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Initial stab at implementing address error exceptions. Need to fill in the value of IR, undefined bits of last stack frame word and properly deal with address errors that occur during exception processing.
author Michael Pavone <pavone@retrodev.com>
date Tue, 26 Apr 2016 23:13:37 -0700
parents 724bbec47f86
children 110251ea369e
line wrap: on
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/*
 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 "tern.h"
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "util.h"

tern_node * tern_insert(tern_node * head, char * key, tern_val value)
{
	tern_node ** cur = &head;
	while(*key)
	{
		if (*cur) {
			while(*cur && (*cur)->el != *key)
			{
				if (*key < (*cur)->el) {
					cur = &(*cur)->left;
				} else {
					cur = &(*cur)->right;
				}
			}
		}
		if (!*cur) {
			*cur = malloc(sizeof(tern_node));
			(*cur)->left = NULL;
			(*cur)->right = NULL;
			(*cur)->straight.next = NULL;
			(*cur)->el = *key;
		}
		cur = &((*cur)->straight.next);
		key++;
	}
	while(*cur && (*cur)->el)
	{
		cur = &(*cur)->left;
	}
	if (!*cur) {
		*cur = malloc(sizeof(tern_node));
		(*cur)->left = NULL;
		(*cur)->right = NULL;
		(*cur)->el = 0;
	}
	(*cur)->straight.value = value;
	return head;
}

int tern_find(tern_node * head, char * key, tern_val *ret)
{
	tern_node * cur = head;
	while (cur)
	{
		if (cur->el == *key) {
			if (*key) {
				cur = cur->straight.next;
				key++;
			} else {
				*ret = cur->straight.value;
				return 1;
			}
		} else if (*key < cur->el) {
			cur = cur->left;
		} else {
			cur = cur->right;
		}
	}
	return 0;
}

tern_node * tern_find_prefix(tern_node * head, char * key)
{
	tern_node * cur = head;
	while (cur && *key)
	{
		if (cur->el == *key) {
			cur = cur->straight.next;
			key++;
		} else if (*key < cur->el) {
			cur = cur->left;
		} else {
			cur = cur->right;
		}
	}
	return cur;
}

intptr_t tern_find_int(tern_node * head, char * key, intptr_t def)
{
	tern_val ret;
	if (tern_find(head, key, &ret)) {
		return ret.intval;
	}
	return def;
}

tern_node * tern_insert_int(tern_node * head, char * key, intptr_t value)
{
	tern_val val;
	val.intval = value;
	return tern_insert(head, key, val);
}

void * tern_find_ptr_default(tern_node * head, char * key, void * def)
{
	tern_val ret;
	if (tern_find(head, key, &ret)) {
		if (ret.intval & 1) {
			return (void *)(ret.intval & ~1);
		} else {
			return ret.ptrval;
		}
	}
	return def;
}

void * tern_find_ptr(tern_node * head, char * key)
{
	return tern_find_ptr_default(head, key, NULL);
}

tern_val tern_find_path_default(tern_node *head, char *key, tern_val def)
{
	tern_val ret;
	while (*key)
	{
		if (!tern_find(head, key, &ret)) {
			return def;
		}
		key = key + strlen(key) + 1;
		if (*key) {
			head = tern_get_node(ret);
			if (!head) {
				return def;
			}
		}
	}
	return ret;
}

tern_val tern_find_path(tern_node *head, char *key)
{
	tern_val def;
	def.ptrval = NULL;
	return tern_find_path_default(head, key, def);
}

tern_node * tern_insert_ptr(tern_node * head, char * key, void * value)
{
	tern_val val;
	val.ptrval = value;
	return tern_insert(head, key, val);
}

tern_node * tern_insert_node(tern_node *head, char *key, tern_node *value)
{
	tern_val val;
	val.intval = ((intptr_t)value) | 1;
	return tern_insert(head, key, val);
}

uint32_t tern_count(tern_node *head)
{
	uint32_t count = 0;
	if (head->left) {
		count += tern_count(head->left);
	}
	if (head->right) {
		count += tern_count(head->right);
	}
	if (!head->el) {
		count++;
	} else if (head->straight.next) {
		count += tern_count(head->straight.next);
	}
	return count;
}

#define MAX_ITER_KEY 127
void tern_foreach_int(tern_node *head, iter_fun fun, void *data, char *keybuf, int pos)
{
	if (!head->el) {
		keybuf[pos] = 0;
		fun(keybuf, head->straight.value, data);
	}
	if (head->left) {
		tern_foreach_int(head->left, fun, data, keybuf, pos);
	}
	if (head->el) {
		if (pos == MAX_ITER_KEY) {
			fatal_error("tern_foreach_int: exceeded maximum key size");
		}
		keybuf[pos] = head->el;
		tern_foreach_int(head->straight.next, fun, data, keybuf, pos+1);
	}
	if (head->right) {
		tern_foreach_int(head->right, fun, data, keybuf, pos);
	}
}

void tern_foreach(tern_node *head, iter_fun fun, void *data)
{
	//lame, but good enough for my purposes
	char key[MAX_ITER_KEY+1];
	tern_foreach_int(head, fun, data, key, 0);
}

char * tern_int_key(uint32_t key, char * buf)
{
	char * cur = buf;
	while (key)
	{
		*(cur++) = (key & 0x7F) + 1;
		key >>= 7;
	}
	*cur = 0;
	return buf;
}

tern_node * tern_get_node(tern_val value)
{
	return value.intval & 1 ? (tern_node *)(value.intval & ~1) : NULL;
}