Code:
/ 4.0 / 4.0 / untmp / DEVDIV_TFS / Dev10 / Releases / RTMRel / ndp / fx / src / Data / System / Data / DataRelationCollection.cs / 1305376 / DataRelationCollection.cs
//------------------------------------------------------------------------------ //// Copyright (c) Microsoft Corporation. All rights reserved. // //[....] //[....] //[....] //----------------------------------------------------------------------------- namespace System.Data { using System; using System.Collections; using System.ComponentModel; using System.Diagnostics; using System.Globalization; ////// [ DefaultEvent("CollectionChanged"), Editor("Microsoft.VSDesigner.Data.Design.DataRelationCollectionEditor, " + AssemblyRef.MicrosoftVSDesigner, "System.Drawing.Design.UITypeEditor, " + AssemblyRef.SystemDrawing), DefaultProperty("Table"), ] public abstract class DataRelationCollection : InternalDataCollectionBase { private DataRelation inTransition = null; private int defaultNameIndex = 1; private CollectionChangeEventHandler onCollectionChangedDelegate; private CollectionChangeEventHandler onCollectionChangingDelegate; private static int _objectTypeCount; // Bid counter private readonly int _objectID = System.Threading.Interlocked.Increment(ref _objectTypeCount); internal int ObjectID { get { return _objectID; } } ////// Represents the collection of relations, /// each of which allows navigation between related parent/child tables. /// ////// public abstract DataRelation this[int index] { get; } ///Gets the relation specified by index. ////// public abstract DataRelation this[string name] { get; } ///Gets the relation specified by name. ////// public void Add(DataRelation relation) { IntPtr hscp; Bid.ScopeEnter(out hscp, "/// Adds the relation to the collection. ///%d#, relation=%d\n", ObjectID, (relation != null) ? relation.ObjectID : 0); try { if (inTransition == relation) return; inTransition = relation; try { OnCollectionChanging(new CollectionChangeEventArgs(CollectionChangeAction.Add, relation)); AddCore(relation); OnCollectionChanged(new CollectionChangeEventArgs(CollectionChangeAction.Add, relation)); } finally { inTransition = null; } } finally{ Bid.ScopeLeave(ref hscp); } } /// /// public virtual void AddRange(DataRelation[] relations) { if (relations != null) { foreach(DataRelation relation in relations) { if (relation != null) { Add(relation); } } } } ///[To be supplied.] ////// public virtual DataRelation Add(string name, DataColumn[] parentColumns, DataColumn[] childColumns) { DataRelation relation = new DataRelation(name, parentColumns, childColumns); Add(relation); return relation; } ////// Creates a ///with the /// specified name, parent columns, /// child columns, and adds it to the collection. /// Creates a relation given the parameters and adds it to the collection. An ArgumentNullException is /// thrown if this relation is null. An ArgumentException is thrown if this relation already belongs to /// this collection, belongs to another collection, or if this collection already has a relation with the /// same name (case insensitive). /// An InvalidRelationException is thrown if the relation can't be created based on the parameters. /// The CollectionChanged event is fired if it succeeds. /// public virtual DataRelation Add(string name, DataColumn[] parentColumns, DataColumn[] childColumns, bool createConstraints) { DataRelation relation = new DataRelation(name, parentColumns, childColumns, createConstraints); Add(relation); return relation; } ////// Creates a relation given the parameters and adds it to the collection. The name is defaulted. /// An ArgumentException is thrown if /// this relation already belongs to this collection or belongs to another collection. /// An InvalidConstraintException is thrown if the relation can't be created based on the parameters. /// The CollectionChanged event is fired if it succeeds. /// public virtual DataRelation Add(DataColumn[] parentColumns, DataColumn[] childColumns) { DataRelation relation = new DataRelation(null, parentColumns, childColumns); Add(relation); return relation; } ////// Creates a relation given the parameters and adds it to the collection. /// An ArgumentException is thrown if this relation already belongs to /// this collection or belongs to another collection. /// A DuplicateNameException is thrown if this collection already has a relation with the same /// name (case insensitive). /// An InvalidConstraintException is thrown if the relation can't be created based on the parameters. /// The CollectionChanged event is fired if it succeeds. /// public virtual DataRelation Add(string name, DataColumn parentColumn, DataColumn childColumn) { DataRelation relation = new DataRelation(name, parentColumn, childColumn); Add(relation); return relation; } ////// Creates a relation given the parameters and adds it to the collection. /// An ArgumentException is thrown if this relation already belongs to /// this collection or belongs to another collection. /// A DuplicateNameException is thrown if this collection already has a relation with the same /// name (case insensitive). /// An InvalidConstraintException is thrown if the relation can't be created based on the parameters. /// The CollectionChanged event is fired if it succeeds. /// public virtual DataRelation Add(string name, DataColumn parentColumn, DataColumn childColumn, bool createConstraints) { DataRelation relation = new DataRelation(name, parentColumn, childColumn, createConstraints); Add(relation); return relation; } ////// Creates a relation given the parameters and adds it to the collection. The name is defaulted. /// An ArgumentException is thrown if /// this relation already belongs to this collection or belongs to another collection. /// An InvalidConstraintException is thrown if the relation can't be created based on the parameters. /// The CollectionChanged event is fired if it succeeds. /// public virtual DataRelation Add(DataColumn parentColumn, DataColumn childColumn) { DataRelation relation = new DataRelation(null, parentColumn, childColumn); Add(relation); return relation; } ////// Does verification on the table. /// An ArgumentNullException is thrown if this relation is null. An ArgumentException is thrown if this relation /// already belongs to this collection, belongs to another collection. /// A DuplicateNameException is thrown if this collection already has a relation with the same /// name (case insensitive). /// protected virtual void AddCore(DataRelation relation) { Bid.Trace("%d#, relation=%d\n", ObjectID, (relation != null) ? relation.ObjectID : 0); if (relation == null) throw ExceptionBuilder.ArgumentNull("relation"); relation.CheckState(); DataSet dataSet = GetDataSet(); if (relation.DataSet == dataSet) throw ExceptionBuilder.RelationAlreadyInTheDataSet(); if (relation.DataSet != null) throw ExceptionBuilder.RelationAlreadyInOtherDataSet(); if (relation.ChildTable.Locale.LCID != relation.ParentTable.Locale.LCID || relation.ChildTable.CaseSensitive != relation.ParentTable.CaseSensitive) throw ExceptionBuilder.CaseLocaleMismatch(); if (relation.Nested) { relation.CheckNamespaceValidityForNestedRelations(relation.ParentTable.Namespace); relation.ValidateMultipleNestedRelations(); relation.ParentTable.ElementColumnCount++; } } /// /// [ResDescriptionAttribute(Res.collectionChangedEventDescr)] public event CollectionChangeEventHandler CollectionChanged { add { Bid.Trace("[To be supplied.] ///%d#\n", ObjectID); onCollectionChangedDelegate += value; } remove { Bid.Trace(" %d#\n", ObjectID); onCollectionChangedDelegate -= value; } } internal event CollectionChangeEventHandler CollectionChanging { add { Bid.Trace(" %d#\n", ObjectID); onCollectionChangingDelegate += value; } remove { Bid.Trace(" %d#\n", ObjectID); onCollectionChangingDelegate -= value; } } /// /// Creates a new default name. /// internal string AssignName() { string newName = MakeName(defaultNameIndex); defaultNameIndex++; return newName; } ////// Clears the collection of any relations. /// public virtual void Clear() { IntPtr hscp; Bid.ScopeEnter(out hscp, "%d#\n", ObjectID); try { int count = Count; OnCollectionChanging(RefreshEventArgs); for (int i = count - 1; i >= 0; i--) { inTransition = this[i]; RemoveCore(inTransition); // [....] : No need to go for try catch here and this will surely not throw any exception } OnCollectionChanged(RefreshEventArgs); inTransition = null; } finally{ Bid.ScopeLeave(ref hscp); } } /// /// Returns true if this collection has a relation with the given name (case insensitive), false otherwise. /// public virtual bool Contains(string name) { return(InternalIndexOf(name) >= 0); } public void CopyTo(DataRelation[] array, int index) { if (array==null) throw ExceptionBuilder.ArgumentNull("array"); if (index < 0) throw ExceptionBuilder.ArgumentOutOfRange("index"); ArrayList alist = List; if (array.Length - index < alist.Count) throw ExceptionBuilder.InvalidOffsetLength(); for(int i = 0; i < alist.Count; ++i) { array[index + i] = (DataRelation)alist[i]; } } ////// public virtual int IndexOf(DataRelation relation) { int relationCount = List.Count; for (int i = 0; i < relationCount; ++i) { if (relation == (DataRelation) List[i]) { return i; } } return -1; } ////// Returns the index of a specified ///. /// /// public virtual int IndexOf(string relationName) { int index = InternalIndexOf(relationName); return (index < 0) ? -1 : index; } internal int InternalIndexOf(string name) { int cachedI = -1; if ((null != name) && (0 < name.Length)) { int count = List.Count; int result = 0; for (int i = 0; i < count; i++) { DataRelation relation = (DataRelation) List[i]; result = NamesEqual(relation.RelationName, name, false, GetDataSet().Locale); if (result == 1) return i; if (result == -1) cachedI = (cachedI == -1) ? i : -2; } } return cachedI; } ////// Returns the index of the /// relation with the given name (case insensitive), or -1 if the relation /// doesn't exist in the collection. /// ////// Gets the dataSet for this collection. /// protected abstract DataSet GetDataSet(); ////// Makes a default name with the given index. e.g. Relation1, Relation2, ... Relationi /// private string MakeName(int index) { if (1 == index) { return "Relation1"; } return "Relation" + index.ToString(System.Globalization.CultureInfo.InvariantCulture); } ////// This method is called whenever the collection changes. Overriders /// of this method should call the base implementation of this method. /// protected virtual void OnCollectionChanged(CollectionChangeEventArgs ccevent) { if (onCollectionChangedDelegate != null) { Bid.Trace("%d#\n", ObjectID); onCollectionChangedDelegate(this, ccevent); } } /// /// protected virtual void OnCollectionChanging(CollectionChangeEventArgs ccevent) { if (onCollectionChangingDelegate != null) { Bid.Trace("[To be supplied.] ///%d#\n", ObjectID); onCollectionChangingDelegate(this, ccevent); } } /// /// Registers this name as being used in the collection. Will throw an ArgumentException /// if the name is already being used. Called by Add, All property, and Relation.RelationName property. /// if the name is equivalent to the next default name to hand out, we increment our defaultNameIndex. /// internal void RegisterName(string name) { Bid.Trace("%d#, name='%ls'\n", ObjectID, name); Debug.Assert (name != null); CultureInfo locale = GetDataSet().Locale; int relationCount = Count; for (int i = 0; i < relationCount; i++) { if (NamesEqual(name, this[i].RelationName, true, locale) != 0) { throw ExceptionBuilder.DuplicateRelation(this[i].RelationName); } } if (NamesEqual(name, MakeName(defaultNameIndex), true, locale) != 0) { defaultNameIndex++; } } /// /// public virtual bool CanRemove(DataRelation relation) { if (relation == null) return false; if (relation.DataSet != GetDataSet()) return false; return true; } ////// Verifies if a given relation can be removed from the collection. /// ////// Removes the given relation from the collection. /// An ArgumentNullException is thrown if this relation is null. An ArgumentException is thrown /// if this relation doesn't belong to this collection. /// The CollectionChanged event is fired if it succeeds. /// public void Remove(DataRelation relation) { Bid.Trace("%d#, relation=%d\n", ObjectID, (relation != null) ? relation.ObjectID : 0); if (inTransition == relation) return; inTransition = relation; try { OnCollectionChanging(new CollectionChangeEventArgs(CollectionChangeAction.Remove, relation)); RemoveCore(relation); OnCollectionChanged(new CollectionChangeEventArgs(CollectionChangeAction.Remove, relation)); } finally { inTransition = null; } } /// /// Removes the relation at the given index from the collection. An IndexOutOfRangeException is /// thrown if this collection doesn't have a relation at this index. /// The CollectionChanged event is fired if it succeeds. /// public void RemoveAt(int index) { DataRelation dr = this[index]; if (dr == null) { throw ExceptionBuilder.RelationOutOfRange(index); } else { Remove(dr); } } ////// Removes the relation with the given name from the collection. An IndexOutOfRangeException is /// thrown if this collection doesn't have a relation with that name /// The CollectionChanged event is fired if it succeeds. /// public void Remove(string name) { DataRelation dr = this[name]; if (dr == null) { throw ExceptionBuilder.RelationNotInTheDataSet(name); } else { Remove(dr); } } ////// Does verification on the relation. /// An ArgumentNullException is thrown if this relation is null. An ArgumentException is thrown /// if this relation doesn't belong to this collection. /// protected virtual void RemoveCore(DataRelation relation) { Bid.Trace("%d#, relation=%d\n", ObjectID, (relation != null) ? relation.ObjectID : 0); if (relation == null) throw ExceptionBuilder.ArgumentNull("relation"); DataSet dataSet = GetDataSet(); if (relation.DataSet != dataSet) throw ExceptionBuilder.RelationNotInTheDataSet(relation.RelationName); if (relation.Nested) { relation.ParentTable.ElementColumnCount--; // webdata 103905 // why we were not unregistering the table when removing the relation relation.ParentTable.Columns.UnregisterName(relation.ChildTable.TableName); } } /// /// Unregisters this name as no longer being used in the collection. Called by Remove, All property, and /// Relation.RelationName property. If the name is equivalent to the last proposed default namem, we walk backwards /// to find the next proper default name to hang out. /// internal void UnregisterName(string name) { Bid.Trace("%d#, name='%ls'\n", ObjectID, name); if (NamesEqual(name, MakeName(defaultNameIndex - 1), true, GetDataSet().Locale) != 0) { do { defaultNameIndex--; } while (defaultNameIndex > 1 && !Contains(MakeName(defaultNameIndex - 1))); } } internal sealed class DataTableRelationCollection : DataRelationCollection { private readonly DataTable table; private readonly ArrayList relations; // For caching purpose only to improve performance private readonly bool fParentCollection; private CollectionChangeEventHandler onRelationPropertyChangedDelegate; internal DataTableRelationCollection(DataTable table, bool fParentCollection) { if (table == null) throw ExceptionBuilder.RelationTableNull(); this.table = table; this.fParentCollection = fParentCollection; relations = new ArrayList(); } protected override ArrayList List { get { return relations; } } private void EnsureDataSet() { if (table.DataSet == null) { throw ExceptionBuilder.RelationTableWasRemoved(); } } protected override DataSet GetDataSet() { EnsureDataSet(); return table.DataSet; } public override DataRelation this[int index] { get { if (index >= 0 && index < relations.Count) return (DataRelation)relations[index]; else throw ExceptionBuilder.RelationOutOfRange(index); } } public override DataRelation this[string name] { get { int index = InternalIndexOf(name); if (index == -2) { throw ExceptionBuilder.CaseInsensitiveNameConflict(name); } return (index < 0) ? null : (DataRelation)List[index]; } } internal event CollectionChangeEventHandler RelationPropertyChanged { add { onRelationPropertyChangedDelegate += value; } remove { onRelationPropertyChangedDelegate -= value; } } internal void OnRelationPropertyChanged(CollectionChangeEventArgs ccevent) { if (!fParentCollection) { table.UpdatePropertyDescriptorCollectionCache(); } if (onRelationPropertyChangedDelegate != null) { onRelationPropertyChangedDelegate(this, ccevent); } } private void AddCache(DataRelation relation) { relations.Add(relation); if (!fParentCollection) { table.UpdatePropertyDescriptorCollectionCache(); } } protected override void AddCore(DataRelation relation) { if (fParentCollection) { if (relation.ChildTable != table) throw ExceptionBuilder.ChildTableMismatch(); } else { if (relation.ParentTable != table) throw ExceptionBuilder.ParentTableMismatch(); } // base.AddCore(relation); // Will be called from DataSet.Relations.AddCore GetDataSet().Relations.Add(relation); AddCache(relation); } public override bool CanRemove(DataRelation relation) { if (!base.CanRemove(relation)) return false; if (fParentCollection) { if (relation.ChildTable != table) return false; } else { if (relation.ParentTable != table) return false; } return true; } private void RemoveCache(DataRelation relation) { for (int i = 0; i < relations.Count; i++) { if (relation == relations[i]) { relations.RemoveAt(i); if (!fParentCollection) { table.UpdatePropertyDescriptorCollectionCache(); } return; } } throw ExceptionBuilder.RelationDoesNotExist(); } protected override void RemoveCore(DataRelation relation) { if (fParentCollection) { if (relation.ChildTable != table) throw ExceptionBuilder.ChildTableMismatch(); } else { if (relation.ParentTable != table) throw ExceptionBuilder.ParentTableMismatch(); } // base.RemoveCore(relation); // Will be called from DataSet.Relations.RemoveCore GetDataSet().Relations.Remove(relation); RemoveCache(relation); } } internal sealed class DataSetRelationCollection : DataRelationCollection { private readonly DataSet dataSet; private readonly ArrayList relations; private DataRelation[] delayLoadingRelations = null; internal DataSetRelationCollection(DataSet dataSet) { if (dataSet == null) throw ExceptionBuilder.RelationDataSetNull(); this.dataSet = dataSet; relations = new ArrayList(); } protected override ArrayList List { get { return relations; } } public override void AddRange(DataRelation[] relations) { if (dataSet.fInitInProgress) { delayLoadingRelations = relations; return; } if (relations != null) { foreach(DataRelation relation in relations) { if (relation != null) { Add(relation); } } } } public override void Clear() { base.Clear(); if (dataSet.fInitInProgress && delayLoadingRelations != null) { delayLoadingRelations = null; } } protected override DataSet GetDataSet() { return dataSet; } public override DataRelation this[int index] { get { if (index >= 0 && index < relations.Count) return (DataRelation)relations[index]; else throw ExceptionBuilder.RelationOutOfRange(index); } } public override DataRelation this[string name] { get { int index = InternalIndexOf(name); if (index == -2) { throw ExceptionBuilder.CaseInsensitiveNameConflict(name); } return (index < 0) ? null : (DataRelation)List[index]; } } protected override void AddCore(DataRelation relation) { base.AddCore(relation); if (relation.ChildTable.DataSet != dataSet || relation.ParentTable.DataSet != dataSet) throw ExceptionBuilder.ForeignRelation(); relation.CheckState(); if(relation.Nested) { relation.CheckNestedRelations(); } if (relation.relationName.Length == 0) relation.relationName = AssignName(); else RegisterName(relation.relationName); DataKey childKey = relation.ChildKey; for (int i = 0; i < relations.Count; i++) { if (childKey.ColumnsEqual(((DataRelation)relations[i]).ChildKey)) { if (relation.ParentKey.ColumnsEqual(((DataRelation)relations[i]).ParentKey)) throw ExceptionBuilder.RelationAlreadyExists(); } } relations.Add(relation); ((DataRelationCollection.DataTableRelationCollection)(relation.ParentTable.ChildRelations)).Add(relation); // Caching in ParentTable -> ChildRelations ((DataRelationCollection.DataTableRelationCollection)(relation.ChildTable.ParentRelations)).Add(relation); // Caching in ChildTable -> ParentRelations relation.SetDataSet(dataSet); relation.ChildKey.GetSortIndex().AddRef(); if (relation.Nested) { relation.ChildTable.CacheNestedParent(); } ForeignKeyConstraint foreignKey = relation.ChildTable.Constraints.FindForeignKeyConstraint(relation.ParentColumnsReference, relation.ChildColumnsReference); if (relation.createConstraints) { if (foreignKey == null) { relation.ChildTable.Constraints.Add(foreignKey = new ForeignKeyConstraint(relation.ParentColumnsReference, relation.ChildColumnsReference)); // try to name the fk constraint the same as the parent relation: try { foreignKey.ConstraintName = relation.RelationName; } catch (Exception e) { // if (!Common.ADP.IsCatchableExceptionType(e)) { throw; } ExceptionBuilder.TraceExceptionWithoutRethrow(e); // ignore the exception } } } UniqueConstraint key = relation.ParentTable.Constraints.FindKeyConstraint(relation.ParentColumnsReference); relation.SetParentKeyConstraint(key); relation.SetChildKeyConstraint(foreignKey); } protected override void RemoveCore(DataRelation relation) { base.RemoveCore(relation); dataSet.OnRemoveRelationHack(relation); relation.SetDataSet(null); relation.ChildKey.GetSortIndex().RemoveRef(); if (relation.Nested) { relation.ChildTable.CacheNestedParent(); } for (int i = 0; i < relations.Count; i++) { if (relation == relations[i]) { relations.RemoveAt(i); ((DataRelationCollection.DataTableRelationCollection)(relation.ParentTable.ChildRelations)).Remove(relation); // Remove Cache from ParentTable -> ChildRelations ((DataRelationCollection.DataTableRelationCollection)(relation.ChildTable.ParentRelations)).Remove(relation); // Removing Cache from ChildTable -> ParentRelations if (relation.Nested) relation.ChildTable.CacheNestedParent(); UnregisterName(relation.RelationName); relation.SetParentKeyConstraint(null); relation.SetChildKeyConstraint(null); return; } } throw ExceptionBuilder.RelationDoesNotExist(); } internal void FinishInitRelations() { if (delayLoadingRelations == null) return; DataRelation rel; int colCount; DataColumn[] parents, childs; for (int i = 0; i < delayLoadingRelations.Length; i++) { rel = delayLoadingRelations[i]; if (rel.parentColumnNames == null || rel.childColumnNames == null) { this.Add(rel); continue; } colCount = rel.parentColumnNames.Length; parents = new DataColumn[colCount]; childs = new DataColumn[colCount]; for (int j = 0; j < colCount; j++) { if (rel.parentTableNamespace == null) parents[j] = dataSet.Tables[rel.parentTableName].Columns[rel.parentColumnNames[j]]; else parents[j] = dataSet.Tables[rel.parentTableName, rel.parentTableNamespace].Columns[rel.parentColumnNames[j]]; if (rel.childTableNamespace == null) childs[j] = dataSet.Tables[rel.childTableName].Columns[rel.childColumnNames[j]]; else childs[j] = dataSet.Tables[rel.childTableName, rel.childTableNamespace].Columns[rel.childColumnNames[j]]; } DataRelation newRelation = new DataRelation(rel.relationName, parents, childs, false); newRelation.Nested = rel.nested; this.Add(newRelation); } delayLoadingRelations = null; } } } } // File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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