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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. v8 S+ \5 r3 ~0 i6 l8 j
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PartSaveStatus *partSaveStatus1;. C* k8 j( s9 O' F' D% t
partSaveStatus1 = workPart->Save(BasePart::SaveComponentsTrue, BasePart::CloseAfterSaveFalse);
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- C7 h9 S8 w9 D delete partSaveStatus1;
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theSession->DataManager()->LoadFile("G:\\UG\\UGII\\motion_try\\motion_try.afu");
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theSession->MotionSession()->Environments()->SetAnalysisType(Motion::MotionEnvironment::AnalysisDynamics);, j, e; V0 S2 N/ [3 C, c' n" q( U
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theSession->MotionSession()->Environments()->CheckMotorLicense(false); a: I- e6 S! n" n' C. \: ]
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theSession->MotionSession()->Environments()->CheckCosimLicense(false);
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theSession->MotionSession()->Environments()->CheckFlexbodyLicense(false);
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' o8 n6 R' T% G theSession->MotionSession()->Environments()->SetComponentBasedMechanism(false);. {9 K' m3 T- P7 J9 P
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$ P/ R: x) X* X( h, P% J3 ` NXString motionSimName1;, w# g, p% l4 j% z. ^. v
motionSimName1 = theSession->MotionSession()->CreateNamingSimulation(workPart, "motion_1");- b" t) F0 {, O
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workPart = theSession-> arts()->Work();
# j5 ]$ j* r) S) V3 j. k4 o displayPart = theSession->arts()->Display();
. z. e8 z/ q3 T Motion: hysicsConversionBuilder *physicsConversionBuilder1;
4 f2 R6 j5 Q: c" r. |1 A physicsConversionBuilder1 = theSession->MotionSession()->CreatePhysicsConversionBuilder(workPart);# {" Y7 m. p) o( ]; l8 B: A% d
5 K& E, W$ C& r3 f physicsConversionBuilder1->Destroy();8 S( x- h8 q8 F6 W2 @- n7 O
1 s' s1 c0 j h/ I7 F! u theSession->MotionSession()->InitializeMechanisms();. t, Z0 \ Y: H; {7 _" s$ i$ A
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Motion: ink *nullMotion_Link(NULL);, a: ]3 }6 b1 z& j4 }* h
Motion:inkBuilder *linkBuilder1;, i: Q' o; H( ]6 O
linkBuilder1 = workPart->MotionManager()->Links()->CreateLinkBuilder(nullMotion_Link);2 O* ^* u9 l. K Q( ?, e6 B
/ f+ v6 k0 l3 M# p, l# M; b, A: Z Unit *unit1(dynamic_cast<Unit *>(workPart->UnitCollection()->FindObject("MilliMeter")));% d# l8 ^7 _2 Q& F- J
q* A- V4 W1 z6 m linkBuilder1->MassProperty()->MassExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IxxExpression()->SetRightHandSide("0");
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( W! W; X2 U; i' d; x* V1 H z linkBuilder1->MassProperty()->IyyExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IzzExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IxyExpression()->SetRightHandSide("0");9 L7 @& C l4 a- Q+ ~; ~5 a
; J) G6 l% D% o$ m. a" Z4 T) N linkBuilder1->MassProperty()->IxzExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IyzExpression()->SetRightHandSide("0");
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linkBuilder1->SetName("L001");
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Assemblies::Component *component1(dynamic_cast<Assemblies::Component *>(workPart->ComponentAssembly()->RootComponent()->FindObject("COMPONENT motion_try 1")));3 i7 h0 g" H+ V3 |2 r
Body *body1(dynamic_cast<Body *>(component1->FindObject("ROTO#.Bodies|"+obname)));
% g: y3 s) P/ s7 z6 x. C# F; w bool added1;& E7 F# a8 ?$ P$ e
added1 = linkBuilder1->Geometries()->Add(body1); n; T. i4 H0 k, i6 s; U- |
- K( ~8 z# b6 W. ^* |: f Direction *nullDirection(NULL);$ G4 @. k2 B! O" g$ N* O
linkBuilder1->InitialVelocity()->SetTranslateVector(nullDirection);
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linkBuilder1->InitialVelocity()->SetRotateVector(nullDirection);
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NXObject *linkObject;# J w" Q* i p: @* D$ R
linkObject = linkBuilder1->Commit();) w( o. p& u7 j* [5 A9 p/ X) X( l
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linkBuilder1->Destroy();
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Motion::Joint *nullMotion_Joint(NULL);9 s# ^7 Z2 ?5 k: `! t: O' E& H. @. C6 |
Motion::JointBuilder *jointBuilder1;
% G' i# o! }# f) _ jointBuilder1 = workPart->MotionManager()->Joints()->CreateJointBuilder(nullMotion_Joint); _5 U9 y" K1 Q% A
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O$ A y$ A% y& B! m( U jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->DisplacementExpression()->SetRightHandSide("0");: {( e/ m/ L/ }2 _1 V& k: M8 u5 }8 V
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
$ h9 X: k( {' z# O1 f$ ]1 v jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->AccelerationExpression()->SetRightHandSide("0");. Z: ^0 ?8 @. [- j, a ?$ _$ A# e
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->DisplacementExpression()->SetRightHandSide("0");
, G l ?2 i& S4 O jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("20");
9 ?4 ~9 u! o) }, _# {( d3 W jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->AccelerationExpression()->SetRightHandSide("0");
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);* F4 w6 w! K! L; H4 p. K
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
9 V+ w4 l3 z5 W/ X' d4 X3 N jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);! S3 J2 W4 [& |7 |" c: V
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
5 s; B3 F6 h& U6 G* w: F2 I jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
7 _3 B- j- f6 w. D0 W2 Z& B+ G jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);, i7 t/ ?5 k ?: r. o9 K
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("0");
3 X$ L# \& K; W! v jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);+ _' u. T; Q7 L& R Q# i: A( v
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("0");
7 I) |$ G. s+ N; z" }6 n jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
' f# U4 N% X& j' ^8 R- c jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);3 g2 y0 \! s1 o' Y6 B" L% |
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Motion:ink *link1(dynamic_cast<Motion:ink *>(workPart->MotionManager()->Links()->FindObject("L001")));
6 Q7 Y: g' }% ]8 ~) F- j! g/ } jointBuilder1->JointDefine()->SetFirstLink(link1);
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; x7 J& g. L+ Q+ A0 o8 h. [ NXMatrix *nullNXMatrix(NULL);
! `: h1 ]) A j C1 K0 x jointBuilder1->JointDefine()->SetSecondMatrix(nullNXMatrix);8 m$ ?" S( R3 w8 T' V
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Part *part1(dynamic_cast<art *>(theSession->arts()->FindObject("motion_try")));5 t3 v/ U6 `( M5 B
PartLoadStatus *partLoadStatus1;
; A' M% V" i% S) h/ o6 P partLoadStatus1 = part1->LoadFeatureDataForSelection();
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delete partLoadStatus1;" h$ l8 X2 n+ h0 V$ r
Scalar *scalar3;
8 e/ w. g8 L) {( e scalar3 = workPart->Scalars()->CreateScalar(0.46951534452273, Scalar: imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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Scalar *scalar4;
8 G! w7 `! u* I& ~% F( U scalar4 = workPart->Scalars()->CreateScalar(0.440129914258558, Scalar:imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);, i7 E8 `0 y2 ^
7 `3 O: X9 T! F3 a3 E: v Features::SweepAlongGuide *sweepAlongGuide1(dynamic_cast<Features::SweepAlongGuide *>(part1->Features()->FindObject("SWEEP(7)")));+ _7 `0 k+ p4 Q6 K/ p7 j
Face *face3(dynamic_cast<Face *>(sweepAlongGuide1->FindObject("FACE 10000000 {(-0,0,0) SWEEP(7)}")));; ]' }/ H; c, P/ J. g& M8 a: a, W
Point *point3;4 H, O- g2 k& h
point3 = workPart->oints()->CreatePoint(face3, scalar3, scalar4, SmartObject::UpdateOptionAfterModeling);
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NXObject *nXObject12;; Z+ h1 p7 _8 T! W7 T
Xform *xform1;
3 Z" }& t3 |. L xform1 = workPart->Xforms()->CreateExtractXform(face3, SmartObject::UpdateOptionAfterModeling, false, &nXObject12);
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Point *point4;) [. l+ q$ f* _8 E. ^ ?
point4 = workPart->oints()->CreatePoint(point3, xform1, SmartObject::UpdateOptionAfterModeling);
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jointBuilder1->JointDefine()->SetFirstOrigin(point4);; C) r' T7 z2 g
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Point3d origin1(0.0, 0.0, 0.0);: Z! q# z z* ~8 {8 t" O, S
Vector3d vector1(0.0, 0.0, 1.0);7 P5 @. g( [7 v: b4 j0 u1 _
Direction *direction1;0 I' o) N! n" J5 }( i) V
direction1 = workPart->Directions()->CreateDirection(origin1, vector1, SmartObject::UpdateOptionAfterModeling);
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+ k: l5 g: y# [- y7 L; { jointBuilder1->JointDefine()->SetFirstVector(direction1);
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1 J3 |! Y ?# g/ p! y' X: L- O+ |0 d jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetTypeOption(Motion:riverOperation::TypeConstant);% |$ o5 i. @, h
: x5 p! v7 A* a: Z) k! H% A1 n jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);! S! }# D: N$ ^3 c- g
, G4 e: `$ R( q jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
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8 ^, P3 R& U& k: j/ n \0 D NXObject *nXObject3;
2 X5 n( q1 x( F9 h, j$ I/ ?/ d nXObject3 = jointBuilder1->Commit();
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jointBuilder1->Destroy(); |
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