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I'm writing a simple parser in C++ that works using a map of string 'triggers' to 'handler' function pointers, my question is what would be the most 'static' and efficient method of implementing generation and access to the map?

I first considered a method, e.g. Parser::add_handler, that would add the trigger/handler to the parser's map, but, as far as I know, this would need to be executed every time the program was ran whilst the data is known at compile time. (Although on the plus side, they would only need executed once, and not for each instantiated Parser.)

I then thought of using a virtual method, e.g. Parser::get_handlers in Parser that would be implemented in derived classes to return the handler map for that parser. This seems like a more nicely encapsulated solution although it would require a virtual function call for every created instance of the parser, with at least one call to the parser's map-generating function.

Using the latter approach seems preferable at the moment, but it still leaves the map to be generated dynamically on each execution, is there away to avoid this?

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5 Answers 5

up vote 1 down vote accepted

If you don't want to build the map dynamically, you can use a sorted static array with std::lower_bound to search it in O(log n) time.

If you have a good hash map implementation available, you might find that the overhead of populating it is less than the performance gain at runtime, depending on how many lookups you need to do.

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I think std::map is probably the way forward, as there will rarely be much more than, say, 10 elements in the map versus potentially thousands of lines in the source file, with all lines matching a trigger requiring a lookup. –  connec Aug 5 '11 at 22:02
The array with std::lower_bound can be faster than std::map. If performance is an issue you should try both. –  Mark Ransom Aug 5 '11 at 22:05
Sounds like a plan. I doubt performance will be an issue but nice to know I've got an alternative if it is. –  connec Aug 5 '11 at 22:11
How about a hash? O(1) is better than O(n). –  user405725 Aug 5 '11 at 22:18
@connect: there is std::unordered_map in C++0x or std::tr1::unordered_map in C++03. Well, unless you are using some rare or very old compiler. –  user405725 Aug 5 '11 at 22:32

If you know all strings and their handlers at compile time and want to match them in run-time, and if you don't have hell of a lot of strings and their length is not very long, and if range of possible characters in those strings is not huge (i.e. like in ASCII), then you can build a static dispatch table in compile time using templates or simply by hard-coding stuff yourself. This approach could potentially result in bad performance as well, depending on what kind of strings and how many of them you have.

Alternatively, you can have an array per string's length where a key is a sum of characters (their numeric representations) in that string.

But I'd recommend you start with Google's dense_hash_map. Don't spend too much time prematurely optimizing your software. Once your program is done, and if you are not satisfied with performance, use profiler to find where is a bottleneck and improve performance there.

Good luck.

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I think dense_hash_map is something I'll look at if performance becomes a concern. At the moment I'd rather avoid the additional library. –  connec Aug 5 '11 at 22:22

first of all, it looks like overkill, are you trying to waste some time to optimize something that does not need to be optimized, or you are simply curious?

it depends... if function names are all know, then it all depends on the number of functions that you have. You may simply create array of string pointers in such a way so that pointers were sorted and then do manual search. If you have only a few functions in your list, then you can do linear search. If you have many, then for performance reasons, do a binary search manually (but pointers must be arranged in sorted order).

BUT, for real work, by no means use std::map! It's specifically designed for your case: insertions are expensive, but once map is created once then searches are very fast (binary search). You'll get clean correct code.

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"by no means use std::map" Huh? –  ildjarn Aug 5 '11 at 21:57
No need to do a binary search manually when std::lower_bound will do it for you. –  Mark Ransom Aug 5 '11 at 22:07
Mostly curiosity :) Definitely seems like I'll use std::map as the alternative seems to be writing my own hash map structure/functions xD –  connec Aug 5 '11 at 22:07
Mark, lover_bound is the std::impl of binary search. If somebody for some reason wants to implement it themselves, then quite likely they want to either implement both container and search algos themselves, or simply use what's available. –  Pavel Aug 5 '11 at 22:12

If you want to be super efficent, you create a parsing tree as Plain Old data structures. If you want to do this nicely, you create a program which generates your parsing tree from a specification (that is what lex/flex is doing for you), and then compile the resulting generated data structure into your program.

You then don't need a add_handler as all data is added at time of compilation.

That being said, you probably will not need this level of optimization for most tasks, so I would always recommend to get the functionality right first, and then look at how to optimize using such methods later.

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The parser operation needs to be easily extensible though (adding new triggers/handlers for different applications), so I don't think parser generators would be a good solution. –  connec Aug 5 '11 at 22:10
I don't see why not -- that should just be a matter of defining a good base class for which your extensible and new classes can inherit from. –  Soren Aug 5 '11 at 22:14
Just read your comment to @Mark answer, and if you are really only talking about a dictionary of ~10 elements, then I agree with that there is absolutely not reason to do anything else than just populate a std::map or std::lower_bound structure and then be done with it. –  Soren Aug 5 '11 at 22:16
lower_bound is the algorithm, not a structure. –  Pavel Aug 5 '11 at 22:18
Yes -- my typo. –  Soren Aug 5 '11 at 22:19

There's lots of interesting solutions based off your requirements.
A faster method than your second is to template Parser on a class who has a function pointer members for each trigger, so there is no runtime overhead at all. In fact, it's the only solution that will allow inlining. It does have the limitation that a single class has to have all the handlers though.

template<class handler>
struct Parser {
    void ParseLines() {
        if (lineBeginsWith('+')
        if (lineBeginsWith('-')
struct LineHandlers {
    void lineBeginsPlus() {
        printf("handle + line");
    void lineBeginsMinus() {
        printf("handle - line");
struct OtherLineHandlers {
    void lineBeginsPlus() {
        printf("handle + line differently");
    void lineBeginsMinus() {
        printf("handle - line differently");
int main() {
    Parser<LineHandlers> ParserInstance;
    Parser<OtherLineHandlers> OtherParserInstance;
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Well, I'm not quite sure how this would let me automate the selection of the correct handler method based on the trigger... e.g. if the trigger was +, and a line beginning with + was encountered, I cannot have a method or variable named + and so I would need some other way to link the trigger to the handler (e.g. a mapping). Though I expect I may be misunderstanding your solution? –  connec Aug 7 '11 at 17:07
Renamed everything to match your example there. Also, instantiated a second class that can handle + and - lines differently. However, if this doesn't appear to fit your situation, then go with a unordered_map of triggers to function pointers. This solution definitely does not fit all (or even most) situations. –  Mooing Duck Aug 9 '11 at 20:52

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