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https://github.com/BelfrySCAD/BOSL2.git
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Fixed shift handling for rect geometries.
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2 changed files with 43 additions and 43 deletions
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@ -91,7 +91,7 @@ $tags_hidden = [];
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// Function: anchorpt()
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// Usage:
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// anchor(name, pos, [dir], [rot])
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// anchor(name, pos, <dir>, <rot>)
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// Description:
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// Creates a anchor data structure.
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// Arguments:
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@ -105,21 +105,21 @@ function anchorpt(name, pos=[0,0,0], orient=UP, spin=0) = [name, pos, orient, sp
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// Function: attach_geom()
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//
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// Usage: Square/Trapezoid Geometry
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// geom = attach_geom(anchor, spin, [orient], two_d, size, [size2], [shift], [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, two_d, size, <size2>, <shift>, <cp>, <offset>, <anchors>);
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// Usage: Circle/Oval Geometry
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// geom = attach_geom(anchor, spin, [orient], two_d, r|d, [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, two_d, r|d, <cp>, <offset>, <anchors>);
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// Usage: 2D Path/Polygon Geometry
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// geom = attach_geom(anchor, spin, [orient], two_d, path, [extent], [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, two_d, path, <extent>, <cp>, <offset>, <anchors>);
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// Usage: Cubical/Prismoidal Geometry
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// geom = attach_geom(anchor, spin, [orient], size, [size2], [shift], [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, <orient>, size, <size2>, <shift>, <cp>, <offset>, <anchors>);
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// Usage: Cylindrical Geometry
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// geom = attach_geom(anchor, spin, [orient], r|d, l, [cp], [axis], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, <orient>, r|d, l, <cp>, <axis>, <offset>, <anchors>);
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// Usage: Conical Geometry
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// geom = attach_geom(anchor, spin, [orient], r1|d1, r2|d2, l, [cp], [axis], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, <orient>, r1|d1, r2|d2, l, <cp>, <axis>, <offset>, <anchors>);
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// Usage: Spheroid/Ovoid Geometry
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// geom = attach_geom(anchor, spin, [orient], r|d, [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, <orient>, r|d, <cp>, <offset>, <anchors>);
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// Usage: VNF Geometry
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// geom = attach_geom(anchor, spin, [orient], vnf, [extent], [cp], [offset], [anchors]);
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// geom = attach_geom(anchor, spin, <orient>, vnf, <extent>, <cp>, <offset>, <anchors>);
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//
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// Description:
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// Given arguments that describe the geometry of an attachable object, returns the internal geometry description.
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@ -332,8 +332,8 @@ function attach_geom_size(geom) =
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) delt
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) : type == "rect"? ( //size, size2
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let(
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size=geom[1], size2=geom[2],
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maxx = max(size.x,size2)
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size=geom[1], size2=geom[2], shift=geom[3],
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maxx = max(size.x,size2+abs(shift))
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) [maxx, size.y]
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) : type == "circle"? ( //r
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let( r=geom[1] )
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@ -349,7 +349,7 @@ function attach_geom_size(geom) =
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// Function: attach_transform()
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// Usage:
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// mat = attach_transform(anchor=CENTER, spin=0, orient=UP, geom);
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// mat = attach_transform(anchor, spin, orient, geom);
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// Description:
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// Returns the affine3d transformation matrix needed to `anchor`, `spin`, and `orient`
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// the given geometry `geom` shape into position.
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@ -557,12 +557,12 @@ function find_anchor(anchor, geom) =
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mpt = approx(point2d(anchor),[0,0])? [maxx,0,0] : [maxx, avgy, avgz],
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pos = point3d(cp) + rot(from=RIGHT, to=anchor, p=mpt)
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) [anchor, pos, anchor, oang]
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) : type == "rect"? ( //size, size2
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) : type == "rect"? ( //size, size2, shift
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let(
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size=geom[1], size2=geom[2],
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size=geom[1], size2=geom[2], shift=geom[3],
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u = (anchor.y+1)/2,
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frpt = [size.x/2*anchor.x, -size.y/2],
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bkpt = [size2/2*anchor.x, size.y/2],
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bkpt = [size2/2*anchor.x+shift, size.y/2],
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pos = point2d(cp) + lerp(frpt, bkpt, u) + offset,
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vec = unit(rot(from=BACK, to=bkpt-frpt, p=anchor),[0,1])
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) [anchor, pos, vec, 0]
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@ -629,21 +629,21 @@ function attachment_is_shown(tags) =
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// Function: reorient()
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//
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// Usage: Square/Trapezoid Geometry
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// reorient(anchor, spin, [orient], two_d, size, [size2], [shift], [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, two_d, size, <size2>, <shift>, <cp>, <offset>, <anchors>, <p>);
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// Usage: Circle/Oval Geometry
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// reorient(anchor, spin, [orient], two_d, r|d, [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, two_d, r|d, <cp>, <offset>, <anchors>, <p>);
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// Usage: 2D Path/Polygon Geometry
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// reorient(anchor, spin, [orient], two_d, path, [extent], [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, two_d, path, <extent>, <cp>, <offset>, <anchors>, <p>);
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// Usage: Cubical/Prismoidal Geometry
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// reorient(anchor, spin, [orient], size, [size2], [shift], [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, size, <size2>, <shift>, <cp>, <offset>, <anchors>, <p>);
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// Usage: Cylindrical Geometry
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// reorient(anchor, spin, [orient], r|d, l, [offset], [axis], [cp], [anchors], [p]);
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// reorient(anchor, spin, <orient>, r|d, l, <offset>, <axis>, <cp>, <anchors>, <p>);
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// Usage: Conical Geometry
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// reorient(anchor, spin, [orient], r1|d1, r2|d2, l, [axis], [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, r1|d1, r2|d2, l, <axis>, <cp>, <offset>, <anchors>, <p>);
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// Usage: Spheroid/Ovoid Geometry
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// reorient(anchor, spin, [orient], r|d, [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, r|d, <cp>, <offset>, <anchors>, <p>);
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// Usage: VNF Geometry
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// reorient(anchor, spin, [orient], vnf, [extent], [cp], [offset], [anchors], [p]);
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// reorient(anchor, spin, <orient>, vnf, <extent>, <cp>, <offset>, <anchors>, <p>);
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//
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// Description:
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// Given anchor, spin, orient, and general geometry info for a managed volume, this calculates
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@ -723,21 +723,21 @@ function reorient(
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// Module: attachable()
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//
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// Usage: Square/Trapezoid Geometry
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// attachable(anchor, spin, [orient], two_d, size, [size2], [shift], [cp], [offset], [anchors] ...
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// attachable(anchor, spin, two_d, size, <size2>, <shift>, <cp>, <offset>, <anchors> ...
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// Usage: Circle/Oval Geometry
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// attachable(anchor, spin, [orient], two_d, r|d, [cp], [offset], [anchors]) ...
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// attachable(anchor, spin, two_d, r|d, <cp>, <offset>, <anchors>) ...
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// Usage: 2D Path/Polygon Geometry
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// attachable(anchor, spin, [orient], two_d, path, [extent], [cp], [offset], [anchors] ...
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// attachable(anchor, spin, two_d, path, <extent>, <cp>, <offset>, <anchors> ...
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// Usage: Cubical/Prismoidal Geometry
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// attachable(anchor, spin, [orient], size, [size2], [shift], [cp], [offset], [anchors] ...
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// attachable(anchor, spin, <orient>, size, <size2>, <shift>, <cp>, <offset>, <anchors> ...
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// Usage: Cylindrical Geometry
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// attachable(anchor, spin, [orient], r|d, l, [axis], [cp], [offset], [anchors]) ...
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// attachable(anchor, spin, <orient>, r|d, l, <axis>, <cp>, <offset>, <anchors>) ...
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// Usage: Conical Geometry
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// attachable(anchor, spin, [orient], r1|d1, r2|d2, l, [axis], [cp], [offset], [anchors]) ...
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// attachable(anchor, spin, <orient>, r1|d1, r2|d2, l, <axis>, <cp>, <offset>, <anchors>) ...
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// Usage: Spheroid/Ovoid Geometry
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// attachable(anchor, spin, [orient], r|d, [cp], [offset], [anchors]) ...
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// attachable(anchor, spin, <orient>, r|d, <cp>, <offset>, <anchors>) ...
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// Usage: VNF Geometry
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// attachable(anchor, spin, [orient], vnf, [extent], [cp], [offset], [anchors]) ...
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// attachable(anchor, spin, <orient>, vnf, <extent>, <cp>, <offset>, <anchors>) ...
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//
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// Description:
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// Manages the anchoring, spin, orientation, and attachments for a 3D volume or 2D area.
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@ -969,8 +969,8 @@ module position(from)
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// Module: attach()
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// Usage:
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// attach(from, [overlap]) ...
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// attach(from, to, [overlap]) ...
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// attach(from, <overlap>) ...
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// attach(from, to, <overlap>) ...
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// Description:
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// Attaches children to a parent object at an anchor point and orientation.
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// Attached objects will be overlapped into the parent object by a little bit,
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@ -1012,7 +1012,7 @@ module attach(from, to=undef, overlap=undef, norot=false)
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// Module: face_profile()
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// Usage:
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// face_profile(faces=[], convexity=10, r, d) ...
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// face_profile(faces, r, d, <convexity>) ...
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// Description:
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// Given a 2D edge profile, extrudes it into a mask for all edges and corners bounding each given face.
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// Arguments:
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@ -1032,7 +1032,7 @@ module face_profile(faces=[], r, d, convexity=10) {
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// Module: edge_profile()
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// Usage:
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// edge_profile([edges], [except], [convexity]) ...
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// edge_profile(<edges>, <except>, <convexity>) ...
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// Description:
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// Takes a 2D mask shape and attaches it to the selected edges, with the appropriate orientation
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// and extruded length to be `diff()`ed away, to give the edge a matching profile.
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@ -1082,7 +1082,7 @@ module edge_profile(edges=EDGES_ALL, except=[], convexity=10) {
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// Module: corner_profile()
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// Usage:
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// corner_profile([corners], [except], [convexity]) ...
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// corner_profile(<corners>, <except>, <convexity>) ...
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// Description:
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// Takes a 2D mask shape, rotationally extrudes and converts it into a corner mask, and attaches it
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// to the selected corners with the appropriate orientation. Tags it as a "mask" to allow it to be
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@ -1144,7 +1144,7 @@ module corner_profile(corners=CORNERS_ALL, except=[], r, d, convexity=10) {
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// Module: edge_mask()
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// Usage:
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// edge_mask([edges], [except]) ...
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// edge_mask(<edges>, <except>) ...
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// Description:
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// Takes a 3D mask shape, and attaches it to the given edges, with the
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// appropriate orientation to be `diff()`ed away.
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@ -1186,7 +1186,7 @@ module edge_mask(edges=EDGES_ALL, except=[]) {
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// Module: corner_mask()
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// Usage:
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// corner_mask([corners], [except]) ...
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// corner_mask(<corners>, <except>) ...
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// Description:
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// Takes a 3D mask shape, and attaches it to the given corners, with the appropriate
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// orientation to be `diff()`ed away. The 3D corner mask shape should be designed to
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@ -1305,8 +1305,8 @@ module show(tags="")
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// Module: diff()
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// Usage:
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// diff(neg, [keep]) ...
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// diff(neg, pos, [keep]) ...
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// diff(neg, <keep>) ...
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// diff(neg, pos, <keep>) ...
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// Description:
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// If `neg` is given, takes the union of all children with tags that are in `neg`, and differences
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// them from the union of all children with tags in `pos`. If `pos` is not given, then all items in
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@ -1363,8 +1363,8 @@ module diff(neg, pos=undef, keep=undef)
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// Module: intersect()
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// Usage:
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// intersect(a, [keep]) ...
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// intersect(a, b, [keep]) ...
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// intersect(a, <keep>) ...
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// intersect(a, b, <keep>) ...
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// Description:
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// If `a` is given, takes the union of all children with tags that are in `a`, and `intersection()`s
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// them with the union of all children with tags in `b`. If `b` is not given, then the union of all
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@ -8,7 +8,7 @@
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//////////////////////////////////////////////////////////////////////
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BOSL_VERSION = [2,0,482];
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BOSL_VERSION = [2,0,483];
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// Section: BOSL Library Version Functions
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