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554 lines
17 KiB
C
554 lines
17 KiB
C
/*
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* PROJECT: ReactOS Sound System
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* LICENSE: GPL - See COPYING in the top level directory
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* FILE: dll/win32/wdmaud.drv/mixer.c
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*
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* PURPOSE: WDM Audio Driver (User-mode part)
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* PROGRAMMERS: Johannes Anderwald
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*/
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#include "wdmaud.h"
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#include <samplerate.h>
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#include <float_cast.h>
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#define NDEBUG
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#include <debug.h>
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#include <mmebuddy_debug.h>
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extern HANDLE KernelHandle;
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DWORD
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PerformSampleRateConversion(
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PUCHAR Buffer,
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ULONG BufferLength,
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ULONG OldRate,
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ULONG NewRate,
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ULONG BytesPerSample,
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ULONG NumChannels,
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PVOID * Result,
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PULONG ResultLength)
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{
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ULONG Index;
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SRC_STATE * State;
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SRC_DATA Data;
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PUCHAR ResultOut;
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int error;
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PFLOAT FloatIn, FloatOut;
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ULONG NumSamples;
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ULONG NewSamples;
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//SND_TRACE(L"PerformSampleRateConversion OldRate %u NewRate %u BytesPerSample %u NumChannels %u\n", OldRate, NewRate, BytesPerSample, NumChannels);
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ASSERT(BytesPerSample == 1 || BytesPerSample == 2 || BytesPerSample == 4);
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NumSamples = BufferLength / (BytesPerSample * NumChannels);
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FloatIn = HeapAlloc(GetProcessHeap(), 0, NumSamples * NumChannels * sizeof(FLOAT));
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if (!FloatIn)
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{
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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NewSamples = ((((ULONG64)NumSamples * NewRate) + (OldRate / 2)) / OldRate) + 2;
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FloatOut = HeapAlloc(GetProcessHeap(), 0, NewSamples * NumChannels * sizeof(FLOAT));
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if (!FloatOut)
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{
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HeapFree(GetProcessHeap(), 0,FloatIn);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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ResultOut = HeapAlloc(GetProcessHeap(), 0, NewSamples * NumChannels * BytesPerSample);
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if (!ResultOut)
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{
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HeapFree(GetProcessHeap(), 0,FloatIn);
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HeapFree(GetProcessHeap(), 0,FloatOut);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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State = src_new(SRC_SINC_FASTEST, NumChannels, &error);
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if (!State)
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{
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HeapFree(GetProcessHeap(), 0,FloatIn);
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HeapFree(GetProcessHeap(), 0,FloatOut);
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HeapFree(GetProcessHeap(), 0,ResultOut);
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return ERROR_NOT_ENOUGH_MEMORY;
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}
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/* fixme use asm */
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if (BytesPerSample == 1)
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{
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for(Index = 0; Index < NumSamples * NumChannels; Index++)
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FloatIn[Index] = (float)(Buffer[Index] / (1.0 * 0x80));
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}
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else if (BytesPerSample == 2)
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{
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src_short_to_float_array((short*)Buffer, FloatIn, NumSamples * NumChannels);
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}
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else if (BytesPerSample == 4)
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{
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src_int_to_float_array((int*)Buffer, FloatIn, NumSamples * NumChannels);
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}
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Data.data_in = FloatIn;
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Data.data_out = FloatOut;
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Data.input_frames = NumSamples;
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Data.output_frames = NewSamples;
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Data.src_ratio = (double)NewRate / (double)OldRate;
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error = src_process(State, &Data);
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if (error)
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{
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DPRINT1("src_process failed with %x\n", error);
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HeapFree(GetProcessHeap(), 0,FloatIn);
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HeapFree(GetProcessHeap(), 0,FloatOut);
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HeapFree(GetProcessHeap(), 0,ResultOut);
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return ERROR_INVALID_DATA;
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}
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if (BytesPerSample == 1)
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{
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/* FIXME perform over/under clipping */
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for(Index = 0; Index < Data.output_frames_gen * NumChannels; Index++)
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ResultOut[Index] = (lrintf(FloatOut[Index]) >> 24);
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}
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else if (BytesPerSample == 2)
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{
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PUSHORT Res = (PUSHORT)ResultOut;
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src_float_to_short_array(FloatOut, (short*)Res, Data.output_frames_gen * NumChannels);
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}
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else if (BytesPerSample == 4)
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{
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PULONG Res = (PULONG)ResultOut;
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src_float_to_int_array(FloatOut, (int*)Res, Data.output_frames_gen * NumChannels);
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}
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*Result = ResultOut;
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*ResultLength = Data.output_frames_gen * BytesPerSample * NumChannels;
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HeapFree(GetProcessHeap(), 0,FloatIn);
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HeapFree(GetProcessHeap(), 0,FloatOut);
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src_delete(State);
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return ERROR_SUCCESS;
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}
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DWORD
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PerformChannelConversion(
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PUCHAR Buffer,
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ULONG BufferLength,
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ULONG OldChannels,
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ULONG NewChannels,
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ULONG BitsPerSample,
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PVOID * Result,
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PULONG ResultLength)
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{
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ULONG Samples;
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ULONG NewIndex, OldIndex;
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Samples = BufferLength / (BitsPerSample / 8) / OldChannels;
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SND_TRACE(L"PerformChannelConversion OldChannels %u NewChannels %u\n", OldChannels, NewChannels);
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if (NewChannels > OldChannels)
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{
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if (BitsPerSample == 8)
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{
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PUCHAR BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * NewChannels);
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(NewIndex = 0, OldIndex = 0; OldIndex < Samples * OldChannels; NewIndex += NewChannels, OldIndex += OldChannels)
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{
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ULONG SubIndex = 0;
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RtlMoveMemory(&BufferOut[NewIndex], &Buffer[OldIndex], OldChannels * sizeof(UCHAR));
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do
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{
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/* 2 channel stretched to 4 looks like LRLR */
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BufferOut[NewIndex+OldChannels + SubIndex] = Buffer[OldIndex + (SubIndex % OldChannels)];
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}while(SubIndex++ < NewChannels - OldChannels);
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}
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*Result = BufferOut;
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*ResultLength = Samples * NewChannels;
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}
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else if (BitsPerSample == 16)
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{
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PUSHORT BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * NewChannels);
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(NewIndex = 0, OldIndex = 0; OldIndex < Samples * OldChannels; NewIndex += NewChannels, OldIndex += OldChannels)
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{
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ULONG SubIndex = 0;
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RtlMoveMemory(&BufferOut[NewIndex], &Buffer[OldIndex], OldChannels * sizeof(USHORT));
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do
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{
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BufferOut[NewIndex+OldChannels + SubIndex] = Buffer[OldIndex + (SubIndex % OldChannels)];
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}while(SubIndex++ < NewChannels - OldChannels);
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}
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*Result = BufferOut;
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*ResultLength = Samples * NewChannels;
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}
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else if (BitsPerSample == 24)
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{
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PUCHAR BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * NewChannels);
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(NewIndex = 0, OldIndex = 0; OldIndex < Samples * OldChannels; NewIndex += NewChannels, OldIndex += OldChannels)
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{
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ULONG SubIndex = 0;
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RtlMoveMemory(&BufferOut[NewIndex], &Buffer[OldIndex], OldChannels * 3);
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do
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{
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RtlMoveMemory(&BufferOut[(NewIndex+OldChannels + SubIndex) * 3], &Buffer[(OldIndex + (SubIndex % OldChannels)) * 3], 3);
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}while(SubIndex++ < NewChannels - OldChannels);
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}
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*Result = BufferOut;
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*ResultLength = Samples * NewChannels;
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}
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else if (BitsPerSample == 32)
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{
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PULONG BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * NewChannels);
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(NewIndex = 0, OldIndex = 0; OldIndex < Samples * OldChannels; NewIndex += NewChannels, OldIndex += OldChannels)
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{
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ULONG SubIndex = 0;
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RtlMoveMemory(&BufferOut[NewIndex], &Buffer[OldIndex], OldChannels * sizeof(ULONG));
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do
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{
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BufferOut[NewIndex+OldChannels + SubIndex] = Buffer[OldIndex + (SubIndex % OldChannels)];
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}while(SubIndex++ < NewChannels - OldChannels);
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}
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*Result = BufferOut;
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*ResultLength = Samples * NewChannels;
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}
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}
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else
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{
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PUSHORT BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * NewChannels);
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(NewIndex = 0, OldIndex = 0; OldIndex < Samples * OldChannels; NewIndex += NewChannels, OldIndex += OldChannels)
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{
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/* TODO
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* mix stream instead of just dumping part of it ;)
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*/
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RtlMoveMemory(&BufferOut[NewIndex], &Buffer[OldIndex], NewChannels * (BitsPerSample/8));
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}
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*Result = BufferOut;
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*ResultLength = Samples * NewChannels;
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}
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return ERROR_SUCCESS;
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}
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DWORD
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PerformQualityConversion(
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PUCHAR Buffer,
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ULONG BufferLength,
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ULONG OldWidth,
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ULONG NewWidth,
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PVOID * Result,
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PULONG ResultLength)
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{
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ULONG Samples;
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ULONG Index;
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ASSERT(OldWidth != NewWidth);
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Samples = BufferLength / (OldWidth / 8);
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//DPRINT("Samples %u BufferLength %u\n", Samples, BufferLength);
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//SND_TRACE(L"PerformQualityConversion OldWidth %u NewWidth %u\n", OldWidth, NewWidth);
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if (OldWidth == 8 && NewWidth == 16)
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{
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USHORT Sample;
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PUSHORT BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(USHORT));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = Buffer[Index];// & 0xFF);
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Sample *= 2;
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#ifdef _X86_
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Sample = _byteswap_ushort(Sample);
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#endif
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BufferOut[Index] = Sample;
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(USHORT);
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}
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else if (OldWidth == 8 && NewWidth == 32)
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{
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ULONG Sample;
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PULONG BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(ULONG));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = Buffer[Index];
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Sample *= 16777216;
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#ifdef _X86_
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Sample = _byteswap_ulong(Sample);
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#endif
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BufferOut[Index] = Sample;
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(ULONG);
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}
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else if (OldWidth == 16 && NewWidth == 32)
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{
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ULONG Sample;
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PUSHORT BufferIn = (PUSHORT)Buffer;
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PULONG BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(ULONG));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = BufferIn[Index];
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Sample *= 65536;
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#ifdef _X86_
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Sample = _byteswap_ulong(Sample);
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#endif
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BufferOut[Index] = Sample;
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(ULONG);
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}
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else if (OldWidth == 16 && NewWidth == 8)
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{
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USHORT Sample;
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PUSHORT BufferIn = (PUSHORT)Buffer;
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PUCHAR BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(UCHAR));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = BufferIn[Index];
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#ifdef _X86_
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Sample = _byteswap_ushort(Sample);
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#endif
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Sample /= 256;
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BufferOut[Index] = (Sample & 0xFF);
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(UCHAR);
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}
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else if (OldWidth == 32 && NewWidth == 8)
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{
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ULONG Sample;
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PULONG BufferIn = (PULONG)Buffer;
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PUCHAR BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(UCHAR));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = BufferIn[Index];
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#ifdef _X86_
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Sample = _byteswap_ulong(Sample);
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#endif
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Sample /= 16777216;
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BufferOut[Index] = (Sample & 0xFF);
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(UCHAR);
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}
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else if (OldWidth == 32 && NewWidth == 16)
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{
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USHORT Sample;
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PULONG BufferIn = (PULONG)Buffer;
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PUSHORT BufferOut = HeapAlloc(GetProcessHeap(), 0, Samples * sizeof(USHORT));
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if (!BufferOut)
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return ERROR_NOT_ENOUGH_MEMORY;
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for(Index = 0; Index < Samples; Index++)
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{
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Sample = BufferIn[Index];
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#ifdef _X86_
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Sample = _byteswap_ulong(Sample);
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#endif
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Sample /= 65536;
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BufferOut[Index] = (Sample & 0xFFFF);
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}
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*Result = BufferOut;
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*ResultLength = Samples * sizeof(USHORT);
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}
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else
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{
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DPRINT1("Not implemented conversion OldWidth %u NewWidth %u\n", OldWidth, NewWidth);
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return ERROR_NOT_SUPPORTED;
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}
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return ERROR_SUCCESS;
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}
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VOID
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CALLBACK
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MixerCompletionRoutine(
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IN DWORD dwErrorCode,
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IN DWORD dwNumberOfBytesTransferred,
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IN LPOVERLAPPED lpOverlapped)
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{
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PSOUND_OVERLAPPED Overlap = (PSOUND_OVERLAPPED)lpOverlapped;
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/* Call mmebuddy overlap routine */
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Overlap->OriginalCompletionRoutine(dwErrorCode, PtrToUlong(Overlap->CompletionContext), lpOverlapped);
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}
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MMRESULT
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WriteFileEx_Remixer(
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IN PSOUND_DEVICE_INSTANCE SoundDeviceInstance,
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IN PVOID OffsetPtr,
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IN DWORD Length,
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IN PSOUND_OVERLAPPED Overlap,
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IN LPOVERLAPPED_COMPLETION_ROUTINE CompletionRoutine)
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{
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HANDLE Handle;
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WDMAUD_DEVICE_INFO DeviceInfo;
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DWORD BufferLength, BufferLengthTemp;
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PVOID BufferOut, BufferOutTemp;
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DWORD Status;
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BOOL Result;
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VALIDATE_MMSYS_PARAMETER( SoundDeviceInstance );
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VALIDATE_MMSYS_PARAMETER( OffsetPtr );
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VALIDATE_MMSYS_PARAMETER( Overlap );
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VALIDATE_MMSYS_PARAMETER( CompletionRoutine );
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GetSoundDeviceInstanceHandle(SoundDeviceInstance, &Handle);
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SND_ASSERT(Handle);
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BufferOut = OffsetPtr;
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BufferLength = Length;
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if (SoundDeviceInstance->WaveFormatEx.wBitsPerSample != 16)
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{
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Status = PerformQualityConversion(OffsetPtr,
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Length,
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SoundDeviceInstance->WaveFormatEx.wBitsPerSample,
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16,
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&BufferOut,
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&BufferLength);
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if (Status)
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{
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SND_TRACE(L"PerformQualityConversion failed\n");
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return MMSYSERR_NOERROR;
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}
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}
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if (SoundDeviceInstance->WaveFormatEx.nChannels != 2)
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{
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Status = PerformChannelConversion(BufferOut,
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BufferLength,
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SoundDeviceInstance->WaveFormatEx.nChannels,
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2,
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16,
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&BufferOutTemp,
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&BufferLengthTemp);
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if (BufferOut != OffsetPtr)
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{
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HeapFree(GetProcessHeap(), 0, BufferOut);
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}
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if (Status)
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{
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SND_TRACE(L"PerformChannelConversion failed\n");
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return MMSYSERR_NOERROR;
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}
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BufferOut = BufferOutTemp;
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BufferLength = BufferLengthTemp;
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}
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if (SoundDeviceInstance->WaveFormatEx.nSamplesPerSec != 44100)
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{
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Status = PerformSampleRateConversion(BufferOut,
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BufferLength,
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SoundDeviceInstance->WaveFormatEx.nSamplesPerSec,
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44100,
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2,
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2,
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&BufferOutTemp,
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&BufferLengthTemp);
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if (BufferOut != OffsetPtr)
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{
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HeapFree(GetProcessHeap(), 0, BufferOut);
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}
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if (Status)
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{
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SND_TRACE(L"PerformSampleRateConversion failed\n");
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return MMSYSERR_NOERROR;
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}
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BufferOut = BufferOutTemp;
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BufferLength = BufferLengthTemp;
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}
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ZeroMemory(&DeviceInfo, sizeof(WDMAUD_DEVICE_INFO));
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DeviceInfo.hDevice = Handle;
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DeviceInfo.DeviceType = WAVE_OUT_DEVICE_TYPE; //FIXME
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DeviceInfo.Header.FrameExtent = BufferLength;
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DeviceInfo.Header.DataUsed = BufferLength;
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DeviceInfo.Header.Data = BufferOut;
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DeviceInfo.Header.Size = sizeof(KSSTREAM_HEADER);
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DeviceInfo.Header.PresentationTime.Numerator = 1;
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DeviceInfo.Header.PresentationTime.Denominator = 1;
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Overlap->CompletionContext = UlongToPtr(Length);
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Overlap->OriginalCompletionRoutine = CompletionRoutine;
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Overlap->Standard.hEvent = CreateEventW(NULL, FALSE, FALSE, NULL);
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//SND_TRACE(L"OriginalLength %u NewLength %u\n", Length, BufferLength);
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#if 0
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Result = WriteFileEx(KernelHandle, &DeviceInfo, sizeof(WDMAUD_DEVICE_INFO), (LPOVERLAPPED)Overlap, CompletionRoutine);
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#else
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Result = WriteFileEx(KernelHandle, &DeviceInfo, sizeof(WDMAUD_DEVICE_INFO), (LPOVERLAPPED)Overlap, MixerCompletionRoutine);
|
|
#endif
|
|
|
|
if ( ! Result )
|
|
{
|
|
SND_TRACE(L"WriteFileEx failed with %x\n", GetLastError());
|
|
return MMSYSERR_NOERROR;
|
|
}
|
|
|
|
WaitForSingleObjectEx (KernelHandle, INFINITE, TRUE);
|
|
|
|
#ifdef USERMODE_MIXER
|
|
// if (BufferOut != OffsetPtr)
|
|
// HeapFree(GetProcessHeap(), 0, BufferOut);
|
|
#endif
|
|
|
|
|
|
return MMSYSERR_NOERROR;
|
|
}
|
|
|