/// <summary>Find or create a schema node if <code>createNodes</code> is true.</summary>
/// <param name="tree">the root of the xmp tree.</param>
/// <param name="namespaceURI">a namespace</param>
/// <param name="suggestedPrefix">If a prefix is suggested, the namespace is allowed to be registered.</param>
/// <param name="createNodes">
/// a flag indicating if the node shall be created if not found.
/// <em>Note:</em> The namespace must be registered prior to this call.
/// </param>
/// <returns>
/// Returns the schema node if found, <code>null</code> otherwise.
/// Note: If <code>createNodes</code> is <code>true</code>, it is <b>always</b>
/// returned a valid node.
/// </returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">
/// An exception is only thrown if an error occurred, not if a
/// node was not found.
/// </exception>
internal static XMPNode FindSchemaNode(XMPNode tree, string namespaceURI, string suggestedPrefix, bool createNodes)
{
System.Diagnostics.Debug.Assert(tree.GetParent() == null);
// make sure that its the root
XMPNode schemaNode = tree.FindChildByName(namespaceURI);
if (schemaNode == null && createNodes)
{
schemaNode = new XMPNode(namespaceURI, new PropertyOptions().SetSchemaNode(true));
schemaNode.SetImplicit(true);
// only previously registered schema namespaces are allowed in the XMP tree.
string prefix = XMPMetaFactory.GetSchemaRegistry().GetNamespacePrefix(namespaceURI);
if (prefix == null)
{
if (suggestedPrefix != null && suggestedPrefix.Length != 0)
{
prefix = XMPMetaFactory.GetSchemaRegistry().RegisterNamespace(namespaceURI, suggestedPrefix);
}
else
{
throw new XMPException("Unregistered schema namespace URI", XMPErrorConstants.Badschema);
}
}
schemaNode.SetValue(prefix);
tree.AddChild(schemaNode);
}
return schemaNode;
}
/// <summary>
/// Tweak old XMP: Move an instance ID from rdf:about to the
/// <em>xmpMM:InstanceID</em> property.
/// </summary>
/// <remarks>
/// Tweak old XMP: Move an instance ID from rdf:about to the
/// <em>xmpMM:InstanceID</em> property. An old instance ID usually looks
/// like "uuid:bac965c4-9d87-11d9-9a30-000d936b79c4", plus InDesign
/// 3.0 wrote them like "bac965c4-9d87-11d9-9a30-000d936b79c4". If
/// the name looks like a UUID simply move it to <em>xmpMM:InstanceID</em>,
/// don't worry about any existing <em>xmpMM:InstanceID</em>. Both will
/// only be present when a newer file with the <em>xmpMM:InstanceID</em>
/// property is updated by an old app that uses <em>rdf:about</em>.
/// </remarks>
/// <param name="tree">the root of the metadata tree</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if tweaking fails.</exception>
private static void TweakOldXMP(XMPNode tree)
{
if (tree.GetName() != null && tree.GetName().Length >= Utils.UuidLength)
{
string nameStr = tree.GetName().ToLower();
if (nameStr.StartsWith("uuid:"))
{
nameStr = Sharpen.Runtime.Substring(nameStr, 5);
}
if (Utils.CheckUUIDFormat(nameStr))
{
// move UUID to xmpMM:InstanceID and remove it from the root node
XMPPath path = XMPPathParser.ExpandXPath(XMPConstConstants.NsXmpMm, "InstanceID");
XMPNode idNode = XMPNodeUtils.FindNode(tree, path, true, null);
if (idNode != null)
{
idNode.SetOptions(null);
// Clobber any existing xmpMM:InstanceID.
idNode.SetValue("uuid:" + nameStr);
idNode.RemoveChildren();
idNode.RemoveQualifiers();
tree.SetName(null);
}
else
{
throw new XMPException("Failure creating xmpMM:InstanceID", XMPErrorConstants.Internalfailure);
}
}
}
}
/// <summary>Appends a language item to an alt text array.</summary>
/// <param name="arrayNode">the language array</param>
/// <param name="itemLang">the language of the item</param>
/// <param name="itemValue">the content of the item</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if a duplicate property is added</exception>
internal static void AppendLangItem(XMPNode arrayNode, string itemLang, string itemValue)
{
XMPNode newItem = new XMPNode(XMPConstConstants.ArrayItemName, itemValue, null);
XMPNode langQual = new XMPNode(XMPConstConstants.XmlLang, itemLang, null);
newItem.AddQualifier(langQual);
if (!XMPConstConstants.XDefault.Equals(langQual.GetValue()))
{
arrayNode.AddChild(newItem);
}
else
{
arrayNode.AddChild(1, newItem);
}
}
/// <summary>Deletes the the given node and its children from its parent.</summary>
/// <remarks>
/// Deletes the the given node and its children from its parent.
/// Takes care about adjusting the flags.
/// </remarks>
/// <param name="node">the top-most node to delete.</param>
internal static void DeleteNode(XMPNode node)
{
XMPNode parent = node.GetParent();
if (node.GetOptions().IsQualifier())
{
// root is qualifier
parent.RemoveQualifier(node);
}
else
{
// root is NO qualifier
parent.RemoveChild(node);
}
// delete empty Schema nodes
if (!parent.HasChildren() && parent.GetOptions().IsSchemaNode())
{
parent.GetParent().RemoveChild(parent);
}
}
/// <summary>
/// Undo the denormalization performed by the XMP used in Acrobat 5.<br />
/// If a Dublin Core array had only one item, it was serialized as a simple
/// property.
/// </summary>
/// <remarks>
/// Undo the denormalization performed by the XMP used in Acrobat 5.<br />
/// If a Dublin Core array had only one item, it was serialized as a simple
/// property. <br />
/// The <code>xml:lang</code> attribute was dropped from an
/// <code>alt-text</code> item if the language was <code>x-default</code>.
/// </remarks>
/// <param name="dcSchema">the DC schema node</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if normalization fails</exception>
private static void NormalizeDCArrays(XMPNode dcSchema)
{
for (int i = 1; i <= dcSchema.GetChildrenLength(); i++)
{
XMPNode currProp = dcSchema.GetChild(i);
PropertyOptions arrayForm = (PropertyOptions)dcArrayForms.Get(currProp.GetName());
if (arrayForm == null)
{
continue;
}
else
{
if (currProp.GetOptions().IsSimple())
{
// create a new array and add the current property as child,
// if it was formerly simple
XMPNode newArray = new XMPNode(currProp.GetName(), arrayForm);
currProp.SetName(XMPConstConstants.ArrayItemName);
newArray.AddChild(currProp);
dcSchema.ReplaceChild(i, newArray);
// fix language alternatives
if (arrayForm.IsArrayAltText() && !currProp.GetOptions().GetHasLanguage())
{
XMPNode newLang = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
currProp.AddQualifier(newLang);
}
}
else
{
// clear array options and add corrected array form if it has been an array before
currProp.GetOptions().SetOption(PropertyOptions.Array | PropertyOptions.ArrayOrdered | PropertyOptions.ArrayAlternate | PropertyOptions.ArrayAltText, false);
currProp.GetOptions().MergeWith(arrayForm);
if (arrayForm.IsArrayAltText())
{
// applying for "dc:description", "dc:rights", "dc:title"
RepairAltText(currProp);
}
}
}
}
}
/// <summary>See if an array is an alt-text array.</summary>
/// <remarks>
/// See if an array is an alt-text array. If so, make sure the x-default item
/// is first.
/// </remarks>
/// <param name="arrayNode">the array node to check if its an alt-text array</param>
internal static void DetectAltText(XMPNode arrayNode)
{
if (arrayNode.GetOptions().IsArrayAlternate() && arrayNode.HasChildren())
{
bool isAltText = false;
for (Iterator it = arrayNode.IterateChildren(); it.HasNext();)
{
XMPNode child = (XMPNode)it.Next();
if (child.GetOptions().GetHasLanguage())
{
isAltText = true;
break;
}
}
if (isAltText)
{
arrayNode.GetOptions().SetArrayAltText(true);
NormalizeLangArray(arrayNode);
}
}
}
/// <summary>Utility to find or create the array used by <code>SeparateArrayItems()</code>.</summary>
/// <param name="schemaNS">a the namespace fo the array</param>
/// <param name="arrayName">the name of the array</param>
/// <param name="arrayOptions">the options for the array if newly created</param>
/// <param name="xmp">the xmp object</param>
/// <returns>Returns the array node.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards exceptions</exception>
private static XMPNode SeparateFindCreateArray(string schemaNS, string arrayName, PropertyOptions arrayOptions, XMPMetaImpl xmp)
{
arrayOptions = XMPNodeUtils.VerifySetOptions(arrayOptions, null);
if (!arrayOptions.IsOnlyArrayOptions())
{
throw new XMPException("Options can only provide array form", XMPErrorConstants.Badoptions);
}
// Find the array node, make sure it is OK. Move the current children
// aside, to be readded later if kept.
XMPPath arrayPath = XMPPathParser.ExpandXPath(schemaNS, arrayName);
XMPNode arrayNode = XMPNodeUtils.FindNode(xmp.GetRoot(), arrayPath, false, null);
if (arrayNode != null)
{
// The array exists, make sure the form is compatible. Zero
// arrayForm means take what exists.
PropertyOptions arrayForm = arrayNode.GetOptions();
if (!arrayForm.IsArray() || arrayForm.IsArrayAlternate())
{
throw new XMPException("Named property must be non-alternate array", XMPErrorConstants.Badxpath);
}
if (arrayOptions.EqualArrayTypes(arrayForm))
{
throw new XMPException("Mismatch of specified and existing array form", XMPErrorConstants.Badxpath);
}
}
else
{
// *** Right error?
// The array does not exist, try to create it.
// don't modify the options handed into the method
arrayNode = XMPNodeUtils.FindNode(xmp.GetRoot(), arrayPath, true, arrayOptions.SetArray(true));
if (arrayNode == null)
{
throw new XMPException("Failed to create named array", XMPErrorConstants.Badxpath);
}
}
return(arrayNode);
}
/// <param name="currNode">the node that will be added to the path.</param>
/// <param name="parentPath">the path up to this node.</param>
/// <param name="currentIndex">the current array index if an arrey is traversed</param>
/// <returns>Returns the updated path.</returns>
protected internal virtual string AccumulatePath(XMPNode currNode, string parentPath, int currentIndex)
{
string separator;
string segmentName;
if (currNode.GetParent() == null || currNode.GetOptions().IsSchemaNode())
{
return(null);
}
else
{
if (currNode.GetParent().GetOptions().IsArray())
{
separator = string.Empty;
segmentName = "[" + currentIndex.ToString() + "]";
}
else
{
separator = "/";
segmentName = currNode.GetName();
}
}
if (parentPath == null || parentPath.Length == 0)
{
return(segmentName);
}
else
{
if (this._enclosing.GetOptions().IsJustLeafname())
{
return(!segmentName.StartsWith("?") ? segmentName : Sharpen.Runtime.Substring(segmentName, 1));
}
else
{
// qualifier
return(parentPath + separator + segmentName);
}
}
}
/// <summary>Fixes the GPS Timestamp in EXIF.</summary>
/// <param name="exifSchema">the EXIF schema node</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if the date conversion fails.</exception>
private static void FixGPSTimeStamp(XMPNode exifSchema)
{
// Note: if dates are not found the convert-methods throws an exceptions,
// and this methods returns.
XMPNode gpsDateTime = XMPNodeUtils.FindChildNode(exifSchema, "exif:GPSTimeStamp", false);
if (gpsDateTime == null)
{
return;
}
try
{
XMPDateTime binGPSStamp;
XMPDateTime binOtherDate;
binGPSStamp = XMPUtils.ConvertToDate(gpsDateTime.GetValue());
if (binGPSStamp.GetYear() != 0 || binGPSStamp.GetMonth() != 0 || binGPSStamp.GetDay() != 0)
{
return;
}
XMPNode otherDate = XMPNodeUtils.FindChildNode(exifSchema, "exif:DateTimeOriginal", false);
if (otherDate == null)
{
otherDate = XMPNodeUtils.FindChildNode(exifSchema, "exif:DateTimeDigitized", false);
}
binOtherDate = XMPUtils.ConvertToDate(otherDate.GetValue());
Sharpen.Calendar cal = binGPSStamp.GetCalendar();
cal.Set(Sharpen.CalendarEnum.Year, binOtherDate.GetYear());
cal.Set(Sharpen.CalendarEnum.Month, binOtherDate.GetMonth());
cal.Set(Sharpen.CalendarEnum.DayOfMonth, binOtherDate.GetDay());
binGPSStamp = new XMPDateTimeImpl(cal);
gpsDateTime.SetValue(XMPUtils.ConvertFromDate(binGPSStamp));
}
catch (XMPException)
{
// Don't let a missing or bad date stop other things.
return;
}
}
/// <summary>Looks for the appropriate language item in a text alternative array.item</summary>
/// <param name="arrayNode">an array node</param>
/// <param name="language">the requested language</param>
/// <returns>Returns the index if the language has been found, -1 otherwise.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
internal static int LookupLanguageItem(XMPNode arrayNode, string language)
{
if (!arrayNode.GetOptions().IsArray())
{
throw new XMPException("Language item must be used on array", XMPErrorConstants.Badxpath);
}
for (int index = 1; index <= arrayNode.GetChildrenLength(); index++)
{
XMPNode child = arrayNode.GetChild(index);
if (!child.HasQualifier() || !XMPConstConstants.XmlLang.Equals(child.GetQualifier(1).GetName()))
{
continue;
}
else
{
if (language.Equals(child.GetQualifier(1).GetValue()))
{
return(index);
}
}
}
return(-1);
}
/// <summary>The outermost call is special.</summary>
/// <remarks>
/// The outermost call is special. The names almost certainly differ. The
/// qualifiers (and hence options) will differ for an alias to the x-default
/// item of a langAlt array.
/// </remarks>
/// <param name="aliasNode">the alias node</param>
/// <param name="baseNode">the base node of the alias</param>
/// <param name="outerCall">marks the outer call of the recursion</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void CompareAliasedSubtrees(XMPNode aliasNode, XMPNode baseNode, bool outerCall)
{
if (!aliasNode.GetValue().Equals(baseNode.GetValue()) || aliasNode.GetChildrenLength() != baseNode.GetChildrenLength())
{
throw new XMPException("Mismatch between alias and base nodes", XMPErrorConstants.Badxmp);
}
if (!outerCall && (!aliasNode.GetName().Equals(baseNode.GetName()) || !aliasNode.GetOptions().Equals(baseNode.GetOptions()) || aliasNode.GetQualifierLength() != baseNode.GetQualifierLength()))
{
throw new XMPException("Mismatch between alias and base nodes", XMPErrorConstants.Badxmp);
}
for (Iterator an = aliasNode.IterateChildren(), bn = baseNode.IterateChildren(); an.HasNext() && bn.HasNext(); )
{
XMPNode aliasChild = (XMPNode)an.Next();
XMPNode baseChild = (XMPNode)bn.Next();
CompareAliasedSubtrees(aliasChild, baseChild, false);
}
for (Iterator an_1 = aliasNode.IterateQualifier(), bn_1 = baseNode.IterateQualifier(); an_1.HasNext() && bn_1.HasNext(); )
{
XMPNode aliasQual = (XMPNode)an_1.Next();
XMPNode baseQual = (XMPNode)bn_1.Next();
CompareAliasedSubtrees(aliasQual, baseQual, false);
}
}
/// <summary>The outermost call is special.</summary>
/// <remarks>
/// The outermost call is special. The names almost certainly differ. The
/// qualifiers (and hence options) will differ for an alias to the x-default
/// item of a langAlt array.
/// </remarks>
/// <param name="aliasNode">the alias node</param>
/// <param name="baseNode">the base node of the alias</param>
/// <param name="outerCall">marks the outer call of the recursion</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void CompareAliasedSubtrees(XMPNode aliasNode, XMPNode baseNode, bool outerCall)
{
if (!aliasNode.GetValue().Equals(baseNode.GetValue()) || aliasNode.GetChildrenLength() != baseNode.GetChildrenLength())
{
throw new XMPException("Mismatch between alias and base nodes", XMPErrorConstants.Badxmp);
}
if (!outerCall && (!aliasNode.GetName().Equals(baseNode.GetName()) || !aliasNode.GetOptions().Equals(baseNode.GetOptions()) || aliasNode.GetQualifierLength() != baseNode.GetQualifierLength()))
{
throw new XMPException("Mismatch between alias and base nodes", XMPErrorConstants.Badxmp);
}
for (Iterator an = aliasNode.IterateChildren(), bn = baseNode.IterateChildren(); an.HasNext() && bn.HasNext();)
{
XMPNode aliasChild = (XMPNode)an.Next();
XMPNode baseChild = (XMPNode)bn.Next();
CompareAliasedSubtrees(aliasChild, baseChild, false);
}
for (Iterator an_1 = aliasNode.IterateQualifier(), bn_1 = baseNode.IterateQualifier(); an_1.HasNext() && bn_1.HasNext();)
{
XMPNode aliasQual = (XMPNode)an_1.Next();
XMPNode baseQual = (XMPNode)bn_1.Next();
CompareAliasedSubtrees(aliasQual, baseQual, false);
}
}
/// <summary>Make sure that the array is well-formed AltText.</summary>
/// <remarks>
/// Make sure that the array is well-formed AltText. Each item must be simple
/// and have an "xml:lang" qualifier. If repairs are needed, keep simple
/// non-empty items by adding the "xml:lang" with value "x-repair".
/// </remarks>
/// <param name="arrayNode">the property node of the array to repair.</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards unexpected exceptions.</exception>
private static void RepairAltText(XMPNode arrayNode)
{
if (arrayNode == null || !arrayNode.GetOptions().IsArray())
{
// Already OK or not even an array.
return;
}
// fix options
arrayNode.GetOptions().SetArrayOrdered(true).SetArrayAlternate(true).SetArrayAltText(true);
for (Iterator it = arrayNode.IterateChildren(); it.HasNext();)
{
XMPNode currChild = (XMPNode)it.Next();
if (currChild.GetOptions().IsCompositeProperty())
{
// Delete non-simple children.
it.Remove();
}
else
{
if (!currChild.GetOptions().GetHasLanguage())
{
string childValue = currChild.GetValue();
if (childValue == null || childValue.Length == 0)
{
// Delete empty valued children that have no xml:lang.
it.Remove();
}
else
{
// Add an xml:lang qualifier with the value "x-repair".
XMPNode repairLang = new XMPNode(XMPConstConstants.XmlLang, "x-repair", null);
currChild.AddQualifier(repairLang);
}
}
}
}
}
/// <summary>
/// Searches for a qualifier selector in a node:
/// [?qualName="value"] - an element in an array, chosen by a qualifier value.
/// </summary>
/// <remarks>
/// Searches for a qualifier selector in a node:
/// [?qualName="value"] - an element in an array, chosen by a qualifier value.
/// No implicit nodes are created for qualifier selectors,
/// except for an alias to an x-default item.
/// </remarks>
/// <param name="arrayNode">an array node</param>
/// <param name="qualName">the qualifier name</param>
/// <param name="qualValue">the qualifier value</param>
/// <param name="aliasForm">
/// in case the qual selector results from an alias,
/// an x-default node is created if there has not been one.
/// </param>
/// <returns>Returns the index of th</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static int LookupQualSelector(XMPNode arrayNode, string qualName, string qualValue, int aliasForm)
{
if (XMPConstConstants.XmlLang.Equals(qualName))
{
qualValue = Utils.NormalizeLangValue(qualValue);
int index = Com.Adobe.Xmp.Impl.XMPNodeUtils.LookupLanguageItem(arrayNode, qualValue);
if (index < 0 && (aliasForm & AliasOptions.PropArrayAltText) > 0)
{
XMPNode langNode = new XMPNode(XMPConstConstants.ArrayItemName, null);
XMPNode xdefault = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
langNode.AddQualifier(xdefault);
arrayNode.AddChild(1, langNode);
return(1);
}
else
{
return(index);
}
}
else
{
for (int index = 1; index < arrayNode.GetChildrenLength(); index++)
{
XMPNode currItem = arrayNode.GetChild(index);
for (Iterator it = currItem.IterateQualifier(); it.HasNext();)
{
XMPNode qualifier = (XMPNode)it.Next();
if (qualName.Equals(qualifier.GetName()) && qualValue.Equals(qualifier.GetValue()))
{
return(index);
}
}
}
return(-1);
}
}
/// <summary>Constructor for a cloned metadata tree.</summary>
/// <param name="tree">
/// an prefilled metadata tree which fulfills all
/// <code>XMPNode</code> contracts.
/// </param>
public XMPMetaImpl(XMPNode tree)
{
this.tree = tree;
}
/// <summary>Constructor for an empty metadata object.</summary>
public XMPMetaImpl()
{
// create root node
tree = new XMPNode(null, null, null);
}
/// <summary>
/// Evaluates a raw node value to the given value type, apply special
/// conversions for defined types in XMP.
/// </summary>
/// <param name="valueType">an int indicating the value type</param>
/// <param name="propNode">the node containing the value</param>
/// <returns>Returns a literal value for the node.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
private object EvaluateNodeValue(int valueType, XMPNode propNode)
{
object value;
string rawValue = propNode.GetValue();
switch (valueType)
{
case ValueBoolean:
{
value = XMPUtils.ConvertToBoolean(rawValue);
break;
}
case ValueInteger:
{
value = XMPUtils.ConvertToInteger(rawValue);
break;
}
case ValueLong:
{
value = XMPUtils.ConvertToLong(rawValue);
break;
}
case ValueDouble:
{
value = XMPUtils.ConvertToDouble(rawValue);
break;
}
case ValueDate:
{
value = XMPUtils.ConvertToDate(rawValue);
break;
}
case ValueCalendar:
{
XMPDateTime dt = XMPUtils.ConvertToDate(rawValue);
value = dt.GetCalendar();
break;
}
case ValueBase64:
{
value = XMPUtils.DecodeBase64(rawValue);
break;
}
case ValueString:
default:
{
// leaf values return empty string instead of null
// for the other cases the converter methods provides a "null"
// value.
// a default value can only occur if this method is made public.
value = rawValue != null || propNode.GetOptions().IsCompositeProperty() ? rawValue : string.Empty;
break;
}
}
return value;
}
// -------------------------------------------------------------------------------------
// private
/// <summary>Locate or create the item node and set the value.</summary>
/// <remarks>
/// Locate or create the item node and set the value. Note the index
/// parameter is one-based! The index can be in the range [1..size + 1] or
/// "last()", normalize it and check the insert flags. The order of the
/// normalization checks is important. If the array is empty we end up with
/// an index and location to set item size + 1.
/// </remarks>
/// <param name="arrayNode">an array node</param>
/// <param name="itemIndex">the index where to insert the item</param>
/// <param name="itemValue">the item value</param>
/// <param name="itemOptions">the options for the new item</param>
/// <param name="insert">insert oder overwrite at index position?</param>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
private void DoSetArrayItem(XMPNode arrayNode, int itemIndex, string itemValue, PropertyOptions itemOptions, bool insert)
{
XMPNode itemNode = new XMPNode(XMPConstConstants.ArrayItemName, null);
itemOptions = XMPNodeUtils.VerifySetOptions(itemOptions, itemValue);
// in insert mode the index after the last is allowed,
// even ArrayLastItem points to the index *after* the last.
int maxIndex = insert ? arrayNode.GetChildrenLength() + 1 : arrayNode.GetChildrenLength();
if (itemIndex == XMPConstConstants.ArrayLastItem)
{
itemIndex = maxIndex;
}
if (1 <= itemIndex && itemIndex <= maxIndex)
{
if (!insert)
{
arrayNode.RemoveChild(itemIndex);
}
arrayNode.AddChild(itemIndex, itemNode);
SetNode(itemNode, itemValue, itemOptions, false);
}
else
{
throw new XMPException("Array index out of bounds", XMPErrorConstants.Badindex);
}
}
/// <summary>Remove all empty schemas from the metadata tree that were generated during the rdf parsing.</summary>
/// <param name="tree">the root of the metadata tree</param>
private static void DeleteEmptySchemas(XMPNode tree)
{
// Delete empty schema nodes. Do this last, other cleanup can make empty
// schema.
for (Iterator it = tree.IterateChildren(); it.HasNext(); )
{
XMPNode schema = (XMPNode)it.Next();
if (!schema.HasChildren())
{
it.Remove();
}
}
}
/// <summary>This is setting the value of a leaf node.</summary>
/// <param name="node">an XMPNode</param>
/// <param name="value">a value</param>
internal static void SetNodeValue(XMPNode node, object value)
{
string strValue = SerializeNodeValue(value);
if (!(node.GetOptions().IsQualifier() && XMPConstConstants.XmlLang.Equals(node.GetName())))
{
node.SetValue(strValue);
}
else
{
node.SetValue(Utils.NormalizeLangValue(strValue));
}
}
/// <summary>
/// <ol>
/// <li>Look for an exact match with the specific language.
/// </summary>
/// <remarks>
/// <ol>
/// <li>Look for an exact match with the specific language.
/// <li>If a generic language is given, look for partial matches.
/// <li>Look for an "x-default"-item.
/// <li>Choose the first item.
/// </ol>
/// </remarks>
/// <param name="arrayNode">the alt text array node</param>
/// <param name="genericLang">the generic language</param>
/// <param name="specificLang">the specific language</param>
/// <returns>
/// Returns the kind of match as an Integer and the found node in an
/// array.
/// </returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
internal static object[] ChooseLocalizedText(XMPNode arrayNode, string genericLang, string specificLang)
{
// See if the array has the right form. Allow empty alt arrays,
// that is what parsing returns.
if (!arrayNode.GetOptions().IsArrayAltText())
{
throw new XMPException("Localized text array is not alt-text", XMPErrorConstants.Badxpath);
}
else
{
if (!arrayNode.HasChildren())
{
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltNoValues, null });
}
}
int foundGenericMatches = 0;
XMPNode resultNode = null;
XMPNode xDefault = null;
// Look for the first partial match with the generic language.
for (Iterator it = arrayNode.IterateChildren(); it.HasNext();)
{
XMPNode currItem = (XMPNode)it.Next();
// perform some checks on the current item
if (currItem.GetOptions().IsCompositeProperty())
{
throw new XMPException("Alt-text array item is not simple", XMPErrorConstants.Badxpath);
}
else
{
if (!currItem.HasQualifier() || !XMPConstConstants.XmlLang.Equals(currItem.GetQualifier(1).GetName()))
{
throw new XMPException("Alt-text array item has no language qualifier", XMPErrorConstants.Badxpath);
}
}
string currLang = currItem.GetQualifier(1).GetValue();
// Look for an exact match with the specific language.
if (specificLang.Equals(currLang))
{
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltSpecificMatch, currItem });
}
else
{
if (genericLang != null && currLang.StartsWith(genericLang))
{
if (resultNode == null)
{
resultNode = currItem;
}
// ! Don't return/break, need to look for other matches.
foundGenericMatches++;
}
else
{
if (XMPConstConstants.XDefault.Equals(currLang))
{
xDefault = currItem;
}
}
}
}
// evaluate loop
if (foundGenericMatches == 1)
{
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltSingleGeneric, resultNode });
}
else
{
if (foundGenericMatches > 1)
{
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltMultipleGeneric, resultNode });
}
else
{
if (xDefault != null)
{
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltXdefault, xDefault });
}
else
{
// Everything failed, choose the first item.
return(new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltFirstItem, arrayNode.GetChild(1) });
}
}
}
}
/// <summary>Moves an alias node of array form to another schema into an array</summary>
/// <param name="propertyIt">the property iterator of the old schema (used to delete the property)</param>
/// <param name="childNode">the node to be moved</param>
/// <param name="baseArray">the base array for the array item</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void TransplantArrayItemAlias(Iterator propertyIt, XMPNode childNode, XMPNode baseArray)
{
if (baseArray.GetOptions().IsArrayAltText())
{
if (childNode.GetOptions().GetHasLanguage())
{
throw new XMPException("Alias to x-default already has a language qualifier", XMPErrorConstants.Badxmp);
}
XMPNode langQual = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
childNode.AddQualifier(langQual);
}
propertyIt.Remove();
childNode.SetName(XMPConstConstants.ArrayItemName);
baseArray.AddChild(childNode);
}
/// <summary>Make sure that the array is well-formed AltText.</summary>
/// <remarks>
/// Make sure that the array is well-formed AltText. Each item must be simple
/// and have an "xml:lang" qualifier. If repairs are needed, keep simple
/// non-empty items by adding the "xml:lang" with value "x-repair".
/// </remarks>
/// <param name="arrayNode">the property node of the array to repair.</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards unexpected exceptions.</exception>
private static void RepairAltText(XMPNode arrayNode)
{
if (arrayNode == null || !arrayNode.GetOptions().IsArray())
{
// Already OK or not even an array.
return;
}
// fix options
arrayNode.GetOptions().SetArrayOrdered(true).SetArrayAlternate(true).SetArrayAltText(true);
for (Iterator it = arrayNode.IterateChildren(); it.HasNext(); )
{
XMPNode currChild = (XMPNode)it.Next();
if (currChild.GetOptions().IsCompositeProperty())
{
// Delete non-simple children.
it.Remove();
}
else
{
if (!currChild.GetOptions().GetHasLanguage())
{
string childValue = currChild.GetValue();
if (childValue == null || childValue.Length == 0)
{
// Delete empty valued children that have no xml:lang.
it.Remove();
}
else
{
// Add an xml:lang qualifier with the value "x-repair".
XMPNode repairLang = new XMPNode(XMPConstConstants.XmlLang, "x-repair", null);
currChild.AddQualifier(repairLang);
}
}
}
}
}
/// <summary>
/// Undo the denormalization performed by the XMP used in Acrobat 5.<br />
/// If a Dublin Core array had only one item, it was serialized as a simple
/// property.
/// </summary>
/// <remarks>
/// Undo the denormalization performed by the XMP used in Acrobat 5.<br />
/// If a Dublin Core array had only one item, it was serialized as a simple
/// property. <br />
/// The <code>xml:lang</code> attribute was dropped from an
/// <code>alt-text</code> item if the language was <code>x-default</code>.
/// </remarks>
/// <param name="dcSchema">the DC schema node</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if normalization fails</exception>
private static void NormalizeDCArrays(XMPNode dcSchema)
{
for (int i = 1; i <= dcSchema.GetChildrenLength(); i++)
{
XMPNode currProp = dcSchema.GetChild(i);
PropertyOptions arrayForm = (PropertyOptions)dcArrayForms.Get(currProp.GetName());
if (arrayForm == null)
{
continue;
}
else
{
if (currProp.GetOptions().IsSimple())
{
// create a new array and add the current property as child,
// if it was formerly simple
XMPNode newArray = new XMPNode(currProp.GetName(), arrayForm);
currProp.SetName(XMPConstConstants.ArrayItemName);
newArray.AddChild(currProp);
dcSchema.ReplaceChild(i, newArray);
// fix language alternatives
if (arrayForm.IsArrayAltText() && !currProp.GetOptions().GetHasLanguage())
{
XMPNode newLang = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
currProp.AddQualifier(newLang);
}
}
else
{
// clear array options and add corrected array form if it has been an array before
currProp.GetOptions().SetOption(PropertyOptions.Array | PropertyOptions.ArrayOrdered | PropertyOptions.ArrayAlternate | PropertyOptions.ArrayAltText, false);
currProp.GetOptions().MergeWith(arrayForm);
if (arrayForm.IsArrayAltText())
{
// applying for "dc:description", "dc:rights", "dc:title"
RepairAltText(currProp);
}
}
}
}
}
/// <summary>Visit all of the top level nodes looking for aliases.</summary>
/// <remarks>
/// Visit all of the top level nodes looking for aliases. If there is
/// no base, transplant the alias subtree. If there is a base and strict
/// aliasing is on, make sure the alias and base subtrees match.
/// </remarks>
/// <param name="tree">the root of the metadata tree</param>
/// <param name="options">th parsing options</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void MoveExplicitAliases(XMPNode tree, ParseOptions options)
{
if (!tree.GetHasAliases())
{
return;
}
tree.SetHasAliases(false);
bool strictAliasing = options.GetStrictAliasing();
for (Iterator schemaIt = tree.GetUnmodifiableChildren().Iterator(); schemaIt.HasNext(); )
{
XMPNode currSchema = (XMPNode)schemaIt.Next();
if (!currSchema.GetHasAliases())
{
continue;
}
for (Iterator propertyIt = currSchema.IterateChildren(); propertyIt.HasNext(); )
{
XMPNode currProp = (XMPNode)propertyIt.Next();
if (!currProp.IsAlias())
{
continue;
}
currProp.SetAlias(false);
// Find the base path, look for the base schema and root node.
XMPAliasInfo info = XMPMetaFactory.GetSchemaRegistry().FindAlias(currProp.GetName());
if (info != null)
{
// find or create schema
XMPNode baseSchema = XMPNodeUtils.FindSchemaNode(tree, info.GetNamespace(), null, true);
baseSchema.SetImplicit(false);
XMPNode baseNode = XMPNodeUtils.FindChildNode(baseSchema, info.GetPrefix() + info.GetPropName(), false);
if (baseNode == null)
{
if (info.GetAliasForm().IsSimple())
{
// A top-to-top alias, transplant the property.
// change the alias property name to the base name
string qname = info.GetPrefix() + info.GetPropName();
currProp.SetName(qname);
baseSchema.AddChild(currProp);
// remove the alias property
propertyIt.Remove();
}
else
{
// An alias to an array item,
// create the array and transplant the property.
baseNode = new XMPNode(info.GetPrefix() + info.GetPropName(), info.GetAliasForm().ToPropertyOptions());
baseSchema.AddChild(baseNode);
TransplantArrayItemAlias(propertyIt, currProp, baseNode);
}
}
else
{
if (info.GetAliasForm().IsSimple())
{
// The base node does exist and this is a top-to-top alias.
// Check for conflicts if strict aliasing is on.
// Remove and delete the alias subtree.
if (strictAliasing)
{
CompareAliasedSubtrees(currProp, baseNode, true);
}
propertyIt.Remove();
}
else
{
// This is an alias to an array item and the array exists.
// Look for the aliased item.
// Then transplant or check & delete as appropriate.
XMPNode itemNode = null;
if (info.GetAliasForm().IsArrayAltText())
{
int xdIndex = XMPNodeUtils.LookupLanguageItem(baseNode, XMPConstConstants.XDefault);
if (xdIndex != -1)
{
itemNode = baseNode.GetChild(xdIndex);
}
}
else
{
if (baseNode.HasChildren())
{
itemNode = baseNode.GetChild(1);
}
}
if (itemNode == null)
{
TransplantArrayItemAlias(propertyIt, currProp, baseNode);
}
else
{
if (strictAliasing)
{
CompareAliasedSubtrees(currProp, itemNode, true);
}
propertyIt.Remove();
}
}
}
}
}
currSchema.SetHasAliases(false);
}
}
/// <summary>
/// The initial support for WAV files mapped a legacy ID3 audio copyright
/// into a new xmpDM:copyright property.
/// </summary>
/// <remarks>
/// The initial support for WAV files mapped a legacy ID3 audio copyright
/// into a new xmpDM:copyright property. This is special case code to migrate
/// that into dc:rights['x-default']. The rules:
/// <pre>
/// 1. If there is no dc:rights array, or an empty array -
/// Create one with dc:rights['x-default'] set from double linefeed and xmpDM:copyright.
/// 2. If there is a dc:rights array but it has no x-default item -
/// Create an x-default item as a copy of the first item then apply rule #3.
/// 3. If there is a dc:rights array with an x-default item,
/// Look for a double linefeed in the value.
/// A. If no double linefeed, compare the x-default value to the xmpDM:copyright value.
/// A1. If they match then leave the x-default value alone.
/// A2. Otherwise, append a double linefeed and
/// the xmpDM:copyright value to the x-default value.
/// B. If there is a double linefeed, compare the trailing text to the xmpDM:copyright value.
/// B1. If they match then leave the x-default value alone.
/// B2. Otherwise, replace the trailing x-default text with the xmpDM:copyright value.
/// 4. In all cases, delete the xmpDM:copyright property.
/// </pre>
/// </remarks>
/// <param name="xmp">the metadata object</param>
/// <param name="dmCopyright">the "dm:copyright"-property</param>
private static void MigrateAudioCopyright(XMPMeta xmp, XMPNode dmCopyright)
{
try
{
XMPNode dcSchema = XMPNodeUtils.FindSchemaNode(((XMPMetaImpl)xmp).GetRoot(), XMPConstConstants.NsDc, true);
string dmValue = dmCopyright.GetValue();
string doubleLF = "\n\n";
XMPNode dcRightsArray = XMPNodeUtils.FindChildNode(dcSchema, "dc:rights", false);
if (dcRightsArray == null || !dcRightsArray.HasChildren())
{
// 1. No dc:rights array, create from double linefeed and xmpDM:copyright.
dmValue = doubleLF + dmValue;
xmp.SetLocalizedText(XMPConstConstants.NsDc, "rights", string.Empty, XMPConstConstants.XDefault, dmValue, null);
}
else
{
int xdIndex = XMPNodeUtils.LookupLanguageItem(dcRightsArray, XMPConstConstants.XDefault);
if (xdIndex < 0)
{
// 2. No x-default item, create from the first item.
string firstValue = dcRightsArray.GetChild(1).GetValue();
xmp.SetLocalizedText(XMPConstConstants.NsDc, "rights", string.Empty, XMPConstConstants.XDefault, firstValue, null);
xdIndex = XMPNodeUtils.LookupLanguageItem(dcRightsArray, XMPConstConstants.XDefault);
}
// 3. Look for a double linefeed in the x-default value.
XMPNode defaultNode = dcRightsArray.GetChild(xdIndex);
string defaultValue = defaultNode.GetValue();
int lfPos = defaultValue.IndexOf(doubleLF);
if (lfPos < 0)
{
// 3A. No double LF, compare whole values.
if (!dmValue.Equals(defaultValue))
{
// 3A2. Append the xmpDM:copyright to the x-default
// item.
defaultNode.SetValue(defaultValue + doubleLF + dmValue);
}
}
else
{
// 3B. Has double LF, compare the tail.
if (!Sharpen.Runtime.Substring(defaultValue, lfPos + 2).Equals(dmValue))
{
// 3B2. Replace the x-default tail.
defaultNode.SetValue(Sharpen.Runtime.Substring(defaultValue, 0, lfPos + 2) + dmValue);
}
}
}
// 4. Get rid of the xmpDM:copyright.
dmCopyright.GetParent().RemoveChild(dmCopyright);
}
catch (XMPException)
{
}
}
/// <summary>Fixes the GPS Timestamp in EXIF.</summary>
/// <param name="exifSchema">the EXIF schema node</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Thrown if the date conversion fails.</exception>
private static void FixGPSTimeStamp(XMPNode exifSchema)
{
// Note: if dates are not found the convert-methods throws an exceptions,
// and this methods returns.
XMPNode gpsDateTime = XMPNodeUtils.FindChildNode(exifSchema, "exif:GPSTimeStamp", false);
if (gpsDateTime == null)
{
return;
}
try
{
XMPDateTime binGPSStamp;
XMPDateTime binOtherDate;
binGPSStamp = XMPUtils.ConvertToDate(gpsDateTime.GetValue());
if (binGPSStamp.GetYear() != 0 || binGPSStamp.GetMonth() != 0 || binGPSStamp.GetDay() != 0)
{
return;
}
XMPNode otherDate = XMPNodeUtils.FindChildNode(exifSchema, "exif:DateTimeOriginal", false);
if (otherDate == null)
{
otherDate = XMPNodeUtils.FindChildNode(exifSchema, "exif:DateTimeDigitized", false);
}
binOtherDate = XMPUtils.ConvertToDate(otherDate.GetValue());
Sharpen.Calendar cal = binGPSStamp.GetCalendar();
cal.Set(Sharpen.CalendarEnum.Year, binOtherDate.GetYear());
cal.Set(Sharpen.CalendarEnum.Month, binOtherDate.GetMonth());
cal.Set(Sharpen.CalendarEnum.DayOfMonth, binOtherDate.GetDay());
binGPSStamp = new XMPDateTimeImpl(cal);
gpsDateTime.SetValue(XMPUtils.ConvertFromDate(binGPSStamp));
}
catch (XMPException)
{
// Don't let a missing or bad date stop other things.
return;
}
}
/// <summary>
/// After processing by ExpandXPath, a step can be of these forms:
/// <ul>
/// <li>qualName - A top level property or struct field.
/// </summary>
/// <remarks>
/// After processing by ExpandXPath, a step can be of these forms:
/// <ul>
/// <li>qualName - A top level property or struct field.
/// <li>[index] - An element of an array.
/// <li>[last()] - The last element of an array.
/// <li>[qualName="value"] - An element in an array of structs, chosen by a field value.
/// <li>[?qualName="value"] - An element in an array, chosen by a qualifier value.
/// <li>?qualName - A general qualifier.
/// </ul>
/// Find the appropriate child node, resolving aliases, and optionally creating nodes.
/// </remarks>
/// <param name="parentNode">the node to start to start from</param>
/// <param name="nextStep">the xpath segment</param>
/// <param name="createNodes"></param>
/// <returns>returns the found or created XMPPath node</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static XMPNode FollowXPathStep(XMPNode parentNode, XMPPathSegment nextStep, bool createNodes)
{
XMPNode nextNode = null;
int index = 0;
int stepKind = nextStep.GetKind();
if (stepKind == XMPPath.StructFieldStep)
{
nextNode = FindChildNode(parentNode, nextStep.GetName(), createNodes);
}
else
{
if (stepKind == XMPPath.QualifierStep)
{
nextNode = FindQualifierNode(parentNode, Sharpen.Runtime.Substring(nextStep.GetName(), 1), createNodes);
}
else
{
// This is an array indexing step. First get the index, then get the node.
if (!parentNode.GetOptions().IsArray())
{
throw new XMPException("Indexing applied to non-array", XMPErrorConstants.Badxpath);
}
if (stepKind == XMPPath.ArrayIndexStep)
{
index = FindIndexedItem(parentNode, nextStep.GetName(), createNodes);
}
else
{
if (stepKind == XMPPath.ArrayLastStep)
{
index = parentNode.GetChildrenLength();
}
else
{
if (stepKind == XMPPath.FieldSelectorStep)
{
string[] result = Utils.SplitNameAndValue(nextStep.GetName());
string fieldName = result[0];
string fieldValue = result[1];
index = LookupFieldSelector(parentNode, fieldName, fieldValue);
}
else
{
if (stepKind == XMPPath.QualSelectorStep)
{
string[] result = Utils.SplitNameAndValue(nextStep.GetName());
string qualName = result[0];
string qualValue = result[1];
index = LookupQualSelector(parentNode, qualName, qualValue, nextStep.GetAliasForm());
}
else
{
throw new XMPException("Unknown array indexing step in FollowXPathStep", XMPErrorConstants.Internalfailure);
}
}
}
}
if (1 <= index && index <= parentNode.GetChildrenLength())
{
nextNode = parentNode.GetChild(index);
}
}
}
return(nextNode);
}
/// <summary>
/// Searches for a qualifier selector in a node:
/// [?qualName="value"] - an element in an array, chosen by a qualifier value.
/// </summary>
/// <remarks>
/// Searches for a qualifier selector in a node:
/// [?qualName="value"] - an element in an array, chosen by a qualifier value.
/// No implicit nodes are created for qualifier selectors,
/// except for an alias to an x-default item.
/// </remarks>
/// <param name="arrayNode">an array node</param>
/// <param name="qualName">the qualifier name</param>
/// <param name="qualValue">the qualifier value</param>
/// <param name="aliasForm">
/// in case the qual selector results from an alias,
/// an x-default node is created if there has not been one.
/// </param>
/// <returns>Returns the index of th</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static int LookupQualSelector(XMPNode arrayNode, string qualName, string qualValue, int aliasForm)
{
if (XMPConstConstants.XmlLang.Equals(qualName))
{
qualValue = Utils.NormalizeLangValue(qualValue);
int index = Com.Adobe.Xmp.Impl.XMPNodeUtils.LookupLanguageItem(arrayNode, qualValue);
if (index < 0 && (aliasForm & AliasOptions.PropArrayAltText) > 0)
{
XMPNode langNode = new XMPNode(XMPConstConstants.ArrayItemName, null);
XMPNode xdefault = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
langNode.AddQualifier(xdefault);
arrayNode.AddChild(1, langNode);
return 1;
}
else
{
return index;
}
}
else
{
for (int index = 1; index < arrayNode.GetChildrenLength(); index++)
{
XMPNode currItem = arrayNode.GetChild(index);
for (Iterator it = currItem.IterateQualifier(); it.HasNext(); )
{
XMPNode qualifier = (XMPNode)it.Next();
if (qualName.Equals(qualifier.GetName()) && qualValue.Equals(qualifier.GetValue()))
{
return index;
}
}
}
return -1;
}
}
/// <summary>Visit all of the top level nodes looking for aliases.</summary>
/// <remarks>
/// Visit all of the top level nodes looking for aliases. If there is
/// no base, transplant the alias subtree. If there is a base and strict
/// aliasing is on, make sure the alias and base subtrees match.
/// </remarks>
/// <param name="tree">the root of the metadata tree</param>
/// <param name="options">th parsing options</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void MoveExplicitAliases(XMPNode tree, ParseOptions options)
{
if (!tree.GetHasAliases())
{
return;
}
tree.SetHasAliases(false);
bool strictAliasing = options.GetStrictAliasing();
for (Iterator schemaIt = tree.GetUnmodifiableChildren().Iterator(); schemaIt.HasNext();)
{
XMPNode currSchema = (XMPNode)schemaIt.Next();
if (!currSchema.GetHasAliases())
{
continue;
}
for (Iterator propertyIt = currSchema.IterateChildren(); propertyIt.HasNext();)
{
XMPNode currProp = (XMPNode)propertyIt.Next();
if (!currProp.IsAlias())
{
continue;
}
currProp.SetAlias(false);
// Find the base path, look for the base schema and root node.
XMPAliasInfo info = XMPMetaFactory.GetSchemaRegistry().FindAlias(currProp.GetName());
if (info != null)
{
// find or create schema
XMPNode baseSchema = XMPNodeUtils.FindSchemaNode(tree, info.GetNamespace(), null, true);
baseSchema.SetImplicit(false);
XMPNode baseNode = XMPNodeUtils.FindChildNode(baseSchema, info.GetPrefix() + info.GetPropName(), false);
if (baseNode == null)
{
if (info.GetAliasForm().IsSimple())
{
// A top-to-top alias, transplant the property.
// change the alias property name to the base name
string qname = info.GetPrefix() + info.GetPropName();
currProp.SetName(qname);
baseSchema.AddChild(currProp);
// remove the alias property
propertyIt.Remove();
}
else
{
// An alias to an array item,
// create the array and transplant the property.
baseNode = new XMPNode(info.GetPrefix() + info.GetPropName(), info.GetAliasForm().ToPropertyOptions());
baseSchema.AddChild(baseNode);
TransplantArrayItemAlias(propertyIt, currProp, baseNode);
}
}
else
{
if (info.GetAliasForm().IsSimple())
{
// The base node does exist and this is a top-to-top alias.
// Check for conflicts if strict aliasing is on.
// Remove and delete the alias subtree.
if (strictAliasing)
{
CompareAliasedSubtrees(currProp, baseNode, true);
}
propertyIt.Remove();
}
else
{
// This is an alias to an array item and the array exists.
// Look for the aliased item.
// Then transplant or check & delete as appropriate.
XMPNode itemNode = null;
if (info.GetAliasForm().IsArrayAltText())
{
int xdIndex = XMPNodeUtils.LookupLanguageItem(baseNode, XMPConstConstants.XDefault);
if (xdIndex != -1)
{
itemNode = baseNode.GetChild(xdIndex);
}
}
else
{
if (baseNode.HasChildren())
{
itemNode = baseNode.GetChild(1);
}
}
if (itemNode == null)
{
TransplantArrayItemAlias(propertyIt, currProp, baseNode);
}
else
{
if (strictAliasing)
{
CompareAliasedSubtrees(currProp, itemNode, true);
}
propertyIt.Remove();
}
}
}
}
}
currSchema.SetHasAliases(false);
}
}
/// <summary>
/// Searches for a field selector in a node:
/// [fieldName="value] - an element in an array of structs, chosen by a field value.
/// </summary>
/// <remarks>
/// Searches for a field selector in a node:
/// [fieldName="value] - an element in an array of structs, chosen by a field value.
/// No implicit nodes are created by field selectors.
/// </remarks>
/// <param name="arrayNode"/>
/// <param name="fieldName"/>
/// <param name="fieldValue"/>
/// <returns>Returns the index of the field if found, otherwise -1.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static int LookupFieldSelector(XMPNode arrayNode, string fieldName, string fieldValue)
{
int result = -1;
for (int index = 1; index <= arrayNode.GetChildrenLength() && result < 0; index++)
{
XMPNode currItem = arrayNode.GetChild(index);
if (!currItem.GetOptions().IsStruct())
{
throw new XMPException("Field selector must be used on array of struct", XMPErrorConstants.Badxpath);
}
for (int f = 1; f <= currItem.GetChildrenLength(); f++)
{
XMPNode currField = currItem.GetChild(f);
if (!fieldName.Equals(currField.GetName()))
{
continue;
}
if (fieldValue.Equals(currField.GetValue()))
{
result = index;
break;
}
}
}
return result;
}
/// <summary>Constructor with optionsl initial values.</summary>
/// <remarks>
/// Constructor with optionsl initial values. If <code>propName</code> is provided,
/// <code>schemaNS</code> has also be provided.
/// </remarks>
/// <param name="xmp">the iterated metadata object.</param>
/// <param name="schemaNS">the iteration is reduced to this schema (optional)</param>
/// <param name="propPath">the iteration is redurce to this property within the <code>schemaNS</code></param>
/// <param name="options">
/// advanced iteration options, see
/// <see cref="Com.Adobe.Xmp.Options.IteratorOptions"/>
/// </param>
/// <exception cref="Com.Adobe.Xmp.XMPException">If the node defined by the paramters is not existing.</exception>
public XMPIteratorImpl(XMPMetaImpl xmp, string schemaNS, string propPath, IteratorOptions options)
{
// make sure that options is defined at least with defaults
this.options = options != null ? options : new IteratorOptions();
// the start node of the iteration depending on the schema and property filter
XMPNode startNode = null;
string initialPath = null;
bool baseSchema = schemaNS != null && schemaNS.Length > 0;
bool baseProperty = propPath != null && propPath.Length > 0;
if (!baseSchema && !baseProperty)
{
// complete tree will be iterated
startNode = xmp.GetRoot();
}
else
{
if (baseSchema && baseProperty)
{
// Schema and property node provided
XMPPath path = XMPPathParser.ExpandXPath(schemaNS, propPath);
// base path is the prop path without the property leaf
XMPPath basePath = new XMPPath();
for (int i = 0; i < path.Size() - 1; i++)
{
basePath.Add(path.GetSegment(i));
}
startNode = XMPNodeUtils.FindNode(xmp.GetRoot(), path, false, null);
baseNS = schemaNS;
initialPath = basePath.ToString();
}
else
{
if (baseSchema && !baseProperty)
{
// Only Schema provided
startNode = XMPNodeUtils.FindSchemaNode(xmp.GetRoot(), schemaNS, false);
}
else
{
// !baseSchema && baseProperty
// No schema but property provided -> error
throw new XMPException("Schema namespace URI is required", XMPErrorConstants.Badschema);
}
}
}
// create iterator
if (startNode != null)
{
if (!this.options.IsJustChildren())
{
nodeIterator = new XMPIteratorImpl.NodeIterator(this, startNode, initialPath, 1);
}
else
{
nodeIterator = new XMPIteratorImpl.NodeIteratorChildren(this, startNode, initialPath);
}
}
else
{
// create null iterator
nodeIterator = Collections.EmptyList().ListIterator();
}
}
/// <summary>
/// see
/// <see cref="Com.Adobe.Xmp.XMPUtils.SeparateArrayItems(Com.Adobe.Xmp.XMPMeta, string, string, string, Com.Adobe.Xmp.Options.PropertyOptions, bool)"/>
/// </summary>
/// <param name="xmp">The XMP object containing the array to be updated.</param>
/// <param name="schemaNS">
/// The schema namespace URI for the array. Must not be null or
/// the empty string.
/// </param>
/// <param name="arrayName">
/// The name of the array. May be a general path expression, must
/// not be null or the empty string. Each item in the array must
/// be a simple string value.
/// </param>
/// <param name="catedStr">The string to be separated into the array items.</param>
/// <param name="arrayOptions">Option flags to control the separation.</param>
/// <param name="preserveCommas">Flag if commas shall be preserved</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards the Exceptions from the metadata processing</exception>
public static void SeparateArrayItems(XMPMeta xmp, string schemaNS, string arrayName, string catedStr, PropertyOptions arrayOptions, bool preserveCommas)
{
ParameterAsserts.AssertSchemaNS(schemaNS);
ParameterAsserts.AssertArrayName(arrayName);
if (catedStr == null)
{
throw new XMPException("Parameter must not be null", XMPErrorConstants.Badparam);
}
ParameterAsserts.AssertImplementation(xmp);
XMPMetaImpl xmpImpl = (XMPMetaImpl)xmp;
// Keep a zero value, has special meaning below.
XMPNode arrayNode = SeparateFindCreateArray(schemaNS, arrayName, arrayOptions, xmpImpl);
// Extract the item values one at a time, until the whole input string is done.
string itemValue;
int itemStart;
int itemEnd;
int nextKind = UckNormal;
int charKind = UckNormal;
char ch = (char) 0;
char nextChar = (char) 0;
itemEnd = 0;
int endPos = catedStr.Length;
while (itemEnd < endPos)
{
// Skip any leading spaces and separation characters. Always skip commas here.
// They can be kept when within a value, but not when alone between values.
for (itemStart = itemEnd; itemStart < endPos; itemStart++)
{
ch = catedStr[itemStart];
charKind = ClassifyCharacter(ch);
if (charKind == UckNormal || charKind == UckQuote)
{
break;
}
}
if (itemStart >= endPos)
{
break;
}
if (charKind != UckQuote)
{
// This is not a quoted value. Scan for the end, create an array
// item from the substring.
for (itemEnd = itemStart; itemEnd < endPos; itemEnd++)
{
ch = catedStr[itemEnd];
charKind = ClassifyCharacter(ch);
if (charKind == UckNormal || charKind == UckQuote || (charKind == UckComma && preserveCommas))
{
continue;
}
else
{
if (charKind != UckSpace)
{
break;
}
else
{
if ((itemEnd + 1) < endPos)
{
ch = catedStr[itemEnd + 1];
nextKind = ClassifyCharacter(ch);
if (nextKind == UckNormal || nextKind == UckQuote || (nextKind == UckComma && preserveCommas))
{
continue;
}
}
}
}
// Anything left?
break;
}
// Have multiple spaces, or a space followed by a
// separator.
itemValue = Sharpen.Runtime.Substring(catedStr, itemStart, itemEnd);
}
else
{
// Accumulate quoted values into a local string, undoubling
// internal quotes that
// match the surrounding quotes. Do not undouble "unmatching"
// quotes.
char openQuote = ch;
char closeQuote = GetClosingQuote(openQuote);
itemStart++;
// Skip the opening quote;
itemValue = string.Empty;
for (itemEnd = itemStart; itemEnd < endPos; itemEnd++)
{
ch = catedStr[itemEnd];
charKind = ClassifyCharacter(ch);
if (charKind != UckQuote || !IsSurroundingQuote(ch, openQuote, closeQuote))
{
// This is not a matching quote, just append it to the
// item value.
itemValue += ch;
}
else
{
// This is a "matching" quote. Is it doubled, or the
// final closing quote?
// Tolerate various edge cases like undoubled opening
// (non-closing) quotes,
// or end of input.
if ((itemEnd + 1) < endPos)
{
nextChar = catedStr[itemEnd + 1];
nextKind = ClassifyCharacter(nextChar);
}
else
{
nextKind = UckSemicolon;
nextChar = (char)unchecked((int)(0x3B));
}
if (ch == nextChar)
{
// This is doubled, copy it and skip the double.
itemValue += ch;
// Loop will add in charSize.
itemEnd++;
}
else
{
if (!IsClosingingQuote(ch, openQuote, closeQuote))
{
// This is an undoubled, non-closing quote, copy it.
itemValue += ch;
}
else
{
// This is an undoubled closing quote, skip it and
// exit the loop.
itemEnd++;
break;
}
}
}
}
}
// Add the separated item to the array.
// Keep a matching old value in case it had separators.
int foundIndex = -1;
for (int oldChild = 1; oldChild <= arrayNode.GetChildrenLength(); oldChild++)
{
if (itemValue.Equals(arrayNode.GetChild(oldChild).GetValue()))
{
foundIndex = oldChild;
break;
}
}
XMPNode newItem = null;
if (foundIndex < 0)
{
newItem = new XMPNode(XMPConstConstants.ArrayItemName, itemValue, null);
arrayNode.AddChild(newItem);
}
}
}
/// <summary>
/// <ol>
/// <li>Look for an exact match with the specific language.
/// </summary>
/// <remarks>
/// <ol>
/// <li>Look for an exact match with the specific language.
/// <li>If a generic language is given, look for partial matches.
/// <li>Look for an "x-default"-item.
/// <li>Choose the first item.
/// </ol>
/// </remarks>
/// <param name="arrayNode">the alt text array node</param>
/// <param name="genericLang">the generic language</param>
/// <param name="specificLang">the specific language</param>
/// <returns>
/// Returns the kind of match as an Integer and the found node in an
/// array.
/// </returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
internal static object[] ChooseLocalizedText(XMPNode arrayNode, string genericLang, string specificLang)
{
// See if the array has the right form. Allow empty alt arrays,
// that is what parsing returns.
if (!arrayNode.GetOptions().IsArrayAltText())
{
throw new XMPException("Localized text array is not alt-text", XMPErrorConstants.Badxpath);
}
else
{
if (!arrayNode.HasChildren())
{
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltNoValues, null };
}
}
int foundGenericMatches = 0;
XMPNode resultNode = null;
XMPNode xDefault = null;
// Look for the first partial match with the generic language.
for (Iterator it = arrayNode.IterateChildren(); it.HasNext(); )
{
XMPNode currItem = (XMPNode)it.Next();
// perform some checks on the current item
if (currItem.GetOptions().IsCompositeProperty())
{
throw new XMPException("Alt-text array item is not simple", XMPErrorConstants.Badxpath);
}
else
{
if (!currItem.HasQualifier() || !XMPConstConstants.XmlLang.Equals(currItem.GetQualifier(1).GetName()))
{
throw new XMPException("Alt-text array item has no language qualifier", XMPErrorConstants.Badxpath);
}
}
string currLang = currItem.GetQualifier(1).GetValue();
// Look for an exact match with the specific language.
if (specificLang.Equals(currLang))
{
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltSpecificMatch, currItem };
}
else
{
if (genericLang != null && currLang.StartsWith(genericLang))
{
if (resultNode == null)
{
resultNode = currItem;
}
// ! Don't return/break, need to look for other matches.
foundGenericMatches++;
}
else
{
if (XMPConstConstants.XDefault.Equals(currLang))
{
xDefault = currItem;
}
}
}
}
// evaluate loop
if (foundGenericMatches == 1)
{
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltSingleGeneric, resultNode };
}
else
{
if (foundGenericMatches > 1)
{
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltMultipleGeneric, resultNode };
}
else
{
if (xDefault != null)
{
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltXdefault, xDefault };
}
else
{
// Everything failed, choose the first item.
return new object[] { Com.Adobe.Xmp.Impl.XMPNodeUtils.CltFirstItem, arrayNode.GetChild(1) };
}
}
}
}
/// <summary>Moves an alias node of array form to another schema into an array</summary>
/// <param name="propertyIt">the property iterator of the old schema (used to delete the property)</param>
/// <param name="childNode">the node to be moved</param>
/// <param name="baseArray">the base array for the array item</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards XMP errors</exception>
private static void TransplantArrayItemAlias(Iterator propertyIt, XMPNode childNode, XMPNode baseArray)
{
if (baseArray.GetOptions().IsArrayAltText())
{
if (childNode.GetOptions().GetHasLanguage())
{
throw new XMPException("Alias to x-default already has a language qualifier", XMPErrorConstants.Badxmp);
}
XMPNode langQual = new XMPNode(XMPConstConstants.XmlLang, XMPConstConstants.XDefault, null);
childNode.AddQualifier(langQual);
}
propertyIt.Remove();
childNode.SetName(XMPConstConstants.ArrayItemName);
baseArray.AddChild(childNode);
}
/// <seealso cref="Com.Adobe.Xmp.XMPUtils.AppendProperties(Com.Adobe.Xmp.XMPMeta, Com.Adobe.Xmp.XMPMeta, bool, bool)"/>
/// <param name="source">The source XMP object.</param>
/// <param name="destination">The destination XMP object.</param>
/// <param name="doAllProperties">Do internal properties in addition to external properties.</param>
/// <param name="replaceOldValues">Replace the values of existing properties.</param>
/// <param name="deleteEmptyValues">Delete destination values if source property is empty.</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards the Exceptions from the metadata processing</exception>
public static void AppendProperties(XMPMeta source, XMPMeta destination, bool doAllProperties, bool replaceOldValues, bool deleteEmptyValues)
{
ParameterAsserts.AssertImplementation(source);
ParameterAsserts.AssertImplementation(destination);
XMPMetaImpl src = (XMPMetaImpl)source;
XMPMetaImpl dest = (XMPMetaImpl)destination;
for (Iterator it = src.GetRoot().IterateChildren(); it.HasNext(); )
{
XMPNode sourceSchema = (XMPNode)it.Next();
// Make sure we have a destination schema node
XMPNode destSchema = XMPNodeUtils.FindSchemaNode(dest.GetRoot(), sourceSchema.GetName(), false);
bool createdSchema = false;
if (destSchema == null)
{
destSchema = new XMPNode(sourceSchema.GetName(), sourceSchema.GetValue(), new PropertyOptions().SetSchemaNode(true));
dest.GetRoot().AddChild(destSchema);
createdSchema = true;
}
// Process the source schema's children.
for (Iterator ic = sourceSchema.IterateChildren(); ic.HasNext(); )
{
XMPNode sourceProp = (XMPNode)ic.Next();
if (doAllProperties || !Utils.IsInternalProperty(sourceSchema.GetName(), sourceProp.GetName()))
{
AppendSubtree(dest, sourceProp, destSchema, replaceOldValues, deleteEmptyValues);
}
}
if (!destSchema.HasChildren() && (createdSchema || deleteEmptyValues))
{
// Don't create an empty schema / remove empty schema.
dest.GetRoot().RemoveChild(destSchema);
}
}
}
/// <summary>
/// Remove all schema children according to the flag
/// <code>doAllProperties</code>.
/// </summary>
/// <remarks>
/// Remove all schema children according to the flag
/// <code>doAllProperties</code>. Empty schemas are automatically remove
/// by <code>XMPNode</code>
/// </remarks>
/// <param name="schemaNode">a schema node</param>
/// <param name="doAllProperties">flag if all properties or only externals shall be removed.</param>
/// <returns>Returns true if the schema is empty after the operation.</returns>
private static bool RemoveSchemaChildren(XMPNode schemaNode, bool doAllProperties)
{
for (Iterator it = schemaNode.IterateChildren(); it.HasNext(); )
{
XMPNode currProp = (XMPNode)it.Next();
if (doAllProperties || !Utils.IsInternalProperty(schemaNode.GetName(), currProp.GetName()))
{
it.Remove();
}
}
return !schemaNode.HasChildren();
}
/// <seealso cref="AppendProperties(Com.Adobe.Xmp.XMPMeta, Com.Adobe.Xmp.XMPMeta, bool, bool, bool)"/>
/// <param name="destXMP">The destination XMP object.</param>
/// <param name="sourceNode">the source node</param>
/// <param name="destParent">the parent of the destination node</param>
/// <param name="replaceOldValues">Replace the values of existing properties.</param>
/// <param name="deleteEmptyValues">
/// flag if properties with empty values should be deleted
/// in the destination object.
/// </param>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
private static void AppendSubtree(XMPMetaImpl destXMP, XMPNode sourceNode, XMPNode destParent, bool replaceOldValues, bool deleteEmptyValues)
{
XMPNode destNode = XMPNodeUtils.FindChildNode(destParent, sourceNode.GetName(), false);
bool valueIsEmpty = false;
if (deleteEmptyValues)
{
valueIsEmpty = sourceNode.GetOptions().IsSimple() ? sourceNode.GetValue() == null || sourceNode.GetValue().Length == 0 : !sourceNode.HasChildren();
}
if (deleteEmptyValues && valueIsEmpty)
{
if (destNode != null)
{
destParent.RemoveChild(destNode);
}
}
else
{
if (destNode == null)
{
// The one easy case, the destination does not exist.
destParent.AddChild((XMPNode)sourceNode.Clone());
}
else
{
if (replaceOldValues)
{
// The destination exists and should be replaced.
destXMP.SetNode(destNode, sourceNode.GetValue(), sourceNode.GetOptions(), true);
destParent.RemoveChild(destNode);
destNode = (XMPNode)sourceNode.Clone();
destParent.AddChild(destNode);
}
else
{
// The destination exists and is not totally replaced. Structs and
// arrays are merged.
PropertyOptions sourceForm = sourceNode.GetOptions();
PropertyOptions destForm = destNode.GetOptions();
if (sourceForm != destForm)
{
return;
}
if (sourceForm.IsStruct())
{
// To merge a struct process the fields recursively. E.g. add simple missing fields.
// The recursive call to AppendSubtree will handle deletion for fields with empty
// values.
for (Iterator it = sourceNode.IterateChildren(); it.HasNext(); )
{
XMPNode sourceField = (XMPNode)it.Next();
AppendSubtree(destXMP, sourceField, destNode, replaceOldValues, deleteEmptyValues);
if (deleteEmptyValues && !destNode.HasChildren())
{
destParent.RemoveChild(destNode);
}
}
}
else
{
if (sourceForm.IsArrayAltText())
{
// Merge AltText arrays by the "xml:lang" qualifiers. Make sure x-default is first.
// Make a special check for deletion of empty values. Meaningful in AltText arrays
// because the "xml:lang" qualifier provides unambiguous source/dest correspondence.
for (Iterator it = sourceNode.IterateChildren(); it.HasNext(); )
{
XMPNode sourceItem = (XMPNode)it.Next();
if (!sourceItem.HasQualifier() || !XMPConstConstants.XmlLang.Equals(sourceItem.GetQualifier(1).GetName()))
{
continue;
}
int destIndex = XMPNodeUtils.LookupLanguageItem(destNode, sourceItem.GetQualifier(1).GetValue());
if (deleteEmptyValues && (sourceItem.GetValue() == null || sourceItem.GetValue().Length == 0))
{
if (destIndex != -1)
{
destNode.RemoveChild(destIndex);
if (!destNode.HasChildren())
{
destParent.RemoveChild(destNode);
}
}
}
else
{
if (destIndex == -1)
{
// Not replacing, keep the existing item.
if (!XMPConstConstants.XDefault.Equals(sourceItem.GetQualifier(1).GetValue()) || !destNode.HasChildren())
{
sourceItem.CloneSubtree(destNode);
}
else
{
XMPNode destItem = new XMPNode(sourceItem.GetName(), sourceItem.GetValue(), sourceItem.GetOptions());
sourceItem.CloneSubtree(destItem);
destNode.AddChild(1, destItem);
}
}
}
}
}
else
{
if (sourceForm.IsArray())
{
// Merge other arrays by item values. Don't worry about order or duplicates. Source
// items with empty values do not cause deletion, that conflicts horribly with
// merging.
for (Iterator @is = sourceNode.IterateChildren(); @is.HasNext(); )
{
XMPNode sourceItem = (XMPNode)@is.Next();
bool match = false;
for (Iterator id = destNode.IterateChildren(); id.HasNext(); )
{
XMPNode destItem = (XMPNode)id.Next();
if (ItemValuesMatch(sourceItem, destItem))
{
match = true;
}
}
if (!match)
{
destNode = (XMPNode)sourceItem.Clone();
destParent.AddChild(destNode);
}
}
}
}
}
}
}
}
}
/// <summary>
/// The internals for SetProperty() and related calls, used after the node is
/// found or created.
/// </summary>
/// <param name="node">the newly created node</param>
/// <param name="value">the node value, can be <code>null</code></param>
/// <param name="newOptions">options for the new node, must not be <code>null</code>.</param>
/// <param name="deleteExisting">flag if the existing value is to be overwritten</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">thrown if options and value do not correspond</exception>
internal virtual void SetNode(XMPNode node, object value, PropertyOptions newOptions, bool deleteExisting)
{
if (deleteExisting)
{
node.Clear();
}
// its checked by SetOptions(), if the merged result is a valid options set
node.GetOptions().MergeWith(newOptions);
if (!node.GetOptions().IsCompositeProperty())
{
// This is setting the value of a leaf node.
XMPNodeUtils.SetNodeValue(node, value);
}
else
{
if (value != null && value.ToString().Length > 0)
{
throw new XMPException("Composite nodes can't have values", XMPErrorConstants.Badxpath);
}
node.RemoveChildren();
}
}
/// <summary>Find or create a qualifier node under a given parent node.</summary>
/// <remarks>
/// Find or create a qualifier node under a given parent node. Returns a pointer to the
/// qualifier node, and optionally an iterator for the node's position in
/// the parent's vector of qualifiers. The iterator is unchanged if no qualifier node (null)
/// is returned.
/// <em>Note:</em> On entry, the qualName parameter must not have the leading '?' from the
/// XMPPath step.
/// </remarks>
/// <param name="parent">the parent XMPNode</param>
/// <param name="qualName">the qualifier name</param>
/// <param name="createNodes">flag if nodes shall be created</param>
/// <returns>Returns the qualifier node if found or created, <code>null</code> otherwise.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static XMPNode FindQualifierNode(XMPNode parent, string qualName, bool createNodes)
{
System.Diagnostics.Debug.Assert(!qualName.StartsWith("?"));
XMPNode qualNode = parent.FindQualifierByName(qualName);
if (qualNode == null && createNodes)
{
qualNode = new XMPNode(qualName, null);
qualNode.SetImplicit(true);
parent.AddQualifier(qualNode);
}
return qualNode;
}
public _XMPProperty_407(XMPNode itemNode)
{
this.itemNode = itemNode;
}
/// <summary>
/// see
/// <see cref="Com.Adobe.Xmp.XMPUtils.SeparateArrayItems(Com.Adobe.Xmp.XMPMeta, string, string, string, Com.Adobe.Xmp.Options.PropertyOptions, bool)"/>
/// </summary>
/// <param name="xmp">The XMP object containing the array to be updated.</param>
/// <param name="schemaNS">
/// The schema namespace URI for the array. Must not be null or
/// the empty string.
/// </param>
/// <param name="arrayName">
/// The name of the array. May be a general path expression, must
/// not be null or the empty string. Each item in the array must
/// be a simple string value.
/// </param>
/// <param name="catedStr">The string to be separated into the array items.</param>
/// <param name="arrayOptions">Option flags to control the separation.</param>
/// <param name="preserveCommas">Flag if commas shall be preserved</param>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards the Exceptions from the metadata processing</exception>
public static void SeparateArrayItems(XMPMeta xmp, string schemaNS, string arrayName, string catedStr, PropertyOptions arrayOptions, bool preserveCommas)
{
ParameterAsserts.AssertSchemaNS(schemaNS);
ParameterAsserts.AssertArrayName(arrayName);
if (catedStr == null)
{
throw new XMPException("Parameter must not be null", XMPErrorConstants.Badparam);
}
ParameterAsserts.AssertImplementation(xmp);
XMPMetaImpl xmpImpl = (XMPMetaImpl)xmp;
// Keep a zero value, has special meaning below.
XMPNode arrayNode = SeparateFindCreateArray(schemaNS, arrayName, arrayOptions, xmpImpl);
// Extract the item values one at a time, until the whole input string is done.
string itemValue;
int itemStart;
int itemEnd;
int nextKind = UckNormal;
int charKind = UckNormal;
char ch = (char)0;
char nextChar = (char)0;
itemEnd = 0;
int endPos = catedStr.Length;
while (itemEnd < endPos)
{
// Skip any leading spaces and separation characters. Always skip commas here.
// They can be kept when within a value, but not when alone between values.
for (itemStart = itemEnd; itemStart < endPos; itemStart++)
{
ch = catedStr[itemStart];
charKind = ClassifyCharacter(ch);
if (charKind == UckNormal || charKind == UckQuote)
{
break;
}
}
if (itemStart >= endPos)
{
break;
}
if (charKind != UckQuote)
{
// This is not a quoted value. Scan for the end, create an array
// item from the substring.
for (itemEnd = itemStart; itemEnd < endPos; itemEnd++)
{
ch = catedStr[itemEnd];
charKind = ClassifyCharacter(ch);
if (charKind == UckNormal || charKind == UckQuote || (charKind == UckComma && preserveCommas))
{
continue;
}
else
{
if (charKind != UckSpace)
{
break;
}
else
{
if ((itemEnd + 1) < endPos)
{
ch = catedStr[itemEnd + 1];
nextKind = ClassifyCharacter(ch);
if (nextKind == UckNormal || nextKind == UckQuote || (nextKind == UckComma && preserveCommas))
{
continue;
}
}
}
}
// Anything left?
break;
}
// Have multiple spaces, or a space followed by a
// separator.
itemValue = Sharpen.Runtime.Substring(catedStr, itemStart, itemEnd);
}
else
{
// Accumulate quoted values into a local string, undoubling
// internal quotes that
// match the surrounding quotes. Do not undouble "unmatching"
// quotes.
char openQuote = ch;
char closeQuote = GetClosingQuote(openQuote);
itemStart++;
// Skip the opening quote;
itemValue = string.Empty;
for (itemEnd = itemStart; itemEnd < endPos; itemEnd++)
{
ch = catedStr[itemEnd];
charKind = ClassifyCharacter(ch);
if (charKind != UckQuote || !IsSurroundingQuote(ch, openQuote, closeQuote))
{
// This is not a matching quote, just append it to the
// item value.
itemValue += ch;
}
else
{
// This is a "matching" quote. Is it doubled, or the
// final closing quote?
// Tolerate various edge cases like undoubled opening
// (non-closing) quotes,
// or end of input.
if ((itemEnd + 1) < endPos)
{
nextChar = catedStr[itemEnd + 1];
nextKind = ClassifyCharacter(nextChar);
}
else
{
nextKind = UckSemicolon;
nextChar = (char)unchecked ((int)(0x3B));
}
if (ch == nextChar)
{
// This is doubled, copy it and skip the double.
itemValue += ch;
// Loop will add in charSize.
itemEnd++;
}
else
{
if (!IsClosingingQuote(ch, openQuote, closeQuote))
{
// This is an undoubled, non-closing quote, copy it.
itemValue += ch;
}
else
{
// This is an undoubled closing quote, skip it and
// exit the loop.
itemEnd++;
break;
}
}
}
}
}
// Add the separated item to the array.
// Keep a matching old value in case it had separators.
int foundIndex = -1;
for (int oldChild = 1; oldChild <= arrayNode.GetChildrenLength(); oldChild++)
{
if (itemValue.Equals(arrayNode.GetChild(oldChild).GetValue()))
{
foundIndex = oldChild;
break;
}
}
XMPNode newItem = null;
if (foundIndex < 0)
{
newItem = new XMPNode(XMPConstConstants.ArrayItemName, itemValue, null);
arrayNode.AddChild(newItem);
}
}
}
public _XMPProperty_682(object value, XMPNode propNode)
{
this.value = value;
this.propNode = propNode;
}
/// <param name="arrayNode">an array node</param>
/// <param name="segment">the segment containing the array index</param>
/// <param name="createNodes">flag if new nodes are allowed to be created.</param>
/// <returns>Returns the index or index = -1 if not found</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">Throws Exceptions</exception>
private static int FindIndexedItem(XMPNode arrayNode, string segment, bool createNodes)
{
int index = 0;
try
{
segment = Sharpen.Runtime.Substring(segment, 1, segment.Length - 1);
index = System.Convert.ToInt32(segment);
if (index < 1)
{
throw new XMPException("Array index must be larger than zero", XMPErrorConstants.Badxpath);
}
}
catch (FormatException)
{
throw new XMPException("Array index not digits.", XMPErrorConstants.Badxpath);
}
if (createNodes && index == arrayNode.GetChildrenLength() + 1)
{
// Append a new last + 1 node.
XMPNode newItem = new XMPNode(XMPConstConstants.ArrayItemName, null);
newItem.SetImplicit(true);
arrayNode.AddChild(newItem);
}
return index;
}
/// <summary>Follow an expanded path expression to find or create a node.</summary>
/// <param name="xmpTree">the node to begin the search.</param>
/// <param name="xpath">the complete xpath</param>
/// <param name="createNodes">
/// flag if nodes shall be created
/// (when called by <code>setProperty()</code>)
/// </param>
/// <param name="leafOptions">
/// the options for the created leaf nodes (only when
/// <code>createNodes == true</code>).
/// </param>
/// <returns>Returns the node if found or created or <code>null</code>.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">
/// An exception is only thrown if an error occurred,
/// not if a node was not found.
/// </exception>
internal static XMPNode FindNode(XMPNode xmpTree, XMPPath xpath, bool createNodes, PropertyOptions leafOptions)
{
// check if xpath is set.
if (xpath == null || xpath.Size() == 0)
{
throw new XMPException("Empty XMPPath", XMPErrorConstants.Badxpath);
}
// Root of implicitly created subtree to possible delete it later.
// Valid only if leaf is new.
XMPNode rootImplicitNode = null;
XMPNode currNode = null;
// resolve schema step
currNode = FindSchemaNode(xmpTree, xpath.GetSegment(XMPPath.StepSchema).GetName(), createNodes);
if (currNode == null)
{
return(null);
}
else
{
if (currNode.IsImplicit())
{
currNode.SetImplicit(false);
// Clear the implicit node bit.
rootImplicitNode = currNode;
}
}
// Save the top most implicit node.
// Now follow the remaining steps of the original XMPPath.
try
{
for (int i = 1; i < xpath.Size(); i++)
{
currNode = FollowXPathStep(currNode, xpath.GetSegment(i), createNodes);
if (currNode == null)
{
if (createNodes)
{
// delete implicitly created nodes
DeleteNode(rootImplicitNode);
}
return(null);
}
else
{
if (currNode.IsImplicit())
{
// clear the implicit node flag
currNode.SetImplicit(false);
// if node is an ALIAS (can be only in root step, auto-create array
// when the path has been resolved from a not simple alias type
if (i == 1 && xpath.GetSegment(i).IsAlias() && xpath.GetSegment(i).GetAliasForm() != 0)
{
currNode.GetOptions().SetOption(xpath.GetSegment(i).GetAliasForm(), true);
}
else
{
// "CheckImplicitStruct" in C++
if (i < xpath.Size() - 1 && xpath.GetSegment(i).GetKind() == XMPPath.StructFieldStep && !currNode.GetOptions().IsCompositeProperty())
{
currNode.GetOptions().SetStruct(true);
}
}
if (rootImplicitNode == null)
{
rootImplicitNode = currNode;
}
}
}
}
}
catch (XMPException e)
{
// Save the top most implicit node.
// if new notes have been created prior to the error, delete them
if (rootImplicitNode != null)
{
DeleteNode(rootImplicitNode);
}
throw;
}
if (rootImplicitNode != null)
{
// set options only if a node has been successful created
currNode.GetOptions().MergeWith(leafOptions);
currNode.SetOptions(currNode.GetOptions());
}
return(currNode);
}
/// <seealso cref="Com.Adobe.Xmp.XMPUtils.RemoveProperties(Com.Adobe.Xmp.XMPMeta, string, string, bool, bool)"/>
/// <param name="xmp">The XMP object containing the properties to be removed.</param>
/// <param name="schemaNS">
/// Optional schema namespace URI for the properties to be
/// removed.
/// </param>
/// <param name="propName">Optional path expression for the property to be removed.</param>
/// <param name="doAllProperties">
/// Option flag to control the deletion: do internal properties in
/// addition to external properties.
/// </param>
/// <param name="includeAliases">
/// Option flag to control the deletion: Include aliases in the
/// "named schema" case above.
/// </param>
/// <exception cref="Com.Adobe.Xmp.XMPException">If metadata processing fails</exception>
public static void RemoveProperties(XMPMeta xmp, string schemaNS, string propName, bool doAllProperties, bool includeAliases)
{
ParameterAsserts.AssertImplementation(xmp);
XMPMetaImpl xmpImpl = (XMPMetaImpl)xmp;
if (propName != null && propName.Length > 0)
{
// Remove just the one indicated property. This might be an alias,
// the named schema might not actually exist. So don't lookup the
// schema node.
if (schemaNS == null || schemaNS.Length == 0)
{
throw new XMPException("Property name requires schema namespace", XMPErrorConstants.Badparam);
}
XMPPath expPath = XMPPathParser.ExpandXPath(schemaNS, propName);
XMPNode propNode = XMPNodeUtils.FindNode(xmpImpl.GetRoot(), expPath, false, null);
if (propNode != null)
{
if (doAllProperties || !Utils.IsInternalProperty(expPath.GetSegment(XMPPath.StepSchema).GetName(), expPath.GetSegment(XMPPath.StepRootProp).GetName()))
{
XMPNode parent = propNode.GetParent();
parent.RemoveChild(propNode);
if (parent.GetOptions().IsSchemaNode() && !parent.HasChildren())
{
// remove empty schema node
parent.GetParent().RemoveChild(parent);
}
}
}
}
else
{
if (schemaNS != null && schemaNS.Length > 0)
{
// Remove all properties from the named schema. Optionally include
// aliases, in which case
// there might not be an actual schema node.
// XMP_NodePtrPos schemaPos;
XMPNode schemaNode = XMPNodeUtils.FindSchemaNode(xmpImpl.GetRoot(), schemaNS, false);
if (schemaNode != null)
{
if (RemoveSchemaChildren(schemaNode, doAllProperties))
{
xmpImpl.GetRoot().RemoveChild(schemaNode);
}
}
if (includeAliases)
{
// We're removing the aliases also. Look them up by their
// namespace prefix.
// But that takes more code and the extra speed isn't worth it.
// Lookup the XMP node
// from the alias, to make sure the actual exists.
XMPAliasInfo[] aliases = XMPMetaFactory.GetSchemaRegistry().FindAliases(schemaNS);
for (int i = 0; i < aliases.Length; i++)
{
XMPAliasInfo info = aliases[i];
XMPPath path = XMPPathParser.ExpandXPath(info.GetNamespace(), info.GetPropName());
XMPNode actualProp = XMPNodeUtils.FindNode(xmpImpl.GetRoot(), path, false, null);
if (actualProp != null)
{
XMPNode parent = actualProp.GetParent();
parent.RemoveChild(actualProp);
}
}
}
}
else
{
// Remove all appropriate properties from all schema. In this case
// we don't have to be
// concerned with aliases, they are handled implicitly from the
// actual properties.
for (Iterator it = xmpImpl.GetRoot().IterateChildren(); it.HasNext();)
{
XMPNode schema = (XMPNode)it.Next();
if (RemoveSchemaChildren(schema, doAllProperties))
{
it.Remove();
}
}
}
}
}
// EMPTY
/// <summary>Find or create a schema node if <code>createNodes</code> is false and</summary>
/// <param name="tree">the root of the xmp tree.</param>
/// <param name="namespaceURI">a namespace</param>
/// <param name="createNodes">
/// a flag indicating if the node shall be created if not found.
/// <em>Note:</em> The namespace must be registered prior to this call.
/// </param>
/// <returns>
/// Returns the schema node if found, <code>null</code> otherwise.
/// Note: If <code>createNodes</code> is <code>true</code>, it is <b>always</b>
/// returned a valid node.
/// </returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">
/// An exception is only thrown if an error occurred, not if a
/// node was not found.
/// </exception>
internal static XMPNode FindSchemaNode(XMPNode tree, string namespaceURI, bool createNodes)
{
return(FindSchemaNode(tree, namespaceURI, null, createNodes));
}
/// <seealso cref="AppendProperties(Com.Adobe.Xmp.XMPMeta, Com.Adobe.Xmp.XMPMeta, bool, bool, bool)"/>
/// <param name="destXMP">The destination XMP object.</param>
/// <param name="sourceNode">the source node</param>
/// <param name="destParent">the parent of the destination node</param>
/// <param name="replaceOldValues">Replace the values of existing properties.</param>
/// <param name="deleteEmptyValues">
/// flag if properties with empty values should be deleted
/// in the destination object.
/// </param>
/// <exception cref="Com.Adobe.Xmp.XMPException"/>
private static void AppendSubtree(XMPMetaImpl destXMP, XMPNode sourceNode, XMPNode destParent, bool replaceOldValues, bool deleteEmptyValues)
{
XMPNode destNode = XMPNodeUtils.FindChildNode(destParent, sourceNode.GetName(), false);
bool valueIsEmpty = false;
if (deleteEmptyValues)
{
valueIsEmpty = sourceNode.GetOptions().IsSimple() ? sourceNode.GetValue() == null || sourceNode.GetValue().Length == 0 : !sourceNode.HasChildren();
}
if (deleteEmptyValues && valueIsEmpty)
{
if (destNode != null)
{
destParent.RemoveChild(destNode);
}
}
else
{
if (destNode == null)
{
// The one easy case, the destination does not exist.
destParent.AddChild((XMPNode)sourceNode.Clone());
}
else
{
if (replaceOldValues)
{
// The destination exists and should be replaced.
destXMP.SetNode(destNode, sourceNode.GetValue(), sourceNode.GetOptions(), true);
destParent.RemoveChild(destNode);
destNode = (XMPNode)sourceNode.Clone();
destParent.AddChild(destNode);
}
else
{
// The destination exists and is not totally replaced. Structs and
// arrays are merged.
PropertyOptions sourceForm = sourceNode.GetOptions();
PropertyOptions destForm = destNode.GetOptions();
if (sourceForm != destForm)
{
return;
}
if (sourceForm.IsStruct())
{
// To merge a struct process the fields recursively. E.g. add simple missing fields.
// The recursive call to AppendSubtree will handle deletion for fields with empty
// values.
for (Iterator it = sourceNode.IterateChildren(); it.HasNext();)
{
XMPNode sourceField = (XMPNode)it.Next();
AppendSubtree(destXMP, sourceField, destNode, replaceOldValues, deleteEmptyValues);
if (deleteEmptyValues && !destNode.HasChildren())
{
destParent.RemoveChild(destNode);
}
}
}
else
{
if (sourceForm.IsArrayAltText())
{
// Merge AltText arrays by the "xml:lang" qualifiers. Make sure x-default is first.
// Make a special check for deletion of empty values. Meaningful in AltText arrays
// because the "xml:lang" qualifier provides unambiguous source/dest correspondence.
for (Iterator it = sourceNode.IterateChildren(); it.HasNext();)
{
XMPNode sourceItem = (XMPNode)it.Next();
if (!sourceItem.HasQualifier() || !XMPConstConstants.XmlLang.Equals(sourceItem.GetQualifier(1).GetName()))
{
continue;
}
int destIndex = XMPNodeUtils.LookupLanguageItem(destNode, sourceItem.GetQualifier(1).GetValue());
if (deleteEmptyValues && (sourceItem.GetValue() == null || sourceItem.GetValue().Length == 0))
{
if (destIndex != -1)
{
destNode.RemoveChild(destIndex);
if (!destNode.HasChildren())
{
destParent.RemoveChild(destNode);
}
}
}
else
{
if (destIndex == -1)
{
// Not replacing, keep the existing item.
if (!XMPConstConstants.XDefault.Equals(sourceItem.GetQualifier(1).GetValue()) || !destNode.HasChildren())
{
sourceItem.CloneSubtree(destNode);
}
else
{
XMPNode destItem = new XMPNode(sourceItem.GetName(), sourceItem.GetValue(), sourceItem.GetOptions());
sourceItem.CloneSubtree(destItem);
destNode.AddChild(1, destItem);
}
}
}
}
}
else
{
if (sourceForm.IsArray())
{
// Merge other arrays by item values. Don't worry about order or duplicates. Source
// items with empty values do not cause deletion, that conflicts horribly with
// merging.
for (Iterator @is = sourceNode.IterateChildren(); @is.HasNext();)
{
XMPNode sourceItem = (XMPNode)@is.Next();
bool match = false;
for (Iterator id = destNode.IterateChildren(); id.HasNext();)
{
XMPNode destItem = (XMPNode)id.Next();
if (ItemValuesMatch(sourceItem, destItem))
{
match = true;
}
}
if (!match)
{
destNode = (XMPNode)sourceItem.Clone();
destParent.AddChild(destNode);
}
}
}
}
}
}
}
}
}
/// <summary>Creates a property info object from an <code>XMPNode</code>.</summary>
/// <param name="node">an <code>XMPNode</code></param>
/// <param name="baseNS">the base namespace to report</param>
/// <param name="path">the full property path</param>
/// <returns>Returns a <code>XMPProperty</code>-object that serves representation of the node.</returns>
protected internal virtual XMPPropertyInfo CreatePropertyInfo(XMPNode node, string baseNS, string path)
{
string value = node.GetOptions().IsSchemaNode() ? null : node.GetValue();
return(new _XMPPropertyInfo_450(node, baseNS, path, value));
}
/// <summary>Compares two nodes including its children and qualifier.</summary>
/// <param name="leftNode">an <code>XMPNode</code></param>
/// <param name="rightNode">an <code>XMPNode</code></param>
/// <returns>Returns true if the nodes are equal, false otherwise.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards exceptions to the calling method.</exception>
private static bool ItemValuesMatch(XMPNode leftNode, XMPNode rightNode)
{
PropertyOptions leftForm = leftNode.GetOptions();
PropertyOptions rightForm = rightNode.GetOptions();
if (leftForm.Equals(rightForm))
{
return(false);
}
if (leftForm.GetOptions() == 0)
{
// Simple nodes, check the values and xml:lang qualifiers.
if (!leftNode.GetValue().Equals(rightNode.GetValue()))
{
return(false);
}
if (leftNode.GetOptions().GetHasLanguage() != rightNode.GetOptions().GetHasLanguage())
{
return(false);
}
if (leftNode.GetOptions().GetHasLanguage() && !leftNode.GetQualifier(1).GetValue().Equals(rightNode.GetQualifier(1).GetValue()))
{
return(false);
}
}
else
{
if (leftForm.IsStruct())
{
// Struct nodes, see if all fields match, ignoring order.
if (leftNode.GetChildrenLength() != rightNode.GetChildrenLength())
{
return(false);
}
for (Iterator it = leftNode.IterateChildren(); it.HasNext();)
{
XMPNode leftField = (XMPNode)it.Next();
XMPNode rightField = XMPNodeUtils.FindChildNode(rightNode, leftField.GetName(), false);
if (rightField == null || !ItemValuesMatch(leftField, rightField))
{
return(false);
}
}
}
else
{
// Array nodes, see if the "leftNode" values are present in the
// "rightNode", ignoring order, duplicates,
// and extra values in the rightNode-> The rightNode is the
// destination for AppendProperties.
System.Diagnostics.Debug.Assert(leftForm.IsArray());
for (Iterator il = leftNode.IterateChildren(); il.HasNext();)
{
XMPNode leftItem = (XMPNode)il.Next();
bool match = false;
for (Iterator ir = rightNode.IterateChildren(); ir.HasNext();)
{
XMPNode rightItem = (XMPNode)ir.Next();
if (ItemValuesMatch(leftItem, rightItem))
{
match = true;
break;
}
}
if (!match)
{
return(false);
}
}
}
}
return(true);
}
/// <summary>Compares two nodes including its children and qualifier.</summary>
/// <param name="leftNode">an <code>XMPNode</code></param>
/// <param name="rightNode">an <code>XMPNode</code></param>
/// <returns>Returns true if the nodes are equal, false otherwise.</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException">Forwards exceptions to the calling method.</exception>
private static bool ItemValuesMatch(XMPNode leftNode, XMPNode rightNode)
{
PropertyOptions leftForm = leftNode.GetOptions();
PropertyOptions rightForm = rightNode.GetOptions();
if (leftForm.Equals(rightForm))
{
return false;
}
if (leftForm.GetOptions() == 0)
{
// Simple nodes, check the values and xml:lang qualifiers.
if (!leftNode.GetValue().Equals(rightNode.GetValue()))
{
return false;
}
if (leftNode.GetOptions().GetHasLanguage() != rightNode.GetOptions().GetHasLanguage())
{
return false;
}
if (leftNode.GetOptions().GetHasLanguage() && !leftNode.GetQualifier(1).GetValue().Equals(rightNode.GetQualifier(1).GetValue()))
{
return false;
}
}
else
{
if (leftForm.IsStruct())
{
// Struct nodes, see if all fields match, ignoring order.
if (leftNode.GetChildrenLength() != rightNode.GetChildrenLength())
{
return false;
}
for (Iterator it = leftNode.IterateChildren(); it.HasNext(); )
{
XMPNode leftField = (XMPNode)it.Next();
XMPNode rightField = XMPNodeUtils.FindChildNode(rightNode, leftField.GetName(), false);
if (rightField == null || !ItemValuesMatch(leftField, rightField))
{
return false;
}
}
}
else
{
// Array nodes, see if the "leftNode" values are present in the
// "rightNode", ignoring order, duplicates,
// and extra values in the rightNode-> The rightNode is the
// destination for AppendProperties.
System.Diagnostics.Debug.Assert(leftForm.IsArray());
for (Iterator il = leftNode.IterateChildren(); il.HasNext(); )
{
XMPNode leftItem = (XMPNode)il.Next();
bool match = false;
for (Iterator ir = rightNode.IterateChildren(); ir.HasNext(); )
{
XMPNode rightItem = (XMPNode)ir.Next();
if (ItemValuesMatch(leftItem, rightItem))
{
match = true;
break;
}
}
if (!match)
{
return false;
}
}
}
}
return true;
}
/// <summary>
/// After processing by ExpandXPath, a step can be of these forms:
/// <ul>
/// <li>qualName - A top level property or struct field.
/// </summary>
/// <remarks>
/// After processing by ExpandXPath, a step can be of these forms:
/// <ul>
/// <li>qualName - A top level property or struct field.
/// <li>[index] - An element of an array.
/// <li>[last()] - The last element of an array.
/// <li>[qualName="value"] - An element in an array of structs, chosen by a field value.
/// <li>[?qualName="value"] - An element in an array, chosen by a qualifier value.
/// <li>?qualName - A general qualifier.
/// </ul>
/// Find the appropriate child node, resolving aliases, and optionally creating nodes.
/// </remarks>
/// <param name="parentNode">the node to start to start from</param>
/// <param name="nextStep">the xpath segment</param>
/// <param name="createNodes"></param>
/// <returns>returns the found or created XMPPath node</returns>
/// <exception cref="Com.Adobe.Xmp.XMPException"></exception>
private static XMPNode FollowXPathStep(XMPNode parentNode, XMPPathSegment nextStep, bool createNodes)
{
XMPNode nextNode = null;
int index = 0;
int stepKind = nextStep.GetKind();
if (stepKind == XMPPath.StructFieldStep)
{
nextNode = FindChildNode(parentNode, nextStep.GetName(), createNodes);
}
else
{
if (stepKind == XMPPath.QualifierStep)
{
nextNode = FindQualifierNode(parentNode, Sharpen.Runtime.Substring(nextStep.GetName(), 1), createNodes);
}
else
{
// This is an array indexing step. First get the index, then get the node.
if (!parentNode.GetOptions().IsArray())
{
throw new XMPException("Indexing applied to non-array", XMPErrorConstants.Badxpath);
}
if (stepKind == XMPPath.ArrayIndexStep)
{
index = FindIndexedItem(parentNode, nextStep.GetName(), createNodes);
}
else
{
if (stepKind == XMPPath.ArrayLastStep)
{
index = parentNode.GetChildrenLength();
}
else
{
if (stepKind == XMPPath.FieldSelectorStep)
{
string[] result = Utils.SplitNameAndValue(nextStep.GetName());
string fieldName = result[0];
string fieldValue = result[1];
index = LookupFieldSelector(parentNode, fieldName, fieldValue);
}
else
{
if (stepKind == XMPPath.QualSelectorStep)
{
string[] result = Utils.SplitNameAndValue(nextStep.GetName());
string qualName = result[0];
string qualValue = result[1];
index = LookupQualSelector(parentNode, qualName, qualValue, nextStep.GetAliasForm());
}
else
{
throw new XMPException("Unknown array indexing step in FollowXPathStep", XMPErrorConstants.Internalfailure);
}
}
}
}
if (1 <= index && index <= parentNode.GetChildrenLength())
{
nextNode = parentNode.GetChild(index);
}
}
}
return nextNode;
}