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mal/haxe/StepA_mal.hx
Dov Murik d3ec299408 haxe: Fix exception on literal empty list 
Issue #190
2016-04-01 16:23:45 -04:00

244 lines
8.2 KiB
Haxe
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import Compat;
import types.Types.MalType;
import types.Types.*;
import types.MalException;
import reader.*;
import printer.*;
import env.*;
import core.*;
import haxe.rtti.Meta;
class StepA_mal {
// READ
static function READ(str:String):MalType {
return Reader.read_str(str);
}
// EVAL
static function is_pair(ast:MalType) {
return switch (ast) {
case MalList(l) | MalVector(l): l.length > 0;
case _: false;
}
}
static function quasiquote(ast:MalType) {
if (!is_pair(ast)) {
return MalList([MalSymbol("quote"), ast]);
} else {
var a0 = first(ast);
if (_equal_Q(a0, MalSymbol("unquote"))) {
return _nth(ast, 1);
} else if (is_pair(a0)) {
var a00 = first(a0);
if (_equal_Q(a00, MalSymbol("splice-unquote"))) {
return MalList([MalSymbol("concat"),
_nth(a0, 1),
quasiquote(rest(ast))]);
}
}
return MalList([MalSymbol("cons"),
quasiquote(a0),
quasiquote(rest(ast))]);
}
}
static function is_macro(ast:MalType, env:Env) {
return switch(ast) {
case MalList([]): false;
case MalList(a):
var a0 = a[0];
return symbol_Q(a0) &&
env.find(a0) != null &&
_macro_Q(env.get(a0));
case _: false;
}
}
static function macroexpand(ast:MalType, env:Env) {
while (is_macro(ast, env)) {
var mac = env.get(first(ast));
switch (mac) {
case MalFunc(f,_,_,_,_,_):
ast = f(_list(ast).slice(1));
case _: break;
}
}
return ast;
}
static function eval_ast(ast:MalType, env:Env) {
return switch (ast) {
case MalSymbol(s): env.get(ast);
case MalList(l):
MalList(l.map(function(x) { return EVAL(x, env); }));
case MalVector(l):
MalVector(l.map(function(x) { return EVAL(x, env); }));
case MalHashMap(m):
var new_map = new Map<String,MalType>();
for (k in m.keys()) {
new_map[k] = EVAL(m[k], env);
}
MalHashMap(new_map);
case _: ast;
}
}
static function EVAL(ast:MalType, env:Env):MalType {
while (true) {
if (!list_Q(ast)) { return eval_ast(ast, env); }
// apply
ast = macroexpand(ast, env);
if (!list_Q(ast)) { return eval_ast(ast, env); }
var alst = _list(ast);
if (alst.length == 0) { return ast; }
switch (alst[0]) {
case MalSymbol("def!"):
return env.set(alst[1], EVAL(alst[2], env));
case MalSymbol("let*"):
var let_env = new Env(env);
switch (alst[1]) {
case MalList(l) | MalVector(l):
for (i in 0...l.length) {
if ((i%2) > 0) { continue; }
let_env.set(l[i], EVAL(l[i+1], let_env));
}
case _: throw "Invalid let*";
}
ast = alst[2];
env = let_env;
continue; // TCO
case MalSymbol("quote"):
return alst[1];
case MalSymbol("quasiquote"):
ast = quasiquote(alst[1]);
continue; // TCO
case MalSymbol("defmacro!"):
var func = EVAL(alst[2], env);
return switch (func) {
case MalFunc(f,ast,e,params,_,_):
env.set(alst[1], MalFunc(f,ast,e,params,true,nil));
case _:
throw "Invalid defmacro! call";
}
case MalSymbol("macroexpand"):
return macroexpand(alst[1], env);
case MalSymbol("try*"):
try {
return EVAL(alst[1], env);
} catch (err:Dynamic) {
if (alst.length > 2) {
switch (alst[2]) {
case MalList([MalSymbol("catch*"), a21, a22]):
var exc;
if (Type.getClass(err) == MalException) {
exc = err.obj;
} else {
exc = MalString(Std.string(err));
};
return EVAL(a22, new Env(env, [a21], [exc]));
case _:
throw err;
}
} else {
throw err;
}
}
case MalSymbol("do"):
var el = eval_ast(MalList(alst.slice(1, alst.length-1)), env);
ast = last(ast);
continue; // TCO
case MalSymbol("if"):
var cond = EVAL(alst[1], env);
if (cond != MalFalse && cond != MalNil) {
ast = alst[2];
} else if (alst.length > 3) {
ast = alst[3];
} else {
return MalNil;
}
continue; // TCO
case MalSymbol("fn*"):
return MalFunc(function (args) {
return EVAL(alst[2], new Env(env, _list(alst[1]), args));
},alst[2],env,alst[1],false,nil);
case _:
var el = eval_ast(ast, env);
var lst = _list(el);
switch (first(el)) {
case MalFunc(f,a,e,params,_,_):
var args = _list(el).slice(1);
if (a != null) {
ast = a;
env = new Env(e, _list(params), args);
continue; // TCO
} else {
return f(args);
}
case _: throw "Call of non-function";
}
}
}
}
// PRINT
static function PRINT(exp:MalType):String {
return Printer.pr_str(exp, true);
}
// repl
static var repl_env = new Env(null);
static function rep(line:String):String {
return PRINT(EVAL(READ(line), repl_env));
}
public static function main() {
// core.EXT: defined using Haxe
for (k in Core.ns.keys()) {
repl_env.set(MalSymbol(k), MalFunc(Core.ns[k],null,null,null,false,nil));
}
var evalfn = MalFunc(function(args) {
return EVAL(args[0], repl_env);
},null,null,null,false,nil);
repl_env.set(MalSymbol("eval"), evalfn);
var cmdargs = Compat.cmdline_args();
var argarray = cmdargs.map(function(a) { return MalString(a); });
repl_env.set(MalSymbol("*ARGV*"), MalList(argarray.slice(1)));
// core.mal: defined using the language itself
rep("(def! *host-language* \"haxe\")");
rep("(def! not (fn* (a) (if a false true)))");
rep("(def! load-file (fn* (f) (eval (read-string (str \"(do \" (slurp f) \")\")))))");
rep("(defmacro! cond (fn* (& xs) (if (> (count xs) 0) (list 'if (first xs) (if (> (count xs) 1) (nth xs 1) (throw \"odd number of forms to cond\")) (cons 'cond (rest (rest xs)))))))");
rep("(def! *gensym-counter* (atom 0))");
rep("(def! gensym (fn* [] (symbol (str \"G__\" (swap! *gensym-counter* (fn* [x] (+ 1 x)))))))");
rep("(defmacro! or (fn* (& xs) (if (empty? xs) nil (if (= 1 (count xs)) (first xs) (let* (condvar (gensym)) `(let* (~condvar ~(first xs)) (if ~condvar ~condvar (or ~@(rest xs)))))))))");
if (cmdargs.length > 0) {
rep('(load-file "${cmdargs[0]}")');
Compat.exit(0);
}
rep("(println (str \"Mal [\" *host-language* \"]\"))");
while (true) {
try {
var line = Compat.readline("user> ");
if (line == "") { continue; }
Compat.println(rep(line));
} catch (exc:BlankLine) {
continue;
} catch (exc:haxe.io.Eof) {
Compat.exit(0);
} catch (exc:Dynamic) {
Compat.println(exc);
}
}
}
}
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