コード例 #1
0
MStatus	CmpMeshModifierCmd::transferTweaks( const MDagPath &shapePath,
										    MObject &tweakNode, 
											MDagModifier &dagMod )
{
	// Get the tweaks from the mesh shape and apply them to the 
	// to the tweak node
	MFnDagNode shapeNodeFn( shapePath );
	MPlug srcTweaksPlug = shapeNodeFn.findPlug( "pnts" );
	
	MFnDependencyNode tweakNodeFn( tweakNode );
	MPlug dstTweaksPlug = tweakNodeFn.findPlug( "tweak" );
		
	//MGlobal::displayInfo( MString( "storing tweaks from " ) + shapePath.fullPathName() + "\n" );
	
	MPlugArray plugs;
	MPlug srcTweakPlug;
	MPlug dstTweakPlug;
	MObject dataObj;
	MFloatVector tweak;
	unsigned int nTweaks = srcTweaksPlug.numElements();
	unsigned int i, j, ci, logicalIndex;
	for( i=0; i < nTweaks; i++ )
	{
		srcTweakPlug = srcTweaksPlug.elementByPhysicalIndex( i );
		if( !srcTweakPlug.isNull() )
		{
			logicalIndex = srcTweakPlug.logicalIndex();
			
			// Set tweak node tweak element
			srcTweakPlug.getValue( dataObj );			
			MFnNumericData numDataFn( dataObj );
			numDataFn.getData( tweak[0], tweak[1], tweak[2] );
			
			dagMod.commandToExecute( MString( "setAttr " ) + tweakNodeFn.name() + ".tweak[" + logicalIndex + "] " + 
									 tweak[0] + " " + tweak[1] + " " + tweak[2] );

			// Handle transfer of incoming and outgoing connections to "pnts" elements
			dstTweakPlug = dstTweaksPlug.elementByLogicalIndex(logicalIndex);

			if( srcTweakPlug.isConnected() )
			{
				// As source, transfer source to tweak node tweak
				srcTweakPlug.connectedTo( plugs, false, true );
				for( j=0; j < plugs.length(); j++ )
				{
					dagMod.disconnect( srcTweakPlug, plugs[j] );
					dagMod.connect( dstTweakPlug, plugs[j] );
				}
				
				// As destination, transfer destination to tweak node tweak
				srcTweakPlug.connectedTo( plugs, true, false );
				if( plugs.length() == 1 ) // There can only be one input connection
				{
					dagMod.disconnect( plugs[0], srcTweakPlug );
					dagMod.connect( plugs[0], dstTweakPlug );
				}	
			}
			else // Check children
			{
				MPlug srcTweakChildPlug;
				MPlug dstTweakChildPlug;
				
				for( ci=0; ci < srcTweakPlug.numChildren(); ci++ )
				{
					srcTweakChildPlug = srcTweakPlug.child(ci);
					dstTweakChildPlug = dstTweakPlug.child(ci);
					if( srcTweakChildPlug.isConnected() )
					{
						// As souce, transfer source to tweak node tweak
						srcTweakChildPlug.connectedTo( plugs, false, true );
						for( j=0; j < plugs.length(); j++ )
						{
							dagMod.disconnect( srcTweakChildPlug, plugs[j] );
							dagMod.connect( dstTweakChildPlug, plugs[j] );
						}
						
						// As destination, transfer destination to tweak node tweak
						srcTweakChildPlug.connectedTo( plugs, true, false );
						if( plugs.length() == 1 ) // There can only be one input connection
						{
							dagMod.disconnect( plugs[0], srcTweakChildPlug );
							dagMod.connect( plugs[0], dstTweakChildPlug );
						}
					}	
				}				
			}
									
			// With the tweak values and any connections now transferred to
			// the tweak node's tweak element, this source element can be reset
			dagMod.commandToExecute( MString( "setAttr " ) + shapePath.fullPathName() + ".pnts[" + logicalIndex + "] 0 0 0" );									
			
			//MGlobal::displayInfo( MString(" tweak: ") + tweakIndices[i] + ": " + tweaks[i].x + ", " + tweaks[i].y + ", " + tweaks[i].z + "\n" );
		}
	}

	return MS::kSuccess;
}
コード例 #2
0
MStatus	Molecule3Cmd::redoIt()
{
	MStatus stat;
	MDagPath dagPath;
	MFnMesh meshFn;
		
	// Create a ball
	int nBallPolys;
	MPointArray ballVerts;
	MIntArray ballPolyCounts;
	MIntArray ballPolyConnects;
	MFloatArray ballUCoords;
	MFloatArray ballVCoords;
	MIntArray ballFvUVIDs;
	genBall( MPoint::origin, ballRodRatio * radius.value(), segs, nBallPolys, 
			 ballVerts, ballPolyCounts, ballPolyConnects,
			 true, ballUCoords, ballVCoords, ballFvUVIDs );
		
	unsigned int i, j, vertOffset;
	MPointArray meshVerts;
	MPoint p0, p1;
	MObject objTransform;
	
	// Setup for rods
	int nRodPolys;
	MPointArray rodVerts;
	MIntArray rodPolyCounts;
	MIntArray rodPolyConnects;
	MFloatArray rodUCoords;
	MFloatArray rodVCoords;
	MIntArray rodFvUVIDs;
	
	// Setup for newMesh
	int nNewPolys;
	MPointArray newVerts;
	MIntArray newPolyCounts;
	MIntArray newPolyConnects;
	MFloatArray newUCoords;
	MFloatArray newVCoords;
	MIntArray newFvUVIDs;
	
	int uvOffset; 
	MDagModifier dagMod;
	MFnDagNode dagFn;
	
	objTransforms.clear();
	
	// Iterate over the meshes
	unsigned int mi;
	for( mi=0; mi < selMeshes.length(); mi++ )
	{								
		dagPath = selMeshes[mi];
		meshFn.setObject( dagPath );
		
		uvOffset = 0;
		nNewPolys = 0;
		newVerts.clear();
		newPolyCounts.clear();
		newPolyConnects.clear();
		newUCoords.clear();
		newVCoords.clear();
		newFvUVIDs.clear();
		
		// Generate balls
		meshFn.getPoints( meshVerts, MSpace::kWorld );
		for( i=0; i < meshVerts.length(); i++ )
		{
			vertOffset = newVerts.length();
			
			// Add the ball to the new mesh
			nNewPolys += nBallPolys;
			
			// Move the ball vertices to the mesh vertex. Add it to the newMesh
			for( j=0; j < ballVerts.length(); j++ )
				newVerts.append( meshVerts[i] + ballVerts[j] );
				
			for( j=0; j < ballPolyCounts.length(); j++ )
				newPolyCounts.append( ballPolyCounts[j] );
				
			for( j=0; j < ballPolyConnects.length(); j++ )
				newPolyConnects.append( vertOffset + ballPolyConnects[j] );
		
			// Only add the uv coordinates once, since they are shared
			// by all balls
			if( i == 0 )
			{
				for( j=0; j < ballUCoords.length(); j++ )
				{
					newUCoords.append( ballUCoords[j] );
					newVCoords.append( ballVCoords[j] );
				}				
			}
			
			for( j=0; j < ballFvUVIDs.length(); j++ )
			{
				newFvUVIDs.append( uvOffset + ballFvUVIDs[j] );
			}
		}
		
		uvOffset = newUCoords.length();
		
		// Generate rods
		int nRods = 0;
		MItMeshEdge edgeIter( dagPath );
		for( ; !edgeIter.isDone(); edgeIter.next(), nRods++  )
		{	
			p0 = edgeIter.point( 0, MSpace::kWorld );		
			p1 = edgeIter.point( 1, MSpace::kWorld );
			
			// N.B. Generate the uv coordinates only once since they
			// are referenced by all rods
			genRod( p0, p1, 
					radius.value(), segs, nRodPolys, 
					rodVerts, rodPolyCounts, rodPolyConnects,
					nRods == 0,	rodUCoords, rodVCoords,
					rodFvUVIDs ); 

			vertOffset = newVerts.length();
			
			// Add the rod to the mesh
			nNewPolys += nRodPolys;
			
			for( i=0; i < rodVerts.length(); i++ )
				newVerts.append( rodVerts[i] );
				
			for( i=0; i < rodPolyCounts.length(); i++ )
				newPolyCounts.append( rodPolyCounts[i] );
				
			for( i=0; i < rodPolyConnects.length(); i++ )
				newPolyConnects.append( vertOffset + rodPolyConnects[i] );

			// First rod
			if( nRods == 0 )
			{
				// Add rod's uv coordinates to the list
				for( i=0; i < rodUCoords.length(); i++ )
				{
					newUCoords.append( rodUCoords[i] );
					newVCoords.append( rodVCoords[i] );
				}
			}
			
			// Set the face-vertex-uvIDs
			for( i=0; i < rodFvUVIDs.length(); i++ )
			{
				newFvUVIDs.append( uvOffset + rodFvUVIDs[i] );
			}
		}
		
		objTransform = meshFn.create( newVerts.length(), nNewPolys, newVerts, 
									  newPolyCounts, newPolyConnects,
									  newUCoords, newVCoords, 
									  MObject::kNullObj, &stat ); 
		if( !stat )
		{
			MGlobal::displayError( MString( "Unable to create mesh: " ) + stat.errorString() );
			return stat;
		}	
		
		objTransforms.append( objTransform );
				
		meshFn.assignUVs( newPolyCounts, newFvUVIDs );
				
		meshFn.updateSurface();
		
		// Rename transform node
		dagFn.setObject( objTransform );
		dagFn.setName( "molecule" );
				
		// Put mesh into the initial shading group
		dagMod.commandToExecute( MString( "sets -e -fe initialShadingGroup " ) + meshFn.name() );
	}

	// Select all the newly created molecule meshes
	MString cmd( "select -r" );
	for( i=0; i < objTransforms.length(); i++ )
	{
		dagFn.setObject( objTransforms[i] );
		cmd += " " + dagFn.name();	
	}

	dagMod.commandToExecute( cmd );
	
	return dagMod.doIt();
}