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//- // ========================================================================== // Copyright 1995,2006,2008 Autodesk, Inc. All rights reserved. // // Use of this software is subject to the terms of the Autodesk // license agreement provided at the time of installation or download, // or which otherwise accompanies this software in either electronic // or hard copy form. // ========================================================================== //+ // // lineManip.cpp // Creates manipulator node lineManip // Creates command lineManipCmd // // This example demonstrates how to use the MPxManipulatorNode // class along with a command to create a user defined // manipulator. The manipulator created is a simple line // which is an OpenGL pickable component. As you // move the pickable component, selected transforms have // their scale attribute modified. The line's movements // are restricted in a plane. // A corresponding command is used to create and delete // the manipulator node and to support undo/redo etc. /* // To show this example using MEL, run the following: loadPlugin lineManip.so; lineManipCmd -create; // To delete the manipulator using MEL: lineManipCmd -delete; */ #include "lineManip.h" #include <maya/MHardwareRenderer.h> #include <maya/MIOStream.h> #include <maya/MMatrix.h> #include <maya/MPoint.h> #include <maya/MVector.h> #include <maya/MSelectionList.h> #include <maya/MItSelectionList.h> #include <maya/MFnTransform.h> #include <maya/MGlobal.h> #include <maya/MFnCamera.h> #include <maya/MTemplateCommand.h> // Statics MTypeId lineManip::id( 0x81047 ); // Utility class for returning line points class lineGeometry { public: static MPoint topPoint() { return MPoint( 1.0f, 1.0f, 0.0f ); } static MPoint bottomPoint() { return MPoint( 1.0f, -1.0f, 0.0f ); } static MPoint otherPoint() { return MPoint( 2.0f, -1.0f, 0.0f ); } }; // // class implementation // lineManip::lineManip() { // Setup the plane with a point on the // plane along with a normal MPoint pointOnPlane(lineGeometry::topPoint()); // Normal = cross product of two vectors on the plane MVector normalToPlane = (MVector(lineGeometry::topPoint()) - MVector(lineGeometry::otherPoint())) ^ (MVector(lineGeometry::otherPoint()) - MVector(lineGeometry::bottomPoint())); // Necessary to normalize normalToPlane.normalize(); // Plane defined by a point and a normal plane.setPlane( pointOnPlane, normalToPlane ); } lineManip::~lineManip() { // No-op } // virtual void lineManip::draw(M3dView &view, const MDagPath &path, M3dView::DisplayStyle style, M3dView::DisplayStatus status) { // Initialize GL function table first time through static MGLFunctionTable *gGLFT = 0; if ( 0 == gGLFT ) gGLFT = MHardwareRenderer::theRenderer()->glFunctionTable(); // Are we in the right view MDagPath dpath; view.getCamera(dpath); MFnCamera viewCamera(dpath); const char *nameBuffer = viewCamera.name().asChar(); if ( 0 == nameBuffer ) return; if ( ( 0 == strstr(nameBuffer,"persp") ) && ( 0 == strstr(nameBuffer,"front") ) ) return; // Populate the point arrays which are in local space float top[4],bottom[4]; lineGeometry::topPoint().get(top); lineGeometry::bottomPoint().get(bottom); // Depending on what's active, we modify the // end points with mouse deltas in local // space MGLuint active = 0; if ( glActiveName( active ) ) { float *a = 0,*b = 0; if ( active == lineName ) { a = &top[0]; b = &bottom[0]; } if ( active != 0 ) { a[0] += (float) mousePointGlName.x; a[1] += (float) mousePointGlName.y; a[2] += (float) mousePointGlName.z; b[0] += (float) mousePointGlName.x; b[1] += (float) mousePointGlName.y; b[2] += (float) mousePointGlName.z; } } // Begin the drawing view.beginGL(); // Get the starting value of the pickable items MGLuint glPickableItem; glFirstHandle( glPickableItem ); // Top lineName = glPickableItem; // Place before you draw the manipulator component that can // be pickable. colorAndName( view, glPickableItem, true, mainColor() ); gGLFT->glBegin( MGL_LINES ); gGLFT->glVertex3fv( top ); gGLFT->glVertex3fv( bottom ); gGLFT->glEnd(); // End the drawing view.endGL(); } // virtual MStatus lineManip::doPress( M3dView& view ) { // Reset the mousePoint information on // a new press mousePointGlName = MPoint::origin; updateDragInformation(); return MS::kSuccess; } // virtual MStatus lineManip::doDrag( M3dView& view ) { updateDragInformation(); return MS::kSuccess; } // virtual MStatus lineManip::doRelease( M3dView& view ) { // Scale nodes on the selection list. // Simple implementation that does not // support undo. MSelectionList list; MGlobal::getActiveSelectionList( list ); for ( MItSelectionList iter( list ); !iter.isDone(); iter.next() ) { MObject node; MStatus status; iter.getDependNode( node ); MFnTransform xform( node, &status ); if ( MS::kSuccess == status ) { double newScale[3]; newScale[0] = mousePointGlName.x + 1; newScale[1] = mousePointGlName.y + 1; newScale[2] = mousePointGlName.z + 1; xform.setScale( newScale ); } } return MS::kSuccess; } MStatus lineManip::updateDragInformation() { // Find the mouse point in local space MPoint localMousePoint; MVector localMouseDirection; if ( MS::kFailure == mouseRay( localMousePoint, localMouseDirection) ) return MS::kFailure; // Find the intersection of the mouse point with the // manip plane MPoint mouseIntersectionWithManipPlane; if ( ! plane.intersect( localMousePoint, localMouseDirection, mouseIntersectionWithManipPlane ) ) return MS::kFailure; mousePointGlName = mouseIntersectionWithManipPlane; MGLuint active = 0; if ( glActiveName( active ) ) { float start[4],end[4]; if ( active == lineName ) { lineGeometry::topPoint().get(start); lineGeometry::bottomPoint().get(end); } if ( active != 0 ) { lineMath line; // Find a vector on the plane MPoint a( start[0], start[1], start[2] ); MPoint b( end[0], end[1], end[2] ); MPoint vab = a - b; // Define line with a point and a vector on the plane line.setLine( start, vab ); MPoint cpt; // Find the closest point so that we can get the // delta change of the mouse in local space if ( line.closestPoint( mousePointGlName, cpt ) ) { mousePointGlName.x -= cpt.x; mousePointGlName.y -= cpt.y; mousePointGlName.z -= cpt.z; } } } return MS::kFailure; } // // Template command that creates and deletes the manipulator // class lineManipCmd; char cmdName[] = "lineManipCmd"; char nodeName[] = "simpleLineManip"; // lineManip already taken class lineManipCmd : public MTemplateCreateNodeCommand<lineManipCmd,cmdName,nodeName> { public: // lineManipCmd() {} }; static lineManipCmd _lineManipCmd; // // Static methods // void* lineManip::creator() { return new lineManip(); } MStatus lineManip::initialize() { return MS::kSuccess; } // // Entry points // MStatus initializePlugin( MObject obj ) { MStatus status; MFnPlugin plugin( obj, PLUGIN_COMPANY, "2009", "Any"); status = plugin.registerNode( nodeName, lineManip::id, lineManip::creator, lineManip::initialize, MPxNode::kManipulatorNode ); if (!status) { status.perror("registerNode"); return status; } status = _lineManipCmd.registerCommand( obj ); if (!status) { status.perror("registerCommand"); return status; } return status; } MStatus uninitializePlugin( MObject obj ) { MStatus status; MFnPlugin plugin( obj ); status = plugin.deregisterNode( lineManip::id ); if (!status) { status.perror("deregisterNode"); return status; } status = _lineManipCmd.deregisterCommand( obj ); if (!status) { status.perror("deregisterCommand"); return status; } return status; }