-
Notifications
You must be signed in to change notification settings - Fork 912
Commit
This commit does not belong to any branch on this repository, and may belong to a fork outside of the repository.
Add a libcudf/thrust-based TPC-H derived datagen (#16294)
This PR adds a TPC-H (according to spec 3.0.1) inspired datagen written using `libcudf` and `thrust` ### Implementation Status - [x] lineitem - [x] orders - [x] region - [x] nation - [x] supplier - [x] customer - [x] part - [x] partsupp Authors: - Jayjeet Chakraborty (https://github.com/JayjeetAtGithub) - Karthikeyan (https://github.com/karthikeyann) Approvers: - Mark Harris (https://github.com/harrism) - Yunsong Wang (https://github.com/PointKernel) - Karthikeyan (https://github.com/karthikeyann) URL: #16294
- Loading branch information
1 parent
62a53b3
commit 23fb31e
Showing
7 changed files
with
2,042 additions
and
0 deletions.
There are no files selected for viewing
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
246 changes: 246 additions & 0 deletions
246
cpp/benchmarks/common/tpch_data_generator/random_column_generator.cu
This file contains bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters.
Learn more about bidirectional Unicode characters
Original file line number | Diff line number | Diff line change |
---|---|---|
@@ -0,0 +1,246 @@ | ||
/* | ||
* Copyright (c) 2024, NVIDIA CORPORATION. | ||
* | ||
* Licensed under the Apache License, Version 2.0 (the "License"); | ||
* you may not use this file except in compliance with the License. | ||
* You may obtain a copy of the License at | ||
* | ||
* http://www.apache.org/licenses/LICENSE-2.0 | ||
* | ||
* Unless required by applicable law or agreed to in writing, software | ||
* distributed under the License is distributed on an "AS IS" BASIS, | ||
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | ||
* See the License for the specific language governing permissions and | ||
* limitations under the License. | ||
*/ | ||
|
||
#include "random_column_generator.hpp" | ||
|
||
#include <cudf_test/column_wrapper.hpp> | ||
|
||
#include <cudf/binaryop.hpp> | ||
#include <cudf/detail/iterator.cuh> | ||
#include <cudf/detail/nvtx/ranges.hpp> | ||
#include <cudf/filling.hpp> | ||
#include <cudf/strings/detail/strings_children.cuh> | ||
|
||
#include <rmm/exec_policy.hpp> | ||
|
||
#include <thrust/iterator/counting_iterator.h> | ||
#include <thrust/random.h> | ||
#include <thrust/transform.h> | ||
|
||
#include <string> | ||
|
||
namespace cudf::datagen { | ||
|
||
namespace { | ||
|
||
// Functor for generating random strings | ||
struct random_string_generator { | ||
char* chars; | ||
thrust::default_random_engine engine; | ||
thrust::uniform_int_distribution<unsigned char> char_dist; | ||
|
||
CUDF_HOST_DEVICE random_string_generator(char* c) : chars(c), char_dist(44, 122) {} | ||
|
||
__device__ void operator()(thrust::tuple<int64_t, int64_t> str_begin_end) | ||
{ | ||
auto begin = thrust::get<0>(str_begin_end); | ||
auto end = thrust::get<1>(str_begin_end); | ||
engine.discard(begin); | ||
for (auto i = begin; i < end; ++i) { | ||
auto ch = char_dist(engine); | ||
if (i == end - 1 && ch >= '\x7F') ch = ' '; // last element ASCII only. | ||
if (ch >= '\x7F') // x7F is at the top edge of ASCII | ||
chars[i++] = '\xC4'; // these characters are assigned two bytes | ||
chars[i] = static_cast<char>(ch + (ch >= '\x7F')); | ||
} | ||
} | ||
}; | ||
|
||
// Functor for generating random numbers | ||
template <typename T> | ||
struct random_number_generator { | ||
T lower; | ||
T upper; | ||
|
||
CUDF_HOST_DEVICE random_number_generator(T lower, T upper) : lower(lower), upper(upper) {} | ||
|
||
__device__ T operator()(const int64_t idx) const | ||
{ | ||
if constexpr (cudf::is_integral<T>()) { | ||
thrust::default_random_engine engine; | ||
thrust::uniform_int_distribution<T> dist(lower, upper); | ||
engine.discard(idx); | ||
return dist(engine); | ||
} else { | ||
thrust::default_random_engine engine; | ||
thrust::uniform_real_distribution<T> dist(lower, upper); | ||
engine.discard(idx); | ||
return dist(engine); | ||
} | ||
} | ||
}; | ||
|
||
} // namespace | ||
|
||
std::unique_ptr<cudf::column> generate_random_string_column(cudf::size_type lower, | ||
cudf::size_type upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
auto offsets_begin = cudf::detail::make_counting_transform_iterator( | ||
0, random_number_generator<cudf::size_type>(lower, upper)); | ||
auto [offsets_column, computed_bytes] = cudf::strings::detail::make_offsets_child_column( | ||
offsets_begin, offsets_begin + num_rows, stream, mr); | ||
rmm::device_uvector<char> chars(computed_bytes, stream); | ||
|
||
auto const offset_itr = | ||
cudf::detail::offsetalator_factory::make_input_iterator(offsets_column->view()); | ||
|
||
// We generate the strings in parallel into the `chars` vector using the | ||
// offsets vector generated above. | ||
thrust::for_each_n(rmm::exec_policy(stream), | ||
thrust::make_zip_iterator(offset_itr, offset_itr + 1), | ||
num_rows, | ||
random_string_generator(chars.data())); | ||
|
||
return cudf::make_strings_column( | ||
num_rows, std::move(offsets_column), chars.release(), 0, rmm::device_buffer{}); | ||
} | ||
|
||
template <typename T> | ||
std::unique_ptr<cudf::column> generate_random_numeric_column(T lower, | ||
T upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
auto col = cudf::make_numeric_column( | ||
cudf::data_type{cudf::type_to_id<T>()}, num_rows, cudf::mask_state::UNALLOCATED, stream, mr); | ||
cudf::size_type begin = 0; | ||
cudf::size_type end = num_rows; | ||
thrust::transform(rmm::exec_policy(stream), | ||
thrust::make_counting_iterator(begin), | ||
thrust::make_counting_iterator(end), | ||
col->mutable_view().begin<T>(), | ||
random_number_generator<T>(lower, upper)); | ||
return col; | ||
} | ||
|
||
template std::unique_ptr<cudf::column> generate_random_numeric_column<int8_t>( | ||
int8_t lower, | ||
int8_t upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
template std::unique_ptr<cudf::column> generate_random_numeric_column<int16_t>( | ||
int16_t lower, | ||
int16_t upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
template std::unique_ptr<cudf::column> generate_random_numeric_column<cudf::size_type>( | ||
cudf::size_type lower, | ||
cudf::size_type upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
template std::unique_ptr<cudf::column> generate_random_numeric_column<double>( | ||
double lower, | ||
double upper, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
std::unique_ptr<cudf::column> generate_primary_key_column(cudf::scalar const& start, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
return cudf::sequence(num_rows, start, stream, mr); | ||
} | ||
|
||
std::unique_ptr<cudf::column> generate_repeat_string_column(std::string const& value, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
auto const scalar = cudf::string_scalar(value); | ||
return cudf::make_column_from_scalar(scalar, num_rows, stream, mr); | ||
} | ||
|
||
std::unique_ptr<cudf::column> generate_random_string_column_from_set( | ||
cudf::host_span<const char* const> set, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
// Build a gather map of random strings to choose from | ||
// The size of the string sets always fits within 16-bit integers | ||
auto const indices = | ||
generate_primary_key_column(cudf::numeric_scalar<int16_t>(0), set.size(), stream, mr); | ||
auto const keys = cudf::test::strings_column_wrapper(set.begin(), set.end()).release(); | ||
auto const gather_map = cudf::table_view({indices->view(), keys->view()}); | ||
|
||
// Build a column of random keys to gather from the set | ||
auto const gather_keys = | ||
generate_random_numeric_column<int16_t>(0, set.size() - 1, num_rows, stream, mr); | ||
|
||
// Perform the gather operation | ||
auto const gathered_table = cudf::gather( | ||
gather_map, gather_keys->view(), cudf::out_of_bounds_policy::DONT_CHECK, stream, mr); | ||
auto gathered_table_columns = gathered_table->release(); | ||
return std::move(gathered_table_columns[1]); | ||
} | ||
|
||
template <typename T> | ||
std::unique_ptr<cudf::column> generate_repeat_sequence_column(T seq_length, | ||
bool zero_indexed, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr) | ||
{ | ||
CUDF_FUNC_RANGE(); | ||
auto pkey = | ||
generate_primary_key_column(cudf::numeric_scalar<cudf::size_type>(0), num_rows, stream, mr); | ||
auto repeat_seq_zero_indexed = cudf::binary_operation(pkey->view(), | ||
cudf::numeric_scalar<T>(seq_length), | ||
cudf::binary_operator::MOD, | ||
cudf::data_type{cudf::type_to_id<T>()}, | ||
stream, | ||
mr); | ||
if (zero_indexed) { return repeat_seq_zero_indexed; } | ||
return cudf::binary_operation(repeat_seq_zero_indexed->view(), | ||
cudf::numeric_scalar<T>(1), | ||
cudf::binary_operator::ADD, | ||
cudf::data_type{cudf::type_to_id<T>()}, | ||
stream, | ||
mr); | ||
} | ||
|
||
template std::unique_ptr<cudf::column> generate_repeat_sequence_column<int8_t>( | ||
int8_t seq_length, | ||
bool zero_indexed, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
template std::unique_ptr<cudf::column> generate_repeat_sequence_column<cudf::size_type>( | ||
cudf::size_type seq_length, | ||
bool zero_indexed, | ||
cudf::size_type num_rows, | ||
rmm::cuda_stream_view stream, | ||
rmm::device_async_resource_ref mr); | ||
|
||
} // namespace cudf::datagen |
Oops, something went wrong.