require 'haml/helpers' require 'haml/buffer' require 'haml/precompiler' require 'haml/filters' require 'haml/error' module Haml # This is the frontend for using Haml programmatically. # It can be directly used by the user by creating a # new instance and calling \{#render} to render the template. # For example: # # template = File.read('templates/really_cool_template.haml') # haml_engine = Haml::Engine.new(template) # output = haml_engine.render # puts output class Engine include Precompiler # The options hash. # See {file:HAML_REFERENCE.md#haml_options the Haml options documentation}. # # @return [Hash] attr_accessor :options # The indentation used in the Haml document, # or `nil` if the indentation is ambiguous # (for example, for a single-level document). # # @return [String] attr_accessor :indentation # @return [Boolean] Whether or not the format is XHTML. def xhtml? not html? end # @return [Boolean] Whether or not the format is any flavor of HTML. def html? html4? or html5? end # @return [Boolean] Whether or not the format is HTML4. def html4? @options[:format] == :html4 end # @return [Boolean] Whether or not the format is HTML5. def html5? @options[:format] == :html5 end # The source code that is evaluated to produce the Haml document. # # In Ruby 1.9, this is automatically converted to the correct encoding # (see {file:HAML_REFERENCE.md#encoding-option the `:encoding` option}). # # @return [String] def precompiled return @precompiled if ruby1_8? return @precompiled.encode(Encoding.find(@options[:encoding])) end # Precompiles the Haml template. # # @param template [String] The Haml template # @param options [Hash] An options hash; # see {file:HAML_REFERENCE.md#haml_options the Haml options documentation} # @raise [Haml::Error] if there's a Haml syntax error in the template def initialize(template, options = {}) @options = { :suppress_eval => false, :attr_wrapper => "'", # Don't forget to update the docs in lib/haml.rb if you update these :autoclose => %w[meta img link br hr input area param col base], :preserve => %w[textarea pre], :filename => '(haml)', :line => 1, :ugly => false, :format => :xhtml, :escape_html => false, } unless ruby1_8? @options[:encoding] = Encoding.default_internal || "utf-8" end @options.merge! options @index = 0 unless [:xhtml, :html4, :html5].include?(@options[:format]) raise Haml::Error, "Invalid format #{@options[:format].inspect}" end if @options[:encoding] && @options[:encoding].is_a?(Encoding) @options[:encoding] = @options[:encoding].name end # :eod is a special end-of-document marker @template = (template.rstrip).split(/\r\n|\r|\n/) + [:eod, :eod] @template_index = 0 @to_close_stack = [] @output_tabs = 0 @template_tabs = 0 @flat = false @newlines = 0 @precompiled = '' @to_merge = [] @tab_change = 0 @temp_count = 0 precompile rescue Haml::Error => e e.backtrace.unshift "#{@options[:filename]}:#{(e.line ? e.line + 1 : @index) + @options[:line] - 1}" if @index raise end # Processes the template and returns the result as a string. # # `scope` is the context in which the template is evaluated. # If it's a `Binding` or `Proc` object, # Haml uses it as the second argument to `Kernel#eval`; # otherwise, Haml just uses its `#instance_eval` context. # # Note that Haml modifies the evaluation context # (either the scope object or the `self` object of the scope binding). # It extends {Haml::Helpers}, and various instance variables are set # (all prefixed with `haml_`). # For example: # # s = "foobar" # Haml::Engine.new("%p= upcase").render(s) #=> "

FOOBAR

" # # # s now extends Haml::Helpers # s.responds_to?(:html_attrs) #=> true # # `locals` is a hash of local variables to make available to the template. # For example: # # Haml::Engine.new("%p= foo").render(Object.new, :foo => "Hello, world!") #=> "

Hello, world!

" # # If a block is passed to render, # that block is run when `yield` is called # within the template. # # Due to some Ruby quirks, # if `scope` is a `Binding` or `Proc` object and a block is given, # the evaluation context may not be quite what the user expects. # In particular, it's equivalent to passing `eval("self", scope)` as `scope`. # This won't have an effect in most cases, # but if you're relying on local variables defined in the context of `scope`, # they won't work. # # @param scope [Binding, Proc, Object] The context in which the template is evaluated # @param locals [Hash] Local variables that will be made available # to the template # @param block [#to_proc] A block that can be yielded to within the template # @return [String] The rendered template def render(scope = Object.new, locals = {}, &block) buffer = Haml::Buffer.new(scope.instance_variable_get('@haml_buffer'), options_for_buffer) if scope.is_a?(Binding) || scope.is_a?(Proc) scope_object = eval("self", scope) scope = scope_object.instance_eval{binding} if block_given? else scope_object = scope scope = scope_object.instance_eval{binding} end set_locals(locals.merge(:_hamlout => buffer, :_erbout => buffer.buffer), scope, scope_object) scope_object.instance_eval do extend Haml::Helpers @haml_buffer = buffer end eval(precompiled, scope, @options[:filename], @options[:line]) # Get rid of the current buffer scope_object.instance_eval do @haml_buffer = buffer.upper end buffer.buffer end alias_method :to_html, :render # Returns a proc that, when called, # renders the template and returns the result as a string. # # `scope` works the same as it does for render. # # The first argument of the returned proc is a hash of local variable names to values. # However, due to an unfortunate Ruby quirk, # the local variables which can be assigned must be pre-declared. # This is done with the `local_names` argument. # For example: # # # This works # Haml::Engine.new("%p= foo").render_proc(Object.new, :foo).call :foo => "Hello!" # #=> "

Hello!

" # # # This doesn't # Haml::Engine.new("%p= foo").render_proc.call :foo => "Hello!" # #=> NameError: undefined local variable or method `foo' # # The proc doesn't take a block; any yields in the template will fail. # # @param scope [Binding, Proc, Object] The context in which the template is evaluated # @param local_names [Array] The names of the locals that can be passed to the proc # @return [Proc] The proc that will run the template def render_proc(scope = Object.new, *local_names) if scope.is_a?(Binding) || scope.is_a?(Proc) scope_object = eval("self", scope) else scope_object = scope scope = scope_object.instance_eval{binding} end eval("Proc.new { |*_haml_locals| _haml_locals = _haml_locals[0] || {};" + precompiled_with_ambles(local_names) + "}\n", scope, @options[:filename], @options[:line]) end # Defines a method on `object` with the given name # that renders the template and returns the result as a string. # # If `object` is a class or module, # the method will instead by defined as an instance method. # For example: # # t = Time.now # Haml::Engine.new("%p\n Today's date is\n .date= self.to_s").def_method(t, :render) # t.render #=> "

\n Today's date is\n

Fri Nov 23 18:28:29 -0800 2007
\n

\n" # # Haml::Engine.new(".upcased= upcase").def_method(String, :upcased_div) # "foobar".upcased_div #=> "
FOOBAR
\n" # # The first argument of the defined method is a hash of local variable names to values. # However, due to an unfortunate Ruby quirk, # the local variables which can be assigned must be pre-declared. # This is done with the `local_names` argument. # For example: # # # This works # obj = Object.new # Haml::Engine.new("%p= foo").def_method(obj, :render, :foo) # obj.render(:foo => "Hello!") #=> "

Hello!

" # # # This doesn't # obj = Object.new # Haml::Engine.new("%p= foo").def_method(obj, :render) # obj.render(:foo => "Hello!") #=> NameError: undefined local variable or method `foo' # # Note that Haml modifies the evaluation context # (either the scope object or the `self` object of the scope binding). # It extends {Haml::Helpers}, and various instance variables are set # (all prefixed with `haml_`). # # @param object [Object, Module] The object on which to define the method # @param name [String, Symbol] The name of the method to define # @param local_names [Array] The names of the locals that can be passed to the proc def def_method(object, name, *local_names) method = object.is_a?(Module) ? :module_eval : :instance_eval object.send(method, "def #{name}(_haml_locals = {}); #{precompiled_with_ambles(local_names)}; end", @options[:filename], @options[:line]) end protected # Returns a subset of \{#options}: those that {Haml::Buffer} cares about. # All of the values here are such that when `#inspect` is called on the hash, # it can be `Kernel#eval`ed to get the same result back. # # See {file:HAML_REFERENCE.md#haml_options the Haml options documentation}. # # @return [Hash] The options hash def options_for_buffer { :autoclose => @options[:autoclose], :preserve => @options[:preserve], :attr_wrapper => @options[:attr_wrapper], :ugly => @options[:ugly], :format => @options[:format], :encoding => @options[:encoding], } end private def set_locals(locals, scope, scope_object) scope_object.send(:instance_variable_set, '@_haml_locals', locals) set_locals = locals.keys.map { |k| "#{k} = @_haml_locals[#{k.inspect}]" }.join("\n") eval(set_locals, scope) end end end