#include "Opl_Apu.h" #include "blargg_source.h" extern "C" { #include "../vgmplay/chips/mamedef.h" #include "../vgmplay/chips/emu2413.h" #include "../vgmplay/chips/fmopl.h" } static unsigned char vrc7_inst[(16 + 3) * 8] = { #include "../vgmplay/chips/vrc7tone.h" }; Opl_Apu::Opl_Apu() { opl = 0; opl_memory = 0; } blargg_err_t Opl_Apu::init( long clock, long rate, blip_time_t period, type_t type ) { type_ = type; clock_ = clock; rate_ = rate; period_ = period; set_output( 0, 0 ); volume( 1.0 ); switch (type) { case type_opll: case type_msxmusic: case type_smsfmunit: opl = OPLL_new( (BOOST::uint32_t) clock, (BOOST::uint32_t) rate ); OPLL_SetChipMode( (OPLL *) opl, 0); break; case type_vrc7: opl = OPLL_new( (BOOST::uint32_t) clock, (BOOST::uint32_t) rate ); OPLL_SetChipMode((OPLL *) opl, 1 ); OPLL_setPatch((OPLL *) opl, vrc7_inst); break; case type_opl: opl = ym3526_init( (BOOST::uint32_t) clock, (BOOST::uint32_t) rate ); break; case type_msxaudio: //logfile = fopen("c:\\temp\\msxaudio.log", "wb"); opl = y8950_init( (BOOST::uint32_t) clock, (BOOST::uint32_t) rate ); opl_memory = malloc( 32768 ); y8950_set_delta_t_memory( opl, opl_memory, 32768 ); break; case type_opl2: opl = ym3812_init( (BOOST::uint32_t) clock, (BOOST::uint32_t) rate ); break; } reset(); return 0; } Opl_Apu::~Opl_Apu() { if (opl) { switch (type_) { case type_opll: case type_msxmusic: case type_smsfmunit: case type_vrc7: OPLL_delete( (OPLL *) opl ); break; case type_opl: ym3526_shutdown( opl ); break; case type_msxaudio: y8950_shutdown( opl ); free( opl_memory ); //fclose( logfile ); break; case type_opl2: ym3812_shutdown( opl ); break; } } } void Opl_Apu::reset() { addr = 0; next_time = 0; last_amp = 0; switch (type_) { case type_opll: case type_msxmusic: case type_smsfmunit: case type_vrc7: OPLL_reset( (OPLL *) opl ); break; case type_opl: ym3526_reset_chip( opl ); break; case type_msxaudio: y8950_reset_chip( opl ); break; case type_opl2: ym3812_reset_chip( opl ); break; } } void Opl_Apu::write_data( blip_time_t time, int data ) { run_until( time ); switch (type_) { case type_opll: case type_msxmusic: case type_smsfmunit: case type_vrc7: OPLL_writeIO( (OPLL *) opl, 0, addr ); OPLL_writeIO( (OPLL *) opl, 1, data ); break; case type_opl: ym3526_write( opl, 0, addr ); ym3526_write( opl, 1, data ); break; case type_msxaudio: /*if ( addr >= 7 && addr <= 7 + 11 ) { unsigned char temp [2] = { addr - 7, data }; fwrite( &temp, 1, 2, logfile ); }*/ y8950_write( opl, 0, addr ); y8950_write( opl, 1, data ); break; case type_opl2: ym3812_write( opl, 0, addr ); ym3812_write( opl, 1, data ); break; } } int Opl_Apu::read( blip_time_t time, int port ) { run_until( time ); switch (type_) { case type_opll: case type_msxmusic: case type_smsfmunit: case type_vrc7: return port ? 0xFF : 0; case type_opl: return ym3526_read( opl, port ); case type_msxaudio: { int ret = y8950_read( opl, port ); /*unsigned char temp [2] = { port + 0x80, ret }; fwrite( &temp, 1, 2, logfile );*/ return ret; } case type_opl2: return ym3812_read( opl, port ); } return 0; } void Opl_Apu::end_frame( blip_time_t time ) { run_until( time ); next_time -= time; if ( output_ ) output_->set_modified(); } void Opl_Apu::run_until( blip_time_t end_time ) { if ( end_time > next_time ) { blip_time_t time_delta = end_time - next_time; blip_time_t time = next_time; unsigned count = time_delta / period_ + 1; switch (type_) { case type_opll: case type_msxmusic: case type_smsfmunit: case type_vrc7: { e_int32 bufMO[ 1024 ]; e_int32 bufRO[ 1024 ]; e_int32 * buffers[2] = { bufMO, bufRO }; while ( count > 0 ) { unsigned todo = count; if ( todo > 1024 ) todo = 1024; OPLL_calc_stereo( (OPLL *) opl, buffers, todo, -1 ); if ( output_ ) { int last_amp = this->last_amp; for ( unsigned i = 0; i < todo; i++ ) { int amp = bufMO [i] + bufRO [i]; int delta = amp - last_amp; if ( delta ) { last_amp = amp; synth.offset_inline( time, delta, output_ ); } time += period_; } this->last_amp = last_amp; } else time += period_ * todo; count -= todo; } } break; case type_opl: case type_msxaudio: case type_opl2: { OPLSAMPLE bufL[ 1024 ]; OPLSAMPLE bufR[ 1024 ]; OPLSAMPLE* buffers[2] = {bufL, bufR}; while ( count > 0 ) { unsigned todo = count; if ( todo > 1024 ) todo = 1024; switch (type_) { case type_opl: ym3526_update_one( opl, buffers, todo ); break; case type_msxaudio: y8950_update_one( opl, buffers, todo ); break; case type_opl2: ym3812_update_one( opl, buffers, todo ); break; default: break; } if ( output_ ) { int last_amp = this->last_amp; for ( unsigned i = 0; i < todo; i++ ) { int amp = bufL [i] + bufR [i]; int delta = amp - last_amp; if ( delta ) { last_amp = amp; synth.offset_inline( time, delta, output_ ); } time += period_; } this->last_amp = last_amp; } else time += period_ * todo; count -= todo; } } break; } next_time = time; } }