DocumentWalker::StepType
DocumentWalker::Step (IDocumentNode **node_return)
{
DependencyObjectCollection *children = node->GetDocumentChildren();
if (direction == DocumentWalker::Forward) {
if (children && children->GetCount() > child_index) {
// 1) if node is a container, step into the child
node = IDocumentNode::CastToIDocumentNode (children->GetValueAt (child_index)->AsTextElement());
child_index = 0;
if (node_return)
*node_return = node;
return Enter;
}
else {
// 2) if it's not a container, then we walk up a level, step out of this node
IDocumentNode *parent_node = node->GetParentDocumentNode();
if (parent_node == NULL)
return Done;
DependencyObjectCollection *parent_children= parent_node->GetDocumentChildren();
int i = parent_children->IndexOf (node->AsDependencyObject());
if (node_return)
*node_return = node;
child_index = i + 1;
node = parent_node;
return Leave;
}
}
else {
if (children && children->GetCount() > child_index && child_index >= 0) {
// 1) if node is a container, step into the child
node = IDocumentNode::CastToIDocumentNode (children->GetValueAt (child_index)->AsTextElement());
children = node->GetDocumentChildren ();
child_index = children ? children->GetCount() - 1 : 0;
if (node_return)
*node_return = node;
return Enter;
}
else {
// 2) if it's not a container, then we walk up a level, step out of this node
IDocumentNode *parent_node = node->GetParentDocumentNode();
if (parent_node == NULL)
return Done;
DependencyObjectCollection *parent_children= parent_node->GetDocumentChildren();
int i = parent_children->IndexOf (node->AsDependencyObject());
if (node_return)
*node_return = node;
child_index = i - 1;
node = parent_node;
return Leave;
}
}
}
int
TextPointer::CompareToWithError (const TextPointer *pointer, MoonError *error) const
{
if (!verify_textpointer_in_document (this, error) ||
!verify_textpointer_in_document (pointer, error))
return -1;
if (this->GetParent() == pointer->GetParent()) {
DependencyObjectCollection *children = this->GetParentNode()->GetDocumentChildren();
if (children && children->GetCount() > 0)
return compare_locations (this->GetLocation(), pointer->GetLocation());
else
return this->ResolveLocation() - pointer->ResolveLocation();
}
else {
GPtrArray *this_array = g_ptr_array_new();
GPtrArray *pointer_array = g_ptr_array_new();
DependencyObject *el = GetParent();
while (el) {
g_ptr_array_insert (this_array, 0, el);
if (el->Is (Type::RICHTEXTBOX))
break;
el = el->GetParent() ? el->GetParent()->GetParent() : NULL;
if (!el)
break;
}
el = pointer->GetParent();
while (el) {
g_ptr_array_insert (pointer_array, 0, el);
if (el->Is (Type::RICHTEXTBOX))
break;
el = el->GetParent() ? el->GetParent()->GetParent() : NULL;
if (!el)
break;
}
guint32 count_to_compare = MIN (this_array->len, pointer_array->len);
for (guint32 i = 0; i < count_to_compare; i ++) {
DependencyObject *this_el = (DependencyObject*)g_ptr_array_index (this_array, i);
DependencyObject *pointer_el = (DependencyObject*)g_ptr_array_index (pointer_array, i);
if (this_el == pointer_el)
continue;
if (i == 0) {
// this shouldn't happen... there shouldn't be a difference between two paths on the first element, since that should always be a RTB
int rv = this_array->len < pointer_array->len ? -1 : 1;
g_ptr_array_free (this_array, TRUE);
g_ptr_array_free (pointer_array, TRUE);
return rv;
}
/* at this point this_el and pointer_el are
different. check index i-1's idea of their
positions */
DependencyObject *common_parent = (DependencyObject*)g_ptr_array_index (this_array, i-1);
IDocumentNode *common_parent_node = IDocumentNode::CastToIDocumentNode (common_parent);
int this_index = common_parent_node->GetDocumentChildren()->IndexOf (Value (this_el));
int pointer_index = common_parent_node->GetDocumentChildren()->IndexOf (Value (pointer_el));
g_ptr_array_free (this_array, TRUE);
g_ptr_array_free (pointer_array, TRUE);
return this_index < pointer_index ? -1 : 1;
}
// if we make it here, it means we've run through
// "count_to_compare" items that were identical, and
// one of the paths is longer (so represents a child
// of items[count_to_compare].
// so we need to figure out which array has more
// elements, then compare that against the other
// TextPointer's location
if (count_to_compare < this_array->len) {
// @this's parent is a child of pointer_array[count_to_compare-1]
DependencyObject *parent = (DependencyObject*)g_ptr_array_index(pointer_array, count_to_compare - 1);
IDocumentNode *parent_node = IDocumentNode::CastToIDocumentNode (parent);
guint32 child_index = parent_node->GetDocumentChildren()->IndexOf (Value ((DependencyObject*)g_ptr_array_index(this_array, count_to_compare)));
return pointer->GetLocation() > child_index ? -1 : 1;
}
else if (count_to_compare < pointer_array->len) {
// @pointer's parent is a child of this_array[count_to_compare-1]
DependencyObject *parent = (DependencyObject*)g_ptr_array_index(this_array, count_to_compare - 1);
IDocumentNode *parent_node = IDocumentNode::CastToIDocumentNode (parent);
guint32 child_index = parent_node->GetDocumentChildren()->IndexOf (Value ((DependencyObject*)g_ptr_array_index(pointer_array, count_to_compare)));
return child_index >= this->GetLocation () ? -1 : 1;
}
}
return -1;
}