module Innate # The nervous system of {Innate}, so you can relax. # # Node may be included into any class to make it a valid responder to # requests. # # The major difference between this and the old Ramaze controller is that # every Node acts as a standalone application with its own dispatcher. # # What's also an important difference is the fact that {Node} is a module, so # we don't have to spend a lot of time designing the perfect subclassing # scheme. # # This makes dispatching more fun, avoids a lot of processing that is done by # {Rack} anyway and lets you tailor your application down to the last action # exactly the way you want without worrying about side-effects to other # {Node}s. # # Upon inclusion, it will also include {Innate::Trinity} and {Innate::Helper} # to provide you with {Innate::Request}, {Innate::Response}, # {Innate::Session} instances, and all the standard helper methods as well as # the ability to simply add other helpers. # # Please note that method_missing will _not_ be considered when building an # {Action}. There might be future demand for this, but for now you can simply # use `def index(*args); end` to make a catch-all action. module Node include Traited attr_reader :method_arities, :layout_templates, :view_templates NODE_LIST = Set.new # These traits are inherited into ancestors, changing a trait in an # ancestor doesn't affect the higher ones. # # class Foo; include Innate::Node; end # class Bar < Foo; end # # Foo.trait[:wrap] == Bar.trait[:wrap] # => true # Bar.trait(:wrap => [:cache_wrap]) # Foo.trait[:wrap] == Bar.trait[:wrap] # => false trait :views => [] trait :layouts => [] trait :layout => nil trait :alias_view => {} trait :provide => {} # @see wrap_action_call trait :wrap => SortedSet.new trait :provide_set => false trait :needs_method => false trait :skip_node_map => false # Upon inclusion we make ourselves comfortable. def self.included(into) into.__send__(:include, Helper) into.extend(Trinity, self) NODE_LIST << into return if into.provide_set? into.provide(:html, :engine => :Etanni) into.trait(:provide_set => false) end # node mapping procedure # # when Node is included into an object, it's added to NODE_LIST # when object::map(location) is sent, it maps the object into DynaMap # when Innate.start is issued, it calls Node::setup # Node::setup iterates NODE_LIST and maps all objects not in DynaMap by # using Node::generate_mapping(object.name) as location # # when object::map(nil) is sent, the object will be skipped in Node::setup def self.setup NODE_LIST.each{|node| node.map(generate_mapping(node.name)) unless node.trait[:skip_node_map] } # Log.debug("Mapped Nodes: %p" % DynaMap.to_hash) unless NODE_LIST.empty? end def self.generate_mapping(object_name = self.name) return '/' if NODE_LIST.size == 1 parts = object_name.split('::').map{|part| part.gsub(/^[A-Z]+/){|sub| sub.downcase }.gsub(/[A-Z]+[^A-Z]/, '_\&') } '/' << parts.join('/').downcase end # Tries to find the relative url that this {Node} is mapped to. # If it cannot find one it will instead generate one based on the # snake_cased name of itself. # # @example Usage: # # class FooBar # include Innate::Node # end # FooBar.mapping # => '/foo_bar' # # @return [String] the relative path to the node # # @api external # @see Innate::SingletonMethods#to # @author manveru def mapping Innate.to(self) end # Shortcut to map or remap this Node. # # @example Usage for explicit mapping: # # class FooBar # include Innate::Node # map '/foo_bar' # end # # Innate.to(FooBar) # => '/foo_bar' # # @example Usage for automatic mapping: # # class FooBar # include Innate::Node # map mapping # end # # Innate.to(FooBar) # => '/foo_bar' # # @param [#to_s] location # # @api external # @see Innate::SingletonMethods::map # @author manveru def map(location) trait :skip_node_map => true Innate.map(location, self) if location end # Specify which way contents are provided and processed. # # Use this to set a templating engine, custom Content-Type, or pass a block # to take over the processing of the {Action} and template yourself. # # Provides set via this method will be inherited into subclasses. # # The +format+ is extracted from the PATH_INFO, it simply represents the # last extension name in the path. # # The provide also has influence on the chosen templates for the {Action}. # # @example providing RSS with ERB templating # # provide :rss, :engine => :ERB # # Given a request to `/list.rss` the template lookup first tries to find # `list.rss.erb`, if that fails it falls back to `list.erb`. # If neither of these are available it will try to use the return value of # the method in the {Action} as template. # # A request to `/list.yaml` would match the format 'yaml' # # @example providing a yaml version of actions # # class Articles # include Innate::Node # map '/article' # # provide(:yaml, :type => 'text/yaml'){|action, value| value.to_yaml } # # def list # @articles = Article.list # end # end # # @example providing plain text inspect version # # class Articles # include Innate::Node # map '/article' # # provide(:txt, :type => 'text/plain'){|action, value| value.inspect } # # def list # @articles = Article.list # end # end # # @param [Proc] block # upon calling the action, [action, value] will be passed to it and its # return value becomes the response body. # # @option param :engine [Symbol String] # Name of an engine for View::get # @option param :type [String] # default Content-Type if none was set in Response # # @raise [ArgumentError] if neither a block nor an engine was given # # @api external # @see View::get Node#provides # @author manveru # # @todo # The comment of this method may be too short for the effects it has on # the rest of Innate, if you feel something is missing please let me # know. def provide(format, param = {}, &block) if param.respond_to?(:to_hash) param = param.to_hash handler = block || View.get(param[:engine]) content_type = param[:type] else handler = View.get(param) end raise(ArgumentError, "Need an engine or block") unless handler trait("#{format}_handler" => handler, :provide_set => true) trait("#{format}_content_type" => content_type) if content_type end def provides ancestral_trait.reject{|k,v| k !~ /_handler$/ } end # This makes the Node a valid application for Rack. # +env+ is the environment hash passed from the Rack::Handler # # We rely on correct PATH_INFO. # # As defined by the Rack spec, PATH_INFO may be empty if it wants the root # of the application, so we insert '/' to make our dispatcher simple. # # Innate will not rescue any errors for you or do any error handling, this # should be done by an underlying middleware. # # We do however log errors at some vital points in order to provide you # with feedback in your logs. # # A lot of functionality in here relies on the fact that call is executed # within Current#call which populates the variables used by Trinity. # So if you use the Node directly as a middleware make sure that you #use # Innate::Current as a middleware before it. # # @param [Hash] env # # @return [Array] # # @api external # @see Response#reset Node#try_resolve Session#flush # @author manveru def call(env) path = env['PATH_INFO'] path << '/' if path.empty? response.reset try_resolve(path).finish end # Let's try to find some valid action for given +path+. # Otherwise we dispatch to {action_missing}. # # @param [String] path from env['PATH_INFO'] # # @return [Response] # # @api external # @see Node#resolve Node#action_found Node#action_missing # @author manveru def try_resolve(path) action = resolve(path) action ? action_found(action) : action_missing(path) end # Executed once an {Action} has been found. # # Reset the {Innate::Response} instance, catch :respond and :redirect. # {Action#call} has to return a String. # # @param [Action] action # # @return [Innate::Response] # # @api external # @see Action#call Innate::Response # @author manveru def action_found(action) response = catch(:respond){ catch(:redirect){ action.call }} unless response.respond_to?(:finish) self.response.write(response) response = self.response end response['Content-Type'] ||= action.options[:content_type] response end # The default handler in case no action was found, kind of method_missing. # Must modify the response in order to have any lasting effect. # # Reasoning: # * We are doing this is in order to avoid tons of special error handling # code that would impact runtime and make the overall API more # complicated. # * This cannot be a normal action is that methods defined in # {Innate::Node} will never be considered for actions. # # To use a normal action with template do following: # # @example # # class Hi # include Innate::Node # map '/' # # def self.action_missing(path) # return if path == '/not_found' # # No normal action, runs on bare metal # try_resolve('/not_found') # end # # def not_found # # Normal action # "Sorry, I do not exist" # end # end # # @param [String] path # # @api external # @see Innate::Response Node#try_resolve # @author manveru def action_missing(path) response.status = 404 response['Content-Type'] = 'text/plain' response.write("No action found at: %p" % path) response end # Let's get down to business, first check if we got any wishes regarding # the representation from the client, otherwise we will assume he wants # html. # # @param [String] path # # @return [nil, Action] # # @api external # @see Node::find_provide Node::update_method_arities Node::find_action # @author manveru def resolve(path) name, wish, engine = find_provide(path) node = (respond_to?(:ancestors) && respond_to?(:new)) ? self : self.class action = Action.create(:node => node, :wish => wish, :engine => engine, :path => path) if content_type = node.ancestral_trait["#{wish}_content_type"] action.options = {:content_type => content_type} end node.update_method_arities node.update_template_mappings node.fill_action(action, name) end # Resolve possible provides for the given +path+ from {provides}. # # @param [String] path # # @return [Array] with name, wish, engine # # @api internal # @see Node::provide Node::provides # @author manveru def find_provide(path) pr = provides name, wish, engine = path, 'html', pr['html_handler'] pr.find do |key, value| key = key[/(.*)_handler$/, 1] next unless path =~ /^(.+)\.#{key}$/i name, wish, engine = $1, key, value end return name, wish, engine end # Now we're talking {Action}, we try to find a matching template and # method, if we can't find either we go to the next pattern, otherwise we # answer with an {Action} with everything we know so far about the demands # of the client. # # @param [String] given_name the name extracted from REQUEST_PATH # @param [String] wish # # @return [Action, nil] # # @api internal # @see Node#find_method Node#find_view Node#find_layout Node#patterns_for # Action#wish Action#merge! # @author manveru def fill_action(action, given_name) needs_method = self.needs_method? wish = action.wish patterns_for(given_name) do |name, params| method = find_method(name, params) next unless method if needs_method next unless method if params.any? next unless (view = find_view(name, wish)) or method params.map!{|param| Rack::Utils.unescape(param) } action.merge!(:method => method, :view => view, :params => params, :layout => find_layout(name, wish)) end end # Try to find a suitable value for the layout. This may be a template or # the name of a method. # # If a layout could be found, an Array with two elements is returned, the # first indicating the kind of layout (:layout|:view|:method), the second # the found value, which may be a String or Symbol. # # @param [String] name # @param [String] wish # # @return [Array, nil] # # @api external # @see Node#to_layout Node#find_method Node#find_view # @author manveru # # @todo allow layouts combined of method and view... hairy :) def find_layout(name, wish) return unless layout = ancestral_trait[:layout] return unless layout = layout.call(name, wish) if layout.respond_to?(:call) if found = to_layout(layout, wish) [:layout, found] elsif found = find_view(layout, wish) [:view, found] elsif found = find_method(layout, []) [:method, found] end end # We check arity if possible, but will happily dispatch to any method that # has default parameters. # If you don't want your method to be responsible for messing up a request # you should think twice about the arguments you specify due to limitations # in Ruby. # # So if you want your method to take only one parameter which may have a # default value following will work fine: # # def index(foo = "bar", *rest) # # But following will respond to /arg1/arg2 and then fail due to ArgumentError: # # def index(foo = "bar") # # Here a glance at how parameters are expressed in arity: # # def index(a) # => 1 # def index(a = :a) # => -1 # def index(a, *r) # => -2 # def index(a = :a, *r) # => -1 # # def index(a, b) # => 2 # def index(a, b, *r) # => -3 # def index(a, b = :b) # => -2 # def index(a, b = :b, *r) # => -2 # # def index(a = :a, b = :b) # => -1 # def index(a = :a, b = :b, *r) # => -1 # # @param [String, Symbol] name # @param [Array] params # # @return [String, Symbol] # # @api external # @see Node#fill_action Node#find_layout # @author manveru # # @todo Once 1.9 is mainstream we can use Method#parameters to do accurate # prediction def find_method(name, params) return unless arity = method_arities[name] name if arity == params.size or arity < 0 end # Answer with a hash, keys are method names, values are method arities. # # Note that this will be executed once for every request, once we have # settled things down a bit more we can switch to update based on Reloader # hooks and update once on startup. # However, that may cause problems with dynamically created methods, so # let's play it safe for now. # # @example # # Hi.update_method_arities # # => {'index' => 0, 'foo' => -1, 'bar => 2} # # @api internal # @see Node#resolve # @return [Hash] mapping the name of the methods to their arity def update_method_arities @method_arities = {} exposed = ancestors & Helper::EXPOSE.to_a higher = ancestors.select{|a| a < Innate::Node } (higher + exposed).reverse_each do |ancestor| ancestor.public_instance_methods(false).each do |im| @method_arities[im.to_s] = ancestor.instance_method(im).arity end end @method_arities end # Try to find the best template for the given basename and wish and respect # aliased views. # # @param [#to_s] action_name # @param [#to_s] wish # # @return [String, nil] depending whether a template could be found # # @api external # @see Node#to_template Node#find_aliased_view # @author manveru def find_view(action_name, wish) aliased = find_aliased_view(action_name, wish) return aliased if aliased to_view(action_name, wish) end # Try to find the best template for the given basename and wish. # # This method is mostly here for symetry with {to_layout} and to allow you # overriding the template lookup easily. # # @param [#to_s] action_name # @param [#to_s] wish # # @return [String, nil] depending whether a template could be found # # @api external # @see {Node#find_view} {Node#to_template} {Node#root_mappings} # {Node#view_mappings} {Node#to_template} # @author manveru def to_view(action_name, wish) return unless files = view_templates[wish.to_s] files[action_name.to_s] end # Aliasing one view from another. # The aliases are inherited, and the optional third +node+ parameter # indicates the Node to take the view from. # # The argument order is identical with `alias` and `alias_method`, which # quite honestly confuses me, but at least we stay consistent. # # @example # class Foo # include Innate::Node # # # Use the 'foo' view when calling 'bar' # alias_view 'bar', 'foo' # # # Use the 'foo' view from FooBar node when calling 'bar' # alias_view 'bar', 'foo', FooBar # end # # Note that the parameters have been simplified in comparision with # Ramaze::Controller::template where the second parameter may be a # Controller or the name of the template. We take that now as an optional # third parameter. # # @param [#to_s] to view that should be replaced # @param [#to_s] from view to use or Node. # @param [#nil?, Node] node optionally obtain view from this Node # # @api external # @see Node::find_aliased_view # @author manveru def alias_view(to, from, node = nil) trait[:alias_view] || trait(:alias_view => {}) trait[:alias_view][to.to_s] = node ? [from.to_s, node] : from.to_s end # Resolve one level of aliasing for the given +action_name+ and +wish+. # # @param [String] action_name # @param [String] wish # # @return [nil, String] the absolute path to the aliased template or nil # # @api internal # @see Node::alias_view Node::find_view # @author manveru def find_aliased_view(action_name, wish) aliased_name, aliased_node = ancestral_trait[:alias_view][action_name] return unless aliased_name aliased_node ||= self aliased_node.update_view_mappings aliased_node.find_view(aliased_name, wish) end # Find the best matching action_name for the layout, if any. # # This is mostly an abstract method that you might find handy if you want # to do vastly different layout lookup. # # @param [String] action_name # @param [String] wish # # @return [nil, String] the absolute path to the template or nil # # @api external # @see {Node#to_template} {Node#root_mappings} {Node#layout_mappings} # @author manveru def to_layout(action_name, wish) return unless files = layout_templates[wish.to_s] files[action_name.to_s] end # Define a layout to use on this Node. # # A Node can only have one layout, although the template being chosen can # depend on {provides}. # # @param [String, #to_s] name basename without extension of the layout to use # @param [Proc, #call] block called on every dispatch if no name given # # @return [Proc, String] The assigned name or block # # @api external # @see Node#find_layout Node#layout_paths Node#to_layout Node#app_layout # @author manveru # # NOTE: # The behaviour of Node#layout changed significantly from Ramaze, instead # of multitudes of obscure options and methods like deny_layout we simply # take a block and use the returned value as the name for the layout. No # layout will be used if the block returns nil. def layout(name = nil, &block) if name and block # default name, but still check with block trait(:layout => lambda{|n, w| name if block.call(n, w) }) elsif name # name of a method or template trait(:layout => name.to_s) elsif block # call block every request with name and wish, returned value is name # of layout template or method trait(:layout => block) else # remove layout for this node trait(:layout => nil) end return ancestral_trait[:layout] end # The innate beauty in Nitro, Ramaze, and {Innate}. # # Will yield the name of the action and parameter for the action method in # order of significance. # # def foo__bar # responds to /foo/bar # def foo(bar) # also responds to /foo/bar # # But foo__bar takes precedence because it's more explicit. # # The last fallback will always be the index action with all of the path # turned into parameters. # # @example yielding possible combinations of action names and params # # class Foo; include Innate::Node; map '/'; end # # Foo.patterns_for('/'){|action, params| p action => params } # # => {"index"=>[]} # # Foo.patterns_for('/foo/bar'){|action, params| p action => params } # # => {"foo__bar"=>[]} # # => {"foo"=>["bar"]} # # => {"index"=>["foo", "bar"]} # # Foo.patterns_for('/foo/bar/baz'){|action, params| p action => params } # # => {"foo__bar__baz"=>[]} # # => {"foo__bar"=>["baz"]} # # => {"foo"=>["bar", "baz"]} # # => {"index"=>["foo", "bar", "baz"]} # # @param [String, #split] path usually the PATH_INFO # # @return [Action] it actually returns the first non-nil/false result of yield # # @api internal # @see Node#fill_action # @author manveru def patterns_for(path) atoms = path.split('/') atoms.delete('') result = nil atoms.size.downto(0) do |len| action_name = atoms[0...len].join('__') params = atoms[len..-1] action_name = 'index' if action_name.empty? and params != ['index'] return result if result = yield(action_name, params) end return nil end # Try to find a template at the given +path+ for +wish+. # # Since Innate supports multiple paths to templates the +path+ has to be an # Array that may be nested one level. # # @example Usage to find available templates # # # This assumes following files: # # view/foo.erb # # view/bar.erb # # view/bar.rss.erb # # view/bar.yaml.erb # # class FooBar # Innate.node('/') # end # # FooBar.to_template(['.', 'view', '/', 'foo'], 'html') # # => "./view/foo.erb" # FooBar.to_template(['.', 'view', '/', 'foo'], 'yaml') # # => "./view/foo.erb" # FooBar.to_template(['.', 'view', '/', 'foo'], 'rss') # # => "./view/foo.erb" # # FooBar.to_template(['.', 'view', '/', 'bar'], 'html') # # => "./view/bar.erb" # FooBar.to_template(['.', 'view', '/', 'bar'], 'yaml') # # => "./view/bar.yaml.erb" # FooBar.to_template(['.', 'view', '/', 'bar'], 'rss') # # => "./view/bar.rss.erb" # # @param [Array>, Array] path # array containing strings and nested (1 level) arrays containing strings # @param [String] wish # # @return [nil, String] relative path to the first template found # # @api external # @see Node#find_view Node#to_layout Node#find_aliased_view # @author manveru def to_template(path, wish) to_view(path, wish) || to_layout(path, wish) end def update_template_mappings update_view_mappings update_layout_mappings end def update_view_mappings paths = possible_paths_for(view_mappings) @view_templates = update_mapping_shared(paths) end def update_layout_mappings paths = possible_paths_for(layout_mappings) @layout_templates = update_mapping_shared(paths) end def update_mapping_shared(paths) mapping = {} paths.reject!{|path| !File.directory?(path) } provides.each do |wish_key, engine| wish = wish_key[/(.*)_handler/, 1] exts = possible_exts_for(wish) paths.reverse_each do |path| Find.find(path) do |file| exts.each do |ext| next unless file =~ ext case file.sub(path, '').gsub('/', '__') when /^(.*)\.(.*)\.(.*)$/ action_name, wish_ext, engine_ext = $1, $2, $3 when /^(.*)\.(.*)$/ action_name, wish_ext, engine_ext = $1, wish, $2 end mapping[wish_ext] ||= {} mapping[wish_ext][action_name] = file end end end end return mapping end # Answer with an array of possible paths in order of significance for # template lookup of the given +mappings+. # # @param [#map] An array two Arrays of inner and outer directories. # # @return [Array] # @see update_view_mappings update_layout_mappings update_template_mappings # @author manveru def possible_paths_for(mappings) root_mappings.map{|root| mappings.first.map{|inner| mappings.last.map{|outer| ::File.join(root, inner, outer, '/') }}}.flatten end # Answer with an array of possible extensions in order of significance for # the given +wish+. # # @param [#to_s] wish the extension (no leading '.') # # @return [Array] list of exts valid for this +wish+ # # @api internal # @see Node#to_template View::exts_of Node#provides # @author manveru def possible_exts_for(wish) pr = provides return unless engine = pr["#{wish}_handler"] View.exts_of(engine).map{|e_ext| [[*wish].map{|w_ext| /#{w_ext}\.#{e_ext}$/ }, /#{e_ext}$/] }.flatten end # For compatibility with new Kernel#binding behaviour in 1.9 # # @return [Binding] binding of the instance being rendered. # @see Action#binding # @author manveru def binding; super end # make sure this is an Array and a new instance so modification on the # wrapping array doesn't affect the original option. # [*arr].object_id == arr.object_id if arr is an Array # # @return [Array] list of root directories # # @api external # @author manveru def root_mappings [*options.roots].flatten end # Set the paths for lookup below the Innate.options.views paths. # # @param [String, Array] locations # Any number of strings indicating the paths where view templates may be # located, relative to Innate.options.roots/Innate.options.views # # @return [Node] self # # @api external # @see {Node#view_mappings} # @author manveru def map_views(*locations) trait :views => locations.flatten.uniq self end # Combine Innate.options.views with either the `ancestral_trait[:views]` # or the {Node#mapping} if the trait yields an empty Array. # # @return [Array, Array>] # # @api external # @see {Node#map_views} # @author manveru def view_mappings paths = [*ancestral_trait[:views]] paths = [mapping] if paths.empty? [[*options.views].flatten, [*paths].flatten] end # Set the paths for lookup below the Innate.options.layouts paths. # # @param [String, Array] locations # Any number of strings indicating the paths where layout templates may # be located, relative to Innate.options.roots/Innate.options.layouts # # @return [Node] self # # @api external # @see {Node#layout_mappings} # @author manveru def map_layouts(*locations) trait :layouts => locations.flatten.uniq self end # Combine Innate.options.layouts with either the `ancestral_trait[:layouts]` # or the {Node#mapping} if the trait yields an empty Array. # # @return [Array, Array>] # # @api external # @see {Node#map_layouts} # @author manveru def layout_mappings paths = [*ancestral_trait[:layouts]] paths = ['/'] if paths.empty? [[*options.layouts].flatten, [*paths].flatten] end def options Innate.options end # Whether an {Action} can be built without a method. # # The default is to allow actions that use only a view template, but you # might want to turn this on, for example if you have partials in your view # directories. # # @example turning needs_method? on # # class Foo # Innate.node('/') # end # # Foo.needs_method? # => true # Foo.trait :needs_method => false # Foo.needs_method? # => false # # @return [true, false] (false) # # @api external # @see {Node#fill_action} # @author manveru def needs_method? ancestral_trait[:needs_method] end # This will return true if the only provides set are by {Node::included}. # # The reasoning behind this is to determine whether the user has touched # the provides at all, in which case we will not override the provides in # subclasses. # # @return [true, false] (false) # # @api internal # @see {Node::included} # @author manveru def provide_set? ancestral_trait[:provide_set] end end module SingletonMethods # Convenience method to include the Node module into +node+ and map to a # +location+. # # @param [#to_s] location where the node is mapped to # @param [Node, nil] node the class that will be a node, will try to # look it up if not given # # @return [Class, Module] the node argument or detected class will be # returned # # @api external # @see SingletonMethods::node_from_backtrace # @author manveru def node(location, node = nil) node ||= node_from_backtrace(caller) node.__send__(:include, Node) node.map(location) node end # Cheap hack that works reasonably well to avoid passing self all the time # to Innate::node # We simply search the file that Innate::node was called in for the first # class definition above the line that Innate::node was called and look up # the constant. # If there are any problems with this (filenames containing ':' or # metaprogramming) just pass the node parameter explicitly to Innate::node # # @param [Array, #[]] backtrace # # @return [Class, Module] # # @api internal # @see SingletonMethods::node # @author manveru def node_from_backtrace(backtrace) filename, lineno = backtrace[0].split(':', 2) regexp = /^\s*class\s+(\S+)/ File.readlines(filename)[0..lineno.to_i].reverse.find{|l| l =~ regexp } const_get($1) end end end