/*******************************************************************************/ /* Copyright (C) 2008 Jonathan Moore Liles */ /* */ /* This program is free software; you can redistribute it and/or modify it */ /* under the terms of the GNU General Public License as published by the */ /* Free Software Foundation; either version 2 of the License, or (at your */ /* option) any later version. */ /* */ /* This program 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 General Public License for */ /* more details. */ /* */ /* You should have received a copy of the GNU General Public License along */ /* with This program; see the file COPYING. If not,write to the Free Software */ /* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /*******************************************************************************/ #include #include #include #include "instrument.H" #include "common.h" #include "const.h" #include "config.h" #include "non.H" #include #include #include #include using std::list; using std::string; /****** Instrument definition file format is thus: "Name", n, v Where /n/ is a note number from 0 to 127 and /v/ is a percentage of volume. When a system installed instrument definition is modified, the modified version is saved in the user's $HOME. Therefore, when loading instruments, user defined instruments always hide system defined instruments of the same name. */ list Instrument::instruments; Instrument::Instrument ( const char *name ) { for ( int i = 0; i < 128; i++ ) { _map[i].name = NULL; _map[i].velocity = 100; } if ( name ) { _name = strdup( name ); read( name ); } else { _name = strdup( "not an instrument" ); _height = 0; } Instrument::instruments.push_front( this ); } Instrument * Instrument::open ( const char *name ) { list ::iterator i = Instrument::instruments.begin(); if ( name ) { for ( ; i != Instrument::instruments.end(); i++ ) if ( 0 == strcmp( (*i)->_name, name ) ) return *i; } return new Instrument ( name ); } void Instrument::note_name ( int n, char *s ) { if ( _map[ n ].name ) free( _map[ n ].name ); _map[ n ].name = s; _dirty = true; } void Instrument::velocity ( int n, int v ) { _map[ n ].velocity = v; _dirty = true; } /** Translate event, should only be passed NOTE ON/OFF events, returns true if note is valid for this mapping */ bool Instrument::translate ( midievent *e ) const { if ( ! note_name( e->note() ) ) return false; e->note_velocity( e->note_velocity() * _map[ e->note() ].velocity / 100 ); return true; } const char * Instrument::note_name ( int n ) const { return _map[ n ].name; } int Instrument::height ( void ) const { return _height; } int Instrument::velocity ( int n ) const { return _map[ n ].velocity; } bool Instrument::read ( const char *s ) { FILE *fp; char pat[512]; sprintf( pat, "%s%s.inst", config.user_config_dir, s ); if ( ! ( fp = fopen( pat, "r" ) ) ) { sprintf( pat, "%s%s.inst", SYSTEM_PATH INSTRUMENT_DIR, s ); if ( ! ( fp = fopen( pat, "r" ) ) ) return false; } struct i_map m; char namebuf[256]; int note, velocity; int n = 0; while ( 0 < fscanf( fp, "\"%[^\"]\", %d, %d\n", (char*)&namebuf, ¬e, &velocity ) ) n++; rewind( fp ); MESSAGE( "reading %d lines from instrument file \"%s\"", n, s ); int i; for ( i = 0; i < n; i++ ) { fscanf( fp, "\"%[^\"]\", %d, %d\n", (char *)&namebuf, ¬e, &velocity ); m.name = strdup( namebuf ); if ( velocity > 100 ) { WARNING( "invalid volume percentage in instrument definition"); m.velocity = 100; } else m.velocity = velocity; DMESSAGE( "name: \"%s\", note: %d, velocity: %d%%", m.name, note, m.velocity ); _map[ note ] = m; } _height = n; fclose( fp ); return true; } bool Instrument::write ( const char *s ) const { FILE *fp; char pat[512]; sprintf( pat, "%s/%s.inst", config.user_config_dir, s ); if ( ! ( fp = fopen( pat, "w" ) ) ) return false; int n = 0; for ( int i = 0; i < 127; ++i ) { if ( _map[ i ].name ) { fprintf( fp, "\"%s\", %d, %d\n", _map[ i ].name, i, _map[ i ].velocity ); ++n; } } DMESSAGE( "wrote %d lines to instrument file \"%s\"", n, pat ); fclose( fp ); return true; } void Instrument::save ( void ) const { if ( _dirty ) write( _name ); _dirty = false; } static int instrument_filter ( const struct dirent *d ) { char suffix[] = "*.inst"; return 0 == fnmatch( suffix, d->d_name, 0 ); } static list * get_listing( const char *dir ) { list *sl = new list ; struct dirent **names; int n; if ( 0 > ( n = scandir( dir, &names, instrument_filter, alphasort ) ) ) { WARNING( "couldn't open instrument directory" ); return NULL; } else { while (n--) { char *c = rindex( names[n]->d_name, '.' ); if ( c ) *c = '\0'; MESSAGE( "found instrument: %s", names[n]->d_name ); string s( names[n]->d_name ); sl->push_back( s ); free( names[n] ); } free( names ); return sl; } } /* Returns a list of available instruments */ char ** Instrument::listing ( void ) { list *sys = get_listing( SYSTEM_PATH INSTRUMENT_DIR ); list *usr = get_listing( config.user_config_dir ); if ( ! ( usr || sys ) ) return NULL; if ( sys && usr ) usr->merge( *sys ); else if ( sys && ! usr ) usr = sys; usr->unique(); usr->sort(); if ( sys ) delete sys; char **sa = (char**)malloc( (usr->size() + 1) * sizeof( char * ) ); int i = 0; for ( list ::iterator s = usr->begin(); s != usr->end(); s++, i++ ) sa[i] = strdup( s->c_str() ); sa[i] = NULL; delete usr; return sa; } const char * Instrument::name ( void ) const { return _name; }