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#include <stdlib.h>9 V$ _" p* [5 L" Z# T1 b9 x7 K
#include <stdio.h> #include <uf.h>
- }9 E' F4 y$ v3 j; u5 F i2 C3 j! w#include <uf_object_types.h> b9 G0 z, H$ P" z* _
#include <uf_ui.h>
& q, x+ ^# L) _, G4 a4 W& t#include <uf_disp.h>
8 }8 p; @) t3 v. m+ E$ p#include <uf_obj.h>/ Y9 o7 t; n1 Z) o8 b, T
#include <uf_cam.h>
) N$ L" b" d- l3 x8 G# Z#include <uf_camgeom.h> #include <ufd_camgeom_UGroup.h> #define MAX_CAMGEOM 20: w; ^1 v! }9 s
#define EXIT_SUCCESS 0 /*#define DEBUG*/ static char *title1 = "Select an API routine..."; static int geoption;9 l0 V1 ]* h6 l z( J
static char *title3 = "Select Geometry Type(s) for operation then Selection Complete";//创建几何
4 s: v2 ?' Y3 N: Kstatic char menu3[][38] = { "1) Part Geometry",7 C1 |4 G1 ~# ]1 L8 t
"2) Blank Geometry",
& i+ Q% G/ p* a2 r6 f5 i7 ^3 }"3) Drive Geometry",
" v, }/ O4 y, D4 t3 ]"4) Cut Area Geometry",* M" t0 O* |4 K+ O; n; F# _! V
"5) Trim Geometry",
5 S/ A# F: v+ }( @, H! y"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 ) {! J9 H# J% d9 C' Q9 M
UF_CAMGEOM_app_data_p_t app_data_list[MAX_CAMGEOM];
. J E. [% q. { t( utag_t *objects, entity_list[MAX_CAMGEOM];
- [0 P# p8 o2 U( E4 lint i, entity_count, object_count, err_code, type, subtype; char atitle[] = "Geometry Selection.";
. b: {) t5 H# kchar *cue = "Identify Geometry - Wait for the Filter!";
3 m4 |; O* T; @0 z4 bchar errorstrg[133];
! }' n4 @8 C/ O. @+ V, H# N: aint response, irc;
( t9 T& C* w- Q9 L, x+ htag_t eid, view;
6 ~; W$ L! q- y5 _double cursor[3]; #ifdef DEBUG
2 u+ R5 E1 C* t+ hprintf( "Object tag passed into camgeom_ugroup is %d \n", objTag );
2 h' q; q1 }! G: {$ E$ X#endif geoption = 0; while ( geoption < 10 )//为什么是10呢????
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/* 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 )! z* i6 w0 P# A
{
: V* ?0 s& b( y h1 S: dbreak;/ S, Y, s6 U: O
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#ifdef DEBUG
9 l% Q5 ^! R& A# Q8 U+ ^printf("\n Geometry option returns %d\n", geoption);
" t% K% K3 F: v# ~3 i: r#endif
# o' m& |1 r8 ]4 @# z( I, E; Y1 i9 S4 ]/* 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 )
0 D) t& I9 W/ T) ^{# s# ~; Y; K' Q5 N* E
entity_count = 0; while (TRUE) { UF_UI_select_with_single_dialog(cue,atitle,
3 z/ l. G- ~# ]+ r1 [" l% I4 UUF_UI_SEL_SCOPE_NO_CHANGE, init_proc, NULL,
7 E3 a3 [9 e7 I9 `&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
, Q' e7 n+ v0 A3 `7 S2 N A8 U) R//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)
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entity_list[entity_count] = eid;
x/ ?+ j! b. A% x( i3 B#ifdef DEBUG
/ i; _5 D) ^) E1 n: X- ?& D0 }. M( eprintf(" EID number returns %d\n", eid );6 ?- Z3 w: G8 x
#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),4 P3 f) ^' @* I& `$ e
&err_code); /* Initialize the application data.初始化应用数据 */ init_camgeom_app_data(app_data_list[entity_count]); entity_count++;
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else if (response == UF_UI_OK || UF_UI_BACK || UF_UI_CANCEL )5 J0 J7 X1 a1 [# V
{
6 M! F5 F! b7 ~% f. k1 D/* Geometry selection is finished.几何体选取完成 */
$ D% s) g5 k+ d9 o; mbreak;) q! U K8 u ~2 C6 e; n
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}; g7 h A g9 q$ i9 q# |6 x7 M/ L
#ifdef DEBUG* o& X( n9 b: [, I
printf(" Entity count this selection is %d\n",entity_count);
* [, i$ k J6 Z( @#endif if (entity_count > 0)! P% |8 ^7 p7 G1 w( y0 i
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/* UF_CAMGEOM_item_t *items;% K- y2 K+ K+ C! Y
int item_count;*/ for( i = 0; i < obj_count; i++ )
4 O5 E2 Y. x* q9 o3 Z{
3 |1 u- Y+ {) |: P7 {irc = 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 ||
9 p2 ] R& e9 [$ y+ X+ g5 J7 @type == UF_machining_geometry_grp_type) #ifdef DEBUG
( } o: n) e& u$ Q5 Wprintf("\n Current entity count is %d", entity_count);% a4 z$ n. `: U. q2 s
printf("\n Current object count is %d", obj_count);
+ R9 H4 V# ~( A p' R# `6 Lprintf("\n Geometry option is %d \n", geoption );
! w7 M; W% J5 \8 D/ \' H. ~. w& ?0 }9 S! f$ Z#endif /* Above prints to help in debugging if "DEBUG" defined. */ {, T- P3 Z! d( D4 _
swiTCh (geoption)# L+ N6 X! w \4 l! N
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case 1:% J. q# ~# S& p9 {9 m( g
case 2:
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case 4:* M$ Q+ ^- T/ Q, @
case 5: /* Part Geometry 部件几何体*/
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#ifdef DEBUG
+ M& t4 D8 p, lprintf("\n Type returned is %d", type);; G2 O7 P3 n8 e. y
printf("\n Subtype returned is %d", subtype);" c1 ^* u; |( _* A7 Q
#endif
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irc = UF_CAMGEOM_append_items( objTag, UF_CAM_part, entity_count,
9 t8 N1 X& x( C( ], `entity_list, app_data_list );
0 I5 i, N0 W' F8 ]# K2 t//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。4 m; B3 G& v6 r1 R
//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。$ H+ B4 V3 K8 r& m' h$ j
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if ( irc != 0 )
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# i9 d! E; ]" o) YUF_get_fail_message( irc, errorstrg );# S( p2 e: s9 u$ |) s0 h
printf("\n The return code is %d\n", irc);
1 S2 x1 d. f/ B, o0 @7 dprintf("\n Error code translates to %s\n", errorstrg);0 C$ v. O$ O- @1 q& s# {& p
return objTag;
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2 q: B, Z/ ]- Ubreak;
* f* m- |4 y4 n: B} case 6: /* Blank Geometry 空白几何体*/
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: n! a- }& g1 a+ r#ifdef DEBUG
' _2 S$ ^ z3 [1 s$ pprintf("\n Type returned is %d", type);# l4 a% \1 q0 N% C' ]
printf("\n Subtype returned is %d", subtype);
( O" u3 W5 |* d$ K C* f5 l1 w#endif
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irc = UF_CAMGEOM_append_items( objTag, UF_CAM_blank, entity_count,5 s& Y V% }: N7 s) t B
entity_list, app_data_list );% j& m* R, v3 s
}; i4 M! V. }5 K/ _! `
if ( irc != 0 )# G z! l; S9 ]# Q
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UF_get_fail_message( irc, errorstrg );! O$ G2 O9 b, R. n; H( e% V) J% j
printf("\n The return code is %d\n", irc);9 U0 P9 t! |$ |2 B
printf("\n Error code translates to %s\n", errorstrg);6 O& g$ c- f' d G$ b
return objTag;
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n! A" E$ X8 F1 Kbreak; } case 7: /* Check Geometry 检查几何体 驱动*/- l0 ]( Q- E# i' }3 x
{
$ |' l, B" a& N$ {#ifdef DEBUG
9 X# e; e+ p4 Xprintf("\n Type returned is %d", type);3 W) K. B: w a
printf("\n Subtype returned is %d", subtype);) v1 E8 A# d& ~' z+ ^: S
#endif
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irc=UF_CAMGEOM_append_items(objTag,UF_CAM_drive,entity_count,2 n* h. O. m7 N1 F5 Y; Z
entity_list,app_data_list);1 b3 Q7 e; _5 t8 v0 J+ n
}; c7 p/ t, W! `0 G/ a
if ( irc != 0 )/ t; ^) i4 i; |& f4 y' G
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UF_get_fail_message( irc, errorstrg );5 r+ j l1 r! \4 [5 a! E/ x: n( H
printf("\n The return code is %d\n", irc);
) Y. L8 ~8 u/ D' u/ `0 |; V) t. Iprintf("\n Error code translates to %s\n", errorstrg);
3 {3 G2 t+ Y: Y+ l$ yreturn objTag;% D, U8 e1 Z, Y' j5 B1 {
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break; } case 8: /* Cut Area Geometry 切削区域几何体*/
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#ifdef DEBUG/ u! S/ b2 [" Y1 E2 i0 H2 S
printf("\n Type returned is %d", type);
# \4 n4 k8 s2 G' L1 P |4 F9 J& Zprintf("\n Subtype returned is %d", subtype);6 G: l0 y- t3 F/ j
#endif, j+ f0 s( W/ a7 _
{
4 i' J d' G- @, U" t& Dirc = UF_CAMGEOM_append_items( objTag, UF_CAM_cut_area, entity_count,8 W( A J+ M4 c
entity_list, app_data_list );
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2 J' F J1 H5 k! bif ( irc != 0 )
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9 P# q+ n! H/ f. W" N1 M; FUF_get_fail_message( irc, errorstrg );5 h6 g2 M7 N2 I# C a' p
printf("\n The return code is %d\n", irc);
9 Q2 T* }2 y- y, R. D2 s, H8 Nprintf("\n Error code translates to %s\n", errorstrg);
! ]' U% p' t6 l) z: q& `& ]# creturn objTag;8 `3 I6 [; d |5 e* R3 d
}
6 d0 b0 h: S. wbreak;% B D3 s8 v P2 ~' ^
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case 9: /* Trim Geometry 修剪几何体 */
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# M% |9 ~2 v" ~! Yprintf("This case not implemented.\n");# l' J7 F! h1 y
break;
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3 B% i( R7 g8 r6 ^ @/*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*/6 r* A: T+ C a2 g7 Z7 L# M5 i
{) Z$ V2 e. m1 l! ~2 D
break;$ |8 X* |/ U9 T) [
}
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}
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& q. q! W) l" m! r$ l/* Free the Allocated Memory. 释放内存*/
6 ?0 J" ^* T P/ X. |# \for (i=0; i<entity_count; i++): N0 V- @5 ?9 w( n+ I
{' M: q* d& L# W3 q9 r
UF_free (app_data_list);
! D! Z7 v0 K( E( u; @4 G, X8 @} /* UF_free (objects);*/ return(0);8 u- B3 ]% c s0 t$ k1 J
}; _1 y9 o+ i! f/ @9 \: ` @1 |
/* Selection initialization procedure 选择初始化程序*/0 y, V2 x5 R* ~, C2 _# O' \4 t0 g
static int init_proc1 P l8 f" X: b2 C
(
+ d6 z7 O, x8 GUF_UI_selection_p_t select,//指针 pointer
* o$ V. o/ F# j2 h N, bvoid* user_data9 R; F7 D2 ]6 T' U# ^
)
; @! D$ D' G$ P8 ~/ ^; v{2 a! }2 \0 I9 N0 G# G' H- G
int num_triples = 3;' U4 V9 U0 ~8 H
//最终指定的特征类型5 R- ?$ u+ z/ R. R
UF_UI_mask_t mask_triples[] = {% u/ V5 b5 e; q" |9 x7 K
UF_line_type, 0, 0,8 G! E) ^, J# @4 L
UF_solid_type, 0, UF_UI_SEL_FEATURE_ANY_FACE,
6 ~; [. A+ b8 f6 ~* FUF_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,. m. X+ b) A0 T( C- A' H( Q
UF_UI_SEL_MASK_CLEAR_AND_ENABLE_SPECIFIC,; ~4 `7 v" V- R) ?% C6 @# S
num_triples, mask_triples)) == 0)//3倍 3*3=9 {
, q8 f/ V* T( s" c1 M2 `* sreturn (UF_UI_SEL_SUCCESS);0 q7 {2 ` @! V4 Q& E- s( Y! \, a
}
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{/ q% y# \$ o6 ~; @2 J
return (UF_UI_SEL_FAILURE);6 u( H/ @2 X& A- x; i
}
. l3 c2 }6 }$ N& V}
; I: g" R. Z {static void init_camgeom_app_data; K* Y; F4 q( ~% q2 `- s
(
. u* y* ~" @: L" PUF_CAMGEOM_app_data_p_t app_data6 t8 T1 P4 q* `! N: K& h; d$ Y
)
t, H! l% f$ s+ P{
- ]7 I/ N- f+ Y C1 Iif (app_data)+ Y7 Q+ h0 A7 m5 s# g% J# G- n
{
; Y. c @8 B: Y" R/* Set flags. 设置标识*/ app_data->has_stock = 0; /* Used 1 - Else 0 */
8 k' T: J) i0 `% eapp_data->has_cut_stock = 0; /* Used 1 - Else 0 *// {/ x0 \: L& B; k3 K
app_data->has_tolerances = 0 ; /* Used 1 - Else 0 */& `6 n5 x7 D: |& P3 y5 R
app_data->has_feedrate = 0 ; /* Used 1 - Else 0 */
+ a' D* Z/ Q& @app_data->has_offset = 0; /* Used 1 - Else 0 */
* \6 T8 E6 P6 w1 H1 papp_data->has_avoidance_type = 0 ; /* Used 1 - Else 0 */ /* Set values.设置参数值 */
4 m3 _. s0 ]2 l/ A0 ~( V( qapp_data->stock = 0.033 ;0 b$ f1 u( ]' Q3 l2 z9 j/ L
app_data->cut_stock[0] = 0.2 ;
) i# n+ g: G1 e4 v- T" \- S+ A8 ?+ o1 oapp_data->cut_stock[1] = 0.1 ;
% v7 J$ U/ {$ L* Happ_data->cut_stock[2] = 0.5 ;* E5 X% Q9 h! x% V! `* c: t4 \
app_data->tolerances[0] = 0.003 ;+ E" ^$ T# u( t' C+ x' C+ I; g
app_data->tolerances[1] = 0.003 ;
D* C1 I' x+ E2 N: [+ G8 Capp_data->feedrate_unit = UF_CAM_feedrate_unit_per_minute ;
+ I$ k- K5 z, {6 C: q0 P5 I/ Napp_data->feedrate_value = 33.0 ;
$ S: S% Z, }# v/ ], qapp_data->offset = 0.055 ;
& k# v0 }9 S( D7 Q& _/ J' ^app_data->avoidance_type = UF_CAM_avoidance_type_warning;
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