import sys, traceback import mal_readline import mal_types as types import reader, printer from env import Env import core # read def READ(str): return reader.read_str(str) # eval def is_pair(x): return types._sequential_Q(x) and len(x) > 0 def quasiquote(ast): if not is_pair(ast): return types._list(types._symbol("quote"), ast) elif ast[0] == 'unquote': return ast[1] elif is_pair(ast[0]) and ast[0][0] == 'splice-unquote': return types._list(types._symbol("concat"), ast[0][1], quasiquote(ast[1:])) else: return types._list(types._symbol("cons"), quasiquote(ast[0]), quasiquote(ast[1:])) def is_macro_call(ast, env): return (types._list_Q(ast) and types._symbol_Q(ast[0]) and env.find(ast[0]) and hasattr(env.get(ast[0]), '_ismacro_')) def macroexpand(ast, env): while is_macro_call(ast, env): mac = env.get(ast[0]) ast = macroexpand(mac(*ast[1:]), env) return ast def eval_ast(ast, env): if types._symbol_Q(ast): return env.get(ast) elif types._list_Q(ast): return types._list(*map(lambda a: EVAL(a, env), ast)) elif types._vector_Q(ast): return types._vector(*map(lambda a: EVAL(a, env), ast)) elif types._hash_map_Q(ast): keyvals = [] for k in ast.keys(): keyvals.append(EVAL(k, env)) keyvals.append(EVAL(ast[k], env)) return types._hash_map(*keyvals) else: return ast # primitive value, return unchanged def EVAL(ast, env): while True: #print("EVAL %s" % ast) if not types._list_Q(ast): return eval_ast(ast, env) # apply list ast = macroexpand(ast, env) if not types._list_Q(ast): return ast if len(ast) == 0: return ast a0 = ast[0] if "def!" == a0: a1, a2 = ast[1], ast[2] res = EVAL(a2, env) return env.set(a1, res) elif "let*" == a0: a1, a2 = ast[1], ast[2] let_env = Env(env) for i in range(0, len(a1), 2): let_env.set(a1[i], EVAL(a1[i+1], let_env)) return EVAL(a2, let_env) elif "quote" == a0: return ast[1] elif "quasiquote" == a0: return EVAL(quasiquote(ast[1]), env) elif 'defmacro!' == a0: func = EVAL(ast[2], env) func._ismacro_ = True return env.set(ast[1], func) elif 'macroexpand' == a0: return macroexpand(ast[1], env) elif "do" == a0: eval_ast(ast[1:-1], env) ast = ast[-1] # Continue loop (TCO) elif "if" == a0: a1, a2 = ast[1], ast[2] cond = EVAL(a1, env) if cond is None or cond is False: if len(ast) > 3: ast = ast[3] else: ast = None else: ast = a2 # Continue loop (TCO) elif "fn*" == a0: a1, a2 = ast[1], ast[2] return types._function(EVAL, Env, a2, env, a1) else: el = eval_ast(ast, env) f = el[0] if hasattr(f, '__meta__') and f.__meta__.has_key("exp"): m = f.__meta__ ast = m['exp'] env = Env(m['env'], m['params'], el[1:]) else: return f(*el[1:]) # print def PRINT(exp): return printer._pr_str(exp) # repl repl_env = Env() def REP(str): return PRINT(EVAL(READ(str), repl_env)) def _ref(k,v): repl_env.set(k, v) # Import types functions for name, val in core.ns.items(): _ref(name, val) _ref('read-string', reader.read_str) _ref('eval', lambda ast: EVAL(ast, repl_env)) _ref('slurp', lambda file: open(file).read()) # 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 len(sys.argv) >= 2: REP('(load-file "' + sys.argv[1] + '")') else: while True: try: line = mal_readline.readline("user> ") if line == None: break if line == "": continue print(REP(line)) except reader.Blank: continue except Exception as e: print "".join(traceback.format_exception(*sys.exc_info()))