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finn-lang/Resolver.cs

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C#
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using System;
using System.Collections.Generic;
using System.Collections.Immutable;
using Finn;
using Finn.AST;
class Resolver : IExprVisitor<ValueTuple, ValueTuple>
{
private class NameCollection
{
public ImmutableHashSet<string> Names { get; private set; } = ImmutableHashSet<string>.Empty;
public void Add(Token name)
{
var value = (string)name.Literal!;
if (Names.Contains(value))
{
Program.error(name.Start, $"Duplicate name declared in scope: {name.Lexeme}");
}
else
{
Names = Names.Add(value);
}
}
}
private class PatternNameCollector : IPatternVisitor<NameCollection, ValueTuple>
{
public readonly static PatternNameCollector Instance = new();
private static readonly ValueTuple Void = ValueTuple.Create();
private PatternNameCollector() { }
public ValueTuple visitFieldPatternPattern(NameCollection names, FieldPattern field)
{
if (field.Pattern is null)
{
names.Add(field.Name);
}
else
{
field.Pattern.accept(names, this);
}
return Void;
}
public ValueTuple visitRecordPatternPattern(NameCollection names, RecordPattern record)
{
record.Rest?.accept(names, this);
foreach (var field in record.Fields)
{
field.accept(names, this);
}
return Void;
}
public ValueTuple visitSimplePatternPattern(NameCollection names, SimplePattern simple)
{
if (simple.Identifier is not null)
{
names.Add(simple.Identifier);
}
return Void;
}
public ValueTuple visitVariantPatternPattern(NameCollection names, VariantPattern variant)
{
variant.Argument?.accept(names, this);
return Void;
}
}
private readonly Interpreter Interpreter;
private readonly Stack<IReadOnlySet<string>> scopes = new();
Resolver(Interpreter interpreter)
{
Interpreter = interpreter;
}
private void Resolve(ValueTuple context, Expr expr)
{
expr.accept(context, this);
}
private void ResolveInNewScope(ValueTuple context, IReadOnlySet<string> vars, Expr expr)
{
BeginScope(vars);
Resolve(context, expr);
EndScope();
}
private void BeginScope(IReadOnlySet<string> vars)
{
scopes.Push(vars);
}
private void EndScope()
{
scopes.Pop();
}
public ValueTuple visitBinaryExpr(ValueTuple context, Binary expr)
{
Resolve(context, expr.Left);
Resolve(context, expr.Right);
return context;
}
public ValueTuple visitCallExpr(ValueTuple context, Call expr)
{
Resolve(context, expr.Left);
foreach (var arg in expr.Arguments)
{
if (arg is not null)
{
Resolve(context, arg);
}
}
return context;
}
public ValueTuple visitGroupingExpr(ValueTuple context, Grouping expr)
{
Resolve(context, expr.Expression);
return context;
}
public ValueTuple visitIfExpr(ValueTuple context, If expr)
{
Resolve(context, expr.Condition);
Resolve(context, expr.Then);
Resolve(context, expr.Else);
return context;
}
public ValueTuple visitIndexerExpr(ValueTuple context, Indexer expr)
{
Resolve(context, expr.Left);
Resolve(context, expr.Index);
return context;
}
public ValueTuple visitLetExpr(ValueTuple context, Let expr)
{
var names = new NameCollection();
foreach (var binding in expr.Bindings)
{
switch (binding)
{
case FuncBinding fb:
names.Add(fb.Name);
break;
case VarBinding vb:
vb.Pattern.accept(names, PatternNameCollector.Instance);
break;
default:
throw new Exception("wtf there are no other binding types");
}
}
BeginScope(names.Names);
// TODO Put the static constructivity check here.
// For now, just check that a definition only uses names that come before it.
// Note that this will preclude using shadowed variables in definitions.
foreach (var binding in expr.Bindings)
{
switch (binding)
{
case FuncBinding fb:
ResolveFunction(context, fb);
break;
case VarBinding vb:
Resolve(context, vb.Value);
break;
default:
throw new Exception("wtf there are no other binding types");
}
}
Resolve(context, expr.Body);
EndScope();
return context;
}
private void ResolveFunction(ValueTuple context, FuncBinding fb)
{
NameCollection names = new();
foreach (var param in fb.Params)
{
param.accept(names, PatternNameCollector.Instance);
}
ResolveInNewScope(context, names.Names, fb.Value);
}
public ValueTuple visitListExpr(ValueTuple context, List expr)
{
foreach (var element in expr.Elements)
{
Resolve(context, element);
}
return context;
}
public ValueTuple visitLiteralExpr(ValueTuple context, Literal expr)
{
return context;
}
public ValueTuple visitRecordExpr(ValueTuple context, Record expr)
{
if (expr.Base is not null)
{
Resolve(context, expr.Base.Value);
foreach (var update in expr.Base.Updates)
{
if (update.Value is not null)
{
Resolve(context, update.Value);
}
else
{
// TODO Resolve update.Name like a var expression.
}
}
}
foreach (var extension in expr.Extensions)
{
if (extension.Value is not null)
{
Resolve(context, extension.Value);
}
else
{
// TODO Resolve extension.Name like a var expression.
}
}
return context;
}
public ValueTuple visitSelectorExpr(ValueTuple context, Selector expr)
{
Resolve(context, expr.Left);
return context;
}
public ValueTuple visitSequenceExpr(ValueTuple context, Sequence expr)
{
Resolve(context, expr.Left);
Resolve(context, expr.Right);
return context;
}
public ValueTuple visitUnaryExpr(ValueTuple context, Unary expr)
{
Resolve(context, expr.Right);
return context;
}
public ValueTuple visitVariableExpr(ValueTuple context, Variable expr)
{
ResolveLocal(expr, expr.Value);
return context;
}
private void ResolveLocal(Expr expr, Token name)
{
// TODO I can't peek past the top element of the stack (as is correct for a stack).
// Switch to an immutable stack so I can just pop stuff off, or switch to a list.
throw new NotImplementedException();
}
public ValueTuple visitVariantExpr(ValueTuple context, Variant expr)
{
if (expr.Argument is not null)
{
Resolve(context, expr.Argument);
}
return context;
}
public ValueTuple visitWhenExpr(ValueTuple context, When expr)
{
Resolve(context, expr.Head);
foreach (var _case in expr.Cases)
{
var names = new NameCollection();
_case.Pattern.accept(names, PatternNameCollector.Instance);
ResolveInNewScope(context, names.Names, _case.Value);
}
return context;
}
}
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