diff options
author | Chris Robinson <[email protected]> | 2020-11-28 03:38:20 -0800 |
---|---|---|
committer | Chris Robinson <[email protected]> | 2020-11-28 03:38:20 -0800 |
commit | 8750810f5cfceeffd5acf2f21e779d470d0dc88b (patch) | |
tree | 447b24c8d1b3ab926f2aa2ae40617938df1e9bb1 /alc | |
parent | eb9b9fb4e59cadc308b8ebcdf3da59a961382224 (diff) |
Change a couple macros into constexpr variables
Diffstat (limited to 'alc')
-rw-r--r-- | alc/alcmain.h | 12 | ||||
-rw-r--r-- | alc/alu.cpp | 6 | ||||
-rw-r--r-- | alc/backends/coreaudio.cpp | 2 | ||||
-rw-r--r-- | alc/converter.cpp | 20 | ||||
-rw-r--r-- | alc/converter.h | 6 | ||||
-rw-r--r-- | alc/effects/autowah.cpp | 4 | ||||
-rw-r--r-- | alc/effects/chorus.cpp | 2 | ||||
-rw-r--r-- | alc/effects/distortion.cpp | 4 | ||||
-rw-r--r-- | alc/effects/echo.cpp | 2 | ||||
-rw-r--r-- | alc/effects/fshifter.cpp | 4 | ||||
-rw-r--r-- | alc/effects/reverb.cpp | 4 | ||||
-rw-r--r-- | alc/front_stablizer.h | 6 | ||||
-rw-r--r-- | alc/hrtf.h | 2 | ||||
-rw-r--r-- | alc/mastering.cpp | 20 | ||||
-rw-r--r-- | alc/mastering.h | 4 | ||||
-rw-r--r-- | alc/mixer/defs.h | 2 | ||||
-rw-r--r-- | alc/uhjfilter.h | 8 | ||||
-rw-r--r-- | alc/voice.cpp | 28 | ||||
-rw-r--r-- | alc/voice.h | 2 |
19 files changed, 69 insertions, 69 deletions
diff --git a/alc/alcmain.h b/alc/alcmain.h index b95791fb..7949baf2 100644 --- a/alc/alcmain.h +++ b/alc/alcmain.h @@ -251,16 +251,16 @@ struct ALCdevice : public al::intrusive_ref<ALCdevice> { std::chrono::nanoseconds FixedLatency{0}; /* Temp storage used for mixer processing. */ - alignas(16) float SourceData[BUFFERSIZE + MAX_RESAMPLER_PADDING]; - alignas(16) float ResampledData[BUFFERSIZE]; - alignas(16) float FilteredData[BUFFERSIZE]; + alignas(16) float SourceData[BufferLineSize + MaxResamplerPadding]; + alignas(16) float ResampledData[BufferLineSize]; + alignas(16) float FilteredData[BufferLineSize]; union { - alignas(16) float HrtfSourceData[BUFFERSIZE + HRTF_HISTORY_LENGTH]; - alignas(16) float NfcSampleData[BUFFERSIZE]; + alignas(16) float HrtfSourceData[BufferLineSize + HRTF_HISTORY_LENGTH]; + alignas(16) float NfcSampleData[BufferLineSize]; }; /* Persistent storage for HRTF mixing. */ - alignas(16) float2 HrtfAccumData[BUFFERSIZE + HRIR_LENGTH + HRTF_DIRECT_DELAY]; + alignas(16) float2 HrtfAccumData[BufferLineSize + HRIR_LENGTH + HRTF_DIRECT_DELAY]; /* Mixing buffer used by the Dry mix and Real output. */ al::vector<FloatBufferLine, 16> MixBuffer; diff --git a/alc/alu.cpp b/alc/alu.cpp index 10069fd1..a1ea92da 100644 --- a/alc/alu.cpp +++ b/alc/alu.cpp @@ -103,8 +103,8 @@ struct BSincTag; struct FastBSincTag; -static_assert(MAX_RESAMPLER_PADDING >= BSincPointsMax, "MAX_RESAMPLER_PADDING is too small"); -static_assert(!(MAX_RESAMPLER_PADDING&1), "MAX_RESAMPLER_PADDING is not a multiple of two"); +static_assert(MaxResamplerPadding >= BSincPointsMax, "MaxResamplerPadding is too small"); +static_assert(!(MaxResamplerPadding&1), "MaxResamplerPadding is not a multiple of two"); namespace { @@ -1908,7 +1908,7 @@ void ALCdevice::renderSamples(void *outBuffer, const ALuint numSamples, const si FPUCtl mixer_mode{}; for(ALuint written{0u};written < numSamples;) { - const ALuint samplesToDo{minu(numSamples-written, BUFFERSIZE)}; + const ALuint samplesToDo{minu(numSamples-written, BufferLineSize)}; /* Clear main mixing buffers. */ for(FloatBufferLine &buffer : MixBuffer) diff --git a/alc/backends/coreaudio.cpp b/alc/backends/coreaudio.cpp index 31de700c..32f8d123 100644 --- a/alc/backends/coreaudio.cpp +++ b/alc/backends/coreaudio.cpp @@ -569,7 +569,7 @@ void CoreAudioCapture::open(const ALCchar *name) double srateScale{double{outputFormat.mSampleRate} / mDevice->Frequency}; auto FrameCount64 = maxu64(static_cast<uint64_t>(std::ceil(mDevice->BufferSize*srateScale)), static_cast<UInt32>(outputFormat.mSampleRate)/10); - FrameCount64 += MAX_RESAMPLER_PADDING; + FrameCount64 += MaxResamplerPadding; if(FrameCount64 > std::numeric_limits<int32_t>::max()) throw al::backend_exception{ALC_INVALID_VALUE, "Calculated frame count is too large: %" PRIu64, FrameCount64}; diff --git a/alc/converter.cpp b/alc/converter.cpp index 2b881645..57b902b8 100644 --- a/alc/converter.cpp +++ b/alc/converter.cpp @@ -202,8 +202,8 @@ uint SampleConverter::availableOut(uint srcframes) const return 0; } - if(prepcount < MAX_RESAMPLER_PADDING - && static_cast<uint>(MAX_RESAMPLER_PADDING - prepcount) >= srcframes) + if(prepcount < MaxResamplerPadding + && static_cast<uint>(MaxResamplerPadding - prepcount) >= srcframes) { /* Not enough input samples to generate an output sample. */ return 0; @@ -211,7 +211,7 @@ uint SampleConverter::availableOut(uint srcframes) const auto DataSize64 = static_cast<uint64_t>(prepcount); DataSize64 += srcframes; - DataSize64 -= MAX_RESAMPLER_PADDING; + DataSize64 -= MaxResamplerPadding; DataSize64 <<= MixerFracBits; DataSize64 -= mFracOffset; @@ -247,10 +247,10 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint mSrcPrepCount = 0; continue; } - uint toread{minu(NumSrcSamples, BUFFERSIZE - MAX_RESAMPLER_PADDING)}; + const uint toread{minu(NumSrcSamples, BufferLineSize - MaxResamplerPadding)}; - if(prepcount < MAX_RESAMPLER_PADDING - && static_cast<uint>(MAX_RESAMPLER_PADDING - prepcount) >= toread) + if(prepcount < MaxResamplerPadding + && static_cast<uint>(MaxResamplerPadding - prepcount) >= toread) { /* Not enough input samples to generate an output sample. Store * what we're given for later. @@ -269,13 +269,13 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint uint DataPosFrac{mFracOffset}; auto DataSize64 = static_cast<uint64_t>(prepcount); DataSize64 += toread; - DataSize64 -= MAX_RESAMPLER_PADDING; + DataSize64 -= MaxResamplerPadding; DataSize64 <<= MixerFracBits; DataSize64 -= DataPosFrac; /* If we have a full prep, we can generate at least one sample. */ auto DstSize = static_cast<uint>( - clampu64((DataSize64 + increment-1)/increment, 1, BUFFERSIZE)); + clampu64((DataSize64 + increment-1)/increment, 1, BufferLineSize)); DstSize = minu(DstSize, dstframes-pos); for(size_t chan{0u};chan < mChan.size();chan++) @@ -306,7 +306,7 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint } /* Now resample, and store the result in the output buffer. */ - const float *ResampledData{mResample(&mState, SrcData+(MAX_RESAMPLER_PADDING>>1), + const float *ResampledData{mResample(&mState, SrcData+(MaxResamplerPadding>>1), DataPosFrac, increment, {DstData, DstSize})}; StoreSamples(DstSamples, ResampledData, mChan.size(), mDstType, DstSize); @@ -317,7 +317,7 @@ uint SampleConverter::convert(const void **src, uint *srcframes, void *dst, uint */ DataPosFrac += increment*DstSize; mSrcPrepCount = mini(prepcount + static_cast<int>(toread - (DataPosFrac>>MixerFracBits)), - MAX_RESAMPLER_PADDING); + MaxResamplerPadding); mFracOffset = DataPosFrac & MixerFracMask; /* Update the src and dst pointers in case there's still more to do. */ diff --git a/alc/converter.h b/alc/converter.h index 392c95e5..2ae77764 100644 --- a/alc/converter.h +++ b/alc/converter.h @@ -29,11 +29,11 @@ struct SampleConverter { InterpState mState{}; ResamplerFunc mResample{}; - alignas(16) float mSrcSamples[BUFFERSIZE]{}; - alignas(16) float mDstSamples[BUFFERSIZE]{}; + alignas(16) float mSrcSamples[BufferLineSize]{}; + alignas(16) float mDstSamples[BufferLineSize]{}; struct ChanSamples { - alignas(16) float PrevSamples[MAX_RESAMPLER_PADDING]; + alignas(16) float PrevSamples[MaxResamplerPadding]; }; al::FlexArray<ChanSamples> mChan; diff --git a/alc/effects/autowah.cpp b/alc/effects/autowah.cpp index de91c32f..5ac51e32 100644 --- a/alc/effects/autowah.cpp +++ b/alc/effects/autowah.cpp @@ -52,7 +52,7 @@ struct AutowahState final : public EffectState { struct { float cos_w0; float alpha; - } mEnv[BUFFERSIZE]; + } mEnv[BufferLineSize]; struct { /* Effect filters' history. */ @@ -66,7 +66,7 @@ struct AutowahState final : public EffectState { } mChans[MAX_AMBI_CHANNELS]; /* Effects buffers */ - alignas(16) float mBufferOut[BUFFERSIZE]; + alignas(16) float mBufferOut[BufferLineSize]; void deviceUpdate(const ALCdevice *device) override; diff --git a/alc/effects/chorus.cpp b/alc/effects/chorus.cpp index 81449b9b..68a79fba 100644 --- a/alc/effects/chorus.cpp +++ b/alc/effects/chorus.cpp @@ -109,7 +109,7 @@ void ChorusState::deviceUpdate(const ALCdevice *Device) void ChorusState::update(const ALCcontext *Context, const EffectSlot *Slot, const EffectProps *props, const EffectTarget target) { - constexpr ALsizei mindelay{(MAX_RESAMPLER_PADDING>>1) << MixerFracBits}; + constexpr int mindelay{(MaxResamplerPadding>>1) << MixerFracBits}; switch(props->Chorus.Waveform) { diff --git a/alc/effects/distortion.cpp b/alc/effects/distortion.cpp index c3c1d241..757244c5 100644 --- a/alc/effects/distortion.cpp +++ b/alc/effects/distortion.cpp @@ -43,7 +43,7 @@ struct DistortionState final : public EffectState { float mAttenuation{}; float mEdgeCoeff{}; - float mBuffer[2][BUFFERSIZE]{}; + float mBuffer[2][BufferLineSize]{}; void deviceUpdate(const ALCdevice *device) override; @@ -101,7 +101,7 @@ void DistortionState::process(const size_t samplesToDo, const al::span<const Flo * bandpass filters using high frequencies, at which classic IIR * filters became unstable. */ - size_t todo{minz(BUFFERSIZE, (samplesToDo-base) * 4)}; + size_t todo{minz(BufferLineSize, (samplesToDo-base) * 4)}; /* Fill oversample buffer using zero stuffing. Multiply the sample by * the amount of oversampling to maintain the signal's power. diff --git a/alc/effects/echo.cpp b/alc/effects/echo.cpp index 70aaf59c..a50d3c61 100644 --- a/alc/effects/echo.cpp +++ b/alc/effects/echo.cpp @@ -55,7 +55,7 @@ struct EchoState final : public EffectState { BiquadFilter mFilter; float mFeedGain{0.0f}; - alignas(16) float mTempBuffer[2][BUFFERSIZE]; + alignas(16) float mTempBuffer[2][BufferLineSize]; void deviceUpdate(const ALCdevice *device) override; void update(const ALCcontext *context, const EffectSlot *slot, const EffectProps *props, diff --git a/alc/effects/fshifter.cpp b/alc/effects/fshifter.cpp index da9b0ce2..c1acf08c 100644 --- a/alc/effects/fshifter.cpp +++ b/alc/effects/fshifter.cpp @@ -71,9 +71,9 @@ struct FshifterState final : public EffectState { complex_d mOutFIFO[HIL_STEP]{}; complex_d mOutputAccum[HIL_SIZE]{}; complex_d mAnalytic[HIL_SIZE]{}; - complex_d mOutdata[BUFFERSIZE]{}; + complex_d mOutdata[BufferLineSize]{}; - alignas(16) float mBufferOut[BUFFERSIZE]{}; + alignas(16) float mBufferOut[BufferLineSize]{}; /* Effect gains for each output channel */ struct { diff --git a/alc/effects/reverb.cpp b/alc/effects/reverb.cpp index 78773abf..6471b210 100644 --- a/alc/effects/reverb.cpp +++ b/alc/effects/reverb.cpp @@ -562,12 +562,12 @@ void ReverbState::allocLines(const float frequency) /* The main delay length includes the maximum early reflection delay, the * largest early tap width, the maximum late reverb delay, and the * largest late tap width. Finally, it must also be extended by the - * update size (BUFFERSIZE) for block processing. + * update size (BufferLineSize) for block processing. */ float length{AL_EAXREVERB_MAX_REFLECTIONS_DELAY + EARLY_TAP_LENGTHS.back()*multiplier + AL_EAXREVERB_MAX_LATE_REVERB_DELAY + (LATE_LINE_LENGTHS.back() - LATE_LINE_LENGTHS.front())/float{NUM_LINES}*multiplier}; - totalSamples += mDelay.calcLineLength(length, totalSamples, frequency, BUFFERSIZE); + totalSamples += mDelay.calcLineLength(length, totalSamples, frequency, BufferLineSize); /* The early vector all-pass line. */ length = EARLY_ALLPASS_LENGTHS.back() * multiplier; diff --git a/alc/front_stablizer.h b/alc/front_stablizer.h index 066a70af..94882835 100644 --- a/alc/front_stablizer.h +++ b/alc/front_stablizer.h @@ -14,11 +14,11 @@ struct FrontStablizer { FrontStablizer(size_t numchans) : DelayBuf{numchans} { } - alignas(16) std::array<float,BUFFERSIZE + DelayLength> Side{}; - alignas(16) std::array<float,BUFFERSIZE + DelayLength> MidDirect{}; + alignas(16) std::array<float,BufferLineSize + DelayLength> Side{}; + alignas(16) std::array<float,BufferLineSize + DelayLength> MidDirect{}; alignas(16) std::array<float,DelayLength> MidDelay{}; - alignas(16) std::array<float,BUFFERSIZE + DelayLength> TempBuf{}; + alignas(16) std::array<float,BufferLineSize + DelayLength> TempBuf{}; BandSplitter MidFilter; alignas(16) FloatBufferLine MidLF{}; @@ -88,7 +88,7 @@ struct DirectHrtfState { alignas(16) HrirArray mCoeffs{}; }; - std::array<float,HRTF_DIRECT_DELAY+BUFFERSIZE> mTemp; + std::array<float,HRTF_DIRECT_DELAY+BufferLineSize> mTemp; /* HRTF filter state for dry buffer content */ uint mIrSize{0}; diff --git a/alc/mastering.cpp b/alc/mastering.cpp index e1e423b5..58f7ffa3 100644 --- a/alc/mastering.cpp +++ b/alc/mastering.cpp @@ -17,12 +17,12 @@ #include "opthelpers.h" -/* These structures assume BUFFERSIZE is a power of 2. */ -static_assert((BUFFERSIZE & (BUFFERSIZE-1)) == 0, "BUFFERSIZE is not a power of 2"); +/* These structures assume BufferLineSize is a power of 2. */ +static_assert((BufferLineSize & (BufferLineSize-1)) == 0, "BufferLineSize is not a power of 2"); struct SlidingHold { - alignas(16) float mValues[BUFFERSIZE]; - uint mExpiries[BUFFERSIZE]; + alignas(16) float mValues[BufferLineSize]; + uint mExpiries[BufferLineSize]; uint mLowerIndex; uint mUpperIndex; uint mLength; @@ -42,10 +42,10 @@ using namespace std::placeholders; */ float UpdateSlidingHold(SlidingHold *Hold, const uint i, const float in) { - static constexpr uint mask{BUFFERSIZE - 1}; + static constexpr uint mask{BufferLineSize - 1}; const uint length{Hold->mLength}; - float (&values)[BUFFERSIZE] = Hold->mValues; - uint (&expiries)[BUFFERSIZE] = Hold->mExpiries; + float (&values)[BufferLineSize] = Hold->mValues; + uint (&expiries)[BufferLineSize] = Hold->mExpiries; uint lowerIndex{Hold->mLowerIndex}; uint upperIndex{Hold->mUpperIndex}; @@ -318,9 +318,9 @@ std::unique_ptr<Compressor> Compressor::Create(const size_t NumChans, const floa const float AttackTime, const float ReleaseTime) { const auto lookAhead = static_cast<uint>( - clampf(std::round(LookAheadTime*SampleRate), 0.0f, BUFFERSIZE-1)); + clampf(std::round(LookAheadTime*SampleRate), 0.0f, BufferLineSize-1)); const auto hold = static_cast<uint>( - clampf(std::round(HoldTime*SampleRate), 0.0f, BUFFERSIZE-1)); + clampf(std::round(HoldTime*SampleRate), 0.0f, BufferLineSize-1)); size_t size{sizeof(Compressor)}; if(lookAhead > 0) @@ -426,7 +426,7 @@ void Compressor::process(const uint SamplesToDo, FloatBufferLine *OutBuffer) if(mDelay) SignalDelay(this, SamplesToDo, OutBuffer); - const float (&sideChain)[BUFFERSIZE*2] = mSideChain; + const float (&sideChain)[BufferLineSize*2] = mSideChain; auto apply_comp = [SamplesToDo,&sideChain](FloatBufferLine &input) noexcept -> void { float *buffer{al::assume_aligned<16>(input.data())}; diff --git a/alc/mastering.h b/alc/mastering.h index 9503a37e..0a98fe1f 100644 --- a/alc/mastering.h +++ b/alc/mastering.h @@ -44,8 +44,8 @@ struct Compressor { float mAttack{0.0f}; float mRelease{0.0f}; - alignas(16) float mSideChain[2*BUFFERSIZE]{}; - alignas(16) float mCrestFactor[BUFFERSIZE]{}; + alignas(16) float mSideChain[2*BufferLineSize]{}; + alignas(16) float mCrestFactor[BufferLineSize]{}; SlidingHold *mHold{nullptr}; FloatBufferLine *mDelay{nullptr}; diff --git a/alc/mixer/defs.h b/alc/mixer/defs.h index e3de6444..f8bdf428 100644 --- a/alc/mixer/defs.h +++ b/alc/mixer/defs.h @@ -23,7 +23,7 @@ constexpr int MixerFracMask{MixerFracOne - 1}; * Note that the padding is symmetric (half at the beginning and half at the * end)! */ -#define MAX_RESAMPLER_PADDING 48 +constexpr int MaxResamplerPadding{48}; template<typename TypeTag, typename InstTag> diff --git a/alc/uhjfilter.h b/alc/uhjfilter.h index e2ae7ef2..4984bcab 100644 --- a/alc/uhjfilter.h +++ b/alc/uhjfilter.h @@ -3,8 +3,8 @@ #include <array> -#include "alcmain.h" #include "almalloc.h" +#include "core/bufferline.h" struct Uhj2Encoder { @@ -18,13 +18,13 @@ struct Uhj2Encoder { alignas(16) std::array<float,sFilterSize> mMidDelay{}; alignas(16) std::array<float,sFilterSize> mSideDelay{}; - alignas(16) std::array<float,BUFFERSIZE+sFilterSize> mMid{}; - alignas(16) std::array<float,BUFFERSIZE+sFilterSize> mSide{}; + alignas(16) std::array<float,BufferLineSize+sFilterSize> mMid{}; + alignas(16) std::array<float,BufferLineSize+sFilterSize> mSide{}; /* History for the FIR filter. */ alignas(16) std::array<float,sFilterSize*2 - 1> mSideHistory{}; - alignas(16) std::array<float,BUFFERSIZE + sFilterSize*2> mTemp{}; + alignas(16) std::array<float,BufferLineSize + sFilterSize*2> mTemp{}; /** * Encodes a 2-channel UHJ (stereo-compatible) signal from a B-Format input diff --git a/alc/voice.cpp b/alc/voice.cpp index 174e8545..a1f49d6b 100644 --- a/alc/voice.cpp +++ b/alc/voice.cpp @@ -71,9 +71,9 @@ struct NEONTag; struct CopyTag; -static_assert((BUFFERSIZE-1)/MAX_PITCH > 0, "MAX_PITCH is too large for BUFFERSIZE!"); -static_assert((INT_MAX>>MixerFracBits)/MAX_PITCH > BUFFERSIZE, - "MAX_PITCH and/or BUFFERSIZE are too large for MixerFracBits!"); +static_assert((BufferLineSize-1)/MAX_PITCH > 0, "MAX_PITCH is too large for BufferLineSize!"); +static_assert((INT_MAX>>MixerFracBits)/MAX_PITCH > BufferLineSize, + "MAX_PITCH and/or BufferLineSize are too large for MixerFracBits!"); Resampler ResamplerDefault{Resampler::Linear}; @@ -515,9 +515,9 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) /* Calculate the last read src sample pos. */ DataSize64 = (DataSize64*increment + DataPosFrac) >> MixerFracBits; /* +1 to get the src sample count, include padding. */ - DataSize64 += 1 + MAX_RESAMPLER_PADDING; + DataSize64 += 1 + MaxResamplerPadding; - /* Result is guaranteed to be <= BUFFERSIZE+MAX_RESAMPLER_PADDING + /* Result is guaranteed to be <= BufferLineSize+MaxResamplerPadding * since we won't use more src samples than dst samples+padding. */ SrcBufferSize = static_cast<uint>(DataSize64); @@ -527,18 +527,18 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) uint64_t DataSize64{DstBufferSize}; /* Calculate the end src sample pos, include padding. */ DataSize64 = (DataSize64*increment + DataPosFrac) >> MixerFracBits; - DataSize64 += MAX_RESAMPLER_PADDING; + DataSize64 += MaxResamplerPadding; - if(DataSize64 <= BUFFERSIZE + MAX_RESAMPLER_PADDING) + if(DataSize64 <= BufferLineSize + MaxResamplerPadding) SrcBufferSize = static_cast<uint>(DataSize64); else { /* If the source size got saturated, we can't fill the desired * dst size. Figure out how many samples we can actually mix. */ - SrcBufferSize = BUFFERSIZE + MAX_RESAMPLER_PADDING; + SrcBufferSize = BufferLineSize + MaxResamplerPadding; - DataSize64 = SrcBufferSize - MAX_RESAMPLER_PADDING; + DataSize64 = SrcBufferSize - MaxResamplerPadding; DataSize64 = ((DataSize64<<MixerFracBits) - DataPosFrac) / increment; if(DataSize64 < DstBufferSize) { @@ -555,7 +555,7 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) BufferStorage *buffer{BufferListItem->mBuffer}; /* Exclude resampler pre-padding from the needed size. */ - const uint toLoad{SrcBufferSize - (MAX_RESAMPLER_PADDING>>1)}; + const uint toLoad{SrcBufferSize - (MaxResamplerPadding>>1)}; if(toLoad > mNumCallbackSamples) { const size_t byteOffset{mNumCallbackSamples*FrameSize}; @@ -587,11 +587,11 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) /* Load the previous samples into the source data first, then load * what we can from the buffer queue. */ - auto srciter = std::copy_n(chandata.mPrevSamples.begin(), MAX_RESAMPLER_PADDING>>1, + auto srciter = std::copy_n(chandata.mPrevSamples.begin(), MaxResamplerPadding>>1, SrcData.begin()); if UNLIKELY(!BufferListItem) - srciter = std::copy(chandata.mPrevSamples.begin()+(MAX_RESAMPLER_PADDING>>1), + srciter = std::copy(chandata.mPrevSamples.begin()+(MaxResamplerPadding>>1), chandata.mPrevSamples.end(), srciter); else if((mFlags&VoiceIsStatic)) srciter = LoadBufferStatic(BufferListItem, BufferLoopItem, num_chans, @@ -620,7 +620,7 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) /* Resample, then apply ambisonic upsampling as needed. */ const float *ResampledData{Resample(&mResampleState, - &SrcData[MAX_RESAMPLER_PADDING>>1], DataPosFrac, increment, + &SrcData[MaxResamplerPadding>>1], DataPosFrac, increment, {Device->ResampledData, DstBufferSize})}; if((mFlags&VoiceIsAmbisonic)) { @@ -636,7 +636,7 @@ void Voice::mix(const State vstate, ALCcontext *Context, const uint SamplesToDo) } /* Now filter and mix to the appropriate outputs. */ - float (&FilterBuf)[BUFFERSIZE] = Device->FilteredData; + float (&FilterBuf)[BufferLineSize] = Device->FilteredData; { DirectParams &parms = chandata.mDryParams; const float *samples{DoFilters(parms.LowPass, parms.HighPass, FilterBuf, diff --git a/alc/voice.h b/alc/voice.h index 3f1642f1..bb3d5e02 100644 --- a/alc/voice.h +++ b/alc/voice.h @@ -242,7 +242,7 @@ struct Voice { std::array<TargetData,MAX_SENDS> mSend; struct ChannelData { - alignas(16) std::array<float,MAX_RESAMPLER_PADDING> mPrevSamples; + alignas(16) std::array<float,MaxResamplerPadding> mPrevSamples; float mAmbiScale; BandSplitter mAmbiSplitter; |