rust-analyzer/crates/hir-ty/src/traits.rs

283 lines
9 KiB
Rust

//! Trait solving using Chalk.
use core::fmt;
use std::env::var;
use chalk_ir::{fold::TypeFoldable, DebruijnIndex, GoalData};
use chalk_recursive::Cache;
use chalk_solve::{logging_db::LoggingRustIrDatabase, rust_ir, Solver};
use base_db::CrateId;
use hir_def::{
lang_item::{LangItem, LangItemTarget},
BlockId, TraitId,
};
use hir_expand::name::Name;
use intern::sym;
use stdx::{never, panic_context};
use triomphe::Arc;
use crate::{
db::HirDatabase, infer::unify::InferenceTable, utils::UnevaluatedConstEvaluatorFolder, AliasEq,
AliasTy, Canonical, DomainGoal, Goal, Guidance, InEnvironment, Interner, ProjectionTy,
ProjectionTyExt, Solution, TraitRefExt, Ty, TyKind, TypeFlags, WhereClause,
};
/// This controls how much 'time' we give the Chalk solver before giving up.
const CHALK_SOLVER_FUEL: i32 = 1000;
#[derive(Debug, Copy, Clone)]
pub(crate) struct ChalkContext<'a> {
pub(crate) db: &'a dyn HirDatabase,
pub(crate) krate: CrateId,
pub(crate) block: Option<BlockId>,
}
fn create_chalk_solver() -> chalk_recursive::RecursiveSolver<Interner> {
let overflow_depth =
var("CHALK_OVERFLOW_DEPTH").ok().and_then(|s| s.parse().ok()).unwrap_or(500);
let max_size = var("CHALK_SOLVER_MAX_SIZE").ok().and_then(|s| s.parse().ok()).unwrap_or(150);
chalk_recursive::RecursiveSolver::new(overflow_depth, max_size, Some(Cache::new()))
}
/// A set of clauses that we assume to be true. E.g. if we are inside this function:
/// ```rust
/// fn foo<T: Default>(t: T) {}
/// ```
/// we assume that `T: Default`.
#[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub struct TraitEnvironment {
pub krate: CrateId,
pub block: Option<BlockId>,
// FIXME make this a BTreeMap
traits_from_clauses: Box<[(Ty, TraitId)]>,
pub env: chalk_ir::Environment<Interner>,
}
impl TraitEnvironment {
pub fn empty(krate: CrateId) -> Arc<Self> {
Arc::new(TraitEnvironment {
krate,
block: None,
traits_from_clauses: Box::default(),
env: chalk_ir::Environment::new(Interner),
})
}
pub fn new(
krate: CrateId,
block: Option<BlockId>,
traits_from_clauses: Box<[(Ty, TraitId)]>,
env: chalk_ir::Environment<Interner>,
) -> Arc<Self> {
Arc::new(TraitEnvironment { krate, block, traits_from_clauses, env })
}
// pub fn with_block(self: &mut Arc<Self>, block: BlockId) {
pub fn with_block(this: &mut Arc<Self>, block: BlockId) {
Arc::make_mut(this).block = Some(block);
}
pub fn traits_in_scope_from_clauses(&self, ty: Ty) -> impl Iterator<Item = TraitId> + '_ {
self.traits_from_clauses
.iter()
.filter_map(move |(self_ty, trait_id)| (*self_ty == ty).then_some(*trait_id))
}
}
pub(crate) fn normalize_projection_query(
db: &dyn HirDatabase,
projection: ProjectionTy,
env: Arc<TraitEnvironment>,
) -> Ty {
if projection.substitution.iter(Interner).any(|arg| {
arg.ty(Interner)
.is_some_and(|ty| ty.data(Interner).flags.intersects(TypeFlags::HAS_TY_INFER))
}) {
never!(
"Invoking `normalize_projection_query` with a projection type containing inference var"
);
return TyKind::Error.intern(Interner);
}
let mut table = InferenceTable::new(db, env);
let ty = table.normalize_projection_ty(projection);
table.resolve_completely(ty)
}
/// Solve a trait goal using Chalk.
pub(crate) fn trait_solve_query(
db: &dyn HirDatabase,
krate: CrateId,
block: Option<BlockId>,
goal: Canonical<InEnvironment<Goal>>,
) -> Option<Solution> {
let detail = match &goal.value.goal.data(Interner) {
GoalData::DomainGoal(DomainGoal::Holds(WhereClause::Implemented(it))) => {
db.trait_data(it.hir_trait_id()).name.display(db.upcast()).to_string()
}
GoalData::DomainGoal(DomainGoal::Holds(WhereClause::AliasEq(_))) => "alias_eq".to_owned(),
_ => "??".to_owned(),
};
let _p = tracing::info_span!("trait_solve_query", ?detail).entered();
tracing::info!("trait_solve_query({:?})", goal.value.goal);
if let GoalData::DomainGoal(DomainGoal::Holds(WhereClause::AliasEq(AliasEq {
alias: AliasTy::Projection(projection_ty),
..
}))) = &goal.value.goal.data(Interner)
{
if let TyKind::BoundVar(_) = projection_ty.self_type_parameter(db).kind(Interner) {
// Hack: don't ask Chalk to normalize with an unknown self type, it'll say that's impossible
return Some(Solution::Ambig(Guidance::Unknown));
}
}
// Chalk see `UnevaluatedConst` as a unique concrete value, but we see it as an alias for another const. So
// we should get rid of it when talking to chalk.
let goal = goal
.try_fold_with(&mut UnevaluatedConstEvaluatorFolder { db }, DebruijnIndex::INNERMOST)
.unwrap();
// We currently don't deal with universes (I think / hope they're not yet
// relevant for our use cases?)
let u_canonical = chalk_ir::UCanonical { canonical: goal, universes: 1 };
solve(db, krate, block, &u_canonical)
}
fn solve(
db: &dyn HirDatabase,
krate: CrateId,
block: Option<BlockId>,
goal: &chalk_ir::UCanonical<chalk_ir::InEnvironment<chalk_ir::Goal<Interner>>>,
) -> Option<chalk_solve::Solution<Interner>> {
let _p = tracing::info_span!("solve", ?krate, ?block).entered();
let context = ChalkContext { db, krate, block };
tracing::debug!("solve goal: {:?}", goal);
let mut solver = create_chalk_solver();
let fuel = std::cell::Cell::new(CHALK_SOLVER_FUEL);
let should_continue = || {
db.unwind_if_cancelled();
let remaining = fuel.get();
fuel.set(remaining - 1);
if remaining == 0 {
tracing::debug!("fuel exhausted");
}
remaining > 0
};
let mut solve = || {
let _ctx = if is_chalk_debug() || is_chalk_print() {
Some(panic_context::enter(format!("solving {goal:?}")))
} else {
None
};
let solution = if is_chalk_print() {
let logging_db =
LoggingRustIrDatabaseLoggingOnDrop(LoggingRustIrDatabase::new(context));
solver.solve_limited(&logging_db.0, goal, &should_continue)
} else {
solver.solve_limited(&context, goal, &should_continue)
};
tracing::debug!("solve({:?}) => {:?}", goal, solution);
solution
};
// don't set the TLS for Chalk unless Chalk debugging is active, to make
// extra sure we only use it for debugging
if is_chalk_debug() {
crate::tls::set_current_program(db, solve)
} else {
solve()
}
}
struct LoggingRustIrDatabaseLoggingOnDrop<'a>(LoggingRustIrDatabase<Interner, ChalkContext<'a>>);
impl Drop for LoggingRustIrDatabaseLoggingOnDrop<'_> {
fn drop(&mut self) {
tracing::info!("chalk program:\n{}", self.0);
}
}
fn is_chalk_debug() -> bool {
std::env::var("CHALK_DEBUG").is_ok()
}
fn is_chalk_print() -> bool {
std::env::var("CHALK_PRINT").is_ok()
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub enum FnTrait {
// Warning: Order is important. If something implements `x` it should also implement
// `y` if `y <= x`.
FnOnce,
FnMut,
Fn,
}
impl fmt::Display for FnTrait {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
FnTrait::FnOnce => write!(f, "FnOnce"),
FnTrait::FnMut => write!(f, "FnMut"),
FnTrait::Fn => write!(f, "Fn"),
}
}
}
impl FnTrait {
pub const fn function_name(&self) -> &'static str {
match self {
FnTrait::FnOnce => "call_once",
FnTrait::FnMut => "call_mut",
FnTrait::Fn => "call",
}
}
const fn lang_item(self) -> LangItem {
match self {
FnTrait::FnOnce => LangItem::FnOnce,
FnTrait::FnMut => LangItem::FnMut,
FnTrait::Fn => LangItem::Fn,
}
}
pub const fn from_lang_item(lang_item: LangItem) -> Option<Self> {
match lang_item {
LangItem::FnOnce => Some(FnTrait::FnOnce),
LangItem::FnMut => Some(FnTrait::FnMut),
LangItem::Fn => Some(FnTrait::Fn),
_ => None,
}
}
pub const fn to_chalk_ir(self) -> rust_ir::ClosureKind {
match self {
FnTrait::FnOnce => rust_ir::ClosureKind::FnOnce,
FnTrait::FnMut => rust_ir::ClosureKind::FnMut,
FnTrait::Fn => rust_ir::ClosureKind::Fn,
}
}
pub fn method_name(self) -> Name {
match self {
FnTrait::FnOnce => Name::new_symbol_root(sym::call_once.clone()),
FnTrait::FnMut => Name::new_symbol_root(sym::call_mut.clone()),
FnTrait::Fn => Name::new_symbol_root(sym::call.clone()),
}
}
pub fn get_id(self, db: &dyn HirDatabase, krate: CrateId) -> Option<TraitId> {
let target = db.lang_item(krate, self.lang_item())?;
match target {
LangItemTarget::Trait(t) => Some(t),
_ => None,
}
}
}