Mini Shell
# We're responsible for generating all the HTML files
# from the object tree defined in code_objects.rb. We
# generate:
#
# [files] an html file for each input file given. These
# input files appear as objects of class
# TopLevel
#
# [classes] an html file for each class or module encountered.
# These classes are not grouped by file: if a file
# contains four classes, we'll generate an html
# file for the file itself, and four html files
# for the individual classes.
#
# [indices] we generate three indices for files, classes,
# and methods. These are displayed in a browser
# like window with three index panes across the
# top and the selected description below
#
# Method descriptions appear in whatever entity (file, class,
# or module) that contains them.
#
# We generate files in a structure below a specified subdirectory,
# normally +doc+.
#
# opdir
# |
# |___ files
# | |__ per file summaries
# |
# |___ classes
# |__ per class/module descriptions
#
# HTML is generated using the Template class.
#
require 'ftools'
require 'rdoc/options'
require 'rdoc/template'
require 'rdoc/markup/simple_markup'
require 'rdoc/markup/simple_markup/to_html'
require 'cgi'
module Generators
# Name of sub-direcories that hold file and class/module descriptions
FILE_DIR = "files"
CLASS_DIR = "classes"
CSS_NAME = "rdoc-style.css"
##
# Build a hash of all items that can be cross-referenced.
# This is used when we output required and included names:
# if the names appear in this hash, we can generate
# an html cross reference to the appropriate description.
# We also use this when parsing comment blocks: any decorated
# words matching an entry in this list are hyperlinked.
class AllReferences
@@refs = {}
def AllReferences::reset
@@refs = {}
end
def AllReferences.add(name, html_class)
@@refs[name] = html_class
end
def AllReferences.[](name)
@@refs[name]
end
def AllReferences.keys
@@refs.keys
end
end
##
# Subclass of the SM::ToHtml class that supports looking
# up words in the AllReferences list. Those that are
# found (like AllReferences in this comment) will
# be hyperlinked
class HyperlinkHtml < SM::ToHtml
# We need to record the html path of our caller so we can generate
# correct relative paths for any hyperlinks that we find
def initialize(from_path, context)
super()
@from_path = from_path
@parent_name = context.parent_name
@parent_name += "::" if @parent_name
@context = context
end
# We're invoked when any text matches the CROSSREF pattern
# (defined in MarkUp). If we fine the corresponding reference,
# generate a hyperlink. If the name we're looking for contains
# no punctuation, we look for it up the module/class chain. For
# example, HyperlinkHtml is found, even without the Generators::
# prefix, because we look for it in module Generators first.
def handle_special_CROSSREF(special)
name = special.text
if name[0,1] == '#'
lookup = name[1..-1]
name = lookup unless Options.instance.show_hash
else
lookup = name
end
# Find class, module, or method in class or module.
if /([A-Z]\w*)[.\#](\w+[!?=]?)/ =~ lookup
container = $1
method = $2
ref = @context.find_symbol(container, method)
elsif /([A-Za-z]\w*)[.\#](\w+(\([\.\w+\*\/\+\-\=\<\>]+\))?)/ =~ lookup
container = $1
method = $2
ref = @context.find_symbol(container, method)
else
ref = @context.find_symbol(lookup)
end
if ref and ref.document_self
"<a href=\"#{ref.as_href(@from_path)}\">#{name}</a>"
else
name
end
end
# Generate a hyperlink for url, labeled with text. Handle the
# special cases for img: and link: described under handle_special_HYPEDLINK
def gen_url(url, text)
if url =~ /([A-Za-z]+):(.*)/
type = $1
path = $2
else
type = "http"
path = url
url = "http://#{url}"
end
if type == "link"
if path[0,1] == '#' # is this meaningful?
url = path
else
url = HTMLGenerator.gen_url(@from_path, path)
end
end
if (type == "http" || type == "link") &&
url =~ /\.(gif|png|jpg|jpeg|bmp)$/
"<img src=\"#{url}\" />"
else
"<a href=\"#{url}\">#{text.sub(%r{^#{type}:/*}, '')}</a>"
end
end
# And we're invoked with a potential external hyperlink mailto:
# just gets inserted. http: links are checked to see if they
# reference an image. If so, that image gets inserted using an
# <img> tag. Otherwise a conventional <a href> is used. We also
# support a special type of hyperlink, link:, which is a reference
# to a local file whose path is relative to the --op directory.
def handle_special_HYPERLINK(special)
url = special.text
gen_url(url, url)
end
# HEre's a hypedlink where the label is different to the URL
# <label>[url]
#
def handle_special_TIDYLINK(special)
text = special.text
# unless text =~ /(\S+)\[(.*?)\]/
unless text =~ /\{(.*?)\}\[(.*?)\]/ or text =~ /(\S+)\[(.*?)\]/
return text
end
label = $1
url = $2
gen_url(url, label)
end
end
#####################################################################
#
# Handle common markup tasks for the various Html classes
#
module MarkUp
# Convert a string in markup format into HTML. We keep a cached
# SimpleMarkup object lying around after the first time we're
# called per object.
def markup(str, remove_para=false)
return '' unless str
unless defined? @markup
@markup = SM::SimpleMarkup.new
# class names, variable names, or instance variables
@markup.add_special(/(
\w+(::\w+)*[.\#]\w+(\([\.\w+\*\/\+\-\=\<\>]+\))? # A::B.meth(**) (for operator in Fortran95)
| \#\w+(\([.\w\*\/\+\-\=\<\>]+\))? # meth(**) (for operator in Fortran95)
| \b([A-Z]\w*(::\w+)*[.\#]\w+) # A::B.meth
| \b([A-Z]\w+(::\w+)*) # A::B..
| \#\w+[!?=]? # #meth_name
| \b\w+([_\/\.]+\w+)*[!?=]? # meth_name
)/x,
:CROSSREF)
# external hyperlinks
@markup.add_special(/((link:|https?:|mailto:|ftp:|www\.)\S+\w)/, :HYPERLINK)
# and links of the form <text>[<url>]
@markup.add_special(/(((\{.*?\})|\b\S+?)\[\S+?\.\S+?\])/, :TIDYLINK)
# @markup.add_special(/\b(\S+?\[\S+?\.\S+?\])/, :TIDYLINK)
end
unless defined? @html_formatter
@html_formatter = HyperlinkHtml.new(self.path, self)
end
# Convert leading comment markers to spaces, but only
# if all non-blank lines have them
if str =~ /^(?>\s*)[^\#]/
content = str
else
content = str.gsub(/^\s*(#+)/) { $1.tr('#',' ') }
end
res = @markup.convert(content, @html_formatter)
if remove_para
res.sub!(/^<p>/, '')
res.sub!(/<\/p>$/, '')
end
res
end
# Qualify a stylesheet URL; if if +css_name+ does not begin with '/' or
# 'http[s]://', prepend a prefix relative to +path+. Otherwise, return it
# unmodified.
def style_url(path, css_name=nil)
# $stderr.puts "style_url( #{path.inspect}, #{css_name.inspect} )"
css_name ||= CSS_NAME
if %r{^(https?:/)?/} =~ css_name
return css_name
else
return HTMLGenerator.gen_url(path, css_name)
end
end
# Build a webcvs URL with the given 'url' argument. URLs with a '%s' in them
# get the file's path sprintfed into them; otherwise they're just catenated
# together.
def cvs_url(url, full_path)
if /%s/ =~ url
return sprintf( url, full_path )
else
return url + full_path
end
end
end
#####################################################################
#
# A Context is built by the parser to represent a container: contexts
# hold classes, modules, methods, require lists and include lists.
# ClassModule and TopLevel are the context objects we process here
#
class ContextUser
include MarkUp
attr_reader :context
def initialize(context, options)
@context = context
@options = options
end
# convenience method to build a hyperlink
def href(link, cls, name)
%{<a href="#{link}" class="#{cls}">#{name}</a>} #"
end
# return a reference to outselves to be used as an href=
# the form depends on whether we're all in one file
# or in multiple files
def as_href(from_path)
if @options.all_one_file
"#" + path
else
HTMLGenerator.gen_url(from_path, path)
end
end
# Create a list of HtmlMethod objects for each method
# in the corresponding context object. If the @options.show_all
# variable is set (corresponding to the <tt>--all</tt> option,
# we include all methods, otherwise just the public ones.
def collect_methods
list = @context.method_list
unless @options.show_all
list = list.find_all {|m| m.visibility == :public || m.visibility == :protected || m.force_documentation }
end
@methods = list.collect {|m| HtmlMethod.new(m, self, @options) }
end
# Build a summary list of all the methods in this context
def build_method_summary_list(path_prefix="")
collect_methods unless @methods
meths = @methods.sort
res = []
meths.each do |meth|
res << {
"name" => CGI.escapeHTML(meth.name),
"aref" => "#{path_prefix}\##{meth.aref}"
}
end
res
end
# Build a list of aliases for which we couldn't find a
# corresponding method
def build_alias_summary_list(section)
values = []
@context.aliases.each do |al|
next unless al.section == section
res = {
'old_name' => al.old_name,
'new_name' => al.new_name,
}
if al.comment && !al.comment.empty?
res['desc'] = markup(al.comment, true)
end
values << res
end
values
end
# Build a list of constants
def build_constants_summary_list(section)
values = []
@context.constants.each do |co|
next unless co.section == section
res = {
'name' => co.name,
'value' => CGI.escapeHTML(co.value)
}
res['desc'] = markup(co.comment, true) if co.comment && !co.comment.empty?
values << res
end
values
end
def build_requires_list(context)
potentially_referenced_list(context.requires) {|fn| [fn + ".rb"] }
end
def build_include_list(context)
potentially_referenced_list(context.includes)
end
# Build a list from an array of <i>Htmlxxx</i> items. Look up each
# in the AllReferences hash: if we find a corresponding entry,
# we generate a hyperlink to it, otherwise just output the name.
# However, some names potentially need massaging. For example,
# you may require a Ruby file without the .rb extension,
# but the file names we know about may have it. To deal with
# this, we pass in a block which performs the massaging,
# returning an array of alternative names to match
def potentially_referenced_list(array)
res = []
array.each do |i|
ref = AllReferences[i.name]
# if !ref
# container = @context.parent
# while !ref && container
# name = container.name + "::" + i.name
# ref = AllReferences[name]
# container = container.parent
# end
# end
ref = @context.find_symbol(i.name)
ref = ref.viewer if ref
if !ref && block_given?
possibles = yield(i.name)
while !ref and !possibles.empty?
ref = AllReferences[possibles.shift]
end
end
h_name = CGI.escapeHTML(i.name)
if ref and ref.document_self
path = url(ref.path)
res << { "name" => h_name, "aref" => path }
else
res << { "name" => h_name }
end
end
res
end
# Build an array of arrays of method details. The outer array has up
# to six entries, public, private, and protected for both class
# methods, the other for instance methods. The inner arrays contain
# a hash for each method
def build_method_detail_list(section)
outer = []
methods = @methods.sort
for singleton in [true, false]
for vis in [ :public, :protected, :private ]
res = []
methods.each do |m|
if m.section == section and
m.document_self and
m.visibility == vis and
m.singleton == singleton
row = {}
if m.call_seq
row["callseq"] = m.call_seq.gsub(/->/, '→')
else
row["name"] = CGI.escapeHTML(m.name)
row["params"] = m.params
end
desc = m.description.strip
row["m_desc"] = desc unless desc.empty?
row["aref"] = m.aref
row["visibility"] = m.visibility.to_s
alias_names = []
m.aliases.each do |other|
if other.viewer # won't be if the alias is private
alias_names << {
'name' => other.name,
'aref' => other.viewer.as_href(path)
}
end
end
unless alias_names.empty?
row["aka"] = alias_names
end
if @options.inline_source
code = m.source_code
row["sourcecode"] = code if code
else
code = m.src_url
if code
row["codeurl"] = code
row["imgurl"] = m.img_url
end
end
res << row
end
end
if res.size > 0
outer << {
"type" => vis.to_s.capitalize,
"category" => singleton ? "Class" : "Instance",
"methods" => res
}
end
end
end
outer
end
# Build the structured list of classes and modules contained
# in this context.
def build_class_list(level, from, section, infile=nil)
res = ""
prefix = " ::" * level;
from.modules.sort.each do |mod|
next unless mod.section == section
next if infile && !mod.defined_in?(infile)
if mod.document_self
res <<
prefix <<
"Module " <<
href(url(mod.viewer.path), "link", mod.full_name) <<
"<br />\n" <<
build_class_list(level + 1, mod, section, infile)
end
end
from.classes.sort.each do |cls|
next unless cls.section == section
next if infile && !cls.defined_in?(infile)
if cls.document_self
res <<
prefix <<
"Class " <<
href(url(cls.viewer.path), "link", cls.full_name) <<
"<br />\n" <<
build_class_list(level + 1, cls, section, infile)
end
end
res
end
def url(target)
HTMLGenerator.gen_url(path, target)
end
def aref_to(target)
if @options.all_one_file
"#" + target
else
url(target)
end
end
def document_self
@context.document_self
end
def diagram_reference(diagram)
res = diagram.gsub(/((?:src|href)=")(.*?)"/) {
$1 + url($2) + '"'
}
res
end
# Find a symbol in ourselves or our parent
def find_symbol(symbol, method=nil)
res = @context.find_symbol(symbol, method)
if res
res = res.viewer
end
res
end
# create table of contents if we contain sections
def add_table_of_sections
toc = []
@context.sections.each do |section|
if section.title
toc << {
'secname' => section.title,
'href' => section.sequence
}
end
end
@values['toc'] = toc unless toc.empty?
end
end
#####################################################################
#
# Wrap a ClassModule context
class HtmlClass < ContextUser
attr_reader :path
def initialize(context, html_file, prefix, options)
super(context, options)
@html_file = html_file
@is_module = context.is_module?
@values = {}
context.viewer = self
if options.all_one_file
@path = context.full_name
else
@path = http_url(context.full_name, prefix)
end
collect_methods
AllReferences.add(name, self)
end
# return the relative file name to store this class in,
# which is also its url
def http_url(full_name, prefix)
path = full_name.dup
if path['<<']
path.gsub!(/<<\s*(\w*)/) { "from-#$1" }
end
File.join(prefix, path.split("::")) + ".html"
end
def name
@context.full_name
end
def parent_name
@context.parent.full_name
end
def index_name
name
end
def write_on(f)
value_hash
template = TemplatePage.new(RDoc::Page::BODY,
RDoc::Page::CLASS_PAGE,
RDoc::Page::METHOD_LIST)
template.write_html_on(f, @values)
end
def value_hash
class_attribute_values
add_table_of_sections
@values["charset"] = @options.charset
@values["style_url"] = style_url(path, @options.css)
d = markup(@context.comment)
@values["description"] = d unless d.empty?
ml = build_method_summary_list
@values["methods"] = ml unless ml.empty?
il = build_include_list(@context)
@values["includes"] = il unless il.empty?
@values["sections"] = @context.sections.map do |section|
secdata = {
"sectitle" => section.title,
"secsequence" => section.sequence,
"seccomment" => markup(section.comment)
}
al = build_alias_summary_list(section)
secdata["aliases"] = al unless al.empty?
co = build_constants_summary_list(section)
secdata["constants"] = co unless co.empty?
al = build_attribute_list(section)
secdata["attributes"] = al unless al.empty?
cl = build_class_list(0, @context, section)
secdata["classlist"] = cl unless cl.empty?
mdl = build_method_detail_list(section)
secdata["method_list"] = mdl unless mdl.empty?
secdata
end
@values
end
def build_attribute_list(section)
atts = @context.attributes.sort
res = []
atts.each do |att|
next unless att.section == section
if att.visibility == :public || att.visibility == :protected || @options.show_all
entry = {
"name" => CGI.escapeHTML(att.name),
"rw" => att.rw,
"a_desc" => markup(att.comment, true)
}
unless att.visibility == :public || att.visibility == :protected
entry["rw"] << "-"
end
res << entry
end
end
res
end
def class_attribute_values
h_name = CGI.escapeHTML(name)
@values["classmod"] = @is_module ? "Module" : "Class"
@values["title"] = "#{@values['classmod']}: #{h_name}"
c = @context
c = c.parent while c and !c.diagram
if c && c.diagram
@values["diagram"] = diagram_reference(c.diagram)
end
@values["full_name"] = h_name
parent_class = @context.superclass
if parent_class
@values["parent"] = CGI.escapeHTML(parent_class)
if parent_name
lookup = parent_name + "::" + parent_class
else
lookup = parent_class
end
parent_url = AllReferences[lookup] || AllReferences[parent_class]
if parent_url and parent_url.document_self
@values["par_url"] = aref_to(parent_url.path)
end
end
files = []
@context.in_files.each do |f|
res = {}
full_path = CGI.escapeHTML(f.file_absolute_name)
res["full_path"] = full_path
res["full_path_url"] = aref_to(f.viewer.path) if f.document_self
if @options.webcvs
res["cvsurl"] = cvs_url( @options.webcvs, full_path )
end
files << res
end
@values['infiles'] = files
end
def <=>(other)
self.name <=> other.name
end
end
#####################################################################
#
# Handles the mapping of a file's information to HTML. In reality,
# a file corresponds to a +TopLevel+ object, containing modules,
# classes, and top-level methods. In theory it _could_ contain
# attributes and aliases, but we ignore these for now.
class HtmlFile < ContextUser
attr_reader :path
attr_reader :name
def initialize(context, options, file_dir)
super(context, options)
@values = {}
if options.all_one_file
@path = filename_to_label
else
@path = http_url(file_dir)
end
@name = @context.file_relative_name
collect_methods
AllReferences.add(name, self)
context.viewer = self
end
def http_url(file_dir)
File.join(file_dir, @context.file_relative_name.tr('.', '_')) +
".html"
end
def filename_to_label
@context.file_relative_name.gsub(/%|\/|\?|\#/) {|s| '%' + ("%x" % s[0]) }
end
def index_name
name
end
def parent_name
nil
end
def value_hash
file_attribute_values
add_table_of_sections
@values["charset"] = @options.charset
@values["href"] = path
@values["style_url"] = style_url(path, @options.css)
if @context.comment
d = markup(@context.comment)
@values["description"] = d if d.size > 0
end
ml = build_method_summary_list
@values["methods"] = ml unless ml.empty?
il = build_include_list(@context)
@values["includes"] = il unless il.empty?
rl = build_requires_list(@context)
@values["requires"] = rl unless rl.empty?
if @options.promiscuous
file_context = nil
else
file_context = @context
end
@values["sections"] = @context.sections.map do |section|
secdata = {
"sectitle" => section.title,
"secsequence" => section.sequence,
"seccomment" => markup(section.comment)
}
cl = build_class_list(0, @context, section, file_context)
@values["classlist"] = cl unless cl.empty?
mdl = build_method_detail_list(section)
secdata["method_list"] = mdl unless mdl.empty?
al = build_alias_summary_list(section)
secdata["aliases"] = al unless al.empty?
co = build_constants_summary_list(section)
@values["constants"] = co unless co.empty?
secdata
end
@values
end
def write_on(f)
value_hash
template = TemplatePage.new(RDoc::Page::BODY,
RDoc::Page::FILE_PAGE,
RDoc::Page::METHOD_LIST)
template.write_html_on(f, @values)
end
def file_attribute_values
full_path = @context.file_absolute_name
short_name = File.basename(full_path)
@values["title"] = CGI.escapeHTML("File: #{short_name}")
if @context.diagram
@values["diagram"] = diagram_reference(@context.diagram)
end
@values["short_name"] = CGI.escapeHTML(short_name)
@values["full_path"] = CGI.escapeHTML(full_path)
@values["dtm_modified"] = @context.file_stat.mtime.to_s
if @options.webcvs
@values["cvsurl"] = cvs_url( @options.webcvs, @values["full_path"] )
end
end
def <=>(other)
self.name <=> other.name
end
end
#####################################################################
class HtmlMethod
include MarkUp
attr_reader :context
attr_reader :src_url
attr_reader :img_url
attr_reader :source_code
@@seq = "M000000"
@@all_methods = []
def HtmlMethod::reset
@@all_methods = []
end
def initialize(context, html_class, options)
@context = context
@html_class = html_class
@options = options
@@seq = @@seq.succ
@seq = @@seq
@@all_methods << self
context.viewer = self
if (ts = @context.token_stream)
@source_code = markup_code(ts)
unless @options.inline_source
@src_url = create_source_code_file(@source_code)
@img_url = HTMLGenerator.gen_url(path, 'source.png')
end
end
AllReferences.add(name, self)
end
# return a reference to outselves to be used as an href=
# the form depends on whether we're all in one file
# or in multiple files
def as_href(from_path)
if @options.all_one_file
"#" + path
else
HTMLGenerator.gen_url(from_path, path)
end
end
def name
@context.name
end
def section
@context.section
end
def index_name
"#{@context.name} (#{@html_class.name})"
end
def parent_name
if @context.parent.parent
@context.parent.parent.full_name
else
nil
end
end
def aref
@seq
end
def path
if @options.all_one_file
aref
else
@html_class.path + "#" + aref
end
end
def description
markup(@context.comment)
end
def visibility
@context.visibility
end
def singleton
@context.singleton
end
def call_seq
cs = @context.call_seq
if cs
cs.gsub(/\n/, "<br />\n")
else
nil
end
end
def params
# params coming from a call-seq in 'C' will start with the
# method name
p = @context.params
if p !~ /^\w/
p = @context.params.gsub(/\s*\#.*/, '')
p = p.tr("\n", " ").squeeze(" ")
p = "(" + p + ")" unless p[0] == ?(
if (block = @context.block_params)
# If this method has explicit block parameters, remove any
# explicit &block
p.sub!(/,?\s*&\w+/, '')
block.gsub!(/\s*\#.*/, '')
block = block.tr("\n", " ").squeeze(" ")
if block[0] == ?(
block.sub!(/^\(/, '').sub!(/\)/, '')
end
p << " {|#{block.strip}| ...}"
end
end
CGI.escapeHTML(p)
end
def create_source_code_file(code_body)
meth_path = @html_class.path.sub(/\.html$/, '.src')
File.makedirs(meth_path)
file_path = File.join(meth_path, @seq) + ".html"
template = TemplatePage.new(RDoc::Page::SRC_PAGE)
File.open(file_path, "w") do |f|
values = {
'title' => CGI.escapeHTML(index_name),
'code' => code_body,
'style_url' => style_url(file_path, @options.css),
'charset' => @options.charset
}
template.write_html_on(f, values)
end
HTMLGenerator.gen_url(path, file_path)
end
def HtmlMethod.all_methods
@@all_methods
end
def <=>(other)
@context <=> other.context
end
##
# Given a sequence of source tokens, mark up the source code
# to make it look purty.
def markup_code(tokens)
src = ""
tokens.each do |t|
next unless t
# p t.class
# style = STYLE_MAP[t.class]
style = case t
when RubyToken::TkCONSTANT then "ruby-constant"
when RubyToken::TkKW then "ruby-keyword kw"
when RubyToken::TkIVAR then "ruby-ivar"
when RubyToken::TkOp then "ruby-operator"
when RubyToken::TkId then "ruby-identifier"
when RubyToken::TkNode then "ruby-node"
when RubyToken::TkCOMMENT then "ruby-comment cmt"
when RubyToken::TkREGEXP then "ruby-regexp re"
when RubyToken::TkSTRING then "ruby-value str"
when RubyToken::TkVal then "ruby-value"
else
nil
end
text = CGI.escapeHTML(t.text)
if style
src << "<span class=\"#{style}\">#{text}</span>"
else
src << text
end
end
add_line_numbers(src) if Options.instance.include_line_numbers
src
end
# we rely on the fact that the first line of a source code
# listing has
# # File xxxxx, line dddd
def add_line_numbers(src)
if src =~ /\A.*, line (\d+)/
first = $1.to_i - 1
last = first + src.count("\n")
size = last.to_s.length
real_fmt = "%#{size}d: "
fmt = " " * (size+2)
src.gsub!(/^/) do
res = sprintf(fmt, first)
first += 1
fmt = real_fmt
res
end
end
end
def document_self
@context.document_self
end
def aliases
@context.aliases
end
def find_symbol(symbol, method=nil)
res = @context.parent.find_symbol(symbol, method)
if res
res = res.viewer
end
res
end
end
#####################################################################
class HTMLGenerator
include MarkUp
##
# convert a target url to one that is relative to a given
# path
def HTMLGenerator.gen_url(path, target)
from = File.dirname(path)
to, to_file = File.split(target)
from = from.split("/")
to = to.split("/")
while from.size > 0 and to.size > 0 and from[0] == to[0]
from.shift
to.shift
end
from.fill("..")
from.concat(to)
from << to_file
File.join(*from)
end
# Generators may need to return specific subclasses depending
# on the options they are passed. Because of this
# we create them using a factory
def HTMLGenerator.for(options)
AllReferences::reset
HtmlMethod::reset
if options.all_one_file
HTMLGeneratorInOne.new(options)
else
HTMLGenerator.new(options)
end
end
class <<self
protected :new
end
# Set up a new HTML generator. Basically all we do here is load
# up the correct output temlate
def initialize(options) #:not-new:
@options = options
load_html_template
end
##
# Build the initial indices and output objects
# based on an array of TopLevel objects containing
# the extracted information.
def generate(toplevels)
@toplevels = toplevels
@files = []
@classes = []
write_style_sheet
gen_sub_directories()
build_indices
generate_html
end
private
##
# Load up the HTML template specified in the options.
# If the template name contains a slash, use it literally
#
def load_html_template
template = @options.template
unless template =~ %r{/|\\}
template = File.join("rdoc/generators/template",
@options.generator.key, template)
end
require template
extend RDoc::Page
rescue LoadError
$stderr.puts "Could not find HTML template '#{template}'"
exit 99
end
##
# Write out the style sheet used by the main frames
#
def write_style_sheet
template = TemplatePage.new(RDoc::Page::STYLE)
unless @options.css
File.open(CSS_NAME, "w") do |f|
values = { "fonts" => RDoc::Page::FONTS }
template.write_html_on(f, values)
end
end
end
##
# See the comments at the top for a description of the
# directory structure
def gen_sub_directories
File.makedirs(FILE_DIR, CLASS_DIR)
rescue
$stderr.puts $!.message
exit 1
end
##
# Generate:
#
# * a list of HtmlFile objects for each TopLevel object.
# * a list of HtmlClass objects for each first level
# class or module in the TopLevel objects
# * a complete list of all hyperlinkable terms (file,
# class, module, and method names)
def build_indices
@toplevels.each do |toplevel|
@files << HtmlFile.new(toplevel, @options, FILE_DIR)
end
RDoc::TopLevel.all_classes_and_modules.each do |cls|
build_class_list(cls, @files[0], CLASS_DIR)
end
end
def build_class_list(from, html_file, class_dir)
@classes << HtmlClass.new(from, html_file, class_dir, @options)
from.each_classmodule do |mod|
build_class_list(mod, html_file, class_dir)
end
end
##
# Generate all the HTML
#
def generate_html
# the individual descriptions for files and classes
gen_into(@files)
gen_into(@classes)
# and the index files
gen_file_index
gen_class_index
gen_method_index
gen_main_index
# this method is defined in the template file
write_extra_pages if defined? write_extra_pages
end
def gen_into(list)
list.each do |item|
if item.document_self
op_file = item.path
File.makedirs(File.dirname(op_file))
File.open(op_file, "w") { |file| item.write_on(file) }
end
end
end
def gen_file_index
gen_an_index(@files, 'Files',
RDoc::Page::FILE_INDEX,
"fr_file_index.html")
end
def gen_class_index
gen_an_index(@classes, 'Classes',
RDoc::Page::CLASS_INDEX,
"fr_class_index.html")
end
def gen_method_index
gen_an_index(HtmlMethod.all_methods, 'Methods',
RDoc::Page::METHOD_INDEX,
"fr_method_index.html")
end
def gen_an_index(collection, title, template, filename)
template = TemplatePage.new(RDoc::Page::FR_INDEX_BODY, template)
res = []
collection.sort.each do |f|
if f.document_self
res << { "href" => f.path, "name" => f.index_name }
end
end
values = {
"entries" => res,
'list_title' => CGI.escapeHTML(title),
'index_url' => main_url,
'charset' => @options.charset,
'style_url' => style_url('', @options.css),
}
File.open(filename, "w") do |f|
template.write_html_on(f, values)
end
end
# The main index page is mostly a template frameset, but includes
# the initial page. If the <tt>--main</tt> option was given,
# we use this as our main page, otherwise we use the
# first file specified on the command line.
def gen_main_index
template = TemplatePage.new(RDoc::Page::INDEX)
File.open("index.html", "w") do |f|
values = {
"initial_page" => main_url,
'title' => CGI.escapeHTML(@options.title),
'charset' => @options.charset
}
if @options.inline_source
values['inline_source'] = true
end
template.write_html_on(f, values)
end
end
# return the url of the main page
def main_url
main_page = @options.main_page
ref = nil
if main_page
ref = AllReferences[main_page]
if ref
ref = ref.path
else
$stderr.puts "Could not find main page #{main_page}"
end
end
unless ref
for file in @files
if file.document_self
ref = file.path
break
end
end
end
unless ref
$stderr.puts "Couldn't find anything to document"
$stderr.puts "Perhaps you've used :stopdoc: in all classes"
exit(1)
end
ref
end
end
######################################################################
class HTMLGeneratorInOne < HTMLGenerator
def initialize(*args)
super
end
##
# Build the initial indices and output objects
# based on an array of TopLevel objects containing
# the extracted information.
def generate(info)
@toplevels = info
@files = []
@classes = []
@hyperlinks = {}
build_indices
generate_xml
end
##
# Generate:
#
# * a list of HtmlFile objects for each TopLevel object.
# * a list of HtmlClass objects for each first level
# class or module in the TopLevel objects
# * a complete list of all hyperlinkable terms (file,
# class, module, and method names)
def build_indices
@toplevels.each do |toplevel|
@files << HtmlFile.new(toplevel, @options, FILE_DIR)
end
RDoc::TopLevel.all_classes_and_modules.each do |cls|
build_class_list(cls, @files[0], CLASS_DIR)
end
end
def build_class_list(from, html_file, class_dir)
@classes << HtmlClass.new(from, html_file, class_dir, @options)
from.each_classmodule do |mod|
build_class_list(mod, html_file, class_dir)
end
end
##
# Generate all the HTML. For the one-file case, we generate
# all the information in to one big hash
#
def generate_xml
values = {
'charset' => @options.charset,
'files' => gen_into(@files),
'classes' => gen_into(@classes),
'title' => CGI.escapeHTML(@options.title),
}
# this method is defined in the template file
write_extra_pages if defined? write_extra_pages
template = TemplatePage.new(RDoc::Page::ONE_PAGE)
if @options.op_name
opfile = File.open(@options.op_name, "w")
else
opfile = $stdout
end
template.write_html_on(opfile, values)
end
def gen_into(list)
res = []
list.each do |item|
res << item.value_hash
end
res
end
def gen_file_index
gen_an_index(@files, 'Files')
end
def gen_class_index
gen_an_index(@classes, 'Classes')
end
def gen_method_index
gen_an_index(HtmlMethod.all_methods, 'Methods')
end
def gen_an_index(collection, title)
res = []
collection.sort.each do |f|
if f.document_self
res << { "href" => f.path, "name" => f.index_name }
end
end
return {
"entries" => res,
'list_title' => title,
'index_url' => main_url,
}
end
end
end
Zerion Mini Shell 1.0