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75d15d536409653ad3ac14ca3e78f19daf54c520
fcad/fcad.scad
Ian Gulliver 75d15d5364 Remove start/end angle, do substantial cleanup
2016-11-08 18:27:03 -06:00

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fDraw(fSphere(10));
///// Drawing modules
module fDraw(model) {
polyhedron(points=fPoints(model), faces=fFaces(model));
}
module fDrawN(model, scales) {
fDraw(model);
points = fPoints(model);
model_max = fMaxPoint(model);
translation =
[for (axis = [0 : 2])
scales[axis] * model_max[axis]];
translate(translation) children();
}
module fDrawX(model) {
fDrawN(model, [1, 0, 0]) children();
}
module fDrawY(model) {
fDrawN(model, [0, 1, 0]) children();
}
module fDrawZ(model) {
fDrawN(model, [0, 0, 1]) children();
}
///// 3D object creation functions
function fCube(dims) = (
let(x = fIsVector(dims) ? dims[0] : dims,
y = fIsVector(dims) ? dims[1] : dims,
z = fIsVector(dims) ? dims[2] : dims)
[
[fKeyPoints, fCartesianProduct([[0, x], [0, y], [0, z]])],
[fKeyFaces, [
[0, 2, 3, 1], // -x
[0, 1, 5, 4], // -y
[0, 4, 6, 2], // -z
[4, 5, 7, 6], // +x
[2, 6, 7, 3], // +y
[1, 3, 7, 5], // +z
]],
]
);
function fCylinder(h, r, sides=36) = (
let(degrees_per_side = 360 / sides,
side_range = [0 : sides - 1])
[
[fKeyPoints,
fCartesianProduct([
[for (side = side_range)
let (angle = side * degrees_per_side)
[r * sin(angle), r * cos(angle)]],
[0, h],
]),
],
[fKeyFaces, concat(
// bottom
[[for (side = [sides : -1 : 0]) side * 2]],
// top
[[for (side = [0 : sides]) side * 2 + 1]],
// sides
[for (side = side_range)
[for (vertex = [2, 3, 1, 0]) (side * 2 + vertex) % (sides * 2)]]
)],
]
);
function fSphere(r, sides=36, stripes=18) = (
let(degrees_per_slice = 180 / stripes,
degrees_per_side = 360 / sides,
top_index = (stripes - 1) * sides)
[
[fKeyPoints, concat(
[for (stripe_index = [1 : stripes - 1])
for (side_index = [0 : sides - 1])
let (stripe_angle = stripe_index * degrees_per_slice,
side_angle = side_index * degrees_per_side,
stripe_radius = r * sin(stripe_angle),
stripe_z = r * cos(stripe_angle),
side_x = stripe_radius * sin(side_angle),
side_y = stripe_radius * cos(side_angle))
[side_x, side_y, stripe_z]
],
[
[0, 0, r], // top
[0, 0, -r], // bottom
]
)],
[fKeyFaces, concat(
// side squares
[for (stripe_index = [2 : stripes - 1])
for (side_index = [0 : sides - 1])
let (prev_side_base = (stripe_index - 2) * sides,
side_base = (stripe_index - 1) * sides)
[
prev_side_base + (side_index + 1) % sides,
prev_side_base + side_index,
side_base + side_index,
side_base + (side_index + 1) % sides,
]
],
// top triangles
[for (side_index = [0 : sides - 1])
[
top_index,
side_index,
(side_index + 1) % sides,
]
],
// bottom triangles
[for (side_index = [0 : sides - 1])
let (side_base = (stripes - 2) * sides)
[
top_index + 1,
side_base + (side_index + 1) % sides,
side_base + side_index,
]
]
)],
]
);
///// 3D object information functions
function fMinPoint(model) = (
[for (axis = [0 : 2])
min([for (point = fPoints(model)) point[axis]])]
);
function fMaxPoint(model) = (
[for (axis = [0 : 2])
max([for (point = fPoints(model)) point[axis]])]
);
function fCenterPoint(model) = (
let(model_min = fMinPoint(model),
model_max = fMaxPoint(model),
model_size =
[for (axis = [0 : 2])
model_max[axis] - model_min[axis]])
[for (axis = [0 : 2])
model_min[axis] + (model_size[axis] / 2)]
);
///// 3D object translation functions
function fTranslate(model, translation) = (
[
[fKeyPoints,
[for (point = fPoints(model))
[for (axis = [0 : 2])
point[axis] + translation[axis]]
]
],
[fKeyFaces, fFaces(model)],
]
);
function fZeroN(model, scales) = (
let(model_min = fMinPoint(model),
translation =
[for (axis = [0 : 2])
scales[axis] * model_min[axis]])
fTranslate(model, translation)
);
function fZeroX(model) = (
fZeroN(model, [-1, 0, 0])
);
function fZeroY(model) = (
fZeroN(model, [0, -1, 0])
);
function fZeroZ(model) = (
fZeroN(model, [0, 0, -1])
);
function fCenterN(model, scales) = (
let(model_center = fCenterPoint(model),
translation =
[for (axis = [0 : 2])
scales[axis] * model_center[axis]])
fTranslate(model, translation)
);
function fCenterX(model) = (
fCenterN(model, [-1, 0, 0])
);
function fCenterY(model) = (
fCenterN(model, [0, -1, 0])
);
function fCenterZ(model) = (
fCenterN(model, [0, 0, -1])
);
///// Constants
fKeyPoints = "points";
fKeyFaces = "faces";
fTypeUndef = "undef";
fTypeInt = "int";
fTypeFloat = "float";
fTypeString = "string";
fTypeBoolean = "boolean";
fTypeVector = "vector";
fTypeUnknown = "unknown";
///// Utility functions
function fType(x) = (
x == undef ? fTypeUndef
: floor(x) == x ? fTypeInt
: abs(x) + 1 > abs(x) ? fTypeFloat
: str(x) == x ? fTypeString
: str(x) == "false" || str(x) == "true" ? fTypeBoolean
: (x[0] == x[0]) && len(x) != undef ? fTypeVector
: fTypeUnknown
);
function fIsVector(x) = (
fType(x) == fTypeVector
);
function fIsInt(x) = (
fType(x) == fTypeInt
);
function fIsFloat(x) = (
fType(x) == fTypeFloat
);
function fIsString(x) = (
fType(x) == fTypeString
);
function fIsBoolean(x) = (
fType(x) == fTypeBoolean
);
function fIsVector(x) = (
fType(x) == fTypeVector
);
function fMapLookup(key, model) = (
[for (pair = model)
let (iter_key = pair[0],
iter_value = pair[1])
if (key == iter_key)
iter_value][0]
);
function fVectorSlice(vec, start=0, step=undef, end=undef) = (
let(real_end = (end == undef) ? len(vec) - 1 : end,
real_step = (step == undef) ?
((real_end > start) ? 1 : -1)
: step)
[for (i = [start : real_step : real_end])
vec[i]]
);
function fCartesianProduct(vecs) = (
len(vecs) == 1 ?
vecs[0]
:
[for (val1 = vecs[0])
for (val2 = fCartesianProduct(fVectorSlice(vecs, start=1)))
concat(val1, val2)]
);
function fPoints(model) = (
fMapLookup(fKeyPoints, model)
);
function fFaces(model) = (
fMapLookup(fKeyFaces, model)
);
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