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Fix bug in vdp_next_hint that was causing HINTs to fire repeatedly when they should not have fired at all based on an HINT interval that was larger than the number of active lines in the display
author Michael Pavone <pavone@retrodev.com>
date Fri, 22 May 2015 18:38:44 -0700
parents fc04781f4d28
children 329ff62ea391
line wrap: on
line source

/*
 Copyright 2013 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 "backend.h"
#include <stdlib.h>

deferred_addr * defer_address(deferred_addr * old_head, uint32_t address, uint8_t *dest)
{
	deferred_addr * new_head = malloc(sizeof(deferred_addr));
	new_head->next = old_head;
	new_head->address = address & 0xFFFFFF;
	new_head->dest = dest;
	return new_head;
}

void remove_deferred_until(deferred_addr **head_ptr, deferred_addr * remove_to)
{
	for(deferred_addr *cur = *head_ptr; cur && cur != remove_to; cur = *head_ptr)
	{
		*head_ptr = cur->next;
		free(cur);
	}
}

void process_deferred(deferred_addr ** head_ptr, void * context, native_addr_func get_native)
{
	deferred_addr * cur = *head_ptr;
	deferred_addr **last_next = head_ptr;
	while(cur)
	{
		code_ptr native = get_native(context, cur->address);//get_native_address(opts->native_code_map, cur->address);
		if (native) {
			int32_t disp = native - (cur->dest + 4);
			code_ptr out = cur->dest;
			*(out++) = disp;
			disp >>= 8;
			*(out++) = disp;
			disp >>= 8;
			*(out++) = disp;
			disp >>= 8;
			*out = disp;
			*last_next = cur->next;
			free(cur);
			cur = *last_next;
		} else {
			last_next = &(cur->next);
			cur = cur->next;
		}
	}
}

void * get_native_pointer(uint32_t address, void ** mem_pointers, cpu_options * opts)
{
	memmap_chunk const * memmap = opts->memmap;
	address &= opts->address_mask;
	for (uint32_t chunk = 0; chunk < opts->memmap_chunks; chunk++)
	{
		if (address >= memmap[chunk].start && address < memmap[chunk].end) {
			if (!(memmap[chunk].flags & MMAP_READ)) {
				return NULL;
			}
			uint8_t * base = memmap[chunk].flags & MMAP_PTR_IDX
				? mem_pointers[memmap[chunk].ptr_index]
				: memmap[chunk].buffer;
			if (!base) {
				return NULL;
			}
			return base + (address & memmap[chunk].mask);
		}
	}
	return NULL;
}

uint32_t chunk_size(cpu_options *opts, memmap_chunk const *chunk)
{
	if (chunk->mask == opts->address_mask) {
		return chunk->end - chunk->start;
	} else {
		return chunk->mask + 1;
	}
}

uint32_t ram_size(cpu_options *opts)
{
	uint32_t size = 0;
	for (int i = 0; i < opts->memmap_chunks; i++)
	{
		if ((opts->memmap[i].flags & (MMAP_WRITE | MMAP_CODE)) == (MMAP_WRITE | MMAP_CODE)) {
			if (opts->memmap[i].mask == opts->address_mask) {
				size += opts->memmap[i].end - opts->memmap[i].start;
			} else {
				size += opts->memmap[i].mask + 1;
			}
		}
	}
	return size;
}