core: allow calling parent methods #497
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@ -23,7 +23,7 @@ impl Default for ComposerConfig {
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}
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}
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}
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}
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type DefAst = (Arc<RwLock<TopLevelDef>>, Option<Stmt<()>>);
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pub type DefAst = (Arc<RwLock<TopLevelDef>>, Option<Stmt<()>>);
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pub struct TopLevelComposer {
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pub struct TopLevelComposer {
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// list of top level definitions, same as top level context
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// list of top level definitions, same as top level context
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pub definition_ast_list: Vec<DefAst>,
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pub definition_ast_list: Vec<DefAst>,
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@ -1822,7 +1822,12 @@ impl TopLevelComposer {
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if *name != init_str_id {
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if *name != init_str_id {
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unreachable!("must be init function here")
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unreachable!("must be init function here")
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}
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}
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let all_inited = Self::get_all_assigned_field(body.as_slice())?;
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let all_inited = Self::get_all_assigned_field(
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object_id.0,
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definition_ast_list,
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body.as_slice(),
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)?;
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for (f, _, _) in fields {
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for (f, _, _) in fields {
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derppening
commented
Would this way of getting the fully qualified name of the to-be-initialized class work for inner (nested) classes? Would this way of getting the fully qualified name of the to-be-initialized class work for inner (nested) classes?
abdul124
commented
Hmm I tried testing on inner classes, but they are not currently supported in nac3. Also, by matching name against the class names in the TopLevelDef as suggested in #497 (comment) we can avoid the problem altogether. > Would this way of getting the fully qualified name of the to-be-initialized class work for inner (nested) classes?
Hmm I tried testing on inner classes, but they are not currently supported in nac3. Also, by matching name against the class names in the TopLevelDef as suggested in https://git.m-labs.hk/M-Labs/nac3/pulls/497#issuecomment-11572 we can avoid the problem altogether.
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if !all_inited.contains(f) {
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if !all_inited.contains(f) {
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return Err(HashSet::from([
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return Err(HashSet::from([
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@ -3,6 +3,7 @@ use std::convert::TryInto;
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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::numpy::unpack_ndarray_var_tys;
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use crate::toplevel::numpy::unpack_ndarray_var_tys;
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use crate::typecheck::typedef::{into_var_map, iter_type_vars, Mapping, TypeVarId, VarMap};
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use crate::typecheck::typedef::{into_var_map, iter_type_vars, Mapping, TypeVarId, VarMap};
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use ast::ExprKind;
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use nac3parser::ast::{Constant, Location};
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use nac3parser::ast::{Constant, Location};
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use strum::IntoEnumIterator;
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use strum::IntoEnumIterator;
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use strum_macros::EnumIter;
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use strum_macros::EnumIter;
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@ -733,7 +734,16 @@ impl TopLevelComposer {
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)
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)
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}
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}
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pub fn get_all_assigned_field(stmts: &[Stmt<()>]) -> Result<HashSet<StrRef>, HashSet<String>> {
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/// This function returns the fields that have been initialized in the `__init__` function of a class
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derppening
commented
Could you add documentation to this function? Could you add documentation to this function?
abdul124
commented
Will do. > Could you add documentation to this function?
Will do.
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/// The function takes as input:
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/// * `class_id`: The `object_id` of the class whose function is being evaluated (check `TopLevelDef::Class`)
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/// * `definition_ast_list`: A list of ast definitions and statements defined in `TopLevelComposer`
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/// * `stmts`: The body of function being parsed. Each statment is analyzed to check varaible initialization statements
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pub fn get_all_assigned_field(
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class_id: usize,
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definition_ast_list: &Vec<DefAst>,
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stmts: &[Stmt<()>],
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) -> Result<HashSet<StrRef>, HashSet<String>> {
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let mut result = HashSet::new();
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let mut result = HashSet::new();
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for s in stmts {
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for s in stmts {
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match &s.node {
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match &s.node {
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@ -769,30 +779,138 @@ impl TopLevelComposer {
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// TODO: do not check for For and While?
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// TODO: do not check for For and While?
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ast::StmtKind::For { body, orelse, .. }
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ast::StmtKind::For { body, orelse, .. }
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| ast::StmtKind::While { body, orelse, .. } => {
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| ast::StmtKind::While { body, orelse, .. } => {
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result.extend(Self::get_all_assigned_field(body.as_slice())?);
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result.extend(Self::get_all_assigned_field(
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result.extend(Self::get_all_assigned_field(orelse.as_slice())?);
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class_id,
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definition_ast_list,
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body.as_slice(),
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)?);
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result.extend(Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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orelse.as_slice(),
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)?);
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}
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}
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ast::StmtKind::If { body, orelse, .. } => {
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ast::StmtKind::If { body, orelse, .. } => {
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let inited_for_sure = Self::get_all_assigned_field(body.as_slice())?
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let inited_for_sure = Self::get_all_assigned_field(
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.intersection(&Self::get_all_assigned_field(orelse.as_slice())?)
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class_id,
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.copied()
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definition_ast_list,
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.collect::<HashSet<_>>();
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body.as_slice(),
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)?
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.intersection(&Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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orelse.as_slice(),
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)?)
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.copied()
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.collect::<HashSet<_>>();
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result.extend(inited_for_sure);
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result.extend(inited_for_sure);
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}
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}
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ast::StmtKind::Try { body, orelse, finalbody, .. } => {
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ast::StmtKind::Try { body, orelse, finalbody, .. } => {
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let inited_for_sure = Self::get_all_assigned_field(body.as_slice())?
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let inited_for_sure = Self::get_all_assigned_field(
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.intersection(&Self::get_all_assigned_field(orelse.as_slice())?)
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class_id,
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.copied()
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definition_ast_list,
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.collect::<HashSet<_>>();
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body.as_slice(),
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)?
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.intersection(&Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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sb10q
commented
Initiated ? Initiated ?
abdul124
commented
Should have been initialized. This part checks if there are any function calls in the > Initiated ?
Should have been initialized. This part checks if there are any function calls in the `__init__` block where user might have initialized some variables (as all variables must be initialized before creating an object).
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orelse.as_slice(),
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)?)
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.copied()
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.collect::<HashSet<_>>();
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result.extend(inited_for_sure);
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result.extend(inited_for_sure);
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result.extend(Self::get_all_assigned_field(finalbody.as_slice())?);
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result.extend(Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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finalbody.as_slice(),
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)?);
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}
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}
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derppening
commented
NIt: consider NIt: consider
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ast::StmtKind::With { body, .. } => {
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ast::StmtKind::With { body, .. } => {
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result.extend(Self::get_all_assigned_field(body.as_slice())?);
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result.extend(Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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body.as_slice(),
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)?);
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}
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// Variables Initialized in function calls
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ast::StmtKind::Expr { value, .. } => {
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let ExprKind::Call { func, .. } = &value.node else {
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continue;
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};
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let ExprKind::Attribute { value, attr, .. } = &func.node else {
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continue;
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};
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let ExprKind::Name { id, .. } = &value.node else {
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continue;
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};
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// Need to consider the two cases:
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// Case 1) Call to class function i.e. id = `self`
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// Case 2) Call to class ancestor function i.e. id = ancestor_name
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// We leave checking whether function in case 2 belonged to class ancestor or not to type checker
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//
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// According to current handling of `self`, function definition are fixed and do not change regardless
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// of which object is passed as `self` i.e. virtual polymorphism is not supported
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// Therefore, we change class id for case 2 to reflect behavior of our compiler
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let class_name = if *id == "self".into() {
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let ast::StmtKind::ClassDef { name, .. } =
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&definition_ast_list[class_id].1.as_ref().unwrap().node
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else {
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unreachable!()
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};
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name
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} else {
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id
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};
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let parent_method = definition_ast_list.iter().find_map(|def| {
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let (
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class_def,
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Some(ast::Located {
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node: ast::StmtKind::ClassDef { name, body, .. },
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..
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}),
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) = &def
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else {
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return None;
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};
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let TopLevelDef::Class { object_id: class_id, .. } = &*class_def.read()
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else {
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unreachable!()
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};
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if name == class_name {
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body.iter().find_map(|m| {
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let ast::StmtKind::FunctionDef { name, body, .. } = &m.node else {
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return None;
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};
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if *name == *attr {
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return Some((body.clone(), class_id.0));
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}
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None
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})
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} else {
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None
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}
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});
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// If method body is none then method does not exist
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if let Some((method_body, class_id)) = parent_method {
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result.extend(Self::get_all_assigned_field(
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class_id,
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definition_ast_list,
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method_body.as_slice(),
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)?);
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} else {
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return Err(HashSet::from([format!(
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"{}.{} not found in class {class_name} at {}",
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*id, *attr, value.location
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)]));
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}
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}
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}
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ast::StmtKind::Pass { .. }
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ast::StmtKind::Pass { .. }
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| ast::StmtKind::Assert { .. }
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| ast::StmtKind::Assert { .. }
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| ast::StmtKind::Expr { .. } => {}
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| ast::StmtKind::AnnAssign { .. } => {}
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_ => {
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_ => {
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unimplemented!()
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unimplemented!()
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I don't understand this comment, can you elaborate?
Is a string hack the best way of solving this?
Class names in TopLevelDef are stored by first prepending module name to the class name. So,
would be named __main__.A. However, in the raw AST that holds the statements, the name is just A, so here I am removing the module name from definition.
Hmm this was the most straightforward method. An alternative could be to have to do the search in the TopLevelDef and get the corresponding DefinitionID to fetch the function statements from the AST.
Seems to me that doing the alternative method would make it clear what is happening from the code alone, and would not need any of those obscure/complicated comments.