Inheritance¶
Note
Most of the inheritance examples here take advantage of a feature that’s new in Mako as of version 0.4.1 called the “block”. This tag is very similar to the “def” tag but is more streamlined for usage with inheritance. Note that all of the examples here which use blocks can also use defs instead. Contrasting usages will be illustrated.
Using template inheritance, two or more templates can organize
themselves into an inheritance chain, where content and
functions from all involved templates can be intermixed. The
general paradigm of template inheritance is this: if a template
A
inherits from template B
, then template A
agrees
to send the executional control to template B
at runtime
(A
is called the inheriting template). Template B
,
the inherited template, then makes decisions as to what
resources from A
shall be executed.
In practice, it looks like this. Here’s a hypothetical inheriting
template, index.html
:
## index.html
<%inherit file="base.html"/>
<%block name="header">
this is some header content
</%block>
this is the body content.
And base.html
, the inherited template:
## base.html
<html>
<body>
<div class="header">
<%block name="header"/>
</div>
${self.body()}
<div class="footer">
<%block name="footer">
this is the footer
</%block>
</div>
</body>
</html>
Here is a breakdown of the execution:
When
index.html
is rendered, control immediately passes tobase.html
.base.html
then renders the top part of an HTML document, then invokes the<%block name="header">
block. It invokes the underlyingheader()
function off of a built-in namespace calledself
(this namespace was first introduced in the Namespaces chapter in self). Sinceindex.html
is the topmost template and also defines a block calledheader
, it’s thisheader
block that ultimately gets executed – instead of the one that’s present inbase.html
.Control comes back to
base.html
. Some more HTML is rendered.base.html
executesself.body()
. Thebody()
function on all template-based namespaces refers to the main body of the template, therefore the main body ofindex.html
is rendered.When
<%block name="header">
is encountered inindex.html
during theself.body()
call, a conditional is checked – does the current inherited template, i.e.base.html
, also define this block? If yes, the<%block>
is not executed here – the inheritance mechanism knows that the parent template is responsible for rendering this block (and in fact it already has). In other words a block only renders in its basemost scope.Control comes back to
base.html
. More HTML is rendered, then the<%block name="footer">
expression is invoked.The
footer
block is only defined inbase.html
, so being the topmost definition offooter
, it’s the one that executes. Ifindex.html
also specifiedfooter
, then its version would override that of the base.base.html
finishes up rendering its HTML and the template is complete, producing:<html> <body> <div class="header"> this is some header content </div> this is the body content. <div class="footer"> this is the footer </div> </body> </html>
…and that is template inheritance in a nutshell. The main idea
is that the methods that you call upon self
always
correspond to the topmost definition of that method. Very much
the way self
works in a Python class, even though Mako is
not actually using Python class inheritance to implement this
functionality. (Mako doesn’t take the “inheritance” metaphor too
seriously; while useful to setup some commonly recognized
semantics, a textual template is not very much like an
object-oriented class construct in practice).
Nesting Blocks¶
The named blocks defined in an inherited template can also be nested within
other blocks. The name given to each block is globally accessible via any inheriting
template. We can add a new block title
to our header
block:
## base.html
<html>
<body>
<div class="header">
<%block name="header">
<h2>
<%block name="title"/>
</h2>
</%block>
</div>
${self.body()}
<div class="footer">
<%block name="footer">
this is the footer
</%block>
</div>
</body>
</html>
The inheriting template can name either or both of header
and title
, separately
or nested themselves:
## index.html
<%inherit file="base.html"/>
<%block name="header">
this is some header content
${parent.header()}
</%block>
<%block name="title">
this is the title
</%block>
this is the body content.
Note when we overrode header
, we added an extra call ${parent.header()}
in order to invoke
the parent’s header
block in addition to our own. That’s described in more detail below,
in Using the parent Namespace to Augment Defs.
Rendering a Named Block Multiple Times¶
Recall from the section Using Blocks that a named block is just like a <%def>
,
with some different usage rules. We can call one of our named sections distinctly, for example
a section that is used more than once, such as the title of a page:
<html>
<head>
<title>${self.title()}</title>
</head>
<body>
<%block name="header">
<h2><%block name="title"/></h2>
</%block>
${self.body()}
</body>
</html>
Where above an inheriting template can define <%block name="title">
just once, and it will be
used in the base template both in the <title>
section as well as the <h2>
.
But what about Defs?¶
The previous example used the <%block>
tag to produce areas of content
to be overridden. Before Mako 0.4.1, there wasn’t any such tag – instead
there was only the <%def>
tag. As it turns out, named blocks and defs are
largely interchangeable. The def simply doesn’t call itself automatically,
and has more open-ended naming and scoping rules that are more flexible and similar
to Python itself, but less suited towards layout. The first example from
this chapter using defs would look like:
## index.html
<%inherit file="base.html"/>
<%def name="header()">
this is some header content
</%def>
this is the body content.
And base.html
, the inherited template:
## base.html
<html>
<body>
<div class="header">
${self.header()}
</div>
${self.body()}
<div class="footer">
${self.footer()}
</div>
</body>
</html>
<%def name="header()"/>
<%def name="footer()">
this is the footer
</%def>
Above, we illustrate that defs differ from blocks in that their definition and invocation are defined in two separate places, instead of at once. You can almost do exactly what a block does if you put the two together:
<div class="header">
<%def name="header()"></%def>${self.header()}
</div>
The <%block>
is obviously more streamlined than the <%def>
for this kind
of usage. In addition,
the above “inline” approach with <%def>
does not work with nesting:
<head>
<%def name="header()">
<title>
## this won't work !
<%def name="title()">default title</%def>${self.title()}
</title>
</%def>${self.header()}
</head>
Where above, the title()
def, because it’s a def within a def, is not part of the
template’s exported namespace and will not be part of self
. If the inherited template
did define its own title
def at the top level, it would be called, but the “default title”
above is not present at all on self
no matter what. For this to work as expected
you’d instead need to say:
<head>
<%def name="header()">
<title>
${self.title()}
</title>
</%def>${self.header()}
<%def name="title()"/>
</head>
That is, title
is defined outside of any other defs so that it is in the self
namespace.
It works, but the definition needs to be potentially far away from the point of render.
A named block is always placed in the self
namespace, regardless of nesting,
so this restriction is lifted:
## base.html
<head>
<%block name="header">
<title>
<%block name="title"/>
</title>
</%block>
</head>
The above template defines title
inside of header
, and an inheriting template can define
one or both in any configuration, nested inside each other or not, in order for them to be used:
## index.html
<%inherit file="base.html"/>
<%block name="title">
the title
</%block>
<%block name="header">
the header
</%block>
So while the <%block>
tag lifts the restriction of nested blocks not being available externally,
in order to achieve this it adds the restriction that all block names in a single template need
to be globally unique within the template, and additionally that a <%block>
can’t be defined
inside of a <%def>
. It’s a more restricted tag suited towards a more specific use case than <%def>
.
Using the next
Namespace to Produce Content Wrapping¶
Sometimes you have an inheritance chain that spans more than two
templates. Or maybe you don’t, but you’d like to build your
system such that extra inherited templates can be inserted in
the middle of a chain where they would be smoothly integrated.
If each template wants to define its layout just within its main
body, you can’t just call self.body()
to get at the
inheriting template’s body, since that is only the topmost body.
To get at the body of the next template, you call upon the
namespace next
, which is the namespace of the template
immediately following the current template.
Lets change the line in base.html
which calls upon
self.body()
to instead call upon next.body()
:
## base.html
<html>
<body>
<div class="header">
<%block name="header"/>
</div>
${next.body()}
<div class="footer">
<%block name="footer">
this is the footer
</%block>
</div>
</body>
</html>
Lets also add an intermediate template called layout.html
,
which inherits from base.html
:
## layout.html
<%inherit file="base.html"/>
<ul>
<%block name="toolbar">
<li>selection 1</li>
<li>selection 2</li>
<li>selection 3</li>
</%block>
</ul>
<div class="mainlayout">
${next.body()}
</div>
And finally change index.html
to inherit from
layout.html
instead:
## index.html
<%inherit file="layout.html"/>
## .. rest of template
In this setup, each call to next.body()
will render the body
of the next template in the inheritance chain (which can be
written as base.html -> layout.html -> index.html
). Control
is still first passed to the bottommost template base.html
,
and self
still references the topmost definition of any
particular def.
The output we get would be:
<html>
<body>
<div class="header">
this is some header content
</div>
<ul>
<li>selection 1</li>
<li>selection 2</li>
<li>selection 3</li>
</ul>
<div class="mainlayout">
this is the body content.
</div>
<div class="footer">
this is the footer
</div>
</body>
</html>
So above, we have the <html>
, <body>
and
header
/footer
layout of base.html
, we have the
<ul>
and mainlayout
section of layout.html
, and the
main body of index.html
as well as its overridden header
def. The layout.html
template is inserted into the middle of
the chain without base.html
having to change anything.
Without the next
namespace, only the main body of
index.html
could be used; there would be no way to call
layout.html
’s body content.
Using the parent
Namespace to Augment Defs¶
Lets now look at the other inheritance-specific namespace, the
opposite of next
called parent
. parent
is the
namespace of the template immediately preceding the current
template. What’s useful about this namespace is that
defs or blocks can call upon their overridden versions.
This is not as hard as it sounds and
is very much like using the super
keyword in Python. Lets
modify index.html
to augment the list of selections provided
by the toolbar
function in layout.html
:
## index.html
<%inherit file="layout.html"/>
<%block name="header">
this is some header content
</%block>
<%block name="toolbar">
## call the parent's toolbar first
${parent.toolbar()}
<li>selection 4</li>
<li>selection 5</li>
</%block>
this is the body content.
Above, we implemented a toolbar()
function, which is meant
to override the definition of toolbar
within the inherited
template layout.html
. However, since we want the content
from that of layout.html
as well, we call it via the
parent
namespace whenever we want it’s content, in this case
before we add our own selections. So the output for the whole
thing is now:
<html>
<body>
<div class="header">
this is some header content
</div>
<ul>
<li>selection 1</li>
<li>selection 2</li>
<li>selection 3</li>
<li>selection 4</li>
<li>selection 5</li>
</ul>
<div class="mainlayout">
this is the body content.
</div>
<div class="footer">
this is the footer
</div>
</body>
</html>
and you’re now a template inheritance ninja!
Using <%include>
with Template Inheritance¶
A common source of confusion is the behavior of the <%include>
tag,
often in conjunction with its interaction within template inheritance.
Key to understanding the <%include>
tag is that it is a dynamic, e.g.
runtime, include, and not a static include. The <%include>
is only processed
as the template renders, and not at inheritance setup time. When encountered,
the referenced template is run fully as an entirely separate template with no
linkage to any current inheritance structure.
If the tag were on the other hand a static include, this would allow source within the included template to interact within the same inheritance context as the calling template, but currently Mako has no static include facility.
In practice, this means that <%block>
elements defined in an <%include>
file will not interact with corresponding <%block>
elements in the calling
template.
A common mistake is along these lines:
## partials.mako
<%block name="header">
Global Header
</%block>
## parent.mako
<%include file="partials.mako" />
## child.mako
<%inherit file="parent.mako" />
<%block name="header">
Custom Header
</%block>
Above, one might expect that the "header"
block declared in child.mako
might be invoked, as a result of it overriding the same block present in
parent.mako
via the include for partials.mako
. But this is not the case.
Instead, parent.mako
will invoke partials.mako
, which then invokes
"header"
in partials.mako
, and then is finished rendering. Nothing
from child.mako
will render; there is no interaction between the "header"
block in child.mako
and the "header"
block in partials.mako
.
Instead, parent.mako
must explicitly state the inheritance structure.
In order to call upon specific elements of partials.mako
, we will call upon
it as a namespace:
## partials.mako
<%block name="header">
Global Header
</%block>
## parent.mako
<%namespace name="partials" file="partials.mako"/>
<%block name="header">
${partials.header()}
</%block>
## child.mako
<%inherit file="parent.mako" />
<%block name="header">
Custom Header
</%block>
Where above, parent.mako
states the inheritance structure that child.mako
is to participate within. partials.mako
only defines defs/blocks that can be
used on a per-name basis.
Another scenario is below, which results in both "SectionA"
blocks being rendered for the child.mako
document:
## base.mako
${self.body()}
<%block name="SectionA">
base.mako
</%block>
## parent.mako
<%inherit file="base.mako" />
<%include file="child.mako" />
## child.mako
<%block name="SectionA">
child.mako
</%block>
The resolution is similar; instead of using <%include>
, we call upon the blocks
of child.mako
using a namespace:
## parent.mako
<%inherit file="base.mako" />
<%namespace name="child" file="child.mako" />
<%block name="SectionA">
${child.SectionA()}
</%block>
Inheritable Attributes¶
The Namespace.attr
accessor of the Namespace
object
allows access to module level variables declared in a template. By accessing
self.attr
, you can access regular attributes from the
inheritance chain as declared in <%! %>
sections. Such as:
<%!
class_ = "grey"
%>
<div class="${self.attr.class_}">
${self.body()}
</div>
If an inheriting template overrides class_
to be
"white"
, as in:
<%!
class_ = "white"
%>
<%inherit file="parent.html"/>
This is the body
you’ll get output like:
<div class="white">
This is the body
</div>
See also
Version One - Use Namespace.attr - a more sophisticated example using
Namespace.attr
.