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Another important feature of Octave is its ability to react to the user
typing Control-C even during calculations. This ability is based on the
C++ exception handler, where memory allocated by the C++ new/delete
methods are automatically released when the exception is treated. When
writing an oct-file, to allow Octave to treat the user typing Control-C,
the OCTAVE_QUIT
macro is supplied. For example:
for (octave_idx_type i = 0; i < a.nelem (); i++) { OCTAVE_QUIT; b.elem (i) = 2. * a.elem (i); }
The presence of the OCTAVE_QUIT
macro in the inner loop allows
Octave to treat the user request with the Control-C. Without this macro,
the user must either wait for the function to return before the interrupt is
processed, or press Control-C three times to force Octave to exit.
The OCTAVE_QUIT
macro does impose a very small speed penalty, and so
for loops that are known to be small it might not make sense to include
OCTAVE_QUIT
.
When creating an oct-file that uses an external libraries, the function
might spend a significant portion of its time in the external
library. It is not generally possible to use the OCTAVE_QUIT
macro
in this case. The alternative in this case is
BEGIN_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE; … some code that calls a "foreign" function … END_INTERRUPT_IMMEDIATELY_IN_FOREIGN_CODE;
The disadvantage of this is that if the foreign code allocates any
memory internally, then this memory might be lost during an interrupt,
without being deallocated. Therefore, ideally Octave itself should
allocate any memory that is needed by the foreign code, with either the
fortran_vec method or the OCTAVE_LOCAL_BUFFER
macro.
The Octave unwind_protect mechanism (The unwind_protect Statement) can also be used in oct-files. In conjunction with the exception handling of Octave, it is important to enforce that certain code is run to allow variables, etc. to be restored even if an exception occurs. An example of the use of this mechanism is
#include <octave/oct.h> #include <octave/unwind-prot.h> void my_err_handler (const char *fmt, ...) { // Do nothing!! } void my_err_with_id_handler (const char *id, const char *fmt, ...) { // Do nothing!! } DEFUN_DLD (unwinddemo, args, nargout, "Unwind Demo") { if (args.length () < 2) print_usage (); NDArray a = args(0).array_value (); NDArray b = args(1).array_value (); // Declare unwind_protect frame which lasts as long as // the variable frame has scope. octave::unwind_protect frame; frame.add_fcn (set_liboctave_warning_handler, current_liboctave_warning_handler); frame.add_fcn (set_liboctave_warning_with_id_handler, current_liboctave_warning_with_id_handler); set_liboctave_warning_handler (my_err_handler); set_liboctave_warning_with_id_handler (my_err_with_id_handler); return octave_value (quotient (a, b)); }
As can be seen in the example:
unwinddemo (1, 0) ⇒ Inf 1 / 0 ⇒ warning: division by zero Inf
The warning for division by zero (and in fact all warnings) are disabled in the
unwinddemo
function.
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