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customizer.scad
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customizer.scad
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// entry point for customizer script. This probably isn't useful to most people,
// as it's just a wrapper that helps generate customizer.scad for thingiverse.
/* [Basic-Settings] */
// what preset profile do you wish to use? disable if you are going to set paramters below
key_profile = "dcs"; // [dcs, oem, dsa, sa, g20, disable]
// what key profile row is this keycap on? 0 for disable
row = 1; // [5,1,2,3,4,0]
// What does the top of your key say?
legend = "";
$using_customizer = true;
/* [Basic-Settings] */
// Length in units of key. A regular key is 1 unit; spacebar is usually 6.25
$key_length = 1.0; // Range not working in thingiverse customizer atm [1:0.25:16]
// What type of stem you want. Most people want Cherry.
$stem_type = "cherry"; // [cherry, alps, rounded_cherry, box_cherry, filled, disable]
// The stem is the hardest part to print, so this variable controls how much 'slop' there is in the stem
// if your keycaps stick in the switch raise this value
$stem_slop = 0.35; // Not working in thingiverse customizer atm [0:0.01:1]
// broke this out. if your keycaps are falling off lower this value. only works for cherry stems rn
$stem_inner_slop = 0.2;
// Font size used for text
$font_size = 6;
// Set this to true if you're making a spacebar!
$inverted_dish = false;
// change aggressiveness of double sculpting
// this is the radius of the cylinder the keytops are placed on
$double_sculpt_radius = 200;
// Support type. default is "flared" for easy FDM printing; bars are more realistic, and flat could be for artisans
$support_type = "flared"; // [flared, bars, flat, disable]
// Supports for the stem, as it often comes off during printing. Reccommended for most machines
$stem_support_type = "tines"; // [tines, brim, disabled]
// make legends outset instead of inset.
// broken off from artisan support since who wants outset legends?
$outset_legends = false;
/* [Key] */
// Height in units of key. should remain 1 for most uses
$key_height = 1.0;
// Keytop thickness, aka how many millimeters between the inside and outside of the top surface of the key
$keytop_thickness = 1;
// Wall thickness, aka the thickness of the sides of the keycap. note this is the total thickness, aka 3 = 1.5mm walls
$wall_thickness = 3;
// Radius of corners of keycap
$corner_radius = 1;
// Width of the very bottom of the key
$bottom_key_width = 18.16;
// Height (from the front) of the very bottom of the key
$bottom_key_height = 18.16;
// How much less width there is on the top. eg top_key_width = bottom_key_width - width_difference
$width_difference = 6;
// How much less height there is on the top
$height_difference = 4;
// How deep the key is, before adding a dish
$total_depth = 11.5;
// The tilt of the dish in degrees. divided by key height
$top_tilt = -6;
// the y tilt of the dish in degrees. divided by key width.
// for double axis sculpted keycaps and probably not much else
$top_tilt_y = 0;
// How skewed towards the back the top is (0 for center)
$top_skew = 1.7;
// how skewed towards the right the top is. unused, but implemented.
// for double axis sculpted keycaps and probably not much else
$top_skew_x = 0;
/* [Stem] */
// How far the throw distance of the switch is. determines how far the 'cross' in the cherry switch digs into the stem, and how long the keystem needs to be before supports can start. luckily, alps and cherries have a pretty similar throw. can modify to have stouter keycaps for low profile switches, etc
$stem_throw = 4;
// Diameter of the outside of the rounded cherry stem
$rounded_cherry_stem_d = 5.5;
// How much higher the stem is than the bottom of the keycap.
// Inset stem requires support but is more accurate in some profiles
// can be negative to make outset stems!
$stem_inset = 0;
// How many degrees to rotate the stems. useful for sideways keycaps
$stem_rotation = 0;
// How many degrees to rotate the keycap, but _not_ inside features (the stem).
$keycap_rotation = 0;
/* [Shape] */
// Key shape type, determines the shape of the key. default is 'rounded square'
$key_shape_type = "rounded_square";
// ISO enter needs to be linear extruded NOT from the center when not using skin. this tells the program how far up 'not from the center' is
$linear_extrude_height_adjustment = 0;
// How many slices will be made, to approximate curves on corners. Leave at 1 if you are not curving corners
// If you're doing fancy bowed keycap sides, this controls how many slices you take
$height_slices = 1;
/* [Dish] */
// What type of dish the key has. note that unlike stems and supports a dish ALWAYS gets rendered.
$dish_type = "cylindrical"; // [cylindrical, spherical, sideways cylindrical, old spherical, disable]
// How deep the dish 'digs' into the top of the keycap. this is max depth, so you can't find the height from total_depth - dish_depth. besides the top is skewed anyways
$dish_depth = 1;
// How skewed in the x direction the dish is
$dish_skew_x = 0;
// How skewed in the y direction (height) the dish is
$dish_skew_y = 0;
$dish_offset_x = 0;
// If you need the dish to extend further, you can 'overdraw' the rectangle it will hit. this was mostly for iso enter and should be deprecated
$dish_overdraw_width = 0;
// Same as width but for height
$dish_overdraw_height = 0;
/* [Misc] */
// There's a bevel on the cherry stems to aid insertion / guard against first layer squishing making a hard-to-fit stem.
$cherry_bevel = true;
// How tall in mm the stem support is, if there is any. stem support sits around the keystem and helps to secure it while printing.
$stem_support_height = .8;
// Font used for text
$font="DejaVu Sans Mono:style=Book";
// Whether or not to render fake keyswitches to check clearances
$clearance_check = false;
// Should be faster, also required for concave shapes
// what kind of extrusion we use to create the keycap. "hull" is standard, "linear extrude" is legacy, "skin" is new and not well supported.
$hull_shape_type = "hull"; // ["hull", "linear extrude", "skin"]
// This doesn't work very well, but you can try
$rounded_key = false;
//minkowski radius. radius of sphere used in minkowski sum for minkowski_key function. 1.75 for G20
$minkowski_radius = .33;
/* [Features] */
//insert locating bump
$key_bump = false;
//height of the location bump from the top surface of the key
$key_bump_depth = 0.5;
//distance to move the bump from the front edge of the key
$key_bump_edge = 0.4;
/* [Hidden] */
// set this to true if you are making double sculpted keycaps
$double_sculpted = false;
//list of legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$legends = [];
//list of front legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$front_legends = [];
// print legends on the front of the key instead of the top
$front_print_legends = false;
// how recessed inset legends / artisans are from the top of the key
$inset_legend_depth = 0.2;
// Dimensions of alps stem
$alps_stem = [4.45, 2.25];
// Dimensions of choc stem
$choc_stem = [1.2, 3];
// Enable stabilizer stems, to hold onto your cherry or costar stabilizers
$stabilizer_type = "costar_stabilizer"; // [costar_stabilizer, cherry_stabilizer, disable]
// Ternaries are ONLY for customizer. they will NOT work if you're using this in
// OpenSCAD. you should use stabilized(), openSCAD customizer,
// or set $stabilizers directly
// Array of positions of stabilizers
$stabilizers = $key_length >= 6 ? [[-50, 0], [50, 0]] : $key_length >= 2 ? [[-12,0],[12,0]] : [];
// Where the stems are in relation to the center of the keycap, in units. default is one in the center
// Shouldn't work in thingiverse customizer, though it has been...
$stem_positions = [[0,0]];
// colors
$primary_color = [.2667,.5882,1];
$secondary_color = [.4412, .7, .3784];
$tertiary_color = [1, .6941, .2];
$quaternary_color = [.4078, .3569, .749];
$warning_color = [1,0,0, 0.15];
// how many facets circles will have when used in these features
$minkowski_facets = 30;
$shape_facets =30;
// "flat" / "dished" / "disable"
$inner_shape_type = "flat";
// default side_sculpting function, linear
$side_sculpting = function(progress) 0;
$corner_sculpting = function(progress) 0;
// you probably shouldn't touch this, it's internal to sculpted_square
// modify side sculpting with the $side_sculpting function in the key profile files
$more_side_sculpting_factor = 0;
// 3d surface functions (still in beta)
// 3d surface settings
// unused for now
$3d_surface_size = 1;
// 3d surface point resolution. $3d_surface_size / $3d_surface_step = steps per x / y
$3d_surface_step = 1/20;
// monotonically increasing function that distributes the points of the surface mesh
// only for polar_3d_surface right now
// if it's linear it's a grid. sin(dim) * size concentrates detail around the edges
sinusoidal_surface_distribution = function(dim,size) sin(dim) * size;
linear_surface_distribution = function(dim,size) dim;
$surface_distribution_function = sinusoidal_surface_distribution;
// the function that actually determines what the surface is.
// feel free to override, the last one wins
// debug
// $surface_function = function(x,y) 1;
cylindrical_surface = function(x,y) (sin(acos(x/$3d_surface_size)));
spherical_surface = function(x,y) (1 - (x/$3d_surface_size)^2)^0.5 * (1 - (y/$3d_surface_size)^2)^0.5;
// looks a lot like mt3
quartic_surface = function(x,y) (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
ripple_surface = function(x,y) cos((x^2+y^2)^0.5 * 50)/4 + 0.75;
rosenbrocks_banana_surface = function(x,y) (pow(1-(x/$3d_surface_size))^2 + 100 * pow((y/$3d_surface_size)-(x/$3d_surface_size)^2)^2)/200 + 0.1;
spike_surface = function(x,y) 1/(((x/$3d_surface_size)^2+(y/$3d_surface_size)^2)^0.5) + .01;
random_surface = function(x,y) sin(rands(0,90,1,x+y)[0]);
bumps_surface = function(x,y) sin(20*x)*cos(20*y)/3+1;
$surface_function = bumps_surface; // bumps_surface;
// can be used to smooth the corners of the 3d surface function, to make the dishes add / subtract less height. can really do anything it's just multiplying, but that's what I use it for
$corner_smoothing_surface_function = function(x,y) 1;
// $corner_smoothing_surface_function = function(x,y) (1 - pow(abs(x), 5)/$3d_surface_size) * (1 - pow(abs(y),5)/$3d_surface_size);
// ripples
/*
// Rosenbrock's banana
/* $
// y=x revolved around the y axis
/* $surface_function = */
/* $surface_function = */
// key width functions
module u(u=1) {
$key_length = u;
children();
}
module 1u() {
u(1) children();
}
module 1_25u() {
u(1.25) children();
}
module 1_5u() {
u(1.5) children();
}
module 1_75u(){
u(1.75) children();
}
module 2u() {
u(2) children();
}
module 2_25u() {
u(2.25) children();
}
module 2_50u() {
u(2.5) children();
}
module 2_75u() {
u(2.75) children();
}
module 6_25u() {
u(6.25) children();
}
// key height functions
module uh(u=1) {
$key_height = u;
children();
}
module 1uh() {
uh(1) children();
}
module 2uh() {
uh(2) children();
}
module 1_25uh() {
uh(1.25) children();
}
module 1_5uh() {
uh(1.5) children();
}
module 2_25uh() {
uh(2.25) children();
}
module 2_75uh() {
uh(2.75) children();
}
module 6_25uh() {
uh(6.25) children();
}
// key profile definitions
// unlike the other files with their own dedicated folders, this one doesn't
// need a selector. I wrote one anyways for customizer support though
// a safe theoretical distance between two vertices such that they don't collapse. hard to use
SMALLEST_POSSIBLE = 1/128;
$fs=0.1;
$unit=19.05;
/* [Basic-Settings] */
// Length in units of key. A regular key is 1 unit; spacebar is usually 6.25
$key_length = 1.0; // Range not working in thingiverse customizer atm [1:0.25:16]
// What type of stem you want. Most people want Cherry.
$stem_type = "cherry"; // [cherry, alps, rounded_cherry, box_cherry, filled, disable]
// The stem is the hardest part to print, so this variable controls how much 'slop' there is in the stem
// if your keycaps stick in the switch raise this value
$stem_slop = 0.35; // Not working in thingiverse customizer atm [0:0.01:1]
// broke this out. if your keycaps are falling off lower this value. only works for cherry stems rn
$stem_inner_slop = 0.2;
// Font size used for text
$font_size = 6;
// Set this to true if you're making a spacebar!
$inverted_dish = false;
// change aggressiveness of double sculpting
// this is the radius of the cylinder the keytops are placed on
$double_sculpt_radius = 200;
// Support type. default is "flared" for easy FDM printing; bars are more realistic, and flat could be for artisans
$support_type = "flared"; // [flared, bars, flat, disable]
// Supports for the stem, as it often comes off during printing. Reccommended for most machines
$stem_support_type = "tines"; // [tines, brim, disabled]
// make legends outset instead of inset.
// broken off from artisan support since who wants outset legends?
$outset_legends = false;
/* [Key] */
// Height in units of key. should remain 1 for most uses
$key_height = 1.0;
// Keytop thickness, aka how many millimeters between the inside and outside of the top surface of the key
$keytop_thickness = 1;
// Wall thickness, aka the thickness of the sides of the keycap. note this is the total thickness, aka 3 = 1.5mm walls
$wall_thickness = 3;
// Radius of corners of keycap
$corner_radius = 1;
// Width of the very bottom of the key
$bottom_key_width = 18.16;
// Height (from the front) of the very bottom of the key
$bottom_key_height = 18.16;
// How much less width there is on the top. eg top_key_width = bottom_key_width - width_difference
$width_difference = 6;
// How much less height there is on the top
$height_difference = 4;
// How deep the key is, before adding a dish
$total_depth = 11.5;
// The tilt of the dish in degrees. divided by key height
$top_tilt = -6;
// the y tilt of the dish in degrees. divided by key width.
// for double axis sculpted keycaps and probably not much else
$top_tilt_y = 0;
// How skewed towards the back the top is (0 for center)
$top_skew = 1.7;
// how skewed towards the right the top is. unused, but implemented.
// for double axis sculpted keycaps and probably not much else
$top_skew_x = 0;
/* [Stem] */
// How far the throw distance of the switch is. determines how far the 'cross' in the cherry switch digs into the stem, and how long the keystem needs to be before supports can start. luckily, alps and cherries have a pretty similar throw. can modify to have stouter keycaps for low profile switches, etc
$stem_throw = 4;
// Diameter of the outside of the rounded cherry stem
$rounded_cherry_stem_d = 5.5;
// How much higher the stem is than the bottom of the keycap.
// Inset stem requires support but is more accurate in some profiles
// can be negative to make outset stems!
$stem_inset = 0;
// How many degrees to rotate the stems. useful for sideways keycaps
$stem_rotation = 0;
// How many degrees to rotate the keycap, but _not_ inside features (the stem).
$keycap_rotation = 0;
/* [Shape] */
// Key shape type, determines the shape of the key. default is 'rounded square'
$key_shape_type = "rounded_square";
// ISO enter needs to be linear extruded NOT from the center when not using skin. this tells the program how far up 'not from the center' is
$linear_extrude_height_adjustment = 0;
// How many slices will be made, to approximate curves on corners. Leave at 1 if you are not curving corners
// If you're doing fancy bowed keycap sides, this controls how many slices you take
$height_slices = 1;
/* [Dish] */
// What type of dish the key has. note that unlike stems and supports a dish ALWAYS gets rendered.
$dish_type = "cylindrical"; // [cylindrical, spherical, sideways cylindrical, old spherical, disable]
// How deep the dish 'digs' into the top of the keycap. this is max depth, so you can't find the height from total_depth - dish_depth. besides the top is skewed anyways
$dish_depth = 1;
// How skewed in the x direction the dish is
$dish_skew_x = 0;
// How skewed in the y direction (height) the dish is
$dish_skew_y = 0;
$dish_offset_x = 0;
// If you need the dish to extend further, you can 'overdraw' the rectangle it will hit. this was mostly for iso enter and should be deprecated
$dish_overdraw_width = 0;
// Same as width but for height
$dish_overdraw_height = 0;
/* [Misc] */
// There's a bevel on the cherry stems to aid insertion / guard against first layer squishing making a hard-to-fit stem.
$cherry_bevel = true;
// How tall in mm the stem support is, if there is any. stem support sits around the keystem and helps to secure it while printing.
$stem_support_height = .8;
// Font used for text
$font="DejaVu Sans Mono:style=Book";
// Whether or not to render fake keyswitches to check clearances
$clearance_check = false;
// Should be faster, also required for concave shapes
// what kind of extrusion we use to create the keycap. "hull" is standard, "linear extrude" is legacy, "skin" is new and not well supported.
$hull_shape_type = "hull"; // ["hull", "linear extrude", "skin"]
// This doesn't work very well, but you can try
$rounded_key = false;
//minkowski radius. radius of sphere used in minkowski sum for minkowski_key function. 1.75 for G20
$minkowski_radius = .33;
/* [Features] */
//insert locating bump
$key_bump = false;
//height of the location bump from the top surface of the key
$key_bump_depth = 0.5;
//distance to move the bump from the front edge of the key
$key_bump_edge = 0.4;
/* [Hidden] */
// set this to true if you are making double sculpted keycaps
$double_sculpted = false;
//list of legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$legends = [];
//list of front legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$front_legends = [];
// print legends on the front of the key instead of the top
$front_print_legends = false;
// how recessed inset legends / artisans are from the top of the key
$inset_legend_depth = 0.2;
// Dimensions of alps stem
$alps_stem = [4.45, 2.25];
// Dimensions of choc stem
$choc_stem = [1.2, 3];
// Enable stabilizer stems, to hold onto your cherry or costar stabilizers
$stabilizer_type = "costar_stabilizer"; // [costar_stabilizer, cherry_stabilizer, disable]
// Ternaries are ONLY for customizer. they will NOT work if you're using this in
// OpenSCAD. you should use stabilized(), openSCAD customizer,
// or set $stabilizers directly
// Array of positions of stabilizers
$stabilizers = $key_length >= 6 ? [[-50, 0], [50, 0]] : $key_length >= 2 ? [[-12,0],[12,0]] : [];
// Where the stems are in relation to the center of the keycap, in units. default is one in the center
// Shouldn't work in thingiverse customizer, though it has been...
$stem_positions = [[0,0]];
// colors
$primary_color = [.2667,.5882,1];
$secondary_color = [.4412, .7, .3784];
$tertiary_color = [1, .6941, .2];
$quaternary_color = [.4078, .3569, .749];
$warning_color = [1,0,0, 0.15];
// how many facets circles will have when used in these features
$minkowski_facets = 30;
$shape_facets =30;
// "flat" / "dished" / "disable"
$inner_shape_type = "flat";
// default side_sculpting function, linear
$side_sculpting = function(progress) 0;
$corner_sculpting = function(progress) 0;
// you probably shouldn't touch this, it's internal to sculpted_square
// modify side sculpting with the $side_sculpting function in the key profile files
$more_side_sculpting_factor = 0;
// 3d surface functions (still in beta)
// 3d surface settings
// unused for now
$3d_surface_size = 1;
// 3d surface point resolution. $3d_surface_size / $3d_surface_step = steps per x / y
$3d_surface_step = 1/20;
// monotonically increasing function that distributes the points of the surface mesh
// only for polar_3d_surface right now
// if it's linear it's a grid. sin(dim) * size concentrates detail around the edges
sinusoidal_surface_distribution = function(dim,size) sin(dim) * size;
linear_surface_distribution = function(dim,size) dim;
$surface_distribution_function = sinusoidal_surface_distribution;
// the function that actually determines what the surface is.
// feel free to override, the last one wins
// debug
// $surface_function = function(x,y) 1;
cylindrical_surface = function(x,y) (sin(acos(x/$3d_surface_size)));
spherical_surface = function(x,y) (1 - (x/$3d_surface_size)^2)^0.5 * (1 - (y/$3d_surface_size)^2)^0.5;
// looks a lot like mt3
quartic_surface = function(x,y) (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
ripple_surface = function(x,y) cos((x^2+y^2)^0.5 * 50)/4 + 0.75;
rosenbrocks_banana_surface = function(x,y) (pow(1-(x/$3d_surface_size))^2 + 100 * pow((y/$3d_surface_size)-(x/$3d_surface_size)^2)^2)/200 + 0.1;
spike_surface = function(x,y) 1/(((x/$3d_surface_size)^2+(y/$3d_surface_size)^2)^0.5) + .01;
random_surface = function(x,y) sin(rands(0,90,1,x+y)[0]);
bumps_surface = function(x,y) sin(20*x)*cos(20*y)/3+1;
$surface_function = bumps_surface; // bumps_surface;
// can be used to smooth the corners of the 3d surface function, to make the dishes add / subtract less height. can really do anything it's just multiplying, but that's what I use it for
$corner_smoothing_surface_function = function(x,y) 1;
// $corner_smoothing_surface_function = function(x,y) (1 - pow(abs(x), 5)/$3d_surface_size) * (1 - pow(abs(y),5)/$3d_surface_size);
// ripples
/*
// Rosenbrock's banana
/* $
// y=x revolved around the y axis
/* $surface_function = */
/* $surface_function = */
// I use functions when I need to compute special variables off of other special variables
// functions need to be explicitly included, unlike special variables, which
// just need to have been set before they are used. hence this file
function stem_height() = $total_depth - ($dish_depth * ($inverted_dish ? -1 : 1)) - $stem_inset;
// cherry stem dimensions
function outer_cherry_stem(slop) = [7.2 - slop * 2, 5.5 - slop * 2];
// cherry stabilizer stem dimensions
function outer_cherry_stabilizer_stem(slop) = [4.85 - slop * 2, 6.05 - slop * 2];
// box (kailh) switches have a bit less to work with
function outer_box_cherry_stem(slop) = [6 - slop, 6 - slop];
// .005 purely for aesthetics, to get rid of that ugly crosshatch
function cherry_cross(slop, extra_vertical = 0) = [
// horizontal tine
[4.03 + slop, 1.25 + slop / 3],
// vertical tine
[1.15 + slop / 3, 4.23 + extra_vertical + slop / 3 + SMALLEST_POSSIBLE],
];
// TODO add side_sculpting
function key_width_at_progress(progress = 0) = $bottom_key_width + ($unit * ($key_length - 1)) - $width_difference;
function key_height_at_progress(progress = 0) = $bottom_key_height + ($unit * ($key_height - 1)) - $height_difference + $side_sculpting(progress);
// actual mm key width and height
function total_key_width(delta = 0) = $bottom_key_width + $unit * ($key_length - 1) - delta;
function total_key_height(delta = 0) = $bottom_key_height + $unit * ($key_height - 1) - delta;
// actual mm key width and height at the top
function top_total_key_width() = $bottom_key_width + ($unit * ($key_length - 1)) - $width_difference;
function top_total_key_height() = $bottom_key_height + ($unit * ($key_height - 1)) - $height_difference;
function side_tilt(column) = asin($unit * column / $double_sculpt_radius);
// tan of 0 is 0, division by 0 is nan, so we have to guard
function extra_side_tilt_height(column) = side_tilt(column) ? ($double_sculpt_radius - ($unit * abs(column)) / tan(abs(side_tilt(column)))) : 0;
// (I think) extra length of the side of the keycap due to the keytop being tilted.
// necessary for calculating flat sided keycaps
function vertical_inclination_due_to_top_tilt() = sin($top_tilt) * (top_total_key_height() - $corner_radius * 2) * 0.5;
// how much you have to expand the front or back of the keytop to make the side
// of the keycap a flat plane. 1 = front, -1 = back
// I derived this through a bunch of trig reductions I don't really understand.
function extra_keytop_length_for_flat_sides() = ($width_difference * vertical_inclination_due_to_top_tilt()) / ($total_depth);
// adds uniform rounding radius for round-anything polyRound
function add_rounding(p, radius)=[for(i=[0:len(p)-1])[p[i].x,p[i].y, radius]];
// computes millimeter length from unit length
function unit_length(length) = $unit * (length - 1) + 18.16;
// if you have a radius of an inscribed circle, this function gives you the extra length for the radius of the circumscribed circle
// and vice versa. used to find the edge of a rounded_square
function distance_between_circumscribed_and_inscribed(radius) = (pow(2, 0.5) - 1) * radius;/* [Basic-Settings] */
// Length in units of key. A regular key is 1 unit; spacebar is usually 6.25
$key_length = 1.0; // Range not working in thingiverse customizer atm [1:0.25:16]
// What type of stem you want. Most people want Cherry.
$stem_type = "cherry"; // [cherry, alps, rounded_cherry, box_cherry, filled, disable]
// The stem is the hardest part to print, so this variable controls how much 'slop' there is in the stem
// if your keycaps stick in the switch raise this value
$stem_slop = 0.35; // Not working in thingiverse customizer atm [0:0.01:1]
// broke this out. if your keycaps are falling off lower this value. only works for cherry stems rn
$stem_inner_slop = 0.2;
// Font size used for text
$font_size = 6;
// Set this to true if you're making a spacebar!
$inverted_dish = false;
// change aggressiveness of double sculpting
// this is the radius of the cylinder the keytops are placed on
$double_sculpt_radius = 200;
// Support type. default is "flared" for easy FDM printing; bars are more realistic, and flat could be for artisans
$support_type = "flared"; // [flared, bars, flat, disable]
// Supports for the stem, as it often comes off during printing. Reccommended for most machines
$stem_support_type = "tines"; // [tines, brim, disabled]
// make legends outset instead of inset.
// broken off from artisan support since who wants outset legends?
$outset_legends = false;
/* [Key] */
// Height in units of key. should remain 1 for most uses
$key_height = 1.0;
// Keytop thickness, aka how many millimeters between the inside and outside of the top surface of the key
$keytop_thickness = 1;
// Wall thickness, aka the thickness of the sides of the keycap. note this is the total thickness, aka 3 = 1.5mm walls
$wall_thickness = 3;
// Radius of corners of keycap
$corner_radius = 1;
// Width of the very bottom of the key
$bottom_key_width = 18.16;
// Height (from the front) of the very bottom of the key
$bottom_key_height = 18.16;
// How much less width there is on the top. eg top_key_width = bottom_key_width - width_difference
$width_difference = 6;
// How much less height there is on the top
$height_difference = 4;
// How deep the key is, before adding a dish
$total_depth = 11.5;
// The tilt of the dish in degrees. divided by key height
$top_tilt = -6;
// the y tilt of the dish in degrees. divided by key width.
// for double axis sculpted keycaps and probably not much else
$top_tilt_y = 0;
// How skewed towards the back the top is (0 for center)
$top_skew = 1.7;
// how skewed towards the right the top is. unused, but implemented.
// for double axis sculpted keycaps and probably not much else
$top_skew_x = 0;
/* [Stem] */
// How far the throw distance of the switch is. determines how far the 'cross' in the cherry switch digs into the stem, and how long the keystem needs to be before supports can start. luckily, alps and cherries have a pretty similar throw. can modify to have stouter keycaps for low profile switches, etc
$stem_throw = 4;
// Diameter of the outside of the rounded cherry stem
$rounded_cherry_stem_d = 5.5;
// How much higher the stem is than the bottom of the keycap.
// Inset stem requires support but is more accurate in some profiles
// can be negative to make outset stems!
$stem_inset = 0;
// How many degrees to rotate the stems. useful for sideways keycaps
$stem_rotation = 0;
// How many degrees to rotate the keycap, but _not_ inside features (the stem).
$keycap_rotation = 0;
/* [Shape] */
// Key shape type, determines the shape of the key. default is 'rounded square'
$key_shape_type = "rounded_square";
// ISO enter needs to be linear extruded NOT from the center when not using skin. this tells the program how far up 'not from the center' is
$linear_extrude_height_adjustment = 0;
// How many slices will be made, to approximate curves on corners. Leave at 1 if you are not curving corners
// If you're doing fancy bowed keycap sides, this controls how many slices you take
$height_slices = 1;
/* [Dish] */
// What type of dish the key has. note that unlike stems and supports a dish ALWAYS gets rendered.
$dish_type = "cylindrical"; // [cylindrical, spherical, sideways cylindrical, old spherical, disable]
// How deep the dish 'digs' into the top of the keycap. this is max depth, so you can't find the height from total_depth - dish_depth. besides the top is skewed anyways
$dish_depth = 1;
// How skewed in the x direction the dish is
$dish_skew_x = 0;
// How skewed in the y direction (height) the dish is
$dish_skew_y = 0;
$dish_offset_x = 0;
// If you need the dish to extend further, you can 'overdraw' the rectangle it will hit. this was mostly for iso enter and should be deprecated
$dish_overdraw_width = 0;
// Same as width but for height
$dish_overdraw_height = 0;
/* [Misc] */
// There's a bevel on the cherry stems to aid insertion / guard against first layer squishing making a hard-to-fit stem.
$cherry_bevel = true;
// How tall in mm the stem support is, if there is any. stem support sits around the keystem and helps to secure it while printing.
$stem_support_height = .8;
// Font used for text
$font="DejaVu Sans Mono:style=Book";
// Whether or not to render fake keyswitches to check clearances
$clearance_check = false;
// Should be faster, also required for concave shapes
// what kind of extrusion we use to create the keycap. "hull" is standard, "linear extrude" is legacy, "skin" is new and not well supported.
$hull_shape_type = "hull"; // ["hull", "linear extrude", "skin"]
// This doesn't work very well, but you can try
$rounded_key = false;
//minkowski radius. radius of sphere used in minkowski sum for minkowski_key function. 1.75 for G20
$minkowski_radius = .33;
/* [Features] */
//insert locating bump
$key_bump = false;
//height of the location bump from the top surface of the key
$key_bump_depth = 0.5;
//distance to move the bump from the front edge of the key
$key_bump_edge = 0.4;
/* [Hidden] */
// set this to true if you are making double sculpted keycaps
$double_sculpted = false;
//list of legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$legends = [];
//list of front legends to place on a key format: [text, halign, valign, size]
//halign = "left" or "center" or "right"
//valign = "top" or "center" or "bottom"
// Currently does not work with thingiverse customizer, and actually breaks it
$front_legends = [];
// print legends on the front of the key instead of the top
$front_print_legends = false;
// how recessed inset legends / artisans are from the top of the key
$inset_legend_depth = 0.2;
// Dimensions of alps stem
$alps_stem = [4.45, 2.25];
// Dimensions of choc stem
$choc_stem = [1.2, 3];
// Enable stabilizer stems, to hold onto your cherry or costar stabilizers
$stabilizer_type = "costar_stabilizer"; // [costar_stabilizer, cherry_stabilizer, disable]
// Ternaries are ONLY for customizer. they will NOT work if you're using this in
// OpenSCAD. you should use stabilized(), openSCAD customizer,
// or set $stabilizers directly
// Array of positions of stabilizers
$stabilizers = $key_length >= 6 ? [[-50, 0], [50, 0]] : $key_length >= 2 ? [[-12,0],[12,0]] : [];
// Where the stems are in relation to the center of the keycap, in units. default is one in the center
// Shouldn't work in thingiverse customizer, though it has been...
$stem_positions = [[0,0]];
// colors
$primary_color = [.2667,.5882,1];
$secondary_color = [.4412, .7, .3784];
$tertiary_color = [1, .6941, .2];
$quaternary_color = [.4078, .3569, .749];
$warning_color = [1,0,0, 0.15];
// how many facets circles will have when used in these features
$minkowski_facets = 30;
$shape_facets =30;
// "flat" / "dished" / "disable"
$inner_shape_type = "flat";
// default side_sculpting function, linear
$side_sculpting = function(progress) 0;
$corner_sculpting = function(progress) 0;
// you probably shouldn't touch this, it's internal to sculpted_square
// modify side sculpting with the $side_sculpting function in the key profile files
$more_side_sculpting_factor = 0;
// 3d surface functions (still in beta)
// 3d surface settings
// unused for now
$3d_surface_size = 1;
// 3d surface point resolution. $3d_surface_size / $3d_surface_step = steps per x / y
$3d_surface_step = 1/20;
// monotonically increasing function that distributes the points of the surface mesh
// only for polar_3d_surface right now
// if it's linear it's a grid. sin(dim) * size concentrates detail around the edges
sinusoidal_surface_distribution = function(dim,size) sin(dim) * size;
linear_surface_distribution = function(dim,size) dim;
$surface_distribution_function = sinusoidal_surface_distribution;
// the function that actually determines what the surface is.
// feel free to override, the last one wins
// debug
// $surface_function = function(x,y) 1;
cylindrical_surface = function(x,y) (sin(acos(x/$3d_surface_size)));
spherical_surface = function(x,y) (1 - (x/$3d_surface_size)^2)^0.5 * (1 - (y/$3d_surface_size)^2)^0.5;
// looks a lot like mt3
quartic_surface = function(x,y) (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
ripple_surface = function(x,y) cos((x^2+y^2)^0.5 * 50)/4 + 0.75;
rosenbrocks_banana_surface = function(x,y) (pow(1-(x/$3d_surface_size))^2 + 100 * pow((y/$3d_surface_size)-(x/$3d_surface_size)^2)^2)/200 + 0.1;
spike_surface = function(x,y) 1/(((x/$3d_surface_size)^2+(y/$3d_surface_size)^2)^0.5) + .01;
random_surface = function(x,y) sin(rands(0,90,1,x+y)[0]);
bumps_surface = function(x,y) sin(20*x)*cos(20*y)/3+1;
$surface_function = bumps_surface; // bumps_surface;
// can be used to smooth the corners of the 3d surface function, to make the dishes add / subtract less height. can really do anything it's just multiplying, but that's what I use it for
$corner_smoothing_surface_function = function(x,y) 1;
// $corner_smoothing_surface_function = function(x,y) (1 - pow(abs(x), 5)/$3d_surface_size) * (1 - pow(abs(y),5)/$3d_surface_size);
// ripples
/*
// Rosenbrock's banana
/* $
// y=x revolved around the y axis
/* $surface_function = */
/* $surface_function = */
module dcs_row(row=3, column=0) {
$bottom_key_width = 18.16;
$bottom_key_height = 18.16;
$width_difference = 6;
$height_difference = 4;
$dish_type = "cylindrical";
$dish_depth = 0.5;
$dish_skew_x = 0;
$dish_skew_y = 0;
$top_skew = 1.75;
$top_tilt_y = side_tilt(column);
extra_height = $double_sculpted ? extra_side_tilt_height(column) : 0;
// this dish depth should match the depth of the uberdishing in fully sculpted mode
// but it doesn't, and it's very slight for any reasonable double sculpting
/* $dish_depth = $double_sculpt_radius - sin(acos(top_total_key_width()/2 /$double_sculpt_radius)) * $double_sculpt_radius; */
/* echo("DISH DEPTH", $dish_depth, "column", column); */
// 5/0 is a hack so you can do these in a for loop
if (row == 5 || row == 0) {
$total_depth = 11.5 + extra_height;
$top_tilt = -6;
children();
} else if (row == 1) {
$total_depth = 8.5 + extra_height;
$top_tilt = -1;
children();
} else if (row == 2) {
$total_depth = 7.5 + extra_height;
$top_tilt = 3;
children();
} else if (row == 3) {
$total_depth = 6 + extra_height;
$top_tilt = 7;
children();
} else if (row == 4) {
$total_depth = 6 + extra_height;
$top_tilt = 16;
children();
} else {
children();
}
}
// a safe theoretical distance between two vertices such that they don't collapse. hard to use
SMALLEST_POSSIBLE = 1/128;
$fs=0.1;
$unit=19.05;
/* [Basic-Settings] */
// Length in units of key. A regular key is 1 unit; spacebar is usually 6.25
$key_length = 1.0; // Range not working in thingiverse customizer atm [1:0.25:16]
// What type of stem you want. Most people want Cherry.
$stem_type = "cherry"; // [cherry, alps, rounded_cherry, box_cherry, filled, disable]
// The stem is the hardest part to print, so this variable controls how much 'slop' there is in the stem
// if your keycaps stick in the switch raise this value
$stem_slop = 0.35; // Not working in thingiverse customizer atm [0:0.01:1]
// broke this out. if your keycaps are falling off lower this value. only works for cherry stems rn
$stem_inner_slop = 0.2;
// Font size used for text
$font_size = 6;
// Set this to true if you're making a spacebar!
$inverted_dish = false;
// change aggressiveness of double sculpting
// this is the radius of the cylinder the keytops are placed on
$double_sculpt_radius = 200;
// Support type. default is "flared" for easy FDM printing; bars are more realistic, and flat could be for artisans
$support_type = "flared"; // [flared, bars, flat, disable]
// Supports for the stem, as it often comes off during printing. Reccommended for most machines
$stem_support_type = "tines"; // [tines, brim, disabled]
// make legends outset instead of inset.
// broken off from artisan support since who wants outset legends?
$outset_legends = false;
/* [Key] */
// Height in units of key. should remain 1 for most uses
$key_height = 1.0;
// Keytop thickness, aka how many millimeters between the inside and outside of the top surface of the key
$keytop_thickness = 1;
// Wall thickness, aka the thickness of the sides of the keycap. note this is the total thickness, aka 3 = 1.5mm walls
$wall_thickness = 3;