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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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! r1 V! |5 \& L* OPartSaveStatus *partSaveStatus1;
' f4 a$ ~: k) p* e partSaveStatus1 = workPart->Save(BasePart::SaveComponentsTrue, BasePart::CloseAfterSaveFalse);
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delete partSaveStatus1;
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theSession->DataManager()->LoadFile("G:\\UG\\UGII\\motion_try\\motion_try.afu");( v4 H# n, b/ J' F2 [
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, O+ ^. ] m) R) \. N theSession->MotionSession()->Environments()->SetAnalysisType(Motion::MotionEnvironment::AnalysisDynamics);
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4 }- u( b! n3 i" [/ E8 M4 F/ t theSession->MotionSession()->Environments()->CheckMotorLicense(false);/ ~5 N( F, L! o+ ?$ @% |7 Z( u0 F
) x9 P+ a2 K+ x% q1 F theSession->MotionSession()->Environments()->CheckCosimLicense(false);
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theSession->MotionSession()->Environments()->CheckFlexbodyLicense(false);5 S2 t, d L& o' g; H$ G
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theSession->MotionSession()->Environments()->SetComponentBasedMechanism(false);
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NXString motionSimName1;
: Z0 d5 e3 i& E8 c motionSimName1 = theSession->MotionSession()->CreateNamingSimulation(workPart, "motion_1");; N; b) M( M& Q% Y1 Q! g
8 O! V' a1 S- v8 S workPart = theSession-> arts()->Work();* o3 n4 u* k' v) a" b/ \
displayPart = theSession->arts()->Display();, p X% D8 c5 I) P* P
Motion: hysicsConversionBuilder *physicsConversionBuilder1;7 Q B$ N9 E# a; v. s0 n$ t+ k
physicsConversionBuilder1 = theSession->MotionSession()->CreatePhysicsConversionBuilder(workPart);5 d! q) y* g/ O( Q
3 [% E" _8 Z; i6 T4 o0 W physicsConversionBuilder1->Destroy();) `0 M- k$ p' d
" |* B6 F# B1 e9 m theSession->MotionSession()->InitializeMechanisms();
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% f4 N1 Y% E* I. O Motion: ink *nullMotion_Link(NULL);- B; s0 `: q$ r& {% W* m' a
Motion:inkBuilder *linkBuilder1;- x: n d% J8 ^5 p, z' }
linkBuilder1 = workPart->MotionManager()->Links()->CreateLinkBuilder(nullMotion_Link);3 \; r- Q; @9 f( J- M+ G$ [7 C
, W. j" z* I/ V2 k+ ~. X Unit *unit1(dynamic_cast<Unit *>(workPart->UnitCollection()->FindObject("MilliMeter")));4 {8 K# p9 m# T: ^
. b1 r. y, w3 P+ h linkBuilder1->MassProperty()->MassExpression()->SetRightHandSide("0");$ s& Y2 i, A9 b: K
8 x3 }2 r4 U4 {. K2 p& m linkBuilder1->MassProperty()->IxxExpression()->SetRightHandSide("0");& t0 _" G/ a0 H9 { ?
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linkBuilder1->MassProperty()->IyyExpression()->SetRightHandSide("0");
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; d+ B# U; F& e8 G; Y$ Z$ R6 k% Q linkBuilder1->MassProperty()->IzzExpression()->SetRightHandSide("0");
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M- p2 l: r2 m8 d$ j1 o" f linkBuilder1->MassProperty()->IxyExpression()->SetRightHandSide("0");1 q. n5 e% [/ e* a& |2 S/ V5 b
- g3 z2 a$ e, J linkBuilder1->MassProperty()->IxzExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IyzExpression()->SetRightHandSide("0");& f3 j0 @1 p( _
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linkBuilder1->SetName("L001");, F% l v. @9 D- e, q
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Assemblies::Component *component1(dynamic_cast<Assemblies::Component *>(workPart->ComponentAssembly()->RootComponent()->FindObject("COMPONENT motion_try 1")));- R) Z7 y! X) y9 D" A
Body *body1(dynamic_cast<Body *>(component1->FindObject("ROTO#.Bodies|"+obname)));5 Y {3 e6 I" j$ X" X0 {/ U+ `
bool added1;
8 @6 Z3 k1 Q5 I6 L+ t% @ added1 = linkBuilder1->Geometries()->Add(body1);
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R/ Z* O0 `0 w/ g `& y Direction *nullDirection(NULL);3 S+ n+ w& u7 ?/ _0 t$ ]1 N
linkBuilder1->InitialVelocity()->SetTranslateVector(nullDirection);
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linkBuilder1->InitialVelocity()->SetRotateVector(nullDirection);# [5 h2 y. G, v* Z; w& D
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NXObject *linkObject;) J8 j6 w8 X4 Z. o: F, p& E
linkObject = linkBuilder1->Commit();
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1 Y9 S3 f# G: i$ W7 E linkBuilder1->Destroy();
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1 T/ A, t6 r" m, J& v& i1 v Motion::Joint *nullMotion_Joint(NULL);
' w7 V$ f7 e# O9 r$ r. U Motion::JointBuilder *jointBuilder1;
: b/ M& \% T7 j) J' |3 z jointBuilder1 = workPart->MotionManager()->Joints()->CreateJointBuilder(nullMotion_Joint);3 f& F; U5 ?0 b3 ]. o) N
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->DisplacementExpression()->SetRightHandSide("0");0 [: S8 i; f5 p u
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");8 U4 K& t: F p
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->AccelerationExpression()->SetRightHandSide("0");
& F; m u: p2 ^3 x0 m jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->DisplacementExpression()->SetRightHandSide("0");
, C% T% O9 M! S jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("20");0 H; `7 m+ v2 x4 y# ?: Y4 }
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->AccelerationExpression()->SetRightHandSide("0");
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);4 H$ O9 L9 \$ c) @0 x" g1 h
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
! Y9 q/ h! i9 X jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
# n# Y' z7 W( ?) B6 W9 `9 f jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);' Y) ~9 l7 I& _* R8 ^0 x
jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
6 L# N1 t, [% ? jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);' `8 n5 C% Q, r% E8 s
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("0");- A% ~! C/ q" C, p. n1 x
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
1 J. b' z% M/ B+ x$ z1 J& j jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("0");1 \" i' O, {2 G7 m' h# L
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
! R' d% j: a$ a jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
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6 B- k: y8 A' @ }( Y+ g5 i) f) z$ q Motion:ink *link1(dynamic_cast<Motion:ink *>(workPart->MotionManager()->Links()->FindObject("L001")));
+ O. ~* q" G; k- L; U2 ~* k$ y jointBuilder1->JointDefine()->SetFirstLink(link1);/ m0 x4 G+ R9 {1 t2 W' U
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& o) ?% n: p+ S0 Y* Z NXMatrix *nullNXMatrix(NULL);
0 x4 P& _- r2 v jointBuilder1->JointDefine()->SetSecondMatrix(nullNXMatrix);
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Part *part1(dynamic_cast<art *>(theSession->arts()->FindObject("motion_try")));1 w9 W: m) ~, d0 z9 f# Y
PartLoadStatus *partLoadStatus1;( j) t ?, j# ?9 P# W) t q& M( J# d
partLoadStatus1 = part1->LoadFeatureDataForSelection();
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delete partLoadStatus1;
7 Q8 u" d; d A3 N) e% A% z+ O Scalar *scalar3; M6 o% G) X# J. B( R) h7 L& M; ?( r
scalar3 = workPart->Scalars()->CreateScalar(0.46951534452273, Scalar: imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);3 l' O j a" t6 Z! p5 J3 T
3 t3 S8 n+ }: u/ [# H9 a Scalar *scalar4;4 l8 j/ ~7 K$ i2 [! P
scalar4 = workPart->Scalars()->CreateScalar(0.440129914258558, Scalar:imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling); |8 c0 o$ t5 K' F
$ w, G1 B) H6 S Features::SweepAlongGuide *sweepAlongGuide1(dynamic_cast<Features::SweepAlongGuide *>(part1->Features()->FindObject("SWEEP(7)")));
) j- Z5 ^2 h3 ?! C Face *face3(dynamic_cast<Face *>(sweepAlongGuide1->FindObject("FACE 10000000 {(-0,0,0) SWEEP(7)}")));
( P+ D3 m+ ]; T$ M8 a" ^ Point *point3;: _* ?1 @5 k) x9 O" P
point3 = workPart->oints()->CreatePoint(face3, scalar3, scalar4, SmartObject::UpdateOptionAfterModeling);. D' r6 D- L8 Q) E0 t
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NXObject *nXObject12;
& \5 ^6 }( @/ |$ [ Xform *xform1;
- w( ~! u8 R4 e- |; W* V xform1 = workPart->Xforms()->CreateExtractXform(face3, SmartObject::UpdateOptionAfterModeling, false, &nXObject12);9 w' h7 @8 n# U! O# ?
4 l* R6 Y6 d# g9 | Point *point4;
7 K- I9 P; m0 H# s( S8 T point4 = workPart->oints()->CreatePoint(point3, xform1, SmartObject::UpdateOptionAfterModeling);
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0 B; M" ~4 f& a' {' o ^ jointBuilder1->JointDefine()->SetFirstOrigin(point4);. v, g8 [) n9 X, V z: I6 W
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Point3d origin1(0.0, 0.0, 0.0);; C$ D/ Q/ Y# E% f
Vector3d vector1(0.0, 0.0, 1.0);+ H. o( o5 ]; ]& P+ g" X
Direction *direction1;
0 f0 H, e4 R$ v% n5 F; C direction1 = workPart->Directions()->CreateDirection(origin1, vector1, SmartObject::UpdateOptionAfterModeling);1 I- S r3 A1 @' Z: R- r+ c% ~
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jointBuilder1->JointDefine()->SetFirstVector(direction1);, M: N/ d5 w3 ]
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetTypeOption(Motion:riverOperation::TypeConstant);
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);* w) y2 \3 f, Z0 ]- e( I
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
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T6 c: W4 B+ A8 K: n j NXObject *nXObject3;2 I6 @2 x% F. J7 O: H, ]$ q7 K
nXObject3 = jointBuilder1->Commit();9 w+ p9 i: S, N* W* f
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jointBuilder1->Destroy(); |
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