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i think i wont find that in any textbook, because answering this takes experience. i am currently in the stage of testing/validating my code / hunting bugs to get it into production state and any errors would lead to many people suffering e.g. the dark side.

What kind of flags do you set when you compile your program for fortran for debugging purposes?

What kind of flags do you set for the production system?

what do you do before you deploy ?

Looking forward to hearing from you.

cheers

edit: the production version uses ifort as a compiler, yet i do my testing with gfortran. doing it wrong?

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"fortran" is more general and more popular tag than "fortran90". –  Wildcat Sep 12 '10 at 7:47
    
@kemiisto thanks. –  tarrasch Sep 13 '10 at 11:47

2 Answers 2

up vote 11 down vote accepted

Bare minimum


-O0/-Og(GFortran 4.8+)

Basically tells the compiler to make no optimisations. Optimiser can remove some local variables, merge some code blocks, etc. and as an outcome it can make debugging unpredictable. Even at the next level of optimisation (-O1) optimiser can do this dirty things, so -O0 is absolutely necessary. And that is why -O0 is the default level of optimisation.

Besides, -O0 also reduces compilation time. But everything has to be paid for! The price for this option is very slow code execution. As we already said, -O1 is not an option, but starting from version 4.8 GCC compilers (including Fortran one) accept a newly introduced optimisation level -Og. I will quote from the manual:

-Og

Optimize debugging experience. -Og enables optimizations that do not interfere with debugging. It should be the optimization level of choice for the standard edit-compile-debug cycle, offering a reasonable level of optimization while maintaining fast compilation and a good debugging experience.

So, update your compiler, if possible, and use -Og.


-g

This option actually makes debugging possible by requesting the compiler to produce debugging information intended to be used by interactive debugger (GDB).

Running GDB session for executable which was built without debugging information does not make a lot of sense, since an important information will be missing. Compare the following two simple GDB sessions with floating point exception: the first one is for executable built with debugging information and the second one - without

(gdb) run
...    
Program received signal SIGFPE, Arithmetic exception.
0x0040165c in system::system_assert (exp=.FALSE.) at system.f90:15
15                  r = r / 0.0

(gdb) bt
#0  0x0040165c in system::system_assert (exp=.FALSE.) at system.f90:15
#1  0x0040168a in informal_introduction::informal_introduction_problem_02 (a=2, b=-3)
    at informal_introduction.f90:35
#2  0x00401ca2 in MAIN__ () at main.f90:28

(gdb) run
...
Program received signal SIGFPE, Arithmetic exception.
0x00401661 in __system_MOD_system_assert ()

(gdb) bt
#0  0x00401661 in __system_MOD_system_assert ()
#1  0x00401689 in __informal_introduction_MOD_informal_introduction_problem_02 ()
#2  0x00401ce3 in MAIN__ ()
#3  0x00401d51 in main ()

You can see numbers of lines at which floating point exception happened, actual parameters sent to functions, etc.


Addititonal

There are a plenty of them. The most useful from my point of view are:

-Wall to "enable all the warnings about constructions that some users consider questionable, and that are easy to avoid (or modify to prevent the warning), even in conjunction with macros."

-Wextra to "enable some extra warning flags that are not enabled by -Wall."

-pedantic to generate warnings about language features that are supported by gfortran but are not part of the official Fortran 95 standard. It possible to be even more "pedantic" and use -std=f95 flag for warnings to become errors.

-fimplicit-none to "specify that no implicit typing is allowed, unless overridden by explicit IMPLICIT statements. This is the equivalent of adding implicit none to the start of every procedure."

-fbounds-check to "generate additional code to check that indices used to access arrays are within the declared range."

-fbacktrace to "specify that, when a runtime error is encountered or a deadly signal is emitted (segmentation fault, illegal instruction, bus error or floating-point exception), the Fortran runtime library should output a backtrace of the error."

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+1 for fbounds-check –  tomshafer Jun 13 '11 at 4:35

For debugging I use: -O2 -fimplicit-none -Wall -Wline-truncation -Wcharacter-truncation -Wsurprising -Waliasing -Wimplicit-interface -Wunused-parameter -fwhole-file -fcheck=all -std=f2008 -pedantic -fbacktrace. For ones not already explained, check the gfortran manual. -fcheck=all includes -fcheck=bounds.

For production I use: -O3 -march=native -fimplicit-none -Wall -Wline-truncation -fwhole-file -std=f2008. Runtime checks such as bounds checking increase the execution time of the resulting executable. I've found the cost to frequently be surprisingly low, but it can be high. Hence no runtime checks on compiles for production.

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