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8901: fix: `fill_match_arms` hangs on a tuple of large enums r=matklad a=iDawer

+ Lazy computation of missing arms.
+ Convenience function to test lazy computation: `ide_assists::tests::check_assist_unresolved`.

Fixes  

Co-authored-by: Dawer <7803845+iDawer@users.noreply.github.com>
This commit is contained in:
bors[bot] 2021-05-22 12:26:40 +00:00 committed by GitHub
commit 7d81e40e36
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GPG Key ID: 4AEE18F83AFDEB23
2 changed files with 75 additions and 27 deletions
crates/ide_assists/src
handlers
fill_match_arms.rs
tests.rs

81
crates/ide_assists/src/handlers/fill_match_arms.rs

@ -1,4 +1,4 @@
use std::iter;
use std::iter::{self, Peekable};
use either::Either;
use hir::{Adt, HasSource, ModuleDef, Semantics};
@ -63,50 +63,61 @@ pub(crate) fn fill_match_arms(acc: &mut Assists, ctx: &AssistContext) -> Option<
let module = ctx.sema.scope(expr.syntax()).module()?;
let missing_arms: Vec<MatchArm> = if let Some(enum_def) = resolve_enum_def(&ctx.sema, &expr) {
let mut missing_pats: Peekable<Box<dyn Iterator<Item = ast::Pat>>> = if let Some(enum_def) =
resolve_enum_def(&ctx.sema, &expr)
{
let variants = enum_def.variants(ctx.db());
let mut variants = variants
let missing_pats = variants
.into_iter()
.filter_map(|variant| build_pat(ctx.db(), module, variant))
.filter(|variant_pat| is_variant_missing(&top_lvl_pats, variant_pat))
.map(|pat| make::match_arm(iter::once(pat), make::expr_empty_block()))
.map(|it| it.clone_for_update())
.collect::<Vec<_>>();
if Some(enum_def)
== FamousDefs(&ctx.sema, Some(module.krate()))
.core_option_Option()
.map(|x| lift_enum(x))
.filter(|variant_pat| is_variant_missing(&top_lvl_pats, variant_pat));
let missing_pats: Box<dyn Iterator<Item = _>> = if Some(enum_def)
== FamousDefs(&ctx.sema, Some(module.krate())).core_option_Option().map(lift_enum)
{
// Match `Some` variant first.
cov_mark::hit!(option_order);
variants.reverse()
}
variants
Box::new(missing_pats.rev())
} else {
Box::new(missing_pats)
};
missing_pats.peekable()
} else if let Some(enum_defs) = resolve_tuple_of_enum_def(&ctx.sema, &expr) {
let mut n_arms = 1;
let variants_of_enums: Vec<Vec<ExtendedVariant>> = enum_defs
.into_iter()
.map(|enum_def| enum_def.variants(ctx.db()))
.inspect(|variants| n_arms *= variants.len())
.collect();
// When calculating the match arms for a tuple of enums, we want
// to create a match arm for each possible combination of enum
// values. The `multi_cartesian_product` method transforms
// Vec<Vec<EnumVariant>> into Vec<(EnumVariant, .., EnumVariant)>
// where each tuple represents a proposed match arm.
enum_defs
// A number of arms grows very fast on even a small tuple of large enums.
// We skip the assist beyond an arbitrary threshold.
if n_arms > 256 {
return None;
}
let missing_pats = variants_of_enums
.into_iter()
.map(|enum_def| enum_def.variants(ctx.db()))
.multi_cartesian_product()
.inspect(|_| cov_mark::hit!(fill_match_arms_lazy_computation))
.map(|variants| {
let patterns =
variants.into_iter().filter_map(|variant| build_pat(ctx.db(), module, variant));
ast::Pat::from(make::tuple_pat(patterns))
})
.filter(|variant_pat| is_variant_missing(&top_lvl_pats, variant_pat))
.map(|pat| make::match_arm(iter::once(pat), make::expr_empty_block()))
.map(|it| it.clone_for_update())
.collect()
.filter(|variant_pat| is_variant_missing(&top_lvl_pats, variant_pat));
(Box::new(missing_pats) as Box<dyn Iterator<Item = _>>).peekable()
} else {
return None;
};
if missing_arms.is_empty() {
if missing_pats.peek().is_none() {
return None;
}
@ -117,6 +128,9 @@ pub(crate) fn fill_match_arms(acc: &mut Assists, ctx: &AssistContext) -> Option<
target,
|builder| {
let new_match_arm_list = match_arm_list.clone_for_update();
let missing_arms = missing_pats
.map(|pat| make::match_arm(iter::once(pat), make::expr_empty_block()))
.map(|it| it.clone_for_update());
let catch_all_arm = new_match_arm_list
.arms()
@ -167,13 +181,13 @@ fn does_pat_match_variant(pat: &Pat, var: &Pat) -> bool {
}
}
#[derive(Eq, PartialEq, Clone)]
#[derive(Eq, PartialEq, Clone, Copy)]
enum ExtendedEnum {
Bool,
Enum(hir::Enum),
}
#[derive(Eq, PartialEq, Clone)]
#[derive(Eq, PartialEq, Clone, Copy)]
enum ExtendedVariant {
True,
False,
@ -185,7 +199,7 @@ fn lift_enum(e: hir::Enum) -> ExtendedEnum {
}
impl ExtendedEnum {
fn variants(&self, db: &RootDatabase) -> Vec<ExtendedVariant> {
fn variants(self, db: &RootDatabase) -> Vec<ExtendedVariant> {
match self {
ExtendedEnum::Enum(e) => {
e.variants(db).into_iter().map(|x| ExtendedVariant::Variant(x)).collect::<Vec<_>>()
@ -266,7 +280,9 @@ fn build_pat(db: &RootDatabase, module: hir::Module, var: ExtendedVariant) -> Op
mod tests {
use ide_db::helpers::FamousDefs;
use crate::tests::{check_assist, check_assist_not_applicable, check_assist_target};
use crate::tests::{
check_assist, check_assist_not_applicable, check_assist_target, check_assist_unresolved,
};
use super::fill_match_arms;
@ -1045,4 +1061,19 @@ fn foo(t: Test) {
}"#,
);
}
#[test]
fn lazy_computation() {
// Computing a single missing arm is enough to determine applicability of the assist.
cov_mark::check_count!(fill_match_arms_lazy_computation, 1);
check_assist_unresolved(
fill_match_arms,
r#"
enum A { One, Two, }
fn foo(tuple: (A, A)) {
match $0tuple {};
}
"#,
);
}
}

21
crates/ide_assists/src/tests.rs

@ -65,6 +65,12 @@ pub(crate) fn check_assist_not_applicable(assist: Handler, ra_fixture: &str) {
check(assist, ra_fixture, ExpectedResult::NotApplicable, None);
}
/// Check assist in unresolved state. Useful to check assists for lazy computation.
#[track_caller]
pub(crate) fn check_assist_unresolved(assist: Handler, ra_fixture: &str) {
check(assist, ra_fixture, ExpectedResult::Unresolved, None);
}
#[track_caller]
fn check_doc_test(assist_id: &str, before: &str, after: &str) {
let after = trim_indent(after);
@ -101,6 +107,7 @@ fn check_doc_test(assist_id: &str, before: &str, after: &str) {
enum ExpectedResult<'a> {
NotApplicable,
Unresolved,
After(&'a str),
Target(&'a str),
}
@ -115,7 +122,11 @@ fn check(handler: Handler, before: &str, expected: ExpectedResult, assist_label:
let sema = Semantics::new(&db);
let config = TEST_CONFIG;
let ctx = AssistContext::new(sema, &config, frange);
let mut acc = Assists::new(&ctx, AssistResolveStrategy::All);
let resolve = match expected {
ExpectedResult::Unresolved => AssistResolveStrategy::None,
_ => AssistResolveStrategy::All,
};
let mut acc = Assists::new(&ctx, resolve);
handler(&mut acc, &ctx);
let mut res = acc.finish();
@ -163,8 +174,14 @@ fn check(handler: Handler, before: &str, expected: ExpectedResult, assist_label:
let range = assist.target;
assert_eq_text!(&text_without_caret[range], target);
}
(Some(assist), ExpectedResult::Unresolved) => assert!(
assist.source_change.is_none(),
"unresolved assist should not contain source changes"
),
(Some(_), ExpectedResult::NotApplicable) => panic!("assist should not be applicable!"),
(None, ExpectedResult::After(_)) | (None, ExpectedResult::Target(_)) => {
(None, ExpectedResult::After(_))
| (None, ExpectedResult::Target(_))
| (None, ExpectedResult::Unresolved) => {
panic!("code action is not applicable")
}
(None, ExpectedResult::NotApplicable) => (),