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再补一段前面建立连杆和运动副的代码....再前面还有建立实体的代码就不贴了....就是还想问一下...我的nxopen++里面的实体nxobject和featrue::feature以及body如何兼容ufun函数编程啊,可能ufun函数有一些可以用的代码但我接不上这样子
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% L2 t" O5 T' l+ ]PartSaveStatus *partSaveStatus1;: N" @# J7 V0 \7 x' s* `$ g+ F
partSaveStatus1 = workPart->Save(BasePart::SaveComponentsTrue, BasePart::CloseAfterSaveFalse);
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P0 c3 T" E' q" a1 O- Q delete partSaveStatus1;5 v8 b" \ f4 y! z q
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9 e0 b" q. J* o: I; c theSession->DataManager()->LoadFile("G:\\UG\\UGII\\motion_try\\motion_try.afu");
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theSession->MotionSession()->Environments()->SetAnalysisType(Motion::MotionEnvironment::AnalysisDynamics);
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theSession->MotionSession()->Environments()->CheckMotorLicense(false);+ D. K0 y- D# t
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theSession->MotionSession()->Environments()->CheckCosimLicense(false);: z6 W, K% ^, W
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theSession->MotionSession()->Environments()->CheckFlexbodyLicense(false);
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theSession->MotionSession()->Environments()->SetComponentBasedMechanism(false);- e0 _/ [9 r% r( @+ f6 ^$ }$ }) |
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NXString motionSimName1;! H9 S8 `8 v3 Y) h% M0 |$ n
motionSimName1 = theSession->MotionSession()->CreateNamingSimulation(workPart, "motion_1");; O, u& `- q0 p) l- G! X1 J
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workPart = theSession-> arts()->Work();# I4 f E' t* m( U- R+ p; D
displayPart = theSession->arts()->Display();
6 ]( a* ?4 c( {5 J1 v+ T* v( v, v Motion: hysicsConversionBuilder *physicsConversionBuilder1;
8 u4 i0 p- C9 \( t7 n6 E0 n( p physicsConversionBuilder1 = theSession->MotionSession()->CreatePhysicsConversionBuilder(workPart);1 g) h3 i! }) {5 I5 b
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physicsConversionBuilder1->Destroy();
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theSession->MotionSession()->InitializeMechanisms();( O& s1 A3 _; n: }
2 }) ~- o! _) @1 T$ i9 [ Motion: ink *nullMotion_Link(NULL);* b0 H$ [, D2 i
Motion:inkBuilder *linkBuilder1;
& Q) \! K' a, G# g& V! F linkBuilder1 = workPart->MotionManager()->Links()->CreateLinkBuilder(nullMotion_Link);9 R' n( m' k- W+ O! v
* ]; Y9 E! o$ c% [" K0 U Unit *unit1(dynamic_cast<Unit *>(workPart->UnitCollection()->FindObject("MilliMeter")));7 y& M! O' q; |1 O" O+ H: d+ W
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linkBuilder1->MassProperty()->MassExpression()->SetRightHandSide("0");3 K9 W; S. Z( P7 B- u2 h- s$ i# \
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linkBuilder1->MassProperty()->IxxExpression()->SetRightHandSide("0");; x! p, L7 ~: J# U+ k! `& t
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linkBuilder1->MassProperty()->IyyExpression()->SetRightHandSide("0");* m' X3 c/ n' k! ?! S9 v' T
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linkBuilder1->MassProperty()->IzzExpression()->SetRightHandSide("0");
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; y f: s7 _, V7 ~- t' s, d; B+ u linkBuilder1->MassProperty()->IxyExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IxzExpression()->SetRightHandSide("0");
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0 T! w6 e( f6 n5 C( d linkBuilder1->MassProperty()->IyzExpression()->SetRightHandSide("0");& I2 b0 y+ k5 c3 ^. {8 y0 p8 z
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# b: p7 _9 H5 }6 a; u0 `! l! @2 M linkBuilder1->SetName("L001");
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Assemblies::Component *component1(dynamic_cast<Assemblies::Component *>(workPart->ComponentAssembly()->RootComponent()->FindObject("COMPONENT motion_try 1")));/ j/ V4 ?/ s$ W7 L
Body *body1(dynamic_cast<Body *>(component1->FindObject("ROTO#.Bodies|"+obname)));1 D+ K. U) Z1 p
bool added1;
: M# j! V7 v# a! z& X3 t4 D added1 = linkBuilder1->Geometries()->Add(body1);# R- X1 p. @0 H+ J* Q8 E- Q: A" `
& W: V2 j' d9 `4 m Direction *nullDirection(NULL);1 d; }* u/ y k9 O2 Y
linkBuilder1->InitialVelocity()->SetTranslateVector(nullDirection);
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linkBuilder1->InitialVelocity()->SetRotateVector(nullDirection);
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NXObject *linkObject;
# F5 F6 c3 e6 `+ T1 l7 B linkObject = linkBuilder1->Commit();
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2 K! s4 w; Z, T' L1 A- ~ linkBuilder1->Destroy();! b6 C% R% l9 A/ o' ?
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Motion::Joint *nullMotion_Joint(NULL);
, ^# j }- e* B- M Motion::JointBuilder *jointBuilder1;% g6 y% y! c7 e, F) b7 }$ W/ q
jointBuilder1 = workPart->MotionManager()->Joints()->CreateJointBuilder(nullMotion_Joint);' M2 H, d% s+ k: d5 h
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->DisplacementExpression()->SetRightHandSide("0");+ d. C$ ]. ^8 ~
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
) p) F$ K0 w2 e jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->AccelerationExpression()->SetRightHandSide("0");
1 y+ d: k1 j) Z7 Y/ l" B" Y ` jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->DisplacementExpression()->SetRightHandSide("0");
- R+ x' c1 J9 x: g- q5 {& ~& s5 a jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("20");
$ u) e5 a, s, {% T2 a jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->AccelerationExpression()->SetRightHandSide("0");3 z& Y4 m% J6 N8 \) M% n, V& z
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
4 r/ ?7 |2 N% s5 v jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);# Q4 _4 |$ o" C# Y/ _) r
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
* T3 v6 F% ?: j% h% Y- j6 H jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
: }$ |" s. M: q/ e& l* q/ q# i0 e jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);& L/ s* q+ {' z+ I) v
jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
3 ]( ?( x& E4 K6 Q jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("0");4 ^/ s, O" S+ Q/ n5 ]
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
+ x4 h+ ]9 M3 w& Z jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("0");
1 [7 i* ?7 K! d7 z8 G7 |, @% Y jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
6 I5 H9 D* l( X. f5 z jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);! p5 a& P9 u1 O- r4 U
3 A+ U4 X: O' R* C( ?/ Q Motion:ink *link1(dynamic_cast<Motion:ink *>(workPart->MotionManager()->Links()->FindObject("L001")));( y; x1 v* C8 @" N! P6 q7 @2 k
jointBuilder1->JointDefine()->SetFirstLink(link1);0 t( t9 w# I3 f3 q
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NXMatrix *nullNXMatrix(NULL);0 _, `3 o$ q4 l2 a: h4 Y
jointBuilder1->JointDefine()->SetSecondMatrix(nullNXMatrix);- l' m0 |. g/ F( N7 z% {: |
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Part *part1(dynamic_cast<art *>(theSession->arts()->FindObject("motion_try")));4 G5 H- Q( h- N
PartLoadStatus *partLoadStatus1;
, P0 n: e& T! |- Z$ B partLoadStatus1 = part1->LoadFeatureDataForSelection();
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delete partLoadStatus1;6 h, g& P3 l9 w. ]- Q. n8 |
Scalar *scalar3;- W& |& K; A0 b3 e- g/ M: @# T
scalar3 = workPart->Scalars()->CreateScalar(0.46951534452273, Scalar: imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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Scalar *scalar4;
; Q* N1 R5 a! a w7 H scalar4 = workPart->Scalars()->CreateScalar(0.440129914258558, Scalar:imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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4 ~+ k- h* Q E6 l! r% F Features::SweepAlongGuide *sweepAlongGuide1(dynamic_cast<Features::SweepAlongGuide *>(part1->Features()->FindObject("SWEEP(7)")));2 f) [$ G" S* n/ r3 ~9 U+ e) b
Face *face3(dynamic_cast<Face *>(sweepAlongGuide1->FindObject("FACE 10000000 {(-0,0,0) SWEEP(7)}")));. L* {8 S# w2 m; u
Point *point3;
& Y- I( | m& P9 N0 n point3 = workPart->oints()->CreatePoint(face3, scalar3, scalar4, SmartObject::UpdateOptionAfterModeling);
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NXObject *nXObject12;% V. ?# f# `' e4 z
Xform *xform1;
0 L, j* G9 }' ^- Z3 B& E$ @6 w. O2 D xform1 = workPart->Xforms()->CreateExtractXform(face3, SmartObject::UpdateOptionAfterModeling, false, &nXObject12);8 }; i/ i) W# V
" X( ~% Q# G: f/ v6 }% O% y Point *point4;
/ [6 k: p. J: n+ B2 m2 _ point4 = workPart->oints()->CreatePoint(point3, xform1, SmartObject::UpdateOptionAfterModeling);0 j! R! I# m* n
/ n$ k/ U h8 ` jointBuilder1->JointDefine()->SetFirstOrigin(point4);
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Point3d origin1(0.0, 0.0, 0.0);
. J N; h4 w+ v- z' G$ E/ `# M Vector3d vector1(0.0, 0.0, 1.0);; P3 \2 @) A" W4 j% w1 g# k
Direction *direction1;" }. T2 L9 T1 b4 k
direction1 = workPart->Directions()->CreateDirection(origin1, vector1, SmartObject::UpdateOptionAfterModeling);
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jointBuilder1->JointDefine()->SetFirstVector(direction1);
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7 N7 k1 m4 \! ?+ o) { jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetTypeOption(Motion:riverOperation::TypeConstant);
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
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) x3 Y; a% ~( I: M, n* B) N( g- e jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");9 J/ {3 |4 K9 D* m
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$ V) h1 J: {+ A+ C2 r7 i: v NXObject *nXObject3;
T9 Z3 ~3 E. T9 o nXObject3 = jointBuilder1->Commit();
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" _$ h$ N- y% b. h* c jointBuilder1->Destroy(); |
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