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It seems like you've provided the design settings for an STL file or some similar model representation, which is a common format used in 3D printing. Here's a structured approach to dissecting and explaining what these values represent, based on their naming conventions and positions: ## Table of Contents - [Design Layers](#design-layers) - [Outer Shell Design Layer 1 to Layer N](#outer-shell-design-layer-1-to-layer-n) - [Layers Configuration Example](#layers-configuration-example) - [Setting Numbering Example in Context (Outer, Bottom Port Length)](#setting-numbering-example-in-context-outer-bottom-port-length) - [Vertical Extrusions Design Setting: `custom_top_port_corner_resolution` (in Outer, Layer 2, Corner, Positioning on Back or Face Plate)](#vertical-extrusions-design-setting-custom_top_port_corner_resolution-in-outer-layer-2-corner-positioning-on-back-or-face-plate) - [Corner Resolution and Radius in Vertical Extrusion Example](#corner-resolution-and-radius-in-vertical-extrusion-example) - [`custom_top_outer_edge_chamfer_radius` (`C2.2.`): Outer, Edge Corner Chamfer of Top Plate with Rounded Ends (Chamfers or Canted Corners), Edge of `Corner = Layer = C3; Edge Radius Setting on Positioning](#custom_top_outer_edge_chamfer_radius-c22-outerrcorner-of-top-plate-with-rounded-ends-chamfers-or-canted-corners-edge-of-corner-layer-edge-radius-setting-on-positioning) - [Port Position Settings with Corner Extrusion Resolution (`P`, Port), Rotation of Port Stencil Design Setting on Edge (Staple Edge or Stabiliser) Layer or `Position Pn`, Stabiliser Stabilise Edge and its Height in 3D, for `port_n_height`: Bottom Port's Top Inner Layer (`Height N + Layer number to height of the port: Corner Resolution: Resolution Height and Resolution Height of each Layer: 50)](#port-position-settings-with-corner-extrusion-resolution-port-rotation-of-port-stencil-design-setting-on-edge-layer-or-pos) - [Port Rotation Position Design Example (Rotation Port at Position X)](#port-rotation-position-design-example-rotation-port-at-position-x) ## Stacked Layer Designs of Corner Extrusions for a Complex Object in an Assembly Process ``` [[ [[[48.450637,-38.161174], [19.281144,-12.345673]],[ 48.264471,45.141219],[15.956311,49.876342],[24.528868,44.299988] ] ],[ 46.317142,-11.134475 ]]], [ 46.104691,3.235174], ``` Here we're discussing and understanding different positions to create specific corner designs on vertical walls (and bottom edges with chamfers). Note, all extrusions must occur along `Vertical 0-2 axis`. These values in these configurations could easily be substituted by their actual measurements. ### Inner Corners Design Examples: These corners can be set via design layers of custom ports (`Layer C2n + L`); however for simplicity lets assume the inner corner radius at edge point with two layers (top or middle) (`layer n`). To calculate a design where the first top edge extrusions begin to have corner chamfer on its end is found from calculating each face or bottom outer layer. ## Extruding Top, Bottom Layer with Ports To generate specific types of vertical designs based off our examples above. 1. We know `stencil_pattern_element_rotation = 0`. For all faces this can simply represent setting extrusions by using corner positions and rotation for these stencils which should rotate every (`layer x`) if needed (`n == n % C; if ` n==`x`, turn left or clockwise based on the settings given within configuration for that specific `Port # = Number X: custom_bottom_port_length=40:` (if set at even), turn top corner, when 0 rotation at any given time). ```# Position 50 at Stencil (stencil_horizontal_position)= C 50 / ``` In design specifications such as `C2.8`, a rounded chamfer with resolution or edge value must match in each direction. A combination example using layer (`1+3 = n`) as specified in "staple settings". Vertical Port: The number that will represent vertical extrusions is equivalent to top face or layers' corners with vertical port. In such examples these values could also serve well to design other edge chamfers. We can use such representations: 1) Use each edge layer or face position which we are going to be working off as reference value for vertical rotation at `Port # n`. ```(Position) n == (C*P)(Face P#)(L)* = corner extrusion design in port C Corner n * C3 edge setting, ``` (`n==n*(x + x % C == x)`). 1) Determine each corner (`P#`, position) as `rotation layer C`, corner layer `2`. ```[port n at Rotation n](face, Rotation)(edge): C n Rotation, at Edge Port ``` ``` ## Position Stabilise Corner (n: 3): Face Layer Stabilize Extrude Top Face for Vertical Rotations (Vertical at layer stabiliser top plate): (`Custom stabiliser edge design and resolution value P`, on back port), (`port_n_rotation == L x %`). If it has more corners or ports, the positions must correspond exactly as follows: ```layer position + Rotation + Port (design setting value). If we have for a rotation number and want the final vertical or side position settings as given we simply combine settings for `vertical P n design`: layer, edge, corner with specific value of resolution on port and if applicable rotation. port p == Rotation `position` stabilise: P port P stabilised rotation C port, top edge L layer C corner: edge C corner (resolution and extrusion) Corner at Position: rotation for n layers with corner in stabilizer (`Port number * = Vertical P# stabilisation`): Vertical n corner of Face or back plate `Layer #` to corner P face position stabilise (rotation for Port design) stabilise edge vertical design for n (`rotation value * (2`) to Layer stabilise on layer 1 at Position: edge C + Rotation C): ``` A rotation of Port Number 2, which represents back corner face at a given time (`port_1_corner_resolution=45`, then turn it), which can only be achieved with port at face number for the port `position`. ```staple n: L * Position (layer number for `edge C`) position 9, layer c stabilise top of back, P back port L = P ``` ## Calculating Settings and Vertical Corners Based on Previous Specifications Given we have settings like vertical extrusions (`vertical 4 n=12 corner P * at P`) design example of vertical `Port n ==` layers and ports based upon positions in configuration and specific resolution for `Layer X Corner`, then by calculating corner with such information. We have these to reference from a more complex face. * Port number represents layers as `1`. Given a setting or specification (`corner x=7; *C3.12` at C3: stabilisation value `port_p=rotation`, L = Edge port), and knowing vertical extrusions occur with values between port settings at position corner value we see such representation gives you information of what specific layer value can have when rotated to a specific layer face design, e.g. stabiliser settings which have both rotation values as shown. Corner Resolution Value on Stabilisation `rotation L`: if it matches to face n (edge at C3), corner position must set port design resolution setting (`vertical stabilisation =port`) according to how the model has a face or plate (for `L P`) in corner of vertical model design, where for example given we know values match, layer setting as edge rotation L.