GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

# frozen_string_literal: true module SyntaxSuggest # Parses and sanitizes source into a lexically aware document # # Internally the document is represented by an array with each # index containing a CodeLine correlating to a line from the source code. # # There are three main phases in the algorithm: # # 1. Sanitize/format input source # 2. Search for invalid blocks # 3. Format invalid blocks into something meaninful # # This class handles the first part. # # The reason this class exists is to format input source # for better/easier/cleaner exploration. # # The CodeSearch class operates at the line level so # we must be careful to not introduce lines that look # valid by themselves, but when removed will trigger syntax errors # or strange behavior. # # ## Join Trailing slashes # # Code with a trailing slash is logically treated as a single line: # # 1 it "code can be split" \ # 2 "across multiple lines" do # # In this case removing line 2 would add a syntax error. We get around # this by internally joining the two lines into a single "line" object # # ## Logically Consecutive lines # # Code that can be broken over multiple # lines such as method calls are on different lines: # # 1 User. # 2 where(name: "schneems"). # 3 first # # Removing line 2 can introduce a syntax error. To fix this, all lines # are joined into one. # # ## Heredocs # # A heredoc is an way of defining a multi-line string. They can cause many # problems. If left as a single line, the parser would try to parse the contents # as ruby code rather than as a string. Even without this problem, we still # hit an issue with indentation: # # 1 foo = <<~HEREDOC # 2 "Be yourself; everyone else is already taken."" # 3 ― Oscar Wilde # 4 puts "I look like ruby code" # but i'm still a heredoc # 5 HEREDOC # # If we didn't join these lines then our algorithm would think that line 4 # is separate from the rest, has a higher indentation, then look at it first # and remove it. # # If the code evaluates line 5 by itself it will think line 5 is a constant, # remove it, and introduce a syntax errror. # # All of these problems are fixed by joining the whole heredoc into a single # line. # # ## Comments and whitespace # # Comments can throw off the way the lexer tells us that the line # logically belongs with the next line. This is valid ruby but # results in a different lex output than before: # # 1 User. # 2 where(name: "schneems"). # 3 # Comment here # 4 first # # To handle this we can replace comment lines with empty lines # and then re-lex the source. This removal and re-lexing preserves # line index and document size, but generates an easier to work with # document. # class CleanDocument def initialize(source:) lines = clean_sweep(source: source) @document = CodeLine.from_source(lines.join, lines: lines) end # Call all of the document "cleaners" # and return self def call join_trailing_slash! join_consecutive! join_heredoc! self end # Return an array of CodeLines in the # document def lines @document end # Renders the document back to a string def to_s @document.join end # Remove comments # # replace with empty newlines # # source = <<~'EOM' # # Comment 1 # puts "hello" # # Comment 2 # puts "world" # EOM # # lines = CleanDocument.new(source: source).lines # expect(lines[0].to_s).to eq("\n") # expect(lines[1].to_s).to eq("puts "hello") # expect(lines[2].to_s).to eq("\n") # expect(lines[3].to_s).to eq("puts "world") # # Important: This must be done before lexing. # # After this change is made, we lex the document because # removing comments can change how the doc is parsed. # # For example: # # values = LexAll.new(source: <<~EOM)) # User. # # comment # where(name: 'schneems') # EOM # expect( # values.count {|v| v.type == :on_ignored_nl} # ).to eq(1) # # After the comment is removed: # # values = LexAll.new(source: <<~EOM)) # User. # # where(name: 'schneems') # EOM # expect( # values.count {|v| v.type == :on_ignored_nl} # ).to eq(2) # def clean_sweep(source:) # Match comments, but not HEREDOC strings with #{variable} interpolation # https://rubular.com/r/HPwtW9OYxKUHXQ source.lines.map do |line| if line.match?(/^\s*#([^{].*|)$/) $/ else line end end end # Smushes all heredoc lines into one line # # source = <<~'EOM' # foo = <<~HEREDOC # lol # hehehe # HEREDOC # EOM # # lines = CleanDocument.new(source: source).join_heredoc!.lines # expect(lines[0].to_s).to eq(source) # expect(lines[1].to_s).to eq("") def join_heredoc! start_index_stack = [] heredoc_beg_end_index = [] lines.each do |line| line.lex.each do |lex_value| case lex_value.type when :on_heredoc_beg start_index_stack << line.index when :on_heredoc_end start_index = start_index_stack.pop end_index = line.index heredoc_beg_end_index << [start_index, end_index] end end end heredoc_groups = heredoc_beg_end_index.map { |start_index, end_index| @document[start_index..end_index] } join_groups(heredoc_groups) self end # Smushes logically "consecutive" lines # # source = <<~'EOM' # User. # where(name: 'schneems'). # first # EOM # # lines = CleanDocument.new(source: source).join_consecutive!.lines # expect(lines[0].to_s).to eq(source) # expect(lines[1].to_s).to eq("") # # 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 join_consecutive! consecutive_groups = @document.select(&:ignore_newline_not_beg?).map do |code_line| take_while_including(code_line.index..) do |line| line.ignore_newline_not_beg? end end join_groups(consecutive_groups) self end # Join lines with a trailing slash # # source = <<~'EOM' # it "code can be split" \ # "across multiple lines" do # EOM # # lines = CleanDocument.new(source: source).join_consecutive!.lines # expect(lines[0].to_s).to eq(source) # expect(lines[1].to_s).to eq("") def join_trailing_slash! trailing_groups = @document.select(&:trailing_slash?).map do |code_line| take_while_including(code_line.index..) { |x| x.trailing_slash? } end join_groups(trailing_groups) self end # Helper method for joining "groups" of lines # # Input is expected to be type Array<Array<CodeLine>> # # The outer array holds the various "groups" while the # inner array holds code lines. # # All code lines are "joined" into the first line in # their group. # # To preserve document size, empty lines are placed # in the place of the lines that were "joined" def join_groups(groups) groups.each do |lines| line = lines.first # Handle the case of multiple groups in a a row # if one is already replaced, move on next if @document[line.index].empty? # Join group into the first line @document[line.index] = CodeLine.new( lex: lines.map(&:lex).flatten, line: lines.join, index: line.index ) # Hide the rest of the lines lines[1..].each do |line| # The above lines already have newlines in them, if add more # then there will be double newline, use an empty line instead @document[line.index] = CodeLine.new(line: "", index: line.index, lex: []) end end self end # Helper method for grabbing elements from document # # Like `take_while` except when it stops # iterating, it also returns the line # that caused it to stop def take_while_including(range = 0..) take_next_and_stop = false @document[range].take_while do |line| next if take_next_and_stop take_next_and_stop = !(yield line) true end end end end