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NX二次开发源码分享:动态画圆,指定屏幕点和向量相关用法
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这个案例很不错的,分享下,程序运行的结果是指定屏幕,拖拉即可动态绘制圆圈!
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2 P- a* m/ r& S* C5 ?& W#include <stdio.h>5 N4 ~& q; f6 \# ~4 H/ ?) W
#include <uf_defs.h>
; g6 s; b/ ]0 p#include <uf.h>9 {! U( Y1 b T1 H. f
#include <uf_ui.h>
: M7 H$ a) Z; C$ o* S#include <uf_csys.h>, g: _& I$ t7 _; k) s) W
#include <uf_vec.h>
) y9 u c* Q( q# r1 W; b#include <uf_disp.h>
/ Z8 X( w2 X/ t+ a% u% {#include <uf_curve.h>+ x" @* H. Y5 I. r* Z1 U. X
#include <uf_mtx.h>; i5 ~9 e8 V2 h5 z. V/ w6 h
#include <uf_obj.h>
9 A$ q9 k$ _; s4 |typedef struct
# Y& `3 T1 R. d# W! d { UF_CURVE_arc_t *arc;
# M. b9 V) B5 ^+ P0 e double abs_ctr[3];" Y7 f& ^* T7 L m8 x5 _" _
double matrix[9];
/ {6 I7 K {: f double x_axis[3];, [2 ^% F4 ~- y
double y_axis[3];9 U3 B# I: `7 c1 z! f/ f
} my_motion_data_t;
7 u5 L0 _ z2 b3 i; y- _/* Define a motion callback to render a visual representation of
* f m! b1 f% z9 J" y) T * the circle to be created, along with a bounding box around the- [* F! f; ? b
* circle, an arc of radius 1.0, and a "rubberband" line from the- { G; R, x6 p6 o8 B: Y$ L" I
* center to the cursor position.
& R, b; \0 c8 H' ~% a5 p */
* k! `9 G4 S6 j8 \9 Z- x( ostatic void motion_cb( double *screen_pos,
% N' @. S" d) P+ _ UF_UI_motion_cb_data_p_t motion_cb_data,5 d6 o1 p7 r$ j2 E/ d; d3 D8 e
my_motion_data_t *my_data ). Y6 C6 [% a) m5 @; ~. a8 w! G
{
, V* B2 ^# `- z/ Q5 Q double radius, pos_array[5][3];
" x; L @3 k$ E double xrad[3], yrad[3], x_y_vec[3], x_ny_vec[3];1 ]: {3 j$ w% U+ t) y( W- \; S& e
/* Calculate the arc radius: the distance from the arc center
4 D8 H- ^: [" }6 x * to the current screen position.
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UF_VEC3_distance( my_data->abs_ctr, screen_pos, &radius );
9 k8 W; i/ C3 A) P- | /* Map the arc center to the "csys of the arc".8 p$ z/ ?: @8 O. R$ u$ w6 E( l
*/
" P1 [4 N2 P/ Z! ~ W ~; P6 _7 A UF_MTX3_vec_multiply( my_data->abs_ctr,. [% }+ E8 G) U( Y( T. V! P/ o
my_data->matrix,8 I! s' o+ e+ j5 U$ j) \' F
my_data->arc->arc_center );
4 g! @; ^3 ~' F, X /* Draw a circle and an arc in the view of the cursor.1 ?. A8 L. N3 s5 S' T3 N
*/! q5 n V1 r0 j, J( ^6 u8 P4 h3 T
UF_DISP_display_ogp_circle( motion_cb_data->view_tag,
$ Z& s- a. X1 n8 s* W9 P my_data->matrix,( e' x, u! C. P
my_data->arc->arc_center,5 j0 j# r4 B) J' ~+ h2 G' X
radius );% l9 e6 j+ `6 D% { P, X" w% E; B
UF_DISP_display_ogp_arc( motion_cb_data->view_tag,9 }0 G7 e& {/ Z9 E
my_data->matrix,
& C/ Y( l8 w5 a1 g 15.0*DEGRA, 345.0*DEGRA,
" f7 A" M$ {( _ my_data->arc->arc_center,. B* a5 A% z' [, L) ~" q- i
1.0 );! B7 p }; ~, [, Z% C( |' Q! V
/* Draw a bounding box around the circle./ \6 O6 N" Z# X
*/
% w, r# v9 G. S) l( p UF_VEC3_scale( radius, my_data->x_axis, xrad );
; Y# k6 O! o4 Z0 n6 H4 C% _ UF_VEC3_scale( radius, my_data->y_axis, yrad );* {1 @5 t( G$ R
UF_VEC3_add( xrad, yrad, x_y_vec );7 q! V1 |) I" H9 f
UF_VEC3_sub( xrad, yrad, x_ny_vec );) B0 O- f4 G, N4 P! o4 q+ d! K
UF_VEC3_add( my_data->abs_ctr, x_y_vec, pos_array[0] );
1 q# F* {4 i n7 N) }3 @ UF_VEC3_sub( my_data->abs_ctr, x_ny_vec, pos_array[1] );7 s9 ]$ r5 Z* ?
UF_VEC3_sub( my_data->abs_ctr, x_y_vec, pos_array[2] );
; C- b$ g. J/ s( Q UF_VEC3_add( my_data->abs_ctr, x_ny_vec, pos_array[3] );" Z- R, i; k7 e
UF_VEC3_add( my_data->abs_ctr, x_y_vec, pos_array[4] );
4 `3 m- x5 U) W Q8 O* J UF_DISP_display_ogp_polyline( motion_cb_data->view_tag,
, W9 n% d/ P0 ?% `1 H pos_array, 5 );
4 L, O- `% N q- [2 Z) ^ /* Draw a "rubberband" line from the circle center to the
/ i F" x: q- ?; I+ L * cursor position.( j7 K( w: T% F1 t. C% h7 Z! y' C
*/
# w% ~, ~ ~+ E! G* p' y UF_DISP_display_ogp_line( motion_cb_data->view_tag,
( u+ t/ |: X- `5 F my_data->abs_ctr,/ e m' _, {9 b- {7 g( a% b* ^
screen_pos );
# b' O$ R+ S0 I, p, [0 M}: s+ S. k3 |; ?2 x' }7 B7 ?5 u
#define UF_CALL(X) (report( __FILE__, __LINE__, #X, (X)))
5 l. M4 a; g& C4 q+ I$ ?static int report( char *file, int line, char *call, int irc)
L1 i9 U7 _+ P7 ^. Y6 `' A{2 r/ y" Y6 n$ A" g0 `
if (irc)0 |( H3 K! F* Z7 ^/ y- |
{
% X% a( G+ ]% h |0 ^ char messg[133];
8 k. `: n, M/ g5 H; R printf("%s, line %d: %s\n", file, line, call);$ K/ q4 E# T1 ^' A9 n; z
(UF_get_fail_message(irc, messg)) ?
' T) P1 U0 z) o0 i printf(" returned a %d\n", irc) :
; m' I0 [3 j* V printf(" returned error %d: %s\n", irc, messg);2 S% x* O( k7 {- F: ~# W& B, W
}
* I, Y, c4 w7 s& N( X0 q/ j' E! m return(irc);: x: P% j+ s- m+ L' N" a. j
}
0 h# R+ C0 p" M, C0 g; T, H* U1 nstatic void do_UGopen_api(void)
o/ V" x9 _. M{ u8 G$ }; r+ Q/ ~
int default_plane;9 ^- g$ C$ t+ A' P A
int plane_resp, ctr_resp, pos_resp;
6 B8 R5 ~( X4 M- ^" I: r tag_t plane_tag, saved_wcs, mtx_id, csys_id,( K" B+ c# _. Q. d" ~8 L
arc_id, view_tag;/ d1 o4 L( j. y* K1 ?% T+ Y9 z
double plane_matrix[9], plane_origin[3],
4 m# ~1 v) F/ E! I, } x_vec[3], y_vec[3], arc_edge_pos[3];. Q6 A( H- |% [
double root_origin[3] = {0.0, 0.0, 0.0};* s& ^' Y; y+ r, J X$ ?- Y
double work_origin[3];
& q5 d3 V& K( P UF_CURVE_arc_t arc;0 w3 x5 t$ \# F
my_motion_data_t my_data;2 `. K" U" u6 @" W1 g
- c" Z1 s# k: X6 l my_data.arc = &arc;; |1 h) X' t2 H
arc.start_angle = 0.0;
2 B( f5 |- ] o0 b8 G+ L* l arc.end_angle = TWOPI; /* Create a full circle. */
6 C Q v9 j5 x. f& M default_plane = 5; /* Default plane = WCS */
: [9 N1 V3 u/ f3 U/ }# f# b' J, K2 s do
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/* Specify the plane on which the circle is to be created.
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UF_CALL(UF_UI_specify_plane($ \+ O X2 S# V6 i! N7 T
"Specify plane for circle creation",4 g& S5 G- D0 `, c* k; S
&default_plane,
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9 d$ ~9 o$ s1 x$ f &plane_resp,
: j+ \. [6 s6 M& _0 \6 P plane_matrix,
2 H, ]% B, I7 H$ R plane_origin, T2 u9 T2 a' m; D
&plane_tag ));
* n6 k. G2 ~" L) z+ t; f h( P4 M if (plane_resp ==3)
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/* Save the current WCS for future restoration.: `8 e. q B! v2 I. i
*/7 J; G% |( V6 O# j1 x9 ?/ @
UF_CSYS_ask_wcs( &saved_wcs );
; W' U2 J" w5 {2 n! |% ~5 D /* Move the WCS to the specified plane. This is& Y% Z+ [+ n, u( K+ \4 K3 o$ V
* necessary because the position passed to the motion. o1 J: q& ^8 N8 A
* callback, and the position returned by! s) P, q9 O3 _4 G' i% b; m' F" ?7 D, |
* UF_UI_specify_screen_position, is the screen% x( b, j6 u( c6 W/ e
* position projected onto the WCS XY plane.
, e3 K% f0 c. I s: Y# r+ |0 U% j */
2 z% N s# Y! [- O if (default_plane != 5)
, o. @! u: ]5 m& Q/ e, @. r {) L- S5 A$ t) A8 X& k$ b) x t+ b
UF_CSYS_create_matrix( plane_matrix, &mtx_id );* J( d2 H0 D$ X
UF_CSYS_create_csys( plane_origin, mtx_id,- Z: {* Z0 K" o( r+ E# g
&csys_id );( W5 ^, E# |: N; n- B! ^
UF_CSYS_set_wcs( csys_id );" M& F: `4 ^. M( u$ {! Q
}
& e5 y9 S0 s+ k* M; } /* Obtain unit vectors and the arc matrix relative to- O! l5 u7 C4 c N4 ]
* the Work Part coordinate system.
6 N4 m4 t6 W- c4 U7 c */
2 A* ?# D: F& x* Z; S! \* G4 D UF_MTX3_x_vec( plane_matrix, x_vec );2 S/ |: }: E/ J: d: C
UF_MTX3_y_vec( plane_matrix, y_vec );
% v* L3 j% K% X+ T$ g: i T7 z UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, x_vec,: N4 }2 p$ H8 D0 @( u$ R
UF_CSYS_WORK_COORDS, x_vec );
% J3 d' X6 x1 R. \! A UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, y_vec,/ z3 Y$ ^1 m% o2 T9 A
UF_CSYS_WORK_COORDS, y_vec );! E2 O) @ }$ d4 z
UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, root_origin,7 k; z* y6 X9 | | G
UF_CSYS_WORK_COORDS, work_origin );( q7 `: o. B3 E5 y3 `* D2 h
UF_VEC3_sub( x_vec, work_origin, my_data.x_axis );
: K2 `3 h5 F" g p# U) P$ X UF_VEC3_sub( y_vec, work_origin, my_data.y_axis );9 M) w/ q! a. n: j6 |0 ~5 Z& F# Y
UF_MTX3_initialize( my_data.x_axis, my_data.y_axis,
* b) U. w3 I t my_data.matrix );
1 k- S1 r4 g3 w" E) E5 I UF_CSYS_create_matrix( my_data.matrix,9 A$ A: N+ ?2 P: k3 C
&arc.matrix_tag );. z. I- k# C7 ?1 I& y+ C
do. B$ Y( c" F6 \3 ~" _( j$ S* Q- S
{* {0 T$ Q' i: E7 q) Q. m. q( n: Z2 k; T
UF_CALL(UF_UI_specify_screen_position(
- r8 w2 n7 o( h. v% _$ q "Specify arc center",; o2 u2 }% u6 U
NULL,1 v6 E' j) H. _
NULL,6 K. J4 L8 m) I3 C, P \
my_data.abs_ctr,
+ ]7 ?. K1 ]' Y: l &view_tag,
, \ m# i e. u7 m# ^3 P$ } &ctr_resp ));% H: D- S& y: C
if (ctr_resp == UF_UI_PICK_RESPONSE)
$ m0 E) n" V! j- l5 N; y {5 b2 ]. I0 B, K6 n. S3 U
/* Map the arc center to the arc csys.( z4 p' G c8 p* J6 g, s8 \: I6 i
*/
2 O. p* ~; p8 w0 E UF_MTX3_vec_multiply( my_data.abs_ctr,
5 M. m; h( n S3 y! R* j$ P my_data.matrix," n, C0 t2 L/ L5 h1 H6 s- A
arc.arc_center );# [- X1 V3 y. ]9 w- ?
UF_CALL(UF_UI_specify_screen_position(
% k' j5 r0 e" C! R7 a# W% m) h( t5 C! j "Indicate arc radius",
& Y' ~. ]7 r# N5 G: B (UF_UI_motion_fn_t)motion_cb,
# `4 o; U5 M+ O0 U2 J" _# x (void *)&my_data,: N9 N, Z# ] A# T% V
arc_edge_pos,
* D l& G( I2 C* j9 f& Q3 Z" x &view_tag,
: _7 ? }8 E( e &pos_resp ));
3 o( k. f! r2 G) z, n /* If a position was obtained, create the6 |7 `" b/ z) W# F
* circle.
$ I& w5 R' t% J) v+ ?4 o */. R7 A2 c: D* G3 d
if (pos_resp == UF_UI_PICK_RESPONSE)
* v. o: e; e$ O* {8 E {, c c" n, C& O4 j, \
UF_VEC3_distance( my_data.abs_ctr,
4 T" c5 Y) `) F; q5 V. d- u arc_edge_pos,
1 v% |8 Z8 V8 l4 Q. D7 c. @ &arc.radius );
1 t0 i, \8 U; ~, f" }! k UF_CURVE_create_arc( &arc, &arc_id );! K4 C# \) P9 ^( J6 a
}
" U9 Q4 r$ R9 k* O) `% s" N }
$ @/ \. z0 G8 F. e8 r/ V( m4 N } while ( (ctr_resp == UF_UI_PICK_RESPONSE) &&1 h- d U3 {. @
(pos_resp != UF_UI_CANCEL) );' r9 x5 }! ]7 m/ n: i( c" x: A# \0 V
/* Restore the WCS if it was altered above.& c$ @9 |% }. P2 E& f! r. q
*/
- j8 T$ C( P2 `; Q# X$ ^ if (default_plane != 5)
) Y6 o! o* s7 d {0 b- o( s8 L4 c! N3 k/ _/ o5 e: X4 {# ?$ d
UF_CSYS_set_wcs( saved_wcs );6 a# O& [3 c3 \ X# `2 z
UF_OBJ_delete_object( csys_id );
* M2 a9 P4 s [- ^( k }
9 m( Q2 o8 w0 M4 N$ c F/ B8 n }
; f G3 \# g% j } while (ctr_resp == UF_UI_BACK && plane_resp == 3);
8 `. ` a! J; g$ m4 H$ }" G}2 N8 A- h5 K6 K! A
/*ARGSUSED*/
. S5 J" k& j, I. K4 \void ufusr(char *param, int *reTCode, int param_len)
) b- d+ {( K) @{2 o4 U# }5 l4 ]( r$ `5 u9 f, C& I R
if (!UF_CALL(UF_initialize()))' p- Z! Q/ e% U* R( t4 K' R
{0 g7 `" _2 R3 H& F, z
do_ugopen_api();
- W; A1 I. O* l7 Q s+ J UF_CALL(UF_terminate());4 B/ [( K2 w/ r+ K4 o/ b3 v( E& Y
}
# D/ N6 Q; g8 s3 a/ A}2 L1 i" F0 V% {/ U! D
int ufusr_ask_unload(void)* O& w( F- W0 T' R8 L* z4 \
{/ R8 K# E# C; L! Y7 c
return (UF_UNLOAD_IMMEDIATELY);: {" R2 D3 Q$ r/ Y! j! d
}! r) I' p- {) H8 A+ X& H' M" h
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