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path: root/Source/Core/LoopUnroll.cs
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//-----------------------------------------------------------------------------
//
// Copyright (C) Microsoft Corporation.  All Rights Reserved.
//
//-----------------------------------------------------------------------------
using System.Diagnostics.Contracts;
using System.Collections.Generic;
using Bpl = Microsoft.Boogie;

namespace Microsoft.Boogie {
  public class LoopUnroll {
    public static List<Block/*!*/>/*!*/ UnrollLoops(Block start, int unrollMaxDepth) {
      Contract.Requires(start != null);

      Contract.Requires(0 <= unrollMaxDepth);
      Contract.Ensures(cce.NonNullElements(Contract.Result<List<Block>>()));
      Dictionary<Block, GraphNode/*!*/> gd = new Dictionary<Block, GraphNode/*!*/>();
      HashSet<Block> beingVisited = new HashSet<Block>();
      GraphNode gStart = GraphNode.ComputeGraphInfo(null, start, gd, beingVisited);

      // Compute SCCs
      StronglyConnectedComponents<GraphNode/*!*/> sccs =
        new StronglyConnectedComponents<GraphNode/*!*/>(gd.Values, Preds, Succs);
      Contract.Assert(sccs != null);
      sccs.Compute();
      Dictionary<GraphNode/*!*/, SCC<GraphNode/*!*/>> containingSCC = new Dictionary<GraphNode/*!*/, SCC<GraphNode/*!*/>>();
      foreach (SCC<GraphNode/*!*/> scc in sccs) {
        foreach (GraphNode/*!*/ n in scc) {
          Contract.Assert(n != null);
          containingSCC[n] = scc;
        }
      }

      LoopUnroll lu = new LoopUnroll(unrollMaxDepth, containingSCC, new List<Block/*!*/>());
      lu.Visit(gStart);
      lu.newBlockSeqGlobal.Reverse();
      return lu.newBlockSeqGlobal;
    }

    // This is supposed to "undo" to effect of loop unrolling
    // on block labels. It essentially removes the "#num" from the end 
    // of lab, if there is something like this
    public static string sanitizeLabel(string lab)
    {
        if (!lab.Contains("#"))
            return lab;

        // Find the last occurrance of "#"
        int pos = lab.LastIndexOf('#');

        return lab.Substring(0, pos);
    }

    private static System.Collections.IEnumerable/*<GraphNode/*!>/*!*/ Succs(GraphNode n) {
      Contract.Requires(n != null);
      Contract.Ensures(Contract.Result<System.Collections.IEnumerable>() != null);

      List<GraphNode/*!*/>/*!*/ AllEdges = new List<GraphNode/*!*/>();
      AllEdges.AddRange(n.ForwardEdges);
      AllEdges.AddRange(n.BackEdges);
      return AllEdges;
    }
    private static System.Collections.IEnumerable/*<GraphNode!>*//*!*/ Preds(GraphNode n) {
      Contract.Requires(n != null);
      Contract.Ensures(Contract.Result<System.Collections.IEnumerable>() != null);

      return n.Predecessors;
    }

    class GraphNode {
      public readonly Block/*!*/ Block;
      public readonly CmdSeq/*!*/ Body;
      [ContractInvariantMethod]
      void ObjectInvariant() {
        Contract.Invariant(Block != null);
        Contract.Invariant(Body != null);
        Contract.Invariant(cce.NonNullElements(ForwardEdges));
        Contract.Invariant(cce.NonNullElements(BackEdges));
        Contract.Invariant(cce.NonNullElements(Predecessors));
        Contract.Invariant(isCutPoint == (BackEdges.Count != 0));
      }

      bool isCutPoint;  // is set during ComputeGraphInfo
      public bool IsCutPoint {
        get {
          return isCutPoint;
        }
      }
      [Rep]
      public readonly List<GraphNode/*!*/>/*!*/ ForwardEdges = new List<GraphNode/*!*/>();
      [Rep]
      public readonly List<GraphNode/*!*/>/*!*/ BackEdges = new List<GraphNode/*!*/>();
      [Rep]
      public readonly List<GraphNode/*!*/>/*!*/ Predecessors = new List<GraphNode/*!*/>();

      GraphNode(Block b, CmdSeq body) {
        Contract.Requires(body != null);
        Contract.Requires(b != null);
        this.Block = b;
        this.Body = body;
      }

      static CmdSeq GetOptimizedBody(CmdSeq cmds) {
        Contract.Requires(cmds != null);
        Contract.Ensures(Contract.Result<CmdSeq>() != null);
        int n = 0;
        foreach (Cmd c in cmds) {
          n++;
          PredicateCmd pc = c as PredicateCmd;
          if (pc != null && pc.Expr is LiteralExpr && ((LiteralExpr)pc.Expr).IsFalse) {
            // return a sequence consisting of the commands seen so far
            Cmd[] s = new Cmd[n];
            for (int i = 0; i < n; i++) {
              s[i] = cmds[i];
            }
            return new CmdSeq(s);
          }
        }
        return cmds;
      }

      public static GraphNode ComputeGraphInfo(GraphNode from, Block b, Dictionary<Block/*!*/, GraphNode/*!*/>/*!*/ gd, HashSet<Block> beingVisited) {
        Contract.Requires(beingVisited != null);
        Contract.Requires(b != null);
        Contract.Requires(cce.NonNullDictionaryAndValues(gd));
        Contract.Ensures(Contract.Result<GraphNode>() != null);
        GraphNode g;
        if (gd.TryGetValue(b, out g)) {
          Contract.Assume(from != null);
          Contract.Assert(g != null);
          if (beingVisited.Contains(b)) {
            // it's a cut point
            g.isCutPoint = true;
            from.BackEdges.Add(g);
            g.Predecessors.Add(from);
          } else {
            from.ForwardEdges.Add(g);
            g.Predecessors.Add(from);
          }

        } else {
          CmdSeq body = GetOptimizedBody(b.Cmds);
          g = new GraphNode(b, body);
          gd.Add(b, g);
          if (from != null) {
            from.ForwardEdges.Add(g);
            g.Predecessors.Add(from);
          }

          if (body != b.Cmds) {
            // the body was optimized -- there is no way through this block
          } else {
            beingVisited.Add(b);

            GotoCmd gcmd = b.TransferCmd as GotoCmd;
            if (gcmd != null) {
              Contract.Assume(gcmd.labelTargets != null);
              foreach (Block/*!*/ succ in gcmd.labelTargets) {
                Contract.Assert(succ != null);
                ComputeGraphInfo(g, succ, gd, beingVisited);
              }
            }

            beingVisited.Remove(b);
          }
        }
        return g;
      }
    }

    readonly List<Block/*!*/>/*!*/ newBlockSeqGlobal;
    readonly Dictionary<GraphNode/*!*/, SCC<GraphNode/*!*/>>/*!*/ containingSCC;
    readonly int c;
    readonly LoopUnroll next;
    readonly LoopUnroll/*!*/ head;

    Dictionary<Block, Block/*!*/>/*!*/ newBlocks = new Dictionary<Block, Block/*!*/>();
    [ContractInvariantMethod]
    void ObjectInvariant() {
      Contract.Invariant(head != null);
      Contract.Invariant(cce.NonNullElements(newBlockSeqGlobal));
      Contract.Invariant(newBlocks != null && cce.NonNullElements(newBlocks.Values));
    }


    [NotDelayed]
    private LoopUnroll(int unrollMaxDepth, Dictionary<GraphNode/*!*/, SCC<GraphNode/*!*/>>/*!*/ scc, List<Block/*!*/>/*!*/ newBlockSeqGlobal)
      : base() {//BASEMOVE DANGER
      Contract.Requires(cce.NonNullElements(newBlockSeqGlobal));
      Contract.Requires(cce.NonNullDictionaryAndValues(scc) && Contract.ForAll(scc.Values, v => cce.NonNullElements(v)));
      Contract.Requires(0 <= unrollMaxDepth);
      this.newBlockSeqGlobal = newBlockSeqGlobal;
      this.c = unrollMaxDepth;
      this.containingSCC = scc;
      //:base();
      this.head = this;
      if (unrollMaxDepth != 0) {
        next = new LoopUnroll(unrollMaxDepth - 1, scc, newBlockSeqGlobal, this);
      }
    }

    private LoopUnroll(int unrollMaxDepth, Dictionary<GraphNode/*!*/, SCC<GraphNode/*!*/>> scc, List<Block/*!*/>/*!*/ newBlockSeqGlobal, LoopUnroll head) {
      Contract.Requires(head != null);
      Contract.Requires(cce.NonNullDictionaryAndValues(scc));
      Contract.Requires(cce.NonNullElements(newBlockSeqGlobal));
      Contract.Requires(0 <= unrollMaxDepth);
      this.newBlockSeqGlobal = newBlockSeqGlobal;
      this.c = unrollMaxDepth;
      this.containingSCC = scc;
      this.head = head;
      if (unrollMaxDepth != 0) {
        next = new LoopUnroll(unrollMaxDepth - 1, scc, newBlockSeqGlobal, head);
      }
    }

    Block Visit(GraphNode node) {
      Contract.Requires(node != null);
      Contract.Ensures(Contract.Result<Block>() != null);
      Block orig = node.Block;
      Block nw;
      if (newBlocks.TryGetValue(orig, out nw)) {
        Contract.Assert(nw != null);

      } else {
        CmdSeq body;
        TransferCmd tcmd;
        Contract.Assert(orig.TransferCmd != null);

        if (next == null && node.IsCutPoint) {
          // as the body, use the assert/assume commands that make up the loop invariant
          body = new CmdSeq();
          foreach (Cmd/*!*/ c in node.Body) {
            Contract.Assert(c != null);
            if (c is PredicateCmd || c is CommentCmd) {
              body.Add(c);
            } else {
              break;
            }
          }
          body.Add(new AssumeCmd(orig.tok, Bpl.Expr.False));

          tcmd = new ReturnCmd(orig.TransferCmd.tok);

        } else {
          body = node.Body;
          BlockSeq newSuccs = new BlockSeq();

          foreach (GraphNode succ in node.ForwardEdges) {
            Block s;
            if (containingSCC[node] == containingSCC[succ]) {
              s = Visit(succ);
            } else {
              Contract.Assert(head != null); // follows from object invariant
              s = head.Visit(succ);
            }
            newSuccs.Add(s);
          }

          Contract.Assert(next != null || node.BackEdges.Count == 0);  // follows from if-else test above and the GraphNode invariant
          foreach (GraphNode succ in node.BackEdges) {
            Contract.Assert(next != null);  // since if we get here, node.BackEdges.Count != 0
            Block s = next.Visit(succ);
            newSuccs.Add(s);
          }

          if (newSuccs.Length == 0) {
            tcmd = new ReturnCmd(orig.TransferCmd.tok);
          } else {
            tcmd = new GotoCmd(orig.TransferCmd.tok, newSuccs);
          }
        }

        nw = new Block(orig.tok, orig.Label + "#" + this.c, body, tcmd);
        newBlocks.Add(orig, nw);
        newBlockSeqGlobal.Add(nw);
      }

      return nw;
    }
  }
}