I have a Delphi 6 Pro app that uses the DSPACK component library to send audio to Skype from the system's preferred audio input device. I am using a TSampleGrabber component to tap into the Filter Graph chain and then send the audio buffers to Skype. The problem is that I am only getting audio once a second. In other words, the OnBuffer() event for the TSampleGrabber instance only fires once a second with a full second's worth of data in the Buffer parameter. I need to know how to modify my Filter Graph chain so it grabs data from the input device at a faster interval than once a second. If possible, I'd like to do it as fast as every 50 ms or at least every 100ms.
My Filter Graph chain consists of a TFilter that is mapped to the system's preferred audio input device at the top. I attach the output pins of that filter to the input pins of a 'WAV Dest' assigned TFilter so I can get the samples in PCM WAV format. I then attach the output pins of the 'WAV Dest' filter to the input pins of the TSampleGrabber instance. What do I need to change to get the TSampleGrabber OnBuffer() event to fire at a faster interval?
UPDATE: Based on Roman R's answer I was able to implement a solution that I am showing below. One note. His link led me to the following blog post that was helpful in solution:
// Variable declaration for output pin to manipulate. var intfCapturePin: IPin; ............... // Put this code after you have initialized your audio capture device // TFilter instance *and* set it's wave audio format. My variable for // this is FFiltAudCap. I believe you need to set the buffer size before // connecting up the pins of the Filters. The media type was // retrieved earlier (theMediaType) when I initialized the audio // input device Filter so you will need to do similarly. // Get a reference to the desired output pin for the audio capture device. with FFiltAudCap as IBaseFilter do CheckDSError(findPin(StringToOleStr('Capture'), intfCapturePin)); if not Assigned(intfCapturePin) then raise Exception.Create('Unable to find the audio input device''s Capture output pin.'); // Set the capture device buffer to 50 ms worth of audio data to // reduce latency. NOTE: This will fail if the device does not // support the latency you desire so make sure you watch out for that. setBufferLatency(intfCapturePin as IAMBufferNegotiation, 50, theMediaType); .................. // The setBufferLatency() procedure. procedure setBufferLatency( // A buffer negotiation interface pointer. intfBufNegotiate: IAMBufferNegotiation; // The desired latency in milliseconds. bufLatencyMS: WORD; // The media type the audio stream is set to. theMediaType: TMediaType); var allocProp: _AllocatorProperties; wfex: TWaveFormatEx; begin if not Assigned(intfBufNegotiate) then raise Exception.Create('The buffer negotiation interface object is unassigned.'); // Calculate the number of bytes per second using the wave // format belonging to the given Media Type. wfex := getWaveFormat(theMediaType); if wfex.nAvgBytesPerSec = 0 then raise Exception.Create('The average bytes per second value for the given Media Type is 0.'); allocProp.cbAlign := -1; // -1 means "no preference". // Calculate the size of the buffer needed to get the desired // latency in milliseconds given the average bytes per second // of the Media Type's audio format. allocProp.cbBuffer := Trunc(wfex.nAvgBytesPerSec * (bufLatencyMS / 1000)); allocProp.cbPrefix := -1; allocProp.cBuffers := -1; // Try to set the buffer size to the desired. CheckDSError(intfBufNegotiate.SuggestAllocatorProperties(allocProp)); end;