#!/usr/bin/env ruby -w # encoding: UTF-8 # # = SyntaxReference.rb -- The TaskJuggler III Project Management Software # # Copyright (c) 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014 # by Chris Schlaeger # # This program is free software; you can redistribute it and/or modify # it under the terms of version 2 of the GNU General Public License as # published by the Free Software Foundation. # require 'taskjuggler/KeywordDocumentation' require 'taskjuggler/ProjectFileParser' require 'taskjuggler/HTMLDocument' require 'taskjuggler/MessageHandler' class TaskJuggler # This class can traverse the syntax rules of the ProjectFileParser and # extract all documented keywords including their arguments and relations. # All this work in done in the contructor. The documentation can then be # generated for all found keyword or just a single one. Currently plain text # output as well as HTML files are supported. class SyntaxReference attr_reader :keywords # The constructor is the most important function of this class. It creates # a parser object and then traverses all rules and extracts the documented # patterns. In a second pass the extracted KeywordDocumentation objects # are then cross referenced to capture their relationships. _manual_ is an # optional reference to the UserManual object that uses this # SyntaxReference. def initialize(manual = nil, ignoreOld = false) @manual = manual @parser = ProjectFileParser.new @parser.updateParserTables # This hash stores all documented keywords using the keyword as # index. @keywords = {} @parser.rules.each_value do |rule| rule.patterns.each do |pattern| # Only patterns that are documented are of interest. next if pattern.doc.nil? # Ignore deprecated and removed keywords if requested next if ignoreOld && [ :deprecated, :removed ].include?(pattern.supportLevel) # Make sure each keyword is unique. if @keywords.include?(pattern.keyword) raise "Multiple patterns have the same keyword #{pattern.keyword}" end argDocs = [] # Create a new KeywordDocumentation object and fill-in all extracted # values. kwd = KeywordDocumentation.new(rule, pattern, pattern.to_syntax(argDocs, @parser.rules), argDocs, optionalAttributes(pattern, {}), @manual) @keywords[pattern.keyword] = kwd end end # Make sure all references to other keywords are present. @keywords.each_value do |kwd| kwd.crossReference(@keywords, @parser.rules) end # Figure out whether the keyword describes an inheritable attribute or # not. @keywords.each_value do |kwd| kwd.computeInheritance end end # Return a sorted Array with all keywords (as String objects). def all sorted = @keywords.keys.sort # Register the neighbours with each keyword so we can use this info in # navigation bars. pred = nil sorted.each do |kwd| keyword = @keywords[kwd] pred.successor = keyword if pred keyword.predecessor = pred pred = keyword end end # Generate entries for a TableOfContents for each of the keywords. The # entries are appended to the TableOfContents _toc_. _sectionPrefix_ is the # prefix that is used for the chapter numbers. In case we have 20 keywords # and _sectionPrefix_ is 'A', the keywords will be enumerated 'A.1' to # 'A.20'. def tableOfContents(toc, sectionPrefix) keywords = all # Set the chapter name to 'Syntax Reference' with a link to the first # keyword. toc.addEntry(TOCEntry.new(sectionPrefix, 'Syntax Reference', keywords[0])) i = 1 keywords.each do |keyword| title = @keywords[keyword].title toc.addEntry(TOCEntry.new("#{sectionPrefix}.#{i}", title, keyword)) i += 1 end end def internalReferences references = {} @keywords.each_value do |keyword| (refs = keyword.references.uniq).empty? || references[keyword.keyword] = refs end references end # Generate a documentation for the keyword or an error message. The result # is a multi-line plain text String for known keywords. In case of an error # the result is empty but an error message will be send to $stderr. def to_s(keyword) if checkKeyword(keyword) @keywords[keyword].to_s else '' end end # Generate a documentation for the keyword or an error message. The result # is a XML String for known keywords. In case of an error the result is # empty but an error message will be send to $stderr. def generateHTMLreference(directory, keyword) if checkKeyword(keyword) @keywords[keyword].generateHTML(directory) else '' end end # Generate 2 files named navbar.html and alphabet.html. They are used to # support navigating through the syntax reference. def generateHTMLnavbar(directory, keywords) html = HTMLDocument.new head = html.generateHead('TaskJuggler Syntax Reference Navigator') head << XMLElement.new('base', 'target' => 'display') html.html << (body = XMLElement.new('body')) body << XMLNamedText.new('Table Of Contents', 'a', 'href' => 'toc.html') body << XMLElement.new('br', {}, true) normalizedKeywords = {} keywords.each do |keyword| normalizedKeywords[@keywords[keyword].title] = keyword end letter = nil letters = [] normalizedKeywords.keys.sort!.each do |normalized| if normalized[0, 1] != letter letter = normalized[0, 1] letters << letter body << (h = XMLElement.new('h3')) h << XMLNamedText.new(letter.upcase, 'a', 'name' => letter) end keyword = normalizedKeywords[normalized] body << XMLNamedText.new("#{normalized}", 'a', 'href' => "#{keyword}.html") body << XMLElement.new('br', {}, true) end html.write(directory + 'navbar.html') html = HTMLDocument.new head = html.generateHead('TaskJuggler Syntax Reference Navigator') head << XMLElement.new('base', 'target' => 'navigator') html.html << (body = XMLElement.new('body')) body << (divf = XMLElement.new('div')) divf << (form = XMLElement.new( 'form', 'action' => 'http://www.google.com/search', 'method' => "get", 'target' => '_blank', 'style' => 'margin:0')) form << XMLElement.new('input', 'type' => 'text', 'value' => '', 'maxlength' => '255', 'size' => '25', 'name' => 'q') form << XMLElement.new('input', 'type' => 'submit', 'value' => 'Search') form << XMLElement.new('input', 'type' => 'hidden', 'value' => 'taskjuggler.org/manual', 'name' => 'sitesearch') body << (h3 = XMLElement.new('h3')) letters.each do |l| h3 << XMLNamedText.new(l.upcase, 'a', 'href' => "navbar.html##{l}") end html.write(directory + 'alphabet.html') end private # Find optional attributes and return them hashed by the defining pattern. def optionalAttributes(pattern, stack) # If we hit an endless recursion we won't find any attributes. So we push # each pattern we process on the 'stack'. If we hit it again, we just # return an empty hash. return {} if stack[pattern] # If we hit a pattern that is documented, we ignore it. return {} if !stack.empty? && pattern.doc # Push pattern onto 'stack'. stack[pattern] = true if pattern[0][1] == '{' && pattern[2][1] == '}' # We have found an optional attribute pattern! return attributes(pattern[1], false) end # If a token of the pattern is a reference, we recursively # follow the reference to the next pattern. pattern.each do |type, name| if type == :reference rule = @parser.rules[name] # Rules with multiple patterns won't lead to attributes. next if rule.patterns.length > 1 attrs = optionalAttributes(rule.patterns[0], stack) return attrs unless attrs.empty? end end {} end # For the rule referenced by token all patterns are collected that define # the terminal token of each first token of each pattern of the specified # rule. The patterns are returned as a hash. For each pattern the hashed # boolean value specifies whether the attribute is scenario specific or not. def attributes(token, scenarioSpecific) raise "Token #{token} must reference a rule" if token[0] != :reference token = token[1] # Find the matching rule. rule = @parser.rules[token] attrs = {} # Now we look at the first token of each pattern. rule.patterns.each do |pattern| if pattern[0][0] == :literal # If it's a terminal symbol, we found what we are looking for. We add # it to the attrs hash and mark it as non scenario specific. attrs[pattern] = scenarioSpecific elsif pattern[0][0] == :reference && pattern[0][1] == :scenarioIdCol # A reference to the !scenarioId rule marks the next token of the # pattern as a reference to a rule with all scenario specific # attributes. attrs.merge!(attributes(pattern[1], true)) elsif pattern[0][0] == :reference # In case we have a reference to another rule, we just follow the # reference. If the pattern is documented we don't have to follow the # reference. We can use the pattern instead. if pattern.doc.nil? attrs.merge!(attributes(pattern[0], scenarioSpecific)) else attrs[pattern] = scenarioSpecific end else raise "Hit unknown token #{token}" end end attrs end def checkKeyword(keyword) if keyword.nil? || @keywords[keyword].nil? unless keyword.nil? $stderr.puts "ERROR: #{keyword} is not a known keyword.\n\n" end # Create list of top-level keywords. kwdStr = '' @keywords.each_value do |kwd| if kwd.contexts.empty? || (kwd.contexts.length == 1 && kwd.contexts[0] == kwd) kwdStr += ', ' unless kwdStr.empty? kwdStr += kwd.keyword end end $stderr.puts "Try one of the following keywords as argument to this " + "program:\n" $stderr.puts "#{kwdStr}" return false end true end end end