path: root/contrib/libs/apache/arrow_next/cpp/src/arrow/compute/api_aggregate.cc

// Licensed to the Apache Software Foundation (ASF) under one
// or more contributor license agreements.  See the NOTICE file
// distributed with this work for additional information
// regarding copyright ownership.  The ASF licenses this file
// to you 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 "contrib/libs/apache/arrow_next/cpp/src/arrow/compute/api_aggregate.h"

#include "contrib/libs/apache/arrow_next/cpp/src/arrow/compute/exec.h"
#include "contrib/libs/apache/arrow_next/cpp/src/arrow/compute/function_internal.h"
#include "contrib/libs/apache/arrow_next/cpp/src/arrow/compute/registry.h"
#include "contrib/libs/apache/arrow_next/cpp/src/arrow/util/checked_cast.h"
#include "contrib/libs/apache/arrow_next/cpp/src/arrow/util/logging.h"

namespace arrow20 {
namespace internal {

template <>
struct EnumTraits<compute::CountOptions::CountMode>
    : BasicEnumTraits<compute::CountOptions::CountMode, compute::CountOptions::ONLY_VALID,
                      compute::CountOptions::ONLY_NULL, compute::CountOptions::ALL> {
  static std::string name() { return "CountOptions::CountMode"; }
  static std::string value_name(compute::CountOptions::CountMode value) {
    switch (value) {
      case compute::CountOptions::ONLY_VALID:
        return "NON_NULL";
      case compute::CountOptions::ONLY_NULL:
        return "NULLS";
      case compute::CountOptions::ALL:
        return "ALL";
    }
    return "<INVALID>";
  }
};

template <>
struct EnumTraits<compute::QuantileOptions::Interpolation>
    : BasicEnumTraits<compute::QuantileOptions::Interpolation,
                      compute::QuantileOptions::LINEAR, compute::QuantileOptions::LOWER,
                      compute::QuantileOptions::HIGHER, compute::QuantileOptions::NEAREST,
                      compute::QuantileOptions::MIDPOINT> {
  static std::string name() { return "QuantileOptions::Interpolation"; }
  static std::string value_name(compute::QuantileOptions::Interpolation value) {
    switch (value) {
      case compute::QuantileOptions::LINEAR:
        return "LINEAR";
      case compute::QuantileOptions::LOWER:
        return "LOWER";
      case compute::QuantileOptions::HIGHER:
        return "HIGHER";
      case compute::QuantileOptions::NEAREST:
        return "NEAREST";
      case compute::QuantileOptions::MIDPOINT:
        return "MIDPOINT";
    }
    return "<INVALID>";
  }
};

template <>
struct EnumTraits<compute::PivotWiderOptions::UnexpectedKeyBehavior>
    : BasicEnumTraits<compute::PivotWiderOptions::UnexpectedKeyBehavior,
                      compute::PivotWiderOptions::kIgnore,
                      compute::PivotWiderOptions::kRaise> {
  static std::string name() { return "PivotWiderOptions::UnexpectedKeyBehavior"; }
  static std::string value_name(compute::PivotWiderOptions::UnexpectedKeyBehavior value) {
    switch (value) {
      case compute::PivotWiderOptions::kIgnore:
        return "kIgnore";
      case compute::PivotWiderOptions::kRaise:
        return "kRaise";
    }
    return "<INVALID>";
  }
};

}  // namespace internal

namespace compute {

// ----------------------------------------------------------------------
// Function options

using ::arrow20::internal::checked_cast;

namespace internal {
namespace {
using ::arrow20::internal::DataMember;
static auto kScalarAggregateOptionsType = GetFunctionOptionsType<ScalarAggregateOptions>(
    DataMember("skip_nulls", &ScalarAggregateOptions::skip_nulls),
    DataMember("min_count", &ScalarAggregateOptions::min_count));
static auto kCountOptionsType =
    GetFunctionOptionsType<CountOptions>(DataMember("mode", &CountOptions::mode));
static auto kModeOptionsType = GetFunctionOptionsType<ModeOptions>(
    DataMember("n", &ModeOptions::n), DataMember("skip_nulls", &ModeOptions::skip_nulls),
    DataMember("min_count", &ModeOptions::min_count));
static auto kVarianceOptionsType = GetFunctionOptionsType<VarianceOptions>(
    DataMember("ddof", &VarianceOptions::ddof),
    DataMember("skip_nulls", &VarianceOptions::skip_nulls),
    DataMember("min_count", &VarianceOptions::min_count));
static auto kSkewOptionsType = GetFunctionOptionsType<SkewOptions>(
    DataMember("skip_nulls", &SkewOptions::skip_nulls),
    DataMember("biased", &SkewOptions::biased),
    DataMember("min_count", &SkewOptions::min_count));
static auto kQuantileOptionsType = GetFunctionOptionsType<QuantileOptions>(
    DataMember("q", &QuantileOptions::q),
    DataMember("interpolation", &QuantileOptions::interpolation),
    DataMember("skip_nulls", &QuantileOptions::skip_nulls),
    DataMember("min_count", &QuantileOptions::min_count));
static auto kTDigestOptionsType = GetFunctionOptionsType<TDigestOptions>(
    DataMember("q", &TDigestOptions::q), DataMember("delta", &TDigestOptions::delta),
    DataMember("buffer_size", &TDigestOptions::buffer_size),
    DataMember("skip_nulls", &TDigestOptions::skip_nulls),
    DataMember("min_count", &TDigestOptions::min_count));
static auto kPivotOptionsType = GetFunctionOptionsType<PivotWiderOptions>(
    DataMember("key_names", &PivotWiderOptions::key_names),
    DataMember("unexpected_key_behavior", &PivotWiderOptions::unexpected_key_behavior));
static auto kIndexOptionsType =
    GetFunctionOptionsType<IndexOptions>(DataMember("value", &IndexOptions::value));
}  // namespace
}  // namespace internal

ScalarAggregateOptions::ScalarAggregateOptions(bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kScalarAggregateOptionsType),
      skip_nulls(skip_nulls),
      min_count(min_count) {}
constexpr char ScalarAggregateOptions::kTypeName[];

CountOptions::CountOptions(CountMode mode)
    : FunctionOptions(internal::kCountOptionsType), mode(mode) {}
constexpr char CountOptions::kTypeName[];

ModeOptions::ModeOptions(int64_t n, bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kModeOptionsType),
      n{n},
      skip_nulls{skip_nulls},
      min_count{min_count} {}
constexpr char ModeOptions::kTypeName[];

VarianceOptions::VarianceOptions(int ddof, bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kVarianceOptionsType),
      ddof(ddof),
      skip_nulls(skip_nulls),
      min_count(min_count) {}
constexpr char VarianceOptions::kTypeName[];

SkewOptions::SkewOptions(bool skip_nulls, bool biased, uint32_t min_count)
    : FunctionOptions(internal::kSkewOptionsType),
      skip_nulls(skip_nulls),
      biased(biased),
      min_count(min_count) {}

QuantileOptions::QuantileOptions(double q, enum Interpolation interpolation,
                                 bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kQuantileOptionsType),
      q{q},
      interpolation{interpolation},
      skip_nulls{skip_nulls},
      min_count{min_count} {}
QuantileOptions::QuantileOptions(std::vector<double> q, enum Interpolation interpolation,
                                 bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kQuantileOptionsType),
      q{std::move(q)},
      interpolation{interpolation},
      skip_nulls{skip_nulls},
      min_count{min_count} {}
constexpr char QuantileOptions::kTypeName[];

TDigestOptions::TDigestOptions(double q, uint32_t delta, uint32_t buffer_size,
                               bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kTDigestOptionsType),
      q{q},
      delta{delta},
      buffer_size{buffer_size},
      skip_nulls{skip_nulls},
      min_count{min_count} {}
TDigestOptions::TDigestOptions(std::vector<double> q, uint32_t delta,
                               uint32_t buffer_size, bool skip_nulls, uint32_t min_count)
    : FunctionOptions(internal::kTDigestOptionsType),
      q{std::move(q)},
      delta{delta},
      buffer_size{buffer_size},
      skip_nulls{skip_nulls},
      min_count{min_count} {}
constexpr char TDigestOptions::kTypeName[];

PivotWiderOptions::PivotWiderOptions(std::vector<std::string> key_names,
                                     UnexpectedKeyBehavior unexpected_key_behavior)
    : FunctionOptions(internal::kPivotOptionsType),
      key_names(std::move(key_names)),
      unexpected_key_behavior(unexpected_key_behavior) {}
PivotWiderOptions::PivotWiderOptions() : FunctionOptions(internal::kPivotOptionsType) {}

IndexOptions::IndexOptions(std::shared_ptr<Scalar> value)
    : FunctionOptions(internal::kIndexOptionsType), value{std::move(value)} {}
IndexOptions::IndexOptions() : IndexOptions(std::make_shared<NullScalar>()) {}
constexpr char IndexOptions::kTypeName[];

namespace internal {
void RegisterAggregateOptions(FunctionRegistry* registry) {
  DCHECK_OK(registry->AddFunctionOptionsType(kScalarAggregateOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kCountOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kModeOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kVarianceOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kSkewOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kQuantileOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kTDigestOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kPivotOptionsType));
  DCHECK_OK(registry->AddFunctionOptionsType(kIndexOptionsType));
}
}  // namespace internal

// ----------------------------------------------------------------------
// Scalar aggregates

Result<Datum> Count(const Datum& value, const CountOptions& options, ExecContext* ctx) {
  return CallFunction("count", {value}, &options, ctx);
}

Result<Datum> Mean(const Datum& value, const ScalarAggregateOptions& options,
                   ExecContext* ctx) {
  return CallFunction("mean", {value}, &options, ctx);
}

Result<Datum> Product(const Datum& value, const ScalarAggregateOptions& options,
                      ExecContext* ctx) {
  return CallFunction("product", {value}, &options, ctx);
}

Result<Datum> Sum(const Datum& value, const ScalarAggregateOptions& options,
                  ExecContext* ctx) {
  return CallFunction("sum", {value}, &options, ctx);
}

Result<Datum> First(const Datum& value, const ScalarAggregateOptions& options,
                    ExecContext* ctx) {
  return CallFunction("first", {value}, &options, ctx);
}

Result<Datum> Last(const Datum& value, const ScalarAggregateOptions& options,
                   ExecContext* ctx) {
  return CallFunction("last", {value}, &options, ctx);
}

Result<Datum> MinMax(const Datum& value, const ScalarAggregateOptions& options,
                     ExecContext* ctx) {
  return CallFunction("min_max", {value}, &options, ctx);
}

Result<Datum> Any(const Datum& value, const ScalarAggregateOptions& options,
                  ExecContext* ctx) {
  return CallFunction("any", {value}, &options, ctx);
}

Result<Datum> All(const Datum& value, const ScalarAggregateOptions& options,
                  ExecContext* ctx) {
  return CallFunction("all", {value}, &options, ctx);
}

Result<Datum> Mode(const Datum& value, const ModeOptions& options, ExecContext* ctx) {
  return CallFunction("mode", {value}, &options, ctx);
}

Result<Datum> Stddev(const Datum& value, const VarianceOptions& options,
                     ExecContext* ctx) {
  return CallFunction("stddev", {value}, &options, ctx);
}

Result<Datum> Variance(const Datum& value, const VarianceOptions& options,
                       ExecContext* ctx) {
  return CallFunction("variance", {value}, &options, ctx);
}

Result<Datum> Skew(const Datum& value, const SkewOptions& options, ExecContext* ctx) {
  return CallFunction("skew", {value}, &options, ctx);
}

Result<Datum> Kurtosis(const Datum& value, const SkewOptions& options, ExecContext* ctx) {
  return CallFunction("kurtosis", {value}, &options, ctx);
}

Result<Datum> Quantile(const Datum& value, const QuantileOptions& options,
                       ExecContext* ctx) {
  return CallFunction("quantile", {value}, &options, ctx);
}

Result<Datum> TDigest(const Datum& value, const TDigestOptions& options,
                      ExecContext* ctx) {
  return CallFunction("tdigest", {value}, &options, ctx);
}

Result<Datum> Index(const Datum& value, const IndexOptions& options, ExecContext* ctx) {
  return CallFunction("index", {value}, &options, ctx);
}

}  // namespace compute
}  // namespace arrow20