Metadata-Version: 1.0
Name: hurry.resource
Version: 0.2
Summary: Flexible resources for web applications.
Home-page: UNKNOWN
Author: Martijn Faassen
Author-email: faassen@startifact.com
License: ZPL 2.1
Description: hurry.resource
        **************
        
        Introduction
        ============
        
        Resources are files that are used as resources in the display of a web
        page, such as CSS files, Javascript files and images. Resources
        packaged together in a directory to be published as such are called a
        resource *library*.
        
        When a resource is included in the ``head`` section of a HTML page, we
        call this a resource *inclusion*. An inclusion is of a particular
        resource in a particular library. There are two forms of this kind of
        inclusion in HTML: javascript is included using the ``script`` tag,
        and CSS (and KSS) are included using a ``link`` tag.
        
        Inclusions may depend on other inclusions. A javascript resource may
        for instance be built on top of another javascript resource. This
        means both of them should be loaded when the page displays.
        
        Page components may actually require a certain inclusion in order to
        be functional. A widget may for instance expect a particular
        Javascript library to loaded. We call this an *inclusion requirement*
        of the component.
        
        ``hurry.resource`` provides a simple API to specify resource
        libraries, inclusion and inclusion requirements.
        
        A resource library
        ==================
        
        We define a library ``foo``::
        
        >>> from hurry.resource import Library
        >>> foo = Library('foo')
        
        Inclusion
        =========
        
        We now create an inclusion of a particular resource in a library. This
        inclusion needs ``a.js`` from ``library`` and ``b.js`` as well::
        
        >>> from hurry.resource import ResourceInclusion
        >>> x1 = ResourceInclusion(foo, 'a.js')
        >>> x2 = ResourceInclusion(foo, 'b.css')
        
        Let's now make an inclusion ``y1`` that depends on ``x1`` and ``x2``::
        
        >>> y1 = ResourceInclusion(foo, 'c.js', depends=[x1, x2])
        
        Inclusion requirements
        ======================
        
        When rendering a web page we want to require the inclusion of a
        resource anywhere within the request handling process. We might for
        instance have a widget that takes care of rendering its own HTML but
        also needs a resource to be included in the page header.
        
        We have a special object that represents the needed inclusions during
        a certain request cycle::
        
        >>> from hurry.resource import NeededInclusions
        >>> needed = NeededInclusions()
        
        We state that a resource is needed by calling the ``needed`` method on
        this object::
        
        >>> needed.need(y1)
        
        Let's now see what resources are needed by this inclusion::
        
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        As you can see, ``css`` resources are sorted before ``js`` resources.
        
        A convenience spelling
        ======================
        
        When specifying that we want a resource inclusion to be rendered, we
        now need access to the current ``NeededInclusions`` object and the
        resource inclusion itself.
        
        Let's introduce a more convenient spelling of needs now::
        
        y1.need()
        
        We can require a resource without reference to the needed inclusions
        object directly as there is typically only a single set of needed
        inclusions that is generated during the rendering of a page.
        
        So let's try out this spelling to see it fail::
        
        >>> y1.need()
        Traceback (most recent call last):
        ...
        ComponentLookupError: (<InterfaceClass hurry.resource.interfaces.ICurrentNeededInclusions>, '')
        
        We get an error because we haven't configured the framework yet. The
        system says it cannot find the utility component
        ``ICurrentNeededInclusions``. This is the utility we need to define
        and register so we can tell the system how to obtain the current
        ``NeededInclusions`` object. Our task is therefore to provide a
        ``ICurrentNeededInclusions`` utility that can give us the current
        needed inclusions object.
        
        This needed inclusions should be maintained on an object that is going
        to be present throughout the request/response cycle that generates the
        web page that has the inclusions on them. The most obvious place where
        we can maintain the needed inclusions is the request object
        itself. Let's introduce such a simple request object (your mileage may
        vary in your own web framework)::
        
        >>> class Request(object):
        ...    def __init__(self):
        ...        self.needed = NeededInclusions()
        
        We now make a request, imitating what happens during a typical
        request/response cycle in a web framework::
        
        >>> request = Request()
        
        We should define a ``ICurrentNeededInclusion`` utility that knows how
        to get the current needed inclusions from that request::
        
        >>> def currentNeededInclusions():
        ...    return request.needed
        
        >>> c = currentNeededInclusions
        
        We need to register the utility to complete plugging into the
        ``INeededInclusions`` pluggability point of the ``hurry.resource``
        framework::
        
        >>> from zope import component
        >>> from hurry.resource.interfaces import ICurrentNeededInclusions
        >>> component.provideUtility(currentNeededInclusions,
        ...     ICurrentNeededInclusions)
        
        Let's check which resources our request needs currently::
        
        >>> c().inclusions()
        []
        
        Nothing yet. We now make ``y1`` needed using our simplified spelling::
        
        >>> y1.need()
        
        The resource inclusion will now indeed be needed::
        
        >>> c().inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        In this document we already have a handy reference to ``c`` to obtain
        the current needed inclusions, but that doesn't work in a larger
        codebase. How do we get this reference back, for instance to obtain those
        resources needed? Here is how you can obtain a utility by hand::
        
        >>> c_retrieved = component.getUtility(ICurrentNeededInclusions)
        >>> c_retrieved is c
        True
        
        Let's go back to the original spelling of ``needed.need(y)``
        now. While this is a bit more cumbersome to use in application code, it is
        easier to read for the purposes of this document.
        
        Multiple requirements
        =====================
        
        In this section, we will show what happens in various scenarios where
        we requiring multiple ``ResourceInclusion`` objects.
        
        We create a new set of needed inclusions::
        
        >>> needed = NeededInclusions()
        >>> needed.inclusions()
        []
        
        We need ``y1`` again::
        
        >>> needed.need(y1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        Needing the same inclusion twice won't make any difference for the
        resources needed. So when we need ``y1`` again, we see no difference
        in the needed resources::
        
        >>> needed.need(y1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        Needing ``x1`` or ``x2`` won't make any difference either, as ``y1``
        already required ``x1`` and ``x2``::
        
        >>> needed.need(x1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        >>> needed.need(x2)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        Let's do it in reverse, and require the ``x1`` and ``x2`` resources
        before we need those in ``y1``. Again this makes no difference::
        
        >>> needed = NeededInclusions()
        >>> needed.need(x1)
        >>> needed.need(x2)
        >>> needed.need(y1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        Let's try it with more complicated dependency structures now::
        
        >>> needed = NeededInclusions()
        >>> a1 = ResourceInclusion(foo, 'a1.js')
        >>> a2 = ResourceInclusion(foo, 'a2.js', depends=[a1])
        >>> a3 = ResourceInclusion(foo, 'a3.js', depends=[a2])
        >>> a4 = ResourceInclusion(foo, 'a4.js', depends=[a1])
        >>> needed.need(a3)
        >>> needed.inclusions()
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>]
        >>> needed.need(a4)
        >>> needed.inclusions()
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>,
        <ResourceInclusion 'a4.js' in library 'foo'>]
        
        If we reverse the requirements for ``a4`` and ``a3``, we get the following
        inclusion structure, based on the order in which need was expressed::
        
        >>> needed = NeededInclusions()
        >>> needed.need(a4)
        >>> needed.need(a3)
        >>> needed.inclusions()
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a4.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>]
        
        Let's look at the order in which resources are listed when we need
        something that ends up depending on everything::
        
        >>> a5 = ResourceInclusion(foo, 'a5.js', depends=[a4, a3])
        >>> needed = NeededInclusions()
        >>> needed.need(a5)
        >>> needed.inclusions()
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a4.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>,
        <ResourceInclusion 'a5.js' in library 'foo'>]
        
        When we introduce the extra inclusion of ``a3`` earlier on, we still
        get a valid list of inclusions given the dependency structure, even
        though the sorting order is different::
        
        >>> needed = NeededInclusions()
        >>> needed.need(a3)
        >>> needed.need(a5)
        >>> needed.inclusions()
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>,
        <ResourceInclusion 'a4.js' in library 'foo'>,
        <ResourceInclusion 'a5.js' in library 'foo'>]
        
        Modes
        =====
        
        A resource can optionally exist in several modes, such as for instance
        a minified and a debug version. Let's define a resource that exists in
        two modes (a main one and a debug alternative)::
        
        >>> k1 = ResourceInclusion(foo, 'k.js', debug='k-debug.js')
        
        Let's need this resource::
        
        >>> needed = NeededInclusions()
        >>> needed.need(k1)
        
        By default, we get ``k.js``::
        
        >>> needed.inclusions()
        [<ResourceInclusion 'k.js' in library 'foo'>]
        
        We can however also get the resource for mode ``debug`` and get
        ``k-debug.js``::
        
        >>> needed.mode('debug')
        >>> needed.inclusions()
        [<ResourceInclusion 'k-debug.js' in library 'foo'>]
        
        Modes can also be specified fully with a resource inclusion, which allows
        you to specify a different ``library`` argumnent::
        
        >>> k2 = ResourceInclusion(foo, 'k2.js',
        ...                        debug=ResourceInclusion(foo, 'k2-debug.js'))
        >>> needed = NeededInclusions()
        >>> needed.need(k2)
        
        By default we get ``k2.js``::
        
        >>> needed.inclusions()
        [<ResourceInclusion 'k2.js' in library 'foo'>]
        
        We can however also get the resource for mode ``debug`` and get
        ``a2-debug.js``::
        
        >>> needed.mode('debug')
        >>> needed.inclusions()
        [<ResourceInclusion 'k2-debug.js' in library 'foo'>]
        
        Note that modes are assumed to be identical in dependency structure;
        they functionally should do the same.
        
        Mode convenience
        ================
        
        Like for ``need``, there is also a convenience spelling for
        ``mode``. It uses ``ICurrentNeededInclusions``, which we've already
        set up to look at the ``request.needed`` variable. Let's set up
        a new request::
        
        >>> request = Request()
        
        Let's set up a resource and need it::
        
        >>> l1 = ResourceInclusion(foo, 'l1.js', debug='l1-debug.js')
        >>> l1.need()
        
        Let's look at the resources needed by default::
        
        >>> c = component.getUtility(ICurrentNeededInclusions)
        >>> c().inclusions()
        [<ResourceInclusion 'l1.js' in library 'foo'>]
        
        Let's now change the mode using the convenience
        ``hurry.resource.mode`` spelling::
        
        >>> from hurry.resource import mode
        >>> mode('debug')
        
        When we request the resources now, we get them in the ``debug`` mode::
        
        >>> c().inclusions()
        [<ResourceInclusion 'l1-debug.js' in library 'foo'>]
        
        "Rollups"
        =========
        
        For performance reasons it's often useful to consolidate multiple
        resources into a single, larger resource, a so-called
        "rollup". Multiple javascript files could for instance be offered in a
        single, larger one. These consolidations can be specified as a
        resource::
        
        >>> b1 = ResourceInclusion(foo, 'b1.js')
        >>> b2 = ResourceInclusion(foo, 'b2.js')
        >>> giant = ResourceInclusion(foo, 'giant.js', supersedes=[b1, b2])
        
        If we find multiple resources that are also part of a consolidation, the
        system automatically collapses them::
        
        >>> needed = NeededInclusions()
        >>> needed.need(b1)
        >>> needed.need(b2)
        
        >>> needed.inclusions()
        [<ResourceInclusion 'giant.js' in library 'foo'>]
        
        The system will by default only consolidate exactly. That is, if only a single
        resource out of two is present, the consolidation will not be triggered::
        
        >>> needed = NeededInclusions()
        >>> needed.need(b1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b1.js' in library 'foo'>]
        
        Let's look at this with a larger consolidation of 3 resources::
        
        >>> c1 = ResourceInclusion(foo, 'c1.css')
        >>> c2 = ResourceInclusion(foo, 'c2.css')
        >>> c3 = ResourceInclusion(foo, 'c3.css')
        >>> giantc = ResourceInclusion(foo, 'giantc.css', supersedes=[c1, c2, c3])
        
        It will not roll up one resource::
        
        >>> needed = NeededInclusions()
        >>> needed.need(c1)
        >>> needed.inclusions()
        [<ResourceInclusion 'c1.css' in library 'foo'>]
        
        Neither will it roll up two resources::
        
        >>> needed = NeededInclusions()
        >>> needed.need(c1)
        >>> needed.need(c2)
        >>> needed.inclusions()
        [<ResourceInclusion 'c1.css' in library 'foo'>,
        <ResourceInclusion 'c2.css' in library 'foo'>]
        
        It will however roll up three resources::
        
        >>> needed = NeededInclusions()
        >>> needed.need(c1)
        >>> needed.need(c2)
        >>> needed.need(c3)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantc.css' in library 'foo'>]
        
        The default behavior is to play it safe: we cannot be certain that we
        do not include too much if we were to include ``giantc.css`` if only
        c1 and c2 are required. This is especially important with CSS
        libraries: if only ``c1.css`` and ``c2.css`` are to be included in a
        page, including ``giantc.css`` is not appropriate as that also
        includes the content of ``c3.css``, which might override and extend
        the behavior of ``c1.css`` and ``c2.css``.
        
        The situation is sometimes different with Javascript libraries, which
        can be written in such a way that a larger rollup will just include
        more functions, but will not actually affect page behavior. If we have
        a rollup resource that we don't mind kicking in even if part of the
        requirements have been met, we can indicate this::
        
        >>> d1 = ResourceInclusion(foo, 'd1.js')
        >>> d2 = ResourceInclusion(foo, 'd2.js')
        >>> d3 = ResourceInclusion(foo, 'd3.js')
        >>> giantd = ResourceInclusion(foo, 'giantd.js', supersedes=[d1, d2, d3],
        ...            eager_superseder=True)
        
        We will see ``giantd.js`` kick in even if we only require ``d1`` and
        ``d2``::
        
        >>> needed = NeededInclusions()
        >>> needed.need(d1)
        >>> needed.need(d2)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantd.js' in library 'foo'>]
        
        In fact even if we only need a single resource the eager superseder will
        show up instead::
        
        >>> needed = NeededInclusions()
        >>> needed.need(d1)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantd.js' in library 'foo'>]
        
        If there are two potential eager superseders, the biggest one will
        be taken::
        
        >>> d4 = ResourceInclusion(foo, 'd4.js')
        >>> giantd_bigger = ResourceInclusion(foo, 'giantd-bigger.js',
        ...   supersedes=[d1, d2, d3, d4], eager_superseder=True)
        >>> needed = NeededInclusions()
        >>> needed.need(d1)
        >>> needed.need(d2)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantd-bigger.js' in library 'foo'>]
        
        If there is a potential non-eager superseder and an eager one, the eager one
        will be taken::
        
        >>> giantd_noneager = ResourceInclusion(foo, 'giantd-noneager.js',
        ...   supersedes=[d1, d2, d3, d4])
        >>> needed = NeededInclusions()
        >>> needed.need(d1)
        >>> needed.need(d2)
        >>> needed.need(d3)
        >>> needed.need(d4)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantd-bigger.js' in library 'foo'>]
        
        A resource can be part of multiple rollups. In this case the rollup
        that rolls up the most resources is used. So, if there are two
        potential non-eager superseders, the one that rolls up the most
        resources will be used::
        
        >>> e1 = ResourceInclusion(foo, 'e1.js')
        >>> e2 = ResourceInclusion(foo, 'e2.js')
        >>> e3 = ResourceInclusion(foo, 'e3.js')
        >>> giante_two = ResourceInclusion(foo, 'giante-two.js',
        ...   supersedes=[e1, e2])
        >>> giante_three = ResourceInclusion(foo, 'giante-three.js',
        ...   supersedes=[e1, e2, e3])
        >>> needed = NeededInclusions()
        >>> needed.need(e1)
        >>> needed.need(e2)
        >>> needed.need(e3)
        >>> needed.inclusions()
        [<ResourceInclusion 'giante-three.js' in library 'foo'>]
        
        Consolidation also works with modes::
        
        >>> f1 = ResourceInclusion(foo, 'f1.js', debug='f1-debug.js')
        >>> f2 = ResourceInclusion(foo, 'f2.js', debug='f2-debug.js')
        >>> giantf = ResourceInclusion(foo, 'giantf.js', supersedes=[f1, f2],
        ...                            debug='giantf-debug.js')
        
        >>> needed = NeededInclusions()
        >>> needed.need(f1)
        >>> needed.need(f2)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantf.js' in library 'foo'>]
        >>> needed.mode('debug')
        >>> needed.inclusions()
        [<ResourceInclusion 'giantf-debug.js' in library 'foo'>]
        
        What if the rolled up resources have no mode but the superseding resource
        does? In this case the superseding resource's mode has no meaning, so
        modes have no effect::
        
        >>> g1 = ResourceInclusion(foo, 'g1.js')
        >>> g2 = ResourceInclusion(foo, 'g2.js')
        >>> giantg = ResourceInclusion(foo, 'giantg.js', supersedes=[g1, g2],
        ...                            debug='giantg-debug.js')
        >>> needed = NeededInclusions()
        >>> needed.need(g1)
        >>> needed.need(g2)
        >>> needed.inclusions()
        [<ResourceInclusion 'giantg.js' in library 'foo'>]
        >>> needed.mode('debug')
        >>> needed.inclusions()
        [<ResourceInclusion 'giantg.js' in library 'foo'>]
        
        What if the rolled up resources have a mode but the superseding resource
        does not? Let's look at that scenario::
        
        >>> h1 = ResourceInclusion(foo, 'h1.js', debug='h1-debug.js')
        >>> h2 = ResourceInclusion(foo, 'h2.js', debug='h2-debug.js')
        >>> gianth = ResourceInclusion(foo, 'gianth.js', supersedes=[h1, h2])
        >>> needed = NeededInclusions()
        >>> needed.need(h1)
        >>> needed.need(h2)
        >>> needed.inclusions()
        [<ResourceInclusion 'gianth.js' in library 'foo'>]
        
        Since there is no superseder for the debug mode, we will get the two
        resources, not rolled up::
        
        >>> needed.mode('debug')
        >>> needed.inclusions()
        [<ResourceInclusion 'h1-debug.js' in library 'foo'>,
        <ResourceInclusion 'h2-debug.js' in library 'foo'>]
        
        Rendering resources
        ===================
        
        Let's define some needed resource inclusions::
        
        >>> needed = NeededInclusions()
        >>> needed.need(y1)
        >>> needed.inclusions()
        [<ResourceInclusion 'b.css' in library 'foo'>,
        <ResourceInclusion 'a.js' in library 'foo'>,
        <ResourceInclusion 'c.js' in library 'foo'>]
        
        Now let's try to render these inclusions::
        
        >>> print needed.render()
        Traceback (most recent call last):
        ...
        TypeError: ('Could not adapt', <hurry.resource.core.Library object at ...>, <InterfaceClass hurry.resource.interfaces.ILibraryUrl>)
        
        That didn't work. In order to render an inclusion, we need to tell
        ``hurry.resource`` how to get the URL for a resource inclusion. We
        already know the relative URL, so we need to specify how to get a URL
        to the library itself that the relative URL can be added to.
        
        For the purposes of this document, we define a function that renders
        resources as some static URL on localhost::
        
        >>> def get_library_url(library):
        ...    return 'http://localhost/static/%s' % library.name
        
        We should now register this function as a``ILibrarUrl`` adapter for
        ``Library`` so the system can find it::
        
        >>> from hurry.resource.interfaces import ILibraryUrl
        >>> component.provideAdapter(
        ...     factory=get_library_url,
        ...     adapts=(Library,),
        ...     provides=ILibraryUrl)
        
        Rendering the inclusions now will will result in the HTML fragments we
        need to include on the top of our page (just under the ``<head>`` tag
        for instance)::
        
        >>> print needed.render()
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        
        Top and bottom fragments
        ========================
        
        It's also possible to render the resource inclusions into two
        fragments, some to be included just after the ``<head>`` tag, but some
        to be included at the very bottom of the HTML page, just before the
        ``</body>`` tag. This is useful as it can `speed up page load times`_.
        
        .. _`speed up page load times`: http://developer.yahoo.com/performance/rules.html
        
        Let's look at the same resources, now rendered separately into ``top``
        and ``bottom`` fragments::
        
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        >>> print bottom
        <BLANKLINE>
        
        There is effectively no change; all the resources are still on the
        top. We can enable bottom rendering by calling the ``bottom`` method before
        we render::
        
        >>> needed.bottom()
        
        Since none of the resources indicated it was safe to render them at
        the bottom, even this explicit call will not result in any changes::
        
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        >>> print bottom
        <BLANKLINE>
        
        ``bottom(force=True)`` will however force all javascript inclusions to be
        rendered in the bottom fragment::
        
        >>> needed.bottom(force=True)
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        >>> print bottom
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        
        Let's now introduce a javascript resource that says it is safe to be
        included on the bottom::
        
        >>> y2 = ResourceInclusion(foo, 'y2.js', bottom=True)
        
        When we start over without ``bottom`` enabled, we get this resource
        show up in the top fragment after all::
        
        >>> needed = NeededInclusions()
        >>> needed.need(y1)
        >>> needed.need(y2)
        
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/y2.js"></script>
        >>> print bottom
        <BLANKLINE>
        
        We now tell the system that it's safe to render inclusions at the bottom::
        
        >>> needed.bottom()
        
        We now see the resource ``y2`` show up in the bottom fragment::
        
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        >>> print bottom
        <script type="text/javascript" src="http://localhost/static/foo/y2.js"></script>
        
        When we force bottom rendering of Javascript, there is no effect of
        making a resource bottom-safe: all ``.js`` resources will be rendered
        at the bottom anyway::
        
        >>> needed.bottom(force=True)
        >>> top, bottom = needed.render_topbottom()
        >>> print top
        <link rel="stylesheet" type="text/css" href="http://localhost/static/foo/b.css" />
        >>> print bottom
        <script type="text/javascript" src="http://localhost/static/foo/a.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/c.js"></script>
        <script type="text/javascript" src="http://localhost/static/foo/y2.js"></script>
        
        Note that if ``bottom`` is enabled, it makes no sense to have a
        resource inclusion ``b`` that depends on a resource inclusion ``a``
        where ``a`` is bottom-safe and ``b``, that depends on it, is not
        bottom-safe. In this case ``a`` would be included on the page at the
        bottom *after* ``b`` in the ``<head>`` section, and this might lead to
        ordering problems. Likewise a rollup resource shouldn't combine
        resources where some are bottom-safe and others aren't.
        
        The system makes no sanity checks for misconfiguration of
        bottom-safety however; it could be the user simply never enables
        ``bottom`` mode at all and doesn't care about this issue. In this case
        the user will want to write Javascript code that isn't safe to be
        included at the bottom of the page and still be able to depend on
        Javascript code that is.
        
        bottom convenience
        ==================
        
        Like for ``need`` and ``mode``, there is also a convenience spelling for
        ``bottom``::
        
        >>> request = Request()
        >>> l1 = ResourceInclusion(foo, 'l1.js', bottom=True)
        >>> l1.need()
        
        Let's look at the resources needed by default::
        
        >>> c = component.getUtility(ICurrentNeededInclusions)
        >>> top, bottom = c().render_topbottom()
        >>> print top
        <script type="text/javascript" src="http://localhost/static/foo/l1.js"></script>
        >>> print bottom
        <BLANKLINE>
        
        Let's now change the bottom mode using the convenience
        ``hurry.resource.bottom`` spelling::
        
        >>> from hurry.resource import bottom
        >>> bottom()
        
        Re-rendering will show it's honoring the bottom setting::
        
        >>> top, bottom = c().render_topbottom()
        >>> print top
        <BLANKLINE>
        >>> print bottom
        <script type="text/javascript" src="http://localhost/static/foo/l1.js"></script>
        
        Generating resource code
        ========================
        
        Sometimes it is useful to generate code that expresses a complex
        resource dependency structure. One example of that is in
        ``hurry.yui``. We can the ``generate_cod`` function to render resource
        inclusions::
        
        >>> i1 = ResourceInclusion(foo, 'i1.js')
        >>> i2 = ResourceInclusion(foo, 'i2.js', depends=[i1])
        >>> i3 = ResourceInclusion(foo, 'i3.js', depends=[i2])
        >>> i4 = ResourceInclusion(foo, 'i4.js', depends=[i1])
        >>> i5 = ResourceInclusion(foo, 'i5.js', depends=[i4, i3])
        
        >>> from hurry.resource import generate_code
        >>> print generate_code(i1=i1, i2=i2, i3=i3, i4=i4, i5=i5)
        from hurry.resource import Library, ResourceInclusion
        <BLANKLINE>
        foo = Library('foo')
        <BLANKLINE>
        i1 = ResourceInclusion(foo, 'i1.js')
        i2 = ResourceInclusion(foo, 'i2.js', depends=[i1])
        i3 = ResourceInclusion(foo, 'i3.js', depends=[i2])
        i4 = ResourceInclusion(foo, 'i4.js', depends=[i1])
        i5 = ResourceInclusion(foo, 'i5.js', depends=[i4, i3])
        
        Let's look at a more complicated example with modes and superseders::
        
        >>> j1 = ResourceInclusion(foo, 'j1.js', debug='j1-debug.js')
        >>> j2 = ResourceInclusion(foo, 'j2.js', debug='j2-debug.js')
        >>> giantj = ResourceInclusion(foo, 'giantj.js', supersedes=[j1, j2],
        ...                            debug='giantj-debug.js')
        
        >>> print generate_code(j1=j1, j2=j2, giantj=giantj)
        from hurry.resource import Library, ResourceInclusion
        <BLANKLINE>
        foo = Library('foo')
        <BLANKLINE>
        j1 = ResourceInclusion(foo, 'j1.js', debug='j1-debug.js')
        j2 = ResourceInclusion(foo, 'j2.js', debug='j2-debug.js')
        giantj = ResourceInclusion(foo, 'giantj.js', supersedes=[j1, j2], debug='giantj-debug.js')
        
        We can control the name the inclusion will get in the source code by
        using keyword parameters::
        
        >>> print generate_code(hoi=i1)
        from hurry.resource import Library, ResourceInclusion
        <BLANKLINE>
        foo = Library('foo')
        <BLANKLINE>
        hoi = ResourceInclusion(foo, 'i1.js')
        
        >>> print generate_code(hoi=i1, i2=i2)
        from hurry.resource import Library, ResourceInclusion
        <BLANKLINE>
        foo = Library('foo')
        <BLANKLINE>
        hoi = ResourceInclusion(foo, 'i1.js')
        i2 = ResourceInclusion(foo, 'i2.js', depends=[hoi])
        
        Sorting inclusions by dependency
        ================================
        
        This is more a footnote than something that you should be concerned
        about. In case assumptions in this library are wrong or there are
        other reasons you would like to sort resource inclusions that come in
        some arbitrary order into one where the dependency relation makes
        sense, you can use ``sort_inclusions_topological``::
        
        >>> from hurry.resource import sort_inclusions_topological
        
        Let's make a list of resource inclusions not sorted by dependency::
        
        >>> i = [a5, a3, a1, a2, a4]
        >>> sort_inclusions_topological(i)
        [<ResourceInclusion 'a1.js' in library 'foo'>,
        <ResourceInclusion 'a4.js' in library 'foo'>,
        <ResourceInclusion 'a2.js' in library 'foo'>,
        <ResourceInclusion 'a3.js' in library 'foo'>,
        <ResourceInclusion 'a5.js' in library 'foo'>]
        
        CHANGES
        *******
        
        0.2 (2008-10-13)
        ================
        
        * Changed the API to set the mode. Instead of passing it to ``render``
        and ``inclusions``, the requested mode can be set with the ``mode``
        method on ``INeededInclusions``. For convenience there is a ``mode``
        function as well that can be imported directly from
        ``hurry.resource`` that sets the mode for the current needed
        inclusions.
        
        * Added support for rendering resources into two fragments, one to
        be included at the top of the HTML page in the ``<head>`` section,
        the other to be included just before the ``</body>`` section. In
        some circumstances doing this can `speed up page load time`_.
        
        .. _`speed up page load time`: http://developer.yahoo.net/blog/archives/2007/07/high_performanc_5.html
        
        0.1 (2008-10-07)
        ================
        
        * Initial public release.
        
        Download
        ********
        
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