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path: root/src/mame/audio/trackfld.c
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#include "driver.h"
#include "sound/vlm5030.h"
#include "sound/sn76496.h"
#include "includes/trackfld.h"


#define TIMER_RATE (4096/4)


/* The timer port on TnF and HyperSports sound hardware is derived from
   a 14.318 MHz clock crystal which is passed  through a couple of 74ls393
    ripple counters.
    Various outputs of the ripper counters clock the various chips.
    The Z80 uses 14.318 MHz / 4 (3.4MHz)
    The SN chip uses 14.318 MHz / 8 (1.7MHz)
    And the timer is connected to 14.318 MHz / 4096
    As we are using the Z80 clockrate as a base value we need to multiply
    the no of cycles by 4 to undo the 14.318/4 operation
*/

READ8_HANDLER( trackfld_sh_timer_r )
{
	UINT32 clock = cpu_get_total_cycles(space->cpu) / TIMER_RATE;

	return clock & 0xF;
}

READ8_DEVICE_HANDLER( trackfld_speech_r )
{
	return vlm5030_bsy(device) ? 0x10 : 0;
}

WRITE8_DEVICE_HANDLER( trackfld_sound_w )
{
	trackfld_state *state = (trackfld_state *)device->machine->driver_data;
	int changes = offset ^ state->last_addr;

	/* A7 = data enable for VLM5030 (don't care )          */
	/* A8 = STA pin (1->0 data data  , 0->1 start speech   */
	/* A9 = RST pin 1=reset                                */

	/* A8 VLM5030 ST pin */
	if (changes & 0x100)
		vlm5030_st(device, offset & 0x100);

	/* A9 VLM5030 RST pin */
	if (changes & 0x200)
		vlm5030_rst(device, offset & 0x200);

	state->last_addr = offset;
}

READ8_HANDLER( hyperspt_sh_timer_r )
{
	trackfld_state *state = (trackfld_state *)space->machine->driver_data;
	UINT32 clock = cpu_get_total_cycles(space->cpu) / TIMER_RATE;

	if (state->vlm != NULL)
		return (clock & 0x3) | (vlm5030_bsy(state->vlm) ? 0x04 : 0);
	else
		return (clock & 0x3);
}

WRITE8_DEVICE_HANDLER( hyperspt_sound_w )
{
	trackfld_state *state = (trackfld_state *)device->machine->driver_data;
	int changes = offset ^ state->last_addr;

	/* A3 = data enable for VLM5030 (don't care )          */
	/* A4 = STA pin (1->0 data data  , 0->1 start speech   */
	/* A5 = RST pin 1=reset                                */
	/* A6 = VLM5030    output disable (don't care ) */
	/* A7 = kONAMI DAC output disable (don't care ) */
	/* A8 = SN76489    output disable (don't care ) */

	/* A4 VLM5030 ST pin */
	if (changes & 0x10)
		vlm5030_st(device, offset & 0x10);

	/* A5 VLM5030 RST pin */
	if( changes & 0x20 )
		vlm5030_rst(device, offset & 0x20);

	state->last_addr = offset;
}



WRITE8_HANDLER( konami_sh_irqtrigger_w )
{
	trackfld_state *state = (trackfld_state *)space->machine->driver_data;
	if (state->last_irq == 0 && data)
	{
		/* setting bit 0 low then high triggers IRQ on the sound CPU */
		cpu_set_input_line_and_vector(state->audiocpu, 0, HOLD_LINE, 0xff);
	}

	state->last_irq = data;
}


WRITE8_HANDLER( konami_SN76496_latch_w )
{
	trackfld_state *state = (trackfld_state *)space->machine->driver_data;
	state->SN76496_latch = data;
}


WRITE8_DEVICE_HANDLER( konami_SN76496_w )
{
	trackfld_state *state = (trackfld_state *)device->machine->driver_data;
	sn76496_w(device, offset, state->SN76496_latch);
}