sorbet/rbi/gems/rubocop-ast@1.31.3.rbi
# typed: true
# DO NOT EDIT MANUALLY
# This is an autogenerated file for types exported from the `rubocop-ast` gem.
# Please instead update this file by running `bin/tapioca gem rubocop-ast`.
class Parser::Source::Range
include ::RuboCop::AST::Ext::Range
end
# source://rubocop-ast//lib/rubocop/ast/ext/range.rb#3
module RuboCop; end
# ...
#
# source://rubocop-ast//lib/rubocop/ast/ext/range.rb#4
module RuboCop::AST
extend ::RuboCop::AST::RuboCopCompatibility
end
# A node extension for `alias` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `alias` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/alias_node.rb#8
class RuboCop::AST::AliasNode < ::RuboCop::AST::Node
# Returns the new identifier as specified by the `alias`.
#
# @return [SymbolNode] the new identifier
#
# source://rubocop-ast//lib/rubocop/ast/node/alias_node.rb#19
def new_identifier; end
# Returns the old identifier as specified by the `alias`.
#
# @return [SymbolNode] the old identifier
#
# source://rubocop-ast//lib/rubocop/ast/node/alias_node.rb#12
def old_identifier; end
end
# A node extension for `op_asgn` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all assignment nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/and_asgn_node.rb#8
class RuboCop::AST::AndAsgnNode < ::RuboCop::AST::OpAsgnNode
# The operator being used for assignment as a symbol.
#
# @return [Symbol] the assignment operator
#
# source://rubocop-ast//lib/rubocop/ast/node/and_asgn_node.rb#12
def operator; end
end
# A node extension for `until` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `until` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/and_node.rb#8
class RuboCop::AST::AndNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BinaryOperatorNode
include ::RuboCop::AST::PredicateOperatorNode
# Returns the alternate operator of the `and` as a string.
# Returns `and` for `&&` and vice versa.
#
# @return [String] the alternate of the `and` operator
#
# source://rubocop-ast//lib/rubocop/ast/node/and_node.rb#16
def alternate_operator; end
# Returns the inverse keyword of the `and` node as a string.
# Returns `||` for `&&` and `or` for `and`.
#
# @return [String] the inverse of the `and` operator
#
# source://rubocop-ast//lib/rubocop/ast/node/and_node.rb#24
def inverse_operator; end
end
# A node extension for `arg`, `optarg`, `restarg`, `kwarg`, `kwoptarg`,
# `kwrestarg`, `blockarg`, `shadowarg` and `forward_arg` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all `arg` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/arg_node.rb#9
class RuboCop::AST::ArgNode < ::RuboCop::AST::Node
# Checks whether the argument has a default value
#
# @return [Boolean] whether the argument has a default value
#
# source://rubocop-ast//lib/rubocop/ast/node/arg_node.rb#29
def default?; end
# Returns the default value of the argument, if any.
#
# @return [Node, nil] the default value of the argument
#
# source://rubocop-ast//lib/rubocop/ast/node/arg_node.rb#20
def default_value; end
# Returns the name of an argument.
#
# @return [Symbol, nil] the name of the argument
#
# source://rubocop-ast//lib/rubocop/ast/node/arg_node.rb#13
def name; end
end
# A node extension for `args` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `args` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/args_node.rb#8
class RuboCop::AST::ArgsNode < ::RuboCop::AST::Node
include ::RuboCop::AST::CollectionNode
# Yield each argument from the collection.
# Arguments can be inside `mlhs` nodes in the case of destructuring, so this
# flattens the collection to just `arg`, `optarg`, `restarg`, `kwarg`,
# `kwoptarg`, `kwrestarg`, `blockarg`, `forward_arg` and `shadowarg`.
#
# @return [Array<Node>] array of argument nodes.
#
# source://rubocop-ast//lib/rubocop/ast/node/args_node.rb#34
def argument_list; end
# It returns true if arguments are empty and delimiters do not exist.
# @example:
# # true
# def x; end
# x { }
# -> {}
#
# # false
# def x(); end
# def x a; end
# x { || }
# -> () {}
# -> a {}
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/args_node.rb#24
def empty_and_without_delimiters?; end
end
# A node extension for `array` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `array` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#8
class RuboCop::AST::ArrayNode < ::RuboCop::AST::Node
# Checks whether the `array` literal is delimited by either percent or
# square brackets
#
# brackets
#
# @return [Boolean] whether the array is enclosed in percent or square
#
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#60
def bracketed?; end
# @deprecated Use `values.each` (a.k.a. `children.each`)
#
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#21
def each_value(&block); end
# Checks whether the `array` literal is delimited by percent brackets.
#
# @overload percent_literal?
# @overload percent_literal?
# @return [Boolean] whether the array is enclosed in percent brackets
#
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#47
def percent_literal?(type = T.unsafe(nil)); end
# Checks whether the `array` literal is delimited by square brackets.
#
# @return [Boolean] whether the array is enclosed in square brackets
#
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#32
def square_brackets?; end
# Returns an array of all value nodes in the `array` literal.
#
# @return [Array<Node>] an array of value nodes
#
# source://ast/2.4.2/lib/ast/node.rb#56
def values; end
end
# source://rubocop-ast//lib/rubocop/ast/node/array_node.rb#9
RuboCop::AST::ArrayNode::PERCENT_LITERAL_TYPES = T.let(T.unsafe(nil), Hash)
# A node extension for `lvasgn`, `ivasgn`, `cvasgn`, and `gvasgn` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all assignment nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/asgn_node.rb#8
class RuboCop::AST::AsgnNode < ::RuboCop::AST::Node
# The expression being assigned to the variable.
#
# @return [Node] the expression being assigned.
#
# source://rubocop-ast//lib/rubocop/ast/node/asgn_node.rb#19
def expression; end
# The name of the variable being assigned as a symbol.
#
# @return [Symbol] the name of the variable being assigned
#
# source://rubocop-ast//lib/rubocop/ast/node/asgn_node.rb#12
def name; end
end
# Common functionality for primitive literal nodes: `sym`, `str`,
# `int`, `float`, ...
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/basic_literal_node.rb#7
module RuboCop::AST::BasicLiteralNode
# Returns the value of the literal.
#
# @return [mixed] the value of the literal
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/basic_literal_node.rb#11
def value; end
end
# Common functionality for nodes that are binary operations:
# `or`, `and` ...
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/binary_operator_node.rb#7
module RuboCop::AST::BinaryOperatorNode
# Returns all of the conditions, including nested conditions,
# of the binary operation.
#
# operation and the let and right hand side of any nested binary
# operators
#
# @return [Array<Node>] the left and right hand side of the binary
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/binary_operator_node.rb#28
def conditions; end
# Returns the left hand side node of the binary operation.
#
# @return [Node] the left hand side of the binary operation
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/binary_operator_node.rb#11
def lhs; end
# Returns the right hand side node of the binary operation.
#
# @return [Node] the right hand side of the binary operation
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/binary_operator_node.rb#18
def rhs; end
end
# A node extension for `block` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `send` nodes within RuboCop.
#
# A `block` node is essentially a method send with a block. Parser nests
# the `send` node inside the `block` node.
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#11
class RuboCop::AST::BlockNode < ::RuboCop::AST::Node
include ::RuboCop::AST::MethodIdentifierPredicates
# Returns a collection of all descendants of this node that are
# argument type nodes. See `ArgsNode#argument_list` for details.
#
# @return [Array<Node>]
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#60
def argument_list; end
# The arguments of this block.
# Note that if the block has destructured arguments, `arguments` will
# return a `mlhs` node, whereas `argument_list` will return only
# actual argument nodes.
#
# @return [Array<Node>]
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#48
def arguments; end
# Checks whether this block takes any arguments.
#
# @return [Boolean] whether this `block` node takes any arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#85
def arguments?; end
# The body of this block.
#
# @return [Node, nil] the body of the `block` node or `nil`
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#71
def body; end
# Checks whether the `block` literal is delimited by curly braces.
#
# @return [Boolean] whether the `block` literal is enclosed in braces
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#92
def braces?; end
# The closing delimiter for this `block` literal.
#
# @return [String] the closing delimiter for the `block` literal
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#120
def closing_delimiter; end
# The delimiters for this `block` literal.
#
# @return [Array<String>] the delimiters for the `block` literal
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#106
def delimiters; end
# A shorthand for getting the first argument of this block.
# Equivalent to `arguments.first`.
#
# @return [Node, nil] the first argument of this block,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#29
def first_argument; end
# Checks whether the `block` literal is delimited by `do`-`end` keywords.
#
# @return [Boolean] whether the `block` literal is enclosed in `do`-`end`
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#99
def keywords?; end
# Checks whether this `block` literal belongs to a lambda.
#
# @return [Boolean] whether the `block` literal belongs to a lambda
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#143
def lambda?; end
# A shorthand for getting the last argument of this block.
# Equivalent to `arguments.last`.
#
# @return [Node, nil] the last argument of this block,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#38
def last_argument; end
# The name of the dispatched method as a symbol.
#
# @return [Symbol] the name of the dispatched method
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#78
def method_name; end
# Checks whether this is a multiline block. This is overridden here
# because the general version in `Node` does not work for `block` nodes.
#
# @return [Boolean] whether the `block` literal is on a several lines
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#136
def multiline?; end
# The opening delimiter for this `block` literal.
#
# @return [String] the opening delimiter for the `block` literal
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#113
def opening_delimiter; end
# The `send` node associated with this block.
#
# @return [SendNode] the `send` node associated with the `block` node
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#20
def send_node; end
# Checks whether this is a single line block. This is overridden here
# because the general version in `Node` does not work for `block` nodes.
#
# @return [Boolean] whether the `block` literal is on a single line
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#128
def single_line?; end
# Checks whether this node body is a void context.
#
# @return [Boolean] whether the `block` node body is a void context
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#150
def void_context?; end
private
# Numbered arguments of this `numblock`.
#
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#157
def numbered_arguments; end
end
# source://rubocop-ast//lib/rubocop/ast/node/block_node.rb#14
RuboCop::AST::BlockNode::VOID_CONTEXT_METHODS = T.let(T.unsafe(nil), Array)
# A node extension for `break` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `break` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/break_node.rb#8
class RuboCop::AST::BreakNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::WrappedArguments
end
# `RuboCop::AST::Builder` is an AST builder that is utilized to let `Parser`
# generate ASTs with {RuboCop::AST::Node}.
#
# @example
# buffer = Parser::Source::Buffer.new('(string)')
# buffer.source = 'puts :foo'
#
# builder = RuboCop::AST::Builder.new
# require 'parser/ruby25'
# parser = Parser::Ruby25.new(builder)
# root_node = parser.parse(buffer)
#
# source://rubocop-ast//lib/rubocop/ast/builder.rb#16
class RuboCop::AST::Builder < ::Parser::Builders::Default
# Generates {Node} from the given information.
#
# @return [Node] the generated node
#
# source://rubocop-ast//lib/rubocop/ast/builder.rb#98
def n(type, children, source_map); end
# TODO: Figure out what to do about literal encoding handling...
# More details here https://github.com/whitequark/parser/issues/283
#
# source://rubocop-ast//lib/rubocop/ast/builder.rb#104
def string_value(token); end
private
# source://rubocop-ast//lib/rubocop/ast/builder.rb#110
def node_klass(type); end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/builder.rb#21
RuboCop::AST::Builder::NODE_MAP = T.let(T.unsafe(nil), Hash)
# A node extension for `case_match` nodes. This will be used in place of
# a plain node when the builder constructs the AST, making its methods
# available to all `case_match` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#8
class RuboCop::AST::CaseMatchNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ConditionalNode
# Returns an array of all the when branches in the `case` statement.
#
# and the `else` (if any). Note that these bodies could be nil.
#
# @return [Array<Node, nil>] an array of the bodies of the `in` branches
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#38
def branches; end
# @deprecated Use `in_pattern_branches.each`
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#19
def each_in_pattern(&block); end
# Checks whether this case statement has an `else` branch.
#
# @return [Boolean] whether the `case` statement has an `else` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#59
def else?; end
# Returns the else branch of the `case` statement, if any.
#
# @return [Node] the else branch node of the `case` statement
# @return [EmptyElse] the empty else branch node of the `case` statement
# @return [nil] if the case statement does not have an else branch.
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#52
def else_branch; end
# Returns an array of all the `in` pattern branches in the `case` statement.
#
# @return [Array<InPatternNode>] an array of `in_pattern` nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#30
def in_pattern_branches; end
# Returns the keyword of the `case` statement as a string.
#
# @return [String] the keyword of the `case` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/case_match_node.rb#14
def keyword; end
end
# A node extension for `case` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `case` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#8
class RuboCop::AST::CaseNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ConditionalNode
# Returns an array of all the when branches in the `case` statement.
#
# and the else (if any). Note that these bodies could be nil.
#
# @return [Array<Node, nil>] an array of the bodies of the when branches
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#38
def branches; end
# @deprecated Use `when_branches.each`
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#19
def each_when(&block); end
# Checks whether this case statement has an `else` branch.
#
# @return [Boolean] whether the `case` statement has an `else` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#55
def else?; end
# Returns the else branch of the `case` statement, if any.
#
# @return [Node] the else branch node of the `case` statement
# @return [nil] if the case statement does not have an else branch.
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#48
def else_branch; end
# Returns the keyword of the `case` statement as a string.
#
# @return [String] the keyword of the `case` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#14
def keyword; end
# Returns an array of all the when branches in the `case` statement.
#
# @return [Array<WhenNode>] an array of `when` nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/case_node.rb#30
def when_branches; end
end
# A node extension for `casgn` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all assignment nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/casgn_node.rb#8
class RuboCop::AST::CasgnNode < ::RuboCop::AST::Node
# The expression being assigned to the variable.
#
# @return [Node] the expression being assigned.
#
# source://rubocop-ast//lib/rubocop/ast/node/casgn_node.rb#26
def expression; end
# The name of the variable being assigned as a symbol.
#
# @return [Symbol] the name of the variable being assigned
#
# source://rubocop-ast//lib/rubocop/ast/node/casgn_node.rb#19
def name; end
# The namespace of the constant being assigned.
#
# @return [Node, nil] the node associated with the scope (e.g. cbase, const, ...)
#
# source://rubocop-ast//lib/rubocop/ast/node/casgn_node.rb#12
def namespace; end
end
# A node extension for `class` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `class` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/class_node.rb#8
class RuboCop::AST::ClassNode < ::RuboCop::AST::Node
# The body of this `class` node.
#
# @return [Node, nil] the body of the class
#
# source://rubocop-ast//lib/rubocop/ast/node/class_node.rb#26
def body; end
# The identifier for this `class` node.
#
# @return [Node] the identifier of the class
#
# source://rubocop-ast//lib/rubocop/ast/node/class_node.rb#12
def identifier; end
# The parent class for this `class` node.
#
# @return [Node, nil] the parent class of the class
#
# source://rubocop-ast//lib/rubocop/ast/node/class_node.rb#19
def parent_class; end
end
# A mixin that helps give collection nodes array polymorphism.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/collection_node.rb#6
module RuboCop::AST::CollectionNode
extend ::Forwardable
# source://forwardable/1.3.3/forwardable.rb#231
def &(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def *(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def +(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def -(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def <<(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def [](*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def []=(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def all?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def any?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def append(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def assoc(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def at(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def bsearch(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def bsearch_index(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def chain(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def chunk(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def chunk_while(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def clear(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def collect(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def collect!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def collect_concat(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def combination(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def compact(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def compact!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def compact_blank(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def compact_blank!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def concat(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def count(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def cycle(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def deconstruct(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def delete(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def delete_at(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def delete_if(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def detect(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def difference(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def dig(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def drop(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def drop_while(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_cons(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_entry(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_index(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_slice(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_with_index(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def each_with_object(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def empty?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def entries(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def exclude?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def excluding(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def extract!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def extract_options!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def fetch(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def fifth(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def fill(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def filter(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def filter!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def filter_map(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def find(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def find_all(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def find_index(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def first(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def flat_map(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def flatten(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def flatten!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def forty_two(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def fourth(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def from(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def grep(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def grep_v(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def group_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def in_groups(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def in_groups_of(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def in_order_of(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def include?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def including(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def index(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def index_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def index_with(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def inject(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def inquiry(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def insert(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def intersect?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def intersection(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def join(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def keep_if(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def last(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def lazy(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def length(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def many?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def map(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def map!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def max(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def max_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def maximum(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def member?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def min(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def min_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def minimum(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def minmax(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def minmax_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def none?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def one?(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def pack(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def partition(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def permutation(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def pick(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def place(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def pluck(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def pop(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def prepend(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def product(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def push(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def rassoc(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reduce(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reject(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reject!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def repeated_combination(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def repeated_permutation(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def replace(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reverse(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reverse!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def reverse_each(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def rindex(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def rotate(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def rotate!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sample(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def second(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def second_to_last(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def select(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def select!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def shelljoin(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def shift(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def shuffle(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def shuffle!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def size(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def slice(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def slice!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def slice_after(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def slice_before(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def slice_when(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sole(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sort(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sort!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sort_by(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sort_by!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def split(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def sum(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def take(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def take_while(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def tally(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def third(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def third_to_last(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_ary(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_csv(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_default_s(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_formatted_s(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_fs(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_h(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_msgpack(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_sentence(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_set(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def to_xml(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def transpose(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def union(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def uniq(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def uniq!(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def unshift(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def values_at(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def without(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def zip(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def |(*args, **_arg1, &block); end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/collection_node.rb#9
RuboCop::AST::CollectionNode::ARRAY_METHODS = T.let(T.unsafe(nil), Array)
# Common functionality for nodes that have conditions:
# `if`, `while`, `until`, `case`.
# This currently doesn't include `when` nodes, because they have multiple
# conditions, and need to be checked for that.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/conditional_node.rb#9
module RuboCop::AST::ConditionalNode
# Returns the body associated with the condition. This works together with
# each node's custom destructuring method to select the correct part of
# the node.
#
# @note For `if` nodes, this is the truthy branch.
# @return [Node, nil] the body of the node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/conditional_node.rb#40
def body; end
# Returns the condition of the node. This works together with each node's
# custom destructuring method to select the correct part of the node.
#
# @return [Node, nil] the condition of the node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/conditional_node.rb#29
def condition; end
# Checks whether the condition of the node is written on more than
# one line.
#
# @return [Boolean] whether the condition is on more than one line
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/conditional_node.rb#21
def multiline_condition?; end
# Checks whether the condition of the node is written on a single line.
#
# @return [Boolean] whether the condition is on a single line
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/conditional_node.rb#13
def single_line_condition?; end
end
# A node extension for `const` nodes.
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#6
class RuboCop::AST::ConstNode < ::RuboCop::AST::Node
# @return [Boolean] if the constant starts with `::` (aka s(:cbase))
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#26
def absolute?; end
# @return [Boolean] if the constant is a Module / Class, according to the standard convention.
# Note: some classes might have uppercase in which case this method
# returns false
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#20
def class_name?; end
# Yield nodes for the namespace
#
# For `::Foo::Bar::BAZ` => yields:
# s(:cbase), then
# s(:const, :Foo), then
# s(:const, s(:const, :Foo), :Bar)
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#43
def each_path(&block); end
# @return [Boolean] if the constant is a Module / Class, according to the standard convention.
# Note: some classes might have uppercase in which case this method
# returns false
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#20
def module_name?; end
# @return [Node, nil] the node associated with the scope (e.g. cbase, const, ...)
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#8
def namespace; end
# @return [Boolean] if the constant does not start with `::` (aka s(:cbase))
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#33
def relative?; end
# @return [Symbol] the demodulized name of the constant: "::Foo::Bar" => :Bar
#
# source://rubocop-ast//lib/rubocop/ast/node/const_node.rb#13
def short_name; end
end
# A node extension for `csend` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `csend` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/csend_node.rb#8
class RuboCop::AST::CsendNode < ::RuboCop::AST::SendNode
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/csend_node.rb#9
def send_type?; end
end
# A node extension for `def` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `def` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#8
class RuboCop::AST::DefNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::MethodIdentifierPredicates
# Checks whether this method definition node forwards its arguments
# as per the feature added in Ruby 2.7.
#
# @note This is written in a way that may support lead arguments
# which are rumored to be added in a later version of Ruby.
# @return [Boolean] whether the `def` node uses argument forwarding
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#26
def argument_forwarding?; end
# An array containing the arguments of the method definition.
#
# @return [Array<Node>] the arguments of the method definition
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#40
def arguments; end
# The body of the method definition.
#
# @note this can be either a `begin` node, if the method body contains
# multiple expressions, or any other node, if it contains a single
# expression.
# @return [Node] the body of the method definition
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#51
def body; end
# @return [Boolean] if the definition is without an `end` or not.
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#63
def endless?; end
# The name of the defined method as a symbol.
#
# @return [Symbol] the name of the defined method
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#33
def method_name; end
# The receiver of the method definition, if any.
#
# @return [Node, nil] the receiver of the method definition, or `nil`.
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#58
def receiver; end
# Checks whether this node body is a void context.
#
# @return [Boolean] whether the `def` node body is a void context
#
# source://rubocop-ast//lib/rubocop/ast/node/def_node.rb#15
def void_context?; end
end
# A node extension for `defined?` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `send` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/defined_node.rb#8
class RuboCop::AST::DefinedNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# source://ast/2.4.2/lib/ast/node.rb#56
def arguments; end
# source://rubocop-ast//lib/rubocop/ast/node/defined_node.rb#12
def node_parts; end
end
# Common functionality for primitive literal nodes: `sym`, `str`,
# `int`, `float`, ...
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#7
module RuboCop::AST::Descendence
# Returns an array of child nodes.
# This is a shorthand for `node.each_child_node.to_a`.
#
# @return [Array<Node>] an array of child nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#38
def child_nodes; end
# Returns an array of descendant nodes.
# This is a shorthand for `node.each_descendant.to_a`.
#
# @return [Array<Node>] an array of descendant nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#72
def descendants; end
# Calls the given block for each child node.
# If no block is given, an `Enumerator` is returned.
#
# Note that this is different from `node.children.each { |child| ... }`
# which yields all children including non-node elements.
#
# @overload each_child_node
# @overload each_child_node
# @return [self] if a block is given
# @return [Enumerator] if no block is given
# @yieldparam node [Node] each child node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#22
def each_child_node(*types); end
# Calls the given block for each descendant node with depth first order.
# If no block is given, an `Enumerator` is returned.
#
# @overload each_descendant
# @overload each_descendant
# @overload each_descendant
# @return [self] if a block is given
# @return [Enumerator] if no block is given
# @yieldparam node [Node] each descendant node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#60
def each_descendant(*types, &block); end
# Calls the given block for the receiver and each descendant node in
# depth-first order.
# If no block is given, an `Enumerator` is returned.
#
# This method would be useful when you treat the receiver node as the root
# of a tree and want to iterate over all nodes in the tree.
#
# @overload each_node
# @overload each_node
# @overload each_node
# @return [self] if a block is given
# @return [Enumerator] if no block is given
# @yieldparam node [Node] each node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#95
def each_node(*types, &block); end
protected
# source://rubocop-ast//lib/rubocop/ast/node/mixin/descendence.rb#107
def visit_descendants(types, &block); end
end
# A node extension for `dstr` nodes. This will be used
# in place of a plain node when the builder constructs the AST, making
# its methods available to all `dstr` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/dstr_node.rb#8
class RuboCop::AST::DstrNode < ::RuboCop::AST::StrNode
# source://rubocop-ast//lib/rubocop/ast/node/dstr_node.rb#9
def value; end
end
# A node extension for `ensure` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `ensure` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/ensure_node.rb#8
class RuboCop::AST::EnsureNode < ::RuboCop::AST::Node
# Returns the body of the `ensure` clause.
#
# @return [Node, nil] The body of the `ensure`.
#
# source://rubocop-ast//lib/rubocop/ast/node/ensure_node.rb#12
def body; end
end
# source://rubocop-ast//lib/rubocop/ast/ext/range.rb#5
module RuboCop::AST::Ext; end
# Extensions to Parser::AST::Range
#
# source://rubocop-ast//lib/rubocop/ast/ext/range.rb#7
module RuboCop::AST::Ext::Range
# If `exclude_end` is `true`, then the range will be exclusive.
#
# Assume that `node` corresponds to the following array literal:
#
# [
# :foo,
# :bar
# ]
#
# node.loc.begin.line_span # => 1..1
# node.source_range.line_span(exclude_end: true) # => 1...4
#
# @return [Range] the range of line numbers for the node
#
# source://rubocop-ast//lib/rubocop/ast/ext/range.rb#20
def line_span(exclude_end: T.unsafe(nil)); end
end
# Refinement to circumvent broken `Range#minmax` for infinity ranges in 2.6-
#
# source://rubocop-ast//lib/rubocop/ast/ext/range_min_max.rb#7
module RuboCop::AST::Ext::RangeMinMax; end
# A node extension for `float` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available to
# all `float` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/float_node.rb#8
class RuboCop::AST::FloatNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BasicLiteralNode
include ::RuboCop::AST::NumericNode
end
# A node extension for `for` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `for` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#8
class RuboCop::AST::ForNode < ::RuboCop::AST::Node
# Returns the body of the `for` loop.
#
# @return [Node, nil] The body of the `for` loop.
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#48
def body; end
# Returns the collection the `for` loop is iterating over.
#
# @return [Node] The collection the `for` loop is iterating over
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#41
def collection; end
# Checks whether the `for` node has a `do` keyword.
#
# @return [Boolean] whether the `for` node has a `do` keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#19
def do?; end
# Returns the keyword of the `for` statement as a string.
#
# @return [String] the keyword of the `until` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#12
def keyword; end
# Returns the iteration variable of the `for` loop.
#
# @return [Node] The iteration variable of the `for` loop
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#34
def variable; end
# Checks whether this node body is a void context.
# Always `true` for `for`.
#
# @return [true] whether the `for` node body is a void context
#
# source://rubocop-ast//lib/rubocop/ast/node/for_node.rb#27
def void_context?; end
end
# A node extension for `forward-args` nodes. This will be used in place
# of a plain node when the builder constructs the AST, making its methods
# available to all `forward-args` nodes within RuboCop.
#
# Not used with modern emitters:
#
# $ ruby-parse -e "def foo(...); end"
# (def :foo
# (args
# (forward-arg)) nil)
# $ ruby-parse --legacy -e "->(foo) { bar }"
# (def :foo
# (forward-args) nil)
#
# Note the extra 's' with legacy form.
#
# The main RuboCop runs in legacy mode; this node is only used
# if user `AST::Builder.modernize` or `AST::Builder.emit_lambda=true`
#
# source://rubocop-ast//lib/rubocop/ast/node/forward_args_node.rb#23
class RuboCop::AST::ForwardArgsNode < ::RuboCop::AST::Node
include ::RuboCop::AST::CollectionNode
# Node wraps itself in an array to be compatible with other
# enumerable argument types.
#
# source://rubocop-ast//lib/rubocop/ast/node/forward_args_node.rb#28
def to_a; end
end
# Common functionality for nodes that can be used as hash elements:
# `pair`, `kwsplat`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#7
module RuboCop::AST::HashElementNode
# Returns the delta between this element's delimiter and the argument's.
#
# @note Pairs with different delimiter styles return a delta of 0
# @return [Integer] the delta between the two delimiters
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#61
def delimiter_delta(other); end
# Returns the key of this `hash` element.
#
# @note For keyword splats, this returns the whole node
# @return [Node] the key of the hash element
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#13
def key; end
# Returns the delta between this pair's key and the argument pair's.
#
# @note Keys on the same line always return a delta of 0
# @note Keyword splats always return a delta of 0 for right alignment
# @param alignment [Symbol] whether to check the left or right side
# @return [Integer] the delta between the two keys
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#43
def key_delta(other, alignment = T.unsafe(nil)); end
# Checks whether this `hash` element is on the same line as `other`.
#
# @note A multiline element is considered to be on the same line if it
# shares any of its lines with `other`
# @return [Boolean] whether this element is on the same line as `other`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#32
def same_line?(other); end
# Returns the value of this `hash` element.
#
# @note For keyword splats, this returns the whole node
# @return [Node] the value of the hash element
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#22
def value; end
# Returns the delta between this element's value and the argument's.
#
# @note Keyword splats always return a delta of 0
# @return [Integer] the delta between the two values
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#52
def value_delta(other); end
end
# A helper class for comparing the positions of different parts of a
# `pair` node.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#67
class RuboCop::AST::HashElementNode::HashElementDelta
# @raise [ArgumentError]
# @return [HashElementDelta] a new instance of HashElementDelta
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#68
def initialize(first, second); end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#89
def delimiter_delta; end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#75
def key_delta(alignment = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#82
def value_delta; end
private
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#106
def delta(first, second, alignment = T.unsafe(nil)); end
# Returns the value of attribute first.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#98
def first; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#117
def keyword_splat?; end
# Returns the value of attribute second.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#98
def second; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/hash_element_node.rb#100
def valid_argument_types?; end
end
# A node extension for `hash` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `hash` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#8
class RuboCop::AST::HashNode < ::RuboCop::AST::Node
# Checks whether the `hash` literal is delimited by curly braces.
#
# @return [Boolean] whether the `hash` literal is enclosed in braces
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#117
def braces?; end
# Calls the given block for each `key` node in the `hash` literal.
# If no block is given, an `Enumerator` is returned.
#
# @note `kwsplat` nodes are ignored.
# @return [self] if a block is given
# @return [Enumerator] if no block is given
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#59
def each_key(&block); end
# Calls the given block for each `pair` node in the `hash` literal.
# If no block is given, an `Enumerator` is returned.
#
# @note `kwsplat` nodes are ignored.
# @return [self] if a block is given
# @return [Enumerator] if no block is given
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#33
def each_pair; end
# Calls the given block for each `value` node in the `hash` literal.
# If no block is given, an `Enumerator` is returned.
#
# @note `kwsplat` nodes are ignored.
# @return [self] if a block is given
# @return [Enumerator] if no block is given
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#83
def each_value(&block); end
# Checks whether the `hash` node contains any `pair`- or `kwsplat` nodes.
#
# @return[Boolean] whether the `hash` is empty
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#22
def empty?; end
# Returns an array of all the keys in the `hash` literal.
#
# @note `kwsplat` nodes are ignored.
# @return [Array<Node>] an array of keys in the `hash` literal
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#48
def keys; end
# Checks whether this `hash` uses a mix of hash rocket and colon
# delimiters for its pairs.
#
# @note `kwsplat` nodes are ignored.
# @return [Boolean] whether the `hash` uses mixed delimiters
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#110
def mixed_delimiters?; end
# Returns an array of all the key value pairs in the `hash` literal.
#
# ignored.
#
# @note this may be different from children as `kwsplat` nodes are
# @return [Array<PairNode>] an array of `pair` nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#15
def pairs; end
# Checks whether any of the key value pairs in the `hash` literal are on
# the same line.
#
# @note A multiline `pair` is considered to be on the same line if it
# shares any of its lines with another `pair`
# @note `kwsplat` nodes are ignored.
# @return [Boolean] whether any `pair` nodes are on the same line
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#100
def pairs_on_same_line?; end
# Returns an array of all the values in the `hash` literal.
#
# @note `kwsplat` nodes are ignored.
# @return [Array<Node>] an array of values in the `hash` literal
#
# source://rubocop-ast//lib/rubocop/ast/node/hash_node.rb#72
def values; end
end
# A node extension for `if` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `if` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#8
class RuboCop::AST::IfNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ConditionalNode
include ::RuboCop::AST::ModifierNode
# Returns an array of all the branches in the conditional statement.
#
# @return [Array<Node>] an array of branch nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#147
def branches; end
# @deprecated Use `branches.each`
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#164
def each_branch(&block); end
# Checks whether the `if` node has an `else` clause.
#
# @note This returns `true` for nodes containing an `elsif` clause.
# This is legacy behavior, and many cops rely on it.
# @return [Boolean] whether the node has an `else` clause
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#42
def else?; end
# Returns the branch of the `if` node that gets evaluated when its
# condition is falsey.
#
# @note This is normalized for `unless` nodes.
# @return [Node] the falsey branch node of the `if` node
# @return [nil] when there is no else branch
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#126
def else_branch; end
# Checks whether the `if` is an `elsif`. Parser handles these by nesting
# `if` nodes in the `else` branch.
#
# @return [Boolean] whether the node is an `elsif`
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#32
def elsif?; end
# Checks whether the `if` node has at least one `elsif` branch. Returns
# true if this `if` node itself is an `elsif`.
#
# @return [Boolean] whether the `if` node has at least one `elsif` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#104
def elsif_conditional?; end
# Checks whether this node is an `if` statement. (This is not true of
# ternary operators and `unless` statements.)
#
# @return [Boolean] whether the node is an `if` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#16
def if?; end
# Returns the branch of the `if` node that gets evaluated when its
# condition is truthy.
#
# @note This is normalized for `unless` nodes.
# @return [Node] the truthy branch node of the `if` node
# @return [nil] if the truthy branch is empty
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#115
def if_branch; end
# Returns the inverse keyword of the `if` node as a string. Returns `if`
# for `unless` nodes and vice versa. Returns an empty string for ternary
# operators.
#
# @return [String] the inverse keyword of the `if` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#66
def inverse_keyword; end
# Returns the keyword of the `if` statement as a string. Returns an empty
# string for ternary operators.
#
# @return [String] the keyword of the `if` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#57
def keyword; end
# Checks whether the `if` node is in a modifier form, i.e. a condition
# trailing behind an expression. Only `if` and `unless` nodes without
# other branches can be modifiers.
#
# @return [Boolean] whether the `if` node is a modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#80
def modifier_form?; end
# Checks whether the `if` node has nested `if` nodes in any of its
# branches.
#
# @note This performs a shallow search.
# @return [Boolean] whether the `if` node contains nested conditionals
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#90
def nested_conditional?; end
# Custom destructuring method. This is used to normalize the branches
# for `if` and `unless` nodes, to aid comparisons and conversions.
#
# @return [Array<Node>] the different parts of the `if` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#134
def node_parts; end
# Checks whether the `if` node is a ternary operator.
#
# @return [Boolean] whether the `if` node is a ternary operator
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#49
def ternary?; end
# Checks whether this node is an `unless` statement. (This is not true
# of ternary operators and `if` statements.)
#
# @return [Boolean] whether the node is an `unless` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/if_node.rb#24
def unless?; end
end
# A node extension for `in` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `in` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/in_pattern_node.rb#8
class RuboCop::AST::InPatternNode < ::RuboCop::AST::Node
# Returns the body of the `in` node.
#
# @return [Node, nil] the body of the `in` node
#
# source://rubocop-ast//lib/rubocop/ast/node/in_pattern_node.rb#33
def body; end
# Returns the index of the `in` branch within the `case` statement.
#
# @return [Integer] the index of the `in` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/in_pattern_node.rb#19
def branch_index; end
# Returns a node of the pattern in the `in` branch.
#
# @return [Node] a pattern node
#
# source://rubocop-ast//lib/rubocop/ast/node/in_pattern_node.rb#12
def pattern; end
# Checks whether the `in` node has a `then` keyword.
#
# @return [Boolean] whether the `in` node has a `then` keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/in_pattern_node.rb#26
def then?; end
end
# Used for modern support only!
# Not as thoroughly tested as legacy equivalent
#
# $ ruby-parse -e "foo[:bar]"
# (index
# (send nil :foo)
# (sym :bar))
# $ ruby-parse --legacy -e "foo[:bar]"
# (send
# (send nil :foo) :[]
# (sym :bar))
#
# The main RuboCop runs in legacy mode; this node is only used
# if user `AST::Builder.modernize` or `AST::Builder.emit_index=true`
#
# source://rubocop-ast//lib/rubocop/ast/node/index_node.rb#19
class RuboCop::AST::IndexNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::RestArguments
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/index_node.rb#29
def assignment_method?; end
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/index_node.rb#24
def attribute_accessor?; end
# For similarity with legacy mode
#
# source://rubocop-ast//lib/rubocop/ast/node/index_node.rb#34
def method_name; end
private
# An array containing the arguments of the dispatched method.
#
# @return [Array<Node>] the arguments of the dispatched method
#
# source://rubocop-ast//lib/rubocop/ast/node/index_node.rb#43
def first_argument_index; end
end
# Used for modern support only!
# Not as thoroughly tested as legacy equivalent
#
# $ ruby-parse -e "foo[:bar] = :baz"
# (indexasgn
# (send nil :foo)
# (sym :bar)
# (sym :baz))
# $ ruby-parse --legacy -e "foo[:bar] = :baz"
# (send
# (send nil :foo) :[]=
# (sym :bar)
# (sym :baz))
#
# The main RuboCop runs in legacy mode; this node is only used
# if user `AST::Builder.modernize` or `AST::Builder.emit_index=true`
#
# source://rubocop-ast//lib/rubocop/ast/node/indexasgn_node.rb#21
class RuboCop::AST::IndexasgnNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::RestArguments
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/indexasgn_node.rb#31
def assignment_method?; end
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/indexasgn_node.rb#26
def attribute_accessor?; end
# For similarity with legacy mode
#
# source://rubocop-ast//lib/rubocop/ast/node/indexasgn_node.rb#36
def method_name; end
private
# An array containing the arguments of the dispatched method.
#
# @return [Array<Node>] the arguments of the dispatched method
#
# source://rubocop-ast//lib/rubocop/ast/node/indexasgn_node.rb#45
def first_argument_index; end
end
# A node extension for `int` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available to
# all `int` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/int_node.rb#8
class RuboCop::AST::IntNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BasicLiteralNode
include ::RuboCop::AST::NumericNode
end
# A node extension for `kwsplat` and `forwarded_kwrestarg` nodes. This will be used in
# place of a plain node when the builder constructs the AST, making its methods available to
# all `kwsplat` and `forwarded_kwrestarg` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#8
class RuboCop::AST::KeywordSplatNode < ::RuboCop::AST::Node
include ::RuboCop::AST::HashElementNode
# This is used for duck typing with `pair` nodes which also appear as
# `hash` elements.
#
# @return [false]
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#26
def colon?; end
# This is used for duck typing with `pair` nodes which also appear as
# `hash` elements.
#
# @return [false]
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#18
def hash_rocket?; end
# This provides `forwarded_kwrestarg` node to return true to be compatible with `kwsplat` node.
#
# @return [true]
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#48
def kwsplat_type?; end
# Custom destructuring method. This is used to normalize the branches
# for `pair` and `kwsplat` nodes, to add duck typing to `hash` elements.
#
# @return [Array<KeywordSplatNode>] the different parts of the `kwsplat`
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#41
def node_parts; end
# Returns the operator for the `kwsplat` as a string.
#
# @return [String] the double splat operator
#
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#33
def operator; end
end
# source://rubocop-ast//lib/rubocop/ast/node/keyword_splat_node.rb#11
RuboCop::AST::KeywordSplatNode::DOUBLE_SPLAT = T.let(T.unsafe(nil), String)
# Used for modern support only:
# Not as thoroughly tested as legacy equivalent
#
# $ ruby-parse -e "->(foo) { bar }"
# (block
# (lambda)
# (args
# (arg :foo))
# (send nil :bar))
# $ ruby-parse --legacy -e "->(foo) { bar }"
# (block
# (send nil :lambda)
# (args
# (arg :foo))
# (send nil :bar))
#
# The main RuboCop runs in legacy mode; this node is only used
# if user `AST::Builder.modernize` or `AST::Builder.emit_lambda=true`
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#23
class RuboCop::AST::LambdaNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::RestArguments
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#43
def assignment_method?; end
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#38
def attribute_accessor?; end
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#28
def lambda?; end
# For similarity with legacy mode
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#33
def lambda_literal?; end
# For similarity with legacy mode
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#53
def method_name; end
# For similarity with legacy mode
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#48
def receiver; end
private
# For similarity with legacy mode
#
# source://rubocop-ast//lib/rubocop/ast/node/lambda_node.rb#60
def first_argument_index; end
end
# Common functionality for nodes that are a kind of method dispatch:
# `send`, `csend`, `super`, `zsuper`, `yield`, `defined?`,
# and (modern only): `index`, `indexasgn`, `lambda`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#8
module RuboCop::AST::MethodDispatchNode
include ::RuboCop::AST::MethodIdentifierPredicates
extend ::RuboCop::AST::NodePattern::Macros
# Checks whether the dispatched method is an access modifier.
#
# @return [Boolean] whether the dispatched method is an access modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#64
def access_modifier?; end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#273
def adjacent_def_modifier?(param0 = T.unsafe(nil)); end
# Checks whether this node is an arithmetic operation
#
# @return [Boolean] whether the dispatched method is an arithmetic
# operation
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#175
def arithmetic_operation?; end
# Checks whether the dispatched method is a setter method.
#
# @return [Boolean] whether the dispatched method is a setter
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#107
def assignment?; end
# Checks whether the dispatched method is a bare access modifier that
# affects all methods defined after the macro.
#
# @return [Boolean] whether the dispatched method is a bare
# access modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#73
def bare_access_modifier?; end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#278
def bare_access_modifier_declaration?(param0 = T.unsafe(nil)); end
# Checks whether this is a binary operation.
#
# @example
#
# foo + bar
# @return [Boolean] whether this method is a binary operation
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#248
def binary_operation?; end
# Whether this method dispatch has an explicit block.
#
# @return [Boolean] whether the dispatched method has a block
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#167
def block_literal?; end
# The `block` or `numblock` node associated with this method dispatch, if any.
#
# @return [BlockNode, nil] the `block` or `numblock` node associated with this method
# call or `nil`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#46
def block_node; end
# Checks whether the name of the dispatched method matches the argument
# and has an implicit receiver.
#
# @param name [Symbol, String] the method name to check for
# @return [Boolean] whether the method name matches the argument
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#100
def command?(name); end
# Checks whether the *explicit* receiver of this method dispatch is a
# `const` node.
#
# @return [Boolean] whether the receiver of this method dispatch
# is a `const` node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#152
def const_receiver?; end
# Checks if this node is part of a chain of `def` or `defs` modifiers.
#
# or `nil` if it isn't a def modifier
#
# @example
#
# private def foo; end
# @return [Node | nil] returns the `def|defs` node this is a modifier for,
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#199
def def_modifier(node = T.unsafe(nil)); end
# Checks if this node is part of a chain of `def` or `defs` modifiers.
#
# See also `def_modifier` that returns the node or `nil`
#
# @example
#
# private def foo; end
# @return [Boolean] whether the `def|defs` node is a modifier or not.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#187
def def_modifier?(node = T.unsafe(nil)); end
# Checks whether the dispatched method uses a dot to connect the
# receiver and the method name.
#
# This is useful for comparison operators, which can be called either
# with or without a dot, i.e. `foo == bar` or `foo.== bar`.
#
# @return [Boolean] whether the method was called with a connecting dot
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#119
def dot?; end
# Checks whether the dispatched method uses a double colon to connect the
# receiver and the method name.
#
# @return [Boolean] whether the method was called with a connecting dot
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#127
def double_colon?; end
# Checks whether the method dispatch is the implicit form of `#call`,
# e.g. `foo.(bar)`.
#
# @return [Boolean] whether the method is the implicit form of `#call`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#160
def implicit_call?; end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#257
def in_macro_scope?(param0 = T.unsafe(nil)); end
# Checks whether this is a lambda. Some versions of parser parses
# non-literal lambdas as a method send.
#
# @return [Boolean] whether this method is a lambda
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#213
def lambda?; end
# Checks whether this is a lambda literal (stabby lambda.)
#
# @example
#
# -> (foo) { bar }
# @return [Boolean] whether this method is a lambda literal
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#224
def lambda_literal?; end
# Checks whether the dispatched method is a macro method. A macro method
# is defined as a method that sits in a class, module, or block body and
# has an implicit receiver.
#
# @note This does not include DSLs that use nested blocks, like RSpec
# @return [Boolean] whether the dispatched method is a macro method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#57
def macro?; end
# The name of the dispatched method as a symbol.
#
# @return [Symbol] the name of the dispatched method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#27
def method_name; end
# Checks whether the dispatched method is a non-bare access modifier that
# affects only the method it receives.
#
# @return [Boolean] whether the dispatched method is a non-bare
# access modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#82
def non_bare_access_modifier?; end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#283
def non_bare_access_modifier_declaration?(param0 = T.unsafe(nil)); end
# The receiving node of the method dispatch.
#
# @return [Node, nil] the receiver of the dispatched method or `nil`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#20
def receiver; end
# Checks whether the dispatched method uses a safe navigation operator to
# connect the receiver and the method name.
#
# @return [Boolean] whether the method was called with a connecting dot
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#135
def safe_navigation?; end
# The source range for the method name or keyword that dispatches this call.
#
# @return [Parser::Source::Range] the source range for the method name or keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#34
def selector; end
# Checks whether the *explicit* receiver of this method dispatch is
# `self`.
#
# @return [Boolean] whether the receiver of this method dispatch is `self`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#143
def self_receiver?; end
# Checks whether the dispatched method is a setter method.
#
# @return [Boolean] whether the dispatched method is a setter
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#107
def setter_method?; end
# Checks whether the dispatched method is a bare `private` or `protected`
# access modifier that affects all methods defined after the macro.
#
# @return [Boolean] whether the dispatched method is a bare
# `private` or `protected` access modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#91
def special_modifier?; end
# Checks whether this is a unary operation.
#
# @example
#
# -foo
# @return [Boolean] whether this method is a unary operation
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#235
def unary_operation?; end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#12
RuboCop::AST::MethodDispatchNode::ARITHMETIC_OPERATORS = T.let(T.unsafe(nil), Array)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_dispatch_node.rb#14
RuboCop::AST::MethodDispatchNode::SPECIAL_MODIFIERS = T.let(T.unsafe(nil), Array)
# Common predicates for nodes that reference method identifiers:
# `send`, `csend`, `def`, `defs`, `super`, `zsuper`
#
# @note this mixin expects `#method_name` and `#receiver` to be implemented
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#9
module RuboCop::AST::MethodIdentifierPredicates
# Checks whether the method is an assignment method.
#
# @return [Boolean] whether the method is an assignment
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#142
def assignment_method?; end
# Checks whether the method is a bang method.
#
# @return [Boolean] whether the method is a bang method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#171
def bang_method?; end
# Checks whether the method is a camel case method,
# e.g. `Integer()`.
#
# @return [Boolean] whether the method is a camel case method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#179
def camel_case_method?; end
# Checks whether the method is a comparison method.
#
# @return [Boolean] whether the method is a comparison
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#135
def comparison_method?; end
# Checks whether the *explicit* receiver of node is a `const` node.
#
# @return [Boolean] whether the receiver of this node is a `const` node
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#193
def const_receiver?; end
# Checks whether the method is an Enumerable method.
#
# @return [Boolean] whether the method is an Enumerable method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#157
def enumerable_method?; end
# Checks whether the method is an enumerator method.
#
# @return [Boolean] whether the method is an enumerator
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#149
def enumerator_method?; end
# Checks whether the method name matches the argument.
#
# @param name [Symbol, String] the method name to check for
# @return [Boolean] whether the method name matches the argument
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#79
def method?(name); end
# Checks whether this is a negation method, i.e. `!` or keyword `not`.
#
# @return [Boolean] whether this method is a negation method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#200
def negation_method?; end
# Checks whether the method is a nonmutating Array method.
#
# @return [Boolean] whether the method is a nonmutating Array method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#114
def nonmutating_array_method?; end
# Checks whether the method is a nonmutating binary operator method.
#
# @return [Boolean] whether the method is a nonmutating binary operator method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#93
def nonmutating_binary_operator_method?; end
# Checks whether the method is a nonmutating Hash method.
#
# @return [Boolean] whether the method is a nonmutating Hash method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#121
def nonmutating_hash_method?; end
# Checks whether the method is a nonmutating operator method.
#
# @return [Boolean] whether the method is a nonmutating operator method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#107
def nonmutating_operator_method?; end
# Checks whether the method is a nonmutating String method.
#
# @return [Boolean] whether the method is a nonmutating String method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#128
def nonmutating_string_method?; end
# Checks whether the method is a nonmutating unary operator method.
#
# @return [Boolean] whether the method is a nonmutating unary operator method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#100
def nonmutating_unary_operator_method?; end
# Checks whether the method is an operator method.
#
# @return [Boolean] whether the method is an operator
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#86
def operator_method?; end
# Checks whether the method is a predicate method.
#
# @return [Boolean] whether the method is a predicate method
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#164
def predicate_method?; end
# Checks whether this is a prefix bang method, e.g. `!foo`.
#
# @return [Boolean] whether this method is a prefix bang
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#214
def prefix_bang?; end
# Checks whether this is a prefix not method, e.g. `not foo`.
#
# @return [Boolean] whether this method is a prefix not
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#207
def prefix_not?; end
# Checks whether the *explicit* receiver of this node is `self`.
#
# @return [Boolean] whether the receiver of this node is `self`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#186
def self_receiver?; end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#16
RuboCop::AST::MethodIdentifierPredicates::ENUMERABLE_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#10
RuboCop::AST::MethodIdentifierPredicates::ENUMERATOR_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#32
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_ARRAY_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#24
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_BINARY_OPERATOR_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#48
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_HASH_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#28
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_OPERATOR_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#59
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_STRING_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#26
RuboCop::AST::MethodIdentifierPredicates::NONMUTATING_UNARY_OPERATOR_METHODS = T.let(T.unsafe(nil), Set)
# http://phrogz.net/programmingruby/language.html#table_18.4
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/method_identifier_predicates.rb#20
RuboCop::AST::MethodIdentifierPredicates::OPERATOR_METHODS = T.let(T.unsafe(nil), Set)
# Common functionality for nodes that can be used as modifiers:
# `if`, `while`, `until`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/modifier_node.rb#7
module RuboCop::AST::ModifierNode
# Checks whether the node is in a modifier form, i.e. a condition
# trailing behind an expression.
#
# @return [Boolean] whether the node is a modifier
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/modifier_node.rb#12
def modifier_form?; end
end
# A node extension for `module` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `module` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/module_node.rb#8
class RuboCop::AST::ModuleNode < ::RuboCop::AST::Node
# The body of this `module` node.
#
# @return [Node, nil] the body of the module
#
# source://rubocop-ast//lib/rubocop/ast/node/module_node.rb#19
def body; end
# The identifier for this `module` node.
#
# @return [Node] the identifier of the module
#
# source://rubocop-ast//lib/rubocop/ast/node/module_node.rb#12
def identifier; end
end
# A node extension for `next` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `next` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/next_node.rb#8
class RuboCop::AST::NextNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::WrappedArguments
end
# `RuboCop::AST::Node` is a subclass of `Parser::AST::Node`. It provides
# access to parent nodes and an object-oriented way to traverse an AST with
# the power of `Enumerable`.
#
# It has predicate methods for every node type, like this:
#
# @example
# node.send_type? # Equivalent to: `node.type == :send`
# node.op_asgn_type? # Equivalent to: `node.type == :op_asgn`
#
# # Non-word characters (other than a-zA-Z0-9_) in type names are omitted.
# node.defined_type? # Equivalent to: `node.type == :defined?`
#
# # Find the first lvar node under the receiver node.
# lvar_node = node.each_descendant.find(&:lvar_type?)
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#21
class RuboCop::AST::Node < ::Parser::AST::Node
include ::RuboCop::AST::Sexp
include ::RuboCop::AST::Descendence
extend ::RuboCop::AST::NodePattern::Macros
# @return [Node] a new instance of Node
# @see https://www.rubydoc.info/gems/ast/AST/Node:initialize
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#92
def initialize(type, children = T.unsafe(nil), properties = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def __ENCODING___type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def __FILE___type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def __LINE___type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def alias_type?; end
# Returns an array of ancestor nodes.
# This is a shorthand for `node.each_ancestor.to_a`.
#
# @return [Array<Node>] an array of ancestor nodes
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#247
def ancestors; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def and_asgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def and_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def arg_expr_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def arg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def args_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#464
def argument?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#468
def argument_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def array_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def array_pattern_with_tail_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def array_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#416
def assignment?; end
# Some cops treat the shovel operator as a kind of assignment.
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#355
def assignment_or_similar?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def back_ref_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#420
def basic_conditional?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#363
def basic_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def begin_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def block_pass_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def block_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def blockarg_expr_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def blockarg_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#472
def boolean_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def break_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#456
def call_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def case_match_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def case_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def casgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def cbase_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#460
def chained?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#512
def class_constructor?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#530
def class_definition?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def class_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#144
def complete!; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#149
def complete?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def complex_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#424
def conditional?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#293
def const_name; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def const_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def const_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def csend_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def cvar_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def cvasgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def def_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#314
def defined_module; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#319
def defined_module_name; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def defined_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def defs_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def dstr_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def dsym_type?; end
# Calls the given block for each ancestor node from parent to root.
# If no block is given, an `Enumerator` is returned.
#
# @overload each_ancestor
# @overload each_ancestor
# @overload each_ancestor
# @return [self] if a block is given
# @return [Enumerator] if no block is given
# @yieldparam node [Node] each ancestor node
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#235
def each_ancestor(*types, &block); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def eflipflop_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def empty_else_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#349
def empty_source?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def ensure_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#408
def equals_asgn?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def erange_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def false_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#371
def falsey_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def find_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#261
def first_line; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def float_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def for_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def forward_arg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def forward_args_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def forwarded_args_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def forwarded_kwrestarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def forwarded_restarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#509
def global_const?(param0 = T.unsafe(nil), param1); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#484
def guard_clause?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def gvar_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def gvasgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def hash_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def hash_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def ident_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def if_guard_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def if_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def iflipflop_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#379
def immutable_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def in_match_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def in_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def index_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def indexasgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def int_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def irange_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def ivar_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def ivasgn_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#437
def keyword?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwargs_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwbegin_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwnilarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwoptarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwrestarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def kwsplat_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#503
def lambda?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#506
def lambda_or_proc?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def lambda_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#265
def last_line; end
# Use is discouraged, this is a potentially slow method and can lead
# to even slower algorithms
#
# @return [Node, nil] the left (aka previous) sibling
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#187
def left_sibling; end
# Use is discouraged, this is a potentially slow method and can lead
# to even slower algorithms
#
# @return [Array<Node>] the left (aka previous) siblings
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#197
def left_siblings; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#269
def line_count; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#359
def literal?; end
# NOTE: `loop { }` is a normal method call and thus not a loop keyword.
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#433
def loop_keyword?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def lvar_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def lvasgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def masgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_alt_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_as_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_current_line_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#491
def match_guard_clause?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_nil_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_pattern_p_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_pattern_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_rest_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_var_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_with_lvasgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def match_with_trailing_comma_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def mlhs_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#537
def module_definition?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def module_type?; end
# Predicates
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#341
def multiline?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#375
def mutable_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#671
def new_class_or_module_block?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def next_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def nil_type?; end
# Common destructuring method. This can be used to normalize
# destructuring for different variations of the node.
# Some node types override this with their own custom
# destructuring method.
#
# @return [Array<Node>] the different parts of the ndde
#
# source://ast/2.4.2/lib/ast/node.rb#56
def node_parts; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#275
def nonempty_line_count; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def not_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def nth_ref_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def numargs_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def numblock_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#476
def numeric_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def objc_kwarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def objc_restarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def objc_varargs_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def op_asgn_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#448
def operator_keyword?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def optarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def or_asgn_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def or_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def pair_type?; end
# Returns the parent node, or `nil` if the receiver is a root node.
#
# @return [Node, nil] the parent node or `nil`
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#126
def parent; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#135
def parent?; end
# Searching the AST
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#325
def parent_module_name; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#452
def parenthesized_call?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def pin_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#428
def post_condition_loop?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def postexe_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def preexe_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#496
def proc?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def procarg0_type?; end
# Some expressions are evaluated for their value, some for their side
# effects, and some for both.
# If we know that expressions are useful only for their return values,
# and have no side effects, that means we can reorder them, change the
# number of times they are evaluated, or replace them with other
# expressions which are equivalent in value.
# So, is evaluation of this node free of side effects?
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#582
def pure?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#480
def range_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def rational_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#286
def receiver(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#386
def recursive_basic_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#386
def recursive_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def redo_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#404
def reference?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def regexp_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def regopt_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def resbody_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def rescue_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def restarg_expr_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def restarg_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def retry_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def return_type?; end
# Use is discouraged, this is a potentially slow method and can lead
# to even slower algorithms
#
# @return [Node, nil] the right (aka next) sibling
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#178
def right_sibling; end
# Use is discouraged, this is a potentially slow method and can lead
# to even slower algorithms
#
# @return [Array<Node>] the right (aka next) siblings
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#206
def right_siblings; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#140
def root?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def sclass_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def self_type?; end
# Most nodes are of 'send' type, so this method is defined
# separately to make this check as fast as possible.
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#119
def send_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def shadowarg_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#412
def shorthand_asgn?; end
# Returns the index of the receiver node in its siblings. (Sibling index
# uses zero based numbering.)
# Use is discouraged, this is a potentially slow method.
#
# @return [Integer, nil] the index of the receiver node in its siblings
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#171
def sibling_index; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#345
def single_line?; end
# NOTE: Some rare nodes may have no source, like `s(:args)` in `foo {}`
#
# @return [String, nil]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#253
def source; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#279
def source_length; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#257
def source_range; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#444
def special_keyword?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def splat_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#291
def str_content(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def str_type?; end
# @deprecated Use `:class_constructor?`
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#525
def struct_constructor?(param0 = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def super_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def sym_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def true_type?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#367
def truthy_literal?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def undef_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def unless_guard_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def until_post_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def until_type?; end
# Override `AST::Node#updated` so that `AST::Processor` does not try to
# mutate our ASTs. Since we keep references from children to parents and
# not just the other way around, we cannot update an AST and share
# identical subtrees. Rather, the entire AST must be copied any time any
# part of it is changed.
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#160
def updated(type = T.unsafe(nil), children = T.unsafe(nil), properties = T.unsafe(nil)); end
# Some expressions are evaluated for their value, some for their side
# effects, and some for both
# If we know that an expression is useful only for its side effects, that
# means we can transform it in ways which preserve the side effects, but
# change the return value
# So, does the return value of this node matter? If we changed it to
# `(...; nil)`, might that affect anything?
#
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#551
def value_used?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#400
def variable?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def when_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def while_post_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def while_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def xstr_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def yield_type?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#111
def zsuper_type?; end
protected
# source://rubocop-ast//lib/rubocop/ast/node.rb#130
def parent=(node); end
private
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#610
def begin_value_used?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#621
def case_if_value_used?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#305
def defined_module0(param0 = T.unsafe(nil)); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#615
def for_value_used?; end
# source://rubocop-ast//lib/rubocop/ast/node.rb#657
def parent_module_name_for_block(ancestor); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#645
def parent_module_name_for_sclass(sclass_node); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#632
def parent_module_name_part(node); end
# source://rubocop-ast//lib/rubocop/ast/node.rb#600
def visit_ancestors(types); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#627
def while_until_value_used?; end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#80
RuboCop::AST::Node::ARGUMENT_TYPES = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#55
RuboCop::AST::Node::ASSIGNMENTS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#58
RuboCop::AST::Node::BASIC_CONDITIONALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#42
RuboCop::AST::Node::BASIC_LITERALS = T.let(T.unsafe(nil), Set)
# <=> isn't included here, because it doesn't return a boolean.
#
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#28
RuboCop::AST::Node::COMPARISON_OPERATORS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#39
RuboCop::AST::Node::COMPOSITE_LITERALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#60
RuboCop::AST::Node::CONDITIONALS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node.rb#87
RuboCop::AST::Node::EMPTY_CHILDREN = T.let(T.unsafe(nil), Array)
# source://rubocop-ast//lib/rubocop/ast/node.rb#88
RuboCop::AST::Node::EMPTY_PROPERTIES = T.let(T.unsafe(nil), Hash)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#50
RuboCop::AST::Node::EQUALS_ASSIGNMENTS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#35
RuboCop::AST::Node::FALSEY_LITERALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#47
RuboCop::AST::Node::IMMUTABLE_LITERALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#70
RuboCop::AST::Node::KEYWORDS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#37
RuboCop::AST::Node::LITERALS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node.rb#83
RuboCop::AST::Node::LITERAL_RECURSIVE_METHODS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node.rb#84
RuboCop::AST::Node::LITERAL_RECURSIVE_TYPES = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#64
RuboCop::AST::Node::LOOP_TYPES = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#44
RuboCop::AST::Node::MUTABLE_LITERALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#76
RuboCop::AST::Node::OPERATOR_KEYWORDS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#62
RuboCop::AST::Node::POST_CONDITION_LOOP_TYPES = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#68
RuboCop::AST::Node::REFERENCES = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#53
RuboCop::AST::Node::SHORTHAND_ASSIGNMENTS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#78
RuboCop::AST::Node::SPECIAL_KEYWORDS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#31
RuboCop::AST::Node::TRUTHY_LITERALS = T.let(T.unsafe(nil), Set)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node.rb#66
RuboCop::AST::Node::VARIABLES = T.let(T.unsafe(nil), Set)
# This class performs a pattern-matching operation on an AST node.
#
# Detailed syntax: /docs/modules/ROOT/pages/node_pattern.adoc
#
# Initialize a new `NodePattern` with `NodePattern.new(pattern_string)`, then
# pass an AST node to `NodePattern#match`. Alternatively, use one of the class
# macros in `NodePattern::Macros` to define your own pattern-matching method.
#
# If the match fails, `nil` will be returned. If the match succeeds, the
# return value depends on whether a block was provided to `#match`, and
# whether the pattern contained any "captures" (values which are extracted
# from a matching AST.)
#
# - With block: #match yields the captures (if any) and passes the return
# value of the block through.
# - With no block, but one capture: the capture is returned.
# - With no block, but multiple captures: captures are returned as an array.
# - With no block and no captures: #match returns `true`.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#5
class RuboCop::AST::NodePattern
include ::RuboCop::AST::NodePattern::MethodDefiner
extend ::Forwardable
# @return [NodePattern] a new instance of NodePattern
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#77
def initialize(str, compiler: T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#90
def ==(other); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#107
def as_json(_options = T.unsafe(nil)); end
# Returns the value of attribute ast.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#73
def ast; end
# source://forwardable/1.3.3/forwardable.rb#231
def captures(*args, **_arg1, &block); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#111
def encode_with(coder); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#90
def eql?(other); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#119
def freeze; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#115
def init_with(coder); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#103
def marshal_dump; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#99
def marshal_load(pattern); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#85
def match(*args, **rest, &block); end
# Returns the value of attribute match_code.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#73
def match_code; end
# source://forwardable/1.3.3/forwardable.rb#231
def named_parameters(*args, **_arg1, &block); end
# Returns the value of attribute pattern.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#73
def pattern; end
# source://forwardable/1.3.3/forwardable.rb#231
def positional_parameters(*args, **_arg1, &block); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#95
def to_s; end
class << self
# Yields its argument and any descendants, depth-first.
#
# @yield [element]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#59
def descend(element, &block); end
end
end
# Responsible to build the AST nodes for `NodePattern`
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#10
class RuboCop::AST::NodePattern::Builder
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#17
def emit_atom(type, value); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#29
def emit_call(type, selector, args = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#11
def emit_capture(capture_token, node); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#25
def emit_list(type, _begin, children, _end); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#41
def emit_subsequence(node_list); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#21
def emit_unary_op(type, _operator = T.unsafe(nil), *children); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#34
def emit_union(begin_t, pattern_lists, end_t); end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#53
def n(type, *args); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#49
def optimizable_as_set?(children); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/builder.rb#57
def union_children(pattern_lists); end
end
# A NodePattern comment, simplified version of ::Parser::Source::Comment
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#7
class RuboCop::AST::NodePattern::Comment
# @param range [Parser::Source::Range]
# @return [Comment] a new instance of Comment
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#14
def initialize(range); end
# Compares comments. Two comments are equal if they
# correspond to the same source range.
#
# @param other [Object]
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#31
def ==(other); end
# @return [String] a human-readable representation of this comment
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#39
def inspect; end
# Returns the value of attribute location.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#8
def loc; end
# Returns the value of attribute location.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#8
def location; end
# @return [String]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/comment.rb#20
def text; end
end
# The top-level compiler holding the global state
# Defers work to its subcompilers
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#11
class RuboCop::AST::NodePattern::Compiler
extend ::Forwardable
# @return [Compiler] a new instance of Compiler
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#15
def initialize; end
# source://forwardable/1.3.3/forwardable.rb#231
def bind(*args, **_arg1, &block); end
# Returns the value of attribute binding.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#13
def binding; end
# Returns the value of attribute captures.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#13
def captures; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#42
def compile_as_atom(node); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#46
def compile_as_node_pattern(node, **options); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#50
def compile_sequence(sequence, var:); end
# Enumerates `enum` while keeping track of state across
# union branches (captures and unification).
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#38
def each_union(enum, &block); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#74
def freeze; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#31
def named_parameter(name); end
# Returns the value of attribute named_parameters.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#13
def named_parameters; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#70
def next_capture; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#54
def parser; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#26
def positional_parameter(number); end
# Returns the value of attribute positional_parameters.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#13
def positional_parameters; end
# Utilities
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#60
def with_temp_variables(*names, &block); end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#81
def enforce_same_captures(enum); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler.rb#96
def new_capture; end
end
# Generates code that evaluates to a value (Ruby object)
# This value responds to `===`.
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#12
class RuboCop::AST::NodePattern::Compiler::AtomSubcompiler < ::RuboCop::AST::NodePattern::Compiler::Subcompiler
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#28
def visit_const; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#32
def visit_named_parameter; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#21
def visit_number; end
# Assumes other types are node patterns.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#46
def visit_other_type; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#36
def visit_positional_parameter; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#21
def visit_regexp; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#40
def visit_set; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#21
def visit_string; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#21
def visit_symbol; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/atom_subcompiler.rb#15
def visit_unify; end
end
# Holds the list of bound variable names
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/binding.rb#8
class RuboCop::AST::NodePattern::Compiler::Binding
# @return [Binding] a new instance of Binding
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/binding.rb#9
def initialize; end
# Yields the first time a given name is bound
#
# @return [String] bound variable name
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/binding.rb#16
def bind(name); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/binding.rb#30
def union_bind(enum); end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/binding.rb#69
def forbid(names); end
end
# Variant of the Compiler with tracing information for nodes
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#10
class RuboCop::AST::NodePattern::Compiler::Debug < ::RuboCop::AST::NodePattern::Compiler
# @return [Debug] a new instance of Debug
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#123
def initialize; end
# source://forwardable/1.3.3/forwardable.rb#231
def comments(*args, **_arg1, &block); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#128
def named_parameters; end
# Returns the value of attribute node_ids.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#33
def node_ids; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#132
def parser; end
# source://forwardable/1.3.3/forwardable.rb#231
def tokens(*args, **_arg1, &block); end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#36
class RuboCop::AST::NodePattern::Compiler::Debug::Colorizer
# @api private
# @return [Colorizer] a new instance of Colorizer
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#96
def initialize(pattern, compiler: T.unsafe(nil)); end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#94
def compiler; end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#94
def node_pattern; end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#94
def pattern; end
# @api private
# @return [Node] the Ruby AST
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#103
def test(ruby, trace: T.unsafe(nil)); end
private
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#111
def ruby_ast(ruby); end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#116
def ruby_parser; end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#37
RuboCop::AST::NodePattern::Compiler::Debug::Colorizer::COLOR_SCHEME = T.let(T.unsafe(nil), Hash)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#92
RuboCop::AST::NodePattern::Compiler::Debug::Colorizer::Compiler = RuboCop::AST::NodePattern::Compiler::Debug
# Result of a NodePattern run against a particular AST
# Consider constructor is private
#
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#46
class RuboCop::AST::NodePattern::Compiler::Debug::Colorizer::Result < ::Struct
# @api private
# @return [Hash] a map for {character_position => color}
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#56
def color_map(color_scheme = T.unsafe(nil)); end
# @api private
# @return [String] a Rainbow colorized version of ruby
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#48
def colorize(color_scheme = T.unsafe(nil)); end
# Returns the value of attribute colorizer
#
# @return [Object] the current value of colorizer
def colorizer; end
# Sets the attribute colorizer
#
# @param value [Object] the value to set the attribute colorizer to.
# @return [Object] the newly set value
def colorizer=(_); end
# @api private
# @return [Hash] a map for {node => matched?}, depth-first
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#66
def match_map; end
# @api private
# @return [Boolean] a value of `Trace#matched?` or `:not_visitable`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#74
def matched?(node); end
# Returns the value of attribute returned
#
# @return [Object] the current value of returned
def returned; end
# Sets the attribute returned
#
# @param value [Object] the value to set the attribute returned to.
# @return [Object] the newly set value
def returned=(_); end
# Returns the value of attribute ruby_ast
#
# @return [Object] the current value of ruby_ast
def ruby_ast; end
# Sets the attribute ruby_ast
#
# @param value [Object] the value to set the attribute ruby_ast to.
# @return [Object] the newly set value
def ruby_ast=(_); end
# Returns the value of attribute trace
#
# @return [Object] the current value of trace
def trace; end
# Sets the attribute trace
#
# @param value [Object] the value to set the attribute trace to.
# @return [Object] the newly set value
def trace=(_); end
private
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#87
def ast; end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#81
def color_map_for(node, color); end
class << self
def [](*_arg0); end
def inspect; end
def keyword_init?; end
def members; end
def new(*_arg0); end
end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#139
module RuboCop::AST::NodePattern::Compiler::Debug::InstrumentationSubcompiler
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#140
def do_compile; end
private
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#150
def node_id; end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#146
def tracer(kind); end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#156
class RuboCop::AST::NodePattern::Compiler::Debug::NodePatternSubcompiler < ::RuboCop::AST::NodePattern::Compiler::NodePatternSubcompiler
include ::RuboCop::AST::NodePattern::Compiler::Debug::InstrumentationSubcompiler
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#161
class RuboCop::AST::NodePattern::Compiler::Debug::SequenceSubcompiler < ::RuboCop::AST::NodePattern::Compiler::SequenceSubcompiler
include ::RuboCop::AST::NodePattern::Compiler::Debug::InstrumentationSubcompiler
end
# Compiled node pattern requires a named parameter `trace`,
# which should be an instance of this class
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#13
class RuboCop::AST::NodePattern::Compiler::Debug::Trace
# @return [Trace] a new instance of Trace
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#14
def initialize; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#18
def enter(node_id); end
# return nil (not visited), false (not matched) or true (matched)
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#28
def matched?(node_id); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/debug.rb#23
def success(node_id); end
end
# Compiles code that evalues to true or false
# for a given value `var` (typically a RuboCop::AST::Node)
# or it's `node.type` if `seq_head` is true
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#13
class RuboCop::AST::NodePattern::Compiler::NodePatternSubcompiler < ::RuboCop::AST::NodePattern::Compiler::Subcompiler
# @return [NodePatternSubcompiler] a new instance of NodePatternSubcompiler
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#16
def initialize(compiler, var: T.unsafe(nil), access: T.unsafe(nil), seq_head: T.unsafe(nil)); end
# Returns the value of attribute access.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#14
def access; end
# Returns the value of attribute seq_head.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#14
def seq_head; end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#119
def access_element; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#123
def access_node; end
# @param [Array<Node>, nil]
# @return [String, nil]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#113
def compile_args(arg_list, first: T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#129
def compile_guard_clause; end
# Compiling helpers
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#107
def compile_value_match(value); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#133
def multiple_access(kind); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#30
def visit_ascend; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#58
def visit_capture; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#37
def visit_descend; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#84
def visit_function_call; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#73
def visit_intersection; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#25
def visit_negation; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#88
def visit_node_type; end
# Assumes other types are atoms.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#100
def visit_other_type; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#80
def visit_predicate; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#92
def visit_sequence; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#49
def visit_unify; end
# Lists
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#64
def visit_union; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/node_pattern_subcompiler.rb#45
def visit_wildcard; end
end
# Compiles terms within a sequence to code that evalues to true or false.
# Compilation of the nodes that can match only a single term is deferred to
# `NodePatternSubcompiler`; only nodes that can match multiple terms are
# compiled here.
# Assumes the given `var` is a `::RuboCop::AST::Node`
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#17
class RuboCop::AST::NodePattern::Compiler::SequenceSubcompiler < ::RuboCop::AST::NodePattern::Compiler::Subcompiler
# Calls `compile_sequence`; the actual `compile` method
# will be used for the different terms of the sequence.
# The only case of re-entrant call to `compile` is `visit_capture`
#
# @return [SequenceSubcompiler] a new instance of SequenceSubcompiler
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#25
def initialize(compiler, sequence:, var:); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#31
def compile_sequence; end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#251
def in_sync; end
protected
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#226
def compile_terms(children = T.unsafe(nil), last_arity = T.unsafe(nil)); end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#251
def cur_index; end
# yield `sync_code` iff not already in sync
#
# @yield [code]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#242
def sync; end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#20
def compile(node); end
# Compilation helpers
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#165
def compile_and_advance(term); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#128
def compile_any_order_branches(matched_var); end
# @return [Array<String>] Else code, and init code (if any)
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#137
def compile_any_order_else; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#180
def compile_captured_repetition(child_code, child_captures); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#119
def compile_case(when_branches, else_code); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#361
def compile_child_nb_guard(arity_range); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#319
def compile_cur_index; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#325
def compile_index(cur = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#353
def compile_loop(term); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#347
def compile_loop_advance(to = T.unsafe(nil)); end
# Assumes `@cur_index` is already updated
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#198
def compile_matched(kind); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#304
def compile_max_matched; end
# @return [String] code that evaluates to `false` if the matched arity is too small
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#270
def compile_min_check; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#285
def compile_remaining; end
# @return [Hash] of {subcompiler => code}
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#373
def compile_union_forks; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#313
def empty_loop; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#214
def handle_prev; end
# Modifies in place `forks`
# Syncs our state
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#400
def merge_forks!(forks); end
# Modifies in place `forks` to insure that `cur_{child|index}_var` are ok
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#384
def preserve_union_start(forks); end
# E.g. For sequence `(_ _? <_ _>)`, arities are: 1, 0..1, 2
# and remaining arities are: 3..4, 2..3, 2..2, 0..0
#
# @return [Array<Range>] total arities (as Ranges) of remaining children nodes
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#259
def remaining_arities(children, last_arity); end
# returns truthy iff `@cur_index` switched to relative from end mode (i.e. < 0)
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#341
def use_index_from_end; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#88
def visit_any_order; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#150
def visit_capture; end
# Single node patterns are all handled here
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#62
def visit_other_type; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#78
def visit_repetition; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#159
def visit_rest; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#104
def visit_union; end
# NOTE: assumes `@cur_index != :seq_head`. Node types using `within_loop` must
# have `def in_sequence_head; :raise; end`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#333
def within_loop; end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#18
RuboCop::AST::NodePattern::Compiler::SequenceSubcompiler::DELTA = T.let(T.unsafe(nil), Integer)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/sequence_subcompiler.rb#19
RuboCop::AST::NodePattern::Compiler::SequenceSubcompiler::POSITIVE = T.let(T.unsafe(nil), Proc)
# Base class for subcompilers
# Implements visitor pattern
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#12
class RuboCop::AST::NodePattern::Compiler::Subcompiler
# @return [Subcompiler] a new instance of Subcompiler
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#15
def initialize(compiler); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#20
def compile(node); end
# Returns the value of attribute compiler.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#13
def compiler; end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#34
def do_compile; end
# Returns the value of attribute node.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#32
def node; end
class << self
# @private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#47
def inherited(base); end
# @private
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#42
def method_added(method); end
# Returns the value of attribute registry.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/compiler/subcompiler.rb#40
def registry; end
end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#53
class RuboCop::AST::NodePattern::Invalid < ::StandardError; end
# Lexer class for `NodePattern`
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#18
class RuboCop::AST::NodePattern::Lexer < ::RuboCop::AST::NodePattern::LexerRex
# @return [Lexer] a new instance of Lexer
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#31
def initialize(source); end
# Returns the value of attribute comments.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#29
def comments; end
# Returns the value of attribute source_buffer.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#29
def source_buffer; end
# Returns the value of attribute tokens.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#29
def tokens; end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#60
def do_parse; end
# @return [token]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#40
def emit(type); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#48
def emit_comment; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#52
def emit_regexp; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#64
def token(type, value); end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#19
RuboCop::AST::NodePattern::Lexer::Error = RuboCop::AST::NodePattern::LexerRex::ScanError
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rb#21
RuboCop::AST::NodePattern::Lexer::REGEXP_OPTIONS = T.let(T.unsafe(nil), Hash)
# The generated lexer RuboCop::AST::NodePattern::LexerRex
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#23
class RuboCop::AST::NodePattern::LexerRex
# Yields on the current action.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#69
def action; end
# The file name / path
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#43
def filename; end
# The file name / path
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#43
def filename=(_arg0); end
# The current location in the parse.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#104
def location; end
# The StringScanner for this lexer.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#48
def match; end
# The match groups for the current scan.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#60
def matches; end
# Lex the next token.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#113
def next_token; end
# Parse the given string.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#84
def parse(str); end
# Read in and parse the file at +path+.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#94
def parse_file(path); end
# The current scanner class. Must be overridden in subclasses.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#77
def scanner_class; end
# The StringScanner for this lexer.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#48
def ss; end
# The StringScanner for this lexer.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#48
def ss=(_arg0); end
# The current lexical state.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#53
def state; end
# The current lexical state.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#53
def state=(_arg0); end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#31
RuboCop::AST::NodePattern::LexerRex::CALL = T.let(T.unsafe(nil), Regexp)
# :stopdoc:
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#27
RuboCop::AST::NodePattern::LexerRex::CONST_NAME = T.let(T.unsafe(nil), Regexp)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#29
RuboCop::AST::NodePattern::LexerRex::IDENTIFIER = T.let(T.unsafe(nil), Regexp)
# :startdoc:
# :stopdoc:
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#36
class RuboCop::AST::NodePattern::LexerRex::LexerError < ::StandardError; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#30
RuboCop::AST::NodePattern::LexerRex::NODE_TYPE = T.let(T.unsafe(nil), Regexp)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#33
RuboCop::AST::NodePattern::LexerRex::REGEXP = T.let(T.unsafe(nil), Regexp)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#32
RuboCop::AST::NodePattern::LexerRex::REGEXP_BODY = T.let(T.unsafe(nil), Regexp)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#28
RuboCop::AST::NodePattern::LexerRex::SYMBOL_NAME = T.let(T.unsafe(nil), Regexp)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/lexer.rex.rb#37
class RuboCop::AST::NodePattern::LexerRex::ScanError < ::RuboCop::AST::NodePattern::LexerRex::LexerError; end
# Helpers for defining methods based on a pattern string
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#28
module RuboCop::AST::NodePattern::Macros
# Define a method which applies a pattern to an AST node
#
# The new method will return nil if the node does not match.
# If the node matches, and a block is provided, the new method will
# yield to the block (passing any captures as block arguments).
# If the node matches, and no block is provided, the new method will
# return the captures, or `true` if there were none.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#36
def def_node_matcher(method_name, pattern_str, **keyword_defaults); end
# Define a method which recurses over the descendants of an AST node,
# checking whether any of them match the provided pattern
#
# If the method name ends with '?', the new method will return `true`
# as soon as it finds a descendant which matches. Otherwise, it will
# yield all descendants which match.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#46
def def_node_search(method_name, pattern_str, **keyword_defaults); end
end
# Functionality to turn `match_code` into methods/lambda
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#7
module RuboCop::AST::NodePattern::MethodDefiner
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#37
def as_lambda; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#27
def compile_as_lambda; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#8
def def_node_matcher(base, method_name, **defaults); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#21
def def_node_search(base, method_name, **defaults); end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#139
def compile_init; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#50
def def_helper(base, method_name, **defaults); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#114
def emit_keyword_list(forwarding: T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#132
def emit_lambda_code; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#125
def emit_method_code; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#63
def emit_node_search(method_name); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#74
def emit_node_search_body(method_name, prelude:, on_match:); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#110
def emit_param_list; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#119
def emit_params(*first, forwarding: T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#100
def emit_retval; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#89
def emit_yield_capture(when_no_capture = T.unsafe(nil), yield_with: T.unsafe(nil)); end
# This method minimizes the closure for our method
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/method_definer.rb#44
def wrapping_block(method_name, **defaults); end
end
# Base class for AST Nodes of a `NodePattern`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#7
class RuboCop::AST::NodePattern::Node < ::Parser::AST::Node
include ::RuboCop::AST::Descendence
extend ::Forwardable
# Note: `arity.end` may be `Float::INFINITY`
#
# @return [Integer, Range] An Integer for fixed length terms, otherwise a Range.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#29
def arity; end
# @return [Range] arity as a Range
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#69
def arity_range; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#23
def capture?; end
# @return [Node] most nodes have only one child
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#48
def child; end
# @return [Array<Node>]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#43
def children_nodes; end
# @return [Array<Node>, nil] replace node with result, or `nil` if no change requested.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#34
def in_sequence_head; end
# that matches within a Set (e.g. `42`, `:sym` but not `/regexp/`)
#
# @return [Boolean] returns true for nodes having a Ruby literal equivalent
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#64
def matches_within_set?; end
# @return [Integer] nb of captures of that node and its descendants
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#53
def nb_captures; end
# To be overridden by subclasses
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#19
def rest?; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#78
def source_range; end
# @return [Boolean] returns whether it matches a variable number of elements
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#58
def variadic?; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#74
def with(type: T.unsafe(nil), children: T.unsafe(nil), location: T.unsafe(nil)); end
end
# Node class for `<int str ...>`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#180
class RuboCop::AST::NodePattern::Node::AnyOrder < ::RuboCop::AST::NodePattern::Node
include ::RuboCop::AST::NodePattern::Node::ForbidInSeqHead
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#198
def arity; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#190
def ends_with_rest?; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#194
def rest_node; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#186
def term_nodes; end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#183
RuboCop::AST::NodePattern::Node::AnyOrder::ARITIES = T.let(T.unsafe(nil), Hash)
# Node class for `$something`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#97
class RuboCop::AST::NodePattern::Node::Capture < ::RuboCop::AST::NodePattern::Node
# source://forwardable/1.3.3/forwardable.rb#231
def arity(*args, **_arg1, &block); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#101
def capture?; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#109
def in_sequence_head; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#105
def nb_captures; end
# source://forwardable/1.3.3/forwardable.rb#231
def rest?(*args, **_arg1, &block); end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#86
module RuboCop::AST::NodePattern::Node::ForbidInSeqHead
# @raise [NodePattern::Invalid]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#87
def in_sequence_head; end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#140
RuboCop::AST::NodePattern::Node::FunctionCall = RuboCop::AST::NodePattern::Node::Predicate
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#82
RuboCop::AST::NodePattern::Node::INT_TO_RANGE = T.let(T.unsafe(nil), Hash)
# Registry
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#250
RuboCop::AST::NodePattern::Node::MAP = T.let(T.unsafe(nil), Hash)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#12
RuboCop::AST::NodePattern::Node::MATCHES_WITHIN_SET = T.let(T.unsafe(nil), Set)
# Node class for `predicate?(:arg, :list)`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#131
class RuboCop::AST::NodePattern::Node::Predicate < ::RuboCop::AST::NodePattern::Node
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#136
def arg_list; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#132
def method_name; end
end
# Node class for `int+`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#143
class RuboCop::AST::NodePattern::Node::Repetition < ::RuboCop::AST::NodePattern::Node
include ::RuboCop::AST::NodePattern::Node::ForbidInSeqHead
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#156
def arity; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#146
def operator; end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#150
RuboCop::AST::NodePattern::Node::Repetition::ARITIES = T.let(T.unsafe(nil), Hash)
# Node class for `...`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#162
class RuboCop::AST::NodePattern::Node::Rest < ::RuboCop::AST::NodePattern::Node
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#170
def arity; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#174
def in_sequence_head; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#166
def rest?; end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#163
RuboCop::AST::NodePattern::Node::Rest::ARITY = T.let(T.unsafe(nil), Range)
# Node class for `(type first second ...)`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#118
class RuboCop::AST::NodePattern::Node::Sequence < ::RuboCop::AST::NodePattern::Node
include ::RuboCop::AST::NodePattern::Node::ForbidInSeqHead
# @return [Sequence] a new instance of Sequence
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#121
def initialize(type, children = T.unsafe(nil), properties = T.unsafe(nil)); end
end
# A list (potentially empty) of nodes; part of a Union
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#206
class RuboCop::AST::NodePattern::Node::Subsequence < ::RuboCop::AST::NodePattern::Node
include ::RuboCop::AST::NodePattern::Node::ForbidInSeqHead
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#209
def arity; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#214
def in_sequence_head; end
end
# Node class for `{ ... }`
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#224
class RuboCop::AST::NodePattern::Node::Union < ::RuboCop::AST::NodePattern::Node
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#225
def arity; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/node.rb#232
def in_sequence_head; end
end
# Parser for NodePattern
# Note: class reopened in `parser.racc`
#
# Doc on how this fits in the compiling process:
# /docs/modules/ROOT/pages/node_pattern.adoc
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#12
class RuboCop::AST::NodePattern::Parser < ::Racc::Parser
extend ::Forwardable
# @return [Parser] a new instance of Parser
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#19
def initialize(builder = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#335
def _reduce_10(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#339
def _reduce_11(val, _values); end
# reduce 12 omitted
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#345
def _reduce_13(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#349
def _reduce_14(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#353
def _reduce_15(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#357
def _reduce_16(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#361
def _reduce_17(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#365
def _reduce_18(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#369
def _reduce_19(val, _values); end
# reduce 1 omitted
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#303
def _reduce_2(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#373
def _reduce_20(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#377
def _reduce_21(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#381
def _reduce_22(val, _values); end
# reduce 24 omitted
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#389
def _reduce_25(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#395
def _reduce_26(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#307
def _reduce_3(val, _values); end
# reduce 32 omitted
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#415
def _reduce_33(val, _values); end
# reduce 36 omitted
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#425
def _reduce_37(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#429
def _reduce_38(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#433
def _reduce_39(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#311
def _reduce_4(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#437
def _reduce_40(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#441
def _reduce_41(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#445
def _reduce_42(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#449
def _reduce_43(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#453
def _reduce_44(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#457
def _reduce_45(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#461
def _reduce_46(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#315
def _reduce_5(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#319
def _reduce_6(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#323
def _reduce_7(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#327
def _reduce_8(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#331
def _reduce_9(val, _values); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#465
def _reduce_none(val, _values); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_atom(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_call(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_capture(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_list(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_unary_op(*args, **_arg1, &block); end
# source://forwardable/1.3.3/forwardable.rb#231
def emit_union(*args, **_arg1, &block); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#40
def inspect; end
# source://forwardable/1.3.3/forwardable.rb#231
def next_token(*args, **_arg1, &block); end
# (Similar API to `parser` gem)
# Parses a source and returns the AST.
#
# @param source_buffer [Parser::Source::Buffer, String] The source buffer to parse.
# @return [NodePattern::Node]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#31
def parse(source); end
private
# @raise [NodePattern::Invalid]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#50
def enforce_unary(node); end
# Overrides Racc::Parser's method:
#
# @raise [NodePattern::Invalid]
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#59
def on_error(token, val, _vstack); end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#16
RuboCop::AST::NodePattern::Parser::Builder = RuboCop::AST::NodePattern::Builder
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.rb#17
RuboCop::AST::NodePattern::Parser::Lexer = RuboCop::AST::NodePattern::Lexer
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#227
RuboCop::AST::NodePattern::Parser::Racc_arg = T.let(T.unsafe(nil), Array)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#295
RuboCop::AST::NodePattern::Parser::Racc_debug_parser = T.let(T.unsafe(nil), FalseClass)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/parser.racc.rb#244
RuboCop::AST::NodePattern::Parser::Racc_token_to_s_table = T.let(T.unsafe(nil), Array)
# Overrides Parser to use `WithMeta` variants and provide additional methods
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#8
class RuboCop::AST::NodePattern::Parser::WithMeta < ::RuboCop::AST::NodePattern::Parser
# Returns the value of attribute comments.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#98
def comments; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#100
def do_parse; end
# Returns the value of attribute tokens.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#98
def tokens; end
end
# Overrides Builder to emit nodes with locations
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#39
class RuboCop::AST::NodePattern::Parser::WithMeta::Builder < ::RuboCop::AST::NodePattern::Builder
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#40
def emit_atom(type, token); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#61
def emit_call(type, selector_t, args = T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#55
def emit_list(type, begin_t, children, end_t); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#49
def emit_unary_op(type, operator_t = T.unsafe(nil), *children); end
private
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#81
def join_exprs(left_expr, right_expr); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#75
def loc(token_or_range); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#71
def n(type, children, source_map); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#85
def source_map(token_or_range, begin_t: T.unsafe(nil), end_t: T.unsafe(nil), operator_t: T.unsafe(nil), selector_t: T.unsafe(nil)); end
end
# Overrides Lexer to token locations and comments
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#10
class RuboCop::AST::NodePattern::Parser::WithMeta::Lexer < ::RuboCop::AST::NodePattern::Lexer
# @return [Lexer] a new instance of Lexer
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#13
def initialize(str_or_buffer); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#27
def emit_comment; end
# @return [::Parser::Source::Range] last match's position
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#33
def pos; end
# Returns the value of attribute source_buffer.
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#11
def source_buffer; end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/with_meta.rb#23
def token(type, value); end
end
# Utility to assign a set of values to a constant
#
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#7
module RuboCop::AST::NodePattern::Sets
class << self
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#31
def [](set); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#15
def name(set); end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#22
def uniq(name); end
end
end
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#14
RuboCop::AST::NodePattern::Sets::MAX = T.let(T.unsafe(nil), Integer)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#8
RuboCop::AST::NodePattern::Sets::REGISTRY = T.let(T.unsafe(nil), Hash)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_0_1 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_10_10 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_1_1 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_1_2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ADD_DEPENDENCY_ADD_RUNTIME_DEPENDENCY_ADD_DEVELOPMENT_DEPENDENCY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_AFTER_ACTION_APPEND_AFTER_ACTION_APPEND_AROUND_ACTION_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ALL_ANY_CLASS_OF_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ALL_CONTEXT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_AND_RETURN_AND_RAISE_AND_THROW_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ANY_EMPTY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ANY_EMPTY_NONE_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_AP_P_PP_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_EMPTY_ASSERT_NOT_EMPTY_REFUTE_EMPTY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_EQUAL_ASSERT_NOT_EQUAL_REFUTE_EQUAL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_FALSE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_INCLUDES_ASSERT_NOT_INCLUDES_REFUTE_INCLUDES = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_INSTANCE_OF_ASSERT_NOT_INSTANCE_OF_REFUTE_INSTANCE_OF = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_IN_DELTA_ASSERT_NOT_IN_DELTA_REFUTE_IN_DELTA = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_KIND_OF_ASSERT_NOT_KIND_OF_REFUTE_KIND_OF = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_MATCH_REFUTE_MATCH = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_NIL_ASSERT_NOT_NIL_REFUTE_NIL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_PREDICATE_ASSERT_NOT_PREDICATE_REFUTE_PREDICATE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ASSERT_TRUE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ATTR_READER_ATTR_WRITER_ATTR_ACCESSOR = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ATTR_READER_ATTR_WRITER_ATTR_ACCESSOR_ATTR = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_BELONGS_TO_HAS_ONE_HAS_MANY_HAS_AND_BELONGS_TO_MANY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_BE_EQ_EQL_EQUAL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_BE_TRUTHY_BE_FALSEY_BE_FALSY_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_BINWRITE_SYSWRITE_WRITE_WRITE_NONBLOCK = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_BRANCH_REF_TAG = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CALL_RUN = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CAPTURE2_CAPTURE2E_CAPTURE3_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CHANGE_COLUMN_EXECUTE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CIPHER_DIGEST = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CLASS_EVAL_INSTANCE_EVAL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CLASS_EVAL_MODULE_EVAL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CLASS_MODULE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CLASS_MODULE_STRUCT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CLONE_DUP_FREEZE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CONTEXT_SHARED_CONTEXT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_COUNT_LENGTH_SIZE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CREATED_AT_UPDATED_AT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CREATED_AT_UPDATED_AT_2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_CSS_ID = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_DEFINE_METHOD_DEFINE_SINGLETON_METHOD = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_DESCRIBE_CONTEXT_FEATURE_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_DOUBLE_SPY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EACH_EXAMPLE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EACH_WITH_INDEX_WITH_INDEX = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EACH_WITH_OBJECT_WITH_OBJECT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EQL_EQ_BE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ESCAPE_ENCODE_UNESCAPE_DECODE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EXACTLY_AT_LEAST_AT_MOST = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EXIST_EXISTS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_EXPECT_ALLOW = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FACTORYGIRL_FACTORYBOT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FACTORY_TRAIT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FILETEST_FILE_DIR_SHELL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FILE_DIR = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FILE_FILETEST = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FILE_TEMPFILE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FILE_TEMPFILE_STRINGIO = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FIRST_LAST__ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FIXNUM_BIGNUM = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_FORMAT_SPRINTF_PRINTF = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_GETHOSTBYADDR_GETHOSTBYNAME = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_GET_POST_PUT_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_GSUB_GSUB = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_HAS_MANY_HAS_ONE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_HAS_MANY_HAS_ONE_BELONGS_TO = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_HEAD_ASSERT_RESPONSE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_HTML_HTML5 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_IF_UNLESS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_INCLUDE_EXTEND_PREPEND = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_INCLUDE_PREPEND = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_INSERT_INSERT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_INSTANCE_EVAL_CLASS_EVAL_MODULE_EVAL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_INSTANCE_EXEC_CLASS_EXEC_MODULE_EXEC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_IO_FILE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_IS_EXPECTED_SHOULD_SHOULD_NOT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_KEYS_VALUES = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_KEYS_VALUES_TO_H_TO_XML = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_KEY_HAS_KEY_FETCH_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_LAST_FIRST = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_LENGTH_SIZE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_LOAD_RESTORE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_MAP_COLLECT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_MAP_FILTER_MAP = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_MESSAGES_DETAILS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_MODULE_FUNCTION_RUBY2_KEYWORDS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NEW_ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NEW_COMPILE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NEW_OPEN = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NIL_ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NOTICE_ALERT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_NOT_TO_TO_NOT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ONLY_EXCEPT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PIPELINE_PIPELINE_R_PIPELINE_RW_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PRESENT_ANY_BLANK_EMPTY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PRIVATE_PROTECTED_PRIVATE_CLASS_METHOD = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PRIVATE_PROTECTED_PUBLIC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PROC_LAMBDA = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PROP_CONST = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PUBLIC_CONSTANT_PRIVATE_CONSTANT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_PUBLIC_PROTECTED_PRIVATE_MODULE_FUNCTION = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RAISE_ERROR_RAISE_EXCEPTION = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RAISE_FAIL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RAISE_FAIL_THROW_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_READ_BINREAD = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RECEIVE_HAVE_RECEIVED = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RECEIVE_MESSAGE_CHAIN_STUB_CHAIN = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RECEIVE_RECEIVE_MESSAGES_RECEIVE_MESSAGE_CHAIN_HAVE_RECEIVED = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RECEIVE_RECEIVE_MESSAGE_CHAIN = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_REDUCE_INJECT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_REFERER_REFERRER = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_REJECT_DELETE_IF_REJECT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RENDER_REDIRECT_TO = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_REQUIRE_REQUIRE_RELATIVE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_RETURNING_UNIQUE_BY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ROOT_PUBLIC_PATH = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SELECT_FILTER_FIND_ALL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SELECT_SELECT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SEND_PUBLIC_SEND___SEND__ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SEND___SEND__ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SHOULD_SHOULD_NOT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SIG_HELPERS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SKIP_AFTER_ACTION_SKIP_AROUND_ACTION_SKIP_BEFORE_ACTION_SKIP_ACTION_CALLBACK = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SKIP_PENDING = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SORT_BY_SORT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SPAWN_SYSTEM = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SPRINTF_FORMAT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_STATUS_CODE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_STDOUT_STDERR = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_STRUCT_CLASS = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_STRUCT_IMMUTABLESTRUCT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_STRUCT_IMMUTABLESTRUCT_INEXACTSTRUCT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_SUCC_PRED_NEXT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TASK_NAMESPACE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TEXT_EXACT_TEXT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TIME_DATETIME = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TO_ENUM_ENUM_FOR = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TO_H_TO_HASH = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TO_I_TO_F_TO_C_TO_R = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TO_TO_NOT_NOT_TO = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TRANSLATE_LOCALIZE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TRANSLATE_T = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TRUE_FALSE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_TRY_TRY = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_T_TRANSLATE_L_LOCALIZE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_WHERE_NOT = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_ZERO_POSITIVE_NEGATIVE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__AT_SLICE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__EQUAL_EQL = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__FETCH = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__GLOB = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET__PUSH_APPEND = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___3 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___4 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___5 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___6 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___7 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___8 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___EQL_ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___EQL_INCLUDE = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET___METHOD_____CALLEE__ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____ = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____ETC = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____ETC_2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____ETC_3 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET____ETC_4 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern/sets.rb#10
RuboCop::AST::NodePattern::Sets::SET_____2 = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/node_pattern.rb#55
RuboCop::AST::NodePattern::VAR = T.let(T.unsafe(nil), String)
# Common functionality for primitive numeric nodes: `int`, `float`, ...
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/numeric_node.rb#6
module RuboCop::AST::NumericNode
# Checks whether this is literal has a sign.
#
# @example
#
# +42
# @return [Boolean] whether this literal has a sign.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/numeric_node.rb#17
def sign?; end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/numeric_node.rb#7
RuboCop::AST::NumericNode::SIGN_REGEX = T.let(T.unsafe(nil), Regexp)
# A node extension for `op_asgn` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all assignment nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/op_asgn_node.rb#8
class RuboCop::AST::OpAsgnNode < ::RuboCop::AST::Node
# @return [AsgnNode] the assignment node
#
# source://rubocop-ast//lib/rubocop/ast/node/op_asgn_node.rb#10
def assignment_node; end
# The expression being assigned to the variable.
#
# @return [Node] the expression being assigned.
#
# source://rubocop-ast//lib/rubocop/ast/node/op_asgn_node.rb#31
def expression; end
# The name of the variable being assigned as a symbol.
#
# @return [Symbol] the name of the variable being assigned
#
# source://rubocop-ast//lib/rubocop/ast/node/op_asgn_node.rb#17
def name; end
# The operator being used for assignment as a symbol.
#
# @return [Symbol] the assignment operator
#
# source://rubocop-ast//lib/rubocop/ast/node/op_asgn_node.rb#24
def operator; end
end
# A node extension for `op_asgn` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all assignment nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/or_asgn_node.rb#8
class RuboCop::AST::OrAsgnNode < ::RuboCop::AST::OpAsgnNode
# The operator being used for assignment as a symbol.
#
# @return [Symbol] the assignment operator
#
# source://rubocop-ast//lib/rubocop/ast/node/or_asgn_node.rb#12
def operator; end
end
# A node extension for `or` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `or` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/or_node.rb#8
class RuboCop::AST::OrNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BinaryOperatorNode
include ::RuboCop::AST::PredicateOperatorNode
# Returns the alternate operator of the `or` as a string.
# Returns `or` for `||` and vice versa.
#
# @return [String] the alternate of the `or` operator
#
# source://rubocop-ast//lib/rubocop/ast/node/or_node.rb#16
def alternate_operator; end
# Returns the inverse keyword of the `or` node as a string.
# Returns `and` for `or` and `&&` for `||`.
#
# @return [String] the inverse of the `or` operator
#
# source://rubocop-ast//lib/rubocop/ast/node/or_node.rb#24
def inverse_operator; end
end
# A node extension for `pair` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `pair` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#8
class RuboCop::AST::PairNode < ::RuboCop::AST::Node
include ::RuboCop::AST::HashElementNode
# Checks whether the `pair` uses a colon delimiter.
#
# @return [Boolean] whether this `pair` uses a colon delimiter
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#30
def colon?; end
# Returns the delimiter of the `pair` as a string. Returns `=>` for a
# colon delimited `pair` and `:` for a hash rocket delimited `pair`.
#
# @param with_spacing [Boolean] whether to include spacing
# @return [String] the delimiter of the `pair`
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#39
def delimiter(*deprecated, with_spacing: T.unsafe(nil)); end
# Checks whether the `pair` uses a hash rocket delimiter.
#
# @return [Boolean] whether this `pair` uses a hash rocket delimiter
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#23
def hash_rocket?; end
# Returns the inverse delimiter of the `pair` as a string.
#
# @param with_spacing [Boolean] whether to include spacing
# @return [String] the inverse delimiter of the `pair`
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#51
def inverse_delimiter(*deprecated, with_spacing: T.unsafe(nil)); end
# Checks whether the `pair` uses hash value omission.
#
# @return [Boolean] whether this `pair` uses hash value omission
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#69
def value_omission?; end
# Checks whether the value starts on its own line.
#
# @return [Boolean] whether the value in the `pair` starts its own line
#
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#62
def value_on_new_line?; end
end
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#15
RuboCop::AST::PairNode::COLON = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#11
RuboCop::AST::PairNode::HASH_ROCKET = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#17
RuboCop::AST::PairNode::SPACED_COLON = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/pair_node.rb#13
RuboCop::AST::PairNode::SPACED_HASH_ROCKET = T.let(T.unsafe(nil), String)
# Requires implementing `arguments`.
#
# Common functionality for nodes that are parameterized:
# `send`, `super`, `zsuper`, `def`, `defs`
# and (modern only): `index`, `indexasgn`, `lambda`
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#10
module RuboCop::AST::ParameterizedNode
# Checks whether this node has any arguments.
#
# @return [Boolean] whether this node has any arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#40
def arguments?; end
# Whether the last argument of the node is a block pass,
# i.e. `&block`.
#
# @return [Boolean] whether the last argument of the node is a block pass
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#58
def block_argument?; end
# A shorthand for getting the first argument of the node.
# Equivalent to `arguments.first`.
#
# @return [Node, nil] the first argument of the node,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#24
def first_argument; end
# A shorthand for getting the last argument of the node.
# Equivalent to `arguments.last`.
#
# @return [Node, nil] the last argument of the node,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#33
def last_argument; end
# Checks whether this node's arguments are wrapped in parentheses.
#
# @return [Boolean] whether this node's arguments are
# wrapped in parentheses
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#15
def parenthesized?; end
# Checks whether any argument of the node is a splat
# argument, i.e. `*splat`.
#
# @return [Boolean] whether the node is a splat argument
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#48
def rest_argument?; end
# Checks whether any argument of the node is a splat
# argument, i.e. `*splat`.
#
# @return [Boolean] whether the node is a splat argument
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#48
def splat_argument?; end
end
# A specialized `ParameterizedNode`.
# Requires implementing `first_argument_index`
# Implements `arguments` as `children[first_argument_index..-1]`
# and optimizes other calls
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#83
module RuboCop::AST::ParameterizedNode::RestArguments
include ::RuboCop::AST::ParameterizedNode
# @return [Array<Node>] arguments, if any
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#89
def arguments; end
# Checks whether this node has any arguments.
#
# @return [Boolean] whether this node has any arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#119
def arguments?; end
# A shorthand for getting the first argument of the node.
# Equivalent to `arguments.first`.
#
# @return [Node, nil] the first argument of the node,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#103
def first_argument; end
# A shorthand for getting the last argument of the node.
# Equivalent to `arguments.last`.
#
# @return [Node, nil] the last argument of the node,
# or `nil` if there are no arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#112
def last_argument; end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#86
RuboCop::AST::ParameterizedNode::RestArguments::EMPTY_ARGUMENTS = T.let(T.unsafe(nil), Array)
# A specialized `ParameterizedNode` for node that have a single child
# containing either `nil`, an argument, or a `begin` node with all the
# arguments
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#66
module RuboCop::AST::ParameterizedNode::WrappedArguments
include ::RuboCop::AST::ParameterizedNode
# @return [Array] The arguments of the node.
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/parameterized_node.rb#69
def arguments; end
end
# Common functionality for nodes that are predicates:
# `or`, `and` ...
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#7
module RuboCop::AST::PredicateOperatorNode
# Checks whether this is a logical operator.
#
# @return [Boolean] whether this is a logical operator
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#27
def logical_operator?; end
# Returns the operator as a string.
#
# @return [String] the operator
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#20
def operator; end
# Checks whether this is a semantic operator.
#
# @return [Boolean] whether this is a semantic operator
#
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#34
def semantic_operator?; end
end
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#8
RuboCop::AST::PredicateOperatorNode::LOGICAL_AND = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#12
RuboCop::AST::PredicateOperatorNode::LOGICAL_OR = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#10
RuboCop::AST::PredicateOperatorNode::SEMANTIC_AND = T.let(T.unsafe(nil), String)
# source://rubocop-ast//lib/rubocop/ast/node/mixin/predicate_operator_node.rb#14
RuboCop::AST::PredicateOperatorNode::SEMANTIC_OR = T.let(T.unsafe(nil), String)
# A node extension for `procarg0` nodes.
# This will be used in place of a plain node when the builder constructs
# the AST, making its methods available to all `arg` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/procarg0_node.rb#8
class RuboCop::AST::Procarg0Node < ::RuboCop::AST::ArgNode
# Returns the name of an argument.
#
# @return [Symbol, nil] the name of the argument
#
# source://rubocop-ast//lib/rubocop/ast/node/procarg0_node.rb#12
def name; end
end
# ProcessedSource contains objects which are generated by Parser
# and other information such as disabled lines for cops.
# It also provides a convenient way to access source lines.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#11
class RuboCop::AST::ProcessedSource
# @return [ProcessedSource] a new instance of ProcessedSource
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#29
def initialize(source, ruby_version, path = T.unsafe(nil), parser_engine: T.unsafe(nil)); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#73
def [](*args); end
# Returns the value of attribute ast.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def ast; end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#51
def ast_with_comments; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#112
def blank?; end
# Returns the value of attribute buffer.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def buffer; end
# Raw source checksum for tracking infinite loops.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#84
def checksum; end
# @return [Comment, nil] the comment at that line, if any.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#117
def comment_at_line(line); end
# Consider using `each_comment_in_lines` instead
#
# @deprecated use contains_comment?
# @return [Boolean] if any of the lines in the given `source_range` has a comment.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#139
def commented?(source_range); end
# Returns the value of attribute comments.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def comments; end
# Should have been called `comments_before_or_at_line`. Doubtful it has of any valid use.
#
# @deprecated Use `each_comment_in_lines`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#147
def comments_before_line(line); end
# Consider using `each_comment_in_lines` instead
#
# @return [Boolean] if any of the lines in the given `source_range` has a comment.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#139
def contains_comment?(source_range); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#161
def current_line(token); end
# Returns the value of attribute diagnostics.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def diagnostics; end
# @deprecated Use `comments.each`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#89
def each_comment(&block); end
# Enumerates on the comments contained with the given `line_range`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#127
def each_comment_in_lines(line_range); end
# @deprecated Use `tokens.each`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#99
def each_token(&block); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#108
def file_path; end
# @deprecated Use `comment_at_line`, `each_comment_in_lines`, or `comments.find`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#94
def find_comment(&block); end
# @deprecated Use `tokens.find`
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#104
def find_token(&block); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#182
def first_token_of(range_or_node); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#165
def following_line(token); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#186
def last_token_of(range_or_node); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#169
def line_indentation(line_number); end
# @return [Boolean] if the given line number has a comment.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#122
def line_with_comment?(line); end
# Returns the source lines, line break characters removed, excluding a
# possible __END__ and everything that comes after.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#59
def lines; end
# Returns the value of attribute parser_engine.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def parser_engine; end
# Returns the value of attribute parser_error.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def parser_error; end
# Returns the value of attribute path.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def path; end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#157
def preceding_line(token); end
# Returns the value of attribute raw_source.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def raw_source; end
# Returns the value of attribute ruby_version.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def ruby_version; end
# The tokens list is always sorted by token position, except for cases when heredoc
# is passed as a method argument. In this case tokens are interleaved by
# heredoc contents' tokens.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#193
def sorted_tokens; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#151
def start_with?(string); end
# Returns the value of attribute tokens.
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#21
def tokens; end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#176
def tokens_within(range_or_node); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#77
def valid_syntax?; end
private
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#200
def comment_index; end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#312
def create_parser(ruby_version, parser_engine); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#328
def first_token_index(range_or_node); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#333
def last_token_index(range_or_node); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#206
def parse(source, ruby_version, parser_engine); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#240
def parser_class(ruby_version, parser_engine); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#338
def source_range(range_or_node); end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#223
def tokenize(parser); end
class << self
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#24
def from_file(path, ruby_version, parser_engine: T.unsafe(nil)); end
end
end
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#15
RuboCop::AST::ProcessedSource::INVALID_LEVELS = T.let(T.unsafe(nil), Array)
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#18
RuboCop::AST::ProcessedSource::PARSER_ENGINES = T.let(T.unsafe(nil), Array)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/processed_source.rb#13
RuboCop::AST::ProcessedSource::STRING_SOURCE_NAME = T.let(T.unsafe(nil), String)
# A node extension for `irange` and `erange` nodes. This will be used in
# place of a plain node when the builder constructs the AST, making its
# methods available to all `irange` and `erange` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/range_node.rb#8
class RuboCop::AST::RangeNode < ::RuboCop::AST::Node
# source://rubocop-ast//lib/rubocop/ast/node/range_node.rb#9
def begin; end
# source://rubocop-ast//lib/rubocop/ast/node/range_node.rb#13
def end; end
end
# A node extension for `regexp` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `regexp` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#8
class RuboCop::AST::RegexpNode < ::RuboCop::AST::Node
# @return [String] a string of regexp content
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#37
def content; end
# @return [Bool] if char is one of the delimiters
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#57
def delimiter?(char); end
# @return [String] the regexp delimiters (without %r)
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#52
def delimiters; end
# @return [Bool] if regexp uses the extended regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#72
def extended?; end
# @return [Bool] if regexp uses the fixed-encoding regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#92
def fixed_encoding?; end
# @return [Bool] if regexp uses the ignore-case regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#77
def ignore_case?; end
# @return [Bool] if regexp contains interpolation
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#62
def interpolation?; end
# @return [Bool] if regexp uses the multiline regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#67
def multiline_mode?; end
# @return [Bool] if regexp uses the no-encoding regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#87
def no_encoding?; end
# NOTE: The 'o' option is ignored.
#
# @return [Integer] the Regexp option bits as returned by Regexp#options
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#32
def options; end
# @return [Bool] if the regexp is a %r{...} literal (using any delimiters)
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#47
def percent_r_literal?; end
# @return [RuboCop::AST::Node] a regopt node
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#25
def regopt; end
# @return [Bool] if regexp uses the single-interpolation regopt
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#82
def single_interpolation?; end
# @return [Bool] if the regexp is a /.../ literal
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#42
def slash_literal?; end
# @return [Regexp] a regexp of this node
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#20
def to_regexp; end
private
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#98
def regopt_include?(option); end
end
# source://rubocop-ast//lib/rubocop/ast/node/regexp_node.rb#9
RuboCop::AST::RegexpNode::OPTIONS = T.let(T.unsafe(nil), Hash)
# A node extension for `resbody` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `resbody` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/resbody_node.rb#8
class RuboCop::AST::ResbodyNode < ::RuboCop::AST::Node
# Returns the body of the `rescue` clause.
#
# @return [Node, nil] The body of the `resbody`.
#
# source://rubocop-ast//lib/rubocop/ast/node/resbody_node.rb#12
def body; end
# Returns the index of the `resbody` branch within the exception handling statement.
#
# @return [Integer] the index of the `resbody` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/resbody_node.rb#40
def branch_index; end
# Returns the exception variable of the `rescue` clause.
#
# @return [Node, nil] The exception variable of the `resbody`.
#
# source://rubocop-ast//lib/rubocop/ast/node/resbody_node.rb#33
def exception_variable; end
# Returns an array of all the exceptions in the `rescue` clause.
#
# @return [Array<Node>] an array of exception nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/resbody_node.rb#19
def exceptions; end
end
# A node extension for `rescue` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `rescue` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#8
class RuboCop::AST::RescueNode < ::RuboCop::AST::Node
# Returns the body of the rescue node.
#
# @return [Node, nil] The body of the rescue node.
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#12
def body; end
# Returns an array of all the rescue branches in the exception handling statement.
#
# and the else (if any). Note that these bodies could be nil.
#
# @return [Array<Node, nil>] an array of the bodies of the rescue branches
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#27
def branches; end
# Checks whether this exception handling statement has an `else` branch.
#
# @return [Boolean] whether the exception handling statement has an `else` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#44
def else?; end
# Returns the else branch of the exception handling statement, if any.
#
# @return [Node] the else branch node of the exception handling statement
# @return [nil] if the exception handling statement does not have an else branch.
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#37
def else_branch; end
# Returns an array of all the rescue branches in the exception handling statement.
#
# @return [Array<ResbodyNode>] an array of `resbody` nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/rescue_node.rb#19
def resbody_branches; end
end
# A node extension for `return` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `return` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/return_node.rb#8
class RuboCop::AST::ReturnNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::WrappedArguments
end
# Responsible for compatibility with main gem
#
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/rubocop_compatibility.rb#8
module RuboCop::AST::RuboCopCompatibility
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/rubocop_compatibility.rb#13
def rubocop_loaded; end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/rubocop_compatibility.rb#9
RuboCop::AST::RuboCopCompatibility::INCOMPATIBLE_COPS = T.let(T.unsafe(nil), Hash)
# A node extension for `sclass` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `sclass` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/self_class_node.rb#8
class RuboCop::AST::SelfClassNode < ::RuboCop::AST::Node
# The body of this `sclass` node.
#
# @return [Node, nil] the body of the class
#
# source://rubocop-ast//lib/rubocop/ast/node/self_class_node.rb#19
def body; end
# The identifier for this `sclass` node. (Always `self`.)
#
# @return [Node] the identifier of the class
#
# source://rubocop-ast//lib/rubocop/ast/node/self_class_node.rb#12
def identifier; end
end
# A node extension for `send` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `send` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/send_node.rb#8
class RuboCop::AST::SendNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::ParameterizedNode::RestArguments
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# source://rubocop-ast//lib/rubocop/ast/node/send_node.rb#13
def attribute_accessor?(param0 = T.unsafe(nil)); end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/send_node.rb#18
def send_type?; end
private
# source://rubocop-ast//lib/rubocop/ast/node/send_node.rb#24
def first_argument_index; end
end
# This module provides a shorthand method to create a {Node} like
# `Parser::AST::Sexp`.
#
# @see https://www.rubydoc.info/gems/ast/AST/Sexp
#
# source://rubocop-ast//lib/rubocop/ast/sexp.rb#9
module RuboCop::AST::Sexp
# Creates a {Node} with type `type` and children `children`.
#
# source://rubocop-ast//lib/rubocop/ast/sexp.rb#11
def s(type, *children); end
end
# A node extension for `str`, `dstr`, and `xstr` nodes. This will be used
# in place of a plain node when the builder constructs the AST, making
# its methods available to all `str` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/str_node.rb#8
class RuboCop::AST::StrNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BasicLiteralNode
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/str_node.rb#11
def character_literal?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/node/str_node.rb#15
def heredoc?; end
end
# A node extension for `super`- and `zsuper` nodes. This will be used in
# place of a plain node when the builder constructs the AST, making its
# methods available to all `super`- and `zsuper` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/super_node.rb#8
class RuboCop::AST::SuperNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# source://ast/2.4.2/lib/ast/node.rb#56
def arguments; end
# Custom destructuring method. This can be used to normalize
# destructuring for different variations of the node.
#
# @return [Array] the different parts of the `super` node
#
# source://rubocop-ast//lib/rubocop/ast/node/super_node.rb#16
def node_parts; end
end
# A node extension for `sym` nodes. This will be used in place of a
# plain node when the builder constructs the AST, making its methods
# available to all `sym` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/symbol_node.rb#8
class RuboCop::AST::SymbolNode < ::RuboCop::AST::Node
include ::RuboCop::AST::BasicLiteralNode
end
# A basic wrapper around Parser's tokens.
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#6
class RuboCop::AST::Token
# @return [Token] a new instance of Token
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#17
def initialize(pos, type, text); end
# source://rubocop-ast//lib/rubocop/ast/token.rb#32
def begin_pos; end
# source://rubocop-ast//lib/rubocop/ast/token.rb#28
def column; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#101
def comma?; end
# Type Predicates
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#57
def comment?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#105
def dot?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#117
def end?; end
# source://rubocop-ast//lib/rubocop/ast/token.rb#36
def end_pos; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#121
def equal_sign?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#65
def left_array_bracket?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#81
def left_brace?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#73
def left_bracket?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#85
def left_curly_brace?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#93
def left_parens?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#69
def left_ref_bracket?; end
# source://rubocop-ast//lib/rubocop/ast/token.rb#24
def line; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#125
def new_line?; end
# Returns the value of attribute pos.
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#9
def pos; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#109
def regexp_dots?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#113
def rescue_modifier?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#77
def right_bracket?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#89
def right_curly_brace?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#97
def right_parens?; end
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#61
def semicolon?; end
# Checks if there is whitespace after token
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#45
def space_after?; end
# Checks if there is whitespace before token
#
# @return [Boolean]
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#50
def space_before?; end
# Returns the value of attribute text.
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#9
def text; end
# source://rubocop-ast//lib/rubocop/ast/token.rb#40
def to_s; end
# Returns the value of attribute type.
#
# source://rubocop-ast//lib/rubocop/ast/token.rb#9
def type; end
class << self
# source://rubocop-ast//lib/rubocop/ast/token.rb#11
def from_parser_token(parser_token); end
end
end
# source://rubocop-ast//lib/rubocop/ast/token.rb#7
RuboCop::AST::Token::LEFT_PAREN_TYPES = T.let(T.unsafe(nil), Array)
# Provides methods for traversing an AST.
# Does not transform an AST; for that, use Parser::AST::Processor.
# Override methods to perform custom processing. Remember to call `super`
# if you want to recursively process descendant nodes.
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#9
module RuboCop::AST::Traversal
extend ::RuboCop::AST::Traversal::CallbackCompiler
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#173
def on_(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on___ENCODING__(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on___FILE__(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on___LINE__(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_alias(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_and(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_and_asgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_arg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_arg_expr(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_args(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_array(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_array_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_array_pattern_with_tail(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_back_ref(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_begin(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#151
def on_block(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#129
def on_block_pass(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_blockarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_break(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_case(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_case_match(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#146
def on_casgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_cbase(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#147
def on_class(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_complex(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#145
def on_const(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_const_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#155
def on_csend(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_cvar(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#131
def on_cvasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#148
def on_def(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_defined?(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#153
def on_defs(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_dstr(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_dsym(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_eflipflop(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_empty_else(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_ensure(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_erange(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_false(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_find_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_float(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_for(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_forward_arg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_forward_args(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_forwarded_args(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_forwarded_kwrestarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_forwarded_restarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_gvar(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#131
def on_gvasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_hash(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_hash_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#150
def on_if(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_if_guard(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_iflipflop(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_in_match(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_in_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_index(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_indexasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_int(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_irange(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_ivar(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#131
def on_ivasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_kwarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_kwargs(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_kwbegin(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_kwnilarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#132
def on_kwoptarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#124
def on_kwrestarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#125
def on_kwsplat(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_lambda(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_lvar(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#131
def on_lvasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_masgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_match_alt(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_match_as(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_match_current_line(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_match_nil_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_match_pattern(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_match_pattern_p(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#125
def on_match_rest(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_match_var(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_match_with_lvasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_match_with_trailing_comma(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_mlhs(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#133
def on_module(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_mrasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_next(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_nil(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_not(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_nth_ref(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#152
def on_numblock(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#149
def on_op_asgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#132
def on_optarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_or(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_or_asgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_pair(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_pin(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#129
def on_postexe(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#129
def on_preexe(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_procarg0(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_rasgn(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_rational(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_redo(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_regexp(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#135
def on_regopt(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_resbody(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_rescue(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#124
def on_restarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_retry(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_return(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#133
def on_sclass(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_self(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#155
def on_send(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_shadowarg(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#125
def on_splat(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_str(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_super(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#127
def on_sym(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_true(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_undef(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#128
def on_unless_guard(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#133
def on_until(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_until_post(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#139
def on_when(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#133
def on_while(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_while_post(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_xstr(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#136
def on_yield(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#123
def on_zsuper(node); end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#17
def walk(node); end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#25
module RuboCop::AST::Traversal::CallbackCompiler
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#61
def arity_check(range); end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#52
def body(signature, prelude); end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#35
def def_callback(type, *signature, arity: T.unsafe(nil), arity_check: T.unsafe(nil), body: T.unsafe(nil)); end
end
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#26
RuboCop::AST::Traversal::CallbackCompiler::SEND = T.let(T.unsafe(nil), String)
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#29
RuboCop::AST::Traversal::CallbackCompiler::TEMPLATE = T.let(T.unsafe(nil), Hash)
# Only for debugging.
#
# @api private
#
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#12
class RuboCop::AST::Traversal::DebugError < ::RuntimeError; end
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#100
RuboCop::AST::Traversal::NO_CHILD_NODES = T.let(T.unsafe(nil), Set)
# source://rubocop-ast//lib/rubocop/ast/traversal.rb#15
RuboCop::AST::Traversal::TYPE_TO_METHOD = T.let(T.unsafe(nil), Hash)
# A node extension for `until` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `until` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/until_node.rb#8
class RuboCop::AST::UntilNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ConditionalNode
include ::RuboCop::AST::ModifierNode
# Checks whether the `until` node has a `do` keyword.
#
# @return [Boolean] whether the `until` node has a `do` keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/until_node.rb#30
def do?; end
# Returns the inverse keyword of the `until` node as a string.
# Returns `while` for `until` nodes and vice versa.
#
# @return [String] the inverse keyword of the `until` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/until_node.rb#23
def inverse_keyword; end
# Returns the keyword of the `until` statement as a string.
#
# @return [String] the keyword of the `until` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/until_node.rb#15
def keyword; end
end
# source://rubocop-ast//lib/rubocop/ast/version.rb#5
module RuboCop::AST::Version; end
# source://rubocop-ast//lib/rubocop/ast/version.rb#6
RuboCop::AST::Version::STRING = T.let(T.unsafe(nil), String)
# A node extension for `when` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `when` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#8
class RuboCop::AST::WhenNode < ::RuboCop::AST::Node
# Returns the body of the `when` node.
#
# @return [Node, nil] the body of the `when` node
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#42
def body; end
# Returns the index of the `when` branch within the `case` statement.
#
# @return [Integer] the index of the `when` branch
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#28
def branch_index; end
# Returns an array of all the conditions in the `when` branch.
#
# @return [Array<Node>] an array of condition nodes
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#12
def conditions; end
# @deprecated Use `conditions.each`
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#17
def each_condition(&block); end
# Checks whether the `when` node has a `then` keyword.
#
# @return [Boolean] whether the `when` node has a `then` keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/when_node.rb#35
def then?; end
end
# A node extension for `while` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `while` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/while_node.rb#8
class RuboCop::AST::WhileNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ConditionalNode
include ::RuboCop::AST::ModifierNode
# Checks whether the `until` node has a `do` keyword.
#
# @return [Boolean] whether the `until` node has a `do` keyword
#
# source://rubocop-ast//lib/rubocop/ast/node/while_node.rb#30
def do?; end
# Returns the inverse keyword of the `while` node as a string.
# Returns `until` for `while` nodes and vice versa.
#
# @return [String] the inverse keyword of the `while` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/while_node.rb#23
def inverse_keyword; end
# Returns the keyword of the `while` statement as a string.
#
# @return [String] the keyword of the `while` statement
#
# source://rubocop-ast//lib/rubocop/ast/node/while_node.rb#15
def keyword; end
end
# A node extension for `yield` nodes. This will be used in place of a plain
# node when the builder constructs the AST, making its methods available
# to all `yield` nodes within RuboCop.
#
# source://rubocop-ast//lib/rubocop/ast/node/yield_node.rb#8
class RuboCop::AST::YieldNode < ::RuboCop::AST::Node
include ::RuboCop::AST::ParameterizedNode
include ::RuboCop::AST::MethodIdentifierPredicates
include ::RuboCop::AST::MethodDispatchNode
# source://ast/2.4.2/lib/ast/node.rb#56
def arguments; end
# Custom destructuring method. This can be used to normalize
# destructuring for different variations of the node.
#
# @return [Array] the different parts of the `send` node
#
# source://rubocop-ast//lib/rubocop/ast/node/yield_node.rb#16
def node_parts; end
end