tuple/include/array_of_doubles_sketch.hpp - datasketches-cpp - Git at Google

 /*
  * 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.
  */

 #ifndef ARRAY_OF_DOUBLES_SKETCH_HPP_
 #define ARRAY_OF_DOUBLES_SKETCH_HPP_

 #include <vector>
 #include <memory>

 #include "serde.hpp"
 #include "tuple_sketch.hpp"

 namespace datasketches {

 // This sketch is equivalent of ArrayOfDoublesSketch in Java

 // This simple array of double is faster than std::vector and should be sufficient for this application
 template<typename Allocator = std::allocator<double>>
 class aod {
 public:
   explicit aod(uint8_t size, const Allocator& allocator = Allocator()):
   allocator_(allocator), size_(size), array_(allocator_.allocate(size_)) {
     std::fill(array_, array_ + size_, 0);
   }
   aod(const aod& other):
     allocator_(other.allocator_),
     size_(other.size_),
     array_(allocator_.allocate(size_))
   {
     std::copy(other.array_, other.array_ + size_, array_);
   }
   aod(aod&& other) noexcept:
     allocator_(std::move(other.allocator_)),
     size_(other.size_),
     array_(other.array_)
   {
     other.array_ = nullptr;
   }
   ~aod() {
     if (array_ != nullptr) allocator_.deallocate(array_, size_);
   }
   aod& operator=(const aod& other) {
     aod copy(other);
     std::swap(allocator_, copy.allocator_);
     std::swap(size_, copy.size_);
     std::swap(array_, copy.array_);
     return *this;
   }
   aod& operator=(aod&& other) {
     std::swap(allocator_, other.allocator_);
     std::swap(size_, other.size_);
     std::swap(array_, other.array_);
     return *this;
   }
   double& operator[](size_t index) { return array_[index]; }
   double operator[](size_t index) const { return array_[index]; }
   uint8_t size() const { return size_; }
   double* data() { return array_; }
   const double* data() const { return array_; }
   bool operator==(const aod& other) const {
     for (uint8_t i = 0; i < size_; ++i) if (array_[i] != other.array_[i]) return false;
     return true;
   }
 private:
   Allocator allocator_;
   uint8_t size_;
   double* array_;
 };

 template<typename A = std::allocator<double>>
 class array_of_doubles_update_policy {
 public:
   array_of_doubles_update_policy(uint8_t num_values = 1, const A& allocator = A()):
     allocator_(allocator), num_values_(num_values) {}
   aod<A> create() const {
     return aod<A>(num_values_, allocator_);
   }
   template<typename InputVector> // to allow any type with indexed access (such as double*)
   void update(aod<A>& summary, const InputVector& update) const {
     for (uint8_t i = 0; i < num_values_; ++i) summary[i] += update[i];
   }
   uint8_t get_num_values() const {
     return num_values_;
   }

 private:
   A allocator_;
   uint8_t num_values_;
 };

 // forward declaration
 template<typename A> class compact_array_of_doubles_sketch_alloc;

 template<typename A> using AllocAOD = typename std::allocator_traits<A>::template rebind_alloc<aod<A>>;

 template<typename A = std::allocator<double>>
 class update_array_of_doubles_sketch_alloc: public update_tuple_sketch<aod<A>, aod<A>, array_of_doubles_update_policy<A>, AllocAOD<A>> {
 public:
   using Base = update_tuple_sketch<aod<A>, aod<A>, array_of_doubles_update_policy<A>, AllocAOD<A>>;
   using resize_factor = typename Base::resize_factor;

   class builder;

   compact_array_of_doubles_sketch_alloc<A> compact(bool ordered = true) const;
   uint8_t get_num_values() const;

 private:
   // for builder
   update_array_of_doubles_sketch_alloc(uint8_t lg_cur_size, uint8_t lg_nom_size, resize_factor rf, uint64_t theta,
       uint64_t seed, const array_of_doubles_update_policy<A>& policy, const A& allocator);
 };

 // alias with the default allocator for convenience
 using update_array_of_doubles_sketch = update_array_of_doubles_sketch_alloc<>;

 template<typename A>
 class update_array_of_doubles_sketch_alloc<A>::builder: public tuple_base_builder<builder, array_of_doubles_update_policy<A>, A> {
 public:
   builder(const array_of_doubles_update_policy<A>& policy = array_of_doubles_update_policy<A>(), const A& allocator = A());
   update_array_of_doubles_sketch_alloc<A> build() const;
 };

 template<typename A = std::allocator<double>>
 class compact_array_of_doubles_sketch_alloc: public compact_tuple_sketch<aod<A>, AllocAOD<A>> {
 public:
   using Base = compact_tuple_sketch<aod<A>, AllocAOD<A>>;
   using Entry = typename Base::Entry;
   using AllocEntry = typename Base::AllocEntry;
   using AllocU64 = typename Base::AllocU64;
   using vector_bytes = typename Base::vector_bytes;

   static const uint8_t SERIAL_VERSION = 1;
   static const uint8_t SKETCH_FAMILY = 9;
   static const uint8_t SKETCH_TYPE = 3;
   enum flags { UNUSED1, UNUSED2, IS_EMPTY, HAS_ENTRIES, IS_ORDERED };

   template<typename Sketch>
   compact_array_of_doubles_sketch_alloc(const Sketch& other, bool ordered = true);

   uint8_t get_num_values() const;

   void serialize(std::ostream& os) const;
   vector_bytes serialize(unsigned header_size_bytes = 0) const;

   static compact_array_of_doubles_sketch_alloc deserialize(std::istream& is, uint64_t seed = DEFAULT_SEED, const A& allocator = A());
   static compact_array_of_doubles_sketch_alloc deserialize(const void* bytes, size_t size, uint64_t seed = DEFAULT_SEED,
       const A& allocator = A());

   // for internal use
   compact_array_of_doubles_sketch_alloc(bool is_empty, bool is_ordered, uint16_t seed_hash, uint64_t theta, std::vector<Entry, AllocEntry>&& entries, uint8_t num_values);
   compact_array_of_doubles_sketch_alloc(uint8_t num_values, Base&& base);
 private:
   uint8_t num_values_;
 };

 // alias with the default allocator for convenience
 using compact_array_of_doubles_sketch = compact_array_of_doubles_sketch_alloc<>;

 } /* namespace datasketches */

 #include "array_of_doubles_sketch_impl.hpp"

 #endif
	/*
	* 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.
	*/

	#ifndef ARRAY_OF_DOUBLES_SKETCH_HPP_
	#define ARRAY_OF_DOUBLES_SKETCH_HPP_

	#include <vector>
	#include <memory>

	#include "serde.hpp"
	#include "tuple_sketch.hpp"

	namespace datasketches {

	// This sketch is equivalent of ArrayOfDoublesSketch in Java

	// This simple array of double is faster than std::vector and should be sufficient for this application
	template<typename Allocator = std::allocator<double>>
	class aod {
	public:
	explicit aod(uint8_t size, const Allocator& allocator = Allocator()):
	allocator_(allocator), size_(size), array_(allocator_.allocate(size_)) {
	std::fill(array_, array_ + size_, 0);
	}
	aod(const aod& other):
	allocator_(other.allocator_),
	size_(other.size_),
	array_(allocator_.allocate(size_))
	{
	std::copy(other.array_, other.array_ + size_, array_);
	}
	aod(aod&& other) noexcept:
	allocator_(std::move(other.allocator_)),
	size_(other.size_),
	array_(other.array_)
	{
	other.array_ = nullptr;
	}
	~aod() {
	if (array_ != nullptr) allocator_.deallocate(array_, size_);
	}
	aod& operator=(const aod& other) {
	aod copy(other);
	std::swap(allocator_, copy.allocator_);
	std::swap(size_, copy.size_);
	std::swap(array_, copy.array_);
	return *this;
	}
	aod& operator=(aod&& other) {
	std::swap(allocator_, other.allocator_);
	std::swap(size_, other.size_);
	std::swap(array_, other.array_);
	return *this;
	}
	double& operator[](size_t index) { return array_[index]; }
	double operator[](size_t index) const { return array_[index]; }
	uint8_t size() const { return size_; }
	double* data() { return array_; }
	const double* data() const { return array_; }
	bool operator==(const aod& other) const {
	for (uint8_t i = 0; i < size_; ++i) if (array_[i] != other.array_[i]) return false;
	return true;
	}
	private:
	Allocator allocator_;
	uint8_t size_;
	double* array_;
	};

	template<typename A = std::allocator<double>>
	class array_of_doubles_update_policy {
	public:
	array_of_doubles_update_policy(uint8_t num_values = 1, const A& allocator = A()):
	allocator_(allocator), num_values_(num_values) {}
	aod<A> create() const {
	return aod<A>(num_values_, allocator_);
	}
	template<typename InputVector> // to allow any type with indexed access (such as double*)
	void update(aod<A>& summary, const InputVector& update) const {
	for (uint8_t i = 0; i < num_values_; ++i) summary[i] += update[i];
	}
	uint8_t get_num_values() const {
	return num_values_;
	}

	private:
	A allocator_;
	uint8_t num_values_;
	};

	// forward declaration
	template<typename A> class compact_array_of_doubles_sketch_alloc;

	template<typename A> using AllocAOD = typename std::allocator_traits<A>::template rebind_alloc<aod<A>>;

	template<typename A = std::allocator<double>>
	class update_array_of_doubles_sketch_alloc: public update_tuple_sketch<aod<A>, aod<A>, array_of_doubles_update_policy<A>, AllocAOD<A>> {
	public:
	using Base = update_tuple_sketch<aod<A>, aod<A>, array_of_doubles_update_policy<A>, AllocAOD<A>>;
	using resize_factor = typename Base::resize_factor;

	class builder;

	compact_array_of_doubles_sketch_alloc<A> compact(bool ordered = true) const;
	uint8_t get_num_values() const;

	private:
	// for builder
	update_array_of_doubles_sketch_alloc(uint8_t lg_cur_size, uint8_t lg_nom_size, resize_factor rf, uint64_t theta,
	uint64_t seed, const array_of_doubles_update_policy<A>& policy, const A& allocator);
	};

	// alias with the default allocator for convenience
	using update_array_of_doubles_sketch = update_array_of_doubles_sketch_alloc<>;

	template<typename A>
	class update_array_of_doubles_sketch_alloc<A>::builder: public tuple_base_builder<builder, array_of_doubles_update_policy<A>, A> {
	public:
	builder(const array_of_doubles_update_policy<A>& policy = array_of_doubles_update_policy<A>(), const A& allocator = A());
	update_array_of_doubles_sketch_alloc<A> build() const;
	};

	template<typename A = std::allocator<double>>
	class compact_array_of_doubles_sketch_alloc: public compact_tuple_sketch<aod<A>, AllocAOD<A>> {
	public:
	using Base = compact_tuple_sketch<aod<A>, AllocAOD<A>>;
	using Entry = typename Base::Entry;
	using AllocEntry = typename Base::AllocEntry;
	using AllocU64 = typename Base::AllocU64;
	using vector_bytes = typename Base::vector_bytes;

	static const uint8_t SERIAL_VERSION = 1;
	static const uint8_t SKETCH_FAMILY = 9;
	static const uint8_t SKETCH_TYPE = 3;
	enum flags { UNUSED1, UNUSED2, IS_EMPTY, HAS_ENTRIES, IS_ORDERED };

	template<typename Sketch>
	compact_array_of_doubles_sketch_alloc(const Sketch& other, bool ordered = true);

	uint8_t get_num_values() const;

	void serialize(std::ostream& os) const;
	vector_bytes serialize(unsigned header_size_bytes = 0) const;

	static compact_array_of_doubles_sketch_alloc deserialize(std::istream& is, uint64_t seed = DEFAULT_SEED, const A& allocator = A());
	static compact_array_of_doubles_sketch_alloc deserialize(const void* bytes, size_t size, uint64_t seed = DEFAULT_SEED,
	const A& allocator = A());

	// for internal use
	compact_array_of_doubles_sketch_alloc(bool is_empty, bool is_ordered, uint16_t seed_hash, uint64_t theta, std::vector<Entry, AllocEntry>&& entries, uint8_t num_values);
	compact_array_of_doubles_sketch_alloc(uint8_t num_values, Base&& base);
	private:
	uint8_t num_values_;
	};

	// alias with the default allocator for convenience
	using compact_array_of_doubles_sketch = compact_array_of_doubles_sketch_alloc<>;

	} /* namespace datasketches */

	#include "array_of_doubles_sketch_impl.hpp"

	#endif