Also, change extrude's interface to take 3d points, just with the z
values at zero.
<script type="text/javascript">
function box_by_extrude(size_as_string) {
var size = parseFloat(size_as_string);
<script type="text/javascript">
function box_by_extrude(size_as_string) {
var size = parseFloat(size_as_string);
- var origin = [0, 0 ];
- var x = [size, 0 ];
- var y = [0, size];
- var xy = [size, size];
+ var origin = [0, 0, 0];
+ var x = [size, 0, 0];
+ var y = [0, size, 0];
+ var xy = [size, size, 0];
return nt3d.extrude([origin, x, xy, y],
[[0, 0, 0], [0, 0, 1]],
[[0, 0, 1], [0, 0, 1]],
return nt3d.extrude([origin, x, xy, y],
[[0, 0, 0], [0, 0, 1]],
[[0, 0, 1], [0, 0, 1]],
// loop is shape in 3d with (0,0) at path[i], shape's
// z axis in the direction of shapenormals[i], and
// shape's x axis in the direction of pathnormals[i].
// loop is shape in 3d with (0,0) at path[i], shape's
// z axis in the direction of shapenormals[i], and
// shape's x axis in the direction of pathnormals[i].
// This is done in three steps:
// 1. Rotate shape out of the xy plane so that [0,0,1]
// becomes shapenormals[i] by crossing [0,0,1] and
// This is done in three steps:
// 1. Rotate shape out of the xy plane so that [0,0,1]
// becomes shapenormals[i] by crossing [0,0,1] and
// constrain its rotation about shapenormals[i].
var rot1axis = this.unit(this.cross([0,0,1], shapenormals[i]));
var rot1angle = this.angle_between([0,0,1], this.unit(shapenormals[i]));
// constrain its rotation about shapenormals[i].
var rot1axis = this.unit(this.cross([0,0,1], shapenormals[i]));
var rot1angle = this.angle_between([0,0,1], this.unit(shapenormals[i]));
+ if (rot1angle > 1e-7) {
+ loop = this.rotate(loop, rot1axis, rot1angle);
+ }
+
// 2. Rotate around shapenormals[i] so that [1,0,0]
// becomes fixedpathnormals[i].
var rot2axis = this.unit(shapenormals[i]);
var rot2angle = this.angle_between([1,0,0], this.unit(fixedpathnormals[i]));
// 2. Rotate around shapenormals[i] so that [1,0,0]
// becomes fixedpathnormals[i].
var rot2axis = this.unit(shapenormals[i]);
var rot2angle = this.angle_between([1,0,0], this.unit(fixedpathnormals[i]));
- // 3. Translate to path[i].
+ if (rot2angle > 1e-7) {
+ loop = this.rotate(loop, rot2axis, rot2angle);
+ }
// This would probably be faster and more numerically stable
// if the two rotations were applied as one combined operation
// rather than separate steps.
// This would probably be faster and more numerically stable
// if the two rotations were applied as one combined operation
// rather than separate steps.
- for (var j = 0; j < shape.length; j++) {
- var p = [shape[j][0], shape[j][1], 0];
- if (rot1angle > 1e-7) {
- p = this.rotate(p, rot1axis, rot1angle);
- }
- if (rot2angle > 1e-7) {
- p = this.rotate(p, rot2axis, rot2angle);
- }
- p = this.translate(p, path[i]);
- loop[j] = p;
- }
+
+ // 3. Translate to path[i].
+ loop = this.translate(loop, path[i]);
+
if (i == 0) {
result.first_loop = loop;
} else {
if (i == 0) {
result.first_loop = loop;
} else {
var a_magnitude = this.magnitude(a);
return this.scale(a, this.dot(a, b) / a_magnitude * a_magnitude);
},
var a_magnitude = this.magnitude(a);
return this.scale(a, this.dot(a, b) / a_magnitude * a_magnitude);
},
- translate: function(a, b) {
- return [a[0] + b[0], a[1] + b[1], a[2] + b[2]];
+ translate: function(points, offset) {
+ var translated = [];
+ for (var i = 0; i < points.length; i++) {
+ translated[i] = [points[i][0] + offset[0],
+ points[i][1] + offset[1],
+ points[i][2] + offset[2]];
+ }
+ return translated;
},
angle_between: function(a, b) { // a and b must be unit vectors
return Math.acos(this.dot(a, b));
},
},
angle_between: function(a, b) { // a and b must be unit vectors
return Math.acos(this.dot(a, b));
},
- rotate: function(point, axis, angle) { // axis must be a unit vector
+ rotate: function(points, axis, angle) { // axis must be a unit vector
// From http://inside.mines.edu/~gmurray/ArbitraryAxisRotation/
var cosangle = Math.cos(angle);
var sinangle = Math.sin(angle);
// From http://inside.mines.edu/~gmurray/ArbitraryAxisRotation/
var cosangle = Math.cos(angle);
var sinangle = Math.sin(angle);
- var tmp = this.dot(point, axis) * (1 - cosangle);
- return [axis[0]*tmp + point[0]*cosangle + (-axis[2]*point[1] + axis[1]*point[2])*sinangle,
- axis[1]*tmp + point[1]*cosangle + ( axis[2]*point[0] - axis[0]*point[2])*sinangle,
- axis[2]*tmp + point[2]*cosangle + (-axis[1]*point[0] + axis[0]*point[1])*sinangle];
+ var rotated = [];
+ for (var i = 0; i < points.length; i++) {
+ var p = points[i];
+ var tmp = this.dot(p, axis) * (1 - cosangle);
+ rotated[i] = [
+ axis[0]*tmp + p[0]*cosangle + (-axis[2]*p[1] + axis[1]*p[2])*sinangle,
+ axis[1]*tmp + p[1]*cosangle + ( axis[2]*p[0] - axis[0]*p[2])*sinangle,
+ axis[2]*tmp + p[2]*cosangle + (-axis[1]*p[0] + axis[0]*p[1])*sinangle];
+ }
+ return rotated;
},
go: function() {
// Get params from form
},
go: function() {
// Get params from form