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7 a& _, b: E S/ E) X) rNX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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$ A" J, j+ ?. ?8 \, X8 I: a4 _! I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!: R5 K3 w- C, S( ~2 W, _% Z
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#include <stdio.h>8 I$ d, H2 @6 ^1 G. P* X+ I
#include <uf_defs.h>, ~5 i# q y9 f* P" ~
#include <uf.h>
3 u w# @- I) Z% `#include <uf_ui.h>! T- v0 d( S& x
#include <uf_csys.h>
( w! e: b3 ~0 T4 I/ A#include <uf_vec.h>0 k& b8 K) h% Y* @: _0 o* i
#include <uf_disp.h>% F! i% a) t4 \. a
#include <uf_curve.h>
7 l- }1 [; T' y3 n#include <uf_mtx.h>
3 o5 q! W; a8 l* V#include <uf_obj.h>
' c) J- ^, |+ B; A; c. E- btypedef struct
$ ~5 ^* Q0 m6 ~& G5 ~# E { UF_CURVE_arc_t *arc;- N2 }# B9 _3 V, M) f: C, Y
double abs_ctr[3];. m" A4 |0 {+ }1 C" Z# n/ o& \) e, j
double matrix[9];
5 h: m! F! q% l& k7 E double x_axis[3];( c1 x3 g! i2 u7 o6 R
double y_axis[3];
, z6 B0 P3 u. i4 d& Z2 n: p } my_motion_data_t;" `9 S, T8 ]9 K% R# O! Y5 i2 b
/* Define a motion callback to render a visual representation of7 K8 j" A+ q; w1 ^6 y
* the circle to be created, along with a bounding box around the
1 G9 M# P1 D6 C * circle, an arc of radius 1.0, and a "rubberband" line from the1 C* ^1 ]" X7 @9 b1 F
* center to the cursor position.% g4 z$ C0 W- `! g& [
*/
# I( e4 Q& B3 C; K" kstatic void motion_cb( double *screen_pos,5 m( I6 ?$ E% y
UF_UI_motion_cb_data_p_t motion_cb_data,
' x# \% z& z- H7 c9 Y my_motion_data_t *my_data ). M. n3 x( W5 ~
{
. t7 v8 g' f0 h2 Q$ s9 ~ double radius, pos_array[5][3];5 L s9 s! }9 i0 w# U' V
double xrad[3], yrad[3], x_y_vec[3], x_ny_vec[3];3 \ `7 A* p) C( u4 D5 Q
/* Calculate the arc radius: the distance from the arc center! w& O$ [% v. B' v; ?) X& c6 y* G
* to the current screen position.
' ~! |8 ~7 D) g7 }% J */
; |" W' ?1 `9 W+ W( r6 y& b UF_VEC3_distance( my_data->abs_ctr, screen_pos, &radius );
, F" N7 \% {! ]) N& G /* Map the arc center to the "csys of the arc".
_6 J3 t/ G8 b, f' F */: d$ m3 r5 B. `3 n1 L! G0 _
UF_MTX3_vec_multiply( my_data->abs_ctr,
6 C) ]( J* ?% ~/ j( X my_data->matrix,
+ w8 j5 X v Y/ B* F my_data->arc->arc_center );
7 K, t- J2 }/ c* R6 S /* Draw a circle and an arc in the view of the cursor.
" |7 Q; H. j& y: L: {9 n */. m' x/ W9 X6 {) B2 y
UF_DISP_display_ogp_circle( motion_cb_data->view_tag,
% G0 Q' O6 ^! b! r b; K4 E my_data->matrix,+ i$ J6 t+ L# F- U
my_data->arc->arc_center," m$ Y* y( q9 h' y% O5 N: Y( u
radius );9 Y0 P) G: J; O
UF_DISP_display_ogp_arc( motion_cb_data->view_tag,
0 @, D* m2 k0 X/ C my_data->matrix,
8 ?* a! c8 v$ |4 L5 g0 ` 15.0*DEGRA, 345.0*DEGRA,. S" d8 E( O& E$ V* ^
my_data->arc->arc_center,
% B/ o6 N9 U! j7 j% D) H 1.0 );; ]. Y7 f0 z/ V; |8 d
/* Draw a bounding box around the circle.
# F. |3 q1 w' O/ h( V4 M */
" C7 h# z& J. K4 j" ^# W UF_VEC3_scale( radius, my_data->x_axis, xrad );
) l/ V9 s/ [% ` ^: |" h UF_VEC3_scale( radius, my_data->y_axis, yrad );
2 D2 E3 D2 t1 V% y; T UF_VEC3_add( xrad, yrad, x_y_vec );. r/ L& _0 M4 n8 P/ ]: k4 A
UF_VEC3_sub( xrad, yrad, x_ny_vec );
9 n7 T4 F+ T5 y9 R7 q4 D UF_VEC3_add( my_data->abs_ctr, x_y_vec, pos_array[0] );
0 U0 u2 Q& f& k) j; U4 o UF_VEC3_sub( my_data->abs_ctr, x_ny_vec, pos_array[1] );
1 Y, o- Y- l' j7 D UF_VEC3_sub( my_data->abs_ctr, x_y_vec, pos_array[2] );8 _7 ^1 R' {+ e `' B4 w# l% l% P8 ~" K
UF_VEC3_add( my_data->abs_ctr, x_ny_vec, pos_array[3] );
7 o: ?# b" d5 x, x/ d UF_VEC3_add( my_data->abs_ctr, x_y_vec, pos_array[4] );
& Q/ C2 |3 ]; h% ^: Q' l/ T UF_DISP_display_ogp_polyline( motion_cb_data->view_tag,, {7 i2 a" K U4 m& d" I; @
pos_array, 5 );- H4 O' H" G" `) c2 z
/* Draw a "rubberband" line from the circle center to the
9 p. p' F6 T5 F+ d, W * cursor position.* x. u j! T* k1 S/ M) v0 d8 L
*/
: W& K! \5 r9 I* t# ] UF_DISP_display_ogp_line( motion_cb_data->view_tag,$ B) ~# i% g5 Q5 A7 g8 _% j) d
my_data->abs_ctr,* ~( V4 r1 K2 _
screen_pos );7 b; x) I( N7 g, F$ }$ e# Z
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#define UF_CALL(X) (report( __FILE__, __LINE__, #X, (X)))1 Z2 X8 d! H/ P/ I! K) [
static int report( char *file, int line, char *call, int irc)" x4 p3 |. A! w
{
7 W$ b9 h% J) n5 R+ D0 X. M if (irc)( H6 u( R" _& P% ^# [0 e
{9 r7 a' s0 n% r4 v/ t
char messg[133];+ Q" b7 k; e% H- `3 G4 q* x
printf("%s, line %d: %s\n", file, line, call);1 V7 F7 f% r. |7 ]# |( O; O
(UF_get_fail_message(irc, messg)) ?
+ q, x8 g8 }2 Z( d( ?8 Y: o& B% X printf(" returned a %d\n", irc) :
8 x; U; ]- [- P7 L) x printf(" returned error %d: %s\n", irc, messg);6 c5 v2 v, O; a, c9 |$ t/ r
}
[8 H, t& d) I7 h return(irc);% n- M( U' ~1 y1 C7 e
}
/ v. n; W2 e; K& q" n3 Q" ystatic void do_UGopen_api(void)
" j) {) f/ v. A& S; w{9 K k$ P- c, m
int default_plane;$ W- ?+ o& P1 `
int plane_resp, ctr_resp, pos_resp;' H% I2 J& z& g1 ] m7 K
tag_t plane_tag, saved_wcs, mtx_id, csys_id,! W `( h' ^) F7 [8 Y- p
arc_id, view_tag;
w) L$ l! ^1 h! ^; l0 ` Y double plane_matrix[9], plane_origin[3],
$ c% U7 P+ q! ^+ h! h8 T x_vec[3], y_vec[3], arc_edge_pos[3];
. J) V3 t; {! e3 O+ c( B double root_origin[3] = {0.0, 0.0, 0.0};
7 L6 {1 A5 T5 K double work_origin[3];
[; ?. J4 F7 G: T: T7 c2 f5 y) {. }) u) P UF_CURVE_arc_t arc;
7 }& ] q! T0 B' W my_motion_data_t my_data;
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" A$ k0 c4 U' i; x3 Z: O my_data.arc = &arc;2 h) m- p1 I5 C; n/ T& e2 ]3 ^; q
arc.start_angle = 0.0;
: w- C; C! K$ S1 u arc.end_angle = TWOPI; /* Create a full circle. */* E" v, G$ c$ a; y/ b- L
default_plane = 5; /* Default plane = WCS */7 `8 n) N& m4 |$ t5 f
do7 L5 P. }, f) S
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/* Specify the plane on which the circle is to be created.
3 s; U3 i. s5 G! E8 e/ r& @# E$ m8 R/ j */% p% ]5 k3 w1 A1 t" S
UF_CALL(UF_UI_specify_plane(
0 @! i) W7 j) _2 g# w0 ~4 V' b% C "Specify plane for circle creation",
! o+ M5 u$ W- @1 i6 z* y T+ z &default_plane,
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&plane_resp,
* g. b! _: d% f- g4 Y$ Z# a plane_matrix,
( m+ f3 z) d5 ^! v2 v plane_origin,
' D- S; V6 C6 K L8 d &plane_tag ));
& V2 l8 m0 V" k7 h, J8 P if (plane_resp ==3)$ K" z& b; w' {5 c' I
{: n$ {% U1 i1 f
/* Save the current WCS for future restoration.; P* ^2 ?: g5 q8 s/ w) `
*/; Z! y; y" t; m9 y& }0 e3 W
UF_CSYS_ask_wcs( &saved_wcs );
, q( _. B, W; K: ]* x! {& Z4 H /* Move the WCS to the specified plane. This is
" o4 M* }. g# I9 g/ ~ T" R. l * necessary because the position passed to the motion
3 d6 } M2 k) k) q& P * callback, and the position returned by
7 L6 W O' W& s% R2 z8 u* @ * UF_UI_specify_screen_position, is the screen& y; \8 w4 u; U4 Y U
* position projected onto the WCS XY plane.
8 Z! j% B# h: O" c7 v */
* V [& f+ [% R2 }+ o$ t if (default_plane != 5)
0 v6 k& V' F0 R% |, u9 [ {/ V& T2 G. {' k
UF_CSYS_create_matrix( plane_matrix, &mtx_id );
$ ~; W' V$ o" d* W UF_CSYS_create_csys( plane_origin, mtx_id,% i1 B; m- j7 Y% A9 Y, @$ z% O
&csys_id );
/ u w: T0 N7 h2 C UF_CSYS_set_wcs( csys_id );
* D2 ?" H) o! J% e7 _ }
6 V# x7 S9 F9 a' P) f2 [: V1 d /* Obtain unit vectors and the arc matrix relative to0 X1 L# t5 C0 J4 P
* the Work Part coordinate system.& J8 l4 [9 N# m( o) ~" W1 b( I
*/
( Y; E3 ?( G1 L+ U: W7 G UF_MTX3_x_vec( plane_matrix, x_vec );" c9 I, ~/ |1 K6 O
UF_MTX3_y_vec( plane_matrix, y_vec );
( O$ z) ?8 Q" v0 D& m% \ UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, x_vec,
( k4 b. {9 F* [ UF_CSYS_WORK_COORDS, x_vec );7 [5 {2 n+ w, p* _( u
UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, y_vec,
5 O" H" c9 h" I4 K* c; R UF_CSYS_WORK_COORDS, y_vec );7 p$ B. P. n/ F
UF_CSYS_map_point( UF_CSYS_ROOT_COORDS, root_origin," f, g/ L* w7 R' C& t( ?
UF_CSYS_WORK_COORDS, work_origin );
; h$ L$ c7 ]( `7 N UF_VEC3_sub( x_vec, work_origin, my_data.x_axis );
, U) f) ^1 f0 k3 L3 W# j UF_VEC3_sub( y_vec, work_origin, my_data.y_axis );! J" I7 E/ q$ d
UF_MTX3_initialize( my_data.x_axis, my_data.y_axis," Z) y4 f- [2 O) E( E2 K- N$ \& Q
my_data.matrix );
& q7 ^3 A Q1 Y- U' k UF_CSYS_create_matrix( my_data.matrix,2 Q7 P0 l- Z0 ~) K" z4 N0 f0 e
&arc.matrix_tag );
- T$ a+ P( { ]9 `) ] do
8 [ Z6 n% V2 l. K: |, ]* f4 s: V {
) t2 o; G% _: e6 Q/ K* M1 q# A$ m UF_CALL(UF_UI_specify_screen_position(* O; t* g0 _6 u4 d- N3 K6 p' H* b
"Specify arc center",4 d! o; m7 m* ~6 p) Y$ w
NULL,6 Q0 v2 j) L! B* X
NULL,
6 i: T2 z, v" x) w1 j my_data.abs_ctr,
8 _$ x" K$ @1 }9 x {" v& y &view_tag,
" n/ ^/ @) w/ T$ u &ctr_resp ));# e4 T. f, v# y: b- I
if (ctr_resp == UF_UI_PICK_RESPONSE)
7 m6 m1 D* x, t- a0 c* G. }$ Q ~ {+ c, t5 e0 B7 p* i% \
/* Map the arc center to the arc csys./ \/ @, ~* b5 P% L' r, o
*/
% ^/ b1 e1 K1 W8 b" a+ z. y UF_MTX3_vec_multiply( my_data.abs_ctr,. t% w" ?, @" m+ }2 s6 ]2 s
my_data.matrix,; I6 f) B. R( _; m% D
arc.arc_center );
% q& f7 P7 E% C8 k UF_CALL(UF_UI_specify_screen_position(
6 M' G" E$ `2 E$ X% e "Indicate arc radius",' m5 G9 `, q' T/ K& `2 |1 {
(UF_UI_motion_fn_t)motion_cb,
5 x4 o q" Q8 X5 E1 w9 _3 r2 y7 b (void *)&my_data,
5 ~7 Q3 z! z# ]% }( v ` arc_edge_pos,( |8 }9 I4 b9 v# w6 c5 M( l
&view_tag,+ |" d# {; _! |( [2 _
&pos_resp ));
' \2 w* e5 Y# i0 d: L, k/ P /* If a position was obtained, create the9 W& T+ n4 u# a% j0 ^
* circle.! ]) p3 J: u, P: B$ j, u3 ^6 l" P
*/
! |2 k7 S% x# d( R; U if (pos_resp == UF_UI_PICK_RESPONSE)- T; G1 x4 o2 M$ p( t
{: ]& z- V! w2 r6 m" z2 g
UF_VEC3_distance( my_data.abs_ctr,9 ~: [# n. G& T% ]6 C. o/ a
arc_edge_pos,3 E* u3 B0 R# V# Y( H b2 p+ C
&arc.radius );
$ W! T" v6 E1 K: d1 T3 w# T; G UF_CURVE_create_arc( &arc, &arc_id );
# ~% O$ P- A! K9 c5 E5 Y- @0 \/ T$ q4 F9 i }
- Q$ g2 f2 s% w6 ^3 a( l" u8 ?/ N }
1 W7 Z M" i$ \# V9 N+ j7 q } while ( (ctr_resp == UF_UI_PICK_RESPONSE) &&
! [# _: ]4 z5 E# k7 s" E; \8 k (pos_resp != UF_UI_CANCEL) );1 q& i1 J' x; Q! }/ j$ @
/* Restore the WCS if it was altered above.
; }2 z) H0 j6 N, ]( F */5 t# }; b* F& @; p- w& t
if (default_plane != 5) m3 R$ s, m3 B- \; I
{
; x: V, w& D* M/ ~/ }% N$ V UF_CSYS_set_wcs( saved_wcs );
& p E, C% ~' I: @% D( b UF_OBJ_delete_object( csys_id );
" d- J9 z# h9 j }
& y9 ? n/ @; z; h3 _4 b+ w }
4 Q, S2 }0 c3 i8 \) H% c } while (ctr_resp == UF_UI_BACK && plane_resp == 3);
& R: L; i+ `- B$ h4 J}" z* k7 D) L* ^0 i4 d5 O' B) b6 x
/*ARGSUSED*/
: W2 {: i5 q ^2 L w$ Qvoid ufusr(char *param, int *reTCode, int param_len)6 {0 q& P X$ K# V
{$ M+ M/ Q2 n7 H& b
if (!UF_CALL(UF_initialize()))# ~% B( Y% X; Y# _. t
{6 _; w- w+ H( S! F& Q) h
do_ugopen_api();
4 n; c, P8 i6 J6 z* F# q5 o, c UF_CALL(UF_terminate());% C- a. Z, z" ?' i
}* g/ Q+ B& N, @+ ~' M$ j
}
6 g3 d4 r! v1 d. x! V3 p( i% eint ufusr_ask_unload(void)
q. _$ I. f4 h8 [- B+ s{5 p+ N1 h1 B2 D' r* |0 z
return (UF_UNLOAD_IMMEDIATELY);
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