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Copy pathstamploops.h
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202 lines (200 loc) · 12.3 KB
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Copy pathstamploops.h
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202 lines (200 loc) · 12.3 KB
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if(nDCellIDs[0] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++) {
if(loopRng[0] != nDCellIDs[0]) {
indexes[0] = loopRng[0];
for(int i=1; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#if NUMINDEXEDDIM>=2
if(nDCellIDs[1] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++) {
if(loopRng[1] != nDCellIDs[1]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
for(int i=2; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=3
if(nDCellIDs[2] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++) {
if(loopRng[2] != nDCellIDs[2]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
indexes[2] = loopRng[2];
for(int i=3; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=4
if(nDCellIDs[3] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++) {
if(loopRng[3] != nDCellIDs[3]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
indexes[2] = loopRng[2];
indexes[3] = loopRng[3];
for(int i=4; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=5
if(nDCellIDs[4] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++) {
if(loopRng[4] != nDCellIDs[4]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
indexes[2] = loopRng[2];
indexes[3] = loopRng[3];
indexes[4] = loopRng[4];
for(int i=5; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=6
if(nDCellIDs[5] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++)
for(loopRng[5]=rangeFilteredCellIdsMin[5]; loopRng[5]<=rangeFilteredCellIdsMax[5]; loopRng[5]++) {
if(loopRng[5] != nDCellIDs[5]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
indexes[2] = loopRng[2];
indexes[3] = loopRng[3];
indexes[4] = loopRng[4];
indexes[5] = loopRng[5];
for(int i=6; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=7
if(nDCellIDs[6] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++)
for(loopRng[5]=rangeFilteredCellIdsMin[5]; loopRng[5]<=rangeFilteredCellIdsMax[5]; loopRng[5]++)
for(loopRng[6]=rangeFilteredCellIdsMin[6]; loopRng[6]<=rangeFilteredCellIdsMax[6]; loopRng[6]++) {
if(loopRng[6] != nDCellIDs[6]) {
indexes[0] = loopRng[0];
indexes[1] = loopRng[1];
indexes[2] = loopRng[2];
indexes[3] = loopRng[3];
indexes[4] = loopRng[4];
indexes[5] = loopRng[5];
indexes[6] = loopRng[6];
for(int i=7; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=8
if(nDCellIDs[7] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++)
for(loopRng[5]=rangeFilteredCellIdsMin[5]; loopRng[5]<=rangeFilteredCellIdsMax[5]; loopRng[5]++)
for(loopRng[6]=rangeFilteredCellIdsMin[6]; loopRng[6]<=rangeFilteredCellIdsMax[6]; loopRng[6]++)
for(loopRng[7]=rangeFilteredCellIdsMin[7]; loopRng[7]<=rangeFilteredCellIdsMax[7]; loopRng[7]++) {
if(loopRng[7] != nDCellIDs[7]) {
for(int i=0; i<8; i++) {
indexes[i] = loopRng[i];
}
for(int i=8; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=9
if(nDCellIDs[8] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++)
for(loopRng[5]=rangeFilteredCellIdsMin[5]; loopRng[5]<=rangeFilteredCellIdsMax[5]; loopRng[5]++)
for(loopRng[6]=rangeFilteredCellIdsMin[6]; loopRng[6]<=rangeFilteredCellIdsMax[6]; loopRng[6]++)
for(loopRng[7]=rangeFilteredCellIdsMin[7]; loopRng[7]<=rangeFilteredCellIdsMax[7]; loopRng[7]++)
for(loopRng[8]=rangeFilteredCellIdsMin[8]; loopRng[8]<=rangeFilteredCellIdsMax[8]; loopRng[8]++) {
if(loopRng[8] != nDCellIDs[8]) {
for(int i=0; i<9; i++) {
indexes[i] = loopRng[i];
}
for(int i=9; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif
#if NUMINDEXEDDIM>=10
if(nDCellIDs[9] & 1) {
for(loopRng[0]=rangeFilteredCellIdsMin[0]; loopRng[0]<=rangeFilteredCellIdsMax[0]; loopRng[0]++)
for(loopRng[1]=rangeFilteredCellIdsMin[1]; loopRng[1]<=rangeFilteredCellIdsMax[1]; loopRng[1]++)
for(loopRng[2]=rangeFilteredCellIdsMin[2]; loopRng[2]<=rangeFilteredCellIdsMax[2]; loopRng[2]++)
for(loopRng[3]=rangeFilteredCellIdsMin[3]; loopRng[3]<=rangeFilteredCellIdsMax[3]; loopRng[3]++)
for(loopRng[4]=rangeFilteredCellIdsMin[4]; loopRng[4]<=rangeFilteredCellIdsMax[4]; loopRng[4]++)
for(loopRng[5]=rangeFilteredCellIdsMin[5]; loopRng[5]<=rangeFilteredCellIdsMax[5]; loopRng[5]++)
for(loopRng[6]=rangeFilteredCellIdsMin[6]; loopRng[6]<=rangeFilteredCellIdsMax[6]; loopRng[6]++)
for(loopRng[7]=rangeFilteredCellIdsMin[7]; loopRng[7]<=rangeFilteredCellIdsMax[7]; loopRng[7]++)
for(loopRng[8]=rangeFilteredCellIdsMin[8]; loopRng[8]<=rangeFilteredCellIdsMax[8]; loopRng[8]++)
for(loopRng[9]=rangeFilteredCellIdsMin[9]; loopRng[9]<=rangeFilteredCellIdsMax[9]; loopRng[9]++) {
if(loopRng[9] != nDCellIDs[9]) {
for(int i=0; i<10; i++) {
indexes[i] = loopRng[i];
}
for(int i=10; i<NUMINDEXEDDIM; i++) {
indexes[i] = nDCellIDs[i];
}
evaluateCell(nCells, indexes, gridCellLookupArr, nNonEmptyCells, database, epsilon, index, indexLookupArr, point, cnt, pointIDKey, pointInDistVal, pointIdx, true, nDCellIDs,workCounts);
}
}
}
#endif