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[llvm/avr.git] / lib / CodeGen / PBQP / ExhaustiveSolver.h
blobb2f2e6f620fdb183fc31770f6dcbb90b68327ff2
1 //===-- ExhaustiveSolver.h - Brute Force PBQP Solver -----------*- C++ --*-===//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 //
10 // Uses a trivial brute force algorithm to solve a PBQP problem.
11 // PBQP is NP-HARD - This solver should only be used for debugging small
12 // problems.
14 //===----------------------------------------------------------------------===//
16 #ifndef LLVM_CODEGEN_PBQP_EXHAUSTIVESOLVER_H
17 #define LLVM_CODEGEN_PBQP_EXHAUSTIVESOLVER_H
19 #include "Solver.h"
21 namespace PBQP {
23 /// A brute force PBQP solver. This solver takes exponential time. It should
24 /// only be used for debugging purposes.
25 class ExhaustiveSolverImpl {
26 private:
28 const SimpleGraph &g;
30 PBQPNum getSolutionCost(const Solution &solution) const {
31 PBQPNum cost = 0.0;
33 for (SimpleGraph::ConstNodeIterator
34 nodeItr = g.nodesBegin(), nodeEnd = g.nodesEnd();
35 nodeItr != nodeEnd; ++nodeItr) {
37 unsigned nodeId = g.getNodeID(nodeItr);
39 cost += g.getNodeCosts(nodeItr)[solution.getSelection(nodeId)];
42 for (SimpleGraph::ConstEdgeIterator
43 edgeItr = g.edgesBegin(), edgeEnd = g.edgesEnd();
44 edgeItr != edgeEnd; ++edgeItr) {
46 SimpleGraph::ConstNodeIterator n1 = g.getEdgeNode1Itr(edgeItr),
47 n2 = g.getEdgeNode2Itr(edgeItr);
48 unsigned sol1 = solution.getSelection(g.getNodeID(n1)),
49 sol2 = solution.getSelection(g.getNodeID(n2));
51 cost += g.getEdgeCosts(edgeItr)[sol1][sol2];
54 return cost;
57 public:
59 ExhaustiveSolverImpl(const SimpleGraph &g) : g(g) {}
61 Solution solve() const {
62 Solution current(g.getNumNodes(), true), optimal(current);
64 PBQPNum bestCost = std::numeric_limits<PBQPNum>::infinity();
65 bool finished = false;
67 while (!finished) {
68 PBQPNum currentCost = getSolutionCost(current);
70 if (currentCost < bestCost) {
71 optimal = current;
72 bestCost = currentCost;
75 // assume we're done.
76 finished = true;
78 for (unsigned i = 0; i < g.getNumNodes(); ++i) {
79 if (current.getSelection(i) ==
80 (g.getNodeCosts(g.getNodeItr(i)).getLength() - 1)) {
81 current.setSelection(i, 0);
83 else {
84 current.setSelection(i, current.getSelection(i) + 1);
85 finished = false;
86 break;
92 optimal.setSolutionCost(bestCost);
94 return optimal;
99 class ExhaustiveSolver : public Solver {
100 public:
101 ~ExhaustiveSolver() {}
102 Solution solve(const SimpleGraph &g) const {
103 ExhaustiveSolverImpl solver(g);
104 return solver.solve();
110 #endif // LLVM_CODGEN_PBQP_EXHAUSTIVESOLVER_HPP