diff --git a/src/core/dma.cpp b/src/core/dma.cpp index bbdeb36f2..2a2c82815 100644 --- a/src/core/dma.cpp +++ b/src/core/dma.cpp @@ -206,10 +206,6 @@ TickCount DMA::GetTransferDelay(Channel channel) const const ChannelState& cs = m_state[static_cast(channel)]; switch (channel) { - case Channel::MDECin: - case Channel::MDECout: - return 1; - case Channel::SPU: { if (cs.channel_control.sync_mode == SyncMode::Request) diff --git a/src/core/mdec.cpp b/src/core/mdec.cpp index 1fc1be2c6..259f195be 100644 --- a/src/core/mdec.cpp +++ b/src/core/mdec.cpp @@ -31,7 +31,7 @@ bool MDEC::DoState(StateWrapper& sw) sw.Do(&m_enable_dma_out); sw.Do(&m_data_in_fifo); sw.Do(&m_data_out_fifo); - sw.Do(&m_command); + sw.Do(&m_state); sw.Do(&m_remaining_halfwords); sw.Do(&m_iq_uv); sw.Do(&m_iq_y); @@ -91,7 +91,7 @@ void MDEC::WriteRegister(u32 offset, u32 value) m_enable_dma_in = cr.enable_dma_in; m_enable_dma_out = cr.enable_dma_out; - UpdateStatus(); + Execute(); return; } @@ -105,35 +105,35 @@ void MDEC::WriteRegister(u32 offset, u32 value) void MDEC::DMARead(u32* words, u32 word_count) { - do + if (m_data_out_fifo.GetSize() < word_count) { - const u32 words_to_read = std::min(word_count, m_data_out_fifo.GetSize()); - if (words_to_read > 0) - { - m_data_out_fifo.PopRange(words, words_to_read); - words += words_to_read; - word_count -= words_to_read; - } - else - { - UpdateStatus(); - break; - } + Log_WarningPrintf("Insufficient data in output FIFO (requested %u, have %u)", word_count, + m_data_out_fifo.GetSize()); + } - ExecutePendingCommand(); - } while (word_count > 0); + const u32 words_to_read = std::min(word_count, m_data_out_fifo.GetSize()); + if (words_to_read > 0) + { + m_data_out_fifo.PopRange(words, words_to_read); + words += words_to_read; + word_count -= words_to_read; + } + + Log_DebugPrintf("DMA read complete, %u bytes left", m_data_out_fifo.GetSize() * sizeof(u32)); + if (m_data_out_fifo.IsEmpty()) + Execute(); } void MDEC::DMAWrite(const u32* words, u32 word_count) { - do + if (m_data_in_fifo.GetSpace() < (word_count * 2)) { - const u32 halfwords_to_write = std::min(word_count * 2, m_data_in_fifo.GetSpace() & ~u32(2)); - m_data_in_fifo.PushRange(reinterpret_cast(words), halfwords_to_write); - words += halfwords_to_write / 2; - word_count -= halfwords_to_write / 2; - ExecutePendingCommand(); - } while (word_count > 0); + Log_WarningPrintf("Input FIFO overflow (writing %u, space %u)", word_count * 2, m_data_in_fifo.GetSpace()); + } + + const u32 halfwords_to_write = std::min(word_count * 2, m_data_in_fifo.GetSpace() & ~u32(2)); + m_data_in_fifo.PushRange(reinterpret_cast(words), halfwords_to_write); + Execute(); } bool MDEC::HasPendingBlockCopyOut() const @@ -148,7 +148,7 @@ void MDEC::SoftReset() m_enable_dma_out = false; m_data_in_fifo.Clear(); m_data_out_fifo.Clear(); - m_command = Command::None; + m_state = State::Idle; m_remaining_halfwords = 0; m_current_block = 0; m_current_coefficient = 64; @@ -157,22 +157,29 @@ void MDEC::SoftReset() UpdateStatus(); } +void MDEC::ResetDecoder() +{ + m_current_block = 0; + m_current_coefficient = 64; + m_current_q_scale = 0; +} + void MDEC::UpdateStatus() { m_status.data_out_fifo_empty = m_data_out_fifo.IsEmpty(); m_status.data_in_fifo_full = m_data_in_fifo.IsFull(); - m_status.command_busy = m_command != Command::None; + m_status.command_busy = (m_state != State::Idle); m_status.parameter_words_remaining = Truncate16((m_remaining_halfwords / 2) - 1); m_status.current_block = (m_current_block + 4) % NUM_BLOCKS; // we always want data in if it's enabled - const bool data_in_request = m_enable_dma_in && m_data_in_fifo.GetSpace() >= (32 * 2) && !m_data_out_fifo.IsFull(); + const bool data_in_request = m_enable_dma_in && m_data_in_fifo.GetSpace() >= (32 * 2); m_status.data_in_request = data_in_request; m_dma->SetRequest(DMA::Channel::MDECin, data_in_request); // we only want to send data out if we have some in the fifo - const bool data_out_request = m_enable_dma_out && m_data_out_fifo.GetSize() >= 32; + const bool data_out_request = m_enable_dma_out && !m_data_out_fifo.IsEmpty(); m_status.data_out_request = data_out_request; m_dma->SetRequest(DMA::Channel::MDECout, data_out_request); } @@ -196,7 +203,7 @@ u32 MDEC::ReadDataRegister() const u32 value = m_data_out_fifo.Pop(); if (m_data_out_fifo.IsEmpty()) - ExecutePendingCommand(); + Execute(); else UpdateStatus(); @@ -210,126 +217,120 @@ void MDEC::WriteCommandRegister(u32 value) m_data_in_fifo.Push(Truncate16(value)); m_data_in_fifo.Push(Truncate16(value >> 16)); - ExecutePendingCommand(); + Execute(); } -void MDEC::ExecutePendingCommand() +void MDEC::Execute() { - if (HasPendingBlockCopyOut()) + for (;;) { - // can't do anything while waiting - UpdateStatus(); - return; - } - - while (!m_data_in_fifo.IsEmpty()) - { - DebugAssert(!HasPendingBlockCopyOut()); - - if (m_command == Command::None) + switch (m_state) { - // first word - const CommandWord cw{ZeroExtend32(m_data_in_fifo.Peek(0)) | (ZeroExtend32(m_data_in_fifo.Peek(1)) << 16)}; - m_command = cw.command; - m_status.data_output_depth = cw.data_output_depth; - m_status.data_output_signed = cw.data_output_signed; - m_status.data_output_bit15 = cw.data_output_bit15; - m_data_in_fifo.Remove(2); - m_data_out_fifo.Clear(); - - u32 num_words; - switch (cw.command) + case State::Idle: { - case Command::DecodeMacroblock: - num_words = ZeroExtend32(cw.parameter_word_count.GetValue()); - break; + if (m_data_in_fifo.GetSize() < 2) + goto finished; - case Command::SetIqTab: - num_words = 16 + (((cw.bits & 1) != 0) ? 16 : 0); - break; + // first word + const CommandWord cw{ZeroExtend32(m_data_in_fifo.Peek(0)) | (ZeroExtend32(m_data_in_fifo.Peek(1)) << 16)}; + m_status.data_output_depth = cw.data_output_depth; + m_status.data_output_signed = cw.data_output_signed; + m_status.data_output_bit15 = cw.data_output_bit15; + m_data_in_fifo.Remove(2); + m_data_out_fifo.Clear(); - case Command::SetScale: - num_words = 32; - break; + u32 num_words; + State new_state; + switch (cw.command) + { + case Command::DecodeMacroblock: + num_words = ZeroExtend32(cw.parameter_word_count.GetValue()); + new_state = State::DecodingMacroblock; + break; - default: - Panic("Unknown command"); - num_words = 0; - break; + case Command::SetIqTab: + num_words = 16 + (((cw.bits & 1) != 0) ? 16 : 0); + new_state = State::SetIqTable; + break; + + case Command::SetScale: + num_words = 32; + new_state = State::SetScaleTable; + break; + + default: + Panic("Unknown command"); + num_words = 0; + new_state = State::Idle; + break; + } + + Log_DebugPrintf("MDEC command: 0x%08X (%u, %u words in parameter, %u expected)", cw.bits, + ZeroExtend32(static_cast(cw.command.GetValue())), + ZeroExtend32(cw.parameter_word_count.GetValue()), num_words); + + m_remaining_halfwords = num_words * 2; + m_state = new_state; + UpdateStatus(); + continue; } - m_remaining_halfwords = num_words * 2; - - Log_DebugPrintf("MDEC command: 0x%08X (%u, %u words in parameter, %u expected)", cw.bits, - ZeroExtend32(static_cast(cw.command.GetValue())), - ZeroExtend32(cw.parameter_word_count.GetValue()), num_words); - } - - switch (m_command) - { - case Command::DecodeMacroblock: + case State::DecodingMacroblock: { if (HandleDecodeMacroblockCommand()) { - // block decoded, waiting to copy out - UpdateStatus(); - return; + // we should be writing out now + Assert(m_state == State::WritingMacroblock); + goto finished; } - // data needed - if (m_remaining_halfwords == 0) + if (m_remaining_halfwords == 0 && m_current_block != NUM_BLOCKS) { - // but no more data expected, abort command here - EndCommand(); - } - else - { - // waiting for data - UpdateStatus(); + // expecting data, but nothing more will be coming. bail out + ResetDecoder(); + m_state = State::Idle; + continue; } - return; + goto finished; } - case Command::SetIqTab: + case State::WritingMacroblock: + { + // this gets executed via the event, so if we get here, wait. + goto finished; + } + + case State::SetIqTable: { if (m_data_in_fifo.GetSize() < m_remaining_halfwords) - { - UpdateStatus(); - return; - } + goto finished; HandleSetQuantTableCommand(); - EndCommand(); + m_state = State::Idle; + UpdateStatus(); + continue; } - break; - case Command::SetScale: + case State::SetScaleTable: { if (m_data_in_fifo.GetSize() < m_remaining_halfwords) - { - UpdateStatus(); - return; - } + goto finished; HandleSetScaleCommand(); - EndCommand(); + m_state = State::Idle; + UpdateStatus(); + continue; } - break; default: UnreachableCode(); return; } } -} -void MDEC::EndCommand() -{ - m_command = Command::None; - m_current_block = 0; - m_current_coefficient = 64; - m_current_q_scale = 0; +finished: + // if we get here, it's because the FIFO is now empty UpdateStatus(); } @@ -343,23 +344,19 @@ bool MDEC::HandleDecodeMacroblockCommand() bool MDEC::DecodeMonoMacroblock() { - // sufficient space in output? - if (m_status.data_output_depth == DataOutputDepth_4Bit) - { - if (m_data_out_fifo.GetSpace() < (64 / 8)) - return false; - } - else - { - if (m_data_out_fifo.GetSpace() < (64 / 4)) - return false; - } + // TODO: This should guard the output not the input + if (!m_data_out_fifo.IsEmpty()) + return false; if (!rl_decode_block(m_blocks[0].data(), m_iq_y.data())) return false; IDCT(m_blocks[0].data()); + Log_DebugPrintf("Decoded mono macroblock, %u words remaining", m_remaining_halfwords / 2); + ResetDecoder(); + m_state = State::WritingMacroblock; + y_to_mono(m_blocks[0]); ScheduleBlockCopyOut(TICKS_PER_BLOCK); @@ -370,18 +367,6 @@ bool MDEC::DecodeMonoMacroblock() bool MDEC::DecodeColoredMacroblock() { - // sufficient space in output? - if (m_status.data_output_depth == DataOutputDepth_24Bit) - { - if (m_data_out_fifo.GetSpace() < (256 - (256 / 4))) - return false; - } - else - { - if (m_data_out_fifo.GetSpace() < (256 / 2)) - return false; - } - for (; m_current_block < NUM_BLOCKS; m_current_block++) { if (!rl_decode_block(m_blocks[m_current_block].data(), (m_current_block >= 2) ? m_iq_y.data() : m_iq_uv.data())) @@ -390,18 +375,21 @@ bool MDEC::DecodeColoredMacroblock() IDCT(m_blocks[m_current_block].data()); } + if (!m_data_out_fifo.IsEmpty()) + return false; + // done decoding - m_current_block = 0; Log_DebugPrintf("Decoded colored macroblock, %u words remaining", m_remaining_halfwords / 2); + ResetDecoder(); + m_state = State::WritingMacroblock; yuv_to_rgb(0, 0, m_blocks[0], m_blocks[1], m_blocks[2]); yuv_to_rgb(8, 0, m_blocks[0], m_blocks[1], m_blocks[3]); yuv_to_rgb(0, 8, m_blocks[0], m_blocks[1], m_blocks[4]); yuv_to_rgb(8, 8, m_blocks[0], m_blocks[1], m_blocks[5]); - - ScheduleBlockCopyOut(TICKS_PER_BLOCK); - m_total_blocks_decoded += 4; + + ScheduleBlockCopyOut(TICKS_PER_BLOCK * 4); return true; } @@ -410,16 +398,14 @@ void MDEC::ScheduleBlockCopyOut(TickCount ticks) DebugAssert(!HasPendingBlockCopyOut()); Log_DebugPrintf("Scheduling block copy out in %d ticks", ticks); - m_block_copy_out_event->Schedule(TICKS_PER_BLOCK); + m_block_copy_out_event->Schedule(ticks); } void MDEC::CopyOutBlock() { - DebugAssert(m_command == Command::DecodeMacroblock); + Assert(m_state == State::WritingMacroblock); m_block_copy_out_event->Deactivate(); - Log_DebugPrintf("Copying out block"); - switch (m_status.data_output_depth) { case DataOutputDepth_4Bit: @@ -519,11 +505,12 @@ void MDEC::CopyOutBlock() break; } + Log_DebugPrintf("Block copied out, fifo size = %u (%u bytes)", m_data_out_fifo.GetSize(), + m_data_out_fifo.GetSize() * sizeof(u32)); + // if we've copied out all blocks, command is complete - if (m_remaining_halfwords == 0) - EndCommand(); - else - ExecutePendingCommand(); + m_state = (m_remaining_halfwords == 0) ? State::Idle : State::DecodingMacroblock; + Execute(); } static constexpr std::array zigzag = {{0, 1, 5, 6, 14, 15, 27, 28, 2, 4, 7, 13, 16, 26, 29, 42, @@ -714,15 +701,16 @@ void MDEC::DrawDebugStateWindow() return; } - static constexpr std::array command_names = {{"None", "Decode Macroblock", "SetIqTab", "SetScale"}}; + static constexpr std::array state_names = { + {"None", "Decoding Macroblock", "Writing Macroblock", "SetIqTab", "SetScale"}}; static constexpr std::array output_depths = {{"4-bit", "8-bit", "24-bit", "15-bit"}}; - static constexpr std::array block_names = {{"Crblk", "Cbblk", "Y1", "Y2", "Y3", "Y4"}}; + static constexpr std::array block_names = {{"Crblk", "Cbblk", "Y1", "Y2", "Y3", "Y4", "Output"}}; ImGui::Text("Blocks Decoded: %u", m_total_blocks_decoded); ImGui::Text("Data-In FIFO Size: %u (%u bytes)", m_data_in_fifo.GetSize(), m_data_in_fifo.GetSize() * 4); ImGui::Text("Data-Out FIFO Size: %u (%u bytes)", m_data_out_fifo.GetSize(), m_data_out_fifo.GetSize() * 4); ImGui::Text("DMA Enable: %s%s", m_enable_dma_in ? "In " : "", m_enable_dma_out ? "Out" : ""); - ImGui::Text("Current Command: %s", command_names[static_cast(m_command)]); + ImGui::Text("Current State: %s", state_names[static_cast(m_state)]); ImGui::Text("Current Block: %s", block_names[m_current_block]); ImGui::Text("Current Coefficient: %u", m_current_coefficient); diff --git a/src/core/mdec.h b/src/core/mdec.h index 4b98d3996..ff204a6ab 100644 --- a/src/core/mdec.h +++ b/src/core/mdec.h @@ -31,10 +31,10 @@ public: void DrawDebugStateWindow(); private: - static constexpr u32 DATA_IN_FIFO_SIZE = 256 * 4; - static constexpr u32 DATA_OUT_FIFO_SIZE = 192 * 4; + static constexpr u32 DATA_IN_FIFO_SIZE = 1024; + static constexpr u32 DATA_OUT_FIFO_SIZE = 768; static constexpr u32 NUM_BLOCKS = 6; - static constexpr TickCount TICKS_PER_BLOCK = 3072; + static constexpr TickCount TICKS_PER_BLOCK = 3072 / 4; enum DataOutputDepth : u8 { @@ -52,6 +52,15 @@ private: SetScale = 3 }; + enum class State : u8 + { + Idle, + DecodingMacroblock, + WritingMacroblock, + SetIqTable, + SetScaleTable + }; + union StatusRegister { u32 bits; @@ -87,16 +96,15 @@ private: BitField parameter_word_count; }; - bool HasPendingCommand() const { return m_command != Command::None; } bool HasPendingBlockCopyOut() const; void SoftReset(); + void ResetDecoder(); void UpdateStatus(); u32 ReadDataRegister(); void WriteCommandRegister(u32 value); - void ExecutePendingCommand(); - void EndCommand(); + void Execute(); bool HandleDecodeMacroblockCommand(); void HandleSetQuantTableCommand(); @@ -124,7 +132,7 @@ private: // Even though the DMA is in words, we access the FIFO as halfwords. InlineFIFOQueue m_data_in_fifo; InlineFIFOQueue m_data_out_fifo; - Command m_command = Command::None; + State m_state = State::Idle; u32 m_remaining_halfwords = 0; std::array m_iq_uv{};