class SyntaxTree::SymbolLiteral

Experimental RBS support (using type sampling data from the type_fusion project). 

# sig/syntax_tree/node.rbs

class SyntaxTree::SymbolLiteral < SyntaxTree::Node
  def accept: (Visitor visitor) -> untyped
  def child_nodes: () -> untyped
  def initialize: (value: (SyntaxTree::Const | SyntaxTree::Ident | SyntaxTree::Op), location: SyntaxTree::Location) -> void
end


:symbol
(as opposed to a DynaSymbol which has interpolation).
SymbolLiteral represents a symbol in the system with no interpolation

def ===(other) 

def ===(other)
  other.is_a?(SymbolLiteral) && value === other.value
end

def accept(visitor)

Experimental RBS support (using type sampling data from the type_fusion project). 

def accept: (Visitor visitor) -> untyped

This signature was generated using 2 samples from 1 application. 

def accept(visitor)
  visitor.visit_symbol_literal(self)
end

def child_nodes

Experimental RBS support (using type sampling data from the type_fusion project). 

def child_nodes: () -> untyped

This signature was generated using 8 samples from 1 application. 

def child_nodes
  [value]
end

def copy(value: nil, location: nil) 

def copy(value: nil, location: nil)
  node =
    SymbolLiteral.new(
      value: value || self.value,
      location: location || self.location
    )
  node.comments.concat(comments.map(&:copy))
  node
end

def deconstruct_keys(_keys) 

def deconstruct_keys(_keys)
  { value: value, location: location, comments: comments }
end

def format(q) 

def format(q)
  q.text(":")
  q.text("\\") if value.comments.any?
  q.format(value)
end

def initialize(value:, location:)

Experimental RBS support (using type sampling data from the type_fusion project). 

def initialize: (value: (SyntaxTree::Const | SyntaxTree::Ident | SyntaxTree::Op), location: SyntaxTree::Location) -> void

This signature was generated using 8 samples from 1 application. 

def initialize(value:, location:)
  @value = value
  @location = location
  @comments = []
end