void parseArgs(MArgList args)
{
string arg = "";
MSelectionList list = new MSelectionList();
bool charNameUsed = false;
string charName;
const string charFlag = "-c";
const string charFlagLong = "-char";
for (uint i = 0; i < args.length; i++)
{
arg = args.asString(i);
if (arg == charFlag || arg == charFlagLong)
{
// get the char name
//
if (i == args.length - 1)
{
arg += ": must specify a character name";
throw new ArgumentException(arg, "args");
}
i++;
charName = args.asString(i);
list.add(charName);
charNameUsed = true;
}
else
{
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
if (charNameUsed)
{
// get the character corresponding to the node name
//
MItSelectionList iter = new MItSelectionList(list);
for (; iter.isDone; iter.next())
{
MObject node = new MObject();
iter.getDependNode(node);
if (node.apiType == MFn.Type.kCharacter)
{
fCharacter = node;
break;
}
}
if (fCharacter.isNull)
{
throw new ApplicationException("Unable to get the character corresponding to the node name.");
}
}
}
void parseArgs(MArgList args)
{
string arg = "";
MSelectionList list = new MSelectionList();
bool charNameUsed = false;
string charName;
const string charFlag = "-c";
const string charFlagLong = "-char";
for (uint i = 0; i < args.length; i++)
{
arg = args.asString(i);
if (arg == charFlag || arg == charFlagLong)
{
// get the char name
//
if (i == args.length - 1)
{
arg += ": must specify a character name";
throw new ArgumentException(arg, "args");
}
i++;
charName = args.asString(i);
list.add(charName);
charNameUsed = true;
}
else
{
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
if (charNameUsed)
{
// get the character corresponding to the node name
//
MItSelectionList iter = new MItSelectionList(list);
for (; iter.isDone; iter.next())
{
MObject node = new MObject();
iter.getDependNode(node);
if (node.apiType == MFn.Type.kCharacter)
{
fCharacter = node;
break;
}
}
if (fCharacter.isNull)
{
throw new ApplicationException("Unable to get the character corresponding to the node name.");
}
}
}
public void parseArgs(MArgList args)
{
string arg;
string fileName = "";
string fileFlag = "-f";
string fileFlagLong = "-file";
// Parse the arguments.
for (uint i = 0; i < args.length; i++)
{
try
{
arg = args.asString(i);
}
catch (Exception e)
{
MGlobal.displayInfo(e.Message);
continue;
}
if (arg == fileFlag || arg == fileFlagLong)
{
// get the file name
//
if (i == args.length - 1)
{
arg += ": must specify a file name";
throw new ArgumentException(arg, "args");
}
i++;
fileName = args.asString(i);
}
else
{
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
file = File.Open(fileName, FileMode.OpenOrCreate, FileAccess.ReadWrite);
if (file == null)
{
string openError = "Could not open: ";
openError += fileName;
throw new InvalidOperationException(openError);
}
}
public override void doIt(MArgList args)
{
CSharpInterpreter.MayaRootPath = @"D:\Program Files\Autodesk\Maya2015";
var script = args.asString(0);
MGlobal.displayInfo(script);
var scriptArgs = new string[args.length];
for (uint i = 1; i < args.length; ++i)
{
scriptArgs[i - 1] = args.asString(i);
MGlobal.displayInfo(scriptArgs[i - 1]);
}
new CSharpInterpreter(script).Execute(scriptArgs);
}
public override void doIt(MArgList args)
{
uint last = args.length;
if (last > 0)
{
for (uint i = 0; i < last; i++)
{
string argStr = args.asString(i);
if (argStr == "add")
{
if (added)
continue;
MEventMessage.Event[UndoString] += undoCB;
MEventMessage.Event[RedoString] += redoCB;
}
else if (argStr == "remove")
{
if (added)
{
MEventMessage.Event[UndoString] -= undoCB;
MEventMessage.Event[RedoString] -= redoCB;
added = false;
}
}
else
{
throw new ArgumentException("Failure condition", "args");
}
}
}
return;
}
private void parseArgs(MArgList args, ref MItDag.TraversalType traversalType,
MFn.Type filter, ref bool quiet)
{
string arg = "";
const string breadthFlag = "-b";
const string breadthFlagLong = "-breadthFirst";
const string depthFlag = "-d";
const string depthFlagLong = "-depthFirst";
const string cameraFlag = "-c";
const string cameraFlagLong = "-cameras";
const string lightFlag = "-l";
const string lightFlagLong = "-lights";
const string nurbsSurfaceFlag = "-n";
const string nurbsSurfaceFlagLong = "-nurbsSurfaces";
const string quietFlag = "-q";
const string quietFlagLong = "-quiet";
for (uint i = 0; i < args.length; i++)
{
arg = args.asString(i);
if (arg == breadthFlag || arg == breadthFlagLong)
{
traversalType = MItDag.TraversalType.kBreadthFirst;
}
else if (arg == depthFlag || arg == depthFlagLong)
{
traversalType = MItDag.TraversalType.kDepthFirst;
}
else if (arg == cameraFlag || arg == cameraFlagLong)
{
filter = MFn.Type.kCamera;
}
else if (arg == lightFlag || arg == lightFlagLong)
{
filter = MFn.Type.kLight;
}
else if (arg == nurbsSurfaceFlag || arg == nurbsSurfaceFlagLong)
{
filter = MFn.Type.kNurbsSurface;
}
else if (arg == quietFlag || arg == quietFlagLong)
{
quiet = true;
}
else
{
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
}
public void parseArgs(MArgList args)
{
string arg;
string fileName = "";
string fileFlag = "-f";
string fileFlagLong = "-file";
// Parse the arguments.
for ( uint i = 0; i < args.length; i++ )
{
try
{
arg = args.asString(i);
}
catch (Exception e)
{
MGlobal.displayInfo(e.Message);
continue;
}
if ( arg == fileFlag || arg == fileFlagLong )
{
// get the file name
//
if (i == args.length - 1)
{
arg += ": must specify a file name";
throw new ArgumentException(arg, "args");
}
i++;
fileName = args.asString(i);
}
else
{
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
file = File.Open(fileName, FileMode.OpenOrCreate, FileAccess.ReadWrite);
if (file == null)
{
string openError = "Could not open: ";
openError += fileName;
throw new InvalidOperationException(openError);
}
}
/// <summary>
///
/// </summary>
/// <param name="args">order: windowName, lineIndex , buttonIndex</param>
public override void doIt(MArgList args)
{
//Debug.Log("at least do it....");
if (args.length != 3)
{
//Debug.Log("param count error:" + args.length);
return;
}
string wName = args.asString(0);
int lineIndex = args.asInt(1);
int buttonIndex = args.asInt(2);
//Debug.Log("name:" + wName + ",line:" + lineIndex + ",btn:" + buttonIndex);
BasicWindow.ExcuteInDic(wName, lineIndex, buttonIndex);
}
public override void doIt(MArgList args)
{
uint last = args.length;
if (last > 0)
{
for (uint i = 0; i < last; i++)
{
string argStr = args.asString(i);
if (argStr == "add")
{
if (added)
{
continue;
}
MEventMessage.Event[UndoString] += undoCB;
MEventMessage.Event[RedoString] += redoCB;
}
else if (argStr == "remove")
{
if (added)
{
MEventMessage.Event[UndoString] -= undoCB;
MEventMessage.Event[RedoString] -= redoCB;
added = false;
}
}
else
{
throw new ArgumentException("Failure condition", "args");
}
}
}
return;
}
private void parseArgs( MArgList args,ref MItDag.TraversalType traversalType,
MFn.Type filter, ref bool quiet)
{
string arg = "";
const string breadthFlag = "-b";
const string breadthFlagLong = "-breadthFirst";
const string depthFlag = "-d";
const string depthFlagLong = "-depthFirst";
const string cameraFlag = "-c";
const string cameraFlagLong = "-cameras";
const string lightFlag = "-l";
const string lightFlagLong = "-lights";
const string nurbsSurfaceFlag = "-n";
const string nurbsSurfaceFlagLong = "-nurbsSurfaces";
const string quietFlag = "-q";
const string quietFlagLong = "-quiet";
for (uint i = 0; i < args.length; i++)
{
arg = args.asString(i);
if ( arg == breadthFlag || arg == breadthFlagLong )
traversalType = MItDag.TraversalType.kBreadthFirst;
else if ( arg == depthFlag || arg == depthFlagLong )
traversalType = MItDag.TraversalType.kDepthFirst;
else if ( arg == cameraFlag || arg == cameraFlagLong )
filter = MFn.Type.kCamera;
else if ( arg == lightFlag || arg == lightFlagLong )
filter = MFn.Type.kLight;
else if ( arg == nurbsSurfaceFlag || arg == nurbsSurfaceFlagLong )
filter = MFn.Type.kNurbsSurface;
else if ( arg == quietFlag || arg == quietFlagLong )
quiet = true;
else {
arg += ": unknown argument";
throw new ArgumentException(arg, "args");
}
}
}
public override void doIt(MArgList argl)
{
MGlobal.displayInfo("Hello " + argl.asString(0) + "\n");
return;
}
public override void doIt(MArgList argl)
{
MGlobal.displayInfo("Hello " + argl.asString(0) + "\n");
return;
}
//public enum MPCType
//{
// Test = 0,
// BindFinger_CTL_L = 1,
// BindFinger_CTL_R = 2,
// AddRPIK = 3,
// AddRPIKPole = 4,
// AddChildCtl = 5,
// AddParentCtl = 6,
// CreateCTL_CrysTal = 7,
// AddReverseFootBones = 8,
// BindReverseFootRPIK = 9,
// CreateJointsCurve = 10,
// MakeHairJointsChain = 11,
//}
public override void doIt(MArgList args)
{
Debug.Log("at least it enters");
if (args.length == 0)
{
Debug.Log("no param!");
return;
}
string cmdTypeStr = args.asString(0);
string paramStr = args.asString(1);
bool success = InazumaToolEntrance.Execute(cmdTypeStr, paramStr);
if (success)
{
Debug.Log("yep");
}
else
{
Debug.Log("nope");
}
//int type = args.asInt(0);
//MPCType mpcType = (MPCType)type;
//switch (mpcType)
//{
// case MPCType.Test:
// {
// BasicFunc.PrintObjects(BasicFunc.GetSelectedList());
// break;
// }
// case MPCType.BindFinger_CTL_L:
// {
// BindHumanBody.BindFinger(BasicFunc.GetSelectedDagPath(0), "test", false);
// break;
// }
// case MPCType.BindFinger_CTL_R:
// {
// Debug.Log("oh my god it works333");
// break;
// }
// case MPCType.AddRPIK:
// {
// BindHumanBody.BindRPIK();
// break;
// }
// case MPCType.AddRPIKPole:
// {
// BindHumanBody.AddRPIKPole();
// break;
// }
// case MPCType.AddChildCtl:
// {
// BasicFunc.AddChildCircle(BasicFunc.GetSelectedDagPath(0));
// break;
// }
// case MPCType.AddParentCtl:
// {
// BasicFunc.AddParentCircle(BasicFunc.GetSelectedDagPath(0), true);
// break;
// }
// case MPCType.CreateCTL_CrysTal:
// {
// BasicFunc.CreateCTL_Crystal("ctl_sample");
// break;
// }
// case MPCType.AddReverseFootBones:
// {
// BindHumanBody.AddReverseFootBone();
// break;
// }
// case MPCType.BindReverseFootRPIK:
// {
// BindHumanBody.BindReverseFootRPIK();
// break;
// }
// case MPCType.CreateJointsCurve:
// {
// JointProcess.CreateJointsCurve(BasicFunc.GetSelectedList());
// break;
// }
// case MPCType.MakeHairJointsChain:
// {
// DynamicConverter.CurveToHair();
// //JointProcess.MakeJointsHairChain(BasicFunc.GetSelectedList());
// break;
// }
//}
}
public override void doIt(MArgList args)
{
MSelectionList list = new MSelectionList();
if ( args.length > 0 ) {
// Arg list is > 0 so use objects that were passes in
//
uint last = args.length;
for ( uint i = 0; i < last; i++ ) {
// Attempt to find all of the objects matched
// by the string and add them to the list
//
string argStr = args.asString(i);
list.add(argStr);
}
} else {
// Get arguments from Maya's selection list.
MGlobal.getActiveSelectionList(list);
}
MObject node = new MObject();
MObjectArray nodePath = new MObjectArray();
MFnDependencyNode nodeFn = new MFnDependencyNode();
MFnDependencyNode dgNodeFnSet = new MFnDependencyNode();
for (MItSelectionList iter = new MItSelectionList(list); !iter.isDone; iter.next()) {
iter.getDependNode(node);
//
// The following code shows how to navigate the DG manually without
// using an iterator. First, find the attribute that you are
// interested. Then connect a plug to it and see where the plug
// connected to. Once you get all the connections, you can choose
// which route you want to go.
//
// In here, we wanted to get to the nodes that instObjGroups connected
// to since we know that the shadingEngine connects to the instObjGroup
// attribute.
//
nodeFn.setObject( node );
MObject iogAttr = null;
try {
iogAttr = nodeFn.attribute("instObjGroups");
} catch (Exception) {
MGlobal.displayInfo(nodeFn.name + ": is not a renderable object, skipping");
continue;
}
MPlug iogPlug = new MPlug(node, iogAttr);
MPlugArray iogConnections = new MPlugArray();
//
// instObjGroups is a multi attribute. In this example, just the
// first connection will be tried.
//
if (!iogPlug.elementByLogicalIndex(0).connectedTo(iogConnections, false, true)) {
MGlobal.displayInfo(nodeFn.name + ": is not in a shading group, skipping");
continue;
}
//
// Now we would like to traverse the DG starting from the shadingEngine
// since most likely all file texture nodes will be found. Note the
// filter used to initialize the DG iterator. There are lots of filter
// type available in MF.Type that you can choose to suite your needs.
//
bool foundATexture = false;
for ( int i=0; i < iogConnections.length; i++ ) {
MObject currentNode = iogConnections[i].node;
//
// Note that upon initialization, the current pointer of the
// iterator already points to the first valid node.
//
MItDependencyGraph dgIt = new MItDependencyGraph(currentNode,
MFn.Type.kFileTexture,
MItDependencyGraph.Direction.kUpstream,
MItDependencyGraph.Traversal.kBreadthFirst,
MItDependencyGraph.Level.kNodeLevel);
if (dgIt == null)
{
continue;
}
dgIt.disablePruningOnFilter();
for ( ; !dgIt.isDone; dgIt.next() ) {
MObject thisNode = dgIt.thisNode();
dgNodeFnSet.setObject(thisNode);
try {
dgIt.getNodePath(nodePath);
} catch (Exception) {
MGlobal.displayInfo("getNodePath");
continue;
}
//
// append the starting node.
//
nodePath.append(node);
dumpInfo( thisNode, dgNodeFnSet, nodePath );
foundATexture = true;
}
}
if ( !foundATexture ) {
MGlobal.displayInfo(nodeFn.name + ": is not connected to a file texture");
}
}
return;
}
void parseArgs(MArgList args)
{
createdUsed = (args.flagIndex(kCreateFlag, kCreateFlagLong) != MArgList.kInvalidArgIndex);
editUsed = (args.flagIndex(kEditFlag, kEditFlagLong) != MArgList.kInvalidArgIndex);
queryUsed = (args.flagIndex(kQueryFlag, kQueryFlagLong) != MArgList.kInvalidArgIndex);
helpUsed = (args.flagIndex(kHelpFlag, kHelpFlagLong) != MArgList.kInvalidArgIndex);
numLayersUsed = (args.flagIndex(kNumLayersFlag, kNumLayersFlagLong) != MArgList.kInvalidArgIndex);
// If flags are used which require no other information, return now.
//
if (createdUsed || helpUsed)
return;
uint maxArg = args.length - 1;
uint activeIndex = args.flagIndex(kActiveFlag, kActiveFlagLong);
uint appendCameraIndex = args.flagIndex(kAppendCameraFlag, kAppendCameraFlagLong);
uint appendCameraAndSetIndex = args.flagIndex(kAppendCameraAndSetFlag, kAppendCameraAndSetFlagLong);
uint cameraIndex = args.flagIndex(kCameraFlag, kCameraFlagLong);
uint deleteLayerIndex = args.flagIndex(kDeleteLayerFlag, kDeleteLayerFlagLong);
uint layerIndex = args.flagIndex(kLayerFlag, kLayerFlagLong);
uint layerTypeIndex = args.flagIndex(kLayerTypeFlag, kLayerTypeFlagLong);
uint setIndex = args.flagIndex(kSetFlag, kSetFlagLong);
activeUsed = (activeIndex != MArgList.kInvalidArgIndex);
appendCameraUsed = (appendCameraIndex != MArgList.kInvalidArgIndex);
appendCameraAndSetUsed = (appendCameraAndSetIndex != MArgList.kInvalidArgIndex);
cameraUsed = (cameraIndex != MArgList.kInvalidArgIndex);
deleteLayerUsed = (deleteLayerIndex != MArgList.kInvalidArgIndex);
layerUsed = (layerIndex != MArgList.kInvalidArgIndex);
layerTypeUsed = (layerTypeIndex != MArgList.kInvalidArgIndex);
setUsed = (setIndex != MArgList.kInvalidArgIndex);
// Process each flag.
//
bool maxArgUsed = false;
if (activeUsed)
{
if (editUsed)
{
activeVal = args.asBool((activeIndex + 1));
if ((layerTypeIndex + 1) == maxArg)
maxArgUsed = true;
}
}
if (appendCameraUsed)
{
camName = args.asString((appendCameraIndex + 1));
if ((appendCameraIndex + 1) == maxArg)
maxArgUsed = true;
}
if (appendCameraAndSetUsed)
{
camName = args.asString((appendCameraAndSetIndex + 1));
setName = args.asString((appendCameraAndSetIndex + 2));
if ((appendCameraAndSetIndex + 2) == maxArg)
maxArgUsed = true;
}
if (cameraUsed)
{
if (editUsed)
{
camName = args.asString(cameraIndex + 1);
if ((cameraIndex + 1) == maxArg)
maxArgUsed = true;
}
}
if (deleteLayerUsed)
{
cameraLayer = args.asInt(deleteLayerIndex + 1);
if ((deleteLayerIndex + 1) == maxArg)
maxArgUsed = true;
}
if (layerUsed)
{
cameraLayer = args.asInt(layerIndex + 1);
if ((layerIndex + 1) == maxArg)
maxArgUsed = true;
}
if (layerTypeUsed)
{
if (editUsed)
{
layerTypeVal = args.asString(layerTypeIndex + 1);
if ((layerTypeIndex + 1) == maxArg)
maxArgUsed = true;
}
}
if (setUsed)
{
if (editUsed)
{
setName = args.asString(setIndex + 1);
if ((setIndex + 1) == maxArg)
maxArgUsed = true;
}
}
// If all of the arguments have been used, get the cameraSet node from the selection list.
// Otherwise, get it from the last argument.
//
if (maxArgUsed)
MGlobal.getActiveSelectionList(list);
else
list.add(args.asString(maxArg));
}
public override void doIt(MArgList args)
{
MSelectionList list = new MSelectionList();
if (args.length > 0)
{
// Arg list is > 0 so use objects that were passes in
//
uint last = args.length;
for (uint i = 0; i < last; i++)
{
// Attempt to find all of the objects matched
// by the string and add them to the list
//
string argStr = args.asString(i);
list.add(argStr);
}
}
else
{
// Get arguments from Maya's selection list.
MGlobal.getActiveSelectionList(list);
}
MObject node = new MObject();
MObjectArray nodePath = new MObjectArray();
MFnDependencyNode nodeFn = new MFnDependencyNode();
MFnDependencyNode dgNodeFnSet = new MFnDependencyNode();
for (MItSelectionList iter = new MItSelectionList(list); !iter.isDone; iter.next())
{
iter.getDependNode(node);
//
// The following code shows how to navigate the DG manually without
// using an iterator. First, find the attribute that you are
// interested. Then connect a plug to it and see where the plug
// connected to. Once you get all the connections, you can choose
// which route you want to go.
//
// In here, we wanted to get to the nodes that instObjGroups connected
// to since we know that the shadingEngine connects to the instObjGroup
// attribute.
//
nodeFn.setObject(node);
MObject iogAttr = null;
try {
iogAttr = nodeFn.attribute("instObjGroups");
} catch (Exception) {
MGlobal.displayInfo(nodeFn.name + ": is not a renderable object, skipping");
continue;
}
MPlug iogPlug = new MPlug(node, iogAttr);
MPlugArray iogConnections = new MPlugArray();
//
// instObjGroups is a multi attribute. In this example, just the
// first connection will be tried.
//
if (!iogPlug.elementByLogicalIndex(0).connectedTo(iogConnections, false, true))
{
MGlobal.displayInfo(nodeFn.name + ": is not in a shading group, skipping");
continue;
}
//
// Now we would like to traverse the DG starting from the shadingEngine
// since most likely all file texture nodes will be found. Note the
// filter used to initialize the DG iterator. There are lots of filter
// type available in MF.Type that you can choose to suite your needs.
//
bool foundATexture = false;
for (int i = 0; i < iogConnections.length; i++)
{
MObject currentNode = iogConnections[i].node;
//
// Note that upon initialization, the current pointer of the
// iterator already points to the first valid node.
//
MItDependencyGraph dgIt = new MItDependencyGraph(currentNode,
MFn.Type.kFileTexture,
MItDependencyGraph.Direction.kUpstream,
MItDependencyGraph.Traversal.kBreadthFirst,
MItDependencyGraph.Level.kNodeLevel);
if (dgIt == null)
{
continue;
}
dgIt.disablePruningOnFilter();
for ( ; !dgIt.isDone; dgIt.next())
{
MObject thisNode = dgIt.thisNode();
dgNodeFnSet.setObject(thisNode);
try {
dgIt.getNodePath(nodePath);
} catch (Exception) {
MGlobal.displayInfo("getNodePath");
continue;
}
//
// append the starting node.
//
nodePath.append(node);
dumpInfo(thisNode, dgNodeFnSet, nodePath);
foundATexture = true;
}
}
if (!foundATexture)
{
MGlobal.displayInfo(nodeFn.name + ": is not connected to a file texture");
}
}
return;
}
void parseArgs(MArgList args)
{
createdUsed = (args.flagIndex(kCreateFlag, kCreateFlagLong) != MArgList.kInvalidArgIndex);
editUsed = (args.flagIndex(kEditFlag, kEditFlagLong) != MArgList.kInvalidArgIndex);
queryUsed = (args.flagIndex(kQueryFlag, kQueryFlagLong) != MArgList.kInvalidArgIndex);
helpUsed = (args.flagIndex(kHelpFlag, kHelpFlagLong) != MArgList.kInvalidArgIndex);
numLayersUsed = (args.flagIndex(kNumLayersFlag, kNumLayersFlagLong) != MArgList.kInvalidArgIndex);
// If flags are used which require no other information, return now.
//
if (createdUsed || helpUsed)
{
return;
}
uint maxArg = args.length - 1;
uint activeIndex = args.flagIndex(kActiveFlag, kActiveFlagLong);
uint appendCameraIndex = args.flagIndex(kAppendCameraFlag, kAppendCameraFlagLong);
uint appendCameraAndSetIndex = args.flagIndex(kAppendCameraAndSetFlag, kAppendCameraAndSetFlagLong);
uint cameraIndex = args.flagIndex(kCameraFlag, kCameraFlagLong);
uint deleteLayerIndex = args.flagIndex(kDeleteLayerFlag, kDeleteLayerFlagLong);
uint layerIndex = args.flagIndex(kLayerFlag, kLayerFlagLong);
uint layerTypeIndex = args.flagIndex(kLayerTypeFlag, kLayerTypeFlagLong);
uint setIndex = args.flagIndex(kSetFlag, kSetFlagLong);
activeUsed = (activeIndex != MArgList.kInvalidArgIndex);
appendCameraUsed = (appendCameraIndex != MArgList.kInvalidArgIndex);
appendCameraAndSetUsed = (appendCameraAndSetIndex != MArgList.kInvalidArgIndex);
cameraUsed = (cameraIndex != MArgList.kInvalidArgIndex);
deleteLayerUsed = (deleteLayerIndex != MArgList.kInvalidArgIndex);
layerUsed = (layerIndex != MArgList.kInvalidArgIndex);
layerTypeUsed = (layerTypeIndex != MArgList.kInvalidArgIndex);
setUsed = (setIndex != MArgList.kInvalidArgIndex);
// Process each flag.
//
bool maxArgUsed = false;
if (activeUsed)
{
if (editUsed)
{
activeVal = args.asBool((activeIndex + 1));
if ((layerTypeIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
}
if (appendCameraUsed)
{
camName = args.asString((appendCameraIndex + 1));
if ((appendCameraIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
if (appendCameraAndSetUsed)
{
camName = args.asString((appendCameraAndSetIndex + 1));
setName = args.asString((appendCameraAndSetIndex + 2));
if ((appendCameraAndSetIndex + 2) == maxArg)
{
maxArgUsed = true;
}
}
if (cameraUsed)
{
if (editUsed)
{
camName = args.asString(cameraIndex + 1);
if ((cameraIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
}
if (deleteLayerUsed)
{
cameraLayer = args.asInt(deleteLayerIndex + 1);
if ((deleteLayerIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
if (layerUsed)
{
cameraLayer = args.asInt(layerIndex + 1);
if ((layerIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
if (layerTypeUsed)
{
if (editUsed)
{
layerTypeVal = args.asString(layerTypeIndex + 1);
if ((layerTypeIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
}
if (setUsed)
{
if (editUsed)
{
setName = args.asString(setIndex + 1);
if ((setIndex + 1) == maxArg)
{
maxArgUsed = true;
}
}
}
// If all of the arguments have been used, get the cameraSet node from the selection list.
// Otherwise, get it from the last argument.
//
if (maxArgUsed)
{
MGlobal.getActiveSelectionList(list);
}
else
{
list.add(args.asString(maxArg));
}
}
