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https://github.com/c64scene-ar/llvm-6502.git
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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@57018 91177308-0d34-0410-b5e6-96231b3b80d8
285 lines
7.7 KiB
C++
285 lines
7.7 KiB
C++
//===---------------- PBQP.cpp --------- PBQP Solver ------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Developed by: Bernhard Scholz
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// The University of Sydney
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// http://www.it.usyd.edu.au/~scholz
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//===----------------------------------------------------------------------===//
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// TODO:
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//
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// * Default to null costs on vector initialisation?
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// * C++-ify the rest of the solver.
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#ifndef LLVM_CODEGEN_PBQPSOLVER_H
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#define LLVM_CODEGEN_PBQPSOLVER_H
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#include <cassert>
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#include <algorithm>
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#include <functional>
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namespace llvm {
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//! \brief Floating point type to use in PBQP solver.
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typedef double PBQPNum;
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//! \brief PBQP Vector class.
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class PBQPVector {
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public:
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//! \brief Construct a PBQP vector of the given size.
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explicit PBQPVector(unsigned length) :
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length(length), data(new PBQPNum[length]) {
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std::fill(data, data + length, 0);
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}
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//! \brief Copy construct a PBQP vector.
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PBQPVector(const PBQPVector &v) :
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length(v.length), data(new PBQPNum[length]) {
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std::copy(v.data, v.data + length, data);
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}
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~PBQPVector() { delete[] data; }
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//! \brief Assignment operator.
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PBQPVector& operator=(const PBQPVector &v) {
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delete[] data;
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length = v.length;
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data = new PBQPNum[length];
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std::copy(v.data, v.data + length, data);
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return *this;
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}
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//! \brief Return the length of the vector
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unsigned getLength() const throw () {
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return length;
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}
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//! \brief Element access.
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PBQPNum& operator[](unsigned index) {
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assert(index < length && "PBQPVector element access out of bounds.");
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return data[index];
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}
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//! \brief Const element access.
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const PBQPNum& operator[](unsigned index) const {
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assert(index < length && "PBQPVector element access out of bounds.");
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return data[index];
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}
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//! \brief Add another vector to this one.
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PBQPVector& operator+=(const PBQPVector &v) {
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assert(length == v.length && "PBQPVector length mismatch.");
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std::transform(data, data + length, v.data, data, std::plus<PBQPNum>());
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return *this;
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}
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//! \brief Subtract another vector from this one.
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PBQPVector& operator-=(const PBQPVector &v) {
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assert(length == v.length && "PBQPVector length mismatch.");
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std::transform(data, data + length, v.data, data, std::minus<PBQPNum>());
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return *this;
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}
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//! \brief Returns the index of the minimum value in this vector
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unsigned minIndex() const {
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return std::min_element(data, data + length) - data;
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}
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private:
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unsigned length;
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PBQPNum *data;
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};
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//! \brief PBQP Matrix class
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class PBQPMatrix {
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public:
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//! \brief Construct a PBQP Matrix with the given dimensions.
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PBQPMatrix(unsigned rows, unsigned cols) :
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rows(rows), cols(cols), data(new PBQPNum[rows * cols]) {
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std::fill(data, data + (rows * cols), 0);
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}
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//! \brief Copy construct a PBQP matrix.
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PBQPMatrix(const PBQPMatrix &m) :
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rows(m.rows), cols(m.cols), data(new PBQPNum[rows * cols]) {
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std::copy(m.data, m.data + (rows * cols), data);
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}
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~PBQPMatrix() { delete[] data; }
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//! \brief Assignment operator.
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PBQPMatrix& operator=(const PBQPMatrix &m) {
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delete[] data;
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rows = m.rows; cols = m.cols;
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data = new PBQPNum[rows * cols];
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std::copy(m.data, m.data + (rows * cols), data);
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return *this;
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}
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//! \brief Return the number of rows in this matrix.
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unsigned getRows() const throw () { return rows; }
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//! \brief Return the number of cols in this matrix.
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unsigned getCols() const throw () { return cols; }
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//! \brief Matrix element access.
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PBQPNum* operator[](unsigned r) {
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assert(r < rows && "Row out of bounds.");
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return data + (r * cols);
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}
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//! \brief Matrix element access.
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const PBQPNum* operator[](unsigned r) const {
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assert(r < rows && "Row out of bounds.");
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return data + (r * cols);
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}
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//! \brief Returns the given row as a vector.
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PBQPVector getRowAsVector(unsigned r) const {
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PBQPVector v(cols);
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for (unsigned c = 0; c < cols; ++c)
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v[c] = (*this)[r][c];
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return v;
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}
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//! \brief Reset the matrix to the given value.
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PBQPMatrix& reset(PBQPNum val = 0) {
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std::fill(data, data + (rows * cols), val);
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return *this;
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}
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//! \brief Set a single row of this matrix to the given value.
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PBQPMatrix& setRow(unsigned r, PBQPNum val) {
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assert(r < rows && "Row out of bounds.");
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std::fill(data + (r * cols), data + ((r + 1) * cols), val);
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return *this;
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}
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//! \brief Set a single column of this matrix to the given value.
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PBQPMatrix& setCol(unsigned c, PBQPNum val) {
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assert(c < cols && "Column out of bounds.");
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for (unsigned r = 0; r < rows; ++r)
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(*this)[r][c] = val;
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return *this;
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}
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//! \brief Matrix transpose.
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PBQPMatrix transpose() const {
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PBQPMatrix m(cols, rows);
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for (unsigned r = 0; r < rows; ++r)
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for (unsigned c = 0; c < cols; ++c)
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m[c][r] = (*this)[r][c];
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return m;
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}
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//! \brief Returns the diagonal of the matrix as a vector.
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//!
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//! Matrix must be square.
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PBQPVector diagonalize() const {
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assert(rows == cols && "Attempt to diagonalize non-square matrix.");
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PBQPVector v(rows);
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for (unsigned r = 0; r < rows; ++r)
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v[r] = (*this)[r][r];
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return v;
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}
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//! \brief Add the given matrix to this one.
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PBQPMatrix& operator+=(const PBQPMatrix &m) {
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assert(rows == m.rows && cols == m.cols &&
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"Matrix dimensions mismatch.");
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std::transform(data, data + (rows * cols), m.data, data,
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std::plus<PBQPNum>());
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return *this;
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}
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//! \brief Returns the minimum of the given row
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PBQPNum getRowMin(unsigned r) const {
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assert(r < rows && "Row out of bounds");
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return *std::min_element(data + (r * cols), data + ((r + 1) * cols));
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}
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//! \brief Returns the minimum of the given column
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PBQPNum getColMin(unsigned c) const {
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PBQPNum minElem = (*this)[0][c];
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for (unsigned r = 1; r < rows; ++r)
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if ((*this)[r][c] < minElem) minElem = (*this)[r][c];
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return minElem;
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}
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//! \brief Subtracts the given scalar from the elements of the given row.
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PBQPMatrix& subFromRow(unsigned r, PBQPNum val) {
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assert(r < rows && "Row out of bounds");
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std::transform(data + (r * cols), data + ((r + 1) * cols),
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data + (r * cols),
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std::bind2nd(std::minus<PBQPNum>(), val));
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return *this;
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}
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//! \brief Subtracts the given scalar from the elements of the given column.
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PBQPMatrix& subFromCol(unsigned c, PBQPNum val) {
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for (unsigned r = 0; r < rows; ++r)
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(*this)[r][c] -= val;
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return *this;
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}
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//! \brief Returns true if this is a zero matrix.
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bool isZero() const {
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return find_if(data, data + (rows * cols),
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std::bind2nd(std::not_equal_to<PBQPNum>(), 0)) ==
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data + (rows * cols);
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}
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private:
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unsigned rows, cols;
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PBQPNum *data;
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};
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#define EPS (1E-8)
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#ifndef PBQP_TYPE
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#define PBQP_TYPE
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struct pbqp;
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typedef struct pbqp pbqp;
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#endif
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/*****************
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* PBQP routines *
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*****************/
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/* allocate pbqp problem */
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pbqp *alloc_pbqp(int num);
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/* add node costs */
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void add_pbqp_nodecosts(pbqp *this_,int u, PBQPVector *costs);
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/* add edge mat */
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void add_pbqp_edgecosts(pbqp *this_,int u,int v,PBQPMatrix *costs);
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/* solve PBQP problem */
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void solve_pbqp(pbqp *this_);
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/* get solution of a node */
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int get_pbqp_solution(pbqp *this_,int u);
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/* alloc PBQP */
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pbqp *alloc_pbqp(int num);
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/* free PBQP */
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void free_pbqp(pbqp *this_);
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/* is optimal */
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bool is_pbqp_optimal(pbqp *this_);
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}
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#endif
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