nac3core: top level inferencer call with type var more test
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41e63f24d0
commit
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@ -1151,9 +1151,16 @@ impl TopLevelComposer {
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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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let type_var_subst_comb = {
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let (type_var_subst_comb, no_range_vars) = {
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let unifier = &mut self.unifier;
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let unifier = &mut self.unifier;
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let var_ids = vars.iter().map(|(id, _)| *id);
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let mut no_ranges: Vec<Type> = Vec::new();
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let var_ids = vars.iter().map(|(id, ty)| {
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if matches!(unifier.get_ty(*ty).as_ref(), TypeEnum::TVar { range, .. } if range.borrow().is_empty()) {
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no_ranges.push(*ty);
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}
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*id
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})
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.collect_vec();
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let var_combs = vars
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let var_combs = vars
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.iter()
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.iter()
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.map(|(_, ty)| {
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.map(|(_, ty)| {
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@ -1163,28 +1170,33 @@ impl TopLevelComposer {
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.collect_vec();
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.collect_vec();
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let mut result: Vec<HashMap<u32, Type>> = Default::default();
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let mut result: Vec<HashMap<u32, Type>> = Default::default();
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for comb in var_combs {
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for comb in var_combs {
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result.push(var_ids.clone().zip(comb).collect());
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result.push(var_ids.clone().into_iter().zip(comb).collect());
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}
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}
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// NOTE: if is empty, means no type var, append a empty subst, ok to do this?
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// NOTE: if is empty, means no type var, append a empty subst, ok to do this?
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if result.is_empty() {
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if result.is_empty() {
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result.push(HashMap::new())
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result.push(HashMap::new())
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}
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}
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result
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(result, no_ranges)
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};
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};
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for subst in type_var_subst_comb {
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for subst in type_var_subst_comb {
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// for each instance
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// for each instance
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let inst_ret = self.unifier.subst(*ret, &subst).unwrap_or(*ret);
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let inst_args = {
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let unifier = &mut self.unifier;
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let unifier = &mut self.unifier;
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let inst_ret = unifier.subst(*ret, &subst).unwrap_or(*ret);
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args
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let inst_args = args
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.iter()
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.iter()
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.map(|a| FuncArg {
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.map(|a| FuncArg {
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name: a.name.clone(),
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name: a.name.clone(),
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ty: unifier.subst(a.ty, &subst).unwrap_or(a.ty),
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ty: unifier.subst(a.ty, &subst).unwrap_or(a.ty),
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default_value: a.default_value.clone(),
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default_value: a.default_value.clone(),
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})
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})
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.collect_vec();
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.collect_vec()
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let self_type = self_type.map(|x| unifier.subst(x, &subst).unwrap_or(x));
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};
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let self_type = {
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let unifier = &mut self.unifier;
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self_type.map(|x| unifier.subst(x, &subst).unwrap_or(x))
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};
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let mut identifiers = {
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let mut identifiers = {
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// NOTE: none and function args?
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// NOTE: none and function args?
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@ -1196,8 +1208,7 @@ impl TopLevelComposer {
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result.extend(inst_args.iter().map(|x| x.name.clone()));
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result.extend(inst_args.iter().map(|x| x.name.clone()));
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result
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result
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};
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};
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let mut inferencer = {
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let mut inferencer = Inferencer {
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Inferencer {
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top_level: &self.make_top_level_context(),
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top_level: &self.make_top_level_context(),
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defined_identifiers: identifiers.clone(),
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defined_identifiers: identifiers.clone(),
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function_data: &mut FunctionData {
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function_data: &mut FunctionData {
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@ -1210,8 +1221,8 @@ impl TopLevelComposer {
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} else {
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} else {
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Some(inst_ret)
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Some(inst_ret)
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},
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},
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// NOTE: allowed type vars: leave blank?
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// NOTE: allowed type vars
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bound_variables: Vec::new(),
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bound_variables: no_range_vars.clone(),
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},
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},
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unifier: &mut self.unifier,
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unifier: &mut self.unifier,
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variable_mapping: {
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variable_mapping: {
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@ -1227,7 +1238,6 @@ impl TopLevelComposer {
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primitives: &self.primitives_ty,
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primitives: &self.primitives_ty,
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virtual_checks: &mut Vec::new(),
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virtual_checks: &mut Vec::new(),
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calls: &mut HashMap::new(),
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calls: &mut HashMap::new(),
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}
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};
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};
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let fun_body = if let ast::StmtKind::FunctionDef { body, .. } =
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let fun_body = if let ast::StmtKind::FunctionDef { body, .. } =
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@ -1257,8 +1267,17 @@ impl TopLevelComposer {
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}
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}
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instance_to_stmt.insert(
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instance_to_stmt.insert(
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// FIXME: how?
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// NOTE: refer to codegen/expr/get_subst_key function
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"".to_string(),
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{
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let unifier = &mut self.unifier;
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subst
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.keys()
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.sorted()
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.map(|id| {
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let ty = subst.get(id).unwrap();
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unifier.stringify(*ty, &mut |id| id.to_string(), &mut |id| id.to_string())
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}).join(", ")
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},
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FunInstance {
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FunInstance {
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body: fun_body,
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body: fun_body,
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unifier_id: 0,
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unifier_id: 0,
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@ -37,7 +37,7 @@ impl SymbolResolver for Resolver {
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fn get_symbol_type(&self, _: &mut Unifier, _: &PrimitiveStore, str: &str) -> Option<Type> {
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fn get_symbol_type(&self, _: &mut Unifier, _: &PrimitiveStore, str: &str) -> Option<Type> {
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let ret = self.0.id_to_type.lock().get(str).cloned();
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let ret = self.0.id_to_type.lock().get(str).cloned();
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if ret.is_none() {
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if ret.is_none() {
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println!("unknown here resolver {}", str);
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// println!("unknown here resolver {}", str);
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}
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}
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ret
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ret
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}
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}
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@ -772,23 +772,15 @@ fn test_analyze(source: Vec<&str>, res: Vec<&str>) {
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let print = false;
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let print = false;
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let mut composer = TopLevelComposer::new();
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let mut composer = TopLevelComposer::new();
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let tvar_t = composer.unifier.get_fresh_var();
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let internal_resolver = make_internal_resolver_with_tvar(
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let tvar_v = composer
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vec![
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.unifier
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("T".into(), vec![]),
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.get_fresh_var_with_range(&[composer.primitives_ty.bool, composer.primitives_ty.int32]);
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("V".into(), vec![composer.primitives_ty.bool, composer.primitives_ty.int32]),
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("G".into(), vec![composer.primitives_ty.bool, composer.primitives_ty.int64]),
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if print {
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],
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println!("t: {}, {:?}", tvar_t.1, tvar_t.0);
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&mut composer.unifier,
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println!("v: {}, {:?}\n", tvar_v.1, tvar_v.0);
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print
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}
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);
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let internal_resolver = Arc::new(ResolverInternal {
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id_to_def: Default::default(),
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id_to_type: Mutex::new(
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vec![("T".to_string(), tvar_t.0), ("V".to_string(), tvar_v.0)].into_iter().collect(),
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),
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class_names: Default::default(),
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});
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let resolver = Arc::new(
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let resolver = Arc::new(
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Box::new(Resolver(internal_resolver.clone())) as Box<dyn SymbolResolver + Send + Sync>
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Box::new(Resolver(internal_resolver.clone())) as Box<dyn SymbolResolver + Send + Sync>
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);
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);
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@ -888,7 +880,7 @@ fn test_analyze(source: Vec<&str>, res: Vec<&str>) {
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return SELF
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return SELF
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def sum(self) -> int32:
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def sum(self) -> int32:
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if self.a == 0:
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if self.a == 0:
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return self.a
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return self.a + self
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else:
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else:
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a = self.a
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a = self.a
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self.a = self.a - 1
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self.a = self.a - 1
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@ -909,34 +901,58 @@ fn test_analyze(source: Vec<&str>, res: Vec<&str>) {
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#[test_case(
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#[test_case(
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vec![
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vec![
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indoc! {"
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indoc! {"
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def fun(a: V) -> V:
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def fun(a: V, c: G, t: T) -> V:
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b = a
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b = a
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return a
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cc = c
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ret = fun(b, cc, t)
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return ret * ret
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"},
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indoc! {"
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def sum3(l: list[V]) -> V:
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return l[0] + l[1] + l[2]
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"},
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indoc! {"
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def sum_sq_pair(p: tuple[V, V]) -> list[V]:
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a = p[0]
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b = p[1]
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a = a**a
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b = b**b
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return [a, b]
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"}
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"}
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],
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],
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vec![];
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vec![];
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"type var fun"
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"type var fun"
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)]
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)]
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#[test_case(
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vec![
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indoc! {"
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class A(Generic[G]):
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a: G
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b: bool
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def __init__(self, aa: G):
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self.a = aa
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self.b = True
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def fun(self, a: G) -> list[G]:
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ret = [a, self.a]
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return ret if self.b else self.fun(self.a)
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"}
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],
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vec![];
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"type var class"
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)]
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fn test_inference(source: Vec<&str>, res: Vec<&str>) {
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fn test_inference(source: Vec<&str>, res: Vec<&str>) {
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let print = true;
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let print = true;
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let mut composer = TopLevelComposer::new();
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let mut composer = TopLevelComposer::new();
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let tvar_t = composer.unifier.get_fresh_var();
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let internal_resolver = make_internal_resolver_with_tvar(
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let tvar_v = composer
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vec![
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.unifier
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("T".into(), vec![]),
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.get_fresh_var_with_range(&[composer.primitives_ty.bool, composer.primitives_ty.int64]);
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("V".into(), vec![composer.primitives_ty.float, composer.primitives_ty.int32, composer.primitives_ty.int64]),
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if print {
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("G".into(), vec![composer.primitives_ty.bool, composer.primitives_ty.int64]),
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println!("t: {}, {:?}", tvar_t.1, tvar_t.0);
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],
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println!("v: {}, {:?}\n", tvar_v.1, tvar_v.0);
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&mut composer.unifier,
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}
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print
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);
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let internal_resolver = Arc::new(ResolverInternal {
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id_to_def: Default::default(),
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id_to_type: Mutex::new(
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vec![("T".to_string(), tvar_t.0), ("V".to_string(), tvar_v.0)].into_iter().collect(),
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),
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class_names: Default::default(),
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});
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let resolver = Arc::new(
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let resolver = Arc::new(
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Box::new(Resolver(internal_resolver.clone())) as Box<dyn SymbolResolver + Send + Sync>
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Box::new(Resolver(internal_resolver.clone())) as Box<dyn SymbolResolver + Send + Sync>
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);
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);
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@ -977,9 +993,9 @@ fn test_inference(source: Vec<&str>, res: Vec<&str>) {
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let def = &*def.read();
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let def = &*def.read();
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if let TopLevelDef::Function { instance_to_stmt, name, .. } = def {
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if let TopLevelDef::Function { instance_to_stmt, name, .. } = def {
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println!("=========`{}`: number of instances: {}===========", name, instance_to_stmt.len());
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for inst in instance_to_stmt.iter() {
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for inst in instance_to_stmt.iter() {
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let ast = &inst.1.body;
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let ast = &inst.1.body;
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println!("{}:", name);
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for b in ast {
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for b in ast {
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println!("{:?}", stringify_folder.fold_stmt(b.clone()).unwrap());
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println!("{:?}", stringify_folder.fold_stmt(b.clone()).unwrap());
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println!("--------------------");
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println!("--------------------");
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@ -991,6 +1007,31 @@ fn test_inference(source: Vec<&str>, res: Vec<&str>) {
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}
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}
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}
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}
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fn make_internal_resolver_with_tvar(tvars: Vec<(String, Vec<Type>)>, unifier: &mut Unifier, print: bool) -> Arc<ResolverInternal> {
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let res: Arc<ResolverInternal> = ResolverInternal {
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id_to_def: Default::default(),
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id_to_type: tvars
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.into_iter()
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.map(|(name, range)| (
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name.clone(),
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{
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let (ty, id) = unifier.get_fresh_var_with_range(range.as_slice());
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if print {
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println!("{}: {:?}, tvar{}", name, ty, id);
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}
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ty
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}
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))
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.collect::<HashMap<_, _>>()
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.into(),
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class_names: Default::default()
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}.into();
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if print {
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println!();
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}
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res
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}
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struct TypeToStringFolder<'a> {
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struct TypeToStringFolder<'a> {
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unifier: &'a mut Unifier
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unifier: &'a mut Unifier
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}
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}
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