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program.c
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#include "program.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
struct tree_node {
char *name;
struct tree_node *left;
struct tree_node *right;
unsigned int idx;
};
struct tree_node *new_tree_node(char *name) {
struct tree_node *res = malloc(sizeof(struct tree_node));
res->name = name;
res->left = NULL;
res->right = NULL;
res->idx = 0;
return res;
}
void free_tree(struct tree_node *root) {
if (root->left) free_tree(root->left);
if (root->right) free_tree(root->right);
free(root);
}
// void print_tree(struct tree_node *head, unsigned int depth) {
// if (!head) return;
// // printf(" tree_node \"%s\"[%d] < %p > %p\n", head->name, head->idx,
// // head->left,
// // head->right);
// for (unsigned int i = 0; i < depth; ++i) {
// printf("\t");
// }
// printf("%s[%d]\n", head->name, head->idx);
// print_tree(head->right, depth + 1);
// print_tree(head->left, depth + 1);
// }
void tree_add(struct tree_node *head, char *new_name) {
int cmp = strcmp(head->name, new_name);
if (!cmp) return;
struct tree_node **child = cmp < 0 ? &head->left : &head->right;
if (!*child) {
*child = new_tree_node(new_name);
} else {
tree_add(*child, new_name);
}
}
void tree_idxify_r(struct tree_node *head, unsigned int *idx) {
if (!head) return;
head->idx = (*idx)++;
tree_idxify_r(head->left, idx);
tree_idxify_r(head->right, idx);
}
unsigned int tree_idxify(struct tree_node *head) {
unsigned int idx = 0;
tree_idxify_r(head, &idx);
return idx;
}
void fill_symbol_arr_from_tree(struct tree_node *head, char *arr) {
if (!head) return;
arr[head->idx] = *head->name;
fill_symbol_arr_from_tree(head->left, arr);
fill_symbol_arr_from_tree(head->right, arr);
}
void fill_state_arr_names_from_tree(struct tree_node *head, state_t *arr) {
if (!head) return;
if (!arr[head->idx].name) {
size_t name_len = strlen(head->name);
arr[head->idx].name = malloc(name_len + 1);
strcpy(arr[head->idx].name, head->name);
arr[head->idx].is_halt = !strncmp("halt", head->name, 4);
}
fill_state_arr_names_from_tree(head->left, arr);
fill_state_arr_names_from_tree(head->right, arr);
}
unsigned int symbol_idx_in_tree(struct tree_node *tree, char find_me) {
if (!tree) return -1;
if (*tree->name == find_me) return tree->idx;
return symbol_idx_in_tree(*tree->name < find_me ? tree->left : tree->right,
find_me);
}
unsigned int state_name_idx_in_tree(struct tree_node *tree, char *find_me) {
if (!tree) return -1;
int cmp = strcmp(tree->name, find_me);
if (!cmp) return tree->idx;
return state_name_idx_in_tree(cmp < 0 ? tree->left : tree->right, find_me);
}
void populate_transitions(state_t *arr, unsigned int *symbol_rlookup,
struct tree_node *state_name_tree,
rule_node *rule_head) {
rule_node *curr_rule_node = rule_head;
rule_str_t *curr_rule;
while (curr_rule_node) {
curr_rule = &curr_rule_node->rule;
unsigned int from_state_idx =
state_name_idx_in_tree(state_name_tree, curr_rule->from_state);
unsigned int from_symbol_idx = symbol_rlookup[*curr_rule->from_symbol];
transition_t *transition =
&arr[from_state_idx].transitions[from_symbol_idx];
unsigned int to_state_idx =
state_name_idx_in_tree(state_name_tree, curr_rule->to_state);
unsigned int to_symbol_idx = symbol_rlookup[*curr_rule->to_symbol];
transition->to_symbol = to_symbol_idx;
transition->to_state = to_state_idx;
transition->direction = curr_rule->direction;
transition->valid = 1;
curr_rule_node = curr_rule_node->next;
}
}
char max_symbol_in_tree(struct tree_node *tree) {
return tree->left ? max_symbol_in_tree(tree->left) : *tree->name;
}
program_t make_program(rule_node *rule_head) {
struct tree_node *state_head = new_tree_node("*");
struct tree_node *symbol_head = new_tree_node("*");
tree_add(symbol_head, "_");
rule_node *curr_rule_node = rule_head;
while (curr_rule_node) {
tree_add(state_head, curr_rule_node->rule.from_state);
tree_add(state_head, curr_rule_node->rule.to_state);
tree_add(symbol_head, curr_rule_node->rule.from_symbol);
tree_add(symbol_head, curr_rule_node->rule.to_symbol);
curr_rule_node = curr_rule_node->next;
}
unsigned int num_states = tree_idxify(state_head);
unsigned int num_symbols = tree_idxify(symbol_head);
// print_tree(symbol_head, 0);
char *symbols = malloc(num_symbols);
fill_symbol_arr_from_tree(symbol_head, symbols);
unsigned int *symbol_rlookup =
calloc(1 + max_symbol_in_tree(symbol_head), sizeof(unsigned int));
for (unsigned int i = 0; i < num_symbols; ++i) {
symbol_rlookup[symbols[i]] = symbol_idx_in_tree(symbol_head, symbols[i]);
}
state_t *states = malloc(num_states * sizeof(state_t));
for (unsigned int i = 0; i < num_states; ++i) {
states[i].name = NULL;
states[i].transitions = malloc(num_symbols * sizeof(transition_t));
for (unsigned int j = 0; j < num_symbols; ++j) {
states[i].transitions[j].valid = 0;
}
}
fill_state_arr_names_from_tree(state_head, states);
populate_transitions(states, symbol_rlookup, state_head, rule_head);
free_tree(symbol_head);
free_tree(state_head);
unsigned int blank_symbol = symbol_rlookup['_'];
program_t res = {states, num_states, symbols,
num_symbols, symbol_rlookup, blank_symbol};
return res;
}
void free_program(program_t *program) {
for (unsigned int i = 0; i < program->num_states; ++i) {
free(program->states[i].transitions);
free(program->states[i].name);
}
free(program->states);
free(program->symbols);
free(program->symbol_idx_lookup);
}