resin settings, some tines support tweaks

TODO.md

@@ -1,5 +1,6 @@
 TODO:
   * Make flat stem support default
+  * make flat inner shape default
   * support repositioning to print on the back surface of the keycap
   * implement regular polygon for skin extrusions
   * switch to skin-shaped extrusions by default

customizer.scad

@@ -214,12 +214,6 @@ $3d_surface_step = 10;
 // "flat" / "dished" / "disable"
 $inner_shape_type = "flat";
 
-// When sculpting sides using sculpted_square, how much in should the tops come
-$side_sculpting_factor = 4.5;
-// When sculpting corners, how much extra radius should be added
-$corner_sculpting_factor = 1;
-// When doing more side sculpting corners, how much extra radius should be added
-$more_side_sculpting_factor = 0.4;
 // key width functions
 
 module u(u=1) {
@@ -515,6 +509,7 @@ module g20_row(row=3, column = 0) {
     children();
   }
 }
+// my own measurements
 module hipro_row(row=3, column=0) {
   $key_shape_type = "sculpted_square";
 
@@ -523,7 +518,7 @@ module hipro_row(row=3, column=0) {
 
   $width_difference = ($bottom_key_width - 12.3);
   $height_difference = ($bottom_key_height - 12.65);
-  $dish_type = "squared scoop";
+  $dish_type = "spherical";
   $dish_depth = 0.75;
   $dish_skew_x = 0;
   $dish_skew_y = 0;
@@ -555,57 +550,6 @@ module hipro_row(row=3, column=0) {
     children();
   }
 }
-// This is an imperfect attempt to clone the MT3 profile
-module mt3_row(row=3, column=0, deep_dish=false) {
-  $key_shape_type = "sculpted_square";
-
-  $bottom_key_width = 18.35;
-  $bottom_key_height = 18.6;
-
-  $width_difference = ($bottom_key_width - 13.0);
-  $height_difference = ($bottom_key_height - 13.0);
-  $dish_type = "squared spherical";
-  $dish_depth = deep_dish ? 1.6 : 1.2;
-  $dish_skew_x = 0;
-  $dish_skew_y = 0;
-  $top_skew = 0;
-  $height_slices = 10;
-  $corner_radius = 1;
-
-  $more_side_sculpting_factor = 0.75;
-
-  $top_tilt_y = side_tilt(column);
-  extra_height =  $double_sculpted ? extra_side_tilt_height(column) : 0;
-
-  if (row == 0){
-    // TODO I didn't change these yet
-    $total_depth = 14.7 + extra_height;
-    $top_tilt = -12.5;
-    children();
-  } else if (row == 1) {
-    $total_depth = 13.1 + extra_height;
-    $top_tilt = -6;
-    children();
-  }  else if (row == 2) {
-    $total_depth = 10.7 + extra_height;
-    $top_tilt = -6;
-    children();
-  } else if (row == 3) {
-    $total_depth = 10.7 + extra_height;
-    $top_tilt = 6;
-    children();
-  } else if (row == 4){
-    $total_depth = 11.6 + extra_height;
-    $top_tilt = 12;
-    children();
-  } else if (row >= 5) {
-    $total_depth = 11.6 + extra_height;
-    $top_tilt = 0;
-    children();
-  } else {
-    children();
-  }
-}
 module grid_row(row=3, column = 0) {
   $bottom_key_width = 18.16;
   $bottom_key_height = 18.16;
@@ -843,8 +787,6 @@ module key_profile(key_profile_type, row, column=0) {
     octagonal_row(row, column) children();
   } else if (key_profile_type == "cherry") {
     cherry_row(row, column) children();
-  } else if (key_profile_type == "mt3") {
-    mt3_row(row, column) children();  
   } else if (key_profile_type == "disable") {
     children();
   } else {
@@ -1188,7 +1130,7 @@ module upside_down() {
 module sideways() {
   $key_shape_type = "flat_sided_square";
   $dish_overdraw_width = abs(extra_keytop_length_for_flat_sides());
-  extra_y_rotation = atan2($width_difference/2,$total_depth);
+  extra_y_rotation = atan2($width_difference/2,$total_depth); // TODO assumes centered top
   translate([0,0,cos(extra_y_rotation) * total_key_width()/2])
   rotate([0,90 + extra_y_rotation ,0]) children();
 }
@@ -1216,7 +1158,14 @@ module auto_place() {
     translate_u(x,-y) children(child_index);
   }
 }
-module arrows(profile, rows = [4,4,4,3]) {
+
+// suggested settings for resin prints
+module resin() {
+  $stem_slop = 0;
+  $stem_inner_slop = 0;
+  $stem_support_type = "disable";
+  children();
+}module arrows(profile, rows = [4,4,4,3]) {
   positions = [[0, 0], [1, 0], [2, 0], [1, 1]];
   legends = ["←", "↓", "→", "↑"];
 
@@ -2162,11 +2111,19 @@ function skin_iso_enter_shape(size, delta, progress, thickness_difference) =
   );
 // rounded square shape with additional sculpting functions to better approximate
 
+// When sculpting sides, how much in should the tops come
+side_sculpting_factor = 4.5;
+// When sculpting corners, how much extra radius should be added
+corner_sculpting_factor = 1;
+// When doing more side sculpting corners, how much extra radius should be added
+more_side_sculpting_factor = 0.4;
+
+
 // side sculpting functions
 // bows the sides out on stuff like SA and DSA keycaps
-function side_sculpting(progress) = (1 - progress) * $side_sculpting_factor;
+function side_sculpting(progress) = (1 - progress) * side_sculpting_factor;
 // makes the rounded corners of the keycap grow larger as they move upwards
-function corner_sculpting(progress) = pow(progress, 2) * $corner_sculpting_factor;
+function corner_sculpting(progress) = pow(progress, 2) * corner_sculpting_factor;
 
 module sculpted_square_shape(size, delta, progress) {
   width = size[0];
@@ -2191,7 +2148,7 @@ module sculpted_square_shape(size, delta, progress) {
 
   offset(r = extra_corner_radius_this_slice, $fa=360/$shape_facets) {
     offset(r = -extra_corner_radius_this_slice) {
-      side_rounded_square(square_size, r = $more_side_sculpting_factor * progress);
+      side_rounded_square(square_size, r = more_side_sculpting_factor * progress);
     }
   }
 }
@@ -2246,7 +2203,7 @@ function skin_sculpted_square_shape(size, delta, progress, thickness_difference)
       width - extra_width_this_slice - thickness_difference,
       height - extra_height_this_slice - thickness_difference
     ]
-  ) new_side_rounded_square(square_size, $more_side_sculpting_factor * progress, extra_corner_radius_this_slice);
+  ) new_side_rounded_square(square_size, more_side_sculpting_factor * progress, extra_corner_radius_this_slice);
 
 
 module side_rounded_square(size, r) {
@@ -3358,7 +3315,7 @@ function unit_length(length) = $unit * (length - 1) + 18.16;
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross
@@ -3544,7 +3501,7 @@ function unit_length(length) = $unit * (length - 1) + 18.16;
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross
@@ -3740,7 +3697,7 @@ function unit_length(length) = $unit * (length - 1) + 18.16;
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross
@@ -4099,7 +4056,7 @@ function unit_length(length) = $unit * (length - 1) + 18.16;
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross
@@ -4342,7 +4299,7 @@ function unit_length(length) = $unit * (length - 1) + 18.16;
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross
@@ -4411,7 +4368,7 @@ module tines_support(stem_type, stem_support_height, slop) {
         }
 
         // 2 vertical tines holding either side of the cruciform
-        for (x = [1.15, -1.15]) {
+        for (x = [2, -2]) {
           translate([x,0,$stem_support_height / 2]) {
             cube([
               0.5,
@@ -4665,62 +4622,6 @@ module spherical_dish(width, height, depth, inverted){
     }
   }
 }
-module squared_spherical_dish(width, height, depth, inverted=false) {
-    chord = pow(pow(height / 2, 2) + pow(width / 2, 2),0.5);
-    direction = inverted ? -1 : 1;
-    r=max(height,width,chord) / 5;
-    // ^^^^^ Nothing special about this code to figure out r.
-    // I just modeled up 1u, 1.25u, 1.5u, 2u, 2.25u, and 2.75u
-    // keys and messed around until I came up with something that
-    // looked reasonable for all key sizes.  This just seems to work
-    // well for all sizes
-
-    translate([-width / 2, -height / 2, 0 * direction]) {
-      resize([width, height, depth])
-        hull() {
-          cube([chord,chord,0.001]);
-          // Use something larger in this translate than -depth 
-          // (like -chord) if you want more of a defined circle
-          // in the keywell
-          translate([chord/2, chord/2, -depth]) 
-            sphere(r=r, $fn=128);
-        }
-    }
-}
-module squared_scoop_dish(height, width, depth, r=0.5, inverted=false, num=4, den=5){
-  // changable numerator/denoninator on where to place the square's corners
-  // for example, num=2, den=3 means the dish will happen at 1/3 and 2/3 the
-  // width and the height.  Defaults to 4/5. Customizable when calling 
-  // this module
-  //
-  // This was initially intended for the scoop on the HiPro, since that's what
-  // it uses.  Use "hipro_row()" if that's what you'd like.  However, I do NOT
-  // know how close the inner square is for the HiPro keycaps.  In fact, it could
-  // just be a sphere, in which the "squared spherical" scoop is more appropriate.
-  // If, however, it the "squared scoop" makes sense, you can adjust where the square
-  // lands with the num (numerator) and den (denominator) variables.  For instance,
-  // "3" and "4" mean 3/4 of the width/height is where the flat part starts.
-
-  chord = pow(pow(height/2, 2) + pow(width/2, 2),0.5);
-  direction = inverted ? -1 : 1;
-
-  //This is the set of points to hull around for the scoop
-  points=[
-    [height/den - height/2, width/den - width/2, -chord],
-    [num*height/den - height/2, width/den - width/2, -chord],
-    [height/den - height/2, num*width/den - width/2, -chord],
-    [num*height/den - height/2, num*width/den - width/2, -chord]
-  ];
-
-  resize([height,width,depth])
-    hull() {
-      shape_slice(1,0,0);
-      for(i=[0:len(points)-1]) {
-        translate(points[i])
-          sphere(r=r,$fn=64);
-      }
-  }
-}
 module flat_dish(width, height, depth, inverted){
   cube([width + 100,height + 100, depth], center=true);
 }
@@ -4898,9 +4799,11 @@ geodesic=false;
 module  dish(width, height, depth, inverted) {
     if($dish_type == "cylindrical"){
       cylindrical_dish(width, height, depth, inverted);
-    } else if ($dish_type == "spherical") {
+    }
+    else if ($dish_type == "spherical") {
       spherical_dish(width, height, depth, inverted);
-    } else if ($dish_type == "sideways cylindrical"){
+    }
+    else if ($dish_type == "sideways cylindrical"){
       sideways_cylindrical_dish(width, height, depth, inverted);
     } else if ($dish_type == "old spherical") {
       old_spherical_dish(width, height, depth, inverted);
@@ -4910,10 +4813,6 @@ module  dish(width, height, depth, inverted) {
       flat_dish(width, height, depth, inverted);
     } else if ($dish_type == "disable") {
       // else no dish
-    } else if ($dish_type == "squared spherical") {
-      squared_spherical_dish(width, height, depth, inverted=inverted);
-    } else if ($dish_type == "squared scoop") {
-      squared_scoop_dish(width, height, depth, inverted=inverted);
     } else {
       echo("WARN: $dish_type unsupported");
     }
@@ -5197,13 +5096,13 @@ module linear_extrude_shape_hull(thickness_difference, depth_difference, extra_s
 module hull_shape_hull(thickness_difference, depth_difference, extra_slices = 0) {
   for (index = [0:$height_slices - 1 + extra_slices]) {
     hull() {
-      placed_shape_slice(index / $height_slices, thickness_difference, depth_difference);
-      placed_shape_slice((index + 1) / $height_slices, thickness_difference, depth_difference);
+      shape_slice(index / $height_slices, thickness_difference, depth_difference);
+      shape_slice((index + 1) / $height_slices, thickness_difference, depth_difference);
     }
   }
 }
 
-module placed_shape_slice(progress, thickness_difference, depth_difference) {
+module shape_slice(progress, thickness_difference, depth_difference) {
   skew_this_slice = $top_skew * progress;
   x_skew_this_slice = $top_skew_x * progress;
 
@@ -5214,24 +5113,20 @@ module placed_shape_slice(progress, thickness_difference, depth_difference) {
 
   translate([x_skew_this_slice, skew_this_slice, depth_this_slice]) {
     rotate([tilt_this_slice,y_tilt_this_slice,0]){
-      shape_slice(progress, thickness_difference, depth_difference);
+      linear_extrude(height = SMALLEST_POSSIBLE, scale = 1){
+        key_shape(
+          [
+            total_key_width(thickness_difference),
+            total_key_height(thickness_difference)
+          ],
+          [$width_difference, $height_difference],
+          progress
+        );
+      }
     }
   }
 }
 
-module shape_slice(progress, thickness_difference, depth_difference) {
-  linear_extrude(height = SMALLEST_POSSIBLE, scale = 1){
-    key_shape(
-      [
-        total_key_width(thickness_difference),
-        total_key_height(thickness_difference)
-      ],
-      [$width_difference, $height_difference],
-      progress
-    );
-  }
-}
-
 // basic key shape, no dish, no inside
 // which is only used for dishing to cut the dish off correctly
 // $height_difference used for keytop thickness
@@ -6198,6 +6093,7 @@ module shape(thickness_difference, depth_difference=0){
   }
 }
 
+// Not currently used due to CGAL errors. Rounds the shape via minkowski
 module rounded_shape() {
   color($primary_color) minkowski(){
     // half minkowski in the z direction
@@ -6286,9 +6182,9 @@ module top_placement(depth_difference=0) {
   top_tilt_by_height = -$top_tilt / $key_height;
   top_tilt_y_by_length = $double_sculpted ? (-$top_tilt_y / $key_length) : 0;
 
-  // minkowski_height = $rounded_key ? $minkowski_radius : 0;
+  minkowski_height = $rounded_key ? $minkowski_radius : 0;
 
-  translate([$top_skew_x + $dish_skew_x, $top_skew + $dish_skew_y, $total_depth - depth_difference]){
+  translate([$top_skew_x + $dish_skew_x, $top_skew + $dish_skew_y, $total_depth - depth_difference + minkowski_height/2]){
     rotate([top_tilt_by_height, top_tilt_y_by_length,0]){
       children();
     }
@@ -6408,9 +6304,7 @@ module outer_total_shape(inset=false) {
 // takes all the bits and glues them together. requires configuration with special variables.
 module key(inset=false) {
   difference(){
-    outer_total_shape(inset) {
-      children();
-    };
+    outer_total_shape(inset);
 
     if ($inner_shape_type != "disable") {
       translate([0,0,-SMALLEST_POSSIBLE]) {
@@ -6632,13 +6526,7 @@ $3d_surface_step = 10;
 
 // "flat" / "dished" / "disable"
 $inner_shape_type = "flat";
-
-// When sculpting sides using sculpted_square, how much in should the tops come
-$side_sculpting_factor = 4.5;
-// When sculpting corners, how much extra radius should be added
-$corner_sculpting_factor = 1;
-// When doing more side sculpting corners, how much extra radius should be added
-$more_side_sculpting_factor = 0.4;  key();
+  key();
 }
 
 if (!$using_customizer) {

src/dishes.scad

@@ -4,8 +4,6 @@ include <dishes/cylindrical.scad>
 include <dishes/old_spherical.scad>
 include <dishes/sideways_cylindrical.scad>
 include <dishes/spherical.scad>
-include <dishes/squared_spherical.scad>
-include <dishes/squared_scoop.scad>
 include <dishes/flat.scad>
 include <dishes/3d_surface.scad>
 
@@ -16,9 +14,11 @@ geodesic=false;
 module  dish(width, height, depth, inverted) {
     if($dish_type == "cylindrical"){
       cylindrical_dish(width, height, depth, inverted);
-    } else if ($dish_type == "spherical") {
+    }
+    else if ($dish_type == "spherical") {
       spherical_dish(width, height, depth, inverted);
-    } else if ($dish_type == "sideways cylindrical"){
+    }
+    else if ($dish_type == "sideways cylindrical"){
       sideways_cylindrical_dish(width, height, depth, inverted);
     } else if ($dish_type == "old spherical") {
       old_spherical_dish(width, height, depth, inverted);
@@ -28,10 +28,6 @@ module  dish(width, height, depth, inverted) {
       flat_dish(width, height, depth, inverted);
     } else if ($dish_type == "disable") {
       // else no dish
-    } else if ($dish_type == "squared spherical") {
-      squared_spherical_dish(width, height, depth, inverted=inverted);
-    } else if ($dish_type == "squared scoop") {
-      squared_scoop_dish(width, height, depth, inverted=inverted);
     } else {
       echo("WARN: $dish_type unsupported");
     }

src/dishes/squared_scoop.scad

@@ -1,34 +0,0 @@
-module squared_scoop_dish(height, width, depth, r=0.5, inverted=false, num=4, den=5){
-  // changable numerator/denoninator on where to place the square's corners
-  // for example, num=2, den=3 means the dish will happen at 1/3 and 2/3 the
-  // width and the height.  Defaults to 4/5. Customizable when calling 
-  // this module
-  //
-  // This was initially intended for the scoop on the HiPro, since that's what
-  // it uses.  Use "hipro_row()" if that's what you'd like.  However, I do NOT
-  // know how close the inner square is for the HiPro keycaps.  In fact, it could
-  // just be a sphere, in which the "squared spherical" scoop is more appropriate.
-  // If, however, it the "squared scoop" makes sense, you can adjust where the square
-  // lands with the num (numerator) and den (denominator) variables.  For instance,
-  // "3" and "4" mean 3/4 of the width/height is where the flat part starts.
-
-  chord = pow(pow(height/2, 2) + pow(width/2, 2),0.5);
-  direction = inverted ? -1 : 1;
-
-  //This is the set of points to hull around for the scoop
-  points=[
-    [height/den - height/2, width/den - width/2, -chord],
-    [num*height/den - height/2, width/den - width/2, -chord],
-    [height/den - height/2, num*width/den - width/2, -chord],
-    [num*height/den - height/2, num*width/den - width/2, -chord]
-  ];
-
-  resize([height,width,depth])
-    hull() {
-      shape_slice(1,0,0);
-      for(i=[0:len(points)-1]) {
-        translate(points[i])
-          sphere(r=r,$fn=64);
-      }
-  }
-}

src/dishes/squared_spherical.scad

@@ -1,22 +0,0 @@
-module squared_spherical_dish(width, height, depth, inverted=false) {
-    chord = pow(pow(height / 2, 2) + pow(width / 2, 2),0.5);
-    direction = inverted ? -1 : 1;
-    r=max(height,width,chord) / 5;
-    // ^^^^^ Nothing special about this code to figure out r.
-    // I just modeled up 1u, 1.25u, 1.5u, 2u, 2.25u, and 2.75u
-    // keys and messed around until I came up with something that
-    // looked reasonable for all key sizes.  This just seems to work
-    // well for all sizes
-
-    translate([-width / 2, -height / 2, 0 * direction]) {
-      resize([width, height, depth])
-        hull() {
-          cube([chord,chord,0.001]);
-          // Use something larger in this translate than -depth 
-          // (like -chord) if you want more of a defined circle
-          // in the keywell
-          translate([chord/2, chord/2, -depth]) 
-            sphere(r=r, $fn=128);
-        }
-    }
-}

src/hulls/hull.scad

@@ -1,13 +1,13 @@
 module hull_shape_hull(thickness_difference, depth_difference, extra_slices = 0) {
   for (index = [0:$height_slices - 1 + extra_slices]) {
     hull() {
-      placed_shape_slice(index / $height_slices, thickness_difference, depth_difference);
-      placed_shape_slice((index + 1) / $height_slices, thickness_difference, depth_difference);
+      shape_slice(index / $height_slices, thickness_difference, depth_difference);
+      shape_slice((index + 1) / $height_slices, thickness_difference, depth_difference);
     }
   }
 }
 
-module placed_shape_slice(progress, thickness_difference, depth_difference) {
+module shape_slice(progress, thickness_difference, depth_difference) {
   skew_this_slice = $top_skew * progress;
   x_skew_this_slice = $top_skew_x * progress;
 
@@ -18,20 +18,16 @@ module placed_shape_slice(progress, thickness_difference, depth_difference) {
 
   translate([x_skew_this_slice, skew_this_slice, depth_this_slice]) {
     rotate([tilt_this_slice,y_tilt_this_slice,0]){
-      shape_slice(progress, thickness_difference, depth_difference);
+      linear_extrude(height = SMALLEST_POSSIBLE, scale = 1){
+        key_shape(
+          [
+            total_key_width(thickness_difference),
+            total_key_height(thickness_difference)
+          ],
+          [$width_difference, $height_difference],
+          progress
+        );
+      }
     }
   }
 }
-
-module shape_slice(progress, thickness_difference, depth_difference) {
-  linear_extrude(height = SMALLEST_POSSIBLE, scale = 1){
-    key_shape(
-      [
-        total_key_width(thickness_difference),
-        total_key_height(thickness_difference)
-      ],
-      [$width_difference, $height_difference],
-      progress
-    );
-  }
-}

src/key.scad

@@ -24,6 +24,7 @@ module shape(thickness_difference, depth_difference=0){
   }
 }
 
+// Not currently used due to CGAL errors. Rounds the shape via minkowski
 module rounded_shape() {
   color($primary_color) minkowski(){
     // half minkowski in the z direction
@@ -112,9 +113,9 @@ module top_placement(depth_difference=0) {
   top_tilt_by_height = -$top_tilt / $key_height;
   top_tilt_y_by_length = $double_sculpted ? (-$top_tilt_y / $key_length) : 0;
 
-  // minkowski_height = $rounded_key ? $minkowski_radius : 0;
+  minkowski_height = $rounded_key ? $minkowski_radius : 0;
 
-  translate([$top_skew_x + $dish_skew_x, $top_skew + $dish_skew_y, $total_depth - depth_difference]){
+  translate([$top_skew_x + $dish_skew_x, $top_skew + $dish_skew_y, $total_depth - depth_difference + minkowski_height/2]){
     rotate([top_tilt_by_height, top_tilt_y_by_length,0]){
       children();
     }
@@ -234,9 +235,7 @@ module outer_total_shape(inset=false) {
 // takes all the bits and glues them together. requires configuration with special variables.
 module key(inset=false) {
   difference(){
-    outer_total_shape(inset) {
-      children();
-    };
+    outer_total_shape(inset);
 
     if ($inner_shape_type != "disable") {
       translate([0,0,-SMALLEST_POSSIBLE]) {

src/key_profiles.scad

@@ -8,7 +8,6 @@ include <key_profiles/dsa.scad>
 include <key_profiles/sa.scad>
 include <key_profiles/g20.scad>
 include <key_profiles/hipro.scad>
-include <key_profiles/mt3.scad>
 include <key_profiles/grid.scad>
 include <key_profiles/regular_polygon.scad>
 include <key_profiles/cherry.scad>
@@ -38,8 +37,6 @@ module key_profile(key_profile_type, row, column=0) {
     octagonal_row(row, column) children();
   } else if (key_profile_type == "cherry") {
     cherry_row(row, column) children();
-  } else if (key_profile_type == "mt3") {
-    mt3_row(row, column) children();  
   } else if (key_profile_type == "disable") {
     children();
   } else {

src/key_profiles/hipro.scad

@@ -1,3 +1,4 @@
+// my own measurements
 module hipro_row(row=3, column=0) {
   $key_shape_type = "sculpted_square";
 
@@ -6,7 +7,7 @@ module hipro_row(row=3, column=0) {
 
   $width_difference = ($bottom_key_width - 12.3);
   $height_difference = ($bottom_key_height - 12.65);
-  $dish_type = "squared scoop";
+  $dish_type = "spherical";
   $dish_depth = 0.75;
   $dish_skew_x = 0;
   $dish_skew_y = 0;

src/key_profiles/mt3.scad

@@ -1,51 +0,0 @@
-// This is an imperfect attempt to clone the MT3 profile
-module mt3_row(row=3, column=0, deep_dish=false) {
-  $key_shape_type = "sculpted_square";
-
-  $bottom_key_width = 18.35;
-  $bottom_key_height = 18.6;
-
-  $width_difference = ($bottom_key_width - 13.0);
-  $height_difference = ($bottom_key_height - 13.0);
-  $dish_type = "squared spherical";
-  $dish_depth = deep_dish ? 1.6 : 1.2;
-  $dish_skew_x = 0;
-  $dish_skew_y = 0;
-  $top_skew = 0;
-  $height_slices = 10;
-  $corner_radius = 1;
-
-  $more_side_sculpting_factor = 0.75;
-
-  $top_tilt_y = side_tilt(column);
-  extra_height =  $double_sculpted ? extra_side_tilt_height(column) : 0;
-
-  if (row == 0){
-    // TODO I didn't change these yet
-    $total_depth = 14.7 + extra_height;
-    $top_tilt = -12.5;
-    children();
-  } else if (row == 1) {
-    $total_depth = 13.1 + extra_height;
-    $top_tilt = -6;
-    children();
-  }  else if (row == 2) {
-    $total_depth = 10.7 + extra_height;
-    $top_tilt = -6;
-    children();
-  } else if (row == 3) {
-    $total_depth = 10.7 + extra_height;
-    $top_tilt = 6;
-    children();
-  } else if (row == 4){
-    $total_depth = 11.6 + extra_height;
-    $top_tilt = 12;
-    children();
-  } else if (row >= 5) {
-    $total_depth = 11.6 + extra_height;
-    $top_tilt = 0;
-    children();
-  } else {
-    children();
-  }
-}

src/key_transformations.scad

@@ -195,7 +195,7 @@ module upside_down() {
 module sideways() {
   $key_shape_type = "flat_sided_square";
   $dish_overdraw_width = abs(extra_keytop_length_for_flat_sides());
-  extra_y_rotation = atan2($width_difference/2,$total_depth);
+  extra_y_rotation = atan2($width_difference/2,$total_depth); // TODO assumes centered top
   translate([0,0,cos(extra_y_rotation) * total_key_width()/2])
   rotate([0,90 + extra_y_rotation ,0]) children();
 }
@@ -223,3 +223,11 @@ module auto_place() {
     translate_u(x,-y) children(child_index);
   }
 }
+
+// suggested settings for resin prints
+module resin() {
+  $stem_slop = 0;
+  $stem_inner_slop = 0;
+  $stem_support_type = "disable";
+  children();
+}

src/layouts/60_percent/default.scad

@@ -17,5 +17,5 @@ include <../layout.scad>
 ];
 
 module 60_percent_default(profile) {
-  layout(60_percent_default_layout, profile, 60_percent_legends, row_sculpting_offset=1) children();
+  layout(60_percent_default_layout, profile, 60_percent_legends) children();
 }

src/settings.scad

@@ -198,10 +198,3 @@ $3d_surface_step = 10;
 
 // "flat" / "dished" / "disable"
 $inner_shape_type = "flat";
-
-// When sculpting sides using sculpted_square, how much in should the tops come
-$side_sculpting_factor = 4.5;
-// When sculpting corners, how much extra radius should be added
-$corner_sculpting_factor = 1;
-// When doing more side sculpting corners, how much extra radius should be added
-$more_side_sculpting_factor = 0.4;

src/shapes/sculpted_square.scad

@@ -1,10 +1,18 @@
 // rounded square shape with additional sculpting functions to better approximate
 
+// When sculpting sides, how much in should the tops come
+side_sculpting_factor = 4.5;
+// When sculpting corners, how much extra radius should be added
+corner_sculpting_factor = 1;
+// When doing more side sculpting corners, how much extra radius should be added
+more_side_sculpting_factor = 0.4;
+
+
 // side sculpting functions
 // bows the sides out on stuff like SA and DSA keycaps
-function side_sculpting(progress) = (1 - progress) * $side_sculpting_factor;
+function side_sculpting(progress) = (1 - progress) * side_sculpting_factor;
 // makes the rounded corners of the keycap grow larger as they move upwards
-function corner_sculpting(progress) = pow(progress, 2) * $corner_sculpting_factor;
+function corner_sculpting(progress) = pow(progress, 2) * corner_sculpting_factor;
 
 module sculpted_square_shape(size, delta, progress) {
   width = size[0];
@@ -29,7 +37,7 @@ module sculpted_square_shape(size, delta, progress) {
 
   offset(r = extra_corner_radius_this_slice, $fa=360/$shape_facets) {
     offset(r = -extra_corner_radius_this_slice) {
-      side_rounded_square(square_size, r = $more_side_sculpting_factor * progress);
+      side_rounded_square(square_size, r = more_side_sculpting_factor * progress);
     }
   }
 }
@@ -84,7 +92,7 @@ function skin_sculpted_square_shape(size, delta, progress, thickness_difference)
       width - extra_width_this_slice - thickness_difference,
       height - extra_height_this_slice - thickness_difference
     ]
-  ) new_side_rounded_square(square_size, $more_side_sculpting_factor * progress, extra_corner_radius_this_slice);
+  ) new_side_rounded_square(square_size, more_side_sculpting_factor * progress, extra_corner_radius_this_slice);
 
 
 module side_rounded_square(size, r) {

src/stem_supports/tines.scad

@@ -36,7 +36,7 @@ module tines_support(stem_type, stem_support_height, slop) {
         }
 
         // 2 vertical tines holding either side of the cruciform
-        for (x = [1.15, -1.15]) {
+        for (x = [2, -2]) {
           translate([x,0,$stem_support_height / 2]) {
             cube([
               0.5,

src/stems/cherry.scad

@@ -2,7 +2,7 @@ include <../functions.scad>
 
 // extra length to the vertical tine of the inside cherry cross
 // splits the stem into halves - allows easier fitment
-extra_vertical = 0.6;
+extra_vertical = 100;
 
 module inside_cherry_cross(slop) {
   // inside cross