Exemplos de MFnNurbsSurface::normal em C++ (Cpp)

Linguagem de programação: C++ (Cpp)

Classe / Tipo: MFnNurbsSurface

Método / Função: normal

Exemplos em hotexamples.com: 2

MFnNurbsSurface::normal em C++ (Cpp) - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de MFnNurbsSurface::normal em C++ (Cpp) extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Métodos Frequentes

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create(3)

getPointAtParam(3)

getTangents(2)

normal(2)

closestPoint(1)

getCVs(1)

getParamAtPoint(1)

setName(1)

setObject(1)

Métodos Frequentes

create (3)

getPointAtParam (3)

getTangents (2)

normal (2)

closestPoint (1)

getCVs (1)

getParamAtPoint (1)

setName (1)

setObject (1)

Exemplo n.º 1

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Arquivo: SurfaceAttach.cpp Projeto: illmillrig/SurfaceAttach

MTransformationMatrix SurfaceAttach::matrix(const MFnNurbsSurface &fnSurface, const int plugID, const double dataOffset, const bool dataReverse, const short dataGenus, const double dataStaticLength, const MMatrix &dataParentInverse, const short dataDirection) { // Do all the Fancy stuff to input UV values double parmU = this->uInputs[plugID]; double parmV = this->vInputs[plugID]; // Fix U Flipping from 1.0 to 0.0 if (uInputs[plugID] == 1.0 && parmU == 0.0) parmU = 1.0; if (vInputs[plugID] == 1.0 && parmV == 0.0) parmV = 1.0; if (dataDirection == 0) this->calculateUV(plugID, dataOffset, dataReverse, dataGenus, dataStaticLength, parmU); else this->calculateUV(plugID, dataOffset, dataReverse, dataGenus, dataStaticLength, parmV); // Calculate transformations from UV values const MVector normal = fnSurface.normal(parmU, parmV, MSpace::Space::kWorld); MPoint point; fnSurface.getPointAtParam(parmU, parmV, point, MSpace::Space::kWorld); MVector tanU, tanV; fnSurface.getTangents(parmU, parmV, tanU, tanV, MSpace::Space::kWorld); const double dubArray[4][4] = { tanU.x, tanU.y, tanU.z, 0.0, normal.x, normal.y, normal.z, 0.0, tanV.x, tanV.y, tanV.z, 0.0, point.x, point.y, point.z, 1.0 }; const MMatrix mat (dubArray); return MTransformationMatrix (mat * dataParentInverse); }

Exemplo n.º 2

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Arquivo: MG_nurbsRivet.cpp Projeto: bungnoid/MG_Tools

MStatus MG_nurbsRivet::compute(const MPlug& plug,MDataBlock& dataBlock) { //Get recompute value MDataHandle recomputeH = dataBlock.inputValue(recompute); bool recomputeV = recomputeH.asBool(); //input mesh MDataHandle inputNurbsH = dataBlock.inputValue(inputNurbSurface); MObject inputNurb = inputNurbsH.asNurbsSurfaceTransformed(); MMatrix offsetMatrixV = dataBlock.inputValue(offsetMatrix).asMatrix(); double U,V; MFnNurbsSurface nurbsFn ; nurbsFn.setObject(inputNurb); MStatus stat; if (recomputeV == true) { //input point MDataHandle inputPointH = dataBlock.inputValue(inputPoint); MPoint inputP = inputPointH.asVector(); MPoint closestP = nurbsFn.closestPoint(inputP,NULL,NULL,false,1e+99,MSpace::kObject); stat = nurbsFn.getParamAtPoint(closestP,U,V,MSpace::kObject); //Handle to U and V MDataHandle uValueH =dataBlock.outputValue(uValue); MDataHandle vValueH =dataBlock.outputValue(vValue); uValueH.set(float(U)); vValueH.set(float(V)); uValueH.setClean(); vValueH.setClean(); MDataHandle recomputeOutH = dataBlock.outputValue(recompute); } MDataHandle uH = dataBlock.inputValue(uValue); MDataHandle vH = dataBlock.inputValue(vValue); U = uH.asFloat(); V = vH.asFloat(); MPoint outPoint ; MVector uVec ; MVector vVec; MVector normal; //Get point stat = nurbsFn.getPointAtParam(U,V,outPoint,MSpace::kObject); //Since if getting both the U and V tangent was leading to some little rotation snapping //of the rivet I only used the U tangent and calculated the next one by dot product //of the normal and U tangent leading to a 100% stable rivet nurbsFn.getTangents(U,V,uVec,vVec,MSpace::kObject); uVec.normalize(); vVec.normalize(); MVector vVecCross; //Get normal normal = nurbsFn.normal(U,V,MSpace::kObject); normal.normalize(); vVecCross =(uVec^normal); //Build the maya matrix double myMatrix[4][4]={ { uVec.x, uVec.y , uVec.z, 0}, { normal[0], normal[1] , normal[2], 0}, {vVecCross.x, vVecCross.y , vVecCross.z, 0}, { outPoint[0], outPoint[1] , outPoint[2], 1}}; MMatrix rotMatrix (myMatrix); MMatrix offsetMatrixV2 = offsetMatrixV*rotMatrix; MTransformationMatrix matrixFn(offsetMatrixV2); double angles[3]; MTransformationMatrix::RotationOrder rotOrder; rotOrder =MTransformationMatrix::kXYZ; matrixFn.getRotation(angles,rotOrder,MSpace::kObject ); //get back radians value double radX,radY,radZ; radX=angles[0]; radY=angles[1]; radZ=angles[2]; //convert to degree double rotX,rotY,rotZ; rotX = radX*toDeg; rotY = radY*toDeg; rotZ = radZ*toDeg; MDataHandle outputRotateH = dataBlock.outputValue(outputRotate); outputRotateH.set3Double(rotX,rotY,rotZ); outputRotateH.setClean(); //let set the output matrix too MDataHandle outMH= dataBlock.outputValue(outputMatrix); outMH.set(rotMatrix); outMH.setClean(); MDataHandle outputH = dataBlock.outputValue(output); outputH.set(offsetMatrixV2[3][0],offsetMatrixV2[3][1],offsetMatrixV2[3][2]); outputH.setClean(); return MS::kSuccess; }