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I am currently revamping the native bindings for BLAS/LAPACK (Fortran libraries) for all major OS on 32/64 bit as a Java library: netlib-java.

However, I've started to hit some problems to do with data type differences between the UNIX/Windows world, and between Fortran / C.

Tables of Fortran and C data types are pretty non-commital because sizes are not explicitly defined by the C language.

Is there a canonical source (or can we create one by referencing authoritative sources?) of all the bit sizes IN PRACTICE of the primitive data types on major OSes for both Fortran and C?

Or, at the very least, the Fortran types in terms of the C types.

i.e. populate a table with the following columns (with a few to begin):

OS      ARCH    Language Type             Bits
Linux   x86_64  C        int              32
Linux   x86_64  C        long             64
Linux   x86_64  C        float            32
Linux   x86_64  C        double           64
Linux   x86_64  Fortran  LOGICAL          32
Linux   x86_64  Fortran  INTEGER          32
Linux   x86_64  Fortran  REAL             32
Linux   x86_64  Fortran  DOUBLE PRECISION 64
Linux   x86_64  Java JNI jint             32
Windows x86_64  Fortran  INTEGER          32
Windows x86_64  Java JNI jint             64

(I'm not sure if this is correct)

It is possible to lookup the Java types in terms of C primitives in the jni_md.h which is shipped with every JDK.

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Like the C standard the Fortran standards do not define the size, in bits, of the language's intrinsic data types. But then the Fortran standards scarcely recognise the existence of bits at all. Good luck with your efforts but I think that you are missing an important element in the equations, the compiler (version) used. – High Performance Mark Aug 10 '13 at 15:59
Normally stuff like that is covered under mixed language programming for the compilers. For instance, in Silverfrost, it is under mixed language programming/data types/basic data types. On the old ps4 (and probably DVF, CVF and IVF) compiler, it is under Programmer's guide/Programming with Mixed Languages. Can't believe that Windows INTEGERS are 16 bits or is that a trick to make sure we're reading everything. Ha Ha. – cup Aug 10 '13 at 19:21
If you're using the later versions of Fortran, they have the ISO_C_BINDINGS, which, in theory, should get the right size. This is very vendor dependent. eg IVF+MSC might be very different from gcc/gfortran on Windows. – cup Aug 10 '13 at 23:27
There is no universal ISO_C_BINDING and all these will tell you is the KIND numbers for that particular Fortran implementation that correspond to selected types in the "companion" C implementation. Don't make the mistaken assumption that KIND numbers are byte sizes. Sometimes they are, sometimes they aren't - implementation dependent. – Steve Lionel Aug 11 '13 at 0:24
Fortran integer ISO_C_BINDING kind=C_INT will be the same as a C int, but that doesn't tell you how many bytes those types are. If you use kind=C_INT32_T matching C type int32_t, you will have a 32 byte integer in both Fortran and C. But knowing this doesn't magically tell you the sizes of variables declared in Fortran source code declared simply as integer and real. If you want this control, you either need to rewrite the Fortran source code or write glue interface routines whose declaration uses the specific types, then calls the library code. – M. S. B. Aug 18 '13 at 20:45

2 Answers 2

up vote 1 down vote accepted

As noted by @cup in the comments, there is an ISO_C_BINDING standard. That gives us a level of comfort (at least with GCC) that the mappings as noted in the CBLAS/LAPACKE C API (which uses basic C types) are portable across architectures with that compiler. As noted in the question, this is about bit sizes in practice, not some abstract concept of what the languages guarantee. i.e.

  • REAL -> float
  • DOUBLE PRECISION -> double
  • INTEGER -> int
  • LOGICAL -> int

and then it's up to C to define the byte sizes of the primitive types and up to the jni_md.h to define the Java primitive types.

In practice, this means that the only disconnect is that on 64 bit Windows long is 32 bit (64 bit on 64 bit Linux) and jint is defined in terms of long. Therefore the compiler complains about jint*/int type conversions during Windows builds that can be safely ignored.

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There are several problems with your approach.

  1. It's not necessarily the operating system that defines these lengths; the compiler can do so as well in some cases.

  2. The user can also change the default lengths in some circumstances. For instance, many Fortran compilers have an "r8" option that causes the default size of real to be 8 bytes (for gfortran, "-fdefault-real-8").

  3. BLAS/LAPACK are supposed to work for single and double IEEE precision, regardless of the default size of data types on a given system. So the Fortran interfaces should always use 4 byte reals and 8 byte doubles, regardless of the system you're working on. I don't think the documentation specifies an integer type, but I strongly suspect that the error codes are always going to be 4 bytes, because for some time, nearly all Fortran implementations that use IEEE types have used 32 bit integers as the default. I think that some C wrappers may technically allow you to change the return code size at build-time (or use a system/compiler default); you may want to provide a similar option for your Java bindings.

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The BLAS/LAPACK routines are defined in C by CBLAS and LAPACKE as float/double. That's the official C API that deprecates the CLAPACK translation. As to your other points, that's why I've explicitly asked for sizes in practice. – fommil Aug 18 '13 at 18:42
My point is that you should code your bindings according to the specification of the library that you're working with, not the system that it's on. You also didn't specify whether you are interfacing with CBLAS/LAPACKE, or to Fortran 77 code (which often used explicit byte counts), or whether you are also trying to allow for extended-precision on some machines. Regardless, the float/double of C are going to be IEEE single/double precision on virtually all modern systems, though integer sizes do change. (Unlike in your table above, float is still 32 bits on Linux x86_64.) – Sean Patrick Santos Aug 18 '13 at 19:17
I don't know where you're going nor why any of this is relevant. If the numbers in the question are wrong, then please update them... they are only illustrative. I consider this question to be answered in the comments by @cup. I'm just waiting for him to convert his comment into an answer so that I can accept it. – fommil Aug 18 '13 at 20:05
Your original question was about getting a canonical table of Fortran and C bit sizes for different OS/architecture, and I was trying to say that OS/architecture isn't what determines Fortran sizes for your purposes (and apparently doing a bad job of that). I somehow missed the end of your conversation with cup. If you plan to write some short Fortran code using ISO_C_BINDING to figure out the mapping, that makes sense. – Sean Patrick Santos Aug 18 '13 at 20:51

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