format

2025-08-12 09:44:16 +02:00 · 2022-04-03 14:16:17 +08:00
parent fb4a626707
commit 8ce96f9128
5 changed files with 66 additions and 75 deletions
--- a/examples/maze/noisy_circle_maze.scad
+++ b/examples/maze/noisy_circle_maze.scad
@@ -18,8 +18,7 @@ module noisy_circle_maze(r_cells, cell_width, wall_thickness, origin_offset, noi
    noisy_f = is_undef(noisy_factor) ? 1 : noisy_factor;
    half_wall_thickness = wall_thickness / 2;
    seed = rand(0, 256);
-    for(wall = walls) {
-        for(i = [0:len(wall) - 2]) {
+    for(wall = walls, i = [0:len(wall) - 2]) {
        p0 = ptf_circle(rect_size, wall[i]);
        p1 = ptf_circle(rect_size, wall[i + 1]);
        pn00 = nz_perlin2(p0[0], p0[1], seed) * noisy_f;
@@ -29,7 +28,6 @@ module noisy_circle_maze(r_cells, cell_width, wall_thickness, origin_offset, noi
        polyline_join([p0 + [pn00, pn01], p1 + [pn10, pn11]])
            circle(half_wall_thickness);
    } 
-    } 
 }

 noisy_circle_maze(
--- a/examples/maze/pyramid_hex_maze.scad
+++ b/examples/maze/pyramid_hex_maze.scad
@@ -10,13 +10,11 @@ module pyramid_hex_maze(columns, cell_radius, wall_thickness) {
    module bottom(rows, columns, cell_radius, wall_thickness) {
        grid_h = 2 * cell_radius * sin(60);
        grid_w = cell_radius + cell_radius * cos(60);	
-        for(x_cell = [0:columns - 1]) {
-            for(y_cell = [0:rows - 1]) {
+        for(x_cell = [0:columns - 1], (y_cell = [0:rows - 1]) {
            translate([grid_w * x_cell, grid_h * y_cell + (x_cell % 2 == 0 ? 0 : grid_h / 2), 0])  
                circle(cell_radius + wall_thickness, $fn = 6);
        }
    }
-    }

    rows = round(0.866 * columns - 0.211);

--- a/examples/maze/regular_polygon_maze.scad
+++ b/examples/maze/regular_polygon_maze.scad
@@ -52,7 +52,7 @@ module regular_polygon_maze(radius, ccells, levels, thickness = 1, sides) {
 	cells = mz_square(ccells, levels, y_wrapping = true);

 	difference() {
-		render() union() {
+		union() {
 			for(i = [1 : levels + 1]) {
 			    ring_regular_polygon(r * i, thickness, sides);
 			}
@@ -70,7 +70,7 @@ module regular_polygon_maze(radius, ccells, levels, thickness = 1, sides) {
 			}
 	    }
 		
-		render() union() {
+		union() {
 		    // maze entry
 			// ring_regular_polygon_sector(r, arc_angle / 1.975 , thickness, r / 3, sides);   

--- a/examples/maze/rock_theta_maze.scad
+++ b/examples/maze/rock_theta_maze.scad
@@ -44,9 +44,7 @@ module rock_theta_maze(rings, begining_columns, cell_width, rock_size, height_sc
 	scale([1, 1, height_scale]) 
 	difference() {
 		union() {
-			for(rings = maze) {
-				for(cell = rings) {
-					
+			for(rings = maze, cell = rings) {	
 				ri = mz_theta_get(cell, "r");
 				ci = mz_theta_get(cell, "c");
 				if([ri, ci] != [0, 0]) {
@@ -70,7 +68,6 @@ module rock_theta_maze(rings, begining_columns, cell_width, rock_size, height_sc
 					}
 				}
 			}
-			}
 			
 			thetaStep = 360 / len(maze[rings - 1]);
 			r = cell_width * (rings + 1);
--- a/examples/maze/theta_maze.scad
+++ b/examples/maze/theta_maze.scad
@@ -18,8 +18,7 @@ module theta_maze(rings, beginning_number, cell_width, wall_thickness, wall_heig

    half_wall_thickness = wall_thickness / 2;
 	linear_extrude(wall_height) {
-		for(rings = maze) {
-			for(cell = rings) {
+		for(rings = maze, cell = rings) {
 			ri = mz_theta_get(cell, "r");
 			ci = mz_theta_get(cell, "c");
 			wallType = mz_theta_get(cell, "t");
@@ -43,7 +42,6 @@ module theta_maze(rings, beginning_number, cell_width, wall_thickness, wall_heig
 					circle(half_wall_thickness);
 			}
 		}
-		}
 		
 		thetaStep = 360 / len(maze[rings - 1]);
 		r = cell_width * (rings + 1);