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718112a8fe
Currently none of these is being used, but eventually they will, once more code gets ported over. So it's better to have them right away and avoid editing the project file too much, only to revert that later.
434 lines
11 KiB
C++
434 lines
11 KiB
C++
// Game_Music_Emu https://bitbucket.org/mpyne/game-music-emu/
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#include "Vgm_Emu.h"
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#include "blargg_endian.h"
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#include <string.h>
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#include <math.h>
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/* Copyright (C) 2003-2006 Shay Green. This module is free software; you
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can redistribute it and/or modify it under the terms of the GNU Lesser
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General Public License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version. This
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module is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
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details. You should have received a copy of the GNU Lesser General Public
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License along with this module; if not, write to the Free Software Foundation,
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Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
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#include "blargg_source.h"
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double const fm_gain = 3.0; // FM emulators are internally quieter to avoid 16-bit overflow
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double const rolloff = 0.990;
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double const oversample_factor = 1.5;
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Vgm_Emu::Vgm_Emu()
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{
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disable_oversampling_ = false;
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psg_rate = 0;
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set_type( gme_vgm_type );
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static int const types [8] = {
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wave_type | 1, wave_type | 0, wave_type | 2, noise_type | 0
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};
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set_voice_types( types );
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set_silence_lookahead( 1 ); // tracks should already be trimmed
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set_equalizer( make_equalizer( -14.0, 80 ) );
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}
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Vgm_Emu::~Vgm_Emu() { }
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// Track info
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static byte const* skip_gd3_str( byte const* in, byte const* end )
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{
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while ( end - in >= 2 )
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{
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in += 2;
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if ( !(in [-2] | in [-1]) )
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break;
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}
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return in;
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}
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static byte const* get_gd3_str( byte const* in, byte const* end, char* field )
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{
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byte const* mid = skip_gd3_str( in, end );
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int len = (mid - in) / 2 - 1;
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if ( len > 0 )
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{
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len = min( len, (int) Gme_File::max_field_ );
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field [len] = 0;
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for ( int i = 0; i < len; i++ )
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field [i] = (in [i * 2 + 1] ? '?' : in [i * 2]); // TODO: convert to utf-8
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}
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return mid;
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}
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static byte const* get_gd3_pair( byte const* in, byte const* end, char* field )
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{
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return skip_gd3_str( get_gd3_str( in, end, field ), end );
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}
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static void parse_gd3( byte const* in, byte const* end, track_info_t* out )
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{
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in = get_gd3_pair( in, end, out->song );
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in = get_gd3_pair( in, end, out->game );
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in = get_gd3_pair( in, end, out->system );
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in = get_gd3_pair( in, end, out->author );
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in = get_gd3_str ( in, end, out->copyright );
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in = get_gd3_pair( in, end, out->dumper );
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in = get_gd3_str ( in, end, out->comment );
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}
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int const gd3_header_size = 12;
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static long check_gd3_header( byte const* h, long remain )
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{
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if ( remain < gd3_header_size ) return 0;
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if ( memcmp( h, "Gd3 ", 4 ) ) return 0;
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if ( get_le32( h + 4 ) >= 0x200 ) return 0;
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long gd3_size = get_le32( h + 8 );
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if ( gd3_size > remain - gd3_header_size ) return 0;
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return gd3_size;
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}
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byte const* Vgm_Emu::gd3_data( int* size ) const
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{
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if ( size )
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*size = 0;
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long gd3_offset = get_le32( header().gd3_offset ) - 0x2C;
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if ( gd3_offset < 0 )
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return 0;
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byte const* gd3 = data + header_size + gd3_offset;
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long gd3_size = check_gd3_header( gd3, data_end - gd3 );
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if ( !gd3_size )
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return 0;
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if ( size )
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*size = gd3_size + gd3_header_size;
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return gd3;
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}
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static void get_vgm_length( Vgm_Emu::header_t const& h, track_info_t* out )
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{
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long length = get_le32( h.track_duration ) * 10 / 441;
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if ( length > 0 )
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{
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long loop = get_le32( h.loop_duration );
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if ( loop > 0 && get_le32( h.loop_offset ) )
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{
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out->loop_length = loop * 10 / 441;
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out->intro_length = length - out->loop_length;
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}
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else
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{
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out->length = length; // 1000 / 44100 (VGM files used 44100 as timebase)
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out->intro_length = length; // make it clear that track is no longer than length
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out->loop_length = 0;
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}
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}
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}
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blargg_err_t Vgm_Emu::track_info_( track_info_t* out, int ) const
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{
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get_vgm_length( header(), out );
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int size;
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byte const* gd3 = gd3_data( &size );
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if ( gd3 )
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parse_gd3( gd3 + gd3_header_size, gd3 + size, out );
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return 0;
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}
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static blargg_err_t check_vgm_header( Vgm_Emu::header_t const& h )
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{
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if ( memcmp( h.tag, "Vgm ", 4 ) )
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return gme_wrong_file_type;
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return 0;
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}
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struct Vgm_File : Gme_Info_
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{
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Vgm_Emu::header_t h;
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blargg_vector<byte> gd3;
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Vgm_File() { set_type( gme_vgm_type ); }
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blargg_err_t load_( Data_Reader& in )
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{
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long file_size = in.remain();
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if ( file_size <= Vgm_Emu::header_size )
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return gme_wrong_file_type;
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RETURN_ERR( in.read( &h, Vgm_Emu::header_size ) );
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RETURN_ERR( check_vgm_header( h ) );
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long gd3_offset = get_le32( h.gd3_offset ) - 0x2C;
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long remain = file_size - Vgm_Emu::header_size - gd3_offset;
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byte gd3_h [gd3_header_size];
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if ( gd3_offset > 0 && remain >= gd3_header_size )
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{
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RETURN_ERR( in.skip( gd3_offset ) );
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RETURN_ERR( in.read( gd3_h, sizeof gd3_h ) );
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long gd3_size = check_gd3_header( gd3_h, remain );
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if ( gd3_size )
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{
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RETURN_ERR( gd3.resize( gd3_size ) );
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RETURN_ERR( in.read( gd3.begin(), gd3.size() ) );
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}
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}
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return 0;
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}
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blargg_err_t track_info_( track_info_t* out, int ) const
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{
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get_vgm_length( h, out );
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if ( gd3.size() )
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parse_gd3( gd3.begin(), gd3.end(), out );
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return 0;
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}
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};
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static Music_Emu* new_vgm_emu () { return BLARGG_NEW Vgm_Emu ; }
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static Music_Emu* new_vgm_file() { return BLARGG_NEW Vgm_File; }
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static gme_type_t_ const gme_vgm_type_ = { "Sega SMS/Genesis", 1, &new_vgm_emu, &new_vgm_file, "VGM", 1 };
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BLARGG_EXPORT extern gme_type_t const gme_vgm_type = &gme_vgm_type_;
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static gme_type_t_ const gme_vgz_type_ = { "Sega SMS/Genesis", 1, &new_vgm_emu, &new_vgm_file, "VGZ", 1 };
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BLARGG_EXPORT extern gme_type_t const gme_vgz_type = &gme_vgz_type_;
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// Setup
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void Vgm_Emu::set_tempo_( double t )
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{
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if ( psg_rate )
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{
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vgm_rate = (long) (44100 * t + 0.5);
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blip_time_factor = (long) floor( double (1L << blip_time_bits) / vgm_rate * psg_rate + 0.5 );
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//debug_printf( "blip_time_factor: %ld\n", blip_time_factor );
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//debug_printf( "vgm_rate: %ld\n", vgm_rate );
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// TODO: remove? calculates vgm_rate more accurately (above differs at most by one Hz only)
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//blip_time_factor = (long) floor( double (1L << blip_time_bits) * psg_rate / 44100 / t + 0.5 );
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//vgm_rate = (long) floor( double (1L << blip_time_bits) * psg_rate / blip_time_factor + 0.5 );
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fm_time_factor = 2 + (long) floor( fm_rate * (1L << fm_time_bits) / vgm_rate + 0.5 );
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}
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}
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blargg_err_t Vgm_Emu::set_sample_rate_( long sample_rate )
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{
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RETURN_ERR( blip_buf.set_sample_rate( sample_rate, 1000 / 30 ) );
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return Classic_Emu::set_sample_rate_( sample_rate );
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}
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blargg_err_t Vgm_Emu::set_multi_channel ( bool is_enabled )
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{
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// we acutally should check here whether this is classic emu or not
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// however set_multi_channel() is called before setup_fm() resulting in uninited is_classic_emu()
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// hard code it to unsupported
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#if 0
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if ( is_classic_emu() )
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{
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RETURN_ERR( Music_Emu::set_multi_channel_( is_enabled ) );
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return 0;
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}
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else
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#endif
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{
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(void) is_enabled;
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return "multichannel rendering not supported for YM2*** FM sound chip emulators";
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}
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}
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void Vgm_Emu::update_eq( blip_eq_t const& eq )
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{
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psg.treble_eq( eq );
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dac_synth.treble_eq( eq );
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}
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void Vgm_Emu::set_voice( int i, Blip_Buffer* c, Blip_Buffer* l, Blip_Buffer* r )
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{
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if ( i < psg.osc_count )
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psg.osc_output( i, c, l, r );
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}
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void Vgm_Emu::mute_voices_( int mask )
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{
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Classic_Emu::mute_voices_( mask );
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dac_synth.output( &blip_buf );
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if ( uses_fm )
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{
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psg.output( (mask & 0x80) ? 0 : &blip_buf );
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if ( ym2612.enabled() )
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{
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dac_synth.volume( (mask & 0x40) ? 0.0 : 0.1115 / 256 * fm_gain * gain() );
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ym2612.mute_voices( mask );
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}
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if ( ym2413.enabled() )
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{
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int m = mask & 0x3F;
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if ( mask & 0x20 )
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m |= 0x01E0; // channels 5-8
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if ( mask & 0x40 )
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m |= 0x3E00;
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ym2413.mute_voices( m );
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}
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}
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}
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blargg_err_t Vgm_Emu::load_mem_( byte const* new_data, long new_size )
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{
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assert( offsetof (header_t,unused2 [8]) == header_size );
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if ( new_size <= header_size )
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return gme_wrong_file_type;
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header_t const& h = *(header_t const*) new_data;
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RETURN_ERR( check_vgm_header( h ) );
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check( get_le32( h.version ) <= 0x150 );
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// psg rate
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psg_rate = get_le32( h.psg_rate );
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if ( !psg_rate )
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psg_rate = 3579545;
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blip_buf.clock_rate( psg_rate );
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data = new_data;
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data_end = new_data + new_size;
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// get loop
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loop_begin = data_end;
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if ( get_le32( h.loop_offset ) )
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loop_begin = &data [get_le32( h.loop_offset ) + offsetof (header_t,loop_offset)];
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set_voice_count( psg.osc_count );
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RETURN_ERR( setup_fm() );
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static const char* const fm_names [] = {
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"FM 1", "FM 2", "FM 3", "FM 4", "FM 5", "FM 6", "PCM", "PSG"
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};
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static const char* const psg_names [] = { "Square 1", "Square 2", "Square 3", "Noise" };
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set_voice_names( uses_fm ? fm_names : psg_names );
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// do after FM in case output buffer is changed
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return Classic_Emu::setup_buffer( psg_rate );
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}
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blargg_err_t Vgm_Emu::setup_fm()
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{
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long ym2612_rate = get_le32( header().ym2612_rate );
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long ym2413_rate = get_le32( header().ym2413_rate );
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if ( ym2413_rate && get_le32( header().version ) < 0x110 )
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update_fm_rates( &ym2413_rate, &ym2612_rate );
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uses_fm = false;
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fm_rate = blip_buf.sample_rate() * oversample_factor;
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if ( ym2612_rate )
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{
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uses_fm = true;
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if ( disable_oversampling_ )
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fm_rate = ym2612_rate / 144.0;
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Dual_Resampler::setup( fm_rate / blip_buf.sample_rate(), rolloff, fm_gain * gain() );
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RETURN_ERR( ym2612.set_rate( fm_rate, ym2612_rate ) );
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ym2612.enable( true );
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set_voice_count( 8 );
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}
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if ( !uses_fm && ym2413_rate )
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{
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uses_fm = true;
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if ( disable_oversampling_ )
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fm_rate = ym2413_rate / 72.0;
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Dual_Resampler::setup( fm_rate / blip_buf.sample_rate(), rolloff, fm_gain * gain() );
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int result = ym2413.set_rate( fm_rate, ym2413_rate );
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if ( result == 2 )
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return "YM2413 FM sound isn't supported";
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CHECK_ALLOC( !result );
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ym2413.enable( true );
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set_voice_count( 8 );
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}
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if ( uses_fm )
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{
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RETURN_ERR( Dual_Resampler::reset( blip_buf.length() * blip_buf.sample_rate() / 1000 ) );
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psg.volume( 0.135 * fm_gain * gain() );
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}
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else
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{
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ym2612.enable( false );
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ym2413.enable( false );
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psg.volume( gain() );
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}
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return 0;
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}
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// Emulation
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blargg_err_t Vgm_Emu::start_track_( int track )
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{
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RETURN_ERR( Classic_Emu::start_track_( track ) );
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psg.reset( get_le16( header().noise_feedback ), header().noise_width );
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dac_disabled = -1;
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pos = data + header_size;
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pcm_data = pos;
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pcm_pos = pos;
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dac_amp = -1;
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vgm_time = 0;
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if ( get_le32( header().version ) >= 0x150 )
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{
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long data_offset = get_le32( header().data_offset );
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check( data_offset );
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if ( data_offset )
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pos += data_offset + offsetof (header_t,data_offset) - 0x40;
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}
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if ( uses_fm )
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{
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if ( ym2413.enabled() )
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ym2413.reset();
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if ( ym2612.enabled() )
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ym2612.reset();
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fm_time_offset = 0;
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blip_buf.clear();
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Dual_Resampler::clear();
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}
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return 0;
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}
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blargg_err_t Vgm_Emu::run_clocks( blip_time_t& time_io, int msec )
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{
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time_io = run_commands( msec * vgm_rate / 1000 );
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psg.end_frame( time_io );
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return 0;
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}
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blargg_err_t Vgm_Emu::play_( long count, sample_t* out )
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{
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if ( !uses_fm )
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return Classic_Emu::play_( count, out );
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Dual_Resampler::dual_play( count, out, blip_buf );
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return 0;
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}
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