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|
# /*
Copyright (C) 2001 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 "artsmodulessynth.h"
#include <sys/stat.h>
#include <stdsynthmodule.h>
#include <unistd.h>
#include <math.h>
#include <debug.h>
#include <cache.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
using namespace std;
namespace Arts {
namespace PatchLoader {
typedef unsigned char byte;
typedef unsigned short int word;
typedef unsigned int dword;
typedef char sbyte;
typedef short int sword;
typedef int sdword;
static int pos = 0;
static int apos = 0;
inline void xRead(FILE *file, int len, void *data)
{
// printf("(0x%2x) - 0x%02x ... reading %d bytes\n",apos,pos,len);
pos += len;
apos += len;
if(fread(data, len, 1, file) != 1)
fprintf(stdout, "short read\n");
}
inline void skip(FILE *file, int len)
{
// printf("(0x%2x) - 0x%02x ... skipping %d bytes\n",apos,pos,len);
pos += len;
apos += len;
while(len > 0)
{
char junk;
if(fread(&junk, 1, 1, file) != 1)
fprintf(stdout, "short read\n");
len--;
}
}
inline void readBytes(FILE *file, unsigned char *bytes, int len)
{
xRead(file, len, bytes);
}
inline void readString(FILE *file, char *str, int len)
{
xRead(file, len, str);
}
/* readXXX with sizeof(xxx) == 1 */
inline void readByte(FILE *file, byte& b)
{
xRead(file, 1, &b);
}
/* readXXX with sizeof(xxx) == 2 */
inline void readWord(FILE *file, word& w)
{
byte h, l;
xRead(file, 1, &l);
xRead(file, 1, &h);
w = (h << 8) + l;
}
inline void readSWord(FILE *file, sword& sw)
{
word w;
readWord(file, w);
sw = (sword)w;
}
/* readXXX with sizeof(xxx) == 4 */
inline void readDWord(FILE *file, dword& dw)
{
byte h, l, hh, hl;
xRead(file, 1, &l);
xRead(file, 1, &h);
xRead(file, 1, &hl);
xRead(file, 1, &hh);
dw = (hh << 24) + (hl << 16) + (h << 8) + l;
}
struct PatHeader {
char id[12]; /* ID='GF1PATCH110' */
char manufacturer_id[10]; /* Manufacturer ID */
char description[60]; /* Description of the contained Instruments
or copyright of manufacturer. */
byte instruments; /* Number of instruments in this patch */
byte voices; /* Number of voices for sample */
byte channels; /* Number of output channels
(1=mono,2=stereo) */
word waveforms; /* Number of waveforms */
word mastervolume; /* Master volume for all samples */
dword size; /* Size of the following data */
char reserved[36]; /* reserved */
PatHeader(FILE *file)
{
readString(file, id, 12);
readString(file, manufacturer_id, 10);
readString(file, description, 60);
/* skip(file, 2);*/
readByte(file, instruments);
readByte(file, voices);
readByte(file, channels);
readWord(file, waveforms);
readWord(file, mastervolume);
readDWord(file, size);
readString(file, reserved, 36);
}
};
struct PatInstrument {
word number;
char name[16];
dword size; /* Size of the whole instrument in bytes. */
byte layers;
char reserved[40];
/* layer? */
word layerUnknown;
dword layerSize;
byte sampleCount; /* number of samples in this layer (?) */
char layerReserved[40];
PatInstrument(FILE *file)
{
readWord(file, number);
readString(file, name, 16);
readDWord(file, size);
readByte(file, layers);
readString(file, reserved, 40);
/* layer: (?) */
readWord(file, layerUnknown);
readDWord(file, layerSize);
readByte(file, sampleCount);
readString(file, reserved, 40);
}
};
struct PatPatch {
char filename[7]; /* Wave file name */
byte fractions; /* Fractions */
dword wavesize; /* Wave size.
Size of the wave digital data */
dword loopStart;
dword loopEnd;
word sampleRate;
dword minFreq;
dword maxFreq;
dword origFreq;
sword fineTune;
byte balance;
byte filterRate[6];
byte filterOffset[6];
byte tremoloSweep;
byte tremoloRate;
byte tremoloDepth;
byte vibratoSweep;
byte vibratoRate;
byte vibratoDepth;
byte waveFormat;
sword freqScale;
word freqScaleFactor;
char reserved[36];
PatPatch(FILE *file)
{
readString(file, filename, 7);
readByte(file, fractions);
readDWord(file, wavesize);
readDWord(file, loopStart);
readDWord(file, loopEnd);
readWord(file, sampleRate);
readDWord(file, minFreq);
readDWord(file, maxFreq);
readDWord(file, origFreq);
readSWord(file, fineTune);
readByte(file, balance);
readBytes(file, filterRate, 6);
readBytes(file, filterOffset, 6);
readByte(file, tremoloSweep);
readByte(file, tremoloRate);
readByte(file, tremoloDepth);
readByte(file, vibratoSweep);
readByte(file, vibratoRate);
readByte(file, vibratoDepth);
readByte(file, waveFormat);
readSWord(file, freqScale);
readWord(file, freqScaleFactor);
readString(file, reserved, 36);
}
};
}
class CachedPat : public CachedObject
{
protected:
struct stat oldstat;
string filename;
bool initOk;
long dataSize;
CachedPat(Cache *cache, const string& filename);
~CachedPat();
public:
struct Data {
PatchLoader::PatPatch patch;
mcopbyte *rawdata;
Data(FILE *file)
: patch(file)
{
rawdata = new mcopbyte[patch.wavesize];
fread(rawdata, 1, patch.wavesize, file);
// sign conversion only for 16bit!
if(patch.waveFormat & (1 << 1))
{
for(unsigned int i = 1; i < patch.wavesize; i+=2)
rawdata[i] ^= 0x80;
}
// unfold ping-pong loops
if(patch.waveFormat & (1 << 3))
{
int looplen = patch.loopEnd - patch.loopStart;
arts_assert(looplen > 0);
mcopbyte *newdata = new mcopbyte[patch.wavesize + looplen];
// copy head
memcpy(&newdata[0], &rawdata[0], patch.loopStart + looplen);
// 16 bit unfolding only:
for(int i=0; i<looplen; i+=2)
{
newdata[patch.loopStart+looplen+i] =
newdata[patch.loopStart+looplen-i-2];
newdata[patch.loopStart+looplen+i+1] =
newdata[patch.loopStart+looplen-i-1];
}
// copy tail:
memcpy(&newdata[patch.loopStart+2*looplen],
&rawdata[patch.loopStart+looplen],
patch.wavesize - patch.loopEnd);
delete[] rawdata;
rawdata = newdata;
patch.wavesize += looplen;
patch.loopEnd += looplen;
patch.waveFormat &= ~(1 << 3);
}
}
~Data()
{
delete[] rawdata;
}
};
list<Data*> dList;
static CachedPat *load(Cache *cache, const string& filename);
/**
* validity test for the cache - returns false if the object is having
* reflecting the correct contents anymore (e.g. if the file on the
* disk has changed), and there is no point in keeping it in the cache any
* longer
*/
bool isValid();
/**
* memory usage for the cache
*/
int memoryUsage();
};
CachedPat *CachedPat::load(Cache *cache, const string& filename)
{
CachedPat *pat;
pat = (CachedPat *)cache->get(string("CachedPat:")+filename);
if(!pat) {
pat = new CachedPat(cache, filename);
if(!pat->initOk) // loading failed
{
pat->decRef();
return 0;
}
}
return pat;
}
bool CachedPat::isValid()
{
if(!initOk)
return false;
struct stat newstat;
lstat(filename.c_str(),&newstat);
return(newstat.st_mtime == oldstat.st_mtime);
}
int CachedPat::memoryUsage()
{
return dataSize;
}
CachedPat::CachedPat(Cache *cache, const string& filename)
: CachedObject(cache), filename(filename), initOk(false), dataSize(0)
{
setKey(string("CachedPat:")+filename);
if(lstat(filename.c_str(),&oldstat) == -1)
{
arts_info("CachedPat: Can't stat file '%s'", filename.c_str());
return;
}
FILE *patfile = fopen(filename.c_str(), "r");
if(patfile)
{
//PatchLoader::PatHeader header(patfile);
PatchLoader::PatInstrument ins(patfile);
for(int i=0;i<ins.sampleCount;i++)
{
Data *data = new Data(patfile);
dList.push_back(data);
dataSize += data->patch.wavesize;
}
fclose(patfile);
arts_debug("loaded pat %s",filename.c_str());
arts_debug(" %d patches, datasize total is %d bytes",
ins.sampleCount, dataSize);
initOk = true;
}
}
CachedPat::~CachedPat()
{
while(!dList.empty())
{
delete dList.front();
dList.pop_front();
}
}
class Synth_PLAY_PAT_impl : virtual public Synth_PLAY_PAT_skel,
virtual public StdSynthModule
{
protected:
string _filename;
CachedPat *pat;
CachedPat::Data *selected;
float fpos;
public:
Synth_PLAY_PAT_impl()
{
pat = 0;
selected = 0;
}
void unload()
{
if(pat)
{
pat->decRef();
pat = 0;
}
}
~Synth_PLAY_PAT_impl()
{
unload();
}
void streamStart()
{
fpos = 0.0;
selected = 0;
}
void calculateBlock(unsigned long samples)
{
/* the normal offset is 60
60 = 12*5
so we scale with 2^5 = 32
*/
float freq = frequency[0]; /* * 32.0 / 2.0; * why /2.0? */
int ifreq = (int)(freq * 1024.0);
if(!selected && pat)
{
int bestdiff = 20000 * 1024;
list<CachedPat::Data*>::iterator i;
for(i = pat->dList.begin(); i != pat->dList.end(); i++)
{
int diff = ::abs(double(ifreq - (*i)->patch.origFreq));
if(diff < bestdiff)
{
selected = *i;
bestdiff = diff;
}
}
/* drums */
if(selected && selected->patch.freqScaleFactor == 0)
ifreq = selected->patch.origFreq;
}
if(selected)
{
const PatchLoader::PatPatch& patch = selected->patch;
/*
* thats just a *guess*, I have no idea how tuning actually
* should work
*/
#if 0
float tonetune = float(pat.fineTune)/float(pat.freqScaleFactor);
float tuning = pow(2.0, tonetune/12.0);
freq *= tuning;
#endif
//printf("tonetune: %f\n",tonetune);
//printf("tuning: %f\n",tuning);
float step = double(patch.sampleRate)/samplingRateFloat *
float(ifreq) / float(patch.origFreq);
for(unsigned int i = 0; i < samples; i++)
{
// ASSUME 16bit signed, native byte order
int ifpos = int(fpos)*2;
// looped? bidi? backw?
if((patch.waveFormat & ((1 << 2) + (1 << 3) + (1 << 4)))
== (1 << 2))
{
while(ifpos >= signed(patch.loopEnd))
{
ifpos -= (patch.loopEnd - patch.loopStart);
fpos -= (patch.loopEnd - patch.loopStart)/2;
}
}
short int *x = (short int *)&selected->rawdata[ifpos];
float sample = (ifpos >= 0 && ifpos < signed(patch.wavesize))?
x[0]/32768.0:0.0;
float sample1 = ((ifpos+2) >= 0 && (ifpos+2) < signed(patch.wavesize))?
x[1]/32768.0:0.0;
float error = fpos - (int)fpos;
outvalue[i] = sample * (1.0-error) + sample1 * error;
fpos += step;
}
}
else
{
for(unsigned int i = 0; i < samples; i++)
outvalue[i] = 0.0;
}
}
void clearDList()
{
selected = 0;
}
string filename() { return _filename; }
void filename(const string& newFile)
{
if(newFile == _filename) return;
unload();
pat = CachedPat::load(Cache::the(), newFile);
_filename = newFile;
filename_changed(newFile);
}
};
REGISTER_IMPLEMENTATION(Synth_PLAY_PAT_impl);
}
|