// NES FDS sound chip emulator // $package #ifndef NES_FDS_APU_H #define NES_FDS_APU_H #include "blargg_common.h" #include "Blip_Buffer.h" class Nes_Fds_Apu { public: // setup void set_tempo( double ); enum { osc_count = 1 }; void set_output( Blip_Buffer* buf ); void volume( double ); void treble_eq( blip_eq_t const& eq ) { synth.treble_eq( eq ); } // emulation void reset(); enum { io_addr = 0x4040 }; enum { io_size = 0x53 }; void write( blip_time_t time, unsigned addr, int data ); int read( blip_time_t time, unsigned addr ); void end_frame( blip_time_t ); public: Nes_Fds_Apu(); void write_( unsigned addr, int data ); BLARGG_DISABLE_NOTHROW void set_output( int index, Blip_Buffer* center, Blip_Buffer* left_ignored = NULL, Blip_Buffer* right_ignored = NULL ); BLARGG_DEPRECATED_TEXT( enum { start_addr = 0x4040 }; ) BLARGG_DEPRECATED_TEXT( enum { end_addr = 0x4092 }; ) BLARGG_DEPRECATED_TEXT( enum { reg_count = end_addr - start_addr + 1 }; ) void osc_output( int, Blip_Buffer* ); private: enum { wave_size = 0x40 }; enum { master_vol_max = 10 }; enum { vol_max = 0x20 }; enum { wave_sample_max = 0x3F }; unsigned char regs_ [io_size];// last written value to registers enum { lfo_base_tempo = 8 }; int lfo_tempo; // normally 8; adjusted by set_tempo() int env_delay; int env_speed; int env_gain; int sweep_delay; int sweep_speed; int sweep_gain; int wave_pos; int last_amp; blip_time_t wave_fract; int mod_fract; int mod_pos; int mod_write_pos; unsigned char mod_wave [wave_size]; // synthesis blip_time_t last_time; Blip_Buffer* output_; Blip_Synth_Fast synth; // allow access to registers by absolute address (i.e. 0x4080) unsigned char& regs( unsigned addr ) { return regs_ [addr - io_addr]; } void run_until( blip_time_t ); }; inline void Nes_Fds_Apu::volume( double v ) { synth.volume( 0.14 / master_vol_max / vol_max / wave_sample_max * v ); } inline void Nes_Fds_Apu::set_output( Blip_Buffer* b ) { output_ = b; } inline void Nes_Fds_Apu::set_output( int i, Blip_Buffer* buf, Blip_Buffer*, Blip_Buffer* ) { assert( (unsigned) i < osc_count ); output_ = buf; } inline void Nes_Fds_Apu::end_frame( blip_time_t end_time ) { if ( end_time > last_time ) run_until( end_time ); last_time -= end_time; assert( last_time >= 0 ); } inline void Nes_Fds_Apu::write( blip_time_t time, unsigned addr, int data ) { run_until( time ); write_( addr, data ); } inline int Nes_Fds_Apu::read( blip_time_t time, unsigned addr ) { run_until( time ); int result = 0xFF; switch ( addr ) { case 0x4090: result = env_gain; break; case 0x4092: result = sweep_gain; break; default: unsigned i = addr - io_addr; if ( i < wave_size ) result = regs_ [i]; } return result | 0x40; } inline Nes_Fds_Apu::Nes_Fds_Apu() { lfo_tempo = lfo_base_tempo; set_output( NULL ); volume( 1.0 ); reset(); } #endif