (resets & 0x400) && !(val & 0x400);
|
||||
resets = val;
|
||||
|
@ -19,6 +19,7 @@
|
||||
#include "Core/PowerPC/Jit64Common/Jit64PowerPCState.h"
|
||||
#include "Core/PowerPC/MMU.h"
|
||||
#include "Core/PowerPC/PowerPC.h"
|
||||
#include "Core/System.h"
|
||||
|
||||
using namespace Gen;
|
||||
|
||||
@ -220,7 +221,7 @@ public:
|
||||
{
|
||||
LoadAddrMaskToReg(8 * sizeof(T), addr, mask);
|
||||
}
|
||||
void VisitComplex(const std::function<T(u32)>* lambda) override
|
||||
void VisitComplex(const std::function<T(Core::System&, u32)>* lambda) override
|
||||
{
|
||||
CallLambda(8 * sizeof(T), lambda);
|
||||
}
|
||||
@ -269,10 +270,10 @@ private:
|
||||
}
|
||||
}
|
||||
|
||||
void CallLambda(int sbits, const std::function<T(u32)>* lambda)
|
||||
void CallLambda(int sbits, const std::function<T(Core::System&, u32)>* lambda)
|
||||
{
|
||||
m_code->ABI_PushRegistersAndAdjustStack(m_registers_in_use, 0);
|
||||
m_code->ABI_CallLambdaC(lambda, m_address);
|
||||
m_code->ABI_CallLambdaPC(lambda, &Core::System::GetInstance(), m_address);
|
||||
m_code->ABI_PopRegistersAndAdjustStack(m_registers_in_use, 0);
|
||||
MoveOpArgToReg(sbits, R(ABI_RETURN));
|
||||
}
|
||||
|
@ -7,8 +7,8 @@
|
||||
#include "Common/Common.h"
|
||||
|
||||
#include "Core/HW/MMIO.h"
|
||||
|
||||
#include "Core/PowerPC/JitArm64/Jit.h"
|
||||
#include "Core/System.h"
|
||||
|
||||
using namespace Arm64Gen;
|
||||
|
||||
@ -28,7 +28,7 @@ public:
|
||||
// Do nothing
|
||||
}
|
||||
void VisitDirect(T* addr, u32 mask) override { WriteRegToAddr(8 * sizeof(T), addr, mask); }
|
||||
void VisitComplex(const std::function<void(u32, T)>* lambda) override
|
||||
void VisitComplex(const std::function<void(Core::System&, u32, T)>* lambda) override
|
||||
{
|
||||
CallLambda(8 * sizeof(T), lambda);
|
||||
}
|
||||
@ -72,15 +72,15 @@ private:
|
||||
}
|
||||
}
|
||||
|
||||
void CallLambda(int sbits, const std::function<void(u32, T)>* lambda)
|
||||
void CallLambda(int sbits, const std::function<void(Core::System&, u32, T)>* lambda)
|
||||
{
|
||||
ARM64FloatEmitter float_emit(m_emit);
|
||||
|
||||
m_emit->ABI_PushRegisters(m_gprs_in_use);
|
||||
float_emit.ABI_PushRegisters(m_fprs_in_use, ARM64Reg::X1);
|
||||
|
||||
m_emit->MOVI2R(ARM64Reg::W1, m_address);
|
||||
m_emit->MOV(ARM64Reg::W2, m_src_reg);
|
||||
m_emit->MOVP2R(ARM64Reg::X1, &Core::System::GetInstance());
|
||||
m_emit->MOVI2R(ARM64Reg::W2, m_address);
|
||||
m_emit->MOV(ARM64Reg::W3, m_src_reg);
|
||||
m_emit->BLR(m_emit->ABI_SetupLambda(lambda));
|
||||
|
||||
float_emit.ABI_PopRegisters(m_fprs_in_use, ARM64Reg::X1);
|
||||
@ -110,7 +110,7 @@ public:
|
||||
{
|
||||
LoadAddrMaskToReg(8 * sizeof(T), addr, mask);
|
||||
}
|
||||
void VisitComplex(const std::function<T(u32)>* lambda) override
|
||||
void VisitComplex(const std::function<T(Core::System&, u32)>* lambda) override
|
||||
{
|
||||
CallLambda(8 * sizeof(T), lambda);
|
||||
}
|
||||
@ -169,14 +169,14 @@ private:
|
||||
}
|
||||
}
|
||||
|
||||
void CallLambda(int sbits, const std::function<T(u32)>* lambda)
|
||||
void CallLambda(int sbits, const std::function<T(Core::System&, u32)>* lambda)
|
||||
{
|
||||
ARM64FloatEmitter float_emit(m_emit);
|
||||
|
||||
m_emit->ABI_PushRegisters(m_gprs_in_use);
|
||||
float_emit.ABI_PushRegisters(m_fprs_in_use, ARM64Reg::X1);
|
||||
|
||||
m_emit->MOVI2R(ARM64Reg::W1, m_address);
|
||||
m_emit->MOVP2R(ARM64Reg::X1, &Core::System::GetInstance());
|
||||
m_emit->MOVI2R(ARM64Reg::W2, m_address);
|
||||
m_emit->BLR(m_emit->ABI_SetupLambda(lambda));
|
||||
if (m_sign_extend)
|
||||
m_emit->SBFM(m_dst_reg, ARM64Reg::W0, 0, sbits - 1);
|
||||
|
@ -239,7 +239,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::InvalidWrite<u16>());
|
||||
}
|
||||
|
||||
mmio->Register(base | STATUS_REGISTER, MMIO::ComplexRead<u16>([](u32) {
|
||||
mmio->Register(base | STATUS_REGISTER, MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
SetCpStatusRegister();
|
||||
return m_CPStatusReg.Hex;
|
||||
@ -247,7 +247,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
MMIO::InvalidWrite<u16>());
|
||||
|
||||
mmio->Register(base | CTRL_REGISTER, MMIO::DirectRead<u16>(&m_CPCtrlReg.Hex),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([](Core::System&, u32, u16 val) {
|
||||
UCPCtrlReg tmp(val);
|
||||
m_CPCtrlReg.Hex = tmp.Hex;
|
||||
SetCpControlRegister();
|
||||
@ -255,7 +255,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
}));
|
||||
|
||||
mmio->Register(base | CLEAR_REGISTER, MMIO::DirectRead<u16>(&m_CPClearReg.Hex),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([](Core::System&, u32, u16 val) {
|
||||
UCPClearReg tmp(val);
|
||||
m_CPClearReg.Hex = tmp.Hex;
|
||||
SetCpClearRegister();
|
||||
@ -267,7 +267,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// Some MMIOs have different handlers for single core vs. dual core mode.
|
||||
mmio->Register(
|
||||
base | FIFO_RW_DISTANCE_LO,
|
||||
IsOnThread() ? MMIO::ComplexRead<u16>([](u32) {
|
||||
IsOnThread() ? MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
if (fifo.CPWritePointer.load(std::memory_order_relaxed) >=
|
||||
fifo.SafeCPReadPointer.load(std::memory_order_relaxed))
|
||||
{
|
||||
@ -287,7 +287,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
WMASK_LO_ALIGN_32BIT));
|
||||
mmio->Register(base | FIFO_RW_DISTANCE_HI,
|
||||
IsOnThread() ?
|
||||
MMIO::ComplexRead<u16>([](u32) {
|
||||
MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
if (fifo.CPWritePointer.load(std::memory_order_relaxed) >=
|
||||
fifo.SafeCPReadPointer.load(std::memory_order_relaxed))
|
||||
@ -305,11 +305,11 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
16;
|
||||
}
|
||||
}) :
|
||||
MMIO::ComplexRead<u16>([](u32) {
|
||||
MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
return fifo.CPReadWriteDistance.load(std::memory_order_relaxed) >> 16;
|
||||
}),
|
||||
MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](Core::System&, u32, u16 val) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
WriteHigh(fifo.CPReadWriteDistance, val & WMASK_HI_RESTRICT);
|
||||
Fifo::RunGpu();
|
||||
@ -319,22 +319,23 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
IsOnThread() ? MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.SafeCPReadPointer)) :
|
||||
MMIO::DirectRead<u16>(MMIO::Utils::LowPart(&fifo.CPReadPointer)),
|
||||
MMIO::DirectWrite<u16>(MMIO::Utils::LowPart(&fifo.CPReadPointer), WMASK_LO_ALIGN_32BIT));
|
||||
mmio->Register(base | FIFO_READ_POINTER_HI,
|
||||
IsOnThread() ? MMIO::ComplexRead<u16>([](u32) {
|
||||
mmio->Register(
|
||||
base | FIFO_READ_POINTER_HI,
|
||||
IsOnThread() ? MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
return fifo.SafeCPReadPointer.load(std::memory_order_relaxed) >> 16;
|
||||
}) :
|
||||
MMIO::ComplexRead<u16>([](u32) {
|
||||
MMIO::ComplexRead<u16>([](Core::System&, u32) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
return fifo.CPReadPointer.load(std::memory_order_relaxed) >> 16;
|
||||
}),
|
||||
IsOnThread() ? MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](u32, u16 val) {
|
||||
IsOnThread() ? MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](Core::System&, u32, u16 val) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
WriteHigh(fifo.CPReadPointer, val & WMASK_HI_RESTRICT);
|
||||
fifo.SafeCPReadPointer.store(fifo.CPReadPointer.load(std::memory_order_relaxed),
|
||||
std::memory_order_relaxed);
|
||||
}) :
|
||||
MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([WMASK_HI_RESTRICT](Core::System&, u32, u16 val) {
|
||||
Fifo::SyncGPUForRegisterAccess();
|
||||
WriteHigh(fifo.CPReadPointer, val & WMASK_HI_RESTRICT);
|
||||
}));
|
||||
|
@ -242,11 +242,11 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
};
|
||||
for (auto& pq_reg : pq_regs)
|
||||
{
|
||||
mmio->Register(base | pq_reg.addr, MMIO::ComplexRead<u16>([pq_reg](u32) {
|
||||
mmio->Register(base | pq_reg.addr, MMIO::ComplexRead<u16>([pq_reg](Core::System&, u32) {
|
||||
return g_video_backend->Video_GetQueryResult(pq_reg.pqtype) & 0xFFFF;
|
||||
}),
|
||||
MMIO::InvalidWrite<u16>());
|
||||
mmio->Register(base | (pq_reg.addr + 2), MMIO::ComplexRead<u16>([pq_reg](u32) {
|
||||
mmio->Register(base | (pq_reg.addr + 2), MMIO::ComplexRead<u16>([pq_reg](Core::System&, u32) {
|
||||
return g_video_backend->Video_GetQueryResult(pq_reg.pqtype) >> 16;
|
||||
}),
|
||||
MMIO::InvalidWrite<u16>());
|
||||
@ -254,7 +254,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
|
||||
// Control register
|
||||
mmio->Register(base | PE_CTRL_REGISTER, MMIO::DirectRead<u16>(&m_Control.hex),
|
||||
MMIO::ComplexWrite<u16>([](u32, u16 val) {
|
||||
MMIO::ComplexWrite<u16>([](Core::System&, u32, u16 val) {
|
||||
UPECtrlReg tmpCtrl{.hex = val};
|
||||
|
||||
if (tmpCtrl.pe_token)
|
||||
@ -278,7 +278,7 @@ void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
|
||||
// BBOX registers, readonly and need to update a flag.
|
||||
for (int i = 0; i < 4; ++i)
|
||||
{
|
||||
mmio->Register(base | (PE_BBOX_LEFT + 2 * i), MMIO::ComplexRead<u16>([i](u32) {
|
||||
mmio->Register(base | (PE_BBOX_LEFT + 2 * i), MMIO::ComplexRead<u16>([i](Core::System&, u32) {
|
||||
g_renderer->BBoxDisable();
|
||||
return g_video_backend->Video_GetBoundingBox(i);
|
||||
}),
|
||||
|
@ -121,12 +121,12 @@ TEST_F(MappingTest, ReadWriteComplex)
|
||||
{
|
||||
bool read_called = false, write_called = false;
|
||||
|
||||
m_mapping->Register(0x0C001234, MMIO::ComplexRead<u8>([&read_called](u32 addr) {
|
||||
m_mapping->Register(0x0C001234, MMIO::ComplexRead<u8>([&read_called](Core::System&, u32 addr) {
|
||||
EXPECT_EQ(0x0C001234u, addr);
|
||||
read_called = true;
|
||||
return 0x12;
|
||||
}),
|
||||
MMIO::ComplexWrite<u8>([&write_called](u32 addr, u8 val) {
|
||||
MMIO::ComplexWrite<u8>([&write_called](Core::System&, u32 addr, u8 val) {
|
||||
EXPECT_EQ(0x0C001234u, addr);
|
||||
EXPECT_EQ(0x34, val);
|
||||
write_called = true;
|
||||
|
Loading…
Reference in New Issue
Block a user