private ImmutableArray<BoundPatternSwitchSection> BindPatternSwitchSections(BoundExpression boundSwitchExpression, SyntaxList<SwitchSectionSyntax> sections, Binder originalBinder, out BoundPatternSwitchLabel defaultLabel, DiagnosticBag diagnostics)
        {
            defaultLabel = null;

            // Bind match sections
            var boundPatternSwitchSectionsBuilder = ArrayBuilder<BoundPatternSwitchSection>.GetInstance();
            foreach (var sectionSyntax in sections)
            {
                boundPatternSwitchSectionsBuilder.Add(BindPatternSwitchSection(boundSwitchExpression, sectionSyntax, originalBinder, ref defaultLabel, diagnostics));
            }

            return boundPatternSwitchSectionsBuilder.ToImmutableAndFree();
        }
Ejemplo n.º 2
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        protected DecisionTree AddToDecisionTree(DecisionTree decisionTree, SyntaxNode sectionSyntax, BoundPatternSwitchLabel label)
        {
            var pattern = label.Pattern;
            var guard = label.Guard;
            if (guard?.ConstantValue == ConstantValue.False)
            {
                return null;
            }

            switch (pattern.Kind)
            {
                case BoundKind.ConstantPattern:
                    {
                        var constantPattern = (BoundConstantPattern)pattern;
                        DecisionMaker makeDecision = (e, t) => new DecisionTree.Guarded(e, t, default(ImmutableArray<KeyValuePair<BoundExpression, BoundExpression>>), sectionSyntax, guard, label);
                        if (constantPattern.ConstantValue == ConstantValue.Null)
                        {
                            return AddByNull(decisionTree, makeDecision);
                        }
                        else
                        {
                            return AddByValue(decisionTree, constantPattern, makeDecision);
                        }
                    }
                case BoundKind.DeclarationPattern:
                    {
                        var declarationPattern = (BoundDeclarationPattern)pattern;
                        DecisionMaker maker =
                            (e, t) => new DecisionTree.Guarded(e, t, ImmutableArray.Create(new KeyValuePair<BoundExpression, BoundExpression>(e, declarationPattern.VariableAccess)), sectionSyntax, guard, label);
                        if (declarationPattern.IsVar)
                        {
                            return Add(decisionTree, maker);
                        }
                        else
                        {
                            return AddByType(decisionTree, declarationPattern.DeclaredType.Type, maker);
                        }
                    }
                case BoundKind.WildcardPattern:
                // We do not yet support a wildcard pattern syntax. It is used exclusively
                // to model the "default:" case, which is handled specially in the caller.
                default:
                    throw ExceptionUtilities.UnexpectedValue(pattern.Kind);
            }
        }
Ejemplo n.º 3
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        private ImmutableArray<BoundPatternSwitchSection> BindPatternSwitchSections(
            BoundExpression boundSwitchExpression,
            SyntaxList<SwitchSectionSyntax> sections,
            Binder originalBinder,
            out BoundPatternSwitchLabel defaultLabel,
            out bool isComplete,
            DiagnosticBag diagnostics)
        {
            defaultLabel = null;

            // true if we found a case label whose value is the same as the input expression's constant value
            bool someValueMatched = false;

            // Bind match sections
            var boundPatternSwitchSectionsBuilder = ArrayBuilder<BoundPatternSwitchSection>.GetInstance();
            SubsumptionDiagnosticBuilder subsumption = new SubsumptionDiagnosticBuilder(ContainingMemberOrLambda, this.Conversions, boundSwitchExpression);
            foreach (var sectionSyntax in sections)
            {
                boundPatternSwitchSectionsBuilder.Add(BindPatternSwitchSection(
                    boundSwitchExpression, sectionSyntax, originalBinder, ref defaultLabel, ref someValueMatched, subsumption, diagnostics));
            }

            isComplete = defaultLabel != null || subsumption.IsComplete || someValueMatched;
            return boundPatternSwitchSectionsBuilder.ToImmutableAndFree();
        }
Ejemplo n.º 4
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        private BoundPatternSwitchLabel BindPatternSwitchSectionLabel(
            Binder sectionBinder, BoundExpression boundSwitchExpression, SwitchLabelSyntax node, LabelSymbol label, ref BoundPatternSwitchLabel defaultLabel, DiagnosticBag diagnostics)
        {
            switch (node.Kind())
            {
                case SyntaxKind.CaseSwitchLabel:
                    {
                        var caseLabelSyntax = (CaseSwitchLabelSyntax)node;
                        bool wasExpression;
                        var pattern = sectionBinder.BindConstantPattern(
                            node, boundSwitchExpression, boundSwitchExpression.Type, caseLabelSyntax.Value, node.HasErrors, diagnostics, out wasExpression, wasSwitchCase: true);
                        bool hasErrors = pattern.HasErrors;
                        var constantValue = pattern.ConstantValue;
                        if (!hasErrors &&
                            (object)constantValue != null &&
                            pattern.Value.Type == SwitchGoverningType &&
                            this.FindMatchingSwitchCaseLabel(constantValue, caseLabelSyntax) != label)
                        {
                            diagnostics.Add(ErrorCode.ERR_DuplicateCaseLabel, node.Location, pattern.ConstantValue.GetValueToDisplay() ?? label.Name);
                            hasErrors = true;
                        }

                        // Until we've determined whether or not the switch label is reachable, we assume it
                        // is. The caller updates isReachable after determining if the label is subsumed.
                        const bool isReachable = true;
                        return new BoundPatternSwitchLabel(node, label, pattern, null, isReachable, hasErrors);
                    }

                case SyntaxKind.DefaultSwitchLabel:
                    {
                        var defaultLabelSyntax = (DefaultSwitchLabelSyntax)node;
                        var pattern = new BoundWildcardPattern(node);
                        bool hasErrors = pattern.HasErrors;
                        if (defaultLabel != null)
                        {
                            diagnostics.Add(ErrorCode.ERR_DuplicateCaseLabel, node.Location, label.Name);
                            hasErrors = true;
                        }

                        // We always treat the default label as reachable, even if the switch is complete.
                        const bool isReachable = true;

                        // Note that this is semantically last! The caller will place it in the decision tree
                        // in the final position.
                        defaultLabel = new BoundPatternSwitchLabel(node, label, pattern, null, isReachable, hasErrors);
                        return defaultLabel;
                    }

                case SyntaxKind.CasePatternSwitchLabel:
                    {
                        var matchLabelSyntax = (CasePatternSwitchLabelSyntax)node;
                        var pattern = sectionBinder.BindPattern(
                            matchLabelSyntax.Pattern, boundSwitchExpression, boundSwitchExpression.Type, node.HasErrors, diagnostics, wasSwitchCase: true);
                        return new BoundPatternSwitchLabel(node, label, pattern,
                            matchLabelSyntax.WhenClause != null ? sectionBinder.BindBooleanExpression(matchLabelSyntax.WhenClause.Condition, diagnostics) : null,
                            true, node.HasErrors);
                    }

                default:
                    throw ExceptionUtilities.UnexpectedValue(node);
            }
        }
Ejemplo n.º 5
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        /// <summary>
        /// Bind the pattern switch section, producing subsumption diagnostics.
        /// </summary>
        /// <param name="boundSwitchExpression"/>
        /// <param name="node"/>
        /// <param name="originalBinder"/>
        /// <param name="defaultLabel">If a default label is found in this section, assigned that label</param>
        /// <param name="someValueMatched">If a constant label is found that matches the constant input, assigned that label</param>
        /// <param name="subsumption">A helper class that uses a decision tree to produce subsumption diagnostics.</param>
        /// <param name="diagnostics"></param>
        /// <returns></returns>
        private BoundPatternSwitchSection BindPatternSwitchSection(
            BoundExpression boundSwitchExpression,
            SwitchSectionSyntax node,
            Binder originalBinder,
            ref BoundPatternSwitchLabel defaultLabel,
            ref bool someValueMatched,
            SubsumptionDiagnosticBuilder subsumption,
            DiagnosticBag diagnostics)
        {
            // Bind match section labels
            var boundLabelsBuilder = ArrayBuilder<BoundPatternSwitchLabel>.GetInstance();
            var sectionBinder = originalBinder.GetBinder(node); // this binder can bind pattern variables from the section.
            Debug.Assert(sectionBinder != null);
            var labelsByNode = LabelsByNode;

            foreach (var labelSyntax in node.Labels)
            {
                LabelSymbol label = labelsByNode[labelSyntax];
                BoundPatternSwitchLabel boundLabel = BindPatternSwitchSectionLabel(sectionBinder, boundSwitchExpression, labelSyntax, label, ref defaultLabel, diagnostics);
                bool valueMatched; // true if we find an unconditional constant label that matches the input constant's value
                bool isReachable = subsumption.AddLabel(boundLabel, diagnostics, out valueMatched);
                boundLabel = boundLabel.Update(boundLabel.Label, boundLabel.Pattern, boundLabel.Guard, isReachable && !someValueMatched);
                someValueMatched |= valueMatched;
                boundLabelsBuilder.Add(boundLabel);
            }

            // Bind switch section statements
            var boundStatementsBuilder = ArrayBuilder<BoundStatement>.GetInstance();
            foreach (var statement in node.Statements)
            {
                boundStatementsBuilder.Add(sectionBinder.BindStatement(statement, diagnostics));
            }

            return new BoundPatternSwitchSection(node, sectionBinder.GetDeclaredLocalsForScope(node), boundLabelsBuilder.ToImmutableAndFree(), boundStatementsBuilder.ToImmutableAndFree());
        }
        private BoundPatternSwitchSection BindPatternSwitchSection(
            BoundExpression boundSwitchExpression,
            SwitchSectionSyntax node,
            Binder originalBinder,
            ref BoundPatternSwitchLabel defaultLabel,
            DiagnosticBag diagnostics)
        {
            // Bind match section labels
            var boundLabelsBuilder = ArrayBuilder<BoundPatternSwitchLabel>.GetInstance();
            var sectionBinder = originalBinder.GetBinder(node); // this binder can bind pattern variables from the section.
            Debug.Assert(sectionBinder != null);
            var labelsByNode = LabelsByNode;

            foreach (var labelSyntax in node.Labels)
            {
                LabelSymbol label = labelsByNode[labelSyntax];
                BoundPatternSwitchLabel boundLabel = BindPatternSwitchSectionLabel(sectionBinder, boundSwitchExpression, labelSyntax, label, ref defaultLabel, diagnostics);
                boundLabelsBuilder.Add(boundLabel);
            }

            // Bind switch section statements
            var boundStatementsBuilder = ArrayBuilder<BoundStatement>.GetInstance();
            foreach (var statement in node.Statements)
            {
                boundStatementsBuilder.Add(sectionBinder.BindStatement(statement, diagnostics));
            }

            return new BoundPatternSwitchSection(node, sectionBinder.GetDeclaredLocalsForScope(node), boundLabelsBuilder.ToImmutableAndFree(), boundStatementsBuilder.ToImmutableAndFree());
        }
        private BoundPatternSwitchLabel BindPatternSwitchSectionLabel(
            Binder sectionBinder, BoundExpression boundSwitchExpression, SwitchLabelSyntax node, LabelSymbol label, ref BoundPatternSwitchLabel defaultLabel, DiagnosticBag diagnostics)
        {
            switch (node.Kind())
            {
                case SyntaxKind.CaseSwitchLabel:
                    {
                        var caseLabelSyntax = (CaseSwitchLabelSyntax)node;
                        bool wasExpression;
                        var pattern = sectionBinder.BindConstantPattern(
                            node, boundSwitchExpression, boundSwitchExpression.Type, caseLabelSyntax.Value, node.HasErrors, diagnostics, out wasExpression, wasSwitchCase: true);
                        bool hasErrors = pattern.HasErrors;
                        var constantValue = pattern.ConstantValue;
                        if (!hasErrors && (object)constantValue != null && this.FindMatchingSwitchCaseLabel(constantValue, caseLabelSyntax) != label)
                        {
                            diagnostics.Add(ErrorCode.ERR_DuplicateCaseLabel, node.Location, pattern.ConstantValue.GetValueToDisplay() ?? label.Name);
                            hasErrors = true;
                        }
                        return new BoundPatternSwitchLabel(node, label, pattern, null, hasErrors);
                    }

                case SyntaxKind.DefaultSwitchLabel:
                    {
                        var defaultLabelSyntax = (DefaultSwitchLabelSyntax)node;
                        var pattern = new BoundWildcardPattern(node);
                        bool hasErrors = pattern.HasErrors;
                        if (defaultLabel != null)
                        {
                            diagnostics.Add(ErrorCode.ERR_DuplicateCaseLabel, node.Location, "default");
                            hasErrors = true;
                        }

                        // Note that this is semantically last! The caller will place it in the decision tree
                        // in the final position.
                        defaultLabel = new BoundPatternSwitchLabel(node, label, pattern, null, hasErrors);
                        return defaultLabel;
                    }

                case SyntaxKind.CasePatternSwitchLabel:
                    {
                        var matchLabelSyntax = (CasePatternSwitchLabelSyntax)node;
                        var pattern = sectionBinder.BindPattern(
                            matchLabelSyntax.Pattern, boundSwitchExpression, boundSwitchExpression.Type, node.HasErrors, diagnostics, wasSwitchCase: true);
                        return new BoundPatternSwitchLabel(node, label, pattern,
                            matchLabelSyntax.WhenClause != null ? sectionBinder.BindBooleanExpression(matchLabelSyntax.WhenClause.Condition, diagnostics) : null, node.HasErrors);
                    }

                default:
                    throw ExceptionUtilities.UnexpectedValue(node);
            }
        }
 private BoundPatternSwitchLabel LowerSwitchLabel(BoundPatternSwitchLabel label)
 {
     return label.Update(label.Label, _localRewriter.LowerPattern(label.Pattern), _localRewriter.VisitExpression(label.Guard), label.IsReachable);
 }
        /// <summary>
        /// Add the case label to the subsumption tree. Return true if the label is reachable
        /// given the expression and previously added labels. `valueMatched` is set to true
        /// if and only if the label is a reachable unconditional (no when clause) constant pattern
        /// whose value is the same as the input expression's constant value, and false otherwise.
        /// </summary>
        internal bool AddLabel(BoundPatternSwitchLabel label, DiagnosticBag diagnostics, out bool valueMatched)
        {
            // Use site diagnostics are reported (and cleared) by this method.
            // So they should be empty when we start.
            Debug.Assert(_useSiteDiagnostics.Count == 0);

            valueMatched = false;

            if (label.Syntax.Kind() == SyntaxKind.DefaultSwitchLabel)
            {
                // the default case label is always considered reachable.
                return true;
            }

            try
            {
                // For purposes of subsumption, we do not take into consideration the value
                // of the input expression. Therefore we consider null possible if the type permits.
                Syntax = label.Syntax;
                var subsumedErrorCode = CheckSubsumed(label.Pattern, _subsumptionTree, inputCouldBeNull: true);
                if (subsumedErrorCode != 0 && subsumedErrorCode != ErrorCode.ERR_NoImplicitConvCast)
                {
                    if (!label.HasErrors)
                    {
                        diagnostics.Add(subsumedErrorCode, label.Pattern.Syntax.Location);
                    }

                    return false;
                }

                var guardAlwaysSatisfied = label.Guard == null || label.Guard.ConstantValue == ConstantValue.True;

                if (guardAlwaysSatisfied)
                {
                    // Only unconditional switch labels contribute to subsumption
                    if (AddToDecisionTree(_subsumptionTree, null, label) == null)
                    {
                        return false;
                    }
                }

                // For a constant switch, a constant label is only reachable if the value is equal.
                var patternConstant = (label.Pattern as BoundConstantPattern)?.ConstantValue;
                if (this._subsumptionTree.Expression.ConstantValue == null ||
                    patternConstant == null)
                {
                    // either the input or the pattern wasn't a constant, so they might match.
                    return true;
                }

                // If not subsumed, the label is considered reachable unless its constant value is
                // distinct from the constant value of the input expression.
                if (this._subsumptionTree.Expression.ConstantValue.Equals(patternConstant))
                {
                    valueMatched = guardAlwaysSatisfied;
                    return true;
                }

                return false;
            }
            finally
            {
                // report the use-site diagnostics
                diagnostics.Add(label.Syntax.Location, _useSiteDiagnostics);
                _useSiteDiagnostics.Clear();
            }
        }
Ejemplo n.º 10
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        private void AddToDecisionTree(DecisionTree decisionTree, BoundPatternSwitchLabel label)
        {
            var pattern = label.Pattern;
            var guard = label.Guard;
            if (guard?.ConstantValue == ConstantValue.False)
            {
                return;
            }

            switch (pattern.Kind)
            {
                case BoundKind.ConstantPattern:
                    {
                        var constantPattern = (BoundConstantPattern)pattern;
                        AddByValue(decisionTree, constantPattern.Value, (e, t) => new DecisionTree.Guarded(e, t, default(ImmutableArray<KeyValuePair<BoundExpression, LocalSymbol>>), _section, guard, label), label.HasErrors);
                        break;
                    }
                case BoundKind.DeclarationPattern:
                    {
                        var declarationPattern = (BoundDeclarationPattern)pattern;
                        DecisionMaker maker = (e, t) => new DecisionTree.Guarded(e, t, ImmutableArray.Create(new KeyValuePair<BoundExpression, LocalSymbol>(e, declarationPattern.LocalSymbol)), _section, guard, label);
                        if (declarationPattern.IsVar)
                        {
                            Add(decisionTree, maker);
                        }
                        else
                        {
                            AddByType(decisionTree, declarationPattern.DeclaredType.Type, maker);
                        }
                        break;
                    }
                case BoundKind.WildcardPattern:
                // We do not yet support a wildcard pattern syntax. It is used exclusively
                // to model the "default:" case, which is handled specially in the caller.
                default:
                    throw ExceptionUtilities.UnexpectedValue(pattern.Kind);
            }
        }
Ejemplo n.º 11
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 public Guarded(
     BoundExpression expression,
     TypeSymbol type,
     ImmutableArray<KeyValuePair<BoundExpression, LocalSymbol>> bindings,
     BoundPatternSwitchSection section,
     BoundExpression guard,
     BoundPatternSwitchLabel label)
     : base(expression, type, null)
 {
     this.Guard = guard;
     this.Label = label;
     this.Bindings = bindings;
     this.Section = section;
     Debug.Assert(guard?.ConstantValue != ConstantValue.False);
     base.MatchIsComplete =
         (guard == null) || (guard.ConstantValue == ConstantValue.True);
 }