UG二次开发源码：计算曲线信息评估非常好用的方法分享

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/******************************************************************************
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*******************************************************************************/
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/* This example demonstrates the UF_EVAL api for lines and arcs.
2 T$ r8 _- Q7 v9 b
Some of the UF_EVAL routines operate on an evaluator0 U; _' ]+ Q _. s4 ?* {* Z
independent of type while others are type dependent. No longer use
' x+ T0 | i& z2 _) H M
UF_CURVE_ask_curve_struct ( ),
7 r, r1 I/ M4 I; m1 ^4 l
UF_CURVE_ask_curve_struct_data ( ) and: v8 k+ v6 \9 T3 t* O; e% A
UF_CURVE_free_curve_struct ( ); x: d' ^# `2 s+ k( d4 t$ m
*/* z, g6 }* p; [1 A& y, N: O5 r
7 Q* u# H6 ~$ n0 B4 B) V
#include <stdio.h>; D& z0 b- M, n4 K
#include <uf_object_types.h>
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#include <uf_curve.h>
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#include <uf_eval.h>
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#include <uf_modl.h>
$ k4 t" U3 \( ^. R
#include <uf_part.h>
; D6 t+ k/ u' C7 J O
#include <uf_so.h>0 U R X2 A, K( f* V; F( p- h
#include <uf.h>
& `( G& _8 m' \% g
#define UF_CALL( X ) ( report ( __FILE__, __LINE__, #X, ( X ) ) )
) A$ Z7 V: q( h1 p: Q! W; ^( g
static void show_edge_points(UF_EVAL_p_t eval, int n_pts);5 Z4 E( H3 F9 a+ p
/*---------------------------------------------------------------*/9 b3 u/ p6 s$ j7 u7 X C# S
static int report ( char *file, int line, char *call, int irc )/ v0 D0 v1 B- W6 P
{. X* O4 N J _8 k# N# U
if ( irc ); t1 Z8 s; e$ _. z
{% x5 r- f' S/ d; n! c s' y v
char message [ 132 + 1 ];+ _" X7 h$ @% c3 k3 R
printf ( "%s, line %d: %s\n", file, line, call );
7 m* x4 U* T3 _$ b" l/ R
UF_get_fail_message ( irc, message ) ?( D" K( B, U* |- C9 y
printf ( " error %d\n", irc ) :2 h# S3 W/ h( g4 B) q
printf ( " error %d: %s\n", irc, message );
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}
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return irc;
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}
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/*---------------------------------------------------------------*/
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int ufusr_ask_unload ( void )- l8 ^, c9 f3 |3 I: o
{% C( C. \! N; d- `% G
return UF_UNLOAD_IMMEDIATELY;5 d9 i; z3 n& _$ _ Z
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/*---------------------------------------------------------------*/
: |) `- N+ m6 j- e+ E. R
/* ARGSUSED */! F" ^- @5 x% ^8 P7 H' `
extern void ufusr ( char *param, int *reTCod, int param_len )
& R# T( u. ~. a, w( A
{' N; ^" p- d( K- `$ G
tag_t line;
: B! b4 x1 X' H
tag_t arc;, l$ f$ Q8 i: ]& F: G
tag_t edge;
& C% K, i$ ~* s
tag_t edges [ 3 ];
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UF_EVAL_p_t line_evaluator;
8 b. E+ h7 }# o ]" E$ ^9 q
UF_EVAL_p_t arc_evaluator;
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UF_EVAL_p_t edge_evaluator;4 P: x/ E- a( w' e, o: s0 X
UF_CALL ( UF_initialize ( ) );
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/*
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Create new part "ufd_eval.prt".3 M2 `) o2 c- l! g2 Z6 z, n
' m0 Y& }) k! L5 Z" B
Close part if it already exists.
, L1 u$ U. n+ D, {# d% O
*/- f* N: }3 w6 h* y
{
^& H& a Z4 x9 O7 t
tag_t part = UF_PART_ask_part_tag ( "ufd_eval.prt" );* m9 i& e% z/ y) c9 F
if ( part != NULL_TAG ); X. H2 ?. `1 B( K M* r3 N
{$ X$ N }6 Y& v+ y9 A. s$ p3 ?
UF_CALL ( UF_PART_close ( part, 0, 1 ) );) j- F1 L7 w+ l3 h$ B% H, b
}0 i" V! F- B, \! w; d
UF_CALL ( UF_PART_new ( "UGd_eval.prt", . R, c, t. d: P1 Z/ A& k
UF_PART_ENGLISH, 2 M1 p1 @6 `& c
&part ) );" L$ W( B# Z% t- O; v
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/*
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Create block and get edges.
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*/$ C) y6 F" X; h) m
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double origin [ ] = { 0.0, 0.0, 0.0 };
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char *sizes [ ] = { "1", "1", "1" };
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tag_t block_feature;
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UF_CALL ( UF_MODL_create_block1 ( UF_NULLSIGN,
# I4 O7 {- b4 N2 Z' f6 g* Y
origin,
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sizes,
1 Z$ L$ J1 t- u8 ^3 a8 {( g
&block_feature ) );' r S# l. u8 Y B- M
{
2 ~6 D, B6 X4 \4 Y6 m
uf_list_p_t edge_list;( d* z0 X" u8 b9 F3 O
UF_CALL ( UF_MODL_ask_feat_edges ( block_feature, & z/ b1 p9 j2 [3 }$ O9 r
&edge_list ) );1 _' @' H& Y5 a7 p; V% ~
( }2 I0 ~0 H# ?; j
UF_CALL ( UF_MODL_ask_list_item ( edge_list, 4 g4 t0 v, e. x3 U, S+ @; G0 [
1, # c2 C! J6 v' @- I7 p' E
&edge ) );6 C2 m) w' J2 u4 q$ A) T
edges [ 0 ] = edge;/ l9 \/ P6 k% h
edges [ 1 ] = edge;
4 }( s) t$ E6 w3 C
UF_CALL ( UF_MODL_ask_list_item ( edge_list,
! n) X/ F- U' L9 i* i) m( D
0, ! v, C {# s: p/ _* H0 M% p
&edges [ 2 ] ) );) _2 R7 e/ @) h8 R1 R
UF_CALL ( UF_MODL_delete_list ( &edge_list ) );
+ h; T# ^& @, y7 s* i
}+ R- A Y7 F7 u4 t9 K
}& i9 g O9 i; `4 r# i+ B
/* 6 O8 A/ P( a' N8 ?4 v: g
Create smart line.
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*/
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UF_CALL ( UF_SO_create_curve_extract 8 f7 k4 p& D5 h& v
( / `: ^5 d4 T( [% g6 G2 I( v3 ^2 i
edge, + p+ x- B- H. a( r/ Z, U1 X
UF_SO_update_after_modeling,
& q1 r* G4 `0 p3 {7 U- a, M3 o# l
edge,& b( |& D$ t& `
UF_line_type, /* enforce line type */- v! Y- q& @* u' x( T4 P# R
0, /* no subtype to enforce */- ^- A6 y3 L: d& |6 N5 L
NULL_TAG,3 s y' u7 j. C# l; M
&line # q0 F& G& L+ E5 `. i& G7 F- U) o0 |
) );- t! ]. w+ v H, I( j+ c- b2 a4 q
! x, ~) k$ C9 Z! I
/* 4 e3 ]. E. z% |. M" ]# b8 X
Create smart arc.
% U, b, J3 n. R2 Z: X; |8 y
*/; V5 b2 D- r' p8 Q7 T1 X' p
{
# b$ V" |- ]8 d5 P2 Y
int i;
- u) o+ ?) ?* t- { D$ P- d
tag_t points [ 3 ];
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for ( i = 0; i < 3; i++ ); D; e( Y- ]6 W! U6 K
{
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char *strings [ ] = { "center=1.0",
6 B3 ], T- {, ?3 Q
"start=0.0",
9 @) \* {# d- X* D. e
"end=1.0" };% @1 [. ]1 \/ i+ G4 X
tag_t exps [ 3 ];: S: {9 w5 \" f5 v0 @
tag_t scalars [ 3 ];
3 Y. d. J d1 \; k/ o R
UF_CALL ( UF_MODL_create_exp_tag ( strings [ i ],
6 P! d& s. h7 N# |
&exps [ i ] ) );4 S2 f* `6 h3 i, f% I# \/ Y8 ~3 D
UF_CALL ( UF_SO_create_scalar_exp ( I+ e6 X* Y2 C4 N- S* n
(
" J4 T8 n z; m/ l
exps [ i ],* p5 K; h9 G& [3 Q u* q1 a
UF_SO_update_after_modeling,
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exps [ i ], + h) @* B% k: A7 y( o. `" e
&scalars [ i ]
, m( u7 ^( D! e* @ V- `/ I8 c
) );( j1 m; t9 n9 K
UF_CALL ( UF_SO_create_point_on_curve
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(: E3 z' ]& `* J% j
edges [ i ],% V* |+ A: A) }1 V
UF_SO_update_after_modeling, 1 c+ u1 F4 J$ Y( U7 @" g
edges [ i ],
0 w$ s, T- h( Q( h* y
scalars [ i ],
" Q2 m/ _: v4 t" T' W1 h& o/ ^
&points [ i ]. l. l6 _" X% ?& G
) );
, D# h$ Q& [3 t
}. T( s; @7 U+ z; V
UF_CALL ( UF_SO_create_arc_center_2_pnts * \7 W- S/ J3 s* e/ Q& U/ n* I
(
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points [ 0 ],
! ?) h: P6 @/ J; d1 I
UF_SO_update_after_modeling,
* H& Y! k6 @/ i- [' J
points,
: _, @, [" H9 e0 T! p& X+ g" v
&arc 3 z' e6 |* i( m* _5 E
) );
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}
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/* 0 @: X. z: s! [1 }( D
Smart objects are created as invisible objects by % f+ K: I; H4 R5 K
default. UF_SO_set_visibility_option ( ) can be
; A2 Z% N ?+ r. ^' v8 _+ {2 x
used to make them visible in the graphics window." q; o. Z; Q/ m ]- x# R
*/" X7 H9 a2 e& F. k
UF_CALL ( UF_SO_set_visibility_option ( line,
3 v, s/ Z! U7 ?5 m% j4 A
UF_SO_visible ) );
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UF_CALL ( UF_SO_set_visibility_option ( arc,
+ o: K7 r4 H/ P0 g; J* x
UF_SO_visible ) );& L5 X7 g0 \! [
/* 9 g6 t8 N' r' n$ g0 \* I% d& Q8 N
Get line/arc/edge evaluators.2 r9 a O0 ]& E
*/
" |3 t0 e" E o9 ~
UF_CALL ( UF_EVAL_initialize ( line, &line_evaluator ) );
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UF_CALL ( UF_EVAL_initialize ( arc, &arc_evaluator ) );
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UF_CALL ( UF_EVAL_initialize ( edge, &edge_evaluator ) );
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show_edge_points(line_evaluator, 10);! N$ X. e& S: c5 {: U
show_edge_points(arc_evaluator, 10);8 y# I+ D# p9 d8 q7 k$ |4 A% F# a
show_edge_points(edge_evaluator, 10);
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/*
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Get line/arc/edge data.2 Z" f D l2 @6 z
*/
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UF_EVAL_line_t line_data;
# _2 k g0 e G4 o! C
UF_EVAL_arc_t arc_data;* B7 j5 b% e# y7 K7 W& L
UF_EVAL_line_t edge_data;
! \) }* D4 z- S+ Z
UF_CALL ( UF_EVAL_ask_line ( line_evaluator,
/ Q3 L: q) D$ O/ O
&line_data ) );
v3 d) [0 Y1 p
UF_CALL ( UF_EVAL_ask_arc ( arc_evaluator,
0 J& ?- q0 r" Y$ g% N$ i
&arc_data ) );" g! e$ b1 a; s }
UF_CALL ( UF_EVAL_ask_line ( edge_evaluator,
% g9 o" S1 D2 d: n& e9 Q7 t
&edge_data ) );+ A- I$ ?7 F v9 |
}( ~" f; |' N5 X1 N8 U, M ^
/* ! f2 r' P0 e {' P" L! X
Check line/arc/edge periodicity.
b* m$ ~: E% [. Z8 i0 u
*/+ ]5 L" s$ `; R
{
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logical is_periodic;
1 k( E7 ?5 W0 ^- J. u( L
$ x- E" p1 ?7 d3 @
UF_CALL ( UF_EVAL_is_periodic ( line_evaluator,
8 Q$ z% C! a! S' q& [0 \
&is_periodic ) );
& V" @$ c+ V. [- w8 s5 ^! {
UF_CALL ( UF_EVAL_is_periodic ( arc_evaluator, ( e/ k" C7 _) }7 o4 Z
&is_periodic ) );
6 ~6 U F- p, f" \( s
UF_CALL ( UF_EVAL_is_periodic ( edge_evaluator,
7 H+ ~. d" _4 z6 K; ^! U
&is_periodic ) );) o0 f! u4 y! \* ?
}
, K: [6 m6 }& q' R4 g
/*
+ c8 `# A% R$ F
Evaluate line/arc/edge.9 e+ R2 z5 p, _) r5 `
*/4 i+ ]$ N$ }- y" s7 q; w5 @1 E" d# J
{
* t4 |' P/ ~- P" v# V- {2 y& Y
double limits [ 2 ];
9 w; v$ m) e3 F
double mid_t;
: t" \% E& a: b6 p8 M1 x& |$ I
double point [ 3 ];
8 z; @; [3 ]- _8 e) T
double derivative [ 3 ];
( C! `- Q: o4 I; A* d$ R# w
double tangent [ 3 ];+ f( @: r% n. U, u! |4 s9 D l
double normal [ 3 ];
$ J" A6 t3 @) I6 u4 I2 Z) Y; z
double binormal [ 3 ];# R: s6 L9 Y9 N: x5 u: H
UF_CALL ( UF_EVAL_ask_limits ( line_evaluator, limits ) );
% ?! j/ D- |" F7 Q! H% _0 ?- K. ]3 {
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;
- t+ J3 K) j* y7 a/ I7 g/ [& m$ y
UF_CALL ( UF_EVAL_evaluate ( line_evaluator,
2 f8 u( {; C2 _( x: u9 L
1, ; l; e7 {& d6 n& P( T( x9 D! X
mid_t, ! n8 T1 v# h. k Y
point, , p! c9 ~1 j* g- t
derivative ) );" w1 x, Q7 b8 t. |0 `- }, [' m* v6 x
' t2 A& e# W* k' ~# _; W; L
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( line_evaluator,
0 i/ ~" {% L T3 m: a& @" x% P
mid_t, 8 |8 _, m: J% l) \
point, ; J# M* ~3 P! t; D2 {$ P. h
tangent, / j7 x6 X1 C' x5 k
normal, ( m4 Z- J4 e5 `$ T- h
binormal ) );4 d, [# g V0 I
UF_CALL ( UF_EVAL_ask_limits ( arc_evaluator, limits ) );4 F8 ^, o% v* i! e8 ~) u, Q
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;% c- n* V o! `- k
6 ? a8 r$ X9 e; T5 S- o6 q8 v
UF_CALL ( UF_EVAL_evaluate ( arc_evaluator, 3 L% C2 i& L6 _- Q' j( }
1,
% k" X9 X" O2 [9 R' c
mid_t, 2 W: M9 l: j" f) o* Z7 f1 Q
point,
) W0 X9 [# L+ d: {
derivative ) );& f9 X: P6 |' q: U+ h$ O" }4 K
/ ^, A$ a4 i( B1 b7 }- G$ `' i
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( arc_evaluator, ; A/ E) a! [5 @, S+ Y" p) m
mid_t,
2 ~% e0 D* s! I/ m+ p
point, ( g0 j1 H4 U! ]
tangent, $ @; U; G9 j7 F4 `+ D
normal,
% [- N: s% z6 L
binormal ) );
9 b/ |) [. R% _# W5 N" O
UF_CALL ( UF_EVAL_ask_limits ( edge_evaluator, limits ) );
$ D% M" c0 c1 ]! y P
mid_t = ( limits [ 1 ] + limits [ 0 ] ) / 2.0;% K" u& d1 _! R; Q
UF_CALL ( UF_EVAL_evaluate ( edge_evaluator,
, V2 i4 ]3 N* p) q; S
1,
& ]7 O+ w3 ~& @9 y! Y
mid_t, ; G4 e1 [# r( c# T7 @6 o
point,
+ X1 e" X4 @1 s0 J3 v# H, f8 D
derivative ) );
2 B% x. u4 L! o$ S B5 O
UF_CALL ( UF_EVAL_evaluate_unit_vectors ( edge_evaluator, ' J. o6 I2 j! F( V, U
mid_t,
1 k6 M1 X1 k) p( ^: L
point,
2 B) q2 n' \$ M' w! j2 r
tangent, ( B* m- R* F$ `3 P
normal, ( _. T( x/ W$ S6 q' K$ n/ r @
binormal ) );
. k4 _6 P* d( r) [
}2 |# S( z, c* u1 V( Q* m
/*
1 K4 _5 H+ H2 a6 l
Check line/arc/edge equality of evaluators.4 v" k: b6 z% @( n( E; X
*/- a& p1 {* a# h: _7 k& \# v
{1 O& \: ?/ Z$ p/ o f
logical is_equal;! a x% |8 a7 C8 I7 w
UF_EVAL_p_t line_evaluator_copy;" `+ j$ D8 p* U! I3 S/ ]
UF_CALL ( UF_EVAL_copy ( line_evaluator,4 }: F+ W( ], a
&line_evaluator_copy ) );
& f) ]# L- w$ ~8 g6 G* Q! o
UF_CALL ( UF_EVAL_is_equal ( line_evaluator,! C; g6 m% s7 k) k
line_evaluator_copy,3 V+ X V4 p6 d+ h/ n# v
&is_equal ) );
% y, c5 t8 O4 j% a7 T0 R
UF_CALL ( UF_EVAL_free ( line_evaluator_copy ) );9 I" |9 [2 W* [ O
UF_CALL ( UF_EVAL_is_equal ( line_evaluator, $ K! A/ k; I+ p1 ^- F* {/ s& q
arc_evaluator, : E r" n1 t1 \" R7 W; B
&is_equal ) );8 L8 M1 d& c! }& k, d: {4 V+ h. A
UF_CALL ( UF_EVAL_is_equal ( line_evaluator,
! ^; j# g' \; G, {+ V+ @$ v+ ~' k
edge_evaluator,
$ W0 i# Q4 w, ~9 W4 n$ J' k% u. F
&is_equal ) );
1 Z$ l" e, H- N; P2 S) J
}6 p8 D: ^. K5 G& p7 G. {, d
/*
9 n) a' Y' x! w M1 [. l
Check line/arc/edge type.
9 N7 W! e9 D$ K" K% K
*/
. n i4 q E5 Q# M
{8 Q1 V8 h. f: M3 ?/ E! r
logical is_line;+ P6 [! ]% ]- C- K% E: y8 P
logical is_arc;
1 w& Y1 |- E# x4 x
UF_CALL ( UF_EVAL_is_line ( line_evaluator, &is_line ) );+ i8 o+ U; I- N9 W8 b! a0 k
UF_CALL ( UF_EVAL_is_arc ( line_evaluator, &is_arc ) );
+ G, \1 y, M% ^# F" F: _
UF_CALL ( UF_EVAL_is_arc ( arc_evaluator, &is_arc ) );+ M! P/ ^# b+ Q0 d( B( ]$ @/ K5 Y
UF_CALL ( UF_EVAL_is_line ( arc_evaluator, &is_line ) );
7 R9 {. a" X: `: o. T4 P
UF_CALL ( UF_EVAL_is_arc ( edge_evaluator, &is_arc ) );/ y# K& E4 j8 [8 f0 u
UF_CALL ( UF_EVAL_is_line ( edge_evaluator, &is_line ) );8 v- s3 @: c, L' k
}
6 T; i; ], D; _( F- r& ]4 O# {
UF_CALL ( UF_EVAL_free ( line_evaluator ) );+ r {" o3 {0 g1 O9 O
UF_CALL ( UF_EVAL_free ( arc_evaluator ) );: q* H; A$ V. I) W
UF_CALL ( UF_EVAL_free ( edge_evaluator ) );# g: R: ~3 V: B) W5 z+ }. \ i
UF_CALL ( UF_terminate ( ) );8 @. }; \5 j+ ^2 D* T
}
+ a, c* ]' I$ ^5 n
7 {0 @7 [& s) T
/* This function will disply n_pts equally spaced along the" X, q+ q$ ^& F
input curve.; ~' G% _9 ^; w1 l6 ^. I7 \ ?
*/: w c% s* O4 J8 s" O% ^* s
static void show_edge_points(UF_EVAL_p_t eval, int n_pts)) O' w* n( u0 S# r! r0 O$ T. ]
{
( [4 Q. A) {+ P+ p$ `4 y% S
int ii;3 Q; |2 I2 r+ Z+ q
double limits[2], p, point[3], end_parameter, start_parameter;
. A) |# |# b6 t2 {
UF_OBJ_disp_props_t% S! s( e! X/ t9 Q0 ^9 |! {
attrib = { 1, UF_OBJ_WHITE, UF_OBJ_NOT_BLANKED, UF_OBJ_WIDTH_NORMAL,# P+ k3 R6 K) u s: M8 a0 N
UF_OBJ_FONT_SOLID, FALSE};
3 s+ a, y! T% T' j8 n$ S! x
# o& t I, G- ?4 h6 Q4 E
UF_CALL(UF_EVAL_ask_limits(eval, limits));
/ i+ v. A! f, S' J6 w
printf ( "limit0 = %f\n", limits[0] );' |- t* P8 |( c3 N
printf ( "limit1 = %f\n", limits[1] );9 |( ` r% X+ [! J5 s* r/ D& b# Y: A
start_parameter = limits[0];1 p/ k$ V; c! x" w, M
end_parameter = limits[1];! p& L. t6 N; ~8 O1 u2 c1 F
5 T0 S" J* s& q5 a
for (ii = 0; ii < n_pts; ii++)2 R' A- ?9 I2 D7 V
{
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p =start_parameter + ii*((end_parameter - start_parameter)/(n_pts - 1));: d& E4 U" ^2 F' v3 Z- O
printf ( "evaluate = %f\n", p );
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UF_CALL(UF_EVAL_evaluate(eval, 0, p, point, NULL));
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UF_CALL(UF_DISP_display_temporary_point(NULL_TAG,
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UF_DISP_USE_ACTIVE_PLUS, point, &attrib, UF_DISP_POINT));+ }. j0 A( P2 M$ F8 e+ u& T9 @9 l
}
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}
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