Test categorical features with column-split gpu quantile (#9595)
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Rong Ou
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@ -634,12 +634,25 @@ void SketchContainer::MakeCuts(HistogramCuts* p_cuts, bool is_column_split) {
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});
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CHECK_EQ(num_columns_, d_in_columns_ptr.size() - 1);
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max_values.resize(d_in_columns_ptr.size() - 1);
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// In some cases (e.g. column-wise data split), we may have empty columns, so we need to keep
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// track of the unique keys (feature indices) after the thrust::reduce_by_key` call.
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dh::caching_device_vector<size_t> d_max_keys(d_in_columns_ptr.size() - 1);
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dh::caching_device_vector<SketchEntry> d_max_values(d_in_columns_ptr.size() - 1);
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thrust::reduce_by_key(thrust::cuda::par(alloc), key_it, key_it + in_cut_values.size(), val_it,
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thrust::make_discard_iterator(), d_max_values.begin(),
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thrust::equal_to<bst_feature_t>{},
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[] __device__(auto l, auto r) { return l.value > r.value ? l : r; });
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dh::CopyDeviceSpanToVector(&max_values, dh::ToSpan(d_max_values));
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auto new_end = thrust::reduce_by_key(
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thrust::cuda::par(alloc), key_it, key_it + in_cut_values.size(), val_it, d_max_keys.begin(),
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d_max_values.begin(), thrust::equal_to<bst_feature_t>{},
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[] __device__(auto l, auto r) { return l.value > r.value ? l : r; });
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d_max_keys.erase(new_end.first, d_max_keys.end());
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d_max_values.erase(new_end.second, d_max_values.end());
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// The device vector needs to be initialized explicitly since we may have some missing columns.
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SketchEntry default_entry{};
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dh::caching_device_vector<SketchEntry> d_max_results(d_in_columns_ptr.size() - 1,
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default_entry);
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thrust::scatter(thrust::cuda::par(alloc), d_max_values.begin(), d_max_values.end(),
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d_max_keys.begin(), d_max_results.begin());
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dh::CopyDeviceSpanToVector(&max_values, dh::ToSpan(d_max_results));
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auto max_it = MakeIndexTransformIter([&](auto i) {
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if (IsCat(h_feature_types, i)) {
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return max_values[i].value;
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@ -35,13 +35,13 @@ struct WQSummary {
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/*! \brief an entry in the sketch summary */
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struct Entry {
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/*! \brief minimum rank */
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RType rmin;
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RType rmin{};
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/*! \brief maximum rank */
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RType rmax;
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RType rmax{};
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/*! \brief maximum weight */
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RType wmin;
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RType wmin{};
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/*! \brief the value of data */
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DType value;
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DType value{};
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// constructor
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XGBOOST_DEVICE Entry() {} // NOLINT
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// constructor
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@ -339,6 +339,31 @@ TEST(GPUQuantile, MultiMerge) {
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});
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}
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TEST(GPUQuantile, MissingColumns) {
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auto dmat = std::unique_ptr<DMatrix>{[=]() {
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std::size_t constexpr kRows = 1000, kCols = 100;
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auto sparsity = 0.5f;
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std::vector<FeatureType> ft(kCols);
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for (size_t i = 0; i < ft.size(); ++i) {
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ft[i] = (i % 2 == 0) ? FeatureType::kNumerical : FeatureType::kCategorical;
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}
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auto dmat = RandomDataGenerator{kRows, kCols, sparsity}
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.Seed(0)
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.Lower(.0f)
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.Upper(1.0f)
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.Type(ft)
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.MaxCategory(13)
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.GenerateDMatrix();
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return dmat->SliceCol(2, 1);
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}()};
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dmat->Info().data_split_mode = DataSplitMode::kRow;
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auto ctx = MakeCUDACtx(0);
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std::size_t constexpr kBins = 64;
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HistogramCuts cuts = common::DeviceSketch(&ctx, dmat.get(), kBins);
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ASSERT_TRUE(cuts.HasCategorical());
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}
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namespace {
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void TestAllReduceBasic() {
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auto const world = collective::GetWorldSize();
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@ -422,18 +447,14 @@ TEST_F(MGPUQuantileTest, AllReduceBasic) {
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}
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namespace {
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void TestColumnSplitBasic() {
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void TestColumnSplit(DMatrix* dmat) {
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auto const world = collective::GetWorldSize();
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auto const rank = collective::GetRank();
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std::size_t constexpr kRows = 1000, kCols = 100, kBins = 64;
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auto m = std::unique_ptr<DMatrix>{[=]() {
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auto dmat = RandomDataGenerator{kRows, kCols, 0}.GenerateDMatrix();
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return dmat->SliceCol(world, rank);
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}()};
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auto m = std::unique_ptr<DMatrix>{dmat->SliceCol(world, rank)};
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// Generate cuts for distributed environment.
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auto ctx = MakeCUDACtx(GPUIDX);
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std::size_t constexpr kBins = 64;
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HistogramCuts distributed_cuts = common::DeviceSketch(&ctx, m.get(), kBins);
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// Generate cuts for single node environment
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@ -466,7 +487,26 @@ void TestColumnSplitBasic() {
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} // anonymous namespace
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TEST_F(MGPUQuantileTest, ColumnSplitBasic) {
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DoTest(TestColumnSplitBasic);
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std::size_t constexpr kRows = 1000, kCols = 100;
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auto dmat = RandomDataGenerator{kRows, kCols, 0}.GenerateDMatrix();
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DoTest(TestColumnSplit, dmat.get());
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}
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TEST_F(MGPUQuantileTest, ColumnSplitCategorical) {
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std::size_t constexpr kRows = 1000, kCols = 100;
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auto sparsity = 0.5f;
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std::vector<FeatureType> ft(kCols);
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for (size_t i = 0; i < ft.size(); ++i) {
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ft[i] = (i % 2 == 0) ? FeatureType::kNumerical : FeatureType::kCategorical;
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}
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auto dmat = RandomDataGenerator{kRows, kCols, sparsity}
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.Seed(0)
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.Lower(.0f)
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.Upper(1.0f)
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.Type(ft)
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.MaxCategory(13)
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.GenerateDMatrix();
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DoTest(TestColumnSplit, dmat.get());
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}
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namespace {
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