forked from M-Labs/nac3
core: improve binop and cmpop error messages
This commit is contained in:
parent
0a732691c9
commit
f52086b706
@ -1202,11 +1202,11 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
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{
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{
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let llvm_usize = generator.get_size_type(ctx.ctx);
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let llvm_usize = generator.get_size_type(ctx.ctx);
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if is_aug_assign {
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if op.variant == BinopVariant::AugAssign {
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todo!("Augmented assignment operators not implemented for lists")
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todo!("Augmented assignment operators not implemented for lists")
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}
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}
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match op {
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match op.base {
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Operator::Add => {
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Operator::Add => {
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debug_assert_eq!(ty1.obj_id(&ctx.unifier), Some(PrimDef::List.id()));
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debug_assert_eq!(ty1.obj_id(&ctx.unifier), Some(PrimDef::List.id()));
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debug_assert_eq!(ty2.obj_id(&ctx.unifier), Some(PrimDef::List.id()));
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debug_assert_eq!(ty2.obj_id(&ctx.unifier), Some(PrimDef::List.id()));
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@ -486,18 +486,20 @@ pub fn typeof_binop(
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lhs: Type,
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lhs: Type,
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rhs: Type,
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rhs: Type,
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) -> Result<Option<Type>, String> {
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) -> Result<Option<Type>, String> {
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let op = Binop { base: op, variant: BinopVariant::Normal };
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let is_left_list = lhs.obj_id(unifier).is_some_and(|id| id == PrimDef::List.id());
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let is_left_list = lhs.obj_id(unifier).is_some_and(|id| id == PrimDef::List.id());
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let is_right_list = rhs.obj_id(unifier).is_some_and(|id| id == PrimDef::List.id());
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let is_right_list = rhs.obj_id(unifier).is_some_and(|id| id == PrimDef::List.id());
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let is_left_ndarray = lhs.obj_id(unifier).is_some_and(|id| id == PrimDef::NDArray.id());
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let is_left_ndarray = lhs.obj_id(unifier).is_some_and(|id| id == PrimDef::NDArray.id());
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let is_right_ndarray = rhs.obj_id(unifier).is_some_and(|id| id == PrimDef::NDArray.id());
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let is_right_ndarray = rhs.obj_id(unifier).is_some_and(|id| id == PrimDef::NDArray.id());
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Ok(Some(match op {
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Ok(Some(match op.base {
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Operator::Add | Operator::Sub | Operator::Mult | Operator::Mod | Operator::FloorDiv => {
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Operator::Add | Operator::Sub | Operator::Mult | Operator::Mod | Operator::FloorDiv => {
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if is_left_list || is_right_list {
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if is_left_list || is_right_list {
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if ![Operator::Add, Operator::Mult].contains(&op) {
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if ![Operator::Add, Operator::Mult].contains(&op.base) {
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return Err(format!(
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return Err(format!(
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"Binary operator {} not supported for list",
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"Binary operator {} not supported for list",
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binop_name(op)
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op.op_info().symbol
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));
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));
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}
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}
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@ -1,11 +1,14 @@
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use std::collections::HashMap;
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use std::collections::HashMap;
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use std::fmt::Display;
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use std::fmt::Display;
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use crate::typecheck::typedef::TypeEnum;
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use crate::typecheck::{magic_methods::HasOpInfo, typedef::TypeEnum};
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use super::typedef::{RecordKey, Type, Unifier};
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use super::{
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magic_methods::Binop,
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typedef::{RecordKey, Type, Unifier},
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};
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use itertools::Itertools;
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use itertools::Itertools;
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use nac3parser::ast::{Location, StrRef};
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use nac3parser::ast::{Cmpop, Location, StrRef};
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#[derive(Debug, Clone)]
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#[derive(Debug, Clone)]
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pub enum TypeErrorKind {
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pub enum TypeErrorKind {
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@ -26,6 +29,18 @@ pub enum TypeErrorKind {
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expected: Type,
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expected: Type,
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got: Type,
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got: Type,
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},
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},
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UnsupportedBinaryOpTypes {
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operator: Binop,
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lhs_type: Type,
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rhs_type: Type,
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expected_rhs_type: Type,
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},
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UnsupportedComparsionOpTypes {
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operator: Cmpop,
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lhs_type: Type,
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rhs_type: Type,
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expected_rhs_type: Type,
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},
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FieldUnificationError {
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FieldUnificationError {
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field: RecordKey,
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field: RecordKey,
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types: (Type, Type),
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types: (Type, Type),
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@ -101,6 +116,26 @@ impl<'a> Display for DisplayTypeError<'a> {
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let args = missing_arg_names.iter().join(", ");
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let args = missing_arg_names.iter().join(", ");
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write!(f, "Missing arguments: {args}")
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write!(f, "Missing arguments: {args}")
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}
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}
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UnsupportedBinaryOpTypes { operator, lhs_type, rhs_type, expected_rhs_type } => {
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let op_symbol = operator.op_info().symbol;
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let lhs_type_str = self.unifier.stringify_with_notes(*lhs_type, &mut notes);
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let rhs_type_str = self.unifier.stringify_with_notes(*rhs_type, &mut notes);
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let expected_rhs_type_str =
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self.unifier.stringify_with_notes(*expected_rhs_type, &mut notes);
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write!(f, "Unsupported operand type(s) for {op_symbol}: '{lhs_type_str}' and '{rhs_type_str}' (right operand should have type {expected_rhs_type_str})")
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}
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UnsupportedComparsionOpTypes { operator, lhs_type, rhs_type, expected_rhs_type } => {
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let op_symbol = operator.op_info().symbol;
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let lhs_type_str = self.unifier.stringify_with_notes(*lhs_type, &mut notes);
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let rhs_type_str = self.unifier.stringify_with_notes(*rhs_type, &mut notes);
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let expected_rhs_type_str =
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self.unifier.stringify_with_notes(*expected_rhs_type, &mut notes);
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write!(f, "'{op_symbol}' not supported between instances of '{lhs_type_str}' and '{rhs_type_str}' (right operand should have type {expected_rhs_type_str})")
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}
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UnknownArgName(name) => {
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UnknownArgName(name) => {
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write!(f, "Unknown argument name: {name}")
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write!(f, "Unknown argument name: {name}")
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}
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}
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@ -4,6 +4,7 @@ use std::iter::once;
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use std::ops::Not;
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use std::ops::Not;
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use std::{cell::RefCell, sync::Arc};
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use std::{cell::RefCell, sync::Arc};
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use super::typedef::OperatorInfo;
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use super::{
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use super::{
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magic_methods::*,
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magic_methods::*,
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type_error::TypeError,
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type_error::TypeError,
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@ -641,6 +642,7 @@ impl<'a> Inferencer<'a> {
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obj: Type,
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obj: Type,
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params: Vec<Type>,
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params: Vec<Type>,
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ret: Option<Type>,
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ret: Option<Type>,
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operator_info: Option<OperatorInfo>,
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) -> InferenceResult {
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) -> InferenceResult {
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if let TypeEnum::TObj { params: class_params, fields, .. } = &*self.unifier.get_ty(obj) {
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if let TypeEnum::TObj { params: class_params, fields, .. } = &*self.unifier.get_ty(obj) {
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if class_params.is_empty() {
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if class_params.is_empty() {
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@ -654,6 +656,7 @@ impl<'a> Inferencer<'a> {
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ret: sign.ret,
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ret: sign.ret,
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fun: RefCell::new(None),
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fun: RefCell::new(None),
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loc: Some(location),
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loc: Some(location),
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operator_info,
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};
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};
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if let Some(ret) = ret {
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if let Some(ret) = ret {
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self.unifier
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self.unifier
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@ -688,6 +691,7 @@ impl<'a> Inferencer<'a> {
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ret,
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ret,
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fun: RefCell::new(None),
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fun: RefCell::new(None),
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loc: Some(location),
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loc: Some(location),
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operator_info,
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});
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});
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self.calls.insert(location.into(), call);
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self.calls.insert(location.into(), call);
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call]));
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call]));
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@ -1523,6 +1527,7 @@ 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: sign.ret,
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ret: sign.ret,
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loc: Some(location),
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loc: Some(location),
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operator_info: None,
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};
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};
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self.unifier.unify_call(&call, func.custom.unwrap(), sign).map_err(|e| {
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self.unifier.unify_call(&call, func.custom.unwrap(), sign).map_err(|e| {
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HashSet::from([e.at(Some(location)).to_display(self.unifier).to_string()])
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HashSet::from([e.at(Some(location)).to_display(self.unifier).to_string()])
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@ -1545,6 +1550,7 @@ 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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loc: Some(location),
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loc: Some(location),
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operator_info: None,
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});
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});
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self.calls.insert(location.into(), call);
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self.calls.insert(location.into(), call);
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call]));
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let call = self.unifier.add_ty(TypeEnum::TCall(vec![call]));
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@ -1765,7 +1771,14 @@ impl<'a> Inferencer<'a> {
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}
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}
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};
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};
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self.build_method_call(location, method.into(), left_ty, vec![right_ty], ret)
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self.build_method_call(
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location,
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method.into(),
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left_ty,
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vec![right_ty],
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ret,
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Some(OperatorInfo::IsBinaryOp { self_type: left.custom.unwrap(), operator: op }),
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)
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}
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}
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fn infer_unary_ops(
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fn infer_unary_ops(
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@ -1779,7 +1792,14 @@ impl<'a> Inferencer<'a> {
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let ret = typeof_unaryop(self.unifier, self.primitives, op, operand.custom.unwrap())
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let ret = typeof_unaryop(self.unifier, self.primitives, op, operand.custom.unwrap())
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.map_err(|e| HashSet::from([format!("{e} (at {location})")]))?;
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.map_err(|e| HashSet::from([format!("{e} (at {location})")]))?;
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self.build_method_call(location, method, operand.custom.unwrap(), vec![], ret)
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self.build_method_call(
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location,
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method,
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operand.custom.unwrap(),
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vec![],
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ret,
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Some(OperatorInfo::IsUnaryOp { self_type: operand.custom.unwrap(), operator: op }),
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)
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}
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}
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fn infer_compare(
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fn infer_compare(
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@ -1825,6 +1845,10 @@ impl<'a> Inferencer<'a> {
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a.custom.unwrap(),
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a.custom.unwrap(),
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vec![b.custom.unwrap()],
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vec![b.custom.unwrap()],
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ret,
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ret,
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Some(OperatorInfo::IsComparisonOp {
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self_type: left.custom.unwrap(),
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operator: *c,
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}),
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)?);
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)?);
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}
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}
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@ -8,12 +8,15 @@ use std::rc::Rc;
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use std::sync::{Arc, Mutex};
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use std::sync::{Arc, Mutex};
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use std::{borrow::Cow, collections::HashSet};
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use std::{borrow::Cow, collections::HashSet};
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use nac3parser::ast::{Location, StrRef};
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use nac3parser::ast::{Cmpop, Location, StrRef, Unaryop};
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use super::magic_methods::Binop;
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use super::type_error::{TypeError, TypeErrorKind};
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use super::type_error::{TypeError, TypeErrorKind};
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use super::unification_table::{UnificationKey, UnificationTable};
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use super::unification_table::{UnificationKey, UnificationTable};
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use crate::symbol_resolver::SymbolValue;
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use crate::symbol_resolver::SymbolValue;
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use crate::toplevel::{helper::PrimDef, DefinitionId, TopLevelContext, TopLevelDef};
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use crate::toplevel::helper::PrimDef;
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use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef};
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use crate::typecheck::magic_methods::OpInfo;
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use crate::typecheck::type_inferencer::PrimitiveStore;
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use crate::typecheck::type_inferencer::PrimitiveStore;
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#[cfg(test)]
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#[cfg(test)]
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@ -73,6 +76,28 @@ pub fn iter_type_vars(var_map: &VarMap) -> impl Iterator<Item = TypeVar> + '_ {
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var_map.iter().map(|(&id, &ty)| TypeVar { id, ty })
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var_map.iter().map(|(&id, &ty)| TypeVar { id, ty })
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}
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}
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#[derive(Debug, Clone)]
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pub enum OperatorInfo {
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/// The call was written as an unary operation, e.g., `~a` or `not a`.
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IsUnaryOp {
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/// The [`Type`] of the `self` object
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self_type: Type,
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operator: Unaryop,
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},
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/// The call was written as a binary operation, e.g., `a + b` or `a += b`.
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IsBinaryOp {
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/// The [`Type`] of the `self` object
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self_type: Type,
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operator: Binop,
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},
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/// The call was written as a binary comparison operation, e.g., `a < b`.
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IsComparisonOp {
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/// The [`Type`] of the `self` object
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self_type: Type,
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operator: Cmpop,
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},
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}
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#[derive(Clone)]
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#[derive(Clone)]
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pub struct Call {
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pub struct Call {
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pub posargs: Vec<Type>,
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pub posargs: Vec<Type>,
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@ -80,6 +105,9 @@ pub struct Call {
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pub ret: Type,
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pub ret: Type,
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pub fun: RefCell<Option<Type>>,
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pub fun: RefCell<Option<Type>>,
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pub loc: Option<Location>,
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pub loc: Option<Location>,
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/// Details about the associated Python user operator expression of this call, if any.
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pub operator_info: Option<OperatorInfo>,
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}
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}
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#[derive(Debug, Clone)]
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#[derive(Debug, Clone)]
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@ -627,111 +655,178 @@ impl Unifier {
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let TypeEnum::TFunc(signature) = &*self.get_ty(b) else { unreachable!() };
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let TypeEnum::TFunc(signature) = &*self.get_ty(b) else { unreachable!() };
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// Get details about the input arguments
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// Get details about the input arguments
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let Call { posargs, kwargs, ret, fun, loc } = call;
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let Call { posargs, kwargs, ret, fun, loc, operator_info } = call;
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let num_args = posargs.len() + kwargs.len();
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let num_args = posargs.len() + kwargs.len();
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// Now we check the arguments against the parameters
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// Now we check the arguments against the parameters,
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// and depending on what `call_info` is, we might change how the behavior `unify_call()`
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// in hopes to improve user error messages when type checking fails.
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match operator_info {
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Some(OperatorInfo::IsBinaryOp { self_type, operator }) => {
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// The call is written in the form of (say) `a + b`.
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// Technically, it is `a.__add__(b)`, and they have the following constraints:
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assert_eq!(posargs.len(), 1);
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assert_eq!(kwargs.len(), 0);
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assert_eq!(num_params, 1);
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// Helper lambdas
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let other_type = posargs[0]; // the second operand
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let mut type_check_arg = |param_name, expected_arg_ty, arg_ty| {
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let expected_other_type = signature.args[0].ty;
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let ok = self.unify_impl(expected_arg_ty, arg_ty, false).is_ok();
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if ok {
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let ok = self.unify_impl(expected_other_type, other_type, false).is_ok();
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Ok(())
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if !ok {
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} else {
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self.restore_snapshot();
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// Typecheck failed, throw an error.
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return Err(TypeError::new(
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self.restore_snapshot();
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TypeErrorKind::UnsupportedBinaryOpTypes {
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Err(TypeError::new(
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operator: *operator,
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TypeErrorKind::IncorrectArgType {
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lhs_type: *self_type,
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name: param_name,
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rhs_type: other_type,
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expected: expected_arg_ty,
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expected_rhs_type: expected_other_type,
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got: arg_ty,
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},
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},
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*loc,
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*loc,
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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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Some(OperatorInfo::IsComparisonOp { self_type, operator })
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if OpInfo::supports_cmpop(*operator) // Otherwise that comparison operator is not supported.
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|
=>
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|
{
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|
// The call is written in the form of (say) `a <= b`.
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|
// Technically, it is `a.__le__(b)`, and they have the following constraints:
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assert_eq!(posargs.len(), 1);
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assert_eq!(kwargs.len(), 0);
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assert_eq!(num_params, 1);
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|
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// Check for "too many arguments"
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let other_type = posargs[0]; // the second operand
|
||||||
if num_params < posargs.len() {
|
let expected_other_type = signature.args[0].ty;
|
||||||
let expected_min_count =
|
|
||||||
signature.args.iter().filter(|param| param.is_required()).count();
|
|
||||||
let expected_max_count = num_params;
|
|
||||||
|
|
||||||
self.restore_snapshot();
|
let ok = self.unify_impl(expected_other_type, other_type, false).is_ok();
|
||||||
return Err(TypeError::new(
|
if !ok {
|
||||||
TypeErrorKind::TooManyArguments {
|
self.restore_snapshot();
|
||||||
expected_min_count,
|
return Err(TypeError::new(
|
||||||
expected_max_count,
|
TypeErrorKind::UnsupportedComparsionOpTypes {
|
||||||
got_count: num_args,
|
operator: *operator,
|
||||||
},
|
lhs_type: *self_type,
|
||||||
*loc,
|
rhs_type: other_type,
|
||||||
));
|
expected_rhs_type: expected_other_type,
|
||||||
}
|
},
|
||||||
|
*loc,
|
||||||
// NOTE: order of `param_info_by_name` is leveraged, so use an IndexMap
|
));
|
||||||
let mut param_info_by_name: IndexMap<StrRef, ParamInfo> = signature
|
}
|
||||||
.args
|
|
||||||
.iter()
|
|
||||||
.map(|arg| (arg.name, ParamInfo { has_been_supplied: false, param: arg }))
|
|
||||||
.collect();
|
|
||||||
|
|
||||||
// Now consume all positional arguments and typecheck them.
|
|
||||||
for (&arg_ty, param) in zip(posargs, signature.args.iter()) {
|
|
||||||
// We will also use this opportunity to mark the corresponding `param_info` as having been supplied.
|
|
||||||
let param_info = param_info_by_name.get_mut(¶m.name).unwrap();
|
|
||||||
param_info.has_been_supplied = true;
|
|
||||||
|
|
||||||
// Typecheck
|
|
||||||
type_check_arg(param.name, param.ty, arg_ty)?;
|
|
||||||
}
|
|
||||||
|
|
||||||
// Now consume all keyword arguments and typecheck them.
|
|
||||||
for (¶m_name, &arg_ty) in kwargs {
|
|
||||||
// We will also use this opportunity to check if this keyword argument is "legal".
|
|
||||||
|
|
||||||
let Some(param_info) = param_info_by_name.get_mut(¶m_name) else {
|
|
||||||
self.restore_snapshot();
|
|
||||||
return Err(TypeError::new(TypeErrorKind::UnknownArgName(param_name), *loc));
|
|
||||||
};
|
|
||||||
|
|
||||||
if param_info.has_been_supplied {
|
|
||||||
// NOTE: Duplicate keyword argument (i.e., `hello(1, 2, 3, arg = 4, arg = 5)`)
|
|
||||||
// is IMPOSSIBLE as the parser would have already failed.
|
|
||||||
// We only have to care about "got multiple values for XYZ"
|
|
||||||
|
|
||||||
self.restore_snapshot();
|
|
||||||
return Err(TypeError::new(
|
|
||||||
TypeErrorKind::GotMultipleValues { name: param_name },
|
|
||||||
*loc,
|
|
||||||
));
|
|
||||||
}
|
}
|
||||||
|
_ => {
|
||||||
|
// Handle [`CallInfo::IsNormalFunctionCall`] and other uninteresting variants
|
||||||
|
// of [`CallInfo`] (e.g, `CallInfo::IsUnaryOp` and unsupported comparison operators)
|
||||||
|
|
||||||
param_info.has_been_supplied = true;
|
// Helper lambdas
|
||||||
|
let mut type_check_arg = |param_name, expected_arg_ty, arg_ty| {
|
||||||
|
let ok = self.unify_impl(expected_arg_ty, arg_ty, false).is_ok();
|
||||||
|
if ok {
|
||||||
|
Ok(())
|
||||||
|
} else {
|
||||||
|
// Typecheck failed, throw an error.
|
||||||
|
self.restore_snapshot();
|
||||||
|
Err(TypeError::new(
|
||||||
|
TypeErrorKind::IncorrectArgType {
|
||||||
|
name: param_name,
|
||||||
|
expected: expected_arg_ty,
|
||||||
|
got: arg_ty,
|
||||||
|
},
|
||||||
|
*loc,
|
||||||
|
))
|
||||||
|
}
|
||||||
|
};
|
||||||
|
|
||||||
// Typecheck
|
// Check for "too many arguments"
|
||||||
type_check_arg(param_name, param_info.param.ty, arg_ty)?;
|
if num_params < posargs.len() {
|
||||||
}
|
let expected_min_count =
|
||||||
|
signature.args.iter().filter(|param| param.is_required()).count();
|
||||||
|
let expected_max_count = num_params;
|
||||||
|
|
||||||
// After checking posargs and kwargs, check if there are any
|
self.restore_snapshot();
|
||||||
// unsupplied required parameters, and throw an error if they exist.
|
return Err(TypeError::new(
|
||||||
let missing_arg_names = param_info_by_name
|
TypeErrorKind::TooManyArguments {
|
||||||
.values()
|
expected_min_count,
|
||||||
.filter(|param_info| param_info.param.is_required() && !param_info.has_been_supplied)
|
expected_max_count,
|
||||||
.map(|param_info| param_info.param.name)
|
got_count: num_args,
|
||||||
.collect_vec();
|
},
|
||||||
if !missing_arg_names.is_empty() {
|
*loc,
|
||||||
self.restore_snapshot();
|
));
|
||||||
return Err(TypeError::new(TypeErrorKind::MissingArgs { missing_arg_names }, *loc));
|
}
|
||||||
}
|
|
||||||
|
|
||||||
// Finally, check the Call's return type
|
// NOTE: order of `param_info_by_name` is leveraged, so use an IndexMap
|
||||||
self.unify_impl(*ret, signature.ret, false).map_err(|mut err| {
|
let mut param_info_by_name: IndexMap<StrRef, ParamInfo> = signature
|
||||||
self.restore_snapshot();
|
.args
|
||||||
if err.loc.is_none() {
|
.iter()
|
||||||
err.loc = *loc;
|
.map(|arg| (arg.name, ParamInfo { has_been_supplied: false, param: arg }))
|
||||||
|
.collect();
|
||||||
|
|
||||||
|
// Now consume all positional arguments and typecheck them.
|
||||||
|
for (&arg_ty, param) in zip(posargs, signature.args.iter()) {
|
||||||
|
// We will also use this opportunity to mark the corresponding `param_info` as having been supplied.
|
||||||
|
let param_info = param_info_by_name.get_mut(¶m.name).unwrap();
|
||||||
|
param_info.has_been_supplied = true;
|
||||||
|
|
||||||
|
// Typecheck
|
||||||
|
type_check_arg(param.name, param.ty, arg_ty)?;
|
||||||
|
}
|
||||||
|
|
||||||
|
// Now consume all keyword arguments and typecheck them.
|
||||||
|
for (¶m_name, &arg_ty) in kwargs {
|
||||||
|
// We will also use this opportunity to check if this keyword argument is "legal".
|
||||||
|
|
||||||
|
let Some(param_info) = param_info_by_name.get_mut(¶m_name) else {
|
||||||
|
self.restore_snapshot();
|
||||||
|
return Err(TypeError::new(
|
||||||
|
TypeErrorKind::UnknownArgName(param_name),
|
||||||
|
*loc,
|
||||||
|
));
|
||||||
|
};
|
||||||
|
|
||||||
|
if param_info.has_been_supplied {
|
||||||
|
// NOTE: Duplicate keyword argument (i.e., `hello(1, 2, 3, arg = 4, arg = 5)`)
|
||||||
|
// is IMPOSSIBLE as the parser would have already failed.
|
||||||
|
// We only have to care about "got multiple values for XYZ"
|
||||||
|
|
||||||
|
self.restore_snapshot();
|
||||||
|
return Err(TypeError::new(
|
||||||
|
TypeErrorKind::GotMultipleValues { name: param_name },
|
||||||
|
*loc,
|
||||||
|
));
|
||||||
|
}
|
||||||
|
|
||||||
|
param_info.has_been_supplied = true;
|
||||||
|
|
||||||
|
// Typecheck
|
||||||
|
type_check_arg(param_name, param_info.param.ty, arg_ty)?;
|
||||||
|
}
|
||||||
|
|
||||||
|
// After checking posargs and kwargs, check if there are any
|
||||||
|
// unsupplied required parameters, and throw an error if they exist.
|
||||||
|
let missing_arg_names = param_info_by_name
|
||||||
|
.values()
|
||||||
|
.filter(|param_info| {
|
||||||
|
param_info.param.is_required() && !param_info.has_been_supplied
|
||||||
|
})
|
||||||
|
.map(|param_info| param_info.param.name)
|
||||||
|
.collect_vec();
|
||||||
|
if !missing_arg_names.is_empty() {
|
||||||
|
self.restore_snapshot();
|
||||||
|
return Err(TypeError::new(
|
||||||
|
TypeErrorKind::MissingArgs { missing_arg_names },
|
||||||
|
*loc,
|
||||||
|
));
|
||||||
|
}
|
||||||
|
|
||||||
|
// Finally, check the Call's return type
|
||||||
|
self.unify_impl(*ret, signature.ret, false).map_err(|mut err| {
|
||||||
|
self.restore_snapshot();
|
||||||
|
if err.loc.is_none() {
|
||||||
|
err.loc = *loc;
|
||||||
|
}
|
||||||
|
err
|
||||||
|
})?;
|
||||||
}
|
}
|
||||||
err
|
}
|
||||||
})?;
|
|
||||||
|
|
||||||
*fun.borrow_mut() = Some(b);
|
*fun.borrow_mut() = Some(b);
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user