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0 x$ @! I5 w& N7 Y2 Z) y#include <stdlib.h>! k: N. l( d1 v2 S7 z7 m) e
#include <stdio.h> #include <uf.h>
, U- ~0 F0 W1 T3 X# n9 v#include <uf_object_types.h>9 r/ g+ m$ D" ~
#include <uf_ui.h>
1 \0 y' |. a5 ?#include <uf_disp.h>
1 z0 @7 C- i) S' b, o0 ?#include <uf_obj.h>) R0 c$ T, P& Q# {2 B
#include <uf_cam.h>, z8 n C0 |2 n& ~) S5 q X
#include <uf_camgeom.h> #include <ufd_camgeom_UGroup.h> #define MAX_CAMGEOM 20
' [' [; c) _0 w: \$ y#define EXIT_SUCCESS 0 /*#define DEBUG*/ static char *title1 = "Select an API routine..."; static int geoption;; l8 Q/ f L* E* k3 o( I* q
static char *title3 = "Select Geometry Type(s) for operation then Selection Complete";//创建几何; A5 J2 V! c1 m4 i( K4 t! W
static char menu3[][38] = { "1) Part Geometry",
- r6 d- _1 W" {# }5 a$ d% Y9 K"2) Blank Geometry",, `, o S% h* k% k
"3) Drive Geometry",
( q, O* T+ ?* E' j5 J"4) Cut Area Geometry",
- D( f$ e9 d/ u# G. c% h% f- O' p( E"5) Trim Geometry",& {; t* Q2 Y, F; ^8 P
"6) Selection Complete"}; static int init_proc(UF_UI_selection_p_t select, void *user_data);//初始化程序 static void init_camgeom_app_data(UF_CAMGEOM_app_data_p_t app_data); int ufd_camgeom_ugroup( tag_t objTag, int obj_count ) {
7 g5 u+ v. j) L) }5 D2 iUF_CAMGEOM_app_data_p_t app_data_list[MAX_CAMGEOM];5 a& F& ^' g$ D- `# }
tag_t *objects, entity_list[MAX_CAMGEOM];9 y1 G0 o# e% ^, ^& R: F
int i, entity_count, object_count, err_code, type, subtype; char atitle[] = "Geometry Selection.";
& ?$ V6 y) H( I6 R0 p# [char *cue = "Identify Geometry - Wait for the Filter!";. D& C. R$ U$ @& J, ]! r4 H
char errorstrg[133];/ l7 ~, \ j% ^) Q
int response, irc;, @3 x. m3 Z( y3 y8 U1 p- j
tag_t eid, view;
2 Z- I8 B+ R8 D' g$ s) M4 A9 \double cursor[3]; #ifdef DEBUG
" _) d3 V, n9 w2 z6 r, Hprintf( "Object tag passed into camgeom_ugroup is %d \n", objTag );) Z% b3 w/ G) s+ v5 D6 A
#endif geoption = 0; while ( geoption < 10 )//为什么是10呢????
+ `8 J, h& q& v{
" A! `% p2 A+ C/ I+ \' m& k3 y/* Statements go here for each geometry selection type. 声明起作用 对于选择类型的每个几何体*/ geoption = uc1603(title3, 1, menu3, 6); if (geoption == 1 || geoption == 2 || geoption == 10 )2 Y8 P1 _/ `. S3 }- W4 _% ^# r; H$ }
{$ P2 \ P6 z" \3 p0 ~
break;* {% v( l5 N, g% V- @% p
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#ifdef DEBUG+ y9 V& ?& A5 c6 s% }! n5 t
printf("\n Geometry option returns %d\n", geoption);
, a( h' o! I; I+ r* r2 u" `#endif
9 u6 l/ j; x. \" ^7 A8 j3 W/* Allow the user to select faces or bodies. 选取面和实体*/ /* Pass in this function the object to be assigned geometry 通过函数,对象被分配到几何体 */ if (obj_count > 0 )8 a8 [" `" A+ x- O
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entity_count = 0; while (TRUE) { UF_UI_select_with_single_dialog(cue,atitle,
3 t/ Y A7 g) S& w: J1 OUF_UI_SEL_SCOPE_NO_CHANGE, init_proc, NULL,
& W+ @5 h, S7 w X& v&response, &eid, cursor, &view);//选择单个对象,可输名也可打进去。选择范围在UF_UI中定义' p* Z* Q, k' P0 h; o7 \. d
//cue 提示显示的信息,atitle 对话框头标题,UF选取范围,init初始化程序,NULL初始化程序,cursor光标位置坐标 if (response == UF_UI_OBJECT_SELECTED)
8 N; Z! p9 P, h; s{3 O1 _% @' o# p# z6 r# Q" K+ z: N
entity_list[entity_count] = eid;
% b8 r3 [- m- i. L5 M" S: v+ S( \#ifdef DEBUG
( e% C& H) A, n) i9 m1 S7 U# Nprintf(" EID number returns %d\n", eid );
: E: f9 W1 G7 t#endif /* Allocate the memory for the application data of an item. 为当前的应用数据分配内存*/ app_data_list[entity_count] = (UF_CAMGEOM_app_data_p_t)UF_allocate_memory(sizeof(UF_CAMGEOM_app_data_t),
* [2 M* `) c: I P&err_code); /* Initialize the application data.初始化应用数据 */ init_camgeom_app_data(app_data_list[entity_count]); entity_count++;
* D2 X$ ^" ]+ V6 s1 Y}
. |, K& s) Q# Kelse if (response == UF_UI_OK || UF_UI_BACK || UF_UI_CANCEL )9 E* m; O9 }" u: l2 H; r
{
2 o, a* ?& Z" k: U0 R/* Geometry selection is finished.几何体选取完成 */% s6 J' _9 b2 e7 i8 G
break;
\7 [0 v* F- D9 ^}
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#ifdef DEBUG. _6 K, g# e4 ^3 |: N/ \
printf(" Entity count this selection is %d\n",entity_count);) ?5 J1 ]" \ D# K
#endif if (entity_count > 0)0 ]# t; @" O: y' Q
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/* UF_CAMGEOM_item_t *items;
7 H( x7 s. N1 S: [& A& I& Iint item_count;*/ for( i = 0; i < obj_count; i++ )
8 G2 |% o% G" U3 L$ ]. K{
5 s% G9 k1 ?3 C9 ^1 u! Mirc = UF_OBJ_ask_type_and_subtype( objTag, &type, &subtype );//返回对象类型与子类型TAG值 if( type == UF_machining_operation_type ||
& U4 y; a( F. `& x/ otype == UF_machining_geometry_grp_type) #ifdef DEBUG! T! N- \0 ~- M
printf("\n Current entity count is %d", entity_count);: E1 Z9 K' ?. a' f( y8 N
printf("\n Current object count is %d", obj_count);
0 |+ h! h- H# G3 y+ Lprintf("\n Geometry option is %d \n", geoption );
4 z6 j- c. p1 M: @$ i#endif /* Above prints to help in debugging if "DEBUG" defined. */ {3 w- z' J' [; Z% ^/ S
swiTCh (geoption)2 `; G% I2 \* [8 {- V$ i D
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case 1:
8 X' s& d& H6 Ccase 2:7 c: h; o* `$ k. v% r4 B! z9 l: w
case 3:
- s2 `( p, G( X, N7 E; qcase 4:
# A }- H2 W$ w, `' M/ G! Rcase 5: /* Part Geometry 部件几何体*/4 M+ E% s0 n" P
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#ifdef DEBUG: R" k0 C" `! c1 q
printf("\n Type returned is %d", type);: n! v: T+ X' k% u4 B g
printf("\n Subtype returned is %d", subtype);
# p; p' l6 h S y#endif
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irc = UF_CAMGEOM_append_items( objTag, UF_CAM_part, entity_count,' G; \6 `& G H
entity_list, app_data_list );
7 J; K ^# N6 ?- O* D2 t: _& u9 ~$ B9 a//附加一个几何实体链表给对象 几何体包括实体等 切削区域仅薄壁实体和面 修剪的几何体不允许。
+ E8 Q& j& n' w0 c C//objtag几何体父级组,UF几何体类型,en_list链表指针,app_data_list链表数据。
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if ( irc != 0 )/ @/ V6 l6 Z( x
{
/ v$ j; C: S* P# Q) U) i) x$ wUF_get_fail_message( irc, errorstrg );
) l8 g1 X% {# G% `4 tprintf("\n The return code is %d\n", irc);6 m9 Z6 ~+ u7 Y* {
printf("\n Error code translates to %s\n", errorstrg);% r$ v: u7 G3 T6 P$ o# m. x
return objTag;
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break;# ^/ Z3 R, ^& i3 E8 K
} case 6: /* Blank Geometry 空白几何体*/& V2 v3 p2 f" h, C1 @8 ~" x" `
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#ifdef DEBUG
. \( C0 R6 {1 Nprintf("\n Type returned is %d", type);
& \$ m% p$ y; Q9 |printf("\n Subtype returned is %d", subtype);$ n) w3 T; x2 {
#endif
! z* E! [6 e/ T, G# x4 g$ b{/ O* I5 |' O) y3 M7 H) V( h
irc = UF_CAMGEOM_append_items( objTag, UF_CAM_blank, entity_count,
" x4 ]3 [5 @9 _entity_list, app_data_list );: ^* H: n" s/ L% P4 C; ^
}
1 L1 M: J! ~: e" P% X Aif ( irc != 0 )0 e0 d L( |& L# o) V$ ^
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UF_get_fail_message( irc, errorstrg );
$ a8 x; G# F3 x* Hprintf("\n The return code is %d\n", irc);: _6 ~1 v' Y: N" b- e% l4 W# n
printf("\n Error code translates to %s\n", errorstrg);
$ L$ w. T* C9 u0 \) K7 j. L4 jreturn objTag;/ B' n6 h4 @; {3 e5 c
}! p1 \ R6 b3 j
break; } case 7: /* Check Geometry 检查几何体 驱动*/
+ V k: h: J7 ~4 L' T$ o% J, n) y{
! h/ g1 A5 Q( [; M& X- _; z( f#ifdef DEBUG
, ]. d- p0 j+ Z* L' k' nprintf("\n Type returned is %d", type);0 X2 Q* F7 g% I5 G
printf("\n Subtype returned is %d", subtype);
( ^& u8 p' _' |# o9 U9 Z2 H, F H#endif+ @0 F2 a n3 ?0 c
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irc=UF_CAMGEOM_append_items(objTag,UF_CAM_drive,entity_count,
. Z8 [$ F: f2 p# ^' Eentity_list,app_data_list);
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- j8 O5 p, H4 i* i1 j# l1 Dif ( irc != 0 )9 F) ]5 r9 H3 k
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UF_get_fail_message( irc, errorstrg );$ `3 l' A, E; A& T p
printf("\n The return code is %d\n", irc);
" o! F& c* |- s1 x0 gprintf("\n Error code translates to %s\n", errorstrg);! [- T J% \; p+ e: m6 K
return objTag;$ k* i: _5 j/ ^7 X' b
}
: o( X4 V9 m+ G' ~break; } case 8: /* Cut Area Geometry 切削区域几何体*/
( }/ @% p; k" }' b{
' l6 i9 D7 v H8 z# g#ifdef DEBUG
0 n, S$ e, X c: p" y# Hprintf("\n Type returned is %d", type);" w" p1 f, L5 A5 K
printf("\n Subtype returned is %d", subtype);
% `1 R1 P! v Q. f* l#endif) S5 B6 o9 y: N1 W+ S# F
{
5 j5 g- Q1 F/ f( \# kirc = UF_CAMGEOM_append_items( objTag, UF_CAM_cut_area, entity_count,1 _2 w& F+ X$ z( |8 q' v2 w
entity_list, app_data_list );+ H$ e4 N6 A- [6 y, S
}% ]& G5 |% q" K5 P5 c) G; p: ^/ F( W
if ( irc != 0 )( l8 {5 |* R2 E5 [: `
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UF_get_fail_message( irc, errorstrg );
: Q. E5 u1 v9 j# I( b/ vprintf("\n The return code is %d\n", irc);
' j9 P$ l# Z% [1 Kprintf("\n Error code translates to %s\n", errorstrg);
# Y+ n3 B5 `- H/ z" m+ breturn objTag;. M- y# U7 f3 i
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break;. w: j7 l! N% ~$ k
}. Q6 A U3 @- {
case 9: /* Trim Geometry 修剪几何体 */% B$ U+ W9 _, \; X: U- Z, N
{
. r& ?1 k& ^8 i7 M& xprintf("This case not implemented.\n");% D7 D/ ~. y, ^( x: q# u
break;
4 q- X) s6 \! {, n}
) x! d6 b6 E9 x/*Drive Geometry 驱动几何体*/ default: /* Selection Complete 完成选取 表达式没有相应的则走这条语句*/) C2 V, b; N9 V% T8 ^$ a
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break; }6 [8 i- Z) a+ c) Y7 H
}
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}
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/* Free the Allocated Memory. 释放内存*/8 w% x3 |7 ]6 Z! z: q* V3 X
for (i=0; i<entity_count; i++)3 i E4 J6 ^/ X2 W+ n/ k( j
{
' L: N/ F& F+ }) x- v& P9 G6 TUF_free (app_data_list);
" l* d; D6 @$ d% J} /* UF_free (objects);*/ return(0);
9 s7 o3 Z4 o Y1 h}) e7 ^1 P6 L* o. l! q0 j0 v4 Q
/* Selection initialization procedure 选择初始化程序*/6 M j$ L. ]* M, f5 F
static int init_proc5 ]( {+ j$ K( J
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UF_UI_selection_p_t select,//指针 pointer
% }( k) R7 _* ?2 a" ?: Kvoid* user_data
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K. _9 v, B8 k$ c$ I5 I8 ^int num_triples = 3;) h1 B1 ?+ I/ K$ Y4 B- m
//最终指定的特征类型
4 E1 N I8 o# {- t4 l8 xUF_UI_mask_t mask_triples[] = {
1 R0 d' ]+ b& \( rUF_line_type, 0, 0,
( }5 M) U5 @! Y: GUF_solid_type, 0, UF_UI_SEL_FEATURE_ANY_FACE,
2 ]4 P. y3 z& N1 J" d% L6 f' d, N: RUF_solid_type, 0, UF_UI_SEL_FEATURE_BODY}; /* Enable Faces and Solid Bodies允许选取面和实体 */ if((UF_UI_set_sel_mask(select,
7 L& a9 o$ S4 U$ W: EUF_UI_SEL_MASK_CLEAR_AND_ENABLE_SPECIFIC,6 n, o- \/ `1 v' o, Y+ @) j
num_triples, mask_triples)) == 0)//3倍 3*3=9 {7 x8 _" X( R5 T. ]
return (UF_UI_SEL_SUCCESS);
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else( O: J: h7 p6 N+ p' A
{
/ @0 g i/ _% K0 }return (UF_UI_SEL_FAILURE);/ U5 M( A, m4 o8 F( M( y5 m
}# |- V* a$ R9 g) f8 \) P
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static void init_camgeom_app_data
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UF_CAMGEOM_app_data_p_t app_data: @" J5 b: N" ^; Y& I# `5 Z" Z2 t
): ]8 @( b- B! v# T& k& ?
{3 ]! S7 [; m y4 j. z6 ^
if (app_data)
e1 H' ]! O Q0 Q( T9 ]9 g{
# A% U- L# A j3 {. \/* Set flags. 设置标识*/ app_data->has_stock = 0; /* Used 1 - Else 0 */1 G! E- x4 K2 n- w/ q$ E
app_data->has_cut_stock = 0; /* Used 1 - Else 0 */
! P+ a' }4 k$ m3 `' I' P' eapp_data->has_tolerances = 0 ; /* Used 1 - Else 0 */7 r) _# k; Y# b/ G8 O
app_data->has_feedrate = 0 ; /* Used 1 - Else 0 */9 W! g2 I, j* e7 n& P
app_data->has_offset = 0; /* Used 1 - Else 0 *// s3 _+ o6 ]0 b+ W ?* T
app_data->has_avoidance_type = 0 ; /* Used 1 - Else 0 */ /* Set values.设置参数值 */0 N8 X; f: h$ b3 ^
app_data->stock = 0.033 ;
# O$ i. S# {) G( ?; a& C. U9 Z6 \app_data->cut_stock[0] = 0.2 ;, v; c+ @& T: f4 F5 C: w
app_data->cut_stock[1] = 0.1 ;3 M4 a/ @0 x5 s, E% Z- ^
app_data->cut_stock[2] = 0.5 ;
/ ` h, j0 N2 o; Gapp_data->tolerances[0] = 0.003 ;
8 ^2 Z0 F+ {2 T1 t2 I e* z9 Qapp_data->tolerances[1] = 0.003 ;3 a" e p9 H& [2 Q5 ]
app_data->feedrate_unit = UF_CAM_feedrate_unit_per_minute ;6 Y: c- f' J0 w6 d4 I6 s1 E
app_data->feedrate_value = 33.0 ;
. ?' f( k) I. G& g5 aapp_data->offset = 0.055 ;
2 L8 C) G8 L1 v4 Rapp_data->avoidance_type = UF_CAM_avoidance_type_warning;7 z, O) t. U* }
}, `( R7 j& b2 ^% T8 O) s
}
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