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/*
Copyright (C) 2000 Stefan Westerfeld
[email protected]
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "convert.h"
#include <math.h>
#include <string.h>
#include <assert.h>
#include <config.h>
#ifdef HAVE_X86_FLOAT_INT
static inline long QRound (float inval)
{
#if (__GNUC__ == 3 && __GNUC_MINOR__ == 0)
volatile
#warning "workaround for gcc-3.0 bug c++/2733 enabled"
#endif
int ret;
__asm__ ("fistpl %0" : "=m" (ret) : "t" (inval) : "st");
return ret;
}
#else
static inline long QRound (float inval)
{
return (long)inval;
}
#endif
/*---------------------------- new code begin -------------------------- */
#define compose_16le(ptr) \
((((*((ptr)+1)+128)&0xff) << 8)+*(ptr))
#define compose_16be(ptr) \
((((*(ptr)+128)&0xff) << 8)+*((ptr)+1))
#define conv_16_float(x) \
((float)((x)-32768)/32768.0)
#define convert_16le_float(x) conv_16_float(compose_16le(&(x)))
#define convert_16be_float(x) conv_16_float(compose_16be(&(x)))
#define conv_8_float(x) \
((float)((x)-128)/128.0)
#define convert_8_float(x) \
((float)((x)-128)/128.0)
#define convert_float_float(x) x
/*
* 16le, 16be, 8, float
*/
#define datatype_16le unsigned char
#define datasize_16le 2
#define datatype_16be unsigned char
#define datasize_16be 2
#define datatype_8 unsigned char
#define datasize_8 1
#define datatype_float float
#define datasize_float 1
#define mk_converter(from_format,to_format) \
void Arts::convert_mono_ ## from_format ## _ ## to_format (unsigned long samples, \
datatype_ ## from_format *from, \
datatype_ ## to_format *to) \
{ \
datatype_ ## to_format *end = to+samples * (datasize_ ## to_format); \
while(to<end) { \
*to = convert_ ## from_format ## _ ## to_format(*from); \
from += datasize_ ## from_format; \
to += datasize_ ## to_format; \
} \
} \
void Arts::interpolate_mono_ ## from_format ## _ ## to_format (unsigned long samples,\
double startpos, double speed, \
datatype_ ## from_format *from, \
datatype_ ## to_format *to) \
{ \
double flpos = startpos; \
while(samples) { \
long position = ((long)(flpos)) * (datasize_ ## from_format); \
double error = flpos - floor(flpos); \
*to = (convert_ ## from_format ## _ ## to_format(from[position])) * \
(1.0-error) + (convert_ ## from_format ## _ ## \
to_format(from[position + datasize_ ## from_format])) * error; \
to += datasize_ ## to_format; \
flpos += speed; \
samples--; \
} \
} \
void Arts::convert_stereo_i ## from_format ## _2 ## to_format (unsigned long samples,\
datatype_ ## from_format *from, \
datatype_ ## to_format *left, \
datatype_ ## to_format *right) \
{ \
datatype_ ## to_format *end = left+samples * (datasize_ ## to_format); \
while(left<end) { \
*left = convert_ ## from_format ## _ ## to_format(*from); \
from += datasize_ ## from_format; \
left += datasize_ ## to_format; \
*right = convert_ ## from_format ## _ ## to_format(*from); \
from += datasize_ ## from_format; \
right += datasize_ ## to_format; \
} \
} \
void Arts::interpolate_stereo_i ## from_format ## _2 ## to_format (unsigned long samples,\
double startpos, double speed, \
datatype_ ## from_format *from, \
datatype_ ## to_format *left, \
datatype_ ## to_format *right) \
{ \
double flpos = startpos; \
while(samples) { \
long position = ((long)(flpos)) * (datasize_ ## from_format) * 2; \
double error = flpos - floor(flpos); \
*left = (convert_ ## from_format ## _ ## to_format(from[position])) * \
(1.0-error) + (convert_ ## from_format ## _ ## \
to_format(from[position + 2*datasize_ ## from_format]))*error; \
left += datasize_ ## to_format; \
position += datasize_ ## from_format; \
*right =(convert_ ## from_format ## _ ## to_format(from[position])) * \
(1.0-error) + (convert_ ## from_format ## _ ## \
to_format(from[position + 2*datasize_ ## from_format]))*error; \
right += datasize_ ## to_format; \
flpos += speed; \
samples--; \
} \
}
mk_converter(8,float)
mk_converter(16le,float)
mk_converter(16be,float)
mk_converter(float,float)
/*----------------------------- new code end --------------------------- */
/*
void old_convert_mono_8_float(unsigned long samples, unsigned char *from, float *to)
{
float *end = to+samples;
while(to<end) *to++ = conv_8_float(*from++);
}
void old_convert_mono_16le_float(unsigned long samples, unsigned char *from, float *to)
{
float *end = to+samples;
while(to<end)
{
*to++ = conv_16le_float(compose_16le(from));
from += 2;
}
}
void old_convert_stereo_i8_2float(unsigned long samples, unsigned char *from, float *left, float *right)
{
float *end = left+samples;
while(left < end)
{
*left++ = conv_8_float(*from++);
*right++ = conv_8_float(*from++);
}
}
void old_convert_stereo_i16le_2float(unsigned long samples, unsigned char *from, float *left, float *right)
{
float *end = left+samples;
while(left < end)
{
*left++ = conv_16le_float(compose_16le(from));
*right++ = conv_16le_float(compose_16le(from+2));
from += 4;
}
}
*/
void Arts::convert_stereo_2float_i16le(unsigned long samples, float *left, float *right, unsigned char *to)
{
float *end = left+samples;
long syn;
while(left < end)
{
syn = QRound((*left++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = syn & 0xff;
*to++ = (syn >> 8) & 0xff;
syn = QRound((*right++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = syn & 0xff;
*to++ = (syn >> 8) & 0xff;
}
}
void Arts::convert_mono_float_16le(unsigned long samples, float *from, unsigned char *to)
{
float *end = from+samples;
while(from < end)
{
long syn = QRound((*from++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = syn & 0xff;
*to++ = (syn >> 8) & 0xff;
}
}
void Arts::convert_stereo_2float_i16be(unsigned long samples, float *left, float *right, unsigned char *to)
{
float *end = left+samples;
long syn;
while(left < end)
{
syn = QRound((*left++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = (syn >> 8) & 0xff;
*to++ = syn & 0xff;
syn = QRound((*right++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = (syn >> 8) & 0xff;
*to++ = syn & 0xff;
}
}
void Arts::convert_mono_float_16be(unsigned long samples, float *from, unsigned char *to)
{
float *end = from+samples;
while(from < end)
{
long syn = QRound((*from++)*32767);
if(syn < -32768) syn = -32768; /* clipping */
if(syn > 32767) syn = 32767;
*to++ = (syn >> 8) & 0xff;
*to++ = syn & 0xff;
}
}
void Arts::convert_stereo_2float_i8(unsigned long samples, float *left, float *right, unsigned char *to)
{
float *end = left+samples;
long syn;
while(left < end)
{
syn = (int)((*left++)*127+128);
if(syn < 0) syn = 0; /* clipping */
if(syn > 255) syn = 255;
*to++ = syn;
syn = (int)((*right++)*127+128);
if(syn < 0) syn = 0; /* clipping */
if(syn > 255) syn = 255;
*to++ = syn;
}
}
void Arts::convert_mono_float_8(unsigned long samples, float *from, unsigned char *to)
{
float *end = from+samples;
while(from < end)
{
long syn = (int)((*from++)*127+128);
if(syn < 0) syn = 0; /* clipping */
if(syn > 255) syn = 255;
*to++ = syn;
}
}
unsigned long Arts::uni_convert_stereo_2float(
unsigned long samples, // number of required samples
unsigned char *from, // buffer containing the samples
unsigned long fromLen, // length of the buffer
unsigned int fromChannels, // channels stored in the buffer
unsigned int fromBits, // number of bits per sample
float *left, float *right, // output buffers for left and right channel
double speed, // speed (2.0 means twice as fast)
double startposition // startposition
)
{
unsigned long doSamples = 0, sampleSize = fromBits/8;
if(fromBits == uni_convert_float_ne)
sampleSize = sizeof(float);
// how many samples does the from-buffer contain?
double allSamples = fromLen / (fromChannels * sampleSize);
// how many samples are remaining?
// subtract one due to interpolation and another against rounding errors
double fHaveSamples = allSamples - startposition - 2.0;
fHaveSamples /= speed;
// convert do "how many samples to do"?
if(fHaveSamples > 0)
{
doSamples = (int)fHaveSamples;
if(doSamples > samples) doSamples = samples;
}
// do conversion
if(doSamples)
{
if(fromChannels == 1)
{
if(fromBits == uni_convert_float_ne) {
interpolate_mono_float_float(doSamples,
startposition,speed,(float *)from,left);
}
else if(fromBits == uni_convert_s16_be) {
interpolate_mono_16be_float(doSamples,
startposition,speed,from,left);
}
else if(fromBits == uni_convert_s16_le) {
interpolate_mono_16le_float(doSamples,
startposition,speed,from,left);
}
else {
interpolate_mono_8_float(doSamples,
startposition,speed,from,left);
}
memcpy(right,left,sizeof(float)*doSamples);
}
else if(fromChannels == 2)
{
if(fromBits == uni_convert_float_ne) {
interpolate_stereo_ifloat_2float(doSamples,
startposition,speed,(float *)from,left,right);
}
else if(fromBits == uni_convert_s16_be) {
interpolate_stereo_i16be_2float(doSamples,
startposition,speed,from,left,right);
}
else if(fromBits == uni_convert_s16_le) {
interpolate_stereo_i16le_2float(doSamples,
startposition,speed,from,left,right);
}
else {
interpolate_stereo_i8_2float(doSamples,
startposition,speed,from,left,right);
}
} else {
assert(false);
}
}
return doSamples;
}
// undefine all that stuff (due to --enable-final)
#undef compose_16le
#undef compose_16be
#undef conv_16_float
#undef convert_16le_float
#undef convert_16be_float
#undef conv_8_float
#undef convert_8_float
#undef convert_float_float
#undef datatype_16le
#undef datasize_16le
#undef datatype_16be
#undef datasize_16be
#undef datatype_8
#undef datasize_8
#undef datatype_float
#undef datasize_float
#undef mk_converter
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