schala/schala-lang/src/typechecking.rs

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use std::rc::Rc;
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use std::collections::{HashSet, HashMap};
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use std::collections::hash_set::Union;
use std::iter::Iterator;
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use std::fmt;
use std::fmt::Write;
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use itertools::Itertools;
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use parsing;
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pub struct TypeContext;
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impl TypeContext {
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pub fn new() -> TypeContext {
TypeContext { }
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}
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pub fn debug_types(&self) -> String {
format!("Nothing to debug")
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}
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pub fn type_check_ast(&mut self, input: &parsing::AST) -> Result<String, String> {
Ok(format!("VOID VOID VOID"))
}
}
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/* GIANT TODO - use the rust im crate, unless I make this code way less haskell-ish after it's done
*/
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/*
type TypeName = Rc<String>;
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pub type TypeResult<T> = Result<T, String>;
*/
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/* TODO this should just check the name against a map, and that map should be pre-populated with
* types */
/*
impl parsing::TypeName {
fn to_type(&self) -> TypeResult<Type> {
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use self::parsing::TypeSingletonName;
use self::parsing::TypeName::*;
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use self::Type::*; use self::TConstOld::*;
Ok(match self {
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Tuple(_) => return Err(format!("Tuples not yet implemented")),
Singleton(name) => match name {
TypeSingletonName { name, .. } => match &name[..] {
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/*
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"Nat" => Const(Nat),
"Int" => Const(Int),
"Float" => Const(Float),
"Bool" => Const(Bool),
"String" => Const(StringT),
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*/
n => Const(Custom(n.to_string()))
}
}
})
}
}
*/
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/*
impl TypeContext {
pub fn type_check_ast(&mut self, ast: &parsing::AST) -> TypeResult<String> {
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let ref block = ast.0;
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let mut infer = Infer::default();
let env = TypeEnvironment::default();
let output = infer.infer_block(block, &env);
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match output {
Ok(s) => Ok(format!("{:?}", s)),
Err(s) => Err(format!("Error: {:?}", s))
}
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}
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}
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// this is the equivalent of the Haskell Infer monad
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#[derive(Debug, Default)]
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struct Infer {
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_idents: u32,
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}
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#[derive(Debug)]
enum InferError {
CannotUnify(MonoType, MonoType),
OccursCheckFailed(Rc<String>, MonoType),
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UnknownIdentifier(Rc<String>),
Custom(String),
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}
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type InferResult<T> = Result<T, InferError>;
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impl Infer {
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fn fresh(&mut self) -> MonoType {
let i = self._idents;
self._idents += 1;
let name = Rc::new(format!("{}", ('a' as u8 + 1) as char));
MonoType::Var(name)
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}
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fn unify(&mut self, a: MonoType, b: MonoType) -> InferResult<Substitution> {
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use self::InferError::*; use self::MonoType::*;
Ok(match (a, b) {
(Const(ref a), Const(ref b)) if a == b => Substitution::new(),
(Var(ref name), ref var) => Substitution::bind_variable(name, var),
(ref var, Var(ref name)) => Substitution::bind_variable(name, var),
(Function(box a1, box b1), Function(box a2, box b2)) => {
let s1 = self.unify(a1, a2)?;
let s2 = self.unify(b1.apply_substitution(&s1), b2.apply_substitution(&s1))?;
s1.merge(s2)
},
(a, b) => return Err(CannotUnify(a, b))
})
}
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fn infer_block(&mut self, block: &Vec<parsing::Statement>, env: &TypeEnvironment) -> InferResult<MonoType> {
use self::parsing::Statement;
let mut ret = MonoType::Const(TypeConst::Unit);
for statement in block.iter() {
ret = match statement {
Statement::ExpressionStatement(expr) => {
let (sub, ty) = self.infer_expr(expr, env)?;
//TODO handle substitution monadically
ty
}
Statement::Declaration(decl) => MonoType::Const(TypeConst::Unit),
}
}
Ok(ret)
}
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fn infer_expr(&mut self, expr: &parsing::Expression, env: &TypeEnvironment) -> InferResult<(Substitution, MonoType)> {
use self::parsing::Expression;
match expr {
Expression(e, Some(anno)) => self.infer_annotated_expr(e, anno, env),
/*
let anno_ty = anno.to_type()?;
let ty = self.infer_exprtype(&e)?;
self.unify(ty, anno_ty)
},
*/
Expression(e, None) => self.infer_exprtype(e, env)
}
}
fn infer_annotated_expr(&mut self, expr: &parsing::ExpressionType, anno: &parsing::TypeName, env: &TypeEnvironment) -> InferResult<(Substitution, MonoType)> {
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Err(InferError::Custom(format!("exprtype not done: {:?}", expr)))
}
fn infer_exprtype(&mut self, expr: &parsing::ExpressionType, env: &TypeEnvironment) -> InferResult<(Substitution, MonoType)> {
use self::parsing::ExpressionType::*;
use self::TypeConst::*;
Ok(match expr {
NatLiteral(_) => (Substitution::new(), MonoType::Const(Nat)),
FloatLiteral(_) => (Substitution::new(), MonoType::Const(Float)),
StringLiteral(_) => (Substitution::new(), MonoType::Const(StringT)),
BoolLiteral(_) => (Substitution::new(), MonoType::Const(Bool)),
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Value(name) => match env.lookup(name) {
Some(sigma) => {
let tau = self.instantiate(&sigma);
(Substitution::new(), tau)
},
None => return Err(InferError::UnknownIdentifier(name.clone())),
},
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e => return Err(InferError::Custom(format!("Type inference for {:?} not done", e)))
})
}
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fn instantiate(&mut self, sigma: &PolyType) -> MonoType {
let ref ty: MonoType = sigma.1;
let mut subst = Substitution::new();
for name in sigma.0.iter() {
let fresh_mvar = self.fresh();
let new = Substitution::bind_variable(name, &fresh_mvar);
subst = subst.merge(new);
}
ty.apply_substitution(&subst)
}
}
*/
/* OLD STUFF DOWN HERE */
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/*
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impl TypeContext {
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fn infer_block(&mut self, statements: &Vec<parsing::Statement>) -> TypeResult<Type> {
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let mut ret_type = Type::Const(TConst::Unit);
for statement in statements {
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ret_type = self.infer_statement(statement)?;
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}
Ok(ret_type)
}
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fn infer_statement(&mut self, statement: &parsing::Statement) -> TypeResult<Type> {
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use self::parsing::Statement::*;
match statement {
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ExpressionStatement(expr) => self.infer(expr),
Declaration(decl) => self.add_declaration(decl),
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}
}
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fn add_declaration(&mut self, decl: &parsing::Declaration) -> TypeResult<Type> {
use self::parsing::Declaration::*;
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use self::Type::*;
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match decl {
Binding { name, expr, .. } => {
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let ty = self.infer(expr)?;
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self.bindings.insert(name.clone(), ty);
},
_ => return Err(format!("other formats not done"))
}
Ok(Void)
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}
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fn infer(&mut self, expr: &parsing::Expression) -> TypeResult<Type> {
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use self::parsing::Expression;
match expr {
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Expression(e, Some(anno)) => {
let anno_ty = anno.to_type()?;
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let ty = self.infer_exprtype(&e)?;
self.unify(ty, anno_ty)
},
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Expression(e, None) => self.infer_exprtype(e)
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}
}
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fn infer_exprtype(&mut self, expr: &parsing::ExpressionType) -> TypeResult<Type> {
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use self::parsing::ExpressionType::*;
use self::Type::*; use self::TConst::*;
match expr {
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NatLiteral(_) => Ok(Const(Nat)),
FloatLiteral(_) => Ok(Const(Float)),
StringLiteral(_) => Ok(Const(StringT)),
BoolLiteral(_) => Ok(Const(Bool)),
BinExp(op, lhs, rhs) => { /* remember there are both the haskell convention talk and the write you a haskell ways to do this! */
match op.get_type()? {
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Func(box t1, box Func(box t2, box t3)) => {
let lhs_ty = self.infer(lhs)?;
let rhs_ty = self.infer(rhs)?;
self.unify(t1, lhs_ty)?;
self.unify(t2, rhs_ty)?;
Ok(t3)
},
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other => Err(format!("{:?} is not a binary function type", other))
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}
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},
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PrefixExp(op, expr) => match op.get_type()? {
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Func(box t1, box t2) => {
let expr_ty = self.infer(expr)?;
self.unify(t1, expr_ty)?;
Ok(t2)
},
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other => Err(format!("{:?} is not a prefix op function type", other))
},
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Value(name) => {
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match self.bindings.get(name) {
Some(ty) => Ok(ty.clone()),
None => Err(format!("No binding found for variable: {}", name)),
}
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},
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Call { f, arguments } => {
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let mut tf = self.infer(f)?;
for arg in arguments.iter() {
match tf {
Func(box t, box rest) => {
let t_arg = self.infer(arg)?;
self.unify(t, t_arg)?;
tf = rest;
},
other => return Err(format!("Function call failed to unify; last type: {:?}", other)),
}
}
Ok(tf)
},
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TupleLiteral(expressions) => {
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let mut types = vec![];
for expr in expressions {
types.push(self.infer(expr)?);
}
Ok(Sum(types))
},
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_ => Err(format!("Type not yet implemented"))
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}
}
fn unify(&mut self, t1: Type, t2: Type) -> TypeResult<Type> {
use self::Type::*;// use self::TConst::*;
match (t1, t2) {
(Const(ref a), Const(ref b)) if a == b => Ok(Const(a.clone())),
(a, b) => Err(format!("Types {:?} and {:?} don't unify", a, b))
}
}
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}
*/
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