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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( h' d( G% k& q) @" d
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PartSaveStatus *partSaveStatus1;
, D5 g8 ]/ G' B- E partSaveStatus1 = workPart->Save(BasePart::SaveComponentsTrue, BasePart::CloseAfterSaveFalse);
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delete partSaveStatus1;. F2 {# E8 q: c; u# c; Y, H! s
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theSession->DataManager()->LoadFile("G:\\UG\\UGII\\motion_try\\motion_try.afu");7 {) n5 I# [' A+ l' V1 H
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theSession->MotionSession()->Environments()->SetAnalysisType(Motion::MotionEnvironment::AnalysisDynamics);
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& i* d0 X8 m" { theSession->MotionSession()->Environments()->CheckMotorLicense(false);
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5 c* b# {) H* M( N theSession->MotionSession()->Environments()->CheckCosimLicense(false);% s% C, Z. x: l/ g5 U$ {
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theSession->MotionSession()->Environments()->CheckFlexbodyLicense(false);2 Y+ M U# g8 P, o
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theSession->MotionSession()->Environments()->SetComponentBasedMechanism(false);* D$ l* y* B/ p
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1 k, _% ^6 h8 L" S& ^/ C NXString motionSimName1;
9 T, W' y4 g" T! k U' r) t motionSimName1 = theSession->MotionSession()->CreateNamingSimulation(workPart, "motion_1");) s7 l+ z, C$ b9 C% [: X# B [
0 X# u, N3 [; g* o workPart = theSession-> arts()->Work();8 b. f e) R$ v$ j: x
displayPart = theSession->arts()->Display();
3 ]0 U, H; `& I% U Motion: hysicsConversionBuilder *physicsConversionBuilder1;
- f3 ?, H6 f, X' ?: j" G physicsConversionBuilder1 = theSession->MotionSession()->CreatePhysicsConversionBuilder(workPart);5 }: D2 `3 ?: d
8 i" | v0 s5 {3 A9 ]4 K O& Y physicsConversionBuilder1->Destroy();2 V, i* ]. g3 N6 _& B9 O
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theSession->MotionSession()->InitializeMechanisms();# @( j9 c( N, |- j* g
) k- {5 A8 Q6 I1 k Motion: ink *nullMotion_Link(NULL);
6 v0 s4 Z, A/ Y- B( [% ?: _# Z Motion:inkBuilder *linkBuilder1;
$ ^1 @3 s/ Y0 z linkBuilder1 = workPart->MotionManager()->Links()->CreateLinkBuilder(nullMotion_Link);
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' g" \2 L' |" P# {1 { Unit *unit1(dynamic_cast<Unit *>(workPart->UnitCollection()->FindObject("MilliMeter")));
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linkBuilder1->MassProperty()->MassExpression()->SetRightHandSide("0");
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0 g5 Y- e' f3 t3 d+ q linkBuilder1->MassProperty()->IxxExpression()->SetRightHandSide("0");# [+ H2 M7 H: }' p' y! s
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linkBuilder1->MassProperty()->IyyExpression()->SetRightHandSide("0");
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linkBuilder1->MassProperty()->IzzExpression()->SetRightHandSide("0");2 S- m, r8 k V% C
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linkBuilder1->MassProperty()->IxyExpression()->SetRightHandSide("0");4 j. A4 Z# V, v# `1 G2 w
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linkBuilder1->MassProperty()->IxzExpression()->SetRightHandSide("0");5 X. h5 P7 r& {; T; ~, c. L) I
j) s) I8 z J4 D1 m2 S linkBuilder1->MassProperty()->IyzExpression()->SetRightHandSide("0");
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* I1 d- I0 B; y' d+ l linkBuilder1->SetName("L001");' v' J0 K% u$ [) z# l* Z: \
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+ w X7 E, [% v! E; g3 j- z' R Assemblies::Component *component1(dynamic_cast<Assemblies::Component *>(workPart->ComponentAssembly()->RootComponent()->FindObject("COMPONENT motion_try 1")));9 a) w3 R% q3 z4 n6 B+ `6 _
Body *body1(dynamic_cast<Body *>(component1->FindObject("ROTO#.Bodies|"+obname)));9 h! G4 `9 I, S: M: {0 B
bool added1;& J x0 e' E7 I- i+ u& S; C
added1 = linkBuilder1->Geometries()->Add(body1);# ~: l- u: b# o2 M, o' y1 B8 L, d
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Direction *nullDirection(NULL);
3 |( T6 [. K; X linkBuilder1->InitialVelocity()->SetTranslateVector(nullDirection);
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4 p9 j# c, F: E7 ?& G& H3 M4 H linkBuilder1->InitialVelocity()->SetRotateVector(nullDirection);
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8 v; J% E$ m* J' Z1 b4 R NXObject *linkObject;
: j. I- ^" W% @ c linkObject = linkBuilder1->Commit();
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linkBuilder1->Destroy();9 {: Y2 B: ~( L A6 A, C
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5 X* @' Y7 M h Motion::Joint *nullMotion_Joint(NULL);
7 l& ?% ]0 O. ?7 _$ l2 B Motion::JointBuilder *jointBuilder1;( u+ c" M- M% [6 E$ Z7 J
jointBuilder1 = workPart->MotionManager()->Joints()->CreateJointBuilder(nullMotion_Joint);. q6 ~ K5 n0 h0 K
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->DisplacementExpression()->SetRightHandSide("0");
Y$ N& O- n7 Z. ?# K jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");4 U# G+ |$ c1 z, E! j" f4 ?
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->AccelerationExpression()->SetRightHandSide("0");% [, s( ^# Q! H; G/ M
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->DisplacementExpression()->SetRightHandSide("0");( q7 N+ z) Z. {
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("20");
3 I6 p/ l5 ^7 b3 c jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->AccelerationExpression()->SetRightHandSide("0");( ?% q1 d8 ^& s7 D3 F6 F5 L
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);$ ~9 ^- V$ q: l4 q" r6 `
jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
: @6 j$ c( T9 A! h# o jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);& w) y* z, u+ e1 L/ R- J$ r
jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);
. i; u- O* d5 H6 W jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
, [( V$ }; ]! @; L9 O$ A7 a6 t# r jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
% b" m' K# T8 H/ H8 B! [' B jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("0");
; V' c# X# s/ X$ @. ] jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
" y* Y; S# \8 O" H; D: V! J jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->VelocityExpression()->SetRightHandSide("0");
% P. F9 o2 H+ @: ^+ ^# ` jointBuilder1->JointMultiDrivers()->MotionTranslationZ()->SetFunction(nullNXObject);0 i' a+ d" V+ @6 z$ v4 R
jointBuilder1->JointMultiDrivers()->MotionPointOnCurve()->SetFunction(nullNXObject);
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Motion:ink *link1(dynamic_cast<Motion:ink *>(workPart->MotionManager()->Links()->FindObject("L001")));% {# ~7 N" [# m! s a) h; w8 s
jointBuilder1->JointDefine()->SetFirstLink(link1);
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9 n2 Q1 e4 G6 N% K3 O NXMatrix *nullNXMatrix(NULL);
6 ^" I. P2 K/ r jointBuilder1->JointDefine()->SetSecondMatrix(nullNXMatrix);! d6 e; ]" p, U- L5 Z4 B1 ^
* o9 I. b. C3 Y Part *part1(dynamic_cast<art *>(theSession->arts()->FindObject("motion_try")));3 g ]; s3 I' n7 s q* k
PartLoadStatus *partLoadStatus1;, F0 @3 M9 K: G! ?2 A, _
partLoadStatus1 = part1->LoadFeatureDataForSelection();
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delete partLoadStatus1;, ?, b0 }& s7 e6 t2 K+ g
Scalar *scalar3;/ J" N% J+ d& D# W {; A* `
scalar3 = workPart->Scalars()->CreateScalar(0.46951534452273, Scalar: imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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6 I7 J U, u4 b7 j Scalar *scalar4;, }+ b6 }' I! g
scalar4 = workPart->Scalars()->CreateScalar(0.440129914258558, Scalar:imensionalityTypeNone, SmartObject::UpdateOptionAfterModeling);
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6 c0 i5 j" b4 @& E Features::SweepAlongGuide *sweepAlongGuide1(dynamic_cast<Features::SweepAlongGuide *>(part1->Features()->FindObject("SWEEP(7)")));- \$ o% q/ X9 t" b8 l/ d( G
Face *face3(dynamic_cast<Face *>(sweepAlongGuide1->FindObject("FACE 10000000 {(-0,0,0) SWEEP(7)}")));
6 g: n& K) e: w' H0 \% N Point *point3;$ |8 w+ t, S) m, i1 c' o9 _0 u
point3 = workPart->oints()->CreatePoint(face3, scalar3, scalar4, SmartObject::UpdateOptionAfterModeling);
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# i3 n( Q# ~ y, I; N- l5 s NXObject *nXObject12;
& _2 P m5 h/ z) [' Q Xform *xform1;4 O# F, P ?8 \8 X5 s" \1 K. m: `
xform1 = workPart->Xforms()->CreateExtractXform(face3, SmartObject::UpdateOptionAfterModeling, false, &nXObject12);
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Point *point4;
! C3 w1 [4 ~9 E9 b% U2 M point4 = workPart->oints()->CreatePoint(point3, xform1, SmartObject::UpdateOptionAfterModeling);
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' e' k0 a- h/ |7 q jointBuilder1->JointDefine()->SetFirstOrigin(point4);
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% x. |4 R! h6 g7 H Point3d origin1(0.0, 0.0, 0.0);
& L2 ^# I, A: X4 u" m Vector3d vector1(0.0, 0.0, 1.0);9 D/ `+ w- C! i d1 @4 P8 K4 U
Direction *direction1;
1 r% j: ?% v3 Z7 L& u direction1 = workPart->Directions()->CreateDirection(origin1, vector1, SmartObject::UpdateOptionAfterModeling);
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9 q$ f$ O2 l* {$ N& t4 \* u! ^ jointBuilder1->JointDefine()->SetFirstVector(direction1);
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetTypeOption(Motion:riverOperation::TypeConstant);
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7 D$ Z' Z* S6 g0 B3 o jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->SetFunction(nullNXObject);
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jointBuilder1->JointMultiDrivers()->MotionEulerAngle1()->VelocityExpression()->SetRightHandSide("20");
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NXObject *nXObject3;
W: g8 s: D9 I0 N0 | nXObject3 = jointBuilder1->Commit();
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jointBuilder1->Destroy(); |
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