void APITestUtil::COSTests() { // now let's build a test object NURBSSet nset; Matrix3 mat; mat.IdentityMatrix(); // build a cv surface int cvSurf = MakeTestCVSurface(nset, mat); // Now an Iso Curve on the CV surface int isoCrv1 = MakeTestIsoCurveU(nset, cvSurf); // Now an Iso Curve on the CV surface int isoCrv2 = MakeTestIsoCurveV(nset, cvSurf); // build a CV Curve on Surface int cvCOS = MakeTestCurveOnSurface(nset, cvSurf); // build a Point Curve on Surface int pntCOS = MakeTestPointCurveOnSurface(nset, cvSurf); // build a Surface Normal Offset Curve int cnoCrf = MakeTestSurfaceNormalCurve(nset, cvCOS); // build a surface surface intersection curve int cvSurf1 = MakeTestCVSurface(nset, TransMatrix(Point3(0.0, 0.0, -30.0)) * RotateYMatrix(0.5)); int intCrv = MakeTestSurfSurfIntersectionCurve(nset, cvSurf, cvSurf1); // Vector Projection Curve int cvCrv1 = MakeTestCVCurve(nset, TransMatrix(Point3(-100, -200, 40))); int vecCrv = MakeTestProjectVectorCurve(nset, cvSurf, cvCrv1); // Normal Normal Curve int cvCrv2 = MakeTestCVCurve(nset, TransMatrix(Point3(0, -250, 10))); int nrmCrv = MakeTestProjectNormalCurve(nset, cvSurf1, cvCrv2); Object *obj = CreateNURBSObject(mpIp, &nset, mat); INode *node = mpIp->CreateObjectNode(obj); node->SetName(GetString(IDS_COS_TEST_OBJECT)); mpIp->RedrawViews(mpIp->GetTime()); }
void APITestUtil::PointTests() { // now let's build a test object NURBSSet nset; Matrix3 mat; mat.IdentityMatrix(); // 6 types of points... // 1: build an independent point int indPnt = MakeTestPoint(nset); // 2: now a constrained point int ptPnt = MakeTestPointCPoint(nset, indPnt); // build a cv curve int cvCrv = MakeTestCVCurve(nset, mat); // 3: a constrained point on that curve int crvPnt = MakeTestCurveCPoint(nset, cvCrv); // build a cv surface int cvSurf = MakeTestCVSurface(nset, mat); // 4: a constrained point on that surface int srfPnt = MakeTestSurfCPoint(nset, cvSurf); // 5: Curve Curve intersection point int cvCrv1 = MakeTestCVCurve(nset, TransMatrix(Point3(65, 0, 0)) * RotateZMatrix(0.5)); int intPoint = MakeTestCurveCurve(nset, cvCrv, cvCrv1, FALSE); // 6: Curve Surface intersection point. int cvCrv2 = MakeTestCVCurve(nset, RotateXMatrix(PI/2.0f) * TransMatrix(Point3(0, 0, -175))); int srfIntPoint = MakeTestCurveSurface(nset, cvSurf, cvCrv2); Object *obj = CreateNURBSObject(mpIp, &nset, mat); INode *node = mpIp->CreateObjectNode(obj); node->SetName(GetString(IDS_PNT_TEST_OBJECT)); mpIp->RedrawViews(mpIp->GetTime()); }
int APITestUtil::MakeTestMultiCurveTrimSurface(NURBSSet &nset) { int srf = MakeTestCVSurface(nset, TransMatrix(Point3(100, 100, 150))); int cos1 = COS1(nset, srf); int cos2 = COS2(nset, srf); NURBSMultiCurveTrimSurface *s = new NURBSMultiCurveTrimSurface(); s->SetName(GetString(IDS_MULTI_TRIM_SURFACE)); s->SetNSet(&nset); s->SetSurfaceParent(srf); s->AppendCurve(cos1); s->AppendCurve(cos2); // Tell the surface to flip the orientation of the trim. s->SetFlipTrim(TRUE); return nset.AppendObject(s); }
void APITestUtil::SurfaceTests() { // now let's build a test object NURBSSet nset; Matrix3 mat; mat.IdentityMatrix(); // we'll need these curves later for contruction of some surfaces // build a cv curve int cvCrv = MakeTestCVCurve(nset, mat); // now a point curve int ptCrv = MakeTestPointCurve(nset, mat); // make a Transform curve of the point curve int xformCrv = MakeTestXFormCurve(nset, ptCrv); // make an offset of the CV curve int offCrv = MakeTestOffsetCurve(nset, cvCrv); // build a cv surface int cvSurf = MakeTestCVSurface(nset, mat, TRUE); // build a point surface int ptSurf = MakeTestPointSurface(nset, mat); // Blend the two surfaces int blendSurf = MakeTestBlendSurface(nset, cvSurf, ptSurf); // Offset of the blend int offSurf = MakeTestOffsetSurface(nset, blendSurf); // Transform of the Offset int xformSurf = MakeTestXFormSurface(nset, offSurf); // Mirror of the transform surface int mirSurf = MakeTestMirrorSurface(nset, xformSurf); // Make a Ruled surface between two curves int rulSurf = MakeTestRuledSurface(nset, cvCrv, ptCrv); // Make a ULoft surface int uLoftSurf = MakeTestULoftSurface(nset, ptCrv, offCrv, xformCrv); // Make a Extrude surface int extSurf = MakeTestExtrudeSurface(nset, xformCrv); // Make a lathe int lthSurf = MakeTestLatheSurface(nset); // these will build their own curve to work with // UV Loft int uvLoftSurf = MakeTestUVLoftSurface(nset); // 1 Rail Sweep int oneRailSurf = MakeTest1RailSweepSurface(nset); // 2 Rail Sweep int twoRailSurf = MakeTest2RailSweepSurface(nset); // MultiCurveTrim Surface int multiTrimSurf = MakeTestMultiCurveTrimSurface(nset); // N Blend // Cap Surface Object *obj = CreateNURBSObject(mpIp, &nset, mat); INode *node = mpIp->CreateObjectNode(obj); node->SetName(GetString(IDS_SRF_TEST_OBJECT)); mpIp->RedrawViews(mpIp->GetTime()); }
void APITestUtil::CombinedTests() { // now let's build a test object NURBSSet nset; Matrix3 mat; mat.IdentityMatrix(); // build an independent point int indPnt = MakeTestPoint(nset); // now a constrained point int ptPnt = MakeTestPointCPoint(nset, indPnt); // build a cv curve int cvCrv = MakeTestCVCurve(nset, mat); // and a constrained point on that curve int crvPnt = MakeTestCurveCPoint(nset, cvCrv); // now a point curve int ptCrv = MakeTestPointCurve(nset, mat); // Blend the two curves int blendCrv = MakeTestBlendCurve(nset, cvCrv, ptCrv); // make an offset of the CV curve int offCrv = MakeTestOffsetCurve(nset, cvCrv); // make a Transform curve of the point curve int xformCrv = MakeTestXFormCurve(nset, ptCrv); // make a mirror of the blend int mirCrv = MakeTestMirrorCurve(nset, blendCrv); // make a fillet curve (It makes it's own point curves to fillet) int fltCrv = MakeTestFilletCurve(nset); // make a chamfer curve (It makes it's own point curves to fillet) int chmCrv = MakeTestChamferCurve(nset); // build a cv surface int cvSurf = MakeTestCVSurface(nset, mat); // and a constrained point on that surface int srfPnt = MakeTestSurfCPoint(nset, cvSurf); // Curve Surface intersection point. int cvCrv2 = MakeTestCVCurve(nset, RotateXMatrix(PI/2.0f) * TransMatrix(Point3(0, 0, -175))); int srfIntPoint = MakeTestCurveSurface(nset, cvSurf, cvCrv2); // Now an Iso Curve on the CV surface int isoCrv1 = MakeTestIsoCurveU(nset, cvSurf); // Now an Iso Curve on the CV surface int isoCrv2 = MakeTestIsoCurveV(nset, cvSurf); // Now a Surface Edge Curve on the CV surface int surfEdgeCrv = MakeTestSurfaceEdgeCurve(nset, cvSurf); // build a CV Curve on Surface int cvCOS = MakeTestCurveOnSurface(nset, cvSurf); // build a Point Curve on Surface int pntCOS = MakeTestPointCurveOnSurface(nset, cvSurf); // build a Surface Normal Offset Curve int cnoCrf = MakeTestSurfaceNormalCurve(nset, cvCOS); // Make a curve-curve intersection point int curveCurve = MakeTestCurveCurve(nset, isoCrv1, isoCrv2, TRUE); // build a point surface int ptSurf = MakeTestPointSurface(nset, mat); // Blend the two surfaces int blendSurf = MakeTestBlendSurface(nset, cvSurf, ptSurf); // Offset of the blend int offSurf = MakeTestOffsetSurface(nset, blendSurf); // Transform of the Offset int xformSurf = MakeTestXFormSurface(nset, offSurf); // Mirror of the transform surface int mirSurf = MakeTestMirrorSurface(nset, xformSurf); // Make a Ruled surface between two curves int rulSurf = MakeTestRuledSurface(nset, cvCrv, ptCrv); // Make a ULoft surface int uLoftSurf = MakeTestULoftSurface(nset, ptCrv, offCrv, xformCrv); // Make a Extrude surface int extSurf = MakeTestExtrudeSurface(nset, xformCrv); // Make a lathe int lthSurf = MakeTestLatheSurface(nset); // these will build their own curves to work with // UV Loft int uvLoftSurf = MakeTestUVLoftSurface(nset); // 1 Rail Sweep int oneRailSurf = MakeTest1RailSweepSurface(nset); // 2 Rail Sweep int twoRailSurf = MakeTest2RailSweepSurface(nset); // MultiCurveTrim Surface int multiTrimSurf = MakeTestMultiCurveTrimSurface(nset); // Now make the curves and surfaces that we'll use later for the join tests int jc1, jc2, js1, js2; AddObjectsForJoinTests(nset, jc1, jc2, js1, js2); int bc, bs; AddObjectsForBreakTests(nset, bc, bs); Object *obj = CreateNURBSObject(mpIp, &nset, mat); INode *node = mpIp->CreateObjectNode(obj); node->SetName(GetString(IDS_TEST_OBJECT)); NURBSSet addNset; // build a point surface int addptSurf = AddTestPointSurface(addNset); // add an iso curve to the previously created CV Surface NURBSId id = nset.GetNURBSObject(cvSurf)->GetId(); int addIsoCrv = AddTestIsoCurve(addNset, id); AddNURBSObjects(obj, mpIp, &addNset); // now test some changing functionality // Let's change the name of the CVSurface NURBSObject* nObj = nset.GetNURBSObject(cvSurf); nObj->SetName(_T("New CVSurf Name")); // testing only, no need to localize // now let's change the position of one of the points in the point curve NURBSPointCurve* ptCrvObj = (NURBSPointCurve*)nset.GetNURBSObject(ptCrv); ptCrvObj->GetPoint(0)->SetPosition(0, Point3(10, 160, 0)); // moved from 0,150,0 // now let's change the position and weight of one of the CVs // in the CV Surface NURBSCVSurface* cvSurfObj = (NURBSCVSurface*)nset.GetNURBSObject(cvSurf); cvSurfObj->GetCV(0, 0)->SetPosition(0, Point3(-150.0, -100.0, 20.0)); // moved from 0,0,0 cvSurfObj->GetCV(0, 0)->SetWeight(0, 2.0); // from 1.0 // now let's do a transform of a curve. NURBSIdTab xfmTab; NURBSId nid = nset.GetNURBSObject(jc1)->GetId(); xfmTab.Append(1, &nid); Matrix3 xfmMat; xfmMat = TransMatrix(Point3(10, 10, -10)); SetXFormPacket xPack(xfmMat); NURBSResult res = Transform(obj, xfmTab, xPack, xfmMat, 0); // Now let's Join two curves NURBSId jc1id = nset.GetNURBSObject(jc1)->GetId(), jc2id = nset.GetNURBSObject(jc2)->GetId(); JoinCurves(obj, jc1id, jc2id, FALSE, TRUE, 20.0, 1.0f, 1.0f, 0); // Now let's Join two surfaces NURBSId js1id = nset.GetNURBSObject(js1)->GetId(), js2id = nset.GetNURBSObject(js2)->GetId(); JoinSurfaces(obj, js1id, js2id, 1, 0, 20.0, 1.0f, 1.0f, 0); // Break a Curve NURBSId bcid = nset.GetNURBSObject(bc)->GetId(); BreakCurve(obj, bcid, .5, 0); // Break a Surface NURBSId bsid = nset.GetNURBSObject(bs)->GetId(); BreakSurface(obj, bsid, TRUE, .5, 0); mpIp->RedrawViews(mpIp->GetTime()); nset.DeleteObjects(); addNset.DeleteObjects(); // now do a detach NURBSSet detset; Matrix3 detmat; detmat.IdentityMatrix(); // build a cv curve int detcvCrv = MakeTestCVCurve(detset, detmat); // now a point curve int detptCrv = MakeTestPointCurve(detset, detmat); // Blend the two curves int detblendCrv = MakeTestBlendCurve(detset, detcvCrv, detptCrv); Object *detobj = CreateNURBSObject(mpIp, &detset, detmat); INode *detnode = mpIp->CreateObjectNode(detobj); detnode->SetName("Detach From"); BOOL copy = TRUE; BOOL relational = TRUE; NURBSIdList detlist; NURBSId oid = detset.GetNURBSObject(detblendCrv)->GetId(); detlist.Append(1, &oid); DetachObjects(GetCOREInterface()->GetTime(), detnode, detobj, detlist, "Detach Test", copy, relational); mpIp->RedrawViews(mpIp->GetTime()); }