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#include "emu.h"
#include "cpu/z80/z80.h"
#include "cpu/mcs48/mcs48.h"
#include "sound/ay8910.h"
#include "sound/discrete.h"

#include "includes/mario.h"

/****************************************************************
 *
 * Defines and Macros
 *
 ****************************************************************/

/* FIXME: Capacitor aging - only in for calibration now        */
/* Adjustments are needed to bring this close to recordings    */

#define RUN_VCO_VOLTAGE		(0.0)	/* 5 in schematics */

#define USE_8039	(0)			/* set to 1 to try 8039 hack */

#define ACTIVELOW_PORT_BIT(P,A,D)   ((P & (~(1 << A))) | ((D ^ 1) << A))
#define ACTIVEHIGH_PORT_BIT(P,A,D)   ((P & (~(1 << A))) | (D << A))

#define I8035_T_R(M,N) ((soundlatch2_byte_r(M,0) >> (N)) & 1)
#define I8035_T_W_AH(M,N,D) do { m_portT = ACTIVEHIGH_PORT_BIT(m_portT,N,D); soundlatch2_byte_w(M, 0, m_portT); } while (0)

#define I8035_P1_R(M) (soundlatch3_byte_r(M,0))
#define I8035_P2_R(M) (soundlatch4_byte_r(M,0))
#define I8035_P1_W(M,D) soundlatch3_byte_w(M,0,D)

#if (USE_8039)
#define I8035_P2_W(M,D) do { state->soundlatch4_byte_w(M,0,D); } while (0)
#else
#define I8035_P2_W(M,D) do { set_ea(M, ((D) & 0x20) ? 0 : 1);  state->soundlatch4_byte_w(M,0,D); } while (0)
#endif

#define I8035_P1_W_AH(M,B,D) I8035_P1_W(M,ACTIVEHIGH_PORT_BIT(I8035_P1_R(M),B,(D)))
#define I8035_P2_W_AH(M,B,D) I8035_P2_W(M,ACTIVEHIGH_PORT_BIT(I8035_P2_R(M),B,(D)))

/****************************************************************
 *
 * Discrete Sound defines
 *
 ****************************************************************/

/* Discrete sound inputs */

#define DS_SOUND0_INV		NODE_01
#define DS_SOUND1_INV		NODE_02
#define DS_SOUND7_INV		NODE_05
#define DS_DAC				NODE_07

#define DS_SOUND0			NODE_208
#define DS_SOUND1			NODE_209
#define DS_SOUND7			NODE_212

#define DS_OUT_SOUND0		NODE_241
#define DS_OUT_SOUND1		NODE_242
#define DS_OUT_SOUND7		NODE_248
#define DS_OUT_DAC			NODE_250

/* Input definitions for write handlers */

#define DS_SOUND0_INP		DS_SOUND0_INV
#define DS_SOUND1_INP		DS_SOUND1_INV
#define DS_SOUND7_INP		DS_SOUND7_INV

/* General defines */

#define VSS					5.0
#define TTL_HIGH			4.0
#define GND					0.0

/****************************************************************
 *
 * Mario Discrete Sound Interface
 *
 * Parts verified against a real TMA1-04-CPU Board.
 ****************************************************************/

#define MR_R6		RES_K(4.7)		/* verified                             */
#define MR_R7		RES_K(4.7)		/* verified                             */
#define MR_R17		RES_K(27)		/* 20 according to parts list           */
									/* 27 verified, 30K in schematics       */
#define MR_R18		RES_K(27)		/* 20 according to parts list           */
									/* 27 verified, 30K in schematics       */
#define MR_R19		RES_K(22)		/* verified                             */
#define MR_R20		RES_K(22)		/* verified                             */
#define MR_R34		RES_M(2)		/*                             */
#define MR_R35		RES_M(1)		/*                             */
#define MR_R36		RES_M(1.8)		/*                             */
#define MR_R40		RES_K(22)		/* verified                             */
#define MR_R41		RES_K(100)		/* verified                             */
#define MR_R42		RES_K(43)		/* verified                             */
#define MR_R43		RES_K(100)		/* verified                             */
#define MR_R61		RES_K(47)		/* verified                             */
#define MR_R64		RES_K(20)		/* verified                             */
#define MR_R65		RES_K(10)		/* verified                             */

#define MR_C3		CAP_U(10)		/* verified                             */
#define MR_C4		CAP_U(4.7)		/* verified                             */
#define MR_C5		CAP_N(39)		/* verified                             */
#define MR_C6		CAP_N(3.9)		/* verified                             */
#define MR_C14		CAP_U(4.7)		/* verified                             */
#define MR_C15		CAP_U(4.7)		/* verified                             */
#define MR_C16		CAP_N(6.8)		/* verified                             */
#define MR_C17		CAP_N(22)		/* verified                             */
#define MR_C30		CAP_P(100)		/* verified                             */
#define MR_C31		CAP_U(0.022)	/* verified                             */
#define MR_C32		CAP_U(1)		/* verified                             */
#define MR_C39		CAP_N(4.7)		/* verified                             */
#define MR_C40		CAP_N(22)		/* verified                             */
#define MR_C41		CAP_U(4.7)		/* verified                             */
#define MR_C43		CAP_U(3.3)		/* verified                             */
#define MR_C44		CAP_U(3.3)		/* verified                             */

#define MR_MIXER_RPAR  RES_4_PARALLEL(MR_R20, MR_R19, MR_R41, MR_R40)


/* KT = 0.25 for diode circuit, 0.33 else */

#define DISCRETE_LS123(_N, _T, _R, _C) \
	DISCRETE_ONESHOTR(_N, 0, _T, 1, (0.25 * (_R) * (_C) * (1.0+700./(_R))), DISC_ONESHOT_RETRIG | DISC_ONESHOT_REDGE)
#define DISCRETE_LS123_INV(_N, _T, _R, _C) \
	DISCRETE_ONESHOTR(_N, 0, _T, 1, (0.25 * (_R) * (_C) * (1.0+700./(_R))), DISC_ONESHOT_RETRIG | DISC_ONESHOT_REDGE | DISC_OUT_ACTIVE_LOW)


	static const discrete_op_amp_info mario_dac_amp =
{
	DISC_OP_AMP_IS_NORTON,
	MR_R34, MR_R36, 0, MR_R35, 0,		/* r1, r2, r3, r4, c */
	0, 5							/* vN, vP */
};

	static const discrete_mixer_desc mario_mixer =
{
	DISC_MIXER_IS_RESISTOR,
	{MR_R20, MR_R19, MR_R41, MR_R40},
	{0}, {0}, 0, 0, MR_C31, MR_C32, 0, 1	/* r_node{}, c{}, rI, rF, cF, cAmp, vRef, gain*/
};

#define LS629_FREQ_R_IN		RES_K(90)

static DISCRETE_SOUND_START(mario)

	/************************************************
     * Input register mapping for mario
     ************************************************/

	/* DISCRETE_INPUT_DATA */
    DISCRETE_INPUT_NOT(DS_SOUND7_INV)				/* IC 7L, pin 8 */

	/************************************************
     * SOUND0
     ************************************************/

    DISCRETE_TASK_START(1)
    DISCRETE_INPUT_PULSE(DS_SOUND0_INV, 1)			/* IC 4C, pin 15 */
	DISCRETE_LS123(NODE_10,							/* IC 2H, pin 13 */
		DS_SOUND0_INV,								/* IC 2H, pin 2 */
		MR_R17, MR_C14)

/* Breadboarded measurements IC 1J, pin 10
   D.R. Oct 2010
    V       Hz
    0.115   14470
    0.250   15190
    0.500   14980
    0.750   18150
    1.000   21690
    2.000   38790
    3.000   58580
    4.000   79890
*/

/* Breadboarded measurements IC 2J, pin 10
   D.R. Oct 2010
    V       Hz
    0.116   2458
    0.250   2593
    0.500   2540
    0.750   3081
    1.000   3676
    2.000   6590
    3.000   9974
    4.000   13620
*/

	/* covert logic to measured voltage */
	DISCRETE_XTIME_BUFFER(NODE_11,					/* IC 1H, pin 10 */
		NODE_10,									/* IC 1H, pin 11 */
		0.115, 4.0)									/* measured Low/High */
	/* work out cap charge of RC in parallel with 2 74LS629s */
	DISCRETE_RCFILTER(NODE_12, NODE_11, RES_3_PARALLEL(MR_R6, LS629_FREQ_R_IN, LS629_FREQ_R_IN), MR_C3 )
	/* work out voltage drop of RC in parallel with 2 74LS629s */
	DISCRETE_GAIN(NODE_13, NODE_12, RES_VOLTAGE_DIVIDER(MR_R6, RES_2_PARALLEL(LS629_FREQ_R_IN, LS629_FREQ_R_IN)))
	DISCRETE_74LS624(NODE_14,						/* IC 1J, pin 10 */
		1,											/* ENAB */
		NODE_13, 5,									/* VMOD -  IC 1J, pin 1; VRNG */
		MR_C6, 0, 0, 0,								/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)
	DISCRETE_74LS624(NODE_15,						/* IC 2J, pin 10 */
		1,											/* ENAB */
		NODE_13, 5,									/* VMOD - IC 2J, pin 1; VRNG */
		MR_C17, 0, 0, 0,							/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)
	DISCRETE_XTIME_XOR(NODE_16,						/* IC IC 1K, pin 6 */
		NODE_14, NODE_15,							/* IC 1K, pin 5; pin 4 */
		0, 0)										/* use x_time logic */
	DISCRETE_XTIME_AND(DS_OUT_SOUND0,				/* IC 2K, pin 6 */
		NODE_10, NODE_16,							/* IC 2K, pin 5; pin 4 */
		0.066, 3.8)									/* LOW; HIGH (varies due to load 3.7 - 4.4) */
	DISCRETE_TASK_END()

	/************************************************
     * SOUND1
     ************************************************/

	DISCRETE_TASK_START(1)
	DISCRETE_INPUT_PULSE(DS_SOUND1_INV, 1)			/* IC 4C, pin 14 */
	DISCRETE_LS123(NODE_20,							/* IC 2H, pin 5 */
		DS_SOUND1_INV,								/* IC 2H, pin 10 */
		MR_R18, MR_C15)

/* Breadboarded measurements IC 1J, pin 7
   D.R. Oct 2010
    V       Hz
    0.116   1380
    0.250   1448
    0.500   1419
    0.750   1717
    1.000   2053
    2.000   3677
    3.000   5561
    4.000   7610
*/

/* Breadboarded measurements IC 2J, pin 7
   D.R. Oct 2010
    V       Hz
    0.112   8030
    0.250   8490
    0.500   8326
    0.750   10030
    1.000   12000
    2.000   21460
    3.000   32540
    4.000   44300
*/

	/* covert logic to measured voltage */
	DISCRETE_XTIME_BUFFER(NODE_21,					/* IC 1H, pin 8 */
		NODE_20,									/* IC 1H, pin 9 */
		0.115, 4.0)									/* measured Low/High */
	/* work out cap charge of RC in parallel with 2 74LS629s */
	DISCRETE_RCFILTER(NODE_22, NODE_21, RES_3_PARALLEL(MR_R7, LS629_FREQ_R_IN, LS629_FREQ_R_IN), MR_C4 )
	/* work out voltage drop of RC in parallel with 2 74LS629s */
	DISCRETE_GAIN(NODE_23, NODE_22, RES_VOLTAGE_DIVIDER(MR_R7, RES_2_PARALLEL(LS629_FREQ_R_IN, LS629_FREQ_R_IN)))
	DISCRETE_74LS624(NODE_24,						/* IC 1J, pin 7 */
		1,											/* ENAB */
		NODE_23, 5,									/* VMOD, VRNG */
		MR_C5, 0, 0, 0,								/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)
	DISCRETE_74LS624(NODE_25,						/* IC 2J, pin 7 */
		1,											/* ENAB */
		NODE_23, 5,									/* VMOD, VRNG */
		MR_C16, 0, 0, 0,							/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)
	DISCRETE_XTIME_XOR(NODE_26,						/* IC IC 1K, pin 3 */
		NODE_24, NODE_25,							/* IC 1K, pin 1; pin 2 */
		0, 0)										/* use x_time logic */
	DISCRETE_XTIME_AND(DS_OUT_SOUND1,				/* IC 2K, pin 3 */
		NODE_20, NODE_26,							/* IC 2K, pin 2; pin 1 */
		0.066, 3.8)									/* LOW; HIGH (varies due to load 3.7 - 4.4) */
	DISCRETE_TASK_END()

	/************************************************
     * SOUND7
     ************************************************/

	DISCRETE_TASK_START(1)
	DISCRETE_COUNTER(NODE_100,						/* IC 3H */
		1, 0,										/* ENAB; RESET */
		NODE_118,									/* CLK - IC 3H, pin 10 */
		0, 0x3FFF, DISC_COUNT_UP, 0, DISC_CLK_BY_COUNT | DISC_OUT_HAS_XTIME)
	DISCRETE_BIT_DECODE(NODE_102,					/* IC 3H, pin 7 */
		NODE_100,  3, 0)							/* output x_time logic */
	DISCRETE_BIT_DECODE(NODE_104,					/* IC 3H, pin 1 */
		NODE_100,  11, 0)							/* output x_time logic */

	DISCRETE_LS123(NODE_110,						/* IC 4L, pin 13 */
		DS_SOUND7_INV,								/* IC 4L, pin 2 */
		MR_R61, MR_C41)
	DISCRETE_XTIME_INVERTER(NODE_111,				/* IC 4J, pin 8 */
		NODE_110,									/* IC 4J, pin 9 */
		0.151, 4.14)								/* measured Low/High */

/* Breadboarded measurements IC 4K, pin 10
   D.R. Oct 2010
    V       Hz
    0.151   3139
    0.25    2883
    0.5     2820
    0.75    3336
    1       3805
    2       6498
    3       9796
    4       13440
    4.14    13980
*/

	DISCRETE_74LS624(NODE_113,						/* IC 4K, pin 10 */
		1,											/* ENAB */
		NODE_111, 5,								/* VMOD - IC 4K, pin 1; VRNG */
		MR_C40, MR_R65, MR_C44, 0,					/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)

	DISCRETE_XTIME_XOR(NODE_115,					/* IC 6N, pin 3 */
		NODE_113, NODE_102,							/* IC 6N, pin 1; pin 2 */
		0, 0)										/* use x_time logic */

/* Breadboarded measurements IC 4K, pin 7
   D.R. Oct 2010
    V       Hz
    0.135   14450
    0.25    13320
    0.5     12980
    0.75    15150
    1       17270
    2       28230
    3       41910
    4       56950
    4.15    59400
*/

	DISCRETE_XTIME_INVERTER(NODE_117,				/* IC 4J, pin 4 */
		NODE_104,									/* IC 4J, pin 3 */
		0.135, 4.15)								/* measured Low/High */
	DISCRETE_74LS624(NODE_118,						/* IC 4K, pin 7 */
		1,											/* ENAB */
		NODE_117, 5,								/* VMOD - IC 4K, pin 2; VRNG */
		MR_C39, MR_R64, MR_C43, 0,					/* C; R_FREQ_IN; C_FREQ_IN; R_RNG_IN */
		DISC_LS624_OUT_LOGIC_X)

	DISCRETE_XTIME_AND(DS_OUT_SOUND7,				/* IC 2K, pin 11 */
		NODE_110, NODE_115,							/* IC 2K, pin 12; pin 13 */
		0.066, 4.07)								/* LOW; HIGH (varies due to load 4.07 is lowest) */
	DISCRETE_TASK_END()

	/************************************************
     * DAC
     ************************************************/

	/* following the resistor DAC are two opamps. The first is a 1:1 amplifier, the second
     * is a filter circuit. Simulation in LTSPICE shows, that the following is equivalent:
     */

	DISCRETE_TASK_START(1)
	DISCRETE_INPUT_BUFFER(DS_DAC, 0)
	DISCRETE_MULTIPLY(NODE_170, DS_DAC, TTL_HIGH / 256.0)		/* MXR1 */
	/* this stage reduces the gain of the DAC by 50%, so yes the volume is much lower then the walk sound */
	DISCRETE_OP_AMP(NODE_171,									/* IC 3M, pin 5 */
		1,														/* ENAB */
		NODE_170, 5,											/* IN0 - IC 3M, pin 6; IN1 - IC 3M, pin 1 */
		&mario_dac_amp)
	/* This provides a close simulation of the IC 3M, pin 10 filter circuit */
	/* The Measured and SPICEd low freq gain is 1, it then has a high frequency
     * drop close to the following RC filter. */
	DISCRETE_RCFILTER_VREF(DS_OUT_DAC, NODE_171, RES_K(750), CAP_P(180), 2.5)
	DISCRETE_TASK_END()


	/************************************************
     * MIXER
     ************************************************/

	DISCRETE_TASK_START(2)
	DISCRETE_MIXER4(NODE_297,
		1,															/* ENAB */
		DS_OUT_SOUND0, DS_OUT_SOUND1, DS_OUT_SOUND7, DS_OUT_DAC,
		&mario_mixer)
	/* approx -0.625V to 0.980V when playing, but turn on sound peaks at 2.38V */
	/* we will set the full wav range to 1.19V which will cause clipping on the turn on
     * sound.  The real game would do this when the volume is turned up too.
     * Reducing MAME's master volume to 50% will provide full unclipped volume.
     */
	DISCRETE_OUTPUT(NODE_297, 32767.0/1.19)
	DISCRETE_TASK_END()

DISCRETE_SOUND_END

/****************************************************************
 *
 * EA / Banking
 *
 ****************************************************************/

static void set_ea(address_space &space, int ea)
{
	mario_state	*state = space.machine().driver_data<mario_state>();
	//printf("ea: %d\n", ea);
	//cputag_set_input_line(machine, "audiocpu", MCS48_INPUT_EA, (ea) ? ASSERT_LINE : CLEAR_LINE);
	if (state->m_eabank != NULL)
		state->membank(state->m_eabank)->set_entry(ea);
}

/****************************************************************
 *
 * Initialization
 *
 ****************************************************************/

static SOUND_START( mario )
{
	mario_state	*state = machine.driver_data<mario_state>();
	device_t *audiocpu = machine.device("audiocpu");
#if USE_8039
	UINT8 *SND = state->memregion("audiocpu")->base();

	SND[0x1001] = 0x01;
#endif

	state->m_eabank = NULL;
	if (audiocpu != NULL && audiocpu->type() != Z80)
	{
		state->m_eabank = "bank1";
		audiocpu->memory().space(AS_PROGRAM)->install_read_bank(0x000, 0x7ff, "bank1");
		state->membank("bank1")->configure_entry(0, state->memregion("audiocpu")->base());
	    state->membank("bank1")->configure_entry(1, state->memregion("audiocpu")->base() + 0x1000);
	}

    state->save_item(NAME(state->m_last));
	state->save_item(NAME(state->m_portT));
}

static SOUND_RESET( mario )
{
	mario_state	*state = machine.driver_data<mario_state>();
	address_space *space = machine.device("audiocpu")->memory().space(AS_PROGRAM);

#if USE_8039
    set_ea(machine, 1);
#endif

    /* FIXME: convert to latch8 */
	state->soundlatch_clear_byte_w(*space, 0, 0);
	state->soundlatch2_clear_byte_w(*space, 0, 0);
	state->soundlatch3_clear_byte_w(*space, 0, 0);
	state->soundlatch4_clear_byte_w(*space, 0, 0);
	state->I8035_P1_W(*space, 0x00); /* Input port */
	I8035_P2_W(*space, 0xff); /* Port is in high impedance state after reset */

	state->m_last = 0;
}

/****************************************************************
 *
 * I/O Handlers - static
 *
 ****************************************************************/

READ8_MEMBER(mario_state::mario_sh_p1_r)
{
	return I8035_P1_R(space);
}

READ8_MEMBER(mario_state::mario_sh_p2_r)
{
	return I8035_P2_R(space) & 0xEF; /* Bit 4 connected to GND! */
}

READ8_MEMBER(mario_state::mario_sh_t0_r)
{
	return I8035_T_R(space, 0);
}

READ8_MEMBER(mario_state::mario_sh_t1_r)
{
	return I8035_T_R(space, 1);
}

READ8_MEMBER(mario_state::mario_sh_tune_r)
{
	UINT8 *SND = memregion("audiocpu")->base();
	UINT16 mask = memregion("audiocpu")->bytes()-1;
	UINT8 p2 = I8035_P2_R(space);

	if ((p2 >> 7) & 1)
		return soundlatch_byte_r(space, offset);
	else
		return (SND[(0x1000 + (p2 & 0x0f) * 256 + offset) & mask]);
}

static WRITE8_DEVICE_HANDLER( mario_sh_sound_w )
{
	discrete_sound_w(device, DS_DAC, data);
}

WRITE8_MEMBER(mario_state::mario_sh_p1_w)
{
	I8035_P1_W(space, data);
}

WRITE8_MEMBER(mario_state::mario_sh_p2_w)
{
	mario_state	*state = machine().driver_data<mario_state>();
	I8035_P2_W(space, data);
}

/****************************************************************
 *
 * I/O Handlers - global
 *
 ****************************************************************/

WRITE8_MEMBER(mario_state::masao_sh_irqtrigger_w)
{

	if (m_last == 1 && data == 0)
	{
		/* setting bit 0 high then low triggers IRQ on the sound CPU */
		cputag_set_input_line_and_vector(machine(), "audiocpu", 0, HOLD_LINE, 0xff);
	}

	m_last = data;
}

WRITE8_MEMBER(mario_state::mario_sh_tuneselect_w)
{
	soundlatch_byte_w(space, offset, data);
}

/* Sound 0 and 1 are pulsed !*/

/* Mario running sample */
WRITE8_DEVICE_HANDLER( mario_sh1_w )
{
	discrete_sound_w(device, DS_SOUND0_INP, 0);
}

/* Luigi running sample */
WRITE8_DEVICE_HANDLER( mario_sh2_w )
{
	discrete_sound_w(device, DS_SOUND1_INP, 0);
}

/* Misc samples */
WRITE8_MEMBER(mario_state::mario_sh3_w)
{

	switch (offset)
	{
		case 0: /* death */
			if (data)
				cputag_set_input_line(machine(), "audiocpu",0,ASSERT_LINE);
			else
				cputag_set_input_line(machine(), "audiocpu",0,CLEAR_LINE);
			break;
		case 1: /* get coin */
			I8035_T_W_AH(space, 0,data & 1);
			break;
		case 2: /* ice */
			I8035_T_W_AH(space, 1, data & 1);
			break;
		case 3: /* crab */
			I8035_P1_W_AH(space, 0, data & 1);
			break;
		case 4: /* turtle */
			I8035_P1_W_AH(space, 1, data & 1);
			break;
		case 5: /* fly */
			I8035_P1_W_AH(space, 2, data & 1);
			break;
		case 6: /* coin */
			I8035_P1_W_AH(space, 3, data & 1);
			break;
		case 7: /* skid */
			discrete_sound_w(machine().device("discrete"), DS_SOUND7_INP, data & 1);
			break;
	}
}

/*************************************
 *
 *  Sound CPU memory handlers
 *
 *************************************/

static ADDRESS_MAP_START( mario_sound_map, AS_PROGRAM, 8, mario_state )
	AM_RANGE(0x0000, 0x07ff) AM_ROMBANK("bank1") AM_REGION("audiocpu", 0)
	AM_RANGE(0x0800, 0x0fff) AM_ROM
ADDRESS_MAP_END

static ADDRESS_MAP_START( mario_sound_io_map, AS_IO, 8, mario_state )
	AM_RANGE(0x00, 0xff) AM_READ(mario_sh_tune_r) AM_DEVWRITE_LEGACY("discrete", mario_sh_sound_w)
	AM_RANGE(MCS48_PORT_P1, MCS48_PORT_P1) AM_READWRITE(mario_sh_p1_r, mario_sh_p1_w)
	AM_RANGE(MCS48_PORT_P2, MCS48_PORT_P2) AM_READWRITE(mario_sh_p2_r, mario_sh_p2_w)
	AM_RANGE(MCS48_PORT_T0, MCS48_PORT_T0) AM_READ(mario_sh_t0_r)
	AM_RANGE(MCS48_PORT_T1, MCS48_PORT_T1) AM_READ(mario_sh_t1_r)
ADDRESS_MAP_END

static ADDRESS_MAP_START( masao_sound_map, AS_PROGRAM, 8, mario_state )
	AM_RANGE(0x0000, 0x0fff) AM_ROM
	AM_RANGE(0x2000, 0x23ff) AM_RAM
	AM_RANGE(0x4000, 0x4000) AM_DEVREADWRITE_LEGACY("aysnd", ay8910_r, ay8910_data_w)
	AM_RANGE(0x6000, 0x6000) AM_DEVWRITE_LEGACY("aysnd", ay8910_address_w)
ADDRESS_MAP_END

/*************************************
 *
 *  Sound Interfaces
 *
 *************************************/

static const ay8910_interface ay8910_config =
{
	AY8910_LEGACY_OUTPUT,
	AY8910_DEFAULT_LOADS,
	DEVCB_DRIVER_MEMBER(driver_device, soundlatch_byte_r),
	DEVCB_NULL,
	DEVCB_NULL,
	DEVCB_NULL
};


/*************************************
 *
 *  Machine driver
 *
 *************************************/

MACHINE_CONFIG_FRAGMENT( mario_audio )

#if USE_8039
	MCFG_CPU_ADD("audiocpu", I8039, I8035_CLOCK)         /* 730 kHz */
#else
	MCFG_CPU_ADD("audiocpu", M58715, I8035_CLOCK)        /* 730 kHz */
#endif
	MCFG_CPU_PROGRAM_MAP(mario_sound_map)
	MCFG_CPU_IO_MAP(mario_sound_io_map)

	MCFG_SOUND_START(mario)
	MCFG_SOUND_RESET(mario)

	MCFG_SPEAKER_STANDARD_MONO("mono")
	MCFG_SOUND_ADD("discrete", DISCRETE, 0)
	MCFG_SOUND_CONFIG_DISCRETE(mario)
	MCFG_SOUND_ROUTE(ALL_OUTPUTS, "mono", 1)

MACHINE_CONFIG_END

MACHINE_CONFIG_FRAGMENT( masao_audio )

	MCFG_CPU_ADD("audiocpu", Z80, 24576000/16)	/* ???? */
	MCFG_CPU_PROGRAM_MAP(masao_sound_map)

	MCFG_SOUND_START(mario)
	MCFG_SOUND_RESET(mario)

	MCFG_SPEAKER_STANDARD_MONO("mono")

	MCFG_SOUND_ADD("aysnd", AY8910, 14318000/6)
	MCFG_SOUND_CONFIG(ay8910_config)
	MCFG_SOUND_ROUTE(ALL_OUTPUTS, "mono", 0.50)

MACHINE_CONFIG_END