Method rate
has a Cognitive Complexity of 13 (exceeds 11 allowed). Consider refactoring. Open
def rate(event, cycle_duration = nil)
# Find tier (use context)
# Calculate value within tier
# For each tier used, calculate costs
value, groupment = event.get_group(group, field) # Returns group and the unit
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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
Avoid parameter lists longer than 5 parameters. [6/5] Open
def occurrence(tier, value, _group, _time_span, cycle_duration, date)
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- Exclude checks
Checks for methods with too many parameters.
The maximum number of parameters is configurable. Keyword arguments can optionally be excluded from the total count, as they add less complexity than positional or optional parameters.
Any number of arguments for initialize
method inside a block of
Struct.new
and Data.define
like this is always allowed:
Struct.new(:one, :two, :three, :four, :five, keyword_init: true) do
def initialize(one:, two:, three:, four:, five:)
end
end
This is because checking the number of arguments of the initialize
method
does not make sense.
NOTE: Explicit block argument &block
is not counted to prevent
erroneous change that is avoided by making block argument implicit.
Example: Max: 3
# good
def foo(a, b, c = 1)
end
Example: Max: 2
# bad
def foo(a, b, c = 1)
end
Example: CountKeywordArgs: true (default)
# counts keyword args towards the maximum
# bad (assuming Max is 3)
def foo(a, b, c, d: 1)
end
# good (assuming Max is 3)
def foo(a, b, c: 1)
end
Example: CountKeywordArgs: false
# don't count keyword args towards the maximum
# good (assuming Max is 3)
def foo(a, b, c, d: 1)
end
This cop also checks for the maximum number of optional parameters.
This can be configured using the MaxOptionalParameters
config option.
Example: MaxOptionalParameters: 3 (default)
# good
def foo(a = 1, b = 2, c = 3)
end
Example: MaxOptionalParameters: 2
# bad
def foo(a = 1, b = 2, c = 3)
end
Avoid parameter lists longer than 5 parameters. [6/5] Open
def rate_with_values(tier, value, group, time_span, cycle_duration, date = Time.current)
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- Exclude checks
Checks for methods with too many parameters.
The maximum number of parameters is configurable. Keyword arguments can optionally be excluded from the total count, as they add less complexity than positional or optional parameters.
Any number of arguments for initialize
method inside a block of
Struct.new
and Data.define
like this is always allowed:
Struct.new(:one, :two, :three, :four, :five, keyword_init: true) do
def initialize(one:, two:, three:, four:, five:)
end
end
This is because checking the number of arguments of the initialize
method
does not make sense.
NOTE: Explicit block argument &block
is not counted to prevent
erroneous change that is avoided by making block argument implicit.
Example: Max: 3
# good
def foo(a, b, c = 1)
end
Example: Max: 2
# bad
def foo(a, b, c = 1)
end
Example: CountKeywordArgs: true (default)
# counts keyword args towards the maximum
# bad (assuming Max is 3)
def foo(a, b, c, d: 1)
end
# good (assuming Max is 3)
def foo(a, b, c: 1)
end
Example: CountKeywordArgs: false
# don't count keyword args towards the maximum
# good (assuming Max is 3)
def foo(a, b, c, d: 1)
end
This cop also checks for the maximum number of optional parameters.
This can be configured using the MaxOptionalParameters
config option.
Example: MaxOptionalParameters: 3 (default)
# good
def foo(a = 1, b = 2, c = 3)
end
Example: MaxOptionalParameters: 2
# bad
def foo(a = 1, b = 2, c = 3)
end
Avoid parameter lists longer than 5 parameters. [6/5] Open
def duration(tier, value, group, time_span, cycle_duration, date)
- Read upRead up
- Exclude checks
Checks for methods with too many parameters.
The maximum number of parameters is configurable. Keyword arguments can optionally be excluded from the total count, as they add less complexity than positional or optional parameters.
Any number of arguments for initialize
method inside a block of
Struct.new
and Data.define
like this is always allowed:
Struct.new(:one, :two, :three, :four, :five, keyword_init: true) do
def initialize(one:, two:, three:, four:, five:)
end
end
This is because checking the number of arguments of the initialize
method
does not make sense.
NOTE: Explicit block argument &block
is not counted to prevent
erroneous change that is avoided by making block argument implicit.
Example: Max: 3
# good
def foo(a, b, c = 1)
end
Example: Max: 2
# bad
def foo(a, b, c = 1)
end
Example: CountKeywordArgs: true (default)
# counts keyword args towards the maximum
# bad (assuming Max is 3)
def foo(a, b, c, d: 1)
end
# good (assuming Max is 3)
def foo(a, b, c: 1)
end
Example: CountKeywordArgs: false
# don't count keyword args towards the maximum
# good (assuming Max is 3)
def foo(a, b, c, d: 1)
end
This cop also checks for the maximum number of optional parameters.
This can be configured using the MaxOptionalParameters
config option.
Example: MaxOptionalParameters: 3 (default)
# good
def foo(a = 1, b = 2, c = 3)
end
Example: MaxOptionalParameters: 2
# bad
def foo(a = 1, b = 2, c = 3)
end
Avoid parameter lists longer than 5 parameters. [6/5] Open
def quantity(tier, value, group, _time_span, cycle_duration, date)
- Read upRead up
- Exclude checks
Checks for methods with too many parameters.
The maximum number of parameters is configurable. Keyword arguments can optionally be excluded from the total count, as they add less complexity than positional or optional parameters.
Any number of arguments for initialize
method inside a block of
Struct.new
and Data.define
like this is always allowed:
Struct.new(:one, :two, :three, :four, :five, keyword_init: true) do
def initialize(one:, two:, three:, four:, five:)
end
end
This is because checking the number of arguments of the initialize
method
does not make sense.
NOTE: Explicit block argument &block
is not counted to prevent
erroneous change that is avoided by making block argument implicit.
Example: Max: 3
# good
def foo(a, b, c = 1)
end
Example: Max: 2
# bad
def foo(a, b, c = 1)
end
Example: CountKeywordArgs: true (default)
# counts keyword args towards the maximum
# bad (assuming Max is 3)
def foo(a, b, c, d: 1)
end
# good (assuming Max is 3)
def foo(a, b, c: 1)
end
Example: CountKeywordArgs: false
# don't count keyword args towards the maximum
# good (assuming Max is 3)
def foo(a, b, c, d: 1)
end
This cop also checks for the maximum number of optional parameters.
This can be configured using the MaxOptionalParameters
config option.
Example: MaxOptionalParameters: 3 (default)
# good
def foo(a = 1, b = 2, c = 3)
end
Example: MaxOptionalParameters: 2
# bad
def foo(a = 1, b = 2, c = 3)
end
Wrap expressions with varying precedence with parentheses to avoid ambiguity. Open
fix_inter * tier.fixed_rate + (value ? var_inter * tier.variable_rate : 0) # fixed always, variable if value
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- Exclude checks
Looks for expressions containing multiple binary operators
where precedence is ambiguous due to lack of parentheses. For example,
in 1 + 2 * 3
, the multiplication will happen before the addition, but
lexically it appears that the addition will happen first.
The cop does not consider unary operators (ie. !a
or -b
) or comparison
operators (ie. a =~ b
) because those are not ambiguous.
NOTE: Ranges are handled by Lint/AmbiguousRange
.
Example:
# bad
a + b * c
a || b && c
a ** b + c
# good (different precedence)
a + (b * c)
a || (b && c)
(a ** b) + c
# good (same precedence)
a + b + c
a * b / c % d