// Token: 0x060064AD RID: 25773 RVA: 0x001C3DF0 File Offset: 0x001C1FF0
internal void SetShouldLookupImplicitStyles()
{
if (!this.ShouldLookupImplicitStyles)
{
FrameworkObject frameworkParent = this.FrameworkParent;
if (frameworkParent.IsValid && frameworkParent.ShouldLookupImplicitStyles)
{
this.ShouldLookupImplicitStyles = true;
}
}
}
// Set the ShouldLookupImplicitStyles flag on the current
// node if the parent has it set to true.
internal void SetShouldLookupImplicitStyles()
{
if (!ShouldLookupImplicitStyles)
{
FrameworkObject parent = FrameworkParent;
if (parent.IsValid && parent.ShouldLookupImplicitStyles)
{
ShouldLookupImplicitStyles = true;
}
}
}
// Token: 0x0600647E RID: 25726 RVA: 0x001C3364 File Offset: 0x001C1564
internal FrameworkObject(DependencyObject d, bool throwIfNeither)
{
this = new FrameworkObject(d);
if (throwIfNeither && this._fe == null && this._fce == null)
{
object obj = (d != null) ? d.GetType() : "NULL";
throw new InvalidOperationException(SR.Get("MustBeFrameworkDerived", new object[]
{
obj
}));
}
}
// Token: 0x060064A1 RID: 25761 RVA: 0x001C3AA4 File Offset: 0x001C1CA4
internal static bool IsEffectiveAncestor(DependencyObject d1, DependencyObject d2)
{
FrameworkObject frameworkObject = new FrameworkObject(d2);
while (frameworkObject.DO != null)
{
if (frameworkObject.DO == d1)
{
return(true);
}
frameworkObject.Reset(frameworkObject.EffectiveParent);
}
return(false);
}
// Token: 0x060064A6 RID: 25766 RVA: 0x001C3B9C File Offset: 0x001C1D9C
internal FrameworkObject GetPreferVisualParent(bool force)
{
InheritanceBehavior inheritanceBehavior = force ? InheritanceBehavior.Default : this.InheritanceBehavior;
if (inheritanceBehavior != InheritanceBehavior.Default)
{
return(new FrameworkObject(null));
}
FrameworkObject rawPreferVisualParent = this.GetRawPreferVisualParent();
switch (rawPreferVisualParent.InheritanceBehavior)
{
case InheritanceBehavior.SkipToAppNow:
case InheritanceBehavior.SkipToThemeNow:
case InheritanceBehavior.SkipAllNow:
rawPreferVisualParent.Reset(null);
break;
}
return(rawPreferVisualParent);
}
/// <summary>
/// Notification that the ResourceReferenceExpression has been set as a property's value
/// </summary>
/// <param name="d">DependencyObject being set</param>
/// <param name="dp">Property being set</param>
internal override void OnAttach(DependencyObject d, DependencyProperty dp)
{
_targetObject = d;
_targetProperty = dp;
FrameworkObject fo = new FrameworkObject(_targetObject);
fo.HasResourceReference = true;
if (!fo.IsValid)
{
// Listen for the InheritanceContextChanged event on the target node,
// so that if this context hierarchy changes we can re-evaluate this expression.
_targetObject.InheritanceContextChanged += new EventHandler(InvalidateExpressionValue);
}
}
// FindResourceInTree(fe/fce) Defaults: none
internal static object FindResourceInTree(
FrameworkElement feStart,
FrameworkContentElement fceStart,
DependencyProperty dp,
object resourceKey,
object unlinkedParent,
bool allowDeferredResourceReference,
bool mustReturnDeferredResourceReference,
DependencyObject boundaryElement,
out InheritanceBehavior inheritanceBehavior,
out object source)
{
FrameworkObject startNode = new FrameworkObject(feStart, fceStart);
FrameworkObject fo = startNode;
object value;
Style style;
FrameworkTemplate frameworkTemplate;
Style themeStyle;
int loopCount = 0;
bool hasParent = true;
inheritanceBehavior = InheritanceBehavior.Default;
while (hasParent)
{
Debug.Assert(startNode.IsValid || unlinkedParent != null,
"Don't call FindResource with a null fe/fce and unlinkedParent");
if (loopCount > ContextLayoutManager.s_LayoutRecursionLimit)
{
// We suspect a loop here because the loop count
// has exceeded the MAX_TREE_DEPTH expected
throw new InvalidOperationException(SR.Get(SRID.LogicalTreeLoop));
}
else
{
loopCount++;
}
// -------------------------------------------
// Lookup ResourceDictionary on the current instance
// -------------------------------------------
style = null;
frameworkTemplate = null;
themeStyle = null;
if (fo.IsFE)
{
FrameworkElement fe = fo.FE;
value = fe.FindResourceOnSelf(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != DependencyProperty.UnsetValue)
{
source = fe;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceOnElement,
source,
resourceKey,
value );
}
return value;
}
if ((fe != startNode.FE) || StyleHelper.ShouldGetValueFromStyle(dp))
{
style = fe.Style;
}
// Fetch the Template
if ((fe != startNode.FE) || StyleHelper.ShouldGetValueFromTemplate(dp))
{
frameworkTemplate = fe.TemplateInternal;
}
// Fetch the ThemeStyle
if ((fe != startNode.FE) || StyleHelper.ShouldGetValueFromThemeStyle(dp))
{
themeStyle = fe.ThemeStyle;
}
}
else if (fo.IsFCE)
{
FrameworkContentElement fce = fo.FCE;
value = fce.FindResourceOnSelf(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != DependencyProperty.UnsetValue)
{
source = fce;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceOnElement,
source,
resourceKey,
value );
}
return value;
}
if ((fce != startNode.FCE) || StyleHelper.ShouldGetValueFromStyle(dp))
{
style = fce.Style;
}
// Fetch the ThemeStyle
if ((fce != startNode.FCE) || StyleHelper.ShouldGetValueFromThemeStyle(dp))
{
themeStyle = fce.ThemeStyle;
}
}
if (style != null)
{
value = style.FindResource(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != DependencyProperty.UnsetValue)
{
source = style;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceInStyle,
style.Resources,
resourceKey,
style,
fo.DO,
value );
}
return value;
}
}
if (frameworkTemplate != null)
{
value = frameworkTemplate.FindResource(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != DependencyProperty.UnsetValue)
{
source = frameworkTemplate;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceInTemplate,
frameworkTemplate.Resources,
resourceKey,
frameworkTemplate,
fo.DO,
value );
}
return value;
}
}
if (themeStyle != null)
{
value = themeStyle.FindResource(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != DependencyProperty.UnsetValue)
{
source = themeStyle;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceInThemeStyle,
themeStyle.Resources,
resourceKey,
themeStyle,
fo.DO,
value );
}
return value;
}
}
// If the current element that has been searched is the boundary element
// then we need to progress no further
if (boundaryElement != null && (fo.DO == boundaryElement))
{
break;
}
// If the current element for resource lookup is marked such
// then skip to the Application and/or System resources
if (fo.IsValid && TreeWalkHelper.SkipNext(fo.InheritanceBehavior))
{
inheritanceBehavior = fo.InheritanceBehavior;
break;
}
// -------------------------------------------
// Find the next parent instance to lookup
// -------------------------------------------
if (unlinkedParent != null)
{
// This is for the special case when the parser tries to fetch
// a resource on an element even before it is hooked to the
// tree. In this case the parser passes us the unlinkedParent
// to use it for resource lookup.
DependencyObject unlinkedParentAsDO = unlinkedParent as DependencyObject;
if (unlinkedParentAsDO != null)
{
fo.Reset(unlinkedParentAsDO);
if (fo.IsValid)
{
hasParent = true;
}
else
{
DependencyObject doParent = GetFrameworkParent(unlinkedParent);
if (doParent != null)
{
fo.Reset(doParent);
hasParent = true;
}
else
{
hasParent = false;
}
}
}
else
{
hasParent = false;
}
unlinkedParent = null;
}
else
{
Debug.Assert(fo.IsValid,
"The current node being processed should be an FE/FCE");
fo = fo.FrameworkParent;
hasParent = fo.IsValid;
}
// If the current element for resource lookup is marked such
// then skip to the Application and/or System resources
if (fo.IsValid && TreeWalkHelper.SkipNow(fo.InheritanceBehavior))
{
inheritanceBehavior = fo.InheritanceBehavior;
break;
}
}
// No matching resource was found in the tree
source = null;
return DependencyProperty.UnsetValue;
}
private bool ReceivePropertySet(object targetObject, XamlMember member,
object value, DependencyObject templatedParent)
{
DependencyObject dependencyObject = targetObject as DependencyObject;
DependencyProperty dependencyProperty;
System.Windows.Baml2006.WpfXamlMember wpfMember = member as System.Windows.Baml2006.WpfXamlMember;
if (wpfMember != null)
{
dependencyProperty = wpfMember.DependencyProperty;
}
else
{
// All DP backed XamlMembers must be wrapped by the WpfXamlMember. If it isn't wrapped, then it's not a DP
return false;
}
//If we're not dealing with a DO or a DP, we cannot set an EffectiveValueEntry
if (dependencyProperty == null || dependencyObject == null)
{
return false;
}
FrameworkObject fo = new FrameworkObject(dependencyObject);
// If this isn't an FE that we're optimizing, defer to base.
//
// Similarly, if we don't have a templated parent, we're not optimizing, and defer to base
// (This happens when FrameworkTemplate.LoadContent() is called.)
if ((fo.TemplatedParent == null) || (templatedParent == null))
{
return false;
}
// For template content, we skip the automatic BaseUriProperty and the UidProperty
// (Implementation note: Doing this here because this is what we did with FEFs,
// and because automation gets confused if the Uid isn't unique in the whole tree).
if (dependencyProperty == System.Windows.Navigation.BaseUriHelper.BaseUriProperty)
{
// We only skip the automatic BaseUri property. If it's set explicitely,
// that's passed through.
if (!fo.IsInitialized)
{
return true;
}
}
else if (dependencyProperty == UIElement.UidProperty)
{
return true;
}
Debug.Assert(fo.TemplatedParent == templatedParent);
// Set the value onto the FE/FCE.
HybridDictionary parentTemplateValues;
if (!fo.StoresParentTemplateValues)
{
parentTemplateValues = new HybridDictionary();
StyleHelper.ParentTemplateValuesField.SetValue(dependencyObject, parentTemplateValues);
fo.StoresParentTemplateValues = true;
}
else
{
parentTemplateValues = StyleHelper.ParentTemplateValuesField.GetValue(dependencyObject);
}
// Check if it is an expression
Expression expr;
int childIndex = fo.TemplateChildIndex;
if ((expr = value as Expression) != null)
{
BindingExpressionBase bindingExpr;
TemplateBindingExpression templateBindingExpr;
if ((bindingExpr = expr as BindingExpressionBase) != null)
{
// If this is a BindingExpression then we need to store the corresponding
// MarkupExtension into the per instance store for the unshared DP value.
// Allocate a slot for this unshared DP value in the per-instance store for MarkupExtensions
HybridDictionary instanceValues = StyleHelper.EnsureInstanceData(StyleHelper.TemplateDataField, templatedParent, InstanceStyleData.InstanceValues);
StyleHelper.ProcessInstanceValue(dependencyObject, childIndex, instanceValues, dependencyProperty, StyleHelper.UnsharedTemplateContentPropertyIndex, true /*apply*/);
value = bindingExpr.ParentBindingBase;
}
else if ((templateBindingExpr = expr as TemplateBindingExpression) != null)
{
// If this is a TemplateBindingExpression then we create an equivalent Binding
// MarkupExtension and store that in the per instance store for the unshared DP
// value. We use Binding here because it has all the wiring in place to handle
// change notifications through DependencySource and such.
TemplateBindingExtension templateBindingExtension = templateBindingExpr.TemplateBindingExtension;
// Allocate a slot for this unshared DP value in the per-instance store for MarkupExtensions
HybridDictionary instanceValues = StyleHelper.EnsureInstanceData(StyleHelper.TemplateDataField, templatedParent, InstanceStyleData.InstanceValues);
StyleHelper.ProcessInstanceValue(dependencyObject, childIndex, instanceValues, dependencyProperty, StyleHelper.UnsharedTemplateContentPropertyIndex, true /*apply*/);
// Create a Binding equivalent to the TemplateBindingExtension
Binding binding = new Binding();
binding.Mode = BindingMode.OneWay;
binding.RelativeSource = RelativeSource.TemplatedParent;
binding.Path = new PropertyPath(templateBindingExtension.Property);
binding.Converter = templateBindingExtension.Converter;
binding.ConverterParameter = templateBindingExtension.ConverterParameter;
value = binding;
}
else
{
Debug.Assert(false, "We do not have support for DynamicResource within unshared template content");
}
}
bool isMarkupExtension = value is MarkupExtension;
// Value needs to be valid for the DP, or Binding/MultiBinding/PriorityBinding/TemplateBinding.
if (!dependencyProperty.IsValidValue(value))
{
if (!isMarkupExtension && !(value is DeferredReference))
{
throw new ArgumentException(SR.Get(SRID.InvalidPropertyValue, value, dependencyProperty.Name));
}
}
parentTemplateValues[dependencyProperty] = value;
dependencyObject.ProvideSelfAsInheritanceContext(value, dependencyProperty);
EffectiveValueEntry entry = new EffectiveValueEntry(dependencyProperty);
entry.BaseValueSourceInternal = BaseValueSourceInternal.ParentTemplate;
entry.Value = value;
if (isMarkupExtension)
{
// entry will be updated to hold the value
StyleHelper.GetInstanceValue(
StyleHelper.TemplateDataField,
templatedParent,
fo.FE,
fo.FCE,
childIndex,
dependencyProperty,
StyleHelper.UnsharedTemplateContentPropertyIndex,
ref entry);
}
dependencyObject.UpdateEffectiveValue(
dependencyObject.LookupEntry(dependencyProperty.GlobalIndex),
dependencyProperty,
dependencyProperty.GetMetadata(dependencyObject.DependencyObjectType),
new EffectiveValueEntry() /* oldEntry */,
ref entry,
false /* coerceWithDeferredReference */,
false /* coerceWithCurrentValue */,
OperationType.Unknown);
return true;
}
/// <summary>
/// Invalidate inheritable properties and resource
/// references during a tree change operation.
/// </summary>
internal static void InvalidateOnTreeChange(
FrameworkElement fe,
FrameworkContentElement fce,
DependencyObject parent,
bool isAddOperation)
{
Debug.Assert(fe != null || fce != null, "Node with the tree change notification must be an FE or an FCE.");
Debug.Assert(parent != null, "Must have a parent that the current node is connected to or disconnected from.");
// If the tree change is for a non-FE/FCE parent then we need to find
// the nearest FE/FCE parent inorder to propagate inheritance correctly.
FrameworkObject parentFO = new FrameworkObject(parent);
if (!parentFO.IsValid)
{
parent = parentFO.FrameworkParent.DO;
}
// We're interested in changes to the Template property that occur during
// the walk - if the template has changed we don't need to invalidate
// template-driven properties a second time. The HasTemplateChanged property
// is cleared on the first visit to each node, so that it means "template
// changed during the walk". But one relevant node isn't visited during
// the walk - the templated parent of the initial node. So we handle that now.
FrameworkObject fo = new FrameworkObject(fe, fce);
// Synchronize the ShouldLookupImplicitStyles flag with respect to the parent here
// because for the root node of a tree change UpdateStyleProperty happens right here
// in this method. And we need to have synchrnozed the ShouldLookupImplicitStyles
// before we re-query the Style property.
if (isAddOperation)
{
fo.SetShouldLookupImplicitStyles();
}
fo.Reset(fo.TemplatedParent);
fo.HasTemplateChanged = false;
DependencyObject d = (fe != null) ? (DependencyObject)fe : (DependencyObject)fce;
// during a tree walk to invalidate inherited properties, we typically
// call UpdateStyle from FE/FCE.InvalidateTreeDependentProperties. But
// for the root element of the tree change, we need to record old values
// for inherited properties before we've updated the inheritance parent;
// so do the updatestyle here before we record old values so that we
// capture any updates provided by styles.
if (fe != null)
{
if (fe.IsInitialized && !fe.HasLocalStyle)
{
// Clear the HasStyleChanged flag
fe.HasStyleChanged = false;
fe.HasStyleInvalidated = false;
fe.HasTemplateChanged = false;
fe.AncestorChangeInProgress = true;
fe.UpdateStyleProperty();
fe.AncestorChangeInProgress = false;
}
}
else
{
if (!fce.HasLocalStyle)
{
// Clear the HasStyleChanged flag
fce.HasStyleChanged = false;
fce.HasStyleInvalidated = false;
fce.AncestorChangeInProgress = true;
fce.UpdateStyleProperty();
fce.AncestorChangeInProgress = false;
}
}
if (HasChildren(fe, fce))
{
// Spin up a DescendentsWalker only when
// the current node has children to walk
// If there is another tree walk that has already visited the
// current node then we do not need to re-walk its sub-tree.
FrameworkContextData fcdata = FrameworkContextData.From(d.Dispatcher);
if (!fcdata.WasNodeVisited(d, TreeChangeDelegate))
{
// The TreeChangeInfo object is used here to track
// information that we have because we're doing a tree walk.
TreeChangeInfo parentInfo = new TreeChangeInfo(d, parent, isAddOperation);
// PrePostDescendentsWalker is used instead of the standard
// DescendentsWalker because we need a "post" callback to know when
// to pop the parent's InheritableProperties cache from the stack.
PrePostDescendentsWalker<TreeChangeInfo> walker = new PrePostDescendentsWalker<TreeChangeInfo>(
TreeWalkPriority.LogicalTree, TreeChangeDelegate, TreeChangePostDelegate, parentInfo);
fcdata.AddWalker(TreeChangeDelegate, walker);
try
{
walker.StartWalk(d);
}
finally
{
fcdata.RemoveWalker(TreeChangeDelegate, walker);
}
}
}
else
{
// Degenerate case when the current node is a leaf node and has no children.
TreeChangeInfo parentInfo = new TreeChangeInfo(d, parent, isAddOperation);
// Degenerate case of OnAncestorChanged for a single node
OnAncestorChanged(fe, fce, parentInfo);
// Degenerate case of OnPostAncestorChanged for a single node
OnPostAncestorChanged(d, parentInfo);
}
}
internal static bool GetFrameworkParent(FrameworkContentElement current, out FrameworkElement feParent, out FrameworkContentElement fceParent)
{
FrameworkObject fo = new FrameworkObject(null, current);
fo = fo.FrameworkParent;
feParent = fo.FE;
fceParent = fo.FCE;
return fo.IsValid;
}
/// <summary>
/// Determine if the current DependencyObject is a candidate for
/// producing inheritable values
/// </summary>
/// <remarks>
/// This is called by both InvalidateTree and GetValueCore
/// </remarks>
internal static bool IsInheritanceNode(
DependencyObject d,
DependencyProperty dp,
out InheritanceBehavior inheritanceBehavior)
{
// Assume can continue search
inheritanceBehavior = InheritanceBehavior.Default;
// Get Framework metadata (if exists)
FrameworkPropertyMetadata metadata = dp.GetMetadata(d.DependencyObjectType) as FrameworkPropertyMetadata;
// Check for correct type of metadata
if (metadata != null)
{
FrameworkObject fo = new FrameworkObject(d);
if (fo.IsValid)
{
// If parent is a Framework type, then check if it is at a
// tree separation boundary. Stop inheritance at the boundary unless
// overridden by the medata.OverridesInheritanceBehavior flag.
// GetValue from Parent only if instance is not a TreeSeparator
// or fmetadata.OverridesInheritanceBehavior is set to override separated tree behavior
if (fo.InheritanceBehavior != InheritanceBehavior.Default && !metadata.OverridesInheritanceBehavior)
{
// Hit a tree boundary
inheritanceBehavior = fo.InheritanceBehavior;
}
}
else
{
// If not a Framework type, then, this isn't an inheritance node.
// Only Framework types know how to inherit
return false;
}
// Check if metadata is marked as inheritable
if (metadata.Inherits)
{
return true;
}
}
// Not a framework type with inheritable metadata
return false;
}
/// <summary>
/// Invalidate all the properties in the given
/// collection of inheritable properties
/// </summary>
/// <remarks>
/// This method is called during an [FE/FCE].OnAncestorChange
/// </remarks>
internal static FrugalObjectList<DependencyProperty> InvalidateTreeDependentProperties(
TreeChangeInfo info,
FrameworkElement fe,
FrameworkContentElement fce,
Style selfStyle,
Style selfThemeStyle,
ref ChildRecord childRecord,
bool isChildRecordValid,
bool hasStyleChanged,
bool isSelfInheritanceParent)
{
Debug.Assert(fe != null || fce != null, "Must have non-null current node");
DependencyObject d = fe != null ? (DependencyObject)fe : (DependencyObject)fce;
FrameworkObject fo = new FrameworkObject(fe, fce);
// Pull up the parent's InheritableProperties cache
FrugalObjectList<DependencyProperty> parentInheritableProperties = info.InheritablePropertiesStack.Peek();
// Loop through all cached inheritable
// to see if they should be invalidated.
int inheritablePropertiesCount = parentInheritableProperties != null ? parentInheritableProperties.Count : 0;
FrugalObjectList<DependencyProperty> currentInheritableProperties = null;
if (HasChildren(fe, fce))
{
currentInheritableProperties = new FrugalObjectList<DependencyProperty>(inheritablePropertiesCount);
}
info.ResetInheritableValueIndexer();
for (int i = 0; i < inheritablePropertiesCount; i++)
{
DependencyProperty inheritableProperty = parentInheritableProperties[i];
Debug.Assert(inheritableProperty.IsPotentiallyInherited, "if we got here, it means that this property is inheritable by someone");
PropertyMetadata metadata = inheritableProperty.GetMetadata(d);
// Invalidate only properties that are marked as inheritable.
// These are the ones that will be affected by an ancestor changes.
if (metadata.IsInherited)
{
FrameworkPropertyMetadata fMetadata = (FrameworkPropertyMetadata)metadata;
bool changed = InvalidateTreeDependentProperty(info, d, ref fo, inheritableProperty, fMetadata,
selfStyle, selfThemeStyle, ref childRecord, isChildRecordValid, hasStyleChanged, isSelfInheritanceParent);
// If a change is detected then add the inheritable property to
// the current list so that it can be used to invalidate further children
if (changed && currentInheritableProperties != null)
{
Debug.Assert(!currentInheritableProperties.Contains(inheritableProperty), "InheritableProperties list should not have duplicates");
// Children do not need to inherit properties across a tree boundary
// unless the property is set to override this behavior.
if (!SkipNow(fo.InheritanceBehavior) || fMetadata.OverridesInheritanceBehavior)
{
currentInheritableProperties.Add(inheritableProperty);
}
}
}
}
return currentInheritableProperties;
}
//
// Add a child to a parent, using IAddChild. This has special support for Grid,
// to allow backward compatibility with FEF-based templates that have Column/RowDefinition
// children directly under the Grid.
//
private void AddNodeToParent( DependencyObject parent, FrameworkObject childFrameworkObject )
{
Grid parentGrid;
ColumnDefinition childNodeColumnDefinition;
RowDefinition childNodeRowDefinition = null;
if ( childFrameworkObject.IsFCE
&& (parentGrid = parent as Grid) != null
&& ( (childNodeColumnDefinition = childFrameworkObject.FCE as ColumnDefinition) != null
|| (childNodeRowDefinition = childFrameworkObject.FCE as RowDefinition) != null )
)
{
if (childNodeColumnDefinition != null)
{
parentGrid.ColumnDefinitions.Add(childNodeColumnDefinition);
}
else if (childNodeRowDefinition != null)
{
parentGrid.RowDefinitions.Add(childNodeRowDefinition);
}
}
else
{
// CALLBACK
// Inheritable property invalidations will occur due to
// OnParentChanged resulting from AddChild
if (!(parent is IAddChild))
{
throw new InvalidOperationException(SR.Get(SRID.TypeMustImplementIAddChild,
parent.GetType().Name));
}
((IAddChild)parent).AddChild(childFrameworkObject.DO);
}
}
// This tree is used to instantiate a tree, represented by this factory.
// It is instantiated as a normal tree without any template optimizations.
// This is used by designers to inspect a template.
internal FrameworkObject InstantiateUnoptimizedTree()
{
if (!_sealed)
{
throw new InvalidOperationException(SR.Get(SRID.FrameworkElementFactoryMustBeSealed));
}
// Create the object.
FrameworkObject frameworkObject = new FrameworkObject(CreateDependencyObject());
// Mark the beginning of initialization
frameworkObject.BeginInit();
// Set values for this object, taking them from the shared values table.
ProvideValueServiceProvider provideValueServiceProvider = null;
FrameworkTemplate.SetTemplateParentValues( Name, frameworkObject.DO, _frameworkTemplate, ref provideValueServiceProvider );
// Get the first child
FrameworkElementFactory childFactory = _firstChild;
// If we have children, get this object's IAddChild, because it's going to be a parent.
IAddChild iAddChild = null;
if( childFactory != null )
{
iAddChild = frameworkObject.DO as IAddChild;
if (iAddChild == null)
{
throw new InvalidOperationException(SR.Get(SRID.TypeMustImplementIAddChild,
frameworkObject.DO.GetType().Name));
}
}
// Build the children.
while (childFactory != null)
{
if (childFactory._text != null)
{
iAddChild.AddText(childFactory._text);
}
else
{
// Use frameworkObject's IAddChild to add this node.
FrameworkObject childFrameworkObject = childFactory.InstantiateUnoptimizedTree();
AddNodeToParent(frameworkObject.DO, childFrameworkObject );
}
childFactory = childFactory._nextSibling;
}
// Mark the end of the initialization phase
frameworkObject.EndInit();
return frameworkObject;
}
// raise the SourceUpdatedEvent event (explicit polymorphism)
internal static void OnSourceUpdated(DependencyObject d, DependencyProperty dp)
{
DataTransferEventArgs args = new DataTransferEventArgs(d, dp);
args.RoutedEvent = Binding.SourceUpdatedEvent;
FrameworkObject fo = new FrameworkObject(d);
if (!fo.IsValid && d != null)
{
fo.Reset(Helper.FindMentor(d));
}
fo.RaiseEvent(args);
}
// Instantiate a tree. This is a recursive routine that will build the
// subtree via calls to itself. The root node being instantiated will
// have identical references for the "container" and "parent" parameters.
// The "affectedChildren" and "noChildIndexChildren" parameters refer to the children
// chain for the "container" object. This chain will have all the
// children - not just the immediate children. The node being
// instantiated here will be added to this chain.
// The tree is instantiated in a depth-first traversal, so children nodes
// are added to the chain in depth-first order as well.
//[CodeAnalysis("AptcaMethodsShouldOnlyCallAptcaMethods")] //Tracking Bug: 29647
internal DependencyObject InstantiateTree(
UncommonField<HybridDictionary[]> dataField,
DependencyObject container,
DependencyObject parent,
List<DependencyObject> affectedChildren,
ref List<DependencyObject> noChildIndexChildren,
ref FrugalStructList<ChildPropertyDependent> resourceDependents)
{
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordXamlBaml, EventTrace.Level.Verbose, EventTrace.Event.WClientParseFefCrInstBegin);
FrameworkElement containerAsFE = container as FrameworkElement;
bool isContainerAnFE = containerAsFE != null;
DependencyObject treeNode = null;
// If we have text, just add it to the parent. Otherwise create the child
// subtree
if (_text != null)
{
// of FrameworkContentElement parent. This is the logical equivalent
// to what happens when adding a child to a visual collection.
IAddChild addChildParent = parent as IAddChild;
if (addChildParent == null)
{
throw new InvalidOperationException(SR.Get(SRID.TypeMustImplementIAddChild,
parent.GetType().Name));
}
else
{
addChildParent.AddText(_text);
}
}
else
{
// Factory create instance
treeNode = CreateDependencyObject();
EventTrace.EasyTraceEvent(EventTrace.Keyword.KeywordXamlBaml, EventTrace.Level.Verbose, EventTrace.Event.WClientParseFefCrInstEnd);
// The tree node is either a FrameworkElement or a FrameworkContentElement.
// we'll deal with one or the other...
FrameworkObject treeNodeFO = new FrameworkObject(treeNode);
Visual3D treeNodeVisual3D = null;
bool treeNodeIsVisual3D = false;
if (!treeNodeFO.IsValid)
{
// If it's neither of those, we have special support for Visual3D
treeNodeVisual3D = treeNode as Visual3D;
if (treeNodeVisual3D != null)
treeNodeIsVisual3D = true;
}
Debug.Assert( treeNodeFO.IsValid || (treeNodeVisual3D != null),
"We should not be trying to instantiate a node that is neither FrameworkElement nor FrameworkContentElement. A type check should have been done when Type is set");
// And here's the bool we'll use to make the decision.
bool treeNodeIsFE = treeNodeFO.IsFE;
// Handle FE/FCE-specific optimizations
if (!treeNodeIsVisual3D)
{
// Postpone "Initialized" event
NewNodeBeginInit( treeNodeIsFE, treeNodeFO.FE, treeNodeFO.FCE );
// Set the resource reference flags
if (StyleHelper.HasResourceDependentsForChild(_childIndex, ref resourceDependents))
{
treeNodeFO.HasResourceReference = true;
}
// Update the two chains that tracks all the nodes created
// from all the FrameworkElementFactory of this Style.
UpdateChildChains( _childName, _childIndex,
treeNodeIsFE, treeNodeFO.FE, treeNodeFO.FCE,
affectedChildren, ref noChildIndexChildren );
// All FrameworkElementFactory-created elements point to the object
// whose Style.VisualTree definition caused all this to occur
NewNodeStyledParentProperty( container, isContainerAnFE, treeNodeIsFE, treeNodeFO.FE, treeNodeFO.FCE );
// Initialize the per-instance data for the new element. This
// needs to be done before any properties are invalidated.
if (_childIndex != -1)
{
Debug.Assert( _frameworkTemplate != null );
StyleHelper.CreateInstanceDataForChild(dataField, container, treeNode, _childIndex,
_frameworkTemplate.HasInstanceValues, ref _frameworkTemplate.ChildRecordFromChildIndex);
}
// If this element needs to know about the Loaded or Unloaded events, set the optimization
// bit in the element
if (HasLoadedChangeHandler)
{
BroadcastEventHelper.AddHasLoadedChangeHandlerFlagInAncestry(treeNode);
}
}
else
{
if (_childName != null)
{
// Add this instance to the child index chain so that it may
// be tracked by the style
affectedChildren.Add(treeNode);
}
else
{
// Child nodes with no _childID (hence no _childIndex) are
// tracked on a separate chain that will be appended to the
// main chain for cleanup purposes.
if (noChildIndexChildren == null)
{
noChildIndexChildren = new List<DependencyObject>(4);
}
noChildIndexChildren.Add(treeNode);
}
}
// New node is initialized, build tree top down
// (Node added before children of node)
if (container == parent)
{
// Set the NameScope on the root of the Template generated tree
TemplateNameScope templateNameScope = new TemplateNameScope(container);
NameScope.SetNameScope(treeNode, templateNameScope);
// This is the root of the tree
if (isContainerAnFE)
{
// The root is added to the Visual tree (not logical) for the
// case of FrameworkElement parents
containerAsFE.TemplateChild = treeNodeFO.FE;
}
else
{
// The root is added to the logical tree for the case
// of FrameworkContentElement parent. This is the logical equivalent
// to what happens when adding a child to a visual collection.
AddNodeToLogicalTree( (FrameworkContentElement)parent, _type,
treeNodeIsFE, treeNodeFO.FE, treeNodeFO.FCE );
}
}
else
{
// Call parent IAddChild to add treeNodeFO
AddNodeToParent( parent, treeNodeFO );
}
// Either set properties or invalidate them, depending on the type
if (!treeNodeIsVisual3D)
{
// For non-3D content, we need to invalidate any properties that
// came from FrameworkElementFactory.SetValue or VisulaTrigger.SetValue
// so that they can get picked up.
Debug.Assert( _frameworkTemplate != null );
StyleHelper.InvalidatePropertiesOnTemplateNode(
container,
treeNodeFO,
_childIndex,
ref _frameworkTemplate.ChildRecordFromChildIndex,
false /*isDetach*/,
this);
}
else
{
// For 3D, which doesn't understand templates, we set the properties directly
// onto the newly-instantiated element.
for (int i = 0; i < PropertyValues.Count; i++)
{
if (PropertyValues[i].ValueType == PropertyValueType.Set)
{
// Get the value out of the table.
object o = PropertyValues[i].ValueInternal;
// If it's a freezable that can't be frozen, it's probably not sharable,
// so we make a copy of it.
Freezable freezableValue = o as Freezable;
if (freezableValue != null && !freezableValue.CanFreeze)
{
o = freezableValue.Clone();
}
// Or, if it's a markup extension, get the value
// to set on this property from the MarkupExtension itself.
MarkupExtension me = o as MarkupExtension;
if (me != null)
{
ProvideValueServiceProvider serviceProvider = new ProvideValueServiceProvider();
serviceProvider.SetData( treeNodeVisual3D, PropertyValues[i].Property );
o = me.ProvideValue( serviceProvider );
}
// Finally, set the value onto the object.
treeNodeVisual3D.SetValue(PropertyValues[i].Property, o);
}
else
{
// We don't support resource references, triggers, etc within the 3D content
throw new NotSupportedException(SR.Get(SRID.Template3DValueOnly, PropertyValues[i].Property) );
}
}
}
// Build child tree from factories
FrameworkElementFactory childFactory = _firstChild;
while (childFactory != null)
{
childFactory.InstantiateTree(
dataField,
container,
treeNode,
affectedChildren,
ref noChildIndexChildren,
ref resourceDependents);
childFactory = childFactory._nextSibling;
}
if (!treeNodeIsVisual3D)
{
// Fire "Initialized" event
NewNodeEndInit( treeNodeIsFE, treeNodeFO.FE, treeNodeFO.FCE );
}
}
return treeNode;
}
/// <summary>
/// Find the element given name
/// </summary>
object INameScope.FindName(string name)
{
// _templatedParent is null if template.LoadContent() was responsible
if (_templatedParent != null)
{
FrameworkObject fo = new FrameworkObject(_templatedParent);
Debug.Assert(fo.IsFE);
if (fo.IsFE)
{
return StyleHelper.FindNameInTemplateContent(fo.FE, name, fo.FE.TemplateInternal);
}
else
{
return null;
}
}
else
{
if (_nameMap == null || name == null || name == String.Empty)
return null;
return _nameMap[name];
}
}
// Given a FrameworkElement and a name string, this routine will try to find
// a node with Name property set to the given name. It will search all
// the child logical tree nodes of the given starting element.
// If the name string is null or an empty string, the given starting element
// is returned.
// If the name is found on a FrameworkContentElement, an exception is thrown
// If the name is not found attached to anything, an exception is thrown
internal static FrameworkElement FindNamedFrameworkElement( FrameworkElement startElement, string targetName )
{
FrameworkElement targetFE = null;
if( targetName == null || targetName.Length == 0 )
{
targetFE = startElement;
}
else
{
DependencyObject targetObject = null;
targetObject = LogicalTreeHelper.FindLogicalNode( startElement, targetName );
if( targetObject == null )
{
throw new ArgumentException( SR.Get(SRID.TargetNameNotFound, targetName));
}
FrameworkObject fo = new FrameworkObject(targetObject);
if( fo.IsFE )
{
targetFE = fo.FE;
}
else
{
throw new InvalidOperationException(SR.Get(SRID.NamedObjectMustBeFrameworkElement, targetName));
}
}
return targetFE;
}
// Fetchs the specified childRecord for the given template. Returns true if successful.
internal static void GetTemplatedParentChildRecord(
DependencyObject templatedParent,
int childIndex,
out ChildRecord childRecord,
out bool isChildRecordValid)
{
FrameworkTemplate templatedParentTemplate = null;
isChildRecordValid = false;
childRecord = new ChildRecord(); // CS0177
if (templatedParent != null)
{
FrameworkObject foTemplatedParent = new FrameworkObject(templatedParent, true);
Debug.Assert( foTemplatedParent.IsFE );
// This node is the result of a style expansion
// Pick the owner for the VisualTree that generated this node
templatedParentTemplate = foTemplatedParent.FE.TemplateInternal;
Debug.Assert(templatedParentTemplate != null ,
"If this node is the result of a VisualTree expansion then it should have a parent template");
// Check if this Child Index is represented in FrameworkTemplate
if (templatedParentTemplate != null && ((0 <= childIndex) && (childIndex < templatedParentTemplate.ChildRecordFromChildIndex.Count)))
{
childRecord = templatedParentTemplate.ChildRecordFromChildIndex[childIndex];
isChildRecordValid = true;
}
}
}
internal static FrameworkObject GetContainingFrameworkElement(DependencyObject current)
{
FrameworkObject fo = new FrameworkObject(current);
while (!fo.IsValid && fo.DO != null)
{
// The current object is neither a FrameworkElement nor a
// FrameworkContentElement. We will now walk the "core"
// tree looking for one.
Visual visual;
Visual3D visual3D;
ContentElement ce;
if ((visual = fo.DO as Visual) != null)
{
fo.Reset(VisualTreeHelper.GetParent(visual));
}
else if ((ce = fo.DO as ContentElement) != null)
{
fo.Reset(ContentOperations.GetParent(ce));
}
else if ((visual3D = fo.DO as Visual3D) != null)
{
fo.Reset(VisualTreeHelper.GetParent(visual3D));
}
else
{
// The parent could be an application.
fo.Reset(null);
}
}
return fo;
}
// Search the parent chain for a [Data|Table]Template in a ResourceDictionary.
private static object FindTemplateResourceInTree(DependencyObject target, ArrayList keys, int exactMatch, ref int bestMatch)
{
Debug.Assert(target != null, "Don't call FindTemplateResource with a null target object");
ResourceDictionary table;
object resource = null;
FrameworkObject fo = new FrameworkObject(target);
Debug.Assert(fo.IsValid, "Don't call FindTemplateResource with a target object that is neither a FrameworkElement nor a FrameworkContentElement");
while (fo.IsValid)
{
object candidate;
// -------------------------------------------
// Lookup ResourceDictionary on the current instance
// -------------------------------------------
// Fetch the ResourceDictionary
// for the given target element
table = GetInstanceResourceDictionary(fo.FE, fo.FCE);
if( table != null )
{
candidate = FindBestMatchInResourceDictionary( table, keys, exactMatch, ref bestMatch );
if (candidate != null)
{
resource = candidate;
if (bestMatch < exactMatch)
{
// Exact match found, stop here.
return resource;
}
}
}
// -------------------------------------------
// Lookup ResourceDictionary on the current instance's Style, if one exists.
// -------------------------------------------
table = GetStyleResourceDictionary(fo.FE, fo.FCE);
if( table != null )
{
candidate = FindBestMatchInResourceDictionary( table, keys, exactMatch, ref bestMatch );
if (candidate != null)
{
resource = candidate;
if (bestMatch < exactMatch)
{
// Exact match found, stop here.
return resource;
}
}
}
// -------------------------------------------
// Lookup ResourceDictionary on the current instance's Theme Style, if one exists.
// -------------------------------------------
table = GetThemeStyleResourceDictionary(fo.FE, fo.FCE);
if( table != null )
{
candidate = FindBestMatchInResourceDictionary( table, keys, exactMatch, ref bestMatch );
if (candidate != null)
{
resource = candidate;
if (bestMatch < exactMatch)
{
// Exact match found, stop here.
return resource;
}
}
}
// -------------------------------------------
// Lookup ResourceDictionary on the current instance's Template, if one exists.
// -------------------------------------------
table = GetTemplateResourceDictionary(fo.FE, fo.FCE);
if( table != null )
{
candidate = FindBestMatchInResourceDictionary( table, keys, exactMatch, ref bestMatch );
if (candidate != null)
{
resource = candidate;
if (bestMatch < exactMatch)
{
// Exact match found, stop here.
return resource;
}
}
}
// If the current element for resource lookup is marked such then abort
// lookup because resource lookup does not span tree boundaries
if (fo.IsValid && TreeWalkHelper.SkipNext(fo.InheritanceBehavior))
{
break;
}
// -------------------------------------------
// Find the next parent instance to lookup
// -------------------------------------------
// Get Framework Parent
fo = fo.FrameworkParent;
// If the next parent for resource lookup is marked such then abort
// lookup because resource lookup does not span tree boundaries
if (fo.IsValid && TreeWalkHelper.SkipNext(fo.InheritanceBehavior))
{
break;
}
}
return resource;
}
internal static bool IsEffectiveAncestor(DependencyObject d1, DependencyObject d2
#if TRACE_INHERITANCE_CONTEXT
, DependencyProperty dp
#endif
)
{
#if TRACE_INHERITANCE_CONTEXT
int depth = 0;
#endif
for ( FrameworkObject fo = new FrameworkObject(d2);
fo.DO != null;
fo.Reset(fo.EffectiveParent))
{
if (fo.DO == d1)
{
#if TRACE_INHERITANCE_CONTEXT
Log("{0} creates cycle at depth {1}", LogIC(d2, dp, d1), depth);
#endif
return true;
}
#if TRACE_INHERITANCE_CONTEXT
++depth;
#endif
}
return false;
}
/// <summary>
/// Process a resource change for the given DependencyObject.
/// Return true if the DO has resource references.
/// </summary>
internal static void OnResourcesChanged(
DependencyObject d,
ResourcesChangeInfo info,
bool raiseResourceChangedEvent)
{
Debug.Assert(d != null, "Must have non-null current node");
bool containsTypeOfKey = info.Contains(d.DependencyObjectType.SystemType, true /*isImplicitStyleKey*/);
bool isSystemResourcesChange = info.IsThemeChange;
bool isStyleResourcesChange = info.IsStyleResourcesChange;
bool isTemplateResourcesChange = info.IsTemplateResourcesChange;
bool isContainer = (info.Container == d);
FrameworkObject fo = new FrameworkObject(d);
// If a resource dictionary changed above this node then we need to
// synchronize the ShouldLookupImplicitStyles flag with respect to
// our parent here.
if (info.IsResourceAddOperation || info.IsCatastrophicDictionaryChange)
{
fo.SetShouldLookupImplicitStyles();
}
// Invalidate implicit and explicit resource
// references on current instance
if (fo.IsFE)
{
// If this is a FrameworkElement
FrameworkElement fe = fo.FE;
fe.HasStyleChanged = false; // detect style changes that arise from work done here
fe.HasStyleInvalidated = false;
fe.HasTemplateChanged = false; // detect template changes that arise from work done here
if (fe.HasResourceReference)
{
// Invalidate explicit ResourceReference properties on the current instance.
// If the Style property comes from an implicit resource reference that
// will be invalidated too.
InvalidateResourceReferences(fe, info);
// There is no need to invalidate the resources references on the
// container object if this call is a result of a style/template
// change. This is because the style/template change would have
// already invalidated all the container dependents and all the
// resources references on the container would have been a part of it.
if ((!isStyleResourcesChange && !isTemplateResourcesChange ) || !isContainer)
{
InvalidateStyleAndReferences(d, info, containsTypeOfKey);
}
}
else if (containsTypeOfKey &&
(fe.HasImplicitStyleFromResources || fe.Style == FrameworkElement.StyleProperty.GetMetadata(fe.DependencyObjectType).DefaultValue))
{
// If The Style property on the given instance has been
// fetched by an implicit resource lookup then
// it needs to be invalidated. Also we need to do this
// invalidation only if the dictionary/resources that is
// changing matches the implicit key used for the resource lookup.
// The StyleProperty does not need to be invalidated if this
// call is the result of a style change
if (!isStyleResourcesChange || !isContainer)
{
fe.UpdateStyleProperty();
}
}
// If there has been a Theme change then
// invalidate the ThemeStyleProperty
if (isSystemResourcesChange)
{
fe.UpdateThemeStyleProperty();
}
// Raise the ResourcesChanged Event so that ResourceReferenceExpressions
// on non-[FE/FCE] (example Freezables) listening for this can then update
// their values
if (raiseResourceChangedEvent && fe.PotentiallyHasMentees)
{
fe.RaiseClrEvent(FrameworkElement.ResourcesChangedKey, new ResourcesChangedEventArgs(info));
}
}
else
{
// If this is a FrameworkContentElement
FrameworkContentElement fce = fo.FCE;
fce.HasStyleChanged = false; // detect style changes that arise from work done here
fce.HasStyleInvalidated = false;
if (fce.HasResourceReference)
{
// Invalidate explicit ResourceReference properties on the current instance.
// If the Style property comes from an implicit resource reference that
// will be invalidated too.
InvalidateResourceReferences(fce, info);
// There is no need to invalidate the resources references on the
// container object if this call is a result of a style/template
// change. This is because the style/template change would have
// already invalidated all the container dependents and all the
// resources references on the container would have been a part of it.
if ((!isStyleResourcesChange && !isTemplateResourcesChange ) || !isContainer)
{
InvalidateStyleAndReferences(d, info, containsTypeOfKey);
}
}
else if (containsTypeOfKey &&
(fce.HasImplicitStyleFromResources || fce.Style == FrameworkContentElement.StyleProperty.GetMetadata(fce.DependencyObjectType).DefaultValue))
{
// If The Style property on the given instance has been
// fetched by an implicit resource lookup then
// it needs to be invalidated. Also we need to do this
// invalidation only if the dictionary/resources that is
// changing matches the implicit key used for the resource lookup.
// The StyleProperty does not need to be invalidated if this
// call is the result of a style change
if (!isStyleResourcesChange || !isContainer)
{
fce.UpdateStyleProperty();
}
}
// If there has been a Theme change then
// invalidate the ThemeStyleProperty
if (isSystemResourcesChange)
{
fce.UpdateThemeStyleProperty();
}
// Raise the ResourcesChanged Event so that ResourceReferenceExpressions
// on non-[FE/FCE] (example Freezables) listening for this can then update
// their values
if (raiseResourceChangedEvent && fce.PotentiallyHasMentees)
{
fce.RaiseClrEvent(FrameworkElement.ResourcesChangedKey, new ResourcesChangedEventArgs(info));
}
}
}
/// <summary>
/// Callback on visiting each node in the descendency during a tree change
/// Note that this is only used in an entire sub-tree undergoes a change.
/// If the tree change is happening on a single node with no children, this
/// invalidation happens inside InvalidateOnTreeChange and this method doesn't
/// get involved.
/// </summary>
private static bool OnAncestorChanged(
DependencyObject d,
TreeChangeInfo info)
{
// Invalidate properties on current instance
FrameworkObject fo = new FrameworkObject(d, true);
OnAncestorChanged(fo.FE, fo.FCE, info);
// Continue walk down subtree
return true;
}
/// <summary>
/// </summary>
internal static void InvalidateOnInheritablePropertyChange(
FrameworkElement fe,
FrameworkContentElement fce,
InheritablePropertyChangeInfo info,
bool skipStartNode)
{
DependencyProperty dp = info.Property;
FrameworkObject fo = new FrameworkObject(fe, fce);
Debug.Assert(fo.IsValid, "Node with the resources change notification must be an FE or an FCE.");
if (HasChildren(fe, fce))
{
// Spin up a DescendentsWalker only when
// the current node has children to walk
DependencyObject d = fo.DO;
DescendentsWalker<InheritablePropertyChangeInfo> walker = new DescendentsWalker<InheritablePropertyChangeInfo>(
TreeWalkPriority.LogicalTree, InheritablePropertyChangeDelegate, info);
walker.StartWalk(d, skipStartNode);
}
else if (!skipStartNode)
{
// Degenerate case when the current node is a leaf node and has no children.
// If the current node needs a notification, do so now.
OnInheritablePropertyChanged(fo.DO, info);
}
}
/// <summary>
/// Invalidate this property if
/// - It is not locally set and
/// - It is not acquired from a style/template
/// </summary>
private static bool InvalidateTreeDependentProperty(
TreeChangeInfo info,
DependencyObject d,
ref FrameworkObject fo,
DependencyProperty dp,
FrameworkPropertyMetadata fMetadata,
Style selfStyle,
Style selfThemeStyle,
ref ChildRecord childRecord,
bool isChildRecordValid,
bool hasStyleChanged,
bool isSelfInheritanceParent)
{
Debug.Assert(d != null, "Must have non-null current node");
// This must be an inherited dependency property
Debug.Assert(fMetadata.IsInherited == true, "This must be an inherited dependency property");
// Children do not need to inherit properties across a tree boundary
// unless the property is set to override this behavior.
if (!SkipNext(fo.InheritanceBehavior) || fMetadata.OverridesInheritanceBehavior)
{
InheritablePropertyChangeInfo rootInfo = info.GetRootInheritableValue(dp);
EffectiveValueEntry oldEntry = rootInfo.OldEntry;
EffectiveValueEntry newEntry = info.IsAddOperation ? rootInfo.NewEntry : new EffectiveValueEntry(dp, BaseValueSourceInternal.Inherited);
bool isForceInheritedProperty = IsForceInheritedProperty(dp);
if (d != info.Root)
{
if (isSelfInheritanceParent)
{
oldEntry = d.GetValueEntry(
d.LookupEntry(dp.GlobalIndex),
dp,
fMetadata,
RequestFlags.DeferredReferences);
}
else
{
oldEntry = oldEntry.GetFlattenedEntry(RequestFlags.FullyResolved);
oldEntry.BaseValueSourceInternal = BaseValueSourceInternal.Inherited;
}
}
OperationType operationType = info.IsAddOperation ? OperationType.AddChild : OperationType.RemoveChild;
if (BaseValueSourceInternal.Inherited >= oldEntry.BaseValueSourceInternal)
{
// If the oldValueSource is of lower precedence than Inheritance
// only then do we need to Invalidate the property. Examples of
// values with higher precedence are those that are locally set
// or set via a style/template.
return (d.UpdateEffectiveValue(
d.LookupEntry(dp.GlobalIndex),
dp,
fMetadata,
oldEntry,
ref newEntry,
false /* coerceWithDeferredReference */,
false /* coerceWithCurrentValue */,
operationType)
& (UpdateResult.ValueChanged | UpdateResult.InheritedValueOverridden))
== UpdateResult.ValueChanged;
// return false if either the value didn't change or
// it changed because the inherited value was overridden by coercion or animation.
}
else if (isForceInheritedProperty)
{
// IsCoerced == true && value == UnsetValue indicates that we need to re-coerce this value
newEntry = new EffectiveValueEntry(dp, FullValueSource.IsCoerced);
// Re-coerce a force inherited property because it's coersion depends on treeness
return (d.UpdateEffectiveValue(
d.LookupEntry(dp.GlobalIndex),
dp,
fMetadata,
oldEntry,
ref newEntry,
false /* coerceWithDeferredReference */,
false /* coerceWithCurrentValue */,
operationType)
& (UpdateResult.ValueChanged | UpdateResult.InheritedValueOverridden))
== UpdateResult.ValueChanged;
// return false if either the value didn't change or
// it changed because the inherited value was overridden by coercion or animation.
}
}
return false;
}
// raise the InheritedPropertyChanged event to mentees. Called from FE/FCE
// OnPropertyChanged
internal static void OnInheritedPropertyChanged(DependencyObject d,
ref InheritablePropertyChangeInfo info,
InheritanceBehavior inheritanceBehavior)
{
if (inheritanceBehavior == InheritanceBehavior.Default || IsForceInheritedProperty(info.Property))
{
FrameworkObject fo = new FrameworkObject(d);
fo.OnInheritedPropertyChanged(ref info);
}
}
/// <summary>
/// Invalidates all the properties on the nodes in the given sub-tree
/// that are referring to the resource[s] that are changing.
/// </summary>
internal static void InvalidateOnResourcesChange(
FrameworkElement fe,
FrameworkContentElement fce,
ResourcesChangeInfo info)
{
Debug.Assert(fe != null || fce != null, "Node with the resources change notification must be an FE or an FCE.");
// We're interested in changes to the Template property that occur during
// the walk - if the template has changed we don't need to invalidate
// template-driven properties a second time. The HasTemplateChanged property
// is cleared on the first visit to each node, so that it means "template
// changed during the walk". But one relevant node isn't visited during
// the walk - the templated parent of the initial node. So we handle that now.
FrameworkObject fo = new FrameworkObject(fe, fce);
fo.Reset(fo.TemplatedParent);
fo.HasTemplateChanged = false;
DependencyObject d = (fe != null) ? (DependencyObject)fe : (DependencyObject)fce;
if (HasChildren(fe, fce))
{
// Spin up a DescendentsWalker only when
// the current node has children to walk
DescendentsWalker<ResourcesChangeInfo> walker = new DescendentsWalker<ResourcesChangeInfo>(
TreeWalkPriority.LogicalTree, ResourcesChangeDelegate, info);
walker.StartWalk(d);
}
else
{
// Degenerate case when the current node is a leaf node and has no children.
OnResourcesChanged(d, info, true);
}
}
//
// Get the closest Framework type up the logical or physical tree
//
// (Shared between FrameworkElement and FrameworkContentElement)
//
internal static DependencyObject GetFrameworkParent(object current)
{
FrameworkObject fo = new FrameworkObject(current as DependencyObject);
fo = fo.FrameworkParent;
return fo.DO;
}
/// <summary>
/// Invalidates all properties that reference a resource and are set via a style/template.
/// </summary>
/// <remarks>
/// This methods is called when one of the following operations occurred.
/// 1) A resource dictionary change
/// 2) A modification to a single entry in a dictionary
/// </remarks>
private static void InvalidateStyleAndReferences(
DependencyObject d,
ResourcesChangeInfo info,
bool containsTypeOfKey)
{
Debug.Assert(d != null, "Must have non-null current node");
FrameworkObject fo = new FrameworkObject(d);
if (fo.IsFE)
{
FrameworkElement fe = fo.FE;
if (containsTypeOfKey &&
!info.IsThemeChange &&
(fe.HasImplicitStyleFromResources || fe.Style == FrameworkElement.StyleProperty.GetMetadata(fe.DependencyObjectType).DefaultValue))
{
// If The Style property on the given instance has been
// fetched by an implicit resource lookup then
// it needs to be invalidated. Also we need to do this
// invalidation only if the dictionary/resources that is
// changing matches the implicit key used for the resource lookup.
// If we invalidate the style then we do not need to
// InvalidateResourceDependents because applying an
// all new style will have the same effect
fe.UpdateStyleProperty();
}
else if (fe.Style != null && fe.Style.HasResourceReferences)
{
// Check for resource references contained within associated Style.
// If found, invalidate all properties that are being driven by a resource.
// If the style has changed recently, that change would have already
// invalidated these properties.
if (!fe.HasStyleChanged)
{
StyleHelper.InvalidateResourceDependents(d, info, ref fe.Style.ResourceDependents,
false /* invalidateVisualTreeToo */);
}
}
if (fe.TemplateInternal != null && fe.TemplateInternal.HasContainerResourceReferences)
{
// Check for resource references contained within associated Template.
// If found, invalidate all properties that are being driven by a resource
StyleHelper.InvalidateResourceDependents(d, info, ref fe.TemplateInternal.ResourceDependents,
false /* invalidateVisualTreeToo */);
}
if (fe.TemplateChildIndex > 0)
{
// Check for resource references contained within parent's Template.
// If found, invalidate all properties that are being driven by a resource
FrameworkElement templatedParent = (FrameworkElement)fe.TemplatedParent;
FrameworkTemplate parentTemplate = templatedParent.TemplateInternal;
if (!templatedParent.HasTemplateChanged && parentTemplate.HasChildResourceReferences)
{
StyleHelper.InvalidateResourceDependentsForChild(
templatedParent,
fe,
fe.TemplateChildIndex,
info,
parentTemplate);
}
}
if (!info.IsThemeChange)
{
// Invalidate ResourceReferences on ThemeStyle only if this insn't a Theme change.
// It it is then ThemeStyle would already have been invalidated and hence there isn't
// a need to duplicate it here.
Style themeStyle = fe.ThemeStyle;
if (themeStyle != null && themeStyle.HasResourceReferences)
{
if (themeStyle != fe.Style)
{
StyleHelper.InvalidateResourceDependents(d, info, ref themeStyle.ResourceDependents,
false /* invalidateVisualTreeToo */);
}
}
}
}
else if (fo.IsFCE)
{
FrameworkContentElement fce = fo.FCE;
if (containsTypeOfKey &&
!info.IsThemeChange &&
(fce.HasImplicitStyleFromResources || fce.Style == FrameworkContentElement.StyleProperty.GetMetadata(fce.DependencyObjectType).DefaultValue))
{
// If The Style property on the given instance has been
// fetched by an implicit resource lookup then
// it needs to be invalidated. Also we need to do this
// invalidation only if the dictionary/resources that is
// changing matches the implicit key used for the resource lookup.
// If we invalidate the style then we do not need to
// InvalidateResourceDependents because applying an
// all new style will have the same effect
fce.UpdateStyleProperty();
}
else if (fce.Style != null && fce.Style.HasResourceReferences)
{
// Check for resource references contained within associated Style.
// If found, invalidate all properties that are being driven by a resource
// If the style has changed recently, that change would have already
// invalidated these properties.
if (!fce.HasStyleChanged)
{
StyleHelper.InvalidateResourceDependents(d, info, ref fce.Style.ResourceDependents, !
false /*invalidateVisualTreeToo */);
}
}
if (fce.TemplateChildIndex > 0)
{
// Check for resource references contained within parent's Template.
// If found, invalidate all properties that are being driven by a resource
FrameworkElement templatedParent = (FrameworkElement)fce.TemplatedParent;
FrameworkTemplate parentTemplate = templatedParent.TemplateInternal;
if (!templatedParent.HasTemplateChanged && parentTemplate.HasChildResourceReferences)
{
StyleHelper.InvalidateResourceDependentsForChild(
templatedParent,
fce,
fce.TemplateChildIndex,
info,
parentTemplate);
}
}
if (!info.IsThemeChange)
{
// Invalidate ResourceReferences on ThemeStyle only if this insn't a Theme change.
// It it is then ThemeStyle would already have been invalidated and hence there isn't
// a need to duplicate it here.
Style themeStyle = fce.ThemeStyle;
if (themeStyle != null && themeStyle.HasResourceReferences)
{
if (themeStyle != fce.Style)
{
StyleHelper.InvalidateResourceDependents(d, info, ref themeStyle.ResourceDependents,
false /*invalidateVisualTreeToo */);
}
}
}
}
}
private DependencyObject FindAncestorOfType(Type type, int level, DependencyObject d, bool isTracing)
{
if (type == null)
{
if (TraceData.IsEnabled)
TraceData.Trace(TraceEventType.Error, TraceData.RefAncestorTypeNotSpecified);
return null;
}
if (level < 1)
{
if (TraceData.IsEnabled)
TraceData.Trace(TraceEventType.Error, TraceData.RefAncestorLevelInvalid);
return null;
}
// initialize search to start at the parent of the given DO
FrameworkObject fo = new FrameworkObject(d);
fo.Reset(fo.GetPreferVisualParent(true).DO);
while (fo.DO != null)
{
if (isTracing)
{
TraceData.Trace(TraceEventType.Warning,
TraceData.AncestorLookup(
type.Name,
TraceData.Identify(fo.DO)));
}
if (type.IsInstanceOfType(fo.DO)) // found it!
{
if (--level <= 0)
break;
}
fo.Reset(fo.PreferVisualParent.DO);
}
return fo.DO;
}
/// <summary>
/// Callback on visiting each node in the descendency
/// during an inheritable property change
/// </summary>
private static bool OnInheritablePropertyChanged(
DependencyObject d,
InheritablePropertyChangeInfo info)
{
Debug.Assert(d != null, "Must have non-null current node");
DependencyProperty dp = info.Property;
EffectiveValueEntry oldEntry = info.OldEntry;
EffectiveValueEntry newEntry = info.NewEntry;
InheritanceBehavior inheritanceBehavior;
bool inheritanceNode = IsInheritanceNode(d, dp, out inheritanceBehavior);
bool isForceInheritedProperty = IsForceInheritedProperty(dp);
// Note that if a node is marked SkipNext means it hasn't acquired any values from its parent and
// hence we do not need to invalidate this node or any of its descendents. However if a node is
// marked SkipNow then this node might have acquired values from its parent but none of its
// descendents would. Hence in this case we process the current node but omit all of its descendents.
if (inheritanceNode && (!SkipNext(inheritanceBehavior) || isForceInheritedProperty))
{
PropertyMetadata metadata = dp.GetMetadata(d);
EntryIndex entryIndex = d.LookupEntry(dp.GlobalIndex);
// Found an inheritance node
if (!d.IsSelfInheritanceParent)
{
DependencyObject parent = FrameworkElement.GetFrameworkParent(d);
InheritanceBehavior parentInheritanceBehavior = InheritanceBehavior.Default;
if (parent != null)
{
FrameworkObject parentFO = new FrameworkObject(parent, true);
parentInheritanceBehavior = parentFO.InheritanceBehavior;
}
if (!SkipNext(inheritanceBehavior) && !SkipNow(parentInheritanceBehavior))
{
// Synchronize InheritanceParent
d.SynchronizeInheritanceParent(parent);
}
// What should the oldValueSource on the child be?
// When the oldValue on the parent was default it
// means that the child also used its own default
// and did not inherit from the parent. However
// when the value on the parent was non-default
// it means that the child inherited it.
// Note that the oldValueSource on inheritablePropertyChangedData
// is actually the parent's oldValueSource
if (oldEntry.BaseValueSourceInternal == BaseValueSourceInternal.Unknown)
{
// we use an empty EffectiveValueEntry as a signal that the old entry was the default value
oldEntry = EffectiveValueEntry.CreateDefaultValueEntry(dp, metadata.GetDefaultValue(d, dp));
}
}
else
{
oldEntry = d.GetValueEntry(
entryIndex,
dp,
metadata,
RequestFlags.RawEntry);
}
// If the oldValueSource is of lower precedence than Inheritance
// only then do we need to Invalidate the property
if (BaseValueSourceInternal.Inherited >= oldEntry.BaseValueSourceInternal)
{
// Since we do not hold a cache of the oldValue we need to supply one
// in order to correctly fire the change notification
return (d.UpdateEffectiveValue(
entryIndex,
dp,
metadata,
oldEntry,
ref newEntry,
false /* coerceWithDeferredReference */,
false /* coerceWithCurrentValue */,
OperationType.Inherit)
& (UpdateResult.ValueChanged | UpdateResult.InheritedValueOverridden))
== UpdateResult.ValueChanged;
// return false if either the value didn't change or
// it changed because the inherited value was overridden by coercion or animation.
}
else if (isForceInheritedProperty)
{
// IsCoerced == true && value == UnsetValue indicates that we need to re-coerce this value
newEntry = new EffectiveValueEntry(dp, FullValueSource.IsCoerced);
// Re-coerce a force inherited property because it's coersion depends on treeness
return (d.UpdateEffectiveValue(
d.LookupEntry(dp.GlobalIndex),
dp,
metadata,
oldEntry,
ref newEntry,
false /* coerceWithDeferredReference */,
false /* coerceWithCurrentValue */,
OperationType.Inherit)
& (UpdateResult.ValueChanged | UpdateResult.InheritedValueOverridden))
== UpdateResult.ValueChanged;
// return false if either the value didn't change or
// it changed because the inherited value was overridden by coercion or animation.
}
else
{
return false;
}
}
// Do not continue walk down subtree if the walk was forced to stop
// (due to separated trees)
return (inheritanceBehavior == InheritanceBehavior.Default || isForceInheritedProperty);
}
private void InvalidatePropertiesOnTemplate(DependencyObject container, Object currentObject)
{
if (container != null)
{
DependencyObject dObject = currentObject as DependencyObject;
if (dObject != null)
{
FrameworkObject child = new FrameworkObject(dObject);
if (child.IsValid)
{
int templateChildIndex = child.TemplateChildIndex;
// the template may have resource references for this child
if (StyleHelper.HasResourceDependentsForChild(templateChildIndex, ref this.ResourceDependents))
{
child.HasResourceReference = true;
}
// Invalidate properties on the element that come from the template.
StyleHelper.InvalidatePropertiesOnTemplateNode(container,
child, templateChildIndex, ref this.ChildRecordFromChildIndex, false, this.VisualTree);
}
}
}
}
//
// This method
// 1. Is called from AncestorChange InvalidateTree.
// 2. It is used to create the InheritableProperties on the given node.
// 3. It also accumulates oldValues for the inheritable properties that are about to be invalidated
//
internal FrugalObjectList<DependencyProperty> CreateParentInheritableProperties(
DependencyObject d,
DependencyObject parent,
bool isAddOperation)
{
Debug.Assert(d != null, "Must have non-null current node");
if (parent == null)
{
return new FrugalObjectList<DependencyProperty>(0);
}
DependencyObjectType treeObjDOT = d.DependencyObjectType;
// See if we have a cached value.
EffectiveValueEntry[] parentEffectiveValues = null;
uint parentEffectiveValuesCount = 0;
uint inheritablePropertiesCount = 0;
// If inheritable properties aren't cached on you then use the effective
// values cache on the parent to discover those inherited properties that
// may need to be invalidated on the children nodes.
if (!parent.IsSelfInheritanceParent)
{
DependencyObject inheritanceParent = parent.InheritanceParent;
if (inheritanceParent != null)
{
parentEffectiveValues = inheritanceParent.EffectiveValues;
parentEffectiveValuesCount = inheritanceParent.EffectiveValuesCount;
inheritablePropertiesCount = inheritanceParent.InheritableEffectiveValuesCount;
}
}
else
{
parentEffectiveValues = parent.EffectiveValues;
parentEffectiveValuesCount = parent.EffectiveValuesCount;
inheritablePropertiesCount = parent.InheritableEffectiveValuesCount;
}
FrugalObjectList<DependencyProperty> inheritableProperties = new FrugalObjectList<DependencyProperty>((int) inheritablePropertiesCount);
if (inheritablePropertiesCount == 0)
{
return inheritableProperties;
}
_rootInheritableValues = new InheritablePropertyChangeInfo[(int) inheritablePropertiesCount];
int inheritableIndex = 0;
FrameworkObject foParent = new FrameworkObject(parent);
for (uint i=0; i<parentEffectiveValuesCount; i++)
{
// Add all the inheritable properties from the effectiveValues
// cache to the TreeStateCache on the parent
EffectiveValueEntry entry = parentEffectiveValues[i];
DependencyProperty dp = DependencyProperty.RegisteredPropertyList.List[entry.PropertyIndex];
// There are UncommonFields also stored in the EffectiveValues cache. We need to exclude those.
if ((dp != null) && dp.IsPotentiallyInherited)
{
PropertyMetadata metadata = dp.GetMetadata(parent.DependencyObjectType);
if (metadata != null && metadata.IsInherited)
{
Debug.Assert(!inheritableProperties.Contains(dp), "EffectiveValues cache must not contains duplicate entries for the same DP");
FrameworkPropertyMetadata fMetadata = (FrameworkPropertyMetadata)metadata;
// Children do not need to inherit properties across a tree boundary
// unless the property is set to override this behavior.
if (!TreeWalkHelper.SkipNow(foParent.InheritanceBehavior) || fMetadata.OverridesInheritanceBehavior)
{
inheritableProperties.Add(dp);
EffectiveValueEntry oldEntry;
EffectiveValueEntry newEntry;
oldEntry = d.GetValueEntry(
d.LookupEntry(dp.GlobalIndex),
dp,
dp.GetMetadata(treeObjDOT),
RequestFlags.DeferredReferences);
if (isAddOperation)
{
// set up the new value
newEntry = entry;
if ((newEntry.BaseValueSourceInternal != BaseValueSourceInternal.Default) || newEntry.HasModifiers)
{
newEntry = newEntry.GetFlattenedEntry(RequestFlags.FullyResolved);
newEntry.BaseValueSourceInternal = BaseValueSourceInternal.Inherited;
}
}
else
{
newEntry = new EffectiveValueEntry();
}
_rootInheritableValues[inheritableIndex++] =
new InheritablePropertyChangeInfo(d, dp, oldEntry, newEntry);
if (inheritablePropertiesCount == inheritableIndex)
{
// no more inheritable properties, bail early
break;
}
}
}
}
}
return inheritableProperties;
}
// FindResourceInternal(fe/fce) Defaults: none
internal static object FindResourceInternal(
FrameworkElement fe,
FrameworkContentElement fce,
DependencyProperty dp,
object resourceKey,
object unlinkedParent,
bool allowDeferredResourceReference,
bool mustReturnDeferredResourceReference,
DependencyObject boundaryElement,
bool isImplicitStyleLookup,
out object source)
{
object value;
InheritanceBehavior inheritanceBehavior = InheritanceBehavior.Default;
if( TraceResourceDictionary.IsEnabled )
{
FrameworkObject element = new FrameworkObject(fe, fce);
TraceResourceDictionary.Trace(
TraceEventType.Start,
TraceResourceDictionary.FindResource,
element.DO,
resourceKey );
}
try
{
// First try to find the resource in the tree
if (fe != null || fce != null || unlinkedParent != null)
{
value = FindResourceInTree(fe, fce, dp, resourceKey, unlinkedParent, allowDeferredResourceReference, mustReturnDeferredResourceReference, boundaryElement,
out inheritanceBehavior, out source);
if (value != DependencyProperty.UnsetValue)
{
return value;
}
}
// Then we try to find the resource in the App's Resources
Application app = Application.Current;
if (app != null &&
(inheritanceBehavior == InheritanceBehavior.Default ||
inheritanceBehavior == InheritanceBehavior.SkipToAppNow ||
inheritanceBehavior == InheritanceBehavior.SkipToAppNext))
{
value = app.FindResourceInternal(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != null)
{
source = app;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceInApplication,
resourceKey,
value );
}
return value;
}
}
// Then we try to find the resource in the SystemResources but that is only if we aren't
// doing an implicit style lookup. Implicit style lookup will stop at the app.
if (!isImplicitStyleLookup &&
inheritanceBehavior != InheritanceBehavior.SkipAllNow &&
inheritanceBehavior != InheritanceBehavior.SkipAllNext)
{
value = SystemResources.FindResourceInternal(resourceKey, allowDeferredResourceReference, mustReturnDeferredResourceReference);
if (value != null)
{
source = SystemResourceHost.Instance;
if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.FoundResourceInTheme,
source,
resourceKey,
value );
}
return value;
}
}
}
finally
{
if( TraceResourceDictionary.IsEnabled )
{
FrameworkObject element = new FrameworkObject(fe, fce);
TraceResourceDictionary.Trace(
TraceEventType.Stop,
TraceResourceDictionary.FindResource,
element.DO,
resourceKey );
}
}
// We haven't found the resource. Trace a message to the debugger.
//
// Only trace if this isn't an implicit
// style lookup and the element has been loaded
if (TraceResourceDictionary.IsEnabledOverride && !isImplicitStyleLookup)
{
if ((fe != null && fe.IsLoaded) || (fce != null && fce.IsLoaded))
{
TraceResourceDictionary.Trace( TraceEventType.Warning,
TraceResourceDictionary.ResourceNotFound,
resourceKey );
}
else if( TraceResourceDictionary.IsEnabled )
{
TraceResourceDictionary.TraceActivityItem(
TraceResourceDictionary.ResourceNotFound,
resourceKey );
}
}
source = null;
return DependencyProperty.UnsetValue;
}
