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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+ I: P* m. Q1 V5 ]/ u' U
, ~2 l& ~+ H$ l$ L5 CPartSaveStatus *partSaveStatus1;
% Q, I% q( y0 ]% l2 Z8 S partSaveStatus1 = workPart->Save(BasePart::SaveComponentsTrue, BasePart::CloseAfterSaveFalse);3 {! F9 w" D! ~: {' e
* N1 Q1 j- q1 Y" H delete partSaveStatus1;
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theSession->DataManager()->LoadFile("G:\\UG\\UGII\\motion_try\\motion_try.afu");
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& V+ w/ j& ]6 ?% P: h4 {1 Y theSession->MotionSession()->Environments()->SetAnalysisType(Motion::MotionEnvironment::AnalysisDynamics);
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) a' Q3 q: d5 V9 L theSession->MotionSession()->Environments()->CheckMotorLicense(false);6 E7 ?. T: u0 L( W8 T% J
- A3 v$ j: E- ^, v7 l" q theSession->MotionSession()->Environments()->CheckCosimLicense(false);
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% p2 z' e; G) ]5 s theSession->MotionSession()->Environments()->CheckFlexbodyLicense(false);9 I1 ]' K! \5 a# Q0 V
! h/ F& G1 C2 u: E theSession->MotionSession()->Environments()->SetComponentBasedMechanism(false);7 S7 }( r0 b% y2 c4 L* U! v8 Z
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* g, d8 ~' V; d* P$ O NXString motionSimName1;
0 ?+ _5 H7 L* B4 M1 \8 I motionSimName1 = theSession->MotionSession()->CreateNamingSimulation(workPart, "motion_1");
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4 e! L( n1 z" Z3 s workPart = theSession-> arts()->Work();
b! j$ b1 s7 G, W, }* G. K( l displayPart = theSession->arts()->Display();, ~4 k' T4 E! L, X
Motion: hysicsConversionBuilder *physicsConversionBuilder1;" ~# j3 ?& I( `8 A+ z
physicsConversionBuilder1 = theSession->MotionSession()->CreatePhysicsConversionBuilder(workPart);1 ?! {! v% y. D6 L& T0 L# i! J
3 I7 @1 d j- [# v7 f physicsConversionBuilder1->Destroy();
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# T' a$ ^6 [* u+ F) W9 K/ l theSession->MotionSession()->InitializeMechanisms();; w1 }9 m( I1 V8 }2 K
( S5 L- _0 y5 i! n$ j Motion: ink *nullMotion_Link(NULL);
% s- q5 r( Y) d0 Y0 @0 O% u Motion:inkBuilder *linkBuilder1;
/ _3 B4 k' F. G. [ linkBuilder1 = workPart->MotionManager()->Links()->CreateLinkBuilder(nullMotion_Link);6 u5 e" P3 P# q' x
" p# i3 A$ f, K9 e1 }' j& A$ E, ~ Unit *unit1(dynamic_cast<Unit *>(workPart->UnitCollection()->FindObject("MilliMeter")));2 S7 Q4 _1 c% @" D k# k( L
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linkBuilder1->MassProperty()->MassExpression()->SetRightHandSide("0");% A- ~3 m0 }. [( I( N
+ X" n" j9 A, ]6 B linkBuilder1->MassProperty()->IxxExpression()->SetRightHandSide("0");$ U: ^- J! Q/ v: n. B3 A# Z
# L: I( P: R/ I+ ^, h t: j* F linkBuilder1->MassProperty()->IyyExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IzzExpression()->SetRightHandSide("0");# F3 X7 w- }$ P5 `
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linkBuilder1->MassProperty()->IxyExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IxzExpression()->SetRightHandSide("0");# ?7 D& D2 g1 ]) y# `( w
! K# w" X# Z+ Q" W5 G/ u! H linkBuilder1->MassProperty()->IyzExpression()->SetRightHandSide("0");5 v' Z7 Z+ F- t: [2 _4 ]3 _2 t
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" \+ y# w& U* c; O& ^! o% c linkBuilder1->SetName("L001");
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0 L$ L! P2 ?8 \- L: |# o# C Assemblies::Component *component1(dynamic_cast<Assemblies::Component *>(workPart->ComponentAssembly()->RootComponent()->FindObject("COMPONENT motion_try 1")));. E" f# Z8 Q* c. l8 I
Body *body1(dynamic_cast<Body *>(component1->FindObject("ROTO#.Bodies|"+obname)));
; J9 X! X9 L# w' \8 D bool added1;
& w- f$ Z7 ^1 V4 O" T# h added1 = linkBuilder1->Geometries()->Add(body1);
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- w: e# E. I3 }* A- F Direction *nullDirection(NULL);0 J% T) a, Q- y1 F* p
linkBuilder1->InitialVelocity()->SetTranslateVector(nullDirection);
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& p1 b/ E/ U3 B linkBuilder1->InitialVelocity()->SetRotateVector(nullDirection);
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+ I- o2 v: s$ N" g( z# ] NXObject *linkObject; x3 P: Q2 G1 _$ Q: }. b8 x
linkObject = linkBuilder1->Commit();
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linkBuilder1->Destroy();! F K3 r: Z3 t
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Motion::Joint *nullMotion_Joint(NULL);% |. j! ?/ \1 }4 W
Motion::JointBuilder *jointBuilder1;
# `/ s9 C6 Q7 f jointBuilder1 = workPart->MotionManager()->Joints()->CreateJointBuilder(nullMotion_Joint);
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\3 o3 Q: U: ^8 N0 J% i2 ?6 \ jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->DisplacementExpression()->SetRightHandSide("0");' m) Y$ k* ?+ {1 s
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
! g* p9 _1 J! Y4 T- ` jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->AccelerationExpression()->SetRightHandSide("0");
2 G0 k1 G' {% y jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->DisplacementExpression()->SetRightHandSide("0");( S- m6 w+ b8 g6 `9 k, z
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("20");
7 k' x" f; z" L jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->AccelerationExpression()->SetRightHandSide("0");
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2 v4 e _! S- n; u' j+ u9 | jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);# N x& F E* v$ Q1 y5 V
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);* F4 P( S: B- W7 H: y
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);2 f4 s4 O2 Q& {' \, b
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
9 l3 m1 U3 ]9 n$ ] jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);3 M! a+ F& a9 }$ T& E" K( c7 Z
jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject); X* m7 [, W* A. x1 D
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("0");0 |3 P: r$ Y) Q6 u
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
2 d* A$ [ d2 x8 Y2 x& ] jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("0");5 A9 z8 Y! s) ~" T9 N
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
, ^2 x# u& s7 G. O jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
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' I. W2 I1 m- l! J( v Motion:ink *link1(dynamic_cast<Motion:ink *>(workPart->MotionManager()->Links()->FindObject("L001")));
: s: z! I) v+ d( ^' `6 Z! l jointBuilder1->JointDefine()->SetFirstLink(link1);6 X/ [0 i7 y( x
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0 K: Q% u& A1 ? NXMatrix *nullNXMatrix(NULL);
2 b" A: { e i2 g% G jointBuilder1->JointDefine()->SetSecondMatrix(nullNXMatrix);
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9 y1 |% H+ j& e& B& l Part *part1(dynamic_cast<art *>(theSession->arts()->FindObject("motion_try")));3 @; C- N) O. n2 j
PartLoadStatus *partLoadStatus1;
6 R [. ]- ]; s* L partLoadStatus1 = part1->LoadFeatureDataForSelection();9 ^: i: l; I9 Z' `4 G8 d
6 V* V) i/ T% o; q, I' P$ q delete partLoadStatus1;, f( V( _2 @, B& w+ a
Scalar *scalar3;
4 q/ A3 H2 U6 u; k" d4 T scalar3 = workPart->Scalars()->CreateScalar(0.46951534452273, Scalar: imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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Scalar *scalar4;
6 E+ D! _* C- d3 E* s scalar4 = workPart->Scalars()->CreateScalar(0.440129914258558, Scalar:imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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$ B+ p2 B9 N$ T! C% S2 E$ R Features::SweepAlongGuide *sweepAlongGuide1(dynamic_cast<Features::SweepAlongGuide *>(part1->Features()->FindObject("SWEEP(7)")));1 \0 x: X$ d* u, w
Face *face3(dynamic_cast<Face *>(sweepAlongGuide1->FindObject("FACE 10000000 {(-0,0,0) SWEEP(7)}")));/ N$ L% x7 s7 u
Point *point3;6 K& b: ~0 p' @! H7 L; i
point3 = workPart->oints()->CreatePoint(face3, scalar3, scalar4, SmartObject::UpdateOptionAfterModeling);( L) F$ g. f: n: e: z' H
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NXObject *nXObject12;
/ H. h, O" J. K4 K2 [ Xform *xform1;( G% ~+ X" W, l Y1 @# V) d4 b
xform1 = workPart->Xforms()->CreateExtractXform(face3, SmartObject::UpdateOptionAfterModeling, false, &nXObject12);% Q" K8 A* Q" q, P& X8 Q) H4 L
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Point *point4;
3 X6 I1 R: ]8 q! m1 Z point4 = workPart->oints()->CreatePoint(point3, xform1, SmartObject::UpdateOptionAfterModeling);
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* r0 w* d* K! v8 U jointBuilder1->JointDefine()->SetFirstOrigin(point4);; X, U9 i' {! V8 h
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, ]7 v0 Y4 w+ A! _1 ~) } Point3d origin1(0.0, 0.0, 0.0);
6 {- `! F% L2 f) L Vector3d vector1(0.0, 0.0, 1.0);; s3 \; B( u# i( l4 M
Direction *direction1;& h) Q7 K; P, `# d5 M5 e
direction1 = workPart->Directions()->CreateDirection(origin1, vector1, SmartObject::UpdateOptionAfterModeling);2 l' Q6 e$ x7 K, A/ Q* u' Z
( H2 i( P8 p6 K4 w2 g8 R jointBuilder1->JointDefine()->SetFirstVector(direction1);
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0 z1 U* S9 w [- y jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetTypeOption(Motion:riverOperation::TypeConstant);
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);6 l1 M; f, ]% M
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");, g4 F3 W8 w6 F1 k" @
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3 b0 P {6 G+ p6 r0 I M NXObject *nXObject3;/ V+ C! o- y6 s3 S3 |6 n
nXObject3 = jointBuilder1->Commit();5 O, R* a5 {( N H
! a+ P( i! _( w5 u jointBuilder1->Destroy(); |
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