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Fix alphabetical order and anchor links of circuit/canadian cards.

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Jonathan Wagenet 2025-03-10 15:18:34 -04:00
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docs/examples_1.rst
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@ -1,9 +1,9 @@
#######################
The build123d Examples
#######################
.. |siren| replace:: 🚨
.. |siren| replace:: 🚨
.. |Builder| replace:: 🔨
.. |Algebra| replace:: ✏️
.. |Algebra| replace:: ✏️
Overview
--------------------------------
@ -24,17 +24,17 @@ Most of the examples show the builder and algebra modes.
:link: examples-benchy
:link-type: ref
.. grid-item-card:: Circuit Board With Holes |Builder| |Algebra|
:img-top: assets/examples/thumbnail_circuit_board_01.png
.. grid-item-card:: Canadian Flag Blowing in The Wind |Builder| |Algebra|
:img-top: assets/examples/example_canadian_flag_01.png
:link: examples-canadian_flag
:link-type: ref
.. grid-item-card:: Canadian Flag Blowing in The Wind |Builder| |Algebra|
:img-top: assets/examples/example_canadian_flag_01.png
.. grid-item-card:: Circuit Board With Holes |Builder| |Algebra|
:img-top: assets/examples/thumbnail_circuit_board_01.png
:link: examples-circuit_board
:link-type: ref
.. grid-item-card:: Clock Face |Builder| |Algebra|
.. grid-item-card:: Clock Face |Builder| |Algebra|
:img-top: assets/examples/clock_face.png
:link: clock_face
:link-type: ref
@ -58,43 +58,43 @@ Most of the examples show the builder and algebra modes.
:img-top: assets/examples/thumbnail_build123d_logo_01.png
:link: examples-build123d_logo
:link-type: ref
.. grid-item-card:: Maker Coin |Builder|
.. grid-item-card:: Maker Coin |Builder|
:img-top: assets/examples/maker_coin.png
:link: maker_coin
:link-type: ref
.. grid-item-card:: Multi-Sketch Loft |Builder| |Algebra|
.. grid-item-card:: Multi-Sketch Loft |Builder| |Algebra|
:img-top: assets/examples/loft.png
:link: multi_sketch_loft
:link-type: ref
.. grid-item-card:: Peg Board J Hook |Builder| |Algebra|
.. grid-item-card:: Peg Board J Hook |Builder| |Algebra|
:img-top: assets/examples/peg_board_hook.png
:link: peg_board_hook
:link-type: ref
.. grid-item-card:: Platonic Solids |Algebra|
.. grid-item-card:: Platonic Solids |Algebra|
:img-top: assets/examples/platonic_solids.png
:link: platonic_solids
:link-type: ref
.. grid-item-card:: Playing Cards |Builder|
.. grid-item-card:: Playing Cards |Builder|
:img-top: assets/examples/playing_cards.png
:link: playing_cards
:link-type: ref
.. grid-item-card:: Stud Wall |Algebra|
.. grid-item-card:: Stud Wall |Algebra|
:img-top: assets/examples/stud_wall.png
:link: stud_wall
:link-type: ref
.. grid-item-card:: Tea Cup |Builder| |Algebra|
.. grid-item-card:: Tea Cup |Builder| |Algebra|
:img-top: assets/examples/tea_cup.png
:link: tea_cup
:link-type: ref
.. grid-item-card:: Vase |Builder| |Algebra|
.. grid-item-card:: Vase |Builder| |Algebra|
:img-top: assets/examples/vase.png
:link: vase
:link-type: ref
@ -106,7 +106,7 @@ Most of the examples show the builder and algebra modes.
:img-top: assets/examples/thumbnail_{name-of-your-example}_01.{extension}
:link: examples-{name-of-your-example}
:link-type: ref
.. ----------------------------------------------------------------------------------------------
.. Details Section
.. ----------------------------------------------------------------------------------------------
@ -119,10 +119,10 @@ Benchy
:align: center
The Benchy examples shows how to import a STL model as a `Solid` object with the class `Mesher` and
The Benchy examples shows how to import a STL model as a `Solid` object with the class `Mesher` and
modify it by replacing chimney with a BREP version.
.. note
.. note
*Attribution:*
The low-poly-benchy used in this example is by `reddaugherty`, see
@ -138,7 +138,7 @@ modify it by replacing chimney with a BREP version.
.. image:: assets/examples/example_benchy_03.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/benchy.py
:start-after: [Code]
@ -156,17 +156,17 @@ Former build123d Logo
This example creates the former build123d logo (new logo was created in the end of 2023).
Using text and lines to create the first build123d logo.
Using text and lines to create the first build123d logo.
The builder mode example also generates the SVG file `logo.svg`.
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/build123d_logo.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/build123d_logo_algebra.py
:start-after: [Code]
@ -196,18 +196,18 @@ This example also demonstrates building complex lines that snap to existing feat
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/canadian_flag.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/canadian_flag_algebra.py
:start-after: [Code]
:end-before: [End]
.. _examples-circuit_board:
@ -232,13 +232,13 @@ This example demonstrates placing holes around a part.
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/circuit_board.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/circuit_board_algebra.py
:start-after: [Code]
@ -252,22 +252,22 @@ Clock Face
.. image:: assets/examples/clock_face.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/clock.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/clock_algebra.py
:start-after: [Code]
:end-before: [End]
The Python code utilizes the build123d library to create a 3D model of a clock face.
It defines a minute indicator with arcs and lines, applying fillets, and then
integrates it into the clock face sketch. The clock face includes a circular outline,
hour labels, and slots at specified positions. The resulting 3D model represents
The Python code utilizes the build123d library to create a 3D model of a clock face.
It defines a minute indicator with arcs and lines, applying fillets, and then
integrates it into the clock face sketch. The clock face includes a circular outline,
hour labels, and slots at specified positions. The resulting 3D model represents
a detailed and visually appealing clock design.
:class:`~build_common.PolarLocations` are used to position features on the clock face.
@ -280,13 +280,13 @@ Handle
.. image:: assets/examples/handle.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/handle.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/handle_algebra.py
:start-after: [Code]
@ -301,13 +301,13 @@ Heat Exchanger
.. image:: assets/examples/heat_exchanger.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/heat_exchanger.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/heat_exchanger_algebra.py
:start-after: [Code]
@ -325,13 +325,13 @@ Key Cap
.. image:: assets/examples/key_cap.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/key_cap.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/key_cap_algebra.py
:start-after: [Code]
@ -350,14 +350,14 @@ Maker Coin
This example creates the maker coin as defined by Angus on the Maker's Muse
YouTube channel. There are two key features:
#. the use of :class:`~objects_curve.DoubleTangentArc` to create a smooth
#. the use of :class:`~objects_curve.DoubleTangentArc` to create a smooth
transition from the central dish to the outside arc, and
#. embossing the text into the top of the coin not just as a simple
extrude but from a projection which results in text with even depth.
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/maker_coin.py
:start-after: [Code]
@ -375,13 +375,13 @@ Multi-Sketch Loft
This example demonstrates lofting a set of sketches, selecting
the top and bottom by type, and shelling.
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/loft.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/loft_algebra.py
:start-after: [Code]
@ -395,20 +395,20 @@ Peg Board Hook
.. image:: assets/examples/peg_board_hook.png
:align: center
This script creates a a J-shaped pegboard hook. These hooks are commonly used for
organizing tools in garages, workshops, or other spaces where tools and equipment
This script creates a a J-shaped pegboard hook. These hooks are commonly used for
organizing tools in garages, workshops, or other spaces where tools and equipment
need to be stored neatly and accessibly. The hook is created by defining a complex
path and then sweeping it to define the hook. The sides of the hook are flattened
to aid 3D printing.
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/pegboard_j_hook.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/pegboard_j_hook_algebra.py
:start-after: [Code]
@ -424,17 +424,17 @@ Platonic Solids
This example creates a custom Part object PlatonicSolid.
Platonic solids are five three-dimensional shapes that are highly symmetrical,
known since antiquity and named after the ancient Greek philosopher Plato.
These solids are unique because their faces are congruent regular polygons,
with the same number of faces meeting at each vertex. The five Platonic solids
are the tetrahedron (4 triangular faces), cube (6 square faces), octahedron
(8 triangular faces), dodecahedron (12 pentagonal faces), and icosahedron
(20 triangular faces). Each solid represents a unique way in which identical
polygons can be arranged in three dimensions to form a convex polyhedron,
Platonic solids are five three-dimensional shapes that are highly symmetrical,
known since antiquity and named after the ancient Greek philosopher Plato.
These solids are unique because their faces are congruent regular polygons,
with the same number of faces meeting at each vertex. The five Platonic solids
are the tetrahedron (4 triangular faces), cube (6 square faces), octahedron
(8 triangular faces), dodecahedron (12 pentagonal faces), and icosahedron
(20 triangular faces). Each solid represents a unique way in which identical
polygons can be arranged in three dimensions to form a convex polyhedron,
embodying ideals of symmetry and balance.
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/platonic_solids.py
:start-after: [Code]
@ -447,12 +447,12 @@ Playing Cards
.. image:: assets/examples/playing_cards.png
:align: center
This example creates a customs Sketch objects: Club, Spade, Heart, Diamond,
and PlayingCard in addition to a two part playing card box which has suit
cutouts in the lid. The four suits are created with Bézier curves that were
imported as code from an SVG file and modified to the code found here.
This example creates a customs Sketch objects: Club, Spade, Heart, Diamond,
and PlayingCard in addition to a two part playing card box which has suit
cutouts in the lid. The four suits are created with Bézier curves that were
imported as code from an SVG file and modified to the code found here.
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/playing_cards.py
:start-after: [Code]
@ -469,14 +469,14 @@ This example demonstrates creatings custom `Part` objects and putting them into
assemblies. The custom object is a `Stud` used in the building industry while
the assembly is a `StudWall` created from copies of `Stud` objects for efficiency.
Both the `Stud` and `StudWall` objects use `RigidJoints` to define snap points which
are used to position all of objects.
are used to position all of objects.
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/stud_wall.py
:start-after: [Code]
:end-before: [End]
.. _tea_cup:
Tea Cup
@ -484,32 +484,32 @@ Tea Cup
.. image:: assets/examples/tea_cup.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/tea_cup.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/tea_cup_algebra.py
:start-after: [Code]
:end-before: [End]
This example demonstrates the creation a tea cup, which serves as an example of
This example demonstrates the creation a tea cup, which serves as an example of
constructing complex, non-flat geometrical shapes programmatically.
The tea cup model involves several CAD techniques, such as:
* Revolve Operations: There is 1 occurrence of a revolve operation. This is used
to create the main body of the tea cup by revolving a profile around an axis,
* Revolve Operations: There is 1 occurrence of a revolve operation. This is used
to create the main body of the tea cup by revolving a profile around an axis,
a common technique for generating symmetrical objects like cups.
* Sweep Operations: There are 2 occurrences of sweep operations. The handle are
created by sweeping a profile along a path to generate non-planar surfaces.
* Offset/Shell Operations: the bowl of the cup is hollowed out with the offset
operation leaving the top open.
* Fillet Operations: There is 1 occurrence of a fillet operation which is used to
round the edges for aesthetic improvement and to mimic real-world objects more
operation leaving the top open.
* Fillet Operations: There is 1 occurrence of a fillet operation which is used to
round the edges for aesthetic improvement and to mimic real-world objects more
closely.
.. _vase:
@ -519,37 +519,37 @@ Vase
.. image:: assets/examples/vase.png
:align: center
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/vase.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/vase_algebra.py
:start-after: [Code]
:end-before: [End]
This example demonstrates the build123d techniques involving the creation of a vase.
Specifically, it showcases the processes of revolving a sketch, shelling
(creating a hollow object by removing material from its interior), and
selecting edges by position range and type for the application of fillets
This example demonstrates the build123d techniques involving the creation of a vase.
Specifically, it showcases the processes of revolving a sketch, shelling
(creating a hollow object by removing material from its interior), and
selecting edges by position range and type for the application of fillets
(rounding off the edges).
* Sketching: Drawing a 2D profile or outline that represents the side view of
* Sketching: Drawing a 2D profile or outline that represents the side view of
the vase.
* Revolving: Rotating the sketch around an axis to create a 3D object. This
* Revolving: Rotating the sketch around an axis to create a 3D object. This
step transforms the 2D profile into a 3D vase shape.
* Offset/Shelling: Removing material from the interior of the solid vase to
* Offset/Shelling: Removing material from the interior of the solid vase to
create a hollow space, making it resemble a real vase more closely.
* Edge Filleting: Selecting specific edges of the vase for filleting, which
* Edge Filleting: Selecting specific edges of the vase for filleting, which
involves rounding those edges. The edges are selected based on their position
and type.
.. NOTE 02: insert new example thumbnails above this line
.. TODO: Copy this block to add your example details here
.. _examples-{name-of-your-example}:
@ -564,15 +564,15 @@ selecting edges by position range and type for the application of fillets
.. dropdown:: info
TODO: add more information about your example
TODO: add more information about your example
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. dropdown:: |Builder| Reference Implementation (Builder Mode)
.. literalinclude:: ../examples/boxes_on_faces.py
:start-after: [Code]
:end-before: [End]
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. dropdown:: |Algebra| Reference Implementation (Algebra Mode)
.. literalinclude:: ../examples/boxes_on_faces_algebra.py
:start-after: [Code]