Cyclomatic complexity for initialize is too high. [8/6] Open
def initialize(deployment_name, options = {})
@deployment_name = deployment_name
options ||= {}
cleanup = options.dig('cleanup')
@cleanup = cleanup.nil? ? true : cleanup # we enable cleanup unless specified in deployment
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
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.
Perceived complexity for initialize is too high. [8/7] Open
def initialize(deployment_name, options = {})
@deployment_name = deployment_name
options ||= {}
cleanup = options.dig('cleanup')
@cleanup = cleanup.nil? ? true : cleanup # we enable cleanup unless specified in deployment
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
This cop tries to produce a complexity score that's a measure of the
complexity the reader experiences when looking at a method. For that
reason it considers when
nodes as something that doesn't add as much
complexity as an if
or a &&
. Except if it's one of those special
case
/when
constructs where there's no expression after case
. Then
the cop treats it as an if
/elsif
/elsif
... and lets all the when
nodes count. In contrast to the CyclomaticComplexity cop, this cop
considers else
nodes as adding complexity.
Example:
def my_method # 1
if cond # 1
case var # 2 (0.8 + 4 * 0.2, rounded)
when 1 then func_one
when 2 then func_two
when 3 then func_three
when 4..10 then func_other
end
else # 1
do_something until a && b # 2
end # ===
end # 7 complexity points
Assignment Branch Condition size for initialize is too high. [15.3/15] Open
def initialize(deployment_name, options = {})
@deployment_name = deployment_name
options ||= {}
cleanup = options.dig('cleanup')
@cleanup = cleanup.nil? ? true : cleanup # we enable cleanup unless specified in deployment
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
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
PipelineHelpers::BoshDeploymentDetails has at least 8 instance variables Open
class BoshDeploymentDetails
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Too Many Instance Variables
is a special case of LargeClass
.
Example
Given this configuration
TooManyInstanceVariables:
max_instance_variables: 3
and this code:
class TooManyInstanceVariables
def initialize
@arg_1 = :dummy
@arg_2 = :dummy
@arg_3 = :dummy
@arg_4 = :dummy
end
end
Reek would emit the following warning:
test.rb -- 5 warnings:
[1]:TooManyInstanceVariables has at least 4 instance variables (TooManyInstanceVariables)
PipelineHelpers::DeploymentDetails#initialize is controlled by argument 'raw_details' Open
@details = raw_details || {}
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Control Parameter
is a special case of Control Couple
Example
A simple example would be the "quoted" parameter in the following method:
def write(quoted)
if quoted
write_quoted @value
else
write_unquoted @value
end
end
Fixing those problems is out of the scope of this document but an easy solution could be to remove the "write" method alltogether and to move the calls to "writequoted" / "writeunquoted" in the initial caller of "write".
PipelineHelpers::BoshDeploymentDetails has no descriptive comment Open
class BoshDeploymentDetails
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Classes and modules are the units of reuse and release. It is therefore considered good practice to annotate every class and module with a brief comment outlining its responsibilities.
Example
Given
class Dummy
# Do things...
end
Reek would emit the following warning:
test.rb -- 1 warning:
[1]:Dummy has no descriptive comment (IrresponsibleModule)
Fixing this is simple - just an explaining comment:
# The Dummy class is responsible for ...
class Dummy
# Do things...
end
PipelineHelpers::GitDeploymentDetails has no descriptive comment Open
class GitDeploymentDetails
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Classes and modules are the units of reuse and release. It is therefore considered good practice to annotate every class and module with a brief comment outlining its responsibilities.
Example
Given
class Dummy
# Do things...
end
Reek would emit the following warning:
test.rb -- 1 warning:
[1]:Dummy has no descriptive comment (IrresponsibleModule)
Fixing this is simple - just an explaining comment:
# The Dummy class is responsible for ...
class Dummy
# Do things...
end
PipelineHelpers::BoshDeploymentDetails#initialize performs a nil-check Open
@cleanup = cleanup.nil? ? true : cleanup # we enable cleanup unless specified in deployment
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
A NilCheck
is a type check. Failures of NilCheck
violate the "tell, don't ask" principle.
Additionally, type checks often mask bigger problems in your source code like not using OOP and / or polymorphism when you should.
Example
Given
class Klass
def nil_checker(argument)
if argument.nil?
puts "argument isn't nil!"
end
end
end
Reek would emit the following warning:
test.rb -- 1 warning:
[3]:Klass#nil_checker performs a nil-check. (NilCheck)
PipelineHelpers::GitDeploymentDetails#depth performs a nil-check Open
if @depth.nil? || @depth.negative?
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
A NilCheck
is a type check. Failures of NilCheck
violate the "tell, don't ask" principle.
Additionally, type checks often mask bigger problems in your source code like not using OOP and / or polymorphism when you should.
Example
Given
class Klass
def nil_checker(argument)
if argument.nil?
puts "argument isn't nil!"
end
end
end
Reek would emit the following warning:
test.rb -- 1 warning:
[3]:Klass#nil_checker performs a nil-check. (NilCheck)
PipelineHelpers::BoshDeploymentDetails#max_in_flight? performs a nil-check Open
!(@max_in_flight.nil? || @max_in_flight.zero?)
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
A NilCheck
is a type check. Failures of NilCheck
violate the "tell, don't ask" principle.
Additionally, type checks often mask bigger problems in your source code like not using OOP and / or polymorphism when you should.
Example
Given
class Klass
def nil_checker(argument)
if argument.nil?
puts "argument isn't nil!"
end
end
end
Reek would emit the following warning:
test.rb -- 1 warning:
[3]:Klass#nil_checker performs a nil-check. (NilCheck)
PipelineHelpers::GitDeploymentDetails#depth? performs a nil-check Open
!@depth.nil?
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
A NilCheck
is a type check. Failures of NilCheck
violate the "tell, don't ask" principle.
Additionally, type checks often mask bigger problems in your source code like not using OOP and / or polymorphism when you should.
Example
Given
class Klass
def nil_checker(argument)
if argument.nil?
puts "argument isn't nil!"
end
end
end
Reek would emit the following warning:
test.rb -- 1 warning:
[3]:Klass#nil_checker performs a nil-check. (NilCheck)