//===-- ExhaustiveSolver.h - Brute Force PBQP Solver ------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Uses a trivial brute force algorithm to solve a PBQP problem. // PBQP is NP-HARD - This solver should only be used for debugging small // problems. // //===----------------------------------------------------------------------===// #ifndef LLVM_CODEGEN_PBQP_EXHAUSTIVESOLVER_H #define LLVM_CODEGEN_PBQP_EXHAUSTIVESOLVER_H #include "Solver.h" namespace PBQP { /// A brute force PBQP solver. This solver takes exponential time. It should /// only be used for debugging purposes. class ExhaustiveSolverImpl { private: const SimpleGraph &g; PBQPNum getSolutionCost(const Solution &solution) const { PBQPNum cost = 0.0; for (SimpleGraph::ConstNodeIterator nodeItr = g.nodesBegin(), nodeEnd = g.nodesEnd(); nodeItr != nodeEnd; ++nodeItr) { unsigned nodeId = g.getNodeID(nodeItr); cost += g.getNodeCosts(nodeItr)[solution.getSelection(nodeId)]; } for (SimpleGraph::ConstEdgeIterator edgeItr = g.edgesBegin(), edgeEnd = g.edgesEnd(); edgeItr != edgeEnd; ++edgeItr) { SimpleGraph::ConstNodeIterator n1 = g.getEdgeNode1Itr(edgeItr), n2 = g.getEdgeNode2Itr(edgeItr); unsigned sol1 = solution.getSelection(g.getNodeID(n1)), sol2 = solution.getSelection(g.getNodeID(n2)); cost += g.getEdgeCosts(edgeItr)[sol1][sol2]; } return cost; } public: ExhaustiveSolverImpl(const SimpleGraph &g) : g(g) {} Solution solve() const { Solution current(g.getNumNodes(), true), optimal(current); PBQPNum bestCost = std::numeric_limits::infinity(); bool finished = false; while (!finished) { PBQPNum currentCost = getSolutionCost(current); if (currentCost < bestCost) { optimal = current; bestCost = currentCost; } // assume we're done. finished = true; for (unsigned i = 0; i < g.getNumNodes(); ++i) { if (current.getSelection(i) == (g.getNodeCosts(g.getNodeItr(i)).getLength() - 1)) { current.setSelection(i, 0); } else { current.setSelection(i, current.getSelection(i) + 1); finished = false; break; } } } optimal.setSolutionCost(bestCost); return optimal; } }; class ExhaustiveSolver : public Solver { public: ~ExhaustiveSolver() {} Solution solve(const SimpleGraph &g) const { ExhaustiveSolverImpl solver(g); return solver.solve(); } }; } #endif // LLVM_CODGEN_PBQP_EXHAUSTIVESOLVER_HPP