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tier-2-offset-handle-mug / gpt-5.1-codex-max
5 run / 累計 268.6s / 累計 $0.3795
openai gpt 5.1 codex max bare
bare (provider default effort)
run detail → render
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
wall_thickness = (outer_diameter - inner_diameter) / 2;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1; // how much to embed into the mug wall
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
outer_w = handle_inner_width + 2 * handle_wall;
outer_r = outer_h / 2;
inner_h = handle_inner_height;
inner_w = handle_inner_width;
inner_r = inner_h / 2;
difference() {
// Outer D shape
union() {
translate([0, -outer_h / 2])
square([outer_w - outer_r, outer_h], center = false);
translate([outer_w - outer_r, 0])
circle(r = outer_r);
}
// Inner void
union() {
translate([0, -inner_h / 2])
square([inner_w - inner_r, inner_h], center = false);
translate([inner_w - inner_r, 0])
circle(r = inner_r);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0]) // orient so extrusion goes along global Y
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
} パラメータ (9) —
スライダを動かすと openscad-wasm で再レンダリング
prompt
OpenSCAD で、向きが指定されたマグカップを作ってください。 本体: - 外径 80mm、内径 70mm(肉厚 5mm)、高さ 90mm の円筒形マグ - 底面の厚みは 6mm - 内側は飲み物を入れられるよう中空 取手(handle): - マグの **+X 軸方向の側面のみ** に付ける(他の方向には付けない) - 取手は D 字形状(外側が半円、本体側が直線)で、本体外周にしっかり接続する - 取手の内側の空間は高さ 30mm × 幅 25mm(指 3 本ぐらい入る) - 取手はマグの高さ方向の中央付近に付ける - 本体と取手は確実に union され、マニフォールド(隙間や宙吊りなし)を保つ 完成したコード全体を ```openscad ... ``` のフェンスで囲んで出力してください。コードのみで、追加の説明は不要です。
variant: effort
SCAD (62 lines)
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
wall_thickness = (outer_diameter - inner_diameter) / 2;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1; // how much to embed into the mug wall
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
outer_w = handle_inner_width + 2 * handle_wall;
outer_r = outer_h / 2;
inner_h = handle_inner_height;
inner_w = handle_inner_width;
inner_r = inner_h / 2;
difference() {
// Outer D shape
union() {
translate([0, -outer_h / 2])
square([outer_w - outer_r, outer_h], center = false);
translate([outer_w - outer_r, 0])
circle(r = outer_r);
}
// Inner void
union() {
translate([0, -inner_h / 2])
square([inner_w - inner_r, inner_h], center = false);
translate([inner_w - inner_r, 0])
circle(r = inner_r);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0]) // orient so extrusion goes along global Y
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}—
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—
iteration: iter-png
render_error
openscad stl render failed (exit 1): ERROR: Parser error: syntax error in file ../../../../../tmp/render-ZrtOaj/input.scad, line 37 Can't parse file '/tmp/render-ZrtOaj/input.scad'!
diff vs bare: +30/-15
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
wall_thickness = (outer_diameter - inner_diameter) / 2;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1; // how much to embed into the mug wall
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
- outer_w = handle_inner_width + 2 * handle_wall;
- outer_r = outer_h / 2;
inner_h = handle_inner_height;
- inner_w = handle_inner_width;
+ outer_r = outer_h / 2;
inner_r = inner_h / 2;
+ // total widths
+ outer_w_total = handle_inner_width + 2 * handle_wall;
+ inner_w_total = handle_inner_width;
+ // straight segment widths so total width = straight + radius
+ outer_w_str = outer_w_total - outer_r;
+ inner_w_str = inner_w_total - inner_r;
+ // Outer D shape
+ outer_shape = union() {
+ translate([0, -outer_h / 2])
+ square([outer_w_str, outer_h], center = false);
+ translate([outer_w_str, 0])
+ circle(r = outer_r);
+ };
+ // Inner void D shape
+ inner_shape = union() {
+ translate([0, -inner_h / 2])
+ square([inner_w_str, inner_h], center = false);
+ translate([inner_w_str, 0])
+ circle(r = inner_r);
+ };
+ // Clip to keep straight side at x=0
+ clip_w = outer_w_str + outer_r + 1;
+ clip_h = outer_h + 2;
difference() {
- // Outer D shape
- union() {
- translate([0, -outer_h / 2])
- square([outer_w - outer_r, outer_h], center = false);
- translate([outer_w - outer_r, 0])
- circle(r = outer_r);
+ intersection() {
+ outer_shape;
+ translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
}
- // Inner void
- union() {
- translate([0, -inner_h / 2])
- square([inner_w - inner_r, inner_h], center = false);
- translate([inner_w - inner_r, 0])
- circle(r = inner_r);
+ intersection() {
+ inner_shape;
+ translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0]) // orient so extrusion goes along global Y
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}
SCAD (77 lines)
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
wall_thickness = (outer_diameter - inner_diameter) / 2;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1; // how much to embed into the mug wall
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
inner_h = handle_inner_height;
outer_r = outer_h / 2;
inner_r = inner_h / 2;
// total widths
outer_w_total = handle_inner_width + 2 * handle_wall;
inner_w_total = handle_inner_width;
// straight segment widths so total width = straight + radius
outer_w_str = outer_w_total - outer_r;
inner_w_str = inner_w_total - inner_r;
// Outer D shape
outer_shape = union() {
translate([0, -outer_h / 2])
square([outer_w_str, outer_h], center = false);
translate([outer_w_str, 0])
circle(r = outer_r);
};
// Inner void D shape
inner_shape = union() {
translate([0, -inner_h / 2])
square([inner_w_str, inner_h], center = false);
translate([inner_w_str, 0])
circle(r = inner_r);
};
// Clip to keep straight side at x=0
clip_w = outer_w_str + outer_r + 1;
clip_h = outer_h + 2;
difference() {
intersection() {
outer_shape;
translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
}
intersection() {
inner_shape;
translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0]) // orient so extrusion goes along global Y
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}
diff vs i1: +18/-26
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
- wall_thickness = (outer_diameter - inner_diameter) / 2;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
- handle_overlap = 1; // how much to embed into the mug wall
+ handle_overlap = 1;
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
inner_h = handle_inner_height;
outer_r = outer_h / 2;
inner_r = inner_h / 2;
- // total widths
outer_w_total = handle_inner_width + 2 * handle_wall;
inner_w_total = handle_inner_width;
- // straight segment widths so total width = straight + radius
outer_w_str = outer_w_total - outer_r;
inner_w_str = inner_w_total - inner_r;
- // Outer D shape
- outer_shape = union() {
- translate([0, -outer_h / 2])
- square([outer_w_str, outer_h], center = false);
- translate([outer_w_str, 0])
- circle(r = outer_r);
- };
- // Inner void D shape
- inner_shape = union() {
- translate([0, -inner_h / 2])
- square([inner_w_str, inner_h], center = false);
- translate([inner_w_str, 0])
- circle(r = inner_r);
- };
- // Clip to keep straight side at x=0
- clip_w = outer_w_str + outer_r + 1;
- clip_h = outer_h + 2;
difference() {
intersection() {
- outer_shape;
- translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
+ union() {
+ translate([0, -outer_h / 2])
+ square([outer_w_str, outer_h], center = false);
+ translate([outer_w_str, 0])
+ circle(r = outer_r);
+ }
+ translate([0, -outer_h / 2])
+ square([outer_w_total, outer_h], center = false);
}
intersection() {
- inner_shape;
- translate([0, -outer_h / 2 - 1]) square([clip_w, clip_h], center = false);
+ union() {
+ translate([0, -inner_h / 2])
+ square([inner_w_str, inner_h], center = false);
+ translate([inner_w_str, 0])
+ circle(r = inner_r);
+ }
+ translate([0, -outer_h / 2])
+ square([outer_w_total, outer_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
- rotate([-90, 0, 0]) // orient so extrusion goes along global Y
+ rotate([-90, 0, 0])
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}
SCAD (69 lines)
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1;
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
inner_h = handle_inner_height;
outer_r = outer_h / 2;
inner_r = inner_h / 2;
outer_w_total = handle_inner_width + 2 * handle_wall;
inner_w_total = handle_inner_width;
outer_w_str = outer_w_total - outer_r;
inner_w_str = inner_w_total - inner_r;
difference() {
intersection() {
union() {
translate([0, -outer_h / 2])
square([outer_w_str, outer_h], center = false);
translate([outer_w_str, 0])
circle(r = outer_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
intersection() {
union() {
translate([0, -inner_h / 2])
square([inner_w_str, inner_h], center = false);
translate([inner_w_str, 0])
circle(r = inner_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0])
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}
diff vs i2: +0/-0
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1;
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
inner_h = handle_inner_height;
outer_r = outer_h / 2;
inner_r = inner_h / 2;
outer_w_total = handle_inner_width + 2 * handle_wall;
inner_w_total = handle_inner_width;
outer_w_str = outer_w_total - outer_r;
inner_w_str = inner_w_total - inner_r;
difference() {
intersection() {
union() {
translate([0, -outer_h / 2])
square([outer_w_str, outer_h], center = false);
translate([outer_w_str, 0])
circle(r = outer_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
intersection() {
union() {
translate([0, -inner_h / 2])
square([inner_w_str, inner_h], center = false);
translate([inner_w_str, 0])
circle(r = inner_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0])
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}
SCAD (69 lines)
// Parameters
outer_diameter = 80;
inner_diameter = 70;
height = 90;
bottom_thickness = 6;
handle_inner_height = 30;
handle_inner_width = 25;
handle_wall = 5;
handle_depth = 12;
handle_overlap = 1;
$fn = 100;
// Mug body
module mug_body() {
difference() {
cylinder(h = height, r = outer_diameter / 2);
translate([0, 0, bottom_thickness])
cylinder(h = height - bottom_thickness, r = inner_diameter / 2);
}
}
// 2D D-shape for handle in the X (radial) and Y (vertical) plane, centered vertically
module handle_shape2d() {
outer_h = handle_inner_height + 2 * handle_wall;
inner_h = handle_inner_height;
outer_r = outer_h / 2;
inner_r = inner_h / 2;
outer_w_total = handle_inner_width + 2 * handle_wall;
inner_w_total = handle_inner_width;
outer_w_str = outer_w_total - outer_r;
inner_w_str = inner_w_total - inner_r;
difference() {
intersection() {
union() {
translate([0, -outer_h / 2])
square([outer_w_str, outer_h], center = false);
translate([outer_w_str, 0])
circle(r = outer_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
intersection() {
union() {
translate([0, -inner_h / 2])
square([inner_w_str, inner_h], center = false);
translate([inner_w_str, 0])
circle(r = inner_r);
}
translate([0, -outer_h / 2])
square([outer_w_total, outer_h], center = false);
}
}
}
// Handle 3D
module handle() {
translate([outer_diameter / 2 - handle_overlap, 0, height / 2])
rotate([-90, 0, 0])
linear_extrude(height = handle_depth, center = true, convexity = 10)
handle_shape2d();
}
// Assemble mug and handle
union() {
mug_body();
handle();
}