// MSX computer KSS music file emulator // Game_Music_Emu 0.5.5 #ifndef KSS_EMU_H #define KSS_EMU_H #include "gme.h" #include "blargg_common.h" #include "rom_data.h" #include "multi_buffer.h" #include "kss_scc_apu.h" #include "z80_cpu.h" #include "sms_apu.h" #include "ay_apu.h" #include "opl_apu.h" #include "m3u_playlist.h" #include "track_filter.h" typedef int kss_time_t; typedef int kss_addr_t; typedef struct Z80_Cpu Kss_Cpu; // Sound chip flags enum { sms_psg_flag = 1 << 0, sms_fm_flag = 1 << 1, msx_psg_flag = 1 << 2, msx_scc_flag = 1 << 3, msx_music_flag = 1 << 4, msx_audio_flag = 1 << 5 }; enum { idle_addr = 0xFFFF }; enum { scc_enabled_true = 0xC000 }; enum { mem_size = 0x10000 }; // KSS file header enum { header_size = 0x20 }; enum { header_base_size = 0x10 }; enum { header_ext_size = header_size - header_base_size }; struct header_t { byte tag [4]; byte load_addr [2]; byte load_size [2]; byte init_addr [2]; byte play_addr [2]; byte first_bank; byte bank_mode; byte extra_header; byte device_flags; // KSSX extended data, if extra_header==0x10 byte data_size [4]; byte unused [4]; byte first_track [2]; byte last_track [2]; // if no extended data, we set this to 0xFF byte psg_vol; byte scc_vol; byte msx_music_vol; byte msx_audio_vol; }; struct sms_t { struct Sms_Apu psg; struct Opl_Apu fm; }; struct msx_t { struct Ay_Apu psg; struct Scc_Apu scc; struct Opl_Apu music; struct Opl_Apu audio; }; struct Kss_Emu { struct header_t header; int chip_flags; bool scc_accessed; bool gain_updated; unsigned scc_enabled; // 0 or 0xC000 int bank_count; blip_time_t play_period; blip_time_t next_play; int ay_latch; // general int voice_count; int const* voice_types; int mute_mask_; int tempo; int gain; int sample_rate; // track-specific int track_count; int current_track; int clock_rate_; unsigned buf_changed_count; // M3u Playlist struct M3u_Playlist m3u; struct setup_t tfilter; struct Track_Filter track_filter; struct sms_t sms; struct msx_t msx; Kss_Cpu cpu; struct Multi_Buffer stereo_buf; // NULL if using custom buffer struct Rom_Data rom; byte unmapped_read [0x100]; byte unmapped_write [page_size]; byte ram [mem_size + cpu_padding]; }; // Basic functionality (see Gme_File.h for file loading/track info functions) void Kss_init( struct Kss_Emu* this ); blargg_err_t Kss_load_mem( struct Kss_Emu* this, const void* data, long size ); blargg_err_t end_frame( struct Kss_Emu* this, kss_time_t ); // Set output sample rate. Must be called only once before loading file. blargg_err_t Kss_set_sample_rate( struct Kss_Emu* this, int sample_rate ); // Start a track, where 0 is the first track. Also clears warning string. blargg_err_t Kss_start_track( struct Kss_Emu* this, int track ); // Generate 'count' samples info 'buf'. Output is in stereo. Any emulation // errors set warning string, and major errors also end track. blargg_err_t Kss_play( struct Kss_Emu* this, int count, sample_t* buf ); // Track status/control // Number of milliseconds (1000 msec = 1 second) played since beginning of track int Track_tell( struct Kss_Emu* this ); // Seek to new time in track. Seeking backwards or far forward can take a while. blargg_err_t Track_seek( struct Kss_Emu* this, int msec ); // Skip n samples blargg_err_t Track_skip( struct Kss_Emu* this, int n ); // Set start time and length of track fade out. Once fade ends track_ended() returns // true. Fade time can be changed while track is playing. void Track_set_fade( struct Kss_Emu* this, int start_msec, int length_msec ); // True if a track has reached its end static inline bool Track_ended( struct Kss_Emu* this ) { return track_ended( &this->track_filter ); } // Disables automatic end-of-track detection and skipping of silence at beginning static inline void Track_ignore_silence( struct Kss_Emu* this, bool disable ) { this->track_filter.silence_ignored_ = disable; } // Get track length in milliseconds static inline int Track_get_length( struct Kss_Emu* this, int n ) { int length = 0; if ( (this->m3u.size > 0) && (n < this->m3u.size) ) { struct entry_t* entry = &this->m3u.entries [n]; length = entry->length; } if ( length <= 0 ) length = 120 * 1000; /* 2 minutes */ return length; } // Sound customization // Adjust song tempo, where 1.0 = normal, 0.5 = half speed, 2.0 = double speed. // Track length as returned by track_info() assumes a tempo of 1.0. void Sound_set_tempo( struct Kss_Emu* this, int t ); // Mute/unmute voice i, where voice 0 is first voice void Sound_mute_voice( struct Kss_Emu* this, int index, bool mute ); // Set muting state of all voices at once using a bit mask, where -1 mutes them all, // 0 unmutes them all, 0x01 mutes just the first voice, etc. void Sound_mute_voices( struct Kss_Emu* this, int mask ); // Change overall output amplitude, where 1.0 results in minimal clamping. // Must be called before set_sample_rate(). static inline void Sound_set_gain( struct Kss_Emu* this, int g ) { assert( !this->sample_rate ); // you must set gain before setting sample rate this->gain = g; } // Emulation (You shouldn't touch these void cpu_write( struct Kss_Emu* this, kss_addr_t, int ); int cpu_in( struct Kss_Emu* this, kss_time_t, kss_addr_t ); void cpu_out( struct Kss_Emu* this, kss_time_t, kss_addr_t, int ); void cpu_write_( struct Kss_Emu* this, kss_addr_t addr, int data ); bool run_cpu( struct Kss_Emu* this, kss_time_t end ); void jsr( struct Kss_Emu* this, byte const addr [] ); static inline int sms_psg_enabled( struct Kss_Emu* this ) { return this->chip_flags & sms_psg_flag; } static inline int sms_fm_enabled( struct Kss_Emu* this ) { return this->chip_flags & sms_fm_flag; } static inline int msx_psg_enabled( struct Kss_Emu* this ) { return this->chip_flags & msx_psg_flag; } static inline int msx_scc_enabled( struct Kss_Emu* this ) { return this->chip_flags & msx_scc_flag; } static inline int msx_music_enabled( struct Kss_Emu* this ) { return this->chip_flags & msx_music_flag;} static inline int msx_audio_enabled( struct Kss_Emu* this ) { return this->chip_flags & msx_audio_flag;} #endif