C++ API Reference
manipOverride/customTriadManip.cpp
//-
// ==========================================================================
// 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.
// ==========================================================================
//+
//
// customTriadManip.cpp
//
// This module demonstrates how to create user-defined manipulators
// from a user-defined context and apply the manipulator to the translation
// attribute of a transform node.
//
#include <stdio.h>
#include <maya/MArgList.h>
#include <maya/MCursor.h>
#include <maya/MDistance.h>
#include <maya/MEulerRotation.h>
#include <maya/MFn.h>
#include <maya/MFnCamera.h>
#include <maya/MFnNumericData.h>
#include <maya/MFnFreePointTriadManip.h>
#include <maya/MFnTransform.h>
#include <maya/MFnUnitAttribute.h>
#include <maya/MGlobal.h>
#include <maya/MItSelectionList.h>
#include <maya/MModelMessage.h>
#include <maya/MIOStream.h>
#include <maya/MPlug.h>
#include <maya/MPoint.h>
#include <maya/MPxNode.h>
#include <maya/MSelectionList.h>
#include "customTriadManip.h"
//
// The customTriadManip manipulator
//
// - This class defines the manipulator which will be used
// when the tool becomes the active context. It consists of
// a single triad manip aligned with the axes of the attached
// transform's coordinate system. The internals of the
// manipulator base class handle the management of command
// information so that undo/redo are handled.
//
MTypeId customTriadManip::id( 0x80026 );
customTriadManip::customTriadManip()
{
// Do not call createChildren from here -
// MayaPtr has not been set up yet.
}
customTriadManip::~customTriadManip()
{
}
void *customTriadManip::creator()
{
return new customTriadManip();
}
MStatus customTriadManip::initialize()
{
MStatus stat;
return stat;
}
MStatus customTriadManip::createChildren()
//
// Description
// Create the geometry of the manip. This consists of a single
// triad manip.
//
{
fTriadManip = addFreePointTriadManip("customtManip", "customPoint");
}
MVector customTriadManip::nodeTranslation() const
//
// Description
// Query and return the translation values for the attached transform node.
//
{
MFnDagNode dagFn(fNodePath);
MDagPath path;
dagFn.getPath(path);
MFnTransform transformFn(path);
return transformFn.getTranslation(MSpace::kWorld);
}
void customTriadManip::updateManipLocations()
//
// Description
// This method places the manip in the scene according to the information
// obtained from the attached transform node. The position and orientation
// of the three distance manips are determined.
//
{
MFnFreePointTriadManip manipFn(fTriadManip);
MVector offset = nodeTranslation();
manipFn.setPoint(offset);
}
MStatus customTriadManip::connectToDependNode(const MObject &node)
//
// Description
// This method activates the manip on the given transform node.
//
{
// Get the DAG path
//
MFnDagNode dagNodeFn(node);
dagNodeFn.getPath(fNodePath);
// Connect the plugs to the manip.
MFnDependencyNode nodeFn(node);
MFnFreePointTriadManip manipFn(fTriadManip);
MPlug cPlug = nodeFn.findPlug("translate", true, &stat);
if( stat == MStatus::kSuccess )
manipFn.connectToPointPlug(cPlug);
finishAddingManips();
updateManipLocations();
return stat;
}
//
// The customTriadManip Context
//
// - Tool contexts are custom event handlers and are used to
// process mouse interactions. The context subclass
// allows you to override press/drag/release events.
//
// This context contains the customTriadManip defined above.
//
#define MOVEHELPSTR "Drag the triad manip to change the translation values"
#define MOVETITLESTR "customTriadManip"
static void updateTriadManipulator(void * data);
static MCallbackId mid = 0;
customTriadCtx::customTriadCtx()
{
MString str(MOVETITLESTR);
setTitleString(str);
}
void customTriadCtx::toolOnSetup(MEvent &)
{
MString str(MOVEHELPSTR);
setHelpString(str);
updateTriadManipulator(this);
MStatus status;
updateTriadManipulator,
this, &status);
if (!status) {
cerr << "Model addCallback failed\n";
}
}
void customTriadCtx::toolOffCleanup()
//
// Description
// This method is called when the context is no longer the current context.
// The manipulator is removed from the scene.
//
{
MStatus status;
if (!status) {
cerr << "Model remove callback failed\n";
}
}
static void updateTriadManipulator(void * data)
//
// Description
// This callback function is called when the selection changes so that the manip can
// be reinitialized on the new current selection.
//
{
// Delete any previously existing manipulators
customTriadCtx * ctxPtr = (customTriadCtx *) data;
ctxPtr->deleteManipulators();
// iterate through the selected objects:
//
MItSelectionList iter(list, MFn::kInvalid, &stat);
if (MS::kSuccess == stat) {
for (; !iter.isDone(); iter.next()) {
// Create the customTriadManip for each object selected.
MString manipName ("customTriadManip");
MObject manipObject;
ctxPtr->caManip = (customTriadManip *) customTriadManip::newManipulator(manipName, manipObject);
if (NULL != ctxPtr->caManip) {
MObject dependNode;
iter.getDependNode(dependNode);
MFnDependencyNode dependNodeFn(dependNode);
ctxPtr->addManipulator(manipObject);
dependNodeFn.findPlug("translate", true, &stat);
if (MStatus::kSuccess != stat) {
ctxPtr->deleteManipulators();
return;
}
ctxPtr->caManip->connectToDependNode(dependNode);
}
}
}
}
MStatus customTriadCtx::doEnterRegion(MEvent &event)
//
// Print the tool description in the help line.
//
{
MString str(MOVEHELPSTR);
return setHelpString(str);
}
//
// Context creation command
//
// This is the command that will be used to create instances
// of our context.
//
MPxContext *customTriadCtxCommand::makeObj()
{
customTriadCtx *newC = new customTriadCtx();
return newC;
}
void *customTriadCtxCommand::creator()
{
return new customTriadCtxCommand;
}