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I have a big, old, FORTRAN 77 code that has worked for many, many years with no problems. Double-precision is not enough anymore, so to convert to quadruple-precision I have:

  1. Replaced all occurrences of REAL*8 to REAL*16
  2. Replaced all functions like DCOS() into functions like COS()
  3. Replaced all built-in numbers like 0.d0 to 0.q0 , and 1D+01 to 1Q+01

The program compiles with no errors or warnings with the gcc-4.6 compiler on

  1. operating system: openSUSE 11.3 x86_64 (a 64-bit operating system)
  2. hardware: Intel Xeon E5-2650 (Sandy Bridge)

My LD_LIBRARY_PATH variable is set to the 64-bit library folder: /gcc-4.6/lib64

The program reads an input file that has numbers in it. Those numbers used to be of the form 1.234D+02 (for the double-precision version of the code, which works). I have changed them so now that number is 1.234Q+02 , however I get the runtime error:

Bad real number in item 1 of list input

Indicating that the subroutine that reads in the data from the input file (called read.f) does not find the first number in the inputfile, to be compatible with what it expected.

Strangely, the quadruple-precision version of the code does not complain when the input file contains numbers like 1.234D+02 or 123.4 (which, based on the output seems to automatically be converted to the form 1.234D+02 rather than Q+02), it just does not like the Q+02 , so it seems that gcc-4.6 does not allow quadruple-precision numbers to be read in from input files in scientific notation !

Has anyone ever been able to read from an input file a quadruple-precision number in scientific notation (ie, like 1234Q+02) in FORTRAN with a gcc compiler, and if so what how did you get it to work ? (or did you need a different compiler/operating system/hardware to get it to work ?)

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You appear to be conflating the text representation of a real of particular kind in source with the text representation of real data in an input file. There is no need to have a different exponent character in the input file - just use E. The Fortran processor (here represented by your compiler's runtime libraries) will convert that text representation in the input file into whatever appropriate internal representation the program uses. –  IanH Aug 8 '13 at 22:48
This exactly the kind of problems where you should employ the kind notation (real(wp) and 1._wp). You then just adjust wp in the top module to whatever you currently need. –  Vladimir F Aug 9 '13 at 8:36
Thanks @IanH ! I changed all Q's to D's in the input file and the program runs. I left the question up because I still want my program to be able to read in 12Q+01 since my input files are generated by another program. Is it also possible for me to leave all hardcoded numbers like 1.234D+02 in the actual .f files, as D+02 instead of Q+02, and rely on the compiler to convert them to quadruple-precision based on the fact that their respective variables are REAL*16 ? I would really like to just have one code with #define controlling the choice of REAL*8 and REAL*16, and no other changes. –  user1271772 Aug 11 '13 at 0:22

1 Answer 1

Almost all of this is already in comments by @IanH and @Vladimi.

I suggest mixing in a little Fortran 90 into your FORTRAN 77 code.

Write all of your numbers with "E". Change your other program to write the data this way. Don't bother with "D" and don't try to use the infrequently supported "Q". (Using "Q" in constants in source code is an extension of gfortran -- see 6.1.8 in manual.)

Since you want the same source code to support two precisions, at the top of the program, have:

WP = real128


WP = real64

as the variation that changes whether your code is using double or quadruple precision. This is using the ISO Fortran Environment to select the types by their number of bits. (use needs to between program and implicit none; the assignment statement after implicit none.)

Then declare your real variables via:

real (WP) :: MyVar

In source code, write real constants as 1.23456789012345E+12_WP. The _type is the Fortran 90 way of specifying the type of a constant. This way you can go back and forth between double and quadruple precision by only changing the single line defining WP

WP == Working Precision.

Just use "E" in input files. Fortran will read according to the type of the variable.

Why not write a tiny test program to try it out?

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