mirror of
https://github.com/dolphin-emu/dolphin.git
synced 2024-11-14 13:27:45 -07:00
DSPHLE/AXWii: fix wiimote audio in multiple games
Three bugs specific to older Wii games: - The size difference between high-pass and biquad filter was not accounted for, causing wiimote related fields to be corrupted. - Wiimote sample buffer pointers were advanced by 32 samples per millisecond instead of 6 samples. Usually hidden by the first bug. - PB updates on Wii were being byte-swapped twice, but I've not actually found any Wii games that make use of PB updates. This fixes wiimote audio in at least the following games: - Excite Truck - Ice Age 2: The Meltdown - Kororinpa: Marble Mania - Rapala Tournament Fishing - Shrek the Third - Super Monkey Ball: Banana Blitz - Tiger Woods PGA Tour 07 - WarioWare: Smooth Moves (issue 11725) - Wing Island
This commit is contained in:
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07605bf67c
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37ebb13ece
@ -412,6 +412,56 @@ void AXUCode::DownloadAndMixWithVolume(u32 addr, u16 vol_main, u16 vol_auxa, u16
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}
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}
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// Determines if this version of the UCode has a PBLowPassFilter in its AXPB layout.
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static bool HasLpf(u32 crc)
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{
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return crc != 0x4E8A8B21;
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}
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// Read a PB from MRAM/ARAM
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void AXUCode::ReadPB(Memory::MemoryManager& memory, u32 addr, AXPB& pb)
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{
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if (HasLpf(m_crc))
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{
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u16* dst = (u16*)&pb;
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memory.CopyFromEmuSwapped<u16>(dst, addr, sizeof(pb));
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}
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else
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{
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// Skip lpf field.
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char* dst = (char*)&pb;
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constexpr size_t lpf_off = offsetof(AXPB, lpf);
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constexpr size_t lc_off = offsetof(AXPB, loop_counter);
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memory.CopyFromEmuSwapped<u16>((u16*)dst, addr, lpf_off);
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memset(dst + lpf_off, 0, lc_off - lpf_off);
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + lc_off), addr + lpf_off, sizeof(pb) - lc_off);
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}
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}
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// Write a PB back to MRAM/ARAM
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void AXUCode::WritePB(Memory::MemoryManager& memory, u32 addr, const AXPB& pb)
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{
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if (HasLpf(m_crc))
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{
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const u16* src = (const u16*)&pb;
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memory.CopyToEmuSwapped<u16>(addr, src, sizeof(pb));
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}
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else
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{
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// We skip lpf in this layout.
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const char* src = (const char*)&pb;
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constexpr size_t lpf_off = offsetof(AXPB, lpf);
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constexpr size_t lc_off = offsetof(AXPB, loop_counter);
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memory.CopyToEmuSwapped<u16>(addr, (const u16*)src, lpf_off);
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memory.CopyToEmuSwapped<u16>(addr + lpf_off, (const u16*)(src + lc_off), sizeof(pb) - lc_off);
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}
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}
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void AXUCode::ProcessPBList(u32 pb_addr)
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{
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// Samples per millisecond. In theory DSP sampling rate can be changed from
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@ -427,10 +477,9 @@ void AXUCode::ProcessPBList(u32 pb_addr)
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m_samples_auxA_left, m_samples_auxA_right, m_samples_auxA_surround,
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m_samples_auxB_left, m_samples_auxB_right, m_samples_auxB_surround}};
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ReadPB(memory, pb_addr, pb, m_crc);
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ReadPB(memory, pb_addr, pb);
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u32 updates_addr = HILO_TO_32(pb.updates.data);
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u16* updates = (u16*)HLEMemory_Get_Pointer(memory, updates_addr);
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PBUpdateData updates = LoadPBUpdates(memory, pb);
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for (int curr_ms = 0; curr_ms < 5; ++curr_ms)
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{
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@ -445,7 +494,7 @@ void AXUCode::ProcessPBList(u32 pb_addr)
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ptr += spms;
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}
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WritePB(memory, pb_addr, pb, m_crc);
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WritePB(memory, pb_addr, pb);
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pb_addr = HILO_TO_32(pb.next_pb);
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}
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}
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@ -30,6 +30,7 @@ class Accelerator;
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namespace DSP::HLE
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{
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struct AXPB;
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class DSPHLE;
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// We can't directly use the mixer_control field from the PB because it does
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@ -125,27 +126,6 @@ protected:
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// versions of AX.
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AXMixControl ConvertMixerControl(u32 mixer_control);
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// Apply updates to a PB. Generic, used in AX GC and AX Wii.
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template <typename PBType>
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void ApplyUpdatesForMs(int curr_ms, PBType& pb, u16* num_updates, u16* updates)
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{
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auto pb_mem = Common::BitCastToArray<u16>(pb);
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u32 start_idx = 0;
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for (int i = 0; i < curr_ms; ++i)
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start_idx += num_updates[i];
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for (u32 i = start_idx; i < start_idx + num_updates[curr_ms]; ++i)
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{
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u16 update_off = Common::swap16(updates[2 * i]);
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u16 update_val = Common::swap16(updates[2 * i + 1]);
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pb_mem[update_off] = update_val;
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}
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pb = std::bit_cast<PBType>(pb_mem);
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}
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virtual void HandleCommandList();
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void SignalWorkEnd();
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@ -195,6 +175,9 @@ protected:
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void DoAXState(PointerWrap& p);
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private:
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void ReadPB(Memory::MemoryManager& memory, u32 addr, AXPB& pb);
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void WritePB(Memory::MemoryManager& memory, u32 addr, const AXPB& pb);
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enum CmdType
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{
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CMD_SETUP = 0x00,
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@ -59,6 +59,13 @@ struct PBInitialTimeDelay
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u16 targetRight;
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};
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struct PBUpdate
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{
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u16 pb_offset;
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u16 new_value;
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};
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using PBUpdateData = std::array<PBUpdate, 32>;
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// Update data - read these each 1ms subframe and use them!
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// It seems that to provide higher time precisions for MIDI events, some games
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// use this thing to update the parameter blocks per 1ms sub-block (a block is 5ms).
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@ -66,7 +73,15 @@ struct PBInitialTimeDelay
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struct PBUpdates
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{
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u16 num_updates[5];
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u16 data_hi; // These point to main RAM. Not sure about the structure of the data.
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u16 data_hi; // These point to main RAM.
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u16 data_lo;
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};
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// Same for Wii, where frames are only 3 ms.
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struct PBUpdatesWii
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{
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u16 num_updates[3];
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u16 data_hi;
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u16 data_lo;
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};
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@ -213,6 +228,12 @@ struct AXPB
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u16 padding[24];
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};
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struct PBHighPassFilter
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{
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u16 on;
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u16 unk[3];
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};
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struct PBBiquadFilter
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{
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u16 on;
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@ -252,13 +273,18 @@ struct AXPBWii
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PBMixerWii mixer;
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PBInitialTimeDelay initial_time_delay;
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PBDpopWii dpop;
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PBUpdatesWii updates; // Not present in all versions of the struct.
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PBVolumeEnvelope vol_env;
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PBAudioAddr audio_addr;
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PBADPCMInfo adpcm;
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PBSampleRateConverter src;
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PBADPCMLoopInfo adpcm_loop_info;
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PBLowPassFilter lpf;
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PBBiquadFilter biquad;
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union
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{
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PBHighPassFilter hpf;
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PBBiquadFilter biquad;
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};
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// WIIMOTE :D
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u16 remote;
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@ -269,7 +295,7 @@ struct AXPBWii
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PBSampleRateConverterWM remote_src;
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PBInfImpulseResponseWM remote_iir;
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u16 pad[12]; // align us, captain! (32B)
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u16 pad[2]; // align us, captain! (32B)
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};
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// TODO: All these enums have changed a lot for Wii
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@ -12,6 +12,7 @@
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#endif
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#include <algorithm>
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#include <bit>
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#include <functional>
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#include <memory>
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@ -47,6 +48,34 @@ namespace
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// Useful macro to convert xxx_hi + xxx_lo to xxx for 32 bits.
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#define HILO_TO_32(name) ((u32(name##_hi) << 16) | name##_lo)
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PBUpdateData LoadPBUpdates(Memory::MemoryManager& memory, const PB_TYPE& pb)
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{
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PBUpdateData updates;
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u32 updates_addr = HILO_TO_32(pb.updates.data);
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memory.CopyFromEmuSwapped((u16*)updates.data(), updates_addr, sizeof(updates));
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return updates;
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}
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// Apply updates to a PB.
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void ApplyUpdatesForMs(int curr_ms, PB_TYPE& pb, u16* num_updates, const PBUpdateData& updates)
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{
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auto pb_mem = Common::BitCastToArray<u16>(pb);
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u32 start_idx = 0;
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for (int i = 0; i < curr_ms; ++i)
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start_idx += num_updates[i];
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for (u32 i = start_idx; i < start_idx + num_updates[curr_ms]; ++i)
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{
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u16 update_off = updates[i].pb_offset;
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u16 update_val = updates[i].new_value;
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pb_mem[update_off] = update_val;
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}
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pb = std::bit_cast<PB_TYPE>(pb_mem);
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}
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// Used to pass a large amount of buffers to the mixing function.
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union AXBuffers
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{
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@ -83,69 +112,14 @@ union AXBuffers
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#ifdef AX_GC
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int* ptrs[9];
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#else
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int* ptrs[20];
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struct
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{
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int* regular_ptrs[12];
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int* wiimote_ptrs[8];
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};
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#endif
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};
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// Determines if this version of the UCode has a PBLowPassFilter in its AXPB layout.
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bool HasLpf(u32 crc)
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{
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switch (crc)
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{
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case 0x4E8A8B21:
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return false;
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default:
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return true;
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}
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}
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// Read a PB from MRAM/ARAM
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void ReadPB(Memory::MemoryManager& memory, u32 addr, PB_TYPE& pb, u32 crc)
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{
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if (HasLpf(crc))
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{
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u16* dst = (u16*)&pb;
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memory.CopyFromEmuSwapped<u16>(dst, addr, sizeof(pb));
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}
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else
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{
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// The below is a terrible hack in order to support two different AXPB layouts.
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// We skip lpf in this layout.
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char* dst = (char*)&pb;
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constexpr size_t lpf_off = offsetof(AXPB, lpf);
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constexpr size_t lc_off = offsetof(AXPB, loop_counter);
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memory.CopyFromEmuSwapped<u16>((u16*)dst, addr, lpf_off);
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memset(dst + lpf_off, 0, lc_off - lpf_off);
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + lc_off), addr + lpf_off, sizeof(pb) - lc_off);
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}
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}
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// Write a PB back to MRAM/ARAM
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void WritePB(Memory::MemoryManager& memory, u32 addr, const PB_TYPE& pb, u32 crc)
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{
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if (HasLpf(crc))
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{
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const u16* src = (const u16*)&pb;
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memory.CopyToEmuSwapped<u16>(addr, src, sizeof(pb));
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}
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else
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{
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// The below is a terrible hack in order to support two different AXPB layouts.
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// We skip lpf in this layout.
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const char* src = (const char*)&pb;
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constexpr size_t lpf_off = offsetof(AXPB, lpf);
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constexpr size_t lc_off = offsetof(AXPB, loop_counter);
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memory.CopyToEmuSwapped<u16>(addr, (const u16*)src, lpf_off);
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memory.CopyToEmuSwapped<u16>(addr + lpf_off, (const u16*)(src + lc_off), sizeof(pb) - lc_off);
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}
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}
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// Simulated accelerator state.
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class HLEAccelerator final : public Accelerator
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{
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@ -360,64 +360,75 @@ void AXWiiUCode::GenerateVolumeRamp(u16* output, u16 vol1, u16 vol2, size_t nval
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}
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}
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bool AXWiiUCode::ExtractUpdatesFields(AXPBWii& pb, u16* num_updates, u16* updates,
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u32* updates_addr)
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void AXWiiUCode::ReadPB(Memory::MemoryManager& memory, u32 addr, AXPBWii& pb)
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{
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auto pb_mem = Common::BitCastToArray<u16>(pb);
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if (!m_old_axwii)
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return false;
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// Copy the num_updates field.
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memcpy(num_updates, &pb_mem[41], 6);
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// Get the address of the updates data
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u16 addr_hi = pb_mem[44];
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u16 addr_lo = pb_mem[45];
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u32 addr = HILO_TO_32(addr);
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auto& memory = m_dsphle->GetSystem().GetMemory();
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u16* ptr = (u16*)HLEMemory_Get_Pointer(memory, addr);
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*updates_addr = addr;
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// Copy the updates data and change the offset to match a PB without
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// updates data.
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u32 updates_count = num_updates[0] + num_updates[1] + num_updates[2];
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for (u32 i = 0; i < updates_count; ++i)
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// The Wii PB memory layout changed twice.
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// For HLE, we use the largest struct version.
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char* dst = (char*)&pb;
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constexpr size_t updates_begin = offsetof(AXPBWii, updates);
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constexpr size_t updates_end = offsetof(AXPBWii, updates) + sizeof(PBUpdatesWii);
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constexpr size_t gap_begin = offsetof(AXPBWii, hpf) + sizeof(PBHighPassFilter);
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constexpr size_t gap_end = offsetof(AXPBWii, biquad) + sizeof(PBBiquadFilter);
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switch (m_crc)
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{
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u16 update_off = Common::swap16(ptr[2 * i]);
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u16 update_val = Common::swap16(ptr[2 * i + 1]);
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if (update_off > 45)
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update_off -= 5;
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updates[2 * i] = update_off;
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updates[2 * i + 1] = update_val;
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case 0x7699af32:
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case 0xfa450138:
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// The hpf field is a bit smaller than the biquad. Skip the difference.
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memory.CopyFromEmuSwapped<u16>((u16*)dst, addr, gap_begin);
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memset(dst + gap_begin, 0, gap_end - gap_begin);
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + gap_end), addr + gap_begin, sizeof(pb) - gap_end);
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break;
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case 0xd9c4bf34:
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case 0xadbc06bd:
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// Skip updates field and skip gap after hpf.
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memory.CopyFromEmuSwapped<u16>((u16*)dst, addr, updates_begin);
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memset(dst + updates_begin, 0, sizeof(PBUpdatesWii));
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + updates_end), addr + updates_begin,
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gap_begin - updates_end);
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memset(dst + gap_begin, 0, gap_end - gap_begin);
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + gap_end), addr + gap_begin, sizeof(pb) - gap_end);
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break;
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case 0x347112ba:
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case 0x4cc52064:
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// Just skip updates field.
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memory.CopyFromEmuSwapped<u16>((u16*)dst, addr, updates_begin);
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memset(dst + updates_begin, 0, sizeof(PBUpdatesWii));
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memory.CopyFromEmuSwapped<u16>((u16*)(dst + updates_end), addr + updates_begin,
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sizeof(pb) - updates_end);
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break;
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}
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// Remove the updates data from the PB
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memmove(&pb_mem[41], &pb_mem[46], sizeof(pb) - 2 * 46);
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pb = std::bit_cast<AXPBWii>(pb_mem);
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return true;
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}
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void AXWiiUCode::ReinjectUpdatesFields(AXPBWii& pb, u16* num_updates, u32 updates_addr)
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void AXWiiUCode::WritePB(Memory::MemoryManager& memory, u32 addr, const AXPBWii& pb)
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{
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auto pb_mem = Common::BitCastToArray<u16>(pb);
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// Make some space
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memmove(&pb_mem[46], &pb_mem[41], sizeof(pb) - 2 * 46);
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// Reinsert previous values
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pb_mem[41] = num_updates[0];
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pb_mem[42] = num_updates[1];
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pb_mem[43] = num_updates[2];
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pb_mem[44] = updates_addr >> 16;
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pb_mem[45] = updates_addr & 0xFFFF;
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pb = std::bit_cast<AXPBWii>(pb_mem);
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const char* src = (const char*)&pb;
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constexpr size_t updates_begin = offsetof(AXPBWii, updates);
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constexpr size_t updates_end = offsetof(AXPBWii, updates) + sizeof(PBUpdatesWii);
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constexpr size_t gap_begin = offsetof(AXPBWii, hpf) + sizeof(PBHighPassFilter);
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constexpr size_t gap_end = offsetof(AXPBWii, biquad) + sizeof(PBBiquadFilter);
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switch (m_crc)
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{
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case 0x7699af32:
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case 0xfa450138:
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memory.CopyToEmuSwapped<u16>(addr, (const u16*)src, gap_begin);
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memory.CopyToEmuSwapped<u16>(addr + gap_begin, (const u16*)(src + gap_end),
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sizeof(pb) - gap_end);
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break;
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case 0xd9c4bf34:
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case 0xadbc06bd:
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memory.CopyToEmuSwapped<u16>(addr, (const u16*)src, updates_begin);
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memory.CopyToEmuSwapped<u16>(addr + updates_begin, (const u16*)(src + updates_end),
|
||||
sizeof(PBUpdatesWii));
|
||||
memory.CopyToEmuSwapped<u16>(addr + gap_begin, (const u16*)(src + gap_end),
|
||||
sizeof(pb) - gap_end);
|
||||
break;
|
||||
case 0x347112ba:
|
||||
case 0x4cc52064:
|
||||
memory.CopyToEmuSwapped<u16>(addr, (const u16*)src, updates_begin);
|
||||
memory.CopyToEmuSwapped<u16>(addr + updates_begin, (const u16*)(src + updates_end),
|
||||
sizeof(pb) - updates_end);
|
||||
break;
|
||||
}
|
||||
}
|
||||
|
||||
void AXWiiUCode::ProcessPBList(u32 pb_addr)
|
||||
@ -439,25 +450,25 @@ void AXWiiUCode::ProcessPBList(u32 pb_addr)
|
||||
m_samples_aux1, m_samples_wm2, m_samples_aux2,
|
||||
m_samples_wm3, m_samples_aux3}};
|
||||
|
||||
ReadPB(memory, pb_addr, pb, m_crc);
|
||||
ReadPB(memory, pb_addr, pb);
|
||||
|
||||
u16 num_updates[3];
|
||||
u16 updates[1024];
|
||||
u32 updates_addr;
|
||||
if (ExtractUpdatesFields(pb, num_updates, updates, &updates_addr))
|
||||
if (m_old_axwii &&
|
||||
(pb.updates.num_updates[0] | pb.updates.num_updates[1] | pb.updates.num_updates[2]))
|
||||
{
|
||||
PBUpdateData updates = LoadPBUpdates(memory, pb);
|
||||
for (int curr_ms = 0; curr_ms < 3; ++curr_ms)
|
||||
{
|
||||
ApplyUpdatesForMs(curr_ms, pb, num_updates, updates);
|
||||
ApplyUpdatesForMs(curr_ms, pb, pb.updates.num_updates, updates);
|
||||
ProcessVoice(static_cast<HLEAccelerator*>(m_accelerator.get()), pb, buffers, spms,
|
||||
ConvertMixerControl(HILO_TO_32(pb.mixer_control)),
|
||||
m_coeffs_checksum ? m_coeffs.data() : nullptr, m_new_filter);
|
||||
|
||||
// Forward the buffers
|
||||
for (auto& ptr : buffers.ptrs)
|
||||
for (auto& ptr : buffers.regular_ptrs)
|
||||
ptr += spms;
|
||||
for (auto& ptr : buffers.wiimote_ptrs)
|
||||
ptr += 6;
|
||||
}
|
||||
ReinjectUpdatesFields(pb, num_updates, updates_addr);
|
||||
}
|
||||
else
|
||||
{
|
||||
@ -466,7 +477,7 @@ void AXWiiUCode::ProcessPBList(u32 pb_addr)
|
||||
m_coeffs_checksum ? m_coeffs.data() : nullptr, m_new_filter);
|
||||
}
|
||||
|
||||
WritePB(memory, pb_addr, pb, m_crc);
|
||||
WritePB(memory, pb_addr, pb);
|
||||
pb_addr = HILO_TO_32(pb.next_pb);
|
||||
}
|
||||
}
|
||||
|
@ -46,11 +46,6 @@ protected:
|
||||
u16 m_last_main_volume = 0;
|
||||
u16 m_last_aux_volumes[3]{};
|
||||
|
||||
// If needed, extract the updates related fields from a PB. We need to
|
||||
// reinject them afterwards so that the correct PB typs is written to RAM.
|
||||
bool ExtractUpdatesFields(AXPBWii& pb, u16* num_updates, u16* updates, u32* updates_addr);
|
||||
void ReinjectUpdatesFields(AXPBWii& pb, u16* num_updates, u32 updates_addr);
|
||||
|
||||
// Convert a mixer_control bitfield to our internal representation for that
|
||||
// value. Required because that bitfield has a different meaning in some
|
||||
// versions of AX.
|
||||
@ -73,6 +68,9 @@ protected:
|
||||
void OutputWMSamples(u32* addresses); // 4 addresses
|
||||
|
||||
private:
|
||||
void ReadPB(Memory::MemoryManager& memory, u32 addr, AXPBWii& pb);
|
||||
void WritePB(Memory::MemoryManager& memory, u32 addr, const AXPBWii& pb);
|
||||
|
||||
enum CmdType
|
||||
{
|
||||
CMD_SETUP = 0x00,
|
||||
|
Loading…
Reference in New Issue
Block a user