502 lines
19 KiB
Rust
502 lines
19 KiB
Rust
use inkwell::{types::BasicType, values::BasicValueEnum, AddressSpace};
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use nac3core::{
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codegen::CodeGenContext,
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location::Location,
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symbol_resolver::SymbolResolver,
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toplevel::{DefinitionId, TopLevelDef},
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typecheck::{
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type_inferencer::PrimitiveStore,
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typedef::{Type, TypeEnum, Unifier},
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},
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};
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use parking_lot::{Mutex, RwLock};
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use pyo3::{
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types::{PyList, PyModule, PyTuple},
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PyAny, PyObject, PyResult, Python,
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};
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use rustpython_parser::ast::StrRef;
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use std::{
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cell::RefCell,
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collections::{HashMap, HashSet},
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sync::Arc,
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};
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use crate::PrimitivePythonId;
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pub struct Resolver {
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pub id_to_type: Mutex<HashMap<StrRef, Type>>,
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pub id_to_def: Mutex<HashMap<StrRef, DefinitionId>>,
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pub global_value_ids: Arc<Mutex<HashSet<u64>>>,
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pub class_names: Mutex<HashMap<StrRef, Type>>,
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pub pyid_to_def: Arc<RwLock<HashMap<u64, DefinitionId>>>,
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pub pyid_to_type: Arc<RwLock<HashMap<u64, Type>>>,
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pub primitive_ids: PrimitivePythonId,
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// module specific
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pub name_to_pyid: HashMap<StrRef, u64>,
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pub module: PyObject,
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}
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struct PythonHelper<'a> {
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type_fn: &'a PyAny,
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len_fn: &'a PyAny,
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id_fn: &'a PyAny,
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}
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impl Resolver {
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fn get_list_elem_type(
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&self,
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list: &PyAny,
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len: usize,
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helper: &PythonHelper,
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unifier: &mut Unifier,
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defs: &[Arc<RwLock<TopLevelDef>>],
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primitives: &PrimitiveStore,
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) -> PyResult<Option<Type>> {
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let first = self.get_obj_type(list.get_item(0)?, helper, unifier, defs, primitives)?;
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Ok((1..len).fold(first, |a, i| {
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let b = list
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.get_item(i)
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.map(|elem| self.get_obj_type(elem, helper, unifier, defs, primitives));
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a.and_then(|a| {
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if let Ok(Ok(Some(ty))) = b {
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if unifier.unify(a, ty).is_ok() {
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Some(a)
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} else {
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None
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}
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} else {
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None
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}
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})
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}))
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}
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fn get_obj_type(
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&self,
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obj: &PyAny,
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helper: &PythonHelper,
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unifier: &mut Unifier,
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defs: &[Arc<RwLock<TopLevelDef>>],
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primitives: &PrimitiveStore,
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) -> PyResult<Option<Type>> {
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let ty_id: u64 = helper
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.id_fn
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.call1((helper.type_fn.call1((obj,))?,))?
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.extract()?;
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if ty_id == self.primitive_ids.int || ty_id == self.primitive_ids.int32 {
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Ok(Some(primitives.int32))
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} else if ty_id == self.primitive_ids.int64 {
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Ok(Some(primitives.int64))
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} else if ty_id == self.primitive_ids.bool {
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Ok(Some(primitives.bool))
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} else if ty_id == self.primitive_ids.float {
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Ok(Some(primitives.float))
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} else if ty_id == self.primitive_ids.list {
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let len: usize = helper.len_fn.call1((obj,))?.extract()?;
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if len == 0 {
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let var = unifier.get_fresh_var().0;
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let list = unifier.add_ty(TypeEnum::TList { ty: var });
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Ok(Some(list))
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} else {
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let ty = self.get_list_elem_type(obj, len, helper, unifier, defs, primitives)?;
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Ok(ty.map(|ty| unifier.add_ty(TypeEnum::TList { ty })))
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}
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} else if ty_id == self.primitive_ids.tuple {
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let elements: &PyTuple = obj.cast_as()?;
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let types: Result<Option<Vec<_>>, _> = elements
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.iter()
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.map(|elem| self.get_obj_type(elem, helper, unifier, defs, primitives))
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.collect();
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let types = types?;
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Ok(types.map(|types| unifier.add_ty(TypeEnum::TTuple { ty: types })))
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} else if let Some(def_id) = self.pyid_to_def.read().get(&ty_id) {
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let def = defs[def_id.0].read();
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if let TopLevelDef::Class {
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object_id,
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type_vars,
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fields,
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methods,
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..
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} = &*def
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{
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let var_map: HashMap<_, _> = type_vars
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.iter()
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.map(|var| {
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(
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if let TypeEnum::TVar { id, .. } = &*unifier.get_ty(*var) {
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*id
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} else {
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unreachable!()
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},
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unifier.get_fresh_var().0,
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)
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})
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.collect();
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let mut fields_ty = HashMap::new();
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for method in methods.iter() {
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fields_ty.insert(method.0, method.1);
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}
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for field in fields.iter() {
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let name: String = field.0.into();
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let field_data = obj.getattr(&name)?;
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let ty = self
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.get_obj_type(field_data, helper, unifier, defs, primitives)?
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.unwrap_or(primitives.none);
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let field_ty = unifier.subst(field.1, &var_map).unwrap_or(field.1);
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if unifier.unify(ty, field_ty).is_err() {
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// field type mismatch
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return Ok(None);
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}
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fields_ty.insert(field.0, ty);
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}
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for (_, ty) in var_map.iter() {
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// must be concrete type
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if !unifier.is_concrete(*ty, &[]) {
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return Ok(None)
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}
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}
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Ok(Some(unifier.add_ty(TypeEnum::TObj {
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obj_id: *object_id,
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fields: RefCell::new(fields_ty),
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params: RefCell::new(var_map),
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})))
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} else {
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// only object is supported, functions are not supported
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Ok(None)
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}
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} else {
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Ok(None)
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}
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}
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fn get_obj_value<'ctx, 'a>(
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&self,
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obj: &PyAny,
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helper: &PythonHelper,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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) -> PyResult<Option<BasicValueEnum<'ctx>>> {
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let ty_id: u64 = helper
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.id_fn
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.call1((helper.type_fn.call1((obj,))?,))?
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.extract()?;
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if ty_id == self.primitive_ids.int || ty_id == self.primitive_ids.int32 {
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let val: i32 = obj.extract()?;
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Ok(Some(ctx.ctx.i32_type().const_int(val as u64, false).into()))
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} else if ty_id == self.primitive_ids.int64 {
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let val: i64 = obj.extract()?;
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Ok(Some(ctx.ctx.i64_type().const_int(val as u64, false).into()))
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} else if ty_id == self.primitive_ids.bool {
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let val: bool = obj.extract()?;
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Ok(Some(
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ctx.ctx.bool_type().const_int(val as u64, false).into(),
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))
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} else if ty_id == self.primitive_ids.float {
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let val: f64 = obj.extract()?;
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Ok(Some(ctx.ctx.f64_type().const_float(val).into()))
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} else if ty_id == self.primitive_ids.list {
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let id: u64 = helper.id_fn.call1((obj,))?.extract()?;
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let id_str = id.to_string();
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let len: usize = helper.len_fn.call1((obj,))?.extract()?;
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let ty = if len == 0 {
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ctx.primitives.int32
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} else {
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self.get_list_elem_type(
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obj,
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len,
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helper,
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&mut ctx.unifier,
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&ctx.top_level.definitions.read(),
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&ctx.primitives,
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)?
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.unwrap()
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};
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let ty = ctx.get_llvm_type(ty);
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let arr_ty = ctx.ctx.struct_type(
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&[
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ctx.ctx.i32_type().into(),
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ty.ptr_type(AddressSpace::Generic).into(),
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],
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false,
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);
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{
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let mut global_value_ids = self.global_value_ids.lock();
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if global_value_ids.contains(&id) {
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let global = ctx.module.get_global(&id_str).unwrap_or_else(|| {
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ctx.module
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.add_global(arr_ty, Some(AddressSpace::Generic), &id_str)
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});
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return Ok(Some(global.as_pointer_value().into()));
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} else {
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global_value_ids.insert(id);
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}
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}
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let arr: Result<Option<Vec<_>>, _> = (0..len)
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.map(|i| {
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obj.get_item(i)
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.and_then(|elem| self.get_obj_value(elem, helper, ctx))
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})
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.collect();
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let arr = arr?.unwrap();
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let arr_global = ctx.module.add_global(
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ty.array_type(len as u32),
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Some(AddressSpace::Generic),
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&(id_str.clone() + "_"),
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);
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let arr: BasicValueEnum = if ty.is_int_type() {
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let arr: Vec<_> = arr
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.into_iter()
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.map(BasicValueEnum::into_int_value)
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.collect();
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ty.into_int_type().const_array(&arr)
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} else if ty.is_float_type() {
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let arr: Vec<_> = arr
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.into_iter()
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.map(BasicValueEnum::into_float_value)
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.collect();
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ty.into_float_type().const_array(&arr)
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} else if ty.is_array_type() {
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let arr: Vec<_> = arr
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.into_iter()
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.map(BasicValueEnum::into_array_value)
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.collect();
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ty.into_array_type().const_array(&arr)
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} else if ty.is_struct_type() {
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let arr: Vec<_> = arr
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.into_iter()
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.map(BasicValueEnum::into_struct_value)
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.collect();
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ty.into_struct_type().const_array(&arr)
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} else if ty.is_pointer_type() {
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let arr: Vec<_> = arr
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.into_iter()
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.map(BasicValueEnum::into_pointer_value)
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.collect();
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ty.into_pointer_type().const_array(&arr)
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} else {
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unreachable!()
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}
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.into();
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arr_global.set_initializer(&arr);
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let val = arr_ty.const_named_struct(&[
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ctx.ctx.i32_type().const_int(len as u64, false).into(),
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arr_global
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.as_pointer_value()
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.const_cast(ty.ptr_type(AddressSpace::Generic))
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.into(),
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]);
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let global = ctx
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.module
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.add_global(arr_ty, Some(AddressSpace::Generic), &id_str);
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global.set_initializer(&val);
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Ok(Some(global.as_pointer_value().into()))
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} else if ty_id == self.primitive_ids.tuple {
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let id: u64 = helper.id_fn.call1((obj,))?.extract()?;
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let id_str = id.to_string();
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let elements: &PyTuple = obj.cast_as()?;
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let types: Result<Option<Vec<_>>, _> = elements
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.iter()
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.map(|elem| {
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self.get_obj_type(
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elem,
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helper,
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&mut ctx.unifier,
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&ctx.top_level.definitions.read(),
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&ctx.primitives,
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)
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.map(|ty| ty.map(|ty| ctx.get_llvm_type(ty)))
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})
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.collect();
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let types = types?.unwrap();
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let ty = ctx.ctx.struct_type(&types, false);
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{
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let mut global_value_ids = self.global_value_ids.lock();
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if global_value_ids.contains(&id) {
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let global = ctx.module.get_global(&id_str).unwrap_or_else(|| {
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ctx.module
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.add_global(ty, Some(AddressSpace::Generic), &id_str)
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});
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return Ok(Some(global.as_pointer_value().into()));
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} else {
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global_value_ids.insert(id);
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}
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}
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let val: Result<Option<Vec<_>>, _> = elements
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.iter()
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.map(|elem| self.get_obj_value(elem, helper, ctx))
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.collect();
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let val = val?.unwrap();
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let val = ctx.ctx.const_struct(&val, false);
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let global = ctx
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.module
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.add_global(ty, Some(AddressSpace::Generic), &id_str);
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global.set_initializer(&val);
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Ok(Some(global.as_pointer_value().into()))
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} else {
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let id: u64 = helper.id_fn.call1((obj,))?.extract()?;
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let id_str = id.to_string();
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let top_level_defs = ctx.top_level.definitions.read();
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let ty = self
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.get_obj_type(
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obj,
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helper,
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&mut ctx.unifier,
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&top_level_defs,
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&ctx.primitives,
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)?
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.unwrap();
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let ty = ctx
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.get_llvm_type(ty)
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.into_pointer_type()
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.get_element_type()
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.into_struct_type()
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.as_basic_type_enum();
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{
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let mut global_value_ids = self.global_value_ids.lock();
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if global_value_ids.contains(&id) {
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let global = ctx.module.get_global(&id_str).unwrap_or_else(|| {
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ctx.module
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.add_global(ty, Some(AddressSpace::Generic), &id_str)
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});
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return Ok(Some(global.as_pointer_value().into()));
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} else {
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global_value_ids.insert(id);
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}
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}
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// should be classes
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let definition = top_level_defs
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.get(self.pyid_to_def.read().get(&ty_id).unwrap().0)
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.unwrap()
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.read();
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if let TopLevelDef::Class { fields, .. } = &*definition {
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let values: Result<Option<Vec<_>>, _> = fields
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.iter()
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.map(|(name, _)| {
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self.get_obj_value(obj.getattr(&name.to_string())?, helper, ctx)
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})
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.collect();
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let values = values?;
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if let Some(values) = values {
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let val = ctx.ctx.const_struct(&values, false);
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let global = ctx
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.module
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.add_global(ty, Some(AddressSpace::Generic), &id_str);
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global.set_initializer(&val);
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Ok(Some(global.as_pointer_value().into()))
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} else {
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Ok(None)
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}
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} else {
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unreachable!()
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}
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}
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}
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}
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impl SymbolResolver for Resolver {
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fn get_symbol_type(
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&self,
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unifier: &mut Unifier,
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defs: &[Arc<RwLock<TopLevelDef>>],
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primitives: &PrimitiveStore,
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str: StrRef,
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) -> Option<Type> {
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let mut id_to_type = self.id_to_type.lock();
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id_to_type.get(&str).cloned().or_else(|| {
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let py_id = self.name_to_pyid.get(&str);
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let result = py_id.and_then(|id| {
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self.pyid_to_type.read().get(&id).copied().or_else(|| {
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Python::with_gil(|py| -> PyResult<Option<Type>> {
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let obj: &PyAny = self.module.extract(py)?;
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let members: &PyList = PyModule::import(py, "inspect")?
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.getattr("getmembers")?
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.call1((obj,))?
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.cast_as()?;
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let mut sym_ty = None;
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for member in members.iter() {
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let key: &str = member.get_item(0)?.extract()?;
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if key == str.to_string() {
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let builtins = PyModule::import(py, "builtins")?;
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let helper = PythonHelper {
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id_fn: builtins.getattr("id").unwrap(),
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len_fn: builtins.getattr("len").unwrap(),
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type_fn: builtins.getattr("type").unwrap(),
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};
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sym_ty = self.get_obj_type(
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member.get_item(1)?,
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&helper,
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unifier,
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defs,
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primitives,
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)?;
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break;
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}
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}
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Ok(sym_ty)
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})
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.unwrap()
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})
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});
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if let Some(result) = &result {
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id_to_type.insert(str, *result);
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}
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result
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})
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}
|
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|
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fn get_symbol_value<'ctx, 'a>(
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&self,
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id: StrRef,
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ctx: &mut CodeGenContext<'ctx, 'a>,
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) -> Option<BasicValueEnum<'ctx>> {
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Python::with_gil(|py| -> PyResult<Option<BasicValueEnum<'ctx>>> {
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let obj: &PyAny = self.module.extract(py)?;
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let members: &PyList = PyModule::import(py, "inspect")?
|
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.getattr("getmembers")?
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.call1((obj,))?
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.cast_as()?;
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let mut sym_value = None;
|
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for member in members.iter() {
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let key: &str = member.get_item(0)?.extract()?;
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let val = member.get_item(1)?;
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if key == id.to_string() {
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let builtins = PyModule::import(py, "builtins")?;
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let helper = PythonHelper {
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id_fn: builtins.getattr("id").unwrap(),
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len_fn: builtins.getattr("len").unwrap(),
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type_fn: builtins.getattr("type").unwrap(),
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};
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sym_value = self.get_obj_value(val, &helper, ctx)?;
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break;
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}
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}
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Ok(sym_value)
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})
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.unwrap()
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}
|
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|
|
fn get_symbol_location(&self, _: StrRef) -> Option<Location> {
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unimplemented!()
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}
|
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|
|
fn get_identifier_def(&self, id: StrRef) -> Option<DefinitionId> {
|
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let mut id_to_def = self.id_to_def.lock();
|
|
id_to_def.get(&id).cloned().or_else(|| {
|
|
let py_id = self.name_to_pyid.get(&id);
|
|
let result = py_id.and_then(|id| self.pyid_to_def.read().get(&id).copied());
|
|
if let Some(result) = &result {
|
|
id_to_def.insert(id, *result);
|
|
}
|
|
result
|
|
})
|
|
}
|
|
}
|