Making Template Tag Parsing Easier¶

In my previous post about template tags, I discussed the two steps required for template tags. Today I will be focusing on Parsing of template tags, and how they may be improved in the framework of Class Based Template Tags from yesterday. I have talked about problems with template parsing in the past as well. This post will offer 2 different approaches to making parsing better.

I would like to thank Cody and Chris who were involved in a slightly drunken conversation that led to these tags. Chris actually wrote the other neat parsing implementation that I will talk about today. Cody wrote the underpinnings of that implementation as well.

Note: Both of these approaches are more Proof of Concepts, and the code probably shows. Please don’t knock implementations, and just think about the ideas housed within.

Parsing from above - A DSL approach¶ I’m going to go ahead and start talking about an approach to parsing template tags that was pointed out in yesterday’s comments. It takes surlex which is made for easily parsing URL’s, and applies it to the concept of parsing template tags. In the tag_utils package, I looked at the tests, because they make great documentation. Here is an example of a tag definition. p = ParsedNode ( 'test' , '<arg1:int> <arg2:string> <kw:kwarg>' , test_expected ) register . tag ( 'test' , p ) This defines a tag called test, which parses an int, string, and kwarg from a surlex expression. The third argument is a function that is executed on the arguments on rendering. This allows you in your test_expected function, to act on the arguments that are defined inside of the surlex expression. A trivial example of the test_expected function is: def test_expected ( context , arg1 , arg2 , kw = None ): print "Got %s and %s " % ( arg1 , arg2 ) So if you called the tag {% test 1 racoon %} , it would print out Got 1 and racoon . This is an interesting way to provide a sort of DSL on top of the current mess that is parsing of template tags. I really like how it reuses Surlex, which was made for parsing URLs. However, parsing template tags is a similar task, and it works well here too! I could imagine this easily being bolted on to the approach from yesterday, which might allow for easier subclassing and reuse of the parsing functions.

Parsing based on keywords¶ An approach that I have talked about in the past is basically a subset of the above idea. It allows you to define kwarg type arguments for your tags, and have them magically parsed out for you. An example of this is my own SelfParsingTag. The following lines allow you to specify what arguments your tag will accept. def __init__ ( self , required_tags = []): if not required_tags : self . required_tags = self . _get_tags () else : self . required_tags = required_tags def _get_tags ( self ): return [] So you can either define the _get_tags function, or pass the allowed tags into the call when you make the tag. The following 2 bits of code are equivalent. class GetContentTag ( SelfParsingNode ): def _get_tags ( self ): return [ 'as' , 'for' , 'limit' ] register . tag ( 'get_latest_content' , GetContentTag ()) #Is the same as the following: class GetContentTag ( SelfParsingNode ): pass register . tag ( 'get_latest_content' , GetContentTag ([ 'as' , 'for' , 'limit' ])) Once the Tag knows what it arguments it will be accepting, it parses them. def parse_content ( self , parser , token ): parsed = parse_ttag ( token , self . required_tags ) for tag , val in parsed . items (): setattr ( self , '_' + tag , val ) return parsed This effectively sets a private varible on the tag to the value of the arg. So for example, if the tag was called {% sweet_tag for news.story as my_stories limit 10 %} , then self._for would equal news.story , and so on. It also returns the parsed values as a dictionary. There are a lot of improvements that could be made to parse_ttag , but it works as a basic implementation. This approach allows us to implement a tag really easily. If you want a (silly) tag that just updated the context with whatever value you input, you could make a simple tag. It would be used {% my_tag with "awesome text" as context_var %} class SimpleContextTag ( SelfParsingTag ): def _get_tags ( self ): return [ 'with' , 'as' ] def render_content ( self , tags , context ): for tag in self . required_tags : context . update ({ tag [ 'as' ]: tags [ 'with' ]}) register . tag ( 'my_tag' , SimpleContextTag ()) To implement the get_latest_object code from yesterday, we can skip all of the parsing steps. class GetContentTag ( SelfParsingTag ): def _get_tags ( self ): return [ 'as' , 'for' , 'limit' ] def render_content ( self , context ): self . model = get_model ( * self . _for . split ( '.' )) if self . model is None : raise template . TemplateSyntaxError ( "Generic content tag got invalid model: %s " % model ) query_set = self . model . _default_manager . all () context [ self . _as ] = list ( query_set [: self . _limit ]) register . tag ( 'get_latest_object' , GetContentTag ())