vgmstream/src/util.c
paladine 3ae797a88a Changed STREAMFILE to be an abstract structure with function pointers for file operations. These changes have been done to support the audacious plugin which will use audacious-VFS I/O instead of stdio. The winamp plugin uses stdio, and has been tested and is working.
stdio optimizations include the prevention of 'doubly opening' a file.  If a file is opened that is already opened, the file handle is duplicated instead of using the normal fopen call.  

git-svn-id: https://vgmstream.svn.sourceforge.net/svnroot/vgmstream@180 51a99a44-fe44-0410-b1ba-c3e57ba2b86b
2008-05-20 15:18:38 +00:00

145 lines
3.8 KiB
C

#include <string.h>
#include "util.h"
#include "streamtypes.h"
int check_sample_rate(int32_t sr) {
return !(sr<1000 || sr>96000);
}
const char * filename_extension(const char * filename) {
const char * ext;
/* You know what would be nice? strrchrnul().
* Instead I have to do it myself. */
ext = strrchr(filename,'.');
if (ext==NULL) ext=filename+strlen(filename); /* point to null, i.e. an empty string for the extension */
else ext=ext+1; /* skip the dot */
return ext;
}
void interleave_channel(sample * outbuffer, sample * inbuffer, int32_t sample_count, int channel_count, int channel_number) {
int32_t insample,outsample;
if (channel_count==1) {
memcpy(outbuffer,inbuffer,sizeof(sample)*sample_count);
return;
}
for (insample=0,outsample=channel_number;insample<sample_count;insample++,outsample+=channel_count) {
outbuffer[outsample]=inbuffer[insample];
}
}
/* failed attempt at interleave in place */
/*
void interleave_stereo(sample * buffer, int32_t sample_count) {
int32_t tomove, belongs;
sample moving,temp;
tomove = sample_count;
moving = buffer[tomove];
do {
if (tomove<sample_count)
belongs = tomove*2;
else
belongs = (tomove-sample_count)*2+1;
printf("move %d to %d\n",tomove,belongs);
temp = buffer[belongs];
buffer[belongs] = moving;
moving = temp;
tomove = belongs;
} while (tomove != sample_count);
}
*/
void put_16bitLE(uint8_t * buf, int16_t i) {
buf[0] = (i & 0xFF);
buf[1] = i >> 8;
}
void put_32bitLE(uint8_t * buf, int32_t i) {
buf[0] = (uint8_t)(i & 0xFF);
buf[1] = (uint8_t)((i >> 8) & 0xFF);
buf[2] = (uint8_t)((i >> 16) & 0xFF);
buf[3] = (uint8_t)((i >> 24) & 0xFF);
}
/* make a header for PCM .wav */
/* buffer must be 0x2c bytes */
void make_wav_header(uint8_t * buf, int32_t sample_count, int32_t sample_rate, int channels) {
size_t bytecount;
bytecount = sample_count*channels*sizeof(sample);
/* RIFF header */
memcpy(buf+0, "RIFF", 4);
/* size of RIFF */
put_32bitLE(buf+4, (int32_t)(bytecount+0x2c-8));
/* WAVE header */
memcpy(buf+8, "WAVE", 4);
/* WAVE fmt chunk */
memcpy(buf+0xc, "fmt ", 4);
/* size of WAVE fmt chunk */
put_32bitLE(buf+0x10, 0x10);
/* compression code 1=PCM */
put_16bitLE(buf+0x14, 1);
/* channel count */
put_16bitLE(buf+0x16, channels);
/* sample rate */
put_32bitLE(buf+0x18, sample_rate);
/* bytes per second */
put_32bitLE(buf+0x1c, sample_rate*channels*sizeof(sample));
/* block align */
put_16bitLE(buf+0x20, (int16_t)(channels*sizeof(sample)));
/* significant bits per sample */
put_16bitLE(buf+0x22, sizeof(sample)*8);
/* PCM has no extra format bytes, so we don't even need to specify a count */
/* WAVE data chunk */
memcpy(buf+0x24, "data", 4);
/* size of WAVE data chunk */
put_32bitLE(buf+0x28, (int32_t)bytecount);
}
/* length is maximum length of dst. dst will always be null-terminated if
* length > 0 */
void concatn(int length, char * dst, const char * src) {
int i,j;
if (length <= 0) return;
for (i=0;i<length-1 && dst[i];i++); /* find end of dst */
for (j=0;i<length-1 && src[j];i++,j++)
dst[i]=src[j];
dst[i]='\0';
}
/* length is maximum length of dst. dst will always be double-null-terminated if
* length > 1 */
void concatn_doublenull(int length, char * dst, const char * src) {
int i,j;
if (length <= 1) return;
for (i=0;i<length-2 && (dst[i] || dst[i+1]);i++); /* find end of dst */
if (i==length-2) {
dst[i]='\0';
dst[i+1]='\0';
return;
}
if (i>0) i++;
for (j=0;i<length-2 && (src[j] || src[j+1]);i++,j++) dst[i]=src[j];
dst[i]='\0';
dst[i+1]='\0';
}