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I'm trying to learn Fortran and I'm seeing a lot of different definitions being passed around and I'm wondering if they're trying to accomplish the same thing. What is the difference between the following?

  • integer*4
  • integer(4)
  • integer(kind=4)

Thanks

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3 Answers 3

up vote 22 down vote accepted

In Fortran >=90, the best approach is use intrinsic functions to specify the precision you need -- this guarantees both portability and that you get the precision that you need. For example, to obtain integers i and my_int that will support at least 8 decimal digits, you could use:

integer, parameter :: RegInt_K = selected_int_kind (8)
integer (kind=RegInt_K) :: i, my_int

Having defined "RegInt_K" (or whatever name you select) as a parameter, you can use it throughout your code as a symbol. This also makes it easy to change the precision.

Requesting 8 or 9 decimal digits will typically obtain a 4-byte integer.

integer*4 is an common extension going back to old FORTRAN to specify a 4-byte integer.

integer (4) or integer (RegInt_K) are short for integer (kind=4) or integer (kind=RegInt_K). integer (4) is not the same as integer*4 and is non-portable -- the language standard does not specify the numeric values of kinds. Most compilers use the kind=4 for 4-byte integers -- for these compilers integer*4 and integer(4) will provide the same integer type -- but there are exceptions, so integer(4) is non-portable and best avoided.

The approach for reals is similar.

UPDATE: if you don't want to specify numeric types by the required precision, but instead by the storage that they will use, Fortran 2008 provides a method. reals and integers can be specified by the number of bits of storage after useing the ISO_FORTRAN_ENV module, for example, for a 4-byte (32-bit) integer:

use ISO_FORTRAN_ENV
integer (int32) :: MyInt

The gfortran manual has documentation under "intrinsic modules".

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that was a fabulous explanation! stunning! excellent! it's crystal clear to me now.. :D thank you very much! –  Sam Jul 3 '10 at 21:09

Just one more explicit explanation what the kind is. The compiler has a table of different numerical types. All integer types are different kinds of the basic type -- integer. Let's say the compiler has 1 byte, 2 byte, 4 byte, 8 byte and 16 byte integer (or real) kinds. In the table the compiler has an index to each of this kind -- this index is the kind number.

Many compilers choose this numbering:

kind number    number of bytes
1              1
2              2
4              4
8              8
16             16

But they can choose any other numbering. One of the obvious possibilities is

kind number    number of bytes
1              1
2              2
3              4
4              8
5              16

There are indeed compilers (at least g77 and NAG) which choose this approach. There are also options to change this. Therefore kind numbers are not portable integer(kind=4) or integer(4) means a 4 byte integer or a 8-bytes integer depending on the compiler.

integer*4 is portable in the sense it always means 4 bytes. But on the other hand it is not portable because it has never been part of any standard. Programs using this notation are not valid Fortran 77, 90 or any other Fortran.

To see the right options how to set the kind numbers see M.S.B.'s answer.

The same concept holds for real data types. See Fortran 90 kind parameter (the mataap's answer).

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http://gcc.gnu.org/onlinedocs/gcc-3.4.6/g77/Star-Notation.html#Star-Notation

http://gcc.gnu.org/onlinedocs/gcc-3.4.6/g77/Kind-Notation.html#Kind-Notation

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SO frowns upon link-only answers, largely because links may break. While I expect the links to gcc.gnu.org to be longer lasting than most, this is still a link-only answer. –  High Performance Mark Aug 13 at 11:07
    
fair enough point –  Anycorn Aug 13 at 15:12

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