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Philadelphia_Minimalist.scad
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Philadelphia_Minimalist.scad
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use <scad-utils/morphology.scad> //for cheaper minwoski
use <scad-utils/transformations.scad>
use <scad-utils/shapes.scad>
use <scad-utils/trajectory.scad>
use <scad-utils/trajectory_path.scad>
use <sweep.scad>
use <skin.scad>
use <z-butt.scad>
//TODOs
//add shell towards bottom to make it rounder
//add o-ring portion
//add variable radius for outer fillet
//Fanning? for thumbs
//MX stem
//enum
Choc = 0;
MX = 1;
Null =2;
// override Z-butt param
lp_key = [
// "base_sx", 18.5,
// "base_sy", 18.5,
"base_sx", 17.65,
"base_sy", 16.5,
"cavity_sx", 16.1,
"cavity_sy", 14.9,
"cavity_sz", 1.6,
"cavity_ch_xy", 1.6,
"indent_inset", 1.5
];
/*Tester */
//translate([0,0,0])lp_master_base(xu = 2, yu = 1 );
translate([0, 0, -.05])rotate([0,0,0])mirror([0,1,0]){
// keycap(keyID = 6, cutLen = 0, Stem = Choc, Dish = false, SecondaryDish = false, visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
}
translate([0, -8, -.05])rotate([0,0,0])mirror([0,0,0]){
keycap(keyID = 6, cutLen = 0, Stem = Choc, Dish = false, SecondaryDish = false, visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
}
// translate([14, 14, 0])rotate([0,0,90]) keycap(keyID = 0, cutLen = 0, Stem =true, Dish = true, SecondaryDish = false,Stab = 0 , visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
// translate([0, 14, 0])rotate([0,0,90]) keycap(keyID = 0, cutLen = 0, Stem =true, Dish = true, SecondaryDish = false,Stab = 0 , visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
// translate([14, 0, 0])rotate([0,0,90]) keycap(keyID = 0, cutLen = 0, Stem =true, Dish = true, SecondaryDish = false,Stab = 0 , visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
//translate([-18, 0, 10])rotate([0,0,90])mirror([0,0,0])keycap(keyID = 2, cutLen = 0, Stem =true, Dish = false, SecondaryDish = false,Stab = 0 , visualizeDish = false, crossSection = false, homeDot = false, Legends = false);
//#translate([0,0,0])cube([14, 14, 2], center = true); // internal check
//#translate([1,0,0])cube([12, 14, 4], center = true); // internal check
//#translate([2,0,0])cube([11, 14, 4], center = true); // internal check
//#translate([0,0,5])cube([19.05, 19.05, 10], center = true); // internal check
//#translate([0,0,0])cube([17.5, 16.5, 10], center = true); // internal check
ChocCut = 0;
thumbStem = true;
thumbDish = true;
thumbVis = false;
thumbSec = false;
//-Parameters
wallthickness = 1.1; // 1.75 for mx size, 1.1
topthickness = 2.5; //2 for phat 3 for chicago
stepsize = 60; //resolution of Trajectory
step =2; //resolution of ellipes
fn = 16; //resolution of Rounded Rectangles: 60 for output
layers = 20; //resolution of vertical Sweep: 50 for output
angularSteps = 20;
//---Stem param
//injection param
draftAngle = 0; //degree note:Stem Only
Tol = 0.10; //stem tolarance
stemRot = 0;
stemRad = 5.55; // stem outer radius
stemLen = 5.55 ;
stemCrossHeight = 4;
extra_vertical = 0.6;
StemBrimDep = 0.25;
stemLayers = 50; //resolution of stem to cap top transition
//TODO: Add wall thickness transition?
keyParameters = //keyParameters[KeyID][ParameterID]
[
// BotWid, BotLen, TWDif, TLDif, keyh, WSft, LSft XSkew, YSkew, ZSkew,/*|*/ WEx, LEx, CapR0i, CapR0f, CapR1i, CapR1f, CapREx, StemEx, chop shift
//Column 0
//set R2 14x14 choc trantisiton
[12.90, 12.90, 3.0, 3.0, 2.5, 0.0, 0.0, 0.0, -0, -0,/*|*/ 2, 2, 1, 3, 1, 3, 2, 2, 0], //R2 Top surface
[12.40, 12.40, 5.0, 8.0,-0.75, 0.0, 0.0, 0.0, -0, -0,/*|*/ 1, 1, 2, 3, 2, 3, 2, 2, 0], //R2 Bottom Choc surface
[12.40, 12.40, 5.0, 8.0,-0.75, 0.0, 0.0, 0.0, -0, -0,/*|*/ 1, 1, 2, 3, 2, 3, 2, 2, 0], //R2 Bottom MX surface
//MX chop
[12.40, 10.40, 3.0, 3.0, 2.5, 0.0, 0.0, 0.0, -0, -0,/*|*/ 2, 2, 2, 3, 2, 3, 2, 2, -1], //R3 Chop Top surface
[12.40, 10.40, 5.0, 6.0,-0.75, 0.0, -1.0, 0.0, -0, -0,/*|*/ .5, 1.2, 2, 1, 2, 1, 2, 2, -1], //R3 Chop Bottom surface
[12.40, 10.40, 12.40-5.5, 10.40-5.5,-0.5, 0.0, -1.0, 0.0, -0, -0,/*|*/ 1, 1, 2, 5.5, 2, 5.5, 2, 2, -1], //R3 MX Bottom surface
//Choc Chop
[12.40, 9.40, 3.0, 3.0, 2.5, 0.0, 0.0, 0.0, -0, -0,/*|*/ 2, 2, 2, 3, 2, 3, 2, 2, -2], //R3 Chop Top surface
[12.40, 9.40, 5.0, 6.0,-0.75, 0.0, -2.0, 0.0, -0, -0,/*|*/ 2, 2, 2, 1, 2, 1, 2, 2, -2], //R3 Chop Bottom surface
[12.40, 9.40, 12.40-5.5, 10.40-5.5,-0.5, 0.0, -1.0, 0.0, -0, -0,/*|*/ 1, 1, 2, 5.5, 2, 5.5, 2, 2, -1], //R3 MX Bottom surface
[17.20, 16.00, 5.6, 5.0, 4.6, 0, .0, 0, -0, -0, 2, 2.5, .10, 3, .10, 3, 2, 2, 0], //R3 bottom
//Thumb
[17.20, 16.00, 4.25, 3.25, 5.0, -.5, 0.0, -3, -3, -0, 2, 2, .10, 2, .10, 2, 2, 2], //Thumb 1
[15.65, 26.4, 5.5, 3.25, 4.9, -.5, 0.0, -3, -2, -2, 2, 2, .3, 2, .3, 2.5, 2, 2], //Thumb 1.5
[15.65, 35.8, 4.25, 3.25, 4.9, -.25, 0.0, -2.5, -4, -2, 2, 3, .3, 2, .3, 2.5, 2, 2], //Thumb 2.0
//1.25 5
];
dishParameters = //dishParameter[keyID][ParameterID]
[
//FFwd1 FFwd2 FPit1 FPit2 DshDep DshHDif FArcIn FArcFn FArcEx BFwd1 BFwd2 BPit1 BPit2 BArcIn BArcFn BArcEx FTani FTanf BTani BTanf TanEX PhiInit PhiFin phiEX
//Column 0
[ 4, 4.5, 3, -50, 7, 1.7, 11, 17, 2, /*|*/ 4.5, 4, 2, -35, 11, 15, 2, 2, 3, 2, 3, 2, 203, 198, 2], //full
[ 4.5, 4, 5, -40,7,1.7,11,15,2,4.5,4,5,-40,11,15,2,4,5,4,5,2, 200, 210,2], //Chicago Steno R3 flat
[ 4.5, 4, 5, -40, 7, 1.7, 11, 15, 2, 4.5, 4, 5, -40, 11, 15, 2, 4, 5, 4, 5, 2, 200, 210,2], //Chicago Steno R3 flat
[3.5, 4.5, 3, -30, 7, 1.7, 11, 17, 2, /*|*/ 3., 3, 2.2, -60, 11, 15, 2, 2, 3, 2, 3, 2, 203, 194, 2], //Chop
[ 4.5,4,5,-40,7,1.7,11,15,2,4.5,4,5,-40,11,15,2,4,5,4,5,2, 200, 210,2], //
[ 4.5,4,5,-40,7,1.7,11,15,2,4.5,4,5,-40,11,15,2,4,5,4,5,2, 200, 210,2], //
[ 4, 5.5, 6, -60, 7, 1.7, 11, 17, 2, /*|*/ 2.5, 2, -6, -180, 11, 17, 2, 2, 3, 2, 3, 2, 203, 194, 2], //Chop
[ 4.5,4,5,-40,7,1.7,11,15,2,4.5,4,5,-40,11,15,2,4,5,4,5,2, 200, 210,2], //
[ 4.5,4,5,-40,7,1.7,11,15,2,4.5,4,5,-40,11,15,2,4,5,4,5,2, 200, 210,2], //
//Chicago Steno R3 flat
[ 5, 5.5, 0, -40, 7, 1.7, 16, 18, 2, 5.5, 3.5, 5, -50, 16, 18, 2, 5, 3.75, 2, 3.75, 2, 199, 210], //T1
[ 10, 4.5, 0, -40, 7, 1.7, 16, 15, 2, 10, 3.5, 5, -50, 16, 18, 2, 3, 3.75, .75, 3.75, 2, 200, 210], //1.5u
[ 14.5, 4.5, 4, -40, 7, 1.7, 16, 18, 2, 14.5, 4.5, 2, -35, 16, 23, 2, 3, 3.75, .75, 3.75, 2, 200, 210], //2.0u
];
SecondaryDishParam =
[
[ 6, 3.5, 7, -50, 3, 2, 8, 8, 2, 5, 5, 5, 15, 10, 20, 2], //Chicago Steno R2/R4
[ 6, 3.5, 7, -50, 3, 2.5, 8, 20, 3, 2, 4.2, 8, 0, 8, 8, 3], //Chicago Steno R3 flat
[ 6, 3.5, 7, -50, 3, 2.5, 8, 20, 3, 2, 4.2, 8, 0, 8, 8, 3], //Chicago Steno R3 chord
[ 6, 3.5, 7, -50, 3, 2, 8, 8, 2, 5, 5, 5, 15, 10, 20, 2], //Levee Steno R2/R4
[ 6, 3.5, 7, -50, 5, 1.0, 16, 23, 2, 6, 3.5, 7, -50, 16, 23, 2], //Levee Steno R2/R4
[ 6, 3.5, 7, -50, 5, 1.0, 16, 23, 2, 6, 3.5, 7, -50, 16, 23, 2], //Levee Steno R2/R4
[ 6, 3.5, 7, -50, 5, 1.0, 16, 23, 2, 6, 3.5, 7, -50, 16, 23, 2], //Levee Steno R2/R4
[ 6, 3.5, 7, -50, 5, 1.0, 16, 23, 2, 6, 3.5, 7, -50, 16, 23, 2], //Levee Steno R2/R4
[ 6, 3.5, 7, -50, 5, 1.0, 16, 23, 2, 6, 3.5, 7, -50, 16, 23, 2], //Levee Steno R2/R4
];
function BottomWidth(keyID) = keyParameters[keyID][0]; //
function BottomLength(keyID) = keyParameters[keyID][1]; //
function TopWidthDiff(keyID) = keyParameters[keyID][2]; //
function TopLenDiff(keyID) = keyParameters[keyID][3]; //
function KeyHeight(keyID) = keyParameters[keyID][4]; //
function TopWidShift(keyID) = keyParameters[keyID][5];
function TopLenShift(keyID) = keyParameters[keyID][6];
function XAngleSkew(keyID) = keyParameters[keyID][7];
function YAngleSkew(keyID) = keyParameters[keyID][8];
function ZAngleSkew(keyID) = keyParameters[keyID][9];
function WidExponent(keyID) = keyParameters[keyID][10];
function LenExponent(keyID) = keyParameters[keyID][11];
function CapRound0i(keyID) = keyParameters[keyID][12];
function CapRound0f(keyID) = keyParameters[keyID][13];
function CapRound1i(keyID) = keyParameters[keyID][14];
function CapRound1f(keyID) = keyParameters[keyID][15];
function ChamExponent(keyID) = keyParameters[keyID][16];
function StemExponent(keyID) = keyParameters[keyID][17];
function ChopShift(keyID) = keyParameters[keyID][18];
function FrontForward1(keyID) = dishParameters[keyID][0]; //
function FrontForward2(keyID) = dishParameters[keyID][1]; //
function FrontPitch1(keyID) = dishParameters[keyID][2]; //
function FrontPitch2(keyID) = dishParameters[keyID][3]; //
function DishDepth(keyID) = dishParameters[keyID][4]; //
function DishHeightDif(keyID) = dishParameters[keyID][5]; //
function FrontInitArc(keyID) = dishParameters[keyID][6];
function FrontFinArc(keyID) = dishParameters[keyID][7];
function FrontArcExpo(keyID) = dishParameters[keyID][8];
function BackForward1(keyID) = dishParameters[keyID][9]; //
function BackForward2(keyID) = dishParameters[keyID][10]; //
function BackPitch1(keyID) = dishParameters[keyID][11]; //
function BackPitch2(keyID) = dishParameters[keyID][12]; //
function BackInitArc(keyID) = dishParameters[keyID][13];
function BackFinArc(keyID) = dishParameters[keyID][14];
function BackArcExpo(keyID) = dishParameters[keyID][15];
function ForwardTanInit(keyID)= dishParameters[keyID][16];
function ForwardTanFin(keyID) = dishParameters[keyID][17];
function BackTanInit(keyID) = dishParameters[keyID][18];
function BackTanFin(keyID) = dishParameters[keyID][19];
function TanArcExpo(keyID) = dishParameters[keyID][20];
function TransitionAngleInit(keyID) = dishParameters[keyID][21];
function TransitionAngleFin(keyID) = dishParameters[keyID][22];
function TransitionAngleExpo(keyID) = dishParameters[keyID][23];
function SFrontForward1(keyID) = SecondaryDishParam[keyID][0]; //
function SFrontForward2(keyID) = SecondaryDishParam[keyID][1]; //
function SFrontPitch1(keyID) = SecondaryDishParam[keyID][2]; //
function SFrontPitch2(keyID) = SecondaryDishParam[keyID][3]; //
function SDishDepth(keyID) = SecondaryDishParam[keyID][4]; //
function SDishHeightDif(keyID) = SecondaryDishParam[keyID][5]; //
function SFrontInitArc(keyID) = SecondaryDishParam[keyID][6];
function SFrontFinArc(keyID) = SecondaryDishParam[keyID][7];
function SFrontArcExpo(keyID) = SecondaryDishParam[keyID][8];
function SBackForward1(keyID) = SecondaryDishParam[keyID][9]; //
function SBackForward2(keyID) = SecondaryDishParam[keyID][10]; //
function SBackPitch1(keyID) = SecondaryDishParam[keyID][11]; //
function SBackPitch2(keyID) = SecondaryDishParam[keyID][12]; //
function SBackInitArc(keyID) = SecondaryDishParam[keyID][13];
function SBackFinArc(keyID) = SecondaryDishParam[keyID][14];
function SBackArcExpo(keyID) = SecondaryDishParam[keyID][15];
function FrontTrajectory(keyID) =
[
trajectory(forward = FrontForward1(keyID), pitch = FrontPitch1(keyID)), //more param available: yaw, roll, scale
trajectory(forward = FrontForward2(keyID), pitch = FrontPitch2(keyID)) //You can add more traj if you wish
];
function BackTrajectory (keyID) =
[
trajectory(backward = BackForward1(keyID), pitch = -BackPitch1(keyID)),
trajectory(backward = BackForward2(keyID), pitch = -BackPitch2(keyID)),
];
function SFrontTrajectory(keyID) =
[
trajectory(forward = SFrontForward1(keyID), pitch = SFrontPitch1(keyID)), //more param available: yaw, roll, scale
trajectory(forward = SFrontForward2(keyID), pitch = SFrontPitch2(keyID)), //You can add more traj if you wish
];
function SBackTrajectory (keyID) =
[
trajectory(forward = SBackForward1(keyID), pitch = SBackPitch1(keyID)),
trajectory(forward = SBackForward2(keyID), pitch = SBackPitch2(keyID)),
trajectory(forward = 4, pitch = -15),
trajectory(forward = 6, pitch = -5),
];
//------- function defining Dish Shapes,
//helper function
function flip (singArry) = [for(i = [len(singArry)-1:-1:0]) singArry[i]];
function mirrorX (singArry) = [for(i = [len(singArry)-1:-1:0]) [-singArry[i][0], singArry[i][1]]];
function mirrorY (singArry) = [for(i = [len(singArry)-1:-1:0]) [singArry[i][0], -singArry[i][1]]];
//function ()
function Fade (Arry1, Arry2, t, steps, pows) =len(Arry1)==len(Arry2) ? [for(i = [0:len(Arry1)-1]) (1-pow(t/steps, pows))*Arry1[i]+pow(t/steps, pows)*Arry2[i]]: [[0,0]];
function Mix (a, b, t, steps, pows)= (1-pow(t/steps, pows))*a+pow(t/steps, pows)*b;
function smoothStart (init, fin, t, steps, power) =
(1-pow(t/steps,power))*init + pow(t/steps,power)*fin ;
function smoothStop (init, fin, t, steps, power) =
(fin-init)*(1-pow(1-t/steps,power))+init;
function ellipse(a, b, d = 0, rot1 = 0, rot2 = 360) = [for (i =[0:angularSteps]) let(t = smoothStart(rot1,rot2,i,angularSteps,1)) [a*cos(t)+a, b*sin(t)*(1+d*cos(t))]]; //Centered at a apex to avoid inverted face
function DishShape (a,b,c,d) =
concat(
// [[c+a,b]],
ellipse(a, b, d = 0,rot1 = 90, rot2 = 270)
// [[c+a,-b]]
);
function DishShape2 (a,b, phi = 200, theta, r) =
concat(
// [[c+a,b]],
mirrorY([[a,b*sin(phi)-r*sin(theta)*2]]), //bounday vertex to clear ends
mirrorY([for (t = [step:step*2:theta])let( sig = atan(a*cos(phi)/-b*sin(phi)))
[ r*cos(-atan(-a*cos(phi)/b*sin(phi))-t)
+a*cos(phi)
-r*cos(sig)
+a,
r*sin(-atan(-a*cos(phi)/b*sin(phi))-t)
+b*sin(phi)
+r*sin(sig)]
]),
(mirrorY(ellipse(a, b, d = 0,rot1 = 180, rot2 = phi))),
ellipse(a, b, d = 0,rot1 = 180, rot2 = phi),
[for (t = [step:step*2:theta])let( sig = atan(a*cos(phi)/-b*sin(phi)))
[ r*cos(-atan(-a*cos(phi)/b*sin(phi))-t)
+a*cos(phi)
-r*cos(sig)
+a,
r*sin(-atan(-a*cos(phi)/b*sin(phi))-t)
+b*sin(phi)
+r*sin(sig)]
],
[[a,b*sin(phi)-r*sin(theta)*2]] //bounday vertex to clear ends
);
function oval_path(theta, phi, a, b, c, deform = 0) = [
a*cos(theta)*cos(phi), //x
c*sin(theta)*(1+deform*cos(theta)) , //
b*sin(phi),
];
path_trans2 = [for (t=[0:step:180]) translation(oval_path(t,0,10,15,2,0))*rotation([0,90,0])];
//--------------Function definng Cap
function CapTranslation(t, keyID) =
[
((1-t)/layers*TopWidShift(keyID)), //X shift
((1-t)/layers*TopLenShift(keyID)+ChopShift(keyID)), //Y shift
(t/layers*KeyHeight(keyID)) //Z shift
];
function InnerTranslation(t, keyID) =
[
((1-t)/layers*TopWidShift(keyID)), //X shift
((1-t)/layers*TopLenShift(keyID)), //Y shift
(t/layers*(KeyHeight(keyID)-topthickness)) //Z shift
];
function CapRotation(t, keyID) =
[
((1-t)/layers*XAngleSkew(keyID)), //X shift
((1-t)/layers*YAngleSkew(keyID)), //Y shift
((1-t)/layers*ZAngleSkew(keyID)) //Z shift
];
function CapTransform(t, keyID) =
[
pow(t/layers, WidExponent(keyID))*(BottomWidth(keyID) -TopWidthDiff(keyID)) + (1-pow(t/layers, WidExponent(keyID)))*BottomWidth(keyID) ,
pow(t/layers, LenExponent(keyID))*(BottomLength(keyID)-TopLenDiff(keyID)) + (1-pow(t/layers, LenExponent(keyID)))*BottomLength(keyID)
];
function CapRoundness(t, keyID) =
[
pow(t/layers, ChamExponent(keyID))*(CapRound0f(keyID)) + (1-pow(t/layers, ChamExponent(keyID)))*CapRound0i(keyID),
pow(t/layers, ChamExponent(keyID))*(CapRound1f(keyID)) + (1-pow(t/layers, ChamExponent(keyID)))*CapRound1i(keyID)
];
function CapRadius(t, keyID) = pow(t/layers, ChamExponent(keyID))*ChamfFinRad(keyID) + (1-pow(t/layers, ChamExponent(keyID)))*ChamfInitRad(keyID);
function InnerTransform(t, keyID) =
[
pow(t/layers, WidExponent(keyID))*(BottomWidth(keyID) -TopLenDiff(keyID)-wallthickness*2) + (1-pow(t/layers, WidExponent(keyID)))*(BottomWidth(keyID) -wallthickness*2),
pow(t/layers, LenExponent(keyID))*(BottomLength(keyID)-TopLenDiff(keyID)-wallthickness*2) + (1-pow(t/layers, LenExponent(keyID)))*(BottomLength(keyID)-wallthickness*2)
];
function StemTranslation(t, keyID) =
[
((1-t)/stemLayers*TopWidShift(keyID)), //X shift
((1-t)/stemLayers*TopLenShift(keyID)), //Y shift
stemCrossHeight+.1 + (t/stemLayers*(KeyHeight(keyID)- topthickness - stemCrossHeight-.1)) //Z shift
];
function StemRotation(t, keyID) =
[
((1-t)/stemLayers*XAngleSkew(keyID)), //X shift
((1-t)/stemLayers*YAngleSkew(keyID)), //Y shift
((1-t)/stemLayers*ZAngleSkew(keyID)) //Z shift
];
function StemTransform(t, keyID) =
[
// pow(t/stemLayers, StemExponent(keyID))*(BottomWidth(keyID) -TopLenDiff(keyID)-wallthickness*2) + (1-pow(t/stemLayers, StemExponent(keyID)))*(stemWid - 2*slop),
// pow(t/stemLayers, StemExponent(keyID))*(BottomLength(keyID)-TopLenDiff(keyID)-wallthickness*2) + (1-pow(t/stemLayers, StemExponent(keyID)))*(stemLen - 2*slop)
stemWid,stemLen
];
function StemRadius(t, keyID) = pow(t/stemLayers,3)*3 + (1-pow(t/stemLayers, 3))*1;
//Stem Exponent
//DishShape2 vars
function DishTransition (t, keyID) = pow(t/stepsize,TransitionAngleExpo(keyID) )*TransitionAngleFin(keyID) + (1-pow(t/stepsize, TanArcExpo(keyID) ))*TransitionAngleInit(keyID);
function FTanRadius (t, keyID) = pow(t/stepsize,TanArcExpo(keyID) )*ForwardTanInit(keyID) + (1-pow(t/stepsize, TanArcExpo(keyID) ))*ForwardTanFin(keyID);
function BTanRadius (t, keyID) = pow(t/stepsize,TanArcExpo(keyID) )*BackTanInit(keyID) + (1-pow(t/stepsize, TanArcExpo(keyID) ))*BackTanFin(keyID);
function TanTransition (t, keyID) = pow(t/stepsize,TanArcExpo(keyID) )*TransitionAngleInit(keyID) + (1-pow(t/stepsize, TanArcExpo(keyID) ))*TransitionAngleFin(keyID);
///----- KEY Builder Module
module keycap(keyID = 0, cutLen = 0, visualizeDish = false, crossSection = false, Dish = true, SecondaryDish = false, Stem = false, homeDot = false, Stab = 0, Legends = false) {
//Set Parameters for dish shape
FrontPath = quantize_trajectories(FrontTrajectory(keyID), steps = stepsize, loop=false, start_position= $t*4);
BackPath = quantize_trajectories(BackTrajectory(keyID), steps = stepsize, loop=false, start_position= $t*4);
//Scaling initial and final dim tranformation by exponents
function FrontDishArc(t) = pow((t)/(len(FrontPath)),FrontArcExpo(keyID))*FrontFinArc(keyID) + (1-pow(t/(len(FrontPath)),FrontArcExpo(keyID)))*FrontInitArc(keyID);
function BackDishArc(t) = pow((t)/(len(FrontPath)),BackArcExpo(keyID))*BackFinArc(keyID) + (1-pow(t/(len(FrontPath)),BackArcExpo(keyID)))*BackInitArc(keyID);
FrontCurve = [ for(i=[0:len(FrontPath)-1]) transform(FrontPath[i],
DishShape2( a= DishDepth(keyID), b= FrontDishArc(i), phi = DishTransition(i,keyID) , theta= 60
, r = FTanRadius(i, keyID))) ];
BackCurve = [ for(i=[0:len(BackPath)-1]) transform(BackPath[i],
DishShape2(DishDepth(keyID), BackDishArc(i), phi = DishTransition(i,keyID), theta= 60
, r = BTanRadius(i, keyID))) ];
//Secondary Dish
SFrontPath = quantize_trajectories(SFrontTrajectory(keyID), steps = stepsize, loop=false, start_position= $t*4);
SBackPath = quantize_trajectories(SBackTrajectory(keyID), steps = stepsize, loop=false, start_position= $t*4);
function SFrontDishArc(t) = pow((t)/(len(SFrontPath)),SFrontArcExpo(keyID))*SFrontFinArc(keyID) + (1-pow(t/(len(SFrontPath)),SFrontArcExpo(keyID)))*SFrontInitArc(keyID);
function SBackDishArc(t) = pow((t)/(len(SBackPath)),SBackArcExpo(keyID))*SBackFinArc(keyID) + (1-pow(t/(len(SFrontPath)),SBackArcExpo(keyID)))*SBackInitArc(keyID);
SFrontCurve = [ for(i=[0:len(SFrontPath)-1]) transform(SFrontPath[i], DishShape(SDishDepth(keyID), SFrontDishArc(i), 1, d = 0)) ];
SBackCurve = [ for(i=[0:len(SBackPath)-1]) transform(SBackPath[i], DishShape(SDishDepth(keyID), SBackDishArc(i), 1, d = 0)) ];
//builds
difference(){
union(){
// difference(){
skin([for (i=[0:layers]) transform(translation(CapTranslation(i, keyID)) * rotation(CapRotation(i, keyID)), elliptical_rectangle(CapTransform(i, keyID), b = CapRoundness(i,keyID),fn=fn))]); //outer shell
//Bottom shell
if( Stem == Choc){
skin([for (i=[0:layers]) transform(translation(CapTranslation(i, keyID+1)) * rotation(CapRotation(i, keyID+1)), elliptical_rectangle(CapTransform(i, keyID+1), b = CapRoundness(i,keyID+1),fn=fn))]); //outer shell
}else {
skin([for (i=[0:layers]) transform(translation(CapTranslation(i, keyID+2)) * rotation(CapRotation(i, keyID+2)), elliptical_rectangle(CapTransform(i, keyID+2), b = CapRoundness(i,keyID+2),fn=fn))]); //outer shell
}
//Cut inner shell
// }
if(Stem == Choc){
rotate([0,0,stemRot])translate([0,0,-2.])choc_stem(draftAng = draftAngle); // generate mx cherry stem, not compatible with box
} else if (Stem +MX){
translate([0,0,-4.25])rotate(stemRot)cylinder(d =5.5, 3.75, $fn= 64);
// translate([0,0,-.001])skin([for (i=[0:stemLayers]) transform(translation(StemTranslation(i,keyID))*rotation(StemRotation(i, keyID)), rounded_rectangle_profile(StemTransform(i, keyID),fn=fn,r=1 /*StemRadius(i, keyID) */ ))]); //outer shell
}
//cut for fonts and extra pattern for light?
if(visualizeDish == true && Dish == true){
#translate([-TopWidShift(keyID),TopLenShift(keyID),KeyHeight(keyID)-DishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90+XAngleSkew(keyID),90-ZAngleSkew(keyID)])skin(FrontCurve);
#translate([-TopWidShift(keyID),-TopLenShift(keyID),KeyHeight(keyID)-DishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90+XAngleSkew(keyID),90-ZAngleSkew(keyID)])skin(BackCurve);
}
}
//Cuts
//Fonts
if(cutLen != 0){
translate([sign(cutLen)*(BottomLength(keyID)+CapRound0i(keyID)+abs(cutLen))/2,0,0])
cube([BottomWidth(keyID)+CapRound1i(keyID)+1,BottomLength(keyID)+CapRound0i(keyID),50], center = true);
}
if(Legends == true){
}
//Dish Shape
if(Dish == true){
translate([-TopWidShift(keyID),.0001-TopLenShift(keyID),KeyHeight(keyID)-DishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90+XAngleSkew(keyID),90-ZAngleSkew(keyID)])skin(FrontCurve);
translate([-TopWidShift(keyID),-TopLenShift(keyID),KeyHeight(keyID)-DishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90+XAngleSkew(keyID),90-ZAngleSkew(keyID)])skin(BackCurve);
if (Stem == MX){
translate([0,0,-4.25])rotate(stemRot){
skin(StemCurve);
skin(StemCurve2);
}
}
if(SecondaryDish == true){
#translate([BottomWidth(keyID)/2,-BottomLength(keyID)/2,KeyHeight(keyID)-SDishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90-XAngleSkew(keyID),270-ZAngleSkew(keyID)])skin(SBackCurve);
mirror([1,0,0])translate([BottomWidth(keyID)/2,-BottomLength(keyID)/2,KeyHeight(keyID)-SDishHeightDif(keyID)])rotate([0,-YAngleSkew(keyID),0])rotate([0,-90-XAngleSkew(keyID),270-ZAngleSkew(keyID)])skin(SBackCurve);
}
}
if(crossSection == true) {
translate([0,-25,-.1])cube([15,50,15]);
}
}
//Homing dot
if(homeDot == true)translate([0,0,KeyHeight(keyID)-DishHeightDif(keyID)-.25])sphere(d = 1);
}
//------------------stems
$fn = fn;
MXWid = 4.03/2+Tol; //horizontal lenght
MXLen = 4.23/2+Tol; //vertical length
MXWidT = 1.15/2+Tol; //horizontal thickness
MXLenT = 1.25/2+Tol; //vertical thickness
function stem_internal(sc=1) = sc*[
[MXLenT, MXLen],[MXLenT, MXWidT],[MXWid, MXWidT],
[MXWid, -MXWidT],[MXLenT, -MXWidT],[MXLenT, -MXLen],
[-MXLenT, -MXLen],[-MXLenT, -MXWidT],[-MXWid, -MXWidT],
[-MXWid,MXWidT],[-MXLenT, MXWidT],[-MXLenT, MXLen]
]; //2D stem cross with tolance offset and additonal transformation via jog
//trajectory();
function StemTrajectory() =
[
trajectory(forward = 4.00) //You can add more traj if you wish
];
StemPath = quantize_trajectories(StemTrajectory(), steps = 1 , loop=false, start_position= $t*4);
StemCurve = [ for(i=[0:len(StemPath)-1]) transform(StemPath[i], stem_internal()) ];
function StemTrajectory2() =
[
trajectory(forward = .5) //You can add more traj if you wish
];
StemPath2 = quantize_trajectories(StemTrajectory2(), steps = 10, loop=false, start_position= $t*4);
StemCurve2 = [ for(i=[0:len(StemPath2)-1]) transform(StemPath2[i]*scaling([(1.1-.1*i/(len(StemPath2)-1)),(1.1-.1*i/(len(StemPath2)-1)),1]), stem_internal()) ];
module choc_stem(draftAng = 5) {
stemHeight = 3.1;
dia = .15;
wids = 1.2/2;
lens = 2.9/2;
module Stem() {
difference(){
translate([0,0,-stemHeight/2])linear_extrude(height = stemHeight)hull(){
translate([wids-dia,-3/2])circle(d=dia);
translate([-wids+dia,-3/2])circle(d=dia);
translate([wids-dia, 3/2])circle(d=dia);
translate([-wids+dia, 3/2])circle(d=dia);
}
//cuts
translate([3.9,0])cylinder(d1=7+sin(draftAng)*stemHeight, d2=7,3.5, center = true, $fn = 64);
translate([-3.9,0])cylinder(d1=7+sin(draftAng)*stemHeight,d2=7,3.5, center = true, $fn = 64);
}
}
translate([5.7/2,0,-stemHeight/2+2])Stem();
translate([-5.7/2,0,-stemHeight/2+2])Stem();
}
/// ----- helper functions
function rounded_rectangle_profile(size=[1,1],r=1,fn=32) = [
for (index = [0:fn-1])
let(a = index/fn*360)
r * [cos(a), sin(a)]
+ sign_x(index, fn) * [size[0]/2-r,0]
+ sign_y(index, fn) * [0,size[1]/2-r]
];
function elliptical_rectangle(a = [1,1], b =[1,1], fn=32) = [
for (index = [0:fn-1]) // section right
let(theta1 = -atan(a[1]/b[1])+ 2*atan(a[1]/b[1])*index/fn)
[b[1]*cos(theta1), a[1]*sin(theta1)]
+ [a[0]*cos(atan(b[0]/a[0])) , 0]
- [b[1]*cos(atan(a[1]/b[1])) , 0],
for(index = [0:fn-1]) // section Top
let(theta2 = atan(b[0]/a[0]) + (180 -2*atan(b[0]/a[0]))*index/fn)
[a[0]*cos(theta2), b[0]*sin(theta2)]
- [0, b[0]*sin(atan(b[0]/a[0]))]
+ [0, a[1]*sin(atan(a[1]/b[1]))],
for(index = [0:fn-1]) // section left
let(theta2 = -atan(a[1]/b[1])+180+ 2*atan(a[1]/b[1])*index/fn)
[b[1]*cos(theta2), a[1]*sin(theta2)]
- [a[0]*cos(atan(b[0]/a[0])) , 0]
+ [b[1]*cos(atan(a[1]/b[1])) , 0],
for(index = [0:fn-1]) // section Top
let(theta2 = atan(b[0]/a[0]) + 180 + (180 -2*atan(b[0]/a[0]))*index/fn)
[a[0]*cos(theta2), b[0]*sin(theta2)]
+ [0, b[0]*sin(atan(b[0]/a[0]))]
- [0, a[1]*sin(atan(a[1]/b[1]))]
]/2;
function sign_x(i,n) =
i < n/4 || i > n-n/4 ? 1 :
i > n/4 && i < n-n/4 ? -1 :
0;
function sign_y(i,n) =
i > 0 && i < n/2 ? 1 :
i > n/2 ? -1 :
0;