xref: /petsc/src/mat/impls/normal/normmh.c (revision 2ff79c18c26c94ed8cb599682f680f231dca6444) 
1 #include <../src/mat/impls/shell/shell.h> /*I "petscmat.h" I*/
2 
3 typedef struct {
4   Mat A;
5   Mat D; /* local submatrix for diagonal part */
6   Vec w;
7 } Mat_NormalHermitian;
8 
9 static PetscErrorCode MatCreateSubMatrices_NormalHermitian(Mat mat, PetscInt n, const IS irow[], const IS icol[], MatReuse scall, Mat *submat[])
10 {
11   Mat_NormalHermitian *a;
12   Mat                  B, *suba;
13   IS                  *row;
14   PetscScalar          shift, scale;
15   PetscInt             M;
16 
17   PetscFunctionBegin;
18   PetscCheck(irow == icol, PetscObjectComm((PetscObject)mat), PETSC_ERR_SUP, "Not implemented");
19   PetscCall(MatShellGetScalingShifts(mat, &shift, &scale, (Vec *)MAT_SHELL_NOT_ALLOWED, (Vec *)MAT_SHELL_NOT_ALLOWED, (Vec *)MAT_SHELL_NOT_ALLOWED, (Mat *)MAT_SHELL_NOT_ALLOWED, (IS *)MAT_SHELL_NOT_ALLOWED, (IS *)MAT_SHELL_NOT_ALLOWED));
20   PetscCall(MatShellGetContext(mat, &a));
21   B = a->A;
22   if (scall != MAT_REUSE_MATRIX) PetscCall(PetscCalloc1(n, submat));
23   PetscCall(MatGetSize(B, &M, NULL));
24   PetscCall(PetscMalloc1(n, &row));
25   PetscCall(ISCreateStride(PETSC_COMM_SELF, M, 0, 1, &row[0]));
26   PetscCall(ISSetIdentity(row[0]));
27   for (M = 1; M < n; ++M) row[M] = row[0];
28   PetscCall(MatCreateSubMatrices(B, n, row, icol, MAT_INITIAL_MATRIX, &suba));
29   for (M = 0; M < n; ++M) {
30     PetscCall(MatCreateNormalHermitian(suba[M], *submat + M));
31     PetscCall(MatShift((*submat)[M], shift));
32     PetscCall(MatScale((*submat)[M], scale));
33   }
34   PetscCall(ISDestroy(&row[0]));
35   PetscCall(PetscFree(row));
36   PetscCall(MatDestroySubMatrices(n, &suba));
37   PetscFunctionReturn(PETSC_SUCCESS);
38 }
39 
40 static PetscErrorCode MatPermute_NormalHermitian(Mat A, IS rowp, IS colp, Mat *B)
41 {
42   Mat_NormalHermitian *a;
43   Mat                  C, Aa;
44   IS                   row;
45   PetscScalar          shift, scale;
46 
47   PetscFunctionBegin;
48   PetscCheck(rowp == colp, PetscObjectComm((PetscObject)A), PETSC_ERR_ARG_INCOMP, "Row permutation and column permutation must be the same");
49   PetscCall(MatShellGetScalingShifts(A, &shift, &scale, (Vec *)MAT_SHELL_NOT_ALLOWED, (Vec *)MAT_SHELL_NOT_ALLOWED, (Vec *)MAT_SHELL_NOT_ALLOWED, (Mat *)MAT_SHELL_NOT_ALLOWED, (IS *)MAT_SHELL_NOT_ALLOWED, (IS *)MAT_SHELL_NOT_ALLOWED));
50   PetscCall(MatShellGetContext(A, &a));
51   Aa = a->A;
52   PetscCall(ISCreateStride(PetscObjectComm((PetscObject)Aa), Aa->rmap->n, Aa->rmap->rstart, 1, &row));
53   PetscCall(ISSetIdentity(row));
54   PetscCall(MatPermute(Aa, row, colp, &C));
55   PetscCall(ISDestroy(&row));
56   PetscCall(MatCreateNormalHermitian(C, B));
57   PetscCall(MatDestroy(&C));
58   PetscCall(MatShift(*B, shift));
59   PetscCall(MatScale(*B, scale));
60   PetscFunctionReturn(PETSC_SUCCESS);
61 }
62 
63 static PetscErrorCode MatDuplicate_NormalHermitian(Mat A, MatDuplicateOption op, Mat *B)
64 {
65   Mat_NormalHermitian *a;
66   Mat                  C;
67 
68   PetscFunctionBegin;
69   PetscCall(MatShellGetContext(A, &a));
70   PetscCall(MatDuplicate(a->A, op, &C));
71   PetscCall(MatCreateNormalHermitian(C, B));
72   PetscCall(MatDestroy(&C));
73   if (op == MAT_COPY_VALUES) PetscCall(MatCopy(A, *B, SAME_NONZERO_PATTERN));
74   PetscFunctionReturn(PETSC_SUCCESS);
75 }
76 
77 static PetscErrorCode MatCopy_NormalHermitian(Mat A, Mat B, MatStructure str)
78 {
79   Mat_NormalHermitian *a, *b;
80 
81   PetscFunctionBegin;
82   PetscCall(MatShellGetContext(A, &a));
83   PetscCall(MatShellGetContext(B, &b));
84   PetscCall(MatCopy(a->A, b->A, str));
85   PetscFunctionReturn(PETSC_SUCCESS);
86 }
87 
88 static PetscErrorCode MatMult_NormalHermitian(Mat N, Vec x, Vec y)
89 {
90   Mat_NormalHermitian *Na;
91 
92   PetscFunctionBegin;
93   PetscCall(MatShellGetContext(N, &Na));
94   PetscCall(MatMult(Na->A, x, Na->w));
95   PetscCall(MatMultHermitianTranspose(Na->A, Na->w, y));
96   PetscFunctionReturn(PETSC_SUCCESS);
97 }
98 
99 static PetscErrorCode MatDestroy_NormalHermitian(Mat N)
100 {
101   Mat_NormalHermitian *Na;
102 
103   PetscFunctionBegin;
104   PetscCall(MatShellGetContext(N, &Na));
105   PetscCall(MatDestroy(&Na->A));
106   PetscCall(MatDestroy(&Na->D));
107   PetscCall(VecDestroy(&Na->w));
108   PetscCall(PetscFree(Na));
109   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatNormalHermitianGetMat_C", NULL));
110 #if !defined(PETSC_USE_COMPLEX)
111   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatNormalGetMat_C", NULL));
112 #endif
113   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatConvert_normalh_seqaij_C", NULL));
114   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatConvert_normalh_mpiaij_C", NULL));
115 #if defined(PETSC_HAVE_HYPRE)
116   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatConvert_normalh_hypre_C", NULL));
117 #endif
118   PetscCall(PetscObjectComposeFunction((PetscObject)N, "MatShellSetContext_C", NULL));
119   PetscFunctionReturn(PETSC_SUCCESS);
120 }
121 
122 /*
123       Slow, nonscalable version
124 */
125 static PetscErrorCode MatGetDiagonal_NormalHermitian(Mat N, Vec v)
126 {
127   Mat_NormalHermitian *Na;
128   Mat                  A;
129   PetscInt             i, j, rstart, rend, nnz;
130   const PetscInt      *cols;
131   PetscScalar         *work, *values;
132   const PetscScalar   *mvalues;
133 
134   PetscFunctionBegin;
135   PetscCall(MatShellGetContext(N, &Na));
136   A = Na->A;
137   PetscCall(PetscMalloc1(A->cmap->N, &work));
138   PetscCall(PetscArrayzero(work, A->cmap->N));
139   PetscCall(MatGetOwnershipRange(A, &rstart, &rend));
140   for (i = rstart; i < rend; i++) {
141     PetscCall(MatGetRow(A, i, &nnz, &cols, &mvalues));
142     for (j = 0; j < nnz; j++) work[cols[j]] += mvalues[j] * PetscConj(mvalues[j]);
143     PetscCall(MatRestoreRow(A, i, &nnz, &cols, &mvalues));
144   }
145   PetscCallMPI(MPIU_Allreduce(MPI_IN_PLACE, work, A->cmap->N, MPIU_SCALAR, MPIU_SUM, PetscObjectComm((PetscObject)N)));
146   rstart = N->cmap->rstart;
147   rend   = N->cmap->rend;
148   PetscCall(VecGetArray(v, &values));
149   PetscCall(PetscArraycpy(values, work + rstart, rend - rstart));
150   PetscCall(VecRestoreArray(v, &values));
151   PetscCall(PetscFree(work));
152   PetscFunctionReturn(PETSC_SUCCESS);
153 }
154 
155 static PetscErrorCode MatGetDiagonalBlock_NormalHermitian(Mat N, Mat *D)
156 {
157   Mat_NormalHermitian *Na;
158   Mat                  M, A;
159 
160   PetscFunctionBegin;
161   PetscCall(MatShellGetContext(N, &Na));
162   A = Na->A;
163   PetscCall(MatGetDiagonalBlock(A, &M));
164   PetscCall(MatCreateNormalHermitian(M, &Na->D));
165   *D = Na->D;
166   PetscFunctionReturn(PETSC_SUCCESS);
167 }
168 
169 static PetscErrorCode MatNormalHermitianGetMat_NormalHermitian(Mat A, Mat *M)
170 {
171   Mat_NormalHermitian *Aa;
172 
173   PetscFunctionBegin;
174   PetscCall(MatShellGetContext(A, &Aa));
175   *M = Aa->A;
176   PetscFunctionReturn(PETSC_SUCCESS);
177 }
178 
179 /*@
180   MatNormalHermitianGetMat - Gets the `Mat` object stored inside a `MATNORMALHERMITIAN`
181 
182   Logically Collective
183 
184   Input Parameter:
185 . A - the `MATNORMALHERMITIAN` matrix
186 
187   Output Parameter:
188 . M - the matrix object stored inside `A`
189 
190   Level: intermediate
191 
192 .seealso: [](ch_matrices), `Mat`, `MATNORMALHERMITIAN`, `MatCreateNormalHermitian()`
193 @*/
194 PetscErrorCode MatNormalHermitianGetMat(Mat A, Mat *M)
195 {
196   PetscFunctionBegin;
197   PetscValidHeaderSpecific(A, MAT_CLASSID, 1);
198   PetscValidType(A, 1);
199   PetscAssertPointer(M, 2);
200   PetscUseMethod(A, "MatNormalHermitianGetMat_C", (Mat, Mat *), (A, M));
201   PetscFunctionReturn(PETSC_SUCCESS);
202 }
203 
204 static PetscErrorCode MatConvert_NormalHermitian_AIJ(Mat A, MatType newtype, MatReuse reuse, Mat *newmat)
205 {
206   Mat_NormalHermitian *Aa;
207   Mat                  B, conjugate;
208   PetscInt             m, n, M, N;
209 
210   PetscFunctionBegin;
211   PetscCall(MatShellGetContext(A, &Aa));
212   PetscCall(MatGetSize(A, &M, &N));
213   PetscCall(MatGetLocalSize(A, &m, &n));
214   if (reuse == MAT_REUSE_MATRIX) {
215     B = *newmat;
216     PetscCall(MatProductReplaceMats(Aa->A, Aa->A, NULL, B));
217   } else {
218     PetscCall(MatProductCreate(Aa->A, Aa->A, NULL, &B));
219     PetscCall(MatProductSetType(B, MATPRODUCT_AtB));
220     PetscCall(MatProductSetFromOptions(B));
221     PetscCall(MatProductSymbolic(B));
222     PetscCall(MatSetOption(B, !PetscDefined(USE_COMPLEX) ? MAT_SYMMETRIC : MAT_HERMITIAN, PETSC_TRUE));
223   }
224   if (PetscDefined(USE_COMPLEX)) {
225     PetscCall(MatDuplicate(Aa->A, MAT_COPY_VALUES, &conjugate));
226     PetscCall(MatConjugate(conjugate));
227     PetscCall(MatProductReplaceMats(conjugate, Aa->A, NULL, B));
228   }
229   PetscCall(MatProductNumeric(B));
230   if (PetscDefined(USE_COMPLEX)) PetscCall(MatDestroy(&conjugate));
231   if (reuse == MAT_INPLACE_MATRIX) PetscCall(MatHeaderReplace(A, &B));
232   else if (reuse == MAT_INITIAL_MATRIX) *newmat = B;
233   PetscCall(MatConvert(*newmat, MATAIJ, MAT_INPLACE_MATRIX, newmat));
234   PetscFunctionReturn(PETSC_SUCCESS);
235 }
236 
237 #if defined(PETSC_HAVE_HYPRE)
238 static PetscErrorCode MatConvert_NormalHermitian_HYPRE(Mat A, MatType type, MatReuse reuse, Mat *B)
239 {
240   PetscFunctionBegin;
241   if (reuse == MAT_INITIAL_MATRIX) {
242     PetscCall(MatConvert(A, MATAIJ, reuse, B));
243     PetscCall(MatConvert(*B, type, MAT_INPLACE_MATRIX, B));
244   } else PetscCall(MatConvert_Basic(A, type, reuse, B)); /* fall back to basic convert */
245   PetscFunctionReturn(PETSC_SUCCESS);
246 }
247 #endif
248 
249 /*MC
250   MATNORMALHERMITIAN - a matrix that behaves like (A*)'*A for `MatMult()` while only containing A
251 
252   Level: intermediate
253 
254   Developer Notes:
255   This is implemented on top of `MATSHELL` to get support for scaling and shifting without requiring duplicate code
256 
257   Users can not call `MatShellSetOperation()` operations on this class, there is some error checking for that incorrect usage
258 
259 .seealso: [](ch_matrices), `Mat`, `MatCreateNormalHermitian()`, `MatMult()`, `MatNormalHermitianGetMat()`, `MATNORMAL`, `MatCreateNormal()`
260 M*/
261 
262 /*@
263   MatCreateNormalHermitian - Creates a new matrix object `MATNORMALHERMITIAN` that behaves like $A^* A$.
264 
265   Collective
266 
267   Input Parameter:
268 . A - the (possibly rectangular complex) matrix
269 
270   Output Parameter:
271 . N - the matrix that represents $ A^* A$
272 
273   Level: intermediate
274 
275   Note:
276   The product $ A^* A$ is NOT actually formed! Rather the new matrix
277   object performs the matrix-vector product, `MatMult()`, by first multiplying by
278   $A$ and then $A^*$
279 
280   If `MatGetFactor()` is called on this matrix with `MAT_FACTOR_QR` then the inner matrix `A` is used for the factorization
281 
282 .seealso: [](ch_matrices), `Mat`, `MATNORMAL`, `MATNORMALHERMITIAN`, `MatNormalHermitianGetMat()`
283 @*/
284 PetscErrorCode MatCreateNormalHermitian(Mat A, Mat *N)
285 {
286   Mat_NormalHermitian *Na;
287   VecType              vtype;
288 
289   PetscFunctionBegin;
290   PetscCall(MatCreate(PetscObjectComm((PetscObject)A), N));
291   PetscCall(PetscLayoutReference(A->cmap, &(*N)->rmap));
292   PetscCall(PetscLayoutReference(A->cmap, &(*N)->cmap));
293   PetscCall(MatSetType(*N, MATSHELL));
294   PetscCall(PetscNew(&Na));
295   PetscCall(MatShellSetContext(*N, Na));
296   PetscCall(PetscObjectReference((PetscObject)A));
297   Na->A = A;
298   PetscCall(MatCreateVecs(A, NULL, &Na->w));
299 
300   PetscCall(MatSetBlockSize(*N, A->cmap->bs));
301   PetscCall(MatShellSetOperation(*N, MATOP_DESTROY, (void (*)(void))MatDestroy_NormalHermitian));
302   PetscCall(MatShellSetOperation(*N, MATOP_MULT, (void (*)(void))MatMult_NormalHermitian));
303   PetscCall(MatShellSetOperation(*N, MATOP_MULT_HERMITIAN_TRANSPOSE, (void (*)(void))MatMult_NormalHermitian));
304 #if !defined(PETSC_USE_COMPLEX)
305   PetscCall(MatShellSetOperation(*N, MATOP_MULT_TRANSPOSE, (void (*)(void))MatMult_NormalHermitian));
306 #endif
307   PetscCall(MatShellSetOperation(*N, MATOP_DUPLICATE, (void (*)(void))MatDuplicate_NormalHermitian));
308   PetscCall(MatShellSetOperation(*N, MATOP_GET_DIAGONAL, (void (*)(void))MatGetDiagonal_NormalHermitian));
309   PetscCall(MatShellSetOperation(*N, MATOP_GET_DIAGONAL_BLOCK, (void (*)(void))MatGetDiagonalBlock_NormalHermitian));
310   PetscCall(MatShellSetOperation(*N, MATOP_COPY, (void (*)(void))MatCopy_NormalHermitian));
311   (*N)->ops->createsubmatrices = MatCreateSubMatrices_NormalHermitian;
312   (*N)->ops->permute           = MatPermute_NormalHermitian;
313 
314   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatNormalHermitianGetMat_C", MatNormalHermitianGetMat_NormalHermitian));
315 #if !defined(PETSC_USE_COMPLEX)
316   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatNormalGetMat_C", MatNormalHermitianGetMat_NormalHermitian));
317 #endif
318   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatConvert_normalh_seqaij_C", MatConvert_NormalHermitian_AIJ));
319   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatConvert_normalh_mpiaij_C", MatConvert_NormalHermitian_AIJ));
320 #if defined(PETSC_HAVE_HYPRE)
321   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatConvert_normalh_hypre_C", MatConvert_NormalHermitian_HYPRE));
322 #endif
323   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatShellSetContext_C", MatShellSetContext_Immutable));
324   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatShellSetContextDestroy_C", MatShellSetContextDestroy_Immutable));
325   PetscCall(PetscObjectComposeFunction((PetscObject)*N, "MatShellSetManageScalingShifts_C", MatShellSetManageScalingShifts_Immutable));
326   PetscCall(MatSetOption(*N, !PetscDefined(USE_COMPLEX) ? MAT_SYMMETRIC : MAT_HERMITIAN, PETSC_TRUE));
327   PetscCall(MatGetVecType(A, &vtype));
328   PetscCall(MatSetVecType(*N, vtype));
329 #if defined(PETSC_HAVE_DEVICE)
330   PetscCall(MatBindToCPU(*N, A->boundtocpu));
331 #endif
332   PetscCall(MatSetUp(*N));
333   PetscCall(PetscObjectChangeTypeName((PetscObject)*N, MATNORMALHERMITIAN));
334   PetscFunctionReturn(PETSC_SUCCESS);
335 }
336