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3 Commits
| Author | SHA1 | Date |
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wylited
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d8caaed2d1 | |
 wylited
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ef7a7f55ce | |
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wylited
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ab86bf4591 |
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@ -36,7 +36,7 @@ pub trait CodeGenerator {
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}
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/// Generate object constructor and returns the constructed object.
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/// - signature: Function signature of the constructor.
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/// - signature: Function signature of the contructor.
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/// - def: Class definition for the constructor class.
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/// - params: Function parameters.
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fn gen_constructor<'ctx, 'a>(
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@ -228,6 +228,7 @@ impl TopLevelComposer {
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// subclass of other exception classes.
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let mut contains_constructor = bases
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.iter().any(|base| matches!(base.node, ast::ExprKind::Name { id, .. } if id == exception_id));
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for b in body {
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if let ast::StmtKind::FunctionDef { name: method_name, .. } = &b.node {
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if method_name == &init_id {
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@ -298,7 +299,9 @@ impl TopLevelComposer {
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self.definition_ast_list.push((def, Some(ast)));
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}
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let result_ty = if contains_constructor { Some(constructor_ty) } else { None };
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// Quick way to fix #221, contains constructor can be used in the future for some implementation if required.
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let result_ty = if contains_constructor { Some(constructor_ty) } else { Some(constructor_ty) };
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Ok((class_name, DefinitionId(class_def_id), result_ty))
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}
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@ -434,11 +437,11 @@ impl TopLevelComposer {
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// check if all are unique type vars
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let all_unique_type_var = {
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let mut occurred_type_var_id: HashSet<u32> = HashSet::new();
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let mut occured_type_var_id: HashSet<u32> = HashSet::new();
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type_vars.iter().all(|x| {
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let ty = unifier.get_ty(*x);
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if let TypeEnum::TVar { id, .. } = ty.as_ref() {
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occurred_type_var_id.insert(*id)
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occured_type_var_id.insert(*id)
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} else {
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false
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}
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@ -536,7 +539,7 @@ impl TopLevelComposer {
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}
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has_base = true;
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// the function parse_ast_to make sure that no type var occurred in
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// the function parse_ast_to make sure that no type var occured in
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// bast_ty if it is a CustomClassKind
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let base_ty = parse_ast_to_type_annotation_kinds(
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class_resolver,
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@ -696,7 +699,7 @@ impl TopLevelComposer {
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return Err(errors.into_iter().sorted().join("\n----------\n"));
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}
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// handle the inherited methods and fields
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// handle the inheritanced methods and fields
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// Note: we cannot defer error handling til the end of the loop, because there is loop
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// carried dependency, ignoring the error (temporarily) will cause all assumptions to break
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// and produce weird error messages
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@ -825,9 +828,9 @@ impl TopLevelComposer {
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let mut function_var_map: HashMap<u32, Type> = HashMap::new();
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let arg_types = {
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// make sure no duplicate parameter
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let mut defined_parameter_name: HashSet<_> = HashSet::new();
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let mut defined_paramter_name: HashSet<_> = HashSet::new();
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for x in args.args.iter() {
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if !defined_parameter_name.insert(x.node.arg)
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if !defined_paramter_name.insert(x.node.arg)
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|| keyword_list.contains(&x.node.arg)
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{
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return Err(format!(
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@ -1074,10 +1077,10 @@ impl TopLevelComposer {
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let arg_types: Vec<FuncArg> = {
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// check method parameters cannot have same name
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let mut defined_parameter_name: HashSet<_> = HashSet::new();
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let mut defined_paramter_name: HashSet<_> = HashSet::new();
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let zelf: StrRef = "self".into();
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for x in args.args.iter() {
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if !defined_parameter_name.insert(x.node.arg)
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if !defined_paramter_name.insert(x.node.arg)
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|| (keyword_list.contains(&x.node.arg) && x.node.arg != zelf)
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{
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return Err(format!(
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@ -1088,13 +1091,13 @@ impl TopLevelComposer {
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}
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}
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if name == &"__init__".into() && !defined_parameter_name.contains(&zelf) {
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if name == &"__init__".into() && !defined_paramter_name.contains(&zelf) {
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return Err(format!(
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"__init__ method must have a `self` parameter (at {})",
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b.location
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));
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}
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if !defined_parameter_name.contains(&zelf) {
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if !defined_paramter_name.contains(&zelf) {
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return Err(format!(
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"class method must have a `self` parameter (at {})",
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b.location
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@ -1227,7 +1230,7 @@ impl TopLevelComposer {
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dummy_return_type
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} else {
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// if do not have return annotation, return none
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// for uniform handling, still use type annotation
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// for uniform handling, still use type annoatation
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let dummy_return_type = unifier.get_dummy_var().0;
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type_var_to_concrete_def.insert(
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dummy_return_type,
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@ -1468,9 +1471,9 @@ impl TopLevelComposer {
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Ok(())
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}
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/// step 5, analyze and call type inferencer to fill the `instance_to_stmt` of topleveldef::function
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/// step 5, analyze and call type inferecer to fill the `instance_to_stmt` of topleveldef::function
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fn analyze_function_instance(&mut self) -> Result<(), String> {
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// first get the class contructor type correct for the following type check in function body
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// first get the class constructor type correct for the following type check in function body
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// also do class field instantiation check
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let init_str_id = "__init__".into();
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let mut definition_extension = Vec::new();
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@ -1581,7 +1584,7 @@ impl TopLevelComposer {
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return Ok(());
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}
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let mut init_id: Option<DefinitionId> = None;
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// get the class contructor type correct
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// get the class constructor type correct
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let (contor_args, contor_type_vars) = {
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let mut constructor_args: Vec<FuncArg> = Vec::new();
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let mut type_vars: HashMap<u32, Type> = HashMap::new();
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@ -149,7 +149,7 @@ impl TopLevelComposer {
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}
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/// already include the definition_id of itself inside the ancestors vector
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/// when first registering, the type_vars, fields, methods, ancestors are invalid
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/// when first regitering, the type_vars, fields, methods, ancestors are invalid
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pub fn make_top_level_class_def(
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index: usize,
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resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
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@ -436,7 +436,7 @@ pub fn get_type_from_type_annotation_kinds(
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/// the type of `self` should be similar to `A[T, V]`, where `T`, `V`
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/// considered to be type variables associated with the class \
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/// \
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/// But note that here we do not make a duplication of `T`, `V`, we directly
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/// But note that here we do not make a duplication of `T`, `V`, we direclty
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/// use them as they are in the TopLevelDef::Class since those in the
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/// TopLevelDef::Class.type_vars will be substitute later when seeing applications/instantiations
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/// the Type of their fields and methods will also be subst when application/instantiation
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@ -16,7 +16,7 @@ use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef};
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#[cfg(test)]
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mod test;
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/// Handle for a type, implemented as a key in the unification table.
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/// Handle for a type, implementated as a key in the unification table.
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pub type Type = UnificationKey;
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#[derive(Clone, Copy, PartialEq, Eq, Debug)]
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@ -309,7 +309,7 @@ fn test_unify(
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fn test_invalid_unification(
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variable_count: u32,
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unify_pairs: &[(&'static str, &'static str)],
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erroneous_pair: ((&'static str, &'static str), &'static str),
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errornous_pair: ((&'static str, &'static str), &'static str),
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) {
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let mut env = TestEnvironment::new();
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let mut mapping = HashMap::new();
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@ -326,11 +326,11 @@ fn test_invalid_unification(
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pairs.push((t1, t2));
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}
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let (t1, t2) =
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(env.parse(erroneous_pair.0 .0, &mapping), env.parse(erroneous_pair.0 .1, &mapping));
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(env.parse(errornous_pair.0 .0, &mapping), env.parse(errornous_pair.0 .1, &mapping));
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for (a, b) in pairs {
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env.unifier.unify(a, b).unwrap();
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}
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assert_eq!(env.unify(t1, t2), Err(erroneous_pair.1.to_string()));
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assert_eq!(env.unify(t1, t2), Err(errornous_pair.1.to_string()));
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}
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#[test]
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@ -0,0 +1,13 @@
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@extern
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def output_int32(x: int32):
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...
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class A:
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def foo(self):
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output_int32(1)
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def run() -> int32:
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inst = A()
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inst.foo()
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output_int32(1)
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return 0
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