forked from M-Labs/nac3
register top level clean up
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parent
17ee8fe6d0
commit
824a5cb01a
@ -119,8 +119,8 @@ impl TopLevelComposer {
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(primitives, unifier)
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(primitives, unifier)
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}
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}
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// return a composer and things to make a "primitive" symbol resolver, so that the symbol
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/// return a composer and things to make a "primitive" symbol resolver, so that the symbol
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// resolver can later figure out primitive type definitions when passed a primitive type name
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/// resolver can later figure out primitive type definitions when passed a primitive type name
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pub fn new() -> (Vec<(String, DefinitionId, Type)>, Self) {
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pub fn new() -> (Vec<(String, DefinitionId, Type)>, Self) {
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let primitives = Self::make_primitives();
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let primitives = Self::make_primitives();
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// the def list including the entries of primitive info
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// the def list including the entries of primitive info
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@ -199,11 +199,11 @@ impl TopLevelComposer {
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&mut self,
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&mut self,
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ast: ast::Stmt<()>,
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ast: ast::Stmt<()>,
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resolver: Option<Arc<Mutex<dyn SymbolResolver + Send>>>,
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resolver: Option<Arc<Mutex<dyn SymbolResolver + Send>>>,
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) -> Result<Vec<(String, DefinitionId, Type)>, String> {
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) -> Result<(String, DefinitionId, Type), String> {
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match &ast.node {
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match &ast.node {
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ast::StmtKind::ClassDef { name, body, .. } => {
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ast::StmtKind::ClassDef { name, body, .. } => {
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let class_name = name.to_string();
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let class_name = name.to_string();
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let def_list = self.definition_list.write();
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let mut def_list = self.definition_list.write();
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let class_def_id = def_list.len();
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let class_def_id = def_list.len();
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// add the class to the unifier
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// add the class to the unifier
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@ -213,18 +213,15 @@ impl TopLevelComposer {
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params: Default::default(),
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params: Default::default(),
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});
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});
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let mut ret_vector: Vec<(String, DefinitionId, Type)> =
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vec![(class_name.clone(), DefinitionId(class_def_id), ty)];
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// parse class def body and register class methods into the def list
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// parse class def body and register class methods into the def list
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// NOTE: module's symbol resolver would not know the name of the class methods,
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// module's symbol resolver would not know the name of the class methods,
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// thus cannot return their definition_id? so we have to manage it ourselves?
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// thus cannot return their definition_id? so we have to manage it ourselves
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// or do we return the class method list of (method_name, def_id, type) to
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// by using the field `class_method_to_def_id`
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// application to be used to build symbol resolver? <- current implementation
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// FIXME: better do not return and let symbol resolver to manage the mangled name
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for b in body {
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for b in body {
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if let ast::StmtKind::FunctionDef { name, .. } = &b.node {
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if let ast::StmtKind::FunctionDef { name, .. } = &b.node {
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let fun_name = name_mangling(class_name.clone(), name);
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let fun_name = name_mangling(class_name.clone(), name);
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let def_id = self.definition_list.len();
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let def_id = def_list.len();
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// add to unifier
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// add to unifier
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let ty = self.unifier.add_ty(TypeEnum::TFunc(
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let ty = self.unifier.add_ty(TypeEnum::TFunc(
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crate::typecheck::typedef::FunSignature {
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crate::typecheck::typedef::FunSignature {
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@ -233,51 +230,61 @@ impl TopLevelComposer {
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vars: Default::default(),
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vars: Default::default(),
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},
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},
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));
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));
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// add to the definition list
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// add to the definition list
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self.definition_list.push(TopLevelDefInfo {
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def_list.push(TopLevelDefInfo {
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def: Self::make_top_level_function_def(fun_name.clone(), ty, None), // FIXME:
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def: Self::make_top_level_function_def(fun_name.clone(), ty, resolver.clone()),
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ty,
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ty,
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ast: None, // since it is inside the class def body statments
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// since it is inside the class def body statments, the ast is None
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ast: None,
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});
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});
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ret_vector.push((fun_name, DefinitionId(def_id), ty));
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// class method, do not let the symbol manager manage it, use our own map
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// FIXME: maybe not do name magling, use map to map instead
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self.class_method_to_def_id.insert(
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fun_name,
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DefinitionId(def_id)
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);
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// if it is the contructor, special handling is needed. In the above
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// if it is the contructor, special handling is needed. In the above
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// handling, we still add __init__ function to the class method
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// handling, we still add __init__ function to the class method
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if name == "__init__" {
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if name == "__init__" {
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self.definition_list.push(TopLevelDefInfo {
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def_list.push(TopLevelDefInfo {
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def: TopLevelDef::Initializer {
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def: TopLevelDef::Initializer {
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class_id: DefinitionId(class_def_id),
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class_id: DefinitionId(class_def_id),
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},
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},
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ty: self.primitives.none, // arbitary picked one
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// arbitary picked one for the constructor
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ast: None, // it is inside the class def body statments
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ty: self.primitives.none,
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// it is inside the class def body statments, so None
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ast: None,
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})
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})
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// FIXME: should we return this to the symbol resolver?, should be yes
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}
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}
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}
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}
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}
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}
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// add the class to the definition list
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// add the class to the definition list
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self.definition_list.push(TopLevelDefInfo {
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def_list.push(TopLevelDefInfo {
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def: Self::make_top_level_class_def(class_def_id, resolver),
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def: Self::make_top_level_class_def(class_def_id, resolver),
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ast: Some(ast),
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ast: Some(ast),
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ty,
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ty,
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});
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});
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Ok(ret_vector)
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Ok((class_name, DefinitionId(class_def_id), ty))
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}
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},
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ast::StmtKind::FunctionDef { name, .. } => {
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ast::StmtKind::FunctionDef { name, .. } => {
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let fun_name = name.to_string();
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let fun_name = name.to_string();
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let def_id = self.definition_list.len();
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// add to the unifier
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// add to the unifier
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let ty =
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let ty = self.unifier.add_ty(TypeEnum::TFunc(crate::typecheck::typedef::FunSignature {
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self.unifier.add_ty(TypeEnum::TFunc(crate::typecheck::typedef::FunSignature {
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args: Default::default(),
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args: Default::default(),
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ret: self.primitives.none,
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ret: self.primitives.none,
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vars: Default::default(),
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vars: Default::default(),
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}));
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}));
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// add to the definition list
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// add to the definition list
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self.definition_list.push(TopLevelDefInfo {
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let mut def_list = self.definition_list.write();
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def_list.push(TopLevelDefInfo {
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def: Self::make_top_level_function_def(
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def: Self::make_top_level_function_def(
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name.into(),
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name.into(),
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self.primitives.none,
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self.primitives.none,
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@ -287,7 +294,7 @@ impl TopLevelComposer {
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ty,
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ty,
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});
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});
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Ok(vec![(fun_name, DefinitionId(def_id), ty)])
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Ok((fun_name, DefinitionId(def_list.len() - 1), ty))
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}
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}
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_ => Err("only registrations of top level classes/functions are supprted".into()),
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_ => Err("only registrations of top level classes/functions are supprted".into()),
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@ -296,7 +303,8 @@ impl TopLevelComposer {
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/// this should be called after all top level classes are registered, and will actually fill in those fields of the previous dummy one
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/// this should be called after all top level classes are registered, and will actually fill in those fields of the previous dummy one
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pub fn analyze_top_level(&mut self) -> Result<(), String> {
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pub fn analyze_top_level(&mut self) -> Result<(), String> {
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for mut d in &mut self.definition_list {
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for d in self.definition_list.write().iter_mut() {
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// only analyze those with ast, and class_method(ast in class def)
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if let Some(ast) = &d.ast {
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if let Some(ast) = &d.ast {
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match &ast.node {
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match &ast.node {
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ast::StmtKind::ClassDef {
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ast::StmtKind::ClassDef {
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@ -310,23 +318,25 @@ impl TopLevelComposer {
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fields,
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fields,
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methods,
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methods,
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type_vars,
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type_vars,
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// resolver,
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resolver,
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) = if let TopLevelDef::Class {
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) = if let TopLevelDef::Class {
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object_id,
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object_id,
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ancestors,
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ancestors,
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fields,
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fields,
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methods,
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methods,
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type_vars,
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type_vars,
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resolver
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resolver: Some(resolver)
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} = &mut d.def {
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} = &mut d.def {
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(object_id, ancestors, fields, methods, type_vars) // FIXME: this unwrap is not safe
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(object_id, ancestors, fields, methods, type_vars, resolver.lock())
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} else { unreachable!() };
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} else { unreachable!() };
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// try to get mutable reference of the entry in the unification table, get the `TypeEnum`
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// try to get mutable reference of the entry in the unification table, get the `TypeEnum`
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let (params,
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let (params,
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fields
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fields
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) = if let TypeEnum::TObj {
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) = if let TypeEnum::TObj {
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params, // FIXME: this params is immutable, even if this is mutable, what should the key be, get the original typevar's var_id?
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// FIXME: this params is immutable, even if this is mutable, what
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// should the key be, get the original typevar's var_id?
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params,
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fields,
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fields,
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..
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..
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} = self.unifier.get_ty(d.ty).borrow() {
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} = self.unifier.get_ty(d.ty).borrow() {
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@ -337,7 +347,9 @@ impl TopLevelComposer {
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// into the `bases` ast node
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// into the `bases` ast node
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for b in bases {
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for b in bases {
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match &b.node {
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match &b.node {
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// typevars bounded to the class, things like `class A(Generic[T, V, ImportedModule.T])`
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// typevars bounded to the class, only support things like `class A(Generic[T, V])`,
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// things like `class A(Generic[T, V, ImportedModule.T])` is not supported
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// i.e. only simple names are allowed in the subscript
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// should update the TopLevelDef::Class.typevars and the TypeEnum::TObj.params
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// should update the TopLevelDef::Class.typevars and the TypeEnum::TObj.params
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ast::ExprKind::Subscript {value, slice, ..} if {
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ast::ExprKind::Subscript {value, slice, ..} if {
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if let ast::ExprKind::Name {id, ..} = &value.node {
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if let ast::ExprKind::Name {id, ..} = &value.node {
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@ -345,22 +357,10 @@ impl TopLevelComposer {
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} else { false }
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} else { false }
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} => {
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} => {
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match &slice.node {
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match &slice.node {
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// `class Foo(Generic[T, V, P, ImportedModule.T]):`
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// `class Foo(Generic[T, V, P]):`
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ast::ExprKind::Tuple {elts, ..} => {
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ast::ExprKind::Tuple {elts, ..} => {
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for e in elts {
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for e in elts {
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// TODO: I'd better parse the node to get the Type of the type vars(can have things like: A.B.C.typevar?)
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// resolver.parse_type_annotation(self.definition_list.) // FIXME:
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match &e.node {
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ast::ExprKind::Name {id, ..} => {
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// the def_list
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// type_vars.push(resolver.get_symbol_type(id).ok_or_else(|| "unknown type variable".to_string())?); FIXME:
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// the TypeEnum of the class
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// FIXME: the `params` destructed above is not mutable, even if this is mutable, what should the key be?
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unimplemented!()
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},
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_ => unimplemented!()
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}
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}
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}
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},
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},
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@ -374,17 +374,11 @@ impl TopLevelComposer {
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unimplemented!()
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unimplemented!()
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},
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},
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// `class Foo(Generic[ImportedModule.T])`
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_ => return Err("not supported, only simple names are allowed in the subscript".into())
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ast::ExprKind::Attribute {value, attr, ..} => {
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// TODO:
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unimplemented!()
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},
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_ => return Err("not supported".into()) // NOTE: it is really all the supported cases?
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};
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};
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},
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},
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// base class, name directly available inside the
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/* // base class, name directly available inside the
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// module, can use this module's symbol resolver
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// module, can use this module's symbol resolver
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ast::ExprKind::Name {id, ..} => {
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ast::ExprKind::Name {id, ..} => {
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// let def_id = resolver.get_identifier_def(id); FIXME:
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// let def_id = resolver.get_identifier_def(id); FIXME:
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@ -407,7 +401,9 @@ impl TopLevelComposer {
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// `class Foo(ImportedModule.A[int, bool])`, A is a class with associated type variables
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// `class Foo(ImportedModule.A[int, bool])`, A is a class with associated type variables
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ast::ExprKind::Subscript {value, slice, ..} => {
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ast::ExprKind::Subscript {value, slice, ..} => {
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unimplemented!()
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unimplemented!()
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},
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}, */
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// base class is possible in other cases, we parse for thr base class
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_ => return Err("not supported".into())
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_ => return Err("not supported".into())
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}
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}
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}
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}
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@ -444,7 +440,9 @@ impl TopLevelComposer {
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unimplemented!()
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unimplemented!()
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}
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}
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_ => return Err("only expect function and class definitions to be submitted here to be analyzed".into())
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node => {
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return Err("only expect function and class definitions to be submitted here to be analyzed".into())
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}
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}
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}
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}
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}
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}
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}
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