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# frozen_string_literal: true
module SyntaxSuggest
# Represents a single line of code of a given source file
#
# This object contains metadata about the line such as
# amount of indentation, if it is empty or not, and
# lexical data, such as if it has an `end` or a keyword
# in it.
#
# Visibility of lines can be toggled off. Marking a line as invisible
# indicates that it should not be used for syntax checks.
# It's functionally the same as commenting it out.
#
# Example:
#
# line = CodeLine.from_source("def foo\n").first
# line.number => 1
# line.empty? # => false
# line.visible? # => true
# line.mark_invisible
# line.visible? # => false
#
class CodeLine
TRAILING_SLASH = ("\\" + $/).freeze
# Returns an array of CodeLine objects
# from the source string
def self.from_source(source, lines: nil)
lines ||= source.lines
lex_array_for_line = LexAll.new(source: source, source_lines: lines).each_with_object(Hash.new { |h, k| h[k] = [] }) { |lex, hash| hash[lex.line] << lex }
lines.map.with_index do |line, index|
CodeLine.new(
line: line,
index: index,
lex: lex_array_for_line[index + 1]
)
end
end
attr_reader :line, :index, :lex, :line_number, :indent
def initialize(line:, index:, lex:)
@lex = lex
@line = line
@index = index
@original = line
@line_number = @index + 1
strip_line = line.dup
strip_line.lstrip!
@indent = if (@empty = strip_line.empty?)
line.length - 1 # Newline removed from strip_line is not "whitespace"
else
line.length - strip_line.length
end
set_kw_end
end
# Used for stable sort via indentation level
#
# Ruby's sort is not "stable" meaning that when
# multiple elements have the same value, they are
# not guaranteed to return in the same order they
# were put in.
#
# So when multiple code lines have the same indentation
# level, they're sorted by their index value which is unique
# and consistent.
#
# This is mostly needed for consistency of the test suite
def indent_index
@indent_index ||= [indent, index]
end
alias_method :number, :line_number
# Returns true if the code line is determined
# to contain a keyword that matches with an `end`
#
# For example: `def`, `do`, `begin`, `ensure`, etc.
def is_kw?
@is_kw
end
# Returns true if the code line is determined
# to contain an `end` keyword
def is_end?
@is_end
end
# Used to hide lines
#
# The search alorithm will group lines into blocks
# then if those blocks are determined to represent
# valid code they will be hidden
def mark_invisible
@line = ""
end
# Means the line was marked as "invisible"
# Confusingly, "empty" lines are visible...they
# just don't contain any source code other than a newline ("\n").
def visible?
!line.empty?
end
# Opposite or `visible?` (note: different than `empty?`)
def hidden?
!visible?
end
# An `empty?` line is one that was originally left
# empty in the source code, while a "hidden" line
# is one that we've since marked as "invisible"
def empty?
@empty
end
# Opposite of `empty?` (note: different than `visible?`)
def not_empty?
!empty?
end
# Renders the given line
#
# Also allows us to represent source code as
# an array of code lines.
#
# When we have an array of code line elements
# calling `join` on the array will call `to_s`
# on each element, which essentially converts
# it back into it's original source string.
def to_s
line
end
# When the code line is marked invisible
# we retain the original value of it's line
# this is useful for debugging and for
# showing extra context
#
# DisplayCodeWithLineNumbers will render
# all lines given to it, not just visible
# lines, it uses the original method to
# obtain them.
attr_reader :original
# Comparison operator, needed for equality
# and sorting
def <=>(other)
index <=> other.index
end
# [Not stable API]
#
# Lines that have a `on_ignored_nl` type token and NOT
# a `BEG` type seem to be a good proxy for the ability
# to join multiple lines into one.
#
# This predicate method is used to determine when those
# two criteria have been met.
#
# The one known case this doesn't handle is:
#
# Ripper.lex <<~EOM
# a &&
# b ||
# c
# EOM
#
# For some reason this introduces `on_ignore_newline` but with BEG type
def ignore_newline_not_beg?
@ignore_newline_not_beg
end
# Determines if the given line has a trailing slash
#
# lines = CodeLine.from_source(<<~EOM)
# it "foo" \
# EOM
# expect(lines.first.trailing_slash?).to eq(true)
#
if SyntaxSuggest.use_prism_parser?
def trailing_slash?
last = @lex.last
last&.type == :on_tstring_end
end
else
def trailing_slash?
last = @lex.last
return false unless last
return false unless last.type == :on_sp
last.token == TRAILING_SLASH
end
end
# Endless method detection
#
# From https://github.com/ruby/irb/commit/826ae909c9c93a2ddca6f9cfcd9c94dbf53d44ab
# Detecting a "oneliner" seems to need a state machine.
# This can be done by looking mostly at the "state" (last value):
#
# ENDFN -> BEG (token = '=' ) -> END
#
private def set_kw_end
oneliner_count = 0
in_oneliner_def = nil
kw_count = 0
end_count = 0
@ignore_newline_not_beg = false
@lex.each do |lex|
kw_count += 1 if lex.is_kw?
end_count += 1 if lex.is_end?
if lex.type == :on_ignored_nl
@ignore_newline_not_beg = !lex.expr_beg?
end
if in_oneliner_def.nil?
in_oneliner_def = :ENDFN if lex.state.allbits?(Ripper::EXPR_ENDFN)
elsif lex.state.allbits?(Ripper::EXPR_ENDFN)
# Continue
elsif lex.state.allbits?(Ripper::EXPR_BEG)
in_oneliner_def = :BODY if lex.token == "="
elsif lex.state.allbits?(Ripper::EXPR_END)
# We found an endless method, count it
oneliner_count += 1 if in_oneliner_def == :BODY
in_oneliner_def = nil
else
in_oneliner_def = nil
end
end
kw_count -= oneliner_count
@is_kw = (kw_count - end_count) > 0
@is_end = (end_count - kw_count) > 0
end
end
end