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/*
* This file has been modified for the cdrkit suite.
*
* The behaviour and appearence of the program code below can differ to a major
* extent from the version distributed by the original author(s).
*
* For details, see Changelog file distributed with the cdrkit package. If you
* received this file from another source then ask the distributing person for
* a log of modifications.
*
*/
/* @(#)aifc.c 1.5 01/10/27 Copyright 1998,1999 Heiko Eissfeldt */
/***
* CopyPolicy: GNU Public License 2 applies
* Copyright (C) by Heiko Eissfeldt
*
*
* ---------------------------------------------------------------------
* definitions for aifc pcm output
* ---------------------------------------------------------------------
*/
#include "config.h"
#include "mytype.h"
#include <stdio.h>
#include <standard.h>
#include <unixstd.h>
#include <strdefs.h>
#include <schily.h>
#include "byteorder.h"
#include "sndfile.h"
typedef UINT4 FOURCC; /* a four character code */
typedef struct CHUNKHDR {
FOURCC ckid; /* chunk ID */
UINT4 dwSize; /* chunk size */
} CHUNKHDR;
#define mmioFOURCC(ch0, ch1, ch2, ch3) \
((UINT4)(unsigned char)(ch3) | ((UINT4)(unsigned char)(ch2) << 8) | \
((UINT4)(unsigned char)(ch1) << 16) | ((UINT4)(unsigned char)(ch0) << 24))
#define FOURCC_FORM mmioFOURCC ('F', 'O', 'R', 'M')
#define FOURCC_AIFC mmioFOURCC ('A', 'I', 'F', 'C')
#define FOURCC_FVER mmioFOURCC ('F', 'V', 'E', 'R')
#define FOURCC_COMM mmioFOURCC ('C', 'O', 'M', 'M')
#define FOURCC_NONE mmioFOURCC ('N', 'O', 'N', 'E')
#define FOURCC_SSND mmioFOURCC ('S', 'S', 'N', 'D')
#define NO_COMPRESSION "not compressed"
/* brain dead construction from apple involving bigendian 80-bit doubles.
Definitely designed not to be portable. Alignment is a nightmare too. */
typedef struct AIFCHDR {
CHUNKHDR formChk;
FOURCC formType;
CHUNKHDR fverChk; /* Version chunk */
UINT4 timestamp; /* timestamp identifies version */
CHUNKHDR commChk; /* Common chunk */
/* from now on, alignment prevents us from using the original types :-(( */
unsigned char numChannels[2]; /* Audio Channels */
unsigned char numSampleFrames[4]; /* # of samples */
unsigned char samplesize[2]; /* bits per sample */
unsigned char sample_rate[10]; /* sample rate in extended float */
unsigned char compressionType[4]; /* AIFC extension */
unsigned char compressionNameLen; /* AIFC extension */
char compressionName[sizeof(NO_COMPRESSION)]; /* AIFC extension */
unsigned char ssndChkid[4]; /* Sound data chunk */
unsigned char dwSize[4]; /* size of chunk */
unsigned char offset[4]; /* start of 1st sample */
unsigned char blocksize[4]; /* aligned sound data block size */
} AIFCHDR;
static AIFCHDR AifcHdr;
/* Prototypes */
static int Format_samplerate(unsigned long rate, unsigned char the_rate[10]);
static int InitSound(int audio, long channels, unsigned long rate,
long nBitsPerSample, unsigned long expected_bytes );
static int ExitSound(int audio, unsigned long nBytesDone);
static unsigned long GetHdrSize(void);
static unsigned long InSizeToOutSize(unsigned long BytesToDo);
struct soundfile aifcsound =
{
InitSound, /* init header method */
ExitSound, /* exit header method */
GetHdrSize, /* report header size method */
/* get sound samples out */
(int (*)(int audio, unsigned char *buf, unsigned long BytesToDo))write,
InSizeToOutSize, /* compressed? output file size */
1 /* needs big endian samples */
};
/* format the sample rate into an
bigendian 10-byte IEEE-754 floating point number
*/
static int Format_samplerate(unsigned long rate, unsigned char the_rate[10])
{
int i;
/* normalize rate */
for (i = 0; (rate & 0xffff) != 0; rate <<= 1, i++) {
if ((rate & 0x8000) != 0) {
break;
}
}
/* set exponent and sign */
the_rate[1] = 14-i;
the_rate[0] = 0x40; /* LSB = sign */
/* 16-bit part of mantisse for sample rate */
the_rate[3] = rate & 0xff;
the_rate[2] = (rate >> 8) & 0xff;
/* initialize lower digits of mantisse */
the_rate[4] = the_rate[5] = the_rate[6] =
the_rate[7] = the_rate[8] = the_rate[9] = 0;
return 0;
}
static int InitSound(int audio, long channels, unsigned long rate,
long nBitsPerSample, unsigned long expected_bytes)
{
UINT4 tmp;
fillbytes(&AifcHdr, sizeof(AifcHdr), '\0');
AifcHdr.formChk.ckid = cpu_to_be32(FOURCC_FORM);
AifcHdr.formChk.dwSize= cpu_to_be32(expected_bytes +
offset_of(AIFCHDR,blocksize)+sizeof(AifcHdr.blocksize)
- offsetof(AIFCHDR,commChk));
AifcHdr.formType = cpu_to_be32(FOURCC_AIFC);
AifcHdr.fverChk.ckid = cpu_to_be32(FOURCC_FVER);
AifcHdr.fverChk.dwSize= cpu_to_be32(offsetof(AIFCHDR,commChk)
- offsetof(AIFCHDR,timestamp));
AifcHdr.compressionType[0]='N';
AifcHdr.compressionType[1]='O';
AifcHdr.compressionType[2]='N';
AifcHdr.compressionType[3]='E';
AifcHdr.compressionNameLen = sizeof(NO_COMPRESSION)-1;
strcpy(AifcHdr.compressionName, NO_COMPRESSION);
AifcHdr.timestamp = cpu_to_be32(UINT4_C(0xA2805140)); /* AIFC Version 1 */
AifcHdr.commChk.ckid = cpu_to_be32(FOURCC_COMM);
AifcHdr.commChk.dwSize= cpu_to_be32(offset_of(AIFCHDR,ssndChkid)
- offset_of(AIFCHDR,numChannels));
AifcHdr.numChannels[1]= channels;
tmp = cpu_to_be32(expected_bytes/(channels * (nBitsPerSample/8)));
AifcHdr.numSampleFrames[0] = tmp >> 24;
AifcHdr.numSampleFrames[1] = tmp >> 16;
AifcHdr.numSampleFrames[2] = tmp >> 8;
AifcHdr.numSampleFrames[3] = tmp >> 0;
AifcHdr.samplesize[1] = nBitsPerSample;
Format_samplerate(rate, AifcHdr.sample_rate);
memcpy(AifcHdr.ssndChkid, "SSND", 4);
tmp = cpu_to_be32(expected_bytes + offset_of(AIFCHDR,blocksize)+sizeof(AifcHdr.blocksize) - offset_of(AIFCHDR, offset));
AifcHdr.dwSize[0] = tmp >> 24;
AifcHdr.dwSize[1] = tmp >> 16;
AifcHdr.dwSize[2] = tmp >> 8;
AifcHdr.dwSize[3] = tmp >> 0;
return write (audio, &AifcHdr, sizeof (AifcHdr));
}
static int ExitSound(int audio, unsigned long nBytesDone)
{
UINT4 tmp;
AifcHdr.formChk.dwSize= cpu_to_be32(nBytesDone + sizeof(AIFCHDR)
- offsetof(AIFCHDR,commChk));
tmp = cpu_to_be32(nBytesDone/(
AifcHdr.numChannels[1] * AifcHdr.samplesize[1]/ULONG_C(8)));
AifcHdr.numSampleFrames[0] = tmp >> 24;
AifcHdr.numSampleFrames[1] = tmp >> 16;
AifcHdr.numSampleFrames[2] = tmp >> 8;
AifcHdr.numSampleFrames[3] = tmp >> 0;
/* If an odd number of bytes has been written,
extend the chunk with one dummy byte. This is a requirement for AIFC. */
if ((nBytesDone & 1) && (lseek(audio, 1L, SEEK_CUR) == -1)) {
return 0;
}
/* goto beginning */
if (lseek(audio, 0L, SEEK_SET) == -1) {
return 0;
}
return write (audio, &AifcHdr, sizeof (AifcHdr));
}
static unsigned long GetHdrSize()
{
return sizeof( AifcHdr );
}
static unsigned long InSizeToOutSize(unsigned long BytesToDo)
{
return BytesToDo;
}
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