class Prism::EmbeddedStatementsNode

^^^^^^
“foo #{bar}”
Represents an interpolated set of statements.

def self.type

Return a symbol representation of this node type. See `Node::type`. 
def self.type
  :embedded_statements_node
end

def ===(other)

comparing the value of locations. Locations are checked only for presence.
Implements case-equality for the node. This is effectively == but without 
def ===(other)
  other.is_a?(EmbeddedStatementsNode) &&
    (opening_loc.nil? == other.opening_loc.nil?) &&
    (statements === other.statements) &&
    (closing_loc.nil? == other.closing_loc.nil?)
end

def accept(visitor)

def accept: (Visitor visitor) -> void 
def accept(visitor)
  visitor.visit_embedded_statements_node(self)
end

def child_nodes

def child_nodes: () -> Array[nil | Node] 
def child_nodes
  [statements]
end

def closing

def closing: () -> String 
def closing
  closing_loc.slice
end

def closing_loc

attr_reader closing_loc: Location 
def closing_loc
  location = @closing_loc
  return location if location.is_a?(Location)
  @closing_loc = Location.new(source, location >> 32, location & 0xFFFFFFFF)
end

def comment_targets

def comment_targets: () -> Array[Node | Location] 
def comment_targets
  [opening_loc, *statements, closing_loc] #: Array[Prism::node | Location]
end

def compact_child_nodes

def compact_child_nodes: () -> Array[Node] 
def compact_child_nodes
  compact = [] #: Array[Prism::node]
  compact << statements if statements
  compact
end

def copy(node_id: self.node_id, location: self.location, flags: self.flags, opening_loc: self.opening_loc, statements: self.statements, closing_loc: self.closing_loc)

def copy: (?node_id: Integer, ?location: Location, ?flags: Integer, ?opening_loc: Location, ?statements: StatementsNode?, ?closing_loc: Location) -> EmbeddedStatementsNode 
def copy(node_id: self.node_id, location: self.location, flags: self.flags, opening_loc: self.opening_loc, statements: self.statements, closing_loc: self.closing_loc)
  EmbeddedStatementsNode.new(source, node_id, location, flags, opening_loc, statements, closing_loc)
end

def deconstruct_keys(keys)

def deconstruct_keys: (Array[Symbol] keys) -> { node_id: Integer, location: Location, opening_loc: Location, statements: StatementsNode?, closing_loc: Location } 
def deconstruct_keys(keys)
  { node_id: node_id, location: location, opening_loc: opening_loc, statements: statements, closing_loc: closing_loc }
end

def initialize(source, node_id, location, flags, opening_loc, statements, closing_loc)

Initialize a new EmbeddedStatementsNode node. 
def initialize(source, node_id, location, flags, opening_loc, statements, closing_loc)
  @source = source
  @node_id = node_id
  @location = location
  @flags = flags
  @opening_loc = opening_loc
  @statements = statements
  @closing_loc = closing_loc
end

def inspect

def inspect -> String 
def inspect
  InspectVisitor.compose(self)
end

def opening

def opening: () -> String 
def opening
  opening_loc.slice
end

def opening_loc

attr_reader opening_loc: Location 
def opening_loc
  location = @opening_loc
  return location if location.is_a?(Location)
  @opening_loc = Location.new(source, location >> 32, location & 0xFFFFFFFF)
end

def save_closing_loc(repository)

it can be retrieved later.
Save the closing_loc location using the given saved source so that 
def save_closing_loc(repository)
  repository.enter(node_id, :closing_loc)
end

def save_opening_loc(repository)

it can be retrieved later.
Save the opening_loc location using the given saved source so that 
def save_opening_loc(repository)
  repository.enter(node_id, :opening_loc)
end

def type

Return a symbol representation of this node type. See `Node#type`. 
def type
  :embedded_statements_node
end