Actual source code: iscomp.c


  2: #include <petsc/private/isimpl.h>
  3: #include <petscviewer.h>

  5: /*@
  6:    ISEqual  - Compares if two index sets have the same set of indices.

  8:    Collective on IS

 10:    Input Parameters:
 11: .  is1, is2 - The index sets being compared

 13:    Output Parameters:
 14: .  flg - output flag, either PETSC_TRUE (if both index sets have the
 15:          same indices), or PETSC_FALSE if the index sets differ by size
 16:          or by the set of indices)

 18:    Level: intermediate

 20:    Note:
 21:    Unlike ISEqualUnsorted(), this routine sorts the contents of the index sets before
 22:    the comparison is made, so the order of the indices on a processor is immaterial.

 24:    Each processor has to have the same indices in the two sets, for example,
 25: $           Processor
 26: $             0      1
 27: $    is1 = {0, 1} {2, 3}
 28: $    is2 = {2, 3} {0, 1}
 29:    will return false.

 31: .seealso: ISEqualUnsorted()
 32: @*/
 33: PetscErrorCode  ISEqual(IS is1,IS is2,PetscBool  *flg)
 34: {
 35:   PetscInt       sz1,sz2,*a1,*a2;
 36:   const PetscInt *ptr1,*ptr2;
 37:   PetscBool      flag;
 38:   MPI_Comm       comm;
 39:   PetscMPIInt    mflg;


 45:   if (is1 == is2) {
 46:     *flg = PETSC_TRUE;
 47:     return 0;
 48:   }

 50:   MPI_Comm_compare(PetscObjectComm((PetscObject)is1),PetscObjectComm((PetscObject)is2),&mflg);
 51:   if (mflg != MPI_CONGRUENT && mflg != MPI_IDENT) {
 52:     *flg = PETSC_FALSE;
 53:     return 0;
 54:   }

 56:   ISGetSize(is1,&sz1);
 57:   ISGetSize(is2,&sz2);
 58:   if (sz1 != sz2) *flg = PETSC_FALSE;
 59:   else {
 60:     ISGetLocalSize(is1,&sz1);
 61:     ISGetLocalSize(is2,&sz2);

 63:     if (sz1 != sz2) flag = PETSC_FALSE;
 64:     else {
 65:       ISGetIndices(is1,&ptr1);
 66:       ISGetIndices(is2,&ptr2);

 68:       PetscMalloc1(sz1,&a1);
 69:       PetscMalloc1(sz2,&a2);

 71:       PetscArraycpy(a1,ptr1,sz1);
 72:       PetscArraycpy(a2,ptr2,sz2);

 74:       PetscIntSortSemiOrdered(sz1,a1);
 75:       PetscIntSortSemiOrdered(sz2,a2);
 76:       PetscArraycmp(a1,a2,sz1,&flag);

 78:       ISRestoreIndices(is1,&ptr1);
 79:       ISRestoreIndices(is2,&ptr2);

 81:       PetscFree(a1);
 82:       PetscFree(a2);
 83:     }
 84:     PetscObjectGetComm((PetscObject)is1,&comm);
 85:     MPIU_Allreduce(&flag,flg,1,MPIU_BOOL,MPI_MIN,comm);
 86:   }
 87:   return 0;
 88: }

 90: /*@
 91:    ISEqualUnsorted  - Compares if two index sets have the same indices.

 93:    Collective on IS

 95:    Input Parameters:
 96: .  is1, is2 - The index sets being compared

 98:    Output Parameters:
 99: .  flg - output flag, either PETSC_TRUE (if both index sets have the
100:          same indices), or PETSC_FALSE if the index sets differ by size
101:          or by the set of indices)

103:    Level: intermediate

105:    Note:
106:    Unlike ISEqual(), this routine does NOT sort the contents of the index sets before
107:    the comparison is made, i.e., the order of indices is important.

109: .seealso: ISEqual()
110: @*/
111: PetscErrorCode  ISEqualUnsorted(IS is1,IS is2,PetscBool  *flg)
112: {
113:   PetscInt       sz1,sz2;
114:   const PetscInt *ptr1,*ptr2;
115:   PetscBool      flag;
116:   MPI_Comm       comm;
117:   PetscMPIInt    mflg;


123:   if (is1 == is2) {
124:     *flg = PETSC_TRUE;
125:     return 0;
126:   }

128:   MPI_Comm_compare(PetscObjectComm((PetscObject)is1),PetscObjectComm((PetscObject)is2),&mflg);
129:   if (mflg != MPI_CONGRUENT && mflg != MPI_IDENT) {
130:     *flg = PETSC_FALSE;
131:     return 0;
132:   }

134:   ISGetSize(is1,&sz1);
135:   ISGetSize(is2,&sz2);
136:   if (sz1 != sz2) *flg = PETSC_FALSE;
137:   else {
138:     ISGetLocalSize(is1,&sz1);
139:     ISGetLocalSize(is2,&sz2);

141:     if (sz1 != sz2) flag = PETSC_FALSE;
142:     else {
143:       ISGetIndices(is1,&ptr1);
144:       ISGetIndices(is2,&ptr2);

146:       PetscArraycmp(ptr1,ptr2,sz1,&flag);

148:       ISRestoreIndices(is1,&ptr1);
149:       ISRestoreIndices(is2,&ptr2);
150:     }
151:     PetscObjectGetComm((PetscObject)is1,&comm);
152:     MPIU_Allreduce(&flag,flg,1,MPIU_BOOL,MPI_MIN,comm);
153:   }
154:   return 0;
155: }