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How exactly does a 32-bit Linux system handle long long int compared to 64-bit Linux?

On my 32 bit system I use a C++ wrapper for the MPFR data type; this wrapper has a constructor defined for long int but not long long int. Nevertheless, on the 32-bit system this code just works:

long long int i=5LL;
mpreal myVar(i);
cout<< "this was constructed with a long long int:" <<myVar <<endl;

How is this possible? Does the 32-bit gcc just somehow cast the long long int into say long int for which the mpreal data type does have a constructor? If the above code is run on 64-bit Linux then the compiler results in an error about the construction being ambiguous.

I know that some people will tell me not to use long long int at all on 64 bit, but unfortunately, I'm using another library (odeint) where this is built in to the code to construct my given multiprecision data type this way, so I don't think I can change things.

Is long long int exactly the same as long int on 64-bit anyway? Will I lose data if I cast to long int? e.g. if I make my own constructor like:

mpreal(const long long int u, mp_prec_t prec, mp_rnd_t mode)
{
    mpfr_init2(mp,prec);
    mpfr_set_si(mp, u, mode);
}
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Which constructors are ambiguous? –  ecatmur Dec 4 '12 at 13:44
    
error: call of overloaded 'mpreal(long long int)' is ambiguous. It is simply not defined to be constructed from a long long int, but nevertheless on 32 bit gcc just works anyway, but not on 64 bit linux. Unless I write my own constructor for construction from long long int into the mpreal.h, as in my OP. –  fpghost Dec 4 '12 at 13:52
    
From wiki: On 32-bit Linux, DOS, and Windows, int and long are 32-bits, while long long is 64-bits. On 64-bit Linux, int is 32-bits, while long and long long are 64-bit. I think this may explain the situation, mpreal looks like it checks if 32 bit and if so defines a constructor for int64_t (which is long long int on 32x system). But for 64x system, long int and long long int are the same thing, so in principle no one should be feeding in long long int so I guess such a constructor was not defined? –  fpghost Dec 4 '12 at 14:53
    
Where exactly does the problem occur in odeint (file and linenumber)? –  headmyshoulder Dec 5 '12 at 8:53
    
/odeint/boost/numeric/odeint/stepper/runge_kutta_dopri5.hpp:300: error: call of overloaded 'mpreal(long long int)' is ambiguous –  fpghost Dec 5 '12 at 9:53

2 Answers 2

I asked the author of mpreal.h about this (the full answer is at http://www.holoborodko.com/pavel/mpfr/#comment-7444), firstly regarding building a new constructor for long long int on a 64x system:

>Functions “mpfr_set_ui/si” should be fine.
>Basically constructor for “long long int” should be equivalent to “long int” one.

>GNU GCC system makes porting from x32 to x64 a little bit messy. It automatically  
>upgrades integer types to x64 bits, which could easily break code being ported.

>The best workaround for GCC would be to use types with explicit number of bits:  
>int32_t, int64_t from stdint.h. Then move from x32 to x64 would be painless.

>However neither authors of MPFR nor developers of numeric libraries follow this    
>standard using “long long int”, “long int”, “intmax_t” all of which means different 
>things on x32 and x64 in GCC world.

>There is some macro-logic in mpreal.h which tries to make things smooth:
>(a) for x32 builds we define additional constructors for int64_t (aka “long long int” 
>or “intmax_t” ) 
>(b) for x64 builds we remove constructors for such type since “long int” is already 
>64bit wide.

>Macro MPREAL_HAVE_INT64_SUPPORT plays only “suggestive” role, it is undefined 
>automatically for x64 builds on GCC to avoid clash among integer types.

>The better way would be to detect bit resolution of all integer types at compile time  
>(using macros or meta-magic similar to boost) and add suitable routines to mpreal 
>class. This could easily grow to be more complex than mpreal itself :) .

>Maybe I will come up with better solution in future versions, any suggestions are 
>welcome.

So I think building in my constructor from the OP will fix things to work OK on a x64 system, but will need to be removed again if going back to x32 system otherwise it will cause a clash. The reason is that MPREAL_HAVE_INT64_SUPPORT macro gets defined on 32x and constructors for int64_t (aka long long int on 32x) get defined, so adding another such constructor will cause a clash; this is also the reason my code just worked out of the box on a 32 system. On a 64x system MPREAL_HAVE_INT64_SUPPORT macro is undefined and such constructors are removed since long int is already 64bit wide, so there was no need for the author to have a long long int constructor.

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  • For sizes of various types check the C standard, long long has to be represented with at least 64 bits.

  • To see what the compiler really does with your code, you can use e.g. objdump -D on the binary (or the intermediate object file).

  • On 32 bit arch you will lose data if you cast from long long to long.

  • As far as I understand it, the compiler might have troubles deciding which constructor to use (basically can't decide whether to use ctor(int) or ctor(long int)).

EDIT:

#include <stdint.h>
...
uint64_t x = 5;
mpreal myVar(i);

works as the c-tor(uint64_t) is defined (or better said an unambiguous match can be found) - because on 64bit arch the (unsigned) long int is equivalent to uint64_t (for glibc it actually is defined as such). The error arises from the rules compiler uses when dealing with overloaded functions - for more information refer to the C++11 standard/draft.

Generally speaking, if you want your code portable, you should use the types defined in inttypes.h or stdint.h - which is C99 - i.e. uintXX_t and intXX_t. These types are guaranteed to provide the exact width, see the wiki link above for more info.

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I think on a 32x system, MPREAL_HAVE_INT64_SUPPORT gets defined (already as part of the mpreal.h) and in this case a constructor is present, that will take the 64 bit long long int. On the 64 bit system one would not normally use long long int, but rather just long int as both are 64 bits anyway, so in this case mpreal.h hasn't explicitly defined such a constructor. I added my own as shown in the OP, that is essentially the same as the long int constructor, and things compile. On 64x I don't think this cast from long long int to long int loses data. –  fpghost Dec 4 '12 at 17:57
    
Right, on 64bit lli -> li won't lose data (depends on the actual types widths, but I believe li is usually a quad-word on 64 bit archs). –  peterph Dec 5 '12 at 1:54

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