<%= @desc %>
# ## <% if @cost < 10 %> # Only <%= @cost %>!!! # <% else %> # Call for a price, today! # <% end %> #
# # # # }.gsub(/^ /, '') # # rhtml = ERB.new(template) # # # Set up template data. # toy = Product.new( "TZ-1002", # "Rubysapien", # "Geek's Best Friend! Responds to Ruby commands...", # 999.95 ) # toy.add_feature("Listens for verbal commands in the Ruby language!") # toy.add_feature("Ignores Perl, Java, and all C variants.") # toy.add_feature("Karate-Chop Action!!!") # toy.add_feature("Matz signature on left leg.") # toy.add_feature("Gem studded eyes... Rubies, of course!") # # # Produce result. # rhtml.run(toy.get_binding) # # Generates (some blank lines removed): # # #Geek's Best Friend! Responds to Ruby commands...
# ## Call for a price, today! #
# # # # # # == Notes # # There are a variety of templating solutions available in various Ruby projects: # * ERB's big brother, eRuby, works the same but is written in C for speed; # * Amrita (smart at producing HTML/XML); # * cs/Template (written in C for speed); # * RDoc, distributed with Ruby, uses its own template engine, which can be reused elsewhere; # * and others; search {RubyGems.org}[https://rubygems.org/] or # {The Ruby Toolbox}[https://www.ruby-toolbox.com/]. # # Rails, the web application framework, uses ERB to create views. # class ERB Revision = '$Date:: $' # :nodoc: #' # Returns revision information for the erb.rb module. def self.version "erb.rb [2.1.0 #{ERB::Revision.split[1]}]" end end #-- # ERB::Compiler class ERB # = ERB::Compiler # # Compiles ERB templates into Ruby code; the compiled code produces the # template result when evaluated. ERB::Compiler provides hooks to define how # generated output is handled. # # Internally ERB does something like this to generate the code returned by # ERB#src: # # compiler = ERB::Compiler.new('<>') # compiler.pre_cmd = ["_erbout=String.new"] # compiler.put_cmd = "_erbout.concat" # compiler.insert_cmd = "_erbout.concat" # compiler.post_cmd = ["_erbout"] # # code, enc = compiler.compile("Got <%= obj %>!\n") # puts code # # Generates: # # #coding:UTF-8 # _erbout=String.new; _erbout.concat "Got "; _erbout.concat(( obj ).to_s); _erbout.concat "!\n"; _erbout # # By default the output is sent to the print method. For example: # # compiler = ERB::Compiler.new('<>') # code, enc = compiler.compile("Got <%= obj %>!\n") # puts code # # Generates: # # #coding:UTF-8 # print "Got "; print(( obj ).to_s); print "!\n" # # == Evaluation # # The compiled code can be used in any context where the names in the code # correctly resolve. Using the last example, each of these print 'Got It!' # # Evaluate using a variable: # # obj = 'It' # eval code # # Evaluate using an input: # # mod = Module.new # mod.module_eval %{ # def get(obj) # #{code} # end # } # extend mod # get('It') # # Evaluate using an accessor: # # klass = Class.new Object # klass.class_eval %{ # attr_accessor :obj # def initialize(obj) # @obj = obj # end # def get_it # #{code} # end # } # klass.new('It').get_it # # Good! See also ERB#def_method, ERB#def_module, and ERB#def_class. class Compiler # :nodoc: class PercentLine # :nodoc: def initialize(str) @value = str end attr_reader :value alias :to_s :value def empty? @value.empty? end end class Scanner # :nodoc: @scanner_map = {} def self.regist_scanner(klass, trim_mode, percent) @scanner_map[[trim_mode, percent]] = klass end def self.default_scanner=(klass) @default_scanner = klass end def self.make_scanner(src, trim_mode, percent) klass = @scanner_map.fetch([trim_mode, percent], @default_scanner) klass.new(src, trim_mode, percent) end def initialize(src, trim_mode, percent) @src = src @stag = nil @stags = %w(<%% <%= <%# <%).freeze @etags = %w(%%> %>).freeze end attr_accessor :stag attr_reader :stags, :etags def scan; end end class TrimScanner < Scanner # :nodoc: def initialize(src, trim_mode, percent) super @trim_mode = trim_mode @percent = percent if @trim_mode == '>' @scan_reg = /(.*?)(%>\n|#{(stags + etags).join('|')}|\n|\z)/m @scan_line = self.method(:trim_line1) elsif @trim_mode == '<>' @scan_reg = /(.*?)(%>\n|#{(stags + etags).join('|')}|\n|\z)/m @scan_line = self.method(:trim_line2) elsif @trim_mode == '-' @scan_reg = /(.*?)(^[ \t]*<%\-|<%\-|-%>\n|-%>|#{(stags + etags).join('|')}|\z)/m @scan_line = self.method(:explicit_trim_line) else @scan_reg = /(.*?)(#{(stags + etags).join('|')}|\n|\z)/m @scan_line = self.method(:scan_line) end end attr_accessor :stag def scan(&block) @stag = nil if @percent @src.each_line do |line| percent_line(line, &block) end else @scan_line.call(@src, &block) end nil end def percent_line(line, &block) if @stag || line[0] != ?% return @scan_line.call(line, &block) end line[0] = '' if line[0] == ?% @scan_line.call(line, &block) else yield(PercentLine.new(line.chomp)) end end def scan_line(line) line.scan(@scan_reg) do |tokens| tokens.each do |token| next if token.empty? yield(token) end end end def trim_line1(line) line.scan(@scan_reg) do |tokens| tokens.each do |token| next if token.empty? if token == "%>\n" yield('%>') yield(:cr) else yield(token) end end end end def trim_line2(line) head = nil line.scan(@scan_reg) do |tokens| tokens.each do |token| next if token.empty? head = token unless head if token == "%>\n" yield('%>') if is_erb_stag?(head) yield(:cr) else yield("\n") end head = nil else yield(token) head = nil if token == "\n" end end end end def explicit_trim_line(line) line.scan(@scan_reg) do |tokens| tokens.each do |token| next if token.empty? if @stag.nil? && /[ \t]*<%-/ =~ token yield('<%') elsif @stag && token == "-%>\n" yield('%>') yield(:cr) elsif @stag && token == '-%>' yield('%>') else yield(token) end end end end ERB_STAG = %w(<%= <%# <%) def is_erb_stag?(s) ERB_STAG.member?(s) end end Scanner.default_scanner = TrimScanner class SimpleScanner < Scanner # :nodoc: def scan @src.scan(/(.*?)(#{(stags + etags).join('|')}|\n|\z)/m) do |tokens| tokens.each do |token| next if token.empty? yield(token) end end end end Scanner.regist_scanner(SimpleScanner, nil, false) begin require 'strscan' class SimpleScanner2 < Scanner # :nodoc: def scan stag_reg = /(.*?)(#{stags.join('|')}|\z)/m etag_reg = /(.*?)(#{etags.join('|')}|\z)/m scanner = StringScanner.new(@src) while ! scanner.eos? scanner.scan(@stag ? etag_reg : stag_reg) yield(scanner[1]) yield(scanner[2]) end end end Scanner.regist_scanner(SimpleScanner2, nil, false) class ExplicitScanner < Scanner # :nodoc: def scan stag_reg = /(.*?)(^[ \t]*<%-|<%-|#{stags.join('|')}|\z)/m etag_reg = /(.*?)(-%>|#{etags.join('|')}|\z)/m scanner = StringScanner.new(@src) while ! scanner.eos? scanner.scan(@stag ? etag_reg : stag_reg) yield(scanner[1]) elem = scanner[2] if /[ \t]*<%-/ =~ elem yield('<%') elsif elem == '-%>' yield('%>') yield(:cr) if scanner.scan(/(\n|\z)/) else yield(elem) end end end end Scanner.regist_scanner(ExplicitScanner, '-', false) rescue LoadError end class Buffer # :nodoc: def initialize(compiler, enc=nil, frozen=nil) @compiler = compiler @line = [] @script = '' @script << "#coding:#{enc}\n" if enc @script << "#frozen-string-literal:#{frozen}\n" unless frozen.nil? @compiler.pre_cmd.each do |x| push(x) end end attr_reader :script def push(cmd) @line << cmd end def cr @script << (@line.join('; ')) @line = [] @script << "\n" end def close return unless @line @compiler.post_cmd.each do |x| push(x) end @script << (@line.join('; ')) @line = nil end end def content_dump(s) # :nodoc: n = s.count("\n") if n > 0 s.dump + "\n" * n else s.dump end end def add_put_cmd(out, content) out.push("#{@put_cmd} #{content_dump(content)}") end def add_insert_cmd(out, content) out.push("#{@insert_cmd}((#{content}).to_s)") end # Compiles an ERB template into Ruby code. Returns an array of the code # and encoding like ["code", Encoding]. def compile(s) enc = s.encoding raise ArgumentError, "#{enc} is not ASCII compatible" if enc.dummy? s = s.b # see String#b magic_comment = detect_magic_comment(s, enc) out = Buffer.new(self, *magic_comment) self.content = '' scanner = make_scanner(s) scanner.scan do |token| next if token.nil? next if token == '' if scanner.stag.nil? compile_stag(token, out, scanner) else compile_etag(token, out, scanner) end end add_put_cmd(out, content) if content.size > 0 out.close return out.script, *magic_comment end def compile_stag(stag, out, scanner) case stag when PercentLine add_put_cmd(out, content) if content.size > 0 self.content = '' out.push(stag.to_s) out.cr when :cr out.cr when '<%', '<%=', '<%#' scanner.stag = stag add_put_cmd(out, content) if content.size > 0 self.content = '' when "\n" content << "\n" add_put_cmd(out, content) self.content = '' when '<%%' content << '<%' else content << stag end end def compile_etag(etag, out, scanner) case etag when '%>' compile_content(scanner.stag, out) scanner.stag = nil self.content = '' when '%%>' content << '%>' else content << etag end end def compile_content(stag, out) case stag when '<%' if content[-1] == ?\n content.chop! out.push(content) out.cr else out.push(content) end when '<%=' add_insert_cmd(out, content) when '<%#' # out.push("# #{content_dump(content)}") end end def prepare_trim_mode(mode) # :nodoc: case mode when 1 return [false, '>'] when 2 return [false, '<>'] when 0 return [false, nil] when String perc = mode.include?('%') if mode.include?('-') return [perc, '-'] elsif mode.include?('<>') return [perc, '<>'] elsif mode.include?('>') return [perc, '>'] else [perc, nil] end else return [false, nil] end end def make_scanner(src) # :nodoc: Scanner.make_scanner(src, @trim_mode, @percent) end # Construct a new compiler using the trim_mode. See ERB::new for available # trim modes. def initialize(trim_mode) @percent, @trim_mode = prepare_trim_mode(trim_mode) @put_cmd = 'print' @insert_cmd = @put_cmd @pre_cmd = [] @post_cmd = [] end attr_reader :percent, :trim_mode # The command to handle text that ends with a newline attr_accessor :put_cmd # The command to handle text that is inserted prior to a newline attr_accessor :insert_cmd # An array of commands prepended to compiled code attr_accessor :pre_cmd # An array of commands appended to compiled code attr_accessor :post_cmd private # A buffered text in #compile attr_accessor :content def detect_magic_comment(s, enc = nil) re = @percent ? /\G(?:<%#(.*)%>|%#(.*)\n)/ : /\G<%#(.*)%>/ frozen = nil s.scan(re) do comment = $+ comment = $1 if comment[/-\*-\s*(.*?)\s*-*-$/] case comment when %r"coding\s*[=:]\s*([[:alnum:]\-_]+)" enc = Encoding.find($1.sub(/-(?:mac|dos|unix)/i, '')) when %r"frozen[-_]string[-_]literal\s*:\s*([[:alnum:]]+)" frozen = $1 end end return enc, frozen end end end #-- # ERB class ERB # # Constructs a new ERB object with the template specified in _str_. # # An ERB object works by building a chunk of Ruby code that will output # the completed template when run. If _safe_level_ is set to a non-nil value, # ERB code will be run in a separate thread with $SAFE set to the # provided level. # # If _trim_mode_ is passed a String containing one or more of the following # modifiers, ERB will adjust its code generation as listed: # # % enables Ruby code processing for lines beginning with % # <> omit newline for lines starting with <% and ending in %> # > omit newline for lines ending in %> # - omit blank lines ending in -%> # # _eoutvar_ can be used to set the name of the variable ERB will build up # its output in. This is useful when you need to run multiple ERB # templates through the same binding and/or when you want to control where # output ends up. Pass the name of the variable to be used inside a String. # # === Example # # require "erb" # # # build data class # class Listings # PRODUCT = { :name => "Chicken Fried Steak", # :desc => "A well messages pattie, breaded and fried.", # :cost => 9.95 } # # attr_reader :product, :price # # def initialize( product = "", price = "" ) # @product = product # @price = price # end # # def build # b = binding # # create and run templates, filling member data variables # ERB.new(<<-'END_PRODUCT'.gsub(/^\s+/, ""), 0, "", "@product").result b # <%= PRODUCT[:name] %> # <%= PRODUCT[:desc] %> # END_PRODUCT # ERB.new(<<-'END_PRICE'.gsub(/^\s+/, ""), 0, "", "@price").result b # <%= PRODUCT[:name] %> -- <%= PRODUCT[:cost] %> # <%= PRODUCT[:desc] %> # END_PRICE # end # end # # # setup template data # listings = Listings.new # listings.build # # puts listings.product + "\n" + listings.price # # _Generates_ # # Chicken Fried Steak # A well messages pattie, breaded and fried. # # Chicken Fried Steak -- 9.95 # A well messages pattie, breaded and fried. # def initialize(str, safe_level=nil, trim_mode=nil, eoutvar='_erbout') @safe_level = safe_level compiler = make_compiler(trim_mode) set_eoutvar(compiler, eoutvar) @src, @encoding, @frozen_string = *compiler.compile(str) @filename = nil @lineno = 0 end ## # Creates a new compiler for ERB. See ERB::Compiler.new for details def make_compiler(trim_mode) ERB::Compiler.new(trim_mode) end # The Ruby code generated by ERB attr_reader :src # The encoding to eval attr_reader :encoding # The optional _filename_ argument passed to Kernel#eval when the ERB code # is run attr_accessor :filename # The optional _lineno_ argument passed to Kernel#eval when the ERB code # is run attr_accessor :lineno def location=((filename, lineno)) @filename = filename @lineno = lineno if lineno end # # Can be used to set _eoutvar_ as described in ERB::new. It's probably # easier to just use the constructor though, since calling this method # requires the setup of an ERB _compiler_ object. # def set_eoutvar(compiler, eoutvar = '_erbout') compiler.put_cmd = "#{eoutvar}.concat" compiler.insert_cmd = "#{eoutvar}.concat" compiler.pre_cmd = ["#{eoutvar} = String.new"] compiler.post_cmd = ["#{eoutvar}.force_encoding(__ENCODING__)"] end # Generate results and print them. (see ERB#result) def run(b=new_toplevel) print self.result(b) end # # Executes the generated ERB code to produce a completed template, returning # the results of that code. (See ERB::new for details on how this process # can be affected by _safe_level_.) # # _b_ accepts a Binding object which is used to set the context of # code evaluation. # def result(b=new_toplevel) if @safe_level proc { $SAFE = @safe_level eval(@src, b, (@filename || '(erb)'), @lineno) }.call else eval(@src, b, (@filename || '(erb)'), @lineno) end end ## # Returns a new binding each time *near* TOPLEVEL_BINDING for runs that do # not specify a binding. def new_toplevel TOPLEVEL_BINDING.dup end private :new_toplevel # Define _methodname_ as instance method of _mod_ from compiled Ruby source. # # example: # filename = 'example.rhtml' # 'arg1' and 'arg2' are used in example.rhtml # erb = ERB.new(File.read(filename)) # erb.def_method(MyClass, 'render(arg1, arg2)', filename) # print MyClass.new.render('foo', 123) def def_method(mod, methodname, fname='(ERB)') src = self.src.sub(/^(?!#|$)/) {"def #{methodname}\n"} << "\nend\n" mod.module_eval do eval(src, binding, fname, -1) end end # Create unnamed module, define _methodname_ as instance method of it, and return it. # # example: # filename = 'example.rhtml' # 'arg1' and 'arg2' are used in example.rhtml # erb = ERB.new(File.read(filename)) # erb.filename = filename # MyModule = erb.def_module('render(arg1, arg2)') # class MyClass # include MyModule # end def def_module(methodname='erb') mod = Module.new def_method(mod, methodname, @filename || '(ERB)') mod end # Define unnamed class which has _methodname_ as instance method, and return it. # # example: # class MyClass_ # def initialize(arg1, arg2) # @arg1 = arg1; @arg2 = arg2 # end # end # filename = 'example.rhtml' # @arg1 and @arg2 are used in example.rhtml # erb = ERB.new(File.read(filename)) # erb.filename = filename # MyClass = erb.def_class(MyClass_, 'render()') # print MyClass.new('foo', 123).render() def def_class(superklass=Object, methodname='result') cls = Class.new(superklass) def_method(cls, methodname, @filename || '(ERB)') cls end end #-- # ERB::Util class ERB # A utility module for conversion routines, often handy in HTML generation. module Util public # # A utility method for escaping HTML tag characters in _s_. # # require "erb" # include ERB::Util # # puts html_escape("is a > 0 & a < 10?") # # _Generates_ # # is a > 0 & a < 10? # def html_escape(s) CGI.escapeHTML(s.to_s) end alias h html_escape module_function :h module_function :html_escape # # A utility method for encoding the String _s_ as a URL. # # require "erb" # include ERB::Util # # puts url_encode("Programming Ruby: The Pragmatic Programmer's Guide") # # _Generates_ # # Programming%20Ruby%3A%20%20The%20Pragmatic%20Programmer%27s%20Guide # def url_encode(s) s.to_s.b.gsub(/[^a-zA-Z0-9_\-.]/n) { |m| sprintf("%%%02X", m.unpack("C")[0]) } end alias u url_encode module_function :u module_function :url_encode end end #-- # ERB::DefMethod class ERB # Utility module to define eRuby script as instance method. # # === Example # # example.rhtml: # <% for item in @items %> # <%= item %> # <% end %> # # example.rb: # require 'erb' # class MyClass # extend ERB::DefMethod # def_erb_method('render()', 'example.rhtml') # def initialize(items) # @items = items # end # end # print MyClass.new([10,20,30]).render() # # result: # # 10 # # 20 # # 30 # module DefMethod public # define _methodname_ as instance method of current module, using ERB # object or eRuby file def def_erb_method(methodname, erb_or_fname) if erb_or_fname.kind_of? String fname = erb_or_fname erb = ERB.new(File.read(fname)) erb.def_method(self, methodname, fname) else erb = erb_or_fname erb.def_method(self, methodname, erb.filename || '(ERB)') end end module_function :def_erb_method end end