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Diffstat (limited to 'plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig')
-rw-r--r-- | plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig | 446 |
1 files changed, 0 insertions, 446 deletions
diff --git a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig b/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig deleted file mode 100644 index 9dc89ea8..00000000 --- a/plugins/gme/game-music-emu-0.5.5/gme/Blip_Buffer.cpp.orig +++ /dev/null @@ -1,446 +0,0 @@ -// Blip_Buffer 0.4.1. http://www.slack.net/~ant/ - -#include "Blip_Buffer.h" - -#include <assert.h> -#include <limits.h> -#include <string.h> -#include <stdlib.h> -#include <math.h> - -/* Copyright (C) 2003-2006 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 */ - -#ifdef BLARGG_ENABLE_OPTIMIZER - #include BLARGG_ENABLE_OPTIMIZER -#endif - -int const silent_buf_size = 1; // size used for Silent_Blip_Buffer - -Blip_Buffer::Blip_Buffer() -{ - factor_ = (blip_ulong)-1 / 2; - offset_ = 0; - buffer_ = 0; - buffer_size_ = 0; - sample_rate_ = 0; - reader_accum_ = 0; - bass_shift_ = 0; - clock_rate_ = 0; - bass_freq_ = 16; - length_ = 0; - - // assumptions code makes about implementation-defined features - #ifndef NDEBUG - // right shift of negative value preserves sign - buf_t_ i = -0x7FFFFFFE; - assert( (i >> 1) == -0x3FFFFFFF ); - - // casting to short truncates to 16 bits and sign-extends - i = 0x18000; - assert( (short) i == -0x8000 ); - #endif -} - -Blip_Buffer::~Blip_Buffer() -{ - if ( buffer_size_ != silent_buf_size ) - free( buffer_ ); -} - -Silent_Blip_Buffer::Silent_Blip_Buffer() -{ - factor_ = 0; - buffer_ = buf; - buffer_size_ = silent_buf_size; - memset( buf, 0, sizeof buf ); // in case machine takes exception for signed overflow -} - -void Blip_Buffer::clear( int entire_buffer ) -{ - offset_ = 0; - reader_accum_ = 0; - modified_ = 0; - if ( buffer_ ) - { - long count = (entire_buffer ? buffer_size_ : samples_avail()); - memset( buffer_, 0, (count + blip_buffer_extra_) * sizeof (buf_t_) ); - } -} - -Blip_Buffer::blargg_err_t Blip_Buffer::set_sample_rate( long new_rate, int msec ) -{ - if ( buffer_size_ == silent_buf_size ) - { - assert( 0 ); - return "Internal (tried to resize Silent_Blip_Buffer)"; - } - - // start with maximum length that resampled time can represent - long new_size = (UINT_MAX >> BLIP_BUFFER_ACCURACY) - blip_buffer_extra_ - 64; - if ( msec != blip_max_length ) - { - long s = (new_rate * (msec + 1) + 999) / 1000; - if ( s < new_size ) - new_size = s; - else - assert( 0 ); // fails if requested buffer length exceeds limit - } - - if ( buffer_size_ != new_size ) - { - void* p = realloc( buffer_, (new_size + blip_buffer_extra_) * sizeof *buffer_ ); - if ( !p ) - return "Out of memory"; - buffer_ = (buf_t_*) p; - } - - buffer_size_ = new_size; - assert( buffer_size_ != silent_buf_size ); - - // update things based on the sample rate - sample_rate_ = new_rate; - length_ = new_size * 1000 / new_rate - 1; - if ( msec ) - assert( length_ == msec ); // ensure length is same as that passed in - if ( clock_rate_ ) - clock_rate( clock_rate_ ); - bass_freq( bass_freq_ ); - - clear(); - - return 0; // success -} - -blip_resampled_time_t Blip_Buffer::clock_rate_factor( long rate ) const -{ - double ratio = (double) sample_rate_ / rate; - blip_long factor = (blip_long) floor( ratio * (1L << BLIP_BUFFER_ACCURACY) + 0.5 ); - assert( factor > 0 || !sample_rate_ ); // fails if clock/output ratio is too large - return (blip_resampled_time_t) factor; -} - -void Blip_Buffer::bass_freq( int freq ) -{ - bass_freq_ = freq; - int shift = 31; - if ( freq > 0 ) - { - shift = 13; - long f = (freq << 16) / sample_rate_; - while ( (f >>= 1) && --shift ) { } - } - bass_shift_ = shift; -} - -void Blip_Buffer::end_frame( blip_time_t t ) -{ - offset_ += t * factor_; - assert( samples_avail() <= (long) buffer_size_ ); // time outside buffer length -} - -void Blip_Buffer::remove_silence( long count ) -{ - assert( count <= samples_avail() ); // tried to remove more samples than available - offset_ -= (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY; -} - -long Blip_Buffer::count_samples( blip_time_t t ) const -{ - unsigned long last_sample = resampled_time( t ) >> BLIP_BUFFER_ACCURACY; - unsigned long first_sample = offset_ >> BLIP_BUFFER_ACCURACY; - return (long) (last_sample - first_sample); -} - -blip_time_t Blip_Buffer::count_clocks( long count ) const -{ - if ( !factor_ ) - { - assert( 0 ); // sample rate and clock rates must be set first - return 0; - } - - if ( count > buffer_size_ ) - count = buffer_size_; - blip_resampled_time_t time = (blip_resampled_time_t) count << BLIP_BUFFER_ACCURACY; - return (blip_time_t) ((time - offset_ + factor_ - 1) / factor_); -} - -void Blip_Buffer::remove_samples( long count ) -{ - if ( count ) - { - remove_silence( count ); - - // copy remaining samples to beginning and clear old samples - long remain = samples_avail() + blip_buffer_extra_; - memmove( buffer_, buffer_ + count, remain * sizeof *buffer_ ); - memset( buffer_ + remain, 0, count * sizeof *buffer_ ); - } -} - -// Blip_Synth_ - -Blip_Synth_Fast_::Blip_Synth_Fast_() -{ - buf = 0; - last_amp = 0; - delta_factor = 0; -} - -void Blip_Synth_Fast_::volume_unit( double new_unit ) -{ - delta_factor = int (new_unit * (1L << blip_sample_bits) + 0.5); -} - -#if !BLIP_BUFFER_FAST - -Blip_Synth_::Blip_Synth_( short* p, int w ) : - impulses( p ), - width( w ) -{ - volume_unit_ = 0.0; - kernel_unit = 0; - buf = 0; - last_amp = 0; - delta_factor = 0; -} - -#undef PI -#define PI 3.1415926535897932384626433832795029 - -static void gen_sinc( float* out, int count, double oversample, double treble, double cutoff ) -{ - if ( cutoff >= 0.999 ) - cutoff = 0.999; - - if ( treble < -300.0 ) - treble = -300.0; - if ( treble > 5.0 ) - treble = 5.0; - - double const maxh = 4096.0; - double const rolloff = pow( 10.0, 1.0 / (maxh * 20.0) * treble / (1.0 - cutoff) ); - double const pow_a_n = pow( rolloff, maxh - maxh * cutoff ); - double const to_angle = PI / 2 / maxh / oversample; - for ( int i = 0; i < count; i++ ) - { - double angle = ((i - count) * 2 + 1) * to_angle; - double c = rolloff * cos( (maxh - 1.0) * angle ) - cos( maxh * angle ); - double cos_nc_angle = cos( maxh * cutoff * angle ); - double cos_nc1_angle = cos( (maxh * cutoff - 1.0) * angle ); - double cos_angle = cos( angle ); - - c = c * pow_a_n - rolloff * cos_nc1_angle + cos_nc_angle; - double d = 1.0 + rolloff * (rolloff - cos_angle - cos_angle); - double b = 2.0 - cos_angle - cos_angle; - double a = 1.0 - cos_angle - cos_nc_angle + cos_nc1_angle; - - out [i] = (float) ((a * d + c * b) / (b * d)); // a / b + c / d - } -} - -void blip_eq_t::generate( float* out, int count ) const -{ - // lower cutoff freq for narrow kernels with their wider transition band - // (8 points->1.49, 16 points->1.15) - double oversample = blip_res * 2.25 / count + 0.85; - double half_rate = sample_rate * 0.5; - if ( cutoff_freq ) - oversample = half_rate / cutoff_freq; - double cutoff = rolloff_freq * oversample / half_rate; - - gen_sinc( out, count, blip_res * oversample, treble, cutoff ); - - // apply (half of) hamming window - double to_fraction = PI / (count - 1); - for ( int i = count; i--; ) - out [i] *= 0.54f - 0.46f * (float) cos( i * to_fraction ); -} - -void Blip_Synth_::adjust_impulse() -{ - // sum pairs for each phase and add error correction to end of first half - int const size = impulses_size(); - for ( int p = blip_res; p-- >= blip_res / 2; ) - { - int p2 = blip_res - 2 - p; - long error = kernel_unit; - for ( int i = 1; i < size; i += blip_res ) - { - error -= impulses [i + p ]; - error -= impulses [i + p2]; - } - if ( p == p2 ) - error /= 2; // phase = 0.5 impulse uses same half for both sides - impulses [size - blip_res + p] += (short) error; - //printf( "error: %ld\n", error ); - } - - //for ( int i = blip_res; i--; printf( "\n" ) ) - // for ( int j = 0; j < width / 2; j++ ) - // printf( "%5ld,", impulses [j * blip_res + i + 1] ); -} - -void Blip_Synth_::treble_eq( blip_eq_t const& eq ) -{ - float fimpulse [blip_res / 2 * (blip_widest_impulse_ - 1) + blip_res * 2]; - - int const half_size = blip_res / 2 * (width - 1); - eq.generate( &fimpulse [blip_res], half_size ); - - int i; - - // need mirror slightly past center for calculation - for ( i = blip_res; i--; ) - fimpulse [blip_res + half_size + i] = fimpulse [blip_res + half_size - 1 - i]; - - // starts at 0 - for ( i = 0; i < blip_res; i++ ) - fimpulse [i] = 0.0f; - - // find rescale factor - double total = 0.0; - for ( i = 0; i < half_size; i++ ) - total += fimpulse [blip_res + i]; - - //double const base_unit = 44800.0 - 128 * 18; // allows treble up to +0 dB - //double const base_unit = 37888.0; // allows treble to +5 dB - double const base_unit = 32768.0; // necessary for blip_unscaled to work - double rescale = base_unit / 2 / total; - kernel_unit = (long) base_unit; - - // integrate, first difference, rescale, convert to int - double sum = 0.0; - double next = 0.0; - int const impulses_size = this->impulses_size(); - for ( i = 0; i < impulses_size; i++ ) - { - impulses [i] = (short) floor( (next - sum) * rescale + 0.5 ); - sum += fimpulse [i]; - next += fimpulse [i + blip_res]; - } - adjust_impulse(); - - // volume might require rescaling - double vol = volume_unit_; - if ( vol ) - { - volume_unit_ = 0.0; - volume_unit( vol ); - } -} - -void Blip_Synth_::volume_unit( double new_unit ) -{ - if ( new_unit != volume_unit_ ) - { - // use default eq if it hasn't been set yet - if ( !kernel_unit ) - treble_eq( -8.0 ); - - volume_unit_ = new_unit; - double factor = new_unit * (1L << blip_sample_bits) / kernel_unit; - - if ( factor > 0.0 ) - { - int shift = 0; - - // if unit is really small, might need to attenuate kernel - while ( factor < 2.0 ) - { - shift++; - factor *= 2.0; - } - - if ( shift ) - { - kernel_unit >>= shift; - assert( kernel_unit > 0 ); // fails if volume unit is too low - - // keep values positive to avoid round-towards-zero of sign-preserving - // right shift for negative values - long offset = 0x8000 + (1 << (shift - 1)); - long offset2 = 0x8000 >> shift; - for ( int i = impulses_size(); i--; ) - impulses [i] = (short) (((impulses [i] + offset) >> shift) - offset2); - adjust_impulse(); - } - } - delta_factor = (int) floor( factor + 0.5 ); - //printf( "delta_factor: %d, kernel_unit: %d\n", delta_factor, kernel_unit ); - } -} -#endif - -long Blip_Buffer::read_samples( blip_sample_t* BLIP_RESTRICT out, long max_samples, int stereo ) -{ - long count = samples_avail(); - if ( count > max_samples ) - count = max_samples; - - if ( count ) - { - int const bass = BLIP_READER_BASS( *this ); - BLIP_READER_BEGIN( reader, *this ); - - if ( !stereo ) - { - for ( blip_long n = count; n; --n ) - { - blip_long s = BLIP_READER_READ( reader ); - if ( (blip_sample_t) s != s ) - s = 0x7FFF - (s >> 24); - *out++ = (blip_sample_t) s; - BLIP_READER_NEXT( reader, bass ); - } - } - else - { - for ( blip_long n = count; n; --n ) - { - blip_long s = BLIP_READER_READ( reader ); - if ( (blip_sample_t) s != s ) - s = 0x7FFF - (s >> 24); - *out = (blip_sample_t) s; - out += 2; - BLIP_READER_NEXT( reader, bass ); - } - } - BLIP_READER_END( reader, *this ); - - remove_samples( count ); - } - return count; -} - -void Blip_Buffer::mix_samples( blip_sample_t const* in, long count ) -{ - if ( buffer_size_ == silent_buf_size ) - { - assert( 0 ); - return; - } - - buf_t_* out = buffer_ + (offset_ >> BLIP_BUFFER_ACCURACY) + blip_widest_impulse_ / 2; - - int const sample_shift = blip_sample_bits - 16; - int prev = 0; - while ( count-- ) - { - blip_long s = (blip_long) *in++ << sample_shift; - *out += s - prev; - prev = s; - ++out; - } - *out -= prev; -} - |