mirror of
https://github.com/rsheldiii/KeyV2.git
synced 2024-11-26 14:54:21 +00:00
tweak corner rounding and size on mt3
This commit is contained in:
parent
263bd8ebbf
commit
f0e339966f
136
customizer.scad
136
customizer.scad
@ -570,6 +570,7 @@ module mt3_row(row=3, column=0, deep_dish=false) {
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$dish_skew_y = 0;
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$top_skew = 0;
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$height_slices = 10;
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$corner_sculpting_factor = 2;
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$corner_radius = 0.0125;
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@ -819,7 +820,49 @@ module dss_row(n=3, column=0) {
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$top_tilt = 8;
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children();
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}
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}module asa_row(row=3, column = 0) {
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$key_shape_type = "sculpted_square";
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$bottom_key_height = 18.06;
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$bottom_key_width = 18.05; // Default (R3)
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$total_depth = 10.35; // Default (R3)
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$top_tilt = 1.5; // Default (R3)
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$width_difference = 5.05;
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$height_difference = 5.56;
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$dish_type = "spherical";
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$dish_depth = 1.2;
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$dish_skew_x = 0;
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$dish_skew_y = 0;
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$top_skew = 1.75;
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$stem_inset = 1.2;
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$height_slices = 10;
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$corner_radius = 1;
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// this is _incredibly_ intensive
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//$rounded_key = true;
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if (row == 1){
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$bottom_key_width = 17.95;
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$width_difference = 4.95;
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$total_depth = 10.65;
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$top_tilt = 7;
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children();
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} else if (row == 2) {
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$bottom_key_width = 18.17;
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$width_difference = 5.17;
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$total_depth = 9.65;
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$top_tilt = 3.25;
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children();
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} else if (row == 4){
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$bottom_key_width = 18.02;
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$width_difference = 5.02;
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$total_depth = 11.9;
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$top_tilt = 0.43;
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children();
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} else {
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children();
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}
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}
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// man, wouldn't it be so cool if functions were first order
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module key_profile(key_profile_type, row, column=0) {
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if (key_profile_type == "dcs") {
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@ -832,6 +875,8 @@ module key_profile(key_profile_type, row, column=0) {
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dss_row(row, column) children();
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} else if (key_profile_type == "sa") {
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sa_row(row, column) children();
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} else if (key_profile_type == "asa") {
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asa_row(row, column) children();
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} else if (key_profile_type == "g20") {
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g20_row(row, column) children();
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} else if (key_profile_type == "hipro") {
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@ -915,10 +960,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -1381,10 +1423,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -1463,10 +1502,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -2401,10 +2437,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3228,10 +3261,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3421,10 +3451,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3535,10 +3562,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3613,10 +3637,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3737,10 +3758,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3815,10 +3833,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -3957,10 +3972,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4105,10 +4117,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4183,10 +4192,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4354,10 +4360,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4432,10 +4435,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4897,10 +4897,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -4997,9 +4994,7 @@ module 3d_surface_dish(width, height, depth, inverted) {
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// skew and tilt of the top. it's a pain to calculate though
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scale_factor = 1.1;
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// the edges on this behave differently than with the previous dish implementations
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scale([width*scale_factor/$3d_surface_size/2,height*scale_factor/$3d_surface_size/2,depth])
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rotate([inverted ? 0:180,0,180])
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polar_3d_surface(bottom=-10);
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scale([width*scale_factor/$3d_surface_size/2,height*scale_factor/$3d_surface_size/2,depth]) rotate([inverted ? 0:180,0,180]) polar_3d_surface(bottom=-10);
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/* %scale([width*scale_factor/$3d_surface_size/2,height*scale_factor/$3d_surface_size/2,depth]) rotate([180,0,0]) polar_3d_surface(bottom=-10); */
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}
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@ -5017,7 +5012,7 @@ module dish(width, height, depth, inverted) {
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sideways_cylindrical_dish(width, height, depth, inverted);
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} else if ($dish_type == "old spherical") {
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old_spherical_dish(width, height, depth, inverted);
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} else if ($dish_type == "3d surface") {
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} else if ($dish_type == "3d_surface") {
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3d_surface_dish(width, height, depth, inverted);
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} else if ($dish_type == "flat") {
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flat_dish(width, height, depth, inverted);
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@ -5094,10 +5089,7 @@ function surface_function(x,y) = 1;
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// cylindrical
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size)));
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// spherical
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function surface_function(x,y) = sin(acos(x/$3d_surface_size)) * sin(acos(y/$3d_surface_size)) * $dish_depth;
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// spherical without cos / sin
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// function surface_function(x,y) = (1 - (x/$3d_surface_size)^4)^0.5 * (1 - (y/$3d_surface_size)^4)^0.5;
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function surface_function(x,y) = (sin(acos(x/$3d_surface_size))) * sin(acos(y/$3d_surface_size));
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// ripples
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/* function surface_function(x,y) = cos(pow(pow(x,2)+pow(y,2),0.5)*10)/4+0.75; */
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// Rosenbrock's banana
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@ -13,7 +13,9 @@ module mt3_row(row=3, column=0, deep_dish=false) {
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$dish_skew_y = 0;
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$top_skew = 0;
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$height_slices = 10;
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$corner_radius = 1;
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$corner_sculpting_factor = 2;
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$corner_radius = 0.0125;
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$more_side_sculpting_factor = 0.75;
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