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1 | .TH "SDL_AudioCVT" "3" "Tue 11 Sep 2001, 22:58" "SDL" "SDL API Reference" |
2 | .SH "NAME" |
3 | SDL_AudioCVT \- Audio Conversion Structure |
4 | .SH "STRUCTURE DEFINITION" |
5 | .PP |
6 | .nf |
7 | \f(CWtypedef struct{ |
8 | int needed; |
9 | Uint16 src_format; |
10 | Uint16 dest_format; |
11 | double rate_incr; |
12 | Uint8 *buf; |
13 | int len; |
14 | int len_cvt; |
15 | int len_mult; |
16 | double len_ratio; |
17 | void (*filters[10])(struct SDL_AudioCVT *cvt, Uint16 format); |
18 | int filter_index; |
19 | } SDL_AudioCVT;\fR |
20 | .fi |
21 | .PP |
22 | .SH "STRUCTURE DATA" |
23 | .TP 20 |
24 | \fBneeded\fR |
25 | Set to one if the conversion is possible |
26 | .TP 20 |
27 | \fBsrc_format\fR |
28 | Audio format of the source |
29 | .TP 20 |
30 | \fBdest_format\fR |
31 | Audio format of the destination |
32 | .TP 20 |
33 | \fBrate_incr\fR |
34 | Rate conversion increment |
35 | .TP 20 |
36 | \fBbuf\fR |
37 | Audio buffer |
38 | .TP 20 |
39 | \fBlen\fR |
40 | Length of the original audio buffer in bytes |
41 | .TP 20 |
42 | \fBlen_cvt\fR |
43 | Length of converted audio buffer in bytes (calculated) |
44 | .TP 20 |
45 | \fBlen_mult\fR |
46 | \fBbuf\fR must be \fBlen\fR*\fBlen_mult\fR bytes in size(calculated) |
47 | .TP 20 |
48 | \fBlen_ratio\fR |
49 | Final audio size is \fBlen\fR*\fBlen_ratio\fR |
50 | .TP 20 |
51 | \fBfilters[10](\&.\&.)\fR |
52 | Pointers to functions needed for this conversion |
53 | .TP 20 |
54 | \fBfilter_index\fR |
55 | Current conversion function |
56 | .SH "DESCRIPTION" |
57 | .PP |
58 | The \fBSDL_AudioCVT\fR is used to convert audio data between different formats\&. A \fBSDL_AudioCVT\fR structure is created with the \fI\fBSDL_BuildAudioCVT\fP\fR function, while the actual conversion is done by the \fI\fBSDL_ConvertAudio\fP\fR function\&. |
59 | .PP |
60 | Many of the fields in the \fBSDL_AudioCVT\fR structure should be considered private and their function will not be discussed here\&. |
61 | .IP "\fBUint8 *\fP\fBbuf\fR" 10This points to the audio data that will be used in the conversion\&. It is both the source and the destination, which means the converted audio data overwrites the original data\&. It also means that the converted data may be larger than the original data (if you were converting from 8-bit to 16-bit, for instance), so you must ensure \fBbuf\fR is large enough\&. See below\&. |
62 | .IP "\fBint\fP \fBlen\fR" 10This is the length of the original audio data in bytes\&. |
63 | .IP "\fBint\fP \fBlen_mult\fR" 10As explained above, the audio buffer needs to be big enough to store the converted data, which may be bigger than the original audio data\&. The length of \fBbuf\fR should be \fBlen\fR*\fBlen_mult\fR\&. |
64 | .IP "\fBdouble\fP \fBlen_ratio\fR" 10When you have finished converting your audio data, you need to know how much of your audio buffer is valid\&. \fBlen\fR*\fBlen_ratio\fR is the size of the converted audio data in bytes\&. This is very similar to \fBlen_mult\fR, however when the convert audio data is shorter than the original \fBlen_mult\fR would be 1\&. \fBlen_ratio\fR, on the other hand, would be a fractional number between 0 and 1\&. |
65 | .SH "SEE ALSO" |
66 | .PP |
67 | \fI\fBSDL_BuildAudioCVT\fP\fR, \fI\fBSDL_ConvertAudio\fP\fR, \fI\fBSDL_AudioSpec\fR\fR |
68 | .\" created by instant / docbook-to-man, Tue 11 Sep 2001, 22:58 |