请使用QQ关联注册PLM之家,学习更多关于内容,更多精彩原创视频供你学习!
您需要 登录 才可以下载或查看,没有账号?注册
x
The examples show how to access the following relationships: ' E# L3 f; U. M5 k0 ~
NX session → list of parts part → list of solid bodies solid body → list of faces solid body → list of edges face → list of associated edges face → solid body edge → list of associated faces edge → solid body
# C. w# ?( y% o+ ` G6 ]
L$ q6 G) y; @4 L' H" h$ @' KBodies, Faces and Edges - Language Specific Details$ W; i- Z- n2 j) Y3 `" T9 }
NX Open for C++ NX Open for .NET NX Open for Java : \" a, _! Q G4 @. ^7 O. Y
6 x! k1 Q' @- t) p& J% r; ~NX Open for C++( [3 r& n% X& S! G) {
7 A/ m. [) e. L& |+ u
7 N9 h [) v; n2 b9 V l8 Z* Y0 r) UNX session → list of parts, N3 e y! ?+ Q; D( F0 \- H
To access all parts in an NX session, use the Parts property to access the Part Collection. Then use the collection's iterator to access each part. Session *NXSession = Session::GetSession(); ParTCollection *partList = NXSession->Parts(); PartCollection::iterator itr; for ( itr = partList->begin(); itr != partList->end(); ++itr ) { processPart(*itr); }
' U7 l( z$ Y& V( I% U2 |; v0 Q" x: w/ f5 M5 H# p, r0 q
part → list of solid bodies* _$ Y7 Y* w2 U+ w6 {6 w2 |
To access all solid bodies in a part, use the Bodies property to access the Body Collection. Then use the collection's iterator to access each body. void processPart(Part *partObject){ BodyCollection *bodyList = partObject->Bodies(); BodyCollection::iterator itr; for (itr = bodyList->begin(); itr != bodyList->end(); ++itr) { processBodyFaces(*itr); processBodyEdges(*itr); }}, Y5 {; m8 j! V% w! b! j+ Q
) Z ]6 b0 v+ b; A4 h
solid body → list of faces0 W9 A) i- F5 {$ K& d
To access the faces of a body use the GetFaces() method to return an array of faces. void processBodyEdges(Body *bodyObject){ std::vector <Edge *> edgeArray = bodyObject->GetEdges(); for (int inx = 0; inx < (int)edgeArray.size(); ++inx) { processEdge(edgeArray[inx]); }} 1 ]% X( Q5 |. @5 V; v
3 `0 p: b( T7 p- N. q
solid body → list of edges* E J0 X" j( H2 f+ Y' ?! `
To access the edges in a body use the GetEdges() method to return an array of edges. void processBodyEdges(Body *bodyObject){ std::vector <Edge *> edgeArray = bodyObject->GetEdges(); for (int inx = 0; inx < (int)edgeArray.size(); ++inx) { processEdge(edgeArray[inx]); }}
$ X# y& L `, A0 ?' A8 }# F- Z* a( o" j7 @3 W
face → list of associated edges6 @" q# F7 B1 Y( c& q3 O) X5 E
face → solid body
+ H, p: Z) Y- u# A( `9 sTo access the edges for a face use the GetEdges() method to return an array of edges. To access the face's body use the GetBody() method. void processFace(Face *faceObject){ std::vector<Edge *> edgeArray = faceObject->GetEdges(); for (int inx = 0; inx < (int)edgeArray.size(); ++inx) { processEdge(edgeArray[inx]); } Body *bodyOfFace = faceObject->GetBody();}
. W G! Z- o3 h) b' e1 c
: L% e6 S* w0 Nedge → list of associated faces
! m9 e# z. Z& p9 `edge → solid body
" u( B. v- ^7 ~, [0 x5 o! U# I5 DTo access the faces associated with and edge use the GetFaces() method to return an array of faces. To access the edge's body use the GetBody() method. void processEdge(Edge *edgeObject){ std::vector<Face *> faceArray = edgeObject->GetFaces(); for (int inx = 0; inx < (int)faceArray.size(); ++inx) { processEdgeFace(faceArray[inx]); } Body *bodyOfEdge = edgeObject->GetBody();}$ A5 X$ P. k' L0 ]$ u6 `8 I* y# I2 ]
| 
|小黑屋|手机版|PLM之家-企业数智化转型工业软件学习平台
