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# frozen_string_literal: true module SyntaxSuggest # The main function of the frontier is to hold the edges of our search and to # evaluate when we can stop searching. # 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 # # The Code frontier is a critical part of the second step # # ## Knowing where we've been # # Once a code block is generated it is added onto the frontier. Then it will be # sorted by indentation and frontier can be filtered. Large blocks that fully enclose a # smaller block will cause the smaller block to be evicted. # # CodeFrontier#<<(block) # Adds block to frontier # CodeFrontier#pop # Removes block from frontier # # ## Knowing where we can go # # Internally the frontier keeps track of "unvisited" lines which are exposed via `next_indent_line` # when called, this method returns, a line of code with the highest indentation. # # The returned line of code can be used to build a CodeBlock and then that code block # is added back to the frontier. Then, the lines are removed from the # "unvisited" so we don't double-create the same block. # # CodeFrontier#next_indent_line # Shows next line # CodeFrontier#register_indent_block(block) # Removes lines from unvisited # # ## Knowing when to stop # # The frontier knows how to check the entire document for a syntax error. When blocks # are added onto the frontier, they're removed from the document. When all code containing # syntax errors has been added to the frontier, the document will be parsable without a # syntax error and the search can stop. # # CodeFrontier#holds_all_syntax_errors? # Returns true when frontier holds all syntax errors # # ## Filtering false positives # # Once the search is completed, the frontier may have multiple blocks that do not contain # the syntax error. To limit the result to the smallest subset of "invalid blocks" call: # # CodeFrontier#detect_invalid_blocks # class CodeFrontier def initialize(code_lines:, unvisited: UnvisitedLines.new(code_lines: code_lines)) @code_lines = code_lines @unvisited = unvisited @queue = PriorityEngulfQueue.new @check_next = true end def count @queue.length end # Performance optimization # # Parsing with ripper is expensive # If we know we don't have any blocks with invalid # syntax, then we know we cannot have found # the incorrect syntax yet. # # When an invalid block is added onto the frontier # check document state private def can_skip_check? check_next = @check_next @check_next = false if check_next false else true end end # Returns true if the document is valid with all lines # removed. By default it checks all blocks in present in # the frontier array, but can be used for arbitrary arrays # of codeblocks as well def holds_all_syntax_errors?(block_array = @queue, can_cache: true) return false if can_cache && can_skip_check? without_lines = block_array.to_a.flat_map do |block| block.lines end SyntaxSuggest.valid_without?( without_lines: without_lines, code_lines: @code_lines ) end # Returns a code block with the largest indentation possible def pop @queue.pop end def next_indent_line @unvisited.peek end def expand? return false if @queue.empty? return true if @unvisited.empty? frontier_indent = @queue.peek.current_indent unvisited_indent = next_indent_line.indent if ENV["SYNTAX_SUGGEST_DEBUG"] puts "```" puts @queue.peek puts "```" puts " @frontier indent: #{frontier_indent}" puts " @unvisited indent: #{unvisited_indent}" end # Expand all blocks before moving to unvisited lines frontier_indent >= unvisited_indent end # Keeps track of what lines have been added to blocks and which are not yet # visited. def register_indent_block(block) @unvisited.visit_block(block) self end # When one element fully encapsulates another we remove the smaller # block from the frontier. This prevents double expansions and all-around # weird behavior. However this guarantee is quite expensive to maintain def register_engulf_block(block) end # Add a block to the frontier # # This method ensures the frontier always remains sorted (in indentation order) # and that each code block's lines are removed from the indentation hash so we # don't re-evaluate the same line multiple times. def <<(block) @unvisited.visit_block(block) @queue.push(block) @check_next = true if block.invalid? self end # Example: # # combination([:a, :b, :c, :d]) # # => [[:a], [:b], [:c], [:d], [:a, :b], [:a, :c], [:a, :d], [:b, :c], [:b, :d], [:c, :d], [:a, :b, :c], [:a, :b, :d], [:a, :c, :d], [:b, :c, :d], [:a, :b, :c, :d]] def self.combination(array) guesses = [] 1.upto(array.length).each do |size| guesses.concat(array.combination(size).to_a) end guesses end # Given that we know our syntax error exists somewhere in our frontier, we want to find # the smallest possible set of blocks that contain all the syntax errors def detect_invalid_blocks self.class.combination(@queue.to_a.select(&:invalid?)).detect do |block_array| holds_all_syntax_errors?(block_array, can_cache: false) end || [] end end end