// Game_Music_Emu 0.5.2. http://www.slack.net/~ant/ #include "Sap_Emu.h" #include "blargg_endian.h" #include /* Copyright (C) 2006 Shay Green. This module is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This module 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this module; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "blargg_source.h" long const base_scanline_period = 114; Sap_Emu::Sap_Emu() { set_type( gme_sap_type ); static const char* const names [Sap_Apu::osc_count * 2] = { "Wave 1", "Wave 2", "Wave 3", "Wave 4", "Wave 5", "Wave 6", "Wave 7", "Wave 8", }; set_voice_names( names ); static int const types [Sap_Apu::osc_count * 2] = { wave_type | 1, wave_type | 2, wave_type | 3, wave_type | 0, wave_type | 5, wave_type | 6, wave_type | 7, wave_type | 4, }; set_voice_types( types ); set_silence_lookahead( 6 ); } Sap_Emu::~Sap_Emu() { } // Track info // Returns 16 or greater if not hex inline int from_hex_char( int h ) { h -= 0x30; if ( (unsigned) h > 9 ) h = ((h - 0x11) & 0xDF) + 10; return h; } static long from_hex( byte const* in ) { unsigned result = 0; for ( int n = 4; n--; ) { int h = from_hex_char( *in++ ); if ( h > 15 ) return -1; result = result * 0x10 + h; } return result; } static int from_dec( byte const* in, byte const* end ) { if ( in >= end ) return -1; int n = 0; while ( in < end ) { int dig = *in++ - '0'; if ( (unsigned) dig > 9 ) return -1; n = n * 10 + dig; } return n; } static void parse_string( byte const* in, byte const* end, int len, char* out ) { byte const* start = in; if ( *in++ == '\"' ) { start++; while ( in < end && *in != '\"' ) in++; } else { in = end; } len = min( len - 1, int (in - start) ); out [len] = 0; memcpy( out, start, len ); } static blargg_err_t parse_info( byte const* in, long size, Sap_Emu::info_t* out ) { out->track_count = 1; out->author [0] = 0; out->name [0] = 0; out->copyright [0] = 0; if ( size < 16 || memcmp( in, "SAP\x0D\x0A", 5 ) ) return gme_wrong_file_type; byte const* file_end = in + size - 5; in += 5; while ( in < file_end && (in [0] != 0xFF || in [1] != 0xFF) ) { byte const* line_end = in; while ( line_end < file_end && *line_end != 0x0D ) line_end++; char const* tag = (char const*) in; while ( in < line_end && *in > ' ' ) in++; int tag_len = (char const*) in - tag; while ( in < line_end && *in <= ' ' ) in++; if ( tag_len <= 0 ) { // skip line } else if ( !strncmp( "INIT", tag, tag_len ) ) { out->init_addr = from_hex( in ); if ( (unsigned long) out->init_addr > 0xFFFF ) return "Invalid init address"; } else if ( !strncmp( "PLAYER", tag, tag_len ) ) { out->play_addr = from_hex( in ); if ( (unsigned long) out->play_addr > 0xFFFF ) return "Invalid play address"; } else if ( !strncmp( "MUSIC", tag, tag_len ) ) { out->music_addr = from_hex( in ); if ( (unsigned long) out->music_addr > 0xFFFF ) return "Invalid music address"; } else if ( !strncmp( "SONGS", tag, tag_len ) ) { out->track_count = from_dec( in, line_end ); if ( out->track_count <= 0 ) return "Invalid track count"; } else if ( !strncmp( "TYPE", tag, tag_len ) ) { switch ( out->type = *in ) { case 'C': case 'B': break; case 'D': return "Digimusic not supported"; default: return "Unsupported player type"; } } else if ( !strncmp( "STEREO", tag, tag_len ) ) { out->stereo = true; } else if ( !strncmp( "FASTPLAY", tag, tag_len ) ) { out->fastplay = from_dec( in, line_end ); if ( out->fastplay <= 0 ) return "Invalid fastplay value"; } else if ( !strncmp( "AUTHOR", tag, tag_len ) ) { parse_string( in, line_end, sizeof out->author, out->author ); } else if ( !strncmp( "NAME", tag, tag_len ) ) { parse_string( in, line_end, sizeof out->name, out->name ); } else if ( !strncmp( "DATE", tag, tag_len ) ) { parse_string( in, line_end, sizeof out->copyright, out->copyright ); } in = line_end + 2; } if ( in [0] != 0xFF || in [1] != 0xFF ) return "ROM data missing"; out->rom_data = in + 2; return 0; } static void copy_sap_fields( Sap_Emu::info_t const& in, track_info_t* out ) { Gme_File::copy_field_( out->game, in.name ); Gme_File::copy_field_( out->author, in.author ); Gme_File::copy_field_( out->copyright, in.copyright ); } blargg_err_t Sap_Emu::track_info_( track_info_t* out, int ) const { copy_sap_fields( info, out ); return 0; } struct Sap_File : Gme_Info_ { Sap_Emu::info_t info; Sap_File() { set_type( gme_sap_type ); } blargg_err_t load_mem_( byte const* begin, long size ) { RETURN_ERR( parse_info( begin, size, &info ) ); set_track_count( info.track_count ); return 0; } blargg_err_t track_info_( track_info_t* out, int ) const { copy_sap_fields( info, out ); return 0; } }; static Music_Emu* new_sap_emu () { return BLARGG_NEW Sap_Emu ; } static Music_Emu* new_sap_file() { return BLARGG_NEW Sap_File; } gme_type_t_ const gme_sap_type [1] = { "Atari XL", 0, &new_sap_emu, &new_sap_file, "SAP", 1 }; // Setup blargg_err_t Sap_Emu::load_mem_( byte const* in, long size ) { file_end = in + size; info.warning = 0; info.type = 'B'; info.stereo = false; info.init_addr = -1; info.play_addr = -1; info.music_addr = -1; info.fastplay = 312; RETURN_ERR( parse_info( in, size, &info ) ); set_warning( info.warning ); set_track_count( info.track_count ); set_voice_count( Sap_Apu::osc_count << info.stereo ); apu_impl.volume( gain() ); return setup_buffer( 1773447 ); } void Sap_Emu::update_eq( blip_eq_t const& eq ) { apu_impl.synth.treble_eq( eq ); } void Sap_Emu::set_voice( int i, Blip_Buffer* center, Blip_Buffer* left, Blip_Buffer* right ) { int i2 = i - Sap_Apu::osc_count; if ( i2 >= 0 ) apu2.osc_output( i2, right ); else apu.osc_output( i, (info.stereo ? left : center) ); } // Emulation void Sap_Emu::set_tempo_( double t ) { scanline_period = sap_time_t (base_scanline_period / t); } inline sap_time_t Sap_Emu::play_period() const { return info.fastplay * scanline_period; } void Sap_Emu::cpu_jsr( sap_addr_t addr ) { check( r.sp >= 0xFE ); // catch anything trying to leave data on stack r.pc = addr; int high_byte = (idle_addr - 1) >> 8; if ( r.sp == 0xFE && mem.ram [0x1FF] == high_byte ) r.sp = 0xFF; // pop extra byte off mem.ram [0x100 + r.sp--] = high_byte; // some routines use RTI to return mem.ram [0x100 + r.sp--] = high_byte; mem.ram [0x100 + r.sp--] = (idle_addr - 1) & 0xFF; } void Sap_Emu::run_routine( sap_addr_t addr ) { cpu_jsr( addr ); cpu::run( 312 * base_scanline_period * 60 ); check( r.pc == idle_addr ); } inline void Sap_Emu::call_init( int track ) { switch ( info.type ) { case 'B': r.a = track; run_routine( info.init_addr ); break; case 'C': r.a = 0x70; r.x = info.music_addr&0xFF; r.y = info.music_addr >> 8; run_routine( info.play_addr + 3 ); r.a = 0; r.x = track; run_routine( info.play_addr + 3 ); break; } } blargg_err_t Sap_Emu::start_track_( int track ) { RETURN_ERR( Classic_Emu::start_track_( track ) ); memset( &mem, 0, sizeof mem ); byte const* in = info.rom_data; while ( file_end - in >= 5 ) { unsigned start = get_le16( in ); unsigned end = get_le16( in + 2 ); //dprintf( "Block $%04X-$%04X\n", start, end ); in += 4; if ( end < start ) { set_warning( "Invalid file data block" ); break; } long len = end - start + 1; if ( len > file_end - in ) { set_warning( "Invalid file data block" ); break; } memcpy( mem.ram + start, in, len ); in += len; if ( file_end - in >= 2 && in [0] == 0xFF && in [1] == 0xFF ) in += 2; } apu.reset( &apu_impl ); apu2.reset( &apu_impl ); cpu::reset( mem.ram ); time_mask = 0; // disables sound during init call_init( track ); time_mask = -1; next_play = play_period(); return 0; } // Emulation // see sap_cpu_io.h for read/write functions void Sap_Emu::cpu_write_( sap_addr_t addr, int data ) { if ( (addr ^ Sap_Apu::start_addr) <= (Sap_Apu::end_addr - Sap_Apu::start_addr) ) { GME_APU_HOOK( this, addr - Sap_Apu::start_addr, data ); apu.write_data( time() & time_mask, addr, data ); return; } if ( (addr ^ (Sap_Apu::start_addr + 0x10)) <= (Sap_Apu::end_addr - Sap_Apu::start_addr) && info.stereo ) { GME_APU_HOOK( this, addr - 0x10 - Sap_Apu::start_addr + 10, data ); apu2.write_data( time() & time_mask, addr ^ 0x10, data ); return; } if ( (addr & ~0x0010) != 0xD20F || data != 0x03 ) dprintf( "Unmapped write $%04X <- $%02X\n", addr, data ); } inline void Sap_Emu::call_play() { switch ( info.type ) { case 'B': cpu_jsr( info.play_addr ); break; case 'C': cpu_jsr( info.play_addr + 6 ); break; } } blargg_err_t Sap_Emu::run_clocks( blip_time_t& duration, int ) { set_time( 0 ); while ( time() < duration ) { if ( cpu::run( duration ) || r.pc > idle_addr ) return "Emulation error (illegal instruction)"; if ( r.pc == idle_addr ) { if ( next_play <= duration ) { set_time( next_play ); next_play += play_period(); call_play(); GME_FRAME_HOOK( this ); } else { set_time( duration ); } } } duration = time(); next_play -= duration; check( next_play >= 0 ); if ( next_play < 0 ) next_play = 0; apu.end_frame( duration ); if ( info.stereo ) apu2.end_frame( duration ); return 0; }