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view test_int_timing.c @ 1374:8f404b1fa572

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Go back to resetting the refresh counter after a DMA. Probably not quite correct as it is probably reset on VDP triggered refresh, but this is close enough for now given the general limitations with my refresh code. VDP FIFO Testing seems to be passing 100% reliably again (was occassionally failing still with the last commit)
author Michael Pavone <pavone@retrodev.com>
date Tue, 23 May 2017 23:47:40 -0700
parents aa6e0914dcd7
children
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/*
 Copyright 2017 Michael Pavone
 This file is part of BlastEm.
 BlastEm is free software distributed under the terms of the GNU General Public License version 3 or greater. See COPYING for full license text.
*/
#include <stdio.h>
#include "vdp.h"

int headless = 1;

uint32_t render_map_color(uint8_t r, uint8_t g, uint8_t b)
{
	return 0;
}

uint16_t read_dma_value(uint32_t address)
{
	return 0;
}

uint32_t *render_get_framebuffer(uint8_t which, int *pitch)
{
	*pitch = 0;
	return NULL;
}

void render_framebuffer_updated(uint8_t which, int width)
{
}

void warning(char *format, ...)
{
}


int main(int argc, char **argv)
{
	vdp_context context;
	int ret = 0;
	init_vdp_context(&context, 0);
	vdp_control_port_write(&context, 0x8000 | BIT_PAL_SEL);
	vdp_control_port_write(&context, 0x8100 | BIT_DISP_EN | BIT_VINT_EN | BIT_MODE_5);
	puts("Testing H32 Mode");
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
	}
	vdp_int_ack(&context);
	uint32_t vint_cycle = vdp_next_vint(&context);
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
		uint32_t vint_cycle2 = vdp_next_vint(&context);
		if (vint_cycle2 != vint_cycle) {
			printf("VINT Cycle changed from %d to %d @ line %d, slot %d\n", vint_cycle, vint_cycle2, context.vcounter, context.hslot);;
			ret = 1;
			vint_cycle = vint_cycle2;
		}
	}
	vdp_int_ack(&context);
	puts("Testing H40 Mode");
	vdp_control_port_write(&context, 0x8C81);
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
	}
	vdp_int_ack(&context);
	vint_cycle = vdp_next_vint(&context);
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
		uint32_t vint_cycle2 = vdp_next_vint(&context);
		if (vint_cycle2 != vint_cycle) {
			printf("VINT Cycle changed from %d to %d @ line %d, slot %d\n", vint_cycle, vint_cycle2, context.vcounter, context.hslot);;
			ret = 1;
			vint_cycle = vint_cycle2;
		}
	}
	vdp_int_ack(&context);
	puts("Testing Mode 4");
	vdp_control_port_write(&context, 0x8C00);
	vdp_control_port_write(&context, 0x8100 | BIT_DISP_EN | BIT_VINT_EN);
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
	}
	context.flags2 &= ~FLAG2_VINT_PENDING;
	vint_cycle = vdp_next_vint(&context);
	while (!(context.flags2 & FLAG2_VINT_PENDING))
	{
		vdp_run_context(&context, context.cycles + 1);
		uint32_t vint_cycle2 = vdp_next_vint(&context);
		if (vint_cycle2 != vint_cycle) {
			printf("VINT Cycle changed from %d to %d @ line %d, slot %d\n", vint_cycle, vint_cycle2, context.vcounter, context.hslot);;
			ret = 1;
			vint_cycle = vint_cycle2;
		}
	}
	printf("Result: %s\n", ret ? "failure" : "success");
	return ret;
}