Visible to Intel only — GUID: GUID-A18A0C1E-A6F5-46A3-A7CE-D3862F610004
Visible to Intel only — GUID: GUID-A18A0C1E-A6F5-46A3-A7CE-D3862F610004
Use Windows* Structured Exception Handling
Windows* provides a robust exception and termination handling mechanism called Structured Exception Handling (SEH). Structured exception handling requires support in both the operating system and compilers. Unfortunately, Intel® Fortran does not include extensions for SEH support, but you can still take advantage of this powerful tool. By introducing a bit of C code in your application, you can use SEH to meet your exception handling needs.
A good reference on this subject is Chapter 16 in the book Advanced Windows (Third Edition) by Jeffrey Richter.
Custom Handlers for Fortran Console, Fortran QuickWin, and Fortran Standard Graphics Applications
Fortran Console and Fortran QuickWin (and Fortran Standard Graphics) applications have the full benefit of the Fortran default exception and error handling processing facilities. You may, however, want to supplement or replace the default facilities.
Contain Errors and Exceptions in Fortran DLL Applications
If you are building a Fortran DLL and intend to call it from a main program written in some other language, you want to be careful that errors and exceptions in the DLL do not crash your main application.
Here are a few basic principles to keep in mind if you are building a Fortran DLL:
Construct your library routines so that they return a status to the caller and let the caller decide what to do.
To return an expected status to the caller, you need to be defensive in your library code, so consider these other principles:
Where it makes sense, have the library code check input arguments passed in from the caller to make sure they are valid for whatever the library routine is going to do with them.
For example, suppose the routine implements some numerical algorithm that has a valid domain of inputs it can act on and still produce well-defined behavior. You can check the input arguments before you execute the algorithm and avoid unexpected behavior that might otherwise result (such as unexpected floating-point exceptions).
You can use Fortran intrinsic procedures like ISNAN and FP_CLASS to detect exceptional IEEE numbers.
Your DLL code needs to return a status to the caller indicating the problem and let the caller take the appropriate action (for example: gracefully shut down the application, try again with different input, etc.).
In your library code, always check the success or failure of calls to I/O routines and dynamic memory allocation/deallocation.
In Fortran, the I/O statements have optional ERR, END, EOR, and IOSTAT arguments that you can use to determine if the I/O requested was successful.
Dynamic memory ALLOCATE and DEALLOCATE statements have an optional STAT specifier that allows you to obtain the status of the dynamic memory allocation/deallocation and prevent program termination.
If you do not specify an action to take on an error, the Fortran runtime system has no choice but to deal with the error as an unhandled severe error and terminate the program.
For a specific example of using IOSTAT and ERR to deal gracefully with an OPEN statement that gets a file-not-found error, see Use the IOSTAT Specifier and Fortran Exit Codes. You can do the same sort of thing in your code, but just return the status back to your Visual Basic* or other non-Fortran main program and let it decide what to do.
Try to write your DLL code so unexpected program exceptions cannot occur, but devise a strategy for dealing with unexpected exceptions if they do happen.
The most effective alternative for dealing with an exception is to use Windows Structured Exception Handling support to gain control when an exception happens. Wrap all your DLL routine calls in C try/except constructs and have the except() filter expression call a routine you define which determines how to respond.
Enable Floating-point Traps in Fortran DLL Applications
Before you can worry about how you will handle a floating-point trap condition occurring in a DLL, you have to consider the problem of unmasking those traps so they can occur. If you are compiling with fpe[:]3 and polling the floating-point status word to check for exceptions, you do not have to worry about the problem of unmasking traps. You do not want traps unmasked in that case.
If your strategy is to compile with fpe[:]0 and allow traps on floating-point exceptions, you need to take action to unmask the traps in the floating-point control word because most other languages mask traps by default.
Recall that a Fortran Console or Fortran QuickWin (or Standard Graphics) application would automatically have unmasked traps for you because the Fortran runtime system provides the main program and calls your MAIN__, which executes some prolog code before the actual application code starts.
You do not have that in a Fortran DLL called by some other language. Different languages establish different initial environments. You must provide the desired initial environment yourself.
Custom Handlers for Fortran Windows* Applications
Fortran Windows* applications are not hooked up to the Fortran default exception handling processing facilities. Fortran Windows* applications are considered to be an area devoted to full customization, and the Fortran runtime system tries to "stay out of the way," so you can do whatever you want in your code.