# frozen_string_literal: true require 'tsort' ## # RDoc::Parser::C attempts to parse C extension files. It looks for # the standard patterns that you find in extensions: +rb_define_class+, # +rb_define_method+ and so on. It tries to find the corresponding # C source for the methods and extract comments, but if we fail # we don't worry too much. # # The comments associated with a Ruby method are extracted from the C # comment block associated with the routine that _implements_ that # method, that is to say the method whose name is given in the # +rb_define_method+ call. For example, you might write: # # /* # * Returns a new array that is a one-dimensional flattening of this # * array (recursively). That is, for every element that is an array, # * extract its elements into the new array. # * # * s = [ 1, 2, 3 ] #=> [1, 2, 3] # * t = [ 4, 5, 6, [7, 8] ] #=> [4, 5, 6, [7, 8]] # * a = [ s, t, 9, 10 ] #=> [[1, 2, 3], [4, 5, 6, [7, 8]], 9, 10] # * a.flatten #=> [1, 2, 3, 4, 5, 6, 7, 8, 9, 10] # */ # static VALUE # rb_ary_flatten(VALUE ary) # { # ary = rb_obj_dup(ary); # rb_ary_flatten_bang(ary); # return ary; # } # # ... # # void # Init_Array(void) # { # ... # rb_define_method(rb_cArray, "flatten", rb_ary_flatten, 0); # # Here RDoc will determine from the +rb_define_method+ line that there's a # method called "flatten" in class Array, and will look for the implementation # in the method +rb_ary_flatten+. It will then use the comment from that # method in the HTML output. This method must be in the same source file # as the +rb_define_method+. # # The comment blocks may include special directives: # # [Document-class: +name+] # Documentation for the named class. # # [Document-module: +name+] # Documentation for the named module. # # [Document-const: +name+] # Documentation for the named +rb_define_const+. # # Constant values can be supplied on the first line of the comment like so: # # /* 300: The highest possible score in bowling */ # rb_define_const(cFoo, "PERFECT", INT2FIX(300)); # # The value can contain internal colons so long as they are escaped with a \ # # [Document-global: +name+] # Documentation for the named +rb_define_global_const+ # # [Document-variable: +name+] # Documentation for the named +rb_define_variable+ # # [Document-method\: +method_name+] # Documentation for the named method. Use this when the method name is # unambiguous. # # [Document-method\: ClassName::method_name] # Documentation for a singleton method in the given class. Use this when # the method name alone is ambiguous. # # [Document-method\: ClassName#method_name] # Documentation for a instance method in the given class. Use this when the # method name alone is ambiguous. # # [Document-attr: +name+] # Documentation for the named attribute. # # [call-seq: text up to an empty line] # Because C source doesn't give descriptive names to Ruby-level parameters, # you need to document the calling sequence explicitly # # In addition, RDoc assumes by default that the C method implementing a # Ruby function is in the same source file as the rb_define_method call. # If this isn't the case, add the comment: # # rb_define_method(....); // in filename # # As an example, we might have an extension that defines multiple classes # in its Init_xxx method. We could document them using # # /* # * Document-class: MyClass # * # * Encapsulate the writing and reading of the configuration # * file. ... # */ # # /* # * Document-method: read_value # * # * call-seq: # * cfg.read_value(key) -> value # * cfg.read_value(key} { |key| } -> value # * # * Return the value corresponding to +key+ from the configuration. # * In the second form, if the key isn't found, invoke the # * block and return its value. # */ class RDoc::Parser::C < RDoc::Parser parse_files_matching(/\.(?:([CcHh])\1?|c([+xp])\2|y)\z/) include RDoc::Text ## # Maps C variable names to names of Ruby classes or modules attr_reader :classes ## # C file the parser is parsing attr_accessor :content ## # Dependencies from a missing enclosing class to the classes in # missing_dependencies that depend upon it. attr_reader :enclosure_dependencies ## # Maps C variable names to names of Ruby classes (and singleton classes) attr_reader :known_classes ## # Classes found while parsing the C file that were not yet registered due to # a missing enclosing class. These are processed by do_missing attr_reader :missing_dependencies ## # Maps C variable names to names of Ruby singleton classes attr_reader :singleton_classes ## # The TopLevel items in the parsed file belong to attr_reader :top_level ## # Prepares for parsing a C file. See RDoc::Parser#initialize for details on # the arguments. def initialize top_level, file_name, content, options, stats super @known_classes = RDoc::KNOWN_CLASSES.dup @content = handle_tab_width handle_ifdefs_in @content @file_dir = File.dirname @file_name @classes = load_variable_map :c_class_variables @singleton_classes = load_variable_map :c_singleton_class_variables @markup = @options.markup # class_variable => { function => [method, ...] } @methods = Hash.new { |h, f| h[f] = Hash.new { |i, m| i[m] = [] } } # missing variable => [handle_class_module arguments] @missing_dependencies = {} # missing enclosure variable => [dependent handle_class_module arguments] @enclosure_dependencies = Hash.new { |h, k| h[k] = [] } @enclosure_dependencies.instance_variable_set :@missing_dependencies, @missing_dependencies @enclosure_dependencies.extend TSort def @enclosure_dependencies.tsort_each_node &block each_key(&block) rescue TSort::Cyclic => e cycle_vars = e.message.scan(/"(.*?)"/).flatten cycle = cycle_vars.sort.map do |var_name| delete var_name var_name, type, mod_name, = @missing_dependencies[var_name] "#{type} #{mod_name} (#{var_name})" end.join ', ' warn "Unable to create #{cycle} due to a cyclic class or module creation" retry end def @enclosure_dependencies.tsort_each_child node, &block fetch(node, []).each(&block) end end ## # Scans #content for rb_define_alias def do_aliases @content.scan(/rb_define_alias\s*$ \s*(\w+), \s*"(.+?)", \s*"(.+?)" \s*$/xm) do |var_name, new_name, old_name| class_name = @known_classes[var_name] unless class_name then @options.warn "Enclosing class or module %p for alias %s %s is not known" % [ var_name, new_name, old_name] next end class_obj = find_class var_name, class_name comment = find_alias_comment var_name, new_name, old_name comment.normalize if comment.to_s.empty? and existing_method = class_obj.method_list.find { |m| m.name == old_name} comment = existing_method.comment end add_alias(var_name, class_obj, old_name, new_name, comment) end end ## # Add alias, either from a direct alias definition, or from two # method that reference the same function. def add_alias(var_name, class_obj, old_name, new_name, comment) al = RDoc::Alias.new '', old_name, new_name, '' al.singleton = @singleton_classes.key? var_name al.comment = comment al.record_location @top_level class_obj.add_alias al @stats.add_alias al al end ## # Scans #content for rb_attr and rb_define_attr def do_attrs @content.scan(/rb_attr\s*$ \s*(\w+), \s*([\w"()]+), \s*([01]), \s*([01]), \s*\w+$;/xm) do |var_name, attr_name, read, write| handle_attr var_name, attr_name, read, write end @content.scan(%r%rb_define_attr$ \s*([\w\.]+), \s*"([^"]+)", \s*(\d+), \s*(\d+)\s*$; %xm) do |var_name, attr_name, read, write| handle_attr var_name, attr_name, read, write end end ## # Scans #content for boot_defclass def do_boot_defclass @content.scan(/(\w+)\s*=\s*boot_defclass\s*$\s*"(\w+?)",\s*(\w+?)\s*$/) do |var_name, class_name, parent| parent = nil if parent == "0" handle_class_module(var_name, :class, class_name, parent, nil) end end ## # Scans #content for rb_define_class, boot_defclass, rb_define_class_under # and rb_singleton_class def do_classes_and_modules do_boot_defclass if @file_name == "class.c" @content.scan( %r( (?[\w\.]+)\s* = \s*rb_(?: define_(?: class(?: # rb_define_class(class_name_1, parent_name_1) \s*$ \s*"(?\w+)", \s*(?\w+)\s* $ | _under\s*$ # rb_define_class_under(class_under, class_name2, parent_name2...) \s* (?\w+), \s* "(?\w+)", \s* (?: (?[\w\*\s\($\.\->]+) | rb_path2class$"(?[\w:]+)"$ ) \s*\) ) | module(?: # rb_define_module(module_name_1) \s*$ \s*"(?\w+)"\s* $ | _under\s*$ # rb_define_module_under(module_under, module_name_2) \s*(?\w+), \s*"(?\w+)" \s*$ ) ) | struct_define_without_accessor\s*$ # rb_struct_define_without_accessor(class_name_3, parent_name_3, ...) \s*"(?\w+)", \s*(?\w+), \s*\w+, # Allocation function (?:\s*"\w+",)* # Attributes \s*NULL $ | singleton_class\s*$ # rb_singleton_class(target_class_name) \s*(?\w+) $ ) )mx ) do class_name = $~[:class_name_1] type = :class if class_name # rb_define_class(class_name_1, parent_name_1) parent_name = $~[:parent_name_1] #under = nil else class_name = $~[:class_name_2] if class_name # rb_define_class_under(class_under, class_name2, parent_name2...) parent_name = $~[:parent_name_2] || $~[:path] under = $~[:class_under] else class_name = $~[:class_name_3] if class_name # rb_struct_define_without_accessor(class_name_3, parent_name_3, ...) parent_name = $~[:parent_name_3] #under = nil else type = :module class_name = $~[:module_name_1] #parent_name = nil if class_name # rb_define_module(module_name_1) #under = nil else class_name = $~[:module_name_2] if class_name # rb_define_module_under(module_under, module_name_1) under = $~[:module_under] else # rb_singleton_class(target_class_name) target_class_name = $~[:target_class_name] handle_singleton $~[:var_name], target_class_name next end end end end end handle_class_module($~[:var_name], type, class_name, parent_name, under) end end ## # Scans #content for rb_define_variable, rb_define_readonly_variable, # rb_define_const and rb_define_global_const def do_constants @content.scan(%r%\Wrb_define_ ( variable | readonly_variable | const | global_const ) \s*$ (?:\s*(\w+),)? \s*"(\w+)", \s*(.*?)\s*$\s*; %xm) do |type, var_name, const_name, definition| var_name = "rb_cObject" if !var_name or var_name == "rb_mKernel" handle_constants type, var_name, const_name, definition end @content.scan(%r% \Wrb_curses_define_const \s*$ \s* (\w+) \s* $ \s*;%xm) do |consts| const = consts.first handle_constants 'const', 'mCurses', const, "UINT2NUM(#{const})" end @content.scan(%r% \Wrb_file_const \s*$ \s* "([^"]+)", \s* (.*?) \s* $ \s*;%xm) do |name, value| handle_constants 'const', 'rb_mFConst', name, value end end ## # Scans #content for rb_include_module def do_includes @content.scan(/rb_include_module\s*$\s*(\w+?),\s*(\w+?)\s*$/) do |c,m| next unless cls = @classes[c] m = @known_classes[m] || m comment = new_comment '', @top_level, :c incl = cls.add_include RDoc::Include.new(m, comment) incl.record_location @top_level end end ## # Scans #content for rb_define_method, rb_define_singleton_method, # rb_define_module_function, rb_define_private_method, # rb_define_global_function and define_filetest_function def do_methods @content.scan(%r%rb_define_ ( singleton_method | method | module_function | private_method ) \s*$\s*([\w\.]+), \s*"([^"]+)", \s*(?:RUBY_METHOD_FUNC\(|VALUEFUNC\(|\(METHOD$)?(\w+)\)?, \s*(-?\w+)\s*\) (?:;\s*/[*/]\s+in\s+(\w+?\.(?:cpp|c|y)))? %xm) do |type, var_name, meth_name, function, param_count, source_file| # Ignore top-object and weird struct.c dynamic stuff next if var_name == "ruby_top_self" next if var_name == "nstr" var_name = "rb_cObject" if var_name == "rb_mKernel" handle_method(type, var_name, meth_name, function, param_count, source_file) end @content.scan(%r%rb_define_global_function\s*$ \s*"([^"]+)", \s*(?:RUBY_METHOD_FUNC\(|VALUEFUNC\()?(\w+)$?, \s*(-?\w+)\s*\) (?:;\s*/[*/]\s+in\s+(\w+?\.[cy]))? %xm) do |meth_name, function, param_count, source_file| handle_method("method", "rb_mKernel", meth_name, function, param_count, source_file) end @content.scan(/define_filetest_function\s*$ \s*"([^"]+)", \s*(?:RUBY_METHOD_FUNC\(|VALUEFUNC\()?(\w+)$?, \s*(-?\w+)\s*\)/xm) do |meth_name, function, param_count| handle_method("method", "rb_mFileTest", meth_name, function, param_count) handle_method("singleton_method", "rb_cFile", meth_name, function, param_count) end end ## # Creates classes and module that were missing were defined due to the file # order being different than the declaration order. def do_missing return if @missing_dependencies.empty? @enclosure_dependencies.tsort.each do |in_module| arguments = @missing_dependencies.delete in_module next unless arguments # dependency on existing class handle_class_module(*arguments) end end ## # Finds the comment for an alias on +class_name+ from +new_name+ to # +old_name+ def find_alias_comment class_name, new_name, old_name content =~ %r%((?>/\*.*?\*/\s+)) rb_define_alias$\s*#{Regexp.escape class_name}\s*, \s*"#{Regexp.escape new_name}"\s*, \s*"#{Regexp.escape old_name}"\s*$;%xm new_comment($1 || '', @top_level, :c) end ## # Finds a comment for rb_define_attr, rb_attr or Document-attr. # # +var_name+ is the C class variable the attribute is defined on. # +attr_name+ is the attribute's name. # # +read+ and +write+ are the read/write flags ('1' or '0'). Either both or # neither must be provided. def find_attr_comment var_name, attr_name, read = nil, write = nil attr_name = Regexp.escape attr_name rw = if read and write then /\s*#{read}\s*,\s*#{write}\s*/xm else /.*?/m end comment = if @content =~ %r%((?>/\*.*?\*/\s+)) rb_define_attr$(?:\s*#{var_name},)?\s* "#{attr_name}"\s*, #{rw}$\s*;%xm then $1 elsif @content =~ %r%((?>/\*.*?\*/\s+)) rb_attr$\s*#{var_name}\s*, \s*#{attr_name}\s*, #{rw},.*?$\s*;%xm then $1 elsif @content =~ %r%(/\*.*?(?:\s*\*\s*)?) Document-attr:\s#{attr_name}\s*?\n ((?>(.|\n)*?\*/))%x then "#{$1}\n#{$2}" else '' end new_comment comment, @top_level, :c end ## # Generate a Ruby-method table def gen_body_table file_content table = {} file_content.scan(%r{ ((?>/\*.*?\*/\s*)?) ((?:(?:\w+)\s+)? (?:intern\s+)?VALUE\s+(\w+) \s*(?:$[^)]*$)(?:[^\);]|$)) | ((?>/\*.*?\*/\s*))^\s*(\#\s*define\s+(\w+)\s+(\w+)) | ^\s*\#\s*define\s+(\w+)\s+(\w+) }xm) do case when $1 table[$3] = [:func_def, $1, $2, $~.offset(2)] if !table[$3] || table[$3][0] != :func_def when $4 table[$6] = [:macro_def, $4, $5, $~.offset(5), $7] if !table[$6] || table[$6][0] == :macro_alias when $8 table[$8] ||= [:macro_alias, $9] end end table end ## # Find the C code corresponding to a Ruby method def find_body class_name, meth_name, meth_obj, file_content, quiet = false if file_content @body_table ||= {} @body_table[file_content] ||= gen_body_table file_content type, *args = @body_table[file_content][meth_name] end case type when :func_def comment = new_comment args[0], @top_level, :c body = args[1] offset, = args[2] comment.remove_private if comment # try to find the whole body body = $& if /#{Regexp.escape body}[^(]*?\{.*?^\}/m =~ file_content # The comment block may have been overridden with a 'Document-method' # block. This happens in the interpreter when multiple methods are # vectored through to the same C method but those methods are logically # distinct (for example Kernel.hash and Kernel.object_id share the same # implementation override_comment = find_override_comment class_name, meth_obj comment = override_comment if override_comment comment.normalize find_modifiers comment, meth_obj if comment #meth_obj.params = params meth_obj.start_collecting_tokens tk = { :line_no => 1, :char_no => 1, :text => body } meth_obj.add_token tk meth_obj.comment = comment meth_obj.line = file_content[0, offset].count("\n") + 1 body when :macro_def comment = new_comment args[0], @top_level, :c body = args[1] offset, = args[2] find_body class_name, args[3], meth_obj, file_content, true comment.normalize find_modifiers comment, meth_obj meth_obj.start_collecting_tokens tk = { :line_no => 1, :char_no => 1, :text => body } meth_obj.add_token tk meth_obj.comment = comment meth_obj.line = file_content[0, offset].count("\n") + 1 body when :macro_alias # with no comment we hope the aliased definition has it and use it's # definition body = find_body(class_name, args[0], meth_obj, file_content, true) return body if body @options.warn "No definition for #{meth_name}" false else # No body, but might still have an override comment comment = find_override_comment class_name, meth_obj if comment then comment.normalize find_modifiers comment, meth_obj meth_obj.comment = comment '' else @options.warn "No definition for #{meth_name}" false end end end ## # Finds a RDoc::NormalClass or RDoc::NormalModule for +raw_name+ def find_class(raw_name, name) unless @classes[raw_name] if raw_name =~ /^rb_m/ container = @top_level.add_module RDoc::NormalModule, name else container = @top_level.add_class RDoc::NormalClass, name end container.record_location @top_level @classes[raw_name] = container end @classes[raw_name] end ## # Look for class or module documentation above Init_+class_name+(void), # in a Document-class +class_name+ (or module) comment or above an # rb_define_class (or module). If a comment is supplied above a matching # Init_ and a rb_define_class the Init_ comment is used. # # /* # * This is a comment for Foo # */ # Init_Foo(void) { # VALUE cFoo = rb_define_class("Foo", rb_cObject); # } # # /* # * Document-class: Foo # * This is a comment for Foo # */ # Init_foo(void) { # VALUE cFoo = rb_define_class("Foo", rb_cObject); # } # # /* # * This is a comment for Foo # */ # VALUE cFoo = rb_define_class("Foo", rb_cObject); def find_class_comment class_name, class_mod comment = nil if @content =~ %r% ((?>/\*.*?\*/\s+)) (static\s+)? void\s+ Init_#{class_name}\s*(?:_$\s*)?\(\s*(?:void\s*)?$%xmi then comment = $1.sub(%r%Document-(?:class|module):\s+#{class_name}%, '') elsif @content =~ %r%Document-(?:class|module):\s+#{class_name}\s*? (?:<\s+[:,\w]+)?\n((?>.*?\*/))%xm then comment = "/*\n#{$1}" elsif @content =~ %r%((?>/\*.*?\*/\s+)) ([\w\.\s]+\s* = \s+)?rb_define_(class|module)[\t (]*?"(#{class_name})"%xm then comment = $1 elsif @content =~ %r%((?>/\*.*?\*/\s+)) ([\w\. \t]+ = \s+)?rb_define_(class|module)_under[\t\w, (]*?"(#{class_name.split('::').last})"%xm then comment = $1 else comment = '' end comment = new_comment comment, @top_level, :c comment.normalize look_for_directives_in class_mod, comment class_mod.add_comment comment, @top_level end ## # Generate a const table def gen_const_table file_content table = {} @content.scan(%r{ ((?>^\s*/\*.*?\*/\s+)) rb_define_(\w+)$(?:\s*(?:\w+),)?\s* "(\w+)"\s*, .*?$\s*; | Document-(?:const|global|variable):\s ((?:\w+::)*\w+) \s*?\n((?>.*?\*/)) }mxi) do case when $1 then table[[$2, $3]] = $1 when $4 then table[$4] = "/*\n" + $5 end end table end ## # Finds a comment matching +type+ and +const_name+ either above the # comment or in the matching Document- section. def find_const_comment(type, const_name, class_name = nil) @const_table ||= {} @const_table[@content] ||= gen_const_table @content table = @const_table[@content] comment = table[[type, const_name]] || (class_name && table[class_name + "::" + const_name]) || table[const_name] || '' new_comment comment, @top_level, :c end ## # Handles modifiers in +comment+ and updates +meth_obj+ as appropriate. def find_modifiers comment, meth_obj comment.normalize comment.extract_call_seq meth_obj look_for_directives_in meth_obj, comment end ## # Finds a Document-method override for +meth_obj+ on +class_name+ def find_override_comment class_name, meth_obj name = Regexp.escape meth_obj.name prefix = Regexp.escape meth_obj.name_prefix comment = if @content =~ %r%Document-method: \s+#{class_name}#{prefix}#{name} \s*?\n((?>.*?\*/))%xm then "/*#{$1}" elsif @content =~ %r%Document-method: \s#{name}\s*?\n((?>.*?\*/))%xm then "/*#{$1}" end return unless comment new_comment comment, @top_level, :c end ## # Creates a new RDoc::Attr +attr_name+ on class +var_name+ that is either # +read+, +write+ or both def handle_attr(var_name, attr_name, read, write) rw = '' rw += 'R' if '1' == read rw += 'W' if '1' == write class_name = @known_classes[var_name] return unless class_name class_obj = find_class var_name, class_name return unless class_obj comment = find_attr_comment var_name, attr_name comment.normalize name = attr_name.gsub(/rb_intern(?:_const)?$"([^"]+)"$/, '\1') attr = RDoc::Attr.new '', name, rw, comment attr.record_location @top_level class_obj.add_attribute attr @stats.add_attribute attr end ## # Creates a new RDoc::NormalClass or RDoc::NormalModule based on +type+ # named +class_name+ in +parent+ which was assigned to the C +var_name+. def handle_class_module(var_name, type, class_name, parent, in_module) parent_name = @known_classes[parent] || parent if in_module then enclosure = @classes[in_module] || @store.find_c_enclosure(in_module) if enclosure.nil? and enclosure = @known_classes[in_module] then enc_type = /^rb_m/ =~ in_module ? :module : :class handle_class_module in_module, enc_type, enclosure, nil, nil enclosure = @classes[in_module] end unless enclosure then @enclosure_dependencies[in_module] << var_name @missing_dependencies[var_name] = [var_name, type, class_name, parent, in_module] return end else enclosure = @top_level end if type == :class then full_name = if RDoc::ClassModule === enclosure then enclosure.full_name + "::#{class_name}" else class_name end if @content =~ %r%Document-class:\s+#{full_name}\s*<\s+([:,\w]+)% then parent_name = $1 end cm = enclosure.add_class RDoc::NormalClass, class_name, parent_name else cm = enclosure.add_module RDoc::NormalModule, class_name end cm.record_location enclosure.top_level find_class_comment cm.full_name, cm case cm when RDoc::NormalClass @stats.add_class cm when RDoc::NormalModule @stats.add_module cm end @classes[var_name] = cm @known_classes[var_name] = cm.full_name @store.add_c_enclosure var_name, cm end ## # Adds constants. By providing some_value: at the start of the comment you # can override the C value of the comment to give a friendly definition. # # /* 300: The perfect score in bowling */ # rb_define_const(cFoo, "PERFECT", INT2FIX(300)); # # Will override INT2FIX(300) with the value +300+ in the output # RDoc. Values may include quotes and escaped colons (\:). def handle_constants(type, var_name, const_name, definition) class_name = @known_classes[var_name] return unless class_name class_obj = find_class var_name, class_name unless class_obj then @options.warn 'Enclosing class or module %p is not known' % [const_name] return end comment = find_const_comment type, const_name, class_name comment.normalize # In the case of rb_define_const, the definition and comment are in # "/* definition: comment */" form. The literal ':' and '\' characters # can be escaped with a backslash. if type.downcase == 'const' then no_match, new_definition, new_comment = comment.text.split(/(\A.*):/) if no_match and no_match.empty? then if new_definition.empty? then # Default to literal C definition new_definition = definition else new_definition = new_definition.gsub("\:", ":") new_definition = new_definition.gsub("\\", '\\') end new_definition.sub!(/\A(\s+)/, '') new_comment = "#{$1}#{new_comment.lstrip}" new_comment = self.new_comment(new_comment, @top_level, :c) con = RDoc::Constant.new const_name, new_definition, new_comment else con = RDoc::Constant.new const_name, definition, comment end else con = RDoc::Constant.new const_name, definition, comment end con.record_location @top_level @stats.add_constant con class_obj.add_constant con end ## # Removes #ifdefs that would otherwise confuse us def handle_ifdefs_in(body) body.gsub(/^#ifdef HAVE_PROTOTYPES.*?#else.*?\n(.*?)#endif.*?\n/m, '\1') end ## # Adds an RDoc::AnyMethod +meth_name+ defined on a class or module assigned # to +var_name+. +type+ is the type of method definition function used. # +singleton_method+ and +module_function+ create a singleton method. def handle_method(type, var_name, meth_name, function, param_count, source_file = nil) class_name = @known_classes[var_name] singleton = @singleton_classes.key? var_name @methods[var_name][function] << meth_name return unless class_name class_obj = find_class var_name, class_name if existing_method = class_obj.method_list.find { |m| m.c_function == function } add_alias(var_name, class_obj, existing_method.name, meth_name, existing_method.comment) end if class_obj then if meth_name == 'initialize' then meth_name = 'new' singleton = true type = 'method' # force public end meth_obj = RDoc::AnyMethod.new '', meth_name meth_obj.c_function = function meth_obj.singleton = singleton || %w[singleton_method module_function].include?(type) p_count = Integer(param_count) rescue -1 if source_file then file_name = File.join @file_dir, source_file if File.exist? file_name then file_content = File.read file_name else @options.warn "unknown source #{source_file} for #{meth_name} in #{@file_name}" end else file_content = @content end body = find_body class_name, function, meth_obj, file_content if body and meth_obj.document_self then meth_obj.params = if p_count < -1 then # -2 is Array '(*args)' elsif p_count == -1 then # argc, argv rb_scan_args body else "(#{(1..p_count).map { |i| "p#{i}" }.join ', '})" end meth_obj.record_location @top_level if meth_obj.section_title class_obj.temporary_section = class_obj.add_section(meth_obj.section_title) end class_obj.add_method meth_obj @stats.add_method meth_obj meth_obj.visibility = :private if 'private_method' == type end end end ## # Registers a singleton class +sclass_var+ as a singleton of +class_var+ def handle_singleton sclass_var, class_var class_name = @known_classes[class_var] @known_classes[sclass_var] = class_name @singleton_classes[sclass_var] = class_name end ## # Normalizes tabs in +body+ def handle_tab_width(body) if /\t/ =~ body tab_width = @options.tab_width body.split(/\n/).map do |line| 1 while line.gsub!(/\t+/) do ' ' * (tab_width * $&.length - $`.length % tab_width) end && $~ line end.join "\n" else body end end ## # Loads the variable map with the given +name+ from the RDoc::Store, if # present. def load_variable_map map_name return {} unless files = @store.cache[map_name] return {} unless name_map = files[@file_name] class_map = {} name_map.each do |variable, name| next unless mod = @store.find_class_or_module(name) class_map[variable] = if map_name == :c_class_variables then mod else name end @known_classes[variable] = name end class_map end ## # Look for directives in a normal comment block: # # /* # * :title: My Awesome Project # */ # # This method modifies the +comment+ def look_for_directives_in context, comment @preprocess.handle comment, context do |directive, param| case directive when 'main' then @options.main_page = param '' when 'title' then @options.default_title = param if @options.respond_to? :default_title= '' end end comment end ## # Extracts parameters from the +method_body+ and returns a method # parameter string. Follows 1.9.3dev's scan-arg-spec, see README.EXT def rb_scan_args method_body method_body =~ /rb_scan_args$(.*?)$/m return '(*args)' unless $1 $1.split(/,/)[2] =~ /"(.*?)"/ # format argument format = $1.split(//) lead = opt = trail = 0 if format.first =~ /\d/ then lead = $&.to_i format.shift if format.first =~ /\d/ then opt = $&.to_i format.shift if format.first =~ /\d/ then trail = $&.to_i format.shift block_arg = true end end end if format.first == '*' and not block_arg then var = true format.shift if format.first =~ /\d/ then trail = $&.to_i format.shift end end if format.first == ':' then hash = true format.shift end if format.first == '&' then block = true format.shift end # if the format string is not empty there's a bug in the C code, ignore it args = [] position = 1 (1...(position + lead)).each do |index| args << "p#{index}" end position += lead (position...(position + opt)).each do |index| args << "p#{index} = v#{index}" end position += opt if var then args << '*args' position += 1 end (position...(position + trail)).each do |index| args << "p#{index}" end position += trail if hash then args << "p#{position} = {}" end args << '&block' if block "(#{args.join ', '})" end ## # Removes lines that are commented out that might otherwise get picked up # when scanning for classes and methods def remove_commented_out_lines @content = @content.gsub(%r%//.*rb_define_%, '//') end ## # Extracts the classes, modules, methods, attributes, constants and aliases # from a C file and returns an RDoc::TopLevel for this file def scan remove_commented_out_lines do_classes_and_modules do_missing do_constants do_methods do_includes do_aliases do_attrs @store.add_c_variables self @top_level end def new_comment text = nil, location = nil, language = nil RDoc::Comment.new(text, location, language).tap do |comment| comment.format = @markup end end end