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Consistent with 48 C.F.R.12.212 and * 48 C.F.R. 227.7202-1 through 227.7202-4 (JUNE 1995), all * U.S. Government End Users acquire the Licensed Deliverables with * only those rights set forth herein. * * Any use of the Licensed Deliverables in individual and commercial * software must include, in the user documentation and internal * comments to the code, the above Disclaimer and U.S. Government End * Users Notice. */ #ifndef _CG_PARTITIONING_H #define _CG_PARTITIONING_H #include "info.h" #include "helpers.h" _CG_BEGIN_NAMESPACE namespace details { template _CG_STATIC_QUALIFIER coalesced_group _binary_partition(const TyGroup &tile, bool pred) { const unsigned int fullMask = ~0u; unsigned int thisMask = _coalesced_group_data_access::get_mask(tile); unsigned int predMask = pred ? 0 : fullMask; unsigned int setMask = __ballot_sync(thisMask, pred); if (setMask == thisMask || setMask == 0) { coalesced_group subTile = _coalesced_group_data_access::construct_from_mask(thisMask); _coalesced_group_data_access::modify_meta_group(subTile, 0, 1); return subTile; } else { unsigned int subMask = thisMask & (setMask ^ predMask); coalesced_group subTile = _coalesced_group_data_access::construct_from_mask(subMask); _coalesced_group_data_access::modify_meta_group(subTile, pred, 2); return subTile; } } #if defined(_CG_HAS_MATCH_COLLECTIVE) && defined(_CG_CPP11_FEATURES) template struct _labeled_partition_dispatch { template _CG_QUALIFIER coalesced_group operator()(const TyGroup &tile, TyPredicate pred) { unsigned int thisMask = _coalesced_group_data_access::get_mask(tile); unsigned int subMask = __match_any_sync(thisMask, pred); unsigned int laneId = details::laneid(); coalesced_group subTile = _coalesced_group_data_access::construct_from_mask(subMask); int leaderLaneId = __ffs(subMask) - 1; bool isLeader = leaderLaneId == laneId; unsigned int leaderMask = __ballot_sync(thisMask, isLeader); // Count leaders with lower laneid, that will be the meta rank of this tile unsigned int tileRank = __popc(leaderMask & ((1 << leaderLaneId) - 1)); _coalesced_group_data_access::modify_meta_group(subTile, tileRank, __popc(leaderMask)); return subTile; } }; template <> struct _labeled_partition_dispatch { template _CG_QUALIFIER coalesced_group operator()(const TyGroup &tile, bool pred) { return _binary_partition(tile, pred); } }; template struct _labeled_partition_dispatch { template _CG_QUALIFIER coalesced_group operator()(const TyGroup &tile, TyPredicate* pred) { auto impl = _labeled_partition_dispatch(); return impl(tile, reinterpret_cast(pred)); } }; #endif }; // namespace details _CG_STATIC_QUALIFIER coalesced_group binary_partition(const coalesced_group &tile, bool pred) { return details::_binary_partition(tile, pred); } template _CG_STATIC_QUALIFIER coalesced_group binary_partition(const thread_block_tile &tile, bool pred) { #ifdef _CG_CPP11_FEATURES static_assert(Size <= 32, "Binary partition is available only for tiles of size smaller or equal to 32"); #endif return details::_binary_partition(tile, pred); } #if defined(_CG_HAS_MATCH_COLLECTIVE) && defined(_CG_CPP11_FEATURES) template _CG_STATIC_QUALIFIER coalesced_group labeled_partition(const coalesced_group &tile, TyPredicate pred) { static_assert(_CG_STL_NAMESPACE::is_integral::value || _CG_STL_NAMESPACE::is_pointer::value, "labeled_partition predicate must be an integral or pointer type"); auto dispatch = details::_labeled_partition_dispatch>(); return dispatch(tile, pred); } template _CG_STATIC_QUALIFIER coalesced_group labeled_partition(const thread_block_tile &tile, TyPredicate pred) { static_assert(_CG_STL_NAMESPACE::is_integral::value || _CG_STL_NAMESPACE::is_pointer::value, "labeled_partition predicate must be an integral or pointer type"); static_assert(Size <= 32, "Labeled partition is available only for tiles of size smaller or equal to 32"); auto dispatch = details::_labeled_partition_dispatch>(); return dispatch(tile, pred); } #endif _CG_END_NAMESPACE #endif // _CG_PARTITIONING_H