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a week ago i upgraded from gcc4.0 to llvm gcc4.2. everything went well except for one thing i have really big trouble to figure out because i am more the audio signal processing kind of guy. so i really hope someone of you could help me. my issue is that the use of ::resize in stl_vector.h has completely changed.

in gcc4.0 the following code compiled fine:

std::vector< std::vector<myData> >  mMy;

std::for_each( mMy.begin(), mMy.end(), 
  std::bind2nd(std::mem_fun_ref(&std::vector<myData>::resize), numMy) );

in gcc4.2 it does not compile with error:

no matching function for call to mem_fun_ref ..

i am pretty sure that i do not know how to implement ::resize correctly, could someone tell me what i have to do get this fixed. i am happy if you could show me a correct code example, but hints (books) and keywords that could help me figure this out would also be greatly appreciated ..

thanks a lot for your help ..

kind regards, bzt

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Could be an issue with includes. mem_fun_ref should be in <functional> I think. –  bames53 Feb 29 '12 at 17:39

3 Answers 3

Make sure you have

#include <functional>

in your included.

However it would be easier for you to do this (if you are trying to set the size of all the vectors of myData.

std::vector<std::vector<myData > > mMy (size, std::vector(numMy) );

Here each vector will of size numMy

Also you do know that gcc 4.2 is still really quite old, if you can I would highly recommend gcc 4.6.

with gcc 4.6 you could do rid of all that mem_func whatever stuff with this:

std::for_each( mMy.begin(), mMy.end(), 
    std::bind(std::vector<myData>::resize, std::placeholders::_1, numMy));

(although I would still prefer the constructor option if it is required by your use case).

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+1 for using the right constructor to make the bind2nd unnecessary. –  bames53 Feb 29 '12 at 17:56
    
@bames53 any thing to make bind2nd unecessary. I used to think it good until edge cases like this started popping up. I like functional programming, but it should be more difficult. –  111111 Feb 29 '12 at 18:01
    
gcc4.6 is no option, i can only have 4.2.4 unfortunately .. what is size in you first example snippet ? i thought size is numMy ? and the vector myData in mMy will be resized by the amount of numMy in my code example with men_fun_ref, right ? –  bzt Feb 29 '12 at 18:12
    
why such an older version out of interest? size is how many vector<myData> you want in your outer vector. This might be zero if you are adding them by push_back(). Note if you are adding them by push_back() then ensure you call reserve() first or consider using a std::deque instead –  111111 Feb 29 '12 at 18:19
    
current xcode4.3 only has this option of llvm gcc4.2 .. i hope i am not a wiener now because i am using Xcode ;) ... –  bzt Feb 29 '12 at 18:40

mem_fun_ref takes a member function with zero or one argument.

I suspect your code will compile if you were to try that technique with 'reserve' which takes one argument (but doesn't resize.)

resize wants two arguments: a size and an initializer (which has a default value). I guess this is why there is no matching mem_fun_ref template - it is confused by the optional initializer.

Maybe your gcc 4.0 worked around this smoothly, but gcc 4.2 does not?

I tested on a RH5 linux gcc 4.1.2 (no match for mem_fun_ref) and RH6 linux gcc 4.4.5 (does find a match) so maybe you should migrate forward.

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vector::resize does have a single argument overload. I'm not sure if C++ says it should be automatically selected or what. –  bames53 Feb 29 '12 at 18:07
    
that is correct, reserve does compile, but won't work in my code because myData hasn't been resized by the amount of numMy .. i am not completely understanding your post, does it mean i can not use resize with men_fun_ref above gcc4.2 anymore ? –  bzt Feb 29 '12 at 18:16
    
The C++ standard has resize(sz) and resize(sz,T&c) but gcc implements them with only resize(sz,T&c=T()) for gcc > 4.1 . So I don't see how to use mem_fun_ref with resize, sorry. –  Erik Olson Feb 29 '12 at 20:58
    
@erik olson i am not sure about that, i contacted gnu, and their answer was: –  bzt Feb 29 '12 at 21:22
    
This change is allowed by the standard, but means that &vector<myData>::resize is no longer unambiguous. You can disambiguate the expression by providing a target type to convert to, so the compiler knows which overload you mean: typedef void (*resize_type)(std::vector< myData >::size_type); std::bind2nd(std::mem_fun_ref((resize_type)&std::vector< myData >::resize), numMyData) ); –  bzt Feb 29 '12 at 21:23

111111 has the right answer, but I wanted to explain what I think is going on here.

I believe the code is not actually legal, because std::vector::resize is an overloaded function. You have to cast &std::vector<myData>::resize in order to select the overload you want:

std::for_each( mMy.begin(), mMy.end(), 
  std::bind2nd(std::mem_fun_ref(
    reinterpret_cast<void (std::vector<myData>::*)(std::size_t)>(&std::vector<myData>::resize)),
    numMy));
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Resize was overloaded in apple gcc 4.00 but not in redhat 4.1.2 or apple gcc 4.2.1. The mem_fun_ref in gcc 4.1.2 had no problem with overloaded methods - it calls the 1-argument version. –  Erik Olson Feb 29 '12 at 19:58
    
throws me an error:// GLIBCXX_RESOLVE_LIB_DEFECTS // 402. wrong new expression in [some] allocator::construct void construct(pointer __p, const _Tp& __val) { ::new(__p) _Tp(__val); } –  bzt Feb 29 '12 at 20:03
    
@erik olson yep, that is exactly my issue .. –  bzt Feb 29 '12 at 20:05

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