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coverage: Extract hole spans from HIR instead of MIR

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This makes it possible to treat more kinds of nested item/code as holes,
instead of being restricted to closures.
This commit is contained in:
Zalathar 2024-07-01 13:29:54 +10:00
parent 9b2c58d1fa
commit 63c04f05e6
19 changed files with 200 additions and 181 deletions
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80
compiler/rustc_mir_transform/src/coverage/mod.rs
View File

@ -8,6 +8,10 @@
mod tests;
mod unexpand;
use rustc_hir as hir;
use rustc_hir::intravisit::{walk_expr, Visitor};
use rustc_middle::hir::map::Map;
use rustc_middle::hir::nested_filter;
use rustc_middle::mir::coverage::{
CodeRegion, CoverageKind, DecisionInfo, FunctionCoverageInfo, Mapping, MappingKind,
};
@ -465,6 +469,9 @@ struct ExtractedHirInfo {
/// Must have the same context and filename as the body span.
fn_sig_span_extended: Option<Span>,
body_span: Span,
/// "Holes" are regions within the body span that should not be included in
/// coverage spans for this function (e.g. closures and nested items).
hole_spans: Vec<Span>,
}
fn extract_hir_info<'tcx>(tcx: TyCtxt<'tcx>, def_id: LocalDefId) -> ExtractedHirInfo {
@ -480,7 +487,7 @@ fn extract_hir_info<'tcx>(tcx: TyCtxt<'tcx>, def_id: LocalDefId) -> ExtractedHir
let mut body_span = hir_body.value.span;
use rustc_hir::{Closure, Expr, ExprKind, Node};
use hir::{Closure, Expr, ExprKind, Node};
// Unexpand a closure's body span back to the context of its declaration.
// This helps with closure bodies that consist of just a single bang-macro,
// and also with closure bodies produced by async desugaring.
@ -507,11 +514,78 @@ fn extract_hir_info<'tcx>(tcx: TyCtxt<'tcx>, def_id: LocalDefId) -> ExtractedHir
let function_source_hash = hash_mir_source(tcx, hir_body);
ExtractedHirInfo { function_source_hash, is_async_fn, fn_sig_span_extended, body_span }
let hole_spans = extract_hole_spans_from_hir(tcx, body_span, hir_body);
ExtractedHirInfo {
function_source_hash,
is_async_fn,
fn_sig_span_extended,
body_span,
hole_spans,
}
}
fn hash_mir_source<'tcx>(tcx: TyCtxt<'tcx>, hir_body: &'tcx rustc_hir::Body<'tcx>) -> u64 {
fn hash_mir_source<'tcx>(tcx: TyCtxt<'tcx>, hir_body: &'tcx hir::Body<'tcx>) -> u64 {
// FIXME(cjgillot) Stop hashing HIR manually here.
let owner = hir_body.id().hir_id.owner;
tcx.hir_owner_nodes(owner).opt_hash_including_bodies.unwrap().to_smaller_hash().as_u64()
}
fn extract_hole_spans_from_hir<'tcx>(
tcx: TyCtxt<'tcx>,
body_span: Span, // Usually `hir_body.value.span`, but not always
hir_body: &hir::Body<'tcx>,
) -> Vec<Span> {
struct HolesVisitor<'hir, F> {
hir: Map<'hir>,
visit_hole_span: F,
}
impl<'hir, F: FnMut(Span)> Visitor<'hir> for HolesVisitor<'hir, F> {
/// - We need `NestedFilter::INTRA = true` so that `visit_item` will be called.
/// - Bodies of nested items don't actually get visited, because of the
/// `visit_item` override.
/// - For nested bodies that are not part of an item, we do want to visit any
/// items contained within them.
type NestedFilter = nested_filter::All;
fn nested_visit_map(&mut self) -> Self::Map {
self.hir
}
fn visit_item(&mut self, item: &'hir hir::Item<'hir>) {
(self.visit_hole_span)(item.span);
// Having visited this item, we don't care about its children,
// so don't call `walk_item`.
}
// We override `visit_expr` instead of the more specific expression
// visitors, so that we have direct access to the expression span.
fn visit_expr(&mut self, expr: &'hir hir::Expr<'hir>) {
match expr.kind {
hir::ExprKind::Closure(_) | hir::ExprKind::ConstBlock(_) => {
(self.visit_hole_span)(expr.span);
// Having visited this expression, we don't care about its
// children, so don't call `walk_expr`.
}
// For other expressions, recursively visit as normal.
_ => walk_expr(self, expr),
}
}
}
let mut hole_spans = vec![];
let mut visitor = HolesVisitor {
hir: tcx.hir(),
visit_hole_span: |hole_span| {
// Discard any holes that aren't directly visible within the body span.
if body_span.contains(hole_span) && body_span.eq_ctxt(hole_span) {
hole_spans.push(hole_span);
}
},
};
visitor.visit_body(hir_body);
hole_spans
}

7
compiler/rustc_mir_transform/src/coverage/spans.rs
View File

@ -8,7 +8,7 @@
use crate::coverage::graph::{BasicCoverageBlock, CoverageGraph};
use crate::coverage::mappings;
use crate::coverage::spans::from_mir::{
extract_covspans_and_holes_from_mir, ExtractedCovspans, Hole, SpanFromMir,
extract_covspans_from_mir, ExtractedCovspans, Hole, SpanFromMir,
};
use crate::coverage::ExtractedHirInfo;
@ -20,8 +20,8 @@ pub(super) fn extract_refined_covspans(
basic_coverage_blocks: &CoverageGraph,
code_mappings: &mut impl Extend<mappings::CodeMapping>,
) {
let ExtractedCovspans { mut covspans, mut holes } =
extract_covspans_and_holes_from_mir(mir_body, hir_info, basic_coverage_blocks);
let ExtractedCovspans { mut covspans } =
extract_covspans_from_mir(mir_body, hir_info, basic_coverage_blocks);
// First, perform the passes that need macro information.
covspans.sort_by(|a, b| basic_coverage_blocks.cmp_in_dominator_order(a.bcb, b.bcb));
@ -45,6 +45,7 @@ pub(super) fn extract_refined_covspans(
covspans.dedup_by(|b, a| a.span.source_equal(b.span));
// Sort the holes, and merge overlapping/adjacent holes.
let mut holes = hir_info.hole_spans.iter().map(|&span| Hole { span }).collect::<Vec<_>>();
holes.sort_by(|a, b| compare_spans(a.span, b.span));
holes.dedup_by(|b, a| a.merge_if_overlapping_or_adjacent(b));

39
compiler/rustc_mir_transform/src/coverage/spans/from_mir.rs
View File

@ -1,8 +1,7 @@
use rustc_middle::bug;
use rustc_middle::mir::coverage::CoverageKind;
use rustc_middle::mir::{
self, AggregateKind, FakeReadCause, Rvalue, Statement, StatementKind, Terminator,
TerminatorKind,
self, FakeReadCause, Statement, StatementKind, Terminator, TerminatorKind,
};
use rustc_span::{Span, Symbol};
@ -15,13 +14,12 @@
pub(crate) struct ExtractedCovspans {
pub(crate) covspans: Vec<SpanFromMir>,
pub(crate) holes: Vec<Hole>,
}
/// Traverses the MIR body to produce an initial collection of coverage-relevant
/// spans, each associated with a node in the coverage graph (BCB) and possibly
/// other metadata.
pub(crate) fn extract_covspans_and_holes_from_mir(
pub(crate) fn extract_covspans_from_mir(
mir_body: &mir::Body<'_>,
hir_info: &ExtractedHirInfo,
basic_coverage_blocks: &CoverageGraph,
@ -29,21 +27,13 @@ pub(crate) fn extract_covspans_and_holes_from_mir(
let &ExtractedHirInfo { body_span, .. } = hir_info;
let mut covspans = vec![];
let mut holes = vec![];
for (bcb, bcb_data) in basic_coverage_blocks.iter_enumerated() {
bcb_to_initial_coverage_spans(
mir_body,
body_span,
bcb,
bcb_data,
&mut covspans,
&mut holes,
);
bcb_to_initial_coverage_spans(mir_body, body_span, bcb, bcb_data, &mut covspans);
}
// Only add the signature span if we found at least one span in the body.
if !covspans.is_empty() || !holes.is_empty() {
if !covspans.is_empty() {
// If there is no usable signature span, add a fake one (before refinement)
// to avoid an ugly gap between the body start and the first real span.
// FIXME: Find a more principled way to solve this problem.
@ -51,7 +41,7 @@ pub(crate) fn extract_covspans_and_holes_from_mir(
covspans.push(SpanFromMir::for_fn_sig(fn_sig_span));
}
ExtractedCovspans { covspans, holes }
ExtractedCovspans { covspans }
}
// Generate a set of coverage spans from the filtered set of `Statement`s and `Terminator`s of
@ -65,7 +55,6 @@ fn bcb_to_initial_coverage_spans<'a, 'tcx>(
bcb: BasicCoverageBlock,
bcb_data: &'a BasicCoverageBlockData,
initial_covspans: &mut Vec<SpanFromMir>,
holes: &mut Vec<Hole>,
) {
for &bb in &bcb_data.basic_blocks {
let data = &mir_body[bb];
@ -81,13 +70,7 @@ fn bcb_to_initial_coverage_spans<'a, 'tcx>(
let expn_span = filtered_statement_span(statement)?;
let (span, visible_macro) = unexpand(expn_span)?;
// A statement that looks like the assignment of a closure expression
// is treated as a "hole" span, to be carved out of other spans.
if is_closure_like(statement) {
holes.push(Hole { span });
} else {
initial_covspans.push(SpanFromMir::new(span, visible_macro, bcb));
}
Some(())
};
for statement in data.statements.iter() {
@ -105,18 +88,6 @@ fn bcb_to_initial_coverage_spans<'a, 'tcx>(
}
}
fn is_closure_like(statement: &Statement<'_>) -> bool {
match statement.kind {
StatementKind::Assign(box (_, Rvalue::Aggregate(box ref agg_kind, _))) => match agg_kind {
AggregateKind::Closure(_, _)
| AggregateKind::Coroutine(_, _)
| AggregateKind::CoroutineClosure(..) => true,
_ => false,
},
_ => false,
}
}
/// If the MIR `Statement` has a span contributive to computing coverage spans,
/// return it; otherwise return `None`.
fn filtered_statement_span(statement: &Statement<'_>) -> Option<Span> {

8
tests/coverage-run-rustdoc/doctest.coverage
View File

@ -34,10 +34,10 @@ $DIR/doctest.rs:
LL| |//!
LL| |//! doctest returning a result:
LL| 1|//! ```
LL| 1|//! #[derive(Debug, PartialEq)]
LL| 1|//! struct SomeError {
LL| 1|//! msg: String,
LL| 1|//! }
LL| |//! #[derive(Debug, PartialEq)]
LL| |//! struct SomeError {
LL| |//! msg: String,
LL| |//! }
LL| 1|//! let mut res = Err(SomeError { msg: String::from("a message") });
LL| 1|//! if res.is_ok() {
LL| 0|//! res?;

41
tests/coverage/async.cov-map
View File

@ -167,15 +167,16 @@ Number of file 0 mappings: 14
= ((c6 + c7) + c8)
Function name: async::j
Raw bytes (53): 0x[01, 01, 02, 07, 0d, 05, 09, 09, 01, 35, 01, 13, 0c, 05, 14, 09, 00, 0a, 01, 00, 0e, 00, 1b, 05, 00, 1f, 00, 27, 09, 01, 09, 00, 0a, 11, 00, 0e, 00, 1a, 09, 00, 1e, 00, 20, 0d, 01, 0e, 00, 10, 03, 02, 01, 00, 02]
Raw bytes (58): 0x[01, 01, 02, 07, 0d, 05, 09, 0a, 01, 35, 01, 00, 0d, 01, 0b, 0b, 00, 0c, 05, 01, 09, 00, 0a, 01, 00, 0e, 00, 1b, 05, 00, 1f, 00, 27, 09, 01, 09, 00, 0a, 11, 00, 0e, 00, 1a, 09, 00, 1e, 00, 20, 0d, 01, 0e, 00, 10, 03, 02, 01, 00, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 2
- expression 0 operands: lhs = Expression(1, Add), rhs = Counter(3)
- expression 1 operands: lhs = Counter(1), rhs = Counter(2)
Number of file 0 mappings: 9
- Code(Counter(0)) at (prev + 53, 1) to (start + 19, 12)
- Code(Counter(1)) at (prev + 20, 9) to (start + 0, 10)
Number of file 0 mappings: 10
- Code(Counter(0)) at (prev + 53, 1) to (start + 0, 13)
- Code(Counter(0)) at (prev + 11, 11) to (start + 0, 12)
- Code(Counter(1)) at (prev + 1, 9) to (start + 0, 10)
- Code(Counter(0)) at (prev + 0, 14) to (start + 0, 27)
- Code(Counter(1)) at (prev + 0, 31) to (start + 0, 39)
- Code(Counter(2)) at (prev + 1, 9) to (start + 0, 10)
@ -186,7 +187,7 @@ Number of file 0 mappings: 9
= ((c1 + c2) + c3)
Function name: async::j::c
Raw bytes (26): 0x[01, 01, 01, 01, 05, 04, 01, 37, 05, 01, 12, 05, 02, 0d, 00, 0e, 02, 0a, 0d, 00, 0e, 01, 02, 05, 00, 06]
Raw bytes (26): 0x[01, 01, 01, 01, 05, 04, 01, 37, 05, 01, 12, 05, 02, 0d, 00, 0e, 02, 02, 0d, 00, 0e, 01, 02, 05, 00, 06]
Number of files: 1
- file 0 => global file 1
Number of expressions: 1
@ -194,40 +195,40 @@ Number of expressions: 1
Number of file 0 mappings: 4
- Code(Counter(0)) at (prev + 55, 5) to (start + 1, 18)
- Code(Counter(1)) at (prev + 2, 13) to (start + 0, 14)
- Code(Expression(0, Sub)) at (prev + 10, 13) to (start + 0, 14)
- Code(Expression(0, Sub)) at (prev + 2, 13) to (start + 0, 14)
= (c0 - c1)
- Code(Counter(0)) at (prev + 2, 5) to (start + 0, 6)
Function name: async::j::d
Raw bytes (9): 0x[01, 01, 00, 01, 01, 46, 05, 00, 17]
Raw bytes (9): 0x[01, 01, 00, 01, 01, 3e, 05, 00, 17]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 70, 5) to (start + 0, 23)
- Code(Counter(0)) at (prev + 62, 5) to (start + 0, 23)
Function name: async::j::f
Raw bytes (9): 0x[01, 01, 00, 01, 01, 47, 05, 00, 17]
Raw bytes (9): 0x[01, 01, 00, 01, 01, 3f, 05, 00, 17]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 71, 5) to (start + 0, 23)
- Code(Counter(0)) at (prev + 63, 5) to (start + 0, 23)
Function name: async::k (unused)
Raw bytes (29): 0x[01, 01, 00, 05, 00, 4f, 01, 01, 0c, 00, 02, 0e, 00, 10, 00, 01, 0e, 00, 10, 00, 01, 0e, 00, 10, 00, 02, 01, 00, 02]
Raw bytes (29): 0x[01, 01, 00, 05, 00, 47, 01, 01, 0c, 00, 02, 0e, 00, 10, 00, 01, 0e, 00, 10, 00, 01, 0e, 00, 10, 00, 02, 01, 00, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 5
- Code(Zero) at (prev + 79, 1) to (start + 1, 12)
- Code(Zero) at (prev + 71, 1) to (start + 1, 12)
- Code(Zero) at (prev + 2, 14) to (start + 0, 16)
- Code(Zero) at (prev + 1, 14) to (start + 0, 16)
- Code(Zero) at (prev + 1, 14) to (start + 0, 16)
- Code(Zero) at (prev + 2, 1) to (start + 0, 2)
Function name: async::l
Raw bytes (37): 0x[01, 01, 04, 01, 07, 05, 09, 0f, 02, 09, 05, 05, 01, 57, 01, 01, 0c, 02, 02, 0e, 00, 10, 05, 01, 0e, 00, 10, 09, 01, 0e, 00, 10, 0b, 02, 01, 00, 02]
Raw bytes (37): 0x[01, 01, 04, 01, 07, 05, 09, 0f, 02, 09, 05, 05, 01, 4f, 01, 01, 0c, 02, 02, 0e, 00, 10, 05, 01, 0e, 00, 10, 09, 01, 0e, 00, 10, 0b, 02, 01, 00, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 4
@ -236,7 +237,7 @@ Number of expressions: 4
- expression 2 operands: lhs = Expression(3, Add), rhs = Expression(0, Sub)
- expression 3 operands: lhs = Counter(2), rhs = Counter(1)
Number of file 0 mappings: 5
- Code(Counter(0)) at (prev + 87, 1) to (start + 1, 12)
- Code(Counter(0)) at (prev + 79, 1) to (start + 1, 12)
- Code(Expression(0, Sub)) at (prev + 2, 14) to (start + 0, 16)
= (c0 - (c1 + c2))
- Code(Counter(1)) at (prev + 1, 14) to (start + 0, 16)
@ -245,26 +246,26 @@ Number of file 0 mappings: 5
= ((c2 + c1) + (c0 - (c1 + c2)))
Function name: async::m
Raw bytes (9): 0x[01, 01, 00, 01, 01, 5f, 01, 00, 19]
Raw bytes (9): 0x[01, 01, 00, 01, 01, 57, 01, 00, 19]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 95, 1) to (start + 0, 25)
- Code(Counter(0)) at (prev + 87, 1) to (start + 0, 25)
Function name: async::m::{closure#0} (unused)
Raw bytes (9): 0x[01, 01, 00, 01, 00, 5f, 19, 00, 22]
Raw bytes (9): 0x[01, 01, 00, 01, 00, 57, 19, 00, 22]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Zero) at (prev + 95, 25) to (start + 0, 34)
- Code(Zero) at (prev + 87, 25) to (start + 0, 34)
Function name: async::main
Raw bytes (9): 0x[01, 01, 00, 01, 01, 61, 01, 08, 02]
Raw bytes (9): 0x[01, 01, 00, 01, 01, 59, 01, 08, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 97, 1) to (start + 8, 2)
- Code(Counter(0)) at (prev + 89, 1) to (start + 8, 2)

20
tests/coverage/async.coverage
View File

@ -53,25 +53,15 @@
LL| 1|}
LL| |
LL| 1|fn j(x: u8) {
LL| 1| // non-async versions of `c()`, `d()`, and `f()` to make it similar to async `i()`.
LL| | // non-async versions of `c()`, `d()`, and `f()` to make it similar to async `i()`.
LL| 1| fn c(x: u8) -> u8 {
LL| 1| if x == 8 {
LL| 1| 1 // This line appears covered, but the 1-character expression span covering the `1`
^0
LL| 1| // is not executed. (`llvm-cov show` displays a `^0` below the `1` ). This is because
LL| 1| // `fn j()` executes the open brace for the function body, followed by the function's
LL| 1| // first executable statement, `match x`. Inner function declarations are not
LL| 1| // "visible" to the MIR for `j()`, so the code region counts all lines between the
LL| 1| // open brace and the first statement as executed, which is, in a sense, true.
LL| 1| // `llvm-cov show` overcomes this kind of situation by showing the actual counts
LL| 1| // of the enclosed coverages, (that is, the `1` expression was not executed, and
LL| 1| // accurately displays a `0`).
LL| 1| } else {
LL| 0| 1
LL| | } else {
LL| 1| 0
LL| | }
LL| 1| }
LL| 1| }
LL| 1| fn d() -> u8 { 1 } // inner function is defined in-line, but the function is not executed
^0
LL| 0| fn d() -> u8 { 1 } // inner function is defined in-line, but the function is not executed
LL| 1| fn f() -> u8 { 1 }
LL| 1| match x {
LL| 1| y if c(x) == y + 1 => { d(); }

10
tests/coverage/async.rs
View File

@ -54,15 +54,7 @@ fn j(x: u8) {
// non-async versions of `c()`, `d()`, and `f()` to make it similar to async `i()`.
fn c(x: u8) -> u8 {
if x == 8 {
1 // This line appears covered, but the 1-character expression span covering the `1`
// is not executed. (`llvm-cov show` displays a `^0` below the `1` ). This is because
// `fn j()` executes the open brace for the function body, followed by the function's
// first executable statement, `match x`. Inner function declarations are not
// "visible" to the MIR for `j()`, so the code region counts all lines between the
// open brace and the first statement as executed, which is, in a sense, true.
// `llvm-cov show` overcomes this kind of situation by showing the actual counts
// of the enclosed coverages, (that is, the `1` expression was not executed, and
// accurately displays a `0`).
1
} else {
0
}

8
tests/coverage/attr/nested.cov-map
View File

@ -1,18 +1,18 @@
Function name: nested::closure_expr
Raw bytes (14): 0x[01, 01, 00, 02, 01, 44, 01, 01, 0f, 01, 0b, 05, 01, 02]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 3f, 01, 01, 0f, 01, 0b, 05, 01, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 68, 1) to (start + 1, 15)
- Code(Counter(0)) at (prev + 63, 1) to (start + 1, 15)
- Code(Counter(0)) at (prev + 11, 5) to (start + 1, 2)
Function name: nested::closure_tail
Raw bytes (14): 0x[01, 01, 00, 02, 01, 53, 01, 01, 0f, 01, 11, 05, 01, 02]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 4e, 01, 01, 0f, 01, 11, 05, 01, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 83, 1) to (start + 1, 15)
- Code(Counter(0)) at (prev + 78, 1) to (start + 1, 15)
- Code(Counter(0)) at (prev + 17, 5) to (start + 1, 2)

5
tests/coverage/attr/nested.coverage
View File

@ -4,11 +4,6 @@
LL| |// Demonstrates the interaction between #[coverage(off)] and various kinds of
LL| |// nested function.
LL| |
LL| |// FIXME(#126625): Coverage attributes should apply recursively to nested functions.
LL| |// FIXME(#126626): When an inner (non-closure) function has `#[coverage(off)]`,
LL| |// its lines can still be marked with misleading execution counts from its enclosing
LL| |// function.
LL| |
LL| |#[coverage(off)]
LL| |fn do_stuff() {}
LL| |

5
tests/coverage/attr/nested.rs
View File

@ -4,11 +4,6 @@
// Demonstrates the interaction between #[coverage(off)] and various kinds of
// nested function.
// FIXME(#126625): Coverage attributes should apply recursively to nested functions.
// FIXME(#126626): When an inner (non-closure) function has `#[coverage(off)]`,
// its lines can still be marked with misleading execution counts from its enclosing
// function.
#[coverage(off)]
fn do_stuff() {}

21
tests/coverage/attr/off-on-sandwich.cov-map
View File

@ -1,24 +1,27 @@
Function name: off_on_sandwich::dense_a::dense_b
Raw bytes (9): 0x[01, 01, 00, 01, 01, 14, 05, 07, 06]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 0f, 05, 02, 12, 01, 07, 05, 00, 06]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 20, 5) to (start + 7, 6)
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 15, 5) to (start + 2, 18)
- Code(Counter(0)) at (prev + 7, 5) to (start + 0, 6)
Function name: off_on_sandwich::sparse_a::sparse_b::sparse_c
Raw bytes (9): 0x[01, 01, 00, 01, 01, 26, 09, 0b, 0a]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 21, 09, 02, 17, 01, 0b, 09, 00, 0a]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 38, 9) to (start + 11, 10)
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 33, 9) to (start + 2, 23)
- Code(Counter(0)) at (prev + 11, 9) to (start + 0, 10)
Function name: off_on_sandwich::sparse_a::sparse_b::sparse_c::sparse_d
Raw bytes (9): 0x[01, 01, 00, 01, 01, 29, 0d, 07, 0e]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 24, 0d, 02, 1b, 01, 07, 0d, 00, 0e]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 41, 13) to (start + 7, 14)
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 36, 13) to (start + 2, 27)
- Code(Counter(0)) at (prev + 7, 13) to (start + 0, 14)

21
tests/coverage/attr/off-on-sandwich.coverage
View File

@ -4,11 +4,6 @@
LL| |// Demonstrates the interaction of `#[coverage(off)]` and `#[coverage(on)]`
LL| |// in nested functions.
LL| |
LL| |// FIXME(#126625): Coverage attributes should apply recursively to nested functions.
LL| |// FIXME(#126626): When an inner (non-closure) function has `#[coverage(off)]`,
LL| |// its lines can still be marked with misleading execution counts from its enclosing
LL| |// function.
LL| |
LL| |#[coverage(off)]
LL| |fn do_stuff() {}
LL| |
@ -20,10 +15,10 @@
LL| 2| fn dense_b() {
LL| 2| dense_c();
LL| 2| dense_c();
LL| 2| #[coverage(off)]
LL| 2| fn dense_c() {
LL| 2| do_stuff();
LL| 2| }
LL| | #[coverage(off)]
LL| | fn dense_c() {
LL| | do_stuff();
LL| | }
LL| 2| }
LL| |}
LL| |
@ -41,10 +36,10 @@
LL| 8| fn sparse_d() {
LL| 8| sparse_e();
LL| 8| sparse_e();
LL| 8| #[coverage(off)]
LL| 8| fn sparse_e() {
LL| 8| do_stuff();
LL| 8| }
LL| | #[coverage(off)]
LL| | fn sparse_e() {
LL| | do_stuff();
LL| | }
LL| 8| }
LL| 4| }
LL| | }

5
tests/coverage/attr/off-on-sandwich.rs
View File

@ -4,11 +4,6 @@
// Demonstrates the interaction of `#[coverage(off)]` and `#[coverage(on)]`
// in nested functions.
// FIXME(#126625): Coverage attributes should apply recursively to nested functions.
// FIXME(#126626): When an inner (non-closure) function has `#[coverage(off)]`,
// its lines can still be marked with misleading execution counts from its enclosing
// function.
#[coverage(off)]
fn do_stuff() {}

5
tests/coverage/closure_macro.cov-map
View File

@ -7,15 +7,16 @@ Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 29, 1) to (start + 2, 2)
Function name: closure_macro::main
Raw bytes (31): 0x[01, 01, 01, 01, 05, 05, 01, 21, 01, 01, 21, 02, 02, 09, 00, 0f, 05, 00, 54, 00, 55, 02, 02, 09, 02, 0b, 01, 03, 01, 00, 02]
Raw bytes (36): 0x[01, 01, 01, 01, 05, 06, 01, 21, 01, 01, 21, 02, 02, 09, 00, 0f, 01, 00, 12, 00, 54, 05, 00, 54, 00, 55, 02, 02, 09, 02, 0b, 01, 03, 01, 00, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 1
- expression 0 operands: lhs = Counter(0), rhs = Counter(1)
Number of file 0 mappings: 5
Number of file 0 mappings: 6
- Code(Counter(0)) at (prev + 33, 1) to (start + 1, 33)
- Code(Expression(0, Sub)) at (prev + 2, 9) to (start + 0, 15)
= (c0 - c1)
- Code(Counter(0)) at (prev + 0, 18) to (start + 0, 84)
- Code(Counter(1)) at (prev + 0, 84) to (start + 0, 85)
- Code(Expression(0, Sub)) at (prev + 2, 9) to (start + 2, 11)
= (c0 - c1)

5
tests/coverage/closure_macro_async.cov-map
View File

@ -15,15 +15,16 @@ Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 35, 1) to (start + 0, 43)
Function name: closure_macro_async::test::{closure#0}
Raw bytes (31): 0x[01, 01, 01, 01, 05, 05, 01, 23, 2b, 01, 21, 02, 02, 09, 00, 0f, 05, 00, 54, 00, 55, 02, 02, 09, 02, 0b, 01, 03, 01, 00, 02]
Raw bytes (36): 0x[01, 01, 01, 01, 05, 06, 01, 23, 2b, 01, 21, 02, 02, 09, 00, 0f, 01, 00, 12, 00, 54, 05, 00, 54, 00, 55, 02, 02, 09, 02, 0b, 01, 03, 01, 00, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 1
- expression 0 operands: lhs = Counter(0), rhs = Counter(1)
Number of file 0 mappings: 5
Number of file 0 mappings: 6
- Code(Counter(0)) at (prev + 35, 43) to (start + 1, 33)
- Code(Expression(0, Sub)) at (prev + 2, 9) to (start + 0, 15)
= (c0 - c1)
- Code(Counter(0)) at (prev + 0, 18) to (start + 0, 84)
- Code(Counter(1)) at (prev + 0, 84) to (start + 0, 85)
- Code(Expression(0, Sub)) at (prev + 2, 9) to (start + 2, 11)
= (c0 - c1)

13
tests/coverage/holes.cov-map
View File

@ -7,14 +7,19 @@ Number of file 0 mappings: 1
- Code(Zero) at (prev + 37, 9) to (start + 0, 29)
Function name: holes::main
Raw bytes (19): 0x[01, 01, 00, 03, 01, 08, 01, 06, 11, 01, 0f, 05, 24, 0f, 01, 2b, 05, 01, 02]
Raw bytes (44): 0x[01, 01, 00, 08, 01, 08, 01, 06, 11, 01, 0f, 05, 00, 12, 01, 04, 05, 00, 12, 01, 07, 05, 00, 12, 01, 06, 05, 00, 12, 01, 06, 05, 03, 0f, 01, 0a, 05, 03, 0f, 01, 0a, 05, 01, 02]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 3
Number of file 0 mappings: 8
- Code(Counter(0)) at (prev + 8, 1) to (start + 6, 17)
- Code(Counter(0)) at (prev + 15, 5) to (start + 36, 15)
- Code(Counter(0)) at (prev + 43, 5) to (start + 1, 2)
- Code(Counter(0)) at (prev + 15, 5) to (start + 0, 18)
- Code(Counter(0)) at (prev + 4, 5) to (start + 0, 18)
- Code(Counter(0)) at (prev + 7, 5) to (start + 0, 18)
- Code(Counter(0)) at (prev + 6, 5) to (start + 0, 18)
- Code(Counter(0)) at (prev + 6, 5) to (start + 3, 15)
- Code(Counter(0)) at (prev + 10, 5) to (start + 3, 15)
- Code(Counter(0)) at (prev + 10, 5) to (start + 1, 2)
Function name: holes::main::_unused_fn (unused)
Raw bytes (9): 0x[01, 01, 00, 01, 00, 19, 05, 00, 17]

52
tests/coverage/holes.coverage
View File

@ -21,40 +21,38 @@
LL| | ;
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| fn _unused_fn() {}
^0
LL| 1|
LL| |
LL| 0| fn _unused_fn() {}
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| struct MyStruct {
LL| 1| _x: u32,
LL| 1| _y: u32,
LL| 1| }
LL| 1|
LL| |
LL| | struct MyStruct {
LL| | _x: u32,
LL| | _y: u32,
LL| | }
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| impl MyStruct {
LL| 1| fn _method(&self) {}
^0
LL| 1| }
LL| 1|
LL| |
LL| | impl MyStruct {
LL| 0| fn _method(&self) {}
LL| | }
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| macro_rules! _my_macro {
LL| 1| () => {};
LL| 1| }
LL| 1|
LL| |
LL| | macro_rules! _my_macro {
LL| | () => {};
LL| | }
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| #[rustfmt::skip]
LL| 1| let _const =
LL| 1| const
LL| 1| {
LL| 1| 7 + 4
LL| 1| }
LL| 1| ;
LL| 1|
LL| | const
LL| | {
LL| | 7 + 4
LL| | }
LL| | ;
LL| |
LL| 1| black_box(());
LL| 1|
LL| 1| #[rustfmt::skip]

14
tests/coverage/no_cov_crate.cov-map
View File

@ -31,20 +31,22 @@ Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 77, 1) to (start + 11, 2)
Function name: no_cov_crate::nested_fns::outer
Raw bytes (9): 0x[01, 01, 00, 01, 01, 31, 05, 0c, 06]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 31, 05, 02, 23, 01, 0c, 05, 00, 06]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 49, 5) to (start + 12, 6)
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 49, 5) to (start + 2, 35)
- Code(Counter(0)) at (prev + 12, 5) to (start + 0, 6)
Function name: no_cov_crate::nested_fns::outer_both_covered
Raw bytes (9): 0x[01, 01, 00, 01, 01, 3f, 05, 0b, 06]
Raw bytes (14): 0x[01, 01, 00, 02, 01, 3f, 05, 02, 17, 01, 0b, 05, 00, 06]
Number of files: 1
- file 0 => global file 1
Number of expressions: 0
Number of file 0 mappings: 1
- Code(Counter(0)) at (prev + 63, 5) to (start + 11, 6)
Number of file 0 mappings: 2
- Code(Counter(0)) at (prev + 63, 5) to (start + 2, 23)
- Code(Counter(0)) at (prev + 11, 5) to (start + 0, 6)
Function name: no_cov_crate::nested_fns::outer_both_covered::inner
Raw bytes (26): 0x[01, 01, 01, 01, 05, 04, 01, 43, 09, 01, 17, 05, 01, 18, 02, 0e, 02, 02, 14, 02, 0e, 01, 03, 09, 00, 0a]

20
tests/coverage/no_cov_crate.coverage
View File

@ -49,21 +49,21 @@
LL| 1| pub fn outer(is_true: bool) {
LL| 1| println!("called and covered");
LL| 1| inner_not_covered(is_true);
LL| 1|
LL| 1| #[coverage(off)]
LL| 1| fn inner_not_covered(is_true: bool) {
LL| 1| if is_true {
LL| 1| println!("called but not covered");
LL| 1| } else {
LL| 1| println!("absolutely not covered");
LL| 1| }
LL| 1| }
LL| |
LL| | #[coverage(off)]
LL| | fn inner_not_covered(is_true: bool) {
LL| | if is_true {
LL| | println!("called but not covered");
LL| | } else {
LL| | println!("absolutely not covered");
LL| | }
LL| | }
LL| 1| }
LL| |
LL| 1| pub fn outer_both_covered(is_true: bool) {
LL| 1| println!("called and covered");
LL| 1| inner(is_true);
LL| 1|
LL| |
LL| 1| fn inner(is_true: bool) {
LL| 1| if is_true {
LL| 1| println!("called and covered");