Results for: "Logger"

UNIXServer represents a UNIX domain stream server socket.

Raised when OLE processing failed.

EX:

obj = WIN32OLE.new("NonExistProgID")

raises the exception:

WIN32OLERuntimeError: unknown OLE server: `NonExistProgID'
    HRESULT error code:0x800401f3
      Invalid class string

Class GetoptLong provides parsing both for options and for regular arguments.

Using GetoptLong, you can define options for your program. The program can then capture and respond to whatever options are included in the command that executes the program.

A simple example: file simple.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--number', '-n', GetoptLong::REQUIRED_ARGUMENT],
  ['--verbose', '-v', GetoptLong::OPTIONAL_ARGUMENT],
  ['--help', '-h', GetoptLong::NO_ARGUMENT]
)

If you are somewhat familiar with options, you may want to skip to this full example.

Options

A GetoptLong option has:

Options may be defined by calling singleton method GetoptLong.new, which returns a new GetoptLong object. Options may then be processed by calling other methods such as GetoptLong#each.

Option Name and Aliases

In the array that defines an option, the first element is the string option name. Often the name takes the ‘long’ form, beginning with two hyphens.

The option name may have any number of aliases, which are defined by additional string elements.

The name and each alias must be of one of two forms:

File aliases.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', '-x', '--aaa', '-a', '-p', GetoptLong::NO_ARGUMENT]
)
options.each do |option, argument|
  p [option, argument]
end

An option may be cited by its name, or by any of its aliases; the parsed option always reports the name, not an alias:

$ ruby aliases.rb -a -p --xxx --aaa -x

Output:

["--xxx", ""]
["--xxx", ""]
["--xxx", ""]
["--xxx", ""]
["--xxx", ""]

An option may also be cited by an abbreviation of its name or any alias, as long as that abbreviation is unique among the options.

File abbrev.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::NO_ARGUMENT],
  ['--xyz', GetoptLong::NO_ARGUMENT]
)
options.each do |option, argument|
  p [option, argument]
end

Command line:

$ ruby abbrev.rb --xxx --xx --xyz --xy

Output:

["--xxx", ""]
["--xxx", ""]
["--xyz", ""]
["--xyz", ""]

This command line raises GetoptLong::AmbiguousOption:

$ ruby abbrev.rb --x

Repetition

An option may be cited more than once:

$ ruby abbrev.rb --xxx --xyz --xxx --xyz

Output:

["--xxx", ""]
["--xyz", ""]
["--xxx", ""]
["--xyz", ""]

Treating Remaining Options as Arguments

A option-like token that appears anywhere after the token -- is treated as an ordinary argument, and is not processed as an option:

$ ruby abbrev.rb --xxx --xyz -- --xxx --xyz

Output:

["--xxx", ""]
["--xyz", ""]

Option Types

Each option definition includes an option type, which controls whether the option takes an argument.

File types.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::REQUIRED_ARGUMENT],
  ['--yyy', GetoptLong::OPTIONAL_ARGUMENT],
  ['--zzz', GetoptLong::NO_ARGUMENT]
)
options.each do |option, argument|
  p [option, argument]
end

Note that an option type has to do with the option argument (whether it is required, optional, or forbidden), not with whether the option itself is required.

Option with Required Argument

An option of type GetoptLong::REQUIRED_ARGUMENT must be followed by an argument, which is associated with that option:

$ ruby types.rb --xxx foo

Output:

["--xxx", "foo"]

If the option is not last, its argument is whatever follows it (even if the argument looks like another option):

$ ruby types.rb --xxx --yyy

Output:

["--xxx", "--yyy"]

If the option is last, an exception is raised:

$ ruby types.rb
# Raises GetoptLong::MissingArgument

Option with Optional Argument

An option of type GetoptLong::OPTIONAL_ARGUMENT may be followed by an argument, which if given is associated with that option.

If the option is last, it does not have an argument:

$ ruby types.rb --yyy

Output:

["--yyy", ""]

If the option is followed by another option, it does not have an argument:

$ ruby types.rb --yyy --zzz

Output:

["--yyy", ""]
["--zzz", ""]

Otherwise the option is followed by its argument, which is associated with that option:

$ ruby types.rb --yyy foo

Output:

["--yyy", "foo"]

Option with No Argument

An option of type GetoptLong::NO_ARGUMENT takes no argument:

ruby types.rb --zzz foo

Output:

["--zzz", ""]

ARGV

You can process options either with method each and a block, or with method get.

During processing, each found option is removed, along with its argument if there is one. After processing, each remaining element was neither an option nor the argument for an option.

File argv.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::REQUIRED_ARGUMENT],
  ['--yyy', GetoptLong::OPTIONAL_ARGUMENT],
  ['--zzz', GetoptLong::NO_ARGUMENT]
)
puts "Original ARGV: #{ARGV}"
options.each do |option, argument|
  p [option, argument]
end
puts "Remaining ARGV: #{ARGV}"

Command line:

$ ruby argv.rb --xxx Foo --yyy Bar Baz --zzz Bat Bam

Output:

Original ARGV: ["--xxx", "Foo", "--yyy", "Bar", "Baz", "--zzz", "Bat", "Bam"]
["--xxx", "Foo"]
["--yyy", "Bar"]
["--zzz", ""]
Remaining ARGV: ["Baz", "Bat", "Bam"]

Ordering

There are three settings that control the way the options are interpreted:

The initial setting for a new GetoptLong object is REQUIRE_ORDER if environment variable POSIXLY_CORRECT is defined, PERMUTE otherwise.

PERMUTE Ordering

In the PERMUTE ordering, options and other, non-option, arguments may appear in any order and any mixture.

File permute.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::REQUIRED_ARGUMENT],
  ['--yyy', GetoptLong::OPTIONAL_ARGUMENT],
  ['--zzz', GetoptLong::NO_ARGUMENT]
)
puts "Original ARGV: #{ARGV}"
options.each do |option, argument|
  p [option, argument]
end
puts "Remaining ARGV: #{ARGV}"

Command line:

$ ruby permute.rb Foo --zzz Bar --xxx Baz --yyy Bat Bam --xxx Bag Bah

Output:

Original ARGV: ["Foo", "--zzz", "Bar", "--xxx", "Baz", "--yyy", "Bat", "Bam", "--xxx", "Bag", "Bah"]
["--zzz", ""]
["--xxx", "Baz"]
["--yyy", "Bat"]
["--xxx", "Bag"]
Remaining ARGV: ["Foo", "Bar", "Bam", "Bah"]

REQUIRE_ORDER Ordering

In the REQUIRE_ORDER ordering, all options precede all non-options; that is, each word after the first non-option word is treated as a non-option word (even if it begins with a hyphen).

File require_order.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::REQUIRED_ARGUMENT],
  ['--yyy', GetoptLong::OPTIONAL_ARGUMENT],
  ['--zzz', GetoptLong::NO_ARGUMENT]
)
options.ordering = GetoptLong::REQUIRE_ORDER
puts "Original ARGV: #{ARGV}"
options.each do |option, argument|
  p [option, argument]
end
puts "Remaining ARGV: #{ARGV}"

Command line:

$ ruby require_order.rb --xxx Foo Bar --xxx Baz --yyy Bat -zzz

Output:

Original ARGV: ["--xxx", "Foo", "Bar", "--xxx", "Baz", "--yyy", "Bat", "-zzz"]
["--xxx", "Foo"]
Remaining ARGV: ["Bar", "--xxx", "Baz", "--yyy", "Bat", "-zzz"]

RETURN_IN_ORDER Ordering

In the RETURN_IN_ORDER ordering, every word is treated as an option. A word that begins with a hyphen (or two) is treated in the usual way; a word word that does not so begin is treated as an option whose name is an empty string, and whose value is word.

File return_in_order.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--xxx', GetoptLong::REQUIRED_ARGUMENT],
  ['--yyy', GetoptLong::OPTIONAL_ARGUMENT],
  ['--zzz', GetoptLong::NO_ARGUMENT]
)
options.ordering = GetoptLong::RETURN_IN_ORDER
puts "Original ARGV: #{ARGV}"
options.each do |option, argument|
  p [option, argument]
end
puts "Remaining ARGV: #{ARGV}"

Command line:

$ ruby return_in_order.rb Foo --xxx Bar Baz --zzz Bat Bam

Output:

Original ARGV: ["Foo", "--xxx", "Bar", "Baz", "--zzz", "Bat", "Bam"]
["", "Foo"]
["--xxx", "Bar"]
["", "Baz"]
["--zzz", ""]
["", "Bat"]
["", "Bam"]
Remaining ARGV: []

Full Example

File fibonacci.rb:

require 'getoptlong'

options = GetoptLong.new(
  ['--number', '-n', GetoptLong::REQUIRED_ARGUMENT],
  ['--verbose', '-v', GetoptLong::OPTIONAL_ARGUMENT],
  ['--help', '-h', GetoptLong::NO_ARGUMENT]
)

def help(status = 0)
  puts <<~HELP
    Usage:

      -n n, --number n:
        Compute Fibonacci number for n.
      -v [boolean], --verbose [boolean]:
        Show intermediate results; default is 'false'.
      -h, --help:
        Show this help.
  HELP
  exit(status)
end

def print_fibonacci (number)
  return 0 if number == 0
  return 1 if number == 1 or number == 2
  i = 0
  j = 1
  (2..number).each do
    k = i + j
    i = j
    j = k
    puts j if @verbose
  end
  puts j unless @verbose
end

options.each do |option, argument|
  case option
  when '--number'
    @number = argument.to_i
  when '--verbose'
    @verbose = if argument.empty?
      true
    elsif argument.match(/true/i)
      true
    elsif argument.match(/false/i)
      false
    else
      puts '--verbose argument must be true or false'
      help(255)
    end
  when '--help'
    help
  end
end

unless @number
  puts 'Option --number is required.'
  help(255)
end

print_fibonacci(@number)

Command line:

$ ruby fibonacci.rb

Output:

Option --number is required.
Usage:

  -n n, --number n:
    Compute Fibonacci number for n.
  -v [boolean], --verbose [boolean]:
    Show intermediate results; default is 'false'.
  -h, --help:
    Show this help.

Command line:

$ ruby fibonacci.rb --number

Raises GetoptLong::MissingArgument:

fibonacci.rb: option `--number' requires an argument

Command line:

$ ruby fibonacci.rb --number 6

Output:

8

Command line:

$ ruby fibonacci.rb --number 6 --verbose

Output:

1
2
3
5
8

Command line:

$ ruby fibonacci.rb –number 6 –verbose yes

Output:

--verbose argument must be true or false
Usage:

  -n n, --number n:
    Compute Fibonacci number for n.
  -v [boolean], --verbose [boolean]:
    Show intermediate results; default is 'false'.
  -h, --help:
    Show this help.

Raised when attempting to divide an integer by 0.

42 / 0   #=> ZeroDivisionError: divided by 0

Note that only division by an exact 0 will raise the exception:

42 /  0.0   #=> Float::INFINITY
42 / -0.0   #=> -Float::INFINITY
0  /  0.0   #=> NaN

Raised when attempting to convert special float values (in particular Infinity or NaN) to numerical classes which don’t support them.

Float::INFINITY.to_r   #=> FloatDomainError: Infinity

Raised when Ruby can’t yield as requested.

A typical scenario is attempting to yield when no block is given:

def call_block
  yield 42
end
call_block

raises the exception:

LocalJumpError: no block given (yield)

A more subtle example:

def get_me_a_return
  Proc.new { return 42 }
end
get_me_a_return.call

raises the exception:

LocalJumpError: unexpected return

Raised when given an invalid regexp expression.

Regexp.new("?")

raises the exception:

RegexpError: target of repeat operator is not specified: /?/

The exception class which will be raised when pushing into a closed Queue. See Thread::Queue#close and Thread::SizedQueue#close.

Coverage provides coverage measurement feature for Ruby. This feature is experimental, so these APIs may be changed in future.

Caveat: Currently, only process-global coverage measurement is supported. You cannot measure per-thread coverage.

Usage

  1. require “coverage”

  2. do Coverage.start

  3. require or load Ruby source file

  4. Coverage.result will return a hash that contains filename as key and coverage array as value. A coverage array gives, for each line, the number of line execution by the interpreter. A nil value means coverage is disabled for this line (lines like else and end).

Examples

[foo.rb]
s = 0
10.times do |x|
  s += x
end

if s == 45
  p :ok
else
  p :ng
end
[EOF]

require "coverage"
Coverage.start
require "foo.rb"
p Coverage.result  #=> {"foo.rb"=>[1, 1, 10, nil, nil, 1, 1, nil, 0, nil]}

Lines Coverage

If a coverage mode is not explicitly specified when starting coverage, lines coverage is what will run. It reports the number of line executions for each line.

require "coverage"
Coverage.start(lines: true)
require "foo.rb"
p Coverage.result #=> {"foo.rb"=>{:lines=>[1, 1, 10, nil, nil, 1, 1, nil, 0, nil]}}

The value of the lines coverage result is an array containing how many times each line was executed. Order in this array is important. For example, the first item in this array, at index 0, reports how many times line 1 of this file was executed while coverage was run (which, in this example, is one time).

A nil value means coverage is disabled for this line (lines like else and end).

Oneshot Lines Coverage

Oneshot lines coverage tracks and reports on the executed lines while coverage is running. It will not report how many times a line was executed, only that it was executed.

require "coverage"
Coverage.start(oneshot_lines: true)
require "foo.rb"
p Coverage.result #=> {"foo.rb"=>{:oneshot_lines=>[1, 2, 3, 6, 7]}}

The value of the oneshot lines coverage result is an array containing the line numbers that were executed.

Branches Coverage

Branches coverage reports how many times each branch within each conditional was executed.

require "coverage"
Coverage.start(branches: true)
require "foo.rb"
p Coverage.result #=> {"foo.rb"=>{:branches=>{[:if, 0, 6, 0, 10, 3]=>{[:then, 1, 7, 2, 7, 7]=>1, [:else, 2, 9, 2, 9, 7]=>0}}}}

Each entry within the branches hash is a conditional, the value of which is another hash where each entry is a branch in that conditional. The values are the number of times the method was executed, and the keys are identifying information about the branch.

The information that makes up each key identifying branches or conditionals is the following, from left to right:

  1. A label for the type of branch or conditional.

  2. A unique identifier.

  3. The starting line number it appears on in the file.

  4. The starting column number it appears on in the file.

  5. The ending line number it appears on in the file.

  6. The ending column number it appears on in the file.

Methods Coverage

Methods coverage reports how many times each method was executed.

[foo_method.rb]
class Greeter
  def greet
    "welcome!"
  end
end

def hello
  "Hi"
end

hello()
Greeter.new.greet()
[EOF]

require "coverage"
Coverage.start(methods: true)
require "foo_method.rb"
p Coverage.result #=> {"foo_method.rb"=>{:methods=>{[Object, :hello, 7, 0, 9, 3]=>1, [Greeter, :greet, 2, 2, 4, 5]=>1}}}

Each entry within the methods hash represents a method. The values in this hash are the number of times the method was executed, and the keys are identifying information about the method.

The information that makes up each key identifying a method is the following, from left to right:

  1. The class.

  2. The method name.

  3. The starting line number the method appears on in the file.

  4. The starting column number the method appears on in the file.

  5. The ending line number the method appears on in the file.

  6. The ending column number the method appears on in the file.

All Coverage Modes

You can also run all modes of coverage simultaneously with this shortcut. Note that running all coverage modes does not run both lines and oneshot lines. Those modes cannot be run simultaneously. Lines coverage is run in this case, because you can still use it to determine whether or not a line was executed.

require "coverage"
Coverage.start(:all)
require "foo.rb"
p Coverage.result #=> {"foo.rb"=>{:lines=>[1, 1, 10, nil, nil, 1, 1, nil, 0, nil], :branches=>{[:if, 0, 6, 0, 10, 3]=>{[:then, 1, 7, 2, 7, 7]=>1, [:else, 2, 9, 2, 9, 7]=>0}}, :methods=>{}}}

The syslog package provides a Ruby interface to the POSIX system logging facility.

Syslog messages are typically passed to a central logging daemon. The daemon may filter them; route them into different files (usually found under /var/log); place them in SQL databases; forward them to centralized logging servers via TCP or UDP; or even alert the system administrator via email, pager or text message.

Unlike application-level logging via Logger or Log4r, syslog is designed to allow secure tamper-proof logging.

The syslog protocol is standardized in RFC 5424.

No documentation available

Response class for Internal Server Error responses (status code 500).

An unexpected condition was encountered and no more specific message is suitable. See 500 Internal Server Error.

No documentation available

This exception is raised if a generator or unparser error occurs.

This class is used as a return value from ObjectSpace::reachable_objects_from.

When ObjectSpace::reachable_objects_from returns an object with references to an internal object, an instance of this class is returned.

You can use the type method to check the type of the internal object.

No documentation available

Parent class for server error (5xx) HTTP response classes.

A server error response indicates that the server failed to fulfill a request.

References:

No documentation available
No documentation available
No documentation available
No documentation available

Raised by transcoding methods when a named encoding does not correspond with a known converter.

No documentation available
No documentation available

Numeric is the class from which all higher-level numeric classes should inherit.

Numeric allows instantiation of heap-allocated objects. Other core numeric classes such as Integer are implemented as immediates, which means that each Integer is a single immutable object which is always passed by value.

a = 1
1.object_id == a.object_id   #=> true

There can only ever be one instance of the integer 1, for example. Ruby ensures this by preventing instantiation. If duplication is attempted, the same instance is returned.

Integer.new(1)                   #=> NoMethodError: undefined method `new' for Integer:Class
1.dup                            #=> 1
1.object_id == 1.dup.object_id   #=> true

For this reason, Numeric should be used when defining other numeric classes.

Classes which inherit from Numeric must implement coerce, which returns a two-member Array containing an object that has been coerced into an instance of the new class and self (see coerce).

Inheriting classes should also implement arithmetic operator methods (+, -, * and /) and the <=> operator (see Comparable). These methods may rely on coerce to ensure interoperability with instances of other numeric classes.

class Tally < Numeric
  def initialize(string)
    @string = string
  end

  def to_s
    @string
  end

  def to_i
    @string.size
  end

  def coerce(other)
    [self.class.new('|' * other.to_i), self]
  end

  def <=>(other)
    to_i <=> other.to_i
  end

  def +(other)
    self.class.new('|' * (to_i + other.to_i))
  end

  def -(other)
    self.class.new('|' * (to_i - other.to_i))
  end

  def *(other)
    self.class.new('|' * (to_i * other.to_i))
  end

  def /(other)
    self.class.new('|' * (to_i / other.to_i))
  end
end

tally = Tally.new('||')
puts tally * 2            #=> "||||"
puts tally > 1            #=> true

What’s Here

First, what’s elsewhere. Class Numeric:

Here, class Numeric provides methods for:

Querying

Comparing

Converting

Other

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