355 lines
8.0 KiB
C++
355 lines
8.0 KiB
C++
// Copyright 2009 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#include <atomic>
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#include "Common/Atomic.h"
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#include "Common/ChunkFile.h"
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#include "Common/CommonTypes.h"
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#include "Common/FPURoundMode.h"
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#include "Common/MathUtil.h"
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#include "Common/Thread.h"
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#include "Core/ConfigManager.h"
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#include "Core/Core.h"
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#include "Core/CoreTiming.h"
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#include "Core/HW/Memmap.h"
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#include "Core/HW/MMIO.h"
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#include "Core/HW/ProcessorInterface.h"
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#include "VideoBackends/Software/OpcodeDecoder.h"
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#include "VideoBackends/Software/SWCommandProcessor.h"
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#include "VideoBackends/Software/VideoBackend.h"
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#include "VideoCommon/Fifo.h"
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#include "VideoCommon/VertexLoaderUtils.h"
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namespace SWCommandProcessor
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{
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enum
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{
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GATHER_PIPE_SIZE = 32,
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INT_CAUSE_CP = 0x800
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};
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// STATE_TO_SAVE
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// variables
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static const int commandBufferSize = 1024 * 1024;
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static const int maxCommandBufferWrite = commandBufferSize - GATHER_PIPE_SIZE;
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static u8 commandBuffer[commandBufferSize];
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static u32 readPos;
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static u32 writePos;
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static int et_UpdateInterrupts;
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static std::atomic<bool> interruptSet;
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static std::atomic<bool> interruptWaiting;
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static CPReg cpreg; // shared between gfx and emulator thread
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void DoState(PointerWrap &p)
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{
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p.DoPOD(cpreg);
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p.DoArray(commandBuffer, commandBufferSize);
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p.Do(readPos);
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p.Do(writePos);
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p.Do(et_UpdateInterrupts);
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p.Do(interruptSet);
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p.Do(interruptWaiting);
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// Is this right?
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p.DoArray(g_video_buffer_read_ptr,writePos);
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}
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static void UpdateInterrupts_Wrapper(u64 userdata, int cyclesLate)
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{
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UpdateInterrupts(userdata);
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}
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static inline bool AtBreakpoint()
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{
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return cpreg.ctrl.BPEnable && (cpreg.readptr == cpreg.breakpt);
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}
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void Init()
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{
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cpreg.status.Hex = 0;
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cpreg.status.CommandIdle = 1;
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cpreg.status.ReadIdle = 1;
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cpreg.ctrl.Hex = 0;
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cpreg.clear.Hex = 0;
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cpreg.bboxleft = 0;
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cpreg.bboxtop = 0;
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cpreg.bboxright = 0;
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cpreg.bboxbottom = 0;
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cpreg.token = 0;
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et_UpdateInterrupts = CoreTiming::RegisterEvent("UpdateInterrupts", UpdateInterrupts_Wrapper);
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// internal buffer position
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readPos = 0;
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writePos = 0;
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interruptSet.store(false);
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interruptWaiting.store(false);
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g_video_buffer_read_ptr = nullptr;
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g_bSkipCurrentFrame = false;
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}
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void Shutdown()
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{
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}
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void RunGpu()
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{
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if (!SConfig::GetInstance().m_LocalCoreStartupParameter.bCPUThread)
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{
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// We are going to do FP math on the main thread so have to save the current state
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FPURoundMode::SaveSIMDState();
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FPURoundMode::LoadDefaultSIMDState();
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// run the opcode decoder
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do
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{
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RunBuffer();
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} while (cpreg.ctrl.GPReadEnable && !AtBreakpoint() && cpreg.readptr != cpreg.writeptr);
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FPURoundMode::LoadSIMDState();
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}
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}
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void RegisterMMIO(MMIO::Mapping* mmio, u32 base)
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{
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// Directly map reads and writes to the cpreg structure.
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for (u32 i = 0; i < sizeof (cpreg) / sizeof (u16); ++i)
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{
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u16* ptr = ((u16*)&cpreg) + i;
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mmio->Register(base | (i * 2),
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MMIO::DirectRead<u16>(ptr),
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MMIO::DirectWrite<u16>(ptr)
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);
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}
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// Bleh. Apparently SWCommandProcessor does not know about regs 0x40 to
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// 0x64...
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for (u32 i = 0x40; i < 0x64; ++i)
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{
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mmio->Register(base | i,
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MMIO::Constant<u16>(0),
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MMIO::Nop<u16>()
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);
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}
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// The low part of MMIO regs for FIFO addresses needs to be aligned to 32
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// bytes.
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u32 fifo_addr_lo_regs[] = {
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CommandProcessor::FIFO_BASE_LO,
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CommandProcessor::FIFO_END_LO,
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CommandProcessor::FIFO_WRITE_POINTER_LO,
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CommandProcessor::FIFO_READ_POINTER_LO,
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CommandProcessor::FIFO_BP_LO,
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CommandProcessor::FIFO_RW_DISTANCE_LO,
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};
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for (u32 reg : fifo_addr_lo_regs)
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{
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mmio->RegisterWrite(base | reg,
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MMIO::DirectWrite<u16>(((u16*)&cpreg) + (reg / 2), 0xFFE0)
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);
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}
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// The clear register needs to perform some more complicated operations on
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// writes.
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mmio->RegisterWrite(base | CommandProcessor::CLEAR_REGISTER,
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MMIO::ComplexWrite<u16>([](u32, u16 val) {
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UCPClearReg tmpClear(val);
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if (tmpClear.ClearFifoOverflow)
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cpreg.status.OverflowHiWatermark = 0;
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if (tmpClear.ClearFifoUnderflow)
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cpreg.status.UnderflowLoWatermark = 0;
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})
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);
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}
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void GatherPipeBursted()
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{
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if (cpreg.ctrl.GPLinkEnable)
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{
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DEBUG_LOG(COMMANDPROCESSOR,"\t WGP burst. write thru : %08x", cpreg.writeptr);
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if (cpreg.writeptr == cpreg.fifoend)
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cpreg.writeptr = cpreg.fifobase;
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else
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cpreg.writeptr += GATHER_PIPE_SIZE;
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Common::AtomicAdd(cpreg.rwdistance, GATHER_PIPE_SIZE);
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}
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RunGpu();
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}
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void UpdateInterrupts(u64 userdata)
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{
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if (userdata)
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{
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interruptSet.store(true);
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INFO_LOG(COMMANDPROCESSOR,"Interrupt set");
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ProcessorInterface::SetInterrupt(INT_CAUSE_CP, true);
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}
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else
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{
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interruptSet.store(false);
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INFO_LOG(COMMANDPROCESSOR,"Interrupt cleared");
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ProcessorInterface::SetInterrupt(INT_CAUSE_CP, false);
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}
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interruptWaiting.store(false);
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}
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void UpdateInterruptsFromVideoBackend(u64 userdata)
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{
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CoreTiming::ScheduleEvent_Threadsafe(0, et_UpdateInterrupts, userdata);
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}
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static void ReadFifo()
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{
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bool canRead = cpreg.readptr != cpreg.writeptr && writePos < (int)maxCommandBufferWrite;
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bool atBreakpoint = AtBreakpoint();
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if (canRead && !atBreakpoint)
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{
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// read from fifo
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u8 *ptr = Memory::GetPointer(cpreg.readptr);
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int bytesRead = 0;
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do
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{
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// copy to buffer
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memcpy(&commandBuffer[writePos], ptr, GATHER_PIPE_SIZE);
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writePos += GATHER_PIPE_SIZE;
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bytesRead += GATHER_PIPE_SIZE;
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if (cpreg.readptr == cpreg.fifoend)
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{
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cpreg.readptr = cpreg.fifobase;
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ptr = Memory::GetPointer(cpreg.readptr);
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}
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else
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{
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cpreg.readptr += GATHER_PIPE_SIZE;
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ptr += GATHER_PIPE_SIZE;
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}
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canRead = cpreg.readptr != cpreg.writeptr && writePos < (int)maxCommandBufferWrite;
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atBreakpoint = AtBreakpoint();
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} while (canRead && !atBreakpoint);
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Common::AtomicAdd(cpreg.rwdistance, -bytesRead);
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}
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}
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static void SetStatus()
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{
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// overflow check
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if (cpreg.rwdistance > cpreg.hiwatermark)
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cpreg.status.OverflowHiWatermark = 1;
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// underflow check
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if (cpreg.rwdistance < cpreg.lowatermark)
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cpreg.status.UnderflowLoWatermark = 1;
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// breakpoint
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if (cpreg.ctrl.BPEnable)
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{
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if (cpreg.breakpt == cpreg.readptr)
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{
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if (!cpreg.status.Breakpoint)
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INFO_LOG(COMMANDPROCESSOR, "Hit breakpoint at %x", cpreg.readptr);
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cpreg.status.Breakpoint = 1;
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}
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}
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else
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{
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if (cpreg.status.Breakpoint)
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INFO_LOG(COMMANDPROCESSOR, "Cleared breakpoint at %x", cpreg.readptr);
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cpreg.status.Breakpoint = 0;
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}
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cpreg.status.ReadIdle = cpreg.readptr == cpreg.writeptr;
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bool bpInt = cpreg.status.Breakpoint && cpreg.ctrl.BPInt;
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bool ovfInt = cpreg.status.OverflowHiWatermark && cpreg.ctrl.FifoOverflowIntEnable;
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bool undfInt = cpreg.status.UnderflowLoWatermark && cpreg.ctrl.FifoUnderflowIntEnable;
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bool interrupt = bpInt || ovfInt || undfInt;
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if (interrupt != interruptSet.load() && !interruptWaiting.load())
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{
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u64 userdata = interrupt?1:0;
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if (SConfig::GetInstance().m_LocalCoreStartupParameter.bCPUThread)
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{
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interruptWaiting.store(true);
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SWCommandProcessor::UpdateInterruptsFromVideoBackend(userdata);
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}
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else
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{
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SWCommandProcessor::UpdateInterrupts(userdata);
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}
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}
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}
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bool RunBuffer()
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{
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// fifo is read 32 bytes at a time
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// read fifo data to internal buffer
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if (cpreg.ctrl.GPReadEnable)
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ReadFifo();
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SetStatus();
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_dbg_assert_(COMMANDPROCESSOR, writePos >= readPos);
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g_video_buffer_read_ptr = &commandBuffer[readPos];
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u32 availableBytes = writePos - readPos;
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while (OpcodeDecoder::CommandRunnable(availableBytes))
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{
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cpreg.status.CommandIdle = 0;
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OpcodeDecoder::Run(availableBytes);
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// if data was read by the opcode decoder then the video data pointer changed
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readPos = (u32)(g_video_buffer_read_ptr - &commandBuffer[0]);
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_dbg_assert_(VIDEO, writePos >= readPos);
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availableBytes = writePos - readPos;
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}
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cpreg.status.CommandIdle = 1;
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bool ranDecoder = false;
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// move data remaining in the command buffer
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if (readPos > 0)
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{
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memmove(&commandBuffer[0], &commandBuffer[readPos], availableBytes);
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writePos -= readPos;
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readPos = 0;
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ranDecoder = true;
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}
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return ranDecoder;
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}
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void SetRendering(bool enabled)
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{
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g_bSkipCurrentFrame = !enabled;
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}
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} // end of namespace SWCommandProcessor
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