Actual source code: petscerror.h

  1: /*
  2:     Contains all error handling interfaces for PETSc.
  3: */
 6:  #include petsc.h

  9: /*
 10:    Defines the directory where the compiled source is located; used
 11:    in printing error messages. Each makefile has an entry 
 12:    LOCDIR          =  thedirectory
 13:    and bmake/common_variables includes in CCPPFLAGS -D__SDIR__='"${LOCDIR}"'
 14:    which is a flag passed to the C/C++ compilers. This declaration below
 15:    is only needed if some code is compiled without the -D__SDIR__
 16: */
 19: #endif

 21: /*
 22:    Defines the function where the compiled source is located; used 
 23:    in printing error messages. This is defined here in case the user
 24:    does not declare it.
 25: */
 28: #endif

 30: /* 
 31:      These are the generic error codes. These error codes are used
 32:      many different places in the PETSc source code. The string versions are
 33:      at src/sys/error/err.c any changes here must also be made there
 34:      These are also define in include/finclude/petscerror.h any CHANGES here
 35:      must be also made there.

 37: */
 38: #define PETSC_ERR_MIN_VALUE        54   /* should always be one less then the smallest value */

 40: #define PETSC_ERR_MEM              55   /* unable to allocate requested memory */
 41: #define PETSC_ERR_SUP              56   /* no support for requested operation */
 42: #define PETSC_ERR_SUP_SYS          57   /* no support for requested operation on this computer system */
 43: #define PETSC_ERR_ORDER            58   /* operation done in wrong order */
 44: #define PETSC_ERR_SIG              59   /* signal received */
 45: #define PETSC_ERR_FP               72   /* floating point exception */
 46: #define PETSC_ERR_COR              74   /* corrupted PETSc object */
 47: #define PETSC_ERR_LIB              76   /* error in library called by PETSc */
 48: #define PETSC_ERR_PLIB             77   /* PETSc library generated inconsistent data */
 49: #define PETSC_ERR_MEMC             78   /* memory corruption */
 50: #define PETSC_ERR_CONV_FAILED      82   /* iterative method (KSP or SNES) failed */
 51: #define PETSC_ERR_USER             83   /* user has not provided needed function */
 52: #define PETSC_ERR_SYS              88   /* error in system call */

 54: #define PETSC_ERR_ARG_SIZ          60   /* nonconforming object sizes used in operation */
 55: #define PETSC_ERR_ARG_IDN          61   /* two arguments not allowed to be the same */
 56: #define PETSC_ERR_ARG_WRONG        62   /* wrong argument (but object probably ok) */
 57: #define PETSC_ERR_ARG_CORRUPT      64   /* null or corrupted PETSc object as argument */
 58: #define PETSC_ERR_ARG_OUTOFRANGE   63   /* input argument, out of range */
 59: #define PETSC_ERR_ARG_BADPTR       68   /* invalid pointer argument */
 60: #define PETSC_ERR_ARG_NOTSAMETYPE  69   /* two args must be same object type */
 61: #define PETSC_ERR_ARG_NOTSAMECOMM  80   /* two args must be same communicators */
 62: #define PETSC_ERR_ARG_WRONGSTATE   73   /* object in argument is in wrong state, e.g. unassembled mat */
 63: #define PETSC_ERR_ARG_INCOMP       75   /* two arguments are incompatible */
 64: #define PETSC_ERR_ARG_NULL         85   /* argument is null that should not be */
 65: #define PETSC_ERR_ARG_UNKNOWN_TYPE 86   /* type name doesn't match any registered type */
 66: #define PETSC_ERR_ARG_DOMAIN       87   /* argument is not in domain of function */

 68: #define PETSC_ERR_FILE_OPEN        65   /* unable to open file */
 69: #define PETSC_ERR_FILE_READ        66   /* unable to read from file */
 70: #define PETSC_ERR_FILE_WRITE       67   /* unable to write to file */
 71: #define PETSC_ERR_FILE_UNEXPECTED  79   /* unexpected data in file */

 73: #define PETSC_ERR_MAT_LU_ZRPVT     71   /* detected a zero pivot during LU factorization */
 74: #define PETSC_ERR_MAT_CH_ZRPVT     81   /* detected a zero pivot during Cholesky factorization */

 76: #define PETSC_ERR_MAX_VALUE        89   /* this is always the one more than the largest error code */

 78: #if defined(PETSC_USE_ERRORCHECKING)

 80: /*MC
 81:    SETERRQ - Macro that is called when an error has been detected, 

 83:    Not Collective

 85:    Synopsis:
 86:    PetscErrorCode SETERRQ(PetscErrorCode errorcode,char *message)


 89:    Input Parameters:
 90: +  errorcode - nonzero error code, see the list of standard error codes in include/petscerror.h
 91: -  message - error message

 93:   Level: beginner

 95:    Notes:
 96:     Once the error handler is called the calling function is then returned from with the given error code.

 98:     See SETERRQ1(), SETERRQ2(), SETERRQ3() for versions that take arguments

100:     In Fortran MPI_Abort() is always called

102:     Experienced users can set the error handler with PetscPushErrorHandler().

104:    Concepts: error^setting condition

106: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), CHKERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3()
107: M*/
108: #define SETERRQ(n,s)              {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s);}

110: /*MC
111:    SETERRQ1 - Macro that is called when an error has been detected, 

113:    Not Collective

115:    Synopsis:
116:    PetscErrorCode SETERRQ1(PetscErrorCode errorcode,char *formatmessage,arg)


119:    Input Parameters:
120: +  errorcode - nonzero error code, see the list of standard error codes in include/petscerror.h
121: .  message - error message in the printf format
122: -  arg - argument (for example an integer, string or double)

124:   Level: beginner

126:    Notes:
127:     Once the error handler is called the calling function is then returned from with the given error code.

129:    Experienced users can set the error handler with PetscPushErrorHandler().

131:    Concepts: error^setting condition

133: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), CHKERRQ(), CHKMEMQ, SETERRQ(), SETERRQ2(), SETERRQ3()
134: M*/
135: #define SETERRQ1(n,s,a1)          {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1);}

137: /*MC
138:    SETERRQ2 - Macro that is called when an error has been detected, 

140:    Not Collective

142:    Synopsis:
143:    PetscErrorCode SETERRQ2(PetscErrorCode errorcode,char *formatmessage,arg1,arg2)


146:    Input Parameters:
147: +  errorcode - nonzero error code, see the list of standard error codes in include/petscerror.h
148: .  message - error message in the printf format
149: .  arg1 - argument (for example an integer, string or double)
150: -  arg2 - argument (for example an integer, string or double)

152:   Level: beginner

154:    Notes:
155:     Once the error handler is called the calling function is then returned from with the given error code.

157:    Experienced users can set the error handler with PetscPushErrorHandler().

159:    Concepts: error^setting condition

161: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), CHKERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ3()
162: M*/
163: #define SETERRQ2(n,s,a1,a2)       {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2);}

165: /*MC
166:    SETERRQ3 - Macro that is called when an error has been detected, 

168:    Not Collective

170:    Synopsis:
171:    PetscErrorCode SETERRQ3(PetscErrorCode errorcode,char *formatmessage,arg1,arg2,arg3)


174:    Input Parameters:
175: +  errorcode - nonzero error code, see the list of standard error codes in include/petscerror.h
176: .  message - error message in the printf format
177: .  arg1 - argument (for example an integer, string or double)
178: .  arg2 - argument (for example an integer, string or double)
179: -  arg3 - argument (for example an integer, string or double)

181:   Level: beginner

183:    Notes:
184:     Once the error handler is called the calling function is then returned from with the given error code.

186:     There are also versions for 4, 5, 6 and 7 arguments.

188:    Experienced users can set the error handler with PetscPushErrorHandler().

190:    Concepts: error^setting condition

192: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), CHKERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2()
193: M*/
194: #define SETERRQ3(n,s,a1,a2,a3)    {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2,a3);}

196: #define SETERRQ4(n,s,a1,a2,a3,a4) {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2,a3,a4);}
197: #define SETERRQ5(n,s,a1,a2,a3,a4,a5)       {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2,a3,a4,a5);}
198: #define SETERRQ6(n,s,a1,a2,a3,a4,a5,a6)    {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2,a3,a4,a5,a6);}
199: #define SETERRQ7(n,s,a1,a2,a3,a4,a5,a6,a7) {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s,a1,a2,a3,a4,a5,a6,a7);}
200: #define SETERRABORT(comm,n,s)     {PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,1,s);MPI_Abort(comm,n);}

202: /*MC
203:    CHKERRQ - Checks error code, if non-zero it calls the error handler and then returns

205:    Not Collective

207:    Synopsis:
208:    PetscErrorCode CHKERRQ(PetscErrorCode errorcode)


211:    Input Parameters:
212: .  errorcode - nonzero error code, see the list of standard error codes in include/petscerror.h

214:   Level: beginner

216:    Notes:
217:     Once the error handler is called the calling function is then returned from with the given error code.

219:     Experienced users can set the error handler with PetscPushErrorHandler().

221:     CHKERRQ(n) is fundamentally a macro replacement for
222:          if (n) return(PetscError(...,n,...));

224:     Although typical usage resembles "void CHKERRQ(PetscErrorCode)" as described above, for certain uses it is
225:     highly inappropriate to use it in this manner as it invokes return(PetscErrorCode). In particular,
226:     it cannot be used in functions which return(void) or any other datatype.  In these types of functions,
227:     you can use CHKERRV() which returns without an error code (bad idea since the error is ignored or
228:          if (n) {PetscError(....); return(YourReturnType);} 
229:     where you may pass back a PETSC_NULL to indicate an error. You can also call CHKERRABORT(comm,n) to have
230:     MPI_Abort() returned immediately.

232:     In Fortran MPI_Abort() is always called

234:    Concepts: error^setting condition

236: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ2()
237: M*/
238: #define CHKERRQ(n)             if (n) {return PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,0," ");}

240: #define CHKERRV(n)             if (n) {n = PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,0," ");return;}
241: #define CHKERRABORT(comm,n)    if (n) {PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,0," ");MPI_Abort(comm,n);}
242: #define CHKERRCONTINUE(n)      if (n) {PetscError(__LINE__,__FUNCT__,__FILE__,__SDIR__,n,0," ");}

244: #define CHKFPQ(f) if (f != f) {SETERRQ(PETSC_ERR_FP, "Invalid value: NaN");}

246: /*MC
247:    CHKMEMQ - Checks the memory for corruption, calls error handler if any is detected

249:    Not Collective

251:    Synopsis:
252:    CHKMEMQ;

254:   Level: beginner

256:    Notes:
257:     Must run with the option -malloc_debug to enable this option

259:     Once the error handler is called the calling function is then returned from with the given error code.

261:     By defaults prints location where memory that is corrupted was allocated.

263:     Use CHKMEMA for functions that return void

265:    Concepts: memory corruption

267: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3(), 
268:           PetscMallocValidate()
269: M*/
270: #define CHKMEMQ {PetscErrorCode _7_PetscMallocValidate(__LINE__,__FUNCT__,__FILE__,__SDIR__);CHKERRQ(_7_ierr);}

272: #define CHKMEMA {PetscMallocValidate(__LINE__,__FUNCT__,__FILE__,__SDIR__);}

274: #if defined(PETSC_UNDERSCORE_CHKERR)
276: #define _   __g
278: #endif

280: #define               PETSC_EXCEPTIONS_MAX  256

286: EXTERN PetscErrorCode  PetscExceptionPush(PetscErrorCode);
287: EXTERN PetscErrorCode  PetscExceptionPop(PetscErrorCode);

289: EXTERN PetscErrorCode  PetscErrorSetCatchable(PetscErrorCode,PetscTruth);
290: EXTERN PetscTruth  PetscErrorIsCatchable(PetscErrorCode);
291: /*MC
292:    PetscExceptionCaught - Indicates if a specific exception zierr was caught.

294:    Not Collective

296:    Synopsis:
297:      PetscTruth PetscExceptionCaught(PetscErrorCode xierr,PetscErrorCode zierr);

299:   Input Parameters:
300:   + xierr - error code returned from PetscExceptionTry1() or other PETSc routine
301:   - zierr - error code you want it to be

303:   Level: advanced

305:    Notes:
306:     PETSc must not be configured using the option --with-errorchecking=0 for this to work

308:     Use PetscExceptionValue() to see if an error code is being "tried"

310:   Concepts: exceptions, exception handling

312: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3(), 
313:           CHKERRQ(), PetscExceptionTry1(), PetscExceptionValue()
314: M*/
315: PETSC_STATIC_INLINE PetscTruth PetscExceptionCaught(PetscErrorCode xierr,PetscErrorCode zierr) {
316:   PetscInt i;
317:   if (xierr != zierr) return PETSC_FALSE;
318:   for (i=0; i<PetscErrorUncatchableCount; i++) {
319:     if (PetscErrorUncatchable[i] == zierr) {
320:       return PETSC_FALSE;
321:     }
322:   }
323:   return PETSC_TRUE;
324: }

326: /*MC
327:    PetscExceptionValue - Indicates if the error code is one that is currently being tried

329:    Not Collective

331:    Synopsis:
332:      PetscTruth PetscExceptionValue(PetscErrorCode xierr);

334:   Input Parameters:
335:   . xierr - error code 

337:   Level: developer

339:    Notes:
340:     PETSc must not be configured using the option --with-errorchecking=0 for this to work

342:     Use PetscExceptionCaught() to see if the current error code is EXACTLY the one you want

344:   Concepts: exceptions, exception hanlding

346: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3(), 
347:           CHKERRQ(), PetscExceptionTry1(), PetscExceptionCaught()
348: M*/
349: PETSC_STATIC_INLINE PetscTruth PetscExceptionValue(PetscErrorCode zierr) {
350:   PetscInt i;
351:   for (i=0; i<PetscExceptionsCount; i++) {
352:     if (PetscExceptions[i] == zierr) {
353:       return PETSC_TRUE;
354:     }
355:   }
356:   return PETSC_FALSE;
357: }

359: /*MC
360:    PetscExceptionTry1 - Runs the routine, causing a particular error code to be treated as an exception,
361:          rather than an error. That is if that error code is treated the program returns to this level,
362:          but does not call the error handlers

364:    Not Collective

366:    Synopsis:
367:      PetscErrorCode PetscExceptionTry1(PetscErrorCode routine(....),PetscErrorCode);

369:   Level: advanced

371:    No Fortran Equivalent (see PetscExceptionPush() for Fortran)

373:    Notes:
374:     PETSc must not be configured using the option --with-errorchecking=0 for this to work

376:   Note: In general, the outer most try on an exception is the one that will be caught (that is trys down in 
377:         PETSc code will not usually handle an exception that was issued above). See SNESSolve() for an example
378:         of how the local try is ignored if a higher (in the stack) one is also in effect.

380:   Concepts: exceptions, exception hanlding

382: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3(), 
383:           CHKERRQ(), PetscExceptionCaught(), PetscExceptionPush(), PetscExceptionPop()
384: M*/
386: #define PetscExceptionTry1(a,b) (PetscExceptionTmp = PetscExceptionPush(b)) ? PetscExceptionTmp : (PetscExceptionTmp = a, (PetscExceptionPop(b) || PetscExceptionTmp))

388: /*
389:    Used by PetscExceptionTrySync(). Returns zierr on ALL processes in comm iff xierr is zierr on at least one process and zero on all others.
390: */
391: PETSC_STATIC_INLINE PetscErrorCode PetscExceptionTrySync_Private(MPI_Comm comm,PetscErrorCode xierr,PetscErrorCode zierr)
392: {
393:   PetscReal      in[2],out[2];

396:   if (xierr != zierr) return xierr;

398:   in[0] = xierr;
399:   in[1] = 0.0;   /* dummy value */

401:   MPI_Allreduce(in,out,2,MPIU_REAL,0,comm); if (ierr) {;}
402:   return xierr;
403: }

405: /*MC
406:    PetscExceptionTrySyncNorm - Runs the routine, causing a particular error code to be treated as an exception,
407:          rather than an error. That is if that error code is treated the program returns to this level,
408:          but does not call the error handlers

410:      Collective on Comm

412:    Synopsis:
413:      PetscExceptionTrySyncNorm(MPI_Comm comm,PetscErrorCode routine(....),PetscErrorCode);

415:   Level: advanced

417:    Notes: This synchronizes the error code across all processes in the communicator IF the code matches PetscErrorCode. The next
418:      call with an MPI_Reduce()/MPI_Allreduce() MUST be VecNorm() [We can added VecDot() and maybe others as needed].

420:     PETSc must not be configured using the option --with-errorchecking=0 for this to work

422:   Note: In general, the outer most try on an exception is the one that will be caught (that is trys down in 
423:         PETSc code will not usually handle an exception that was issued above). See SNESSolve() for an example
424:         of how the local try is ignored if a higher (in the stack) one is also in effect.

426:   Concepts: exceptions, exception hanlding

428: .seealso: PetscTraceBackErrorHandler(), PetscPushErrorHandler(), PetscError(), SETERRQ(), CHKMEMQ, SETERRQ1(), SETERRQ2(), SETERRQ3(), 
429:           CHKERRQ(), PetscExceptionCaught(), PetscExceptionPush(), PetscExceptionPop(), PetscExceptionTry1()
430: M*/
432: #define PetscExceptionTrySyncNorm(comm,a,b) (PetscExceptionTmp = PetscExceptionPush(b)) ? PetscExceptionTmp : \
433:                                         (PetscExceptionTmp = a , PetscExceptionPop(b),PetscExceptionTrySyncNorm_Private(comm,PetscExceptionTmp,b))

435: #else

437: /* 
438:     These are defined to be empty for when error checking is turned off, with config/configure.py --with-errorchecking=0
439: */

441: #define SETERRQ(n,s) ;
442: #define SETERRQ1(n,s,a1) ;
443: #define SETERRQ2(n,s,a1,a2) ;
444: #define SETERRQ3(n,s,a1,a2,a3) ;
445: #define SETERRQ4(n,s,a1,a2,a3,a4) ;
446: #define SETERRQ5(n,s,a1,a2,a3,a4,a5) ;
447: #define SETERRQ6(n,s,a1,a2,a3,a4,a5,a6) ;
448: #define SETERRABORT(comm,n,s) ;

450: #define CHKERRQ(n)     ;
451: #define CHKERRABORT(comm,n) ;
452: #define CHKERRCONTINUE(n) ;
453: #define CHKFPQ(f) ;
454: #define CHKMEMQ        ;

456: #if !defined(PETSC_SKIP_UNDERSCORE_CHKERR)
457: #define _   
459: #endif 

461: #define PetscExceptionPush(a)                0
462: #define PetscExceptionPop(a)                 0
463: #define PetscErrorSetCatchable(a,b)          0
464: #define PetscErrorIsCatchable(a)             PETSC_FALSE

466: #define PetscExceptionCaught(a,b)            PETSC_FALSE
467: #define PetscExceptionValue(a)               PETSC_FALSE
468: #define PetscExceptionTry1(a,b)              a
469: #define PetscExceptionTrySyncNorm(comm,a,b)  a

471: #endif

473: EXTERN PetscErrorCode  PetscErrorPrintfInitialize(void);
474: EXTERN PetscErrorCode  PetscErrorMessage(int,const char*[],char **);
475: EXTERN PetscErrorCode  PetscTraceBackErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
476: EXTERN PetscErrorCode  PetscIgnoreErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
477: EXTERN PetscErrorCode  PetscEmacsClientErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
478: EXTERN PetscErrorCode  PetscMPIAbortErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
479: EXTERN PetscErrorCode  PetscAbortErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
480: EXTERN PetscErrorCode  PetscAttachDebuggerErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
481: EXTERN PetscErrorCode  PetscReturnErrorHandler(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*);
482: EXTERN PetscErrorCode  PetscError(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,...) PETSC_PRINTF_FORMAT_CHECK(7,8);
483: EXTERN PetscErrorCode  PetscPushErrorHandler(PetscErrorCode (*handler)(int,const char*,const char*,const char*,PetscErrorCode,int,const char*,void*),void*);
484: EXTERN PetscErrorCode  PetscPopErrorHandler(void);
485: EXTERN PetscErrorCode  PetscDefaultSignalHandler(int,void*);
486: EXTERN PetscErrorCode  PetscPushSignalHandler(PetscErrorCode (*)(int,void *),void*);
487: EXTERN PetscErrorCode  PetscPopSignalHandler(void);

489: typedef enum {PETSC_FP_TRAP_OFF=0,PETSC_FP_TRAP_ON=1} PetscFPTrap;
490: EXTERN PetscErrorCode   PetscSetFPTrap(PetscFPTrap);

492: /*
493:       Allows the code to build a stack frame as it runs
494: */
495: #if defined(PETSC_USE_DEBUG)

497: #define PETSCSTACKSIZE 15

499: typedef struct  {
500:   const char *function[PETSCSTACKSIZE];
501:   const char *file[PETSCSTACKSIZE];
502:   const char *directory[PETSCSTACKSIZE];
503:         int  line[PETSCSTACKSIZE];
504:         int currentsize;
505: } PetscStack;

508: EXTERN PetscErrorCode   PetscStackCopy(PetscStack*,PetscStack*);
509: EXTERN PetscErrorCode   PetscStackPrint(PetscStack*,FILE* fp);

511: #define PetscStackActive (petscstack != 0)


514: /*MC
516:         used for error handling.

518:    Synopsis:

521:    Usage:
522: .vb
523:      int something;

526: .ve

528:    Notes:
529:      Not available in Fortran

531:    Level: developer

533: .seealso: PetscFunctionReturn()

535: .keywords: traceback, error handling
536: M*/
538:   {\
539:    if (petscstack && (petscstack->currentsize < PETSCSTACKSIZE)) {    \
540:     petscstack->function[petscstack->currentsize]  = __FUNCT__; \
541:     petscstack->file[petscstack->currentsize]      = __FILE__; \
542:     petscstack->directory[petscstack->currentsize] = __SDIR__; \
543:     petscstack->line[petscstack->currentsize]      = __LINE__; \
544:     petscstack->currentsize++; \
545:   }}

547: #define PetscStackPush(n) \
548:   {if (petscstack && (petscstack->currentsize < PETSCSTACKSIZE)) {    \
549:     petscstack->function[petscstack->currentsize]  = n; \
550:     petscstack->file[petscstack->currentsize]      = "unknown"; \
551:     petscstack->directory[petscstack->currentsize] = "unknown"; \
552:     petscstack->line[petscstack->currentsize]      = 0; \
553:     petscstack->currentsize++; \
554:   }}

556: #define PetscStackPop \
557:   {if (petscstack && petscstack->currentsize > 0) {     \
558:     petscstack->currentsize--; \
559:     petscstack->function[petscstack->currentsize]  = 0; \
560:     petscstack->file[petscstack->currentsize]      = 0; \
561:     petscstack->directory[petscstack->currentsize] = 0; \
562:     petscstack->line[petscstack->currentsize]      = 0; \
563:   }};

565: /*MC
566:    PetscFunctionReturn - Last executable line of each PETSc function
567:         used for error handling. Replaces return()

569:    Synopsis:
570:    void return(0);

572:    Usage:
573: .vb
574:     ....
575:      return(0);
576:    }
577: .ve

579:    Notes:
580:      Not available in Fortran

582:    Level: developer


586: .keywords: traceback, error handling
587: M*/
588: #define PetscFunctionReturn(a) \
589:   {\
590:   PetscStackPop; \
591:   return(a);}

593: #define PetscFunctionReturnVoid() \
594:   {\
595:   PetscStackPop; \
596:   return;}


599: #else

602: #define PetscFunctionReturn(a)  return(a)
603: #define PetscFunctionReturnVoid() return
604: #define PetscStackPop 
605: #define PetscStackPush(f) 
606: #define PetscStackActive        0

608: #endif

610: EXTERN PetscErrorCode   PetscStackCreate(void);
611: EXTERN PetscErrorCode   PetscStackView(PetscViewer);
612: EXTERN PetscErrorCode   PetscStackDestroy(void);
613: EXTERN PetscErrorCode   PetscStackPublish(void);
614: EXTERN PetscErrorCode   PetscStackDepublish(void);


618: #endif