new is_concrete type check
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f665ea358b
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832513e210
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@ -35,13 +35,11 @@ impl<'a> Inferencer<'a> {
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) -> Result<(), String> {
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) -> Result<(), String> {
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// there are some cases where the custom field is None
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// there are some cases where the custom field is None
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if let Some(ty) = &expr.custom {
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if let Some(ty) = &expr.custom {
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let ty = self.unifier.get_ty(*ty);
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if !self.unifier.is_concrete(*ty, &self.function_data.bound_variables) {
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let ty = ty.as_ref();
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if !ty.is_concrete() {
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return Err(format!(
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return Err(format!(
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"expected concrete type at {} but got {}",
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"expected concrete type at {} but got {}",
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expr.location,
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expr.location,
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ty.get_type_name()
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self.unifier.get_ty(*ty).get_type_name()
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));
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));
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}
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}
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}
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}
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@ -25,14 +25,18 @@ pub struct PrimitiveStore {
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pub none: Type,
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pub none: Type,
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}
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}
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pub struct FunctionData {
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pub resolver: Box<dyn SymbolResolver>,
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pub return_type: Option<Type>,
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pub bound_variables: Vec<Type>,
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}
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pub struct Inferencer<'a> {
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pub struct Inferencer<'a> {
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pub resolver: &'a mut Box<dyn SymbolResolver>,
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pub function_data: &'a mut FunctionData,
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pub unifier: &'a mut Unifier,
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pub unifier: &'a mut Unifier,
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pub primitives: &'a PrimitiveStore,
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pub virtual_checks: &'a mut Vec<(Type, Type)>,
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pub virtual_checks: &'a mut Vec<(Type, Type)>,
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pub variable_mapping: HashMap<String, Type>,
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pub variable_mapping: HashMap<String, Type>,
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pub calls: &'a mut Vec<Rc<Call>>,
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pub primitives: &'a PrimitiveStore,
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pub return_type: Option<Type>,
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}
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}
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struct NaiveFolder();
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struct NaiveFolder();
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@ -65,6 +69,7 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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None
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None
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};
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};
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let annotation_type = self
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let annotation_type = self
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.function_data
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.resolver
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.resolver
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.parse_type_name(annotation.as_ref())
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.parse_type_name(annotation.as_ref())
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.ok_or_else(|| "cannot parse type name".to_string())?;
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.ok_or_else(|| "cannot parse type name".to_string())?;
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@ -93,7 +98,7 @@ impl<'a> fold::Fold<()> for Inferencer<'a> {
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}
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}
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ast::StmtKind::AnnAssign { .. } | ast::StmtKind::Expr { .. } => {}
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ast::StmtKind::AnnAssign { .. } | ast::StmtKind::Expr { .. } => {}
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ast::StmtKind::Break | ast::StmtKind::Continue => {}
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ast::StmtKind::Break | ast::StmtKind::Continue => {}
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ast::StmtKind::Return { value } => match (value, self.return_type) {
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ast::StmtKind::Return { value } => match (value, self.function_data.return_type) {
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(Some(v), Some(v1)) => {
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(Some(v), Some(v1)) => {
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self.unifier.unify(v.custom.unwrap(), v1)?;
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self.unifier.unify(v.custom.unwrap(), v1)?;
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}
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}
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@ -171,7 +176,6 @@ impl<'a> Inferencer<'a> {
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) -> InferenceResult {
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) -> InferenceResult {
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let call =
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let call =
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Rc::new(Call { posargs: params, kwargs: HashMap::new(), ret, fun: RefCell::new(None) });
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Rc::new(Call { posargs: params, kwargs: HashMap::new(), ret, fun: RefCell::new(None) });
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self.calls.push(call.clone());
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call].into()));
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call].into()));
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let fields = once((method, call)).collect();
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let fields = once((method, call)).collect();
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let record = self.unifier.add_record(fields);
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let record = self.unifier.add_record(fields);
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@ -207,13 +211,11 @@ impl<'a> Inferencer<'a> {
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variable_mapping.extend(fn_args.iter().cloned());
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variable_mapping.extend(fn_args.iter().cloned());
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let ret = self.unifier.get_fresh_var().0;
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let ret = self.unifier.get_fresh_var().0;
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let mut new_context = Inferencer {
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let mut new_context = Inferencer {
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resolver: self.resolver,
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function_data: self.function_data,
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unifier: self.unifier,
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unifier: self.unifier,
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primitives: self.primitives,
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virtual_checks: self.virtual_checks,
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virtual_checks: self.virtual_checks,
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variable_mapping,
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variable_mapping,
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calls: self.calls,
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primitives: self.primitives,
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return_type: self.return_type,
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};
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};
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let fun = FunSignature {
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let fun = FunSignature {
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args: fn_args
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args: fn_args
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@ -250,13 +252,11 @@ impl<'a> Inferencer<'a> {
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}
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}
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let variable_mapping = self.variable_mapping.clone();
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let variable_mapping = self.variable_mapping.clone();
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let mut new_context = Inferencer {
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let mut new_context = Inferencer {
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resolver: self.resolver,
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function_data: self.function_data,
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unifier: self.unifier,
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unifier: self.unifier,
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virtual_checks: self.virtual_checks,
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virtual_checks: self.virtual_checks,
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variable_mapping,
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variable_mapping,
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calls: self.calls,
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primitives: self.primitives,
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primitives: self.primitives,
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return_type: self.return_type,
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};
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};
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let elt = new_context.fold_expr(elt)?;
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let elt = new_context.fold_expr(elt)?;
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let generator = generators.pop().unwrap();
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let generator = generators.pop().unwrap();
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@ -315,7 +315,7 @@ impl<'a> Inferencer<'a> {
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}
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}
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let arg0 = self.fold_expr(args.remove(0))?;
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let arg0 = self.fold_expr(args.remove(0))?;
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let ty = if let Some(arg) = args.pop() {
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let ty = if let Some(arg) = args.pop() {
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self.resolver
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self.function_data.resolver
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.parse_type_name(&arg)
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.parse_type_name(&arg)
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.ok_or_else(|| "error parsing type".to_string())?
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.ok_or_else(|| "error parsing type".to_string())?
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} else {
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} else {
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@ -379,7 +379,6 @@ impl<'a> Inferencer<'a> {
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fun: RefCell::new(None),
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fun: RefCell::new(None),
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ret,
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ret,
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});
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});
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self.calls.push(call.clone());
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call].into()));
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call].into()));
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self.unifier.unify(func.custom.unwrap(), call)?;
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self.unifier.unify(func.custom.unwrap(), call)?;
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@ -390,7 +389,7 @@ impl<'a> Inferencer<'a> {
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if let Some(ty) = self.variable_mapping.get(id) {
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if let Some(ty) = self.variable_mapping.get(id) {
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Ok(*ty)
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Ok(*ty)
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} else {
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} else {
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Ok(self.resolver.get_symbol_type(id).unwrap_or_else(|| {
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Ok(self.function_data.resolver.get_symbol_type(id).unwrap_or_else(|| {
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let ty = self.unifier.get_fresh_var().0;
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let ty = self.unifier.get_fresh_var().0;
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self.variable_mapping.insert(id.to_string(), ty);
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self.variable_mapping.insert(id.to_string(), ty);
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ty
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ty
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@ -37,8 +37,7 @@ impl SymbolResolver for Resolver {
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struct TestEnvironment {
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struct TestEnvironment {
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pub unifier: Unifier,
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pub unifier: Unifier,
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pub resolver: Box<dyn SymbolResolver>,
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pub function_data: FunctionData,
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pub calls: Vec<Rc<Call>>,
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pub primitives: PrimitiveStore,
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pub primitives: PrimitiveStore,
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pub id_to_name: HashMap<usize, String>,
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pub id_to_name: HashMap<usize, String>,
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pub identifier_mapping: HashMap<String, Type>,
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pub identifier_mapping: HashMap<String, Type>,
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@ -149,24 +148,25 @@ impl TestEnvironment {
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TestEnvironment {
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TestEnvironment {
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unifier,
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unifier,
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resolver,
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function_data: FunctionData {
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resolver,
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bound_variables: Vec::new(),
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return_type: None
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},
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primitives,
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primitives,
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id_to_name,
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id_to_name,
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identifier_mapping,
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identifier_mapping,
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calls: Vec::new(),
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virtual_checks: Vec::new(),
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virtual_checks: Vec::new(),
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}
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}
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}
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}
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fn get_inferencer(&mut self) -> Inferencer {
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fn get_inferencer(&mut self) -> Inferencer {
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Inferencer {
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Inferencer {
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resolver: &mut self.resolver,
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function_data: &mut self.function_data,
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unifier: &mut self.unifier,
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unifier: &mut self.unifier,
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variable_mapping: Default::default(),
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variable_mapping: Default::default(),
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calls: &mut self.calls,
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primitives: &mut self.primitives,
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primitives: &mut self.primitives,
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virtual_checks: &mut self.virtual_checks,
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virtual_checks: &mut self.virtual_checks,
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return_type: None,
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}
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}
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}
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}
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}
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}
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@ -83,10 +83,6 @@ impl TypeEnum {
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TypeEnum::TFunc { .. } => "TFunc",
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TypeEnum::TFunc { .. } => "TFunc",
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}
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}
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}
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}
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pub fn is_concrete(&self) -> bool {
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!matches!(self, TypeEnum::TVar { .. })
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}
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}
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}
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pub struct Unifier {
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pub struct Unifier {
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@ -143,6 +139,23 @@ impl Unifier {
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(self.add_ty(TypeEnum::TVar { id, range, meta: TypeVarMeta::Generic }), id)
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(self.add_ty(TypeEnum::TVar { id, range, meta: TypeVarMeta::Generic }), id)
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}
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}
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pub fn is_concrete(&mut self, a: Type, allowed_typevars: &[Type]) -> bool {
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use TypeEnum::*;
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match &*self.get_ty(a) {
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TVar { .. } => allowed_typevars.iter().any(|b| self.unification_table.unioned(a, *b)),
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TCall { .. } => false,
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TList { ty } => self.is_concrete(*ty, allowed_typevars),
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TTuple { ty } => ty.iter().all(|ty| self.is_concrete(*ty, allowed_typevars)),
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TObj { params: vars, .. } => {
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vars.values().all(|ty| self.is_concrete(*ty, allowed_typevars))
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}
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// functions are instantiated for each call sites, so the function type can contain
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// type variables.
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TFunc { .. } => true,
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TVirtual { ty } => self.is_concrete(*ty, allowed_typevars),
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}
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}
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pub fn unify(&mut self, a: Type, b: Type) -> Result<(), String> {
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pub fn unify(&mut self, a: Type, b: Type) -> Result<(), String> {
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if self.unification_table.unioned(a, b) {
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if self.unification_table.unioned(a, b) {
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Ok(())
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Ok(())
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@ -204,7 +217,7 @@ impl Unifier {
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}
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}
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for v1 in old_range2.iter() {
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for v1 in old_range2.iter() {
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for v2 in range1.iter() {
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for v2 in range1.iter() {
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if let Ok(result) = self.get_intersection(*v1, *v2){
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if let Ok(result) = self.get_intersection(*v1, *v2) {
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range2.push(result.unwrap_or(*v2));
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range2.push(result.unwrap_or(*v2));
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}
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}
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}
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}
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@ -486,7 +499,7 @@ impl Unifier {
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Err(format!("Cannot unify {} with {}", a.get_type_name(), b.get_type_name()))
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Err(format!("Cannot unify {} with {}", a.get_type_name(), b.get_type_name()))
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}
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}
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/// Instantiate a function if it hasn't been instntiated.
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/// Instantiate a function if it hasn't been instantiated.
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/// Returns Some(T) where T is the instantiated type.
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/// Returns Some(T) where T is the instantiated type.
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/// Returns None if the function is already instantiated.
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/// Returns None if the function is already instantiated.
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fn instantiate_fun(&mut self, ty: Type, fun: &FunSignature) -> Type {
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fn instantiate_fun(&mut self, ty: Type, fun: &FunSignature) -> Type {
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