示例#1
0
OpState OpReversePath::GetState (String_256* Description, OpDescriptor*)
{
	OpState OpSt;

 	SelRange*	Selected = GetApplication ()->FindSelection ();

	if ((Document::GetSelected () == NULL) || (Selected == NULL) )
	{	// There is no selected document or selrange is invalid 
		OpSt.Greyed = TRUE;
	   	return (OpSt);
	}

	if (Selected->Count () == 0)	// if there ain't no selection - return cause we ain't
									// going to be reversing anything
	{
		OpSt.Greyed = TRUE;
	   	return (OpSt);
	}

	Node* pNode = Selected->FindFirst ();

	// scan the selection and if even a single DoThisNode fails, then return that the op
	// is greyed immediately ....

	while (pNode != NULL)
	{	// we're only interested in NodePaths which have selected points
		BOOL DoThisNode = pNode->IsNodePath ();
		//if (DoThisNode)
		//	DoThisNode = (((NodePath*)pNode)->InkPath.IsSubSelection());
		if (DoThisNode)
			DoThisNode = (((NodePath*)pNode)->IsPathAllowable ());

		if (DoThisNode)
		{
			pNode = Selected->FindNext (pNode);
		}
		else
		{
			pNode = NULL;
			OpSt.Greyed = TRUE;
		}
	}

	return (OpSt);
}
示例#2
0
文件: selstate.cpp 项目: vata/xarino
BOOL SelectionState::Record() 	     	 
{   
	// Make sure that Record has not been called before     
	ENSURE(((SelNdList == NULL) && (SelNdRngList == NULL)), "SelectionState::Record called twice"); 
	
	// Find the current selections 
	SelRange* pSel; 
	pSel = GetApplication()->FindSelection();

	Node* StartRange;

	UINT32 SelNdRngListIndex = 0; 
	UINT32 SelNdListIndex = 0; 

	UINT32 NumSelectedNodes = pSel->Count(); 

	if (NumSelectedNodes != 0)
	{

		// At this point we don't know exactly how much memory to allocate for the SelNdRngList
		// and SelNdList. So we allocate two temporary arrays which are more than big enough to
		// store the selection state. When we have completed recording the selection state into 
		// these temporary arrays, we know how big the SelNdRngList and SelNdList should
		// be. so we can allocate memory for these and then copy the data from the temporary 
		// arrays into them.  

		SelNdRng* SelNdRngListTmp = new SelNdRng[NumSelectedNodes];  
	

		if (SelNdRngListTmp == NULL)
		{
			return FALSE; 
		}
	 
		Node** SelNdListTmp = new Node*[NumSelectedNodes]; 		  

		if (SelNdListTmp == NULL)
		{
			delete[] SelNdRngListTmp; 	// Tidy up 
			return FALSE; 
		}

		// Get the first selected node in the tree
		Node * Current = pSel->FindFirst(); 
		Node* Last; 

		BYTE NumAdjacentSel; 			  // Number of contiguous selected nodes   
	
		#ifdef _DEBUG   
		UINT32 NumSel = 0; 
		#endif
	
		// always use the selection object to determine next node to store... this fixes bug #10775 whereby
		// selected Bevel,Contour & Shadow objects were not being restored on Undo
		while (Current != NULL)
		{   
			// At this point Current will always point to the next selected node which needs 
			// recording.      
			// Only NodeRenderableInk nodes should be selected
			ENSURE(Current->IsKindOf(CC_RUNTIME_CLASS(NodeRenderableInk)), 
					"A non NodeRenderableInk node is selected"); 
		
			NumAdjacentSel = 1;    
		
			#ifdef _DEBUG   
			NumSel++;  
			#endif
		        
			StartRange = Current; 
			Last = Current;  
			Current = pSel->FindNext(Current); //next from selection
		
			// if we have at least two contiguous nodes, store as a range
			if (Current && AreContiguous(Last, Current) && !IS_A(Last, CaretNode) && !IS_A(Current, CaretNode))
			{
				SelNdRngListTmp[SelNdRngListIndex].FirstNode = StartRange;   
				do
				{
					if (IS_A(Current, CaretNode))
					{
						// Give Caret it's own selection record but don't break the contiguous range
						SelNdListTmp[SelNdListIndex] = Current;
						SelNdListIndex++; 
						#ifdef _DEBUG   
						NumSel++;  
						#endif
					}
					else
					{
						NumAdjacentSel++; 
						#ifdef _DEBUG   
						NumSel++;  
						#endif
					}
					Last = Current; 
					Current = pSel->FindNext(Current);
	                if (Current == NULL)
	                   	break; 
				} while ((AreContiguous(Last,Current)) && (NumAdjacentSel < 255));      
				// Either there are no more contiguous selected nodes or 
				// we have hit the maximum number of selected nodes that a SelNdRng can 
				// represent.  
				SelNdRngListTmp[SelNdRngListIndex].NumSelected = NumAdjacentSel; 
				SelNdRngListIndex++;
			}
			else  // Store node in the SelNdLst 
			{
				ERROR3IF(StartRange==NULL, "Trying to add NULL pointer to SelNdList\n");
				SelNdListTmp[SelNdListIndex] = StartRange; 
				SelNdListIndex++; 
			}    
		}       
		ERROR3IF(NumSel!=NumSelectedNodes,"Incorrect selection state stored!");
	
		NumNd = SelNdListIndex; 
		NumNdRng = SelNdRngListIndex; 

		if (SelNdRngListIndex != 0) 
		{
			// We have created at least one SelNdRange
	 		SelNdRngList = new SelNdRng[NumNdRng];  
			if (SelNdRngList == NULL)			// Out of memory 
			{
				// Delete the two temporary lists
				delete [] SelNdRngListTmp; 
				delete [] SelNdListTmp; 
				return FALSE; 
			}
		
			// Copy the SelNdRngListTmp to the SelNdRngList  
			memcpy(SelNdRngList, SelNdRngListTmp, sizeof(SelNdRng)*NumNdRng); 
		}

		delete[] SelNdRngListTmp; // No longer required
	
	
		if (SelNdListIndex != 0)
		{
			SelNdList = new Node*[NumNd]; 
			if (SelNdList == NULL)				 // Out of memory 
			{
				delete [] SelNdListTmp; 
				if (SelNdRngList != NULL)		 // We allocated the SelNdRng list
				{
					delete [] SelNdRngList; 
				}
				return FALSE; 
			}
			// copy the SelNdListTmp to the SelNdList 
			memcpy(SelNdList, SelNdListTmp, sizeof(Node*)*NumNd); 
		} 

		delete[] SelNdListTmp; // No longer required
	 
		#ifdef _DEBUG   
		//if (IsUserName("Simon"))
			//TRACE( _T("Number of nodes selected = %lu\n"), NumSel); 
		#endif
	}
	return (TRUE);  
}     
示例#3
0
文件: makebmp.cpp 项目: vata/xarino
/********************************************************************************************

>	BOOL MakeBitmapFilter::DoCreateBitmap(Operation *pOp, Document *pDoc, KernelBitmap** ppBitmap)

	Author:		Will_Cowling (Xara Group Ltd) <*****@*****.**>
	Created:	11/6/96
	Purpose:	Exports the current selection as a bitmap, via the virtual fns of the
				inherited class.
	Returns:	TRUE if worked, FALSE if failed.
	SeeAlso:	GetExportOptions; PrepareToExport; ExportRenderNodes; CleanUpAfterExport;

********************************************************************************************/
BOOL MakeBitmapFilter::DoCreateBitmap(Operation *pOp, Document *pDoc, KernelBitmap** ppBitmap)
{
	ERROR3IF(ppBitmap == NULL, "NULL bitmap pointer passed to MakeBitmapFilter::DoCreateBitmap");
	if (ppBitmap == NULL)
		return FALSE;

	pTheBitmap = NULL;
	*ppBitmap = NULL;

	// Set the bitmap pointer to null just in case, usually only used by DoExportBitmap
	pExportBitmap = NULL;

	// Get pointer to the spread to export.
PORTNOTE("spread", "Multi-spread warning!")
	pSpread = GetFirstSpread(pDoc);

	// remember the document in the class variable
	TheDocument = pDoc;

	// We must now check if there is a selection present so that we can set up whether the
	// user gets the choice of exporting the selection, drawing or spread if there is a 
	// selection present OR just a choice between the spread or drawing if no selection is
	// present.
	// If have a caret selected in a text story then the selection will be almost zero so trap
	// this case as well. 
	RangeControl rg = GetApplication()->FindSelection()->GetRangeControlFlags();
	rg.PromoteToParent = TRUE;
	GetApplication()->FindSelection()->Range::SetRangeControl(rg);
	SelRange Rng(*(GetApplication()->FindSelection()));

	// now, run through the selection selecting all nodes under all compound nodes
	// if we don't do this then all compound nodes aren't rendered correctly with transparent
	// bitmaps
	Node * pNode = Rng.FindFirst(FALSE);

	while (pNode)
	{
		pNode->SetSelected(FALSE);
		pNode->SetSelected(TRUE);
		pNode = Rng.FindNext(pNode, FALSE);
	}

	rg.PromoteToParent = FALSE;
	GetApplication()->FindSelection()->Range::SetRangeControl(rg);
	GetApplication()->UpdateSelection();

	DocRect ClipRect = GetApplication()->FindSelection()->GetBoundingRect();
	SelectionType Selection = DRAWING;
 	if ( ClipRect.IsEmpty() || ClipRect.Width() < MinExportSize ||
		 ClipRect.Height() < MinExportSize)
		Selection = DRAWING;		// no selection present, so choose drawing by default
	else
		Selection = SELECTION;		// selection present, so choose this by default

	if (Selection != SELECTION)
	{
		BOOL UseDrawingBounds = TRUE;
		
		SelRange* pSel = GetApplication()->FindSelection();
		if (pSel && pSel->Count()==1)
		{
			// Only one thing selected ... Is it the Text Caret per chance ?
			Node* pSelNode = pSel->FindFirst();
			if (pSelNode && pSelNode->IsAVisibleTextNode())
			{
				VisibleTextNode* pTextNode = (VisibleTextNode*)pSelNode;
				if (pTextNode->IsACaret())
				{
				 	// Aha! It's the Caret that's selected.
					// We'll use the bounds of the parent text line instead then ...
					Node* pTextLine = pTextNode->FindParent();
					ERROR3IF(!IS_A(pTextLine, TextLine), "Caret doesn't have a parent text line in DoCreateBitmap");
					
					// Get the bounds of the text line
					ClipRect = ((TextLine*)pTextLine)->GetBoundingRect();				

					Selection = SELECTION;
					UseDrawingBounds = FALSE;
				}		 		
			}
		}

		if (UseDrawingBounds)
		{
			// Work out the size of the rectangle encompassing the drawing (visible layers only)
			ClipRect = GetSizeOfDrawing(pSpread);
		}
	}

	// Create somewhere to put the user options and fill them up
	MakeBitmapExportOptions* pMakeBmpExportOptions = (MakeBitmapExportOptions*)CreateExportOptions();
	if (pMakeBmpExportOptions == NULL)
	{
		Error::SetError(_R(IDS_OUT_OF_MEMORY));
		return FALSE;
	}

	pMakeBmpExportOptions->RetrieveDefaults();
	pMakeBmpExportOptions->SetDepth(32); // create bmp copies shoulda always default to being 32 bit
	pMakeBmpExportOptions->SetSelectionType(Selection);

	// Set the BaseBitmapFilter member so we can use base class functionality - blurghh
	SetExportOptions(pMakeBmpExportOptions);

	BOOL ok = GetExportOptions( (BitmapExportOptions*)pMakeBmpExportOptions );

	BOOL IsAnimation = BmapPrevDlg::m_pExportOptions == NULL;
	BaseBitmapFilter * pNewFilter = this;
	BitmapExportOptions * pExportOptions = BmapPrevDlg::m_pExportOptions;
	if (!IsAnimation)
	{
		pNewFilter = pExportOptions->FindBitmapFilterForTheseExportOptions();
		// from the exporting point of view we should always have been using png options
		// set them to the png options for the export part
		if (pNewFilter)
			pNewFilter->SetExportOptions(pExportOptions);
		// gets the real export options that the prevdlg has set up for us
		BmapPrevDlg::m_pExportOptions = NULL; // take responsibility for this data
	}
	else
	{
		// the animation export didn't bring up the dlg so never set BmapPrevDlg::m_pExportOptions
		// so continue with these options
		pExportOptions = (BitmapExportOptions*)pMakeBmpExportOptions;
	}

	SetExportOptions(pExportOptions);
	

	if (!ok)
	{
		SetExportOptions(NULL); // deletes the filter ptr and nulls it
		delete pExportOptions;
		return FALSE;									// if cancelled
	}


//////////////// SMFIX

	pExportOptions->MarkValid();
	SetDepthToRender(pExportOptions->GetDepth());

	// Set up device context and render region for this export.
	// This will show a progress hourglass for the objects being rendered
	// THis will now also write the data out to file via our ExportRenderNodes function
	if (!PrepareToExport(pSpread, pExportOptions->GetDepth(), pExportOptions->GetDPI(), 
							pExportOptions->GetSelectionType(), pExportOptions->GetDither()))
	{
		pNewFilter->SetExportOptions(NULL);
		SetExportOptions(NULL);
		delete pExportOptions;
		CleanUpAfterExport();
		return FALSE;
	}

	RenderInStrips = FALSE;
	
	if (!ExportRender(ExportRegion))
	{
		pNewFilter->SetExportOptions(NULL); // deletes the filter ptr and nulls it
		SetExportOptions(NULL);
		delete pExportOptions;
		CleanUpAfterExport();
		return FALSE;
	}

	// Now get the converted 32Bit BMP
	pTheBitmap = GetTheBitmap(pExportOptions);

	// if we`ve got a transparency index AND we`ve got a 32 Bit Render region with alpha channel info
	// then we can quickly do
	if(pExportOptions->GetDepth() <= 8 && pExportOptions->GetTransparencyIndex() != -1 && pTheBitmap)
	{
		// What we do now is to go throught the bitmap setting the relavent pixels to transparent
		// depending on the alpha channel info held in the 32 bit version.
		if(!ApplyTransparentColoursToBitmap(pTheBitmap,pExportOptions))
		{
			pNewFilter->SetExportOptions(NULL); // deletes the filter ptr and nulls it
			return FALSE;
		}

		// Now make sure the bitmap knows that it has a transparent colour!
		pTheBitmap->SetTransparencyIndex(pExportOptions->GetTransparencyIndex());
	}

	// Set pointer to the bitmap we have created
	*ppBitmap = pTheBitmap;

	pNewFilter->SetExportOptions(NULL); // deletes the filter ptr and nulls it
	SetExportOptions(NULL);
	delete pExportOptions;
	CleanUpAfterExport();

	return *ppBitmap != NULL;

//////////////// SMFIX
}