typecheck: fixed recursive substitution
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471547855e
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@ -794,7 +794,19 @@ impl Unifier {
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/// If this returns None, the result type would be the original type
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/// If this returns None, the result type would be the original type
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/// (no substitution has to be done).
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/// (no substitution has to be done).
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pub fn subst(&mut self, a: Type, mapping: &VarMap) -> Option<Type> {
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pub fn subst(&mut self, a: Type, mapping: &VarMap) -> Option<Type> {
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self.subst_impl(a, mapping, &mut HashMap::new())
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}
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fn subst_impl(&mut self, a: Type, mapping: &VarMap, cache: &mut HashMap<Type, Option<Type>>) -> Option<Type> {
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use TypeVarMeta::*;
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use TypeVarMeta::*;
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let cached = cache.get_mut(&a);
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if let Some(cached) = cached {
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if cached.is_none() {
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*cached = Some(self.get_fresh_var().0);
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}
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return *cached;
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}
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let ty = self.unification_table.probe_value(a).clone();
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let ty = self.unification_table.probe_value(a).clone();
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// this function would only be called when we instantiate functions.
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// this function would only be called when we instantiate functions.
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// function type signature should ONLY contain concrete types and type
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// function type signature should ONLY contain concrete types and type
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@ -806,7 +818,7 @@ impl Unifier {
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TypeEnum::TTuple { ty } => {
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TypeEnum::TTuple { ty } => {
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let mut new_ty = Cow::from(ty);
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let mut new_ty = Cow::from(ty);
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for (i, t) in ty.iter().enumerate() {
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for (i, t) in ty.iter().enumerate() {
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if let Some(t1) = self.subst(*t, mapping) {
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if let Some(t1) = self.subst_impl(*t, mapping, cache) {
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new_ty.to_mut()[i] = t1;
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new_ty.to_mut()[i] = t1;
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}
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}
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}
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}
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@ -817,10 +829,10 @@ impl Unifier {
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}
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}
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}
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}
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TypeEnum::TList { ty } => {
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TypeEnum::TList { ty } => {
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self.subst(*ty, mapping).map(|t| self.add_ty(TypeEnum::TList { ty: t }))
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self.subst_impl(*ty, mapping, cache).map(|t| self.add_ty(TypeEnum::TList { ty: t }))
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}
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}
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TypeEnum::TVirtual { ty } => {
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TypeEnum::TVirtual { ty } => {
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self.subst(*ty, mapping).map(|t| self.add_ty(TypeEnum::TVirtual { ty: t }))
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self.subst_impl(*ty, mapping, cache).map(|t| self.add_ty(TypeEnum::TVirtual { ty: t }))
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}
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}
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TypeEnum::TObj { obj_id, fields, params } => {
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TypeEnum::TObj { obj_id, fields, params } => {
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// Type variables in field types must be present in the type parameter.
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// Type variables in field types must be present in the type parameter.
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@ -837,27 +849,32 @@ impl Unifier {
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}
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}
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});
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});
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if need_subst {
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if need_subst {
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cache.insert(a, None);
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let obj_id = *obj_id;
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let obj_id = *obj_id;
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let params = self.subst_map(¶ms, mapping).unwrap_or_else(|| params.clone());
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let params = self.subst_map(¶ms, mapping, cache).unwrap_or_else(|| params.clone());
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let fields = self
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let fields = self
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.subst_map(&fields.borrow(), mapping)
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.subst_map(&fields.borrow(), mapping, cache)
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.unwrap_or_else(|| fields.borrow().clone());
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.unwrap_or_else(|| fields.borrow().clone());
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Some(self.add_ty(TypeEnum::TObj {
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let new_ty = self.add_ty(TypeEnum::TObj {
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obj_id,
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obj_id,
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params: params.into(),
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params: params.into(),
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fields: fields.into(),
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fields: fields.into(),
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}))
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});
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if let Some(var) = cache.get(&a).unwrap() {
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self.unify(new_ty, *var).unwrap();
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}
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Some(new_ty)
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} else {
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} else {
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None
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None
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}
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}
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}
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}
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TypeEnum::TFunc(sig) => {
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TypeEnum::TFunc(sig) => {
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let FunSignature { args, ret, vars: params } = &*sig.borrow();
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let FunSignature { args, ret, vars: params } = &*sig.borrow();
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let new_params = self.subst_map(params, mapping);
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let new_params = self.subst_map(params, mapping, cache);
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let new_ret = self.subst(*ret, mapping);
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let new_ret = self.subst_impl(*ret, mapping, cache);
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let mut new_args = Cow::from(args);
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let mut new_args = Cow::from(args);
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for (i, t) in args.iter().enumerate() {
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for (i, t) in args.iter().enumerate() {
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if let Some(t1) = self.subst(t.ty, mapping) {
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if let Some(t1) = self.subst_impl(t.ty, mapping, cache) {
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let mut t = t.clone();
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let mut t = t.clone();
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t.ty = t1;
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t.ty = t1;
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new_args.to_mut()[i] = t;
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new_args.to_mut()[i] = t;
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@ -880,13 +897,13 @@ impl Unifier {
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}
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}
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}
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}
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fn subst_map<K>(&mut self, map: &Mapping<K>, mapping: &VarMap) -> Option<Mapping<K>>
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fn subst_map<K>(&mut self, map: &Mapping<K>, mapping: &VarMap, cache: &mut HashMap<Type, Option<Type>>) -> Option<Mapping<K>>
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where
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where
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K: std::hash::Hash + std::cmp::Eq + std::clone::Clone,
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K: std::hash::Hash + std::cmp::Eq + std::clone::Clone,
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{
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{
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let mut map2 = None;
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let mut map2 = None;
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for (k, v) in map.iter() {
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for (k, v) in map.iter() {
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if let Some(v1) = self.subst(*v, mapping) {
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if let Some(v1) = self.subst_impl(*v, mapping, cache) {
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if map2.is_none() {
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if map2.is_none() {
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map2 = Some(map.clone());
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map2 = Some(map.clone());
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}
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}
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@ -67,7 +67,7 @@ impl Unifier {
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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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type_mapping: HashMap<String, Type>,
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pub type_mapping: HashMap<String, Type>,
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}
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}
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impl TestEnvironment {
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impl TestEnvironment {
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@ -325,6 +325,30 @@ fn test_invalid_unification(
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assert_eq!(env.unifier.unify(t1, t2), Err(errornous_pair.1.to_string()));
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assert_eq!(env.unifier.unify(t1, t2), Err(errornous_pair.1.to_string()));
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}
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}
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#[test]
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fn test_recursive_subst() {
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let mut env = TestEnvironment::new();
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let int = *env.type_mapping.get("int").unwrap();
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let foo_id = *env.type_mapping.get("Foo").unwrap();
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let foo_ty = env.unifier.get_ty(foo_id);
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let mapping: HashMap<_, _>;
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if let TypeEnum::TObj { fields, params, .. } = &*foo_ty {
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fields.borrow_mut().insert("rec".into(), foo_id);
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mapping = params.borrow().iter().map(|(id, _)| (*id, int)).collect();
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} else {
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unreachable!()
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}
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let instantiated = env.unifier.subst(foo_id, &mapping).unwrap();
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let instantiated_ty = env.unifier.get_ty(instantiated);
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if let TypeEnum::TObj { fields, .. } = &*instantiated_ty {
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let fields = fields.borrow();
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assert!(env.unifier.unioned(*fields.get("a").unwrap(), int));
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assert!(env.unifier.unioned(*fields.get("rec").unwrap(), instantiated));
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} else {
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unreachable!()
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}
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}
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#[test]
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#[test]
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fn test_virtual() {
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fn test_virtual() {
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let mut env = TestEnvironment::new();
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let mut env = TestEnvironment::new();
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