mirror of
https://github.com/kanaka/mal.git
synced 2024-11-10 12:47:45 +03:00
178 lines
5.1 KiB
C
178 lines
5.1 KiB
C
#include <stdlib.h>
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#include <stdio.h>
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#include <unistd.h>
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#include "types.h"
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#include "readline.h"
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#include "reader.h"
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// Declarations
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MalVal *EVAL(MalVal *ast, Env *env);
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// read
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MalVal *READ(char prompt[], char *str) {
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char *line;
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MalVal *ast;
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if (str) {
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line = str;
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} else {
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line = _readline(prompt);
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if (!line) {
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_error("EOF");
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return NULL;
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}
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}
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ast = read_str(line);
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if (!str) { free(line); }
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return ast;
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}
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// eval
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MalVal *eval_ast(MalVal *ast, Env *env) {
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if (!ast || mal_error) return NULL;
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if (ast->type == MAL_SYMBOL) {
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//g_print("EVAL symbol: %s\n", ast->val.string);
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return env_get(env, ast->val.string);
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} else if ((ast->type == MAL_LIST) || (ast->type == MAL_VECTOR)) {
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//g_print("EVAL sequential: %s\n", _pr_str(ast,1));
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MalVal *el = _map2((MalVal *(*)(void*, void*))EVAL, ast, env);
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if (!el || mal_error) return NULL;
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el->type = ast->type;
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return el;
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} else if (ast->type == MAL_HASH_MAP) {
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//g_print("EVAL hash_map: %s\n", _pr_str(ast,1));
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GHashTableIter iter;
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gpointer key, value;
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MalVal *seq = malval_new_list(MAL_LIST,
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g_array_sized_new(TRUE, TRUE, sizeof(MalVal*),
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_count(ast)));
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g_hash_table_iter_init (&iter, ast->val.hash_table);
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while (g_hash_table_iter_next (&iter, &key, &value)) {
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MalVal *kname = malval_new_string((char *)key);
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g_array_append_val(seq->val.array, kname);
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MalVal *new_val = EVAL((MalVal *)value, env);
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g_array_append_val(seq->val.array, new_val);
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}
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return _hash_map(seq);
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} else {
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//g_print("EVAL scalar: %s\n", _pr_str(ast,1));
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return ast;
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}
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}
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MalVal *EVAL(MalVal *ast, Env *env) {
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if (!ast || mal_error) return NULL;
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//g_print("EVAL: %s\n", _pr_str(ast,1));
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if (ast->type != MAL_LIST) {
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return eval_ast(ast, env);
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}
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if (!ast || mal_error) return NULL;
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// apply list
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//g_print("EVAL apply list: %s\n", _pr_str(ast,1));
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int i, len;
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if (_count(ast) == 0) { return ast; }
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MalVal *a0 = _nth(ast, 0);
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assert_type(a0, MAL_SYMBOL, "Cannot apply %s", _pr_str(a0,1));
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if (strcmp("def!", a0->val.string) == 0) {
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//g_print("eval apply def!\n");
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MalVal *a1 = _nth(ast, 1),
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*a2 = _nth(ast, 2);
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MalVal *res = EVAL(a2, env);
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env_set(env, a1->val.string, res);
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return res;
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} else if (strcmp("let*", a0->val.string) == 0) {
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//g_print("eval apply let*\n");
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MalVal *a1 = _nth(ast, 1),
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*a2 = _nth(ast, 2),
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*key, *val;
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assert_type(a1, MAL_LIST|MAL_VECTOR,
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"let* bindings must be list or vector");
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len = _count(a1);
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assert((len % 2) == 0, "odd number of let* bindings forms");
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Env *let_env = new_env(env, NULL, NULL);
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for(i=0; i<len; i+=2) {
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key = g_array_index(a1->val.array, MalVal*, i);
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val = g_array_index(a1->val.array, MalVal*, i+1);
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assert_type(key, MAL_SYMBOL, "let* bind to non-symbol");
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env_set(let_env, key->val.string, EVAL(val, let_env));
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}
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return EVAL(a2, let_env);
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} else {
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//g_print("eval apply\n");
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MalVal *el = eval_ast(ast, env);
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if (!el || mal_error) { return NULL; }
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MalVal *(*f)(void *, void*) = (MalVal *(*)(void*, void*))_first(el);
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return f(_nth(el, 1), _nth(el, 2));
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}
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}
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// print
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char *PRINT(MalVal *exp) {
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if (mal_error) {
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fprintf(stderr, "Error: %s\n", mal_error->val.string);
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malval_free(mal_error);
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mal_error = NULL;
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return NULL;
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}
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return _pr_str(exp,1);
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}
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// repl
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// read and eval
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MalVal *RE(Env *env, char *prompt, char *str) {
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MalVal *ast, *exp;
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ast = READ(prompt, str);
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if (!ast || mal_error) return NULL;
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exp = EVAL(ast, env);
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if (ast != exp) {
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malval_free(ast); // Free input structure
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}
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return exp;
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}
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// Setup the initial REPL environment
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Env *repl_env;
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void init_repl_env() {
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repl_env = new_env(NULL, NULL, NULL);
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WRAP_INTEGER_OP(plus,+)
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WRAP_INTEGER_OP(minus,-)
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WRAP_INTEGER_OP(multiply,*)
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WRAP_INTEGER_OP(divide,/)
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env_set(repl_env, "+", (MalVal *)int_plus);
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env_set(repl_env, "-", (MalVal *)int_minus);
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env_set(repl_env, "*", (MalVal *)int_multiply);
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env_set(repl_env, "/", (MalVal *)int_divide);
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}
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int main()
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{
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MalVal *exp;
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char *output;
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char prompt[100];
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// Set the initial prompt and environment
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snprintf(prompt, sizeof(prompt), "user> ");
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init_repl_env();
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// repl loop
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for(;;) {
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exp = RE(repl_env, prompt, NULL);
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if (mal_error && strcmp("EOF", mal_error->val.string) == 0) {
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return 0;
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}
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output = PRINT(exp);
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if (output) {
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g_print("%s\n", output);
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free(output); // Free output string
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}
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//malval_free(exp); // Free evaluated expression
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}
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}
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