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HCWEncoder.cpp
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HCWEncoder.cpp
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/*
* Copyright 2015 The SageTV Authors. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "stdafx.h"
#include "DShowCapture.h"
#include "DShowUtilities.h"
#include "HCWEncoder.h"
#include "../../../third_party/Hauppauge/hcwECP.h"
void configureHCWEncoder(DShowCaptureInfo* pCapInfo, SageTVMPEG2EncodingParameters *pythonParams,
BOOL set656Res, JNIEnv *env)
{
slog((env, "configureHCWEncoder is running for '%s-%d'.\r\n", pCapInfo->videoCaptureFilterName, pCapInfo->videoCaptureFilterNum));
HRESULT hr;
DWORD dwTypeSupport;
IKsPropertySet *pIKsBridgePropSet1 = NULL;
IKsPropertySet *pIKsBridgePropSet2 = NULL;
if (pCapInfo->pEncoder)
{
hr = pCapInfo->pEncoder->QueryInterface(IID_IKsPropertySet, (PVOID *) &pIKsBridgePropSet1);
if (!SUCCEEDED(hr))
SAFE_RELEASE(pIKsBridgePropSet1);
}
if ( pCapInfo->pVideoCaptureFilter )
{
hr = pCapInfo->pVideoCaptureFilter->QueryInterface(IID_IKsPropertySet, (PVOID *) &pIKsBridgePropSet2);
if (!SUCCEEDED(hr))
SAFE_RELEASE(pIKsBridgePropSet2);
}
if ( pIKsBridgePropSet1 == NULL && pIKsBridgePropSet2 == NULL )
{
slog((env, "configureHCWEncoder failed: IKsBridgePropSet interface not found for '%s-%d'\r\n", pCapInfo->videoCaptureFilterName, pCapInfo->videoCaptureFilterNum));
return;
}
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_Horizontal_Res, &dwTypeSupport)))
{
HCW_Vid_HRes data;
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
switch (pythonParams->width)
{
case 640:
data = HCW_Vid_HRes_640;
break;
case 352:
data = HCW_Vid_HRes_HalfD1;
break;
case 320:
data = HCW_Vid_HRes_320;
break;
case 480:
data = HCW_Vid_HRes_TwoThirdsD1;
break;
default:
data = HCW_Vid_HRes_FullD1;
break;
}
slog((env, "configureHCWEncoder setup width %d on encoder\r\n", pythonParams->width ) );
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_Horizontal_Res, &data, sizeof(HCW_Vid_HRes),
&data, sizeof(HCW_Vid_HRes));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_Horizontal_Res, &dwTypeSupport)))
{
HCW_Vid_HRes data;
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
switch (pythonParams->width)
{
case 640:
data = HCW_Vid_HRes_640;
break;
case 352:
data = HCW_Vid_HRes_HalfD1;
break;
case 320:
data = HCW_Vid_HRes_320;
break;
case 480:
data = HCW_Vid_HRes_TwoThirdsD1;
break;
default:
data = HCW_Vid_HRes_FullD1;
break;
}
slog((env, "configureHCWEncoder setup width %d on VideoCapture Filter\r\n", pythonParams->width ) );
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_Horizontal_Res, &data, sizeof(HCW_Vid_HRes),
&data, sizeof(HCW_Vid_HRes));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup width %d succeeded\r\n", pythonParams->width ) );
else
slog((env, "configureHCWEncoder setup width %d failed\r\n", pythonParams->width ) );
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_SYSTEM_StreamType, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Sys_StreamType streamType;
switch (pythonParams->outputstreamtype)
{
case 0:
streamType = HCW_Sys_StreamType_Program;
break;
case 2:
streamType = HCW_Sys_StreamType_MPEG1;
break;
case 11:
streamType = HCW_Sys_StreamType_MPEG1_VCD;
break;
case 12:
streamType = HCW_Sys_StreamType_Program_SVCD;
break;
default:
streamType = HCW_Sys_StreamType_Program_DVD;
break;
}
slog((env, "configureHCWEncoder setup ouputstream %d on encoder\r\n", pythonParams->outputstreamtype ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_SYSTEM_StreamType, &streamType, sizeof(HCW_Sys_StreamType),
&streamType, sizeof(HCW_Sys_StreamType));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_SYSTEM_StreamType, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Sys_StreamType streamType;
switch (pythonParams->outputstreamtype)
{
case 0:
streamType = HCW_Sys_StreamType_Program;
break;
case 2:
streamType = HCW_Sys_StreamType_MPEG1;
break;
case 11:
streamType = HCW_Sys_StreamType_MPEG1_VCD;
break;
case 12:
streamType = HCW_Sys_StreamType_Program_SVCD;
break;
default:
streamType = HCW_Sys_StreamType_Program_DVD;
break;
}
slog((env, "configureHCWEncoder setup ouputstream %d on capture filter\r\n", pythonParams->outputstreamtype ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_SYSTEM_StreamType, &streamType, sizeof(HCW_Sys_StreamType),
&streamType, sizeof(HCW_Sys_StreamType));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup ouputstream change %d succeeded\r\n", pythonParams->outputstreamtype ));
else
slog((env, "configureHCWEncoder setup support ouputstream change %d failed\r\n", pythonParams->outputstreamtype ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_GOP_OpenClosed, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_GOP_OpenClosed data = pythonParams->closedgop ? HCW_Vid_GOP_OC_Closed : HCW_Vid_GOP_OC_Open;
slog((env, "configureHCWEncoder setup video GOP open/close %d on encoder filter\r\n", data ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_GOP_OpenClosed,
&data, sizeof(HCW_Vid_GOP_OpenClosed), &data, sizeof(HCW_Vid_GOP_OpenClosed));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_GOP_OpenClosed, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_GOP_OpenClosed data = pythonParams->closedgop ? HCW_Vid_GOP_OC_Closed : HCW_Vid_GOP_OC_Open;
slog((env, "configureHCWEncoder setup video GOP open/close %d on video capture filter\r\n", data ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_GOP_OpenClosed,
&data, sizeof(HCW_Vid_GOP_OpenClosed), &data, sizeof(HCW_Vid_GOP_OpenClosed));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup video GOP open/close succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup video GOP open/close failed\r\n" ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_BitRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_BitRate data;
data.dwSize = sizeof(HCW_Vid_BitRate);
data.dwReserved = 0;
data.Mode = pythonParams->vbr ? HCW_Vid_EncMode_VBR : HCW_Vid_EncMode_CBR;
data.dwBitRate = pythonParams->videobitrate / 1000;
data.dwBitRatePeak = pythonParams->peakvideobitrate / 1000;
slog((env, "configureHCWEncoder setup BitRate %d mode:%d on HW econder\r\n", data.dwBitRate, data.Mode ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_BitRate,
&data, sizeof(HCW_Vid_BitRate), &data, sizeof(HCW_Vid_BitRate));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_BitRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_BitRate data;
data.dwSize = sizeof(HCW_Vid_BitRate);
data.dwReserved = 0;
data.Mode = pythonParams->vbr ? HCW_Vid_EncMode_VBR : HCW_Vid_EncMode_CBR;
data.dwBitRate = pythonParams->videobitrate / 1000;
data.dwBitRatePeak = pythonParams->peakvideobitrate / 1000;
slog((env, "configureHCWEncoder setup BitRate %d mode:%d on capture filter\r\n", data.dwBitRate, data.Mode ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_BitRate,
&data, sizeof(HCW_Vid_BitRate), &data, sizeof(HCW_Vid_BitRate));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup BitRate succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup BitRate change failed\r\n" ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_GOP_Size, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_GOPSize data;
data.dwSize = sizeof(HCW_Vid_GOPSize);
data.dwReserved = 0;
data.dwNumPictures = pythonParams->gopsize;
data.dwPFrameDistance = pythonParams->ipb == 2 ? 1 : 3;
slog((env, "configureHCWEncoder setup GOP size %d on HW encoder filter\r\n", pythonParams->gopsize ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_GOP_Size,
&data, sizeof(HCW_Vid_GOPSize), &data, sizeof(HCW_Vid_GOPSize));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_GOP_Size, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_GOPSize data;
data.dwSize = sizeof(HCW_Vid_GOPSize);
data.dwReserved = 0;
data.dwNumPictures = pythonParams->gopsize;
data.dwPFrameDistance = pythonParams->ipb == 2 ? 1 : 3;
slog((env, "configureHCWEncoder setup GOP size %d on capture filter\r\n", pythonParams->gopsize ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_GOP_Size,
&data, sizeof(HCW_Vid_GOPSize), &data, sizeof(HCW_Vid_GOPSize));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup GOP size succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup GOP size failed\r\n" ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_InverseTelecine, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_InverseTelecine data = pythonParams->inversetelecine ? HCW_Vid_InverseTelecine_On :
HCW_Vid_InverseTelecine_Off;
slog((env, "configureHCWEncoder setup inverse telecine %d on HW encoder filter\r\n", pythonParams->inversetelecine ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_InverseTelecine,
&data, sizeof(HCW_Vid_InverseTelecine), &data, sizeof(HCW_Vid_InverseTelecine));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_VIDEO_InverseTelecine, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Vid_InverseTelecine data = pythonParams->inversetelecine ? HCW_Vid_InverseTelecine_On :
HCW_Vid_InverseTelecine_Off;
slog((env, "configureHCWEncoder setup inverse telecine %d on capture filter\r\n", pythonParams->inversetelecine ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_VIDEO_InverseTelecine,
&data, sizeof(HCW_Vid_InverseTelecine), &data, sizeof(HCW_Vid_InverseTelecine));
TEST_AND_PRINT
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder inverse telecine succeeded\r\n" ));
else
slog((env, "configureHCWEncoder inverse telecine failed\r\n" ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_BitRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_BitRate data;
data.dwSize = sizeof(HCW_Aud_BitRate);
data.dwReserved = 0;
data.Layer = HCW_Aud_Layer_2;
switch (pythonParams->audiobitrate)
{
case 32:
data.dwBitRate = HCW_Aud_BitRate_Layer2_32;
break;
case 48:
data.dwBitRate = HCW_Aud_BitRate_Layer2_48;
break;
case 56:
data.dwBitRate = HCW_Aud_BitRate_Layer2_56;
break;
case 64:
data.dwBitRate = HCW_Aud_BitRate_Layer2_64;
break;
case 80:
data.dwBitRate = HCW_Aud_BitRate_Layer2_80;
break;
case 96:
data.dwBitRate = HCW_Aud_BitRate_Layer2_96;
break;
case 112:
data.dwBitRate = HCW_Aud_BitRate_Layer2_112;
break;
case 128:
data.dwBitRate = HCW_Aud_BitRate_Layer2_128;
break;
case 160:
data.dwBitRate = HCW_Aud_BitRate_Layer2_160;
break;
case 192:
data.dwBitRate = HCW_Aud_BitRate_Layer2_192;
break;
case 224:
data.dwBitRate = HCW_Aud_BitRate_Layer2_224;
break;
case 256:
data.dwBitRate = HCW_Aud_BitRate_Layer2_256;
break;
case 320:
data.dwBitRate = HCW_Aud_BitRate_Layer2_320;
break;
default:
data.dwBitRate = HCW_Aud_BitRate_Layer2_384;
break;
}
slog((env, "configureHCWEncoder setup audio BitRate %d on HW encoder\r\n", pythonParams->audiobitrate ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_BitRate,
&data, sizeof(HCW_Aud_BitRate), &data, sizeof(HCW_Aud_BitRate));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_BitRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_BitRate data;
data.dwSize = sizeof(HCW_Aud_BitRate);
data.dwReserved = 0;
data.Layer = HCW_Aud_Layer_2;
switch (pythonParams->audiobitrate)
{
case 32:
data.dwBitRate = HCW_Aud_BitRate_Layer2_32;
break;
case 48:
data.dwBitRate = HCW_Aud_BitRate_Layer2_48;
break;
case 56:
data.dwBitRate = HCW_Aud_BitRate_Layer2_56;
break;
case 64:
data.dwBitRate = HCW_Aud_BitRate_Layer2_64;
break;
case 80:
data.dwBitRate = HCW_Aud_BitRate_Layer2_80;
break;
case 96:
data.dwBitRate = HCW_Aud_BitRate_Layer2_96;
break;
case 112:
data.dwBitRate = HCW_Aud_BitRate_Layer2_112;
break;
case 128:
data.dwBitRate = HCW_Aud_BitRate_Layer2_128;
break;
case 160:
data.dwBitRate = HCW_Aud_BitRate_Layer2_160;
break;
case 192:
data.dwBitRate = HCW_Aud_BitRate_Layer2_192;
break;
case 224:
data.dwBitRate = HCW_Aud_BitRate_Layer2_224;
break;
case 256:
data.dwBitRate = HCW_Aud_BitRate_Layer2_256;
break;
case 320:
data.dwBitRate = HCW_Aud_BitRate_Layer2_320;
break;
default:
data.dwBitRate = HCW_Aud_BitRate_Layer2_384;
break;
}
slog((env, "configureHCWEncoder setup audio BitRate %d on Capture filter\r\n", pythonParams->audiobitrate ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_BitRate,
&data, sizeof(HCW_Aud_BitRate), &data, sizeof(HCW_Aud_BitRate));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup audio BitRate succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup audio BitRate failed\r\n" ));
hr = E_FAIL;
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_SampleRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_SampleRate data;
switch (pythonParams->audiosampling)
{
case 32000:
data = HCW_Aud_SampleRate_32;
break;
case 44100:
data = HCW_Aud_SampleRate_44;
break;
default:
data = HCW_Aud_SampleRate_48;
break;
}
slog((env, "configureHCWEncoder audio sampling rate %d on HW encoder\r\n", pythonParams->audiosampling ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_SampleRate,
&data, sizeof(HCW_Aud_SampleRate),
&data, sizeof(HCW_Aud_SampleRate));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_SampleRate, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_SampleRate data;
switch (pythonParams->audiosampling)
{
case 32000:
data = HCW_Aud_SampleRate_32;
break;
case 44100:
data = HCW_Aud_SampleRate_44;
break;
default:
data = HCW_Aud_SampleRate_48;
break;
}
slog((env, "configureHCWEncoder audio sampling rate %d on capture filter\r\n", pythonParams->audiosampling ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_SampleRate,
&data, sizeof(HCW_Aud_SampleRate),
&data, sizeof(HCW_Aud_SampleRate));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup audio sampling rate succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup audio sampling rate failed\r\n" ));
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_Output, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_Output data;
switch (pythonParams->audiooutputmode)
{
case 1:
data = HCW_Aud_Output_JointStereo;
break;
case 2:
data = HCW_Aud_Output_DualChannel;
break;
case 3:
data = HCW_Aud_Output_Mono;
break;
default:
data = HCW_Aud_Output_Stereo;
break;
}
slog((env, "configureHCWEncoder audio channel %d on HW encoder\r\n", pythonParams->audiooutputmode ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_Output,
&data, sizeof(HCW_Aud_Output),
&data, sizeof(HCW_Aud_Output));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_Output, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_Output data;
switch (pythonParams->audiooutputmode)
{
case 1:
data = HCW_Aud_Output_JointStereo;
break;
case 2:
data = HCW_Aud_Output_DualChannel;
break;
case 3:
data = HCW_Aud_Output_Mono;
break;
default:
data = HCW_Aud_Output_Stereo;
break;
}
slog((env, "configureHCWEncoder audio channel %d on capture filter\r\n", pythonParams->audiooutputmode ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_Output,
&data, sizeof(HCW_Aud_Output),
&data, sizeof(HCW_Aud_Output));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup audio channel succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup audio channel failed\r\n" ));
if ( pIKsBridgePropSet1 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet1->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_CRC, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_CRC data = pythonParams->audiocrc ? HCW_Aud_CRC_On : HCW_Aud_CRC_Off;
slog((env, "configureHCWEncoder setup audio crc %don HW encoder\r\n", pythonParams->audiocrc ));
hr = pIKsBridgePropSet1->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_CRC,
&data, sizeof(HCW_Aud_CRC), &data, sizeof(HCW_Aud_CRC));
}
}
}
if ( !SUCCEEDED( hr ) && pIKsBridgePropSet2 != NULL )
{
if (SUCCEEDED(pIKsBridgePropSet2->QuerySupported(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES,
HCW_ECP_AUDIO_CRC, &dwTypeSupport)))
{
if(dwTypeSupport & KSPROPERTY_SUPPORT_SET)
{
HCW_Aud_CRC data = pythonParams->audiocrc ? HCW_Aud_CRC_On : HCW_Aud_CRC_Off;
slog((env, "configureHCWEncoder setup audio crc %d on capture filter\r\n", pythonParams->audiocrc ));
hr = pIKsBridgePropSet2->Set(PROPSETID_HCW_ENCODE_CONFIG_PROPERTIES, HCW_ECP_AUDIO_CRC,
&data, sizeof(HCW_Aud_CRC), &data, sizeof(HCW_Aud_CRC));
}
}
}
if ( SUCCEEDED( hr ) )
slog((env, "configureHCWEncoder setup audio crc on/off succeeded\r\n" ));
else
slog((env, "configureHCWEncoder setup audio crc on/off failed\r\n" ));
if (pIKsBridgePropSet1)
SAFE_RELEASE(pIKsBridgePropSet1);
if (pIKsBridgePropSet2)
SAFE_RELEASE(pIKsBridgePropSet2);
slog((env, "configureHCWEncoder done '%s-%d'\r\n", pCapInfo->videoCaptureFilterName, pCapInfo->videoCaptureFilterNum));
}