---
source: tests/output.rs
expression: "get_stdout(path, &[\"log\"])"
---
log                                          Module log                                    rusty-man

DESCRIPTION
      A lightweight logging facade.
      
      The `log` crate 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.
      
      If no logging implementation is selected, the facade falls back to a “noop” implementation
      that ignores all log messages. The overhead in this case is very small - just an integer load,
      comparison and jump.
      
      A log request consists of a *target*, a *level*, and a *body*. A target is a string which
      defaults to the module path of the location of the log request, though that default may be
      overridden. Logger implementations typically use the target to filter requests based on some
      user configuration.
      
      # Use
      
      The basic use of the log crate is through the five logging macros: `error!`, `warn!`, `info!`,
      `debug!` and `trace!` where `error!` represents the highest-priority log messages and `trace!`
      the lowest. The log messages are filtered by configuring the log level to exclude messages
      with a lower priority. Each of these macros accept format strings similarly to
      [`println!`][1].
      
      ## 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.
      
      ### Examples
      
      ⓘ
      use log::{info, warn};
      pub fn shave_the_yak(yak: &mut Yak) {
          info!(target: "yak_events", "Commencing yak shaving for {:?}", yak);
          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 logging implementation and initialize it early in the runtime of
      the program. Logging implementations will typically include a function to do this. Any log
      messages generated before the implementation is initialized will be ignored.
      
      The executable itself may use the `log` crate to log as well.
      
      ### Warning
      
      The logging system may only be initialized once.
      
      # Available logging implementations
      
      In order to produce log output executables have to use a logger implementation compatible with
      the facade. There are many available implementations to choose from, here are some of the most
      popular ones:
      
      * Simple minimal loggers:
        
        * [env_logger][1]
          
          [1] https://docs.rs/env_logger/*/env_logger/
        * [simple_logger][1]
          
          [1] https://github.com/borntyping/rust-simple_logger
        * [simplelog][1]
          
          [1] https://github.com/drakulix/simplelog.rs
        * [pretty_env_logger][1]
          
          [1] https://docs.rs/pretty_env_logger/*/pretty_env_logger/
        * [stderrlog][1]
          
          [1] https://docs.rs/stderrlog/*/stderrlog/
        * [flexi_logger][1]
          
          [1] https://docs.rs/flexi_logger/*/flexi_logger/
      * Complex configurable frameworks:
        
        * [log4rs][1]
          
          [1] https://docs.rs/log4rs/*/log4rs/
        * [fern][1]
          
          [1] https://docs.rs/fern/*/fern/
      * Adaptors for other facilities:
        
        * [syslog][1]
          
          [1] https://docs.rs/syslog/*/syslog/
        * [slog-stdlog][1]
          
          [1] https://docs.rs/slog-stdlog/*/slog_stdlog/
      
      
      # Implementing a Logger
      
      Loggers implement the `Log` trait. Here’s a very basic example that simply logs all messages
      at the `Error`, `Warn` or `Info` levels to stdout:
      
      ⓘ
      use log::{Record, Level, Metadata};
      struct SimpleLogger;
      impl log::Log for SimpleLogger {
          fn enabled(&self, metadata: &Metadata) -> bool {
              metadata.level() <= Level::Info
          }
          fn log(&self, record: &Record) {
              if self.enabled(record.metadata()) {
                  println!("{} - {}", record.level(), record.args());
              }
          }
          fn flush(&self) {}
      }
      
      Loggers are installed by calling the `set_logger` function. The maximum log level also needs
      to be adjusted via the `set_max_level` function. The logging facade uses this as an
      optimization to improve performance of log messages at levels that are disabled. It’s
      important to set it, as it defaults to `Off`, so no log messages will ever be captured! In the
      case of our example logger, we’ll want to set the maximum log level to `Info`, since we ignore
      any `Debug` or `Trace` level log messages. A logging implementation should provide a function
      that wraps a call to `set_logger` and `set_max_level`, handling initialization of the logger:
      
      ⓘ
      use log::{SetLoggerError, LevelFilter};
      static LOGGER: SimpleLogger = SimpleLogger;
      pub fn init() -> Result<(), SetLoggerError> {
          log::set_logger(&LOGGER)
              .map(|()| log::set_max_level(LevelFilter::Info))
      }
      
      Implementations that adjust their configurations at runtime should take care to adjust the
      maximum log level as well.
      
      # Use with `std`
      
      `set_logger` requires you to provide a `&'static Log`, which can be hard to obtain if your
      logger depends on some runtime configuration. The `set_boxed_logger` function is available
      with the `std` Cargo feature. It is identical to `set_logger` except that it takes a
      `Box<Log>` rather than a `&'static Log`:
      
      ⓘ
      pub fn init() -> Result<(), SetLoggerError> {
          log::set_boxed_logger(Box::new(SimpleLogger))
              .map(|()| log::set_max_level(LevelFilter::Info))
      }
      
      
      # Compile time filters
      
      Log levels can be statically disabled at compile time via Cargo features. Log invocations at
      disabled levels will be skipped and will not even be present in the resulting binary. This
      level is configured separately for release and debug builds. The features are:
      
      * `max_level_off`
      * `max_level_error`
      * `max_level_warn`
      * `max_level_info`
      * `max_level_debug`
      * `max_level_trace`
      * `release_max_level_off`
      * `release_max_level_error`
      * `release_max_level_warn`
      * `release_max_level_info`
      * `release_max_level_debug`
      * `release_max_level_trace`
      
      These features control the value of the `STATIC_MAX_LEVEL` constant. The logging macros check
      this value before logging a message. By default, no levels are disabled.
      
      Libraries should avoid using the max level features because they’re global and can’t be
      changed once they’re set.
      
      For example, a crate can disable trace level logs in debug builds and trace, debug, and info
      level logs in release builds with the following configuration:
      
      `[dependencies]
      log = { version = "0.4", features = ["max_level_debug", "release_max_level_warn"] }
      `
      
      
      # Crate Feature Flags
      
      The following crate feature flags are available in addition to the filters. They are
      configured in your `Cargo.toml`.
      
      * `std` allows use of `std` crate instead of the default `core`. Enables using `std::error`
        and `set_boxed_logger` functionality.
      * `serde` enables support for serialization and deserialization of `Level` and `LevelFilter`.
      `[dependencies]
      log = { version = "0.4", features = ["std", "serde"] }
      `
      
      
      # Version compatibility
      
      The 0.3 and 0.4 versions of the `log` crate are almost entirely compatible. Log messages made
      using `log` 0.3 will forward transparently to a logger implementation using `log` 0.4. Log
      messages made using `log` 0.4 will forward to a logger implementation using `log` 0.3, but the
      module path and file name information associated with the message will unfortunately be lost.
      
      [1] https://doc.rust-lang.org/stable/std/macro.println.html

MACROS
      debug
            Logs a message at the debug level.

      error
            Logs a message at the error level.

      info
            Logs a message at the info level.

      log
            The standard logging macro.

      log_enabled
            Determines if a message logged at the specified level in that module will be logged.

      trace
            Logs a message at the trace level.

      warn
            Logs a message at the warn level.

STRUCTS
      Metadata
            Metadata about a log message.

      MetadataBuilder
            Builder for `Metadata`.

      ParseLevelError
            The type returned by [`from_str`][1] when the string doesn’t match any of the log
            levels.
            
            [1] https://doc.rust-lang.org/std/str/trait.FromStr.html#tymethod.from_str

      Record
            The “payload” of a log message.

      RecordBuilder
            Builder for `Record`.

      SetLoggerError
            The type returned by `set_logger` if `set_logger` has already been called.

ENUMS
      Level
            An enum representing the available verbosity levels of the logger.

      LevelFilter
            An enum representing the available verbosity level filters of the logger.

CONSTANTS
      STATIC_MAX_LEVEL
            The statically resolved maximum log level.

TRAITS
      Log
            A trait encapsulating the operations required of a logger.

FUNCTIONS
      logger
            Returns a reference to the logger.

      max_level
            Returns the current maximum log level.

      set_boxed_logger
            Sets the global logger to a `Box<Log>`.

      set_logger
            Sets the global logger to a `&'static Log`.

      set_logger_racy
            A thread-unsafe version of `set_logger`.

      set_max_level
            Sets the global maximum log level.