include/llvm/CodeGen/PBQP/Math.h - llvm - Git at Google

 //===- Math.h - PBQP Vector and Matrix classes ------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CODEGEN_PBQP_MATH_H
 #define LLVM_CODEGEN_PBQP_MATH_H

 #include "llvm/ADT/Hashing.h"
 #include "llvm/ADT/STLExtras.h"
 #include <algorithm>
 #include <cassert>
 #include <functional>
 #include <memory>

 namespace llvm {
 namespace PBQP {

 using PBQPNum = float;

 /// PBQP Vector class.
 class Vector {
   friend hash_code hash_value(const Vector &);

 public:
   /// Construct a PBQP vector of the given size.
   explicit Vector(unsigned Length)
     : Length(Length), Data(llvm::make_unique<PBQPNum []>(Length)) {}

   /// Construct a PBQP vector with initializer.
   Vector(unsigned Length, PBQPNum InitVal)
     : Length(Length), Data(llvm::make_unique<PBQPNum []>(Length)) {
     std::fill(Data.get(), Data.get() + Length, InitVal);
   }

   /// Copy construct a PBQP vector.
   Vector(const Vector &V)
     : Length(V.Length), Data(llvm::make_unique<PBQPNum []>(Length)) {
     std::copy(V.Data.get(), V.Data.get() + Length, Data.get());
   }

   /// Move construct a PBQP vector.
   Vector(Vector &&V)
     : Length(V.Length), Data(std::move(V.Data)) {
     V.Length = 0;
   }

   /// Comparison operator.
   bool operator==(const Vector &V) const {
     assert(Length != 0 && Data && "Invalid vector");
     if (Length != V.Length)
       return false;
     return std::equal(Data.get(), Data.get() + Length, V.Data.get());
   }

   /// Return the length of the vector
   unsigned getLength() const {
     assert(Length != 0 && Data && "Invalid vector");
     return Length;
   }

   /// Element access.
   PBQPNum& operator[](unsigned Index) {
     assert(Length != 0 && Data && "Invalid vector");
     assert(Index < Length && "Vector element access out of bounds.");
     return Data[Index];
   }

   /// Const element access.
   const PBQPNum& operator[](unsigned Index) const {
     assert(Length != 0 && Data && "Invalid vector");
     assert(Index < Length && "Vector element access out of bounds.");
     return Data[Index];
   }

   /// Add another vector to this one.
   Vector& operator+=(const Vector &V) {
     assert(Length != 0 && Data && "Invalid vector");
     assert(Length == V.Length && "Vector length mismatch.");
     std::transform(Data.get(), Data.get() + Length, V.Data.get(), Data.get(),
                    std::plus<PBQPNum>());
     return *this;
   }

   /// Returns the index of the minimum value in this vector
   unsigned minIndex() const {
     assert(Length != 0 && Data && "Invalid vector");
     return std::min_element(Data.get(), Data.get() + Length) - Data.get();
   }

 private:
   unsigned Length;
   std::unique_ptr<PBQPNum []> Data;
 };

 /// Return a hash_value for the given vector.
 inline hash_code hash_value(const Vector &V) {
   unsigned *VBegin = reinterpret_cast<unsigned*>(V.Data.get());
   unsigned *VEnd = reinterpret_cast<unsigned*>(V.Data.get() + V.Length);
   return hash_combine(V.Length, hash_combine_range(VBegin, VEnd));
 }

 /// Output a textual representation of the given vector on the given
 ///        output stream.
 template <typename OStream>
 OStream& operator<<(OStream &OS, const Vector &V) {
   assert((V.getLength() != 0) && "Zero-length vector badness.");

   OS << "[ " << V[0];
   for (unsigned i = 1; i < V.getLength(); ++i)
     OS << ", " << V[i];
   OS << " ]";

   return OS;
 }

 /// PBQP Matrix class
 class Matrix {
 private:
   friend hash_code hash_value(const Matrix &);

 public:
   /// Construct a PBQP Matrix with the given dimensions.
   Matrix(unsigned Rows, unsigned Cols) :
     Rows(Rows), Cols(Cols), Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
   }

   /// Construct a PBQP Matrix with the given dimensions and initial
   /// value.
   Matrix(unsigned Rows, unsigned Cols, PBQPNum InitVal)
     : Rows(Rows), Cols(Cols),
       Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
     std::fill(Data.get(), Data.get() + (Rows * Cols), InitVal);
   }

   /// Copy construct a PBQP matrix.
   Matrix(const Matrix &M)
     : Rows(M.Rows), Cols(M.Cols),
       Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
     std::copy(M.Data.get(), M.Data.get() + (Rows * Cols), Data.get());
   }

   /// Move construct a PBQP matrix.
   Matrix(Matrix &&M)
     : Rows(M.Rows), Cols(M.Cols), Data(std::move(M.Data)) {
     M.Rows = M.Cols = 0;
   }

   /// Comparison operator.
   bool operator==(const Matrix &M) const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     if (Rows != M.Rows || Cols != M.Cols)
       return false;
     return std::equal(Data.get(), Data.get() + (Rows * Cols), M.Data.get());
   }

   /// Return the number of rows in this matrix.
   unsigned getRows() const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     return Rows;
   }

   /// Return the number of cols in this matrix.
   unsigned getCols() const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     return Cols;
   }

   /// Matrix element access.
   PBQPNum* operator[](unsigned R) {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     assert(R < Rows && "Row out of bounds.");
     return Data.get() + (R * Cols);
   }

   /// Matrix element access.
   const PBQPNum* operator[](unsigned R) const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     assert(R < Rows && "Row out of bounds.");
     return Data.get() + (R * Cols);
   }

   /// Returns the given row as a vector.
   Vector getRowAsVector(unsigned R) const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     Vector V(Cols);
     for (unsigned C = 0; C < Cols; ++C)
       V[C] = (*this)[R][C];
     return V;
   }

   /// Returns the given column as a vector.
   Vector getColAsVector(unsigned C) const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     Vector V(Rows);
     for (unsigned R = 0; R < Rows; ++R)
       V[R] = (*this)[R][C];
     return V;
   }

   /// Matrix transpose.
   Matrix transpose() const {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     Matrix M(Cols, Rows);
     for (unsigned r = 0; r < Rows; ++r)
       for (unsigned c = 0; c < Cols; ++c)
         M[c][r] = (*this)[r][c];
     return M;
   }

   /// Add the given matrix to this one.
   Matrix& operator+=(const Matrix &M) {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     assert(Rows == M.Rows && Cols == M.Cols &&
            "Matrix dimensions mismatch.");
     std::transform(Data.get(), Data.get() + (Rows * Cols), M.Data.get(),
                    Data.get(), std::plus<PBQPNum>());
     return *this;
   }

   Matrix operator+(const Matrix &M) {
     assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
     Matrix Tmp(*this);
     Tmp += M;
     return Tmp;
   }

 private:
   unsigned Rows, Cols;
   std::unique_ptr<PBQPNum []> Data;
 };

 /// Return a hash_code for the given matrix.
 inline hash_code hash_value(const Matrix &M) {
   unsigned *MBegin = reinterpret_cast<unsigned*>(M.Data.get());
   unsigned *MEnd =
     reinterpret_cast<unsigned*>(M.Data.get() + (M.Rows * M.Cols));
   return hash_combine(M.Rows, M.Cols, hash_combine_range(MBegin, MEnd));
 }

 /// Output a textual representation of the given matrix on the given
 ///        output stream.
 template <typename OStream>
 OStream& operator<<(OStream &OS, const Matrix &M) {
   assert((M.getRows() != 0) && "Zero-row matrix badness.");
   for (unsigned i = 0; i < M.getRows(); ++i)
     OS << M.getRowAsVector(i) << "\n";
   return OS;
 }

 template <typename Metadata>
 class MDVector : public Vector {
 public:
   MDVector(const Vector &v) : Vector(v), md(*this) {}
   MDVector(Vector &&v) : Vector(std::move(v)), md(*this) { }

   const Metadata& getMetadata() const { return md; }

 private:
   Metadata md;
 };

 template <typename Metadata>
 inline hash_code hash_value(const MDVector<Metadata> &V) {
   return hash_value(static_cast<const Vector&>(V));
 }

 template <typename Metadata>
 class MDMatrix : public Matrix {
 public:
   MDMatrix(const Matrix &m) : Matrix(m), md(*this) {}
   MDMatrix(Matrix &&m) : Matrix(std::move(m)), md(*this) { }

   const Metadata& getMetadata() const { return md; }

 private:
   Metadata md;
 };

 template <typename Metadata>
 inline hash_code hash_value(const MDMatrix<Metadata> &M) {
   return hash_value(static_cast<const Matrix&>(M));
 }

 } // end namespace PBQP
 } // end namespace llvm

 #endif // LLVM_CODEGEN_PBQP_MATH_H
	//===- Math.h - PBQP Vector and Matrix classes ------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CODEGEN_PBQP_MATH_H
	#define LLVM_CODEGEN_PBQP_MATH_H

	#include "llvm/ADT/Hashing.h"
	#include "llvm/ADT/STLExtras.h"
	#include <algorithm>
	#include <cassert>
	#include <functional>
	#include <memory>

	namespace llvm {
	namespace PBQP {

	using PBQPNum = float;

	/// PBQP Vector class.
	class Vector {
	friend hash_code hash_value(const Vector &);

	public:
	/// Construct a PBQP vector of the given size.
	explicit Vector(unsigned Length)
	: Length(Length), Data(llvm::make_unique<PBQPNum []>(Length)) {}

	/// Construct a PBQP vector with initializer.
	Vector(unsigned Length, PBQPNum InitVal)
	: Length(Length), Data(llvm::make_unique<PBQPNum []>(Length)) {
	std::fill(Data.get(), Data.get() + Length, InitVal);
	}

	/// Copy construct a PBQP vector.
	Vector(const Vector &V)
	: Length(V.Length), Data(llvm::make_unique<PBQPNum []>(Length)) {
	std::copy(V.Data.get(), V.Data.get() + Length, Data.get());
	}

	/// Move construct a PBQP vector.
	Vector(Vector &&V)
	: Length(V.Length), Data(std::move(V.Data)) {
	V.Length = 0;
	}

	/// Comparison operator.
	bool operator==(const Vector &V) const {
	assert(Length != 0 && Data && "Invalid vector");
	if (Length != V.Length)
	return false;
	return std::equal(Data.get(), Data.get() + Length, V.Data.get());
	}

	/// Return the length of the vector
	unsigned getLength() const {
	assert(Length != 0 && Data && "Invalid vector");
	return Length;
	}

	/// Element access.
	PBQPNum& operator[](unsigned Index) {
	assert(Length != 0 && Data && "Invalid vector");
	assert(Index < Length && "Vector element access out of bounds.");
	return Data[Index];
	}

	/// Const element access.
	const PBQPNum& operator[](unsigned Index) const {
	assert(Length != 0 && Data && "Invalid vector");
	assert(Index < Length && "Vector element access out of bounds.");
	return Data[Index];
	}

	/// Add another vector to this one.
	Vector& operator+=(const Vector &V) {
	assert(Length != 0 && Data && "Invalid vector");
	assert(Length == V.Length && "Vector length mismatch.");
	std::transform(Data.get(), Data.get() + Length, V.Data.get(), Data.get(),
	std::plus<PBQPNum>());
	return *this;
	}

	/// Returns the index of the minimum value in this vector
	unsigned minIndex() const {
	assert(Length != 0 && Data && "Invalid vector");
	return std::min_element(Data.get(), Data.get() + Length) - Data.get();
	}

	private:
	unsigned Length;
	std::unique_ptr<PBQPNum []> Data;
	};

	/// Return a hash_value for the given vector.
	inline hash_code hash_value(const Vector &V) {
	unsigned VBegin = reinterpret_cast<unsigned>(V.Data.get());
	unsigned VEnd = reinterpret_cast<unsigned>(V.Data.get() + V.Length);
	return hash_combine(V.Length, hash_combine_range(VBegin, VEnd));
	}

	/// Output a textual representation of the given vector on the given
	/// output stream.
	template <typename OStream>
	OStream& operator<<(OStream &OS, const Vector &V) {
	assert((V.getLength() != 0) && "Zero-length vector badness.");

	OS << "[ " << V[0];
	for (unsigned i = 1; i < V.getLength(); ++i)
	OS << ", " << V[i];
	OS << " ]";

	return OS;
	}

	/// PBQP Matrix class
	class Matrix {
	private:
	friend hash_code hash_value(const Matrix &);

	public:
	/// Construct a PBQP Matrix with the given dimensions.
	Matrix(unsigned Rows, unsigned Cols) :
	Rows(Rows), Cols(Cols), Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
	}

	/// Construct a PBQP Matrix with the given dimensions and initial
	/// value.
	Matrix(unsigned Rows, unsigned Cols, PBQPNum InitVal)
	: Rows(Rows), Cols(Cols),
	Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
	std::fill(Data.get(), Data.get() + (Rows * Cols), InitVal);
	}

	/// Copy construct a PBQP matrix.
	Matrix(const Matrix &M)
	: Rows(M.Rows), Cols(M.Cols),
	Data(llvm::make_unique<PBQPNum []>(Rows * Cols)) {
	std::copy(M.Data.get(), M.Data.get() + (Rows * Cols), Data.get());
	}

	/// Move construct a PBQP matrix.
	Matrix(Matrix &&M)
	: Rows(M.Rows), Cols(M.Cols), Data(std::move(M.Data)) {
	M.Rows = M.Cols = 0;
	}

	/// Comparison operator.
	bool operator==(const Matrix &M) const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	if (Rows != M.Rows \|\| Cols != M.Cols)
	return false;
	return std::equal(Data.get(), Data.get() + (Rows * Cols), M.Data.get());
	}

	/// Return the number of rows in this matrix.
	unsigned getRows() const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	return Rows;
	}

	/// Return the number of cols in this matrix.
	unsigned getCols() const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	return Cols;
	}

	/// Matrix element access.
	PBQPNum* operator[](unsigned R) {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	assert(R < Rows && "Row out of bounds.");
	return Data.get() + (R * Cols);
	}

	/// Matrix element access.
	const PBQPNum* operator[](unsigned R) const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	assert(R < Rows && "Row out of bounds.");
	return Data.get() + (R * Cols);
	}

	/// Returns the given row as a vector.
	Vector getRowAsVector(unsigned R) const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	Vector V(Cols);
	for (unsigned C = 0; C < Cols; ++C)
	V[C] = (*this)[R][C];
	return V;
	}

	/// Returns the given column as a vector.
	Vector getColAsVector(unsigned C) const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	Vector V(Rows);
	for (unsigned R = 0; R < Rows; ++R)
	V[R] = (*this)[R][C];
	return V;
	}

	/// Matrix transpose.
	Matrix transpose() const {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	Matrix M(Cols, Rows);
	for (unsigned r = 0; r < Rows; ++r)
	for (unsigned c = 0; c < Cols; ++c)
	M[c][r] = (*this)[r][c];
	return M;
	}

	/// Add the given matrix to this one.
	Matrix& operator+=(const Matrix &M) {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	assert(Rows == M.Rows && Cols == M.Cols &&
	"Matrix dimensions mismatch.");
	std::transform(Data.get(), Data.get() + (Rows * Cols), M.Data.get(),
	Data.get(), std::plus<PBQPNum>());
	return *this;
	}

	Matrix operator+(const Matrix &M) {
	assert(Rows != 0 && Cols != 0 && Data && "Invalid matrix");
	Matrix Tmp(*this);
	Tmp += M;
	return Tmp;
	}

	private:
	unsigned Rows, Cols;
	std::unique_ptr<PBQPNum []> Data;
	};

	/// Return a hash_code for the given matrix.
	inline hash_code hash_value(const Matrix &M) {
	unsigned MBegin = reinterpret_cast<unsigned>(M.Data.get());
	unsigned *MEnd =
	reinterpret_cast<unsigned>(M.Data.get() + (M.Rows M.Cols));
	return hash_combine(M.Rows, M.Cols, hash_combine_range(MBegin, MEnd));
	}

	/// Output a textual representation of the given matrix on the given
	/// output stream.
	template <typename OStream>
	OStream& operator<<(OStream &OS, const Matrix &M) {
	assert((M.getRows() != 0) && "Zero-row matrix badness.");
	for (unsigned i = 0; i < M.getRows(); ++i)
	OS << M.getRowAsVector(i) << "\n";
	return OS;
	}

	template <typename Metadata>
	class MDVector : public Vector {
	public:
	MDVector(const Vector &v) : Vector(v), md(*this) {}
	MDVector(Vector &&v) : Vector(std::move(v)), md(*this) { }

	const Metadata& getMetadata() const { return md; }

	private:
	Metadata md;
	};

	template <typename Metadata>
	inline hash_code hash_value(const MDVector<Metadata> &V) {
	return hash_value(static_cast<const Vector&>(V));
	}

	template <typename Metadata>
	class MDMatrix : public Matrix {
	public:
	MDMatrix(const Matrix &m) : Matrix(m), md(*this) {}
	MDMatrix(Matrix &&m) : Matrix(std::move(m)), md(*this) { }

	const Metadata& getMetadata() const { return md; }

	private:
	Metadata md;
	};

	template <typename Metadata>
	inline hash_code hash_value(const MDMatrix<Metadata> &M) {
	return hash_value(static_cast<const Matrix&>(M));
	}

	} // end namespace PBQP
	} // end namespace llvm

	#endif // LLVM_CODEGEN_PBQP_MATH_H