Man Page fex_get_log_depth.3m


     fex_set_log,         fex_get_log,         fex_set_log_depth,
     fex_get_log_depth,  fex_log_entry  - log retrospective diag-
     nostics for floating point exceptions


     cc   [   flag   ...   ]   file   ...     -R/opt/SUNWspro/lib
     -L/opt/SUNWspro/lib -lm9x [ library ... ]

     #include <fenv.h>

     int fex_set_log(FILE *fp);

     FILE *fex_get_log(void);

     int fex_set_log_depth(int depth);

     int fex_get_log_depth(void);

     void fex_log_entry(const char *msg);


     fex_set_log(fp) enables logging of retrospective  diagnostic
     messages  regarding  floating  point  exceptions to the file
     specified by fp.  If fp is NULL, logging is disabled.   When
     a program starts, logging is initially disabled.

     The occurrence of any of the  twelve  exceptions  listed  in
     fex_set_handling(3M)   constitutes  an  event  that  may  be
     logged.  To prevent  the  log  from  becoming  exhorbitantly
     long,  the logging mechanism eliminates redundant entries by
     two methods.  First, each exception  is  associated  with  a
     site  in the program.  The site is identified by the address
     of the instruction that caused the exception together with a
     stack  trace.   Only  the first exception of a given type to
     occur  at  a  given  site  will  be  logged.   Second,  when
     FEX_NONSTOP  handling  mode is in effect for some exception,
     only those occurrences of that exception that set its previ-
     ously  clear  flag  are  logged.   (Clearing  a  flag  using
     feclearexcept() allows the next occurrence of the  exception
     to  be  logged provided it does not occur at a site at which
     it was previously logged.)

     Note that each of the different types of  invalid  operation
     exceptions  may  be  logged  at  the same site.  Because all
     invalid operation exceptions share the same  flag,  however,
     of those types for which FEX_NONSTOP mode is in effect, only
     the first exception to set the flag will be  logged.   (When
     the  invalid  operation  exception  is  raised  by a call to
     feraiseexcept() or  feupdateenv(),  which  type  of  invalid
     operation is logged depends on the implementation.)

     If an exception results in the creation of a log entry,  the
     entry is created at the time the exception occurs and before
     any    exception    handling    actions     selected     via
     fex_set_handling(3M)  are  taken.   (In  particular, the log
     entry is available even  if  the  program  terminates  as  a
     result  of  the exception.)  The log entry shows the type of
     exception, the address of the instruction  that  caused  it,
     how it will be handled, and the stack trace.  If symbols are
     available, the address of the excepting instruction and  the
     addresses  in  the  stack trace are followed by the names of
     the corresponding symbols.

     fex_get_log() returns the current log file.

     fex_set_log_depth(depth) sets the maximum depth of the stack
     trace  recorded  with  each exception to depth stack frames.
     The default depth is 100.

     fex_get_log_depth() returns the current maximum stack  trace

     fex_log_entry(msg) adds a user-supplied entry  to  the  log.
     The  entry  includes  the  string  pointed to by msg and the
     stack trace.  Like entries for  floating  point  exceptions,
     redundant  user-supplied  entries  are  eliminated: only the
     first user-supplied entry with a given msg to  be  requested
     from  a  given  site  will be logged.  (For the purpose of a
     user-supplied entry, the site is defined only by  the  stack
     trace,   which   begins   with   the  function  that  called


     fex_set_log returns a nonzero value if logging is enabled or
     disabled    accordingly    and   returns   zero   otherwise.
     fex_set_log_depth returns a nonzero value if  the  requested
     stack trace depth is established (regardless of whether log-
     ging is enabled) and returns zero otherwise.


     The following example shows  the  output  generated  when  a
     floating point overflow occurs in sscanf().

          #include <fenv.h>
          #include <stdio.h>

          main() {
               double x;
           * enable logging of retrospective diagnostics
               (void) fex_set_log(stdout);
           * establish default handling for overflows
               (void) fex_set_handling(FEX_OVERFLOW, FEX_NONSTOP, NULL);
           * trigger an overflow in sscanf
               (void) sscanf("1.0e+400", "%lf", &x);
               return 0;

     The output from the preceding program reads:

          Floating point overflow at 0xef71cac4 __base_conversion_set_exception, nonstop mode
            0xef71cacc  __base_conversion_set_exception
            0xef721820  _decimal_to_double
            0xef75aba8  number
            0xef75a94c  __doscan_u
            0xef75ecf8  sscanf
            0x00010f20  main

     (Recompiling the program or running it on another system may
     produce different text addresses from those shown above.)


     See attributes(5) for descriptions of the  following  attri-

    | Availability       |  SPROm9xs           |
    | Interface Stability|  Stable             |
    | MT-Level           |  MT-Safe (see Notes)|


     feclearexcept(3M),    fegetenv(3M),    fex_set_handling(3M),
     ieee_retrospective(3M), attributes(5)

     Numerical Computation Guide


     All threads in a process share the same log file.  Each call
     to fex_set_log() preempts the previous one.

     In addition to the log  file  itself,  two  additional  file
     descriptors  are  used during the creation of a log entry in
     order to obtain symbol names from  the  executable  and  any
     shared  objects  it uses.  These file descriptors are relin-
     quished once the log entry is written.  If the file descrip-
     tors cannot be allocated, symbols names are omitted from the
     stack trace.

     The functions described on this page  automatically  install
     and  deinstall  SIGFPE  handlers  and set and clear the trap
     enable mode bits in the floating point  status  register  as
     needed.   If  a program uses these functions and attempts to
     install a SIGFPE handler or control  the  trap  enable  mode
     bits independently, the resulting behavior is not defined.

     As described in fex_set_handling(3M), when a handling  func-
     tion  installed in FEX_CUSTOM mode is invoked, all exception
     traps are disabled (and will not be reenabled  while  SIGFPE
     is  blocked).   Thus,  retrospective diagnostic messages are
     not logged for exceptions that occur within such a handler.

     As shown in the synopsis, the recommended way to  link  with
     libm9x using cc is to specify

          -Rinstall-path/lib -Linstall-path/lib -lm9x

     on the command line, where install-path refers to the  loca-
     tion  in which the compilers are installed (/opt/SUNWspro by
     default).  See the Numerical  Computation  Guide  for  addi-
     tional information about linking with libm9x.