Method initialize
has a Cognitive Complexity of 135 (exceeds 8 allowed). Consider refactoring. Open
def initialize(_c, fs)
@users = []
@groups = []
# Extracted data also built into a human-readable format if uncommented
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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
File Win32Accounts.rb
has 593 lines of code (exceeds 250 allowed). Consider refactoring. Open
require 'manageiq/gems/pending'
require 'util/miq-xml'
require 'miq_unicode'
module MiqWin32
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Method process_users_v
has 145 lines of code (exceeds 25 allowed). Consider refactoring. Open
def process_users_v(data)
bin = MSRegHive.regBinaryToRawBinary(data)
header_size = SIZEOF_SAM_STRUCT_USERS_V_HEADER
v = BinaryStruct.decode(bin[0...header_size], SAM_STRUCT_USERS_V_HEADER)
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Cyclomatic complexity for initialize is too high. [39/11] Open
def initialize(_c, fs)
@users = []
@groups = []
# Extracted data also built into a human-readable format if uncommented
- Read upRead up
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- Exclude checks
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. Blocks that are calls to builtin iteration methods (e.g. `ary.map{...}) also add one, others are ignored.
def each_child_node(*types) # count begins: 1
unless block_given? # unless: +1
return to_enum(__method__, *types)
children.each do |child| # each{}: +1
next unless child.is_a?(Node) # unless: +1
yield child if types.empty? || # if: +1, ||: +1
types.include?(child.type)
end
self
end # total: 6
Method initialize
has 116 lines of code (exceeds 25 allowed). Consider refactoring. Open
def initialize(_c, fs)
@users = []
@groups = []
# Extracted data also built into a human-readable format if uncommented
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Method process_users_f
has a Cognitive Complexity of 33 (exceeds 8 allowed). Consider refactoring. Open
def process_users_f(data)
f = BinaryStruct.decode(MSRegHive.regBinaryToRawBinary(data), SAM_STRUCT_USERS_F)
@debug_str += " last_logon - %s - " % f['last_logon'].to_s if @debug_str
f['last_logon'] = process_users_f_date(f['last_logon'])
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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
Cyclomatic complexity for process_users_f_country_code is too high. [26/11] Open
def process_users_f_country_code(data)
country_code = case data
when 0 then 'System Default'
when 1 then 'United States'
when 2 then 'Canada (French)'
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- Exclude checks
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. Blocks that are calls to builtin iteration methods (e.g. `ary.map{...}) also add one, others are ignored.
def each_child_node(*types) # count begins: 1
unless block_given? # unless: +1
return to_enum(__method__, *types)
children.each do |child| # each{}: +1
next unless child.is_a?(Node) # unless: +1
yield child if types.empty? || # if: +1, ||: +1
types.include?(child.type)
end
self
end # total: 6
Cyclomatic complexity for process_users_f is too high. [24/11] Open
def process_users_f(data)
f = BinaryStruct.decode(MSRegHive.regBinaryToRawBinary(data), SAM_STRUCT_USERS_F)
@debug_str += " last_logon - %s - " % f['last_logon'].to_s if @debug_str
f['last_logon'] = process_users_f_date(f['last_logon'])
- Read upRead up
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- Exclude checks
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. Blocks that are calls to builtin iteration methods (e.g. `ary.map{...}) also add one, others are ignored.
def each_child_node(*types) # count begins: 1
unless block_given? # unless: +1
return to_enum(__method__, *types)
children.each do |child| # each{}: +1
next unless child.is_a?(Node) # unless: +1
yield child if types.empty? || # if: +1, ||: +1
types.include?(child.type)
end
self
end # total: 6
Method process_groups_c
has 67 lines of code (exceeds 25 allowed). Consider refactoring. Open
def process_groups_c(data)
bin = MSRegHive.regBinaryToRawBinary(data)
header_size = SIZEOF_SAM_STRUCT_GROUPS_C_HEADER
c = BinaryStruct.decode(bin, SAM_STRUCT_GROUPS_C_HEADER)
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Cyclomatic complexity for process_users_v is too high. [18/11] Open
def process_users_v(data)
bin = MSRegHive.regBinaryToRawBinary(data)
header_size = SIZEOF_SAM_STRUCT_USERS_V_HEADER
v = BinaryStruct.decode(bin[0...header_size], SAM_STRUCT_USERS_V_HEADER)
- Read upRead up
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- Exclude checks
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. Blocks that are calls to builtin iteration methods (e.g. `ary.map{...}) also add one, others are ignored.
def each_child_node(*types) # count begins: 1
unless block_given? # unless: +1
return to_enum(__method__, *types)
children.each do |child| # each{}: +1
next unless child.is_a?(Node) # unless: +1
yield child if types.empty? || # if: +1, ||: +1
types.include?(child.type)
end
self
end # total: 6
Method process_users_v
has a Cognitive Complexity of 19 (exceeds 8 allowed). Consider refactoring. Open
def process_users_v(data)
bin = MSRegHive.regBinaryToRawBinary(data)
header_size = SIZEOF_SAM_STRUCT_USERS_V_HEADER
v = BinaryStruct.decode(bin[0...header_size], SAM_STRUCT_USERS_V_HEADER)
- Read upRead up
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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
Method process_users_f_country_code
has 28 lines of code (exceeds 25 allowed). Consider refactoring. Open
def process_users_f_country_code(data)
country_code = case data
when 0 then 'System Default'
when 1 then 'United States'
when 2 then 'Canada (French)'
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Method process_groups_c
has a Cognitive Complexity of 13 (exceeds 8 allowed). Consider refactoring. Open
def process_groups_c(data)
bin = MSRegHive.regBinaryToRawBinary(data)
header_size = SIZEOF_SAM_STRUCT_GROUPS_C_HEADER
c = BinaryStruct.decode(bin, SAM_STRUCT_GROUPS_C_HEADER)
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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
Method process_users_f
has 27 lines of code (exceeds 25 allowed). Consider refactoring. Open
def process_users_f(data)
f = BinaryStruct.decode(MSRegHive.regBinaryToRawBinary(data), SAM_STRUCT_USERS_F)
@debug_str += " last_logon - %s - " % f['last_logon'].to_s if @debug_str
f['last_logon'] = process_users_f_date(f['last_logon'])
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Avoid deeply nested control flow statements. Open
if users_v.nil? || users_v['username'] != username
# Set the user_data to nil to signify a parsing problem
user_data = nil
$log.warn "Unable to process data for user account [#{username}]"
elsif !user_data.nil?
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Avoid more than 3 levels of block nesting. Open
if groups_c.nil? || groups_c['group_name'] != groupname
# Set the group_data to nil to signify a parsing problem
group_data = nil
elsif !group_data.nil?
group_data.merge!(groups_c)
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- Exclude checks
Checks for excessive nesting of conditional and looping constructs.
You can configure if blocks are considered using the CountBlocks
option. When set to false
(the default) blocks are not counted
towards the nesting level. Set to true
to count blocks as well.
The maximum level of nesting allowed is configurable.
Avoid more than 3 levels of block nesting. Open
found['groups'] << nh['name'] if found
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- Exclude checks
Checks for excessive nesting of conditional and looping constructs.
You can configure if blocks are considered using the CountBlocks
option. When set to false
(the default) blocks are not counted
towards the nesting level. Set to true
to count blocks as well.
The maximum level of nesting allowed is configurable.
Avoid more than 3 levels of block nesting. Open
if users_v.nil? || users_v['username'] != username
# Set the user_data to nil to signify a parsing problem
user_data = nil
$log.warn "Unable to process data for user account [#{username}]"
elsif !user_data.nil?
- Read upRead up
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- Exclude checks
Checks for excessive nesting of conditional and looping constructs.
You can configure if blocks are considered using the CountBlocks
option. When set to false
(the default) blocks are not counted
towards the nesting level. Set to true
to count blocks as well.
The maximum level of nesting allowed is configurable.
Avoid more than 3 levels of block nesting. Open
if users_f.nil?
# Set the user_data to nil to signify a parsing problem
user_data = nil
elsif !user_data.nil?
user_data.merge!(users_f)
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- Exclude checks
Checks for excessive nesting of conditional and looping constructs.
You can configure if blocks are considered using the CountBlocks
option. When set to false
(the default) blocks are not counted
towards the nesting level. Set to true
to count blocks as well.
The maximum level of nesting allowed is configurable.
Use nh["groupid"] = group_data['group_num']; nh["comment"] = group_data['group_desc']
instead of nh.merge!(
"groupid" => group_data['group_num'],
"comment" => group_data['group_desc']
)
. Open
nh.merge!(
"groupid" => group_data['group_num'],
"comment" => group_data['group_desc']
)
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- Exclude checks
This cop identifies places where Hash#merge!
can be replaced by
Hash#[]=
.
Example:
hash.merge!(a: 1)
hash.merge!({'key' => 'value'})
hash.merge!(a: 1, b: 2)
Avoid immutable Array literals in loops. It is better to extract it into a local variable or a constant. Open
if user_data["perm#{x}_sid"] && ["D\000\002\000", "\004\000\002\000"].include?(user_data["perm#{x}_perms"])
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- Exclude checks
Duplicate branch body detected. Open
when 3, 5, 7, 9, 11, 13, 15 then false # Account Disabled / Inactive"
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 2, 6, 8, 10, 12, 14 then true # Logon OK
- Read upRead up
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 4 then true # Lockout; Password Never Expires; Logon OK - Reset to X-4 though
- Read upRead up
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 10 then true # Password Never Expires; Logon OK
- Read upRead up
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 9, 11 then false # Logon error message 2
- Read upRead up
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 5, 7, 13, 15 then false # Logon error message 1
- Read upRead up
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- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 4 then true # Password Not Required; Logon OK
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 12 then true # Logon OK - Reset to X-4 though
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 2 then true # Never; GUI Setting; Password Never Expires; Logon OK
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 8 then true # Logon OK
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 6, 14 then true # Password Never Expires; Logon OK - Reset to X-4 though
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end
Duplicate branch body detected. Open
when 3, 7, 11, 15 then true # Password Never Expires; Logon Error Message"
- Read upRead up
- Create a ticketCreate a ticket
- Exclude checks
Checks that there are no repeated bodies
within if/unless
, case-when
, case-in
and rescue
constructs.
With IgnoreLiteralBranches: true
, branches are not registered
as offenses if they return a basic literal value (string, symbol,
integer, float, rational, complex, true
, false
, or nil
), or
return an array, hash, regexp or range that only contains one of
the above basic literal values.
With IgnoreConstantBranches: true
, branches are not registered
as offenses if they return a constant value.
Example:
# bad
if foo
do_foo
do_something_else
elsif bar
do_foo
do_something_else
end
# good
if foo || bar
do_foo
do_something_else
end
# bad
case x
when foo
do_foo
when bar
do_foo
else
do_something_else
end
# good
case x
when foo, bar
do_foo
else
do_something_else
end
# bad
begin
do_something
rescue FooError
handle_error
rescue BarError
handle_error
end
# good
begin
do_something
rescue FooError, BarError
handle_error
end
Example: IgnoreLiteralBranches: true
# good
case size
when "small" then 100
when "medium" then 250
when "large" then 1000
else 250
end
Example: IgnoreConstantBranches: true
# good
case size
when "small" then SMALL_SIZE
when "medium" then MEDIUM_SIZE
when "large" then LARGE_SIZE
else MEDIUM_SIZE
end