bc7c71f18b
Windows apparently runs these after killing all other threads, so the shutdown process can deadlock if any of those threads was logging at that point. Closes #74 |
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env | ||
src | ||
tests | ||
.gitignore | ||
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appveyor.yml | ||
Cargo.toml | ||
LICENSE-APACHE | ||
LICENSE-MIT | ||
README.md |
log
A Rust library providing a lightweight logging facade.
A logging facade provides a single logging API that abstracts over the actual logging implementation. Libraries can use the logging API provided by this crate, and the consumer of those libraries can choose the logging implementation that is most suitable for its use case.
Usage
In libraries
Libraries should link only to the log
crate, and use the provided macros to
log whatever information will be useful to downstream consumers:
[dependencies]
log = "0.3"
#[macro_use]
extern crate log;
pub fn shave_the_yak(yak: &Yak) {
trace!("Commencing yak shaving");
loop {
match find_a_razor() {
Ok(razor) => {
info!("Razor located: {}", razor);
yak.shave(razor);
break;
}
Err(err) => {
warn!("Unable to locate a razor: {}, retrying", err);
}
}
}
}
In executables
Executables should choose a logger implementation and initialize it early in the runtime of the program. Logger implementations will typically include a function to do this. Any log messages generated before the logger is initialized will be ignored.
The executable itself may use the log
crate to log as well.
The env_logger
crate provides a logger implementation that mirrors the
functionality of the old revision of the log
crate.
[dependencies]
log = "0.3"
env_logger = "0.3"
#[macro_use]
extern crate log;
extern crate env_logger;
fn main() {
env_logger::init().unwrap();
info!("starting up");
// ...
}
In tests
Tests can use the env_logger
crate to see log messages generated during that test:
[dependencies]
log = "0.3"
[dev-dependencies]
env_logger = "0.3"
#[macro_use]
extern crate log;
fn add_one(num: i32) -> i32 {
info!("add_one called with {}", num);
num + 1
}
#[cfg(test)]
mod tests {
use super::*;
extern crate env_logger;
#[test]
fn it_adds_one() {
let _ = env_logger::init();
info!("can log from the test too");
assert_eq!(3, add_one(2));
}
#[test]
fn it_handles_negative_numbers() {
let _ = env_logger::init();
info!("logging from another test");
assert_eq!(-7, add_one(-8));
}
}
Assuming the module under test is called my_lib
, running the tests with the
RUST_LOG
filtering to info messages from this module looks like:
$ RUST_LOG=my_lib=info cargo test
Running target/debug/my_lib-...
running 2 tests
INFO:my_lib::tests: logging from another test
INFO:my_lib: add_one called with -8
test tests::it_handles_negative_numbers ... ok
INFO:my_lib::tests: can log from the test too
INFO:my_lib: add_one called with 2
test tests::it_adds_one ... ok
test result: ok. 2 passed; 0 failed; 0 ignored; 0 measured
Note that env_logger::init()
needs to be called in each test in which you
want to enable logging. Additionally, the default behavior of tests to
run in parallel means that logging output may be interleaved with test output.
Either run tests in a single thread by specifying RUST_TEST_THREADS=1
or by
running one test by specifying its name as an argument to the test binaries as
directed by the cargo test
help docs:
$ RUST_LOG=my_lib=info cargo test it_adds_one
Running target/debug/my_lib-...
running 1 test
INFO:my_lib::tests: can log from the test too
INFO:my_lib: add_one called with 2
test tests::it_adds_one ... ok
test result: ok. 1 passed; 0 failed; 0 ignored; 0 measured