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@ -28,7 +28,6 @@ void SPU::Initialize(System* system, DMA* dma, InterruptController* interrupt_co
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void SPU::Reset()
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{
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m_tick_counter = 0;
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m_ticks_carry = 0;
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m_SPUCNT.bits = 0;
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@ -57,11 +56,10 @@ void SPU::Reset()
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m_reverb_on_register = 0;
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m_reverb_registers = {};
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m_reverb_registers.mBASE = 0;
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m_reverb_current_address = ZeroExtend32(m_reverb_registers.mBASE) * 8;
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m_reverb_left_input = 0;
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m_reverb_left_output = 0;
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m_reverb_right_input = 0;
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m_reverb_right_output = 0;
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m_reverb_base_address = m_reverb_current_address = ZeroExtend32(m_reverb_registers.mBASE) << 2;
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m_reverb_downsample_buffer = {};
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m_reverb_upsample_buffer = {};
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m_reverb_resample_buffer_position = 0;
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for (u32 i = 0; i < NUM_VOICES; i++)
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{
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@ -85,7 +83,6 @@ void SPU::Reset()
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bool SPU::DoState(StateWrapper& sw)
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{
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sw.Do(&m_tick_counter);
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sw.Do(&m_ticks_carry);
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sw.Do(&m_SPUCNT.bits);
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sw.Do(&m_SPUSTAT.bits);
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@ -110,15 +107,17 @@ bool SPU::DoState(StateWrapper& sw)
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sw.Do(&m_noise_count);
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sw.Do(&m_noise_level);
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sw.Do(&m_reverb_on_register);
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sw.Do(&m_reverb_base_address);
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sw.Do(&m_reverb_current_address);
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sw.Do(&m_reverb_registers.vLOUT);
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sw.Do(&m_reverb_registers.vROUT);
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sw.Do(&m_reverb_registers.mBASE);
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sw.DoArray(m_reverb_registers.rev, NUM_REVERB_REGS);
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sw.Do(&m_reverb_left_input);
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sw.Do(&m_reverb_right_input);
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sw.Do(&m_reverb_left_output);
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sw.Do(&m_reverb_right_output);
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for (u32 i = 0; i < 2; i++)
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sw.DoArray(m_reverb_downsample_buffer.data(), m_reverb_downsample_buffer.size());
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for (u32 i = 0; i < 2; i++)
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sw.DoArray(m_reverb_upsample_buffer.data(), m_reverb_upsample_buffer.size());
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sw.Do(&m_reverb_resample_buffer_position);
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for (u32 i = 0; i < NUM_VOICES; i++)
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{
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Voice& v = m_voices[i];
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@ -396,7 +395,8 @@ void SPU::WriteRegister(u32 offset, u16 value)
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Log_DebugPrintf("SPU reverb base address < 0x%04X", ZeroExtend32(value));
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m_tick_event->InvokeEarly();
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m_reverb_registers.mBASE = value;
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m_reverb_current_address = ZeroExtend32(m_reverb_registers.mBASE) * 8u;
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m_reverb_base_address = ZeroExtend32(value << 2) & 0x3FFFFu;
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m_reverb_current_address = m_reverb_base_address;
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}
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break;
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@ -731,20 +731,12 @@ void SPU::Execute(TickCount ticks)
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}
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// Compute reverb.
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m_tick_counter++;
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if ((m_tick_counter & 1u) != 0)
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{
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m_reverb_left_input = Clamp16(reverb_in_left);
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}
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else
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{
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m_reverb_right_input = Clamp16(reverb_in_right);
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DoReverb();
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}
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s32 reverb_out_left, reverb_out_right;
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ProcessReverb(Clamp16(reverb_in_left), Clamp16(reverb_in_right), &reverb_out_left, &reverb_out_right);
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// Mix in reverb.
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left_sum += m_reverb_left_output;
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right_sum += m_reverb_right_output;
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left_sum += reverb_out_left;
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right_sum += reverb_out_right;
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// Apply main volume before clamping.
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*(output_frame++) = Clamp16(ApplyVolume(left_sum, m_main_volume_left.current_level));
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@ -1513,143 +1505,208 @@ void SPU::UpdateNoise()
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m_noise_level = (m_noise_level << 1) | noise_wave_add[(m_noise_level >> 10) & 63u];
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}
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/************************************************************************/
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/* Reverb algorithm from Mednafen-PSX */
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/************************************************************************/
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u32 SPU::ReverbMemoryAddress(u32 address) const
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{
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// Ensures address does not leave the reverb work area.
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const u32 mBASE = ZeroExtend32(m_reverb_registers.mBASE) * 8;
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const u32 relative_address = (address - mBASE) % (RAM_SIZE - mBASE);
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return (mBASE + relative_address) & 0x7FFFEu;
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static constexpr u32 MASK = (RAM_SIZE - 1) / 2;
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u32 offset = m_reverb_current_address + (address & MASK);
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offset += m_reverb_base_address & ((s32)(offset << 13) >> 31);
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// We address RAM in bytes. TODO: Change this to words.
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return (offset & MASK) * 2u;
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}
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s16 SPU::ReverbRead(u32 address)
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s16 SPU::ReverbRead(u32 address, s32 offset)
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{
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const u32 real_address = ReverbMemoryAddress(m_reverb_current_address + address);
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// TODO: This should check interrupts.
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const u32 real_address = ReverbMemoryAddress((address << 2) + offset);
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// TODO: Should this check interrupts?
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s16 data;
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std::memcpy(&data, &m_ram[real_address & RAM_MASK], sizeof(data));
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std::memcpy(&data, &m_ram[real_address], sizeof(data));
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return data;
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}
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void SPU::ReverbWrite(u32 address, s16 data)
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{
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if (!m_SPUCNT.reverb_master_enable)
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return;
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// TODO: Should this check interrupts?
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const u32 real_address = ReverbMemoryAddress(m_reverb_current_address + address);
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std::memcpy(&m_ram[real_address & RAM_MASK], &data, sizeof(data));
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// TODO: This should check interrupts.
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const u32 real_address = ReverbMemoryAddress(address << 2);
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std::memcpy(&m_ram[real_address], &data, sizeof(data));
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}
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// Implements saturated add, subtract and multiply for reverb computations.
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struct ReverbSample
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// Zeroes optimized out; middle removed too(it's 16384)
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static constexpr std::array<s16, 20> s_reverb_resample_coefficients = {
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-1, 2, -10, 35, -103, 266, -616, 1332, -2960, 10246, 10246, -2960, 1332, -616, 266, -103, 35, -10, 2, -1,
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};
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static s16 s_last_reverb_input[2];
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static s32 s_last_reverb_output[2];
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ALWAYS_INLINE static s32 Reverb4422(const s16* src)
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{
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s16 value;
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s32 out = 0; // 32-bits is adequate(it won't overflow)
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for (u32 i = 0; i < 20; i++)
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out += s_reverb_resample_coefficients[i] * src[i * 2];
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// Middle non-zero
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out += 0x4000 * src[19];
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out >>= 15;
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return std::clamp<s32>(out, -32768, 32767);
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}
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static ALWAYS_INLINE s16 OpAdd(s16 lhs, s16 rhs)
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template<bool phase>
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ALWAYS_INLINE static s32 Reverb2244(const s16* src)
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{
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s32 out; // 32-bits is adequate(it won't overflow)
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if (phase)
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{
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s32 result = s32(lhs) + s32(rhs);
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return s16((result < -32768) ? -32768 : ((result > 32767) ? 32767 : result));
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// Middle non-zero
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out = src[9];
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}
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static ALWAYS_INLINE s16 OpSub(s16 lhs, s16 rhs)
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else
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{
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s32 result = s32(lhs) - s32(rhs);
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return s16((result < -32768) ? -32768 : ((result > 32767) ? 32767 : result));
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}
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out = 0;
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for (u32 i = 0; i < 20; i++)
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out += s_reverb_resample_coefficients[i] * src[i];
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static ALWAYS_INLINE s16 OpMul(s16 lhs, s16 rhs) { return s16((s32(lhs) * s32(rhs)) >> 15); }
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ALWAYS_INLINE ReverbSample operator+(ReverbSample rhs) const { return ReverbSample{OpAdd(value, rhs.value)}; }
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out >>= 14;
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out = std::clamp<s32>(out, -32768, 32767);
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}
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ALWAYS_INLINE ReverbSample operator-(ReverbSample rhs) const { return ReverbSample{OpSub(value, rhs.value)}; }
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return out;
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}
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ALWAYS_INLINE ReverbSample operator*(ReverbSample rhs) const { return ReverbSample{OpMul(value, rhs.value)}; }
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ALWAYS_INLINE static s16 ReverbSat(s32 val)
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{
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return static_cast<s16>(std::clamp<s32>(val, -0x8000, 0x7FFF));
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}
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ALWAYS_INLINE ReverbSample& operator+=(ReverbSample rhs)
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ALWAYS_INLINE static s32 IIASM(const s16 IIR_ALPHA, const s16 insamp)
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{
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if (IIR_ALPHA == -32768)
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{
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value = OpAdd(value, rhs.value);
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return *this;
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if (insamp == -32768)
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return 0;
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else
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return insamp * -65536;
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}
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else
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return insamp * (32768 - IIR_ALPHA);
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}
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ALWAYS_INLINE ReverbSample& operator-=(ReverbSample rhs)
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{
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value = OpSub(value, rhs.value);
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return *this;
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}
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void SPU::ComputeReverb()
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{
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std::array<s32, 2> downsampled;
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for (unsigned lr = 0; lr < 2; lr++)
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downsampled[lr] = Reverb4422(&m_reverb_downsample_buffer[lr][(m_reverb_resample_buffer_position - 39) & 0x3F]);
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ALWAYS_INLINE ReverbSample& operator*=(ReverbSample rhs)
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if (m_SPUCNT.reverb_master_enable)
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{
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value = OpMul(value, rhs.value);
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return *this;
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const s16 IIR_INPUT_A0 =
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ReverbSat(((ReverbRead(m_reverb_registers.IIR_SRC_A0) * m_reverb_registers.IIR_COEF) >> 15) +
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((downsampled[0] * m_reverb_registers.IN_COEF_L) >> 15));
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const s16 IIR_INPUT_A1 =
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ReverbSat(((ReverbRead(m_reverb_registers.IIR_SRC_A1) * m_reverb_registers.IIR_COEF) >> 15) +
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((downsampled[1] * m_reverb_registers.IN_COEF_R) >> 15));
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const s16 IIR_INPUT_B0 =
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ReverbSat(((ReverbRead(m_reverb_registers.IIR_SRC_B0) * m_reverb_registers.IIR_COEF) >> 15) +
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((downsampled[0] * m_reverb_registers.IN_COEF_L) >> 15));
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const s16 IIR_INPUT_B1 =
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ReverbSat(((ReverbRead(m_reverb_registers.IIR_SRC_B1) * m_reverb_registers.IIR_COEF) >> 15) +
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((downsampled[1] * m_reverb_registers.IN_COEF_R) >> 15));
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const s16 IIR_A0 =
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ReverbSat((((IIR_INPUT_A0 * m_reverb_registers.IIR_ALPHA) >> 14) +
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(IIASM(m_reverb_registers.IIR_ALPHA, ReverbRead(m_reverb_registers.IIR_DEST_A0, -1)) >> 14)) >>
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1);
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const s16 IIR_A1 =
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ReverbSat((((IIR_INPUT_A1 * m_reverb_registers.IIR_ALPHA) >> 14) +
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(IIASM(m_reverb_registers.IIR_ALPHA, ReverbRead(m_reverb_registers.IIR_DEST_A1, -1)) >> 14)) >>
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1);
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const s16 IIR_B0 =
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ReverbSat((((IIR_INPUT_B0 * m_reverb_registers.IIR_ALPHA) >> 14) +
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(IIASM(m_reverb_registers.IIR_ALPHA, ReverbRead(m_reverb_registers.IIR_DEST_B0, -1)) >> 14)) >>
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1);
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const s16 IIR_B1 =
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ReverbSat((((IIR_INPUT_B1 * m_reverb_registers.IIR_ALPHA) >> 14) +
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(IIASM(m_reverb_registers.IIR_ALPHA, ReverbRead(m_reverb_registers.IIR_DEST_B1, -1)) >> 14)) >>
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1);
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ReverbWrite(m_reverb_registers.IIR_DEST_A0, IIR_A0);
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ReverbWrite(m_reverb_registers.IIR_DEST_A1, IIR_A1);
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ReverbWrite(m_reverb_registers.IIR_DEST_B0, IIR_B0);
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ReverbWrite(m_reverb_registers.IIR_DEST_B1, IIR_B1);
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const s16 ACC0 = ReverbSat((((ReverbRead(m_reverb_registers.ACC_SRC_A0) * m_reverb_registers.ACC_COEF_A) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_B0) * m_reverb_registers.ACC_COEF_B) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_C0) * m_reverb_registers.ACC_COEF_C) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_D0) * m_reverb_registers.ACC_COEF_D) >> 14)) >>
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1);
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const s16 ACC1 = ReverbSat((((ReverbRead(m_reverb_registers.ACC_SRC_A1) * m_reverb_registers.ACC_COEF_A) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_B1) * m_reverb_registers.ACC_COEF_B) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_C1) * m_reverb_registers.ACC_COEF_C) >> 14) +
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((ReverbRead(m_reverb_registers.ACC_SRC_D1) * m_reverb_registers.ACC_COEF_D) >> 14)) >>
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1);
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const s16 FB_A0 = ReverbRead(m_reverb_registers.MIX_DEST_A0 - m_reverb_registers.FB_SRC_A);
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const s16 FB_A1 = ReverbRead(m_reverb_registers.MIX_DEST_A1 - m_reverb_registers.FB_SRC_A);
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const s16 FB_B0 = ReverbRead(m_reverb_registers.MIX_DEST_B0 - m_reverb_registers.FB_SRC_B);
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const s16 FB_B1 = ReverbRead(m_reverb_registers.MIX_DEST_B1 - m_reverb_registers.FB_SRC_B);
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ReverbWrite(m_reverb_registers.MIX_DEST_A0, ReverbSat(ACC0 - ((FB_A0 * m_reverb_registers.FB_ALPHA) >> 15)));
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ReverbWrite(m_reverb_registers.MIX_DEST_A1, ReverbSat(ACC1 - ((FB_A1 * m_reverb_registers.FB_ALPHA) >> 15)));
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ReverbWrite(m_reverb_registers.MIX_DEST_B0,
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ReverbSat(((m_reverb_registers.FB_ALPHA * ACC0) >> 15) -
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((FB_A0 * (s16)(0x8000 ^ m_reverb_registers.FB_ALPHA)) >> 15) -
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((FB_B0 * m_reverb_registers.FB_X) >> 15)));
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ReverbWrite(m_reverb_registers.MIX_DEST_B1,
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ReverbSat(((m_reverb_registers.FB_ALPHA * ACC1) >> 15) -
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((FB_A1 * (s16)(0x8000 ^ m_reverb_registers.FB_ALPHA)) >> 15) -
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((FB_B1 * m_reverb_registers.FB_X) >> 15)));
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}
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};
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void SPU::DoReverb()
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{
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const ReverbSample Lin(ReverbSample{m_reverb_left_input} * ReverbSample{m_reverb_registers.vLIN});
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const ReverbSample Rin(ReverbSample{m_reverb_right_input} * ReverbSample{m_reverb_registers.vRIN});
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#define R(name) \
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ReverbSample { m_reverb_registers.name }
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#define Rm(name) (u32(m_reverb_registers.name) * 8u)
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#define MR(addr) \
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ReverbSample { ReverbRead(addr) }
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#define MW(addr, value_) ReverbWrite((addr), (value_).value)
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// [mLSAME] = (Lin + [dLSAME]*vWALL - [mLSAME-2])*vIIR + [mLSAME-2] ;L-to-L
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MW(Rm(mLSAME), ((Lin + (MR(Rm(dLSAME)) * R(vWALL)) - MR(Rm(mLSAME) - 2)) * R(vIIR)) + MR(Rm(mLSAME) - 2));
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// [mRSAME] = (Rin + [dRSAME]*vWALL - [mRSAME-2])*vIIR + [mRSAME-2] ;R-to-R
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MW(Rm(mLSAME), ((Rin + (MR(Rm(dRSAME)) * R(vWALL)) - MR(Rm(mRSAME) - 2)) * R(vIIR)) + MR(Rm(mRSAME) - 2));
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// [mLDIFF] = (Lin + [dRDIFF]*vWALL - [mLDIFF-2])*vIIR + [mLDIFF-2] ;R-to-L
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MW(Rm(mLDIFF), ((Lin + (MR(Rm(dRDIFF)) * R(vWALL)) - MR(Rm(mLDIFF) - 2)) * R(vIIR)) + MR(Rm(mLDIFF) - 2));
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// [mRDIFF] = (Rin + [dLDIFF]*vWALL - [mRDIFF-2])*vIIR + [mRDIFF-2] ;L-to-R
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MW(Rm(mRDIFF), ((Rin + (MR(Rm(dLDIFF)) * R(vWALL)) - MR(Rm(mRDIFF) - 2)) * R(vIIR)) + MR(Rm(mRDIFF) - 2));
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// Lout = vCOMB1 * [mLCOMB1] + vCOMB2 * [mLCOMB2] + vCOMB3 * [mLCOMB3] + vCOMB4 * [mLCOMB4]
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ReverbSample Lout{(R(vCOMB1) * MR(Rm(mLCOMB1))) + (R(vCOMB2) * MR(Rm(mLCOMB2))) + (R(vCOMB3) * MR(Rm(mLCOMB3))) +
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(R(vCOMB4) * MR(Rm(mLCOMB4)))};
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// Rout = vCOMB1 * [mRCOMB1] + vCOMB2 * [mRCOMB2] + vCOMB3 * [mRCOMB3] + vCOMB4 * [mRCOMB4]
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ReverbSample Rout{(R(vCOMB1) * MR(Rm(mRCOMB1))) + (R(vCOMB2) * MR(Rm(mRCOMB2))) + (R(vCOMB3) * MR(Rm(mRCOMB3))) +
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(R(vCOMB4) * MR(Rm(mRCOMB4)))};
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// Lout = Lout - vAPF1 * [mLAPF1 - dAPF1], [mLAPF1] = Lout, Lout = Lout * vAPF1 + [mLAPF1 - dAPF1]
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Lout = Lout - (R(vAPF1) * MR(Rm(mLAPF1) - Rm(dAPF1)));
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MW(Rm(mLAPF1), Lout);
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Lout = (Lout * R(vAPF1)) + MR(Rm(mLAPF1) - Rm(dAPF1));
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// Rout = Rout - vAPF1 * [mRAPF1 - dAPF1], [mRAPF1] = Rout, Rout = Rout * vAPF1 + [mRAPF1 - dAPF1]
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Rout = Rout - (R(vAPF1) * MR(Rm(mRAPF1) - Rm(dAPF1)));
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MW(Rm(mRAPF1), Rout);
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Rout = (Rout * R(vAPF1)) + MR(Rm(mRAPF1) - Rm(dAPF1));
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// Lout = Lout - vAPF2 * [mLAPF2 - dAPF2], [mLAPF2] = Lout, Lout = Lout * vAPF2 + [mLAPF2 - dAPF2]
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Lout = Lout - (R(vAPF2) * MR(Rm(mLAPF2) - Rm(dAPF2)));
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MW(Rm(mLAPF2), Lout);
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Lout = (Lout * R(vAPF2)) + MR(Rm(mLAPF2) - Rm(dAPF2));
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// Rout = Rout - vAPF2 * [mRAPF2 - dAPF2], [mRAPF2] = Rout, Rout = Rout * vAPF2 + [mRAPF2 - dAPF2]
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Rout = Rout - (R(vAPF2) * MR(Rm(mRAPF2) - Rm(dAPF2)));
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MW(Rm(mRAPF2), Rout);
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Rout = (Rout * R(vAPF2)) + MR(Rm(mRAPF2) - Rm(dAPF2));
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m_reverb_upsample_buffer[0][(m_reverb_resample_buffer_position >> 1) | 0x20] =
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m_reverb_upsample_buffer[0][m_reverb_resample_buffer_position >> 1] =
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(ReverbRead(m_reverb_registers.MIX_DEST_A0) + ReverbRead(m_reverb_registers.MIX_DEST_B0)) >> 1;
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m_reverb_upsample_buffer[1][(m_reverb_resample_buffer_position >> 1) | 0x20] =
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m_reverb_upsample_buffer[1][m_reverb_resample_buffer_position >> 1] =
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(ReverbRead(m_reverb_registers.MIX_DEST_A1) + ReverbRead(m_reverb_registers.MIX_DEST_B1)) >> 1;
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// LeftOutput = Lout*vLOUT
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m_reverb_left_output = (Lout * R(vLOUT)).value;
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m_reverb_current_address = (m_reverb_current_address + 1) & 0x3FFFFu;
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if (m_reverb_current_address == 0)
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m_reverb_current_address = m_reverb_base_address;
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}
|
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// RightOutput = Rout*vROUT
|
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|
|
m_reverb_right_output = (Rout * R(vROUT)).value;
|
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|
|
void SPU::ProcessReverb(s16 left_in, s16 right_in, s32* left_out, s32* right_out)
|
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|
|
|
{
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|
s_last_reverb_input[0] = left_in;
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|
s_last_reverb_input[1] = right_in;
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m_reverb_downsample_buffer[0][m_reverb_resample_buffer_position | 0x00] = left_in;
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m_reverb_downsample_buffer[0][m_reverb_resample_buffer_position | 0x40] = left_in;
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|
m_reverb_downsample_buffer[1][m_reverb_resample_buffer_position | 0x00] = right_in;
|
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|
m_reverb_downsample_buffer[1][m_reverb_resample_buffer_position | 0x40] = right_in;
|
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|
|
s32 out[2];
|
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|
|
|
if (m_reverb_resample_buffer_position & 1u)
|
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|
|
|
{
|
|
|
|
|
ComputeReverb();
|
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|
|
|
for (u32 i = 0; i < 2; i++)
|
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|
|
out[i] = Reverb2244<true>(&m_reverb_upsample_buffer[i][((m_reverb_resample_buffer_position - 39) & 0x3F) >> 1]);
|
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|
|
}
|
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|
else
|
|
|
|
|
{
|
|
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|
|
for (u32 i = 0; i < 2; i++)
|
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|
|
out[i] = Reverb2244<false>(&m_reverb_upsample_buffer[i][((m_reverb_resample_buffer_position - 39) & 0x3F) >> 1]);
|
|
|
|
|
}
|
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|
|
|
|
|
|
|
|
// BufferAddress = MAX(mBASE, (BufferAddress+2) AND 7FFFEh)
|
|
|
|
|
m_reverb_current_address = ReverbMemoryAddress(m_reverb_current_address + 2);
|
|
|
|
|
m_reverb_resample_buffer_position = (m_reverb_resample_buffer_position + 1) & 0x3F;
|
|
|
|
|
|
|
|
|
|
#undef MW
|
|
|
|
|
#undef MR
|
|
|
|
|
#undef Rm
|
|
|
|
|
#undef R
|
|
|
|
|
s_last_reverb_output[0] = *left_out = ApplyVolume(out[0], m_reverb_registers.vLOUT);
|
|
|
|
|
s_last_reverb_output[1] = *right_out = ApplyVolume(out[1], m_reverb_registers.vROUT);
|
|
|
|
|
}
|
|
|
|
|
|
|
|
|
|
void SPU::EnsureCDAudioSpace(u32 remaining_frames)
|
|
|
|
|
@ -1817,8 +1874,8 @@ void SPU::DrawDebugStateWindow()
|
|
|
|
|
m_SPUCNT.external_audio_reverb ? "Yes" : "No");
|
|
|
|
|
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|
|
|
|
ImGui::Text("Current Address: 0x%08X", m_reverb_current_address);
|
|
|
|
|
ImGui::Text("Current Volume: Input (%d, %d) Output (%d, %d)", m_reverb_left_input, m_reverb_right_input,
|
|
|
|
|
m_reverb_left_output, m_reverb_right_output);
|
|
|
|
|
ImGui::Text("Current Volume: Input (%d, %d) Output (%d, %d)", s_last_reverb_input[0], s_last_reverb_input[1],
|
|
|
|
|
s_last_reverb_output[0], s_last_reverb_output[1]);
|
|
|
|
|
|
|
|
|
|
ImGui::Text("Pitch Modulation: ");
|
|
|
|
|
for (u32 i = 1; i < NUM_VOICES; i++)
|
|
|
|
|
@ -1830,5 +1887,18 @@ void SPU::DrawDebugStateWindow()
|
|
|
|
|
}
|
|
|
|
|
}
|
|
|
|
|
|
|
|
|
|
if (ImGui::CollapsingHeader("Hacks", ImGuiTreeNodeFlags_DefaultOpen))
|
|
|
|
|
{
|
|
|
|
|
if (ImGui::Button("Key Off All Voices"))
|
|
|
|
|
{
|
|
|
|
|
for (u32 i = 0; i < NUM_VOICES; i++)
|
|
|
|
|
{
|
|
|
|
|
m_voices[i].KeyOff();
|
|
|
|
|
m_voices[i].adsr_envelope.counter = 0;
|
|
|
|
|
m_voices[i].regs.adsr_volume = 0;
|
|
|
|
|
}
|
|
|
|
|
}
|
|
|
|
|
}
|
|
|
|
|
|
|
|
|
|
ImGui::End();
|
|
|
|
|
}
|
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|
Connor McLaughlin
5 years ago