/* Mednafen - Multi-system Emulator
 *
 *  Original skeleton write handler and PSG structure definition:
 *   Copyright (C) 2001 Charles MacDonald
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software 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 Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */

#ifndef _PCE_PSG_H
#define _PCE_PSG_H

class PCE_PSG;

struct psg_channel
{
	uint8 waveform[32];   /* Waveform data */
	uint8 waveform_index; /* Waveform data index */
	uint8 dda;
	uint8 control;   /* Channel enable, DDA, volume */
	uint8 noisectrl; /* Noise enable/ctrl (channels 4,5 only) */

	int32 vl[2]; //vll, vlr;

	int32 counter;

	void (PCE_PSG::*UpdateOutput)(const int32 timestamp, psg_channel *ch);

	uint32 freq_cache;
	uint32 noise_freq_cache; // Channel 4,5 only
	int32 noisecount;
	uint32 lfsr;

	int32 samp_accum; // The result of adding up all the samples in the waveform buffer(part of an optimization for high-frequency playback).
	int32 blip_prev_samp[2];
	int32 lastts;

	uint16 frequency; /* Channel frequency */
	uint8 balance;	/* Channel balance */
};

// Only CH4 and CH5 have NCTRL and LFSR, but it's here for the other channels for "consistency".
enum
{
	PSG_GSREG_CH0_FREQ = 0x000,
	// PSG_GSREG_CH0_COUNTER,
	PSG_GSREG_CH0_CTRL,
	PSG_GSREG_CH0_BALANCE,
	PSG_GSREG_CH0_WINDEX,
	PSG_GSREG_CH0_SCACHE,
	PSG_GSREG_CH0_NCTRL,
	PSG_GSREG_CH0_LFSR,

	PSG_GSREG_CH1_FREQ = 0x100,
	// PSG_GSREG_CH1_COUNTER,
	PSG_GSREG_CH1_CTRL,
	PSG_GSREG_CH1_BALANCE,
	PSG_GSREG_CH1_WINDEX,
	PSG_GSREG_CH1_SCACHE,
	PSG_GSREG_CH1_NCTRL,
	PSG_GSREG_CH1_LFSR,

	PSG_GSREG_CH2_FREQ = 0x200,
	// PSG_GSREG_CH2_COUNTER,
	PSG_GSREG_CH2_CTRL,
	PSG_GSREG_CH2_BALANCE,
	PSG_GSREG_CH2_WINDEX,
	PSG_GSREG_CH2_SCACHE,
	PSG_GSREG_CH2_NCTRL,
	PSG_GSREG_CH2_LFSR,

	PSG_GSREG_CH3_FREQ = 0x300,
	// PSG_GSREG_CH3_COUNTER,
	PSG_GSREG_CH3_CTRL,
	PSG_GSREG_CH3_BALANCE,
	PSG_GSREG_CH3_WINDEX,
	PSG_GSREG_CH3_SCACHE,
	PSG_GSREG_CH3_NCTRL,
	PSG_GSREG_CH3_LFSR,

	PSG_GSREG_CH4_FREQ = 0x400,
	// PSG_GSREG_CH4_COUNTER,
	PSG_GSREG_CH4_CTRL,
	PSG_GSREG_CH4_BALANCE,
	PSG_GSREG_CH4_WINDEX,
	PSG_GSREG_CH4_SCACHE,
	PSG_GSREG_CH4_NCTRL,
	PSG_GSREG_CH4_LFSR,

	PSG_GSREG_CH5_FREQ = 0x500,
	// PSG_GSREG_CH5_COUNTER,
	PSG_GSREG_CH5_CTRL,
	PSG_GSREG_CH5_BALANCE,
	PSG_GSREG_CH5_WINDEX,
	PSG_GSREG_CH5_SCACHE,
	PSG_GSREG_CH5_NCTRL,
	PSG_GSREG_CH5_LFSR,

	PSG_GSREG_SELECT = 0x1000,
	PSG_GSREG_GBALANCE,
	PSG_GSREG_LFOFREQ,
	PSG_GSREG_LFOCTRL,
	_PSG_GSREG_COUNT
};

class PCE_PSG
{
  public:
	enum
	{
		REVISION_HUC6280 = 0,
		REVISION_HUC6280A,
		_REVISION_COUNT
	};

	PCE_PSG(int32 *hr_l, int32 *hr_r, int want_revision)
	MDFN_COLD;
	~PCE_PSG() MDFN_COLD;

	void Power(const int32 timestamp) MDFN_COLD;
	void Write(int32 timestamp, uint8 A, uint8 V);

	void SetVolume(double new_volume);

	void Update(int32 timestamp);
	void ResetTS(int32 ts_base = 0);

	// TODO: timestamp
	uint32 GetRegister(const unsigned int id, char *special, const uint32 special_len);
	void SetRegister(const unsigned int id, const uint32 value);

	void PeekWave(const unsigned int ch, uint32 Address, uint32 Length, uint8 *Buffer);
	void PokeWave(const unsigned int ch, uint32 Address, uint32 Length, const uint8 *Buffer);

  private:
	void UpdateSubLFO(int32 timestamp);
	void UpdateSubNonLFO(int32 timestamp);

	void RecalcUOFunc(int chnum);
	void UpdateOutputSub(const int32 timestamp, psg_channel *ch, const int32 samp0, const int32 samp1);
	void UpdateOutput_Off(const int32 timestamp, psg_channel *ch);
	void UpdateOutput_Accum_HuC6280(const int32 timestamp, psg_channel *ch);
	void UpdateOutput_Accum_HuC6280A(const int32 timestamp, psg_channel *ch);
	void UpdateOutput_Norm(const int32 timestamp, psg_channel *ch);
	void UpdateOutput_Noise(const int32 timestamp, psg_channel *ch);
	void (PCE_PSG::*UpdateOutput_Accum)(const int32 timestamp, psg_channel *ch);

	int32 GetVL(const int chnum, const int lr);

	void RecalcFreqCache(int chnum);
	void RecalcNoiseFreqCache(int chnum);
	void RunChannel(int chc, int32 timestamp, bool LFO_On);

	uint8 select;		 /* Selected channel (0-5) */
	uint8 globalbalance; /* Global sound balance */
	uint8 lfofreq;		 /* LFO frequency */
	uint8 lfoctrl;		 /* LFO control */

	int32 vol_update_counter;
	int32 vol_update_which;
	int32 vol_update_vllatch;
	bool vol_pending;

	psg_channel channel[6];

	int32 lastts;
	int revision;

	int32 *HRBufs[2];

	int32 dbtable_volonly[32];

	int32 dbtable[32][32];
};

#endif