Added a bunch of notes
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@ -1,7 +1,6 @@
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use std::collections::HashMap;
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use std::collections::HashMap;
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use std::rc::Rc;
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use std::rc::Rc;
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//SKOLEMIZATION - how you prevent an unassigned existential type variable from leaking!
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use schala_lang::parsing::{AST, Statement, Declaration, Signature, Expression, ExpressionType, Operation, Variant, TypeName};
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use schala_lang::parsing::{AST, Statement, Declaration, Signature, Expression, ExpressionType, Operation, Variant, TypeName};
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@ -18,9 +17,97 @@ use schala_lang::parsing::{AST, Statement, Declaration, Signature, Expression, E
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fn bare_type_check(exprssion, expected_type) -> Ty { ... }
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fn bare_type_check(exprssion, expected_type) -> Ty { ... }
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*/
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*/
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// from https://www.youtube.com/watch?v=il3gD7XMdmA
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/* H-M ALGO NOTES
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// typeInfer :: Expr a -> Matching (Type a)
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from https://www.youtube.com/watch?v=il3gD7XMdmA
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// unify :: Type a -> Type b -> Matching (Type c)
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(also check out http://dev.stephendiehl.com/fun/006_hindley_milner.html)
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typeInfer :: Expr a -> Matching (Type a)
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unify :: Type a -> Type b -> Matching (Type c)
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(Matching a) is a monad in which unification is done
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ex:
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typeInfer (If e1 e2 e3) = do
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t1 <- typeInfer e1
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t2 <- typeInfer e2
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t3 <- typeInfer e3
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_ <- unify t1 BoolType
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unify t2 t3 -- b/c t2 and t3 have to be the same type
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typeInfer (Const (ConstInt _)) = IntType -- same for other literals
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--function application
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typeInfer (Apply f x) = do
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tf <- typeInfer f
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tx <- typeInfer x
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case tf of
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FunctionType t1 t2 -> do
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_ <- unify t1 tx
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return t2
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_ -> fail "Not a function"
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--type annotation
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typeInfer (Typed x t) = do
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tx <- typeInfer x
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unify tx t
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--variable and let expressions - need to pass around a map of variable names to types here
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typeInfer :: [ (Var, Type Var) ] -> Expr Var -> Matching (Type Var)
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typeInfer ctx (Var x) = case (lookup x ctx) of
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Just t -> return t
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Nothing -> fail "Unknown variable"
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--let x = e1 in e2
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typeInfer ctx (Let x e1 e2) = do
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t1 <- typeInfer ctx e1
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typeInfer ((x, t1) :: ctx) e2
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--lambdas are complicated (this represents ʎx.e)
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typeInfer ctx (Lambda x e) = do
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t1 <- allocExistentialVariable
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t2 <- typeInfer ((x, t1) :: ctx) e
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return $ FunctionType t1 t2 -- ie. t1 -> t2
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--to solve the problem of map :: (a -> b) -> [a] -> [b]
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when we use a variable whose type has universal tvars, convert those universal
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tvars to existential ones
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-and each distinct universal tvar needs to map to the same existential type
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-so we change typeinfer:
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typeInfer ctx (Var x) = do
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case (lookup x ctx) of
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Nothing -> ...
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Just t -> do
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let uvars = nub (toList t) -- nub removes duplicates, so this gets unique universally quantified variables
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evars <- mapM (const allocExistentialVariable) uvars
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let varMap = zip uvars evars
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let vixVar varMap v = fromJust $ lookup v varMap
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return (fmap (fixVar varMap) t)
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--how do we define unify??
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-recall, type signature is:
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unify :: Type a -> Type b -> Matching (Type c)
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unify BoolType BoolType = BoolType --easy, same for all constants
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unify (FunctionType t1 t2) (FunctionType t3 t4) = do
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t5 <- unify t1 t3
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t6 <- unify t2 t4
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return $ FunctionType t5 t6
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unify (TVar a) (TVar b) = if a == b then TVar a else fail
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--existential types can be assigned another type at most once
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--some complicated stuff about hanlding existential types
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--everything else is a type error
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unify a b = fail
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SKOLEMIZATION - how you prevent an unassigned existential type variable from leaking!
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-before a type gets to global scope, replace all unassigned existential vars w/ new unique universal
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type variables
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*/
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#[derive(Debug, PartialEq, Clone)]
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#[derive(Debug, PartialEq, Clone)]
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pub enum Type {
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pub enum Type {
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