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ripta/drydock

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lib/drydock/project.rb

Summary

Maintainability
B
6 hrs
Test Coverage

Class has too many lines. [243/100]
Open

  class Project

    DEFAULT_OPTIONS = {
      auto_remove: true,
      author: nil,
Severity: Minor
Found in lib/drydock/project.rb by rubocop

This cop checks if the length a class exceeds some maximum value. Comment lines can optionally be ignored. The maximum allowed length is configurable.

Class Project has 33 methods (exceeds 20 allowed). Consider refactoring.
Open

  class Project

    DEFAULT_OPTIONS = {
      auto_remove: true,
      author: nil,
Severity: Minor
Found in lib/drydock/project.rb - About 4 hrs to fix

    Assignment Branch Condition size for download_once is too high. [20.12/15]
    Open

        def download_once(source_url, target_path, chmod: 0644)
      requires_from!(:download_once)

      unless cache.key?(source_url)
        cache.set(source_url) do |obj|
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks that the ABC size of methods is not higher than the configured maximum. The ABC size is based on assignments, branches (method calls), and conditions. See http://c2.com/cgi/wiki?AbcMetric

    Method has too many lines. [23/20]
    Open

        def download_once(source_url, target_path, chmod: 0644)
      requires_from!(:download_once)

      unless cache.key?(source_url)
        cache.set(source_url) do |obj|
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks if the length of a method exceeds some maximum value. Comment lines can optionally be ignored. The maximum allowed length is configurable.

    Assignment Branch Condition size for import is too high. [18.36/15]
    Open

        def import(path, from: nil, force: false, spool: false)
      mkdir(path)

      requires_from!(:import)
      fail InvalidInstructionError, 'cannot `import` from `/`' if path == '/' && !force
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks that the ABC size of methods is not higher than the configured maximum. The ABC size is based on assignments, branches (method calls), and conditions. See http://c2.com/cgi/wiki?AbcMetric

    Cyclomatic complexity for set is too high. [7/6]
    Open

        def set(key, value = nil, &blk)
      key = key.to_sym
      fail ArgumentError, "unknown option #{key.inspect}" unless build_opts.key?(key)
      fail ArgumentError, 'one of value or block is required' if value.nil? && blk.nil?
      fail ArgumentError, 'only one of value or block may be provided' if value && blk
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks that the cyclomatic complexity of methods is not higher than the configured maximum. The cyclomatic complexity is the number of linearly independent paths through a method. The algorithm counts decision points and adds one.

    An if statement (or unless or ?:) increases the complexity by one. An else branch does not, since it doesn't add a decision point. The && operator (or keyword and) can be converted to a nested if statement, and ||/or is shorthand for a sequence of ifs, so they also add one. Loops can be said to have an exit condition, so they add one.

    Method set has a Cognitive Complexity of 6 (exceeds 5 allowed). Consider refactoring.
    Open

        def set(key, value = nil, &blk)
      key = key.to_sym
      fail ArgumentError, "unknown option #{key.inspect}" unless build_opts.key?(key)
      fail ArgumentError, 'one of value or block is required' if value.nil? && blk.nil?
      fail ArgumentError, 'only one of value or block may be provided' if value && blk
    Severity: Minor
    Found in lib/drydock/project.rb - About 25 mins to fix

    Cognitive Complexity

    Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.

    A method's cognitive complexity is based on a few simple rules:

    • Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
    • Code is considered more complex for each "break in the linear flow of the code"
    • Code is considered more complex when "flow breaking structures are nested"

    Further reading

    Method log_step has a Cognitive Complexity of 6 (exceeds 5 allowed). Consider refactoring.
    Open

        def log_step(op, *args)
      opts   = args.last.is_a?(Hash) ? args.pop : {}
      optstr = opts.map { |k, v| "#{k}: #{v.inspect}" }.join(', ')

      argstr = args.map(&:inspect).join(', ')
    Severity: Minor
    Found in lib/drydock/project.rb - About 25 mins to fix

    Cognitive Complexity

    Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.

    A method's cognitive complexity is based on a few simple rules:

    • Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
    • Code is considered more complex for each "break in the linear flow of the code"
    • Code is considered more complex when "flow breaking structures are nested"

    Further reading

    Method author has a Cognitive Complexity of 6 (exceeds 5 allowed). Consider refactoring.
    Open

        def author(name: nil, email: nil)
      if (name.nil? || name.empty?) && (email.nil? || name.empty?)
        fail InvalidInstructionArgumentError, 'at least one of `name:` or `email:` must be provided'
      end
    Severity: Minor
    Found in lib/drydock/project.rb - About 25 mins to fix

    Cognitive Complexity

    Cognitive Complexity is a measure of how difficult a unit of code is to intuitively understand. Unlike Cyclomatic Complexity, which determines how difficult your code will be to test, Cognitive Complexity tells you how difficult your code will be to read and comprehend.

    A method's cognitive complexity is based on a few simple rules:

    • Code is not considered more complex when it uses shorthand that the language provides for collapsing multiple statements into one
    • Code is considered more complex for each "break in the linear flow of the code"
    • Code is considered more complex when "flow breaking structures are nested"

    Further reading

    Use yield instead of blk.call.
    Open

            blk.call(instance) if blk
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop identifies the use of a &block parameter and block.call where yield would do just as well.

    Example:

    # bad
def method(&block)
  block.call
end
def another(&func)
  func.call 1, 2, 3
end

# good
def method
  yield
end
def another
  yield 1, 2, 3
end

    Use yield instead of blk.call.
    Open

          blk.call if blk
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop identifies the use of a &block parameter and block.call where yield would do just as well.

    Example:

    # bad
def method(&block)
  block.call
end
def another(&func)
  func.call 1, 2, 3
end

# good
def method
  yield
end
def another
  yield 1, 2, 3
end

    Similar blocks of code found in 2 locations. Consider refactoring.
    Open

        def cmd(command)
      requires_from!(:cmd)
      log_step('cmd', command)

      command = ['/bin/sh', '-c', command.to_s] unless command.is_a?(Array)
    Severity: Minor
    Found in lib/drydock/project.rb and 1 other location - About 20 mins to fix
    lib/drydock/project.rb on lines 251..257

    Duplicated Code

    Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:

    Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.

    When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).

    Tuning

    This issue has a mass of 27.

    We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.

    The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.

    If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.

    See codeclimate-duplication's documentation for more information about tuning the mass threshold in your .codeclimate.yml.

    Refactorings

    Further Reading

    Similar blocks of code found in 2 locations. Consider refactoring.
    Open

        def entrypoint(command)
      requires_from!(:entrypoint)
      log_step('entrypoint', command)

      command = ['/bin/sh', '-c', command.to_s] unless command.is_a?(Array)
    Severity: Minor
    Found in lib/drydock/project.rb and 1 other location - About 20 mins to fix
    lib/drydock/project.rb on lines 109..115

    Duplicated Code

    Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:

    Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.

    When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).

    Tuning

    This issue has a mass of 27.

    We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.

    The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.

    If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.

    See codeclimate-duplication's documentation for more information about tuning the mass threshold in your .codeclimate.yml.

    Refactorings

    Further Reading

    Unreachable code detected.
    Open

          requires_from!(:on_build)
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for unreachable code. The check are based on the presence of flow of control statement in non-final position in begin(implicit) blocks.

    Example:

    # bad

def some_method
  return
  do_something
end

# bad

def some_method
  if cond
    return
  else
    return
  end
  do_something
end

    Example:

    # good

def some_method
  do_something
end

    Always use raise to signal exceptions.
    Open

          fail InvalidInstructionError, 'cannot `import` from `/`' if path == '/' && !force
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Favor modifier if usage when having a single-line body. Another good alternative is the usage of control flow &&/||.
    Open

          if chain
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    Checks for if and unless statements that would fit on one line if written as a modifier if/unless. The maximum line length is configured in the Metrics/LineLength cop.

    Example:

    # bad
if condition
  do_stuff(bar)
end

unless qux.empty?
  Foo.do_something
end

# good
do_stuff(bar) if condition
Foo.do_something unless qux.empty?

    Always use raise to signal exceptions.
    Open

            fail InsufficientVersionError, "build requires #{version.inspect}, but you're on #{Drydock.version.inspect}"
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail ArgumentError, 'one of value or block is required' if value.nil? && blk.nil?
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail InvalidInstructionError, "`#{instruction}` cannot be called before `from`" unless chain
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Prefer annotated tokens (like %<foo>s</foo>) over unannotated tokens (like %s).
    Open

          log_step('copy', source_path, target_path, chmod: (chmod ? sprintf('%o', chmod) : false))
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    Use a consistent style for named format string tokens.

    Note: unannotated style cop only works for strings which are passed as arguments to those methods: sprintf, format, %. The reason is that unannotated format is very similar to encoded URLs or Date/Time formatting strings.

    Example: EnforcedStyle: annotated (default)

    # bad
format('%{greeting}', greeting: 'Hello')
format('%s', 'Hello')

# good
format('%<greeting>s', greeting: 'Hello')</greeting>

    Example: EnforcedStyle: template

    # bad
format('%<greeting>s', greeting: 'Hello')
format('%s', 'Hello')

# good
format('%{greeting}', greeting: 'Hello')</greeting>

    Example: EnforcedStyle: unannotated

    # bad
format('%<greeting>s', greeting: 'Hello')
format('%{greeting}', 'Hello')

# good
format('%s', 'Hello')</greeting>

    Always use raise to signal exceptions.
    Open

          fail InvalidInstructionError, '`from` must only be called once per project' if chain
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Use 0o for octal literals.
    Open

        def download_once(source_url, target_path, chmod: 0644)
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for octal, hex, binary and decimal literals using uppercase prefixes and corrects them to lowercase prefix or no prefix (in case of decimals). eg. for octal use 0o instead of 0 or 0O.

    Can be configured to use 0 only for octal literals using EnforcedOctalStyle => zero_only

    Always use raise to signal exceptions.
    Open

            fail InvalidInstructionArgumentError, 'at least one of `name:` or `email:` must be provided'
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail NotImplementedError, 'on_build is not yet supported'
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Prefer annotated tokens (like %<foo>s</foo>) over unannotated tokens (like %s).
    Open

          log_step('download_once', source_url, target_path, chmod: sprintf('%o', chmod))
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    Use a consistent style for named format string tokens.

    Note: unannotated style cop only works for strings which are passed as arguments to those methods: sprintf, format, %. The reason is that unannotated format is very similar to encoded URLs or Date/Time formatting strings.

    Example: EnforcedStyle: annotated (default)

    # bad
format('%{greeting}', greeting: 'Hello')
format('%s', 'Hello')

# good
format('%<greeting>s', greeting: 'Hello')</greeting>

    Example: EnforcedStyle: template

    # bad
format('%<greeting>s', greeting: 'Hello')
format('%s', 'Hello')

# good
format('%{greeting}', greeting: 'Hello')</greeting>

    Example: EnforcedStyle: unannotated

    # bad
format('%<greeting>s', greeting: 'Hello')
format('%{greeting}', 'Hello')

# good
format('%s', 'Hello')</greeting>

    Freeze mutable objects assigned to constants.
    Open

        DEFAULT_OPTIONS = {
      auto_remove: true,
      author: nil,
      cache: nil,
      event_handler: false,
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks whether some constant value isn't a mutable literal (e.g. array or hash).

    Example:

    # bad
CONST = [1, 2, 3]

# good
CONST = [1, 2, 3].freeze

    Always use raise to signal exceptions.
    Open

          fail InvalidInstructionError, '`drydock` must be called before `from`' if chain
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail InvalidInstructionError, '`import` requires a `from:` option' if from.nil?
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail ArgumentError, "unknown option #{key.inspect}" unless build_opts.key?(key)
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

    Always use raise to signal exceptions.
    Open

          fail ArgumentError, 'only one of value or block may be provided' if value && blk
    Severity: Minor
    Found in lib/drydock/project.rb by rubocop

    This cop checks for uses of fail and raise.

    Example: EnforcedStyle: only_raise (default)

    # The `only_raise` style enforces the sole use of `raise`.
# bad
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

# good
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

    Example: EnforcedStyle: only_fail

    # The `only_fail` style enforces the sole use of `fail`.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  raise
rescue Exception
  # handle it
end

Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  # handle it
end

Kernel.fail

    Example: EnforcedStyle: semantic

    # The `semantic` style enforces the use of `fail` to signal an
# exception, then will use `raise` to trigger an offense after
# it has been rescued.
# bad
begin
  raise
rescue Exception
  # handle it
end

def watch_out
  # Error thrown
rescue Exception
  fail
end

Kernel.fail
Kernel.raise

# good
begin
  fail
rescue Exception
  # handle it
end

def watch_out
  fail
rescue Exception
  raise 'Preferably with descriptive message'
end

explicit_receiver.fail
explicit_receiver.raise

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