///
/// ReimportText
// export and reimport the current text with modified TAB size or TAB conversion
BOOL ReimportText(struct IClass *cl, Object *obj)
{
struct InstData *data = INST_DATA(cl, obj);
BOOL result = FALSE;
struct Hook *ExportHookCopy;
char *buff;
ENTER();
// use the plain export hook
ExportHookCopy = data->ExportHook;
data->ExportHook = &ExportHookPlain;
if((buff = (char *)mExportText(cl, obj, NULL)) != NULL)
{
struct MinList newlines;
if(ImportText(data, buff, data->ImportHook, data->ImportWrap, &newlines) == TRUE)
{
FreeTextMem(data, &data->linelist);
MoveLines(&data->linelist, &newlines);
ResetDisplay(data);
ResetUndoBuffer(data);
result = TRUE;
}
FreeVec(buff);
}
// restore the former export hook
data->ExportHook = ExportHookCopy;
RETURN(result);
return result;
}
//--------------------------------------------------------
// import the XML and convert from SVG to mesh
//--------------------------------------------------------
SyncBool TLFileSys::TFileTextDatabase::ExportAsset(TPtr<TLAsset::TAsset>& pAsset,TRefRef ExportAssetType)
{
if ( pAsset )
{
TLDebug_Break("Async export not supported yet. asset should be NULL");
return SyncFalse;
}
// import xml
SyncBool ImportResult = TFileXml::Import();
if ( ImportResult != SyncTrue )
return ImportResult;
// get the root tag
TPtr<TXmlTag> pTtdTag = m_XmlData.GetChild("textdatabase");
// malformed AssetScript
if ( !pTtdTag )
{
TLDebug_Print("TTD file missing root <textdatabase> tag");
return SyncFalse;
}
// do specific importing
TPtr<TLAsset::TAsset> pNewAsset = new TLAsset::TText( GetFileRef() );
ImportResult = ImportText( pNewAsset, pTtdTag );
// failed to import
if ( ImportResult != SyncTrue )
{
return SyncFalse;
}
// assign resulting asset
pAsset = pNewAsset;
return SyncTrue;
}
/*----------------------*
* Paste from Clipboard *
*----------------------*/
BOOL PasteClip (LONG x, struct line_node *actline, struct InstData *data)
{
struct line_node *line = NULL;
struct line_node *startline = NULL;
struct line_node *previous = NULL;
UWORD *styles = NULL;
UWORD *colors = NULL;
STRPTR textline;
BOOL newline = TRUE;
BOOL res = FALSE;
ENTER();
if(InitClipboard(data, IFFF_READ))
{
if(StopChunk(data->iff, ID_FTXT, ID_CHRS) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_FLOW) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_HIGH) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_SBAR) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_COLS) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_STYL) == 0 &&
StopChunk(data->iff, ID_FTXT, ID_CSET) == 0)
{
LONG error, codeset = 0;
UWORD flow = MUIV_TextEditor_Flow_Left;
UWORD color = FALSE;
UWORD separator = 0;
BOOL ownclip = FALSE;
LONG updatefrom;
while(TRUE)
{
struct ContextNode *cn;
error = ParseIFF(data->iff, IFFPARSE_SCAN);
SHOWVALUE(DBF_CLIPBOARD, error);
if(error == IFFERR_EOC)
continue;
else if(error)
break;
if((cn = CurrentChunk(data->iff)) != NULL)
{
switch (cn->cn_ID)
{
case ID_CSET:
D(DBF_CLIPBOARD, "reading FLOW");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
if(cn->cn_Size >= 4)
{
/* Only the first four bytes are interesting */
if(ReadChunkBytes(data->iff, &codeset, 4) != 4)
{
codeset = 0;
}
SHOWVALUE(DBF_CLIPBOARD, codeset);
}
break;
case ID_FLOW:
D(DBF_CLIPBOARD, "reading FLOW");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
if(cn->cn_Size == 2)
{
if(ReadChunkBytes(data->iff, &flow, 2) == 2)
if(flow > MUIV_TextEditor_Flow_Right)
flow = MUIV_TextEditor_Flow_Left;
SHOWVALUE(DBF_CLIPBOARD, flow);
}
break;
case ID_HIGH:
D(DBF_CLIPBOARD, "reading HIGH");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
if (cn->cn_Size == 2)
{
error = ReadChunkBytes(data->iff, &color, 2);
SHOWVALUE(DBF_CLIPBOARD, color);
SHOWVALUE(DBF_CLIPBOARD, error);
}
break;
case ID_SBAR:
D(DBF_CLIPBOARD, "reading SBAR");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
if (cn->cn_Size == 2)
{
error = ReadChunkBytes(data->iff, &separator, 2);
SHOWVALUE(DBF_CLIPBOARD, separator);
SHOWVALUE(DBF_CLIPBOARD, error);
}
break;
case ID_COLS:
D(DBF_CLIPBOARD, "reading COLS");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
if(colors)
{
MyFreePooled(data->mypool, colors);
colors = NULL;
}
// allocate one word more than the chunk tell us, because we terminate the array with an additional value
if(cn->cn_Size > 0 && (colors = (UWORD *)MyAllocPooled(data->mypool, cn->cn_Size + sizeof(UWORD))) != NULL)
{
error = ReadChunkBytes(data->iff, colors, cn->cn_Size);
SHOWVALUE(DBF_CLIPBOARD, error);
colors[cn->cn_Size / 2] = 0xffff;
}
break;
case ID_STYL:
D(DBF_CLIPBOARD, "reading STYL");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
ownclip = TRUE;
if(styles)
{
MyFreePooled(data->mypool, styles);
styles = NULL;
}
// allocate one word more than the chunk tell us, because we terminate the array with an additional value
if(cn->cn_Size > 0 && (styles = (UWORD *)MyAllocPooled(data->mypool, cn->cn_Size + sizeof(UWORD))) != NULL)
{
error = ReadChunkBytes(data->iff, styles, cn->cn_Size);
SHOWVALUE(DBF_CLIPBOARD, error);
styles[cn->cn_Size / 2] = EOS;
}
break;
case ID_CHRS:
{
D(DBF_CLIPBOARD, "reading CHRS");
SHOWVALUE(DBF_CLIPBOARD, cn->cn_Size);
data->HasChanged = TRUE;
if(cn->cn_Size > 0 && !ownclip)
{
char *contents;
ULONG length = cn->cn_Size;
if((contents = (char *)MyAllocPooled(data->mypool, length + 1)) != NULL)
{
error = ReadChunkBytes(data->iff, contents, length);
SHOWVALUE(DBF_CLIPBOARD, error);
if(contents[length - 1] != '\n')
{
newline = FALSE;
}
else
{
length--;
}
contents[length] = '\0';
#if defined(__MORPHOS__)
if (codeset == CODESET_UTF8)
{
if (IS_MORPHOS2)
contents = utf8_to_ansi(data, contents);
}
#endif
if((line = ImportText(contents, data, &ImPlainHook, data->ImportWrap)))
{
if(!startline)
startline = line;
if(previous)
previous->next = line;
line->previous = previous;
line->visual = VisualHeight(line, data);
data->totallines += line->visual;
while(line->next)
{
line = line->next;
line->visual = VisualHeight(line, data);
data->totallines += line->visual;
}
previous = line;
}
MyFreePooled(data->mypool, contents);
}
}
else
{
ULONG length = cn->cn_Size;
if(length > 0 && (textline = (char *)MyAllocPooled(data->mypool, length + 2)) != NULL)
{
error = ReadChunkBytes(data->iff, textline, length);
SHOWVALUE(DBF_CLIPBOARD, error);
if (textline[length - 1] != '\n')
{
newline = FALSE;
textline[length] = '\n';
length++;
}
textline[length] = '\0';
if((line = AllocLine(data)))
{
line->next = NULL;
line->previous = previous;
line->line.Contents = textline;
line->line.Length = length;
line->visual = VisualHeight(line, data);
line->line.Color = color;
line->line.Flow = flow;
line->line.Separator = separator;
line->line.Styles = styles;
line->line.Colors = colors;
data->totallines += line->visual;
if(!startline)
startline = line;
if(previous)
previous->next = line;
previous = line;
}
else
{
if(styles)
MyFreePooled(data->mypool, (void *)styles);
if(colors)
MyFreePooled(data->mypool, (void *)colors);
}
}
else
{
if(styles)
MyFreePooled(data->mypool, styles);
if(colors)
MyFreePooled(data->mypool, (void *)colors);
}
styles = NULL;
colors = NULL;
flow = MUIV_TextEditor_Flow_Left;
color = FALSE;
separator = 0;
ownclip = FALSE;
}
}
break;
}
}
}
if(line)
{
BOOL oneline = FALSE;
SplitLine(x, actline, FALSE, NULL, data);
line->next = actline->next;
actline->next->previous = line;
actline->next = startline;
startline->previous = actline;
data->CPos_X = line->line.Length-1;
if(actline->next == line)
{
data->CPos_X += actline->line.Length-1;
oneline = TRUE;
}
if(!newline)
MergeLines(line, data);
MergeLines(actline, data);
if(oneline)
line = actline;
if(newline)
{
line = line->next;
data->CPos_X = 0;
}
data->actualline = line;
}
else
{
switch(error)
{
case IFFERR_MANGLED:
case IFFERR_SYNTAX:
case IFFERR_NOTIFF:
D(DBF_CLIPBOARD, "no FTXT clip!");
DoMethod(data->object, MUIM_TextEditor_HandleError, Error_ClipboardIsNotFTXT);
break;
default:
D(DBF_CLIPBOARD, "clipboard is empty!");
DoMethod(data->object, MUIM_TextEditor_HandleError, Error_ClipboardIsEmpty);
break;
}
}
data->update = TRUE;
ScrollIntoDisplay(data);
updatefrom = LineToVisual(actline, data)-1;
if(updatefrom < 0)
updatefrom = 0;
DumpText(data->visual_y+updatefrom, updatefrom, data->maxlines, TRUE, data);
if(data->update)
res = TRUE;
else
data->update = TRUE;
}
EndClipSession(data);
}
RETURN(res);
return res;
}
