forked from M-Labs/nac3
core: Do not keep unification result for function arguments
For some reason, when unifying a function call parameter with an argument, subsequent calls to the same function will only accept the type of the substituted argument. This affect snippets like: ``` def make1() -> C[Literal[1]]: return ... def make2() -> C[Literal[2]]: return ... def consume(instance: C[Literal[1, 2]]): pass consume(make1()) consume(make2()) ``` The last statement will result in a compiler error, as the parameter of consume is replaced with C[Literal[1]]. We fix this by getting a snapshot before performing unification, and restoring the snapshot after unification succeeds.
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@ -529,10 +529,12 @@ impl Unifier {
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}
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required.pop();
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let (name, expected) = all_names.pop().unwrap();
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let snapshot = self.unification_table.get_snapshot();
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self.unify_impl(expected, *t, false).map_err(|_| {
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self.restore_snapshot();
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TypeError::new(TypeErrorKind::IncorrectArgType { name, expected, got: *t }, *loc)
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})?;
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self.unification_table.restore_snapshot(snapshot);
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}
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for (k, t) in kwargs {
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if let Some(i) = required.iter().position(|v| v == k) {
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@ -546,10 +548,12 @@ impl Unifier {
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TypeError::new(TypeErrorKind::UnknownArgName(*k), *loc)
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})?;
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let (name, expected) = all_names.remove(i);
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let snapshot = self.unification_table.get_snapshot();
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self.unify_impl(expected, *t, false).map_err(|_| {
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self.restore_snapshot();
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TypeError::new(TypeErrorKind::IncorrectArgType { name, expected, got: *t }, *loc)
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})?;
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self.unification_table.restore_snapshot(snapshot);
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}
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if !required.is_empty() {
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self.restore_snapshot();
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@ -746,18 +750,21 @@ impl Unifier {
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(TVar { range: tys, is_const_generic: true, .. }, TLiteral { values, .. }) => {
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assert_eq!(tys.len(), 1);
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assert_eq!(values.len(), 1);
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let primitives = &self.primitive_store
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.expect("Expected PrimitiveStore to be present");
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let ty = tys[0];
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let value= &values[0];
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let value_ty = value.get_type(primitives, self);
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// If the types don't match, try to implicitly promote integers
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if !self.unioned(ty, value_ty) {
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for value in values {
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let value_ty = value.get_type(primitives, self);
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if self.unioned(ty, value_ty) {
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self.set_a_to_b(a, b);
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return Ok(())
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}
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// The types don't match, try to implicitly promote integers
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let num_val = match *value {
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SymbolValue::I32(v) => v as i128,
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SymbolValue::I64(v) => v as i128,
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@ -778,19 +785,18 @@ impl Unifier {
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false
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};
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if !can_convert {
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return self.incompatible_types(a, b)
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if can_convert {
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self.set_a_to_b(a, b);
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return Ok(())
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}
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}
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self.set_a_to_b(a, b);
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return self.incompatible_types(a, b)
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}
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(TLiteral { values: val1, .. }, TLiteral { values: val2, .. }) => {
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for (v1, v2) in zip(val1, val2) {
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if v1 != v2 {
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return self.incompatible_types(a, b)
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}
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if val2.iter().any(|val| !val1.contains(val)) {
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return self.incompatible_types(a, b)
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}
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self.set_a_to_b(a, b);
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@ -16,6 +16,9 @@ class HybridGenericClass2(Generic[A, T]):
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class HybridGenericClass3(Generic[T, A, B]):
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pass
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def make_generic_1() -> ConstGenericClass[Literal[1]]:
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return ...
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def make_generic_2() -> ConstGenericClass[Literal[2]]:
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return ...
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@ -28,6 +31,9 @@ def make_hybrid_class_2_int32() -> HybridGenericClass2[Literal[2], int32]:
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def make_hybrid_class_i32_0_1() -> HybridGenericClass3[int32, Literal[0], Literal[1]]:
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return ...
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def consume_generic_1_or_2(instance: ConstGenericClass[Literal[1, 2]]):
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pass
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def consume_generic_2(instance: ConstGenericClass[Literal[2]]):
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pass
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@ -42,6 +48,8 @@ def consume_hybrid_class_i32_0_1(instance: HybridGenericClass3[int32, Literal[0]
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def f():
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consume_generic_2(make_generic_2())
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consume_generic_1_or_2(make_generic_1())
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consume_generic_1_or_2(make_generic_2())
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consume_generic2_1_2(make_generic2_1_2())
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consume_hybrid_class_2_i32(make_hybrid_class_2_int32())
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consume_hybrid_class_i32_0_1(make_hybrid_class_i32_0_1())
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