How To Set MCI Wave Audio Recording Format (152180)
The information in this article applies to:
- Microsoft Windows Software Development Kit (SDK) 3.1
- Microsoft Platform Software Development Kit (SDK) 1.0, when used with:
- Microsoft Windows NT Server 3.51
- Microsoft Windows NT Server 4.0
- Microsoft Windows NT Workstation 3.51
- Microsoft Windows NT Workstation 4.0
- the operating system: Microsoft Windows 2000
This article was previously published under Q152180 SUMMARY
All parameters in the MCI_WAVE_SET_PARMS struct that apply to recording
wave audio should be set at the same time. If some recording parameters are
set at one time and the balance of the recording parameters are set at a
later time, recording will proceed at a default setting of 8-bits per
sample, mono, and 11-kHz sampling.
MORE INFORMATION
The members of the MCI_WAVE_SET_PARMS struct that pertain to recording are
wFormatTag, wBitsPerSample, nChannels, nSamplesPerSec, nAvgBytesPerSec, and
nBlockAlign. All of these should be set in a single call to mciSendCommand
in order to achieve recording under the desired settings.
Because nBlockAlign is usually computed using information from
wBitsPerSample and nChannels, it may not seem necessary to set any members
other than wFormatTag, wBitsPerSample, and nChannels in conjunction with
the setting of nBlockAlign. Leaving the other two pertinent members,
nSamplesPerSec and nAvgBytesPerSec, to be set later, however, results in an
error message at both the initial setting and the later setting of
parameters. The error message states "The parameter is out of range for the
specified command." Recording will then proceed at a default setting of
8-bits per sample, mono, and 11-kHz sampling.
Following is a sample of setting all the recording members of the
MCI_WAVE_SET_PARMS struct properly at once to get the desired 16-bit stereo
recording accomplished at 44-kHz sampling:
//#include <mmsystem.h> at the beginning of the program.
//Link with mmsystem.lib for 16-bit code, or
//link with winmm.lib for 32-bit code.
MCI_WAVE_SET_PARMS set_parms;
MCI_OPEN_PARMS open_parms;
DWORD dwReturn;
UINT wave_device_id;
char buffer[128];
// Open the wave audio device.
open_parms.lpstrDeviceType = "waveaudio";
open_parms.lpstrElementName = "";
if (dwReturn = mciSendCommand( 0, MCI_OPEN, MCI_OPEN_TYPE |
MCI_OPEN_ELEMENT, (DWORD) (LPVOID) &open_parms))
{
mciGetErrorString(dwReturn, buffer, sizeof (buffer));
MessageBox( NULL, buffer, "MCI_OPEN",
MB_ICONEXCLAMATION | MB_OK);
}
else
{
MessageBox( NULL, "Open Succeeded", "MCI_OPEN",
MB_ICONEXCLAMATION | MB_OK);
}
// Note the wave audio device ID
wave_device_id = open_parms.wDeviceID;
// Set PCM format of recording.
set_parms.wFormatTag = WAVE_FORMAT_PCM;
set_parms.wBitsPerSample = 16;
set_parms.nChannels = 2;
set_parms.nSamplesPerSec = 44100;
set_parms.nAvgBytesPerSec = ((set_parms.wBitsPerSample)/8) *
set_parms.nChannels *
set_parms.nSamplesPerSec;
set_parms.nBlockAlign = ((set_parms.wBitsPerSample)/8) *
set_parms.nChannels;
if (dwReturn = mciSendCommand( wave_device_id, MCI_SET, MCI_WAIT |
MCI_WAVE_SET_FORMATTAG |
MCI_WAVE_SET_BITSPERSAMPLE |
MCI_WAVE_SET_CHANNELS |
MCI_WAVE_SET_SAMPLESPERSEC |
MCI_WAVE_SET_AVGBYTESPERSEC |
MCI_WAVE_SET_BLOCKALIGN,
(DWORD)(LPVOID)&set_parms))
{
mciGetErrorString(dwReturn, buffer, sizeof(buffer));
MessageBox( NULL, buffer, "MCI_SET",
MB_ICONEXCLAMATION | MB_OK);
}
else
{
MessageBox( NULL, "MCI_WAVE_SET Succeeded", "MCI_SET",
MB_ICONEXCLAMATION | MB_OK);
}
//Close the wave device.
if (dwReturn = mciSendCommand( wave_device_id, MCI_CLOSE,
(DWORD)NULL, (DWORD)NULL))
{
mciGetErrorString(dwReturn, buffer, sizeof (buffer));
MessageBox( NULL, buffer, "MCI_CLOSE",
MB_ICONEXCLAMATION | MB_OK);
}
else
{
MessageBox( NULL, "MCI_CLOSE Succeeded", "MCI_CLOSE",
MB_ICONEXCLAMATION | MB_OK);
}
Following is behavior that will result in a default recording of 8-bits per
sample, mono, and 11-kHz sampling, because the settings of the recording
parameters are done in two parts:
// Set PCM format recording, Part 1.
set_parms.wFormatTag = WAVE_FORMAT_PCM;
set_parms.wBitsPerSample = 16;
set_parms.nChannels = 2;
set_parms.nBlockAlign = ((set_parms.wBitsPerSample)/8) *
set_parms.nChannels;
if (dwReturn = mciSendCommand( wave_device_id, MCI_SET, MCI_WAIT |
MCI_WAVE_SET_FORMATTAG |
MCI_WAVE_SET_BITSPERSAMPLE |
MCI_WAVE_SET_CHANNELS |
MCI_WAVE_SET_BLOCKALIGN,
(DWORD)(LPVOID)&set_parms))
{
mciGetErrorString(dwReturn, buffer, sizeof(buffer));
MessageBox( NULL, buffer, "MCI_WAVE_SET_1", MB_OK);
}
else
}
MessageBox( NULL, "MCI_WAVE_SET-1 Succeeded", "MCI_SET",
MB_OK);
}
// Set PCM format recording, Part 2.
set_parms.nSamplesPerSec = 44100;
set_parms.nAvgBytesPerSec = ((set_parms.wBitsPerSample)/8) *
set_parms.nChannels *
set_parms.nSamplesPerSec;
if (dwReturn = mciSendCommand( wave_device_id, MCI_SET, MCI_WAIT |
MCI_WAVE_SET_SAMPLESPERSEC |
MCI_WAVE_SET_AVGBYTESPERSEC,
(DWORD)(LPVOID)&set_parms))
{
mciGetErrorString(dwReturn, buffer, sizeof(buffer));
MessageBox( NULL, buffer, "MCI_WAVE_SET_2", MB_OK);
}
else
{
MessageBox( NULL, "MCI_WAVE_SET_2 Succeeded", "MCI_SET",
MB_OK);
}
Modification Type: | Minor | Last Reviewed: | 7/11/2005 |
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Keywords: | kbmm KB152180 |
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