move top level related things to a separate module
This commit is contained in:
parent
c356062239
commit
32773c14e0
@ -3,7 +3,7 @@ use std::{collections::HashMap, convert::TryInto, iter::once};
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use super::{get_llvm_type, CodeGenContext};
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use crate::{
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symbol_resolver::SymbolValue,
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top_level::{DefinitionId, TopLevelDef},
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toplevel::{DefinitionId, TopLevelDef},
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typecheck::typedef::{FunSignature, Type, TypeEnum},
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};
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use inkwell::{
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@ -1,6 +1,6 @@
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use crate::{
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symbol_resolver::SymbolResolver,
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top_level::{TopLevelContext, TopLevelDef},
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toplevel::{TopLevelContext, TopLevelDef},
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typecheck::{
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type_inferencer::{CodeLocation, PrimitiveStore},
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typedef::{CallId, FunSignature, Type, TypeEnum, Unifier},
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@ -3,7 +3,7 @@ use crate::{
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codegen::WithCall,
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location::Location,
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symbol_resolver::{SymbolResolver, SymbolValue},
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top_level::{DefinitionId, TopLevelContext},
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toplevel::{DefinitionId, TopLevelContext},
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typecheck::{
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magic_methods::set_primitives_magic_methods,
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type_inferencer::{CodeLocation, FunctionData, Inferencer, PrimitiveStore},
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@ -4,5 +4,5 @@
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pub mod codegen;
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pub mod location;
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pub mod symbol_resolver;
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pub mod top_level;
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pub mod toplevel;
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pub mod typecheck;
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@ -1,7 +1,7 @@
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use std::collections::HashMap;
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use std::{cell::RefCell, sync::Arc};
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use crate::top_level::{DefinitionId, TopLevelDef};
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use crate::toplevel::{DefinitionId, TopLevelDef};
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use crate::typecheck::{
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type_inferencer::PrimitiveStore,
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typedef::{Type, Unifier},
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@ -2,7 +2,6 @@ use std::borrow::BorrowMut;
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use std::ops::{Deref, DerefMut};
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use std::{collections::HashMap, collections::HashSet, sync::Arc};
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use self::top_level_type_annotation_info::*;
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use super::typecheck::type_inferencer::PrimitiveStore;
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use super::typecheck::typedef::{SharedUnifier, Type, TypeEnum, Unifier};
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use crate::symbol_resolver::SymbolResolver;
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@ -11,338 +10,13 @@ use itertools::{izip, Itertools};
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use parking_lot::{Mutex, RwLock};
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use rustpython_parser::ast::{self, Stmt};
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#[derive(PartialEq, Eq, PartialOrd, Ord, Clone, Copy)]
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pub struct DefinitionId(pub usize);
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pub mod top_level_type_annotation_info {
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use super::*;
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use crate::typecheck::typedef::TypeVarMeta;
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#[derive(Clone)]
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pub enum TypeAnnotation {
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PrimitiveKind(Type),
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ConcretizedCustomClassKind {
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id: DefinitionId,
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// can not be type var, others are all fine
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// TODO: can also be type var?
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params: Vec<TypeAnnotation>,
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},
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// can only be ConcretizedCustomClassKind
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VirtualKind(Box<TypeAnnotation>),
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// the first u32 refers to the var_id of the
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// TVar returned by the symbol resolver,
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// this is used to handle type vars
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// associated with class/functions
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// since when associating we create a copy of type vars
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TypeVarKind(u32, Type),
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SelfTypeKind(DefinitionId),
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}
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pub fn parse_ast_to_type_annotation_kinds<T>(
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resolver: &dyn SymbolResolver,
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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expr: &ast::Expr<T>,
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) -> Result<TypeAnnotation, String> {
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let results = vec![
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parse_ast_to_concrete_primitive_kind(
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resolver,
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top_level_defs,
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unifier,
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primitives,
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expr,
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),
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parse_ast_to_concretized_custom_class_kind(
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resolver,
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top_level_defs,
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unifier,
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primitives,
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expr,
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),
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parse_ast_to_type_variable_kind(resolver, top_level_defs, unifier, primitives, expr),
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parse_ast_to_virtual_kind(resolver, top_level_defs, unifier, primitives, expr),
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];
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let results = results.iter().filter(|x| x.is_ok()).collect_vec();
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if results.len() == 1 {
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results[0].clone()
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} else {
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Err("cannot parsed the type annotation without ambiguity".into())
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}
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}
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pub fn get_type_from_type_annotation_kinds(
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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ann: &TypeAnnotation,
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) -> Result<Type, String> {
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match ann {
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TypeAnnotation::ConcretizedCustomClassKind { id, params } => {
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let class_def = top_level_defs[id.0].read();
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if let TopLevelDef::Class { fields, methods, type_vars, .. } = &*class_def {
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if type_vars.len() != params.len() {
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Err(format!(
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"unexpected number of type parameters: expected {} but got {}",
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type_vars.len(),
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params.len()
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))
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} else {
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let param_ty = params
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.iter()
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.map(|x| {
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get_type_from_type_annotation_kinds(
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top_level_defs,
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unifier,
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primitives,
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x,
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)
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})
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.collect::<Result<Vec<_>, _>>()?;
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let subst = type_vars
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.iter()
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.map(|x| {
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if let TypeEnum::TVar { id, .. } = unifier.get_ty(x.1).as_ref() {
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// this is for the class generic application,
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// we only need the information for the copied type var
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// associated with the class
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*id
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} else {
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unreachable!()
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}
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})
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.zip(param_ty.into_iter())
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.collect::<HashMap<u32, Type>>();
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let mut tobj_fields = methods
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.iter()
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.map(|(name, ty, _)| {
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let subst_ty = unifier.subst(*ty, &subst).unwrap_or(*ty);
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(name.clone(), subst_ty)
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})
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.collect::<HashMap<String, Type>>();
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tobj_fields.extend(fields.iter().map(|(name, ty)| {
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let subst_ty = unifier.subst(*ty, &subst).unwrap_or(*ty);
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(name.clone(), subst_ty)
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}));
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Ok(unifier.add_ty(TypeEnum::TObj {
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obj_id: *id,
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fields: tobj_fields.into(),
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params: subst.into(),
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}))
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}
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} else {
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unreachable!("should be class def here")
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}
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}
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TypeAnnotation::SelfTypeKind(obj_id) => {
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let class_def = top_level_defs[obj_id.0].read();
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if let TopLevelDef::Class { fields, methods, type_vars, .. } = &*class_def {
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let subst = type_vars
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.iter()
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.map(|x| {
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if let TypeEnum::TVar { id, .. } = unifier.get_ty(x.1).as_ref() {
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(*id, x.1)
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} else {
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unreachable!()
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}
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})
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.collect::<HashMap<u32, Type>>();
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let mut tobj_fields = methods
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.iter()
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.map(|(name, ty, _)| (name.clone(), *ty))
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.collect::<HashMap<String, Type>>();
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tobj_fields.extend(fields.clone().into_iter());
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Ok(unifier.add_ty(TypeEnum::TObj {
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obj_id: *obj_id,
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fields: tobj_fields.into(),
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params: subst.into(),
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}))
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} else {
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unreachable!("should be class def here")
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}
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}
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TypeAnnotation::PrimitiveKind(ty) => Ok(*ty),
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TypeAnnotation::TypeVarKind(_, ty) => Ok(*ty),
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TypeAnnotation::VirtualKind(ty) => {
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let ty = get_type_from_type_annotation_kinds(
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top_level_defs,
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unifier,
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primitives,
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ty.as_ref(),
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)?;
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Ok(unifier.add_ty(TypeEnum::TVirtual { ty }))
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}
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}
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}
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fn parse_ast_to_concrete_primitive_kind<T>(
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_resolver: &dyn SymbolResolver,
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_top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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_unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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expr: &ast::Expr<T>,
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) -> Result<TypeAnnotation, String> {
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match &expr.node {
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ast::ExprKind::Name { id, .. } => match id.as_str() {
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"int32" => Ok(TypeAnnotation::PrimitiveKind(primitives.int32)),
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"int64" => Ok(TypeAnnotation::PrimitiveKind(primitives.int64)),
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"float" => Ok(TypeAnnotation::PrimitiveKind(primitives.float)),
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"bool" => Ok(TypeAnnotation::PrimitiveKind(primitives.bool)),
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"None" => Ok(TypeAnnotation::PrimitiveKind(primitives.none)),
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_ => Err("not primitive".into()),
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},
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_ => Err("not primitive".into()),
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}
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}
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pub fn parse_ast_to_concretized_custom_class_kind<T>(
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resolver: &dyn SymbolResolver,
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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expr: &ast::Expr<T>,
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) -> Result<TypeAnnotation, String> {
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match &expr.node {
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ast::ExprKind::Name { id, .. } => match id.as_str() {
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"int32" | "int64" | "float" | "bool" | "None" => {
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Err("expect custom class instead of primitives here".into())
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}
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x => {
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let obj_id = resolver
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.get_identifier_def(x)
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.ok_or_else(|| "unknown class name".to_string())?;
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let def = top_level_defs[obj_id.0].read();
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if let TopLevelDef::Class { .. } = &*def {
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Ok(TypeAnnotation::ConcretizedCustomClassKind {
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id: obj_id,
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params: vec![],
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})
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} else {
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Err("function cannot be used as a type".into())
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}
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}
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},
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ast::ExprKind::Subscript { value, slice, .. } => {
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if let ast::ExprKind::Name { id, .. } = &value.node {
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if vec!["virtual", "Generic"].contains(&id.as_str()) {
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return Err("keywords cannot be class name".into());
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}
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let obj_id = resolver
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.get_identifier_def(id)
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.ok_or_else(|| "unknown class name".to_string())?;
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let def = top_level_defs[obj_id.0].read();
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if let TopLevelDef::Class { .. } = &*def {
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let param_type_infos =
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if let ast::ExprKind::Tuple { elts, .. } = &slice.node {
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elts.iter()
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.map(|v| {
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parse_ast_to_type_annotation_kinds(
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resolver,
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top_level_defs,
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unifier,
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primitives,
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v,
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)
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})
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.collect::<Result<Vec<_>, _>>()?
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} else {
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vec![parse_ast_to_type_annotation_kinds(
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resolver,
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top_level_defs,
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unifier,
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primitives,
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slice,
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)?]
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};
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// TODO: allow type var in class generic application list
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// if param_type_infos
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// .iter()
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// .any(|x| matches!(x, TypeAnnotation::TypeVarKind(..)))
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// {
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// return Err(
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// "cannot apply type variable to class generic parameters".into()
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// );
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// }
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Ok(TypeAnnotation::ConcretizedCustomClassKind {
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id: obj_id,
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params: param_type_infos,
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})
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} else {
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Err("function cannot be used as a type".into())
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}
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} else {
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Err("unsupported expression type for class name".into())
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}
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}
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_ => Err("unsupported expression type for concretized class".into()),
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}
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}
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pub fn parse_ast_to_virtual_kind<T>(
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resolver: &dyn SymbolResolver,
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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expr: &ast::Expr<T>,
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) -> Result<TypeAnnotation, String> {
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match &expr.node {
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ast::ExprKind::Subscript { value, slice, .. }
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if { matches!(&value.node, ast::ExprKind::Name { id, .. } if id == "virtual") } =>
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{
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let def = parse_ast_to_concretized_custom_class_kind(
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resolver,
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top_level_defs,
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unifier,
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primitives,
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slice.as_ref(),
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)?;
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if !matches!(def, TypeAnnotation::ConcretizedCustomClassKind { .. }) {
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unreachable!("must be concretized custom class kind in the virtual")
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}
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Ok(TypeAnnotation::VirtualKind(def.into()))
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}
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_ => Err("virtual type annotation must be like `virtual[ .. ]`".into()),
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}
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}
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pub fn parse_ast_to_type_variable_kind<T>(
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resolver: &dyn SymbolResolver,
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_top_level_defs: &[Arc<RwLock<TopLevelDef>>],
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unifier: &mut Unifier,
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primitives: &PrimitiveStore,
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expr: &ast::Expr<T>,
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) -> Result<TypeAnnotation, String> {
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if let ast::ExprKind::Name { id, .. } = &expr.node {
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let ty = resolver
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.get_symbol_type(unifier, primitives, id)
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.ok_or_else(|| "unknown type variable name".to_string())?;
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if let TypeEnum::TVar { id, meta: TypeVarMeta::Generic, range } =
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unifier.get_ty(ty).as_ref()
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{
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// NOTE: always create a new one here
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// and later unify if needed
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// but record the var_id of the original type var returned by symbol resolver
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let range = range.borrow();
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let range = range.as_slice();
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Ok(TypeAnnotation::TypeVarKind(*id, unifier.get_fresh_var_with_range(range).0))
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} else {
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Err("not a type variable identifier".into())
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}
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} else {
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Err("unsupported expression for type variable".into())
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}
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}
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}
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mod type_annotation;
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use type_annotation::*;
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pub enum TopLevelDef {
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Class {
|
310
nac3core/src/toplevel/type_annotation.rs
Normal file
310
nac3core/src/toplevel/type_annotation.rs
Normal file
@ -0,0 +1,310 @@
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use super::*;
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use crate::typecheck::typedef::TypeVarMeta;
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#[derive(Clone)]
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pub enum TypeAnnotation {
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PrimitiveKind(Type),
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ConcretizedCustomClassKind {
|
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id: DefinitionId,
|
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// can not be type var, others are all fine
|
||||
// TODO: can also be type var?
|
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params: Vec<TypeAnnotation>,
|
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},
|
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// can only be ConcretizedCustomClassKind
|
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VirtualKind(Box<TypeAnnotation>),
|
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// the first u32 refers to the var_id of the
|
||||
// TVar returned by the symbol resolver,
|
||||
// this is used to handle type vars
|
||||
// associated with class/functions
|
||||
// since when associating we create a copy of type vars
|
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TypeVarKind(u32, Type),
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SelfTypeKind(DefinitionId),
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}
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pub fn parse_ast_to_type_annotation_kinds<T>(
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resolver: &dyn SymbolResolver,
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
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unifier: &mut Unifier,
|
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primitives: &PrimitiveStore,
|
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expr: &ast::Expr<T>,
|
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) -> Result<TypeAnnotation, String> {
|
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let results = vec![
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parse_ast_to_concrete_primitive_kind(
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resolver,
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top_level_defs,
|
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unifier,
|
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primitives,
|
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expr,
|
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),
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parse_ast_to_concretized_custom_class_kind(
|
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resolver,
|
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top_level_defs,
|
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unifier,
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primitives,
|
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expr,
|
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),
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parse_ast_to_type_variable_kind(resolver, top_level_defs, unifier, primitives, expr),
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parse_ast_to_virtual_kind(resolver, top_level_defs, unifier, primitives, expr),
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];
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let results = results.iter().filter(|x| x.is_ok()).collect_vec();
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if results.len() == 1 {
|
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results[0].clone()
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} else {
|
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Err("cannot parsed the type annotation without ambiguity".into())
|
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}
|
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}
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pub fn get_type_from_type_annotation_kinds(
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top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
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unifier: &mut Unifier,
|
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primitives: &PrimitiveStore,
|
||||
ann: &TypeAnnotation,
|
||||
) -> Result<Type, String> {
|
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match ann {
|
||||
TypeAnnotation::ConcretizedCustomClassKind { id, params } => {
|
||||
let class_def = top_level_defs[id.0].read();
|
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if let TopLevelDef::Class { fields, methods, type_vars, .. } = &*class_def {
|
||||
if type_vars.len() != params.len() {
|
||||
Err(format!(
|
||||
"unexpected number of type parameters: expected {} but got {}",
|
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type_vars.len(),
|
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params.len()
|
||||
))
|
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} else {
|
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let param_ty = params
|
||||
.iter()
|
||||
.map(|x| {
|
||||
get_type_from_type_annotation_kinds(
|
||||
top_level_defs,
|
||||
unifier,
|
||||
primitives,
|
||||
x,
|
||||
)
|
||||
})
|
||||
.collect::<Result<Vec<_>, _>>()?;
|
||||
let subst = type_vars
|
||||
.iter()
|
||||
.map(|x| {
|
||||
if let TypeEnum::TVar { id, .. } = unifier.get_ty(x.1).as_ref() {
|
||||
// this is for the class generic application,
|
||||
// we only need the information for the copied type var
|
||||
// associated with the class
|
||||
*id
|
||||
} else {
|
||||
unreachable!()
|
||||
}
|
||||
})
|
||||
.zip(param_ty.into_iter())
|
||||
.collect::<HashMap<u32, Type>>();
|
||||
let mut tobj_fields = methods
|
||||
.iter()
|
||||
.map(|(name, ty, _)| {
|
||||
let subst_ty = unifier.subst(*ty, &subst).unwrap_or(*ty);
|
||||
(name.clone(), subst_ty)
|
||||
})
|
||||
.collect::<HashMap<String, Type>>();
|
||||
tobj_fields.extend(fields.iter().map(|(name, ty)| {
|
||||
let subst_ty = unifier.subst(*ty, &subst).unwrap_or(*ty);
|
||||
(name.clone(), subst_ty)
|
||||
}));
|
||||
Ok(unifier.add_ty(TypeEnum::TObj {
|
||||
obj_id: *id,
|
||||
fields: tobj_fields.into(),
|
||||
params: subst.into(),
|
||||
}))
|
||||
}
|
||||
} else {
|
||||
unreachable!("should be class def here")
|
||||
}
|
||||
}
|
||||
TypeAnnotation::SelfTypeKind(obj_id) => {
|
||||
let class_def = top_level_defs[obj_id.0].read();
|
||||
if let TopLevelDef::Class { fields, methods, type_vars, .. } = &*class_def {
|
||||
let subst = type_vars
|
||||
.iter()
|
||||
.map(|x| {
|
||||
if let TypeEnum::TVar { id, .. } = unifier.get_ty(x.1).as_ref() {
|
||||
(*id, x.1)
|
||||
} else {
|
||||
unreachable!()
|
||||
}
|
||||
})
|
||||
.collect::<HashMap<u32, Type>>();
|
||||
let mut tobj_fields = methods
|
||||
.iter()
|
||||
.map(|(name, ty, _)| (name.clone(), *ty))
|
||||
.collect::<HashMap<String, Type>>();
|
||||
tobj_fields.extend(fields.clone().into_iter());
|
||||
Ok(unifier.add_ty(TypeEnum::TObj {
|
||||
obj_id: *obj_id,
|
||||
fields: tobj_fields.into(),
|
||||
params: subst.into(),
|
||||
}))
|
||||
} else {
|
||||
unreachable!("should be class def here")
|
||||
}
|
||||
}
|
||||
TypeAnnotation::PrimitiveKind(ty) => Ok(*ty),
|
||||
TypeAnnotation::TypeVarKind(_, ty) => Ok(*ty),
|
||||
TypeAnnotation::VirtualKind(ty) => {
|
||||
let ty = get_type_from_type_annotation_kinds(
|
||||
top_level_defs,
|
||||
unifier,
|
||||
primitives,
|
||||
ty.as_ref(),
|
||||
)?;
|
||||
Ok(unifier.add_ty(TypeEnum::TVirtual { ty }))
|
||||
}
|
||||
}
|
||||
}
|
||||
fn parse_ast_to_concrete_primitive_kind<T>(
|
||||
_resolver: &dyn SymbolResolver,
|
||||
_top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
||||
_unifier: &mut Unifier,
|
||||
primitives: &PrimitiveStore,
|
||||
expr: &ast::Expr<T>,
|
||||
) -> Result<TypeAnnotation, String> {
|
||||
match &expr.node {
|
||||
ast::ExprKind::Name { id, .. } => match id.as_str() {
|
||||
"int32" => Ok(TypeAnnotation::PrimitiveKind(primitives.int32)),
|
||||
"int64" => Ok(TypeAnnotation::PrimitiveKind(primitives.int64)),
|
||||
"float" => Ok(TypeAnnotation::PrimitiveKind(primitives.float)),
|
||||
"bool" => Ok(TypeAnnotation::PrimitiveKind(primitives.bool)),
|
||||
"None" => Ok(TypeAnnotation::PrimitiveKind(primitives.none)),
|
||||
_ => Err("not primitive".into()),
|
||||
},
|
||||
_ => Err("not primitive".into()),
|
||||
}
|
||||
}
|
||||
pub fn parse_ast_to_concretized_custom_class_kind<T>(
|
||||
resolver: &dyn SymbolResolver,
|
||||
top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
||||
unifier: &mut Unifier,
|
||||
primitives: &PrimitiveStore,
|
||||
expr: &ast::Expr<T>,
|
||||
) -> Result<TypeAnnotation, String> {
|
||||
match &expr.node {
|
||||
ast::ExprKind::Name { id, .. } => match id.as_str() {
|
||||
"int32" | "int64" | "float" | "bool" | "None" => {
|
||||
Err("expect custom class instead of primitives here".into())
|
||||
}
|
||||
x => {
|
||||
let obj_id = resolver
|
||||
.get_identifier_def(x)
|
||||
.ok_or_else(|| "unknown class name".to_string())?;
|
||||
let def = top_level_defs[obj_id.0].read();
|
||||
if let TopLevelDef::Class { .. } = &*def {
|
||||
Ok(TypeAnnotation::ConcretizedCustomClassKind {
|
||||
id: obj_id,
|
||||
params: vec![],
|
||||
})
|
||||
} else {
|
||||
Err("function cannot be used as a type".into())
|
||||
}
|
||||
}
|
||||
},
|
||||
ast::ExprKind::Subscript { value, slice, .. } => {
|
||||
if let ast::ExprKind::Name { id, .. } = &value.node {
|
||||
if vec!["virtual", "Generic"].contains(&id.as_str()) {
|
||||
return Err("keywords cannot be class name".into());
|
||||
}
|
||||
let obj_id = resolver
|
||||
.get_identifier_def(id)
|
||||
.ok_or_else(|| "unknown class name".to_string())?;
|
||||
let def = top_level_defs[obj_id.0].read();
|
||||
if let TopLevelDef::Class { .. } = &*def {
|
||||
let param_type_infos =
|
||||
if let ast::ExprKind::Tuple { elts, .. } = &slice.node {
|
||||
elts.iter()
|
||||
.map(|v| {
|
||||
parse_ast_to_type_annotation_kinds(
|
||||
resolver,
|
||||
top_level_defs,
|
||||
unifier,
|
||||
primitives,
|
||||
v,
|
||||
)
|
||||
})
|
||||
.collect::<Result<Vec<_>, _>>()?
|
||||
} else {
|
||||
vec![parse_ast_to_type_annotation_kinds(
|
||||
resolver,
|
||||
top_level_defs,
|
||||
unifier,
|
||||
primitives,
|
||||
slice,
|
||||
)?]
|
||||
};
|
||||
// TODO: allow type var in class generic application list
|
||||
// if param_type_infos
|
||||
// .iter()
|
||||
// .any(|x| matches!(x, TypeAnnotation::TypeVarKind(..)))
|
||||
// {
|
||||
// return Err(
|
||||
// "cannot apply type variable to class generic parameters".into()
|
||||
// );
|
||||
// }
|
||||
Ok(TypeAnnotation::ConcretizedCustomClassKind {
|
||||
id: obj_id,
|
||||
params: param_type_infos,
|
||||
})
|
||||
} else {
|
||||
Err("function cannot be used as a type".into())
|
||||
}
|
||||
} else {
|
||||
Err("unsupported expression type for class name".into())
|
||||
}
|
||||
}
|
||||
_ => Err("unsupported expression type for concretized class".into()),
|
||||
}
|
||||
}
|
||||
pub fn parse_ast_to_virtual_kind<T>(
|
||||
resolver: &dyn SymbolResolver,
|
||||
top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
||||
unifier: &mut Unifier,
|
||||
primitives: &PrimitiveStore,
|
||||
expr: &ast::Expr<T>,
|
||||
) -> Result<TypeAnnotation, String> {
|
||||
match &expr.node {
|
||||
ast::ExprKind::Subscript { value, slice, .. }
|
||||
if { matches!(&value.node, ast::ExprKind::Name { id, .. } if id == "virtual") } =>
|
||||
{
|
||||
let def = parse_ast_to_concretized_custom_class_kind(
|
||||
resolver,
|
||||
top_level_defs,
|
||||
unifier,
|
||||
primitives,
|
||||
slice.as_ref(),
|
||||
)?;
|
||||
if !matches!(def, TypeAnnotation::ConcretizedCustomClassKind { .. }) {
|
||||
unreachable!("must be concretized custom class kind in the virtual")
|
||||
}
|
||||
Ok(TypeAnnotation::VirtualKind(def.into()))
|
||||
}
|
||||
_ => Err("virtual type annotation must be like `virtual[ .. ]`".into()),
|
||||
}
|
||||
}
|
||||
pub fn parse_ast_to_type_variable_kind<T>(
|
||||
resolver: &dyn SymbolResolver,
|
||||
_top_level_defs: &[Arc<RwLock<TopLevelDef>>],
|
||||
unifier: &mut Unifier,
|
||||
primitives: &PrimitiveStore,
|
||||
expr: &ast::Expr<T>,
|
||||
) -> Result<TypeAnnotation, String> {
|
||||
if let ast::ExprKind::Name { id, .. } = &expr.node {
|
||||
let ty = resolver
|
||||
.get_symbol_type(unifier, primitives, id)
|
||||
.ok_or_else(|| "unknown type variable name".to_string())?;
|
||||
if let TypeEnum::TVar { id, meta: TypeVarMeta::Generic, range } =
|
||||
unifier.get_ty(ty).as_ref()
|
||||
{
|
||||
// NOTE: always create a new one here
|
||||
// and later unify if needed
|
||||
// but record the var_id of the original type var returned by symbol resolver
|
||||
let range = range.borrow();
|
||||
let range = range.as_slice();
|
||||
Ok(TypeAnnotation::TypeVarKind(*id, unifier.get_fresh_var_with_range(range).0))
|
||||
} else {
|
||||
Err("not a type variable identifier".into())
|
||||
}
|
||||
} else {
|
||||
Err("unsupported expression for type variable".into())
|
||||
}
|
||||
}
|
@ -5,7 +5,7 @@ use std::{cell::RefCell, sync::Arc};
|
||||
|
||||
use super::typedef::{Call, FunSignature, FuncArg, Type, TypeEnum, Unifier};
|
||||
use super::{magic_methods::*, typedef::CallId};
|
||||
use crate::{symbol_resolver::SymbolResolver, top_level::TopLevelContext};
|
||||
use crate::{symbol_resolver::SymbolResolver, toplevel::TopLevelContext};
|
||||
use itertools::izip;
|
||||
use rustpython_parser::ast::{
|
||||
self,
|
||||
|
@ -1,8 +1,7 @@
|
||||
use super::super::typedef::*;
|
||||
use super::*;
|
||||
use crate::symbol_resolver::*;
|
||||
use crate::top_level::DefinitionId;
|
||||
use crate::{location::Location, top_level::TopLevelDef};
|
||||
use crate::{location::Location, toplevel::{DefinitionId, TopLevelDef}};
|
||||
use indoc::indoc;
|
||||
use itertools::zip;
|
||||
use parking_lot::RwLock;
|
||||
|
@ -8,7 +8,7 @@ use std::sync::{Arc, Mutex};
|
||||
|
||||
use super::unification_table::{UnificationKey, UnificationTable};
|
||||
use crate::symbol_resolver::SymbolValue;
|
||||
use crate::top_level::{DefinitionId, TopLevelContext, TopLevelDef};
|
||||
use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef};
|
||||
|
||||
#[cfg(test)]
|
||||
mod test;
|
||||
|
@ -1,7 +1,7 @@
|
||||
use nac3core::{
|
||||
location::Location,
|
||||
symbol_resolver::{SymbolResolver, SymbolValue},
|
||||
top_level::DefinitionId,
|
||||
toplevel::DefinitionId,
|
||||
typecheck::{
|
||||
type_inferencer::PrimitiveStore,
|
||||
typedef::{Type, Unifier},
|
||||
|
@ -10,7 +10,7 @@ use std::{cell::RefCell, collections::HashMap, path::Path, sync::Arc};
|
||||
|
||||
use nac3core::{
|
||||
codegen::{CodeGenTask, WithCall, WorkerRegistry},
|
||||
top_level::{DefinitionId, TopLevelComposer, TopLevelContext, TopLevelDef},
|
||||
toplevel::{DefinitionId, TopLevelComposer, TopLevelContext, TopLevelDef},
|
||||
typecheck::{
|
||||
type_inferencer::{FunctionData, Inferencer},
|
||||
typedef::{FunSignature, FuncArg, TypeEnum},
|
||||
|
Loading…
Reference in New Issue
Block a user