from jinja2 import nodes from jinja2.ext import Extension class FragmentCacheExtension(Extension): # a set of names that trigger the extension. tags = set(['cache']) def __init__(self, environment): super(FragmentCacheExtension, self).__init__(environment) # add the defaults to the environment environment.extend( fragment_cache_prefix='', fragment_cache=None ) def parse(self, parser): # the first token is the token that started the tag. In our case # we only listen to ``'cache'`` so this will be a name token with # `cache` as value. We get the line number so that we can give # that line number to the nodes we create by hand. lineno = parser.stream.next().lineno # now we parse a single expression that is used as cache key. args = [parser.parse_expression()] # if there is a comma, the user provided a timeout. If not use # None as second parameter. if parser.stream.skip_if('comma'): args.append(parser.parse_expression()) else: args.append(nodes.Const(None)) # now we parse the body of the cache block up to `endcache` and # drop the needle (which would always be `endcache` in that case) body = parser.parse_statements(['name:endcache'], drop_needle=True) # now return a `CallBlock` node that calls our _cache_support # helper method on this extension. return nodes.CallBlock(self.call_method('_cache_support', args), [], [], body).set_lineno(lineno) def _cache_support(self, name, timeout, caller): """Helper callback.""" key = self.environment.fragment_cache_prefix + name # try to load the block from the cache # if there is no fragment in the cache, render it and store # it in the cache. rv = self.environment.fragment_cache.get(key) if rv is not None: return rv rv = caller() self.environment.fragment_cache.add(key, rv, timeout) return rv