In response to a challenge in comp.lang.postscript, I'm working-up my 3D chops trying to render a cylinder as projected rectangular patches. But I'm still seeing the wire-frame even after I comment-out the line-drawing, because the patches don't butt-up flush.

The cylinder is modeled along the z-axis by double-looping over z (-2 .. 2, step 4/N) and theta (0 .. 360, step 360/N). The four points of the rectangle are:

- v1 = (R*cos T, R*sin T, z)
- v4 = (R*cos T, R*sin T, z+dz)
- v2 = (R*cos (T+dT), R*sin (T+dt), z)
- v3 = (R*cos (T+dT), R*sin (T+dt), z+dz)

Then we apply a model->world rotation to all four points. Then we take the vectors v1->v4 and v1->v2 and do a cross product to get the normal vector for the patch. Take a dot product with the eye vector to check if the patch is on "this side" of the shape; if not, skip the drawing and procede to the next patch (fall off the bottom of the loop). Then we apply a perspective projection to each point and draw the quadrilateral with regular postscript 2D moveto and lineto. One last calculation on the normal vector to set the graylevel and then fill.

*So the question is:* Is there a usual way to deal with this? Is it a 3D problem or just a numerical problem (floating-point round-off kind of stuff)? Do I just add a little fudge-factor to my dz and dT when calculating the points? Or stroke the edges explicitly? These last 2 options both produce the desired result but I can't say that I'm satisfied with them. While each make be used on an individual illustration, it doesn't really *solve the problem*, you know?

I took a dump of the points being used. Here's the first few from N=12.
It appears to me that, as predicted, v2 and v3 coincide precisely with v1 and v4 of the next piece on the *band*. These are the 2D "user coordinates" passed to `moveto`

and `lineto`

to produce the individual quadrilaterals. Since the CTM doesn't change, these points should map to the same pixels, right? So it does appear to be a very similar issue to the linked question. But I'm using Postscript precisely because I don't want to muck-about with writing my own rasterization routine :). I really think that the solution from the linked question, mapped to Postscript, would be to reverse the orientation of alternating checkerboard squares, at least for even N. That way, all corresponding edges *are* drawn in the same direction (as each other).

[-2.64550757 2.08465409] [-3.00470281 1.69015563] [-2.7090168 1.69015563] [-2.38403082 2.08465409] [-3.00470281 1.69015563] [-3.28940701 0.936108589] [-2.96660638 0.936108589] [-2.7090168 1.69015563] [-3.28940701 0.936108589] [-3.4 -0.0666666701] [-3.0666666 -0.0666666701] [-2.96660638 0.936108589] [-3.4 -0.0666666701] [-3.28940701 -1.05890918] [-2.96660638 -1.05890918] [-3.0666666 -0.0666666701] [-3.28940701 -1.05890918] [-3.00470281 -1.78584146] [-2.7090168 -1.78584146] [-2.96660638 -1.05890918]

I've added a simple light model and tweaked it to bring out more mids. Jpeg output doesn't exhibit the problem, presumably due to the lossy compression. So here's a PNG snapshot.

The effect is much more apparent if I use the eye-vector as the light source. Here's xpost on the left showing the problem and gs on the right showing a modification where dz and dt are multiplied by a fudge factor of 1.06.

And the code: [*Do not use this code. There is an error in the matmul routine. Corrected routines available here. Completed challenge available here.*]

```
%!
%A shaded cylinder! Woohoo!
%(mat.ps) run
%!
%mat.ps
%Matrix and Vector math routines
/.error where { pop /signalerror { .error } def } if
/dot { % u v
2 copy length exch length ne {
/dot cvx /undefinedresult signalerror
} if
% u v
0 % u v sum
0 1 3 index length 1 sub { % u v sum i
3 index 1 index get exch % u v sum u_i i
3 index exch get % u v sum u_i v_i
mul add % u v sum
} for % u v sum
3 1 roll pop pop % sum
} bind def
% [ x1 x2 x3 ] [ y1 y2 y3 ] cross [ x2*y3-y2*x3 x3*y1-x1*y3 x1*y2-x2*y1 ]
/cross { % u v
dup length 3 ne
2 index length 3 ne or {
/cross cvx /undefinedresult signalerror
} if
% u v
exch aload pop 4 3 roll aload pop % x1 x2 x3 y1 y2 y3
[
5 index 2 index mul % ... [ x2*y3
3 index 6 index mul sub % ... [ x2*y3-y2*x3
5 index 5 index mul % ... [ x2*y3-y2*x3 x3*y1
8 index 4 index mul sub % ... [ x2*y3-y2*x3 x3*y1-x1*y3
8 index 5 index mul % ... [ x2*y3-y2*x3 x3*y1-x1*y3 x1*y2
8 index 7 index mul sub % ... [ x2*y3-y2*x3 x3*y1-x1*y3 x1*y2-x2*y1
]
7 1 roll 6 { pop } repeat
} bind def
/transpose { STATICDICT begin
/A exch def
/M A length def
/N A 0 get length def
[
0 1 N 1 sub { /n exch def
[
0 1 M 1 sub { /m exch def
A m get n get
} for
]
} for
]
end } dup 0 6 dict put def
/matmul { STATICDICT begin
/B exch def
B 0 get type /arraytype ne { /B [B] def } if
/A exch def
A 0 get type /arraytype ne { /A [A] def } if
/Q B length def
/R B 0 get length def
/P A length def
Q A 0 get length ne {
/A A transpose def
/P A length def
Q A 0 get length ne {
A B end /matmul cvx /undefinedresult signalerror
} if
} if
[
0 1 R 1 sub { /r exch def
[
0 1 P 1 sub { /p exch def
0
0 1 Q 1 sub { /q exch def
A p get q get
B q get r get mul
add
} for
} for
]
} for
]
end } dup 0 10 dict put def
%u v {operator} vop u(op)v
%apply a binary operator to corresponding elements
%in two vectors producing a third vector as result
/vop { 1 dict begin
/op exch def
2 copy length exch length ne {
/vop cvx end /undefinedresult signalerror
} if
[ 3 1 roll % [ u v
0 1 2 index length 1 sub { % [ ... u v i
3 copy exch pop get % u v i u_i
3 copy pop get % u v i u_i v_i
op exch pop % u v u_i(op)v_i
3 1 roll % u_i(op)v_i u v
} for % [ ... u v
pop pop ]
end } def
%length of a vector
/mag { 0 exch { dup mul add } forall } def
% x y z ang -> x y' z'
/rotx { 3 dict begin
/theta exch def
/z exch def
/y exch def
y theta cos mul
z theta sin mul sub
y theta sin mul
z theta cos mul add
end } def
% x y z ang -> x' y z'
/roty { 4 dict begin
/theta exch def
/z exch def
/y exch def
/x exch def
x theta cos mul
z theta sin mul add
y
x theta sin mul neg
z theta cos mul add
end } def
% x y z ang -> x' y' z
/rotz { 4 dict begin
/theta exch def
/z exch def
/y exch def
/x exch def
x theta cos mul
y theta sin mul sub
x theta sin mul
y theta cos mul add
z
end } def
% x y z -> x' y' z'
/model {
%ang roty
%ang .25 mul rotx
%alpha rotz
beta roty
gamma rotx
} def
% Eye coords
/ex .1 def
/ey .1 def
/ez 5 def
/eyedir [ex ey ez]
dup mag [ exch dup dup ]{div} vop
def
% x y z -> X Y
/project {
3 dict begin
/z exch def
/y exch def
/x exch def
1 ez z sub div
x ez mul z ex mul sub
1 index mul
y ez mul z ey mul sub
3 2 roll mul
end } def
/light
[ 3 -7 -2 1 ]
dup mag [ exch dup dup dup ]{div} vop
def
/Ia .4 def % Incident Ambient Intensity
/Ka .4 def % Ambient Diffuse reflection constant
/Il .5 def % Incident intensity of Lightsource
/Kd .3 def % Diffuse reflection constant
%h R N
/cylinder { 20 dict begin
/N exch def
/R exch def
/h exch def
/dz 1 N div def
/dt 360 dz mul def
/hdz h dz mul def
0 dz 1 dz sub {
h mul h 2 div sub /z exch def
0 dt 360 { /t exch def
/v1 [ t cos R mul
t sin R mul
z ] def
/v4 [ v1 aload pop pop
z hdz add ] def
/t t dt add def
/v2 [ t cos R mul
t sin R mul
z ] def
/v3 [ v2 aload pop pop
z hdz add ] def
[ v1 v2 v3 v4 ] {
aload 4 1 roll model 4 3 roll astore pop
} forall
/normal v4 v1 {sub} vop
v2 v1 {sub} vop
cross def
/nlen normal mag def
/normal normal [nlen nlen nlen] {div} vop def
[normal aload pop 1] [eyedir aload pop 1] dot 0 lt {
/action { moveto /action { lineto } def } def
[ v1 v2 v3 v4 ]
{ aload pop project action }
forall
closepath
% gsave
[normal aload pop 1]
light
%[ex ey ez neg 1] %"radiant"
dot
Il Kd mul mul
Ia Ka mul add
setgray
fill
% grestore
% stroke
} if
} for
} for
end } def
300 400 translate
280 dup dup moveto
dup neg dup neg lineto
dup neg dup lineto
dup neg lineto closepath .6 setgray fill
1 70 dup dup scale div setlinewidth
%/beta 0 def
%/gamma 0 def
%4 2 50 cylinder
/beta 90 def
/gamma 0 def
4 2 50 cylinder
%/beta 0 def
%/gamma 90 def
%4 2 50 cylinder
showpage
```

thinkyou're seeing a rounding problem, have you tried this on multiple PostScript interpreters (if this is the Ghostscript output, it uses a fixed point internal representation) ? How about different resolutions ? – KenS Sep 5 '12 at 7:22