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//------------------------------------------------------------------------------
// <copyright file="DataRelation.cs" company="Microsoft">
// Copyright (c) Microsoft Corporation. All rights reserved.
// </copyright>
// <owner current="true" primary="true">Microsoft</owner>
// <owner current="true" primary="false">Microsoft</owner>
// <owner current="false" primary="false">Microsoft</owner>
//------------------------------------------------------------------------------
/*****************************************************************************************************
Rules for Multiple Nested Parent, enforce following constraints
1) At all times, only 1(ONE) FK can be NON-Null in a row.
2) NULL FK values are not associated with PARENT(x), even if if PK is NULL in Parent
3) Enforce <rule 1> when
a) Any FK value is changed
b) A relation created that result in Multiple Nested Child
WriteXml
1) WriteXml will throw if <rule 1> is violated
2) if NON-Null FK has parentRow (boolean check) print as Nested, else it will get written as normal row
additional notes:
We decided to enforce the rule 1 just if Xml being persisted
******************************************************************************************************/
namespace System.Data {
using System;
using System.ComponentModel;
using System.Diagnostics;
using System.Globalization;
using System.Data.Common;
using System.Collections.Generic;
/// <devdoc>
/// <para>
/// Represents a parent/child relationship between two tables.
/// </para>
/// </devdoc>
[
DefaultProperty("RelationName"),
Editor("Microsoft.VSDesigner.Data.Design.DataRelationEditor, " + AssemblyRef.MicrosoftVSDesigner, "System.Drawing.Design.UITypeEditor, " + AssemblyRef.SystemDrawing),
TypeConverter(typeof(RelationshipConverter)),
]
public class DataRelation {
// properties
private DataSet dataSet = null;
internal PropertyCollection extendedProperties = null;
internal string relationName = "";
// events
private PropertyChangedEventHandler onPropertyChangingDelegate = null;
// state
private DataKey childKey;
private DataKey parentKey;
private UniqueConstraint parentKeyConstraint = null;
private ForeignKeyConstraint childKeyConstraint = null;
// Design time serialization
internal string[] parentColumnNames = null;
internal string[] childColumnNames = null;
internal string parentTableName = null;
internal string childTableName = null;
internal string parentTableNamespace= null;
internal string childTableNamespace = null;
/// <devdoc>
/// this stores whether the child element appears beneath the parent in the XML persised files.
/// </devdoc>
internal bool nested = false;
/// <devdoc>
/// this stores whether the the relationship should make sure that KeyConstraints and ForeignKeyConstraints
/// exist when added to the ConstraintsCollections of the table.
/// </devdoc>
internal bool createConstraints;
private bool _checkMultipleNested = true;
private static int _objectTypeCount; // Bid counter
private readonly int _objectID = System.Threading.Interlocked.Increment(ref _objectTypeCount);
/// <devdoc>
/// <para>
/// Initializes a new instance of the <see cref='System.Data.DataRelation'/> class using the specified name,
/// parent, and child columns.
/// </para>
/// </devdoc>
public DataRelation(string relationName, DataColumn parentColumn, DataColumn childColumn)
: this(relationName, parentColumn, childColumn, true) {
}
/// <devdoc>
/// <para>
/// Initializes a new instance of the <see cref='System.Data.DataRelation'/> class using the specified name, parent, and child columns, and
/// value to create constraints.
/// </para>
/// </devdoc>
public DataRelation(string relationName, DataColumn parentColumn, DataColumn childColumn, bool createConstraints) {
Bid.Trace("<ds.DataRelation.DataRelation|API> %d#, relationName='%ls', parentColumn=%d, childColumn=%d, createConstraints=%d{bool}\n",
ObjectID, relationName, (parentColumn != null) ? parentColumn.ObjectID : 0, (childColumn != null) ? childColumn.ObjectID : 0,
createConstraints);
DataColumn[] parentColumns = new DataColumn[1];
parentColumns[0] = parentColumn;
DataColumn[] childColumns = new DataColumn[1];
childColumns[0] = childColumn;
Create(relationName, parentColumns, childColumns, createConstraints);
}
/// <devdoc>
/// <para>
/// Initializes a new instance of the <see cref='System.Data.DataRelation'/> class using the specified name
/// and matched arrays of parent and child columns.
/// </para>
/// </devdoc>
public DataRelation(string relationName, DataColumn[] parentColumns, DataColumn[] childColumns)
: this(relationName, parentColumns, childColumns, true) {
}
/// <devdoc>
/// <para>
/// Initializes a new instance of the <see cref='System.Data.DataRelation'/> class using the specified name, matched arrays of parent
/// and child columns, and value to create constraints.
/// </para>
/// </devdoc>
public DataRelation(string relationName, DataColumn[] parentColumns, DataColumn[] childColumns, bool createConstraints) {
Create(relationName, parentColumns, childColumns, createConstraints);
}
// Design time constructor
/// <devdoc>
/// <para>[To be supplied.]</para>
/// </devdoc>
[Browsable(false)]
public DataRelation(string relationName, string parentTableName, string childTableName, string[] parentColumnNames, string[] childColumnNames, bool nested) {
this.relationName = relationName;
this.parentColumnNames = parentColumnNames;
this.childColumnNames = childColumnNames;
this.parentTableName = parentTableName;
this.childTableName = childTableName;
this.nested = nested;
// DataRelation(relationName, parentTableName, null, childTableName, null, parentColumnNames, childColumnNames, nested)
}
[Browsable(false)]
// Design time constructor
public DataRelation(string relationName, string parentTableName, string parentTableNamespace, string childTableName, string childTableNamespace, string[] parentColumnNames, string[] childColumnNames, bool nested) {
this.relationName = relationName;
this.parentColumnNames = parentColumnNames;
this.childColumnNames = childColumnNames;
this.parentTableName = parentTableName;
this.childTableName = childTableName;
this.parentTableNamespace = parentTableNamespace;
this.childTableNamespace = childTableNamespace;
this.nested = nested;
}
/// <devdoc>
/// <para>
/// Gets the child columns of this relation.
/// </para>
/// </devdoc>
[
ResCategoryAttribute(Res.DataCategory_Data),
ResDescriptionAttribute(Res.DataRelationChildColumnsDescr)
]
public virtual DataColumn[] ChildColumns {
get {
CheckStateForProperty();
return childKey.ToArray();
}
}
internal DataColumn[] ChildColumnsReference {
get {
CheckStateForProperty();
return childKey.ColumnsReference;
}
}
/// <devdoc>
/// The internal Key object for the child table.
/// </devdoc>
internal DataKey ChildKey {
get {
CheckStateForProperty();
return childKey;
}
}
/// <devdoc>
/// <para>
/// Gets the child table of this relation.
/// </para>
/// </devdoc>
public virtual DataTable ChildTable {
get {
CheckStateForProperty();
return childKey.Table;
}
}
/// <devdoc>
/// <para>
/// Gets the <see cref='System.Data.DataSet'/> to which the relations' collection belongs to.
/// </para>
/// </devdoc>
[DesignerSerializationVisibility(DesignerSerializationVisibility.Hidden), Browsable(false)]
public virtual DataSet DataSet {
get {
CheckStateForProperty();
return dataSet;
}
}
internal string[] ParentColumnNames {
get {
return parentKey.GetColumnNames();
}
}
internal string[] ChildColumnNames {
get {
return childKey.GetColumnNames();
}
}
private static bool IsKeyNull(object[] values) {
for (int i = 0; i < values.Length; i++) {
if (!DataStorage.IsObjectNull(values[i]))
return false;
}
return true;
}
/// <devdoc>
/// Gets the child rows for the parent row across the relation using the version given
/// </devdoc>
internal static DataRow[] GetChildRows(DataKey parentKey, DataKey childKey, DataRow parentRow, DataRowVersion version) {
object[] values = parentRow.GetKeyValues(parentKey, version);
if (IsKeyNull(values)) {
return childKey.Table.NewRowArray(0);
}
Index index = childKey.GetSortIndex((version == DataRowVersion.Original) ? DataViewRowState.OriginalRows : DataViewRowState.CurrentRows);
return index.GetRows(values);
}
/// <devdoc>
/// Gets the parent rows for the given child row across the relation using the version given
/// </devdoc>
internal static DataRow[] GetParentRows(DataKey parentKey, DataKey childKey, DataRow childRow, DataRowVersion version) {
object[] values = childRow.GetKeyValues(childKey, version);
if (IsKeyNull(values)) {
return parentKey.Table.NewRowArray(0);
}
Index index = parentKey.GetSortIndex((version == DataRowVersion.Original) ? DataViewRowState.OriginalRows : DataViewRowState.CurrentRows);
return index.GetRows(values);
}
internal static DataRow GetParentRow(DataKey parentKey, DataKey childKey, DataRow childRow, DataRowVersion version) {
if (!childRow.HasVersion((version == DataRowVersion.Original) ? DataRowVersion.Original : DataRowVersion.Current))
if (childRow.tempRecord == -1)
return null;
object[] values = childRow.GetKeyValues(childKey, version);
if (IsKeyNull(values)) {
return null;
}
Index index = parentKey.GetSortIndex((version == DataRowVersion.Original) ? DataViewRowState.OriginalRows : DataViewRowState.CurrentRows);
Range range = index.FindRecords(values);
if (range.IsNull) {
return null;
}
if (range.Count > 1) {
throw ExceptionBuilder.MultipleParents();
}
return parentKey.Table.recordManager[index.GetRecord(range.Min)];
}
/// <devdoc>
/// Internally sets the DataSet pointer.
/// </devdoc>
internal void SetDataSet(DataSet dataSet) {
if (this.dataSet != dataSet) {
this.dataSet = dataSet;
}
}
internal void SetParentRowRecords(DataRow childRow, DataRow parentRow) {
object[] parentKeyValues = parentRow.GetKeyValues(ParentKey);
if (childRow.tempRecord != -1) {
ChildTable.recordManager.SetKeyValues(childRow.tempRecord, ChildKey, parentKeyValues);
}
if (childRow.newRecord != -1) {
ChildTable.recordManager.SetKeyValues(childRow.newRecord, ChildKey, parentKeyValues);
}
if (childRow.oldRecord != -1) {
ChildTable.recordManager.SetKeyValues(childRow.oldRecord, ChildKey, parentKeyValues);
}
}
/// <devdoc>
/// <para>
/// Gets the parent columns of this relation.
/// </para>
/// </devdoc>
[
ResCategoryAttribute(Res.DataCategory_Data),
ResDescriptionAttribute(Res.DataRelationParentColumnsDescr)
]
public virtual DataColumn[] ParentColumns {
get {
CheckStateForProperty();
return parentKey.ToArray();
}
}
internal DataColumn[] ParentColumnsReference {
get {
return parentKey.ColumnsReference;
}
}
/// <devdoc>
/// The internal constraint object for the parent table.
/// </devdoc>
internal DataKey ParentKey {
get {
CheckStateForProperty();
return parentKey;
}
}
/// <devdoc>
/// <para>
/// Gets the parent table of this relation.
/// </para>
/// </devdoc>
public virtual DataTable ParentTable {
get {
CheckStateForProperty();
return parentKey.Table;
}
}
/// <devdoc>
/// <para>
/// Gets or sets
/// the name used to look up this relation in the parent
/// data set's <see cref='System.Data.DataRelationCollection'/>.
/// </para>
/// </devdoc>
[
ResCategoryAttribute(Res.DataCategory_Data),
DefaultValue(""),
ResDescriptionAttribute(Res.DataRelationRelationNameDescr)
]
public virtual string RelationName {
get {
CheckStateForProperty();
return relationName;
}
set {
IntPtr hscp;
Bid.ScopeEnter(out hscp, "<ds.DataRelation.set_RelationName|API> %d#, '%ls'\n", ObjectID, value);
try {
if (value == null)
value = "";
CultureInfo locale = (dataSet != null ? dataSet.Locale : CultureInfo.CurrentCulture);
if (String.Compare(relationName, value, true, locale) != 0) {
if (dataSet != null) {
if (value.Length == 0)
throw ExceptionBuilder.NoRelationName();
dataSet.Relations.RegisterName(value);
if (relationName.Length != 0)
dataSet.Relations.UnregisterName(relationName);
}
this.relationName = value;
((DataRelationCollection.DataTableRelationCollection)(ParentTable.ChildRelations)).OnRelationPropertyChanged(new CollectionChangeEventArgs(CollectionChangeAction.Refresh, this));
((DataRelationCollection.DataTableRelationCollection)(ChildTable.ParentRelations)).OnRelationPropertyChanged(new CollectionChangeEventArgs(CollectionChangeAction.Refresh, this));
}
else if (String.Compare(relationName, value, false, locale) != 0) {
relationName = value;
((DataRelationCollection.DataTableRelationCollection)(ParentTable.ChildRelations)).OnRelationPropertyChanged(new CollectionChangeEventArgs(CollectionChangeAction.Refresh, this));
((DataRelationCollection.DataTableRelationCollection)(ChildTable.ParentRelations)).OnRelationPropertyChanged(new CollectionChangeEventArgs(CollectionChangeAction.Refresh, this));
}
}
finally{
Bid.ScopeLeave(ref hscp);
}
}
}
internal void CheckNamespaceValidityForNestedRelations(string ns) {
foreach(DataRelation rel in ChildTable.ParentRelations) {
if (rel == this || rel.Nested) {
if (rel.ParentTable.Namespace != ns) {
throw ExceptionBuilder.InValidNestedRelation(ChildTable.TableName);
}
}
}
}
internal void CheckNestedRelations() {
Bid.Trace("<ds.DataRelation.CheckNestedRelations|INFO> %d#\n", ObjectID);
Debug.Assert(DataSet == null || ! nested, "this relation supposed to be not in dataset or not nested");
// 1. There is no other relation (R) that has this.ChildTable as R.ChildTable
// This is not valid for Whidbey anymore so the code has been removed
// 2. There is no loop in nested relations
#if DEBUG
int numTables = ParentTable.DataSet.Tables.Count;
#endif
DataTable dt = ParentTable;
if (ChildTable == ParentTable){
if (String.Compare(ChildTable.TableName, ChildTable.DataSet.DataSetName, true, ChildTable.DataSet.Locale) == 0)
throw ExceptionBuilder.SelfnestedDatasetConflictingName(ChildTable.TableName);
return; //allow self join tables.
}
List<DataTable> list = new List<DataTable>();
list.Add(ChildTable);
// We have already checked for nested relaion UP
for(int i = 0; i < list.Count; ++i) {
DataRelation[] relations = list[i].NestedParentRelations;
foreach(DataRelation rel in relations) {
if (rel.ParentTable == ChildTable && rel.ChildTable != ChildTable) {
throw ExceptionBuilder.LoopInNestedRelations(ChildTable.TableName);
}
if (!list.Contains (rel.ParentTable)) { // check for self nested
list.Add(rel.ParentTable);
}
}
}
}
/********************
The Namespace of a table nested inside multiple parents can be
1. Explicitly specified
2. Inherited from Parent Table
3. Empty (Form = unqualified case)
However, Schema does not allow (3) to be a global element and multiple nested child has to be a global element.
Therefore we'll reduce case (3) to (2) if all parents have same namespace else throw.
********************/
/// <devdoc>
/// <para>
/// Gets or sets a value indicating whether relations are nested.
/// </para>
/// </devdoc>
[
ResCategoryAttribute(Res.DataCategory_Data),
DefaultValue(false),
ResDescriptionAttribute(Res.DataRelationNested)
]
public virtual bool Nested {
get {
CheckStateForProperty();
return nested;
}
set {
IntPtr hscp;
Bid.ScopeEnter(out hscp, "<ds.DataRelation.set_Nested|API> %d#, %d{bool}\n", ObjectID, value);
try {
if (nested != value) {
if (dataSet != null) {
if (value) {
if (ChildTable.IsNamespaceInherited()) { // if not added to collection, don't do this check
CheckNamespaceValidityForNestedRelations(ParentTable.Namespace);
}
Debug.Assert(ChildTable != null, "On a DataSet, but not on Table. Bad state");
ForeignKeyConstraint constraint = ChildTable.Constraints.FindForeignKeyConstraint(ChildKey.ColumnsReference, ParentKey.ColumnsReference);
if (constraint != null) {
constraint.CheckConstraint();
}
ValidateMultipleNestedRelations();
}
}
if (!value && (parentKey.ColumnsReference[0].ColumnMapping == MappingType.Hidden))
throw ExceptionBuilder.RelationNestedReadOnly();
if (value) {
this.ParentTable.Columns.RegisterColumnName(this.ChildTable.TableName, null);
} else {
this.ParentTable.Columns.UnregisterName(this.ChildTable.TableName);
}
RaisePropertyChanging("Nested");
if(value) {
CheckNestedRelations();
if (this.DataSet != null)
if (ParentTable == ChildTable) {
foreach(DataRow row in ChildTable.Rows)
row.CheckForLoops(this);
if (ChildTable.DataSet != null && ( String.Compare(ChildTable.TableName, ChildTable.DataSet.DataSetName, true, ChildTable.DataSet.Locale) == 0) )
throw ExceptionBuilder.DatasetConflictingName(dataSet.DataSetName);
ChildTable.fNestedInDataset = false;
}
else {
foreach(DataRow row in ChildTable.Rows)
row.GetParentRow(this);
}
this.ParentTable.ElementColumnCount++;
}
else {
this.ParentTable.ElementColumnCount--;
}
this.nested = value;
ChildTable.CacheNestedParent();
if (value) {
if (ADP.IsEmpty(ChildTable.Namespace) && ((ChildTable.NestedParentsCount > 1) ||
((ChildTable.NestedParentsCount > 0) && ! (ChildTable.DataSet.Relations.Contains(this.RelationName))))) {
string parentNs = null;
foreach(DataRelation rel in ChildTable.ParentRelations) {
if (rel.Nested) {
if (null == parentNs) {
parentNs = rel.ParentTable.Namespace;
}
else {
if (String.Compare(parentNs, rel.ParentTable.Namespace, StringComparison.Ordinal) != 0) {
this.nested = false;
throw ExceptionBuilder.InvalidParentNamespaceinNestedRelation(ChildTable.TableName);
}
}
}
}
// if not already in memory , form == unqualified
if (CheckMultipleNested && ChildTable.tableNamespace != null && ChildTable.tableNamespace.Length == 0) {
throw ExceptionBuilder.TableCantBeNestedInTwoTables(ChildTable.TableName);
}
ChildTable.tableNamespace = null; // if we dont throw, then let it inherit the Namespace
}
}
}
}
finally{
Bid.ScopeLeave(ref hscp);
}
}
}
/// <devdoc>
/// <para>
/// Gets the constraint which ensures values in a column are unique.
/// </para>
/// </devdoc>
public virtual UniqueConstraint ParentKeyConstraint {
get {
CheckStateForProperty();
return parentKeyConstraint;
}
}
internal void SetParentKeyConstraint(UniqueConstraint value) {
Debug.Assert(parentKeyConstraint == null || value == null, "ParentKeyConstraint should not have been set already.");
parentKeyConstraint = value;
}
/// <devdoc>
/// <para>
/// Gets the <see cref='System.Data.ForeignKeyConstraint'/> for the relation.
/// </para>
/// </devdoc>
public virtual ForeignKeyConstraint ChildKeyConstraint {
get {
CheckStateForProperty();
return childKeyConstraint;
}
}
/// <devdoc>
/// <para>Gets the collection of custom user information.</para>
/// </devdoc>
[
ResCategoryAttribute(Res.DataCategory_Data),
Browsable(false),
ResDescriptionAttribute(Res.ExtendedPropertiesDescr)
]
public PropertyCollection ExtendedProperties {
get {
if (extendedProperties == null) {
extendedProperties = new PropertyCollection();
}
return extendedProperties;
}
}
internal bool CheckMultipleNested {
get {
return _checkMultipleNested;
}
set {
_checkMultipleNested = value;
}
}
internal void SetChildKeyConstraint(ForeignKeyConstraint value) {
Debug.Assert(childKeyConstraint == null || value == null, "ChildKeyConstraint should not have been set already.");
childKeyConstraint = value;
}
internal event PropertyChangedEventHandler PropertyChanging {
add {
onPropertyChangingDelegate += value;
}
remove {
onPropertyChangingDelegate -= value;
}
}
// If we're not in a dataSet relations collection, we need to verify on every property get that we're
// still a good relation object.
internal void CheckState() {
if (dataSet == null) {
parentKey.CheckState();
childKey.CheckState();
if (parentKey.Table.DataSet != childKey.Table.DataSet) {
throw ExceptionBuilder.RelationDataSetMismatch();
}
if (childKey.ColumnsEqual(parentKey)) {
throw ExceptionBuilder.KeyColumnsIdentical();
}
for (int i = 0; i < parentKey.ColumnsReference.Length; i++) {
if ((parentKey.ColumnsReference[i].DataType != childKey.ColumnsReference[i].DataType) ||
((parentKey.ColumnsReference[i].DataType == typeof(DateTime)) &&
(parentKey.ColumnsReference[i].DateTimeMode != childKey.ColumnsReference[i].DateTimeMode) &&
((parentKey.ColumnsReference[i].DateTimeMode & childKey.ColumnsReference[i].DateTimeMode) != DataSetDateTime.Unspecified)))
// alow unspecified and unspecifiedlocal
throw ExceptionBuilder.ColumnsTypeMismatch();
}
}
}
/// <devdoc>
/// <para>Checks to ensure the DataRelation is a valid object, even if it doesn't
/// belong to a <see cref='System.Data.DataSet'/>.</para>
/// </devdoc>
protected void CheckStateForProperty() {
try {
CheckState();
}
catch (Exception e) {
//
if (ADP.IsCatchableExceptionType(e)) {
throw ExceptionBuilder.BadObjectPropertyAccess(e.Message);
}
throw;
}
}
private void Create(string relationName, DataColumn[] parentColumns, DataColumn[] childColumns, bool createConstraints) {
IntPtr hscp;
Bid.ScopeEnter(out hscp, "<ds.DataRelation.Create|INFO> %d#, relationName='%ls', createConstraints=%d{bool}\n",
ObjectID, relationName, createConstraints);
try {
this.parentKey = new DataKey(parentColumns, true);
this.childKey = new DataKey(childColumns, true);
if (parentColumns.Length != childColumns.Length)
throw ExceptionBuilder.KeyLengthMismatch();
for(int i = 0; i < parentColumns.Length; i++){
if ((parentColumns[i].Table.DataSet == null) || (childColumns[i].Table.DataSet == null))
throw ExceptionBuilder.ParentOrChildColumnsDoNotHaveDataSet();
}
CheckState();
this.relationName = (relationName == null ? "" : relationName);
this.createConstraints = createConstraints;
}
finally{
Bid.ScopeLeave(ref hscp);
}
}
internal DataRelation Clone(DataSet destination) {
Bid.Trace("<ds.DataRelation.Clone|INFO> %d#, destination=%d\n", ObjectID, (destination != null) ? destination.ObjectID : 0);
DataTable parent = destination.Tables[ParentTable.TableName, ParentTable.Namespace];
DataTable child = destination.Tables[ChildTable.TableName, ChildTable.Namespace];
int keyLength = parentKey.ColumnsReference.Length;
DataColumn[] parentColumns = new DataColumn[keyLength];
DataColumn[] childColumns = new DataColumn[keyLength];
for (int i = 0; i < keyLength; i++) {
parentColumns[i] = parent.Columns[ParentKey.ColumnsReference[i].ColumnName];
childColumns[i] = child.Columns[ChildKey.ColumnsReference[i].ColumnName];
}
DataRelation clone = new DataRelation(relationName, parentColumns, childColumns, false);
clone.CheckMultipleNested = false; // disable the check in clone as it is already created
clone.Nested = this.Nested;
clone.CheckMultipleNested = true; // enable the check
// ...Extended Properties
if (this.extendedProperties != null) {
foreach(Object key in this.extendedProperties.Keys) {
clone.ExtendedProperties[key]=this.extendedProperties[key];
}
}
return clone;
}
protected internal void OnPropertyChanging(PropertyChangedEventArgs pcevent) {
if (onPropertyChangingDelegate != null) {
Bid.Trace("<ds.DataRelation.OnPropertyChanging|INFO> %d#\n", ObjectID);
onPropertyChangingDelegate(this, pcevent);
}
}
protected internal void RaisePropertyChanging(string name) {
OnPropertyChanging(new PropertyChangedEventArgs(name));
}
/// <devdoc>
/// </devdoc>
public override string ToString() {
return RelationName;
}
internal void ValidateMultipleNestedRelations() {
// find all nested relations that this child table has
// if this relation is the only relation it has, then fine,
// otherwise check if all relations are created from XSD, without using Key/KeyRef
// check all keys to see autogenerated
if (!this.Nested || !CheckMultipleNested) // no need for this verification
return;
if (0 < ChildTable.NestedParentRelations.Length) {
DataColumn[] childCols = ChildColumns;
if (childCols.Length != 1 || !IsAutoGenerated(childCols[0])) {
throw ExceptionBuilder.TableCantBeNestedInTwoTables(ChildTable.TableName);
}
if (!XmlTreeGen.AutoGenerated(this)) {
throw ExceptionBuilder.TableCantBeNestedInTwoTables(ChildTable.TableName);
}
foreach (Constraint cs in ChildTable.Constraints) {
if (cs is ForeignKeyConstraint) {
ForeignKeyConstraint fk = (ForeignKeyConstraint) cs;
if (!XmlTreeGen.AutoGenerated(fk, true)) {
throw ExceptionBuilder.TableCantBeNestedInTwoTables(ChildTable.TableName);
}
}
else {
UniqueConstraint unique = (UniqueConstraint) cs;
if (!XmlTreeGen.AutoGenerated(unique)) {
throw ExceptionBuilder.TableCantBeNestedInTwoTables(ChildTable.TableName);
}
}
}
}
}
private bool IsAutoGenerated(DataColumn col) {
if (col.ColumnMapping != MappingType.Hidden)
return false;
if (col.DataType != typeof(int))
return false;
string generatedname = col.Table.TableName+"_Id";
if ((col.ColumnName == generatedname) || (col.ColumnName == generatedname+"_0"))
return true;
generatedname = this.ParentColumnsReference[0].Table.TableName+"_Id";
if ((col.ColumnName == generatedname) || (col.ColumnName == generatedname+"_0"))
return true;
return false;
}
internal int ObjectID {
get {
return _objectID;
}
}
}
}
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