qzdoom-gpl/game-music-emu/gme/Nes_Apu.h
Randy Heit a8de4fc2da - Fixed compilation of i_keyboard.cpp with MinGW, because w32api still doesn't have
everything that was new for XP.
- Swapped snes_spc out for the full Game Music Emu library.

SVN r1631 (trunk)
2009-06-03 03:05:02 +00:00

179 lines
5.4 KiB
C++

// NES 2A03 APU sound chip emulator
// Nes_Snd_Emu 0.1.8
#ifndef NES_APU_H
#define NES_APU_H
#include "blargg_common.h"
typedef blargg_long nes_time_t; // CPU clock cycle count
typedef unsigned nes_addr_t; // 16-bit memory address
#include "Nes_Oscs.h"
struct apu_state_t;
class Nes_Buffer;
class Nes_Apu {
public:
// Set buffer to generate all sound into, or disable sound if NULL
void output( Blip_Buffer* );
// Set memory reader callback used by DMC oscillator to fetch samples.
// When callback is invoked, 'user_data' is passed unchanged as the
// first parameter.
void dmc_reader( int (*callback)( void* user_data, nes_addr_t ), void* user_data = NULL );
// All time values are the number of CPU clock cycles relative to the
// beginning of the current time frame. Before resetting the CPU clock
// count, call end_frame( last_cpu_time ).
// Write to register (0x4000-0x4017, except 0x4014 and 0x4016)
enum { start_addr = 0x4000 };
enum { end_addr = 0x4017 };
void write_register( nes_time_t, nes_addr_t, int data );
// Read from status register at 0x4015
enum { status_addr = 0x4015 };
int read_status( nes_time_t );
// Run all oscillators up to specified time, end current time frame, then
// start a new time frame at time 0. Time frames have no effect on emulation
// and each can be whatever length is convenient.
void end_frame( nes_time_t );
// Additional optional features (can be ignored without any problem)
// Reset internal frame counter, registers, and all oscillators.
// Use PAL timing if pal_timing is true, otherwise use NTSC timing.
// Set the DMC oscillator's initial DAC value to initial_dmc_dac without
// any audible click.
void reset( bool pal_mode = false, int initial_dmc_dac = 0 );
// Adjust frame period
void set_tempo( double );
// Save/load exact emulation state
void save_state( apu_state_t* out ) const;
void load_state( apu_state_t const& );
// Set overall volume (default is 1.0)
void volume( double );
// Set treble equalization (see notes.txt)
void treble_eq( const blip_eq_t& );
// Set sound output of specific oscillator to buffer. If buffer is NULL,
// the specified oscillator is muted and emulation accuracy is reduced.
// The oscillators are indexed as follows: 0) Square 1, 1) Square 2,
// 2) Triangle, 3) Noise, 4) DMC.
enum { osc_count = 5 };
void osc_output( int index, Blip_Buffer* buffer );
// Set IRQ time callback that is invoked when the time of earliest IRQ
// may have changed, or NULL to disable. When callback is invoked,
// 'user_data' is passed unchanged as the first parameter.
void irq_notifier( void (*callback)( void* user_data ), void* user_data = NULL );
// Get time that APU-generated IRQ will occur if no further register reads
// or writes occur. If IRQ is already pending, returns irq_waiting. If no
// IRQ will occur, returns no_irq.
enum { no_irq = INT_MAX / 2 + 1 };
enum { irq_waiting = 0 };
nes_time_t earliest_irq( nes_time_t ) const;
// Count number of DMC reads that would occur if 'run_until( t )' were executed.
// If last_read is not NULL, set *last_read to the earliest time that
// 'count_dmc_reads( time )' would result in the same result.
int count_dmc_reads( nes_time_t t, nes_time_t* last_read = NULL ) const;
// Time when next DMC memory read will occur
nes_time_t next_dmc_read_time() const;
// Run DMC until specified time, so that any DMC memory reads can be
// accounted for (i.e. inserting CPU wait states).
void run_until( nes_time_t );
public:
Nes_Apu();
BLARGG_DISABLE_NOTHROW
private:
friend class Nes_Nonlinearizer;
void enable_nonlinear( double volume );
static double nonlinear_tnd_gain() { return 0.75; }
private:
friend struct Nes_Dmc;
// noncopyable
Nes_Apu( const Nes_Apu& );
Nes_Apu& operator = ( const Nes_Apu& );
Nes_Osc* oscs [osc_count];
Nes_Square square1;
Nes_Square square2;
Nes_Noise noise;
Nes_Triangle triangle;
Nes_Dmc dmc;
double tempo_;
nes_time_t last_time; // has been run until this time in current frame
nes_time_t last_dmc_time;
nes_time_t earliest_irq_;
nes_time_t next_irq;
int frame_period;
int frame_delay; // cycles until frame counter runs next
int frame; // current frame (0-3)
int osc_enables;
int frame_mode;
bool irq_flag;
void (*irq_notifier_)( void* user_data );
void* irq_data;
Nes_Square::Synth square_synth; // shared by squares
void irq_changed();
void state_restored();
void run_until_( nes_time_t );
// TODO: remove
friend class Nes_Core;
};
inline void Nes_Apu::osc_output( int osc, Blip_Buffer* buf )
{
assert( (unsigned) osc < osc_count );
oscs [osc]->output = buf;
}
inline nes_time_t Nes_Apu::earliest_irq( nes_time_t ) const
{
return earliest_irq_;
}
inline void Nes_Apu::dmc_reader( int (*func)( void*, nes_addr_t ), void* user_data )
{
dmc.prg_reader_data = user_data;
dmc.prg_reader = func;
}
inline void Nes_Apu::irq_notifier( void (*func)( void* user_data ), void* user_data )
{
irq_notifier_ = func;
irq_data = user_data;
}
inline int Nes_Apu::count_dmc_reads( nes_time_t time, nes_time_t* last_read ) const
{
return dmc.count_reads( time, last_read );
}
inline nes_time_t Nes_Dmc::next_read_time() const
{
if ( length_counter == 0 )
return Nes_Apu::no_irq; // not reading
return apu->last_dmc_time + delay + long (bits_remain - 1) * period;
}
inline nes_time_t Nes_Apu::next_dmc_read_time() const { return dmc.next_read_time(); }
#endif