Ejemplo n.º 1
0
MStatus ProxyViz::initialize()
{ 
	MFnNumericAttribute numFn;
	MStatus			 stat;
	
	alodgatehigh = numFn.create( "lodGateMax", "ldmx", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	numFn.setMin(0.001f);
	numFn.setMax(2.f);
	addAttribute(alodgatehigh);
	
	alodgatelow = numFn.create( "lodGateMin", "ldmin", MFnNumericData::kFloat, 0.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	numFn.setMin(0.f);
	numFn.setMax(0.999f);
	addAttribute(alodgatelow);

	abboxminx = numFn.create( "bBoxMinX", "bbmnx", MFnNumericData::kFloat, -1.f );
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxminx);
	
	abboxminy = numFn.create( "bBoxMinY", "bbmny", MFnNumericData::kFloat, -1.f );
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxminy);
	
	abboxminz = numFn.create( "bBoxMinZ", "bbmnz", MFnNumericData::kFloat, -1.f );
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxminz);
	
	abboxmaxx = numFn.create( "bBoxMaxX", "bbmxx", MFnNumericData::kFloat, 1.f );
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxmaxx);
	
	abboxmaxy = numFn.create( "bBoxMaxY", "bbmxy", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxmaxy);
	
	abboxmaxz = numFn.create( "bBoxMaxZ", "bbmxz", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	addAttribute(abboxmaxz);
	
	aradiusMult = numFn.create( "radiusMultiplier", "rml", MFnNumericData::kFloat);
	numFn.setStorable(true);
	numFn.setKeyable(true);
	numFn.setDefault(1.f);
	numFn.setMin(.05f);
	addAttribute(aradiusMult);
	
	axmultiplier = numFn.create( "visualMultiplierX", "vmx", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	numFn.setMin(0.001f);
	addAttribute(axmultiplier);	
	aymultiplier = numFn.create( "visualMultiplierY", "vmy", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	numFn.setMin(0.001f);
	addAttribute(aymultiplier);
	
	azmultiplier = numFn.create( "visualMultiplierZ", "vmz", MFnNumericData::kFloat, 1.f);
	numFn.setKeyable(true);
	numFn.setStorable(true);
	numFn.setMin(0.001f);
	addAttribute(azmultiplier);
	
	agroupcount = numFn.create( "numberInstances", "nis", MFnNumericData::kInt, 1);
	numFn.setKeyable(false);
	numFn.setStorable(true);
	numFn.setMin(1);
	addAttribute(agroupcount);
	
	ainstanceId = numFn.create( "instanceId", "iis", MFnNumericData::kInt, 0);
	numFn.setKeyable(false);
	numFn.setStorable(true);
	numFn.setMin(0);
	addAttribute(ainstanceId);

	MFnTypedAttribute typedAttrFn;
	MVectorArray defaultVectArray;
	MFnVectorArrayData vectArrayDataFn;
	vectArrayDataFn.create( defaultVectArray );
	outPositionPP = typedAttrFn.create( "outPosition",
											"opos",
											MFnData::kVectorArray,
											vectArrayDataFn.object(),
											&stat );
												
												if(!stat) MGlobal::displayWarning("failed create pospp");

	typedAttrFn.setStorable(false);
	if(addAttribute( outPositionPP ) != MS::kSuccess) MGlobal::displayWarning("failed add pospp");
	
	outScalePP = typedAttrFn.create( "outScale",
											"oscl",
											MFnData::kVectorArray,
											vectArrayDataFn.object(),
											&stat );
												
												if(!stat) MGlobal::displayWarning("failed create sclpp");

        typedAttrFn.setStorable(false);
        if(addAttribute(outScalePP) != MS::kSuccess) MGlobal::displayWarning("failed add sclpp");
		
	outRotationPP = typedAttrFn.create( "outRotation",
											"orot",
											MFnData::kVectorArray,
											vectArrayDataFn.object(),
											&stat );
												
												if(!stat) MGlobal::displayWarning("failed create rotpp");

        typedAttrFn.setStorable(false);
        if(addAttribute(outRotationPP) != MS::kSuccess) MGlobal::displayWarning("failed add rotpp");
		
	MDoubleArray defaultDArray;
	MFnDoubleArrayData dArrayDataFn;
	dArrayDataFn.create( defaultDArray );
	
	outReplacePP = typedAttrFn.create( "outReplace", "orpl",
									MFnData::kDoubleArray, dArrayDataFn.object(),
									&stat );
											
	if(stat != MS::kSuccess) {
		MGlobal::displayWarning("failed create outReplace");
	}
	
	typedAttrFn.setStorable(false);
	
	stat = addAttribute(outReplacePP);
	if(stat != MS::kSuccess) {
		MGlobal::displayWarning("failed add outReplace");
	}
	
    outValue = numFn.create( "outValue", "ov", MFnNumericData::kFloat );
	numFn.setStorable(false);
	numFn.setWritable(false);
	addAttribute(outValue);
	
	outValue1 = numFn.create( "outValue1", "ov1", MFnNumericData::kFloat );
	numFn.setStorable(false);
	numFn.setWritable(false);
	addAttribute(outValue1);
	
	MFnTypedAttribute   stringAttr;
	acachename = stringAttr.create( "cachePath", "cp", MFnData::kString );
 	stringAttr.setStorable(true);
	addAttribute( acachename );
	
	astandinNames = stringAttr.create( "standinNames", "sdn", MFnData::kString );
 	stringAttr.setStorable(true);
	stringAttr.setArray(true);
	addAttribute(astandinNames);
	
	MFnMatrixAttribute matAttr;
	acameraspace = matAttr.create( "cameraSpace", "cspc", MFnMatrixAttribute::kDouble );
 	matAttr.setStorable(false);
	matAttr.setWritable(true);
	matAttr.setConnectable(true);
	addAttribute(acameraspace);
	
	ahapeture = numFn.create( "horizontalFilmAperture", "hfa", MFnNumericData::kDouble, 1.0 );
	numFn.setStorable(false);
	numFn.setConnectable(true);
	addAttribute( ahapeture );
	
	avapeture = numFn.create( "verticalFilmAperture", "vfa", MFnNumericData::kDouble, 1.0 );
	numFn.setStorable(false);
	numFn.setConnectable(true);
	addAttribute( avapeture );
	
	afocallength = numFn.create( "focalLength", "fl", MFnNumericData::kDouble );
	numFn.setStorable(false);
	numFn.setConnectable(true);
	addAttribute( afocallength );
	
	aconvertPercentage = numFn.create( "convertPercentage", "cvp", MFnNumericData::kDouble );
	numFn.setStorable(false);
	numFn.setConnectable(true);
	numFn.setDefault(1.0);
	numFn.setMax(1.0);
	numFn.setMin(0.01);
	addAttribute(aconvertPercentage);
    
    agroundMesh = typedAttrFn.create("groundMesh", "grdm", MFnMeshData::kMesh);
	typedAttrFn.setStorable(false);
	typedAttrFn.setWritable(true);
	typedAttrFn.setConnectable(true);
    typedAttrFn.setArray(true);
    typedAttrFn.setDisconnectBehavior(MFnAttribute::kDelete);
	addAttribute( agroundMesh );
	attributeAffects(agroundMesh, outValue);
	
	agroundSpace = matAttr.create("groundSpace", "grdsp", MFnMatrixAttribute::kDouble);
	matAttr.setStorable(false);
	matAttr.setWritable(true);
	matAttr.setConnectable(true);
    matAttr.setArray(true);
    matAttr.setDisconnectBehavior(MFnAttribute::kDelete);
	addAttribute( agroundSpace );
	attributeAffects(agroundSpace, outValue);
	
	MPointArray defaultPntArray;
	MFnPointArrayData pntArrayDataFn;
	pntArrayDataFn.create( defaultPntArray );
	aplantTransformCache = typedAttrFn.create( "transformCachePlant",
											"tmcpl",
											MFnData::kPointArray,
											pntArrayDataFn.object(),
											&stat );
    typedAttrFn.setStorable(true);
	addAttribute(aplantTransformCache);
	
	MIntArray defaultIntArray;
	MFnIntArrayData intArrayDataFn;
	
	intArrayDataFn.create( defaultIntArray );
	aplantIdCache = typedAttrFn.create( "idCachePlant",
											"idcpl",
											MFnData::kIntArray,
											intArrayDataFn.object(),
											&stat );
    typedAttrFn.setStorable(true);
	addAttribute(aplantIdCache);
	
	aplantTriangleIdCache = typedAttrFn.create( "triCachePlant",
											"trcpl",
											MFnData::kIntArray,
											intArrayDataFn.object(),
											&stat );
    typedAttrFn.setStorable(true);
	addAttribute(aplantTriangleIdCache);
	
	aplantTriangleCoordCache = typedAttrFn.create( "coordCachePlant",
											"crcpl",
											MFnData::kVectorArray,
											vectArrayDataFn.object(),
											&stat );
    typedAttrFn.setStorable(true);
	addAttribute(aplantTriangleCoordCache);
	
	aplantOffsetCache = typedAttrFn.create( "offsetCachePlant",
											"otcpl",
											MFnData::kVectorArray,
											vectArrayDataFn.object(),
											&stat );
    typedAttrFn.setStorable(true);
	addAttribute(aplantOffsetCache);
	
	ainexamp = typedAttrFn.create("inExample", "ixmp", MFnData::kPlugin);
	typedAttrFn.setStorable(false);
	typedAttrFn.setConnectable(true);
	typedAttrFn.setArray(true);
	addAttribute(ainexamp);
    
    adisplayVox = numFn.create( "showVoxelThreshold", "svt", MFnNumericData::kFloat );
	numFn.setDefault(1.0);
    numFn.setMin(.7);
    numFn.setMax(1.0);
    numFn.setStorable(true);
	numFn.setKeyable(true);
    addAttribute(adisplayVox);
	
	acheckDepth = numFn.create( "checkDepth", "cdp", MFnNumericData::kBoolean );
	numFn.setDefault(0);
	numFn.setStorable(false);
	addAttribute(acheckDepth);
	
	ainoverscan = numFn.create( "cameraOverscan", "cos", MFnNumericData::kDouble );
	numFn.setDefault(1.33);
	numFn.setStorable(false);
	addAttribute(ainoverscan);
    
    aactivated = numFn.create( "activated", "act", MFnNumericData::kBoolean );
	numFn.setDefault(0);
	numFn.setStorable(false);
	addAttribute(aactivated);
    
	attributeAffects(ainexamp, outValue1);
	attributeAffects(aradiusMult, outValue1);
	attributeAffects(abboxminx, outValue);
	attributeAffects(abboxmaxx, outValue);
	attributeAffects(abboxminy, outValue);
	attributeAffects(abboxmaxy, outValue);
	attributeAffects(abboxminz, outValue);
	attributeAffects(abboxmaxz, outValue);
	attributeAffects(outPositionPP, outValue);
	
	return MS::kSuccess;
}
Ejemplo n.º 2
0
MStatus SargassoNode::initialize()
{
	MFnNumericAttribute nAttr;
	MStatus				status;

	MFnTypedAttribute typedAttr;
    
    MFnMatrixAttribute pimAttr;
    aconstraintParentInverseMatrix = pimAttr.create( "constraintParentInvMat", "cpim", MFnMatrixAttribute::kDouble, &status );
    pimAttr.setArray(true);	
    pimAttr.setStorable(false);	
    pimAttr.setDisconnectBehavior(MFnAttribute::kDelete);
	
    status = addAttribute(aconstraintParentInverseMatrix);
	if (!status) { status.perror("addAttribute parent inverse matrix"); return status;}
    
    MFnNumericAttribute numAttr;
    constraintTranslateX = numAttr.create( "constraintTranslateX", "ctx", MFnNumericData::kDouble, 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintTranslateX");
        return status;
    }
    
    constraintTranslateY = numAttr.create( "constraintTranslateY", "cty", MFnNumericData::kDouble, 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintTranslateY");
        return status;
    }
    
    constraintTranslateZ = numAttr.create( "constraintTranslateZ", "ctz", MFnNumericData::kDouble, 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintTranslateY");
        return status;
    }
    
    MFnUnitAttribute angleAttr;
    constraintRotateX = angleAttr.create( "constraintRotateX", "crx", MFnUnitAttribute::kAngle , 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintRotateX");
        return status;
    }
    
    constraintRotateY = angleAttr.create( "constraintRotateY", "cry", MFnUnitAttribute::kAngle , 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintRotateY");
        return status;
    }
    
    constraintRotateZ = angleAttr.create( "constraintRotateZ", "crz", MFnUnitAttribute::kAngle , 0.0, &status );
    if(!status) {
        MGlobal::displayInfo("failed to create attrib constraintRotateY");
        return status;
    }
    
	{	// Compound target(geometry,weight): array, delete on disconnect
		MFnCompoundAttribute compoundAttr;
		compoundOutput = compoundAttr.create( "outValue", "otv",&status );
		if (!status) { status.perror("compoundAttr.create"); return status;}
        status = compoundAttr.addChild( constraintTranslateX );
		if (!status) { status.perror("compoundAttr.addChild tx"); return status;}
		status = compoundAttr.addChild( constraintTranslateY );
		if (!status) { status.perror("compoundAttr.addChild ty"); return status;}
		status = compoundAttr.addChild( constraintTranslateZ );
		if (!status) { status.perror("compoundAttr.addChild tz"); return status;}
		compoundAttr.addChild( constraintRotateX );
        compoundAttr.addChild( constraintRotateY );
        compoundAttr.addChild( constraintRotateZ );
        compoundAttr.setArray( true );
		//status = compoundAttr.setDisconnectBehavior(MFnAttribute::kDelete);
		//if (!status) { status.perror("typedAttrKeyable.setDisconnectBehavior:cgeom"); return status;}
	}

	status = addAttribute( compoundOutput );
	if (!status) { status.perror("addAttribute"); return status;}
    
	MPointArray defaultPntArray;
	MFnPointArrayData pntArrayDataFn;
	pntArrayDataFn.create( defaultPntArray );
	
	atargetRestP = typedAttr.create( "targetRestP", "tgrp", MFnData::kPointArray, pntArrayDataFn.object());
 	typedAttr.setStorable(true);
 	addAttribute(atargetRestP);
	
	MIntArray defaultIntArray;
	MFnIntArrayData intArrayDataFn;
	intArrayDataFn.create( defaultIntArray );
	
	atargetTri = typedAttr.create( "targetTriangle", "tgtri", MFnData::kIntArray, intArrayDataFn.object());
 	typedAttr.setStorable(true);
 	addAttribute(atargetTri);
	
	atargetBind = typedAttr.create( "targetBindId", "tgbdi", MFnData::kIntArray, intArrayDataFn.object());
 	typedAttr.setStorable(true);
 	addAttribute(atargetBind);
    
    aobjTri = typedAttr.create( "objectTriId", "obti", MFnData::kIntArray, intArrayDataFn.object());
 	typedAttr.setStorable(true);
 	addAttribute(aobjTri);
	
	atargetNv = numAttr.create( "targetNumV", "tgnv", MFnNumericData::kInt, 0, &status );
    addAttribute(atargetNv);
	
	atargetNt = numAttr.create( "targetNumTri", "tgnt", MFnNumericData::kInt, 0, &status );
    addAttribute(atargetNt);
	
	MVectorArray defaultVectArray;
	MFnVectorArrayData vectArrayDataFn;
	vectArrayDataFn.create( defaultVectArray );
	
	aobjLocal = typedAttr.create( "objectLocalP", "oblp", MFnData::kVectorArray, vectArrayDataFn.object());
 	typedAttr.setStorable(true);
 	addAttribute(aobjLocal);
	
	aobjN = numAttr.create( "objectCount", "obct", MFnNumericData::kInt, 0, &status );
    addAttribute(aobjN);
	
	atargetMesh = typedAttr.create("targetMesh", "tgms", MFnMeshData::kMesh, &status);
	typedAttr.setStorable(false);
	addAttribute(atargetMesh);
	
    attributeAffects(atargetMesh, compoundOutput);
    // attributeAffects(aconstraintParentInverseMatrix, compoundOutput);

	return MS::kSuccess;
}