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- #include <stdio.h>
- #include <stdlib.h>
- #include <ctype.h>
- #include <string.h>
- #include "nodes.h"
- #include "C.tab.h"
- #include "types.h"
- #include "list.h"
- TOKEN* lookup_token(char *s);
- int asprintf(char **strp, const char *fmt, ...);
- /*
- * Existing problems/todo:
- * return from control block, need a "return address" to jump to -- call levels
- * --multiple assignments `int x,y,z = 1`--
- * new block scope for if statements?
- * arguments for functions
- * difference between tilde and semicolon
- * while loops
- * control flow `continue` and `break` linked to return address sort of? call levels
- */
- char *named(int t) {
- static char b[100];
- if (isgraph(t) || t==' ') {
- sprintf(b, "%c", t);
- return b;
- }
- switch (t) {
- default: return "???";
- case IDENTIFIER:
- return "id";
- case CONSTANT:
- return "constant";
- case STRING_LITERAL:
- return "string";
- case LE_OP:
- return "<=";
- case GE_OP:
- return ">=";
- case EQ_OP:
- return "==";
- case NE_OP:
- return "!=";
- case EXTERN:
- return "extern";
- case AUTO:
- return "auto";
- case INT:
- return "int";
- case VOID:
- return "void";
- case APPLY:
- return "apply";
- case LEAF:
- return "leaf";
- case IF:
- return "if";
- case ELSE:
- return "else";
- case WHILE:
- return "while";
- case CONTINUE:
- return "continue";
- case BREAK:
- return "break";
- case RETURN:
- return "return";
- }
- }
- void print_leaf(NODE *tree, int level) {
- TOKEN *t = (TOKEN *)tree;
- int i;
- for (i=0; i<level; i++) putchar(' ');
- if (t->type == CONSTANT) printf("%d\n", t->value);
- else if (t->type == STRING_LITERAL) printf("\"%s\"\n", t->lexeme);
- else if (t) puts(t->lexeme);
- }
- void print_tree0(NODE *tree, int level) {
- int i;
- if (tree==NULL) return;
- if (tree->type==LEAF) {
- print_leaf(tree->left, level);
- }
- else {
- for(i=0; i<level; i++) putchar(' ');
- printf("%s\n", named(tree->type));
- /* if (tree->type=='~') { */
- /* for(i=0; i<level+2; i++) putchar(' '); */
- /* printf("%p\n", tree->left); */
- /* } */
- /* else */
- print_tree0(tree->left, level+2);
- print_tree0(tree->right, level+2);
- }
- }
- // forward declare because it is used in add_var_to_env
- int recursive_interpret(NODE*, ENV*);
- void print_tree(NODE *tree) {
- print_tree0(tree, 0);
- }
- int count_args(NODE *tree) {
- NODE *tmp = tree;
- int a = 1;
- while (tmp != NULL) {
- if (tmp->type != ',') {
- break;
- }
- tmp = tmp->left;
- a++;
- }
- return a;
- }
- void add_args_to_env(NODE *tree, ENV *env_ptr) {
- if (tree->type == '~') {
- BIND* arg;
- TOKEN *tok, *name;
- // we found an argument
- name = (TOKEN*)tree->right->left;
- tok = new_token(INT);
- tok->value = 0;
- asprintf(&tok->lexeme, "%d", tok->value);
- arg = create_binding(name, (NODE*) tok, NULL);
- if (env_ptr->bindings == NULL) {
- env_ptr->bindings = create_list(arg, NULL);
- } else {
- append_list(env_ptr->bindings, arg);
- }
- } else {
- add_args_to_env(tree->left, env_ptr);
- add_args_to_env(tree->right, env_ptr);
- }
- }
- void populate_arg_list(NODE *tree, TOKEN** arr, int arr_len) {
- if (tree->type == '~') {
- for (int i = 0; i < arr_len; i++) {
- if (arr[i] == NULL) {
- TOKEN* name = (TOKEN*)tree->right->left;
- arr[i] = name;
- break;
- }
- }
- } else {
- populate_arg_list(tree->left, arr, arr_len);
- populate_arg_list(tree->right, arr, arr_len);
- }
- }
- TOKEN** get_argument_list(NODE *tree) {
- int num_args = count_args(tree->left->right->right);
- TOKEN** arr = (TOKEN**) malloc(sizeof(TOKEN*) * num_args);
- populate_arg_list(tree->left->right->right, arr, num_args);
- return arr;
- }
- void add_function_to_env(NODE *tree, ENV *env_ptr) {
- BIND* existing;
- NODE* func_name = tree->left->right->left->left;
- TOKEN* name_token = (TOKEN*) func_name;
- if ((existing = find_name_in_env(name_token, env_ptr)) == NULL) {
- ENV* new_func_env = create_new_function_env(env_ptr);
- if (tree->left->right->right != NULL) {
- add_args_to_env(tree->left->right->right, new_func_env);
- }
- if (env_ptr->bindings == NULL) {
- env_ptr->bindings = create_list(create_binding(name_token, tree, new_func_env), NULL);
- } else {
- append_list(env_ptr->bindings, create_binding(name_token, tree, new_func_env));
- }
- } else {
- printf("Error: redefinition of function with name %s\n", name_token->lexeme);
- }
- }
- void populate_val_list(NODE* tree, TOKEN** arr, int num_args) {
- if (tree->type == LEAF) {
- for (int i = 0; i < num_args; i++) {
- if (arr[i] == NULL) {
- TOKEN* tok = (TOKEN*) tree->left;
- arr[i] = tok;
- break;
- }
- }
- } else {
- populate_val_list(tree->left, arr, num_args);
- populate_val_list(tree->right, arr, num_args);
- }
- }
- TOKEN** get_val_list(NODE *tree) {
- int num_args = count_args(tree);
- TOKEN** arr = (TOKEN**) malloc(sizeof(TOKEN*) * num_args);
- populate_val_list(tree, arr, num_args);
- return arr;
- }
- void bind_arg(TOKEN* val, TOKEN* arg_name, ENV *env_ptr) {
- BIND* existing = find_name_in_list(arg_name, env_ptr->bindings);
- if (existing == NULL) {
- printf("Attempted to bind arg that doesn't exist, the compiler is broken\n");
- exit(1);
- }
- existing->tree = (NODE*) val;
- }
- void add_var_to_env(NODE *tree, ENV *env_ptr) {
- BIND* existing;
- NODE* var_name = tree->left->left;
- TOKEN* name_token = (TOKEN*) var_name;
- TOKEN* tok = new_token(CONSTANT);
- tok->value = recursive_interpret(tree->right, env_ptr);
- asprintf(&tok->lexeme, "%d", tok->value);
- if ((existing = find_name_in_env(name_token, env_ptr)) == NULL) {
- if (env_ptr->bindings == NULL) {
- env_ptr->bindings = create_list(create_binding(name_token, (NODE*) tok, NULL), NULL);
- } else {
- append_list(env_ptr->bindings, create_binding(name_token, (NODE*) tok, NULL));
- }
- } else {
- existing->tree = (NODE *) tok;
- }
- }
- int recursive_interpret(NODE *tree, ENV *env_ptr) {
- if (tree==NULL) return 0;
- if (tree->type==LEAF) {
- if (tree->left->type == CONSTANT) {
- return ((TOKEN *) tree->left)->value;
- } else if (tree->left->type == STRING_LITERAL) {
- printf("Not implemented\n");
- exit(1);
- } else if (tree->left->type == INT || tree->left->type == FUNCTION) {
- // do nothing we dont care about types for now
- return 0;
- } else {
- // an identifier
- TOKEN* tok = (TOKEN *) tree->left;
- BIND* var_bind = find_name_in_env(tok, env_ptr);
- if (var_bind == NULL) {
- printf("Could not find variable %s\n", tok->lexeme);
- exit(1);
- }
- if (var_bind->tree->type == CONSTANT) {
- TOKEN* var_tok = (TOKEN *) var_bind->tree;
- return var_tok->value;
- } else {
- printf("Maybe got a function?\n");
- return 0;
- }
- }
- }
- if (tree->type=='D') {
- // this is a function definition
- add_function_to_env(tree, env_ptr);
- return 0;
- }
- if (tree->type=='=') {
- // this is a variable definition
- add_var_to_env(tree, env_ptr);
- return 0;
- }
- if (tree->type==APPLY) {
- TOKEN* func_name = ((TOKEN*) tree->left->left);
- BIND* func = find_name_in_env(func_name, env_ptr);
- if (func == NULL) {
- printf("Could not find binding for function with name %s\n", func_name->lexeme);
- exit(1);
- }
- if (tree->right != NULL) {
- TOKEN **arg_list, **val_list;
- int exp_args, num_args;
- exp_args = count_args(func->tree->left->right->right);
- num_args = count_args(tree->right);
- arg_list = get_argument_list(func->tree);
- val_list = get_val_list(tree->right);
- if (exp_args == num_args) {
- for (int i = 0; i < num_args; i++) {
- bind_arg(val_list[i], arg_list[i], func->env);
- }
- } else {
- printf("Incorrect arguments passed to function %s, expected %d got %d\n", func_name->lexeme, exp_args, num_args);
- exit(1);
- }
- }
- return recursive_interpret(func->tree->right, func->env);
- }
- if (tree->type == IF) {
- if (recursive_interpret(tree->left, env_ptr) == 1) {
- ENV* scope_env = create_new_function_env(env_ptr);
- if (tree->right->type == ELSE) {
- return recursive_interpret(tree->right->left, scope_env);
- } else {
- return recursive_interpret(tree->right, scope_env);
- }
- } else {
- if (tree->right->type == ELSE) {
- ENV* scope_env = create_new_function_env(env_ptr);
- return recursive_interpret(tree->right->right, scope_env);
- }
- return 0;
- }
- }
- if (tree->type == LE_OP) {
- return (int)recursive_interpret(tree->left, env_ptr) <= recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == GE_OP) {
- return (int)recursive_interpret(tree->left, env_ptr) >= recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == EQ_OP) {
- return (int)recursive_interpret(tree->left, env_ptr) == recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == NE_OP) {
- return (int)recursive_interpret(tree->left, env_ptr) != recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '>') {
- return (int)recursive_interpret(tree->left, env_ptr) > recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '<') {
- return (int)recursive_interpret(tree->left, env_ptr) < recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '+') {
- return recursive_interpret(tree->left, env_ptr) + recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '-') {
- return recursive_interpret(tree->left, env_ptr) - recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '*') {
- return recursive_interpret(tree->left, env_ptr) * recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '/') {
- return recursive_interpret(tree->left, env_ptr) / recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '%') {
- return recursive_interpret(tree->left, env_ptr) % recursive_interpret(tree->right, env_ptr);
- }
- if (tree->type == '~') {
- if (tree->left->type == INT || tree->left->type == FUNCTION) {
- return recursive_interpret(tree->right, env_ptr);
- } else {
- recursive_interpret(tree->left, env_ptr);
- return recursive_interpret(tree->right, env_ptr);
- }
- }
- if (tree->type == RETURN) {
- return recursive_interpret(tree->left, env_ptr);
- }
- if (tree->type == WHILE) {
- ENV* scope_env = create_new_function_env(env_ptr);
- while (recursive_interpret(tree->left, env_ptr)) {
- recursive_interpret(tree->right, scope_env);
- }
- return 0;
- }
- recursive_interpret(tree->left, env_ptr);
- return recursive_interpret(tree->right, env_ptr);
- }
- ENV* cons_global_env(NODE *tree) {
- ENV* global = create_new_function_env(NULL);
- recursive_interpret(tree, global);
- return global;
- }
- void interpret_tree(NODE *tree) {
- ENV* global_env = cons_global_env(tree);
- BIND* ref_main = find_name_in_env(lookup_token("main"), global_env);
- if (ref_main == NULL) {
- printf("Could not find main, cannot run!\n");
- exit(1);
- }
- // print ref_main to make sure we really got it
- printf("Located %s, ready to run!\n", ref_main->name->lexeme);
- printf("%d\n", recursive_interpret(ref_main->tree->right, ref_main->env));
- }
- extern int yydebug;
- extern NODE* yyparse(void);
- extern NODE* ans;
- extern void init_symbtable(void);
- int main(int argc, char** argv)
- {
- NODE* tree;
- if (argc>1 && strcmp(argv[1],"-d")==0) yydebug = 1;
- init_symbtable();
- printf("--C COMPILER\n");
- yyparse();
- tree = ans;
- printf("parse finished\n");
- print_tree(tree);
- interpret_tree(tree);
- return 0;
- }
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