//==============================================================================
int Ifpack_CrsRiluk::BlockGraph2PointGraph(const Epetra_CrsGraph & BG, Epetra_CrsGraph & PG, bool Upper) {
if (!BG.IndicesAreLocal()) {EPETRA_CHK_ERR(-1);} // Must have done FillComplete on BG
int * ColFirstPointInElementList = BG.RowMap().FirstPointInElementList();
int * ColElementSizeList = BG.RowMap().ElementSizeList();
if (BG.Importer()!=0) {
ColFirstPointInElementList = BG.ImportMap().FirstPointInElementList();
ColElementSizeList = BG.ImportMap().ElementSizeList();
}
int Length = (BG.MaxNumIndices()+1) * BG.ImportMap().MaxMyElementSize();
vector<int> tmpIndices(Length);
int BlockRow, BlockOffset, NumEntries;
int NumBlockEntries;
int * BlockIndices;
int NumMyRows_tmp = PG.NumMyRows();
for (int i=0; i<NumMyRows_tmp; i++) {
EPETRA_CHK_ERR(BG.RowMap().FindLocalElementID(i, BlockRow, BlockOffset));
EPETRA_CHK_ERR(BG.ExtractMyRowView(BlockRow, NumBlockEntries, BlockIndices));
int * ptr = &tmpIndices[0]; // Set pointer to beginning of buffer
int RowDim = BG.RowMap().ElementSize(BlockRow);
NumEntries = 0;
// This next line make sure that the off-diagonal entries in the block diagonal of the
// original block entry matrix are included in the nonzero pattern of the point graph
if (Upper) {
int jstart = i+1;
int jstop = EPETRA_MIN(NumMyRows_tmp,i+RowDim-BlockOffset);
for (int j= jstart; j< jstop; j++) {*ptr++ = j; NumEntries++;}
}
for (int j=0; j<NumBlockEntries; j++) {
int ColDim = ColElementSizeList[BlockIndices[j]];
NumEntries += ColDim;
assert(NumEntries<=Length); // Sanity test
int Index = ColFirstPointInElementList[BlockIndices[j]];
for (int k=0; k < ColDim; k++) *ptr++ = Index++;
}
// This next line make sure that the off-diagonal entries in the block diagonal of the
// original block entry matrix are included in the nonzero pattern of the point graph
if (!Upper) {
int jstart = EPETRA_MAX(0,i-RowDim+1);
int jstop = i;
for (int j = jstart; j < jstop; j++) {*ptr++ = j; NumEntries++;}
}
EPETRA_CHK_ERR(PG.InsertMyIndices(i, NumEntries, &tmpIndices[0]));
}
SetAllocated(true);
return(0);
}
//==============================================================================
int check(Epetra_CrsGraph& A, int NumMyRows1, long long NumGlobalRows1, int NumMyNonzeros1,
long long NumGlobalNonzeros1, long long* MyGlobalElements, bool verbose)
{
(void)MyGlobalElements;
int ierr = 0;
int i;
int j;
int forierr = 0;
int NumGlobalIndices;
int NumMyIndices;
int* MyViewIndices;
int MaxNumIndices = A.MaxNumIndices();
int* MyCopyIndices = new int[MaxNumIndices];
long long* GlobalCopyIndices = new long long[MaxNumIndices];
// Test query functions
int NumMyRows = A.NumMyRows();
if(verbose) cout << "Number of local Rows = " << NumMyRows << endl;
EPETRA_TEST_ERR(!(NumMyRows==NumMyRows1),ierr);
int NumMyNonzeros = A.NumMyNonzeros();
if(verbose) cout << "Number of local Nonzero entries = " << NumMyNonzeros << endl;
EPETRA_TEST_ERR(!(NumMyNonzeros==NumMyNonzeros1),ierr);
long long NumGlobalRows = A.NumGlobalRows64();
if(verbose) cout << "Number of global Rows = " << NumGlobalRows << endl;
EPETRA_TEST_ERR(!(NumGlobalRows==NumGlobalRows1),ierr);
long long NumGlobalNonzeros = A.NumGlobalNonzeros64();
if(verbose) cout << "Number of global Nonzero entries = " << NumGlobalNonzeros << endl;
EPETRA_TEST_ERR(!(NumGlobalNonzeros==NumGlobalNonzeros1),ierr);
// GlobalRowView should be illegal (since we have local indices)
EPETRA_TEST_ERR(!(A.ExtractGlobalRowView(A.RowMap().MaxMyGID64(), NumGlobalIndices, GlobalCopyIndices)==-2),ierr);
// Other binary tests
EPETRA_TEST_ERR(A.NoDiagonal(),ierr);
EPETRA_TEST_ERR(!(A.Filled()),ierr);
EPETRA_TEST_ERR(!(A.MyGRID(A.RowMap().MaxMyGID64())),ierr);
EPETRA_TEST_ERR(!(A.MyGRID(A.RowMap().MinMyGID64())),ierr);
EPETRA_TEST_ERR(A.MyGRID(1+A.RowMap().MaxMyGID64()),ierr);
EPETRA_TEST_ERR(A.MyGRID(-1+A.RowMap().MinMyGID64()),ierr);
EPETRA_TEST_ERR(!(A.MyLRID(0)),ierr);
EPETRA_TEST_ERR(!(A.MyLRID(NumMyRows-1)),ierr);
EPETRA_TEST_ERR(A.MyLRID(-1),ierr);
EPETRA_TEST_ERR(A.MyLRID(NumMyRows),ierr);
forierr = 0;
for(i = 0; i < NumMyRows; i++) {
long long Row = A.GRID64(i);
A.ExtractGlobalRowCopy(Row, MaxNumIndices, NumGlobalIndices, GlobalCopyIndices);
A.ExtractMyRowView(i, NumMyIndices, MyViewIndices);
forierr += !(NumGlobalIndices==NumMyIndices);
for(j = 1; j < NumMyIndices; j++) EPETRA_TEST_ERR(!(MyViewIndices[j-1]<MyViewIndices[j]),ierr);
for(j = 0; j < NumGlobalIndices; j++) {
forierr += !(GlobalCopyIndices[j]==A.GCID64(MyViewIndices[j]));
forierr += !(A.LCID(GlobalCopyIndices[j])==MyViewIndices[j]);
}
}
EPETRA_TEST_ERR(forierr,ierr);
forierr = 0;
for(i = 0; i < NumMyRows; i++) {
long long Row = A.GRID64(i);
A.ExtractGlobalRowCopy(Row, MaxNumIndices, NumGlobalIndices, GlobalCopyIndices);
A.ExtractMyRowCopy(i, MaxNumIndices, NumMyIndices, MyCopyIndices);
forierr += !(NumGlobalIndices==NumMyIndices);
for(j = 1; j < NumMyIndices; j++)
EPETRA_TEST_ERR(!(MyCopyIndices[j-1]<MyCopyIndices[j]),ierr);
for(j = 0; j < NumGlobalIndices; j++) {
forierr += !(GlobalCopyIndices[j]==A.GCID64(MyCopyIndices[j]));
forierr += !(A.LCID(GlobalCopyIndices[j])==MyCopyIndices[j]);
}
}
EPETRA_TEST_ERR(forierr,ierr);
delete[] MyCopyIndices;
delete[] GlobalCopyIndices;
if(verbose) cout << "Rows sorted check OK" << endl;
return(ierr);
}
