I have an application that requires the packing of heterogeneous data in to a single structure. For example, a single structure might contain three floats, two integers and a string. I don't know which fields I'll have until runtime, and the key requirement is that the process be extremely fast. I was planning to use an array of void*, which I can cast to the appropriate type when the message reaches its destination, but is there a better way of doing this? Perhaps using Boost?

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    Do you have any bounds on what content you will receive? Number of types, number of elements, anything? – Kerrek SB Nov 22 '11 at 23:42
  • Abstract class with type id and inheritance? – Joe McGrath Nov 22 '11 at 23:44
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    Boost.Any/Boost.Variant? – Matteo Italia Nov 22 '11 at 23:44
  • If the types of data being stored is limited to basic data types, something where you have an array of ints, array of doubles, etc., and they only get initialized when a value is registered with the object? bool registerInt(int val, string key), or something like that? You could use void* as the type of last resort (objects or anything else that doesn't quite fit in properly). – Chaosphere2112 Nov 22 '11 at 23:46
  • Kerrek: The data will usually consist of a set of floats or ints, occassionally there will be a string as well. The problem is a slightly strange one, as I will only receive ONE message every time the program is run, and the format of that message is exactly known beforehand, but I don't want to recompile the program before I receive each message. I guess I could use the metadata (it's xml) to build a custom C++ parser every time the program runs, and which issues its action to a known interface. I hadn't thought about it that way. – endian Nov 22 '11 at 23:53

Perhaps boost_variant will satisfy your needs?


  • Thanks, I will check it out. – endian Nov 22 '11 at 23:57

Could you use the plain old union?

  • Could, but it's not safe and too restricted (requires POD). Might as well use variant. – GManNickG Nov 23 '11 at 0:12
  • @GMan I'm fully aware of that, however OP said: "the key requirement is that the process be extremely fast". In such circumstances, it is not completely unreasonable to trade some safety and convenience in exchange for performance. – Branko Dimitrijevic Nov 23 '11 at 0:25
  • Perhaps, but always last though. If a person asks "Can I do X, and fast?" I always completely disregard the "fast" part, because fast is only sensible in a context where the program is correct, and you don't get a correct program by worrying about micro-optimizations. – GManNickG Nov 23 '11 at 0:27
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    The program does need to be correct, obviously, but fast is an equal requirement. The current C# version runs in around 12ms, which is around 11,700us too slow, hence the bonkers stay-up-all-night-and-rewrite-in-c++ that I'm currently undertaking :-) – endian Nov 23 '11 at 0:42
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    @GMan It is sometimes impossible to think about correctness alone and then hope to magically "slap on" some performance in the end. Sometimes, you have to consider both in advance. And sometimes, you even have to include micro-optimizations in your thinking. For example, I had a case where I specifically tailored a data structure to work well with a specific x86 instruction. These kinds of situations are very rare of course, but not completely non-existent... – Branko Dimitrijevic Nov 23 '11 at 1:06

I had the same problem. My solution was to define a interface called Data. This Interface did not provide anything except a virtual destructor. All my data-types now inherit from the Data interface. This allows me to define a vector of Data pointers. When I need them I cast them to the actual type, so that I can use them.

This solution avoids the use of void Pointers, by using a marker class instead.

// Marker interface
class Data {
           virtual ~Data()=0;
// Own Datatype
class MyDataType: public Data {
  • Thanks. I think with that solution I would have the overhead of creating objects to hold the values, and I can't afford that kind of delay. – endian Nov 23 '11 at 0:19
  • Is this the same problem? endian said that the content (data members) of his struct are unknown at compile time ... – Walter Nov 23 '11 at 0:22
  • We do also not know our datatypes at compile time, therefore we cast them to Data and then make dynamic cast back to the type needed at runtime (while ensuring that this cast works). So we can store datatypes pointing to Data instead of storing something pointing to a specific datatype. – tune2fs Nov 23 '11 at 0:25
  • @endian: How do you know this delay is such that you can't afford it? How can you profile code that doesn't exist? Stop worrying about speed. This is 2011, even the dumbest programs run fast enough. Make your program work first. Otherwise I write the fastest of them all: int main(){}. – GManNickG Nov 23 '11 at 0:28
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    @GMan: As I've just written in response to another commenter, the current, working C# version of the code runs in 12ms - only around 11,700us of performance left to find... – endian Nov 23 '11 at 0:43

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