2: /* This file contains info for the use of PETSc Fortran interface stubs */
3: #if !defined(_FORTRANIMPL_H)
4: #define _FORTRANIMPL_H 6: #include <petsc/private/petscimpl.h> 8: /* PETSC_STDCALL is defined on some Microsoft Windows systems and is used for functions compiled by the Fortran compiler */
9: #if !defined(PETSC_STDCALL)
10: #define PETSC_STDCALL 11: #endif
12: PETSC_EXTERN PetscErrorCode PetscMPIFortranDatatypeToC(MPI_Fint,MPI_Datatype*);
14: PETSC_EXTERN PetscErrorCode PetscScalarAddressToFortran(PetscObject,PetscInt,PetscScalar*,PetscScalar*,PetscInt,size_t*);
15: PETSC_EXTERN PetscErrorCode PetscScalarAddressFromFortran(PetscObject,PetscScalar*,size_t,PetscInt,PetscScalar **);
16: PETSC_EXTERN size_t PetscIntAddressToFortran(const PetscInt*,const PetscInt*);
17: PETSC_EXTERN PetscInt *PetscIntAddressFromFortran(const PetscInt*,size_t);
18: PETSC_EXTERN char *PETSC_NULL_CHARACTER_Fortran;
19: PETSC_EXTERN void *PETSC_NULL_INTEGER_Fortran;
20: PETSC_EXTERN void *PETSC_NULL_SCALAR_Fortran;
21: PETSC_EXTERN void *PETSC_NULL_DOUBLE_Fortran;
22: PETSC_EXTERN void *PETSC_NULL_REAL_Fortran;
23: PETSC_EXTERN void *PETSC_NULL_BOOL_Fortran;
24: PETSC_EXTERN void (*PETSC_NULL_FUNCTION_Fortran)(void);
25: /* ----------------------------------------------------------------------*/
26: /*
27: PETSc object C pointers are stored directly as
28: Fortran integer*4 or *8 depending on the size of pointers.
29: */
32: /* --------------------------------------------------------------------*/
33: #ifndef PETSC_FORTRAN_CHARLEN_T
34: # define PETSC_FORTRAN_CHARLEN_T int
35: #endif
36: /*
37: This lets us map the str-len argument either, immediately following
38: the char argument (DVF on Win32) or at the end of the argument list
39: (general unix compilers)
40: */
41: #if defined(PETSC_HAVE_FORTRAN_MIXED_STR_ARG)
42: #define PETSC_MIXED_LEN(len) ,PETSC_FORTRAN_CHARLEN_T len 43: #define PETSC_END_LEN(len) 44: #define PETSC_MIXED_LEN_CALL(len) ,((PETSC_FORTRAN_CHARLEN_T)(len)) 45: #define PETSC_END_LEN_CALL(len) 46: #define PETSC_MIXED_LEN_PROTO ,PETSC_FORTRAN_CHARLEN_T 47: #define PETSC_END_LEN_PROTO 48: #else
49: #define PETSC_MIXED_LEN(len) 50: #define PETSC_END_LEN(len) ,PETSC_FORTRAN_CHARLEN_T len 51: #define PETSC_MIXED_LEN_CALL(len) 52: #define PETSC_END_LEN_CALL(len) ,((PETSC_FORTRAN_CHARLEN_T)(len)) 53: #define PETSC_MIXED_LEN_PROTO 54: #define PETSC_END_LEN_PROTO ,PETSC_FORTRAN_CHARLEN_T 55: #endif
57: /* --------------------------------------------------------------------*/
58: /*
59: Since Fortran does not null terminate strings we need to insure the string is null terminated before passing it
60: to C. This may require a memory allocation which is then freed with FREECHAR().
61: */
62: #define FIXCHAR(a,n,b) \ 63: {\ 64: if (a == PETSC_NULL_CHARACTER_Fortran) { \ 65: b = a = 0; \ 66: } else { \ 67: while((n > 0) && (a[n-1] == ' ')) n--; \ 68: *PetscMalloc1(n+1,&b); \ 69: if (*ierr) return; \ 70: *PetscStrncpy(b,a,n+1); \ 71: if (*ierr) return; \ 72: } \ 73: } 74: #define FREECHAR(a,b) if (a != b) *PetscFree(b); 76: /*
77: Fortran expects any unneeded characters at the end of its strings to be filled with the blank character.
78: */
79: #define FIXRETURNCHAR(flg,a,n) \ 80: if (flg) { \ 81: PETSC_FORTRAN_CHARLEN_T __i; \ 82: for (__i=0; __i<n && a[__i] != 0; __i++) {}; \ 83: for (; __i<n; __i++) a[__i] = ' ' ; \ 84: } 86: /*
87: The cast through PETSC_UINTPTR_T is so that compilers that warn about casting to/from void * to void(*)(void)
88: will not complain about these comparisons. It is not know if this works for all compilers
89: */
90: #define FORTRANNULLINTEGER(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_INTEGER_Fortran) 91: #define FORTRANNULLSCALAR(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_SCALAR_Fortran) 92: #define FORTRANNULLDOUBLE(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_DOUBLE_Fortran) 93: #define FORTRANNULLREAL(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_REAL_Fortran) 94: #define FORTRANNULLBOOL(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_BOOL_Fortran) 95: #define FORTRANNULLCHARACTER(a) (((void*)(PETSC_UINTPTR_T)a) == PETSC_NULL_CHARACTER_Fortran) 96: #define FORTRANNULLFUNCTION(a) (((void(*)(void))(PETSC_UINTPTR_T)a) == PETSC_NULL_FUNCTION_Fortran) 97: #define FORTRANNULLOBJECT(a) (*(void**)(PETSC_UINTPTR_T)a == (void*)-1) 99: #define CHKFORTRANNULLINTEGER(a) \100: if (FORTRANNULLDOUBLE(a) || FORTRANNULLSCALAR(a) || FORTRANNULLREAL(a) || FORTRANNULLBOOL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \101: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \102: "Use PETSC_NULL_INTEGER"); *1; return; } \103: else if (FORTRANNULLINTEGER(a)) { a = NULL; }105: #define CHKFORTRANNULLSCALAR(a) \106: if (FORTRANNULLINTEGER(a) || FORTRANNULLDOUBLE(a) || FORTRANNULLREAL(a) || FORTRANNULLBOOL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \107: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \108: "Use PETSC_NULL_SCALAR"); *1; return; } \109: else if (FORTRANNULLSCALAR(a)) { a = NULL; }111: #define CHKFORTRANNULLDOUBLE(a) \112: if (FORTRANNULLINTEGER(a) || FORTRANNULLSCALAR(a) || FORTRANNULLREAL(a) || FORTRANNULLBOOL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \113: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \114: "Use PETSC_NULL_DOUBLE"); *1; return; } \115: else if (FORTRANNULLDOUBLE(a)) { a = NULL; }117: #define CHKFORTRANNULLREAL(a) \118: if (FORTRANNULLINTEGER(a) || FORTRANNULLDOUBLE(a) || FORTRANNULLSCALAR(a) || FORTRANNULLBOOL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \119: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \120: "Use PETSC_NULL_REAL"); *1; return; } \121: else if (FORTRANNULLREAL(a)) { a = NULL; }123: /*
124: The next two macros can generate false positives for Valgrind if the object passed
125: in has never been set before because the location (void**)a has never had a value
126: set to it. To prevent the false positive in the Fortran code one can initialize the
127: object with a = tXXX(0); for example a = tVec(0)
128: */
129: #define CHKFORTRANNULLOBJECT(a) \130: if (FORTRANNULLINTEGER(a) || FORTRANNULLDOUBLE(a) || FORTRANNULLSCALAR(a) || FORTRANNULLREAL(a) || FORTRANNULLBOOL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \131: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \132: "Use PETSC_NULL_XXX where XXX is the name of a particular object class"); *1; return; } \133: else if (*(void**)a == (void*)0) { a = NULL; }135: #define CHKFORTRANNULLBOOL(a) \136: if (FORTRANNULLSCALAR(a) || FORTRANNULLINTEGER(a) || FORTRANNULLDOUBLE(a) || FORTRANNULLSCALAR(a) || FORTRANNULLREAL(a) || FORTRANNULLFUNCTION(a) || FORTRANNULLCHARACTER(a)) { \137: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \138: "Use PETSC_NULL_BOOL"); *1; return; } \139: else if (FORTRANNULLBOOL(a)) { a = NULL; }141: #define CHKFORTRANNULLFUNCTION(a) \142: if (FORTRANNULLOBJECT(a) || FORTRANNULLSCALAR(a) || FORTRANNULLDOUBLE(a) || FORTRANNULLREAL(a) || FORTRANNULLINTEGER(a) || FORTRANNULLBOOL(a) || FORTRANNULLCHARACTER(a)) { \143: PetscError(PETSC_COMM_SELF,__LINE__,"fortran_interface_unknown_file",__FILE__,PETSC_ERR_ARG_WRONG,PETSC_ERROR_INITIAL, \144: "Use PETSC_NULL_FUNCTION"); *1; return; } \145: else if (FORTRANNULLFUNCTION(a)) { a = NULL; }149: /*
150: Variable type where we stash PETSc object pointers in Fortran.
151: */
152: typedef PETSC_UINTPTR_T PetscFortranAddr;
154: /*
155: These are used to support the default viewers that are
156: created at run time, in C using the , trick.
158: The numbers here must match the numbers in include/petsc/finclude/petscsys.h
159: */
160: #define PETSC_VIEWER_DRAW_WORLD_FORTRAN 4161: #define PETSC_VIEWER_DRAW_SELF_FORTRAN 5162: #define PETSC_VIEWER_SOCKET_WORLD_FORTRAN 6163: #define PETSC_VIEWER_SOCKET_SELF_FORTRAN 7164: #define PETSC_VIEWER_STDOUT_WORLD_FORTRAN 8165: #define PETSC_VIEWER_STDOUT_SELF_FORTRAN 9166: #define PETSC_VIEWER_STDERR_WORLD_FORTRAN 10167: #define PETSC_VIEWER_STDERR_SELF_FORTRAN 11168: #define PETSC_VIEWER_BINARY_WORLD_FORTRAN 12169: #define PETSC_VIEWER_BINARY_SELF_FORTRAN 13170: #define PETSC_VIEWER_MATLAB_WORLD_FORTRAN 14171: #define PETSC_VIEWER_MATLAB_SELF_FORTRAN 15173: #if defined (PETSC_USE_SOCKET_VIEWER)
174: #define PetscPatchDefaultViewers_Fortran_Socket(vin,v) \175: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_SOCKET_WORLD_FORTRAN) { \176: v = PETSC_VIEWER_SOCKET_WORLD; \177: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_SOCKET_SELF_FORTRAN) { \178: v = PETSC_VIEWER_SOCKET_SELF179: #else
180: #define PetscPatchDefaultViewers_Fortran_Socket(vin,v)181: #endif
183: #define PetscPatchDefaultViewers_Fortran(vin,v) \184: { \185: if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_DRAW_WORLD_FORTRAN) { \186: v = PETSC_VIEWER_DRAW_WORLD; \187: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_DRAW_SELF_FORTRAN) { \188: v = PETSC_VIEWER_DRAW_SELF; \189: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_STDOUT_WORLD_FORTRAN) { \190: v = PETSC_VIEWER_STDOUT_WORLD; \191: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_STDOUT_SELF_FORTRAN) { \192: v = PETSC_VIEWER_STDOUT_SELF; \193: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_STDERR_WORLD_FORTRAN) { \194: v = PETSC_VIEWER_STDERR_WORLD; \195: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_STDERR_SELF_FORTRAN) { \196: v = PETSC_VIEWER_STDERR_SELF; \197: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_BINARY_WORLD_FORTRAN) { \198: v = PETSC_VIEWER_BINARY_WORLD; \199: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_BINARY_SELF_FORTRAN) { \200: v = PETSC_VIEWER_BINARY_SELF; \201: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_MATLAB_WORLD_FORTRAN) { \202: v = PETSC_VIEWER_BINARY_WORLD; \203: } else if ((*(PetscFortranAddr*)vin) == PETSC_VIEWER_MATLAB_SELF_FORTRAN) { \204: v = PETSC_VIEWER_BINARY_SELF; \205: PetscPatchDefaultViewers_Fortran_Socket(vin,v); \206: } else { \207: v = *vin; \208: } \209: }211: /*
212: Allocates enough space to store Fortran function pointers in PETSc object
213: that are needed by the Fortran interface.
214: */
215: #define PetscObjectAllocateFortranPointers(obj,N) do { \216: if (!((PetscObject)(obj))->fortran_func_pointers) { \217: *PetscMalloc((N)*sizeof(void(*)(void)),&((PetscObject)(obj))->fortran_func_pointers);if (*ierr) return; \218: *PetscMemzero(((PetscObject)(obj))->fortran_func_pointers,(N)*sizeof(void(*)(void)));if (*ierr) return; \219: ((PetscObject)obj)->num_fortran_func_pointers = (N); \220: } \221: } while (0)223: /* Entire function body, _ctx is a "special" variable that can be passed along */
224: #define PetscObjectUseFortranCallback_Private(obj,cid,types,args,cbclass) { \226: void (PETSC_STDCALL *func) types,*_ctx; \228: PetscObjectGetFortranCallback((PetscObject)(obj),(cbclass),(cid),(PetscVoidFunction*)&func,&_ctx); \229: if (func) {(*func)args;} \230: return(0); \231: }232: #define PetscObjectUseFortranCallback(obj,cid,types,args) PetscObjectUseFortranCallback_Private(obj,cid,types,args,PETSC_FORTRAN_CALLBACK_CLASS)233: #define PetscObjectUseFortranCallbackSubType(obj,cid,types,args) PetscObjectUseFortranCallback_Private(obj,cid,types,args,PETSC_FORTRAN_CALLBACK_SUBTYPE)235: /* Disable deprecation warnings while building Fortran wrappers */
236: #undef PETSC_DEPRECATED237: #define PETSC_DEPRECATED(arg)239: #endif