# frozen_string_literal: true
=begin
This file is generated by the templates/template.rb script and should not be
modified manually. See templates/lib/prism/serialize.rb.erb
if you are looking to modify the template
=end
require "stringio"
require_relative "polyfill/unpack1"
module Prism
# A module responsible for deserializing parse results.
module Serialize
# The major version of prism that we are expecting to find in the serialized
# strings.
MAJOR_VERSION = 1
# The minor version of prism that we are expecting to find in the serialized
# strings.
MINOR_VERSION = 4
# The patch version of prism that we are expecting to find in the serialized
# strings.
PATCH_VERSION = 0
# Deserialize the dumped output from a request to parse or parse_file.
#
# The formatting of the source of this method is purposeful to illustrate
# the structure of the serialized data.
def self.load_parse(input, serialized, freeze)
input = input.dup
source = Source.for(input)
loader = Loader.new(source, serialized)
loader.load_header
encoding = loader.load_encoding
start_line = loader.load_varsint
offsets = loader.load_line_offsets(freeze)
source.replace_start_line(start_line)
source.replace_offsets(offsets)
comments = loader.load_comments(freeze)
magic_comments = loader.load_magic_comments(freeze)
data_loc = loader.load_optional_location_object(freeze)
errors = loader.load_errors(encoding, freeze)
warnings = loader.load_warnings(encoding, freeze)
cpool_base = loader.load_uint32
cpool_size = loader.load_varuint
constant_pool = ConstantPool.new(input, serialized, cpool_base, cpool_size)
node = loader.load_node(constant_pool, encoding, freeze)
loader.load_constant_pool(constant_pool)
raise unless loader.eof?
result = ParseResult.new(node, comments, magic_comments, data_loc, errors, warnings, source)
result.freeze if freeze
input.force_encoding(encoding)
# This is an extremely niche use-case where the file was marked as binary
# but it contained UTF-8-encoded characters. In that case we will actually
# put it back to UTF-8 to give the location APIs the best chance of being
# correct.
if !input.ascii_only? && input.encoding == Encoding::BINARY
input.force_encoding(Encoding::UTF_8)
input.force_encoding(Encoding::BINARY) unless input.valid_encoding?
end
if freeze
input.freeze
source.deep_freeze
end
result
end
# Deserialize the dumped output from a request to lex or lex_file.
#
# The formatting of the source of this method is purposeful to illustrate
# the structure of the serialized data.
def self.load_lex(input, serialized, freeze)
source = Source.for(input)
loader = Loader.new(source, serialized)
tokens = loader.load_tokens
encoding = loader.load_encoding
start_line = loader.load_varsint
offsets = loader.load_line_offsets(freeze)
source.replace_start_line(start_line)
source.replace_offsets(offsets)
comments = loader.load_comments(freeze)
magic_comments = loader.load_magic_comments(freeze)
data_loc = loader.load_optional_location_object(freeze)
errors = loader.load_errors(encoding, freeze)
warnings = loader.load_warnings(encoding, freeze)
raise unless loader.eof?
result = LexResult.new(tokens, comments, magic_comments, data_loc, errors, warnings, source)
tokens.each do |token|
token[0].value.force_encoding(encoding)
if freeze
token[0].deep_freeze
token.freeze
end
end
if freeze
source.deep_freeze
tokens.freeze
result.freeze
end
result
end
# Deserialize the dumped output from a request to parse_comments or
# parse_file_comments.
#
# The formatting of the source of this method is purposeful to illustrate
# the structure of the serialized data.
def self.load_parse_comments(input, serialized, freeze)
source = Source.for(input)
loader = Loader.new(source, serialized)
loader.load_header
loader.load_encoding
start_line = loader.load_varsint
source.replace_start_line(start_line)
result = loader.load_comments(freeze)
raise unless loader.eof?
source.deep_freeze if freeze
result
end
# Deserialize the dumped output from a request to parse_lex or
# parse_lex_file.
#
# The formatting of the source of this method is purposeful to illustrate
# the structure of the serialized data.
def self.load_parse_lex(input, serialized, freeze)
source = Source.for(input)
loader = Loader.new(source, serialized)
tokens = loader.load_tokens
loader.load_header
encoding = loader.load_encoding
start_line = loader.load_varsint
offsets = loader.load_line_offsets(freeze)
source.replace_start_line(start_line)
source.replace_offsets(offsets)
comments = loader.load_comments(freeze)
magic_comments = loader.load_magic_comments(freeze)
data_loc = loader.load_optional_location_object(freeze)
errors = loader.load_errors(encoding, freeze)
warnings = loader.load_warnings(encoding, freeze)
cpool_base = loader.load_uint32
cpool_size = loader.load_varuint
constant_pool = ConstantPool.new(input, serialized, cpool_base, cpool_size)
node = loader.load_node(constant_pool, encoding, freeze)
loader.load_constant_pool(constant_pool)
raise unless loader.eof?
value = [node, tokens]
result = ParseLexResult.new(value, comments, magic_comments, data_loc, errors, warnings, source)
tokens.each do |token|
token[0].value.force_encoding(encoding)
if freeze
token[0].deep_freeze
token.freeze
end
end
if freeze
source.deep_freeze
tokens.freeze
value.freeze
result.freeze
end
result
end
class ConstantPool # :nodoc:
attr_reader :size
def initialize(input, serialized, base, size)
@input = input
@serialized = serialized
@base = base
@size = size
@pool = Array.new(size, nil)
end
def get(index, encoding)
@pool[index] ||=
begin
offset = @base + index * 8
start = @serialized.unpack1("L", offset: offset)
length = @serialized.unpack1("L", offset: offset + 4)
if start.nobits?(1 << 31)
@input.byteslice(start, length).force_encoding(encoding).to_sym
else
@serialized.byteslice(start & ((1 << 31) - 1), length).force_encoding(encoding).to_sym
end
end
end
end
if RUBY_ENGINE == "truffleruby"
# StringIO is synchronized and that adds a high overhead on TruffleRuby.
class FastStringIO # :nodoc:
attr_accessor :pos
def initialize(string)
@string = string
@pos = 0
end
def getbyte
byte = @string.getbyte(@pos)
@pos += 1
byte
end
def read(n)
slice = @string.byteslice(@pos, n)
@pos += n
slice
end
def eof?
@pos >= @string.bytesize
end
end
else
FastStringIO = ::StringIO # :nodoc:
end
class Loader # :nodoc:
attr_reader :input, :io, :source
def initialize(source, serialized)
@input = source.source.dup
raise unless serialized.encoding == Encoding::BINARY
@io = FastStringIO.new(serialized)
@source = source
define_load_node_lambdas if RUBY_ENGINE != "ruby"
end
def eof?
io.getbyte
io.eof?
end
def load_constant_pool(constant_pool)
trailer = 0
constant_pool.size.times do |index|
start, length = io.read(8).unpack("L2")
trailer += length if start.anybits?(1 << 31)
end
io.read(trailer)
end
def load_header
raise "Invalid serialization" if io.read(5) != "PRISM"
raise "Invalid serialization" if io.read(3).unpack("C3") != [MAJOR_VERSION, MINOR_VERSION, PATCH_VERSION]
raise "Invalid serialization (location fields must be included but are not)" if io.getbyte != 0
end
def load_encoding
encoding = Encoding.find(io.read(load_varuint))
@input = input.force_encoding(encoding).freeze
encoding
end
def load_line_offsets(freeze)
offsets = Array.new(load_varuint) { load_varuint }
offsets.freeze if freeze
offsets
end
def load_comments(freeze)
comments =
Array.new(load_varuint) do
comment =
case load_varuint
when 0 then InlineComment.new(load_location_object(freeze))
when 1 then EmbDocComment.new(load_location_object(freeze))
end
comment.freeze if freeze
comment
end
comments.freeze if freeze
comments
end
def load_magic_comments(freeze)
magic_comments =
Array.new(load_varuint) do
magic_comment =
MagicComment.new(
load_location_object(freeze),
load_location_object(freeze)
)
magic_comment.freeze if freeze
magic_comment
end
magic_comments.freeze if freeze
magic_comments
end
DIAGNOSTIC_TYPES = [
:alias_argument,
:alias_argument_numbered_reference,
:ampampeq_multi_assign,
:argument_after_block,
:argument_after_forwarding_ellipses,
:argument_bare_hash,
:argument_block_forwarding,
:argument_block_multi,
:argument_conflict_ampersand,
:argument_conflict_star,
:argument_conflict_star_star,
:argument_formal_class,
:argument_formal_constant,
:argument_formal_global,
:argument_formal_ivar,
:argument_forwarding_unbound,
:argument_no_forwarding_ampersand,
:argument_no_forwarding_ellipses,
:argument_no_forwarding_star,
:argument_no_forwarding_star_star,
:argument_splat_after_assoc_splat,
:argument_splat_after_splat,
:argument_term_paren,
:argument_unexpected_block,
:array_element,
:array_expression,
:array_expression_after_star,
:array_separator,
:array_term,
:begin_lonely_else,
:begin_term,
:begin_upcase_brace,
:begin_upcase_term,
:begin_upcase_toplevel,
:block_param_local_variable,
:block_param_pipe_term,
:block_term_brace,
:block_term_end,
:cannot_parse_expression,
:cannot_parse_string_part,
:case_expression_after_case,
:case_expression_after_when,
:case_match_missing_predicate,
:case_missing_conditions,
:case_term,
:class_in_method,
:class_name,
:class_superclass,
:class_term,
:class_unexpected_end,
:class_variable_bare,
:conditional_elsif_predicate,
:conditional_if_predicate,
:conditional_predicate_term,
:conditional_term,
:conditional_term_else,
:conditional_unless_predicate,
:conditional_until_predicate,
:conditional_while_predicate,
:constant_path_colon_colon_constant,
:def_endless,
:def_endless_setter,
:def_name,
:def_params_term,
:def_params_term_paren,
:def_receiver,
:def_receiver_term,
:def_term,
:defined_expression,
:embdoc_term,
:embexpr_end,
:embvar_invalid,
:end_upcase_brace,
:end_upcase_term,
:escape_invalid_control,
:escape_invalid_control_repeat,
:escape_invalid_hexadecimal,
:escape_invalid_meta,
:escape_invalid_meta_repeat,
:escape_invalid_unicode,
:escape_invalid_unicode_cm_flags,
:escape_invalid_unicode_list,
:escape_invalid_unicode_literal,
:escape_invalid_unicode_long,
:escape_invalid_unicode_short,
:escape_invalid_unicode_term,
:expect_argument,
:expect_eol_after_statement,
:expect_expression_after_ampampeq,
:expect_expression_after_comma,
:expect_expression_after_equal,
:expect_expression_after_less_less,
:expect_expression_after_lparen,
:expect_expression_after_operator,
:expect_expression_after_pipepipeeq,
:expect_expression_after_question,
:expect_expression_after_splat,
:expect_expression_after_splat_hash,
:expect_expression_after_star,
:expect_for_delimiter,
:expect_ident_req_parameter,
:expect_in_delimiter,
:expect_lparen_req_parameter,
:expect_message,
:expect_rbracket,
:expect_rparen,
:expect_rparen_after_multi,
:expect_rparen_req_parameter,
:expect_singleton_class_delimiter,
:expect_string_content,
:expect_when_delimiter,
:expression_bare_hash,
:expression_not_writable,
:expression_not_writable_encoding,
:expression_not_writable_false,
:expression_not_writable_file,
:expression_not_writable_line,
:expression_not_writable_nil,
:expression_not_writable_numbered,
:expression_not_writable_self,
:expression_not_writable_true,
:float_parse,
:for_collection,
:for_in,
:for_index,
:for_term,
:global_variable_bare,
:hash_expression_after_label,
:hash_key,
:hash_rocket,
:hash_term,
:hash_value,
:heredoc_identifier,
:heredoc_term,
:incomplete_question_mark,
:incomplete_variable_class,
:incomplete_variable_class_3_3,
:incomplete_variable_instance,
:incomplete_variable_instance_3_3,
:instance_variable_bare,
:invalid_block_exit,
:invalid_character,
:invalid_comma,
:invalid_encoding_magic_comment,
:invalid_escape_character,
:invalid_float_exponent,
:invalid_local_variable_read,
:invalid_local_variable_write,
:invalid_multibyte_char,
:invalid_multibyte_character,
:invalid_multibyte_escape,
:invalid_number_binary,
:invalid_number_decimal,
:invalid_number_fraction,
:invalid_number_hexadecimal,
:invalid_number_octal,
:invalid_number_underscore_inner,
:invalid_number_underscore_trailing,
:invalid_percent,
:invalid_percent_eof,
:invalid_printable_character,
:invalid_retry_after_else,
:invalid_retry_after_ensure,
:invalid_retry_without_rescue,
:invalid_symbol,
:invalid_variable_global,
:invalid_variable_global_3_3,
:invalid_yield,
:it_not_allowed_numbered,
:it_not_allowed_ordinary,
:lambda_open,
:lambda_term_brace,
:lambda_term_end,
:list_i_lower_element,
:list_i_lower_term,
:list_i_upper_element,
:list_i_upper_term,
:list_w_lower_element,
:list_w_lower_term,
:list_w_upper_element,
:list_w_upper_term,
:malloc_failed,
:mixed_encoding,
:module_in_method,
:module_name,
:module_term,
:multi_assign_multi_splats,
:multi_assign_unexpected_rest,
:nesting_too_deep,
:no_local_variable,
:non_associative_operator,
:not_expression,
:number_literal_underscore,
:numbered_parameter_inner_block,
:numbered_parameter_it,
:numbered_parameter_ordinary,
:numbered_parameter_outer_block,
:operator_multi_assign,
:operator_write_arguments,
:operator_write_block,
:parameter_assoc_splat_multi,
:parameter_block_multi,
:parameter_circular,
:parameter_forwarding_after_rest,
:parameter_method_name,
:parameter_name_duplicated,
:parameter_no_default,
:parameter_no_default_kw,
:parameter_numbered_reserved,
:parameter_order,
:parameter_splat_multi,
:parameter_star,
:parameter_unexpected_fwd,
:parameter_unexpected_no_kw,
:parameter_wild_loose_comma,
:pattern_array_multiple_rests,
:pattern_capture_duplicate,
:pattern_expression_after_bracket,
:pattern_expression_after_comma,
:pattern_expression_after_hrocket,
:pattern_expression_after_in,
:pattern_expression_after_key,
:pattern_expression_after_paren,
:pattern_expression_after_pin,
:pattern_expression_after_pipe,
:pattern_expression_after_range,
:pattern_expression_after_rest,
:pattern_find_missing_inner,
:pattern_hash_implicit,
:pattern_hash_key,
:pattern_hash_key_duplicate,
:pattern_hash_key_interpolated,
:pattern_hash_key_label,
:pattern_hash_key_locals,
:pattern_ident_after_hrocket,
:pattern_label_after_comma,
:pattern_rest,
:pattern_term_brace,
:pattern_term_bracket,
:pattern_term_paren,
:pipepipeeq_multi_assign,
:regexp_encoding_option_mismatch,
:regexp_incompat_char_encoding,
:regexp_invalid_unicode_range,
:regexp_non_escaped_mbc,
:regexp_parse_error,
:regexp_term,
:regexp_unknown_options,
:regexp_utf8_char_non_utf8_regexp,
:rescue_expression,
:rescue_modifier_value,
:rescue_term,
:rescue_variable,
:return_invalid,
:script_not_found,
:singleton_for_literals,
:statement_alias,
:statement_postexe_end,
:statement_preexe_begin,
:statement_undef,
:string_concatenation,
:string_interpolated_term,
:string_literal_eof,
:string_literal_term,
:symbol_invalid,
:symbol_term_dynamic,
:symbol_term_interpolated,
:ternary_colon,
:ternary_expression_false,
:ternary_expression_true,
:unary_disallowed,
:unary_receiver,
:undef_argument,
:unexpected_block_argument,
:unexpected_index_block,
:unexpected_index_keywords,
:unexpected_label,
:unexpected_multi_write,
:unexpected_range_operator,
:unexpected_safe_navigation,
:unexpected_token_close_context,
:unexpected_token_ignore,
:until_term,
:void_expression,
:while_term,
:write_target_in_method,
:write_target_readonly,
:write_target_unexpected,
:xstring_term,
:ambiguous_binary_operator,
:ambiguous_first_argument_minus,
:ambiguous_first_argument_plus,
:ambiguous_prefix_ampersand,
:ambiguous_prefix_star,
:ambiguous_prefix_star_star,
:ambiguous_slash,
:comparison_after_comparison,
:dot_dot_dot_eol,
:equal_in_conditional,
:equal_in_conditional_3_3,
:end_in_method,
:duplicated_hash_key,
:duplicated_when_clause,
:float_out_of_range,
:ignored_frozen_string_literal,
:indentation_mismatch,
:integer_in_flip_flop,
:invalid_character,
:invalid_magic_comment_value,
:invalid_numbered_reference,
:keyword_eol,
:literal_in_condition_default,
:literal_in_condition_verbose,
:shareable_constant_value_line,
:shebang_carriage_return,
:unexpected_carriage_return,
:unreachable_statement,
:unused_local_variable,
:void_statement,
].freeze
private_constant :DIAGNOSTIC_TYPES
def load_error_level
level = io.getbyte
case level
when 0
:syntax
when 1
:argument
when 2
:load
else
raise "Unknown level: #{level}"
end
end
def load_errors(encoding, freeze)
errors =
Array.new(load_varuint) do
error =
ParseError.new(
DIAGNOSTIC_TYPES.fetch(load_varuint),
load_embedded_string(encoding),
load_location_object(freeze),
load_error_level
)
error.freeze if freeze
error
end
errors.freeze if freeze
errors
end
def load_warning_level
level = io.getbyte
case level
when 0
:default
when 1
:verbose
else
raise "Unknown level: #{level}"
end
end
def load_warnings(encoding, freeze)
warnings =
Array.new(load_varuint) do
warning =
ParseWarning.new(
DIAGNOSTIC_TYPES.fetch(load_varuint),
load_embedded_string(encoding),
load_location_object(freeze),
load_warning_level
)
warning.freeze if freeze
warning
end
warnings.freeze if freeze
warnings
end
def load_tokens
tokens = []
while (type = TOKEN_TYPES.fetch(load_varuint))
start = load_varuint
length = load_varuint
lex_state = load_varuint
location = Location.new(@source, start, length)
token = Token.new(@source, type, location.slice, location)
tokens << [token, lex_state]
end
tokens
end
# variable-length integer using https://en.wikipedia.org/wiki/LEB128
# This is also what protobuf uses: https://protobuf.dev/programming-guides/encoding/#varints
def load_varuint
n = io.getbyte
if n < 128
n
else
n -= 128
shift = 0
while (b = io.getbyte) >= 128
n += (b - 128) << (shift += 7)
end
n + (b << (shift + 7))
end
end
def load_varsint
n = load_varuint
(n >> 1) ^ (-(n & 1))
end
def load_integer
negative = io.getbyte != 0
length = load_varuint
value = 0
length.times { |index| value |= (load_varuint << (index * 32)) }
value = -value if negative
value
end
def load_double
io.read(8).unpack1("D")
end
def load_uint32
io.read(4).unpack1("L")
end
def load_optional_node(constant_pool, encoding, freeze)
if io.getbyte != 0
io.pos -= 1
load_node(constant_pool, encoding, freeze)
end
end
def load_embedded_string(encoding)
io.read(load_varuint).force_encoding(encoding).freeze
end
def load_string(encoding)
case (type = io.getbyte)
when 1
input.byteslice(load_varuint, load_varuint).force_encoding(encoding).freeze
when 2
load_embedded_string(encoding)
else
raise "Unknown serialized string type: #{type}"
end
end
def load_location_object(freeze)
location = Location.new(source, load_varuint, load_varuint)
location.freeze if freeze
location
end
def load_location(freeze)
return load_location_object(freeze) if freeze
(load_varuint << 32) | load_varuint
end
def load_optional_location(freeze)
load_location(freeze) if io.getbyte != 0
end
def load_optional_location_object(freeze)
load_location_object(freeze) if io.getbyte != 0
end
def load_constant(constant_pool, encoding)
index = load_varuint
constant_pool.get(index - 1, encoding)
end
def load_optional_constant(constant_pool, encoding)
index = load_varuint
constant_pool.get(index - 1, encoding) if index != 0
end
if RUBY_ENGINE == "ruby"
def load_node(constant_pool, encoding, freeze)
type = io.getbyte
node_id = load_varuint
location = load_location(freeze)
value = case type
when 1 then
AliasGlobalVariableNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 2 then
AliasMethodNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 3 then
AlternationPatternNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 4 then
AndNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 5 then
ArgumentsNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze })
when 6 then
ArrayNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_location(freeze))
when 7 then
ArrayPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_location(freeze))
when 8 then
AssocNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze))
when 9 then
AssocSplatNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 10 then
BackReferenceReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 11 then
BeginNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
when 12 then
BlockArgumentNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 13 then
BlockLocalVariableNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 14 then
BlockNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
when 15 then
BlockParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
when 16 then
BlockParametersNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_location(freeze))
when 17 then
BreakNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 18 then
CallAndWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 19 then
CallNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_optional_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 20 then
CallOperatorWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 21 then
CallOrWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 22 then
CallTargetNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding), load_location(freeze))
when 23 then
CapturePatternNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 24 then
CaseMatchNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
when 25 then
CaseNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
when 26 then
ClassNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding))
when 27 then
ClassVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 28 then
ClassVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
when 29 then
ClassVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 30 then
ClassVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 31 then
ClassVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 32 then
ClassVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 33 then
ConstantAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 34 then
ConstantOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
when 35 then
ConstantOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 36 then
ConstantPathAndWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 37 then
ConstantPathNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_constant(constant_pool, encoding), load_location(freeze), load_location(freeze))
when 38 then
ConstantPathOperatorWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
when 39 then
ConstantPathOrWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 40 then
ConstantPathTargetNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_constant(constant_pool, encoding), load_location(freeze), load_location(freeze))
when 41 then
ConstantPathWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 42 then
ConstantReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 43 then
ConstantTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 44 then
ConstantWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 45 then
load_uint32
DefNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze))
when 46 then
DefinedNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze))
when 47 then
ElseNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
when 48 then
EmbeddedStatementsNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 49 then
EmbeddedVariableNode.new(source, node_id, location, load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze))
when 50 then
EnsureNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 51 then
FalseNode.new(source, node_id, location, load_varuint)
when 52 then
FindPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze))
when 53 then
FlipFlopNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 54 then
FloatNode.new(source, node_id, location, load_varuint, load_double)
when 55 then
ForNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_optional_location(freeze), load_location(freeze))
when 56 then
ForwardingArgumentsNode.new(source, node_id, location, load_varuint)
when 57 then
ForwardingParameterNode.new(source, node_id, location, load_varuint)
when 58 then
ForwardingSuperNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze))
when 59 then
GlobalVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 60 then
GlobalVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
when 61 then
GlobalVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 62 then
GlobalVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 63 then
GlobalVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 64 then
GlobalVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 65 then
HashNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_location(freeze))
when 66 then
HashPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze))
when 67 then
IfNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
when 68 then
ImaginaryNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
when 69 then
ImplicitNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
when 70 then
ImplicitRestNode.new(source, node_id, location, load_varuint)
when 71 then
InNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_location(freeze))
when 72 then
IndexAndWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 73 then
IndexOperatorWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 74 then
IndexOrWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 75 then
IndexTargetNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 76 then
InstanceVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 77 then
InstanceVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
when 78 then
InstanceVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 79 then
InstanceVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 80 then
InstanceVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 81 then
InstanceVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 82 then
IntegerNode.new(source, node_id, location, load_varuint, load_integer)
when 83 then
InterpolatedMatchLastLineNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_location(freeze))
when 84 then
InterpolatedRegularExpressionNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_location(freeze))
when 85 then
InterpolatedStringNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze))
when 86 then
InterpolatedSymbolNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze))
when 87 then
InterpolatedXStringNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_location(freeze))
when 88 then
ItLocalVariableReadNode.new(source, node_id, location, load_varuint)
when 89 then
ItParametersNode.new(source, node_id, location, load_varuint)
when 90 then
KeywordHashNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze })
when 91 then
KeywordRestParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
when 92 then
LambdaNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_location(freeze), load_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
when 93 then
LocalVariableAndWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_varuint)
when 94 then
LocalVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_varuint)
when 95 then
LocalVariableOrWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_varuint)
when 96 then
LocalVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint)
when 97 then
LocalVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint)
when 98 then
LocalVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 99 then
MatchLastLineNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
when 100 then
MatchPredicateNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 101 then
MatchRequiredNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 102 then
MatchWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze })
when 103 then
MissingNode.new(source, node_id, location, load_varuint)
when 104 then
ModuleNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding))
when 105 then
MultiTargetNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_location(freeze))
when 106 then
MultiWriteNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 107 then
NextNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 108 then
NilNode.new(source, node_id, location, load_varuint)
when 109 then
NoKeywordsParameterNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze))
when 110 then
NumberedParametersNode.new(source, node_id, location, load_varuint, io.getbyte)
when 111 then
NumberedReferenceReadNode.new(source, node_id, location, load_varuint, load_varuint)
when 112 then
OptionalKeywordParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 113 then
OptionalParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 114 then
OrNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
when 115 then
ParametersNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
when 116 then
ParenthesesNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
when 117 then
PinnedExpressionNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
when 118 then
PinnedVariableNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze))
when 119 then
PostExecutionNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
when 120 then
PreExecutionNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
when 121 then
ProgramNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_node(constant_pool, encoding, freeze))
when 122 then
RangeNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 123 then
RationalNode.new(source, node_id, location, load_varuint, load_integer, load_integer)
when 124 then
RedoNode.new(source, node_id, location, load_varuint)
when 125 then
RegularExpressionNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
when 126 then
RequiredKeywordParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze))
when 127 then
RequiredParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
when 128 then
RescueModifierNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
when 129 then
RescueNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
when 130 then
RestParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
when 131 then
RetryNode.new(source, node_id, location, load_varuint)
when 132 then
ReturnNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 133 then
SelfNode.new(source, node_id, location, load_varuint)
when 134 then
ShareableConstantNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
when 135 then
SingletonClassNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }.tap { |constants| constants.freeze if freeze }, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
when 136 then
SourceEncodingNode.new(source, node_id, location, load_varuint)
when 137 then
SourceFileNode.new(source, node_id, location, load_varuint, load_string(encoding))
when 138 then
SourceLineNode.new(source, node_id, location, load_varuint)
when 139 then
SplatNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 140 then
StatementsNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze })
when 141 then
StringNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_location(freeze), load_optional_location(freeze), load_string(encoding))
when 142 then
SuperNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 143 then
SymbolNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_string(encoding))
when 144 then
TrueNode.new(source, node_id, location, load_varuint)
when 145 then
UndefNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_location(freeze))
when 146 then
UnlessNode.new(source, node_id, location, load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
when 147 then
UntilNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
when 148 then
WhenNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }.tap { |nodes| nodes.freeze if freeze }, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
when 149 then
WhileNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
when 150 then
XStringNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
when 151 then
YieldNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
end
value.freeze if freeze
value
end
else
def load_node(constant_pool, encoding, freeze)
@load_node_lambdas[io.getbyte].call(constant_pool, encoding, freeze)
end
def define_load_node_lambdas
@load_node_lambdas = [
nil,
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AliasGlobalVariableNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AliasMethodNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AlternationPatternNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AndNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ArgumentsNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) })
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ArrayNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ArrayPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AssocNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = AssocSplatNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BackReferenceReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BeginNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BlockArgumentNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BlockLocalVariableNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BlockNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BlockParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BlockParametersNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = BreakNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CallAndWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CallNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_optional_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CallOperatorWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CallOrWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CallTargetNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CapturePatternNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CaseMatchNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = CaseNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ClassVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathAndWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_constant(constant_pool, encoding), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathOperatorWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathOrWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathTargetNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_constant(constant_pool, encoding), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantPathWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ConstantWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
load_uint32
value = DefNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = DefinedNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ElseNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = EmbeddedStatementsNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = EmbeddedVariableNode.new(source, node_id, location, load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = EnsureNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = FalseNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = FindPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = FlipFlopNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = FloatNode.new(source, node_id, location, load_varuint, load_double)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ForNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_optional_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ForwardingArgumentsNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ForwardingParameterNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ForwardingSuperNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = GlobalVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = HashNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = HashPatternNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IfNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ImaginaryNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ImplicitNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ImplicitRestNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IndexAndWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IndexOperatorWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IndexOrWriteNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IndexTargetNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableAndWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableOrWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InstanceVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = IntegerNode.new(source, node_id, location, load_varuint, load_integer)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InterpolatedMatchLastLineNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InterpolatedRegularExpressionNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InterpolatedStringNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InterpolatedSymbolNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = InterpolatedXStringNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ItLocalVariableReadNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ItParametersNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = KeywordHashNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) })
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = KeywordRestParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LambdaNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_location(freeze), load_location(freeze), load_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableAndWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableOperatorWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_constant(constant_pool, encoding), load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableOrWriteNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_constant(constant_pool, encoding), load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableReadNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableTargetNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = LocalVariableWriteNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MatchLastLineNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MatchPredicateNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MatchRequiredNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MatchWriteNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) })
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MissingNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ModuleNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MultiTargetNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = MultiWriteNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = NextNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = NilNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = NoKeywordsParameterNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = NumberedParametersNode.new(source, node_id, location, load_varuint, io.getbyte)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = NumberedReferenceReadNode.new(source, node_id, location, load_varuint, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = OptionalKeywordParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = OptionalParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = OrNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ParametersNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ParenthesesNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = PinnedExpressionNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = PinnedVariableNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = PostExecutionNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = PreExecutionNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_location(freeze), load_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ProgramNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RangeNode.new(source, node_id, location, load_varuint, load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RationalNode.new(source, node_id, location, load_varuint, load_integer, load_integer)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RedoNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RegularExpressionNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RequiredKeywordParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RequiredParameterNode.new(source, node_id, location, load_varuint, load_constant(constant_pool, encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RescueModifierNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze), load_location(freeze), load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RescueNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RestParameterNode.new(source, node_id, location, load_varuint, load_optional_constant(constant_pool, encoding), load_optional_location(freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = RetryNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ReturnNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SelfNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = ShareableConstantNode.new(source, node_id, location, load_varuint, load_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SingletonClassNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_constant(constant_pool, encoding) }, load_location(freeze), load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SourceEncodingNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SourceFileNode.new(source, node_id, location, load_varuint, load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SourceLineNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SplatNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = StatementsNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) })
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = StringNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_location(freeze), load_optional_location(freeze), load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SuperNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = SymbolNode.new(source, node_id, location, load_varuint, load_optional_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = TrueNode.new(source, node_id, location, load_varuint)
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = UndefNode.new(source, node_id, location, load_varuint, Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = UnlessNode.new(source, node_id, location, load_varuint, load_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = UntilNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = WhenNode.new(source, node_id, location, load_varuint, load_location(freeze), Array.new(load_varuint) { load_node(constant_pool, encoding, freeze) }, load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = WhileNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_location(freeze), load_node(constant_pool, encoding, freeze), load_optional_node(constant_pool, encoding, freeze))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = XStringNode.new(source, node_id, location, load_varuint, load_location(freeze), load_location(freeze), load_location(freeze), load_string(encoding))
value.freeze if freeze
value
},
-> (constant_pool, encoding, freeze) {
node_id = load_varuint
location = load_location(freeze)
value = YieldNode.new(source, node_id, location, load_varuint, load_location(freeze), load_optional_location(freeze), load_optional_node(constant_pool, encoding, freeze), load_optional_location(freeze))
value.freeze if freeze
value
},
]
end
end
end
# The token types that can be indexed by their enum values.
TOKEN_TYPES = [
nil,
:EOF,
:MISSING,
:NOT_PROVIDED,
:AMPERSAND,
:AMPERSAND_AMPERSAND,
:AMPERSAND_AMPERSAND_EQUAL,
:AMPERSAND_DOT,
:AMPERSAND_EQUAL,
:BACKTICK,
:BACK_REFERENCE,
:BANG,
:BANG_EQUAL,
:BANG_TILDE,
:BRACE_LEFT,
:BRACE_RIGHT,
:BRACKET_LEFT,
:BRACKET_LEFT_ARRAY,
:BRACKET_LEFT_RIGHT,
:BRACKET_LEFT_RIGHT_EQUAL,
:BRACKET_RIGHT,
:CARET,
:CARET_EQUAL,
:CHARACTER_LITERAL,
:CLASS_VARIABLE,
:COLON,
:COLON_COLON,
:COMMA,
:COMMENT,
:CONSTANT,
:DOT,
:DOT_DOT,
:DOT_DOT_DOT,
:EMBDOC_BEGIN,
:EMBDOC_END,
:EMBDOC_LINE,
:EMBEXPR_BEGIN,
:EMBEXPR_END,
:EMBVAR,
:EQUAL,
:EQUAL_EQUAL,
:EQUAL_EQUAL_EQUAL,
:EQUAL_GREATER,
:EQUAL_TILDE,
:FLOAT,
:FLOAT_IMAGINARY,
:FLOAT_RATIONAL,
:FLOAT_RATIONAL_IMAGINARY,
:GLOBAL_VARIABLE,
:GREATER,
:GREATER_EQUAL,
:GREATER_GREATER,
:GREATER_GREATER_EQUAL,
:HEREDOC_END,
:HEREDOC_START,
:IDENTIFIER,
:IGNORED_NEWLINE,
:INSTANCE_VARIABLE,
:INTEGER,
:INTEGER_IMAGINARY,
:INTEGER_RATIONAL,
:INTEGER_RATIONAL_IMAGINARY,
:KEYWORD_ALIAS,
:KEYWORD_AND,
:KEYWORD_BEGIN,
:KEYWORD_BEGIN_UPCASE,
:KEYWORD_BREAK,
:KEYWORD_CASE,
:KEYWORD_CLASS,
:KEYWORD_DEF,
:KEYWORD_DEFINED,
:KEYWORD_DO,
:KEYWORD_DO_LOOP,
:KEYWORD_ELSE,
:KEYWORD_ELSIF,
:KEYWORD_END,
:KEYWORD_END_UPCASE,
:KEYWORD_ENSURE,
:KEYWORD_FALSE,
:KEYWORD_FOR,
:KEYWORD_IF,
:KEYWORD_IF_MODIFIER,
:KEYWORD_IN,
:KEYWORD_MODULE,
:KEYWORD_NEXT,
:KEYWORD_NIL,
:KEYWORD_NOT,
:KEYWORD_OR,
:KEYWORD_REDO,
:KEYWORD_RESCUE,
:KEYWORD_RESCUE_MODIFIER,
:KEYWORD_RETRY,
:KEYWORD_RETURN,
:KEYWORD_SELF,
:KEYWORD_SUPER,
:KEYWORD_THEN,
:KEYWORD_TRUE,
:KEYWORD_UNDEF,
:KEYWORD_UNLESS,
:KEYWORD_UNLESS_MODIFIER,
:KEYWORD_UNTIL,
:KEYWORD_UNTIL_MODIFIER,
:KEYWORD_WHEN,
:KEYWORD_WHILE,
:KEYWORD_WHILE_MODIFIER,
:KEYWORD_YIELD,
:KEYWORD___ENCODING__,
:KEYWORD___FILE__,
:KEYWORD___LINE__,
:LABEL,
:LABEL_END,
:LAMBDA_BEGIN,
:LESS,
:LESS_EQUAL,
:LESS_EQUAL_GREATER,
:LESS_LESS,
:LESS_LESS_EQUAL,
:METHOD_NAME,
:MINUS,
:MINUS_EQUAL,
:MINUS_GREATER,
:NEWLINE,
:NUMBERED_REFERENCE,
:PARENTHESIS_LEFT,
:PARENTHESIS_LEFT_PARENTHESES,
:PARENTHESIS_RIGHT,
:PERCENT,
:PERCENT_EQUAL,
:PERCENT_LOWER_I,
:PERCENT_LOWER_W,
:PERCENT_LOWER_X,
:PERCENT_UPPER_I,
:PERCENT_UPPER_W,
:PIPE,
:PIPE_EQUAL,
:PIPE_PIPE,
:PIPE_PIPE_EQUAL,
:PLUS,
:PLUS_EQUAL,
:QUESTION_MARK,
:REGEXP_BEGIN,
:REGEXP_END,
:SEMICOLON,
:SLASH,
:SLASH_EQUAL,
:STAR,
:STAR_EQUAL,
:STAR_STAR,
:STAR_STAR_EQUAL,
:STRING_BEGIN,
:STRING_CONTENT,
:STRING_END,
:SYMBOL_BEGIN,
:TILDE,
:UAMPERSAND,
:UCOLON_COLON,
:UDOT_DOT,
:UDOT_DOT_DOT,
:UMINUS,
:UMINUS_NUM,
:UPLUS,
:USTAR,
:USTAR_STAR,
:WORDS_SEP,
:__END__,
]
private_constant :MAJOR_VERSION, :MINOR_VERSION, :PATCH_VERSION
private_constant :ConstantPool, :FastStringIO, :Loader, :TOKEN_TYPES
end
private_constant :Serialize
end