UG二次开发源码：计算曲线信息评估非常好用的方法分享

admin · 发表于 2014-5-3 12:58:05

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

/******************************************************************************
* ~5 t9 h5 ^+ f/ W
- m8 a. `" U9 S3 ?* L
*******************************************************************************/
- {& Z# Y3 t$ O0 q" C
/* This example demonstrates the UF_EVAL api for lines and arcs.
5 q8 U2 `' k9 t0 c8 h
Some of the UF_EVAL routines operate on an evaluator! D- U) | k; A/ F
independent of type while others are type dependent. No longer use: Q( v3 y- j: m* I" T
UF_CURVE_ask_curve_struct ( ),' J0 F! n% u% a8 I* l" `
UF_CURVE_ask_curve_struct_data ( ) and& ?4 B- N1 |& i( ~
UF_CURVE_free_curve_struct ( ); i' U* W4 C' k/ n5 p) Q) W
*/! Q& K$ P3 N4 }* y- s. V
$ u# d5 Q _# B2 M. L: P1 @8 u0 K% O
#include <stdio.h>
+ N4 [+ E( y1 T; A% H4 r- R/ n
#include <uf_object_types.h>) U) n$ _) I5 c4 [8 _' d2 u
#include <uf_curve.h>
7 V p- \7 S; P0 y; S7 j" w
#include <uf_eval.h>: t, I, t% \9 v- M2 `9 T* g6 w
#include <uf_modl.h>
3 ?( C* Q, s6 U+ e5 U6 u/ T
#include <uf_part.h>3 R) O4 U4 K2 e K, P% j: _' s
#include <uf_so.h>9 o4 G7 Q2 g: U5 h) H7 A/ d( l. a% e
#include <uf.h>1 r% D" p# M4 M# I
#define UF_CALL( X ) ( report ( __FILE__, __LINE__, #X, ( X ) ) )
/ l( {- @: Y/ q& B& ~7 f8 @
static void show_edge_points(UF_EVAL_p_t eval, int n_pts);! S. w0 b8 D1 f$ M: O
/*---------------------------------------------------------------*/; n2 f7 Y; p. i/ f+ v
static int report ( char *file, int line, char *call, int irc )
% L3 z1 D! r3 M! c2 F, E
{2 T: x% H) f8 m' N1 {: z0 v# i
if ( irc ). X1 k. U& s8 r ` y' z
{
" m2 r+ @; |3 k/ J# x x
char message [ 132 + 1 ];
V% q; z- c# W( k2 ^
printf ( "%s, line %d: %s\n", file, line, call );$ I9 c, e0 c6 \) T: L
UF_get_fail_message ( irc, message ) ?$ ]' C% U4 q7 a
printf ( " error %d\n", irc ) :+ f- z; Y5 d- u' G. M# E
printf ( " error %d: %s\n", irc, message );
( A2 T) ?3 `+ Q' f5 k* Y5 j1 k
}
" p" a0 n2 v# u
return irc;/ g+ \& H; O) e2 z9 v$ j
}
/*---------------------------------------------------------------*/3 A- R5 N1 N4 K. L
int ufusr_ask_unload ( void )
n$ w2 S. e' U( ?4 O. @
{8 G4 o" X0 i0 ]( o' a$ H* E/ j
return UF_UNLOAD_IMMEDIATELY;3 Z3 W$ s! F5 ^& [
}
% Y% J x1 W* J4 Q7 X* N9 D
/*---------------------------------------------------------------*/7 I1 |+ V J; G) l2 M ~" t
/* ARGSUSED */# I: j2 b6 P9 m: @" \; u W
extern void ufusr ( char *param, int *reTCod, int param_len )
2 H5 J8 s8 u3 r8 }% L7 {
{! D, N. C8 |2 o4 |
tag_t line;) b/ t( G) }1 ^, C, c& m
tag_t arc;$ P4 M. [0 K- s$ c: Y
tag_t edge;4 m0 L4 r U0 O$ W3 Q
tag_t edges [ 3 ];2 u, v$ [2 F9 k6 F+ q0 ]; |3 d2 _
UF_EVAL_p_t line_evaluator;( k' y2 M8 X/ R( t
UF_EVAL_p_t arc_evaluator;6 T6 }- z0 D5 z+ }0 w" \2 I
UF_EVAL_p_t edge_evaluator;
, Q8 g- j$ f/ N; O* Y8 z4 y
UF_CALL ( UF_initialize ( ) );( I m/ A: l, B# X- ]( Q o. B
/*
, R! s) i, c/ g" Y: V
Create new part "ufd_eval.prt".# C$ [" T9 [% z5 ~+ b+ P7 R9 Z
* e" a! L: w( w: v
Close part if it already exists.% B, x `. u- N1 I
*/3 k# Z- D% b$ n$ R) B
{
) P0 O; }* m4 w0 E; j/ m6 x, n
tag_t part = UF_PART_ask_part_tag ( "ufd_eval.prt" ); ~7 a9 d7 I" n7 A6 R: G" i
if ( part != NULL_TAG ). r c! g/ @0 j' t/ M0 U2 L
{
0 a3 T" q& F* D% w
UF_CALL ( UF_PART_close ( part, 0, 1 ) );4 g( A- _& r U% V/ Q
}
) G) d* T5 f. M+ V
UF_CALL ( UF_PART_new ( "UGd_eval.prt", ) C4 F7 m7 k6 Y5 H
UF_PART_ENGLISH,
6 d4 }* ]0 F/ e, T j, }& O
&part ) );
# r) C5 H0 E" ^( P
}9 a8 v3 i _8 L/ |6 F+ z8 o
/*
5 l! ]. i; V6 l: v
Create block and get edges. ; b/ J$ d7 I4 [5 u
*/. Y5 T9 G0 [7 a, L3 J
{) Q& R' n# [4 R
double origin [ ] = { 0.0, 0.0, 0.0 };
7 D; }8 b8 P _5 E4 F4 A9 \
char *sizes [ ] = { "1", "1", "1" };
. ~) A4 y2 G; O" M1 q
tag_t block_feature;8 S( N! R$ i0 T3 W, y
6 H2 ~. _' R" r2 s
UF_CALL ( UF_MODL_create_block1 ( UF_NULLSIGN,
9 `5 \* R% w( s% U8 r/ U
origin, 8 n7 P- A! ^- I% r: P# J
sizes,
; K' X$ z3 i: w' t
&block_feature ) ); ]- g, q0 N4 C* K8 z7 R0 G
{
' A& L+ h0 u# ?6 A( N
uf_list_p_t edge_list;
3 F; Q; a! e- p9 s2 s
UF_CALL ( UF_MODL_ask_feat_edges ( block_feature,
# N& A/ p( z, ]' ^0 {
&edge_list ) );
2 ]4 l" |1 R5 V# D
* d; g9 h" z2 R1 [
UF_CALL ( UF_MODL_ask_list_item ( edge_list,
/ y |2 ^' g+ U% {' [) |$ d& M
1, ( M/ ~# P9 n# a1 d2 O1 z6 U
&edge ) );% U; t: }. h4 T: [# {* I8 q% u
edges [ 0 ] = edge;
) {' R/ j2 a9 h: {5 H) W1 w
edges [ 1 ] = edge;
' h& {4 j/ N j: w7 q3 [- R
UF_CALL ( UF_MODL_ask_list_item ( edge_list, 2 A8 _4 s+ y2 Z4 d2 B: L' \
0,
9 M* p% F" j$ j s- o% l
&edges [ 2 ] ) );3 t6 f. R1 }& H! R. I( ?- ]6 x
UF_CALL ( UF_MODL_delete_list ( &edge_list ) );9 K# Y/ G+ e! f4 l( S
}
" s/ H' N* S W% r2 w5 p# l7 u
}+ T8 U* t* P! w1 m A
/*
; F9 M* B4 ~( L n6 c! `$ s
Create smart line.. G p* t: E6 j# G3 M9 A$ {
*/
4 G2 _% } S/ P/ p8 N/ G
UF_CALL ( UF_SO_create_curve_extract ; V7 u* |" y) Q/ s4 `0 ?! v& C8 T
( % R/ P" V k) o. k6 f& u
edge,
7 F0 L Y( S* z2 h* T
UF_SO_update_after_modeling, / \6 b2 v7 S% n5 j' l
edge,
) a @# Q0 B/ o, q; V( Y
UF_line_type, /* enforce line type */
6 T+ j- [- l) D4 K& U$ D& C( y
0, /* no subtype to enforce */& U# i8 S/ ]3 V: _; [
NULL_TAG,
6 H% Z7 K& Q8 U. r4 z
&line
$ P0 b1 w/ \# p9 j
) );
3 B% G( J0 S4 Y1 V- d
9 z8 X( ]9 {' t& M: A9 V4 I
/* 0 Z6 t4 o7 a0 P5 K
Create smart arc./ Y- m( b0 c5 C
*/, S8 ?8 F- H0 \& [; R I
{
6 ^1 R8 y" i+ s2 X7 @
int i;& o# y7 m, w; S1 c( P
tag_t points [ 3 ];7 G* v6 b! W+ |6 Y
for ( i = 0; i < 3; i++ )7 _: A) H7 p, V+ I& M( L1 F
{
/ K. p; |- j- c3 j) t
char *strings [ ] = { "center=1.0", # P1 ~: \6 j1 ~$ [( I
"start=0.0", 9 e. E; ]" \4 K# h$ u+ ^' M( R
"end=1.0" };& Z( n/ @ U* y6 V: d
tag_t exps [ 3 ];4 [0 F- U7 P1 M
tag_t scalars [ 3 ];+ \% e. v# \" V& m( q- p
UF_CALL ( UF_MODL_create_exp_tag ( strings [ i ],
( p* y0 v' x# N- V
&exps [ i ] ) );1 U, T8 q9 h: ^" r9 A- v& V" d
UF_CALL ( UF_SO_create_scalar_exp
) R. r- {8 N2 j9 X# V! m3 [1 D; W
( / V1 E) C- [- Q3 G: V: w* K
exps [ i ],
0 y& v1 `2 p6 Z' c: D4 E& n% L. q
UF_SO_update_after_modeling,
: l- s+ Q& q! ]/ _1 Y2 u% h4 U9 d
exps [ i ], 7 }+ n+ D" ~7 ~0 q' ]* L; L
&scalars [ i ]
9 P6 @' u0 A, g
) );
' H% f8 q4 P# ?1 Y
UF_CALL ( UF_SO_create_point_on_curve
/ e* ~. M4 w9 C' A1 u2 j
(
/ ]: t( p# B% u; V1 f3 p; Y
edges [ i ],
" w) q' D0 X5 ]; Q
UF_SO_update_after_modeling, 1 `+ A4 y- D/ [% d1 R t9 b
edges [ i ],
% `0 R, P5 R$ f. O- w6 t, F
scalars [ i ], + J+ g" G' ]( n* M, K8 ]. C
&points [ i ]
0 q3 ?7 U1 ^5 a. v! ^! O& W
) );& L6 d- n7 S' {( K$ e" P8 |
}
2 f* \# ]+ a" Z3 B
UF_CALL ( UF_SO_create_arc_center_2_pnts " F8 ` g$ s# V8 ~! {
(
# G- E- T) y( Z" g$ S3 |
points [ 0 ],
7 T; b& u' C0 s5 z& F, a) {) x+ M
UF_SO_update_after_modeling,
* P/ A) L- c7 ~1 [8 n I
points,
7 w9 D; B* V& x4 D9 X( S
&arc
1 q) }4 N6 e7 X
) );" ]+ `: p9 l5 @# t l7 u* |
}
* c% N: |# h v, C( J' W% M0 f
% r+ b$ F/ r5 W7 P Z: |; r* |
/*
+ |4 Y4 D. d. Q: [8 n+ [4 ~
Smart objects are created as invisible objects by
; A, H, v- d" `0 R- O9 N' I
default. UF_SO_set_visibility_option ( ) can be
1 }! b* a T) p. j
used to make them visible in the graphics window./ w5 c( ^& r* L. a1 z
*/
& K" Y) u- u. h8 }1 y
UF_CALL ( UF_SO_set_visibility_option ( line, 3 U9 {2 I% _1 b4 a+ ?. r- _
UF_SO_visible ) );8 B0 [/ S' R0 H# O
UF_CALL ( UF_SO_set_visibility_option ( arc,
2 R! v' p( n0 E
UF_SO_visible ) );
$ @+ E. A+ h, }* o5 ^& M% y$ c- w
/*
$ _0 @ [4 g! K) W
Get line/arc/edge evaluators.4 x x3 M! J( c' x
*/ L# C" \$ K$ v2 t/ e: f; s. B: t5 S
UF_CALL ( UF_EVAL_initialize ( line, &line_evaluator ) );8 S! J+ g2 c$ x* s
UF_CALL ( UF_EVAL_initialize ( arc, &arc_evaluator ) );* E X$ v. H" N9 Q7 X
UF_CALL ( UF_EVAL_initialize ( edge, &edge_evaluator ) );
) g! j2 Q J+ B# u, I% C
show_edge_points(line_evaluator, 10);- [( w' t2 m% Z; ^; e* Y8 O1 ?0 B
show_edge_points(arc_evaluator, 10);
% W6 F: T1 F) e, l- u1 p2 i: N2 e" g
show_edge_points(edge_evaluator, 10);/ C, x( b9 H+ y2 ]# U
/* * O Z7 ?: k" K7 Z7 T& r
Get line/arc/edge data.
/ X, V0 x8 X' X# |- k1 Y
*/
% V. E9 h- |% O# p: o8 l/ C! Q
{
0 ~9 v b0 ~+ a+ ~; o8 j
UF_EVAL_line_t line_data;& ~6 Q# P( K/ |. O7 W: K6 ?; n( q
UF_EVAL_arc_t arc_data;
4 L6 V8 L$ C4 A% y: z: z6 f2 S
UF_EVAL_line_t edge_data;4 T5 T Q1 P2 A; K3 `* E
UF_CALL ( UF_EVAL_ask_line ( line_evaluator,
8 t/ U5 c) O& r# ^: f
&line_data ) );4 \. o( Z @2 z# O, o( t: _$ K
UF_CALL ( UF_EVAL_ask_arc ( arc_evaluator, 0 ?9 `: G j/ b
&arc_data ) );
2 y! ~; [" j( P( D4 d7 f5 i* Y4 o
UF_CALL ( UF_EVAL_ask_line ( edge_evaluator,
$ ~8 a1 X" X; V6 Q; G% ]
&edge_data ) );
2 ^, Q4 y4 |/ e+ _5 f* h; D/ U
}
9 d' U3 q9 H3 g- A2 ?6 }7 c9 k
/*
8 r0 ^. l! e" Z& x
Check line/arc/edge periodicity.
; X1 r2 S8 I# C. F, F& Q- ]
*/
4 q, v: p: Z% p* e) {8 S6 a
{+ y+ _9 l. g* A( f7 @3 G
logical is_periodic;
4 U. V- D* q" w ~
5 f; G; G# e$ P
UF_CALL ( UF_EVAL_is_periodic ( line_evaluator,
% z, g1 O F8 Q) `
&is_periodic ) );3 Y. S3 k- Y% c. N; t
UF_CALL ( UF_EVAL_is_periodic ( arc_evaluator,
- O! I5 [. a; W ~6 t( `3 b" w' ?
&is_periodic ) );
$ s6 e' p: S# V2 X
UF_CALL ( UF_EVAL_is_periodic ( edge_evaluator, ) O3 [: ^6 _. G9 c
&is_periodic ) );& D3 g6 R0 T+ g; o" y
}
k6 _# D: G+ e6 [) Y1 \% `
/* ) z& i( z6 f- G; j$ B
Evaluate line/arc/edge./ A& n( ]# g, \5 [- [) W b& v
*/
4 s ]" g* S, B
{
1 t, e* h+ u# T+ T- l9 d
double limits [ 2 ]; ) c7 R# B' |5 U( K3 z- F
double mid_t;
; P1 l8 u4 E0 \& u9 J! D: Q5 @
double point [ 3 ];
& E2 e" Z0 h4 N- ^
double derivative [ 3 ];
+ n% {7 T6 _. r2 u6 E
double tangent [ 3 ];
6 x9 j* s/ Y- a3 n
double normal [ 3 ];" ]( r2 D, Y4 w+ n, v: {3 p' D
double binormal [ 3 ];: h/ [7 T9 @5 k* J4 Y% e# ^: k/ S4 X
UF_CALL ( UF_EVAL_ask_limits ( line_evaluator, limits ) );
/ p" P* S9 V$ s" n
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;3 l( t8 [% v' x1 Z+ f7 w) E* O& Y
UF_CALL ( UF_EVAL_evaluate ( line_evaluator, 6 E3 K8 h0 _. B! h! Y
1,
4 C% C* F6 c8 P! D8 z9 P
mid_t,
- \( O4 j& Z7 A- r l6 r
point,
# d! I# s, b- b
derivative ) );
( S1 `6 S- U( i6 L* z
5 e/ X+ }1 R1 j
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( line_evaluator, 4 a& M( C6 y2 x" f6 I. |1 J1 {
mid_t,
3 q# x J' B" \1 P
point, ! v! i" l e% }7 K' G
tangent,
( w a9 N$ B) D( Y; D7 @( t4 g. `8 a
normal, ( m5 p5 E+ o5 h
binormal ) );/ M9 L, X/ {' [5 Q9 ^: W2 S
UF_CALL ( UF_EVAL_ask_limits ( arc_evaluator, limits ) ); O) `, m! L9 B2 ^- y, M
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;. W- ?# |# V$ X+ m! I
) g0 K; T/ x# _9 S7 l9 w* Y
UF_CALL ( UF_EVAL_evaluate ( arc_evaluator, 8 a& E2 v; S7 t
1,
' e/ t Q7 C; q+ i6 F( j
mid_t,
5 ?- R6 k& K2 q
point,
2 U8 n; w- h: J
derivative ) );
. V8 ]2 U6 F6 w0 U
6 F. O1 k" L2 B K
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( arc_evaluator,
+ v/ l5 D4 l1 H7 I6 g
mid_t, : Z$ x$ v7 e5 ?" y6 e$ H3 u
point, & \; ~# Q7 I( c2 O
tangent, 6 Q2 C! ]! o o) y8 a! r' ]
normal, 9 F; k# b5 F0 n$ j: R- b, S7 s
binormal ) );9 {* r+ A" i6 `1 j+ u( l D
UF_CALL ( UF_EVAL_ask_limits ( edge_evaluator, limits ) );
6 _, ?5 H8 P) G6 R* B! z/ f: b
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;
5 c' H7 Z0 j) C7 ~, |; @
UF_CALL ( UF_EVAL_evaluate ( edge_evaluator,
0 J. U. m6 \- O+ b+ M `4 D1 E
1, / o( U z' W1 i; F
mid_t,
8 Z$ ~! w, p$ J& q
point, ! U/ f- R8 d# S/ `4 t/ [
derivative ) );
3 E' ^+ B" ^/ ?9 D3 Q) q, P, T4 a0 g
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( edge_evaluator,
+ P/ B$ V4 }; C& e& M/ S# }
mid_t, : B1 Z6 T0 Z8 D
point,
& {) Q! u) ^* b' _7 {4 h' ]5 G
tangent,
- ^7 f( C* K: \7 l) S
normal, + F8 P$ W) @/ N* L- X& E7 @& f
binormal ) );
$ i8 G& z( v+ d, m g2 J
}" C, s! c3 @! s1 \; M3 o" V. Q0 _
/* 3 c$ r0 L ^. W9 O
Check line/arc/edge equality of evaluators.
' V b8 [, q8 s: c
*/, H `9 f" Z9 ]9 ]
{
5 V5 {. T* ~) v
logical is_equal;2 M, k7 m, z# T. v* U7 Z) q
UF_EVAL_p_t line_evaluator_copy;& i; z1 f$ G, k* j/ h# K
UF_CALL ( UF_EVAL_copy ( line_evaluator,+ O0 c* v" }3 i2 l; W- z
&line_evaluator_copy ) );
/ s/ {9 S1 u3 \4 u. a% Q) M$ U
UF_CALL ( UF_EVAL_is_equal ( line_evaluator,* j" f6 D" S5 }& {, X6 y
line_evaluator_copy,
" k j, R( P; ?: i5 S! v) G! s
&is_equal ) );
) _0 B) U9 |, ~
UF_CALL ( UF_EVAL_free ( line_evaluator_copy ) );" L" D% z5 f/ Z" U! E R$ u( l# U% P
UF_CALL ( UF_EVAL_is_equal ( line_evaluator,
3 F7 u" ?$ a5 P6 B- d) L% L3 Z
arc_evaluator,
& I2 E; n; x& u* U7 n- Y% u; K
&is_equal ) );4 M" T, y* r2 t3 s; M" J; H
UF_CALL ( UF_EVAL_is_equal ( line_evaluator, 2 C- i. A( P0 ] M( E8 d- V3 D
edge_evaluator,
" ~7 G o# @+ n) V. j2 g+ ^
&is_equal ) );
* V3 B! b6 i! p* r
}1 j2 P: l( |9 {/ U ]6 W
/* 0 P5 H! p, M. Y
Check line/arc/edge type.
, X! u' I/ ?- }. w$ \) X: N
*/# V$ T/ ~' B$ X- O6 z" M
{# [0 C- W9 P" T9 i1 R
logical is_line;) y l/ T. {/ c! n5 a
logical is_arc;
5 g* g7 M) T) c
UF_CALL ( UF_EVAL_is_line ( line_evaluator, &is_line ) );
4 `6 `& J8 [6 v- N
UF_CALL ( UF_EVAL_is_arc ( line_evaluator, &is_arc ) );
' b0 [1 Q, ^1 E& F) _- A, k
UF_CALL ( UF_EVAL_is_arc ( arc_evaluator, &is_arc ) );# s; k, h1 d0 Z) m
UF_CALL ( UF_EVAL_is_line ( arc_evaluator, &is_line ) );
1 m' i" d M9 Z% A
UF_CALL ( UF_EVAL_is_arc ( edge_evaluator, &is_arc ) );
2 |/ O1 l, Z. N. D3 |
UF_CALL ( UF_EVAL_is_line ( edge_evaluator, &is_line ) );
: D; I7 j! d7 d1 v9 x0 { j
}
- w# E; V0 M' ~
UF_CALL ( UF_EVAL_free ( line_evaluator ) );' l" m' v* u; J
UF_CALL ( UF_EVAL_free ( arc_evaluator ) );
' W2 o8 j3 F# N( D2 Y) c
UF_CALL ( UF_EVAL_free ( edge_evaluator ) );
5 {3 U9 x/ r% N; [ K
UF_CALL ( UF_terminate ( ) );3 W& j6 g& _. E) f
}
1 d0 L, } u; g# r& q
" R5 [# f* m& b; _' w2 F% K% h
/* This function will disply n_pts equally spaced along the
7 R5 K5 S+ P' O1 g m
input curve.1 J$ W- e8 O2 i3 X) p0 _
*/: J4 G; g/ }2 Z9 u P4 D" d# L
static void show_edge_points(UF_EVAL_p_t eval, int n_pts)
. D H& N: ~! o
{& ]+ @5 f. S% _) g) W0 t
int ii;
; X* p$ E. ~# E; E8 y0 m
double limits[2], p, point[3], end_parameter, start_parameter;5 e/ s+ r( u1 d0 k6 O
UF_OBJ_disp_props_t
' D" G6 m- [0 N6 C4 ^5 y
attrib = { 1, UF_OBJ_WHITE, UF_OBJ_NOT_BLANKED, UF_OBJ_WIDTH_NORMAL,
+ h) I! z/ {% Q0 B- z
UF_OBJ_FONT_SOLID, FALSE};
' l) z" E( ?2 e, y
3 ^0 N2 c' B6 t+ _' e! Z2 }
UF_CALL(UF_EVAL_ask_limits(eval, limits));
+ Q T. m4 R! m- J! R% k
printf ( "limit0 = %f\n", limits[0] );
/ S2 d+ n( Q o, \
printf ( "limit1 = %f\n", limits[1] );# f% ]2 u) X8 b( ]$ d$ }
start_parameter = limits[0];3 S' n! t1 L$ l9 U% @$ q0 A
end_parameter = limits[1];. v' f! @# r% D) ?9 W
- i! J& V2 X9 o* Z$ [, m8 D+ l# i2 t
for (ii = 0; ii < n_pts; ii++) k" ?, H. j$ M( T+ N- t
{
" o8 x- }7 |$ A& E8 f
p =start_parameter + ii*((end_parameter - start_parameter)/(n_pts - 1));
" X i! m3 b# F G
printf ( "evaluate = %f\n", p );
( f* W2 w3 {( ]7 l8 |
UF_CALL(UF_EVAL_evaluate(eval, 0, p, point, NULL));8 ?2 H. M4 W/ G0 }9 b) K- A+ H
UF_CALL(UF_DISP_display_temporary_point(NULL_TAG,' P4 x& B7 M( q
UF_DISP_USE_ACTIVE_PLUS, point, &attrib, UF_DISP_POINT));8 J1 P _6 e4 h3 P- M$ f
} M. I" t; x% G- t3 S: R
5 U+ m6 Z/ i! y( Z7 k( [' M
}
/ [; a; s9 e( S) W! j. `- |

复制代码

PLM之家精品课程培训，联系电话：18301858168 QQ： 939801026

NX二次开培训

Catia二次开发培训

Teamcenter培训

Tecnomatix培训

PLM之家PLMHome-国产软件践行者

热图推荐

[二次开发源码] UG二次开发源码：计算曲线信息评估非常好用的方法分享

admin 楼主

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！

相关帖子

发表回复

浏览过的版块