Method fields_definitions_source_root has a Cognitive Complexity of 9 (exceeds 5 allowed). Consider refactoring. Open
def fields_definitions_source_root(source = fields_definitions_source)
account = source
return unless account
- Read upRead up
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
Fields::Fields#fields_to_xml refers to 'field' more than self (maybe move it to another class?) Open
next if field_value(field.name).blank?
value = field_value(field.name)
if value.respond_to?(:to_xml)
value.to_xml(builder: xml, root: field.name)- Read upRead up
- Exclude checks
Feature Envy occurs when a code fragment references another object more often than it references itself, or when several clients do the same series of manipulations on a particular type of object.
Feature Envy reduces the code's ability to communicate intent: code that "belongs" on one class but which is located in another can be hard to find, and may upset the "System of Names" in the host class.
Feature Envy also affects the design's flexibility: A code fragment that is in the wrong class creates couplings that may not be natural within the application's domain, and creates a loss of cohesion in the unwilling host class.
Feature Envy often arises because it must manipulate other objects (usually its arguments) to get them into a useful form, and one force preventing them (the arguments) doing this themselves is that the common knowledge lives outside the arguments, or the arguments are of too basic a type to justify extending that type. Therefore there must be something which 'knows' about the contents or purposes of the arguments. That thing would have to be more than just a basic type, because the basic types are either containers which don't know about their contents, or they are single objects which can't capture their relationship with their fellows of the same type. So, this thing with the extra knowledge should be reified into a class, and the utility method will most likely belong there.
Example
Running Reek on:
class Warehouse
def sale_price(item)
(item.price - item.rebate) * @vat
end
endwould report:
Warehouse#total_price refers to item more than self (FeatureEnvy)since this:
(item.price - item.rebate)belongs to the Item class, not the Warehouse.
Fields::Fields#fields_definitions_source_root refers to 'account' more than self (maybe move it to another class?) Open
next if account.new_record?
valid = if source.buyer?
account.provider?
elsif source.provider?- Read upRead up
- Exclude checks
Feature Envy occurs when a code fragment references another object more often than it references itself, or when several clients do the same series of manipulations on a particular type of object.
Feature Envy reduces the code's ability to communicate intent: code that "belongs" on one class but which is located in another can be hard to find, and may upset the "System of Names" in the host class.
Feature Envy also affects the design's flexibility: A code fragment that is in the wrong class creates couplings that may not be natural within the application's domain, and creates a loss of cohesion in the unwilling host class.
Feature Envy often arises because it must manipulate other objects (usually its arguments) to get them into a useful form, and one force preventing them (the arguments) doing this themselves is that the common knowledge lives outside the arguments, or the arguments are of too basic a type to justify extending that type. Therefore there must be something which 'knows' about the contents or purposes of the arguments. That thing would have to be more than just a basic type, because the basic types are either containers which don't know about their contents, or they are single objects which can't capture their relationship with their fellows of the same type. So, this thing with the extra knowledge should be reified into a class, and the utility method will most likely belong there.
Example
Running Reek on:
class Warehouse
def sale_price(item)
(item.price - item.rebate) * @vat
end
endwould report:
Warehouse#total_price refers to item more than self (FeatureEnvy)since this:
(item.price - item.rebate)belongs to the Item class, not the Warehouse.
Method optional_fields_valid? has a Cognitive Complexity of 8 (exceeds 5 allowed). Consider refactoring. Open
def optional_fields_valid?
optional_fields.each do |field_name|
field = field(field_name)
next unless field&.required?
- Read upRead up
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
Fields::Fields#fields_definitions_object calls 'self.class' 2 times Open
raise NoFieldDefinitionsSourceObjectDefined unless self.class.fields_source_object
source = self.class.fields_source_object- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#fields_definitions_source_root calls 'account.master?' 2 times Open
account.master?
else
account.master? or account.provider?- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields::ActiverecordOverrides has initialize method Open
module ActiverecordOverrides- Read upRead up
- Exclude checks
A module is usually a mixin, so when an #initialize method is present it is
hard to tell initialization order and parameters so having #initialize
in a module is usually a bad idea.
Example
The Foo module below contains a method initialize. Although class B inherits from A, the inclusion of Foo stops A#initialize from being called.
class A
def initialize(a)
@a = a
end
end
module Foo
def initialize(foo)
@foo = foo
end
end
class B < A
include Foo
def initialize(b)
super('bar')
@b = b
end
endA simple solution is to rename Foo#initialize and call that method by name:
module Foo
def setup_foo_module(foo)
@foo = foo
end
end
class B < A
include Foo
def initialize(b)
super 'bar'
setup_foo_module('foo')
@b = b
end
endFields::Fields#fields_definitions_object calls 'self.class.fields_source_object' 2 times Open
raise NoFieldDefinitionsSourceObjectDefined unless self.class.fields_source_object
source = self.class.fields_source_object- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#extra_field? calls 'name.to_s' 2 times Open
field(name) && builtin_fields.exclude?(name.to_s) && internal_fields.exclude?(name.to_s)- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#optional_fields_valid? calls 'field_value(field.name)' 2 times Open
if field_value(field.name).blank?
errors.add(field_name, "can't be blank")
elsif field.choices.present? &&
field.choices.exclude?(field_value(field.name))- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#optional_fields_valid? calls 'field.choices' 2 times Open
elsif field.choices.present? &&
field.choices.exclude?(field_value(field.name))- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#fields_to_xml manually dispatches method call Open
if value.respond_to?(:to_xml)- Read upRead up
- Exclude checks
Reek reports a Manual Dispatch smell if it finds source code that manually checks whether an object responds to a method before that method is called. Manual dispatch is a type of Simulated Polymorphism which leads to code that is harder to reason about, debug, and refactor.
Example
class MyManualDispatcher
attr_reader :foo
def initialize(foo)
@foo = foo
end
def call
foo.bar if foo.respond_to?(:bar)
end
endReek would emit the following warning:
test.rb -- 1 warning:
[9]: MyManualDispatcher manually dispatches method call (ManualDispatch)Fields::Fields#fields_to_xml calls 'field_value(field.name)' 2 times Open
next if field_value(field.name).blank?
value = field_value(field.name)- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#field_value manually dispatches method call Open
elsif respond_to?(name)- Read upRead up
- Exclude checks
Reek reports a Manual Dispatch smell if it finds source code that manually checks whether an object responds to a method before that method is called. Manual dispatch is a type of Simulated Polymorphism which leads to code that is harder to reason about, debug, and refactor.
Example
class MyManualDispatcher
attr_reader :foo
def initialize(foo)
@foo = foo
end
def call
foo.bar if foo.respond_to?(:bar)
end
endReek would emit the following warning:
test.rb -- 1 warning:
[9]: MyManualDispatcher manually dispatches method call (ManualDispatch)Fields::Fields#fields_to_xml calls 'field.name' 4 times Open
next if field_value(field.name).blank?
value = field_value(field.name)
if value.respond_to?(:to_xml)
value.to_xml(builder: xml, root: field.name)- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#optional_fields_valid? calls 'field.name' 2 times Open
if field_value(field.name).blank?
errors.add(field_name, "can't be blank")
elsif field.choices.present? &&
field.choices.exclude?(field_value(field.name))- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Fields::Fields#fields_definitions_source_root calls 'account.provider?' 2 times Open
account.provider?
elsif source.provider?
account.master?
else
account.master? or account.provider?- Read upRead up
- Exclude checks
Duplication occurs when two fragments of code look nearly identical, or when two fragments of code have nearly identical effects at some conceptual level.
Reek implements a check for Duplicate Method Call.
Example
Here's a very much simplified and contrived example. The following method will report a warning:
def double_thing()
@other.thing + @other.thing
endOne quick approach to silence Reek would be to refactor the code thus:
def double_thing()
thing = @other.thing
thing + thing
endA slightly different approach would be to replace all calls of double_thing by calls to @other.double_thing:
class Other
def double_thing()
thing + thing
end
endThe approach you take will depend on balancing other factors in your code.
Method fields_to_xml has a Cognitive Complexity of 6 (exceeds 5 allowed). Consider refactoring. Open
def fields_to_xml(xml)
defined_builtin_fields.each do |field|
next if field_value(field.name).blank?
value = field_value(field.name)
- Read upRead up
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 field_value has a Cognitive Complexity of 6 (exceeds 5 allowed). Consider refactoring. Open
def field_value(name)
if extra_field?(name)
extra_fields && extra_fields[name]
elsif respond_to?(name)
value = public_send(name)- Read upRead up
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
Fields::Fields#fields_definitions_source is a writable attribute Open
attr_writer :fields_definitions_source- Read upRead up
- Exclude checks
A class that publishes a setter for an instance variable invites client classes to become too intimate with its inner workings, and in particular with its representation of state.
The same holds to a lesser extent for getters, but Reek doesn't flag those.
Example
Given:
class Klass
attr_accessor :dummy
endReek would emit the following warning:
reek test.rb
test.rb -- 1 warning:
[2]:Klass declares the writable attribute dummy (Attribute)Fields::Fields#defined_builtin_fields has the variable name 'f' Open
defined_fields.reject { |f| extra_field?(f.name) }- Read upRead up
- Exclude checks
An Uncommunicative Variable Name is a variable name that doesn't communicate its intent well enough.
Poor names make it hard for the reader to build a mental picture of what's going on in the code. They can also be mis-interpreted; and they hurt the flow of reading, because the reader must slow down to interpret the names.
Fields::Fields#defined_fields_hash has the variable name 'f' Open
@defined_fields_hash ||= Hash[defined_fields.map { |f| [f.name.to_sym, f]}]- Read upRead up
- Exclude checks
An Uncommunicative Variable Name is a variable name that doesn't communicate its intent well enough.
Poor names make it hard for the reader to build a mental picture of what's going on in the code. They can also be mis-interpreted; and they hurt the flow of reading, because the reader must slow down to interpret the names.