table of contents
CARGO-BENCH(1) | General Commands Manual | CARGO-BENCH(1) |
NAME¶
cargo-bench — Execute benchmarks of a package
SYNOPSIS¶
cargo bench [options] [benchname] [-- bench-options]
DESCRIPTION¶
Compile and execute benchmarks.
The benchmark filtering argument benchname and all the arguments following the two dashes (--) are passed to the benchmark binaries and thus to libtest (rustc’s built in unit-test and micro-benchmarking framework). If you are passing arguments to both Cargo and the binary, the ones after -- go to the binary, the ones before go to Cargo. For details about libtest’s arguments see the output of cargo bench -- --help and check out the rustc book’s chapter on how tests work at <https://doc.rust-lang.org/rustc/tests/index.html>.
As an example, this will run only the benchmark named foo (and skip other similarly named benchmarks like foobar):
cargo bench -- foo --exact
Benchmarks are built with the --test option to rustc which creates a special executable by linking your code with libtest. The executable automatically runs all functions annotated with the #[bench] attribute. Cargo passes the --bench flag to the test harness to tell it to run only benchmarks, regardless of whether the harness is libtest or a custom harness.
The libtest harness may be disabled by setting harness = false in the target manifest settings, in which case your code will need to provide its own main function to handle running benchmarks.
Note: The #[bench] attribute
<https://doc.rust-lang.org/nightly/unstable-book/library-features/test.html>
is currently unstable and only available on the nightly channel
<https://doc.rust-lang.org/book/appendix-07-nightly-rust.html>. There
are some packages available on crates.io
<https://crates.io/keywords/benchmark> that may help with running
benchmarks on the stable channel, such as Criterion
<https://crates.io/crates/criterion>.
By default, cargo bench uses the bench profile <https://doc.rust-lang.org/cargo/reference/profiles.html#bench>, which enables optimizations and disables debugging information. If you need to debug a benchmark, you can use the --profile=dev command-line option to switch to the dev profile. You can then run the debug-enabled benchmark within a debugger.
Working directory of benchmarks¶
The working directory of every benchmark is set to the root directory of the package the benchmark belongs to. Setting the working directory of benchmarks to the package’s root directory makes it possible for benchmarks to reliably access the package’s files using relative paths, regardless from where cargo bench was executed from.
OPTIONS¶
Benchmark Options¶
--no-run
--no-fail-fast
Package Selection¶
By default, when no package selection options are given, the packages selected depend on the selected manifest file (based on the current working directory if --manifest-path is not given). If the manifest is the root of a workspace then the workspaces default members are selected, otherwise only the package defined by the manifest will be selected.
The default members of a workspace can be set explicitly with the workspace.default-members key in the root manifest. If this is not set, a virtual workspace will include all workspace members (equivalent to passing --workspace), and a non-virtual workspace will include only the root crate itself.
-p spec…, --package spec…
--workspace
--all
--exclude SPEC…
Target Selection¶
When no target selection options are given, cargo bench will build the following targets of the selected packages:
The default behavior can be changed by setting the bench flag for the target in the manifest settings. Setting examples to bench = true will build and run the example as a benchmark, replacing the example’s main function with the libtest harness.
Setting targets to bench = false will stop them from being benchmarked by default. Target selection options that take a target by name (such as --example foo) ignore the bench flag and will always benchmark the given target.
See Configuring a target <https://doc.rust-lang.org/cargo/reference/cargo-targets.html#configuring-a-target> for more information on per-target settings.
Binary targets are automatically built if there is an integration test or benchmark being selected to benchmark. This allows an integration test to execute the binary to exercise and test its behavior. The CARGO_BIN_EXE_<name> environment variable <https://doc.rust-lang.org/cargo/reference/environment-variables.html#environment-variables-cargo-sets-for-crates> is set when the integration test is built so that it can use the env macro <https://doc.rust-lang.org/std/macro.env.html> to locate the executable.
Passing target selection flags will benchmark only the specified targets.
Note that --bin, --example, --test and --bench flags also support common Unix glob patterns like *, ? and []. However, to avoid your shell accidentally expanding glob patterns before Cargo handles them, you must use single quotes or double quotes around each glob pattern.
--lib
--bin name…
--bins
--example name…
--examples
--test name…
--tests
--bench name…
--benches
--all-targets
Feature Selection¶
The feature flags allow you to control which features are enabled. When no feature options are given, the default feature is activated for every selected package.
See the features documentation <https://doc.rust-lang.org/cargo/reference/features.html#command-line-feature-options> for more details.
-F features, --features features
--all-features
--no-default-features
Compilation Options¶
--target triple
This may also be specified with the build.target config value <https://doc.rust-lang.org/cargo/reference/config.html>.
Note that specifying this flag makes Cargo run in a different mode where the target artifacts are placed in a separate directory. See the build cache <https://doc.rust-lang.org/cargo/guide/build-cache.html> documentation for more details.
--profile name
--timings=fmts
Output Options¶
--target-dir directory
Display Options¶
By default the Rust test harness hides output from benchmark execution to keep results readable. Benchmark output can be recovered (e.g., for debugging) by passing --nocapture to the benchmark binaries:
cargo bench -- --nocapture
-v, --verbose
-q, --quiet
--color when
May also be specified with the term.color config value <https://doc.rust-lang.org/cargo/reference/config.html>.
--message-format fmt
Manifest Options¶
--manifest-path path
--ignore-rust-version
--locked
It may be used in environments where deterministic builds are desired, such as in CI pipelines.
--offline
Beware that this may result in different dependency resolution than online mode. Cargo will restrict itself to crates that are downloaded locally, even if there might be a newer version as indicated in the local copy of the index. See the cargo-fetch(1) command to download dependencies before going offline.
May also be specified with the net.offline config value <https://doc.rust-lang.org/cargo/reference/config.html>.
--frozen
Common Options¶
+toolchain
--config KEY=VALUE or PATH
-C PATH
This option is only available on the nightly channel <https://doc.rust-lang.org/book/appendix-07-nightly-rust.html> and requires the -Z unstable-options flag to enable (see #10098 <https://github.com/rust-lang/cargo/issues/10098>).
-h, --help
-Z flag
Miscellaneous Options¶
The --jobs argument affects the building of the benchmark executable but does not affect how many threads are used when running the benchmarks. The Rust test harness runs benchmarks serially in a single thread.
-j N, --jobs N
While cargo bench involves compilation, it does not provide a --keep-going flag. Use --no-fail-fast to run as many benchmarks as possible without stopping at the first failure. To “compile” as many benchmarks as possible, use --benches to build benchmark binaries separately. For example:
cargo build --benches --release --keep-going cargo bench --no-fail-fast
ENVIRONMENT¶
See the reference <https://doc.rust-lang.org/cargo/reference/environment-variables.html> for details on environment variables that Cargo reads.
EXIT STATUS¶
EXAMPLES¶
cargo bench
cargo bench --bench bench_name -- modname::some_benchmark