/**
* Writes the definition part of this list level
* @param result
* @throws IOException
* @since 2.1.3
*/
public void WriteDefinition(Stream result)
{
byte[] t;
result.Write(OPEN_GROUP, 0, OPEN_GROUP.Length);
result.Write(LIST, 0, LIST.Length);
result.Write(LIST_TEMPLATE_ID, 0, LIST_TEMPLATE_ID.Length);
result.Write(t = IntToByteArray(document.GetRandomInt()), 0, t.Length);
int levelsToWrite = -1;
switch (this.listType)
{
case LIST_TYPE_NORMAL:
levelsToWrite = listLevels.Count;
break;
case LIST_TYPE_SIMPLE:
result.Write(LIST_SIMPLE, 0, LIST_SIMPLE.Length);
result.Write(t = IntToByteArray(1), 0, t.Length);
levelsToWrite = 1;
break;
case LIST_TYPE_HYBRID:
result.Write(LIST_HYBRID, 0, LIST_HYBRID.Length);
levelsToWrite = listLevels.Count;
break;
default:
break;
}
this.document.OutputDebugLinebreak(result);
// TODO: Figure out hybrid because multi-level hybrid does not work.
// Seems hybrid is mixed type all single level - Simple = single level
// SIMPLE1/HYRBID
// 1. Line 1
// 2. Line 2
// MULTI-LEVEL LISTS Are Simple0 - 9 levels (0-8) all single digit
// 1. Line 1
// 1.1. Line 1.1
// 1.2. Line 1.2
// 2. Line 2
// write the listlevels here
for (int i = 0; i < levelsToWrite; i++)
{
((RtfListLevel)listLevels[i]).WriteDefinition(result);
this.document.OutputDebugLinebreak(result);
}
result.Write(LIST_ID, 0, LIST_ID.Length);
result.Write(t = IntToByteArray(this.listID), 0, t.Length);
result.Write(CLOSE_GROUP, 0, CLOSE_GROUP.Length);
this.document.OutputDebugLinebreak(result);
if (items != null)
{
for (int i = 0; i < items.Count; i++)
{
RtfElement rtfElement = (RtfElement)items[i];
if (rtfElement is RtfList)
{
RtfList rl = (RtfList)rtfElement;
rl.WriteDefinition(result);
break;
}
else if (rtfElement is RtfListItem)
{
RtfListItem rli = (RtfListItem)rtfElement;
if (rli.WriteDefinition(result))
{
break;
}
}
}
}
}
/// <summary>
/// Writes the definition part of this list level
/// @throws IOException
/// @since 2.1.3
/// </summary>
/// <param name="result"></param>
public void WriteDefinition(Stream result)
{
byte[] t;
result.Write(OpenGroup, 0, OpenGroup.Length);
result.Write(_list, 0, _list.Length);
result.Write(_listTemplateId, 0, _listTemplateId.Length);
result.Write(t = IntToByteArray(Document.GetRandomInt()), 0, t.Length);
int levelsToWrite = -1;
switch (_listType)
{
case LIST_TYPE_NORMAL:
levelsToWrite = _listLevels.Count;
break;
case LIST_TYPE_SIMPLE:
result.Write(_listSimple, 0, _listSimple.Length);
result.Write(t = IntToByteArray(1), 0, t.Length);
levelsToWrite = 1;
break;
case LIST_TYPE_HYBRID:
result.Write(_listHybrid, 0, _listHybrid.Length);
levelsToWrite = _listLevels.Count;
break;
default:
break;
}
Document.OutputDebugLinebreak(result);
// TODO: Figure out hybrid because multi-level hybrid does not work.
// Seems hybrid is mixed type all single level - Simple = single level
// SIMPLE1/HYRBID
// 1. Line 1
// 2. Line 2
// MULTI-LEVEL LISTS Are Simple0 - 9 levels (0-8) all single digit
// 1. Line 1
// 1.1. Line 1.1
// 1.2. Line 1.2
// 2. Line 2
// write the listlevels here
for (int i = 0; i < levelsToWrite; i++)
{
((RtfListLevel)_listLevels[i]).WriteDefinition(result);
Document.OutputDebugLinebreak(result);
}
result.Write(ListId, 0, ListId.Length);
result.Write(t = IntToByteArray(_listId), 0, t.Length);
result.Write(CloseGroup, 0, CloseGroup.Length);
Document.OutputDebugLinebreak(result);
if (_items != null)
{
for (int i = 0; i < _items.Count; i++)
{
RtfElement rtfElement = (RtfElement)_items[i];
if (rtfElement is RtfList)
{
RtfList rl = (RtfList)rtfElement;
rl.WriteDefinition(result);
break;
}
else if (rtfElement is RtfListItem)
{
RtfListItem rli = (RtfListItem)rtfElement;
if (rli.WriteDefinition(result))
{
break;
}
}
}
}
}