// Setup the REPL.
public MalRepl()
{
// Load built-in functions into the initial eval environment.
try
{
myEnv = new Env(null);
// Load core functions.
foreach (var thing in MalNameSpace)
{
MalSym mSym = new MalSym(thing.Key);
if (myEnv.Find(mSym) == null)
{
myEnv.Set(mSym, thing.Value);
}
else
{
// The namespace itself may already have thrown an error but if not.
throw new MalInternalError("Attempt to refine symbol: '" + mSym.ToString(true) + "' with '" + thing.Value.ToString(true) + "'");
}
}
// Load the special eval core function. We have to do it here to access the REPL env.
myEnv.Set(new MalSym("eval"), new MalFunc(args =>
{
return(EVAL(args[0], myEnv));
}));
// some convenient test files
// "F:\Mal-development\mal-tests\mal-step6-test-01.txt"
// "F:\Mal-development\mal-tests\mal-code-01.txt"
// (load-file "F:\Mal-development\mal-tests\mal-code-01.txt")
// (eval (read-string (slurp "F:\Mal-development\mal-tests\mal-code-01.txt")))
// Add 'core' functions defined using Mal itself.
EVAL(READ("(def not (fn (a) (if a false true)))"), myEnv);
// TODO -number of brackets is wrong and returns nil.
EVAL(READ("(def load-file (fn (f) (eval (read-string (str \"(do \" (slurp f) \"))\")))))"), myEnv);
EVAL(READ("(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)))))))"), myEnv);
EVAL(READ("(defmacro or (fn (& xs) (if (empty? xs) nil (if (= 1 (count xs)) (first xs) `(let (or_FIXME ~(first xs)) (if or_FIXME or_FIXME (or ~@(rest xs))))))))"), myEnv);
}
catch (System.TypeInitializationException e)
{
// Typically happens if there is a duplicate symbol in the namespace list
Console.WriteLine("Unrecoverable error: " + e.InnerException.Message);
}
catch (MalLookupError e)
{
Console.WriteLine(e.Message);
}
catch (MalEvalError e)
{
Console.WriteLine(e.Message);
}
catch (MalParseError e)
{
Console.WriteLine(e.Message);
}
}
public Env(Env outer)
{
this.outer = outer;
}
static Value EVAL(Value arg, Env env)
{
for (;;)
{
arg = MACROEXPAND(arg, env);
if (arg is List lst)
{
if (lst.IsEmpty())
{
return(arg);
}
Value val = lst.First();
if (val == Reader.Def)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Def.Name + " - syntax error");
}
val = lst.Nth(1);
if (val is Symbol sym)
{
val = EVAL(lst.Nth(2), env);
if (val is Closure cls && cls.IsMacro)
{
cls = cls.Clone(null) as Closure;
cls.IsMacro = false;
val = cls;
}
env.Set(sym, val);
return(val);
}
else
{
throw new MalException(Reader.Def.Name + " - symbol expected");
}
}
else if (val == Reader.Let)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Let.Name + " - syntax error");
}
Env newEnv = new Env(env);
Value val_1 = lst.Nth(1);
if (val_1 is Sequence syms && syms.Count() % 2 == 0)
{
int cnt = syms.Count();
for (int i = 0; i < cnt; i += 2)
{
if (syms.Nth(i) is Symbol sym)
{
newEnv.Set(sym, EVAL(syms.Nth(i + 1), newEnv));
}
else
{
throw new MalException(Reader.Let.Name + " - bindings - symbol is expected");
}
}
arg = lst.Nth(2);
env = newEnv;
continue;
}
else
{
throw new MalException(Reader.Let.Name + " - bad bindings");
}
}
else if (val == Reader.If)
{
int cnt = lst.Count();
if (cnt != 3 && cnt != 4)
{
throw new MalException(Reader.If.Name + " - syntax error");
}
Value tst = EVAL(lst.Nth(1), env);
if (tst == null || tst == Reader.Nil || tst == Reader.False)
{
if (cnt == 3)
{
return(Reader.Nil);
}
arg = lst.Nth(3);
continue;
}
else
{
arg = lst.Nth(2);
continue;
}
}
else if (val == Reader.Do)
{
if (lst.Count() < 2)
{
throw new MalException(Reader.Do.Name + " - at least one argument is required");
}
int cnt = lst.Count() - 1;
for (int i = 1; i < cnt; i++)
{
EVAL(lst.Nth(i), env);
}
arg = lst.Nth(cnt);
continue;
}
else if (val == Reader.Fn)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Fn.Name + " - syntax error");
}
if (lst.Nth(1) is Sequence seq)
{
int cnt = seq.Count();
for (int i = 0; i < cnt; i++)
{
if (!(seq.Nth(i) is Symbol))
{
throw new MalException(Reader.Fn.Name + " - symbol is expected for argument");
}
}
}
else
{
throw new MalException(Reader.Fn.Name + " - expected sequence of arguments");
}
if (lst.Nth(2) == null)
{
throw new MalException(Reader.Fn.Name + " - function body is expected");
}
return(new Closure(lst.Nth(1) as Sequence, lst.Nth(2), env));
}
else if (val == Reader.Quote)
{
if (lst.Count() != 2)
{
throw new MalException(Reader.Quote.Name + " - syntax error");
}
return(lst.Nth(1));
}
else if (val == Reader.Quasiquote)
{
if (lst.Count() != 2)
{
throw new MalException(Reader.Quasiquote.Name + " - syntax error");
}
return(QQuote(lst.Nth(1), env));
}
else if (val == Reader.Defmacro)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Defmacro.Name + " - syntax error");
}
val = lst.Nth(1);
if (val is Symbol sym)
{
val = EVAL(lst.Nth(2), env);
if (val is Closure cls)
{
cls = cls.Clone(null) as Closure;
cls.IsMacro = true;
env.Set(sym, cls);
return(val);
}
else
{
throw new MalException(Reader.Defmacro.Name + " - closure is expected");
}
}
else
{
throw new MalException(Reader.Defmacro.Name + " - symbol expected");
}
}
else if (val == Reader.Macroexpand)
{
if (lst.Count() != 2)
{
throw new MalException(Reader.Macroexpand.Name + " - syntax error");
}
return(MACROEXPAND(lst.Nth(1), env));
}
else if (val == Reader.Try)
{
int cnt = lst.Count();
if (cnt != 2 && cnt != 3)
{
throw new MalException(Reader.Try.Name + " - syntax error");
}
Symbol var = null;
Value exp = null;
if (cnt == 3)
{
if (lst.Nth(2) is List clst && clst.Count() == 3)
{
if (clst.Nth(1) is Symbol sym)
{
var = sym;
}
else
{
throw new MalException(Reader.Catch.Name + " - symbol is expected");
}
exp = clst.Nth(2);
}
else
{
throw new MalException(Reader.Catch.Name + " - syntax error");
}
}
Value res;
try
{
res = EVAL(lst.Nth(1), env);
}
catch (MalException ex)
{
if (var != null && exp != null)
{
Env newEnv = new Env(env);
if (ex.Val != null)
{
newEnv.Set(var, ex.Val);
}
else
{
newEnv.Set(var, new Str(ex.Message));
}
res = EVAL(exp, newEnv);
}
else
{
throw ex;
}
}
return(res);
}
static int Main(string[] args)
{
Env env = CreateTopLevelEnv();
List <Value> malArgs = new List <Value>();
for (int i = 1; i < args.Length; i++)
{
malArgs.Add(new Str(args[i]));
}
env.Set(Reader.AddSymbol("*ARGV*") as Symbol, new List(malArgs));
Rep("(try* (load-file \".malrc\"))", env);
if (args.Length == 0)
{
return(Repl(env));
}
#if NATIVE_LOAD_FILE
FileInfo fi = new FileInfo(args[0]);
if (fi.Exists)
{
using (Stream stream = fi.OpenRead())
LoadStream(stream, env);
}
else
{
Console.Error.WriteLine("ERROR: unable open file '{0}'", args[0]);
return(1);
}
#else
List loaderArgs = new List(new List <Value>()
{
new Str(args[0])
});
try
{
var val = env.Get(Reader.Load_file);
if (val is Closure cls)
{
EVAL(cls.Body, cls.CreateEnv(loaderArgs));
}
else
if (val is Func_Native fn)
{
fn.Apply(loaderArgs);
}
else
{
throw new MalException("unknown function to evaluate file");
}
}
catch (MalException ex)
{
Console.Error.WriteLine("ERROR: {0}", ex.Message);
return(1);
}
catch (MalQuitExc)
{ }
#endif
return(0);
}
// Evaluate the ast in the supplied environment. This is a bit of a monster but
// has been left as per the guide to simplify Tail Call Optimisation (TCO)
static MalVal EVAL(MalVal InitialAst, Env IntialEnv)
{
// The ast and env to be EVAL'd. Initially set to those passed to EVAL but
// may be updated if there is a TCO loop.
MalVal ast = InitialAst;
Env env = IntialEnv;
// Some eval cases will return out of the function, others keep looping (as per TCO) with
// an updated ast / Env. The alternative is to call EVAL recursively, which has simpler
// logic but which can blow up the stack.
while (true)
{
if (ast is MalList astList)
{
if (astList.Count() <= 0)
{
// Empty list, return unchanged.
return(ast);
}
else
{
// I used to check astList[0] was a symbol but this dissallows forms whose first el is an anon (fn..) special form.
string symbolZero = astList[0] is MalSym ? ((MalSym)astList[0]).getName() : "__<*fn*>__";
switch (symbolZero)
{
case "def":
// Evaluate all elements of list using eval_ast, retun the final eval'd element.
// Should be something like (def a b). Set() symbol a to be the result of evaluating b.
if (astList.Count() != 3 || !(astList[1] is MalSym symbol))
{
throw new MalEvalError("'def' should be followed by a symbol and a value");
}
// Must add the result of the EVAL to the environment so can't TCO loop here.
MalVal result = EVAL(astList[2], env);
env.Set(symbol, result);
return(result);
case "let":
// Let syntax is (let <bindings-list> <result>), e.g. (let (p ( + 2 3) q (+ 2 p)) (+ p q)).
// Bindings can refer to earlier bindings in the new let environment or to symbols
// in the outer environment. Let defs hide hide same-named symbols in the outer scope.
if (astList.Count() != 3)
{
throw new MalEvalError("'let' should have two arguments (bindings-list and result), but instead had " + (astList.Count() - 1));
}
// Extract the first parameter - the bindings list. E.g. (p (+ 2 3) q (+ 2 p))
if (!(astList[1] is MalList bindingsList))
{
throw new MalEvalError("'let' should be followed by a non-empty bindings list and a result form");
}
if (bindingsList.Count() <= 1 || bindingsList.Count() % 2 != 0)
{
throw new MalEvalError("'let' bindings list should have an even number of entries");
}
// Create a new Env - the scope of the Let form. It's discarded when done.
Env TempLetEnv = new Env(env);
// Process each pair of entries in the bindings list.
for (int i = 0; i < bindingsList.Count(); i += 2)
{
// The first element should be a 'key' symbol. E.g. 'p'.
if (!(bindingsList[i] is MalSym bindingKey))
{
throw new MalEvalError("'let' expected symbol but got: '" + bindingsList[i].ToString(true) + "'");
}
// The second element (e.g. (+ 2 3)) is the value of the key symbol in Let's environment
MalVal val = EVAL(bindingsList[i + 1], TempLetEnv);
// Store the new value in the environment.
TempLetEnv.Set(bindingKey, val);
}
// TCO loop instead of EVAL(astList[2], TempLetEnv)
ast = astList[2];
env = TempLetEnv;
continue;
case "do":
// Something like (do <form> <form>)
MalList formsToDo = astList.Rest();
int formsToDoCount = formsToDo.Count();
if (formsToDoCount == 0)
{
// Empty (do )
return(malNil);
}
else
{
// EVAL all forms in the (do ) body, up to but not including the last one.
eval_ast(formsToDo.GetRange(0, formsToDoCount - 1), env);
// EVAL the last form in the (do ) body via TCO loop, keeping the same env.
ast = formsToDo[formsToDoCount - 1];
// TCO loop.
continue;
}
case "if":
// If has the syntax (if <cond> <true-branch> <optional-false-branch>)
if (astList.Count() < 3 || astList.Count() > 4)
{
throw new MalEvalError("'if' should have a condition, true branch and optional false branch");
}
// Evaluate the Cond part of the if.
MalVal cond = EVAL(astList[1], env);
if (cond is MalNil || cond is MalFalse)
{
// Cond is nil or false.
if (astList.Count() == 4)
{
// Eval the 'false' branch via TCO loop.
ast = astList[3];
continue;
}
else
{
// No 'false' branch.
return(malNil);
}
}
else
{
// Eval the 'true' branch via TCO loop.
ast = astList[2];
continue;
}
case "fn":
// e.g. (def a (fn (i) (* i 2))) or (def b (fn () (prn 1) (prn 2)))
if (astList.Count() < 3)
{
throw new MalEvalError("fn must have an arg list and at least one body form");
}
if (!(astList[1] is MalList FnArgList))
{
// The 2nd element must be an arg list (possibly empty).
throw new MalEvalError("Expected arg list but got: '" + astList[1].ToString(true) + "'");
}
MalVal FnBodyExprs;
// Unlike the Mal reference, this handles fns that have multiple expr forms.
if (astList.Count() == 3)
{
FnBodyExprs = astList[2];
}
else
{
// Either I've misunderstood something or the Reference doesn't handle some functions correctly.
FnBodyExprs = astList.GetRange(2, astList.Count() - 1);
}
Env cur_env = env;
// This is different from C#-Mal but their version doesn't work.
return(new MalFunc(FnBodyExprs, env, FnArgList, args => EVAL(FnBodyExprs, new Env(cur_env, FnArgList, args))));
default:
// Ast isn't a special form, so try to evaluate it as a function.
MalList evaledList = (MalList)eval_ast(ast, env);
MalVal listFirst = evaledList.First();
if (listFirst is MalFunc func)
{
if (func.IsCore)
{
// Can't TCO a core function so directly apply func.
return(func.Apply(evaledList.Rest()));
}
else
{
// Core function.
// The ast is the one stored by the func.
ast = func.ast;
// Create a new env using func's env and params as the outer and binds arguments
// and the rest of the current ast as the exprs argument.
env = new Env(func.env, func.fparams, evaledList.Rest());
// and now 'apply' via the TCO loop.
continue;
}
}
else
{
return(listFirst);
}
}
}
}
else
{
// If ast is not a list (e.g. a vector), return the result of calling eval_ast on it.
return(eval_ast(ast, env));
}
}
}
static Value EVAL(Value arg, Env env)
{
for (;;)
{
if (arg is List lst)
{
if (lst.IsEmpty())
{
return(arg);
}
Value val = lst.First();
if (val == Reader.Def)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Def.Name + " - syntax error");
}
val = lst.Nth(1);
if (val is Symbol sym)
{
val = EVAL(lst.Nth(2), env);
env.Set(sym, val);
return(val);
}
else
{
throw new MalException(Reader.Def.Name + " - symbol expected");
}
}
else if (val == Reader.Let)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Let.Name + " - syntax error");
}
Env newEnv = new Env(env);
Value val_1 = lst.Nth(1);
if (val_1 is Sequence syms && syms.Count() % 2 == 0)
{
int cnt = syms.Count();
for (int i = 0; i < cnt; i += 2)
{
if (syms.Nth(i) is Symbol sym)
{
newEnv.Set(sym, EVAL(syms.Nth(i + 1), newEnv));
}
else
{
throw new MalException(Reader.Let.Name + " - bindings - symbol is expected");
}
}
arg = lst.Nth(2);
env = newEnv;
continue;
}
else
{
throw new MalException(Reader.Let.Name + " - bad bindings");
}
}
else if (val == Reader.If)
{
int cnt = lst.Count();
if (cnt != 3 && cnt != 4)
{
throw new MalException(Reader.If.Name + " - syntax error");
}
Value tst = EVAL(lst.Nth(1), env);
if (tst == null || tst == Reader.Nil || tst == Reader.False)
{
if (cnt == 3)
{
return(Reader.Nil);
}
arg = lst.Nth(3);
continue;
}
else
{
arg = lst.Nth(2);
continue;
}
}
else if (val == Reader.Do)
{
if (lst.Count() < 2)
{
throw new MalException(Reader.Do.Name + " - at least one argument is required");
}
int cnt = lst.Count() - 1;
for (int i = 1; i < cnt; i++)
{
EVAL(lst.Nth(i), env);
}
arg = lst.Nth(cnt);
continue;
}
else if (val == Reader.Fn)
{
if (lst.Count() != 3)
{
throw new MalException(Reader.Fn.Name + " - syntax error");
}
if (lst.Nth(1) is Sequence seq)
{
int cnt = seq.Count();
for (int i = 0; i < cnt; i++)
{
if (!(seq.Nth(i) is Symbol))
{
throw new MalException(Reader.Fn.Name + " - symbol is expected for argument");
}
}
}
else
{
throw new MalException(Reader.Fn.Name + " - expected sequence of arguments");
}
if (lst.Nth(2) == null)
{
throw new MalException(Reader.Fn.Name + " - function body is expected");
}
return(new Closure(lst.Nth(1) as Sequence, lst.Nth(2), env));
}
else
{
Value ast = Eval_ast(arg, env);
val = (ast as List).First();
if (val is Func_Native fn)
{
return(fn.Apply((ast as List).Rest()));
}
else if (val is Closure cls)
{
arg = cls.Body;
env = cls.CreateEnv((ast as List).Rest());
continue;
}
else
{
throw new MalException("function is expected");
}
}
}
