% D. Roegel January 2001
%
[email protected]
% Oblique projections of the cube
input 3danim
output_res:=72;
drawing_scale:=2cm;
%set_plane_(projection_plane)(point_null,vec_I,vec_J);
set_plane_(projection_plane)(point_null,vec_I,vec_K);
new_plane_(horizontal_plane)(point_null,vec_I,vec_J);
vardef def_C(expr inst)=
new_obj_points(inst,8); % 8 points
set_C_points(inst);
enddef;
vardef set_C_points(expr inst)=
set_point(1)(0,0,0);set_point(2)(0,0,1);
set_point(3)(0,1,0);set_point(4)(0,1,1);
set_point(5)(1,0,0);set_point(6)(1,0,1);
set_point(7)(1,1,0);set_point(8)(1,1,1);
enddef;
vardef draw_C(expr inst)=
draw_line(3,7);draw_lines(8,7,5);
draw_line(2,6);draw_line(4,8);
draw_lines(5,6,8);draw_lines(4,3);draw_lines(2,4);
drawoptions(dashed evenly);
draw_lines(1,2);draw_lines(3,1);draw_line(1,5);
drawoptions();
enddef;
assign_obj("cube","C");
point_of_view_obj("cube",8,Obs_phi);
oblique_projection(horizontal_plane)(pnt_obj("cube",8),CAVALIER,30,50); % 30
beginfig(100);
Obs_dist:=2;
draw_obj("cube");
endfig;
oblique_projection(horizontal_plane)(pnt_obj("cube",8),CABINET,30,20); % 30
beginfig(101);
Obs_dist:=2;
draw_obj("cube");
endfig;
oblique_projection(horizontal_plane)(pnt_obj("cube",8),30,20,20); % 20
beginfig(102);
Obs_dist:=2;
draw_obj("cube");
endfig;
new_point(hp);
set_point_(hp)(0,1,1);
set_plane_(horizontal_plane)(hp,vec_I,vec_K);
% such a plane and a second angle of 90 degrees produces a
% ``planometric'' view.
oblique_projection(horizontal_plane)(pnt_obj("cube",8),30,90,20); % 20
vardef draw_C(expr inst)=
draw_lines(8,7);draw_line(3,7);draw_lines(7,5);
draw_lines(1,2);draw_lines(3,1);
draw_line(1,5);
draw_lines(4,3);draw_lines(2,4);draw_line(4,8);
drawoptions(dashed evenly);
draw_lines(5,6);
draw_line(2,6);draw_lines(6,8);
drawoptions();
enddef;
beginfig(103);
Obs_dist:=2;
draw_obj("cube");
endfig;
end.
