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godot/modules/chibi/cp_loader_xm.cpp
Rémi Verschelde d8223ffa75 Welcome in 2017, dear changelog reader! 
That year should bring the long-awaited OpenGL ES 3.0 compatible renderer
with state-of-the-art rendering techniques tuned to work as low as middle
end handheld devices - without compromising with the possibilities given
for higher end desktop games of course. Great times ahead for the Godot
community and the gamers that will play our games!

(cherry picked from commit c7bc44d5ad)
2017-01-12 19:15:30 +01:00

753 lines
25 KiB
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/*************************************************************************/
/* cp_loader_xm.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* http://www.godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2017 Juan Linietsky, Ariel Manzur. */
/* */
/* Permission is hereby granted, free of charge, to any person obtaining */
/* a copy of this software and associated documentation files (the */
/* "Software"), to deal in the Software without restriction, including */
/* without limitation the rights to use, copy, modify, merge, publish, */
/* distribute, sublicense, and/or sell copies of the Software, and to */
/* permit persons to whom the Software is furnished to do so, subject to */
/* the following conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
/*************************************************************************/
#include "cp_loader_xm.h"
#include "cp_tables.h"
#define ABORT_LOAD { file->close(); return FILE_CORRUPTED; }
CPLoader::Error CPLoader_XM::load_song(const char *p_file,CPSong *p_song,bool p_sampleset) {
song=p_song;
if (file->open(p_file,CPFileAccessWrapper::READ)) {
return FILE_CANNOT_OPEN;
};
/**************************************
LOAD HEADER
***************************************/
file->get_byte_array(header.idtext,17);
header.idtext[17]=0;
file->get_byte_array(header.songname,20);
header.songname[20]=0;
header.hex1a=file->get_byte();
if (header.hex1a!=0x1A) { //XM "magic" byte.. this sucks :)
file->close();
return FILE_UNRECOGNIZED;
}
//magic byte sucks, but can't do much about it..
song->reset(); //must reset the song
song->set_name( (const char*)header.songname );
file->get_byte_array(header.trackername,20);
header.trackername[20]=0;
header.version=file->get_word();
header.headersize=file->get_dword();
header.songlength=file->get_word();
header.restart_pos=file->get_word();
header.channels_used=file->get_word();
header.patterns_used=file->get_word();
header.instruments_used=file->get_word();
song->set_linear_slides( file->get_word() );
song->set_speed( file->get_word() );
song->set_tempo( file->get_word() );
song->set_instruments( true );
file->get_byte_array(header.orderlist,256);
for (int i=0;i<header.songlength;i++) {
if (i>199)
break;
song->set_order(i,header.orderlist[i]);
}
/**************************************
LOAD PATTERNS
***************************************/
for (int i=0;i<header.patterns_used;i++) {
uint32_t aux,rows;
aux=file->get_dword(); //length
aux=file->get_byte(); //packing type
rows=aux=file->get_word(); //rows!
song->get_pattern(i)->set_length( aux );
aux=file->get_word(); //packed size
if (aux==0)
continue;
//unpaaack!
for(int j=0;j<(int)rows;j++)
for(int k=0;k<header.channels_used;k++) {
CPNote aux_note;
uint8_t aux_byte;
//uint8_t field;
aux_byte=file->get_byte(); //packing type
if (!(aux_byte&0x80)) {
aux_note.note=aux_byte;
aux_byte=0xFE; //if bit 7 not set, read all of them except the note
}
if (aux_byte&1) aux_note.note=file->get_byte();
if (aux_byte&2) aux_note.instrument=file->get_byte();
if (aux_byte&4) aux_note.volume=file->get_byte();
if (aux_byte&8) aux_note.command=file->get_byte();
if (aux_byte&16) aux_note.parameter=file->get_byte();
if (aux_note.note!=CPNote::EMPTY) {
if (aux_note.note==97) aux_note.note=CPNote::OFF;
else {
aux_note.note+=11; //octave minus one (XM C-0 is 1, not zero )
}
}
if (aux_note.instrument!=CPNote::EMPTY) {
if ((aux_note.instrument>0) && (aux_note.instrument<100))
aux_note.instrument--;
else
aux_note.instrument=CPNote::EMPTY;
}
if (aux_note.volume!=CPNote::EMPTY) {
if (aux_note.volume<0x10) {}
else if (aux_note.volume<0x50) {
aux_note.volume-=0x10;
} else if (aux_note.volume<0x60) {
//
aux_note.volume=CPNote::EMPTY;
} else if (aux_note.volume<0x70) {
//60 -- volume slide down
aux_note.volume-=0x60;
if (aux_note.volume>9) aux_note.volume=9;
aux_note.volume+=95;
} else if (aux_note.volume<0x80) {
//70 -- volume slide up
aux_note.volume-=0x70;
if (aux_note.volume>9) aux_note.volume=9;
aux_note.volume+=85;
} else if (aux_note.volume<0x90) {
//80 -- fine volume slide down
aux_note.volume-=0x80;
if (aux_note.volume>9) aux_note.volume=9;
aux_note.volume+=75;
} else if (aux_note.volume<0xA0) {
//9 -- fine volume slide up
aux_note.volume-=0x90;
if (aux_note.volume>9) aux_note.volume=9;
aux_note.volume+=65;
} else if (aux_note.volume<0xB0) {
//A -- set vibrato speed
aux_note.volume=CPNote::EMPTY;
} else if (aux_note.volume<0xC0) {
//B -- vibrato
aux_note.volume-=0xB0;
if (aux_note.volume>9) aux_note.volume=9;
aux_note.volume+=203;
} else if (aux_note.volume<0xD0) {
//C -- set panning
int aux=aux_note.volume-=0xC0;
aux=aux*65/0xF;
aux_note.volume=128+aux;
} else if (aux_note.volume<0xE0) {
aux_note.volume=CPNote::EMPTY;
} else if (aux_note.volume<0xF0) {
aux_note.volume=CPNote::EMPTY;
} else {
//F -- tone porta
aux_note.volume-=0xF0;
aux_note.volume*=9;
aux_note.volume/=0xF;
aux_note.volume+=193;
}
}
if (aux_note.command!=CPNote::EMPTY) {
switch(aux_note.command) {
case 0x0:
aux_note.command='J'-'A';
break;
case 0x1:
aux_note.command='F'-'A';
break;
case 0x2:
aux_note.command='E'-'A';
break;
case 0x3:
aux_note.command='G'-'A';
break;
case 0x4:
aux_note.command='H'-'A';
break;
case 0x5:
aux_note.command='L'-'A';
break;
case 0x6:
aux_note.command='K'-'A';
break;
case 0x7:
aux_note.command='R'-'A';
break;
case 0x8:
aux_note.command='X'-'A';
break;
case 0x9:
aux_note.command='O'-'A';
break;
case 0xa:
aux_note.command='D'-'A';
break;
case 0xb:
aux_note.command='B'-'A';
break;
case 0xc:
//printf("XM Import: Warning! effect C (set volume) not implemented!\n");
break;
case 0xd:
aux_note.command='C'-'A';
break;
case 0xe: /* Extended effects */
aux_note.command='S'-'A';
switch(aux_note.parameter>>4) {
case 0x1: /* XM fine porta up */
if (!(aux_note.parameter&0xF)) { aux_note.command=CPNote::EMPTY; aux_note.parameter=0; break; }
aux_note.command='F'-'A';
aux_note.parameter=0xF0|(aux_note.parameter&0xF);
break;
case 0x2: /* XM fine porta down */
if (!(aux_note.parameter&0xF)) { aux_note.command=CPNote::EMPTY; aux_note.parameter=0; break; }
aux_note.command='E'-'A';
aux_note.parameter=0xF0|(aux_note.parameter&0xF);
break;
case 0xa: /* XM fine volume up */
if (!(aux_note.parameter&0xF)) { aux_note.command=CPNote::EMPTY; aux_note.parameter=0; break; }
aux_note.command='D'-'A';
aux_note.parameter=0x0F|((aux_note.parameter&0xF)<<4);
break;
case 0xb: /* XM fine volume down */
if (!(aux_note.parameter&0xF)) { aux_note.command=CPNote::EMPTY; aux_note.parameter=0; break; }
aux_note.command='D'-'A';
aux_note.parameter=0xF0|(aux_note.parameter&0xF);
break;
case 0x9: /* XM fine volume down */
if (!(aux_note.parameter&0xF)) { aux_note.command=CPNote::EMPTY; aux_note.parameter=0; break; }
aux_note.command='Q'-'A';
aux_note.parameter=0x00|(aux_note.parameter&0xF);
break;
case 0xc: //notecut
aux_note.parameter=0xC0|(aux_note.parameter&0xF);
break;
case 0xd: //notedelay
aux_note.parameter=0xD0|(aux_note.parameter&0xF);
break;
case 0xe: //patterndelay
aux_note.parameter=0xE0|(aux_note.parameter&0xF);
break;
}
break;
case 0xf:
if (aux_note.parameter<32) {
aux_note.command='A'-'A';
} else {
aux_note.command='T'-'A';
}
break;
case 'G'-55:
aux_note.command='V'-'A';
break;
case 'H'-55:
aux_note.command='W'-'A';
break;
case 'K'-55:
if (aux_note.note!=CPNote::EMPTY) break;
aux_note.note=CPNote::OFF;
break;
case 'P'-55:
aux_note.command='P'-'A';
break;
case 'R'-55:
aux_note.command='Q'-'A';
break;
case 'T'-55:
aux_note.command='I'-'A';
break;
default: {
aux_note.command=CPNote::EMPTY;
}
}
}
song->get_pattern( i)->set_note( k,j,aux_note );
}
}
/**************************************
LOAD INSTRUMENTS!
***************************************/
for (int i=0;i<header.instruments_used;i++) {
uint32_t aux;
int sampnum;
CPInstrument &instrument=*song->get_instrument(i);
uint32_t cpos=file->get_pos();
//printf("pos is %i\n",cpos);
/* +4 */ uint32_t hsize=file->get_dword(); //header length
char instrname[23];
instrname[22]=0;
file->get_byte_array((uint8_t*)instrname,22);
//XM_LOAD_DEBUG printf("name is %s\n",instrname);
/* +27 */ aux=file->get_byte(); //byte that must be ignored
//XM_LOAD_DEBUG printf("header size is %i\n",hsize);
/* +29 */ sampnum=file->get_word();
//XM_LOAD_DEBUG printf("samples %i\n",sampnum);
instrument.set_name( instrname );
// printf("Header Len: %i, CPInstrument %i, %i samples , name: s,\n",hsize,i,sampnum,instrname);
if (sampnum==0) {
//aux=file->get_dword(); //Why is this for? -- for nothing, skipped
if (hsize) {
file->seek( cpos+hsize ); //skip header if size has been specified
}
continue;
}
/* +33 */ file->get_dword();
if (Error result=load_instrument_internal(&instrument,false,cpos,hsize,sampnum)) {
CP_PRINTERR("Error loading instrument");
file->close();
return result;
}
}
//
file->close();
return FILE_OK;
}
CPLoader::Error CPLoader_XM::load_instrument_internal(CPInstrument *p_instr,bool p_xi,int p_cpos, int p_hsize, int p_sampnum) {
int sampnum;
uint32_t aux;
uint8_t notenumb[96];
uint16_t panenv[24],volenv[24];
int volpoints,panpoints;
int vol_loop_begin,vol_loop_end,vol_sustain_loop;
int pan_loop_begin,pan_loop_end,pan_sustain_loop;
char instrname[23];
int sample_index[16]={-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1}; //-1 means no index!
instrname[22]=0;
/* +129 */ file->get_byte_array((uint8_t*)notenumb,96);
for (int j=0;j<24;j++) {
volenv[j]=file->get_word();
}
for (int j=0;j<24;j++) {
panenv[j]=file->get_word();
}
/* +177 */
/* +225 */
/* +226 */ volpoints=file->get_byte();
/* +227 */ panpoints=file->get_byte();
/* +230 */ vol_sustain_loop=file->get_byte();
/* +228 */ vol_loop_begin=file->get_byte();
/* +229 */ vol_loop_end=file->get_byte();
//XM_LOAD_DEBUG printf("1- volpoints: %i, panpoints: %i, susloop: %i, loop begin: %i, loop end %i\n",volpoints,panpoints,vol_sustain_loop,vol_loop_begin,vol_loop_end);
pan_sustain_loop=file->get_byte();
/* +231 */ pan_loop_begin=file->get_byte();
/* +232 */ pan_loop_end=file->get_byte();
/* +234 */ aux=file->get_byte();
p_instr->get_volume_envelope()->reset();
p_instr->get_volume_envelope()->set_enabled(aux&1);
p_instr->get_volume_envelope()->set_sustain_loop_enabled((aux&2)?true:false);
p_instr->get_volume_envelope()->set_loop_enabled((aux&4)?true:false);
/* +235 */ aux=file->get_byte();
p_instr->get_pan_envelope()->reset();
p_instr->get_pan_envelope()->set_enabled(aux&1);
p_instr->get_pan_envelope()->set_sustain_loop_enabled((aux&2)?true:false);
p_instr->get_pan_envelope()->set_loop_enabled((aux&4)?true:false);
/* +239 */ aux=file->get_dword(); // sadly, cant use those
/* +241 */ p_instr->set_volume_fadeout( file->get_word() >> 4 );
/* +243 */ aux=file->get_word(); // reserved!
for (int j=0;j<volpoints;j++) {
int ofs=volenv[j*2];
int val=volenv[j*2+1];
p_instr->get_volume_envelope()->add_position(ofs,val);
}
//make sure minimum is 2
while (p_instr->get_volume_envelope()->get_node_count()<2) {
p_instr->get_volume_envelope()->add_position( p_instr->get_volume_envelope()->get_node_count()*20,64 );
}
for (int j=0;j<panpoints;j++) {
int ofs=panenv[j*2];
int val=panenv[j*2+1];
p_instr->get_pan_envelope()->add_position(ofs,val-32);
}
//make sure minimum is 2
while (p_instr->get_pan_envelope()->get_node_count()<2) {
p_instr->get_pan_envelope()->add_position( p_instr->get_pan_envelope()->get_node_count()*20,0 );
}
p_instr->get_volume_envelope()->set_loop_begin(vol_loop_begin);
p_instr->get_volume_envelope()->set_loop_end(vol_loop_end);
p_instr->get_volume_envelope()->set_sustain_loop_end(vol_sustain_loop);
p_instr->get_volume_envelope()->set_sustain_loop_begin(vol_sustain_loop);
p_instr->get_pan_envelope()->set_loop_begin(pan_loop_begin);
p_instr->get_pan_envelope()->set_loop_end(pan_loop_end);
p_instr->get_pan_envelope()->set_sustain_loop_end(pan_sustain_loop);
p_instr->get_pan_envelope()->set_sustain_loop_begin(pan_sustain_loop);
if (!p_xi) {
if ((file->get_pos()-p_cpos)<p_hsize) {
uint8_t junkbuster[500];
//printf("extra junk XM instrument in header! hsize is %i, extra junk: %i\n",p_hsize,(file->get_pos()-p_cpos));
//printf("extra: %i\n",p_hsize-(file->get_pos()-p_cpos));
file->get_byte_array((uint8_t*)junkbuster,p_hsize-(file->get_pos()-p_cpos));
}
sampnum=p_sampnum;
} else {
uint8_t junkbuster[500];
file->get_byte_array((uint8_t*)junkbuster,20); //14 bytes?
sampnum=file->get_word();
}
CPSampleManager *sm=CPSampleManager::get_singleton();
/*SAMPLE!!*/
for (int j=0;j<sampnum;j++) {
if (j>16) ABORT_LOAD;
int s_idx=-1;
for (int s=0;s<CPSong::MAX_SAMPLES;s++) {
if (song->get_sample(s)->get_sample_data().is_null()) {
//empty sample!
s_idx=s;
break;
}
}
if (s_idx==-1) ABORT_LOAD;
//printf("free sample: %i\n",s_idx);
CPSample& sample=*song->get_sample(s_idx);
int sample_size=file->get_dword();
int tmp_loop_begin=file->get_dword();
int tmp_loop_end=file->get_dword();
sample.set_default_volume(file->get_byte());
uint8_t ftb=file->get_byte();
int8_t *fts=(int8_t*)&ftb;
int finetune=*fts;
uint32_t flags=file->get_byte();
if (flags&16) { // is 16 bits.. at flag 16.. fun :)
tmp_loop_end/=2;
tmp_loop_begin/=2;
sample_size/=2;
}
CPSample_ID sample_data=sm->create( flags&16, false, sample_size );
sample.set_sample_data(sample_data);
sm->set_loop_begin(sample_data,tmp_loop_begin);
sm->set_loop_end(sample_data,tmp_loop_end+tmp_loop_begin);
sm->set_loop_type( sample_data, (flags&3)?( (flags&2) ? CP_LOOP_BIDI : CP_LOOP_FORWARD ):CP_LOOP_NONE );
sample.set_pan_enabled(true);
sample.set_pan(file->get_byte()*64/255);
uint8_t noteb=file->get_byte();
int8_t *notes=(int8_t*)&noteb;
int note_offset=*notes;
note_offset+=48;
//note_offset+=60;
//int linear_period=10*12*16*4 - (note_offset)*16*4 - finetune/2;
//int freq=(int)(8363*pow(2.0,(double)(6*12*16*4 - linear_period) / (double)(12*16*4)));
//sm->set_c5_freq( sample_data, freq);
sm->set_c5_freq( sample_data, CPTables::get_linear_frequency(CPTables::get_linear_period(note_offset<<1,finetune)) );
//printf("NOTE %i,fine %i\n",note_offset,finetune);
char auxb;
auxb=file->get_byte(); //reserved?
file->get_byte_array((uint8_t*)instrname,22);
sample.set_name(instrname);
sample_index[j]=s_idx;
}
/*SAMPLE __DATA__!!*/
for (int j=0;j<sampnum;j++) {
if (sample_index[j]==-1) continue;
CPSample *sample=song->get_sample(sample_index[j]);
CPSample_ID sid=sample->get_sample_data();
sm->lock_data(sid);
void*dataptr=sm->get_data(sid);
if (sm->is_16bits( sid)) {
int16_t old=0;
for (int k=0;k<sm->get_size(sid);k++) {
int16_t newsample;
int16_t sampleval=file->get_word();
newsample=sampleval+old;
old=newsample;
((int16_t*)dataptr)[k]=newsample;
//sm->set_data( sid, k, newsample );
}
} else {
int8_t old=0;
for (int k=0;k<sm->get_size(sid);k++) {
int8_t newsample;
int8_t sampleval=file->get_byte();
newsample=sampleval+old;
old=newsample;
((int8_t*)dataptr)[k]=newsample;
//sm->set_data( sid, k, (int16_t)newsample << 8 );
}
}
sm->unlock_data(sid);
}
for (int j=0;j<96;j++) {
int val=notenumb[j];
if ((val<0) || (val>15)) continue;
else val=sample_index[val];
if (val==-1) continue;
p_instr->set_sample_number( 12+j,val );
}
return FILE_OK;
}
CPLoader::Error CPLoader_XM::load_sample(const char *p_file,CPSample *p_sample) {
return FILE_UNRECOGNIZED;
}
/* Compute CPInstrument Info */
CPLoader::Error CPLoader_XM::load_instrument(const char *p_file,CPSong *p_song,int p_instr_idx) {
if ( file->open(p_file,CPFileAccessWrapper::READ) ) return FILE_CANNOT_OPEN;
//int i;
song=p_song;
CPInstrument& instr=*p_song->get_instrument( p_instr_idx );
int aux;
char buffer[500];
file->get_byte_array((uint8_t*)buffer,0x15);
buffer[8]=0;
if ( buffer[0]!='E' ||
buffer[1]!='x' ||
buffer[2]!='t' ||
buffer[3]!='e' ||
buffer[4]!='n' ||
buffer[5]!='d' ||
buffer[6]!='e' ||
buffer[7]!='d') {
file->close();
return FILE_UNRECOGNIZED;
}
file->get_byte_array((uint8_t*)buffer,0x16);
buffer[0x16]=0;
instr.set_name(buffer);
aux=file->get_byte(); //says ignore ti
/*if(aux!=0x1a) { I'm not sure. this is supposed to be ignored...
file->close();
return FILE_UNRECOGNIZED;
} */
file->get_byte_array((uint8_t*)buffer,0x14); //somethingaboutthename
aux=file->get_word(); //version or blahblah
if (load_instrument_internal(&instr,true,0,0)) {
file->close();
return FILE_CORRUPTED;
}
file->close(); //ook, we got it..
return FILE_OK;
}
CPLoader_XM::CPLoader_XM(CPFileAccessWrapper *p_file){
file=p_file;
}
CPLoader_XM::~CPLoader_XM(){
}
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