我有两个USB摄像头。 一个是low-cost WebCam,另一个是low-cost USB microscope;都是从eBay购买的。显微镜实际上只是另一个WebCam。
我想将USB显微镜与Mac OS X 10.5和QTKit配合使用。 MyRecorder可以与我的低成本WebCam一起使用,但是当我连接显微镜时它只显示黑色视频。
如果我打开QuickTime播放器并创建电影录制,我会收到错误消息:“录制失败,因为没有收到任何数据。|确保媒体输入源已打开并播放。”
序列捕获器演示适用于两个摄像头。
miXscope也适用于两个相机(似乎它使用序列捕获器)。
这是剥离的MyRecorder(为了更好的概述):
- (void)awakeFromNib
{
NSError *error;
mCaptureSession = [[QTCaptureSession alloc] init];
QTCaptureDevice *videoDevice = [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeVideo];
BOOL success = [videoDevice open:&error];
if(!success)
{
videoDevice = [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeMuxed];
success = [videoDevice open:&error];
}
if(!success) return;
mCaptureVideoDeviceInput = [[QTCaptureDeviceInput alloc] initWithDevice:videoDevice];
success = [mCaptureSession addInput:mCaptureVideoDeviceInput error:&error];
if(!success) return;
if(![videoDevice hasMediaType:QTMediaTypeSound] && ![videoDevice hasMediaType:QTMediaTypeMuxed])
{
QTCaptureDevice *audioDevice = [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeSound];
success = audioDevice && [audioDevice open:&error];
if(success)
{
mCaptureAudioDeviceInput = [[QTCaptureDeviceInput alloc] initWithDevice:audioDevice];
success = [mCaptureSession addInput:mCaptureAudioDeviceInput error:&error];
}
}
mCaptureMovieFileOutput = [[QTCaptureMovieFileOutput alloc] init];
success = [mCaptureSession addOutput:mCaptureMovieFileOutput error:&error];
if(!success) return;
[mCaptureMovieFileOutput setDelegate:self];
[mCaptureView setCaptureSession:mCaptureSession];
[mCaptureSession startRunning];
}
为了让我的显微镜与MyRecorder配合使用,我需要添加/更改什么? (我已经尝试记录了我能想到的所有内容,但是我没有从我调用的任何QTKit方法中收到任何错误。)
注意:我已经查看了有关该主题的所有StackOverflow问题,有两个问题很接近,但它们没有解决这个问题。
答案 0 :(得分:5)
√ - 请检查以下代码:
- (id)init
{
self = [super init];
if (self) {
[self setOutputFile:[@"~/Desktop/Audio Recording.aif" stringByStandardizingPath]];
}
return self;
}
- (void)awakeFromNib
{
BOOL success;
NSError *error;
/* Find and open an audio input device. */
QTCaptureDevice *audioDevice = [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeSound];
success = [audioDevice open:&error];
if (!success) {
[[NSAlert alertWithError:error] runModal];
return;
}
/* Create the capture session. */
captureSession = [[QTCaptureSession alloc] init];
/* Add a device input for the audio device to the session. */
captureAudioDeviceInput = [[QTCaptureDeviceInput alloc] initWithDevice:audioDevice];
success = [captureSession addInput:captureAudioDeviceInput error:&error];
if (!success) {
[captureAudioDeviceInput release];
captureAudioDeviceInput = nil;
[audioDevice close];
[captureSession release];
captureSession = nil;
[[NSAlert alertWithError:error] runModal];
return;
}
/* Create an audio data output for reading captured audio buffers and add it to the capture session. */
captureAudioDataOutput = [[QTCaptureDecompressedAudioOutput alloc] init];
[captureAudioDataOutput setDelegate:self]; /* Captured audio buffers will be provided to the delegate via the captureOutput:didOutputAudioSampleBuffer:fromConnection: delegate method. */
success = [captureSession addOutput:captureAudioDataOutput error:&error];
if (!success) {
[captureAudioDeviceInput release];
captureAudioDeviceInput = nil;
[audioDevice close];
[captureAudioDataOutput release];
captureAudioDataOutput = nil;
[captureSession release];
captureSession = nil;
[[NSAlert alertWithError:error] runModal];
return;
}
/* Create an effect audio unit to add an effect to the audio before it is written to a file. */
OSStatus err = noErr;
AudioComponentDescription effectAudioUnitComponentDescription;
effectAudioUnitComponentDescription.componentType = kAudioUnitType_Effect;
effectAudioUnitComponentDescription.componentSubType = kAudioUnitSubType_Delay;
effectAudioUnitComponentDescription.componentManufacturer = kAudioUnitManufacturer_Apple;
effectAudioUnitComponentDescription.componentFlags = 0;
effectAudioUnitComponentDescription.componentFlagsMask = 0;
AudioComponent effectAudioUnitComponent = AudioComponentFindNext(NULL, &effectAudioUnitComponentDescription);
err = AudioComponentInstanceNew(effectAudioUnitComponent, &effectAudioUnit);
if (noErr == err) {
/* Set a callback on the effect unit that will supply the audio buffers received from the audio data output. */
AURenderCallbackStruct renderCallbackStruct;
renderCallbackStruct.inputProc = PushCurrentInputBufferIntoAudioUnit;
renderCallbackStruct.inputProcRefCon = self;
err = AudioUnitSetProperty(effectAudioUnit, kAudioUnitProperty_SetRenderCallback, kAudioUnitScope_Input, 0, &renderCallbackStruct, sizeof(renderCallbackStruct));
}
if (noErr != err) {
if (effectAudioUnit) {
AudioComponentInstanceDispose(effectAudioUnit);
effectAudioUnit = NULL;
}
[captureAudioDeviceInput release];
captureAudioDeviceInput = nil;
[audioDevice close];
[captureSession release];
captureSession = nil;
[[NSAlert alertWithError:[NSError errorWithDomain:NSOSStatusErrorDomain code:err userInfo:nil]] runModal];
return;
}
/* Start the capture session. This will cause the audo data output delegate method to be called for each new audio buffer that is captured from the input device. */
[captureSession startRunning];
/* Become the window's delegate so that the capture session can be stopped and cleaned up immediately after the window is closed. */
[window setDelegate:self];
}
- (void)windowWillClose:(NSNotification *)notification
{
[self setRecording:NO];
[captureSession stopRunning];
QTCaptureDevice *audioDevice = [captureAudioDeviceInput device];
if ([audioDevice isOpen])
[audioDevice close];
}
- (void)dealloc
{
[captureSession release];
[captureAudioDeviceInput release];
[captureAudioDataOutput release];
[outputFile release];
if (extAudioFile)
ExtAudioFileDispose(extAudioFile);
if (effectAudioUnit) {
if (didSetUpAudioUnits)
AudioUnitUninitialize(effectAudioUnit);
AudioComponentInstanceDispose(effectAudioUnit);
}
[super dealloc];
}
#pragma mark ======== Audio capture methods =========
/*
Called periodically by the QTCaptureAudioDataOutput as it receives QTSampleBuffer objects containing audio frames captured by the QTCaptureSession.
Each QTSampleBuffer will contain multiple frames of audio encoded in the canonical non-interleaved linear PCM format compatible with AudioUnits.
*/
- (void)captureOutput:(QTCaptureOutput *)captureOutput didOutputAudioSampleBuffer:(QTSampleBuffer *)sampleBuffer fromConnection:(QTCaptureConnection *)connection
{
OSStatus err = noErr;
BOOL isRecording = [self isRecording];
/* Get the sample buffer's AudioStreamBasicDescription, which will be used to set the input format of the effect audio unit and the ExtAudioFile. */
QTFormatDescription *formatDescription = [sampleBuffer formatDescription];
NSValue *sampleBufferASBDValue = [formatDescription attributeForKey:QTFormatDescriptionAudioStreamBasicDescriptionAttribute];
if (!sampleBufferASBDValue)
return;
AudioStreamBasicDescription sampleBufferASBD = {0};
[sampleBufferASBDValue getValue:&sampleBufferASBD];
if ((sampleBufferASBD.mChannelsPerFrame != currentInputASBD.mChannelsPerFrame) || (sampleBufferASBD.mSampleRate != currentInputASBD.mSampleRate)) {
/* Although QTCaptureAudioDataOutput guarantees that it will output sample buffers in the canonical format, the number of channels or the sample rate of the audio can changes at any time while the capture session is running. If this occurs, the audio unit receiving the buffers from the QTCaptureAudioDataOutput needs to be reconfigured with the new format. This also must be done when a buffer is received for the first time. */
currentInputASBD = sampleBufferASBD;
if (didSetUpAudioUnits) {
/* The audio units were previously set up, so they must be uninitialized now. */
AudioUnitUninitialize(effectAudioUnit);
/* If recording was in progress, the recording needs to be stopped because the audio format changed. */
if (extAudioFile) {
ExtAudioFileDispose(extAudioFile);
extAudioFile = NULL;
}
} else {
didSetUpAudioUnits = YES;
}
/* Set the input and output formats of the effect audio unit to match that of the sample buffer. */
err = AudioUnitSetProperty(effectAudioUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, 0, ¤tInputASBD, sizeof(currentInputASBD));
if (noErr == err)
err = AudioUnitSetProperty(effectAudioUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Output, 0, ¤tInputASBD, sizeof(currentInputASBD));
if (noErr == err)
err = AudioUnitInitialize(effectAudioUnit);
if (noErr != err) {
NSLog(@"Failed to set up audio units (%d)", err);
didSetUpAudioUnits = NO;
bzero(¤tInputASBD, sizeof(currentInputASBD));
}
}
if (isRecording && !extAudioFile) {
/* Start recording by creating an ExtAudioFile and configuring it with the same sample rate and channel layout as those of the current sample buffer. */
AudioStreamBasicDescription recordedASBD = {0};
recordedASBD.mSampleRate = currentInputASBD.mSampleRate;
recordedASBD.mFormatID = kAudioFormatLinearPCM;
recordedASBD.mFormatFlags = kAudioFormatFlagIsBigEndian | kAudioFormatFlagIsSignedInteger | kAudioFormatFlagIsPacked;
recordedASBD.mBytesPerPacket = 2 * currentInputASBD.mChannelsPerFrame;
recordedASBD.mFramesPerPacket = 1;
recordedASBD.mBytesPerFrame = 2 * currentInputASBD.mChannelsPerFrame;
recordedASBD.mChannelsPerFrame = currentInputASBD.mChannelsPerFrame;
recordedASBD.mBitsPerChannel = 16;
NSData *inputChannelLayoutData = [formatDescription attributeForKey:QTFormatDescriptionAudioChannelLayoutAttribute];
AudioChannelLayout *recordedChannelLayout = (AudioChannelLayout *)[inputChannelLayoutData bytes];
err = ExtAudioFileCreateWithURL((CFURLRef)[NSURL fileURLWithPath:[self outputFile]], kAudioFileAIFFType, &recordedASBD, recordedChannelLayout, kAudioFileFlags_EraseFile, &extAudioFile);
if (noErr == err)
err = ExtAudioFileSetProperty(extAudioFile, kExtAudioFileProperty_ClientDataFormat, sizeof(currentInputASBD), ¤tInputASBD);
if (noErr != err) {
NSLog(@"Failed to set up ExtAudioFile (%d)", err);
ExtAudioFileDispose(extAudioFile);
extAudioFile = NULL;
}
} else if (!isRecording && extAudioFile) {
/* Stop recording by disposing of the ExtAudioFile. */
ExtAudioFileDispose(extAudioFile);
extAudioFile = NULL;
}
NSUInteger numberOfFrames = [sampleBuffer numberOfSamples];
/* -[QTSampleBuffer numberOfSamples] corresponds to the number of CoreAudio audio frames. */
/* In order to render continuously, the effect audio unit needs a new time stamp for each buffer. Use the number of frames for each unit of time. */
currentSampleTime += (double)numberOfFrames;
AudioTimeStamp timeStamp = {0};
timeStamp.mSampleTime = currentSampleTime;
timeStamp.mFlags |= kAudioTimeStampSampleTimeValid;
AudioUnitRenderActionFlags flags = 0;
/* Create an AudioBufferList large enough to hold the number of frames from the sample buffer in 32-bit floating point PCM format. */
AudioBufferList *outputABL = calloc(1, sizeof(*outputABL) + (currentInputASBD.mChannelsPerFrame - 1)*sizeof(outputABL->mBuffers[0]));
outputABL->mNumberBuffers = currentInputASBD.mChannelsPerFrame;
UInt32 channelIndex;
for (channelIndex = 0; channelIndex < currentInputASBD.mChannelsPerFrame; channelIndex++) {
UInt32 dataSize = numberOfFrames * currentInputASBD.mBytesPerFrame;
outputABL->mBuffers[channelIndex].mDataByteSize = dataSize;
outputABL->mBuffers[channelIndex].mData = malloc(dataSize);
outputABL->mBuffers[channelIndex].mNumberChannels = 1;
}
/*
Get an audio buffer list from the sample buffer and assign it to the currentInputAudioBufferList instance variable.
The the effect audio unit render callback, PushCurrentInputBufferIntoAudioUnit(), can access this value by calling the currentInputAudioBufferList method.
*/
currentInputAudioBufferList = [sampleBuffer audioBufferListWithOptions:QTSampleBufferAudioBufferListOptionAssure16ByteAlignment];
/* Tell the effect audio unit to render. This will synchronously call PushCurrentInputBufferIntoAudioUnit(), which will feed the audio buffer list into the effect audio unit. */
err = AudioUnitRender(effectAudioUnit, &flags, &timeStamp, 0, numberOfFrames, outputABL);
currentInputAudioBufferList = NULL;
if ((noErr == err) && extAudioFile) {
err = ExtAudioFileWriteAsync(extAudioFile, numberOfFrames, outputABL);
}
for (channelIndex = 0; channelIndex < currentInputASBD.mChannelsPerFrame; channelIndex++) {
free(outputABL->mBuffers[channelIndex].mData);
}
free(outputABL);
}
/* Used by PushCurrentInputBufferIntoAudioUnit() to access the current audio buffer list that has been output by the QTCaptureAudioDataOutput. */
- (AudioBufferList *)currentInputAudioBufferList
{
return currentInputAudioBufferList;
}
这来自THIS教程,还尝试在本教程中提供的示例代码中进一步查看音频捕获方法 #prama mark。
希望这有帮助!