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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Diagnostics;
using Microsoft.Boogie;
using Microsoft.Boogie.GraphUtil;
namespace Microsoft.Boogie {
public interface IVariableDependenceAnalyser {
void Analyse();
VariableDescriptor MakeDescriptor(string proc, Variable v);
HashSet<VariableDescriptor> DependsOn(VariableDescriptor v);
void dump();
void ShowDependencyChain(VariableDescriptor source, VariableDescriptor target);
bool VariableRelevantToAnalysis(Variable v, string proc);
bool Ignoring(Variable v, string proc);
}
public abstract class VariableDescriptor : IComparable {
internal readonly string Name;
internal VariableDescriptor(string Name) {
this.Name = Name;
}
public override string ToString() {
return Name;
}
public override bool Equals(object that) {
if (object.ReferenceEquals(this, that)) {
return true;
}
VariableDescriptor thatDescriptor = that as VariableDescriptor;
if (thatDescriptor == null) {
return false;
}
return this.Name.Equals(thatDescriptor.Name);
}
public override int GetHashCode() {
return Name.GetHashCode();
}
public int CompareTo(object that) {
return this.ToString().CompareTo(that.ToString());
}
}
public class LocalDescriptor : VariableDescriptor {
internal readonly string Proc;
public LocalDescriptor(string Proc, string Name)
: base(Name) {
this.Proc = Proc;
}
public override string ToString() {
return Proc + "." + base.ToString();
}
public override bool Equals(object that) {
if (object.ReferenceEquals(this, that)) {
return true;
}
LocalDescriptor thatDescriptor = that as LocalDescriptor;
if (thatDescriptor == null) {
return false;
}
return base.Equals(thatDescriptor) &&
this.Proc.Equals(thatDescriptor.Proc);
}
public override int GetHashCode() {
return (33 * base.GetHashCode())
+ this.Proc.GetHashCode();
}
}
public class GlobalDescriptor : VariableDescriptor {
public GlobalDescriptor(string name) : base(name) { }
public override bool Equals(object that) {
if (object.ReferenceEquals(this, that)) {
return true;
}
GlobalDescriptor thatDescriptor = that as GlobalDescriptor;
if (thatDescriptor == null) {
return false;
}
return base.Equals(thatDescriptor);
}
public override int GetHashCode() {
return base.GetHashCode();
}
}
/// <summary>
/// Given a Boogie program, computes a graph that over-approximates dependences
/// between program variables.
/// </summary>
public class VariableDependenceAnalyser : IVariableDependenceAnalyser {
private Graph<VariableDescriptor> dependsOnNonTransitive;
private Program prog;
private Dictionary<Block, HashSet<Block>> BlockToControllingBlocks;
private Dictionary<Block, HashSet<VariableDescriptor>> ControllingBlockToVariables;
public VariableDependenceAnalyser(Program prog) {
this.prog = prog;
dependsOnNonTransitive = new Graph<VariableDescriptor>();
}
private void Initialise() {
foreach (var descriptor in
prog.Variables.Where(Item => VariableRelevantToAnalysis(Item, null)).
Select(Variable => Variable.Name).
Select(Name => new GlobalDescriptor(Name))) {
dependsOnNonTransitive.AddEdge(descriptor, descriptor);
}
foreach (var Proc in prog.NonInlinedProcedures()) {
List<Variable> parameters = new List<Variable>();
parameters.AddRange(Proc.InParams);
parameters.AddRange(Proc.OutParams);
foreach (var descriptor in
parameters.Select(Variable => Variable.Name).Select(Name => new LocalDescriptor(Proc.Name, Name))) {
dependsOnNonTransitive.AddEdge(descriptor, descriptor);
}
}
foreach (var Impl in prog.NonInlinedImplementations()) {
List<Variable> locals = new List<Variable>();
locals.AddRange(Impl.LocVars);
foreach (var descriptor in
locals.Select(Variable => Variable.Name).Select(Name => new LocalDescriptor(Impl.Name, Name))) {
dependsOnNonTransitive.AddEdge(descriptor, descriptor);
}
}
}
private List<VariableDescriptor> ComputeDependencyChain(VariableDescriptor source, VariableDescriptor target, HashSet<VariableDescriptor> visited) {
if(source.Equals(target)) {
return new List<VariableDescriptor> { target };
}
visited.Add(source);
foreach(var w in dependsOnNonTransitive.Successors(source)) {
if(visited.Contains(w)) {
continue;
}
var result = ComputeDependencyChain(w, target, visited);
if(result != null) {
result.Insert(0, source);
return result;
}
}
return null;
}
public void ShowDependencyChain(VariableDescriptor source, VariableDescriptor target) {
var chain = ComputeDependencyChain(source, target, new HashSet<VariableDescriptor>());
if(chain == null) {
Console.WriteLine("No chain between " + source + " and " + target);
} else {
bool first = true;
foreach(var v in chain) {
if(first) {
first = false;
} else {
Console.Write(" -> ");
}
Console.Write(v);
}
}
Console.WriteLine(); Console.WriteLine();
}
public void Analyse() {
/* The algorithm is as follows:
*
* 1. Build global control dependence graph. First build control dependence graph for each procedure,
* and union them. Then examine each procedure. If block B is control-dependent on block C, make
* every block that can be indirectly reached via a call from B control-dependent on C.
*
* 2. Take transitive closure of global control dependence graph.
*
* 3. For every block B such that some other block is control-dependent on B, determine those variables
* which B tests. If B tests v, and C is control-depdendent on B, we say that v "controls" the
* statements appearing in C.
*
* 4. Consider each statement to work out variable dependences. v may depend on u if:
* - there is a statement v := e where u appears in e
* - there is a statement call ... := foo(..., e, ...) where v is formal in parameter of foo
* corresponding to e and u appears in e
* - there is a statement call ..., v, ... := foo(...) where u is formal out parameter of foo
* correspondnig to v
* - there is a statement v := ... controlled by u
* - there is a statement call ... := foo(...) controlled by u where v is a formal in parameter
* of foo
* - there is a statement call ..., v, ... := foo(...) controlled by u
*
* 5. Finialise variable dependence graph by taking its transitive closure.
*
*/
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence analysis: Initialising");
}
Initialise();
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence analysis: Computing control dependence info");
}
BlockToControllingBlocks = ComputeGlobalControlDependences();
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence analysis: Computing control dependence variables");
}
ControllingBlockToVariables = ComputeControllingVariables(BlockToControllingBlocks);
foreach (var Impl in prog.NonInlinedImplementations()) {
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence analysis: Analysing " + Impl.Name);
}
Analyse(Impl);
}
}
private void Analyse(Implementation Impl) {
string proc = Impl.Name;
foreach (Block b in Impl.Blocks) {
Analyse(proc, b);
}
}
private void Analyse(string proc, Block b) {
foreach (Cmd cmd in b.Cmds) {
AssignCmd assign = cmd as AssignCmd;
if (assign != null) {
HandleAssign(proc, b, assign);
}
CallCmd call = cmd as CallCmd;
if (call != null) {
HandleCall(proc, b, call);
}
}
}
private void HandleCall(string proc, Block b, CallCmd call) {
foreach (var formalActualPair in call.Proc.InParams.Zip(call.Ins)) {
var formalIn = MakeDescriptor(call.callee, formalActualPair.Item1);
AddDependences(formalIn, GetReferencedVariables(formalActualPair.Item2, proc),
"referenced in in-param in call to " + proc, call.tok);
AddControlDependences(b, formalIn, " in param assigned under control dependence in call to " + proc, call.tok);
}
foreach (var formalActualPair in call.Proc.OutParams.Zip(call.Outs)) {
var actualOut = MakeDescriptor(proc, formalActualPair.Item2.Decl);
AddDependences(actualOut, GetReferencedVariables(new IdentifierExpr(Token.NoToken, formalActualPair.Item1), call.callee),
"receiving variable for out-param in call to " + proc, call.tok);
AddControlDependences(b, actualOut, " receiving variable assigned under control dependence in call to " + proc, call.tok);
}
}
private void HandleAssign(string proc, Block b, AssignCmd assign) {
foreach (var assignPair in assign.Lhss.Zip(assign.Rhss).Where
(Item => VariableRelevantToAnalysis(Item.Item1.DeepAssignedVariable, proc))) {
VariableDescriptor assignedVariable = MakeDescriptor(proc, assignPair.Item1.DeepAssignedVariable);
AddDependences(assignedVariable, GetReferencedVariables(assignPair.Item1, proc),
"LHS of assignment", assign.tok);
AddDependences(assignedVariable, GetReferencedVariables(assignPair.Item2, proc),
"RHS of assignment", assign.tok);
AddControlDependences(b, assignedVariable, "Variable assigned under control dependence", assign.tok);
}
}
private void AddControlDependences(Block b, VariableDescriptor v, string reason, IToken tok) {
if (!BlockToControllingBlocks.ContainsKey(b)) {
return;
}
foreach (var controller in BlockToControllingBlocks[b]) {
AddDependences(v, ControllingBlockToVariables[controller], reason + " controlling block at (" + controller.tok.line + ":" + controller.tok.col + ")", tok);
}
}
private IEnumerable<VariableDescriptor> GetReferencedVariables(Absy node, string proc) {
var VarCollector = new VariableCollector();
VarCollector.Visit(node);
return VarCollector.usedVars.Where(Item => VariableRelevantToAnalysis(Item, proc)).
Select(Item => MakeDescriptor(proc, Item));
}
void AddDependences(VariableDescriptor v, IEnumerable<VariableDescriptor> vs, string reason, IToken tok) {
foreach (var n in vs) {
if(CommandLineOptions.Clo.DebugStagedHoudini) {
Console.WriteLine("Adding dependence " + v + " -> " + n + ", reason: " + reason + "(" + tok.line + ":" + tok.col + ")");
}
dependsOnNonTransitive.AddEdge(v, n);
}
}
private Dictionary<Block, HashSet<VariableDescriptor>> ComputeControllingVariables(Dictionary<Block, HashSet<Block>> GlobalCtrlDep) {
Dictionary<Block, HashSet<VariableDescriptor>> result = new Dictionary<Block, HashSet<VariableDescriptor>>();
foreach (var Impl in prog.NonInlinedImplementations()) {
foreach (var b in Impl.Blocks) {
result[b] = GetControlDependencyVariables(Impl.Name, b);
}
}
return result;
}
private HashSet<VariableDescriptor> GetControlDependencyVariables(string proc, Block b) {
// This method works under the assumption that assume statements
// relevant to control flow between basic blocks have the "partition" attribute
HashSet<VariableDescriptor> result = new HashSet<VariableDescriptor>();
var gotoCmd = b.TransferCmd as GotoCmd;
if (gotoCmd != null && gotoCmd.labelTargets.Count >= 2) {
foreach (Block succ in gotoCmd.labelTargets) {
foreach (Cmd c in succ.Cmds) {
AssumeCmd a = c as AssumeCmd;
if (a != null && QKeyValue.FindBoolAttribute(a.Attributes, "partition")) {
var VarCollector = new VariableCollector();
VarCollector.VisitExpr(a.Expr);
result.UnionWith(VarCollector.usedVars.Where(Item => VariableRelevantToAnalysis(Item, proc)).
Select(Item => MakeDescriptor(proc, Item)));
}
else {
break;
}
}
}
}
return result;
}
private HashSet<VariableDescriptor> IgnoredVariables = null;
public bool Ignoring(Variable v, string proc) {
if (IgnoredVariables == null) {
MakeIgnoreList();
}
if(proc != null && IgnoredVariables.Contains(new LocalDescriptor(proc, v.Name))) {
return true;
}
if(IgnoredVariables.Contains(new GlobalDescriptor(v.Name))) {
return true;
}
return false;
}
public bool VariableRelevantToAnalysis(Variable v, string proc) {
return !(v is Constant || Ignoring(v, proc));
}
private void MakeIgnoreList()
{
IgnoredVariables = new HashSet<VariableDescriptor>();
if(CommandLineOptions.Clo.VariableDependenceIgnore == null) {
return;
}
try {
var file = System.IO.File.OpenText(CommandLineOptions.Clo.VariableDependenceIgnore);
while(!file.EndOfStream) {
string line = file.ReadLine();
string[] tokens = line.Split(' ');
if(tokens.Count() == 0) {
continue;
}
if(tokens.Count() > 2) {
Console.Error.WriteLine("Ignoring malformed line of ignored variables file: " + line);
continue;
}
if(tokens.Count() == 1) {
IgnoredVariables.Add(new GlobalDescriptor(tokens[0]));
continue;
}
Debug.Assert(tokens.Count() == 2);
IgnoredVariables.Add(new LocalDescriptor(tokens[0], tokens[1]));
}
} catch(System.IO.IOException e) {
Console.Error.WriteLine("Error reading from ignored variables file " + CommandLineOptions.Clo.VariableDependenceIgnore + ": " + e);
}
}
private Dictionary<Block, HashSet<Block>> ComputeGlobalControlDependences() {
Dictionary<Block, HashSet<Block>> GlobalCtrlDep = new Dictionary<Block, HashSet<Block>>();
Dictionary<Implementation, Dictionary<Block, HashSet<Block>>> LocalCtrlDeps = new Dictionary<Implementation, Dictionary<Block, HashSet<Block>>>();
// Work out and union together local control dependences
foreach (var Impl in prog.NonInlinedImplementations()) {
Graph<Block> blockGraph = prog.ProcessLoops(Impl);
LocalCtrlDeps[Impl] = blockGraph.ControlDependence();
foreach (var KeyValue in LocalCtrlDeps[Impl]) {
GlobalCtrlDep.Add(KeyValue.Key, KeyValue.Value);
}
}
Graph<Implementation> callGraph = Program.BuildCallGraph(prog);
// Add inter-procedural control dependence nodes based on calls
foreach (var Impl in prog.NonInlinedImplementations()) {
foreach (var b in Impl.Blocks) {
foreach (var cmd in b.Cmds.OfType<CallCmd>()) {
var DirectCallee = GetImplementation(cmd.callee);
if (DirectCallee != null) {
HashSet<Implementation> IndirectCallees = ComputeIndirectCallees(callGraph, DirectCallee);
foreach (var control in GetControllingBlocks(b, LocalCtrlDeps[Impl])) {
foreach (var c in IndirectCallees.Select(Item => Item.Blocks).SelectMany(Item => Item)) {
GlobalCtrlDep[control].Add(c);
}
}
}
}
}
}
// Compute transitive closure
GlobalCtrlDep.TransitiveClosure();
// Finally reverse the dependences
Dictionary<Block, HashSet<Block>> result = new Dictionary<Block, HashSet<Block>>();
foreach (var KeyValue in GlobalCtrlDep) {
foreach (var v in KeyValue.Value) {
if (!result.ContainsKey(v)) {
result[v] = new HashSet<Block>();
}
result[v].Add(KeyValue.Key);
}
}
return result;
}
private HashSet<Implementation> ComputeIndirectCallees(Graph<Implementation> callGraph, Implementation DirectCallee) {
return ComputeIndirectCallees(callGraph, DirectCallee, new HashSet<Implementation>());
}
private HashSet<Implementation> ComputeIndirectCallees(Graph<Implementation> callGraph, Implementation DirectCallee, HashSet<Implementation> seen) {
if (seen.Contains(DirectCallee)) {
return new HashSet<Implementation>();
}
HashSet<Implementation> result = new HashSet<Implementation>();
result.Add(DirectCallee);
seen.Add(DirectCallee);
foreach (var succ in callGraph.Successors(DirectCallee)) {
result.UnionWith(ComputeIndirectCallees(callGraph, succ, seen));
}
return result;
}
private HashSet<Block> GetControllingBlocks(Block b, Dictionary<Block, HashSet<Block>> ctrlDep) {
HashSet<Block> result = new HashSet<Block>();
foreach (var KeyValue in ctrlDep) {
if (KeyValue.Value.Contains(b)) {
result.Add(KeyValue.Key);
}
}
return result;
}
private Implementation GetImplementation(string proc) {
foreach (var Impl in prog.Implementations) {
if (Impl.Name.Equals(proc)) {
return Impl;
}
}
return null;
}
public VariableDescriptor MakeDescriptor(string proc, Variable v) {
// Check whether there is an (Impl, v) match
var MatchingLocals = dependsOnNonTransitive.Nodes.Where(Item => Item is LocalDescriptor).Select(
Item => (LocalDescriptor)Item).Where(Item => Item.Proc.Equals(proc) &&
Item.Name.Equals(v.Name));
if (MatchingLocals.Count() > 0) {
Debug.Assert(MatchingLocals.Count() == 1);
return MatchingLocals.ToArray()[0];
}
// It must be a global with same name as v
return dependsOnNonTransitive.Nodes.Where(Item => Item is GlobalDescriptor &&
Item.Name.Equals(v.Name)).ToArray()[0];
}
private Dictionary<SCC<VariableDescriptor>, HashSet<VariableDescriptor>> DependsOnCache = new Dictionary<SCC<VariableDescriptor>, HashSet<VariableDescriptor>>();
private Graph<SCC<VariableDescriptor>> DependsOnSCCsDAG;
private Dictionary<VariableDescriptor, SCC<VariableDescriptor>> VariableDescriptorToSCC;
public HashSet<VariableDescriptor> DependsOn(VariableDescriptor v) {
if (DependsOnSCCsDAG == null) {
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence: computing SCCs");
}
Adjacency<VariableDescriptor> next = new Adjacency<VariableDescriptor>(dependsOnNonTransitive.Successors);
Adjacency<VariableDescriptor> prev = new Adjacency<VariableDescriptor>(dependsOnNonTransitive.Predecessors);
StronglyConnectedComponents<VariableDescriptor> DependsOnSCCs = new StronglyConnectedComponents<VariableDescriptor>(
dependsOnNonTransitive.Nodes, next, prev);
DependsOnSCCs.Compute();
VariableDescriptorToSCC = new Dictionary<VariableDescriptor, SCC<VariableDescriptor>>();
foreach (var scc in DependsOnSCCs) {
foreach (var s in scc) {
VariableDescriptorToSCC[s] = scc;
}
}
DependsOnSCCsDAG = new Graph<SCC<VariableDescriptor>>();
foreach (var edge in dependsOnNonTransitive.Edges) {
if (VariableDescriptorToSCC[edge.Item1] != VariableDescriptorToSCC[edge.Item2]) {
DependsOnSCCsDAG.AddEdge(VariableDescriptorToSCC[edge.Item1], VariableDescriptorToSCC[edge.Item2]);
}
}
SCC<VariableDescriptor> dummy = new SCC<VariableDescriptor>();
foreach (var n in dependsOnNonTransitive.Nodes) {
DependsOnSCCsDAG.AddEdge(VariableDescriptorToSCC[n], dummy);
}
if (CommandLineOptions.Clo.Trace) {
Console.WriteLine("Variable dependence: SCCs computed!");
}
}
return DependsOn(VariableDescriptorToSCC[v]);
}
public HashSet<VariableDescriptor> DependsOn(SCC<VariableDescriptor> vSCC) {
if (!DependsOnCache.ContainsKey(vSCC)) {
HashSet<VariableDescriptor> result = new HashSet<VariableDescriptor>();
if (vSCC.Count() > 0) {
result.UnionWith(vSCC);
foreach (var wSCC in DependsOnSCCsDAG.Successors(vSCC)) {
result.UnionWith(DependsOn(wSCC));
}
}
DependsOnCache[vSCC] = result;
}
return DependsOnCache[vSCC];
}
public void dump() {
Console.WriteLine("Variable dependence information");
Console.WriteLine("===============================");
Console.WriteLine("Global variables");
Console.WriteLine("================");
foreach (var GlobalEntry in dependsOnNonTransitive.Nodes.Where(Item => Item is GlobalDescriptor)) {
dump(GlobalEntry);
}
foreach (var proc in Procedures()) {
Console.WriteLine("Variables of " + proc);
Console.WriteLine("=====================");
foreach (var LocalEntry in dependsOnNonTransitive.Nodes.Where(Item => Item is LocalDescriptor
&& ((LocalDescriptor)Item).Proc.Equals(proc))) {
dump(LocalEntry);
}
}
}
private void dump(VariableDescriptor vd) {
Console.Write(vd + " <- {");
bool first = true;
var SortedDependents = DependsOn(vd).ToList();
SortedDependents.Sort();
foreach (var Descriptor in SortedDependents) {
Console.Write((first ? "" : ",") + "\n " + Descriptor);
if (first) {
first = false;
}
}
Debug.Assert(!first);
Console.WriteLine("\n}\n");
}
private HashSet<string> Procedures() {
return new HashSet<string>(dependsOnNonTransitive.Nodes.Where(Item =>
Item is LocalDescriptor).Select(Item => ((LocalDescriptor)Item).Proc));
}
}
public static class Helper {
public static IEnumerable<Procedure> NonInlinedProcedures(this Program prog) {
return prog.Procedures.
Where(Item => QKeyValue.FindIntAttribute(Item.Attributes, "inline", -1) == -1);
}
public static IEnumerable<Implementation> NonInlinedImplementations(this Program prog) {
return prog.Implementations.
Where(Item => QKeyValue.FindIntAttribute(Item.Proc.Attributes, "inline", -1) == -1);
}
}
}
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