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pimterry logologlevel

:ledger: Minimal lightweight logging for JavaScript, adding reliable log level methods to wrap any available console.log methods

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Quick Overview

Loglevel is a minimal lightweight logging library for JavaScript. It provides a simple logging API that works consistently across both Node.js and browser environments, allowing developers to control logging verbosity easily.

Pros

  • Lightweight and minimal with no dependencies
  • Works in both browser and Node.js environments
  • Supports custom logging methods and log levels
  • Easy to integrate and use with existing projects

Cons

  • Limited advanced features compared to more comprehensive logging libraries
  • No built-in support for log rotation or file output (primarily for console logging)
  • May require additional configuration for complex logging scenarios

Code Examples

Basic usage:

import log from 'loglevel';

log.setLevel("info");
log.trace("Trace message");
log.debug("Debug message");
log.info("Info message");
log.warn("Warning message");
log.error("Error message");

Setting custom log level:

import log from 'loglevel';

log.setLevel("warn");
log.info("This won't be logged");
log.warn("This will be logged");

Using a named logger:

import log from 'loglevel';

const moduleLogger = log.getLogger("module-name");
moduleLogger.setLevel("debug");
moduleLogger.debug("Debug message for this module");

Getting Started

To use loglevel in your project, follow these steps:

  1. Install the package:

    npm install loglevel
    
  2. Import and use in your JavaScript file:

    import log from 'loglevel';
    
    // Set the log level (optional)
    log.setLevel("info");
    
    // Use logging methods
    log.info("Application started");
    log.warn("Warning: resource usage high");
    log.error("Error: unable to connect to database");
    
  3. Adjust log levels as needed in your application code or configuration.

Competitor Comparisons

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A logger for just about everything.

Pros of Winston

  • More feature-rich with extensive configuration options
  • Supports multiple transports (file, console, HTTP, etc.)
  • Built-in support for custom logging levels and colors

Cons of Winston

  • Larger bundle size and more dependencies
  • Steeper learning curve due to its complexity
  • May be overkill for simple logging needs

Code Comparison

Winston:

const winston = require('winston');
const logger = winston.createLogger({
  level: 'info',
  format: winston.format.simple(),
  transports: [new winston.transports.Console()]
});
logger.info('Hello, Winston!');

Loglevel:

const log = require('loglevel');
log.setLevel('info');
log.info('Hello, Loglevel!');

Summary

Winston is a powerful and flexible logging library with extensive features, while Loglevel is a lightweight and straightforward logging solution. Winston excels in complex applications requiring advanced logging capabilities, whereas Loglevel is ideal for simpler projects or when minimizing bundle size is crucial. The choice between the two depends on the specific needs of your project, balancing features against simplicity and performance.

a simple and fast JSON logging module for node.js services

Pros of Bunyan

  • Structured logging with JSON output, making it easier to parse and analyze logs
  • Built-in support for child loggers, allowing for better organization of logs in complex applications
  • Includes CLI tools for pretty-printing and filtering JSON logs

Cons of Bunyan

  • Larger package size and more dependencies compared to loglevel
  • Steeper learning curve due to more advanced features and configuration options
  • Less suitable for browser environments, as it's primarily designed for Node.js

Code Comparison

Bunyan:

const bunyan = require('bunyan');
const log = bunyan.createLogger({name: 'myapp'});
log.info('Hello, world!');

loglevel:

const log = require('loglevel');
log.setLevel('info');
log.info('Hello, world!');

Bunyan provides more structured logging with metadata, while loglevel offers a simpler API for basic logging needs. Bunyan's JSON output is beneficial for log analysis, but loglevel's lightweight nature makes it more suitable for browser environments and simpler applications. The choice between the two depends on the specific requirements of your project, such as the need for structured logging, performance considerations, and the target environment.

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Pros of Pino

  • Higher performance and lower overhead, especially for high-volume logging
  • Built-in support for structured logging, making it easier to parse and analyze logs
  • Extensible through a rich ecosystem of plugins and tools

Cons of Pino

  • Steeper learning curve compared to Loglevel's simpler API
  • More complex setup and configuration, especially for advanced features
  • May be overkill for small projects or simple logging needs

Code Comparison

Loglevel:

import log from 'loglevel';

log.setLevel("info");
log.info("This is an informational message");
log.error("This is an error message");

Pino:

import pino from 'pino';

const logger = pino();
logger.info("This is an informational message");
logger.error("This is an error message");

While both libraries provide similar basic logging functionality, Pino's approach is more focused on performance and structured logging. Loglevel offers a simpler API that may be more suitable for smaller projects or developers who prefer a straightforward logging solution. Pino, on the other hand, excels in high-performance scenarios and provides more advanced features for complex logging requirements.

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Pros of debug

  • Lightweight and minimal with a smaller footprint
  • Built-in support for browser and Node.js environments
  • Allows for namespaced debugging with wildcard support

Cons of debug

  • Limited logging levels (only debug)
  • Lacks advanced features like log filtering and custom formatting

Code Comparison

debug:

const debug = require('debug')('myapp');
debug('Hello, debugging!');

loglevel:

const log = require('loglevel');
log.setLevel("debug");
log.debug("Hello, debugging!");

Key Differences

  • debug focuses on simplicity and lightweight debugging
  • loglevel offers more comprehensive logging features
  • debug uses namespaces for filtering, while loglevel uses log levels
  • loglevel provides more granular control over log output
  • debug is better suited for quick debugging tasks, while loglevel is more appropriate for full-featured logging in larger applications

Both libraries serve different purposes and cater to different use cases. debug is ideal for simple debugging needs, especially in smaller projects or during development. loglevel is more suitable for applications requiring a full-featured logging system with multiple log levels and advanced configuration options.

A port of log4js to node.js

Pros of log4js-node

  • More comprehensive logging solution with advanced features like log rolling and multiple appenders
  • Supports various output formats and destinations (file, console, HTTP, etc.)
  • Configurable through JSON or JavaScript objects

Cons of log4js-node

  • Larger footprint and more dependencies
  • Steeper learning curve due to more complex configuration options
  • May be overkill for simple logging needs

Code Comparison

log4js-node:

const log4js = require('log4js');
log4js.configure({
  appenders: { cheese: { type: 'file', filename: 'cheese.log' } },
  categories: { default: { appenders: ['cheese'], level: 'error' } }
});
const logger = log4js.getLogger('cheese');
logger.error('Cheese is too ripe!');

loglevel:

const log = require('loglevel');
log.setLevel('error');
log.error('Cheese is too ripe!');

Summary

log4js-node offers a more feature-rich logging solution with advanced configuration options, making it suitable for complex applications with diverse logging requirements. However, this comes at the cost of a larger footprint and increased complexity.

loglevel, on the other hand, provides a simpler, lightweight logging solution that's easy to set up and use. It's ideal for smaller projects or when minimal logging functionality is needed.

The choice between the two depends on the specific needs of your project, balancing between feature set and simplicity.

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README

loglevel NPM version NPM downloads Build Status

Don't debug with logs alone - check out HTTP Toolkit: beautiful, powerful & open-source tools for building, testing & debugging HTTP(S)

Minimal lightweight simple logging for JavaScript (browsers, node.js or elsewhere). loglevel extends console.log() & friends with level-based logging and filtering, with none of console's downsides.

Test it out live in your browser console at https://pimterry.github.io/loglevel/demo/index.html

Loglevel is a barebones reliable everyday logging library. It does not do fancy things, it does not let you reconfigure appenders or add complex log filtering rules or boil tea (more's the pity), but it does have the all core functionality that you actually use:

Features

Simple

  • Log things at a given level (trace/debug/info/warn/error) to the console object (as seen in all modern browsers & node.js).
  • Filter logging by level (all the above or 'silent'), so you can disable all but error logging in production, and then run log.setLevel("trace") in your console to turn it all back on for a furious debugging session.
  • Single file, no dependencies, weighs in at 1.4 KB minified and gzipped.

Effective

  • Log methods gracefully fall back to simpler console logging methods if more specific ones aren't available: so calls to log.debug() go to console.debug() if possible, or console.log() if not.
  • Logging calls still succeed even if there's no console object at all, so your site doesn't break when people visit with old browsers that don't support the console object (here's looking at you, IE) and similar.
  • This then comes together giving a consistent reliable API that works in every JavaScript environment with a console available, and never breaks anything anywhere else.

Convenient

  • Log output keeps line numbers: most JS logging frameworks call console.log methods through wrapper functions, clobbering your stacktrace and making the extra info many browsers provide useless. We'll have none of that thanks.
  • It works with all the standard JavaScript loading systems out of the box (CommonJS, AMD, or just as a global).
  • Logging is filtered to "warn" level by default, to keep your live site clean in normal usage (or you can trivially re-enable everything with an initial log.enableAll() call).
  • Magically handles situations where console logging is not initially available (IE8/9), and automatically enables logging as soon as it does become available (when developer console is opened).
  • TypeScript type definitions included, so no need for extra @types packages.
  • Extensible, to add other log redirection, filtering, or formatting functionality, while keeping all the above (except you will clobber your stacktrace, see “Plugins” below).

Downloading loglevel

If you're using NPM, you can just run npm install loglevel.

Alternatively, loglevel is also available via Bower (bower install loglevel), as a Webjar, or an Atmosphere package (for Meteor)

Alternatively if you just want to grab the file yourself, you can download either the current stable production version or the development version directly, or reference it remotely on unpkg at https://unpkg.com/loglevel/dist/loglevel.min.js (this will redirect to a latest version, use the resulting redirected URL if you want to pin that version).

Finally, if you want to tweak loglevel to your own needs or you immediately need the cutting-edge version, clone this repo and see Developing & Contributing below for build instructions.

Setting it up

loglevel supports AMD (e.g. RequireJS), CommonJS (e.g. Node.js) and direct usage (e.g. loading globally with a <script> tag) loading methods. You should be able to do nearly anything, and then skip to the next section anyway and have it work. Just in case, though, here's some specific examples that definitely do the right thing:

CommonsJS (e.g. Node)

var log = require('loglevel');
log.warn("unreasonably simple");

AMD (e.g. RequireJS)

define(['loglevel'], function(log) {
   log.warn("dangerously convenient");
});

Directly in your web page

<script src="loglevel.min.js"></script>
<script>
log.warn("too easy");
</script>

As an ES6 module

loglevel is written as a UMD module, with a single object exported. Unfortunately, ES6 module loaders & transpilers don't all handle this the same way. Some will treat the object as the default export, while others use it as the root exported object. In addition, loglevel includes a default property on the root object, designed to help handle this difference. Nonetheless, there are two possible syntaxes that might work for you:

For most tools, using the default import is the most convenient and flexible option:

import log from 'loglevel';
log.warn("module-tastic");

For some tools though, it might better to wildcard import the whole object:

import * as log from 'loglevel';
log.warn("module-tastic");

There's no major difference, unless you're using TypeScript & building a loglevel plugin (in that case, see https://github.com/pimterry/loglevel/issues/149). In general though, just use whichever suits your environment, and everything should work out fine.

With noConflict()

If you're using another JavaScript library that exposes a log global, you can run into conflicts with loglevel. Similarly to jQuery, you can solve this by putting loglevel into no-conflict mode immediately after it is loaded onto the page. This resets the log global to its value before loglevel was loaded (typically undefined), and returns the loglevel object, which you can then bind to another name yourself.

For example:

<script src="loglevel.min.js"></script>
<script>
var logging = log.noConflict();

logging.warn("still pretty easy");
</script>

TypeScript

loglevel includes its own type definitions, assuming you're using a modern module environment (e.g. Node.JS, webpack, etc), you should be able to use the ES6 syntax above, and everything will work immediately. If not, file a bug!

If you really want to use LogLevel as a global however, but from TypeScript, you'll need to declare it as such first. To do that:

  • Create a loglevel.d.ts file

  • Ensure that file is included in your build (e.g. add it to include in your tsconfig, pass it on the command line, or use ///<reference path="./loglevel.d.ts" />)

  • In that file, add:

    import * as log from 'loglevel';
    export as namespace log;
    export = log;
    

Documentation

Methods

The loglevel API is extremely minimal. All methods are available on the root loglevel object, which we suggest you name log (this is the default if you import it globally, and is what's set up in the above examples). The API consists of:

Logging Methods

5 actual logging methods, ordered and available as:

  • log.trace(msg)
  • log.debug(msg)
  • log.info(msg)
  • log.warn(msg)
  • log.error(msg)

log.log(msg) is also available, as an alias for log.debug(msg), to improve compatibility with console, and make migration easier.

Exact output formatting of these will depend on the console available in the current context of your application. For example, many environments will include a full stack trace with all trace() calls, and icons or similar to highlight other calls.

These methods should never fail in any environment, even if no console object is currently available, and should always fall back to an available log method even if the specific method called (e.g. warn) isn't available.

Be aware that this means that these methods won't always produce exactly the output you expect in every environment; loglevel only guarantees that these methods will never explode on you, and that it will call the most relevant method it can find, with your argument. For example, log.trace(msg) in Firefox before version 64 prints the stacktrace by itself, and doesn't include your message (see #84).

log.setLevel(level, [persist])

This disables all logging below the given level, so that after a log.setLevel("warn") call log.warn("something") or log.error("something") will output messages, but log.info("something") will not.

This can take either a log level name or 'silent' (which disables everything) in one of a few forms:

  • As a log level from the internal levels list, e.g. log.levels.SILENT ← for type safety
  • As a string, like 'error' (case-insensitive) ← for a reasonable practical balance
  • As a numeric index from 0 (trace) to 5 (silent) ← deliciously terse, and more easily programmable (...although, why?)

Where possible, the log level will be persisted. LocalStorage will be used if available, falling back to cookies if not. If neither is available in the current environment (e.g. in Node), or if you pass false as the optional 'persist' second argument, persistence will be skipped.

If log.setLevel() is called when a console object is not available (in IE 8 or 9 before the developer tools have been opened, for example) logging will remain silent until the console becomes available, and then begin logging at the requested level.

log.setDefaultLevel(level)

This sets the current log level only if one has not been persisted and can’t be loaded. This is useful when initializing modules or scripts; if a developer or user has previously called setLevel(), this won’t alter their settings. For example, your application might use setDefaultLevel("error") set the log level to error in a production environment, but when debugging an issue, you might call setLevel("trace") on the console to see all the logs. If that error setting was set using setDefaultLevel(), it will still stay as trace on subsequent page loads and refreshes instead of resetting to error.

The level argument takes the same values that you might pass to setLevel(). Levels set using setDefaultLevel() never persist to subsequent page loads.

log.resetLevel()

This resets the current log level to the logger's default level (if no explicit default was set, then it resets it to the root logger's level, or to WARN) and clears the persisted level if one was previously persisted.

log.enableAll() and log.disableAll()

These enable or disable all log messages, and are equivalent to log.setLevel("trace") and log.setLevel("silent"), respectively.

log.getLevel()

Returns the current logging level, as a number from 0 (trace) to 5 (silent)

It's very unlikely you'll need to use this for normal application logging; it's provided partly to help plugin development, and partly to let you optimize logging code as below, where debug data is only generated if the level is set such that it'll actually be logged. This probably doesn't affect you, unless you've run profiling on your code and you have hard numbers telling you that your log data generation is a real performance problem.

if (log.getLevel() <= log.levels.DEBUG) {
  var logData = runExpensiveDataGeneration();
  log.debug(logData);
}

This notably isn't the right solution to avoid the cost of string concatenation in your logging. Firstly, it's very unlikely that string concatenation in your logging is really an important performance problem. Even if you do genuinely have hard metrics showing that it is, though, the better solution that wrapping your log statements in this is to use multiple arguments, as below. The underlying console API will automatically concatenate these for you if logging is enabled, and if it isn't then all log methods are no-ops, and no concatenation will be done at all.

// Prints 'My concatenated log message'
log.debug("My", "concatenated", "log message");

log.getLogger(loggerName)

This gets you a new logger object that works exactly like the root log object, but can have its level and logging methods set independently. All loggers must have a name (which is a non-empty string, or a Symbol). Calling getLogger() multiple times with the same name will return an identical logger object.

In large applications, it can be incredibly useful to turn logging on and off for particular modules as you are working with them. Using the getLogger() method lets you create a separate logger for each part of your application with its own logging level.

Likewise, for small, independent modules, using a named logger instead of the default root logger allows developers using your module to selectively turn on deep, trace-level logging when trying to debug problems, while logging only errors or silencing logging altogether under normal circumstances.

Example usage (using CommonJS modules, but you could do the same with any module system):

// In module-one.js:
var log = require("loglevel").getLogger("module-one");
function doSomethingAmazing() {
  log.debug("Amazing message from module one.");
}

// In module-two.js:
var log = require("loglevel").getLogger("module-two");
function doSomethingSpecial() {
  log.debug("Special message from module two.");
}

// In your main application module:
var log = require("loglevel");
var moduleOne = require("module-one");
var moduleTwo = require("module-two");
log.getLogger("module-two").setLevel("TRACE");

moduleOne.doSomethingAmazing();
moduleTwo.doSomethingSpecial();
// logs "Special message from module two."
// (but nothing from module one.)

Loggers returned by getLogger() support all the same properties and methods as the default root logger, excepting noConflict() and the getLogger() method itself.

Like the root logger, other loggers can have their logging level saved. If a logger’s level has not been saved, it will inherit the root logger’s level when it is first created. If the root logger’s level changes later, the new level will not affect other loggers that have already been created. Loggers with Symbol names (rather than string names) will always be considered unique instances, and will never have their logging level saved or restored.

Likewise, loggers inherit the root logger’s methodFactory. After creation, each logger can have its methodFactory independently set. See the plugins section below for more about methodFactory.

log.getLoggers()

This will return the dictionary of all loggers created with getLogger(), keyed by their names.

log.rebuild()

Ensure the various logging methods (log.info(), log.warn(), etc.) behave as expected given the currently set logging level and methodFactory. It will also rebuild all child loggers of the logger this was called on.

This is mostly useful for plugin development. When you call log.setLevel() or log.setDefaultLevel(), the logger is rebuilt automatically. However, if you change the logger’s methodFactory, you should use this to rebuild all the logging methods with your new factory.

It is also useful if you change the level of the root logger and want it to affect child loggers that you’ve already created (and have not called someChildLogger.setLevel() or someChildLogger.setDefaultLevel() on). For example:

var childLogger1 = log.getLogger("child1");
childLogger1.getLevel();  // WARN (inherited from the root logger)

var childLogger2 = log.getLogger("child2");
childLogger2.setDefaultLevel("TRACE");
childLogger2.getLevel();  // TRACE

log.setLevel("ERROR");

// At this point, the child loggers have not changed:
childLogger1.getLevel();  // WARN
childLogger2.getLevel();  // TRACE

// To update them:
log.rebuild();
childLogger1.getLevel();  // ERROR (still inheriting from root logger)
childLogger2.getLevel();  // TRACE (no longer inheriting because `.setDefaultLevel() was called`)

Plugins

Existing plugins

loglevel-plugin-prefix - plugin for loglevel message prefixing.

loglevel-plugin-remote - plugin for sending loglevel messages to a remote log server.

loglevel-serverSend - Forward your log messages to a remote server.

loglevel-debug - Control logging from a DEBUG environmental variable (similar to the classic Debug module).

Writing plugins

Loglevel provides a simple, reliable, minimal base for console logging that works everywhere. This means it doesn't include lots of fancy functionality that might be useful in some cases, such as log formatting and redirection (e.g. also sending log messages to a server over AJAX)

Including that would increase the size and complexity of the library, but more importantly would remove stacktrace information. Currently log methods are either disabled, or enabled with directly bound versions of the console.log methods (where possible). This means your browser shows the log message as coming from your code at the call to log.info("message!") not from within loglevel, since it really calls the bound console method directly, without indirection. The indirection required to dynamically format, further filter, or redirect log messages would stop this.

There's clearly enough enthusiasm for this even at that cost that loglevel now includes a plugin API. To use it, redefine log.methodFactory(methodName, logLevel, loggerName) with a function of your own. This will be called for each enabled method each time the level is set (including initially), and should return a function to be used for the given log method methodName, at the given configured (not actual) level logLevel, for a logger with the given name loggerName. If you'd like to retain all the reliability and features of loglevel, we recommended that you wrap the initially provided value of log.methodFactory.

For example, a plugin to prefix all log messages with "Newsflash: " would look like:

var originalFactory = log.methodFactory;
log.methodFactory = function (methodName, logLevel, loggerName) {
    var rawMethod = originalFactory(methodName, logLevel, loggerName);

    return function (message) {
        rawMethod("Newsflash: " + message);
    };
};
log.rebuild(); // Be sure to call the rebuild method in order to apply plugin.

(The above supports only a single string log.warn("...") argument for clarity, but it's easy to extend to a fuller variadic version.)

If you develop and release a plugin, please get in contact! I'd be happy to reference it here for future users. Some consistency is helpful; naming your plugin 'loglevel-PLUGINNAME' (e.g. loglevel-newsflash) is preferred, as is giving it the 'loglevel-plugin' keyword in your package.json.

Developing & Contributing

In lieu of a formal styleguide, take care to maintain the existing coding style. Add unit tests for any new or changed functionality.

Builds can be run with npm: run npm run dist to build a distributable version of the project (in dist/), or npm test to just run the tests and linting. During development you can run npm run watch and it will monitor source files, and rerun the tests and linting as appropriate when they're changed.

Also, please don't manually edit files in the dist/ subdirectory as they are generated via Grunt. You'll find source code in the lib/ subdirectory!

Release process

To do a release of loglevel:

  • Update the version number in package.json and bower.json.
  • Run npm run dist to build a distributable version in dist/.
  • Update the release history in this file (below).
  • Commit the built code, tagging it with the version number and a brief message about the release.
  • Push to Github.
  • Run npm publish . to publish to NPM.

Release History

v0.1.0 - First working release with apparent compatibility with everything tested

v0.2.0 - Updated release with various tweaks and polish and real proper documentation attached

v0.3.0 - Some bugfixes (#12, #14), cookie-based log level persistence, doc tweaks, support for Bower and JamJS

v0.3.1 - Fixed incorrect text in release build banner, various other minor tweaks

v0.4.0 - Use LocalStorage for level persistence if available, compatibility improvements for IE, improved error messages, multi-environment tests

v0.5.0 - Fix for Modernizr+IE8 issues, improved setLevel error handling, support for auto-activation of desired logging when console eventually turns up in IE8

v0.6.0 - Handle logging in Safari private browsing mode (#33), fix TRACE level persistence bug (#35), plus various minor tweaks

v1.0.0 - Official stable release! Fixed a bug with localStorage in Android webviews, improved CommonJS detection, and added noConflict().

v1.1.0 - Added support for including loglevel with preprocessing and .apply() (#50), and fixed QUnit dep version which made tests potentially unstable.

v1.2.0 - New plugin API! Plus various bits of refactoring and tidy up, nicely simplifying things and trimming the size down.

v1.3.0 - Make persistence optional in setLevel(), plus lots of documentation updates and other small tweaks

v1.3.1 - With the new optional persistence, stop unnecessarily persisting the initially set default level (WARN)

v1.4.0 - Add getLevel(), setDefaultLevel() and getLogger() functionality for more fine-grained log level control

v1.4.1 - Reorder UMD (#92) to improve bundling tool compatibility

v1.5.0 - Fix log.debug (#111) after V8 changes deprecating console.debug, check for window upfront (#104), and add .log alias for .debug (#64)

v1.5.1 - Fix bug (#112) in level-persistence cookie fallback, which failed if it wasn't the first cookie present

v1.6.0 - Add a name property to loggers and add log.getLoggers() (#114), and recommend unpkg as CDN instead of CDNJS.

v1.6.1 - Various small documentation & test updates

v1.6.2 - Include TypeScript type definitions in the package itself

v1.6.3 - Avoid TypeScript type conflicts with other global log types (e.g. core-js)

v1.6.4 - Ensure package.json's "main" is a fully qualified path, to fix webpack issues

v1.6.5 - Ensure the provided message is included when calling trace() in IE11

v1.6.6 - Fix bugs in v1.6.5, which caused issues in node.js & IE < 9

v1.6.7 - Fix a bug in environments with window defined but no window.navigator

v1.6.8 - Update TypeScript type definitions to include log.log().

v1.7.0 - Add support for Symbol-named loggers, and a .default property to help with ES6 module usage.

v1.7.1 - Update TypeScript types to support Symbol-named loggers.

v1.8.0 - Add resetLevel() method to clear persisted levels & reset to defaults

v1.8.1 - Fix incorrect type definitions for MethodFactory

v1.9.0 - Added rebuild() method, overhaul dev & test setup, and fix some bugs (notably around cookies) en route

v1.9.1 - Fix a bug introduced in 1.9.0 that broke setLevel() in some ESM-focused runtime environments

v1.9.2 - Remove unnecessarily extra test & CI files from deployed package

loglevel for enterprise

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License

Copyright (c) 2013 Tim Perry Licensed under the MIT license. See LICENSE-MIT for full license text.

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