Beispiel #1
0
            public void Analyze(ActualParam/*!*/node, Analyzer/*!*/ analyzer, bool isBaseCtorCallConstrained)
            {
                // TODO: isBaseCtorCallConstrained

                ExInfoFromParent info = new ExInfoFromParent(node);

                analyzer.EnterActParam();

                if (node.IsVariadic) throw new NotImplementedException();

                if (analyzer.ActParamDeclIsUnknown())
                {
                    // we don't know whether the parameter will be passed by reference at run-time:
                    if (node.Expression.AllowsPassByReference)
                    {
                        info.Access = AccessType.ReadUnknown;

                        // Although we prepare to pass reference, value can be really passed.
                        // That's why we report warning when user use '&' in calling, 
                        // because it has no influence.
                        if (node.Ampersand)
                            analyzer.ErrorSink.Add(Warnings.ActualParamWithAmpersand, analyzer.SourceUnit, node.Span);
                    }
                    else
                    {
                        info.Access = AccessType.Read;
                    }
                }
                else
                {
                    if (analyzer.ActParamPassedByRef())
                    {
                        if (node.Expression.AllowsPassByReference)
                        {
                            info.Access = AccessType.ReadRef;
                        }
                        else
                        {
                            analyzer.ErrorSink.Add(Errors.NonVariablePassedByRef, analyzer.SourceUnit, node.Expression.Span);
                            analyzer.LeaveActParam();
                            return;
                        }
                    }
                    else
                    {
                        info.Access = AccessType.Read;
                        if (node.Ampersand) analyzer.ErrorSink.Add(Warnings.ActualParamWithAmpersand, analyzer.SourceUnit, node.Span);
                    }
                }

                node._expression = node.Expression.Analyze(analyzer, info).Literalize();

                // TODO: if signature is known, act. param has type hint and expression has known type; check if type hint matches expression

                analyzer.LeaveActParam();
            }
Beispiel #2
0
 /// <summary>
 /// Visit actual parameter expression.
 /// </summary>
 /// <param name="x"></param>
 virtual public void VisitActualParam(ActualParam x)
 {
     VisitElement(x.Expression);
 }
Beispiel #3
0
 /// <summary>
 /// Visit actual parameter expression.
 /// </summary>
 /// <param name="x"></param>
 virtual public void VisitActualParam(ActualParam x)
 {
     VisitElement(x.Expression);
 }
            public PhpTypeCode Emit(ActualParam/*!*/node, CodeGenerator/*!*/ codeGenerator, bool ensureChainWritable = false)
            {
                codeGenerator.ChainBuilder.Create();

                if (ensureChainWritable)
                    codeGenerator.ChainBuilder.EnsureWritable = true;

                try
                {
                    return node.Expression.Emit(codeGenerator);
                }
                finally
                {
                    codeGenerator.ChainBuilder.End();
                }
            }
Beispiel #5
0
        /// <include file='Doc/Nodes.xml' path='doc/method[@name="Expression.Analyze"]/*'/>
        internal override Evaluation Analyze(Analyzer /*!*/ analyzer, ExInfoFromParent info)
        {
            access = info.Access;

            ExInfoFromParent lvalue_info = new ExInfoFromParent(this);

            // x[] = y
            if (lvalue is ItemUse && ((ItemUse)lvalue).Index == null)
            {
                if (operation != Operations.AssignValue)
                {
                    var oldop = operation;
                    operation = Operations.AssignValue;

                    // x[] .= y -> x[] = null . y
                    if (oldop == Operations.AssignAppend)
                    {
                        rvalue = new BinaryEx(Position, Operations.Concat, new NullLiteral(Position), rvalue);
                    }
                    // x[] += y -> x[] = 0 + y
                    else if (oldop == Operations.AssignAdd)
                    {
                        rvalue = new BinaryEx(Position, Operations.Add, new NullLiteral(Position), rvalue);
                    }
                    // x[] -= y -> x[] = 0 - y
                    else if (oldop == Operations.AssignSub)
                    {
                        rvalue = new BinaryEx(Position, Operations.Sub, new NullLiteral(Position), rvalue);
                    }
                    // x[] *= y -> x[] = 0 * y
                    else if (oldop == Operations.AssignMul)
                    {
                        rvalue = new BinaryEx(Position, Operations.Mul, new NullLiteral(Position), rvalue);
                    }
                    // x[] /= y -> x[] = 0 / y
                    else if (oldop == Operations.AssignDiv)
                    {
                        rvalue = new BinaryEx(Position, Operations.Div, new NullLiteral(Position), rvalue);
                    }
                    // x[] &= y -> x[] = 0 & y
                    else if (oldop == Operations.AssignAnd)
                    {
                        rvalue = new BinaryEx(Position, Operations.BitAnd, new NullLiteral(Position), rvalue);
                    }
                    else
                    {
                        Debug.Fail("Unhandled operation " + oldop.ToString() + " must be reduced!");
                        operation = oldop;  // change it back, this will result in compile time exception
                    }
                }
            }

            // stop evaluation:
            rvalue = rvalue.Analyze(analyzer, ExInfoFromParent.DefaultExInfo).Literalize();

            if (operation == Operations.AssignValue)
            {
                // elimination of $x = $x . expr
                var          concat = rvalue as ConcatEx;
                DirectVarUse vur;
                DirectVarUse vul = lvalue as DirectVarUse;

                if (concat != null && concat.Expressions.Count >= 2 && vul != null && vul.IsMemberOf == null)
                {
                    if ((vur = concat.Expressions[0] as DirectVarUse) != null && vur.VarName.Equals(vul.VarName) && vur.IsMemberOf == null)
                    {
                        // $x = $x.a.b.c
                        // =>
                        // $x .= a.b.c

                        operation          = Operations.AssignAppend;
                        lvalue_info.Access = AccessType.ReadAndWrite;

                        //rvalue = concat.RightExpr;
                        concat.Expressions.RemoveAt(0);
                    }
                    else if ((vur = concat.Expressions[concat.Expressions.Count - 1] as DirectVarUse) != null && vur.VarName.Equals(vul.VarName) && vur.IsMemberOf == null)
                    {
                        // $x = a.b.c.$x
                        // =>
                        // $x =. a.b.c

                        operation          = Operations.AssignPrepend;
                        lvalue_info.Access = AccessType.ReadAndWrite;

                        //rvalue = (Expression)concat.LeftExpr;
                        concat.Expressions.RemoveAt(concat.Expressions.Count - 1);
                    }
                    else
                    {
                        lvalue_info.Access = AccessType.Write;
                    }
                }
                else
                {
                    lvalue_info.Access = AccessType.Write;
                }
            }
            else
            {
                lvalue_info.Access = AccessType.ReadAndWrite;
            }

            // If this ValueAssignEx is actual param that is to be passed by reference,
            // AccessType of the destVar has to be changed, because its reference will be
            // (potencially) passeed
            ActualParam ap = info.Parent as ActualParam;

            if (ap != null)
            {
                if (analyzer.ActParamDeclIsUnknown())
                {
                    if (lvalue_info.Access == AccessType.Write)
                    {
                        lvalue_info.Access = AccessType.WriteAndReadUnknown;
                    }
                    else
                    {
                        lvalue_info.Access = AccessType.ReadAndWriteAndReadUnknown;
                    }
                }
                else if (analyzer.ActParamPassedByRef())
                {
                    if (lvalue_info.Access == AccessType.Write)
                    {
                        lvalue_info.Access = AccessType.WriteAndReadRef;
                    }
                    else
                    {
                        lvalue_info.Access = AccessType.ReadAndWriteAndReadRef;
                    }
                }
            }

            lvalue.Analyze(analyzer, lvalue_info);             //retval not needed ...

            return(new Evaluation(this));
        }