0; } function quasiquote($ast) { if (!is_pair($ast)) { return _list(_symbol("quote"), $ast); } elseif (_symbol_Q($ast[0]) && $ast[0]->value === 'unquote') { return $ast[1]; } elseif (is_pair($ast[0]) && _symbol_Q($ast[0][0]) && $ast[0][0]->value === 'splice-unquote') { return _list(_symbol("concat"), $ast[0][1], quasiquote($ast->slice(1))); } else { return _list(_symbol("cons"), quasiquote($ast[0]), quasiquote($ast->slice(1))); } } function eval_ast($ast, $env) { if (_symbol_Q($ast)) { return $env->get($ast->value); } elseif (_sequential_Q($ast)) { if (_list_Q($ast)) { $el = _list(); } else { $el = _vector(); } foreach ($ast as $a) { $el[] = MAL_EVAL($a, $env); } return $el; } elseif (_hash_map_Q($ast)) { $new_hm = _hash_map(); foreach (array_keys($ast->getArrayCopy()) as $key) { $new_hm[$key] = MAL_EVAL($ast[$key], $env); } return $new_hm; } else { return $ast; } } function MAL_EVAL($ast, $env) { while (true) { #echo "MAL_EVAL: " . _pr_str($ast) . "\n"; if (!_list_Q($ast)) { return eval_ast($ast, $env); } // apply list $a0 = $ast[0]; $a0v = (_symbol_Q($a0) ? $a0->value : $a0); switch ($a0v) { case "def!": $res = MAL_EVAL($ast[2], $env); return $env->set($ast[1]->value, $res); case "let*": $a1 = $ast[1]; $let_env = new Env($env); for ($i=0; $i < count($a1); $i+=2) { $let_env->set($a1[$i]->value, MAL_EVAL($a1[$i+1], $let_env)); } return MAL_EVAL($ast[2], $let_env); case "quote": return $ast[1]; case "quasiquote": return MAL_EVAL(quasiquote($ast[1]), $env); case "do": eval_ast($ast->slice(1, -1), $env); $ast = $ast[count($ast)-1]; break; case "if": $cond = MAL_EVAL($ast[1], $env); if ($cond === NULL || $cond === false) { if (count($ast) === 4) { $ast = $ast[3]; } else { $ast = NULL; } } else { $ast = $ast[2]; } break; case "fn*": return _function('MAL_EVAL', 'native', _hash_map('exp', $ast[2], 'env', $env, 'params', $ast[1])); default: $el = eval_ast($ast, $env); $f = $el[0]; $args = array_slice($el->getArrayCopy(), 1); if ($f->type === 'native') { $ast = $f->meta['exp']; $env = new Env($f->meta['env'], $f->meta['params'], $args); } else { return $f->apply($args); } } } } // print function MAL_PRINT($exp) { return _pr_str($exp, True) . "\n"; } // repl $repl_env = new Env(NULL); function rep($str) { global $repl_env; return MAL_PRINT(MAL_EVAL(READ($str), $repl_env)); } function _ref($k, $v) { global $repl_env; $repl_env->set($k, _function($v)); } // Import core functions foreach ($core_ns as $k=>$v) { _ref($k, $v); } _ref('read-string', 'read_str'); _ref('eval', function($ast) { global $repl_env; return MAL_EVAL($ast, $repl_env); }); _ref('slurp', function($f) { return file_get_contents($f); }); // Defined using the language itself rep("(def! not (fn* (a) (if a false true)))"); rep("(def! load-file (fn* (f) (eval (read-string (str \"(do \" (slurp f) \")\")))))"); if (count($argv) > 1) { for ($i=1; $i < count($argv); $i++) { rep('(load-file "' . $argv[$i] . '")'); } } else { do { try { $line = mal_readline("user> "); if ($line === NULL) { break; } if ($line !== "") { print(rep($line)); } } catch (BlankException $e) { continue; } catch (Exception $e) { echo "Error: " . $e->getMessage() . "\n"; echo $e->getTraceAsString() . "\n"; } } while (true); } ?>