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在UG的二次开发中,通常需要使用向量来进行判断,此处给出常用的向量使用教程。以二维向量为例,三维以此类推。
8 U* f! J# _# X L. T源代码如下!
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char msg[256];( U' k- ~& P: c9 j6 R2 U
const double vec1[2]={0.2,3.4};6 y! V" a, Q( k2 Q0 ]$ q; c
const double vec2[2]={1.5,4.5};
1 I2 ^3 v# \+ s7 g- D' D6 _double scale = 1.5;; n1 r3 |( X, p! d4 ?$ d
double scale1 = 1.3;. H% U. q1 t/ w$ q. f7 @' @
double scale2 = -1.1;
) l- r6 z* c/ }8 j7 Cdouble sumVec[2],vec_comb[2],vec_perp[2];
0 V+ G9 N1 j$ p; c3 F" z: F5 gdouble oscale1,oscale2; f- ^* c7 U! @
double tol = 0.0254;; S# x1 S* i+ L' q% h
const double vec_src[2]={1,2};
: L, H9 t8 W; @2 g# S: Z9 H/ `5 Gdouble vec_dst[2],cross_product,distance,magnitude,mid_pnt[2];
# K; p1 a+ {0 p4 N Gdouble unit_vec[2],scale_vec[2],sub_vec[2],neg_vec[2];
, p, e3 W6 ~2 U2 `9 kint isEqual,isParallel,isPerpen,isZero;8 T% M3 `- B L# [/ J/ I" c
% f4 g7 j% E6 m( x- B6 Ldouble parameter = 0.5 ;, }+ L! ~) y' t: F
double pnt1[2] = {0,0};
$ B9 W" }; S4 e% A. ]: fdouble pnt2[2] = {2,5};4 N/ k% C% F! g- ?' O2 G8 P7 m
double pnt_on_seg;+ R( o, U7 x1 y+ h- U, i
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7 y& [! R& w2 I1 e) o//------------------------------------------------------------------------------3 ~2 ?) C0 [- Q( J
// Do something" \" \- u# z% u$ {9 F2 @8 O
//------------------------------------------------------------------------------
# _" R, l" x v0 J! e
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' K4 \4 Y9 \1 o Evoid ufvecTest::do_it()
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// TODO: add your code here( b" u' ]" u3 U/ t
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/ J2 ?5 B) m2 t4 i$ @& j! B /*
3 {$ m y5 k5 \5 Q. q) d7 r ======================2 w% o% u2 ~# O- f4 `6 O$ S7 e& W
1 UF_VEC2_add : 两个向量相加 ; p" f, d8 b4 f. @$ N; F2 _# ?
vec1 + vec2 = sumVec* O; ]2 D% h+ K& F% }3 D, T% t
======================" Z+ b. w$ Y& q1 v. t6 G' \
*/
6 k0 v% J* N( w8 c/ F lw->Open();
8 U' q5 A. b9 u1 t( m UF_VEC2_add(vec1,vec2,sumVec);5 a6 ?& _) Z# J* d
sprintf_s(msg,sizeof(msg),"vec1{%f,%f}+vec2{%f,%f}={%f,%f}",vec1[0],vec1[1],vec2[0],vec2[1],sumVec[0],sumVec[1]);
2 B. f# t5 o6 n' ` lw->WriteLine(msg);
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/* 0 a" v# W3 i6 ~4 N# D! k
======================
5 {) S1 Z a5 X" a5 W; t& j 2 UF_VEC2_affine_comb : 仿射变换2 u. {3 X1 {/ g8 ~' d t
vec_comb = vec1 + scale * vec2;
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*/
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% K4 t& t- ~# h2 Y0 G$ H UF_VEC2_affine_comb(vec1,scale,vec2,vec_comb);) c4 b) y( B( g0 {) ]
sprintf_s(msg,sizeof(msg),"vec1{%f,%f}+%f * vec2{%f,%f}={%f,%f}",vec1[0],vec1[1],scale,vec2[0],vec2[1],vec_comb[0],vec_comb[1]);& H% E G7 L5 ^! `
lw->WriteLine(msg);+ t' Q. [4 i$ K; J. u* Z
0 e& o3 D M8 J( `1 k4 |# O /*
) J& q" X8 k; j- X' J7 W9 S) P ======================4 H! @; H. s# _) S, b3 m( @' Y+ T
3 UF_VEC2_ask_perpendicular : 求出垂直的向量 8 A) p- o) w# U, K
vec1.vec_perp = 0
}; H1 d* H& @6 A5 Z5 A8 Q ======================2 Q5 N* q& D# g2 I x
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* n* O# X0 B7 ~/ ^! {9 Q' T UF_VEC2_ask_perpendicular(vec1,vec_perp);0 r1 L% d/ j3 y- @7 U
sprintf_s(msg,sizeof(msg),"vec1{%f,%f} . vec_perp{%f,%f}= 0",vec1[0],vec1[1],vec_perp[0],vec_perp[1]);! f; p$ R4 |$ [
lw->WriteLine(msg);
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/* & E" m) o3 R {# \) i. {
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4 UF_VEC2_components : 求出垂直的向量 # }9 T# _# P4 w# B. i
vec_comb = scale1 vec1 + scale2 vec2
0 ]- R8 }: Z2 M' C0 r 返回: 0 可计算 1 平行 P- R- f! H) P4 q/ a+ H2 }' S
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int result = UF_VEC2_components(vec1,vec2,vec_comb,tol,&oscale1,&oscale2);, x; q) H+ @& P" C' J
sprintf_s(msg,sizeof(msg),"oscale1 = %f,oscale2 = %f, result = %d ",oscale1,oscale2,result);
# L/ |9 l: N6 o B9 A9 ^+ Q) j lw->WriteLine(msg);' H* E0 ~4 e5 B) x C, c
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/*
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4 e5 y- f) q6 m8 ~# H: s0 W 5 UF_VEC2_convex_comb : 计算点在直线上的位置
0 H. t: @3 ^6 R' Y, v5 {( c pnt_on_seg = (parameter pnt1) + ((1.0 - parameter) pnt2). 9 ^. T" \+ t4 ~( Z& k7 [
======================
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0 p- Z$ {4 W7 @0 d$ z! k UF_VEC2_convex_comb(parameter,pnt1,pnt2,&pnt_on_seg);. \5 U* a4 z* b* w- D2 X
sprintf_s(msg,sizeof(msg),"pnt_on_seg = %f",pnt_on_seg);
8 _% ]6 H& I: s, G" f8 _0 o( n lw->WriteLine(msg);9 Q' T1 T: C2 o5 b
$ R7 G# o. g$ V' } /*
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6 UF_VEC2_copy : 向量拷贝
$ n. v( U" W' s1 E# t) b& W vector (vec_dst = vec_src).1 I0 Z" n9 N+ n& @' X
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*/
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UF_VEC2_copy(vec_src,vec_dst);
! |4 b6 ~$ s7 j2 k1 J; c/ H sprintf_s(msg,sizeof(msg),"vec_src = {%f,%f}\tvec_dst = {%f,%f}",vec_src[0],vec_src[1],vec_dst[0],vec_dst[1]);
: T$ n8 L; d4 R% z" R( z1 M lw->WriteLine(msg);
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+ U0 D; |+ L# R9 ` /* ; M( b( ^: R, E' V4 G8 B9 l
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7 UF_VEC2_cross : 向量向量积7 q7 U; [7 P: g# R9 J+ H- X
cross_product = vec1 x vec2
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*/
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UF_VEC2_cross(vec1,vec2,&cross_product);* {4 B7 o- u7 f4 n" x
sprintf_s(msg,sizeof(msg),"vec1{%f,%f} X vec2{%f,%f}= %f",vec1[0],vec1[1],vec2[0],vec2[1],cross_product);$ a P* @- i2 s" K1 V9 L* e
lw->WriteLine(msg);
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/* " u& p2 j. G5 O/ S
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f$ e: M% ?. G 8 UF_VEC2_dot : 向量数量积, S" M' \% K+ }# ^
cross_product = vec1 . vec2
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*/
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" c. N, e- E3 H1 ` UF_VEC2_dot(vec1,vec2,&cross_product);
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lw->WriteLine(msg);, W- R* m- l9 \$ K
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+ Y+ P; G' F) p ? /*
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9 UF_VEC2_distance : 两点距离8 k$ t3 c0 y) ]/ J5 R- X6 R' ?$ B; b
(distance = ||pnt1 - pnt2||)$ [1 a$ ?7 t1 Z5 a, _
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*/
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UF_VEC2_distance(vec1,vec2,&distance);$ @+ T" G w6 \; `8 D! z
sprintf_s(msg,sizeof(msg),"||vec1{%f,%f} - vec2{%f,%f}||= %f",vec1[0],vec1[1],vec2[0],vec2[1],distance);4 |( \, s1 h f/ C Y* T9 o
lw->WriteLine(msg);
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' f2 x6 I4 D: W /*
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10 UF_VEC2_is_XX : 判断矢量关系
) h' _6 d( \. p! r+ { 0 = false
/ J5 p; ^! e/ r( J8 a, f# z8 n& _9 f 1 = true
6 @8 U3 Y4 u( v ======================
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UF_VEC2_is_equal(vec1,vec2,tol,&isEqual); //相等$ t7 M( _5 g* s# e. N/ R8 _, f0 @
UF_VEC2_is_parallel(vec1,vec2,tol,&isParallel); //平行
2 `) ?+ F5 F2 E UF_VEC2_is_perpendicular(vec1,vec2,tol,&isPerpen);//垂直
" d& O3 b) }5 c! @! _" _& f UF_VEC2_is_zero(vec1,tol,&isZero);//为02 N0 V& m8 \/ M( z
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sprintf_s(msg,sizeof(msg),"vec1{%f,%f},ve2{%f,%f} is %d equal,%d parallel,%d perpendicular,%d zero",vec1[0],vec1[1],vec2[0],vec2[1],isEqual,isParallel,isPerpen,isZero);0 ]+ H0 t1 Q. g _1 w0 z
lw->WriteLine(msg);+ p. c& f6 |+ i
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/*
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6 M7 W" k5 a5 g* p+ U" M7 s( ? 11 UF_VEC2_linear_comb : 线形组合* W. E N# o4 b, W; Q
vec_comb = (scale vec1) + (scale2 vec2)
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UF_VEC2_linear_comb(scale1,vec1,scale2,vec2,vec_comb);
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sprintf_s(msg,sizeof(msg),"vec_comb = (%f {%f,%f}) + (%f {%f,%f}) = {%f,%f}",scale1,vec1[0],vec1[1],scale2,vec2[0],vec2[1],vec_comb[0],vec_comb[1]);
" `2 J2 R+ ]: I/ j lw->WriteLine(msg);' {8 x% L. d+ Z) f8 k* f& t
7 N7 g( p/ h/ x4 x5 ` /* 9 H0 z* t$ B& s& ]8 k4 b
======================: a2 V! V0 m$ Z3 _
12 UF_VEC2_mag : 向量模
4 e7 Y4 Q" W" \& I magnitude = ||vec||
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UF_VEC2_mag(vec1,&magnitude);7 p4 C8 f6 `( z% q, d
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sprintf_s(msg,sizeof(msg),"UF_VEC2_mag = ||{%f,%f}|| = %f",vec1[0],vec1[1],magnitude);, K; m2 |# [2 L; K9 S
lw->WriteLine(msg);
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; q/ m2 D" f5 p d2 t: m /*
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13 UF_VEC2_midpt : 求中点
" p' P' b8 T( l$ A1 n2 e; J mid_pnt = (0.5 pnt1) + (0.5 pnt2)/ M' O( q) R6 N* i
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*/! K6 |5 Y4 p7 M/ ~: l8 u
; V4 P, ]) y8 M) n, C UF_VEC2_midpt(vec1,vec2,mid_pnt);
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' y1 G+ ?% i2 ?; J3 o5 S sprintf_s(msg,sizeof(msg),"UF_VEC2_midpt = point1 {%f,%f},point2 {%f,%f} = (%f,%f)",vec1[0],vec1[1],vec2[0],vec2[1],mid_pnt[0],mid_pnt[1]);
" z e5 E$ j/ M; @" Q; o lw->WriteLine(msg);: \: Z# S9 r! r) t3 ~9 h9 e
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/*
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14 UF_VEC2_XXX : 向量的其他操作,反向,求差,单位划
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======================
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; c8 |$ R: d4 Q7 b UF_VEC2_negate(vec1,neg_vec);2 N* r; U) k: f+ Y1 x
UF_VEC2_rotate(vec1,2,vec_comb);; d9 \ G' H/ ]/ i/ x6 R9 h/ N
UF_VEC2_scale(scale,vec1,scale_vec);# }8 A, E$ _6 Q4 L' ~/ w4 k
UF_VEC2_sub(vec1,vec2,sub_vec);$ N5 E9 C# X1 P7 G
UF_VEC2_unitize(vec1,tol,&magnitude,unit_vec); i. L5 [, L4 m! Q% j
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sprintf_s(msg,sizeof(msg),"vec1{%f,%f},vec2{%f,%f}:negative(%f,%f),rotate(%f,%f),scale(%f,%f),sub(%f,%f),unitize(%f,{%f,%f})",vec1[0],vec1[1],vec2[0],vec2[1],neg_vec[0],neg_vec[1],2 }$ w/ t5 \1 _7 ~5 P+ w
vec_comb[0],vec_comb[1],scale_vec[0],scale_vec[1],sub_vec[0],sub_vec[1],magnitude,unit_vec[0],unit_vec[1]);$ n! S* H8 W; H( R* d2 q) {
lw->WriteLine(msg);# J, K: b) i# j+ P
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