Exemplo n.º 1
0
    public override Function VisitFunction(Function node)
    {
      string domainName = QKeyValue.FindStringAttribute(node.Attributes, CivlAttributes.LINEAR);
      if (domainName != null)
      {
        if (!domainNameToCollectors.ContainsKey(domainName))
        {
          domainNameToCollectors[domainName] = new Dictionary<Type, Function>();
        }

        if (node.InParams.Count == 1 && node.OutParams.Count == 1)
        {
          Type inType = node.InParams[0].TypedIdent.Type;
          MapType outType = node.OutParams[0].TypedIdent.Type as MapType;
          if (domainNameToCollectors[domainName].ContainsKey(inType))
          {
            Error(node, "A collector for domain for input type has already been defined");
          }
          else if (outType == null || outType.Arguments.Count != 1 || !outType.Result.Equals(Type.Bool))
          {
            Error(node, "Output of a linear domain collector should be of set type");
          }
          else
          {
            domainNameToCollectors[domainName][inType] = node;
          }
        }
        else
        {
          Error(node, "Linear domain collector should have one input and one output parameter");
        }
      }

      return base.VisitFunction(node);
    }
        public void AddAxiom(Axiom axiom)
        {
            string axiomName = QKeyValue.FindStringAttribute(axiom.Attributes, "name");

            if (axiomName == null)
            {
                return;
            }

            if (!axioms.ContainsKey(axiomName))
            {
                axioms.Add(axiomName, axiom);
            }
            else
            {
                var previous = axioms[axiomName];
                var r        = SelectNonExtern(axiom, previous);
                if (r == null)
                {
                    Error(axiom, "more than one declaration of axiom name: {0}", axiomName);
                }
                else
                {
                    axioms[axiomName] = r;
                }
            }
        }
Exemplo n.º 3
0
    public LinearKind FindLinearKind(Variable v)
    {
      if (globalVarToDomainName.ContainsKey(v))
        return LinearKind.LINEAR;
      if (inParamToLinearQualifier.ContainsKey(v))
        return inParamToLinearQualifier[v].kind;
      if (outParamToDomainName.ContainsKey(v))
        return LinearKind.LINEAR;

      if (QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR) != null)
      {
        return LinearKind.LINEAR;
      }
      else if (QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR_IN) != null)
      {
        return LinearKind.LINEAR_IN;
      }
      else if (QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR_OUT) != null)
      {
        return LinearKind.LINEAR_OUT;
      }
      else
      {
        return LinearKind.ORDINARY;
      }
    }
Exemplo n.º 4
0
 private QKeyValue RemoveLinearAttribute(QKeyValue iter)
 {
     if (iter == null)
     {
         return(null);
     }
     iter.Next = RemoveLinearAttribute(iter.Next);
     return((QKeyValue.FindStringAttribute(iter, "linear") == null) ? iter : iter.Next);
 }
Exemplo n.º 5
0
 public string FindDomainName(Variable v)
 {
     if (globalVarToDomainName.ContainsKey(v))
     {
         return(globalVarToDomainName[v]);
     }
     if (inoutParamToDomainName.ContainsKey(v))
     {
         return(inoutParamToDomainName[v]);
     }
     return(QKeyValue.FindStringAttribute(v.Attributes, "linear"));
 }
Exemplo n.º 6
0
 public string FindDomainName(Variable v)
 {
   if (globalVarToDomainName.ContainsKey(v))
     return globalVarToDomainName[v];
   if (inParamToLinearQualifier.ContainsKey(v))
     return inParamToLinearQualifier[v].domainName;
   if (outParamToDomainName.ContainsKey(v))
     return outParamToDomainName[v];
   string domainName = QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR);
   if (domainName != null)
     return domainName;
   domainName = QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR_IN);
   if (domainName != null)
     return domainName;
   return QKeyValue.FindStringAttribute(v.Attributes, CivlAttributes.LINEAR_OUT);
 }
Exemplo n.º 7
0
      /// <summary>
      /// Performs lambda lifting (see <see cref="LambdaHelper.ExpandLambdas"/>) by replacing the lambda's
      /// free variables with bound ones.
      /// </summary>
      /// <param name="lambda">A lambda expression
      ///   <code>(lambda x1: T1 ... x_n: T_n :: t)</code>
      /// where <c>t</c> contains the free variables <c>y1</c>, ..., <c>y_m</c>.
      /// </param>
      /// <returns>
      /// <list type="bullet">
      ///   <item>
      ///     A function application <c>f(y1, ..., y_m)</c> where <c>f</c>'s body is defined to be the result of
      ///     replacing the free variables <c>y1</c>, ..., <c>y_m</c> in <c>t</c> with bound variables
      ///     <c>b1</c>, ..., <c>b_m</c>.
      ///   </item>
      ///   <item>
      ///     Adds a definition and axiom for <c>f</c> to <see cref="lambdaFunctions"/> and <see cref="lambdaAxioms"/>.
      ///     Memoizes <c>f</c> as the lifted lambda for <para>lambda</para>.
      ///   </item>
      /// </list>
      /// </returns>
      private Expr LiftLambdaFreeVars(LambdaExpr lambda)
      {
        // We start by getting rid of any use of "old" inside the lambda.  This is done as follows.
        // For each variable "g" occurring inside lambda as "old(... g ...)", create a new name "og".
        // Replace each old occurrence of "g" with "og", removing the enclosing "old" wrappers.
        var oldFinder = new OldFinder();
        oldFinder.Visit(lambda);
        var oldSubst = new Dictionary<Variable, Expr>(); // g -> g0
        var callOldMapping = new Dictionary<Variable, Expr>(); // g0 -> old(g)
        foreach (var v in oldFinder.FreeOldVars)
        {
          var g = v as GlobalVariable;
          if (g != null)
          {
            var g0 = new GlobalVariable(g.tok, new TypedIdent(g.tok, g.TypedIdent.Name + "@old", g.TypedIdent.Type));
            oldSubst.Add(g, new IdentifierExpr(g0.tok, g0));
            callOldMapping.Add(g0, new OldExpr(g0.tok, new IdentifierExpr(g.tok, g)));
          }
        }

        var lambdaBody = Substituter.ApplyReplacingOldExprs(
          Substituter.SubstitutionFromDictionary(new Dictionary<Variable, Expr>()),
          Substituter.SubstitutionFromDictionary(oldSubst),
          lambda.Body);
        var lambdaAttrs = Substituter.ApplyReplacingOldExprs(
          Substituter.SubstitutionFromDictionary(new Dictionary<Variable, Expr>()),
          Substituter.SubstitutionFromDictionary(oldSubst),
          lambda.Attributes);

        if (0 < CommandLineOptions.Clo.VerifySnapshots &&
            QKeyValue.FindStringAttribute(lambdaAttrs, "checksum") == null)
        {
          // Attach a dummy checksum to avoid issues in the dependency analysis.
          var checksumAttr = new QKeyValue(lambda.tok, "checksum", new List<object> {"lambda expression"}, null);
          if (lambdaAttrs == null)
          {
            lambdaAttrs = checksumAttr;
          }
          else
          {
            lambdaAttrs.AddLast(checksumAttr);
          }
        }

        // this is ugly, the output will depend on hashing order
        var subst = new Dictionary<Variable, Expr>();
        var substFnAttrs = new Dictionary<Variable, Expr>();
        var formals = new List<Variable>();
        var callArgs = new List<Expr>();
        var axCallArgs = new List<Expr>();
        var dummies = new List<Variable>(lambda.Dummies);
        var freeTypeVars = new List<TypeVariable>();
        var fnTypeVarActuals = new List<Type /*!*/>();
        var freshTypeVars = new List<TypeVariable>(); // these are only used in the lambda@n function's definition

        // compute the free variables of the lambda expression, but with lambdaBody instead of lambda.Body
        Set freeVars = new Set();
        BinderExpr.ComputeBinderFreeVariables(lambda.TypeParameters, lambda.Dummies, lambdaBody, null, lambdaAttrs,
          freeVars);

        foreach (object o in freeVars)
        {
          // 'o' is either a Variable or a TypeVariable.
          if (o is Variable)
          {
            var v = o as Variable;
            var ti = new TypedIdent(v.TypedIdent.tok, v.TypedIdent.Name, v.TypedIdent.Type);
            var f = new Formal(v.tok, ti, true);
            formals.Add(f);
            substFnAttrs.Add(v, new IdentifierExpr(f.tok, f));
            var b = new BoundVariable(v.tok, ti);
            dummies.Add(b);
            if (callOldMapping.ContainsKey(v))
            {
              callArgs.Add(callOldMapping[v]);
            }
            else
            {
              callArgs.Add(new IdentifierExpr(v.tok, v));
            }

            Expr id = new IdentifierExpr(b.tok, b);
            subst.Add(v, id);
            axCallArgs.Add(id);
          }
          else
          {
            var tv = (TypeVariable) o;
            freeTypeVars.Add(tv);
            fnTypeVarActuals.Add(tv);
            freshTypeVars.Add(new TypeVariable(tv.tok, tv.Name));
          }
        }

        var sw = new System.IO.StringWriter();
        var wr = new TokenTextWriter(sw, true);
        lambda.Emit(wr);
        string lam_str = sw.ToString();

        FunctionCall fcall;
        IToken tok = lambda.tok;
        Formal res = new Formal(tok, new TypedIdent(tok, TypedIdent.NoName, cce.NonNull(lambda.Type)), false);

        if (liftedLambdas.TryGetValue(lambda, out fcall))
        {
          if (CommandLineOptions.Clo.TraceVerify)
          {
            Console.WriteLine("Old lambda: {0}", lam_str);
          }
        }
        else
        {
          if (CommandLineOptions.Clo.TraceVerify)
          {
            Console.WriteLine("New lambda: {0}", lam_str);
          }

          Function fn = new Function(tok, FreshLambdaFunctionName(), freshTypeVars, formals, res,
            "auto-generated lambda function",
            Substituter.Apply(Substituter.SubstitutionFromDictionary(substFnAttrs), lambdaAttrs));
          fn.OriginalLambdaExprAsString = lam_str;

          fcall = new FunctionCall(new IdentifierExpr(tok, fn.Name));
          fcall.Func = fn; // resolve here
          liftedLambdas[lambda] = fcall;

          List<Expr /*!*/> selectArgs = new List<Expr /*!*/>();
          foreach (Variable /*!*/ v in lambda.Dummies)
          {
            Contract.Assert(v != null);
            selectArgs.Add(new IdentifierExpr(v.tok, v));
          }

          NAryExpr axcall = new NAryExpr(tok, fcall, axCallArgs);
          axcall.Type = res.TypedIdent.Type;
          axcall.TypeParameters = SimpleTypeParamInstantiation.From(freeTypeVars, fnTypeVarActuals);
          NAryExpr select = Expr.Select(axcall, selectArgs);
          select.Type = lambdaBody.Type;
          List<Type /*!*/> selectTypeParamActuals = new List<Type /*!*/>();
          List<TypeVariable> forallTypeVariables = new List<TypeVariable>();
          foreach (TypeVariable /*!*/ tp in lambda.TypeParameters)
          {
            Contract.Assert(tp != null);
            selectTypeParamActuals.Add(tp);
            forallTypeVariables.Add(tp);
          }

          forallTypeVariables.AddRange(freeTypeVars);
          select.TypeParameters = SimpleTypeParamInstantiation.From(lambda.TypeParameters, selectTypeParamActuals);

          Expr bb = Substituter.Apply(Substituter.SubstitutionFromDictionary(subst), lambdaBody);
          NAryExpr body = Expr.Eq(select, bb);
          body.Type = Type.Bool;
          body.TypeParameters = SimpleTypeParamInstantiation.EMPTY;
          Trigger trig = new Trigger(select.tok, true, new List<Expr> {select});

          lambdaFunctions.Add(fn);
          lambdaAxioms.Add(new ForallExpr(tok, forallTypeVariables, dummies,
            Substituter.Apply(Substituter.SubstitutionFromDictionary(subst), lambdaAttrs),
            trig, body));
        }

        NAryExpr call = new NAryExpr(tok, fcall, callArgs);
        call.Type = res.TypedIdent.Type;
        call.TypeParameters = SimpleTypeParamInstantiation.From(freeTypeVars, fnTypeVarActuals);

        return call;
      }