mirror of
https://github.com/ptitSeb/Serious-Engine
synced 2024-12-28 00:14:51 +01:00
814 lines
27 KiB
C++
814 lines
27 KiB
C++
/* Copyright (c) 2002-2012 Croteam Ltd. All rights reserved. */
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#include "stdh.h"
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#include <Engine/Sound/SoundProfile.h>
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#include <Engine/Sound/SoundDecoder.h>
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#include <Engine/Sound/SoundLibrary.h>
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#include <Engine/Sound/SoundData.h>
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#include <Engine/Sound/SoundObject.h>
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#include <Engine/Base/Statistics_Internal.h>
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#include <Engine/Base/Console.h>
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// asm shortcuts
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#define O offset
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#define Q qword ptr
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#define D dword ptr
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#define W word ptr
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#define B byte ptr
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#define ASMOPT 1
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// console variables for volume
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extern FLOAT snd_fSoundVolume;
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extern FLOAT snd_fMusicVolume;
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extern INDEX snd_bMono;
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// a bunch of local vars coming up
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static SLONG slMixerBufferSampleRate; // quality of destination buffer
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static SLONG slMixerBufferSize; // size in samples per channel of the destination buffers
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static void *pvMixerBuffer; // pointer to the start of the destination buffers
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static CSoundData *psd;
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static SWORD *pswSrcBuffer;
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static SLONG slLeftVolume, slRightVolume, slLeftFilter, slRightFilter;
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static SLONG slLastLeftSample, slLastRightSample, slSoundBufferSize;
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static FLOAT fSoundSampleRate, fPhase;
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static FLOAT fOfsDelta, fStep, fLeftStep, fRightStep, fLeftOfs, fRightOfs;
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static __int64 fixLeftOfs, fixRightOfs; // fixed integers 32:32
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static __int64 mmSurroundFactor, mmLeftStep, mmRightStep, mmVolumeGain;
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static BOOL bNotLoop, bEndOfSound;
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static const FLOAT f65536 = 65536.0f;
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static const FLOAT f4G = 4294967296.0f;
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static __int64 mmInvFactor = 0x00007FFF00007FFF;
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static __int64 mmMaskLD = 0x00000000FFFFFFFF;
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static __int64 mmUnsign2Sign = 0x8000800080008000;
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// reset mixer buffer (wipes it with zeroes and remembers pointers in static mixer variables)
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void ResetMixer( const SLONG *pslBuffer, const SLONG slBufferSize)
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{
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// clamp master volumes
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snd_fSoundVolume = Clamp(snd_fSoundVolume, 0.0f, 1.0f);
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snd_fMusicVolume = Clamp(snd_fMusicVolume, 0.0f, 1.0f);
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// cache local variables
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ASSERT( slBufferSize%4==0);
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pvMixerBuffer = (void*)pslBuffer;
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slMixerBufferSize = slBufferSize /2/2; // because it's stereo and 16-bit dst format
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slMixerBufferSampleRate = _pSound->sl_SwfeFormat.nSamplesPerSec;
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// wipe destination mixer buffer
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__asm {
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cld
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xor eax,eax
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mov edi,D [pvMixerBuffer]
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mov ecx,D [slMixerBufferSize]
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shl ecx,1 // *2 because of 32-bit src format
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rep stosd
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}
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}
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// copy mixer buffer to the output buffer(s)
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void CopyMixerBuffer_stereo( const SLONG slSrcOffset, const void *pDstBuffer, const SLONG slBytes)
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{
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ASSERT( pDstBuffer!=NULL);
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ASSERT( slBytes%4==0);
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if( slBytes<4) return;
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__asm {
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cld
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mov esi,D [slSrcOffset]
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add esi,D [pvMixerBuffer]
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mov edi,D [pDstBuffer]
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mov ecx,D [slBytes]
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shr ecx,2 // bytes to samples per channel
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rep movsd
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}
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}
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// copy one channel from mixer buffer to the output buffer(s)
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void CopyMixerBuffer_mono( const SLONG slSrcOffset, const void *pDstBuffer, const SLONG slBytes)
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{
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ASSERT( pDstBuffer!=NULL);
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ASSERT( slBytes%2==0);
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if( slBytes<4) return;
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__asm {
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mov esi,D [slSrcOffset]
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add esi,D [pvMixerBuffer]
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mov edi,D [pDstBuffer]
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mov ecx,D [slBytes]
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shr ecx,2 // bytes to samples
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copyLoop:
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movzx eax,W [esi]
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mov W [edi],ax
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add esi,4
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add edi,2
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dec ecx
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jnz copyLoop
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}
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}
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// plain conversion of mixer buffer from 32-bit to 16-bit clamped
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static void ConvertMixerBuffer( const SLONG slBytes)
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{
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ASSERT( slBytes%4==0);
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if( slBytes<4) return;
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__asm {
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cld
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mov esi,D [pvMixerBuffer]
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mov edi,D [pvMixerBuffer]
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mov ecx,D [slBytes]
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shr ecx,2 // bytes to samples (2 channels)
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copyLoop:
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movq mm0,Q [esi]
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packssdw mm0,mm0
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movd D [edi],mm0
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add esi,8
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add edi,4
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dec ecx
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jnz copyLoop
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emms
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}
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}
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// normalize mixer buffer
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void NormalizeMixerBuffer( const FLOAT fNormStrength, const SLONG slBytes, FLOAT &fLastNormValue)
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{
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// just convert to 16-bit if normalization isn't required
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ASSERT( slBytes%4==0);
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if( slBytes<8) return;
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if( fNormStrength<0.01f) {
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ConvertMixerBuffer(slBytes);
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return;
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}
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// well, I guess we'll might need to normalize a bit, so first - find maximum
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INDEX i;
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SLONG slPeak = 0;
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SLONG *pslSrc = (SLONG*)pvMixerBuffer;
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const INDEX iSamples = slBytes/2; // 16-bit was assumed -> samples (treat as mono)
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for( i=0; i<iSamples; i++) slPeak = Max( Abs(pslSrc[i]), slPeak);
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// determine normalize value and skip normalization if maximize is required (do not increase volume!)
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FLOAT fNormValue = 32767.0f / (FLOAT)slPeak;
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if( fNormValue>0.99f && fLastNormValue>0.99f) { // should be enough to tolerate
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fLastNormValue = 1.0f;
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ConvertMixerBuffer(slBytes);
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return;
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}
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// adjust normalize value by strength
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ASSERT( fNormStrength>=0 && fNormStrength<=1);
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fNormValue = Lerp( 1.0f, fNormValue, fNormStrength);
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const FLOAT fNormAdd = (fNormValue-fLastNormValue) / (iSamples/4);
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// normalize (and convert to 16-bit)
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SWORD *pswDst = (SWORD*)pvMixerBuffer;
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FLOAT fCurrentNormValue = fLastNormValue;
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for( i=0; i<iSamples; i++) {
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SLONG slSample = FloatToInt(pslSrc[i]*fCurrentNormValue);
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pswDst[i] = (SWORD)Clamp( slSample, -32767L, +32767L);
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fCurrentNormValue = fCurrentNormValue+fNormAdd; // interpolate normalizer
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if( fCurrentNormValue<fNormValue && fNormAdd<0) fCurrentNormValue = fNormValue; // clamp interpolated value
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else if( fCurrentNormValue>fNormValue && fNormAdd>0) fCurrentNormValue = fNormValue;
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}
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// CPrintF( "%.5f -> %.5f (%.5f) @ %.9f / %d\n", fLastNormValue, fCurrentNormValue, fNormValue, fNormAdd, iSamples);
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// remember normalization value
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fLastNormValue = fCurrentNormValue;
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}
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// mixes one mono 16-bit signed sound to destination buffer
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inline void MixMono( CSoundObject *pso)
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{
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_pfSoundProfile.StartTimer(CSoundProfile::PTI_RAWMIXER);
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#if ASMOPT == 1
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__asm {
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// convert from floats to fixints 32:16
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fld D [fLeftOfs]
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fmul D [f65536]
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fld D [fRightOfs]
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fmul D [f65536]
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fld D [fLeftStep]
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fmul D [f65536]
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fld D [fRightStep]
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fmul D [f4G]
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fistp Q [mmRightStep] // fixint 32:32
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fistp Q [mmLeftStep] // fixint 32:16
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fistp Q [fixRightOfs] // fixint 32:16
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fistp Q [fixLeftOfs] // fixint 32:16
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// get last played sample (for filtering purposes)
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movzx eax,W [slLastRightSample]
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movzx edx,W [slLastLeftSample]
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shl eax,16
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or eax,edx
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movd mm6,eax // MM6 = 0 | 0 || lastRightSample | lastLeftSample
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// get volume
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movd mm5,D [slRightVolume]
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movd mm0,D [slLeftVolume]
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psllq mm5,32
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por mm5,mm0 // MM5 = rightVolume || leftVolume
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// get filter
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mov eax,D [slRightFilter]
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mov edx,D [slLeftFilter]
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shl eax,16
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or eax,edx
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movd mm7,eax // MM7 = 0 | 0 || rightFilter | leftFilter
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// get offset of each channel inside sound and loop thru destination buffer
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mov W [mmRightStep],0
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movzx eax,W [fixLeftOfs]
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movzx edx,W [fixRightOfs]
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shl edx,16
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or eax,edx // EAX = right ofs frac | left ofs frac
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mov ebx,D [fixLeftOfs+2] // EBX = left ofs int
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mov edx,D [fixRightOfs+2] // EDX = right ofs int
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mov esi,D [pswSrcBuffer] // ESI = source sound buffer start ptr
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mov edi,D [pvMixerBuffer] // EDI = mixer buffer ptr
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mov ecx,D [slMixerBufferSize] // ECX = samples counter
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sampleLoop:
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// check if source offsets came to the end of source sound buffer
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cmp ebx,D [slSoundBufferSize]
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jl lNotEnd
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sub ebx,D [slSoundBufferSize]
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push D [bNotLoop]
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pop D [bEndOfSound]
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lNotEnd:
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// same for right channel
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cmp edx,D [slSoundBufferSize]
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jl rNotEnd
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sub edx,D [slSoundBufferSize]
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push D [bNotLoop]
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pop D [bEndOfSound]
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rNotEnd:
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// check end of sample
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cmp ecx,0
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jle loopEnd
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cmp D [bEndOfSound],TRUE
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je loopEnd
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// get sound samples
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movd mm1,D [esi+ ebx*2] // MM1 = 0 | 0 || nextLeftSample | leftSample
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movd mm2,D [esi+ edx*2] // MM2 = 0 | 0 || nextRightSample | RightSample
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psllq mm2,32
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por mm1,mm2 // MM1 = nextRightSample | rightSample || nextLeftSample | leftSample
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// calc linear interpolation factor (strength)
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movd mm3,eax // MM3 = 0 | 0 || right frac | left frac
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punpcklwd mm3,mm3
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psrlw mm3,1 // MM3 = rightFrac | rightFrac || leftFrac | leftFrac
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pxor mm3,Q [mmInvFactor] // MM3 = rightFrac | 1-rightFrac || leftFrac | 1-leftFrac
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// apply linear interpolation
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pmaddwd mm1,mm3
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psrad mm1,15
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packssdw mm1,mm1 // MM1 = ? | ? || linearRightSample | linearLeftSample
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// apply filter
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psubsw mm1,mm6
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pmulhw mm1,mm7
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psllw mm1,1
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paddsw mm1,mm6
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movq mm6,mm1
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// apply volume adjustment
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movq mm0,mm5
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psrad mm0,16
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packssdw mm0,mm0
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pmulhw mm1,mm0
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psllw mm1,1
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pxor mm1,Q [mmSurroundFactor]
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paddd mm5,Q [mmVolumeGain] // modify volume
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// unpack to 32bit and mix it into destination buffer
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punpcklwd mm1,mm1
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psrad mm1,16 // MM1 = finalRightSample || finalLeftSample
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paddd mm1,Q [edi]
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movq Q [edi],mm1
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// advance to next samples in source sound
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add eax,D [mmRightStep+0]
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adc edx,D [mmRightStep+4]
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add ax,W [mmLeftStep +0]
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adc ebx,D [mmLeftStep +2]
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add edi,8
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dec ecx
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jmp sampleLoop
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loopEnd:
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// store modified asm local vars
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mov D [fixLeftOfs +0],eax
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shr eax,16
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mov D [fixRightOfs+0],eax
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mov D [fixLeftOfs +2],ebx
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mov D [fixRightOfs+2],edx
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movd eax,mm6
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mov edx,eax
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and eax,0x0000FFFF
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shr edx,16
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mov D [slLastLeftSample],eax
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mov D [slLastRightSample],edx
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emms
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}
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#else
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// initialize some local vars
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SLONG slLeftSample, slRightSample, slNextSample;
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SLONG *pslDstBuffer = (SLONG*)pvMixerBuffer;
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fixLeftOfs = (__int64)(fLeftOfs * 65536.0);
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fixRightOfs = (__int64)(fRightOfs * 65536.0);
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__int64 fixLeftStep = (__int64)(fLeftStep * 65536.0);
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__int64 fixRightStep = (__int64)(fRightStep * 65536.0);
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__int64 fixSoundBufferSize = ((__int64)slSoundBufferSize)<<16;
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mmSurroundFactor = (__int64)(SWORD)mmSurroundFactor;
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// loop thru source buffer
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INDEX iCt = slMixerBufferSize;
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FOREVER
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{
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// if left channel source sample came to end of sample buffer
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if( fixLeftOfs >= fixSoundBufferSize) {
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fixLeftOfs -= fixSoundBufferSize;
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// if has no loop, end it
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bEndOfSound = bNotLoop;
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}
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// if right channel source sample came to end of sample buffer
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if( fixRightOfs >= fixSoundBufferSize) {
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fixRightOfs -= fixSoundBufferSize;
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// if has no loop, end it
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bEndOfSound = bNotLoop;
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}
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// end of buffer?
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if( iCt<=0 || bEndOfSound) break;
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// fetch one lineary interpolated sample on left channel
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slLeftSample = pswSrcBuffer[(fixLeftOfs>>16)+0];
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slNextSample = pswSrcBuffer[(fixLeftOfs>>16)+1];
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slLeftSample = (slLeftSample*(65535-(fixLeftOfs&65535)) + slNextSample*(fixLeftOfs&65535)) >>16;
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// fetch one lineary interpolated sample on right channel
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slRightSample = pswSrcBuffer[(fixRightOfs>>16)+0];
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slNextSample = pswSrcBuffer[(fixRightOfs>>16)+1];
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slRightSample = (slRightSample*(65535-(fixRightOfs&65535)) + slNextSample*(fixRightOfs&65535)) >>16;
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// filter samples
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slLastLeftSample += ((slLeftSample -slLastLeftSample) *slLeftFilter) >>15;
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slLastRightSample += ((slRightSample-slLastRightSample)*slRightFilter)>>15;
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// apply stereo volume to current sample
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slLeftSample = (slLastLeftSample * slLeftVolume) >>15;
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slRightSample = (slLastRightSample * slRightVolume)>>15;
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slRightSample = slRightSample ^ mmSurroundFactor;
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// mix in current sample
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slLeftSample += pslDstBuffer[0];
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slRightSample += pslDstBuffer[1];
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// upper clamp
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if( slLeftSample > MAX_SWORD) slLeftSample = MAX_SWORD;
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if( slRightSample > MAX_SWORD) slRightSample = MAX_SWORD;
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// lower clamp
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if( slLeftSample < MIN_SWORD) slLeftSample = MIN_SWORD;
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if( slRightSample < MIN_SWORD) slRightSample = MIN_SWORD;
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// store samples (both channels)
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pslDstBuffer[0] = slLeftSample;
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pslDstBuffer[1] = slRightSample;
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// modify volume `
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slLeftVolume += (SWORD)((mmVolumeGain>> 0)&0xFFFF);
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slRightVolume += (SWORD)((mmVolumeGain>>16)&0xFFFF);
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// advance to next sample
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fixLeftOfs += fixLeftStep;
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fixRightOfs += fixRightStep;
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pslDstBuffer += 4;
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iCt--;
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}
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#endif
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_pfSoundProfile.StopTimer(CSoundProfile::PTI_RAWMIXER);
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}
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// mixes one stereo 16-bit signed sound to destination buffer
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inline void MixStereo( CSoundObject *pso)
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{
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_pfSoundProfile.StartTimer(CSoundProfile::PTI_RAWMIXER);
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#if ASMOPT == 1
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__asm {
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// convert from floats to fixints 32:16
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fld D [fLeftOfs]
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fmul D [f65536]
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fld D [fRightOfs]
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fmul D [f65536]
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fld D [fLeftStep]
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fmul D [f65536]
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fld D [fRightStep]
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fmul D [f4G]
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fistp Q [mmRightStep] // fixint 32:32
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fistp Q [mmLeftStep] // fixint 32:16
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fistp Q [fixRightOfs] // fixint 32:16
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fistp Q [fixLeftOfs] // fixint 32:16
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// get last played sample (for filtering purposes)
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movzx eax,W [slLastRightSample]
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movzx edx,W [slLastLeftSample]
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shl eax,16
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or eax,edx
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movd mm6,eax // MM6 = 0 | 0 || lastRightSample | lastLeftSample
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// get volume
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movd mm5,D [slRightVolume]
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movd mm0,D [slLeftVolume]
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psllq mm5,32
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por mm5,mm0 // MM5 = rightVolume || leftVolume
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// get filter
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mov eax,D [slRightFilter]
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mov edx,D [slLeftFilter]
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shl eax,16
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or eax,edx
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movd mm7,eax // MM7 = 0 | 0 || rightFilter | leftFilter
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// get offset of each channel inside sound and loop thru destination buffer
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mov W [mmRightStep],0
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movzx eax,W [fixLeftOfs]
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movzx edx,W [fixRightOfs]
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shl edx,16
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or eax,edx // EAX = right ofs frac | left ofs frac
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mov ebx,D [fixLeftOfs+2] // EBX = left ofs int
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mov edx,D [fixRightOfs+2] // EDX = right ofs int
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mov esi,D [pswSrcBuffer] // ESI = source sound buffer start ptr
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mov edi,D [pvMixerBuffer] // EDI = mixer buffer ptr
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mov ecx,D [slMixerBufferSize] // ECX = samples counter
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sampleLoop:
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// check if source offsets came to the end of source sound buffer
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cmp ebx,D [slSoundBufferSize]
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jl lNotEnd
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sub ebx,D [slSoundBufferSize]
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push D [bNotLoop]
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pop D [bEndOfSound]
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lNotEnd:
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// same for right channel
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cmp edx,D [slSoundBufferSize]
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jl rNotEnd
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sub edx,D [slSoundBufferSize]
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push D [bNotLoop]
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pop D [bEndOfSound]
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rNotEnd:
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|
// check end of sample
|
|
cmp ecx,0
|
|
jle loopEnd
|
|
cmp D [bEndOfSound],TRUE
|
|
je loopEnd
|
|
|
|
// get sound samples
|
|
movq mm1,Q [esi+ ebx*4]
|
|
movq mm2,Q [esi+ edx*4]
|
|
pslld mm1,16
|
|
psrad mm1,16 // MM1 = 0 | nextLeftSample || 0 | leftSample
|
|
psrad mm2,16 // MM2 = 0 | nextRightSample || 0 | rightSample
|
|
packssdw mm1,mm2 // MM1 = nextRightSample | rightSample || nextLeftSample | leftSample
|
|
|
|
// calc linear interpolation factor (strength)
|
|
movd mm3,eax // MM3 = 0 | 0 || right frac | left frac
|
|
punpcklwd mm3,mm3
|
|
psrlw mm3,1 // MM3 = rightFrac | rightFrac || leftFrac | leftFrac
|
|
pxor mm3,Q [mmInvFactor] // MM3 = rightFrac | 1-rightFrac || leftFrac | 1-leftFrac
|
|
// apply linear interpolation
|
|
pmaddwd mm1,mm3
|
|
psrad mm1,15
|
|
packssdw mm1,mm1 // MM1 = ? | ? || linearRightSample | linearLeftSample
|
|
|
|
// apply filter
|
|
psubsw mm1,mm6
|
|
pmulhw mm1,mm7
|
|
psllw mm1,1
|
|
paddsw mm1,mm6
|
|
movq mm6,mm1
|
|
|
|
// apply volume adjustment
|
|
movq mm0,mm5
|
|
psrad mm0,16
|
|
packssdw mm0,mm0
|
|
pmulhw mm1,mm0
|
|
psllw mm1,1
|
|
pxor mm1,Q [mmSurroundFactor]
|
|
paddd mm5,Q [mmVolumeGain] // modify volume
|
|
|
|
// unpack to 32bit and mix it into destination buffer
|
|
punpcklwd mm1,mm1
|
|
psrad mm1,16 // MM1 = finalRightSample || finalLeftSample
|
|
paddd mm1,Q [edi]
|
|
movq Q [edi],mm1
|
|
|
|
// advance to next samples in source sound
|
|
add eax,D [mmRightStep+0]
|
|
adc edx,D [mmRightStep+4]
|
|
add ax,W [mmLeftStep +0]
|
|
adc ebx,D [mmLeftStep +2]
|
|
add edi,8
|
|
dec ecx
|
|
jmp sampleLoop
|
|
|
|
loopEnd:
|
|
// store modified asm local vars
|
|
mov D [fixLeftOfs +0],eax
|
|
shr eax,16
|
|
mov D [fixRightOfs+0],eax
|
|
mov D [fixLeftOfs +2],ebx
|
|
mov D [fixRightOfs+2],edx
|
|
movd eax,mm6
|
|
mov edx,eax
|
|
and eax,0x0000FFFF
|
|
shr edx,16
|
|
mov D [slLastLeftSample],eax
|
|
mov D [slLastRightSample],edx
|
|
emms
|
|
}
|
|
|
|
#endif
|
|
|
|
_pfSoundProfile.StopTimer(CSoundProfile::PTI_RAWMIXER);
|
|
}
|
|
|
|
|
|
// mixes one sound to destination buffer
|
|
void MixSound( CSoundObject *pso)
|
|
{
|
|
psd = pso->so_pCsdLink;
|
|
|
|
// if don't mix encoded sounds if they are not opened properly
|
|
if((psd->sd_ulFlags&SDF_ENCODED) &&
|
|
(pso->so_psdcDecoder==NULL || !pso->so_psdcDecoder->IsOpen()) ) {
|
|
return;
|
|
}
|
|
|
|
// check for supported sound formats
|
|
const SLONG slChannels = pso->so_pCsdLink->sd_wfeFormat.nChannels;
|
|
const SLONG slBytes = pso->so_pCsdLink->sd_wfeFormat.wBitsPerSample/8;
|
|
// unsupported sound formats will be ignored
|
|
if( (slChannels!=1 && slChannels!=2) || slBytes!=2) return;
|
|
|
|
// check for delay
|
|
const FLOAT f1oMixerBufferSampleRate = 1.0f / slMixerBufferSampleRate;
|
|
const FLOAT fSecondsToMix = (FLOAT)slMixerBufferSize * f1oMixerBufferSampleRate;
|
|
pso->so_fDelayed += fSecondsToMix;
|
|
if( pso->so_fDelayed < pso->so_sp.sp_fDelay) {
|
|
_pfSoundProfile.IncrementCounter(CSoundProfile::PCI_SOUNDSDELAYED, 1);
|
|
return;
|
|
}
|
|
// playing started, so skip further delays
|
|
pso->so_fDelayed = 9999.9999f;
|
|
|
|
// reach sound data and determine sound step, sound buffer and buffer size
|
|
pswSrcBuffer = psd->sd_pswBuffer;
|
|
fSoundSampleRate = psd->sd_wfeFormat.nSamplesPerSec * pso->so_sp.sp_fPitchShift;
|
|
fStep = fSoundSampleRate * f1oMixerBufferSampleRate;
|
|
fLeftStep = fStep;
|
|
fRightStep = fStep;
|
|
slSoundBufferSize = psd->sd_slBufferSampleSize;
|
|
// eliminate potentional "puck" at the of sample that hasn't loop
|
|
if( !(pso->so_slFlags&SOF_LOOP) && slSoundBufferSize>1) slSoundBufferSize--;
|
|
|
|
// get old and new volumes
|
|
FLOAT fLeftVolume = ClampDn( pso->so_fLastLeftVolume, 0.0f);
|
|
FLOAT fRightVolume = ClampDn( pso->so_fLastRightVolume, 0.0f);
|
|
FLOAT fNewLeftVolume = ClampDn( pso->so_sp.sp_fLeftVolume, 0.0f);
|
|
FLOAT fNewRightVolume = ClampDn( pso->so_sp.sp_fRightVolume, 0.0f);
|
|
|
|
// adjust for master volume
|
|
if(pso->so_slFlags&SOF_MUSIC) {
|
|
fNewLeftVolume *= snd_fMusicVolume;
|
|
fNewRightVolume *= snd_fMusicVolume;
|
|
} else {
|
|
fNewLeftVolume *= snd_fSoundVolume;
|
|
fNewRightVolume *= snd_fSoundVolume;
|
|
}
|
|
|
|
// if both channel volumes are too low
|
|
if( fLeftVolume<0.001f && fRightVolume<0.001f && fNewLeftVolume<0.001f && fNewRightVolume<0.001f)
|
|
{
|
|
// if this is not an encoded sound
|
|
if( !(psd->sd_ulFlags&SDF_ENCODED) ) {
|
|
// skip mixing of this sample segment
|
|
fOfsDelta = fStep*slMixerBufferSampleRate*fSecondsToMix;
|
|
pso->so_fLeftOffset += fOfsDelta;
|
|
pso->so_fRightOffset += fOfsDelta;
|
|
const FLOAT fMinOfs = Min( pso->so_fLeftOffset, pso->so_fRightOffset);
|
|
ASSERT( fMinOfs>=0);
|
|
if( fMinOfs<0) CPrintF( "BUG: negative offset (%.2g) encountered in sound: '%s' !\n", fMinOfs, (CTString&)psd->GetName());
|
|
// if looping
|
|
if (pso->so_slFlags & SOF_LOOP) {
|
|
// adjust offset ptrs inside sound
|
|
while( pso->so_fLeftOffset < 0) pso->so_fLeftOffset += slSoundBufferSize;
|
|
while( pso->so_fRightOffset < 0) pso->so_fRightOffset += slSoundBufferSize;
|
|
while( pso->so_fLeftOffset >= slSoundBufferSize) pso->so_fLeftOffset -= slSoundBufferSize;
|
|
while( pso->so_fRightOffset >= slSoundBufferSize) pso->so_fRightOffset -= slSoundBufferSize;
|
|
// if not looping
|
|
} else {
|
|
// no more playing
|
|
pso->so_slFlags &= ~SOF_PLAY;
|
|
pso->so_fDelayed = 0.0f;
|
|
pso->so_sp.sp_fDelay = 0.0f;
|
|
}
|
|
}
|
|
// reset last samples
|
|
pso->so_swLastLeftSample = 0;
|
|
pso->so_swLastRightSample = 0;
|
|
// update volume
|
|
pso->so_fLastLeftVolume = fNewLeftVolume;
|
|
pso->so_fLastRightVolume = fNewRightVolume;
|
|
|
|
_pfSoundProfile.IncrementCounter(CSoundProfile::PCI_SOUNDSSKIPPED, 1);
|
|
return;
|
|
}
|
|
_sfStats.IncrementCounter(CStatForm::SCI_SOUNDSMIXING);
|
|
|
|
// cache sound object vars
|
|
fPhase = pso->so_sp.sp_fPhaseShift;
|
|
fLeftOfs = pso->so_fLeftOffset;
|
|
fRightOfs = pso->so_fRightOffset;
|
|
fOfsDelta = pso->so_fOffsetDelta;
|
|
slLeftVolume = FloatToInt(fLeftVolume * 65536*32767.0f);
|
|
slRightVolume = FloatToInt(fRightVolume * 65536*32767.0f);
|
|
const FLOAT fMixBufSize = 65536*32767.0f / slMixerBufferSize;
|
|
const SLONG slLeftGain = FloatToInt( (fNewLeftVolume -fLeftVolume) *fMixBufSize);
|
|
const SLONG slRightGain = FloatToInt( (fNewRightVolume-fRightVolume) *fMixBufSize);
|
|
mmVolumeGain = ((__int64)(slRightGain)<<32) | ((__int64)(slLeftGain)&0xFFFFFFFF);
|
|
// extrapolate back new volumes because of not enough precision in interpolation!
|
|
// (otherwise we might hear occasional pucks)
|
|
if( fNewLeftVolume >0.001f) fNewLeftVolume = (slLeftVolume + slLeftGain *slMixerBufferSize) /(65536*32767.0f);
|
|
if( fNewRightVolume>0.001f) fNewRightVolume = (slRightVolume + slRightGain*slMixerBufferSize) /(65536*32767.0f);
|
|
//ASSERT( fNewLeftVolume>=0 && fNewRightVolume>=0);
|
|
//CPrintF( "NV: %.4f / %.4f, GV: %.4f / %.4f\n", fNewLeftVolume,fNewRightVolume, fLeftGainedVolume,fRightGainedVolume);
|
|
|
|
// determine filtering and surround
|
|
slLeftFilter = pso->so_sp.sp_slLeftFilter;
|
|
slRightFilter = pso->so_sp.sp_slRightFilter;
|
|
bNotLoop = !(pso->so_slFlags & SOF_LOOP);
|
|
mmSurroundFactor = 0;
|
|
if( pso->so_slFlags & SOF_SURROUND) mmSurroundFactor = 0x0000FFFF;
|
|
|
|
// if this is an encoded sound
|
|
BOOL bDecodingFinished = FALSE;
|
|
if( psd->sd_ulFlags&SDF_ENCODED) {
|
|
_pfSoundProfile.StartTimer(CSoundProfile::PTI_DECODESOUND);
|
|
// decode some samples from it
|
|
SLONG slWantedBytes = FloatToInt(slMixerBufferSize*fStep*pso->so_pCsdLink->sd_wfeFormat.nChannels) *2;
|
|
void *pvDecodeBuffer = _pSound->sl_pswDecodeBuffer;
|
|
ASSERT(slWantedBytes<=_pSound->sl_slDecodeBufferSize);
|
|
SLONG slDecodedBytes = pso->so_psdcDecoder->Decode( pvDecodeBuffer, slWantedBytes);
|
|
ASSERT(slDecodedBytes<=slWantedBytes);
|
|
// if it has a loop
|
|
if (!bNotLoop) {
|
|
// if sound is shorter than buffer
|
|
while(slDecodedBytes<slWantedBytes) {
|
|
// decode it again and again
|
|
pso->so_psdcDecoder->Reset();
|
|
slDecodedBytes += pso->so_psdcDecoder->Decode( ((UBYTE*)pvDecodeBuffer) +
|
|
slDecodedBytes, slWantedBytes-slDecodedBytes);
|
|
}
|
|
// if it doesn't have a loop
|
|
} else {
|
|
// if sound is shorter than buffer
|
|
if(slDecodedBytes<slWantedBytes) {
|
|
// mark that it is finished
|
|
bDecodingFinished = TRUE;
|
|
}
|
|
}
|
|
// copy first sample to the last one (this is needed for linear interpolation)
|
|
(ULONG&)(((UBYTE*)pvDecodeBuffer)[slDecodedBytes]) = *(ULONG*)pvDecodeBuffer;
|
|
// fix some mixer variables to play temporary decode buffer instead of real sound
|
|
pswSrcBuffer = (SWORD*)pvDecodeBuffer;
|
|
slSoundBufferSize = slDecodedBytes>>2; // convert to samples
|
|
fLeftOfs = 0.0f;
|
|
fRightOfs = 0.0f;
|
|
fPhase = 0.0f;
|
|
|
|
_pfSoundProfile.StopTimer(CSoundProfile::PTI_DECODESOUND);
|
|
}
|
|
|
|
_pfSoundProfile.IncrementCounter(CSoundProfile::PCI_SOUNDSMIXED, 1);
|
|
_pfSoundProfile.IncrementCounter(CSoundProfile::PCI_SAMPLES, slMixerBufferSize);
|
|
|
|
_pfSoundProfile.StartTimer(CSoundProfile::PTI_MIXSOUND);
|
|
|
|
slLastLeftSample = pso->so_swLastLeftSample;
|
|
slLastRightSample = pso->so_swLastRightSample;
|
|
|
|
// calculate eventual new offsets from phase shift
|
|
FLOAT fLastPhase = fOfsDelta / fSoundSampleRate;
|
|
FLOAT fPhaseDelta = fPhase - fLastPhase;
|
|
FLOAT fStepDelta = Abs( fPhaseDelta*fSoundSampleRate / slMixerBufferSize);
|
|
|
|
FLOAT fStepDeltaL, fStepDeltaR;
|
|
if( fPhaseDelta>0) {
|
|
fStepDeltaL = fStepDelta/2;
|
|
if( fStepDeltaL>fLeftStep/2) fStepDeltaL = fLeftStep/2;
|
|
fStepDeltaL = -fStepDeltaL;
|
|
fStepDeltaR = fStepDelta + fStepDeltaL;
|
|
} else {
|
|
fStepDeltaR = fStepDelta/2;
|
|
if( fStepDeltaR>fLeftStep/2) fStepDeltaR = fLeftStep/2;
|
|
fStepDeltaR = -fStepDeltaR;
|
|
fStepDeltaL = fStepDelta + fStepDeltaR;
|
|
}
|
|
fLeftStep += fStepDeltaL;
|
|
fRightStep += fStepDeltaR;
|
|
fStepDelta = fStepDeltaR-fStepDeltaL;
|
|
|
|
// if there is anything to mix (could be nothing when encoded file just finished)
|
|
if( slSoundBufferSize>0) {
|
|
// safety check (needed because of bad-bug!)
|
|
FLOAT fMinOfs = Min( fLeftOfs, fRightOfs);
|
|
ASSERT( fMinOfs>=0);
|
|
if( fMinOfs<0) CPrintF( "BUG: negative offset (%.2g) encountered in sound: '%s' !\n", fMinOfs, (CTString&)psd->GetName());
|
|
// adjust offset ptrs inside sound to match those of phase shift
|
|
while( fLeftOfs < 0) fLeftOfs += slSoundBufferSize;
|
|
while( fRightOfs < 0) fRightOfs += slSoundBufferSize;
|
|
while( fLeftOfs >= slSoundBufferSize) fLeftOfs -= slSoundBufferSize;
|
|
while( fRightOfs >= slSoundBufferSize) fRightOfs -= slSoundBufferSize;
|
|
|
|
// if mono output is required
|
|
if( snd_bMono) {
|
|
// monomize channels (cool word:)
|
|
fLeftOfs = (fLeftOfs+fRightOfs)/2;
|
|
fRightOfs = fLeftOfs;
|
|
fLeftStep = (fLeftStep+fRightStep)/2;
|
|
fRightStep = fLeftStep;
|
|
slLeftVolume = (slLeftVolume+slRightVolume)/2;
|
|
slRightVolume = slLeftVolume;
|
|
slLeftFilter = (slLeftFilter+slRightFilter)/2;
|
|
slRightFilter = slLeftFilter;
|
|
}
|
|
|
|
// call corresponding mixer routine for current sound format
|
|
bEndOfSound = FALSE;
|
|
if( slChannels==2) {
|
|
// mix as 16-bit stereo
|
|
MixStereo( pso);
|
|
} else {
|
|
// mix as 16-bit mono
|
|
MixMono( pso);
|
|
}
|
|
}
|
|
|
|
// if encoded sound
|
|
if( psd->sd_ulFlags&SDF_ENCODED) {
|
|
// ignore mixing finished flag, but use decoding finished flag
|
|
bEndOfSound = bDecodingFinished;
|
|
}
|
|
|
|
// if sound ended, not buffer
|
|
if( bEndOfSound) {
|
|
// reset some sound vars
|
|
slLastLeftSample = 0;
|
|
slLastRightSample = 0;
|
|
pso->so_slFlags &= ~SOF_PLAY;
|
|
pso->so_fDelayed = 0.0f;
|
|
pso->so_sp.sp_fDelay = 0.0f;
|
|
}
|
|
|
|
// rememer last samples for the next mix in
|
|
pso->so_swLastLeftSample = (SWORD)slLastLeftSample;
|
|
pso->so_swLastRightSample = (SWORD)slLastRightSample;
|
|
// determine new phase shift offset
|
|
pso->so_fOffsetDelta += fStepDelta*slMixerBufferSize;
|
|
// update play offset for the next mix iteration
|
|
pso->so_fLeftOffset = fixLeftOfs * (1.0f/65536.0f);
|
|
pso->so_fRightOffset = fixRightOfs * (1.0f/65536.0f);
|
|
// update volume
|
|
pso->so_fLastLeftVolume = fNewLeftVolume;
|
|
pso->so_fLastRightVolume = fNewRightVolume;
|
|
|
|
//if( pso->so_fLastLeftVolume>0 || pso->so_fLastRightVolume>0 || fNewLeftVolume>0 || fNewRightVolume>0) {
|
|
// CPrintF( "SO: 0x%8X; OV: %.4f / %.4f, NV: %.4f / %.4f\n", pso,
|
|
// pso->so_fLastLeftVolume,pso->so_fLastRightVolume, fNewLeftVolume,fNewRightVolume);
|
|
//}
|
|
_pfSoundProfile.StopTimer(CSoundProfile::PTI_MIXSOUND);
|
|
}
|
|
|