# rubocop:disable all require 'pathname' require 'logger' module Familia @logger = Logger.new($stdout) @logger.progname = name @logger.formatter = proc do |severity, datetime, progname, msg| severity_letter = severity[0] # Get the first letter of the severity pid = Process.pid thread_id = Thread.current.object_id full_path, line = caller[4].split(":")[0..1] parent_path = Pathname.new(full_path).ascend.find { |p| p.basename.to_s == 'familia' } relative_path = full_path.sub(parent_path.to_s, 'familia') utc_datetime = datetime.utc.strftime("%m-%d %H:%M:%S.%6N") # Get the severity letter from the thread local variable or use # the default. The thread local variable is set in the trace # method in the LoggerTraceRefinement module. The name of the # variable `severity_letter` is arbitrary and could be anything. severity_letter = Thread.current[:severity_letter] || severity_letter "#{severity_letter}, #{utc_datetime} #{pid} #{thread_id}: #{msg} [#{relative_path}:#{line}]\n" end # The Logging module provides a set of methods and constants for logging messages # at various levels of severity. It is designed to be used with the Ruby Logger class # to facilitate logging in applications. # # == Constants: # Logger::TRACE:: # A custom log level for trace messages, typically used for very detailed # debugging information. # # == Methods: # trace:: # Logs a message at the TRACE level. This method is only available if the # LoggerTraceRefinement is used. # # debug:: # Logs a message at the DEBUG level. This is used for low-level system information # for debugging purposes. # # info:: # Logs a message at the INFO level. This is used for general information about # system operation. # # warn:: # Logs a message at the WARN level. This is used for warning messages, typically # for non-critical issues that require attention. # # error:: # Logs a message at the ERROR level. This is used for error messages, typically # for critical issues that require immediate attention. # # fatal:: # Logs a message at the FATAL level. This is used for very severe error events # that will presumably lead the application to abort. # # == Usage: # To use the Logging module, you need to include the LoggerTraceRefinement module # and use the `using` keyword to enable the refinement. This will add the TRACE # log level and the trace method to the Logger class. # # Example: # require 'logger' # # module LoggerTraceRefinement # refine Logger do # TRACE = 0 # # def trace(progname = nil, &block) # add(TRACE, nil, progname, &block) # end # end # end # # using LoggerTraceRefinement # # logger = Logger.new(STDOUT) # logger.trace("This is a trace message") # logger.debug("This is a debug message") # logger.info("This is an info message") # logger.warn("This is a warning message") # logger.error("This is an error message") # logger.fatal("This is a fatal message") # # In this example, the LoggerTraceRefinement module is defined with a refinement # for the Logger class. The TRACE constant and trace method are added to the Logger # class within the refinement. The `using` keyword is used to apply the refinement # in the scope where it's needed. # # == Conditions: # The trace method and TRACE log level are only available if the LoggerTraceRefinement # module is used with the `using` keyword. Without this, the Logger class will not # have the trace method or the TRACE log level. # # == Minimum Ruby Version: # This module requires Ruby 2.0.0 or later to use refinements. # module Logging attr_reader :logger # Gives our logger the ability to use our trace method. using LoggerTraceRefinement if LoggerTraceRefinement::ENABLED def info(*msg) @logger.info(*msg) end def warn(*msg) @logger.warn(*msg) end def ld(*msg) return unless Familia.debug? @logger.debug(*msg) end def le(*msg) @logger.error(*msg) end # Logs a trace message for debugging purposes if Familia.debug? is true. # # @param label [Symbol] A label for the trace message (e.g., :EXPAND, # :FROMREDIS, :LOAD, :EXISTS). # @param redis_instance [Object] The Redis instance being used. # @param ident [String] An identifier or key related to the operation being # traced. # @param context [Array, String, nil] The calling context, typically # obtained from `caller` or `caller.first`. Default is nil. # # @example # Familia.trace :LOAD, Familia.redis(uri), objkey, caller if Familia.debug? # # # @return [nil] # def trace(label, redis_instance, ident, context = nil) return unless LoggerTraceRefinement::ENABLED instance_id = redis_instance&.id codeline = if context context = [context].flatten context.reject! { |line| line =~ %r{lib/familia} } context.first end @logger.trace format('[%s] %s -> %s <- at %s', label, instance_id, ident, codeline) end end end __END__ ### Example 1: Basic Logging ```ruby require 'logger' logger = Logger.new($stdout) logger.info("This is an info message") logger.warn("This is a warning message") logger.error("This is an error message") ``` ### Example 2: Setting Log Level ```ruby require 'logger' logger = Logger.new($stdout) logger.level = Logger::WARN logger.debug("This is a debug message") # Will not be logged logger.info("This is an info message") # Will not be logged logger.warn("This is a warning message") logger.error("This is an error message") ``` ### Example 3: Customizing Log Format ```ruby require 'logger' logger = Logger.new($stdout) logger.formatter = proc do |severity, datetime, progname, msg| "#{datetime}: #{severity} - #{msg}\n" end logger.info("This is an info message") logger.warn("This is a warning message") logger.error("This is an error message") ``` ### Example 4: Logging with a Program Name ```ruby require 'logger' logger = Logger.new($stdout) logger.progname = 'Familia' logger.info("This is an info message") logger.warn("This is a warning message") logger.error("This is an error message") ``` ### Example 5: Logging with a Block ```ruby require 'logger' # Calling any of the methods above with a block # (affects only the one entry). # Doing so can have two benefits: # # - Context: the block can evaluate the entire program context # and create a context-dependent message. # - Performance: the block is not evaluated unless the log level # permits the entry actually to be written: # # logger.error { my_slow_message_generator } # # Contrast this with the string form, where the string is # always evaluated, regardless of the log level: # # logger.error("#{my_slow_message_generator}") logger = Logger.new($stdout) logger.info { "This is an info message" } logger.warn { "This is a warning message" } logger.error { "This is an error message" } ```