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using Microsoft.Boogie.GraphUtil;
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Diagnostics.Contracts;
using System.Linq;
namespace Microsoft.Boogie {
public class SmartBlockPredicator {
Program prog;
Implementation impl;
Graph<Block> blockGraph;
List<Tuple<Block, bool>> sortedBlocks;
Func<Procedure, bool> useProcedurePredicates;
Dictionary<Block, Variable> predMap, defMap;
Dictionary<Block, HashSet<Variable>> ownedMap;
Dictionary<Block, Block> parentMap;
Dictionary<Block, PartInfo> partInfo;
IdentifierExpr fp;
Dictionary<Microsoft.Boogie.Type, IdentifierExpr> havocVars =
new Dictionary<Microsoft.Boogie.Type, IdentifierExpr>();
HashSet<Block> doneBlocks = new HashSet<Block>();
bool myUseProcedurePredicates;
UniformityAnalyser uni;
SmartBlockPredicator(Program p, Implementation i, Func<Procedure, bool> upp, UniformityAnalyser u) {
prog = p;
impl = i;
useProcedurePredicates = upp;
myUseProcedurePredicates = useProcedurePredicates(i.Proc);
uni = u;
}
void PredicateCmd(Expr p, Expr pDom, List<Block> blocks, Block block, Cmd cmd, out Block nextBlock) {
var cCmd = cmd as CallCmd;
if (cCmd != null && !useProcedurePredicates(cCmd.Proc)) {
if (p == null) {
block.Cmds.Add(cmd);
nextBlock = block;
return;
}
var trueBlock = new Block();
blocks.Add(trueBlock);
trueBlock.Label = block.Label + ".call.true";
trueBlock.Cmds.Add(new AssumeCmd(Token.NoToken, p));
trueBlock.Cmds.Add(cmd);
var falseBlock = new Block();
blocks.Add(falseBlock);
falseBlock.Label = block.Label + ".call.false";
falseBlock.Cmds.Add(new AssumeCmd(Token.NoToken, Expr.Not(p)));
var contBlock = new Block();
blocks.Add(contBlock);
contBlock.Label = block.Label + ".call.cont";
block.TransferCmd =
new GotoCmd(Token.NoToken, new List<Block> { trueBlock, falseBlock });
trueBlock.TransferCmd = falseBlock.TransferCmd =
new GotoCmd(Token.NoToken, new List<Block> { contBlock });
nextBlock = contBlock;
} else {
PredicateCmd(p, pDom, block.Cmds, cmd);
nextBlock = block;
}
}
void PredicateCmd(Expr p, Expr pDom, List<Cmd> cmdSeq, Cmd cmd) {
if (cmd is CallCmd) {
var cCmd = (CallCmd)cmd;
Debug.Assert(useProcedurePredicates(cCmd.Proc));
cCmd.Ins.Insert(0, p != null ? p : Expr.True);
cmdSeq.Add(cCmd);
} else if (p == null) {
new EnabledReplacementVisitor(Expr.True, pDom).Visit(cmd);
cmdSeq.Add(cmd);
} else if (cmd is AssignCmd) {
var aCmd = (AssignCmd)cmd;
cmdSeq.Add(new AssignCmd(Token.NoToken, aCmd.Lhss,
new List<Expr>(aCmd.Lhss.Zip(aCmd.Rhss, (lhs, rhs) =>
new NAryExpr(Token.NoToken,
new IfThenElse(Token.NoToken),
new List<Expr> { p, rhs, lhs.AsExpr })))));
} else if (cmd is AssertCmd) {
var aCmd = (AssertCmd)cmd;
Expr newExpr = new EnabledReplacementVisitor(p, pDom).VisitExpr(aCmd.Expr);
aCmd.Expr = QKeyValue.FindBoolAttribute(aCmd.Attributes, "do_not_predicate") ? newExpr : Expr.Imp(p, newExpr);
cmdSeq.Add(aCmd);
} else if (cmd is AssumeCmd) {
var aCmd = (AssumeCmd)cmd;
Expr newExpr = new EnabledReplacementVisitor(p, pDom).VisitExpr(aCmd.Expr);
aCmd.Expr = QKeyValue.FindBoolAttribute(aCmd.Attributes, "do_not_predicate") ? newExpr : Expr.Imp(p, newExpr);
cmdSeq.Add(aCmd);
} else if (cmd is HavocCmd) {
var hCmd = (HavocCmd)cmd;
foreach (IdentifierExpr v in hCmd.Vars) {
Microsoft.Boogie.Type type = v.Decl.TypedIdent.Type;
Contract.Assert(type != null);
IdentifierExpr havocTempExpr;
if (havocVars.ContainsKey(type)) {
havocTempExpr = havocVars[type];
} else {
var havocVar = new LocalVariable(Token.NoToken,
new TypedIdent(Token.NoToken,
"_HAVOC_" + type.ToString(), type));
impl.LocVars.Add(havocVar);
havocVars[type] = havocTempExpr =
new IdentifierExpr(Token.NoToken, havocVar);
}
cmdSeq.Add(new HavocCmd(Token.NoToken,
new List<IdentifierExpr> { havocTempExpr }));
cmdSeq.Add(Cmd.SimpleAssign(Token.NoToken, v,
new NAryExpr(Token.NoToken,
new IfThenElse(Token.NoToken),
new List<Expr> { p, havocTempExpr, v })));
}
} else if (cmd is CommentCmd) {
// skip
} else if (cmd is StateCmd) {
var sCmd = (StateCmd)cmd;
var newCmdSeq = new List<Cmd>();
foreach (Cmd c in sCmd.Cmds)
PredicateCmd(p, pDom, newCmdSeq, c);
sCmd.Cmds = newCmdSeq;
cmdSeq.Add(sCmd);
} else {
Console.WriteLine("Unsupported cmd: " + cmd.GetType().ToString());
}
}
// hasPredicatedRegion is true iff the block or its targets are predicated
// (i.e. we enter, stay within or exit a predicated region).
void PredicateTransferCmd(Expr p, Block src, List<Cmd> cmdSeq, TransferCmd cmd, out bool hasPredicatedRegion) {
hasPredicatedRegion = predMap.ContainsKey(src);
if (cmd is GotoCmd) {
var gCmd = (GotoCmd)cmd;
hasPredicatedRegion = hasPredicatedRegion ||
gCmd.labelTargets.Cast<Block>().Any(b => predMap.ContainsKey(b));
if (gCmd.labelTargets.Count == 1) {
if (defMap.ContainsKey(gCmd.labelTargets[0])) {
PredicateCmd(p, Expr.True, cmdSeq,
Cmd.SimpleAssign(Token.NoToken,
Expr.Ident(predMap[gCmd.labelTargets[0]]), Expr.True));
}
} else {
Debug.Assert(gCmd.labelTargets.Count > 1);
Debug.Assert(gCmd.labelTargets.Cast<Block>().All(t => uni.IsUniform(impl.Name, t) ||
partInfo.ContainsKey(t)));
foreach (Block target in gCmd.labelTargets) {
if (!partInfo.ContainsKey(target))
continue;
// In this case we not only predicate with the current predicate p,
// but also with the "part predicate"; this ensures that we do not
// update a predicate twice when it occurs in both parts.
var part = partInfo[target];
if (defMap.ContainsKey(part.realDest)) {
PredicateCmd(p == null ? part.pred : Expr.And(p, part.pred), Expr.True, cmdSeq,
Cmd.SimpleAssign(Token.NoToken,
Expr.Ident(predMap[part.realDest]), part.pred));
}
var predsExitingLoop = new Dictionary<Block, List<Expr>>();
foreach (Block exit in LoopsExited(src, target)) {
List<Expr> predList;
if (!predsExitingLoop.ContainsKey(exit))
predList = predsExitingLoop[exit] = new List<Expr>();
else
predList = predsExitingLoop[exit];
predList.Add(part.pred);
}
foreach (var pred in predsExitingLoop) {
PredicateCmd(p == null ? part.pred : Expr.And(p, part.pred), Expr.True, cmdSeq,
Cmd.SimpleAssign(Token.NoToken,
Expr.Ident(predMap[pred.Key]),
Expr.Not(pred.Value.Aggregate(Expr.Or))));
}
}
}
} else if (cmd is ReturnCmd) {
// Blocks which end in a return will never share a predicate with a block
// which appears after it. Furthermore, such a block cannot be part of a
// loop. So it is safe to do nothing here.
} else {
Console.WriteLine("Unsupported cmd: " + cmd.GetType().ToString());
}
}
Variable FreshPredicate(ref int predCount) {
var pVar = new LocalVariable(Token.NoToken,
new TypedIdent(Token.NoToken,
"p" + predCount++,
Microsoft.Boogie.Type.Bool));
impl.LocVars.Add(pVar);
return pVar;
}
void AssignPredicates(Graph<Block> blockGraph,
DomRelation<Block> dom,
DomRelation<Block> pdom,
IEnumerable<Block> headerDominance,
IEnumerator<Tuple<Block, bool>> i,
Variable headPredicate,
ref int predCount) {
var header = i.Current.Item1;
var regionPreds = new List<Tuple<Block, Variable>>();
var ownedPreds = new HashSet<Variable>();
ownedMap[header] = ownedPreds;
if (headPredicate != null) {
predMap[header] = headPredicate;
defMap[header] = headPredicate;
regionPreds.Add(new Tuple<Block, Variable>(header, headPredicate));
}
while (i.MoveNext()) {
var block = i.Current;
if (block.Item2) {
if (block.Item1 == header) {
return;
}
}
if (uni != null && uni.IsUniform(impl.Name, block.Item1)) {
if (blockGraph.Headers.Contains(block.Item1)) {
parentMap[block.Item1] = header;
AssignPredicates(blockGraph, dom, pdom, headerDominance, i, headPredicate, ref predCount);
}
continue;
}
if (!block.Item2) {
if (blockGraph.Headers.Contains(block.Item1)) {
parentMap[block.Item1] = header;
var loopPred = FreshPredicate(ref predCount);
ownedPreds.Add(loopPred);
AssignPredicates(blockGraph, dom, pdom, headerDominance, i, loopPred, ref predCount);
} else {
bool foundExisting = false;
foreach (var regionPred in regionPreds) {
if (dom.DominatedBy(block.Item1, regionPred.Item1) &&
pdom.DominatedBy(regionPred.Item1, block.Item1)) {
predMap[block.Item1] = regionPred.Item2;
foundExisting = true;
break;
}
}
if (!foundExisting) {
var condPred = FreshPredicate(ref predCount);
predMap[block.Item1] = condPred;
defMap[block.Item1] = condPred;
var headerIterator = headerDominance.GetEnumerator();
// Add the predicate to the loop header H that dominates the node (if one
// exists) such that H does not dominate another header which also dominates
// the node. Since predicates are owned by loop headers (or the program entry
// node), this is the block 'closest' to block to which we are assigning a
// that can be made to own the predicate.
Block node = null;
while (headerIterator.MoveNext()) {
var current = headerIterator.Current;
if (dom.DominatedBy(block.Item1, current)) {
node = current;
break;
}
}
if (node != null) {
ownedMap[node].Add(condPred);
} else {
// In this case the header is the program entry node.
ownedPreds.Add(condPred);
}
regionPreds.Add(new Tuple<Block, Variable>(block.Item1, condPred));
}
}
}
}
}
void AssignPredicates() {
DomRelation<Block> dom = blockGraph.DominatorMap;
Graph<Block> dualGraph = blockGraph.Dual(new Block());
DomRelation<Block> pdom = dualGraph.DominatorMap;
IEnumerable<Block> headerDominance = blockGraph.SortHeadersByDominance();
var iter = sortedBlocks.GetEnumerator();
if (!iter.MoveNext()) {
predMap = defMap = null;
ownedMap = null;
return;
}
int predCount = 0;
predMap = new Dictionary<Block, Variable>();
defMap = new Dictionary<Block, Variable>();
ownedMap = new Dictionary<Block, HashSet<Variable>>();
parentMap = new Dictionary<Block, Block>();
AssignPredicates(blockGraph, dom, pdom, headerDominance, iter,
myUseProcedurePredicates ? impl.InParams[0] : null,
ref predCount);
}
IEnumerable<Block> LoopsExited(Block src, Block dest) {
var i = sortedBlocks.GetEnumerator();
while (i.MoveNext()) {
var b = i.Current;
if (b.Item1 == src) {
return LoopsExitedForwardEdge(dest, i);
} else if (b.Item1 == dest) {
return LoopsExitedBackEdge(src, i);
}
}
Debug.Assert(false);
return null;
}
private IEnumerable<Block> LoopsExitedBackEdge(Block src, IEnumerator<Tuple<Block, bool>> i) {
var headsSeen = new HashSet<Block>();
while (i.MoveNext()) {
var b = i.Current;
if (!b.Item2 && blockGraph.Headers.Contains(b.Item1))
headsSeen.Add(b.Item1);
else if (b.Item2)
headsSeen.Remove(b.Item1);
if (b.Item1 == src)
return headsSeen;
}
Debug.Assert(false);
return null;
}
private IEnumerable<Block> LoopsExitedForwardEdge(Block dest, IEnumerator<Tuple<Block, bool>> i) {
var headsSeen = new HashSet<Block>();
while (i.MoveNext()) {
var b = i.Current;
if (b.Item1 == dest)
yield break;
else if (!b.Item2 && blockGraph.Headers.Contains(b.Item1))
headsSeen.Add(b.Item1);
else if (b.Item2 && !headsSeen.Contains(b.Item1))
yield return b.Item1;
}
Debug.Assert(false);
}
class PartInfo {
public PartInfo(Expr p, Block r) { pred = p; realDest = r; }
public Expr pred;
public Block realDest;
}
Dictionary<Block, PartInfo> BuildPartitionInfo() {
var partInfo = new Dictionary<Block, PartInfo>();
foreach (var block in blockGraph.Nodes) {
if (uni.IsUniform(impl.Name, block))
continue;
var parts = block.Cmds.Cast<Cmd>().TakeWhile(
c => c is AssumeCmd &&
QKeyValue.FindBoolAttribute(((AssumeCmd)c).Attributes, "partition"));
Expr pred = null;
if (parts.Count() > 0) {
pred = parts.Select(a => ((AssumeCmd)a).Expr).Aggregate(Expr.And);
block.Cmds =
new List<Cmd>(block.Cmds.Cast<Cmd>().Skip(parts.Count()).ToArray());
} else {
continue;
}
Block realDest = block;
if (block.Cmds.Count == 0) {
var gc = block.TransferCmd as GotoCmd;
if (gc != null && gc.labelTargets.Count == 1)
realDest = gc.labelTargets[0];
}
partInfo[block] = new PartInfo(pred, realDest);
}
return partInfo;
}
Block FindImmediateDominator(Block block) {
Block predecessor = null;
foreach(var pred in blockGraph.Predecessors(block)) {
if (!blockGraph.DominatorMap.DominatedBy(pred, block)) {
if (predecessor == null)
predecessor = pred;
else
predecessor = blockGraph.DominatorMap.LeastCommonAncestor(pred, predecessor);
}
}
return predecessor;
}
void PredicateImplementation() {
blockGraph = prog.ProcessLoops(impl);
sortedBlocks = blockGraph.LoopyTopSort();
AssignPredicates();
partInfo = BuildPartitionInfo();
if (myUseProcedurePredicates)
fp = Expr.Ident(impl.InParams[0]);
var newBlocks = new List<Block>();
Block prevBlock = null;
foreach (var n in sortedBlocks) {
if (predMap.ContainsKey(n.Item1)) {
var p = predMap[n.Item1];
var pExpr = Expr.Ident(p);
if (n.Item2) {
var dominator = FindImmediateDominator(n.Item1);
if (dominator != null && predMap.ContainsKey(dominator)) {
AssumeCmd aCmd = new AssumeCmd(Token.NoToken, Expr.True);
aCmd.Attributes = new QKeyValue(Token.NoToken, "dominator_predicate", new List<object>() { predMap[dominator].ToString() }, aCmd.Attributes);
aCmd.Attributes = new QKeyValue(Token.NoToken, "predicate", new List<object>() { predMap[n.Item1].ToString() }, aCmd.Attributes);
n.Item1.Cmds.Insert(0, aCmd);
}
var backedgeBlock = new Block();
newBlocks.Add(backedgeBlock);
backedgeBlock.Label = n.Item1.Label + ".backedge";
backedgeBlock.Cmds = new List<Cmd> { new AssumeCmd(Token.NoToken, pExpr,
new QKeyValue(Token.NoToken, "backedge", new List<object>(), null)) };
backedgeBlock.TransferCmd = new GotoCmd(Token.NoToken,
new List<Block> { n.Item1 });
var tailBlock = new Block();
newBlocks.Add(tailBlock);
tailBlock.Label = n.Item1.Label + ".tail";
tailBlock.Cmds = new List<Cmd> { new AssumeCmd(Token.NoToken,
Expr.Not(pExpr)) };
if (uni != null && !uni.IsUniform(impl.Name, n.Item1)) {
uni.AddNonUniform(impl.Name, backedgeBlock);
uni.AddNonUniform(impl.Name, tailBlock);
}
if (prevBlock != null)
prevBlock.TransferCmd = new GotoCmd(Token.NoToken,
new List<Block> { backedgeBlock, tailBlock });
prevBlock = tailBlock;
} else {
PredicateBlock(pExpr, n.Item1, newBlocks, ref prevBlock);
}
} else {
if (!n.Item2) {
PredicateBlock(null, n.Item1, newBlocks, ref prevBlock);
}
}
}
if (prevBlock != null)
prevBlock.TransferCmd = new ReturnCmd(Token.NoToken);
impl.Blocks = newBlocks;
}
private void PredicateBlock(Expr pExpr, Block block, List<Block> newBlocks, ref Block prevBlock) {
var firstBlock = block;
var oldCmdSeq = block.Cmds;
block.Cmds = new List<Cmd>();
newBlocks.Add(block);
if (prevBlock != null && !((prevBlock.TransferCmd is ReturnCmd) && uni != null && uni.IsUniform(impl.Name, block))) {
prevBlock.TransferCmd = new GotoCmd(Token.NoToken, new List<Block> { block });
}
Block currentBlock = block;
Expr pCurrentExpr = pExpr;
while (parentMap.ContainsKey(currentBlock)) {
Block parent = parentMap[currentBlock];
Expr pParentExpr = null;
if (predMap.ContainsKey(parent)) {
var parentPred = predMap[parent];
if (parentPred != null) {
pParentExpr = Expr.Ident(parentPred);
block.Cmds.Add(new AssertCmd(Token.NoToken,
pCurrentExpr != null ? (Expr)Expr.Imp(pCurrentExpr, pParentExpr)
: pParentExpr));
}
}
currentBlock = parent;
pCurrentExpr = pParentExpr;
}
Block dominator = FindImmediateDominator(block);
Expr pDomExpr = Expr.True;
if (dominator != null && predMap.ContainsKey(dominator))
pDomExpr = new IdentifierExpr(Token.NoToken, predMap[dominator]);
var transferCmd = block.TransferCmd;
foreach (Cmd cmd in oldCmdSeq)
PredicateCmd(pExpr, pDomExpr, newBlocks, block, cmd, out block);
if (ownedMap.ContainsKey(firstBlock)) {
var owned = ownedMap[firstBlock];
foreach (var v in owned)
block.Cmds.Add(Cmd.SimpleAssign(Token.NoToken, Expr.Ident(v), Expr.False));
}
bool hasPredicatedRegion;
PredicateTransferCmd(pExpr, block, block.Cmds, transferCmd, out hasPredicatedRegion);
if (hasPredicatedRegion)
prevBlock = block;
else
prevBlock = null;
doneBlocks.Add(block);
}
private Expr CreateIfFPThenElse(Expr then, Expr eElse) {
if (myUseProcedurePredicates) {
return new NAryExpr(Token.NoToken,
new IfThenElse(Token.NoToken),
new List<Expr> { fp, then, eElse });
} else {
return then;
}
}
public static void Predicate(Program p,
Func<Procedure, bool> useProcedurePredicates = null,
UniformityAnalyser uni = null) {
useProcedurePredicates = useProcedurePredicates ?? (proc => false);
if (uni != null) {
var oldUPP = useProcedurePredicates;
useProcedurePredicates = proc => oldUPP(proc) && !uni.IsUniform(proc.Name);
}
foreach (var decl in p.TopLevelDeclarations.ToList()) {
if (decl is Procedure || decl is Implementation) {
var proc = decl as Procedure;
Implementation impl = null;
if (proc == null) {
impl = (Implementation)decl;
proc = impl.Proc;
}
bool upp = useProcedurePredicates(proc);
if (upp) {
var dwf = (DeclWithFormals)decl;
var fpVar = new Formal(Token.NoToken,
new TypedIdent(Token.NoToken, "_P",
Microsoft.Boogie.Type.Bool),
/*incoming=*/true);
dwf.InParams = new List<Variable>(
(new Variable[] {fpVar}.Concat(dwf.InParams.Cast<Variable>()))
.ToArray());
if (impl == null) {
var fpIdentifierExpr = new IdentifierExpr(Token.NoToken, fpVar);
foreach (Requires r in proc.Requires) {
new EnabledReplacementVisitor(fpIdentifierExpr, Expr.True).VisitExpr(r.Condition);
if (!QKeyValue.FindBoolAttribute(r.Attributes, "do_not_predicate")) {
r.Condition = Expr.Imp(fpIdentifierExpr, r.Condition);
}
}
foreach (Ensures e in proc.Ensures) {
new EnabledReplacementVisitor(new IdentifierExpr(Token.NoToken, fpVar), Expr.True).VisitExpr(e.Condition);
if (!QKeyValue.FindBoolAttribute(e.Attributes, "do_not_predicate")) {
e.Condition = Expr.Imp(fpIdentifierExpr, e.Condition);
}
}
}
} else {
if (impl == null) {
foreach (Requires r in proc.Requires) {
new EnabledReplacementVisitor(Expr.True, Expr.True).VisitExpr(r.Condition);
}
foreach (Ensures e in proc.Ensures) {
new EnabledReplacementVisitor(Expr.True, Expr.True).VisitExpr(e.Condition);
}
}
}
if (impl != null) {
try {
new SmartBlockPredicator(p, impl, useProcedurePredicates, uni).PredicateImplementation();
} catch (Program.IrreducibleLoopException) { }
}
}
}
}
public static void Predicate(Program p, Implementation impl) {
try {
new SmartBlockPredicator(p, impl, proc => false, null).PredicateImplementation();
}
catch (Program.IrreducibleLoopException) { }
}
}
class EnabledReplacementVisitor : StandardVisitor
{
private Expr pExpr;
private Expr pDomExpr;
internal EnabledReplacementVisitor(Expr pExpr, Expr pDomExpr)
{
this.pExpr = pExpr;
this.pDomExpr = pDomExpr;
}
public override Expr VisitExpr(Expr node)
{
if (node is IdentifierExpr)
{
IdentifierExpr iExpr = node as IdentifierExpr;
if (iExpr.Decl is Constant && QKeyValue.FindBoolAttribute(iExpr.Decl.Attributes, "__enabled"))
{
return pExpr;
} else if (iExpr.Decl is Constant && QKeyValue.FindBoolAttribute(iExpr.Decl.Attributes, "__dominator_enabled"))
{
return pDomExpr;
}
}
return base.VisitExpr(node);
}
}
}
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