I have just watched video of Tudor's great hands on PettitParder tutorial on ESUG, and few questions poped up to me.
1. in PPMSEGrammar, start is encoded ad ^elements end is that a good habit to include end in start method? Somehow this is counter intuitive to me since it seems it would make such grammar non embeddable in another parser, or I am mistaken? 2. can ==> be cascaded in a sense that if we have parser A, its subclass parser B which calls supper and then adds ==>. Can we then have C which is subclass of B, and adds its ==> on top of the one added by B? 3. What do you think, could PettitParser be reasonably used to de-marshal some (binary) network protocol. By reasonably I mean that it would not be an order of magnitude slower than some code hacked from the scratch (but not terribly optimized). |
> 1. in PPMSEGrammar, start is encoded ad ^elements end
> > is that a good habit to include end in start method? Somehow this is counter > intuitive to me since it seems it would make such grammar non embeddable in > another parser, or I am mistaken? Yeah, I think this is like a pattern. #start is just the default production when the parser is used standalone. When you compose it with some other parser you could directly go with whatever other production you want, i.e. PPMSEGrammar new elements > 2. can ==> be cascaded in a sense that if we have parser A, its subclass > parser B which calls supper and then adds ==>. Can we then have C which is > subclass of B, and adds its ==> on top of the one added by B? It is always cascaded. #==> just wraps the receiver with the action block, so if you write p := (#word asParser ==> [ :each | each asUppercase ]) ==> [ :each | each asciiValue ]. p parse: 'a' --> returns 65, the ascii code of $A > 3. What do you think, could PettitParser be reasonably used to de-marshal > some (binary) network protocol. By reasonably I mean that it would not be an > order of magnitude slower than some code hacked from the scratch (but not > terribly optimized). Definitely. You would probably need to implement some special stream that works on the bit-level. Marcus and I once started to write a bytecode decompiler, that worked reasonably well but I don't know the status. An optimized hand written parser is certainly faster. For performance I typically compare the hand written parser of the refactoring engine (RBParser) and the strictly equivalent one in PetitParser (PPSmalltalkParser). The hand written one is about 3.3 times faster. Lukas -- Lukas Renggli www.lukas-renggli.ch _______________________________________________ Moose-dev mailing list [hidden email] https://www.iam.unibe.ch/mailman/listinfo/moose-dev |
In reply to this post by drush66
Am 06.10.2011 um 12:05 schrieb drush66: > I have just watched video of Tudor's great hands on PettitParder tutorial on > ESUG, and few questions poped up to me. > > 1. in PPMSEGrammar, start is encoded ad ^elements end > > is that a good habit to include end in start method? Somehow this is counter > intuitive to me since it seems it would make such grammar non embeddable in > another parser, or I am mistaken? > To use end in the start method is just saying that you want to consume all of the input with your rule. Let's say you have "mainrule end" in your start of the grammar then you can embed this in another grammar by referencing mainrule (and not start) in the new grammar. In the new grammar you would have start defined as "anothermainrule end". The start method is just to one that is used by default. > 2. can ==> be cascaded in a sense that if we have parser A, its subclass > parser B which calls supper and then adds ==>. Can we then have C which is > subclass of B, and adds its ==> on top of the one added by B? > Yes. As input to the ==> block who will get the result of the ==> block of B > 3. What do you think, could PettitParser be reasonably used to de-marshal > some (binary) network protocol. By reasonably I mean that it would not be an > order of magnitude slower than some code hacked from the scratch (but not > terribly optimized). I can only assume that the produced overhead is some magnitude slower than hand written stream parsers. But I'm sure there will be answers with more insight coming. Norbert _______________________________________________ Moose-dev mailing list [hidden email] https://www.iam.unibe.ch/mailman/listinfo/moose-dev |
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