mirror of https://github.com/rust-lang/rust.git
coverage: Avoid unnecessary macros in unit tests
These macros don't provide enough value to justify their complexity, when they can just as easily be functions instead.
This commit is contained in:
Zalathar
parent
1fdfe12347
commit
47e6e5ee67
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@ -795,10 +795,6 @@ dependencies = [
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"rustc-demangle",
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]
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[[package]]
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name = "coverage_test_macros"
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version = "0.0.0"
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[[package]]
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name = "cpufeatures"
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version = "0.2.8"
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@ -4266,7 +4262,6 @@ dependencies = [
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name = "rustc_mir_transform"
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version = "0.0.0"
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dependencies = [
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"coverage_test_macros",
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"either",
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"itertools",
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"rustc_arena",
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@ -27,8 +27,3 @@ rustc_trait_selection = { path = "../rustc_trait_selection" }
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smallvec = { version = "1.8.1", features = ["union", "may_dangle"] }
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tracing = "0.1"
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# tidy-alphabetical-end
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[dev-dependencies]
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# tidy-alphabetical-start
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coverage_test_macros = { path = "src/coverage/test_macros" }
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# tidy-alphabetical-end
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@ -1,7 +0,0 @@
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[package]
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name = "coverage_test_macros"
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version = "0.0.0"
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edition = "2021"
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[lib]
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proc-macro = true
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@ -1,6 +0,0 @@
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use proc_macro::TokenStream;
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#[proc_macro]
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pub fn let_bcb(item: TokenStream) -> TokenStream {
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format!("let bcb{item} = graph::BasicCoverageBlock::from_usize({item});").parse().unwrap()
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}
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@ -27,8 +27,6 @@
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use super::counters;
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use super::graph::{self, BasicCoverageBlock};
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use coverage_test_macros::let_bcb;
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use itertools::Itertools;
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use rustc_data_structures::graph::WithNumNodes;
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use rustc_data_structures::graph::WithSuccessors;
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@ -37,6 +35,10 @@ use rustc_middle::mir::*;
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use rustc_middle::ty;
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use rustc_span::{self, BytePos, Pos, Span, DUMMY_SP};
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fn bcb(index: u32) -> BasicCoverageBlock {
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BasicCoverageBlock::from_u32(index)
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}
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// All `TEMP_BLOCK` targets should be replaced before calling `to_body() -> mir::Body`.
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const TEMP_BLOCK: BasicBlock = BasicBlock::MAX;
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@ -300,12 +302,15 @@ fn goto_switchint<'a>() -> Body<'a> {
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mir_body
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}
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macro_rules! assert_successors {
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($basic_coverage_blocks:ident, $i:ident, [$($successor:ident),*]) => {
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let mut successors = $basic_coverage_blocks.successors[$i].clone();
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successors.sort_unstable();
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assert_eq!(successors, vec![$($successor),*]);
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}
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#[track_caller]
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fn assert_successors(
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basic_coverage_blocks: &graph::CoverageGraph,
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bcb: BasicCoverageBlock,
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expected_successors: &[BasicCoverageBlock],
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) {
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let mut successors = basic_coverage_blocks.successors[bcb].clone();
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successors.sort_unstable();
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assert_eq!(successors, expected_successors);
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}
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#[test]
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@ -334,13 +339,9 @@ fn test_covgraph_goto_switchint() {
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basic_coverage_blocks.iter_enumerated().collect::<Vec<_>>()
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);
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let_bcb!(0);
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let_bcb!(1);
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let_bcb!(2);
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assert_successors!(basic_coverage_blocks, bcb0, [bcb1, bcb2]);
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assert_successors!(basic_coverage_blocks, bcb1, []);
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assert_successors!(basic_coverage_blocks, bcb2, []);
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assert_successors(&basic_coverage_blocks, bcb(0), &[bcb(1), bcb(2)]);
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assert_successors(&basic_coverage_blocks, bcb(1), &[]);
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assert_successors(&basic_coverage_blocks, bcb(2), &[]);
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}
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/// Create a mock `Body` with a loop.
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@ -418,15 +419,10 @@ fn test_covgraph_switchint_then_loop_else_return() {
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basic_coverage_blocks.iter_enumerated().collect::<Vec<_>>()
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);
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let_bcb!(0);
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let_bcb!(1);
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let_bcb!(2);
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let_bcb!(3);
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assert_successors!(basic_coverage_blocks, bcb0, [bcb1]);
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assert_successors!(basic_coverage_blocks, bcb1, [bcb2, bcb3]);
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assert_successors!(basic_coverage_blocks, bcb2, []);
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assert_successors!(basic_coverage_blocks, bcb3, [bcb1]);
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assert_successors(&basic_coverage_blocks, bcb(0), &[bcb(1)]);
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assert_successors(&basic_coverage_blocks, bcb(1), &[bcb(2), bcb(3)]);
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assert_successors(&basic_coverage_blocks, bcb(2), &[]);
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assert_successors(&basic_coverage_blocks, bcb(3), &[bcb(1)]);
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}
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/// Create a mock `Body` with nested loops.
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@ -546,21 +542,13 @@ fn test_covgraph_switchint_loop_then_inner_loop_else_break() {
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basic_coverage_blocks.iter_enumerated().collect::<Vec<_>>()
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);
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let_bcb!(0);
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let_bcb!(1);
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let_bcb!(2);
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let_bcb!(3);
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let_bcb!(4);
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let_bcb!(5);
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let_bcb!(6);
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assert_successors!(basic_coverage_blocks, bcb0, [bcb1]);
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assert_successors!(basic_coverage_blocks, bcb1, [bcb2, bcb3]);
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assert_successors!(basic_coverage_blocks, bcb2, []);
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assert_successors!(basic_coverage_blocks, bcb3, [bcb4]);
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assert_successors!(basic_coverage_blocks, bcb4, [bcb5, bcb6]);
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assert_successors!(basic_coverage_blocks, bcb5, [bcb1]);
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assert_successors!(basic_coverage_blocks, bcb6, [bcb4]);
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assert_successors(&basic_coverage_blocks, bcb(0), &[bcb(1)]);
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assert_successors(&basic_coverage_blocks, bcb(1), &[bcb(2), bcb(3)]);
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assert_successors(&basic_coverage_blocks, bcb(2), &[]);
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assert_successors(&basic_coverage_blocks, bcb(3), &[bcb(4)]);
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assert_successors(&basic_coverage_blocks, bcb(4), &[bcb(5), bcb(6)]);
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assert_successors(&basic_coverage_blocks, bcb(5), &[bcb(1)]);
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assert_successors(&basic_coverage_blocks, bcb(6), &[bcb(4)]);
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}
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#[test]
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@ -595,10 +583,7 @@ fn test_find_loop_backedges_one() {
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backedges
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);
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let_bcb!(1);
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let_bcb!(3);
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assert_eq!(backedges[bcb1], vec![bcb3]);
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assert_eq!(backedges[bcb(1)], &[bcb(3)]);
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}
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#[test]
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@ -613,13 +598,8 @@ fn test_find_loop_backedges_two() {
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backedges
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);
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let_bcb!(1);
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let_bcb!(4);
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let_bcb!(5);
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let_bcb!(6);
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assert_eq!(backedges[bcb1], vec![bcb5]);
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assert_eq!(backedges[bcb4], vec![bcb6]);
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assert_eq!(backedges[bcb(1)], &[bcb(5)]);
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assert_eq!(backedges[bcb(4)], &[bcb(6)]);
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}
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#[test]
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@ -632,13 +612,11 @@ fn test_traverse_coverage_with_loops() {
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traversed_in_order.push(bcb);
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}
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let_bcb!(6);
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// bcb0 is visited first. Then bcb1 starts the first loop, and all remaining nodes, *except*
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// bcb6 are inside the first loop.
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assert_eq!(
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*traversed_in_order.last().expect("should have elements"),
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bcb6,
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bcb(6),
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"bcb6 should not be visited until all nodes inside the first loop have been visited"
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);
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}
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@ -656,20 +634,18 @@ fn test_make_bcb_counters() {
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coverage_counters.make_bcb_counters(&basic_coverage_blocks, bcb_has_coverage_spans);
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assert_eq!(coverage_counters.num_expressions(), 0);
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let_bcb!(1);
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assert_eq!(
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0, // bcb1 has a `Counter` with id = 0
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match coverage_counters.bcb_counter(bcb1).expect("should have a counter") {
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match coverage_counters.bcb_counter(bcb(1)).expect("should have a counter") {
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counters::BcbCounter::Counter { id, .. } => id,
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_ => panic!("expected a Counter"),
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}
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.as_u32()
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);
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let_bcb!(2);
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assert_eq!(
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1, // bcb2 has a `Counter` with id = 1
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match coverage_counters.bcb_counter(bcb2).expect("should have a counter") {
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match coverage_counters.bcb_counter(bcb(2)).expect("should have a counter") {
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counters::BcbCounter::Counter { id, .. } => id,
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_ => panic!("expected a Counter"),
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}
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