forked from M-Labs/nac3
694 lines
26 KiB
Rust
694 lines
26 KiB
Rust
use std::convert::TryInto;
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use crate::symbol_resolver::SymbolValue;
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use crate::typecheck::typedef::{Mapping, VarMap};
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use nac3parser::ast::{Constant, Location};
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use super::*;
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/// Structure storing [`DefinitionId`] for primitive types.
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#[derive(Clone, Copy)]
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pub struct PrimitiveDefinitionIds {
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pub int32: DefinitionId,
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pub int64: DefinitionId,
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pub uint32: DefinitionId,
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pub uint64: DefinitionId,
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pub float: DefinitionId,
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pub bool: DefinitionId,
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pub none: DefinitionId,
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pub range: DefinitionId,
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pub str: DefinitionId,
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pub exception: DefinitionId,
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pub option: DefinitionId,
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pub ndarray: DefinitionId,
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}
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impl PrimitiveDefinitionIds {
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/// Returns all [`DefinitionId`] of primitives as a [`Vec`].
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///
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/// There are no guarantees on ordering of the IDs.
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#[must_use]
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fn as_vec(&self) -> Vec<DefinitionId> {
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vec![
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self.int32,
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self.int64,
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self.uint32,
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self.uint64,
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self.float,
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self.bool,
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self.none,
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self.range,
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self.str,
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self.exception,
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self.option,
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self.ndarray,
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]
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}
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/// Returns an iterator over all [`DefinitionId`]s of this instance in indeterminate order.
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pub fn iter(&self) -> impl Iterator<Item=DefinitionId> {
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self.as_vec().into_iter()
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}
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/// Returns the primitive with the largest [`DefinitionId`].
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#[must_use]
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pub fn max_id(&self) -> DefinitionId {
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self.iter().max().unwrap()
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}
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}
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/// The [definition IDs][DefinitionId] for primitive types.
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pub const PRIMITIVE_DEF_IDS: PrimitiveDefinitionIds = PrimitiveDefinitionIds {
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int32: DefinitionId(0),
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int64: DefinitionId(1),
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uint32: DefinitionId(8),
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uint64: DefinitionId(9),
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float: DefinitionId(2),
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bool: DefinitionId(3),
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none: DefinitionId(4),
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range: DefinitionId(5),
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str: DefinitionId(6),
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exception: DefinitionId(7),
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option: DefinitionId(10),
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ndarray: DefinitionId(14),
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};
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impl TopLevelDef {
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pub fn to_string(&self, unifier: &mut Unifier) -> String {
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match self {
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TopLevelDef::Class { name, ancestors, fields, methods, type_vars, .. } => {
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let fields_str = fields
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.iter()
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.map(|(n, ty, _)| (n.to_string(), unifier.stringify(*ty)))
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.collect_vec();
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let methods_str = methods
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.iter()
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.map(|(n, ty, id)| (n.to_string(), unifier.stringify(*ty), *id))
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.collect_vec();
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format!(
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"Class {{\nname: {:?},\nancestors: {:?},\nfields: {:?},\nmethods: {:?},\ntype_vars: {:?}\n}}",
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name,
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ancestors.iter().map(|ancestor| ancestor.stringify(unifier)).collect_vec(),
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fields_str.iter().map(|(a, _)| a).collect_vec(),
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methods_str.iter().map(|(a, b, _)| (a, b)).collect_vec(),
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type_vars.iter().map(|id| unifier.stringify(*id)).collect_vec(),
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)
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}
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TopLevelDef::Function { name, signature, var_id, .. } => format!(
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"Function {{\nname: {:?},\nsig: {:?},\nvar_id: {:?}\n}}",
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name,
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unifier.stringify(*signature),
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{
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// preserve the order for debug output and test
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let mut r = var_id.clone();
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r.sort_unstable();
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r
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}
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),
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}
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}
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}
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impl TopLevelComposer {
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#[must_use]
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pub fn make_primitives(size_t: u32) -> (PrimitiveStore, Unifier) {
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let mut unifier = Unifier::new();
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let int32 = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.int32,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let int64 = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.int64,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let float = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.float,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let bool = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.bool,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let none = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.none,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let range = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.range,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let str = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.str,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let exception = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.exception,
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fields: vec![
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("__name__".into(), (int32, true)),
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("__file__".into(), (str, true)),
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("__line__".into(), (int32, true)),
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("__col__".into(), (int32, true)),
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("__func__".into(), (str, true)),
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("__message__".into(), (str, true)),
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("__param0__".into(), (int64, true)),
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("__param1__".into(), (int64, true)),
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("__param2__".into(), (int64, true)),
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]
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.into_iter()
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.collect::<HashMap<_, _>>(),
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params: VarMap::new(),
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});
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let uint32 = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.uint32,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let uint64 = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.uint64,
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fields: HashMap::new(),
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params: VarMap::new(),
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});
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let option_type_var = unifier.get_fresh_var(Some("option_type_var".into()), None);
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let is_some_type_fun_ty = unifier.add_ty(TypeEnum::TFunc(FunSignature {
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args: vec![],
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ret: bool,
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vars: VarMap::from([(option_type_var.1, option_type_var.0)]),
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}));
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let unwrap_fun_ty = unifier.add_ty(TypeEnum::TFunc(FunSignature {
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args: vec![],
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ret: option_type_var.0,
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vars: VarMap::from([(option_type_var.1, option_type_var.0)]),
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}));
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let option = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.option,
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fields: vec![
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("is_some".into(), (is_some_type_fun_ty, true)),
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("is_none".into(), (is_some_type_fun_ty, true)),
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("unwrap".into(), (unwrap_fun_ty, true)),
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]
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.into_iter()
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.collect::<HashMap<_, _>>(),
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params: VarMap::from([(option_type_var.1, option_type_var.0)]),
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});
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let size_t_ty = match size_t {
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32 => uint32,
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64 => uint64,
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_ => unreachable!(),
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};
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let ndarray_dtype_tvar = unifier.get_fresh_var(Some("ndarray_dtype".into()), None);
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let ndarray_ndims_tvar = unifier.get_fresh_const_generic_var(size_t_ty, Some("ndarray_ndims".into()), None);
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let ndarray_copy_fun_ret_ty = unifier.get_fresh_var(None, None);
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let ndarray_copy_fun_ty = unifier.add_ty(TypeEnum::TFunc(FunSignature {
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args: vec![],
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ret: ndarray_copy_fun_ret_ty.0,
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vars: VarMap::from([
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(ndarray_dtype_tvar.1, ndarray_dtype_tvar.0),
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(ndarray_ndims_tvar.1, ndarray_ndims_tvar.0),
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]),
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}));
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let ndarray_fill_fun_ty = unifier.add_ty(TypeEnum::TFunc(FunSignature {
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args: vec![
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FuncArg {
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name: "value".into(),
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ty: ndarray_dtype_tvar.0,
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default_value: None,
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},
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],
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ret: none,
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vars: VarMap::from([
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(ndarray_dtype_tvar.1, ndarray_dtype_tvar.0),
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(ndarray_ndims_tvar.1, ndarray_ndims_tvar.0),
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]),
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}));
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let ndarray = unifier.add_ty(TypeEnum::TObj {
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obj_id: PRIMITIVE_DEF_IDS.ndarray,
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fields: Mapping::from([
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("copy".into(), (ndarray_copy_fun_ty, true)),
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("fill".into(), (ndarray_fill_fun_ty, true)),
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]),
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params: VarMap::from([
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(ndarray_dtype_tvar.1, ndarray_dtype_tvar.0),
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(ndarray_ndims_tvar.1, ndarray_ndims_tvar.0),
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]),
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});
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unifier.unify(ndarray_copy_fun_ret_ty.0, ndarray).unwrap();
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let primitives = PrimitiveStore {
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int32,
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int64,
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uint32,
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uint64,
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float,
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bool,
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none,
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range,
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str,
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exception,
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option,
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ndarray,
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size_t,
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};
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unifier.put_primitive_store(&primitives);
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crate::typecheck::magic_methods::set_primitives_magic_methods(&primitives, &mut unifier);
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(primitives, unifier)
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}
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/// already include the `definition_id` of itself inside the ancestors vector
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/// when first registering, the `type_vars`, fields, methods, ancestors are invalid
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#[must_use]
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pub fn make_top_level_class_def(
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obj_id: DefinitionId,
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resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
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name: StrRef,
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constructor: Option<Type>,
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loc: Option<Location>,
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) -> TopLevelDef {
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TopLevelDef::Class {
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name,
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object_id: obj_id,
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type_vars: Vec::default(),
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fields: Vec::default(),
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methods: Vec::default(),
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ancestors: Vec::default(),
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constructor,
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resolver,
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loc,
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}
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}
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/// when first registering, the type is a invalid value
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#[must_use]
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pub fn make_top_level_function_def(
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name: String,
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simple_name: StrRef,
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ty: Type,
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resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
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loc: Option<Location>,
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) -> TopLevelDef {
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TopLevelDef::Function {
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name,
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simple_name,
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signature: ty,
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var_id: Vec::default(),
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instance_to_symbol: HashMap::default(),
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instance_to_stmt: HashMap::default(),
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resolver,
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codegen_callback: None,
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loc,
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}
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}
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#[must_use]
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pub fn make_class_method_name(mut class_name: String, method_name: &str) -> String {
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class_name.push('.');
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class_name.push_str(method_name);
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class_name
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}
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pub fn get_class_method_def_info(
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class_methods_def: &[(StrRef, Type, DefinitionId)],
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method_name: StrRef,
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) -> Result<(Type, DefinitionId), HashSet<String>> {
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for (name, ty, def_id) in class_methods_def {
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if name == &method_name {
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return Ok((*ty, *def_id));
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}
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}
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Err(HashSet::from([format!("no method {method_name} in the current class")]))
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}
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/// get all base class def id of a class, excluding itself. \
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/// this function should called only after the direct parent is set
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/// and before all the ancestors are set
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/// and when we allow single inheritance \
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/// the order of the returned list is from the child to the deepest ancestor
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pub fn get_all_ancestors_helper(
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child: &TypeAnnotation,
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temp_def_list: &[Arc<RwLock<TopLevelDef>>],
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) -> Result<Vec<TypeAnnotation>, HashSet<String>> {
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let mut result: Vec<TypeAnnotation> = Vec::new();
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let mut parent = Self::get_parent(child, temp_def_list);
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while let Some(p) = parent {
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parent = Self::get_parent(&p, temp_def_list);
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let p_id = if let TypeAnnotation::CustomClass { id, .. } = &p {
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*id
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} else {
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unreachable!("must be class kind annotation")
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};
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// check cycle
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let no_cycle = result.iter().all(|x| {
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let TypeAnnotation::CustomClass { id, .. } = x else {
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unreachable!("must be class kind annotation")
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};
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id.0 != p_id.0
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});
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if no_cycle {
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result.push(p);
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} else {
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return Err(HashSet::from(["cyclic inheritance detected".into()]));
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}
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}
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Ok(result)
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}
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/// should only be called when finding all ancestors, so panic when wrong
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fn get_parent(
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child: &TypeAnnotation,
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temp_def_list: &[Arc<RwLock<TopLevelDef>>],
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) -> Option<TypeAnnotation> {
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let child_id = if let TypeAnnotation::CustomClass { id, .. } = child {
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*id
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} else {
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unreachable!("should be class type annotation")
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};
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let child_def = temp_def_list.get(child_id.0).unwrap();
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let child_def = child_def.read();
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let TopLevelDef::Class { ancestors, .. } = &*child_def else {
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unreachable!("child must be top level class def")
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};
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if ancestors.is_empty() {
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None
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} else {
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Some(ancestors[0].clone())
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}
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}
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/// get the `var_id` of a given `TVar` type
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pub fn get_var_id(var_ty: Type, unifier: &mut Unifier) -> Result<u32, HashSet<String>> {
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if let TypeEnum::TVar { id, .. } = unifier.get_ty(var_ty).as_ref() {
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Ok(*id)
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} else {
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Err(HashSet::from([
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"not type var".to_string(),
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]))
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}
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}
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pub fn check_overload_function_type(
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this: Type,
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other: Type,
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unifier: &mut Unifier,
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type_var_to_concrete_def: &HashMap<Type, TypeAnnotation>,
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) -> bool {
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let this = unifier.get_ty(this);
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let this = this.as_ref();
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let other = unifier.get_ty(other);
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let other = other.as_ref();
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let (
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TypeEnum::TFunc(FunSignature { args: this_args, ret: this_ret, .. }),
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TypeEnum::TFunc(FunSignature { args: other_args, ret: other_ret, .. }),
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) = (this, other) else {
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unreachable!("this function must be called with function type")
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};
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// check args
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let args_ok = this_args
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.iter()
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.map(|FuncArg { name, ty, .. }| (name, type_var_to_concrete_def.get(ty).unwrap()))
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.zip(other_args.iter().map(|FuncArg { name, ty, .. }| {
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(name, type_var_to_concrete_def.get(ty).unwrap())
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}))
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.all(|(this, other)| {
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if this.0 == &"self".into() && this.0 == other.0 {
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true
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} else {
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this.0 == other.0
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&& check_overload_type_annotation_compatible(this.1, other.1, unifier)
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}
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});
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// check rets
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let ret_ok = check_overload_type_annotation_compatible(
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type_var_to_concrete_def.get(this_ret).unwrap(),
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type_var_to_concrete_def.get(other_ret).unwrap(),
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unifier,
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);
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// return
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args_ok && ret_ok
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}
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pub fn check_overload_field_type(
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this: Type,
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other: Type,
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unifier: &mut Unifier,
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type_var_to_concrete_def: &HashMap<Type, TypeAnnotation>,
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) -> bool {
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check_overload_type_annotation_compatible(
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type_var_to_concrete_def.get(&this).unwrap(),
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type_var_to_concrete_def.get(&other).unwrap(),
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unifier,
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)
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}
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pub fn get_all_assigned_field(stmts: &[Stmt<()>]) -> Result<HashSet<StrRef>, HashSet<String>> {
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let mut result = HashSet::new();
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for s in stmts {
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match &s.node {
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ast::StmtKind::AnnAssign { target, .. }
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if {
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if let ast::ExprKind::Attribute { value, .. } = &target.node {
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if let ast::ExprKind::Name { id, .. } = &value.node {
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id == &"self".into()
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} else {
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false
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}
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} else {
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false
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}
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} =>
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{
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return Err(HashSet::from([
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format!(
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"redundant type annotation for class fields at {}",
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s.location
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),
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]))
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}
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ast::StmtKind::Assign { targets, .. } => {
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for t in targets {
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if let ast::ExprKind::Attribute { value, attr, .. } = &t.node {
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if let ast::ExprKind::Name { id, .. } = &value.node {
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if id == &"self".into() {
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result.insert(*attr);
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}
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}
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}
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}
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}
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// TODO: do not check for For and While?
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ast::StmtKind::For { body, orelse, .. }
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| ast::StmtKind::While { body, orelse, .. } => {
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result.extend(Self::get_all_assigned_field(body.as_slice())?);
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result.extend(Self::get_all_assigned_field(orelse.as_slice())?);
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}
|
|
ast::StmtKind::If { body, orelse, .. } => {
|
|
let inited_for_sure = Self::get_all_assigned_field(body.as_slice())?
|
|
.intersection(&Self::get_all_assigned_field(orelse.as_slice())?)
|
|
.copied()
|
|
.collect::<HashSet<_>>();
|
|
result.extend(inited_for_sure);
|
|
}
|
|
ast::StmtKind::Try { body, orelse, finalbody, .. } => {
|
|
let inited_for_sure = Self::get_all_assigned_field(body.as_slice())?
|
|
.intersection(&Self::get_all_assigned_field(orelse.as_slice())?)
|
|
.copied()
|
|
.collect::<HashSet<_>>();
|
|
result.extend(inited_for_sure);
|
|
result.extend(Self::get_all_assigned_field(finalbody.as_slice())?);
|
|
}
|
|
ast::StmtKind::With { body, .. } => {
|
|
result.extend(Self::get_all_assigned_field(body.as_slice())?);
|
|
}
|
|
ast::StmtKind::Pass { .. }
|
|
| ast::StmtKind::Assert { .. }
|
|
| ast::StmtKind::Expr { .. } => {}
|
|
|
|
_ => {
|
|
unimplemented!()
|
|
}
|
|
}
|
|
}
|
|
Ok(result)
|
|
}
|
|
|
|
pub fn parse_parameter_default_value(
|
|
default: &ast::Expr,
|
|
resolver: &(dyn SymbolResolver + Send + Sync),
|
|
) -> Result<SymbolValue, HashSet<String>> {
|
|
parse_parameter_default_value(default, resolver)
|
|
}
|
|
|
|
pub fn check_default_param_type(
|
|
val: &SymbolValue,
|
|
ty: &TypeAnnotation,
|
|
primitive: &PrimitiveStore,
|
|
unifier: &mut Unifier,
|
|
) -> Result<(), String> {
|
|
fn is_compatible(
|
|
found: &TypeAnnotation,
|
|
expect: &TypeAnnotation,
|
|
unifier: &mut Unifier,
|
|
primitive: &PrimitiveStore,
|
|
) -> bool {
|
|
match (found, expect) {
|
|
(TypeAnnotation::Primitive(f), TypeAnnotation::Primitive(e)) => {
|
|
unifier.unioned(*f, *e)
|
|
}
|
|
(
|
|
TypeAnnotation::CustomClass { id: f_id, params: f_param },
|
|
TypeAnnotation::CustomClass { id: e_id, params: e_param },
|
|
) => {
|
|
*f_id == *e_id
|
|
&& *f_id == primitive.option.obj_id(unifier).unwrap()
|
|
&& (f_param.is_empty()
|
|
|| (f_param.len() == 1
|
|
&& e_param.len() == 1
|
|
&& is_compatible(&f_param[0], &e_param[0], unifier, primitive)))
|
|
}
|
|
(TypeAnnotation::Tuple(f), TypeAnnotation::Tuple(e)) => {
|
|
f.len() == e.len()
|
|
&& f.iter()
|
|
.zip(e.iter())
|
|
.all(|(f, e)| is_compatible(f, e, unifier, primitive))
|
|
}
|
|
_ => false,
|
|
}
|
|
}
|
|
|
|
let found = val.get_type_annotation(primitive, unifier);
|
|
if is_compatible(&found, ty, unifier, primitive) {
|
|
Ok(())
|
|
} else {
|
|
Err(format!(
|
|
"incompatible default parameter type, expect {}, found {}",
|
|
ty.stringify(unifier),
|
|
found.stringify(unifier),
|
|
))
|
|
}
|
|
}
|
|
}
|
|
|
|
pub fn parse_parameter_default_value(
|
|
default: &ast::Expr,
|
|
resolver: &(dyn SymbolResolver + Send + Sync),
|
|
) -> Result<SymbolValue, HashSet<String>> {
|
|
fn handle_constant(val: &Constant, loc: &Location) -> Result<SymbolValue, HashSet<String>> {
|
|
match val {
|
|
Constant::Int(v) => {
|
|
if let Ok(v) = (*v).try_into() {
|
|
Ok(SymbolValue::I32(v))
|
|
} else {
|
|
Err(HashSet::from([format!("integer value out of range at {loc}")]))
|
|
}
|
|
}
|
|
Constant::Float(v) => Ok(SymbolValue::Double(*v)),
|
|
Constant::Bool(v) => Ok(SymbolValue::Bool(*v)),
|
|
Constant::Tuple(tuple) => Ok(SymbolValue::Tuple(
|
|
tuple.iter().map(|x| handle_constant(x, loc)).collect::<Result<Vec<_>, _>>()?,
|
|
)),
|
|
Constant::None => Err(HashSet::from([
|
|
format!(
|
|
"`None` is not supported, use `none` for option type instead ({loc})"
|
|
),
|
|
])),
|
|
_ => unimplemented!("this constant is not supported at {}", loc),
|
|
}
|
|
}
|
|
match &default.node {
|
|
ast::ExprKind::Constant { value, .. } => handle_constant(value, &default.location),
|
|
ast::ExprKind::Call { func, args, .. } if args.len() == 1 => {
|
|
match &func.node {
|
|
ast::ExprKind::Name { id, .. } if *id == "int64".into() => match &args[0].node {
|
|
ast::ExprKind::Constant { value: Constant::Int(v), .. } => {
|
|
let v: Result<i64, _> = (*v).try_into();
|
|
match v {
|
|
Ok(v) => Ok(SymbolValue::I64(v)),
|
|
_ => Err(HashSet::from([
|
|
format!("default param value out of range at {}", default.location)
|
|
])),
|
|
}
|
|
}
|
|
_ => Err(HashSet::from([
|
|
format!("only allow constant integer here at {}", default.location),
|
|
]))
|
|
}
|
|
ast::ExprKind::Name { id, .. } if *id == "uint32".into() => match &args[0].node {
|
|
ast::ExprKind::Constant { value: Constant::Int(v), .. } => {
|
|
let v: Result<u32, _> = (*v).try_into();
|
|
match v {
|
|
Ok(v) => Ok(SymbolValue::U32(v)),
|
|
_ => Err(HashSet::from([
|
|
format!("default param value out of range at {}", default.location),
|
|
])),
|
|
}
|
|
}
|
|
_ => Err(HashSet::from([
|
|
format!("only allow constant integer here at {}", default.location),
|
|
]))
|
|
}
|
|
ast::ExprKind::Name { id, .. } if *id == "uint64".into() => match &args[0].node {
|
|
ast::ExprKind::Constant { value: Constant::Int(v), .. } => {
|
|
let v: Result<u64, _> = (*v).try_into();
|
|
match v {
|
|
Ok(v) => Ok(SymbolValue::U64(v)),
|
|
_ => Err(HashSet::from([
|
|
format!("default param value out of range at {}", default.location),
|
|
])),
|
|
}
|
|
}
|
|
_ => Err(HashSet::from([
|
|
format!("only allow constant integer here at {}", default.location),
|
|
]))
|
|
}
|
|
ast::ExprKind::Name { id, .. } if *id == "Some".into() => Ok(
|
|
SymbolValue::OptionSome(
|
|
Box::new(parse_parameter_default_value(&args[0], resolver)?)
|
|
)
|
|
),
|
|
_ => Err(HashSet::from([
|
|
format!("unsupported default parameter at {}", default.location),
|
|
])),
|
|
}
|
|
}
|
|
ast::ExprKind::Tuple { elts, .. } => Ok(SymbolValue::Tuple(elts
|
|
.iter()
|
|
.map(|x| parse_parameter_default_value(x, resolver))
|
|
.collect::<Result<Vec<_>, _>>()?
|
|
)),
|
|
ast::ExprKind::Name { id, .. } if id == &"none".into() => Ok(SymbolValue::OptionNone),
|
|
ast::ExprKind::Name { id, .. } => {
|
|
resolver.get_default_param_value(default).ok_or_else(
|
|
|| HashSet::from([
|
|
format!(
|
|
"`{}` cannot be used as a default parameter at {} \
|
|
(not primitive type, option or tuple / not defined?)",
|
|
id,
|
|
default.location
|
|
),
|
|
])
|
|
)
|
|
}
|
|
_ => Err(HashSet::from([
|
|
format!(
|
|
"unsupported default parameter (not primitive type, option or tuple) at {}",
|
|
default.location
|
|
),
|
|
]))
|
|
}
|
|
}
|