Draw the Utah Teapot
Postscript
Not fully golfed, but this illustrates a different approach than deCasteljau subdivision: evaluating the basis polynomial. Uses mat.ps.
(mat.ps)run[ % load matrix library, begin dictionary construction
/N 17
/C [ 0 7 4 ] % Cam
/E [ 0 0 40 ] % Eye
/R 0 roty 120 rotx 90 rotz % Rot: pan tilt twist
matmul matmul
/f(teapot)(r)file
/t{token pop exch pop} % parse a number or other ps token
/s{(,){search not{t exit}if t 3 1 roll}loop} % parse a comma-separated list
/r{token pop{[f 99 string readline pop s]}repeat}>>begin % parse a count-prefixed paragraph of csv numbers
[/P[f r]/V[f r]/v{1 sub V exch get} % Patches and Vertices and vert lookup shortcut
/B[[-1 3 -3 1][3 -6 3 0][-3 3 0 0][1 0 0 0]] % Bezier basis matrix
/A{dup dup mul exch 2 copy mul 3 1 roll 1 4 array astore} % x->[x^3 x^2 x 1]
/M{[1 index 0 4 getinterval 2 index 4 4 getinterval % flattened matrix->rowXcolumn matrix
3 index 8 4 getinterval 4 index 12 4 getinterval]exch pop}
/J{ C{sub}vop R matmul 0 get % perspective proJection [x y z]->[X Y]
aload pop E aload pop
4 3 roll div exch neg
4 3 roll add 1 index mul 4 1 roll
3 1 roll sub mul}
>>begin
300 400 translate
1 14 dup dup scale div currentlinewidth mul setlinewidth % global scale
/newline { /line {moveto /line {lineto} store} store } def
newline
P{
8 dict begin
[exch{v J 2 array astore}forall]/p exch def % load patch vertices and project to 2D
/X[p{0 get}forall] M B exch matmul B matmul def % multiply control points by Bezier basis
/Y[p{1 get}forall] M B exch matmul B matmul def
0 1 N div 1 1 index .2 mul add{A/U exch def % interpolate the polynomial over (u,v)/(N)
/UX U X matmul def
/UY U Y matmul def
0 1 N div 1 1 index .2 mul add{A/V exch 1 array astore transpose def
/UXV UX V matmul def
/UYV UY V matmul def
UXV 0 get 0 get
UYV 0 get 0 get line
}for
newline
}for
0 1 N div 1 1 index .2 mul add{A/V exch def % interpolate the polynomial over (u,v)/(N)
/V [V] transpose def
/XV X V matmul def
/YV Y V matmul def
0 1 N div 1 1 index .2 mul add{A/U exch 1 array astore transpose def
/UXV U XV matmul def
/UYV U YV matmul def
UXV 0 get 0 get
UYV 0 get 0 get line
}for
newline
}for
end
%exit
}forall
stroke
1112
Stripping out the vertical lines, and discounting the parameters, yields this 1112 char version. Uses mat.ps.
(mat.ps)run[ % 12
/N 17
/C [ 0 7 4 ] % Cam
/E [ 0 0 40 ] % Eye
/R 0 roty 120 rotx 90 rotz % Rot: pan tilt twist
matmul matmul
/f(teapot)(r)file/t{token pop exch pop}/s{(,){search not{t exit}if t % 1100
3 1 roll}loop}/r{token pop{[f 99 string readline pop
s]}repeat}>>begin[/P[f r]/V[f r]/v{1 sub
V exch get}/B[[-1 3 -3 1][3 -6 3 0][-3 3 0 0][1 0 0 0]]/A{dup dup mul exch
2 copy mul 3 1 roll 1 4 array astore}/M{[1 index 0 4 getinterval 2 index 4 4 getinterval
3 index 8 4 getinterval 4 index 12 4 getinterval]exch pop}/J{C{sub}vop R matmul 0 get
aload pop E aload pop 4 3 roll div exch neg 4 3 roll add 1 index mul 4 1 roll
3 1 roll sub mul}>>begin 300 400 translate
1 14 dup dup scale div currentlinewidth mul setlinewidth
/newline{/line{moveto/line{lineto}store}store}def newline
P{8 dict begin[exch{v J 2 array astore}forall]/p
exch def/X[p{0 get}forall] M B exch matmul B matmul
def/Y[p{1 get}forall] M B exch matmul B matmul def
0 1 N div 1 1 index .2 mul add{A/U exch def/UX U X matmul def/UY U Y matmul def
0 1 N div 1 1 index .2 mul add{A/V exch 1 array astore transpose
def/UXV UX V matmul def/UYV UY V matmul def UXV 0 get 0 get UYV 0 get 0 get line}for
newline}for end}forall stroke
Processing (java), 314 (237 without camera control)
Not including the array definitions:
void setup(){size(640,480,P3D);}void draw(){background(0);noFill();stroke(255);translate(width/2,height/2,70);scale(30);rotateX(map(mouseX,0,width,0,TWO_PI));rotateY(map(mouseY,0,height,0,TWO_PI));for(int[] p:patches){beginShape();for(int pt:p){vertex(data[pt-1][0],data[pt-1][1],data[pt-1][2]);}endShape(CLOSE);}}
Data array definitions:
float [][] data = {{1.4,0.0,2.4},
{1.4,-0.784,2.4},
{0.784,-1.4,2.4},
{0.0,-1.4,2.4},
{1.3375,0.0,2.53125},
{1.3375,-0.749,2.53125},
{0.749,-1.3375,2.53125},
{0.0,-1.3375,2.53125},
{1.4375,0.0,2.53125},
{1.4375,-0.805,2.53125},
{0.805,-1.4375,2.53125},
{0.0,-1.4375,2.53125},
{1.5,0.0,2.4},
{1.5,-0.84,2.4},
{0.84,-1.5,2.4},
{0.0,-1.5,2.4},
{-0.784,-1.4,2.4},
{-1.4,-0.784,2.4},
{-1.4,0.0,2.4},
{-0.749,-1.3375,2.53125},
{-1.3375,-0.749,2.53125},
{-1.3375,0.0,2.53125},
{-0.805,-1.4375,2.53125},
{-1.4375,-0.805,2.53125},
{-1.4375,0.0,2.53125},
{-0.84,-1.5,2.4},
{-1.5,-0.84,2.4},
{-1.5,0.0,2.4},
{-1.4,0.784,2.4},
{-0.784,1.4,2.4},
{0.0,1.4,2.4},
{-1.3375,0.749,2.53125},
{-0.749,1.3375,2.53125},
{0.0,1.3375,2.53125},
{-1.4375,0.805,2.53125},
{-0.805,1.4375,2.53125},
{0.0,1.4375,2.53125},
{-1.5,0.84,2.4},
{-0.84,1.5,2.4},
{0.0,1.5,2.4},
{0.784,1.4,2.4},
{1.4,0.784,2.4},
{0.749,1.3375,2.53125},
{1.3375,0.749,2.53125},
{0.805,1.4375,2.53125},
{1.4375,0.805,2.53125},
{0.84,1.5,2.4},
{1.5,0.84,2.4},
{1.75,0.0,1.875},
{1.75,-0.98,1.875},
{0.98,-1.75,1.875},
{0.0,-1.75,1.875},
{2.0,0.0,1.35},
{2.0,-1.12,1.35},
{1.12,-2.0,1.35},
{0.0,-2.0,1.35},
{2.0,0.0,0.9},
{2.0,-1.12,0.9},
{1.12,-2.0,0.9},
{0.0,-2.0,0.9},
{-0.98,-1.75,1.875},
{-1.75,-0.98,1.875},
{-1.75,0.0,1.875},
{-1.12,-2.0,1.35},
{-2.0,-1.12,1.35},
{-2.0,0.0,1.35},
{-1.12,-2.0,0.9},
{-2.0,-1.12,0.9},
{-2.0,0.0,0.9},
{-1.75,0.98,1.875},
{-0.98,1.75,1.875},
{0.0,1.75,1.875},
{-2.0,1.12,1.35},
{-1.12,2.0,1.35},
{0.0,2.0,1.35},
{-2.0,1.12,0.9},
{-1.12,2.0,0.9},
{0.0,2.0,0.9},
{0.98,1.75,1.875},
{1.75,0.98,1.875},
{1.12,2.0,1.35},
{2.0,1.12,1.35},
{1.12,2.0,0.9},
{2.0,1.12,0.9},
{2.0,0.0,0.45},
{2.0,-1.12,0.45},
{1.12,-2.0,0.45},
{0.0,-2.0,0.45},
{1.5,0.0,0.225},
{1.5,-0.84,0.225},
{0.84,-1.5,0.225},
{0.0,-1.5,0.225},
{1.5,0.0,0.15},
{1.5,-0.84,0.15},
{0.84,-1.5,0.15},
{0.0,-1.5,0.15},
{-1.12,-2.0,0.45},
{-2.0,-1.12,0.45},
{-2.0,0.0,0.45},
{-0.84,-1.5,0.225},
{-1.5,-0.84,0.225},
{-1.5,0.0,0.225},
{-0.84,-1.5,0.15},
{-1.5,-0.84,0.15},
{-1.5,0.0,0.15},
{-2.0,1.12,0.45},
{-1.12,2.0,0.45},
{0.0,2.0,0.45},
{-1.5,0.84,0.225},
{-0.84,1.5,0.225},
{0.0,1.5,0.225},
{-1.5,0.84,0.15},
{-0.84,1.5,0.15},
{0.0,1.5,0.15},
{1.12,2.0,0.45},
{2.0,1.12,0.45},
{0.84,1.5,0.225},
{1.5,0.84,0.225},
{0.84,1.5,0.15},
{1.5,0.84,0.15},
{-1.6,0.0,2.025},
{-1.6,-0.3,2.025},
{-1.5,-0.3,2.25},
{-1.5,0.0,2.25},
{-2.3,0.0,2.025},
{-2.3,-0.3,2.025},
{-2.5,-0.3,2.25},
{-2.5,0.0,2.25},
{-2.7,0.0,2.025},
{-2.7,-0.3,2.025},
{-3.0,-0.3,2.25},
{-3.0,0.0,2.25},
{-2.7,0.0,1.8},
{-2.7,-0.3,1.8},
{-3.0,-0.3,1.8},
{-3.0,0.0,1.8},
{-1.5,0.3,2.25},
{-1.6,0.3,2.025},
{-2.5,0.3,2.25},
{-2.3,0.3,2.025},
{-3.0,0.3,2.25},
{-2.7,0.3,2.025},
{-3.0,0.3,1.8},
{-2.7,0.3,1.8},
{-2.7,0.0,1.575},
{-2.7,-0.3,1.575},
{-3.0,-0.3,1.35},
{-3.0,0.0,1.35},
{-2.5,0.0,1.125},
{-2.5,-0.3,1.125},
{-2.65,-0.3,0.9375},
{-2.65,0.0,0.9375},
{-2.0,-0.3,0.9},
{-1.9,-0.3,0.6},
{-1.9,0.0,0.6},
{-3.0,0.3,1.35},
{-2.7,0.3,1.575},
{-2.65,0.3,0.9375},
{-2.5,0.3,1.125},
{-1.9,0.3,0.6},
{-2.0,0.3,0.9},
{1.7,0.0,1.425},
{1.7,-0.66,1.425},
{1.7,-0.66,0.6},
{1.7,0.0,0.6},
{2.6,0.0,1.425},
{2.6,-0.66,1.425},
{3.1,-0.66,0.825},
{3.1,0.0,0.825},
{2.3,0.0,2.1},
{2.3,-0.25,2.1},
{2.4,-0.25,2.025},
{2.4,0.0,2.025},
{2.7,0.0,2.4},
{2.7,-0.25,2.4},
{3.3,-0.25,2.4},
{3.3,0.0,2.4},
{1.7,0.66,0.6},
{1.7,0.66,1.425},
{3.1,0.66,0.825},
{2.6,0.66,1.425},
{2.4,0.25,2.025},
{2.3,0.25,2.1},
{3.3,0.25,2.4},
{2.7,0.25,2.4},
{2.8,0.0,2.475},
{2.8,-0.25,2.475},
{3.525,-0.25,2.49375},
{3.525,0.0,2.49375},
{2.9,0.0,2.475},
{2.9,-0.15,2.475},
{3.45,-0.15,2.5125},
{3.45,0.0,2.5125},
{2.8,0.0,2.4},
{2.8,-0.15,2.4},
{3.2,-0.15,2.4},
{3.2,0.0,2.4},
{3.525,0.25,2.49375},
{2.8,0.25,2.475},
{3.45,0.15,2.5125},
{2.9,0.15,2.475},
{3.2,0.15,2.4},
{2.8,0.15,2.4},
{0.0,0.0,3.15},
{0.0,-0.002,3.15},
{0.002,0.0,3.15},
{0.8,0.0,3.15},
{0.8,-0.45,3.15},
{0.45,-0.8,3.15},
{0.0,-0.8,3.15},
{0.0,0.0,2.85},
{0.2,0.0,2.7},
{0.2,-0.112,2.7},
{0.112,-0.2,2.7},
{0.0,-0.2,2.7},
{-0.002,0.0,3.15},
{-0.45,-0.8,3.15},
{-0.8,-0.45,3.15},
{-0.8,0.0,3.15},
{-0.112,-0.2,2.7},
{-0.2,-0.112,2.7},
{-0.2,0.0,2.7},
{0.0,0.002,3.15},
{-0.8,0.45,3.15},
{-0.45,0.8,3.15},
{0.0,0.8,3.15},
{-0.2,0.112,2.7},
{-0.112,0.2,2.7},
{0.0,0.2,2.7},
{0.45,0.8,3.15},
{0.8,0.45,3.15},
{0.112,0.2,2.7},
{0.2,0.112,2.7},
{0.4,0.0,2.55},
{0.4,-0.224,2.55},
{0.224,-0.4,2.55},
{0.0,-0.4,2.55},
{1.3,0.0,2.55},
{1.3,-0.728,2.55},
{0.728,-1.3,2.55},
{0.0,-1.3,2.55},
{1.3,0.0,2.4},
{1.3,-0.728,2.4},
{0.728,-1.3,2.4},
{0.0,-1.3,2.4},
{-0.224,-0.4,2.55},
{-0.4,-0.224,2.55},
{-0.4,0.0,2.55},
{-0.728,-1.3,2.55},
{-1.3,-0.728,2.55},
{-1.3,0.0,2.55},
{-0.728,-1.3,2.4},
{-1.3,-0.728,2.4},
{-1.3,0.0,2.4},
{-0.4,0.224,2.55},
{-0.224,0.4,2.55},
{0.0,0.4,2.55},
{-1.3,0.728,2.55},
{-0.728,1.3,2.55},
{0.0,1.3,2.55},
{-1.3,0.728,2.4},
{-0.728,1.3,2.4},
{0.0,1.3,2.4},
{0.224,0.4,2.55},
{0.4,0.224,2.55},
{0.728,1.3,2.55},
{1.3,0.728,2.55},
{0.728,1.3,2.4},
{1.3,0.728,2.4},
{0.0,0.0,0.0},
{1.5,0.0,0.15},
{1.5,0.84,0.15},
{0.84,1.5,0.15},
{0.0,1.5,0.15},
{1.5,0.0,0.075},
{1.5,0.84,0.075},
{0.84,1.5,0.075},
{0.0,1.5,0.075},
{1.425,0.0,0.0},
{1.425,0.798,0.0},
{0.798,1.425,0.0},
{0.0,1.425,0.0},
{-0.84,1.5,0.15},
{-1.5,0.84,0.15},
{-1.5,0.0,0.15},
{-0.84,1.5,0.075},
{-1.5,0.84,0.075},
{-1.5,0.0,0.075},
{-0.798,1.425,0.0},
{-1.425,0.798,0.0},
{-1.425,0.0,0.0},
{-1.5,-0.84,0.15},
{-0.84,-1.5,0.15},
{0.0,-1.5,0.15},
{-1.5,-0.84,0.075},
{-0.84,-1.5,0.075},
{0.0,-1.5,0.075},
{-1.425,-0.798,0.0},
{-0.798,-1.425,0.0},
{0.0,-1.425,0.0},
{0.84,-1.5,0.15},
{1.5,-0.84,0.15},
{0.84,-1.5,0.075},
{1.5,-0.84,0.075},
{0.798,-1.425,0.0},
{1.425,-0.798,0.0}
};
int [][] patches = {
{32},
{1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16},
{4,17,18,19,8,20,21,22,12,23,24,25,16,26,27,28},
{19,29,30,31,22,32,33,34,25,35,36,37,28,38,39,40},
{31,41,42,1,34,43,44,5,37,45,46,9,40,47,48,13},
{13,14,15,16,49,50,51,52,53,54,55,56,57,58,59,60},
{16,26,27,28,52,61,62,63,56,64,65,66,60,67,68,69},
{28,38,39,40,63,70,71,72,66,73,74,75,69,76,77,78},
{40,47,48,13,72,79,80,49,75,81,82,53,78,83,84,57},
{57,58,59,60,85,86,87,88,89,90,91,92,93,94,95,96},
{60,67,68,69,88,97,98,99,92,100,101,102,96,103,104,105},
{69,76,77,78,99,106,107,108,102,109,110,111,105,112,113,114},
{78,83,84,57,108,115,116,85,111,117,118,89,114,119,120,93},
{121,122,123,124,125,126,127,128,129,130,131,132,133,134,135,136},
{124,137,138,121,128,139,140,125,132,141,142,129,136,143,144,133},
{133,134,135,136,145,146,147,148,149,150,151,152,69,153,154,155},
{136,143,144,133,148,156,157,145,152,158,159,149,155,160,161,69},
{162,163,164,165,166,167,168,169,170,171,172,173,174,175,176,177},
{165,178,179,162,169,180,181,166,173,182,183,170,177,184,185,174},
{174,175,176,177,186,187,188,189,190,191,192,193,194,195,196,197},
{177,184,185,174,189,198,199,186,193,200,201,190,197,202,203,194},
{204,204,204,204,207,208,209,210,211,211,211,211,212,213,214,215},
{204,204,204,204,210,217,218,219,211,211,211,211,215,220,221,222},
{204,204,204,204,219,224,225,226,211,211,211,211,222,227,228,229},
{204,204,204,204,226,230,231,207,211,211,211,211,229,232,233,212},
{212,213,214,215,234,235,236,237,238,239,240,241,242,243,244,245},
{215,220,221,222,237,246,247,248,241,249,250,251,245,252,253,254},
{222,227,228,229,248,255,256,257,251,258,259,260,254,261,262,263},
{229,232,233,212,257,264,265,234,260,266,267,238,263,268,269,242},
{270,270,270,270,279,280,281,282,275,276,277,278,271,272,273,274},
{270,270,270,270,282,289,290,291,278,286,287,288,274,283,284,285},
{270,270,270,270,291,298,299,300,288,295,296,297,285,292,293,294},
{270,270,270,270,300,305,306,279,297,303,304,275,294,301,302,271},
{306}
};
More readable version:
void setup() {
size(640,480,P3D);
}
void draw() {
background(0);
noFill();
stroke(255);
translate(width/2,height/2,70);
scale(30);
rotateX(map(mouseX,0,width,0,TWO_PI));
rotateY(map(mouseY,0,height,0,TWO_PI));
for (int[] p:patches) {
beginShape();
for (int pt:p) {
vertex(data[pt-1][0],data[pt-1][2],data[pt-1][2]);
}
endShape(CLOSE);
}
}
And some pics:
Another version with some interesting effects:
void setup(){size(640,480,P3D);}
void draw(){
background(0);noFill();stroke(255);
translate(width/2,height/2,70);scale(30);
rotateX(map(mouseX,0,width,0,TWO_PI));rotateY(map(mouseY,0,height,0,TWO_PI));
for(int[] p:patches){
//beginShape(QUADS);
for(int pt:p){
for(int pu:p){
//vertex(data[pu-1][0],data[pu-1][4],data[pu-1][2]);
line(data[pt-1][0],data[pt-1][5],data[pt-1][2],data[pu-1][0],data[pu-1][6],data[pu-1][2]);
}}
//endShape(CLOSE);
}
}