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use crate::middle::resolve_lifetime::ObjectLifetimeDefault;
use crate::ty;
use crate::ty::subst::{Subst, SubstsRef};
use crate::ty::EarlyBinder;
use rustc_ast as ast;
use rustc_data_structures::fx::FxHashMap;
use rustc_hir::def_id::DefId;
use rustc_span::symbol::Symbol;
use rustc_span::Span;
use super::{EarlyBoundRegion, InstantiatedPredicates, ParamConst, ParamTy, Predicate, TyCtxt};
#[derive(Clone, Debug, TyEncodable, TyDecodable, HashStable)]
pub enum GenericParamDefKind {
Lifetime,
Type { has_default: bool, object_lifetime_default: ObjectLifetimeDefault, synthetic: bool },
Const { has_default: bool },
}
impl GenericParamDefKind {
pub fn descr(&self) -> &'static str {
match self {
GenericParamDefKind::Lifetime => "lifetime",
GenericParamDefKind::Type { .. } => "type",
GenericParamDefKind::Const { .. } => "constant",
}
}
pub fn to_ord(&self) -> ast::ParamKindOrd {
match self {
GenericParamDefKind::Lifetime => ast::ParamKindOrd::Lifetime,
GenericParamDefKind::Type { .. } => ast::ParamKindOrd::Type,
GenericParamDefKind::Const { .. } => ast::ParamKindOrd::Const,
}
}
pub fn is_ty_or_const(&self) -> bool {
match self {
GenericParamDefKind::Lifetime => false,
GenericParamDefKind::Type { .. } | GenericParamDefKind::Const { .. } => true,
}
}
pub fn is_synthetic(&self) -> bool {
match self {
GenericParamDefKind::Type { synthetic, .. } => *synthetic,
_ => false,
}
}
}
#[derive(Clone, Debug, TyEncodable, TyDecodable, HashStable)]
pub struct GenericParamDef {
pub name: Symbol,
pub def_id: DefId,
pub index: u32,
/// `pure_wrt_drop`, set by the (unsafe) `#[may_dangle]` attribute
/// on generic parameter `'a`/`T`, asserts data behind the parameter
/// `'a`/`T` won't be accessed during the parent type's `Drop` impl.
pub pure_wrt_drop: bool,
pub kind: GenericParamDefKind,
}
impl GenericParamDef {
pub fn to_early_bound_region_data(&self) -> ty::EarlyBoundRegion {
if let GenericParamDefKind::Lifetime = self.kind {
ty::EarlyBoundRegion { def_id: self.def_id, index: self.index, name: self.name }
} else {
bug!("cannot convert a non-lifetime parameter def to an early bound region")
}
}
pub fn has_default(&self) -> bool {
match self.kind {
GenericParamDefKind::Type { has_default, .. }
| GenericParamDefKind::Const { has_default } => has_default,
GenericParamDefKind::Lifetime => false,
}
}
pub fn default_value<'tcx>(
&self,
tcx: TyCtxt<'tcx>,
) -> Option<EarlyBinder<ty::GenericArg<'tcx>>> {
match self.kind {
GenericParamDefKind::Type { has_default, .. } if has_default => {
Some(tcx.bound_type_of(self.def_id).map_bound(|t| t.into()))
}
GenericParamDefKind::Const { has_default } if has_default => {
Some(tcx.bound_const_param_default(self.def_id).map_bound(|c| c.into()))
}
_ => None,
}
}
}
#[derive(Default)]
pub struct GenericParamCount {
pub lifetimes: usize,
pub types: usize,
pub consts: usize,
}
/// Information about the formal type/lifetime parameters associated
/// with an item or method. Analogous to `hir::Generics`.
///
/// The ordering of parameters is the same as in `Subst` (excluding child generics):
/// `Self` (optionally), `Lifetime` params..., `Type` params...
#[derive(Clone, Debug, TyEncodable, TyDecodable, HashStable)]
pub struct Generics {
pub parent: Option<DefId>,
pub parent_count: usize,
pub params: Vec<GenericParamDef>,
/// Reverse map to the `index` field of each `GenericParamDef`.
#[stable_hasher(ignore)]
pub param_def_id_to_index: FxHashMap<DefId, u32>,
pub has_self: bool,
pub has_late_bound_regions: Option<Span>,
}
impl<'tcx> Generics {
#[inline]
pub fn count(&self) -> usize {
self.parent_count + self.params.len()
}
pub fn own_counts(&self) -> GenericParamCount {
// We could cache this as a property of `GenericParamCount`, but
// the aim is to refactor this away entirely eventually and the
// presence of this method will be a constant reminder.
let mut own_counts = GenericParamCount::default();
for param in &self.params {
match param.kind {
GenericParamDefKind::Lifetime => own_counts.lifetimes += 1,
GenericParamDefKind::Type { .. } => own_counts.types += 1,
GenericParamDefKind::Const { .. } => own_counts.consts += 1,
}
}
own_counts
}
pub fn own_defaults(&self) -> GenericParamCount {
let mut own_defaults = GenericParamCount::default();
for param in &self.params {
match param.kind {
GenericParamDefKind::Lifetime => (),
GenericParamDefKind::Type { has_default, .. } => {
own_defaults.types += has_default as usize;
}
GenericParamDefKind::Const { has_default } => {
own_defaults.consts += has_default as usize;
}
}
}
own_defaults
}
pub fn requires_monomorphization(&self, tcx: TyCtxt<'tcx>) -> bool {
if self.own_requires_monomorphization() {
return true;
}
if let Some(parent_def_id) = self.parent {
let parent = tcx.generics_of(parent_def_id);
parent.requires_monomorphization(tcx)
} else {
false
}
}
pub fn own_requires_monomorphization(&self) -> bool {
for param in &self.params {
match param.kind {
GenericParamDefKind::Type { .. } | GenericParamDefKind::Const { .. } => {
return true;
}
GenericParamDefKind::Lifetime => {}
}
}
false
}
/// Returns the `GenericParamDef` with the given index.
pub fn param_at(&'tcx self, param_index: usize, tcx: TyCtxt<'tcx>) -> &'tcx GenericParamDef {
if let Some(index) = param_index.checked_sub(self.parent_count) {
&self.params[index]
} else {
tcx.generics_of(self.parent.expect("parent_count > 0 but no parent?"))
.param_at(param_index, tcx)
}
}
/// Returns the `GenericParamDef` associated with this `EarlyBoundRegion`.
pub fn region_param(
&'tcx self,
param: &EarlyBoundRegion,
tcx: TyCtxt<'tcx>,
) -> &'tcx GenericParamDef {
let param = self.param_at(param.index as usize, tcx);
match param.kind {
GenericParamDefKind::Lifetime => param,
_ => bug!("expected lifetime parameter, but found another generic parameter"),
}
}
/// Returns the `GenericParamDef` associated with this `ParamTy`.
pub fn type_param(&'tcx self, param: &ParamTy, tcx: TyCtxt<'tcx>) -> &'tcx GenericParamDef {
let param = self.param_at(param.index as usize, tcx);
match param.kind {
GenericParamDefKind::Type { .. } => param,
_ => bug!("expected type parameter, but found another generic parameter"),
}
}
/// Returns the `GenericParamDef` associated with this `ParamConst`.
pub fn const_param(&'tcx self, param: &ParamConst, tcx: TyCtxt<'tcx>) -> &GenericParamDef {
let param = self.param_at(param.index as usize, tcx);
match param.kind {
GenericParamDefKind::Const { .. } => param,
_ => bug!("expected const parameter, but found another generic parameter"),
}
}
/// Returns `true` if `params` has `impl Trait`.
pub fn has_impl_trait(&'tcx self) -> bool {
self.params.iter().any(|param| {
matches!(param.kind, ty::GenericParamDefKind::Type { synthetic: true, .. })
})
}
/// Returns the substs corresponding to the generic parameters
/// of this item, excluding `Self`.
///
/// **This should only be used for diagnostics purposes.**
pub fn own_substs_no_defaults(
&'tcx self,
tcx: TyCtxt<'tcx>,
substs: &'tcx [ty::GenericArg<'tcx>],
) -> &'tcx [ty::GenericArg<'tcx>] {
let mut own_params = self.parent_count..self.count();
if self.has_self && self.parent.is_none() {
own_params.start = 1;
}
// Filter the default arguments.
//
// This currently uses structural equality instead
// of semantic equivalance. While not ideal, that's
// good enough for now as this should only be used
// for diagnostics anyways.
own_params.end -= self
.params
.iter()
.rev()
.take_while(|param| {
param.default_value(tcx).map_or(false, |default| {
default.subst(tcx, substs) == substs[param.index as usize]
})
})
.count();
&substs[own_params]
}
/// Returns the substs corresponding to the generic parameters of this item, excluding `Self`.
///
/// **This should only be used for diagnostics purposes.**
pub fn own_substs(
&'tcx self,
substs: &'tcx [ty::GenericArg<'tcx>],
) -> &'tcx [ty::GenericArg<'tcx>] {
let own = &substs[self.parent_count..][..self.params.len()];
if self.has_self && self.parent.is_none() { &own[1..] } else { &own }
}
}
/// Bounds on generics.
#[derive(Copy, Clone, Default, Debug, TyEncodable, TyDecodable, HashStable)]
pub struct GenericPredicates<'tcx> {
pub parent: Option<DefId>,
pub predicates: &'tcx [(Predicate<'tcx>, Span)],
}
impl<'tcx> GenericPredicates<'tcx> {
pub fn instantiate(
&self,
tcx: TyCtxt<'tcx>,
substs: SubstsRef<'tcx>,
) -> InstantiatedPredicates<'tcx> {
let mut instantiated = InstantiatedPredicates::empty();
self.instantiate_into(tcx, &mut instantiated, substs);
instantiated
}
pub fn instantiate_own(
&self,
tcx: TyCtxt<'tcx>,
substs: SubstsRef<'tcx>,
) -> InstantiatedPredicates<'tcx> {
InstantiatedPredicates {
predicates: self
.predicates
.iter()
.map(|(p, _)| EarlyBinder(*p).subst(tcx, substs))
.collect(),
spans: self.predicates.iter().map(|(_, sp)| *sp).collect(),
}
}
fn instantiate_into(
&self,
tcx: TyCtxt<'tcx>,
instantiated: &mut InstantiatedPredicates<'tcx>,
substs: SubstsRef<'tcx>,
) {
if let Some(def_id) = self.parent {
tcx.predicates_of(def_id).instantiate_into(tcx, instantiated, substs);
}
instantiated
.predicates
.extend(self.predicates.iter().map(|(p, _)| EarlyBinder(*p).subst(tcx, substs)));
instantiated.spans.extend(self.predicates.iter().map(|(_, sp)| *sp));
}
pub fn instantiate_identity(&self, tcx: TyCtxt<'tcx>) -> InstantiatedPredicates<'tcx> {
let mut instantiated = InstantiatedPredicates::empty();
self.instantiate_identity_into(tcx, &mut instantiated);
instantiated
}
fn instantiate_identity_into(
&self,
tcx: TyCtxt<'tcx>,
instantiated: &mut InstantiatedPredicates<'tcx>,
) {
if let Some(def_id) = self.parent {
tcx.predicates_of(def_id).instantiate_identity_into(tcx, instantiated);
}
instantiated.predicates.extend(self.predicates.iter().map(|(p, _)| p));
instantiated.spans.extend(self.predicates.iter().map(|(_, s)| s));
}
}
|