top level: top level function type var handled
top level: class methods/fields type var handling
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935e7410fd
commit
018d6643e1
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@ -526,8 +526,10 @@ impl TopLevelComposer {
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for type_ann in type_var_occured_in_base {
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if let TypeAnnotation::TypeVarKind(id, ty) = type_ann {
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for (ty_id, class_typvar_ty) in class_type_vars.iter() {
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if id == *ty_id {
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// if they refer to the same top level defined type var, we unify them together
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if id == *ty_id {
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// assert to make sure
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assert!(matches!(self.unifier.get_ty(ty).as_ref(), TypeEnum::TVar{ .. }));
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self.unifier.unify(ty, *class_typvar_ty)?;
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}
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}
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@ -560,6 +562,7 @@ impl TopLevelComposer {
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let def_ast_list = &self.definition_ast_list;
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let mut type_var_to_concrete_def: HashMap<Type, TypeAnnotation> = HashMap::new();
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for (class_def, class_ast) in def_ast_list {
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Self::analyze_single_class(
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class_def.clone(),
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@ -597,17 +600,17 @@ impl TopLevelComposer {
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let function_ast = if let Some(function_ast) = function_ast {
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function_ast
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} else {
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// no ast, class method, continue
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continue;
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};
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if let TopLevelDef::Function { signature: dummy_ty, resolver, .. } = function_def {
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if let ast::StmtKind::FunctionDef { args, returns, .. } = &function_ast.node {
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let resolver = resolver.as_ref();
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let resolver = resolver.unwrap();
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let resolver = resolver.deref();
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let function_resolver = resolver.deref();
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// occured type vars should not be handled separately
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// TODO: type vars occured as applications of generic classes is not handled
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let mut occured_type_var: HashMap<u32, Type> = HashMap::new();
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let mut function_var_map: HashMap<u32, Type> = HashMap::new();
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let arg_types = {
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@ -633,27 +636,55 @@ impl TopLevelComposer {
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})?
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.as_ref();
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let mut ty = function_resolver.parse_type_annotation(
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let type_annotation = parse_ast_to_type_annotation_kinds(
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resolver,
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temp_def_list.as_slice(),
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unifier,
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primitives_store,
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annotation,
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annotation
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)?;
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if let TypeEnum::TVar { id, .. } =
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unifier.get_ty(ty).as_ref()
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{
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if let Some(occured_ty) = occured_type_var.get(id) {
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// if already occured
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ty = *occured_ty;
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let ty = get_type_from_type_annotation_kinds(
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temp_def_list.as_ref(),
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unifier,
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primitives_store,
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&type_annotation
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)?;
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// if there are same type variables appears, we only need to copy them once
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let type_vars_within =
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get_type_var_contained_in_type_annotation(&type_annotation)
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.into_iter()
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.map(|x| {
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if let TypeAnnotation::TypeVarKind(id, ty) = x {
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// assert here to make sure the ty is TypeEnum::TVar
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assert!(matches!(unifier.get_ty(ty).as_ref(), TypeEnum::TVar{ .. }));
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(id, ty)
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} else {
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// if not, create a duplicate
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let ty_copy = duplicate_type_var(unifier, ty);
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ty = ty_copy.0;
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occured_type_var.insert(*id, ty);
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function_var_map.insert(ty_copy.1, ty_copy.0);
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unreachable!("must be type var annotation kind")
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}
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})
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.collect_vec();
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for (top_level_var_id, ty) in type_vars_within {
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if let Some(occured_ty) = occured_type_var.get(&top_level_var_id) {
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// if already occured, we unify this two duplicated
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// type var of the same top level type var
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unifier.unify(ty, *occured_ty)?;
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} else {
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// if not, put it into the occured type var hashmap,
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// since parse_ast_to_type_var already duplicated it
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// we do not need to duplicate it again
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occured_type_var.insert(top_level_var_id, ty);
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// the type var map to it self
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if let TypeEnum::TVar { id: self_id, .. } = unifier.get_ty(ty).as_ref() {
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function_var_map.insert(*self_id, ty);
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} else {
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unreachable!("must be type var");
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}
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}
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}
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// TODO: default value?
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Ok(FuncArg {
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name: x.node.arg.clone(),
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ty,
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@ -663,18 +694,40 @@ impl TopLevelComposer {
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.collect::<Result<Vec<_>, _>>()?
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};
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let return_ty = {
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let return_ty_annotation = {
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let return_annotation = returns
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.as_ref()
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.ok_or_else(|| "function return type needed".to_string())?
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.as_ref();
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function_resolver.parse_type_annotation(
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temp_def_list.as_slice(),
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parse_ast_to_type_annotation_kinds(resolver, &temp_def_list, unifier, primitives_store, return_annotation)?
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};
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let return_ty =
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get_type_from_type_annotation_kinds(
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&temp_def_list,
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unifier,
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primitives_store,
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return_annotation,
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)?
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};
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&return_ty_annotation
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)?;
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let type_vars_within =
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get_type_var_contained_in_type_annotation(&return_ty_annotation)
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.into_iter()
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.map(|x|
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if let TypeAnnotation::TypeVarKind(id, ty) = x {
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(id, ty)
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} else {
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unreachable!("must be type var here")
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}
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)
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.collect_vec();
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for (top_level_var_id, ty) in type_vars_within {
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if let Some(existing_ty) = occured_type_var.get(&top_level_var_id) {
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// should not return err here
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unifier.unify(ty, *existing_ty)?;
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} else {
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occured_type_var.insert(top_level_var_id, ty);
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}
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}
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let function_ty = unifier.add_ty(TypeEnum::TFunc(
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FunSignature { args: arg_types, ret: return_ty, vars: function_var_map }
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@ -745,7 +798,7 @@ impl TopLevelComposer {
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unreachable!("here must be class def ast");
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};
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let class_resolver = class_resolver.as_ref().unwrap();
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let class_resolver = class_resolver;
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let class_resolver = class_resolver.as_ref();
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for b in class_body_ast {
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if let ast::StmtKind::FunctionDef { args, returns, name, body, .. } = &b.node {
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@ -756,7 +809,7 @@ impl TopLevelComposer {
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// while tracking the type var associated with class
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// TODO: type vars occured as applications of generic classes is not handled
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let mut method_var_map: HashMap<u32, Type> = HashMap::new();
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let arg_type: Vec<FuncArg> = {
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let arg_types: Vec<FuncArg> = {
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// check method parameters cannot have same name
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let mut defined_paramter_name: HashSet<String> = HashSet::new();
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let have_unique_fuction_parameter_name =
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@ -786,36 +839,55 @@ impl TopLevelComposer {
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};
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// handle to differentiate type vars that are
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// asscosiated with the class and that are not
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// TODO: type vars occured as applications of generic classes is not handled
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if let TypeAnnotation::TypeVarKind(id, ty) = &type_ann {
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let associated = class_type_vars_def
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.iter()
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.filter(|(class_type_var_id, _)| *class_type_var_id == *id)
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.collect_vec();
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match associated.len() {
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// 0, do nothing, this is not a type var
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// associated with the method's class
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// TODO: but this type var can occur multiple times in this
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// method's param list, still need to keep track of type vars
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// associated with this function
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0 => {}
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// is type var associated with class, do the unification here
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1 => {
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unifier.unify(*ty, associated[0].1)?;
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}
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_ => {
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unreachable!("there should not be duplicate type var");
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let type_vars_within = get_type_var_contained_in_type_annotation(&type_ann);
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for type_var_within in type_vars_within {
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if let TypeAnnotation::TypeVarKind(top_level_id, ty) = type_var_within {
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for (class_type_var_top_level_id, class_type_var_ty) in class_type_vars_def.iter() {
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if top_level_id == *class_type_var_top_level_id {
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unifier.unify(ty, *class_type_var_ty)?;
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}
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}
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// just insert the id and ty of self
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// since the function is not instantiated yet
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if let TypeEnum::TVar { id, .. } = unifier.get_ty(*ty).as_ref() {
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method_var_map.insert(*id, *ty);
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// note that this has to be done after the unify step between the common type vars
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// between the method and the class(unify of type variables associated with class)
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// since after unification, the var_id will change.
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method_var_map.insert()
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} else {
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unreachable!("must be type var")
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unreachable!("must be type var annotation");
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}
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}
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// if let TypeAnnotation::TypeVarKind(id, ty) = &type_ann {
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// let associated = class_type_vars_def
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// .iter()
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// .filter(|(class_type_var_id, _)| *class_type_var_id == *id)
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// .collect_vec();
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// match associated.len() {
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// // 0, do nothing, this is not a type var
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// // associated with the method's class
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// // TODO: but this type var can occur multiple times in this
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// // method's param list, still need to keep track of type vars
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// // associated with this function
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// 0 => {}
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// // is type var associated with class, do the unification here
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// 1 => {
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// unifier.unify(*ty, associated[0].1)?;
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// }
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// _ => {
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// unreachable!("there should not be duplicate type var");
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// }
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// }
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// // just insert the id and ty of self
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// // since the function is not instantiated yet
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// if let TypeEnum::TVar { id, .. } = unifier.get_ty(*ty).as_ref() {
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// method_var_map.insert(*id, *ty);
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// } else {
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// unreachable!("must be type var")
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// }
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// }
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let dummy_func_arg = FuncArg {
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name,
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ty: unifier.get_fresh_var().0,
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@ -876,7 +948,7 @@ impl TopLevelComposer {
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};
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let method_type = unifier.add_ty(TypeEnum::TFunc(
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FunSignature { args: arg_type, ret: ret_type, vars: method_var_map }.into(),
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FunSignature { args: arg_types, ret: ret_type, vars: method_var_map }.into(),
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));
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// unify now since function type is not in type annotation define
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// which is fine since type within method_type will be subst later
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@ -959,4 +1031,31 @@ impl TopLevelComposer {
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result.push(child);
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result
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}
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/// handle the method function types (especially the type vars things)
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/// arg: ast node Arguments, contains lists of various kinds of function parameters, now only deal with arg.arg
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/// resolver: the resolver of the corresponding top_level_function/class
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/// class_type_vars: if is class method, this is the reference to the field: TopLevelDef::Class.type_vars \
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/// \
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/// return a tuple of three:
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/// 0. vector of FuncArg which is used to construct the FunSignature
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/// 1. Hashmap of occured type vars for later analyze the return type
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/// 2. Hashmap of the function type var map to build the FunSignature
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fn analyze_function_args_type(
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arg: &ast::Arguments,
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resolver: &(dyn SymbolResolver + Send + Sync),
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class_type_vars: Option<&[(u32, Type)]>
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) -> (Vec<FuncArg>, HashMap<u32, Type>, HashMap<u32, Type>) {
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let mut occured_type_var: HashMap<u32, Type> = HashMap::new();
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let mut function_var_map: HashMap<u32, Type> = HashMap::new();
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// the type var of the class is essentially the occured_type_def
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if let Some(class_type_vars) = class_type_vars {
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occured_type_var.extend(class_type_vars.into_iter());
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}
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unimplemented!()
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}
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}
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@ -21,6 +21,7 @@ pub enum TypeAnnotation {
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TypeVarKind(u32, Type),
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}
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/// if is typevar, this function will make a copy of it
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pub fn parse_ast_to_type_annotation_kinds<T>(
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resolver: &Box<dyn SymbolResolver + Send + Sync>,
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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@ -58,8 +59,8 @@ pub fn parse_ast_to_type_annotation_kinds<T>(
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// but record the var_id of the original type var
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// returned by symbol resolver
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Ok(TypeAnnotation::TypeVarKind(
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// this id is the id of the top level type var
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*id,
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// TODO: maybe not duplicate will also be fine here?
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duplicate_type_var(unifier, ty).0
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))
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} else {
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@ -143,6 +144,7 @@ pub fn parse_ast_to_type_annotation_kinds<T>(
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}
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}
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/// if is typeannotation::tvar, this function will NOT make a copy of it
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pub fn get_type_from_type_annotation_kinds(
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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@ -245,8 +247,19 @@ pub fn duplicate_type_var(
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/// class A(Generic[T, V]):
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/// def fun(self):
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/// ```
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/// the type of `self` should be equivalent to `A[T, V]`, where `T`, `V`
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/// considered to be type variables associated with the class
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/// the type of `self` should be similar to `A[T, V]`, where `T`, `V`
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/// considered to be type variables associated with the class \
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/// \
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/// But note that here we do not make a duplication of `T`, `V`, we direclty
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/// use them as they are in the TopLevelDef::Class since those in the
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/// TopLevelDef::Class.type_vars will be substitute later when seeing applications/instantiations
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/// the Type of their fields and methods will also be subst when application/instantiation \
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/// \
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/// Note this implicit self type is different with seeing `A[T, V]` explicitly outside
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/// the class def ast body, where it is a new instantiation of the generic class `A`,
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/// but equivalent to seeing `A[T, V]` inside the class def body ast, where although we
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/// create copies of `T` and `V`, we will find them out as occured type vars in the analyze_class()
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/// and unify them with the class generic `T`, `V`
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pub fn make_self_type_annotation(
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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def_id: DefinitionId,
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@ -263,10 +276,9 @@ pub fn make_self_type_annotation(
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id: def_id,
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params: type_vars
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.iter()
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.map(|(var_id, ty)| TypeAnnotation::TypeVarKind(
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*var_id,
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duplicate_type_var(unifier, *ty).0
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))
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// note here the var_id also points to the var_id of
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// the top level defined type var's var id
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.map(|(var_id, ty)| TypeAnnotation::TypeVarKind(*var_id, *ty))
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.collect_vec()
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})
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} else {
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@ -276,6 +288,7 @@ pub fn make_self_type_annotation(
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/// get all the occurences of type vars contained in a type annotation
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/// e.g. `A[int, B[T], V]` => [T, V]
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/// this function will not make a duplicate of type var
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pub fn get_type_var_contained_in_type_annotation(ann: &TypeAnnotation) -> Vec<TypeAnnotation> {
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let mut result: Vec<TypeAnnotation> = Vec::new();
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match ann {
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