using System; using System.IO; using System.Collections; using System.Collections.Generic; using Mal; using MalVal = Mal.types.MalVal; using MalSymbol = Mal.types.MalSymbol; using MalInteger = Mal.types.MalInteger; using MalList = Mal.types.MalList; using MalVector = Mal.types.MalVector; using MalHashMap = Mal.types.MalHashMap; using MalFunction = Mal.types.MalFunction; using Env = Mal.env.Env; namespace Mal { class step3_env { // read static MalVal READ(string str) { return reader.read_str(str); } // eval static MalVal eval_ast(MalVal ast, Env env) { if (ast is MalSymbol) { MalSymbol sym = (MalSymbol)ast; return env.get(sym.getName()); } else if (ast is MalList) { MalList old_lst = (MalList)ast; MalList new_lst = ast.list_Q() ? new MalList() : (MalList)new MalVector(); foreach (MalVal mv in old_lst.getValue()) { new_lst.conj_BANG(EVAL(mv, env)); } return new_lst; } else if (ast is MalHashMap) { var new_dict = new Dictionary(); foreach (var entry in ((MalHashMap)ast).getValue()) { new_dict.Add(entry.Key, EVAL((MalVal)entry.Value, env)); } return new MalHashMap(new_dict); } else { return ast; } } static MalVal EVAL(MalVal orig_ast, Env env) { MalVal a0, a1, a2, res; MalList el; //System.out.println("EVAL: " + printer._pr_str(orig_ast, true)); if (!orig_ast.list_Q()) { return eval_ast(orig_ast, env); } // apply list MalList ast = (MalList)orig_ast; if (ast.size() == 0) { return ast; } a0 = ast.nth(0); if (!(a0 is MalSymbol)) { throw new Mal.types.MalError("attempt to apply on non-symbol '" + Mal.printer._pr_str(a0,true) + "'"); } switch (((MalSymbol)a0).getName()) { case "def!": a1 = ast.nth(1); a2 = ast.nth(2); res = EVAL(a2, env); env.set(((MalSymbol)a1).getName(), res); return res; case "let*": a1 = ast.nth(1); a2 = ast.nth(2); MalSymbol key; MalVal val; Env let_env = new Env(env); for(int i=0; i<((MalList)a1).size(); i+=2) { key = (MalSymbol)((MalList)a1).nth(i); val = ((MalList)a1).nth(i+1); let_env.set(key.getName(), EVAL(val, let_env)); } return EVAL(a2, let_env); default: el = (MalList)eval_ast(ast, env); var f = (MalFunction)el.nth(0); return f.apply(el.rest()); } } // print static string PRINT(MalVal exp) { return printer._pr_str(exp, true); } // REPL static MalVal RE(Env env, string str) { return EVAL(READ(str), env); } public static Env _ref(Env env, string name, MalVal mv) { return env.set(name, mv); } static public MalFunction plus = new MalFunction( a => (MalInteger)a[0] + (MalInteger)a[1] ); static public MalFunction minus = new MalFunction( a => (MalInteger)a[0] - (MalInteger)a[1] ); static public MalFunction multiply = new MalFunction( a => (MalInteger)a[0] * (MalInteger)a[1] ); static public MalFunction divide = new MalFunction( a => (MalInteger)a[0] / (MalInteger)a[1] ); static void Main(string[] args) { string prompt = "user> "; var repl_env = new Mal.env.Env(null); _ref(repl_env, "+", plus); _ref(repl_env, "-", minus); _ref(repl_env, "*", multiply); _ref(repl_env, "/", divide); if (args.Length > 0 && args[0] == "--raw") { Mal.readline.mode = Mal.readline.Mode.Raw; } while (true) { string line; try { line = Mal.readline.Readline(prompt); if (line == null) { break; } } catch (IOException e) { Console.WriteLine("IOException: " + e.Message); break; } try { Console.WriteLine(PRINT(RE(repl_env, line))); } catch (Mal.types.MalContinue) { continue; } catch (Mal.reader.ParseError e) { Console.WriteLine(e.Message); continue; } catch (Mal.types.MalException e) { Console.WriteLine("Error: " + e.getValue()); continue; } catch (Exception e) { Console.WriteLine("Error: " + e.Message); continue; } } } } }