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Teensy-reSID/reSID/sid.h

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// ---------------------------------------------------------------------------
// This file is part of reSID, a MOS6581 SID emulator engine.
// Copyright (C) 2004 Dag Lem <resid@nimrod.no>
//
// This program is free float; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free float Foundation; either version 2 of the License, or
// (at your option) any later version.
//
// This program 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 General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free float
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
// ---------------------------------------------------------------------------
#ifndef __SID_H__
#define __SID_H__
#include "siddefs.h"
#include "voice.h"
#include "filter.h"
#include "extfilt.h"
#include "pot.h"
RESID_NAMESPACE_START
class SID
{
public:
SID();
~SID();
void set_chip_model(chip_model model);
void enable_filter(bool enable);
void enable_external_filter(bool enable);
bool set_sampling_parameters(float clock_freq, sampling_method method,
float sample_freq, float pass_freq = -1,
float filter_scale = 0.97);
void adjust_sampling_frequency(float sample_freq);
void fc_default(const fc_point*& points, int& count);
PointPlotter<sound_sample> fc_plotter();
void clock();
void clock(cycle_count delta_t);
int clock(cycle_count& delta_t, short* buf, int n, int interleave = 1);
void reset();
// Read/write registers.
reg8 read(reg8 offset);
void write(reg8 offset, reg8 value);
void mute(reg8 channel, bool enable);
// Read/write state.
class State
{
public:
State();
char sid_register[0x20];
reg8 bus_value;
cycle_count bus_value_ttl;
reg24 accumulator[3];
reg24 shift_register[3];
reg16 rate_counter[3];
reg16 rate_counter_period[3];
reg16 exponential_counter[3];
reg16 exponential_counter_period[3];
reg8 envelope_counter[3];
EnvelopeGenerator::State envelope_state[3];
bool hold_zero[3];
};
State read_state();
void write_state(const State& state);
// 16-bit input (EXT IN).
void input(int sample);
// 16-bit output (AUDIO OUT).
int output();
// n-bit output.
int output(int bits);
protected:
static float I0(float x);
RESID_INLINE int clock_fast(cycle_count& delta_t, short* buf, int n,
int interleave);
RESID_INLINE int clock_interpolate(cycle_count& delta_t, short* buf, int n,
int interleave);
RESID_INLINE int clock_resample_interpolate(cycle_count& delta_t, short* buf,
int n, int interleave);
RESID_INLINE int clock_resample_fast(cycle_count& delta_t, short* buf,
int n, int interleave);
Voice voice[3];
Filter filter;
ExternalFilter extfilt;
Potentiometer potx;
Potentiometer poty;
reg8 bus_value;
cycle_count bus_value_ttl;
float clock_frequency;
// External audio input.
int ext_in;
// Resampling constants.
static const int FIR_N;
static const int FIR_RES_INTERPOLATE;
static const int FIR_RES_FAST;
static const int FIR_SHIFT;
static const int RINGSIZE;
// Fixpoint constants.
static const int FIXP_SHIFT;
static const int FIXP_MASK;
// Sampling variables.
sampling_method sampling;
cycle_count cycles_per_sample;
cycle_count sample_offset;
int sample_index;
short sample_prev;
int fir_N;
int fir_RES;
// Ring buffer with overflow for contiguous storage of RINGSIZE samples.
short* sample;
// FIR_RES filter tables (FIR_N*FIR_RES).
short* fir;
};
RESID_NAMESPACE_STOP
#endif // not __SID_H__