Пример #1
0
 // <summary>
 // Add a new property reference to this list
 // </summary>
 // <param name="property"> new property reference </param>
 internal void Add(PropertyRef property)
 {
     if (m_allProperties)
     {
         return;
     }
     else if (property is AllPropertyRef)
     {
         MakeAllProperties();
     }
     else
     {
         m_propertyReferences[property] = property;
     }
 }
Пример #2
0
 // <summary>
 // Add a mapping from the propertyRef (of the old type) to the
 // corresponding property in the new type.
 // NOTE: Only to be used by StructuredTypeInfo
 // </summary>
 internal void AddPropertyMapping(PropertyRef propertyRef, EdmProperty newProperty)
 {
     m_propertyMap[propertyRef] = newProperty;
     if (propertyRef is TypeIdPropertyRef)
     {
         m_typeIdProperty = newProperty;
     }
     else if (propertyRef is EntitySetIdPropertyRef)
     {
         m_entitySetIdProperty = newProperty;
     }
     else if (propertyRef is NullSentinelPropertyRef)
     {
         m_nullSentinelProperty = newProperty;
     }
 }
Пример #3
0
        internal int GetNestedStructureOffset(PropertyRef property)
        {
            // m_propertyRefList contains every element of the flattened type
            for (var i = 0; i < m_propertyRefList.Count; i++)
            {
                var nestedPropertyRef = m_propertyRefList[i] as NestedPropertyRef;

                // match offset of the first element of the complex type property
                if (null != nestedPropertyRef &&
                    nestedPropertyRef.InnerProperty.Equals(property))
                {
                    return(i);
                }
            }
            PlanCompiler.Assert(false, "no complex structure " + property + " found in TypeInfo");
            // return something so that the compiler doesn't complain
            return(default(int));
        }
Пример #4
0
 internal void AddPropertyMapping(PropertyRef propertyRef, EdmProperty newProperty)
 {
     this.m_propertyMap[propertyRef] = newProperty;
     if (propertyRef is TypeIdPropertyRef)
     {
         this.m_typeIdProperty = newProperty;
     }
     else if (propertyRef is EntitySetIdPropertyRef)
     {
         this.m_entitySetIdProperty = newProperty;
     }
     else
     {
         if (!(propertyRef is NullSentinelPropertyRef))
         {
             return;
         }
         this.m_nullSentinelProperty = newProperty;
     }
 }
Пример #5
0
        /// <summary>
        ///     Common handler for RelPropertyOp and PropertyOp.
        ///     Simply pushes down the desired set of properties to the child
        /// </summary>
        /// <param name="op"> the *propertyOp </param>
        /// <param name="n"> node tree corresponding to the Op </param>
        /// <param name="propertyRef"> the property reference </param>
        private void VisitPropertyOp(Op op, Node n, PropertyRef propertyRef)
        {
            var cdProps = new PropertyRefList();

            if (!TypeUtils.IsStructuredType(op.Type))
            {
                cdProps.Add(propertyRef);
            }
            else
            {
                // Get the list of properties my parent expects from me.
                var pdProps = GetPropertyRefList(n);

                // Ask my child (which is really my container type) for each of these
                // properties

                // If I've been asked for all my properties, then get the
                // corresponding flat list of properties from my children.
                // For now, however, simply ask for all properties in this case
                // What we really need to do is to get the "flattened" list of
                // properties from the input, and prepend each of these with
                // our property name. We don't have that info available, so
                // I'm taking the easier route.
                if (pdProps.AllProperties)
                {
                    cdProps = pdProps;
                }
                else
                {
                    foreach (var p in pdProps.Properties)
                    {
                        cdProps.Add(p.CreateNestedPropertyRef(propertyRef));
                    }
                }
            }

            // push down my expectations
            AddPropertyRefs(n.Child0, cdProps);
            VisitChildren(n);
        }
Пример #6
0
        private TypeUsage GetPropertyType(RootTypeInfo typeInfo, PropertyRef p)
        {
            TypeUsage   type        = (TypeUsage)null;
            PropertyRef propertyRef = (PropertyRef)null;

            while (p is NestedPropertyRef)
            {
                NestedPropertyRef nestedPropertyRef = (NestedPropertyRef)p;
                p           = nestedPropertyRef.OuterProperty;
                propertyRef = nestedPropertyRef.InnerProperty;
            }
            if (p is TypeIdPropertyRef)
            {
                SimplePropertyRef simplePropertyRef = (SimplePropertyRef)propertyRef;
                type = simplePropertyRef == null ? typeInfo.TypeIdType : this.GetTypeInfo(simplePropertyRef.Property.TypeUsage).RootType.TypeIdType;
            }
            else if (p is EntitySetIdPropertyRef || p is NullSentinelPropertyRef)
            {
                type = this.m_intType;
            }
            else if (p is RelPropertyRef)
            {
                type = ((RelPropertyRef)p).Property.ToEnd.TypeUsage;
            }
            else
            {
                SimplePropertyRef simplePropertyRef = p as SimplePropertyRef;
                if (simplePropertyRef != null)
                {
                    type = Helper.GetModelTypeUsage(simplePropertyRef.Property);
                }
            }
            TypeUsage newType = this.GetNewType(type);

            System.Data.Entity.Core.Query.PlanCompiler.PlanCompiler.Assert(null != newType, "unrecognized property type?");
            return(newType);
        }
Пример #7
0
 // <summary>
 // Adds a new property reference to the list of desired properties
 // NOTE: Only to be used by StructuredTypeInfo
 // </summary>
 internal void AddPropertyRef(PropertyRef propertyRef)
 {
     m_propertyRefList.Add(propertyRef);
 }
Пример #8
0
        private void VisitPropertyOp(Op op, System.Data.Entity.Core.Query.InternalTrees.Node n, PropertyRef propertyRef)
        {
            PropertyRefList propertyRefs = new PropertyRefList();

            if (!TypeUtils.IsStructuredType(op.Type))
            {
                propertyRefs.Add(propertyRef);
            }
            else
            {
                PropertyRefList propertyRefList = this.GetPropertyRefList(n);
                if (propertyRefList.AllProperties)
                {
                    propertyRefs = propertyRefList;
                }
                else
                {
                    foreach (PropertyRef property in propertyRefList.Properties)
                    {
                        propertyRefs.Add(property.CreateNestedPropertyRef(propertyRef));
                    }
                }
            }
            this.AddPropertyRefs(n.Child0, propertyRefs);
            this.VisitChildren(n);
        }
Пример #9
0
 // <summary>
 // Do I contain the specifed property?
 // </summary>
 // <param name="p"> The property </param>
 // <returns> true, if I do </returns>
 internal bool Contains(PropertyRef p)
 {
     return m_allProperties || m_propertyReferences.ContainsKey(p);
 }
Пример #10
0
 // <summary>
 // Create a nested property ref, with "p" as the prefix.
 // The best way to think of this function as follows.
 // Consider a type T where "this" describes a property X on T. Now
 // consider a new type S, where "p" is a property of S and is of type T.
 // This function creates a PropertyRef that describes the same property X
 // from S.p instead
 // </summary>
 // <param name="p"> the property to prefix with </param>
 // <returns> the nested property reference </returns>
 internal virtual PropertyRef CreateNestedPropertyRef(PropertyRef p)
 {
     return(new NestedPropertyRef(p, this));
 }
Пример #11
0
 internal NestedPropertyRef(PropertyRef innerProperty, PropertyRef outerProperty)
 {
     System.Data.Entity.Core.Query.PlanCompiler.PlanCompiler.Assert(!(innerProperty is NestedPropertyRef), "innerProperty cannot be a NestedPropertyRef");
     this.m_inner = innerProperty;
     this.m_outer = outerProperty;
 }
        private Node VisitPropertyOp(Op op, Node n, PropertyRef propertyRef, bool throwIfMissing)
        {
            PlanCompiler.Assert(
                op.OpType == OpType.Property || op.OpType == OpType.RelProperty,
                "Unexpected optype: " + op.OpType);

            var inputType = n.Child0.Op.Type;
            var outputType = op.Type;

            // First visit all my children
            VisitChildren(n);

            Node newNode = null;
            var inputTypeInfo = m_typeInfo.GetTypeInfo(inputType);

            if (TypeUtils.IsStructuredType(outputType))
            {
                var outputTypeInfo = m_typeInfo.GetTypeInfo(outputType);
                var fieldTypes = new List<md.EdmProperty>();
                var fieldValues = new List<Node>();
                var expectedProperties = m_nodePropertyMap[n];

                foreach (var npr in outputTypeInfo.PropertyRefList)
                {
                    // Is this a property that's desired by my consumers?
                    if (expectedProperties.Contains(npr))
                    {
                        var newPropRef = npr.CreateNestedPropertyRef(propertyRef);
                        md.EdmProperty newNestedProp;

                        if (inputTypeInfo.TryGetNewProperty(newPropRef, throwIfMissing, out newNestedProp))
                        {
                            var outputNestedProp = outputTypeInfo.GetNewProperty(npr);
                            var field = BuildAccessor(n.Child0, newNestedProp);
                            if (null != field)
                            {
                                fieldTypes.Add(outputNestedProp);
                                fieldValues.Add(field);
                            }
                        }
                    }
                }
                Op newRecordOp = m_command.CreateNewRecordOp(outputTypeInfo.FlattenedTypeUsage, fieldTypes);
                newNode = m_command.CreateNode(newRecordOp, fieldValues);
            }
            else
            {
                var newProp = inputTypeInfo.GetNewProperty(propertyRef);
                // Build an accessor over the new property
                newNode = BuildAccessorWithNulls(n.Child0, newProp);
            }
            return newNode;
        }
Пример #13
0
 /// <summary>
 ///     Create a nested property ref, with "p" as the prefix.
 ///     The best way to think of this function as follows.
 ///     Consider a type T where "this" describes a property X on T. Now
 ///     consider a new type S, where "p" is a property of S and is of type T.
 ///     This function creates a PropertyRef that describes the same property X
 ///     from S.p instead
 /// </summary>
 /// <param name="p"> the property to prefix with </param>
 /// <returns> the nested property reference </returns>
 internal virtual PropertyRef CreateNestedPropertyRef(PropertyRef p)
 {
     return new NestedPropertyRef(p, this);
 }
Пример #14
0
 // <summary>
 // Try get the new property for the supplied propertyRef
 // </summary>
 // <param name="propertyRef"> property reference (on the old type) </param>
 // <param name="throwIfMissing"> throw if the property is not found </param>
 // <param name="newProperty"> the corresponding property on the new type </param>
 internal bool TryGetNewProperty(PropertyRef propertyRef, bool throwIfMissing, out md.EdmProperty newProperty)
 {
     return(RootType.TryGetNewProperty(propertyRef, throwIfMissing, out newProperty));
 }
        /// <summary>
        ///     Common handler for RelPropertyOp and PropertyOp. 
        ///     Simply pushes down the desired set of properties to the child
        /// </summary>
        /// <param name="op"> the *propertyOp </param>
        /// <param name="n"> node tree corresponding to the Op </param>
        /// <param name="propertyRef"> the property reference </param>
        private void VisitPropertyOp(Op op, Node n, PropertyRef propertyRef)
        {
            var cdProps = new PropertyRefList();
            if (!TypeUtils.IsStructuredType(op.Type))
            {
                cdProps.Add(propertyRef);
            }
            else
            {
                // Get the list of properties my parent expects from me. 
                var pdProps = GetPropertyRefList(n);

                // Ask my child (which is really my container type) for each of these 
                // properties

                // If I've been asked for all my properties, then get the 
                // corresponding flat list of properties from my children.
                // For now, however, simply ask for all properties in this case
                // What we really need to do is to get the "flattened" list of
                // properties from the input, and prepend each of these with
                // our property name. We don't have that info available, so 
                // I'm taking the easier route.
                if (pdProps.AllProperties)
                {
                    cdProps = pdProps;
                }
                else
                {
                    foreach (var p in pdProps.Properties)
                    {
                        cdProps.Add(p.CreateNestedPropertyRef(propertyRef));
                    }
                }
            }

            // push down my expectations
            AddPropertyRefs(n.Child0, cdProps);
            VisitChildren(n);
        }
Пример #16
0
        private md.TypeUsage GetPropertyType(RootTypeInfo typeInfo, PropertyRef p)
        {
            md.TypeUsage result = null;

            PropertyRef innerProperty = null;
            // Get the "leaf" property first
            while (p is NestedPropertyRef)
            {
                var npr = (NestedPropertyRef)p;
                p = npr.OuterProperty;
                innerProperty = npr.InnerProperty;
            }

            if (p is TypeIdPropertyRef)
            {
                //
                // Get to the innermost type that specifies this typeid (the entity type),
                // get the datatype for the typeid column from that type
                //
                var simplePropertyRef = (SimplePropertyRef)innerProperty;
                if (simplePropertyRef != null)
                {
                    var innerType = simplePropertyRef.Property.TypeUsage;
                    var innerTypeInfo = GetTypeInfo(innerType);
                    result = innerTypeInfo.RootType.TypeIdType;
                }
                else
                {
                    result = typeInfo.TypeIdType;
                }
            }
            else if (p is EntitySetIdPropertyRef
                     || p is NullSentinelPropertyRef)
            {
                result = m_intType;
            }
            else if (p is RelPropertyRef)
            {
                result = ((RelPropertyRef)p).Property.ToEnd.TypeUsage;
            }
            else
            {
                var simpleP = p as SimplePropertyRef;
                if (simpleP != null)
                {
                    result = md.Helper.GetModelTypeUsage(simpleP.Property);
                }
            }

            result = GetNewType(result);
            PlanCompiler.Assert(null != result, "unrecognized property type?");
            return result;
        }
Пример #17
0
 internal NestedPropertyRef(PropertyRef innerProperty, PropertyRef outerProperty)
 {
     PlanCompiler.Assert(!(innerProperty is NestedPropertyRef), "innerProperty cannot be a NestedPropertyRef");
     m_inner = innerProperty;
     m_outer = outerProperty;
 }
Пример #18
0
 internal NestedPropertyRef(PropertyRef innerProperty, PropertyRef outerProperty)
 {
     PlanCompiler.Assert(!(innerProperty is NestedPropertyRef), "innerProperty cannot be a NestedPropertyRef");
     m_inner = innerProperty;
     m_outer = outerProperty;
 }
Пример #19
0
        internal int GetNestedStructureOffset(PropertyRef property)
        {
            // m_propertyRefList contains every element of the flattened type
            for (var i = 0; i < m_propertyRefList.Count; i++)
            {
                var nestedPropertyRef = m_propertyRefList[i] as NestedPropertyRef;

                // match offset of the first element of the complex type property
                if (null != nestedPropertyRef
                    && nestedPropertyRef.InnerProperty.Equals(property))
                {
                    return i;
                }
            }
            PlanCompiler.Assert(false, "no complex structure " + property + " found in TypeInfo");
            // return something so that the compiler doesn't complain
            return default(int);
        }
Пример #20
0
 internal new bool TryGetNewProperty(PropertyRef propertyRef, bool throwIfMissing, out EdmProperty property)
 {
     var result = m_propertyMap.TryGetValue(propertyRef, out property);
     if (throwIfMissing && !result)
     {
         {
             PlanCompiler.Assert(false, "Unable to find property " + propertyRef + " in type " + Type.EdmType.Identity);
         }
     }
     return result;
 }
Пример #21
0
 /// <summary>
 ///     Get the new property for the supplied propertyRef
 /// </summary>
 /// <param name="propertyRef"> property reference (on the old type) </param>
 /// <returns> </returns>
 internal md.EdmProperty GetNewProperty(PropertyRef propertyRef)
 {
     md.EdmProperty property;
     var result = TryGetNewProperty(propertyRef, true, out property);
     Debug.Assert(result, "Should have thrown if the property was not found");
     return property;
 }
Пример #22
0
 // <summary>
 // Adds a new property reference to the list of desired properties
 // NOTE: Only to be used by StructuredTypeInfo
 // </summary>
 internal void AddPropertyRef(PropertyRef propertyRef)
 {
     m_propertyRefList.Add(propertyRef);
 }
Пример #23
0
 /// <summary>
 ///     Try get the new property for the supplied propertyRef
 /// </summary>
 /// <param name="propertyRef"> property reference (on the old type) </param>
 /// <param name="throwIfMissing"> throw if the property is not found </param>
 /// <param name="newProperty"> the corresponding property on the new type </param>
 /// <returns> </returns>
 internal bool TryGetNewProperty(PropertyRef propertyRef, bool throwIfMissing, out md.EdmProperty newProperty)
 {
     return RootType.TryGetNewProperty(propertyRef, throwIfMissing, out newProperty);
 }
 /// <summary>
 ///     Is the given propertyRef representing a null sentinel
 ///     It is if:
 ///     - it is a NullSentinelPropertyRef
 ///     - it is a NestedPropertyRef with the outer property being a NullSentinelPropertyRef
 /// </summary>
 /// <param name="propertyRef"> </param>
 /// <returns> </returns>
 private static bool IsNullSentinelPropertyRef(PropertyRef propertyRef)
 {
     if (propertyRef is NullSentinelPropertyRef)
     {
         return true;
     }
     var nestedPropertyRef = propertyRef as NestedPropertyRef;
     if (nestedPropertyRef == null)
     {
         return false;
     }
     return nestedPropertyRef.OuterProperty is NullSentinelPropertyRef;
 }
Пример #25
0
 // <summary>
 // Do I contain the specifed property?
 // </summary>
 // <param name="p"> The property </param>
 // <returns> true, if I do </returns>
 internal bool Contains(PropertyRef p)
 {
     return(m_allProperties || m_propertyReferences.ContainsKey(p));
 }