mirror of
https://github.com/kennetek/gridfinity-rebuilt-openscad.git
synced 2024-11-10 10:30:51 +00:00
6954345a96
Adapted the parent script to make vase mode compatible bins, which saves filament and print time
420 lines
12 KiB
OpenSCAD
420 lines
12 KiB
OpenSCAD
// UTILITY FILE, DO NOT EDIT
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// ===== Extra Math ===== //
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gzd = gridz_define;
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dht = (gzd==0)?gridz*7 : (gzd==1)?h_bot+gridz+h_base : gridz-(enable_lip?3.8:0);
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assert(dht > 0, "Height is too small!");
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dht2 = enable_zsnap?((abs(dht)%7==0)?dht:dht+7-abs(dht)%7):dht;
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d_height = dht2-h_base;
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r_scoop = length*((d_height-2)/7+1)/12 - r_f2; // scoop radius
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d_wall2 = r_base-r_c1-d_clear*sqrt(2);
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xl = gridx*length-2*d_clear-2*d_wall+d_div;
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yl = gridy*length-2*d_clear-2*d_wall+d_div;
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echo("=====");
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echo(height_total=d_height+h_base+(enable_lip?3.8:0));
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echo(effective_units=(d_height+h_base)/7);
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echo("=====");
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// ===== User Modules ===== //
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// Creates an equally divided gridfinity bin.
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//
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// n_divx: number of x compartments (ideally, coprime w/ gridx)
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// n_divy: number of y compartments (ideally, coprime w/ gridy)
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// set n_div values to 0 for a solid bin
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// style_tab: tab style for all compartments. see cut()
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// enable_scoop: scoop toggle for all compartments. see cut()
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module gridfinityEqual(n_divx=1, n_divy=1, style_tab=1, enable_scoop=true) {
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gridfinityCustom()
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for (i = [1:n_divx])
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for (j = [1:n_divy])
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cut((i-1)*gridx/n_divx,(j-1)*gridy/n_divy, gridx/n_divx, gridy/n_divy, style_tab, enable_scoop);
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}
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// wrapper module
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// DOES NOT CHECK FOR VALID COMPARTMENT STRUCTURE
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module gridfinityCustom() {
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if (gridz > 0) {
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difference() {
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color("firebrick") block_bottom(d_height-0.1);
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children();
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}
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color("royalblue") block_wall();
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}
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color("orange") block_base();
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}
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// Function to include in the custom() module to individually slice bins
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// Will try to clamp values to fit inside the provided base size
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//
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// x: start coord. x=1 is the left side of the bin.
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// y: start coord. y=1 is the bottom side of the bin.
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// w: width of compartment, in # of bases covered
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// h: height of compartment, in # of basese covered
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// t: tab style of this specific compartment.
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// alignment only matters if the compartment size is larger than d_tabw
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// 0:full, 1:auto, 2:left, 3:center, 4:right, 5:none
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// Automatic alignment will use left tabs for bins on the left edge, right tabs for bins on the right edge, and center tabs everywhere else.
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// s: toggle the rounded back corner that allows for easy removal
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module cut(x=0, y=0, w=1, h=1, t=1, s=true) {
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cut_move(x,y,w,h)
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block_cutter(clp(x,0,gridx), clp(y,0,gridy), clp(w,0,gridx-x), clp(h,0,gridy-y), t, s);
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}
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// Translates an object from the origin point to the center of the requested compartment block, can be used to add custom cuts in the bin
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// See cut() module for parameter descriptions
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module cut_move(x, y, w, h) {
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cut_move_unsafe(clp(x,0,gridx), clp(y,0,gridy), clp(w,0,gridx-x), clp(h,0,gridy-y))
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children();
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}
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// ===== Modules ===== //
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module profile_base() {
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polygon([
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[0,0],
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[0,h_base],
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[r_base,h_base],
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[r_base-r_c2,h_base-r_c2],
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[r_base-r_c2,r_c1],
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[r_base-r_c2-r_c1,0]
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]);
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}
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module block_base() {
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translate([0,0,h_base])
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rounded_rectangle(gridx*length-0.5+0.002, gridy*length-0.5+0.002, h_bot/1.5, r_fo1/2+0.001);
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intersection(){
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translate([0,0,-1])
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rounded_rectangle(gridx*length-0.5+0.005, gridy*length-0.5+0.005, h_base+h_bot/2*10, r_fo1/2+0.001);
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pattern_linear(gridx, gridy, length)
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render()
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difference() {
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translate([0,0,h_base])
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mirror([0,0,1])
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union() {
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hull() {
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rounded_square(length-0.05-2*r_c2-2*r_c1, h_base, r_fo3/2);
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rounded_square(length-0.05-2*r_c2, h_base-r_c1, r_fo2/2);
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}
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hull() {
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rounded_square(length-0.05-2*r_c2, r_c2, r_fo2/2);
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mirror([0,0,1])
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rounded_square(length-0.05, h_bot/2, r_fo1/2);
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}
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}
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if (enable_holes)
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pattern_circular(4)
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translate([d_hole/2, d_hole/2, 0]) {
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union() {
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difference() {
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cylinder(h = 2*(h_hole+(enable_hole_slit?0.2:0)), r = r_hole2, center=true);
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if (enable_hole_slit)
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copy_mirror([0,1,0])
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translate([-1.5*r_hole2,r_hole1+0.1,h_hole])
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cube([r_hole2*3,r_hole2*3, 0.4]);
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}
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cylinder(h = 3*h_base, r = r_hole1, center=true);
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}
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}
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}
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}
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}
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module profile_wall_sub_sub() {
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polygon([
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[0,0],
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[d_wall/2,0],
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[d_wall/2,d_height-1.2-d_wall2+d_wall/2],
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[d_wall2-d_clear,d_height-1.2],
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[d_wall2-d_clear,d_height+h_base],
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[0,d_height+h_base]
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]);
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}
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module profile_wall_sub() {
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difference() {
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profile_wall_sub_sub();
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color("red")
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offset(delta = d_clear)
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translate([r_base-d_clear,d_height,0])
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mirror([1,0,0])
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profile_base();
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square([d_wall,0]);
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}
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}
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module profile_wall() {
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translate([r_base,0,0])
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mirror([1,0,0])
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difference() {
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profile_wall_sub();
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difference() {
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translate([0, d_height+h_base-d_clear*sqrt(2), 0])
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circle(r_base/2);
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offset(r = r_f1)
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offset(delta = -r_f1)
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profile_wall_sub();
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}
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}
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}
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// lipless profile
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module profile_wall2() {
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translate([r_base,0,0])
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mirror([1,0,0])
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square([d_wall,d_height]);
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}
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module block_wall() {
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translate([0,0,h_base])
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sweep_rounded(gridx*length-2*r_base-0.5-0.001, gridy*length-2*r_base-0.5-0.001)
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if (enable_lip) profile_wall();
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else profile_wall2();
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}
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module block_bottom( h = 2.2 ) {
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translate([0,0,h_base+0.1])
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rounded_rectangle(gridx*length-0.5-d_wall/4, gridy*length-0.5-d_wall/4, h, r_base+0.01);
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}
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module cut_move_unsafe(x, y, w, h) {
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translate([(x)*xl/gridx,(y)*yl/gridy,0])
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translate([(-xl+d_div)/2,(-yl+d_div)/2,0])
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translate([(w*xl/gridx-d_div)/2,(h*yl/gridy-d_div)/2,0])
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children();
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}
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module block_cutter(x,y,w,h,t,s) {
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v_len_tab = d_tabh;
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v_len_lip = d_wall2-d_wall+1.2;
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v_cut_tab = d_tabh - (2*r_f1)/tan(a_tab);
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v_cut_lip = d_wall2-d_wall-d_clear;
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v_ang_tab = a_tab;
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v_ang_lip = 45;
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ycutfirst = y == 0 && enable_lip;
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ycutlast = abs(y+h-gridy)<0.001 && enable_lip;
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xcutfirst = x == 0 && enable_lip;
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xcutlast = abs(x+w-gridx)<0.001 && enable_lip;
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zsmall = (d_height+h_base)/7 < 3;
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ylen = h*yl/gridy-d_div;
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xlen = w*xl/gridx-d_div;
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height = d_height;
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extent = (s && ycutfirst ? d_wall2-d_wall : 0);
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tab = (zsmall || t == 5) ? (ycutlast?v_len_lip:0) : v_len_tab;
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ang = (zsmall || t == 5) ? (ycutlast?v_ang_lip:0) : v_ang_tab;
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cut = (zsmall || t == 5) ? (ycutlast?v_cut_lip:0) : v_cut_tab;
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style = (t > 1 && t < 5) ? t-3 : (x == 0 ? -1 : xcutlast ? 1 : 0);
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translate([0,ylen/2,h_base+h_bot])
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rotate([90,0,-90]) {
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if (!zsmall && xlen - d_tabw > 4*r_f2 && t != 0) {
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fillet_cutter(3,"bisque")
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difference() {
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transform_tab(style, xlen, ((xcutfirst&&style==-1)||(xcutlast&&style==1))?v_cut_lip:0)
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translate([ycutlast?d_wall2-d_wall:0,0])
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profile_cutter(height-h_bot, ylen/2, s);
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if (xcutfirst)
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translate([0,0,(xlen/2-r_f2)-v_cut_lip])
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cube([ylen,height,v_cut_lip*2]);
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if (xcutlast)
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translate([0,0,-(xlen/2-r_f2)-v_cut_lip])
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cube([ylen,height,v_cut_lip*2]);
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}
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if (t != 0 && t != 5)
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fillet_cutter(2,"indigo")
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difference() {
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transform_tab(style, xlen, ((xcutfirst&&style==-1)||(xcutlast&&style==1))?v_cut_lip:0)
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difference() {
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intersection() {
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profile_cutter(height-h_bot, ylen-extent, s);
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profile_cutter_tab(height-h_bot, v_len_tab, v_ang_tab);
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}
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if (ycutlast) profile_cutter_tab(height-h_bot, v_len_lip, 45);
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}
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if (xcutfirst)
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translate([ylen/2,0,xlen/2])
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rotate([0,90,0])
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transform_main(2*ylen)
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profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
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if (xcutlast)
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translate([ylen/2,0,-xlen/2])
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rotate([0,-90,0])
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transform_main(2*ylen)
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profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
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}
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}
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fillet_cutter(1,"seagreen")
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translate([0,0,xcutlast?v_cut_lip/2:0])
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translate([0,0,xcutfirst?-v_cut_lip/2:0])
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transform_main(xlen-(xcutfirst?v_cut_lip:0)-(xcutlast?v_cut_lip:0))
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translate([cut,0])
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profile_cutter(height-h_bot, ylen-extent-cut-(!s&&ycutfirst?v_cut_lip:0), s);
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fillet_cutter(0,"hotpink")
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difference() {
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transform_main(xlen)
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difference() {
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profile_cutter(height-h_bot, ylen-extent, s);
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if (!((zsmall || t == 5) && !ycutlast))
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profile_cutter_tab(height-h_bot, tab, ang);
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if (!s && y == 0)
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translate([ylen-extent,0,0])
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mirror([1,0,0])
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profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
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}
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if (xcutfirst)
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color("indigo")
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translate([ylen/2,0,xlen/2])
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rotate([0,90,0])
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transform_main(2*ylen)
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profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
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if (xcutlast)
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color("indigo")
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translate([ylen/2,0,-xlen/2])
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rotate([0,-90,0])
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transform_main(2*ylen)
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profile_cutter_tab(height-h_bot, v_len_lip, v_ang_lip);
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}
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}
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}
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module transform_main(xlen) {
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translate([0,0,-(xlen-2*r_f2)/2])
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linear_extrude(xlen-2*r_f2)
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children();
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}
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module transform_tab(type, xlen, cut) {
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mirror([0,0,type==1?1:0])
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copy_mirror([0,0,-(abs(type)-1)])
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translate([0,0,-(xlen)/2])
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translate([0,0,r_f2])
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linear_extrude((xlen-d_tabw-abs(cut))/(1-(abs(type)-1))-2*r_f2)
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children();
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}
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module fillet_cutter(t = 0, c = "goldenrod") {
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color(c)
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minkowski() {
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children();
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sphere(r = r_f2-t/1000);
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}
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}
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module profile_cutter(h, length, s) {
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scoop = s ? r_scoop : 0;
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translate([r_f2,r_f2])
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hull() {
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if (length-scoop-2*r_f2 > 0)
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square(0.1);
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if (scoop < h) {
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translate([length-2*r_f2,h-r_f2/2])
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mirror([1,1])
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square(0.1);
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translate([0,h-r_f2/2])
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mirror([0,1])
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square(0.1);
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}
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difference() {
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translate([length-scoop-2*r_f2, scoop])
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if (scoop != 0) {
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intersection() {
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circle(scoop);
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mirror([0,1]) square(2*scoop);
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}
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} else mirror([1,0]) square(0.1);
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translate([length-scoop-2*r_f2,-1])
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square([-(length-scoop-2*r_f2),2*h]);
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translate([0,h])
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square([2*length,scoop]);
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}
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}
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}
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module profile_cutter_tab(h, tab, ang) {
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if (tab > 0)
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color("blue")
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offset(delta = r_f2)
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polygon([[0,h],[tab,h],[0,h-tab*tan(ang)]]);
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}
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// ==== Utilities =====
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function clp(x,a,b) = min(max(x,a),b);
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module rounded_rectangle(length, width, height, rad) {
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linear_extrude(height)
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offset(rad)
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offset(-rad)
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square([length,width], center = true);
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}
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module rounded_square(length, height, rad) {
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rounded_rectangle(length, length, height, rad);
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}
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module copy_mirror(vec=[0,1,0]) {
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children();
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if (vec != [0,0,0])
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mirror(vec)
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children();
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}
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module pattern_linear(x = 1, y = 1, spacing = 0) {
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translate([-(x-1)*spacing/2,-(y-1)*spacing/2,0])
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for (i = [1:x])
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for (j = [1:y])
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translate([(i-1)*spacing,(j-1)*spacing,0])
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children();
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}
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module pattern_circular(n=2) {
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for (i = [1:n])
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rotate(i*360/n)
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children();
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}
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module sweep_rounded(w=10, h=10) {
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union() pattern_circular(2) {
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copy_mirror([1,0,0])
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translate([w/2,h/2,0])
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rotate_extrude(angle = 90, convexity = 4)
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children();
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translate([w/2,0,0])
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rotate([90,0,0])
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linear_extrude(height = h, center = true)
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children();
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rotate([0,0,90])
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translate([h/2,0,0])
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rotate([90,0,0])
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linear_extrude(height = w, center = true)
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children();
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}
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}
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