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abdul124 2024-08-28 09:53:28 +08:00
parent 70d033da61
commit 194fbc51ab
9 changed files with 338 additions and 457 deletions
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2
flake.nix
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@ -180,7 +180,9 @@
clippy
pre-commit
rustfmt
rust-analyzer
];
RUST_SRC_PATH = "${pkgs.rust.packages.stable.rustPlatform.rustLibSrc}";
shellHook =
''
export DEMO_LINALG_STUB=${packages.x86_64-linux.demo-linalg-stub}/lib/liblinalg.a

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89
nac3artiq/demo/demo.py
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@ -1,26 +1,87 @@
from min_artiq import *
from numpy import int32
# @nac3
# class A:
# a: int32
# core: KernelInvariant[Core]
# def __init__(self, a: int32):
# self.core = Core()
# self.a = a
# @kernel
# def output_all_fields(self):
# #print(self.a)
# pass
# @kernel
# def set_a(self, a: int32):
# self.a = a
# @nac3
# class B(A):
# b: int32
# def __init__(self, b: int32):
# # A.__init__(self, b + 1)
# self.core = Core()
# self.a = b
# self.b = b
# self.set_b(b)
# @kernel
# def output_parent_fields(self):
# # A.output_all_fields(self)
# pass
# @kernel
# def output_all_fields(self):
# # A.output_all_fields(self)
# pass
# #print(self.b)
# @kernel
# def set_b(self, b: int32):
# self.b = b
@nac3
class Demo:
class C:
c: Kernel[int32]
a: Kernel[int32]
b: Kernel[int32]
core: KernelInvariant[Core]
led0: KernelInvariant[TTLOut]
led1: KernelInvariant[TTLOut]
def __init__(self):
def __init__(self, c: int32):
# B.__init__(self, c + 1)
self.core = Core()
self.led0 = TTLOut(self.core, 18)
self.led1 = TTLOut(self.core, 19)
self.a = c
self.b = c
self.c = c
@kernel
def output_parent_fields(self):
# B.output_all_fields(self)
pass
@kernel
def output_all_fields(self):
# B.output_all_fields(self)
#print(self.c)
pass
@kernel
def set_c(self, c: int32):
self.c = c
@kernel
def run(self):
self.core.reset()
while True:
with parallel:
self.led0.pulse(100.*ms)
self.led1.pulse(100.*ms)
self.core.delay(100.*ms)
self.output_all_fields()
# self.set_a(1)
# self.set_b(2)
self.set_c(3)
self.output_all_fields()
if __name__ == "__main__":
Demo().run()
C(10).run()

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519
nac3core/src/toplevel/composer.rs
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@ -1,3 +1,4 @@
use indexmap::IndexMap;
use nac3parser::ast::fold::Fold;
use std::rc::Rc;
@ -5,7 +6,7 @@ use crate::{
codegen::{expr::get_subst_key, stmt::exn_constructor},
symbol_resolver::SymbolValue,
typecheck::{
type_inferencer::{FunctionData, Inferencer},
type_inferencer::{report_error, FunctionData, Inferencer},
typedef::{TypeVar, VarMap},
},
};
@ -389,8 +390,15 @@ impl TopLevelComposer {
}
pub fn start_analysis(&mut self, inference: bool) -> Result<(), HashSet<String>> {
self.analyze_top_level_class_type_var()?;
self.analyze_top_level_class_bases()?;
let unifier = self.unifier.borrow_mut();
let primitives_store = &self.primitives_ty;
let def_list = &self.definition_ast_list;
// Step 1. Analyze type variables within class definitions
Self::analyze_top_level_class_type_var2(def_list, unifier, primitives_store, (&self.keyword_list, &self.core_config))?;
// self.analyze_top_level_class_type_var()?;
// self.analyze_top_level_class_bases()?;
self.analyze_top_level_class_fields_methods()?;
self.analyze_top_level_function()?;
if inference {
@ -399,33 +407,30 @@ impl TopLevelComposer {
Ok(())
}
/// step 1, analyze the type vars associated with top level class
fn analyze_top_level_class_type_var(&mut self) -> Result<(), HashSet<String>> {
let def_list = &self.definition_ast_list;
let temp_def_list = self.extract_def_list();
let unifier = self.unifier.borrow_mut();
let primitives_store = &self.primitives_ty;
let mut analyze = |class_def: &Arc<RwLock<TopLevelDef>>, class_ast: &Option<Stmt>| {
// only deal with class def here
fn analyze_bases(
class_def: &Arc<RwLock<TopLevelDef>>,
class_ast: &Option<Stmt>,
temp_def_list: &[Arc<RwLock<TopLevelDef>>],
unifier: &mut Unifier,
primitives_store: &PrimitiveStore,
) -> Result<(), HashSet<String>> {
let mut class_def = class_def.write();
let (class_bases_ast, class_def_type_vars, class_resolver) = {
if let TopLevelDef::Class { type_vars, resolver, .. } = &mut *class_def {
let Some(ast::Located { node: ast::StmtKind::ClassDef { bases, .. }, .. }) =
class_ast
let (class_def_id, class_ancestors, class_bases_ast, class_type_vars, class_resolver) = {
let TopLevelDef::Class { object_id, ancestors, type_vars, resolver, .. } =
&mut *class_def
else {
unreachable!()
};
(bases, type_vars, resolver)
} else {
return Ok(());
}
let Some(ast::Located { node: ast::StmtKind::ClassDef { bases, .. }, .. }) = class_ast
else {
unreachable!()
};
(object_id, ancestors, bases, type_vars, resolver.as_ref().unwrap().as_ref())
};
let class_resolver = class_resolver.as_ref().unwrap();
let class_resolver = &**class_resolver;
let mut is_generic = false;
let mut has_base = false;
// Check class bases for typevars
for b in class_bases_ast {
match &b.node {
// analyze typevars bounded to the class,
@ -433,19 +438,10 @@ impl TopLevelComposer {
// things like `class A(Generic[T, V, ImportedModule.T])` is not supported
// i.e. only simple names are allowed in the subscript
// should update the TopLevelDef::Class.typevars and the TypeEnum::TObj.params
ast::ExprKind::Subscript { value, slice, .. }
if {
matches!(
&value.node,
ast::ExprKind::Name { id, .. } if id == &"Generic".into()
)
} =>
ast::ExprKind::Subscript { value, slice, .. } if matches!(&value.node, ast::ExprKind::Name { id, .. } if id == &"Generic".into()) =>
{
if is_generic {
return Err(HashSet::from([format!(
"only single Generic[...] is allowed (at {})",
b.location
)]));
return report_error("only single Generic[...] is allowed", b.location);
}
is_generic = true;
@ -458,12 +454,11 @@ impl TopLevelComposer {
type_var_list = vec![&**slice];
}
// parse the type vars
let type_vars = type_var_list
.into_iter()
.map(|e| {
class_resolver.parse_type_annotation(
&temp_def_list,
temp_def_list,
unifier,
primitives_store,
e,
@ -471,106 +466,11 @@ impl TopLevelComposer {
})
.collect::<Result<Vec<_>, _>>()?;
// check if all are unique type vars
let all_unique_type_var = {
let mut occurred_type_var_id: HashSet<TypeVarId> = HashSet::new();
type_vars.iter().all(|x| {
let ty = unifier.get_ty(*x);
if let TypeEnum::TVar { id, .. } = ty.as_ref() {
occurred_type_var_id.insert(*id)
} else {
false
class_type_vars.extend(type_vars);
}
})
};
if !all_unique_type_var {
return Err(HashSet::from([format!(
"duplicate type variable occurs (at {})",
slice.location
)]));
}
// add to TopLevelDef
class_def_type_vars.extend(type_vars);
}
// if others, do nothing in this function
_ => continue,
}
}
Ok(())
};
let mut errors = HashSet::new();
for (class_def, class_ast) in def_list.iter().skip(self.builtin_num) {
if class_ast.is_none() {
continue;
}
if let Err(e) = analyze(class_def, class_ast) {
errors.extend(e);
}
}
if !errors.is_empty() {
return Err(errors);
}
Ok(())
}
/// step 2, base classes.
/// now that the type vars of all classes are done, handle base classes and
/// put Self class into the ancestors list. We only allow single inheritance
fn analyze_top_level_class_bases(&mut self) -> Result<(), HashSet<String>> {
if self.unifier.top_level.is_none() {
let ctx = Arc::new(self.make_top_level_context());
self.unifier.top_level = Some(ctx);
}
let temp_def_list = self.extract_def_list();
let unifier = self.unifier.borrow_mut();
let primitive_types = self.primitives_ty;
let mut get_direct_parents =
|class_def: &Arc<RwLock<TopLevelDef>>, class_ast: &Option<Stmt>| {
let mut class_def = class_def.write();
let (class_def_id, class_bases, class_ancestors, class_resolver, class_type_vars) = {
if let TopLevelDef::Class {
ancestors, resolver, object_id, type_vars, ..
} = &mut *class_def
{
let Some(ast::Located {
node: ast::StmtKind::ClassDef { bases, .. }, ..
}) = class_ast
else {
unreachable!()
};
(object_id, bases, ancestors, resolver, type_vars)
} else {
return Ok(());
}
};
let class_resolver = class_resolver.as_ref().unwrap();
let class_resolver = &**class_resolver;
let mut has_base = false;
for b in class_bases {
// type vars have already been handled, so skip on `Generic[...]`
if matches!(
&b.node,
ast::ExprKind::Subscript { value, .. }
if matches!(
&value.node,
ast::ExprKind::Name { id, .. } if id == &"Generic".into()
)
) {
continue;
}
ast::ExprKind::Name { .. } => {
if has_base {
return Err(HashSet::from([format!(
"a class definition can only have at most one base class \
declaration and one generic declaration (at {})",
b.location
)]));
return report_error("a class definition can only have at most one base class declaration and one generic declaration", b.location);
}
has_base = true;
@ -578,9 +478,9 @@ impl TopLevelComposer {
// bast_ty if it is a CustomClassKind
let base_ty = parse_ast_to_type_annotation_kinds(
class_resolver,
&temp_def_list,
temp_def_list,
unifier,
&primitive_types,
primitives_store,
b,
vec![(*class_def_id, class_type_vars.clone())]
.into_iter()
@ -590,123 +490,127 @@ impl TopLevelComposer {
if let TypeAnnotation::CustomClass { .. } = &base_ty {
class_ancestors.push(base_ty);
} else {
return Err(HashSet::from([format!(
"class base declaration can only be custom class (at {})",
return report_error(
"class base declaration can only be custom class",
b.location,
)]));
}
}
Ok(())
};
// first, only push direct parent into the list
let mut errors = HashSet::new();
for (class_def, class_ast) in self.definition_ast_list.iter_mut().skip(self.builtin_num) {
if class_ast.is_none() {
continue;
}
if let Err(e) = get_direct_parents(class_def, class_ast) {
errors.extend(e);
}
}
if !errors.is_empty() {
return Err(errors);
}
// second, get all ancestors
let mut ancestors_store: HashMap<DefinitionId, Vec<TypeAnnotation>> = HashMap::default();
let mut get_all_ancestors =
|class_def: &Arc<RwLock<TopLevelDef>>| -> Result<(), HashSet<String>> {
let class_def = class_def.read();
let (class_ancestors, class_id) = {
if let TopLevelDef::Class { ancestors, object_id, .. } = &*class_def {
(ancestors, *object_id)
} else {
return Ok(());
}
};
ancestors_store.insert(
class_id,
// if class has direct parents, get all ancestors of its parents. Else just empty
if class_ancestors.is_empty() {
vec![]
} else {
Self::get_all_ancestors_helper(
&class_ancestors[0],
temp_def_list.as_slice(),
)?
},
);
Ok(())
};
for (class_def, ast) in self.definition_ast_list.iter().skip(self.builtin_num) {
if ast.is_none() {
continue;
}
if let Err(e) = get_all_ancestors(class_def) {
}
// TODO: Report Error here
_ => {
println!("Type was => {}", b.node.name());
}
}
}
Ok(())
}
fn analyze_ancestors(
class_def: &Arc<RwLock<TopLevelDef>>,
temp_def_list: &[Arc<RwLock<TopLevelDef>>],
) {
// Check if class has a direct parent
let mut class_def = class_def.write();
let TopLevelDef::Class { ancestors, type_vars, object_id, .. } = &mut *class_def else {
unreachable!()
};
let mut anc_set = HashMap::new();
if let Some(ancestor) = ancestors.first() {
let TypeAnnotation::CustomClass { id, .. } = ancestor else { unreachable!() };
let TopLevelDef::Class { ancestors: parent_ancestors, .. } =
&*temp_def_list[id.0].read()
else {
unreachable!()
};
for anc in parent_ancestors.iter().skip(1) {
let TypeAnnotation::CustomClass { id, .. } = anc else { unreachable!() };
anc_set.insert(id, anc.clone());
}
ancestors.extend(anc_set.into_iter().map(|f| f.1).collect::<Vec<_>>());
}
ancestors.insert(0, make_self_type_annotation(type_vars.as_slice(), *object_id));
}
/// step 1, analyze the type vars associated with top level class
fn analyze_top_level_class_type_var2(
def_list: &[DefAst],
unifier: &mut Unifier,
primitives_store: &PrimitiveStore,
core_info: (&HashSet<StrRef>, &ComposerConfig),
) -> Result<(), HashSet<String>> {
let mut errors = HashSet::new();
let mut temp_def_list: Vec<Arc<RwLock<TopLevelDef>>> = Vec::default();
for (class_def, class_ast) in def_list {
if class_ast.is_some() && matches!(&*class_def.read(), TopLevelDef::Class { .. }) {
// Add type vars and direct parents
if let Err(e) = Self::analyze_bases(
class_def,
class_ast,
&temp_def_list,
unifier,
primitives_store,
) {
errors.extend(e);
}
}
if !errors.is_empty() {
return Err(errors);
}
// Get class ancestors order matters here. Like python we will only consider classes to be correct if they are in same order
Self::analyze_ancestors(class_def, &temp_def_list);
// insert the ancestors to the def list
for (class_def, class_ast) in self.definition_ast_list.iter_mut().skip(self.builtin_num) {
if class_ast.is_none() {
continue;
let mut type_var_to_concrete_def: HashMap<Type, TypeAnnotation> = HashMap::new();
if let Err(e) = Self::analyze_single_class_methods_fields(
class_def,
&class_ast.as_ref().unwrap().node,
&temp_def_list,
unifier,
primitives_store,
&mut type_var_to_concrete_def,
core_info,
) {
errors.extend(e);
}
let mut class_def = class_def.write();
let (class_ancestors, class_id, class_type_vars) = {
if let TopLevelDef::Class { ancestors, object_id, type_vars, .. } = &mut *class_def
{
(ancestors, *object_id, type_vars)
} else {
continue;
}
};
let ans = ancestors_store.get_mut(&class_id).unwrap();
class_ancestors.append(ans);
// insert self type annotation to the front of the vector to maintain the order
class_ancestors
.insert(0, make_self_type_annotation(class_type_vars.as_slice(), class_id));
// special case classes that inherit from Exception
let TopLevelDef::Class { ancestors: class_ancestors, loc, .. } = &*class_def.read()
else {
unreachable!()
};
if class_ancestors
.iter()
.any(|ann| matches!(ann, TypeAnnotation::CustomClass { id, .. } if id.0 == 7))
{
// if inherited from Exception, the body should be a pass
let ast::StmtKind::ClassDef { body, .. } = &class_ast.as_ref().unwrap().node else {
let ast::StmtKind::ClassDef { body, .. } = &class_ast.as_ref().unwrap().node
else {
unreachable!()
};
for stmt in body {
if matches!(
stmt.node,
ast::StmtKind::FunctionDef { .. } | ast::StmtKind::AnnAssign { .. }
) {
return Err(HashSet::from([
"Classes inherited from exception should have no custom fields/methods"
.into(),
]));
errors.extend(report_error("Classes inherited from exception should have no custom fields/methods", loc.unwrap()));
}
}
}
}
// println!("Adding class_def of {name} to the temp_def_list with ID {}", object_id.0);
temp_def_list.push(class_def.clone());
}
// deal with ancestor of Exception object
let TopLevelDef::Class { name, ancestors, object_id, .. } =
&mut *self.definition_ast_list[7].0.write()
let TopLevelDef::Class { name, ancestors, object_id, .. } = &mut *def_list[7].0.write()
else {
unreachable!()
};
assert_eq!(*name, "Exception".into());
ancestors.push(make_self_type_annotation(&[], *object_id));
if !errors.is_empty() {
return Err(errors);
}
Ok(())
}
@ -1199,65 +1103,36 @@ impl TopLevelComposer {
let mut method_var_map = VarMap::new();
let arg_types: Vec<FuncArg> = {
// check method parameters cannot have same name
// Function arguments must have:
// 1) `self` as first argument
// 2) unique names
// 3) names different than keywords
match args.args.first() {
Some(id) if id.node.arg == "self".into() => {},
_ => return report_error("class method must have a `self` parameter", b.location),
}
let mut defined_parameter_name: HashSet<_> = HashSet::new();
let zelf: StrRef = "self".into();
for x in &args.args {
if !defined_parameter_name.insert(x.node.arg)
|| (keyword_list.contains(&x.node.arg) && x.node.arg != zelf)
{
return Err(HashSet::from([
format!("top level function must have unique parameter names \
and names should not be the same as the keywords (at {})",
x.location),
]))
for arg in args.args.iter().skip(1) {
if !defined_parameter_name.insert(arg.node.arg) {
return report_error("class method must have a unique parameter names", b.location)
}
if keyword_list.contains(&arg.node.arg) {
return report_error("parameter names should not be the same as the keywords", b.location)
}
}
if name == &"__init__".into() && !defined_parameter_name.contains(&zelf) {
return Err(HashSet::from([
format!("__init__ method must have a `self` parameter (at {})", b.location),
]))
// `self` must not be provided type annotation or default value
if args.args.len() == args.defaults.len() {
return report_error("`self` cannot have a default value", b.location)
}
if !defined_parameter_name.contains(&zelf) {
return Err(HashSet::from([
format!("class method must have a `self` parameter (at {})", b.location),
]))
if args.args[0].node.annotation.is_some() {
return report_error("`self` cannot have a type annotation", b.location)
}
let mut result = Vec::new();
let arg_with_default: Vec<(
&ast::Located<ast::ArgData<()>>,
Option<&ast::Expr>,
)> = args
.args
.iter()
.rev()
.zip(
args.defaults
.iter()
.rev()
.map(|x| -> Option<&ast::Expr> { Some(x) })
.chain(std::iter::repeat(None)),
)
.collect_vec();
for (x, default) in arg_with_default.into_iter().rev() {
let name = x.node.arg;
if name != zelf {
let no_defaults = args.args.len() - args.defaults.len() - 1;
for (idx, x) in itertools::enumerate(args.args.iter().skip(1)) {
let type_ann = {
let annotation_expr = x
.node
.annotation
.as_ref()
.ok_or_else(|| HashSet::from([
format!(
"type annotation needed for `{}` at {}",
x.node.arg, x.location
),
]))?
.as_ref();
let Some(annotation_expr) = x.node.annotation.as_ref() else {return report_error(format!("type annotation needed for `{}`", x.node.arg).as_str(), x.location)};
parse_ast_to_type_annotation_kinds(
class_resolver,
temp_def_list,
@ -1270,8 +1145,7 @@ impl TopLevelComposer {
)?
};
// find type vars within this method parameter type annotation
let type_vars_within =
get_type_var_contained_in_type_annotation(&type_ann);
let type_vars_within = get_type_var_contained_in_type_annotation(&type_ann);
// handle the class type var and the method type var
for type_var_within in type_vars_within {
let TypeAnnotation::TypeVar(ty) = type_var_within else {
@ -1286,30 +1160,16 @@ impl TopLevelComposer {
}
// finish handling type vars
let dummy_func_arg = FuncArg {
name,
name: x.node.arg,
ty: unifier.get_dummy_var().ty,
default_value: match default {
None => None,
Some(default) => {
if name == "self".into() {
return Err(HashSet::from([
format!("`self` parameter cannot take default value (at {})", x.location),
]));
}
default_value: if idx < no_defaults { None } else {
let default_idx = idx - no_defaults;
Some({
let v = Self::parse_parameter_default_value(
default,
class_resolver,
)?;
Self::check_default_param_type(
&v, &type_ann, primitives, unifier,
)
.map_err(|err| HashSet::from([
format!("{} (at {})", err, x.location),
]))?;
let v = Self::parse_parameter_default_value(&args.defaults[default_idx], class_resolver)?;
Self::check_default_param_type(&v, &type_ann, primitives, unifier).map_err(|err| report_error::<()>(err.as_str(), x.location).unwrap_err())?;
v
})
}
},
is_vararg: false,
};
@ -1319,7 +1179,6 @@ impl TopLevelComposer {
.insert(dummy_func_arg.ty, type_ann.clone());
result.push(dummy_func_arg);
}
}
result
};
@ -1440,23 +1299,13 @@ impl TopLevelComposer {
match v {
ast::Constant::Bool(_) | ast::Constant::Str(_) | ast::Constant::Int(_) | ast::Constant::Float(_) => {}
_ => {
return Err(HashSet::from([
format!(
"unsupported statement in class definition body (at {})",
b.location
),
]))
return report_error("unsupported statement in class definition body", b.location)
}
}
class_attributes_def.push((*attr, dummy_field_type, v.clone()));
}
_ => {
return Err(HashSet::from([
format!(
"unsupported statement in class definition body (at {})",
b.location
),
]))
return report_error("unsupported statement in class definition body", b.location)
}
}
annotation
@ -1482,43 +1331,22 @@ impl TopLevelComposer {
};
if !class_type_vars_def.contains(&t) {
return Err(HashSet::from([
format!(
"class fields can only use type \
vars over which the class is generic (at {})",
annotation.location
),
]))
return report_error("class fields can only use type vars over which the class is generic", b.location)
}
}
type_var_to_concrete_def.insert(dummy_field_type, parsed_annotation);
} else {
return Err(HashSet::from([
format!(
"same class fields `{}` defined twice (at {})",
attr, target.location
),
]))
return report_error(format!("same class fields `{}` defined twice", attr).as_str(), target.location)
}
} else {
return Err(HashSet::from([
format!(
"unsupported statement type in class definition body (at {})",
target.location
),
]))
return report_error("unsupported statement in class definition body", target.location)
}
}
ast::StmtKind::Assign { .. } // we don't class attributes
| ast::StmtKind::Expr { value: _, .. } // typically a docstring; ignoring all expressions matches CPython behavior
| ast::StmtKind::Pass { .. } => {}
_ => {
return Err(HashSet::from([
format!(
"unsupported statement in class definition body (at {})",
b.location
),
]))
return report_error("unsupported statement in class definition body", b.location)
}
}
}
@ -1570,19 +1398,14 @@ impl TopLevelComposer {
// handle methods override
// since we need to maintain the order, create a new list
let mut new_child_methods: Vec<(StrRef, Type, DefinitionId)> = Vec::new();
let mut is_override: HashSet<StrRef> = HashSet::new();
for (anc_method_name, anc_method_ty, anc_method_def_id) in methods {
// find if there is a method with same name in the child class
let mut to_be_added = (*anc_method_name, *anc_method_ty, *anc_method_def_id);
let mut new_child_methods: IndexMap<StrRef, (Type, DefinitionId)> = methods.iter().map(|m| (m.0.clone(), (m.1.clone(), m.2.clone()))).collect();
// let mut new_child_methods: Vec<(StrRef, Type, DefinitionId)> = methods.clone();
for (class_method_name, class_method_ty, class_method_defid) in &*class_methods_def {
if class_method_name == anc_method_name {
// ignore and handle self
// if is __init__ method, no need to check return type
if let Some((ty, _ ) ) = new_child_methods.insert(*class_method_name, (*class_method_ty, *class_method_defid)) {
let ok = class_method_name == &"__init__".into()
|| Self::check_overload_function_type(
*class_method_ty,
*anc_method_ty,
ty,
unifier,
type_var_to_concrete_def,
);
@ -1591,23 +1414,11 @@ impl TopLevelComposer {
"method {class_method_name} has same name as ancestors' method, but incompatible type"),
]));
}
// mark it as added
is_override.insert(*class_method_name);
to_be_added = (*class_method_name, *class_method_ty, *class_method_defid);
break;
}
}
new_child_methods.push(to_be_added);
}
// add those that are not overriding method to the new_child_methods
for (class_method_name, class_method_ty, class_method_defid) in &*class_methods_def {
if !is_override.contains(class_method_name) {
new_child_methods.push((*class_method_name, *class_method_ty, *class_method_defid));
}
}
// use the new_child_methods to replace all the elements in `class_methods_def`
class_methods_def.clear();
class_methods_def.extend(new_child_methods);
class_methods_def.extend(new_child_methods.iter().map(|f| (f.0.clone(), f.1.0, f.1.1)).collect_vec());
let is_override: HashSet<StrRef> = HashSet::new();
// handle class fields
let mut new_child_fields: Vec<(StrRef, Type, bool)> = Vec::new();

9
nac3core/src/toplevel/type_annotation.rs
View File

@ -1,6 +1,7 @@
use super::*;
use crate::symbol_resolver::SymbolValue;
use crate::toplevel::helper::{PrimDef, PrimDefDetails};
use crate::typecheck::type_inferencer::report_error;
use crate::typecheck::typedef::VarMap;
use nac3parser::ast::Constant;
use strum::IntoEnumIterator;
@ -97,7 +98,13 @@ pub fn parse_ast_to_type_annotation_kinds<T, S: std::hash::BuildHasher + Clone>(
Ok(TypeAnnotation::CustomClass { id: PrimDef::Exception.id(), params: Vec::default() })
} else if let Ok(obj_id) = resolver.get_identifier_def(*id) {
let type_vars = {
let def_read = top_level_defs[obj_id.0].try_read();
let Some(top_level_def) = top_level_defs.get(obj_id.0) else {
return report_error(
format!("Name Error undefined name {id}").as_str(),
expr.location,
);
};
let def_read = top_level_def.try_read();
if let Some(def_read) = def_read {
if let TopLevelDef::Class { type_vars, .. } = &*def_read {
type_vars.clone()

2
nac3core/src/typecheck/type_inferencer/mod.rs
View File

@ -114,7 +114,7 @@ impl Fold<()> for NaiveFolder {
}
}
fn report_error<T>(msg: &str, location: Location) -> Result<T, InferenceError> {
pub fn report_error<T>(msg: &str, location: Location) -> Result<T, InferenceError> {
Err(HashSet::from([format!("{msg} at {location}")]))
}

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pyo3/nac3artiq.so Executable file
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