summaryrefslogtreecommitdiff
path: root/Master/texmf-dist/doc/metapost/mp3d/gutmp3-eng.mp
blob: a4b3cb81736bcde9e4db1139f1057826393454df (plain)
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
% D. Roegel, 7 January 2001
% roegel@loria.fr

verbatimtex
%&latex
\documentclass{article}
\begin{document}
etex

input 3danim
input 3dgeom
output_res:=72;
drawing_scale:=13cm;

numeric b,c,d,e;b=70;c=0;d=20;e=50; % parameterized angles

vardef def_T(expr inst)=
  new_obj_points(inst,7); % 7 points
  set_T_points(inst);
enddef;

vardef set_T_points(expr inst)=
  set_point(1)(0,0,0);
  set_point(2)(3*cosd(b),3*sind(b),0);
  set_point(3)(6*cosd(c),6*sind(c),0);
  new_vec(v_a);new_vec(v_b);
  vec_def_vec_(v_a,vec_I);
  vec_rotate_(v_a,vec_K,d);
  vec_prod_(v_b,v_a,vec_K);
  vec_rotate_(v_a,v_b,e);
  vec_mult_(v_a,v_a,4.5);
  vec_sum_(pnt(4),pnt(1),v_a);
  free_vec(v_b);free_vec(v_a);
  % Determination of I and J:
  % I=A + unit(AB)
  vec_diff(5,2,1);
  vec_unit(5,5);
  vec_sum(5,5,1);
  % J=A + 4*unit(AC)
  vec_diff(6,3,1);
  vec_unit(6,6);
  vec_mult(6,6,4);
  vec_sum(6,6,1);
  new_plane(bcd)(2,3,4);
  new_line(ij)(5,6);
  boolean b;
  b:=def_inter_p_l_pl(7)(ij)(bcd); if not b: ... fi;
  free_line(ij);
  free_plane(bcd);
enddef;

vardef draw_T(expr inst)=
  drawoptions(dashed evenly);draw_line(2,4);drawoptions();
  draw_line(1,2);draw_line(1,3);draw_line(1,4);
  draw_line(2,3);draw_line(3,4);
  pickup pencircle scaled 2pt;
  draw_line(5,5);draw_line(6,6);draw_line(7,7);
  pickup pencircle scaled .4pt;
  draw_line(5,7);draw_line(2,7);
  label_obj.top(btex $A_1$ etex,1);
  label_obj.lft(btex $B_2$ etex,2);
  label_obj.bot(btex $C_3$ etex,3);
  label_obj.rt(btex $D_4$ etex,4);
  label_obj.lft(btex $I_5$ etex,5);
  label_obj.urt(btex $J_6$ etex,6);
  label_obj.bot(btex $M_7$ etex,7);

enddef;

assign_obj("tetra","T");

new_vec(v_a);new_vec(v_b);new_vec(v_c);
vec_diff_(v_a,pnt_obj("tetra",3),pnt_obj("tetra",4)); % vec(DC)
vec_mult_(v_a,v_a,5);
vec_diff_(v_b,pnt_obj("tetra",3),pnt_obj("tetra",2)); % vec(BC)
vec_mult_(v_b,v_b,5);
vec_diff_(v_c,pnt_obj("tetra",1),pnt_obj("tetra",3)); % vec(CA)
vec_mult_(v_c,v_c,3);
vec_sum_(Obs,pnt_obj("tetra",3),v_a); % C + 5DC
vec_sum_(Obs,Obs,v_b);% C + 5DC + 5BC
vec_sum_(Obs,Obs,v_c);% C + 5DC + 5BC + 3CA
free_vec(v_c);free_vec(v_b);free_vec(v_a);

%for i:=0 upto 20:
i=8;
  beginfig(200+i);
    % Observator
    %set_point_(Obs)(20*cosd(3.6*i),20*sind(3.6*i),6);
    Obs_phi:=0;Obs_dist:=2;point_of_view_obj("tetra",1,Obs_phi);
    draw_obj("tetra"); 
  endfig;
%endfor; 

end.