public override void OnInspectorGUI()
{
base.OnInspectorGUI();
ValuePrinter script = (ValuePrinter)target;
if (GUILayout.Button("Start Reading"))
{
script.StartValueRead();
}
}
public GlobalVars()
{
_globals = new Env();
_globals.Define("write'", new Thunk(() => new Value.VLambda((Thunk th) =>
{
Console.Write(ValuePrinter.Print(th.Force()));
return(new Value.VUnit(GlobalSpan));
}, GlobalSpan)), GlobalSpan);
_globals.Define("input", new Thunk(() =>
{
string input = Console.ReadLine() !;
return(new Value.VString(input, GlobalSpan));
}), GlobalSpan);
_globals.Define("unit", new Thunk(() => new Value.VUnit(GlobalSpan)), GlobalSpan);
_globals.Define("true", new Thunk(() => new Value.VBool(true, GlobalSpan)), GlobalSpan);
_globals.Define("false", new Thunk(() => new Value.VBool(false, GlobalSpan)), GlobalSpan);
_globals.Define("quit", new Thunk(() => new Value.VLambda((code) =>
{
Value exitCode = code.Force();
if (exitCode.Type() != TypeName.Int)
{
throw new ErrorBuilder()
.Msg($"invalid exit code type `{exitCode.Type().Display()}`").Span(exitCode.Span)
.Type(ErrorType.Type).Build();
}
Environment.Exit((int)((Value.VInt)exitCode).Value);
throw new InvalidOperationException("shouldn't be here");
}, GlobalSpan)), GlobalSpan);
_globals.Define("lt", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
bool isLt;
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
isLt = ((Value.VInt)first).Value < ((Value.VInt)second).Value;
break;
case (TypeName.Real, TypeName.Real):
isLt = ((Value.VFloat)first).Value < ((Value.VFloat)second).Value;
break;
default:
throw new ErrorBuilder()
.Msg($"cannot compare types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
return(new Value.VBool(isLt, combined));
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("eq", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
bool isEq = false;
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
isEq = ((Value.VInt)first).Value == ((Value.VInt)second).Value;
break;
case (TypeName.Real, TypeName.Real):
isEq = ((Value.VFloat)first).Value == ((Value.VFloat)second).Value;
break;
case (TypeName.String, TypeName.String):
isEq = ((Value.VString)first).Value == ((Value.VString)second).Value;
break;
case (TypeName.Unit, TypeName.Unit):
isEq = true;
break;
}
return(new Value.VBool(isEq, combined));
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("if", new Thunk(() => new Value.VLambda((Thunk cond) => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value cnd = cond.Force();
if (cnd.Type() != TypeName.Bool)
{
throw new ErrorBuilder()
.Msg($"first operand of `if` must be boolean, not `{cnd.Type()}`")
.Type(ErrorType.Type).Span(cnd.Span).Build();
}
Value.VBool cd = (Value.VBool)cnd;
return(cd.Value ? fst.Force() : snd.Force());
}, GlobalSpan), GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("atan2", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
return(new Value.VFloat(Math.Atan2(((Value.VInt)first).Value, ((Value.VInt)second).Value),
combined));
case (TypeName.Real, TypeName.Real):
return(new Value.VFloat(
Math.Atan2(((Value.VFloat)first).Value, ((Value.VFloat)second).Value),
combined));
default:
throw new ErrorBuilder()
.Msg($"cannot calculate the atan2 of types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("to_float", new Thunk(() => new Value.VLambda((Thunk fst) =>
{
Value first = fst.Force();
TypeName fstTy = first.Type();
switch (fstTy)
{
case TypeName.Int:
return(new Value.VFloat((double)((Value.VInt)first).Value, first.Span));
case TypeName.String:
try
{
return(new Value.VFloat(Double.Parse(((Value.VString)first).Value), first.Span));
}
catch
{
throw new ErrorBuilder()
.Msg($"invalid float provided to `to_float` as a string")
.Type(ErrorType.Runtime).Span(first.Span).Build();
}
default:
throw new ErrorBuilder()
.Msg($"cannot convert type of `{fstTy.Display()}` to `float`")
.Type(ErrorType.Type).Span(first.Span).Build();
}
}, GlobalSpan)), GlobalSpan);
_globals.Define("round", new Thunk(() => new Value.VLambda((Thunk fst) =>
{
Value first = fst.Force();
TypeName fstTy = first.Type();
switch (fstTy)
{
case TypeName.Real:
return(new Value.VInt((long)
Math.Round(((Value.VFloat)first).Value), first.Span));
default:
throw new ErrorBuilder()
.Msg($"cannot round type of `{fstTy.Display()}`")
.Type(ErrorType.Type).Span(first.Span).Build();
}
}, GlobalSpan)), GlobalSpan);
_globals.Define("cos", new Thunk(() => new Value.VLambda((Thunk fst) =>
{
Value first = fst.Force();
TypeName fstTy = first.Type();
switch (fstTy)
{
case TypeName.Int:
return(new Value.VFloat(Math.Cos(((Value.VInt)first).Value), first.Span));
case TypeName.Real:
return(new Value.VFloat(Math.Cos(((Value.VFloat)first).Value), first.Span));
default:
throw new ErrorBuilder()
.Msg($"cannot calculate the cosine of `{fstTy.Display()}`")
.Type(ErrorType.Type).Span(first.Span).Build();
}
}, GlobalSpan)), GlobalSpan);
_globals.Define("sin", new Thunk(() => new Value.VLambda((Thunk fst) =>
{
Value first = fst.Force();
TypeName fstTy = first.Type();
switch (fstTy)
{
case TypeName.Int:
return(new Value.VFloat(Math.Sin(((Value.VInt)first).Value), first.Span));
case TypeName.Real:
return(new Value.VFloat(Math.Sin(((Value.VFloat)first).Value), first.Span));
default:
throw new ErrorBuilder()
.Msg($"cannot calculate the sin of `{fstTy.Display()}`")
.Type(ErrorType.Type).Span(first.Span).Build();
}
}, GlobalSpan)), GlobalSpan);
_globals.Define("div", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
return(new Value.VInt(((Value.VInt)first).Value / ((Value.VInt)second).Value, combined));
case (TypeName.Real, TypeName.Real):
return(new Value.VFloat(((Value.VFloat)first).Value / ((Value.VFloat)second).Value,
combined));
default:
throw new ErrorBuilder()
.Msg($"cannot divide types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("mul", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
return(new Value.VInt(((Value.VInt)first).Value * ((Value.VInt)second).Value, combined));
case (TypeName.Real, TypeName.Real):
return(new Value.VFloat(((Value.VFloat)first).Value * ((Value.VFloat)second).Value,
combined));
default:
throw new ErrorBuilder()
.Msg($"cannot multiply types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("mod", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
if (fstTy != TypeName.Int || sndTy != TypeName.Int)
{
throw new ErrorBuilder()
.Msg($"cannot modulo types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
return(new Value.VInt(((Value.VInt)first).Value % ((Value.VInt)second).Value, combined));
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("neg", new Thunk(() => new Value.VLambda((Thunk fst) =>
{
Value first = fst.Force();
TypeName fstTy = first.Type();
switch (fstTy)
{
case TypeName.Int:
return(new Value.VInt(-((Value.VInt)first).Value, first.Span));
case TypeName.Real:
return(new Value.VFloat(-((Value.VFloat)first).Value, first.Span));
default:
throw new ErrorBuilder()
.Msg($"cannot negate the type `{fstTy.Display()}`")
.Type(ErrorType.Type).Span(first.Span).Build();
}
}, GlobalSpan)), GlobalSpan);
_globals.Define("sub", new Thunk(() => new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
return(new Value.VInt(((Value.VInt)first).Value - ((Value.VInt)second).Value, combined));
case (TypeName.Real, TypeName.Real):
return(new Value.VFloat(((Value.VFloat)first).Value - ((Value.VFloat)second).Value,
combined));
default:
throw new ErrorBuilder()
.Msg($"cannot subtract types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
}, GlobalSpan), GlobalSpan)), GlobalSpan);
_globals.Define("add",
new Thunk(() =>
new Value.VLambda((Thunk fst) =>
new Value.VLambda((Thunk snd) =>
{
Value first = fst.Force();
Value second = snd.Force();
TypeName fstTy = first.Type();
TypeName sndTy = second.Type();
Span combined = first.Span.Combine(second.Span);
switch ((fstTy, sndTy))
{
case (TypeName.Int, TypeName.Int):
return(new Value.VInt(((Value.VInt)first).Value + ((Value.VInt)second).Value,
combined));
case (TypeName.Real, TypeName.Real):
return(new Value.VFloat(
((Value.VFloat)first).Value + ((Value.VFloat)second).Value,
combined));
case (TypeName.String, TypeName.String):
return(new Value.VString(
((Value.VString)first).Value + ((Value.VString)second).Value,
combined));
default:
throw new ErrorBuilder()
.Msg($"cannot add types `{fstTy.Display()}` and `{sndTy.Display()}`")
.Type(ErrorType.Type).Span(combined).Build();
}
}, GlobalSpan),
GlobalSpan)), GlobalSpan);
}
static void RunOptions(Options opts)
{
Runner runner = new();
SourceMap smap = new();
try
{
LoadBuiltins.Load(smap, runner, new Options());
}
catch (Diagnostics.ErrorDisplay e)
{
e.DisplayError(smap);
Environment.Exit(1);
}
if (opts.Filename != null)
{
string filename = opts.Filename;
string fileContents = System.IO.File.ReadAllText(filename);
SourceId sid = smap.AddSource(fileContents, filename);
try
{
runner.Run(smap.LookupSource(sid), sid, opts);
}
catch (Diagnostics.ErrorDisplay e)
{
e.DisplayError(smap);
Environment.Exit(1);
}
}
else
{
// Boot into REPL
while (true)
{
Console.Write("zλ> ");
string input = Console.ReadLine() ?? ":q";
if (input == ":q")
{
Console.WriteLine("\nbye.");
break;
}
else if (input == ":m")
{
input = "";
string line = "";
while ((line = Console.ReadLine() ?? ":m") != ":m")
{
input += line;
}
}
else if (input is ":?" or ":help" or ":h")
{
Console.WriteLine("zircon REPL.");
Console.WriteLine(":?, :help, :h - show this message");
Console.WriteLine(" :q - quit out of the repl");
Console.WriteLine(" :m - multiline input; end with another :m");
continue;
}
SourceId sid = smap.AddSource(input, "<repl_input>");
try
{
Value val = runner.Run(smap.LookupSource(sid), sid, opts);
if (val.Type() != TypeName.Unit)
{
Console.WriteLine(ValuePrinter.Print(val));
}
}
catch (Diagnostics.ErrorDisplay e)
{
e.DisplayError(smap);
}
}
}
}
