Part Module

Introduction
The solid modelling capabilities of FreeCAD are based on the Open Cascade Technology (OCCT) kernel, a professional-grade CAD system that features advanced 3D geometry creation and manipulation. The Part Workbench is a layer sitting on top of the OCCT libraries, that gives the user access to OCCT geometric primitives and functions. Essentially all 2D and 3D drawing functions in every workbench (Draft, Sketcher, PartDesign, etc.), are based on these functions exposed by the Part Workbench. Therefore, the Part Workbench is considered the core component of the modelling capabilities of FreeCAD.

The objects created with the Part Workbench are relatively simple; they are intended to be used with boolean operations (unions and cuts) in order to build a more complex shape. This modelling paradigm is known as the constructive solid geometry (CSG) workflow, and it was the traditional methodology used in early CAD systems. On the other hand, the PartDesign Workbench provides a more modern workflow to construct shapes: it uses parametric sketches, and parametric transformations of the initially padded solid.

Part objects are more complex than mesh objects created with the Mesh Workbench, as they permit more advanced operations like coherent boolean operations, modifications history, and parametric behaviour.





Tools
The tools are all located in the menu.

Primitives
These are tools for creating primitive objects.


 * [[Image:Part_Box.png|32px]] Box: Draws a box by specifying its dimensions
 * [[Image:Part_Cylinder.png|32px]] Cylinder: Draws a cylinder by specifying its dimensions
 * [[Image:Part_Sphere.png|32px]] Sphere: Draws a sphere by specifying its dimensions
 * [[Image:Part_Cone.png|32px]] Cone: Draws a cone by specifying its dimensions
 * [[Image:Part_Torus.png|32px]] Torus: Draws a torus (ring) by specifying its dimensions
 * [[Image:Part_CreatePrimitives.png|32px]] CreatePrimitives: A tool to create various parametric geometric primitives
 * [[Image:Part_Shapebuilder.png|32px]] Shapebuilder: A tool to create more complex shapes from various parametric geometric primitives

Modifying objects
These are tools for modifying existing objects. They will allow you to choose which object to modify.


 * [[Image:Part_Extrude.png|32px]] Extrude: Extrudes planar faces of an object
 * [[Image:Part_Revolve.png|32px]] Revolve: Creates a solid by revolving another object (not solid) around an axis
 * [[Image:Part_Mirror.png|32px]] Mirror: Mirrors the selected object on a given mirror plane
 * [[Image:Part_Fillet.png|32px]] Fillet: Fillets (rounds) edges of an object
 * [[Image:Part_Chamfer.png|32px]] Chamfer: Chamfers edges of an object
 * [[Image:Part_RuledSurface.png|32px]] Ruled Surface:
 * [[Image:Part_Loft.png|32px]] Loft: Lofts from one profile to another
 * [[Image:Part_Sweep.png|32px]] Sweep: Sweeps one or more profiles along a path


 * [[Image:Part_CompOffsetTools.png|48px]] Offset tools:
 * [[Image:Part_Offset.png|32px]] 3D Offset: Constructs a parallel shape at a certain distance from original.
 * [[Image:Part_Offset2D.png|32px]] 2D Offset: Constructs a parallel wire at certain distance from original, or enlarges/shrinks a planar face. (v0.17)


 * [[Image:Part_Thickness.png|32px]] Thickness: Hollows out a solid, leaving openings next to select faces.


 * [[Image:Part_CompCompoundTools.png|48px]] Compound Tools:
 * [[Image:Part MakeCompound.png|32px]] Make compound: Creates a compound from the selected objects.
 * [[Image:Part_ExplodeCompound.svg|32px]] Explode Compound: Tool to split up compounds of shapes
 * [[Image:Part Compound‏‎Filter.png|32px]] Compound Filter: The CompoundFilter can be used to extract the individual pieces.


 * [[Image:Part_Booleans.png|32px]] Booleans: Performs boolean operations on objects
 * [[Image:Part_Union.png|32px]] Union: Fuses (unions) two objects
 * [[Image:Part_Common.png|32px]] Common: Extracts the common (intersection) part of two objects
 * [[Image:Part_Cut.png|32px]] Cut: Cuts (subtracts) one object from another


 * [[Image:Part_CompJoinFeatures.png|48px]] Join features: smart booleans for walled objects (e.g., pipes) (v0.16)
 * [[Image:Part JoinConnect.png|32px]] Connect: Connects interiors of objects (v0.16)
 * [[Image:Part JoinEmbed.png|32px]] Embed: Embeds a walled object into another walled object (v0.16)
 * [[Image:Part JoinCutout.png|32px]] Cutout: Creates a cutout in a wall of an object for another walled object (v0.16)


 * [[Image:Part_CompSplittingTools.png|48px]] Splitting tools: (v0.17)
 * [[Image:Part BooleanFragments.png|32px]] Boolean fragments: makes all the pieces that can be obtained by Boolean operations between objects (v0.17)
 * [[Image:Part SliceApart.svg|32px]] Slice a part: tool to split shapes by intersection with other shapes
 * [[Image:Part Slice.png|32px]] Slice: Splits an object into pieces by intersections with another object (v0.17)
 * [[Image:Part XOR.png|32px]] XOR: removes space shared by even number of objects (symmetric version of Cut) (v0.17)


 * [[Image:Part Defeaturing.svg|32px]] Defeaturing: (v0.18)
 * [[Image:Part_Section.png|32px]] Section: Creates a section by intersecting an object with a section plane
 * [[Image:Part_SectionCross.png|32px]] Cross sections...:

Other tools

 * [[Image:Part ImportCAD.png|32px]] Import CAD: This tool allows you to add a file *.IGES, *.STEP, *.BREP to the current document.
 * [[Image:Part ExportCAD.png|32px]] Export CAD: This tool allows you to export a part object in a *.IGES, *.STEP, *.BREP file.
 * [[Image:Part ShapeFromMesh.png|32px]] Shape from Mesh: Creates a shape object from a mesh object.
 * Convert to solid: Converts a shape object to a solid object.
 * Reverse shapes: Flips the normals of all faces of the selected object.
 * [[Image:Part CreateSimpleCopy‎.svg|32px]] Create simple copy: Creates a simple copy of the selected object.
 * [[Image:Part RefineShape.png|32px]] Refine shape: Cleans faces by removing unnecessary lines.
 * [[Image:Part CheckGeometry.png|32px]] Check geometry: Checks the geometry of selected objects for errors.
 * Measure: Allows linear and angular measurement between points/edges/faces.
 * [[Image:Part Attachment.svg|32px]] Attachment: Attachment is a utility to attach an object to another one.



Preferences

 * [[Image:Preferences-import-export.svg|32px]] Preference ... Import Export

OCCT geometric concepts
In OpenCascade terminology, we distinguish between geometric primitives and topological shapes. A geometric primitive can be a point, a line, a circle, a plane, etc. or even some more complex types like a B-Spline curve or a surface. A shape can be a vertex, an edge, a wire, a face, a solid or a compound of other shapes. The geometric primitives are not made to be directly displayed on the 3D scene, but rather to be used as building geometry for shapes. For example, an edge can be constructed from a line or from a portion of a circle.

In summary, geometry primitives are "shapeless" building blocks, while topological shapes are the real objects built on them.

A complete list of all primitives and shapes refer to the OCC documentation (Alternative: sourcearchive.com) and search for Geom_* (for geometric primitives) and TopoDS_* (for shapes). There you can also read more about the differences between them. Please note that the official OCC documentation is not available online (you must download an archive) and is mostly aimed at programmers, not at end-users. But hopefully you'll find enough information to get started here.

The geometric types actually can be divided into two major groups: curves and surfaces. Out of the curves (line, circle, ...) you can directly build an edge, out of the surfaces (plane, cylinder, ...) a face can be built. For example, the geometric primitive line is unlimited, i.e. it is defined by a base vector and a direction vector while its shape representation must be something limited by a start and end point. And a box -- a solid -- can be created by six limited planes.

From an edge or face you can also go back to its geometric primitive counterpart.

Thus, out of shapes you can build very complex parts or, the other way round, extract all sub-shapes a more complex shape is made of.

Scripting
The main data structure used in the Part module is the BRep data type from OpenCascade. Almost all contents and object types of the Part module are available by Python scripting. This includes geometric primitives, such as Line and Circle (or Arc), and the whole range of TopoShapes, like Vertexes, Edges, Wires, Faces, Solids and Compounds. For each of those objects, several creation methods exist, and for some of them, especially the TopoShapes, advanced operations like boolean union/difference/intersection are also available. Explore the contents of the Part module, as described in the FreeCAD Scripting Basics page, to know more.

Examples
To create a line element switch to the Python console and type in:

Let's go through the above python example step by step:

loads the Part module and creates a new document

Line is actually a line segment, hence the start and endpoint.

This adds a Part object type to the document and assigns the shape representation of the line segment to the 'Shape' property of the added object. It is important to understand here that we used a geometric primitive (the Part.LineSegment) to create a TopoShape out of it (the toShape method). Only Shapes can be added to the document. In FreeCAD, geometry primitives are used as "building structures" for Shapes.

Updates the document. This also prepares the visual representation of the new part object.

Note that a Line Segment can be created by specifying its start and endpoint directly in the constructor, for example Part.LineSegment(point1,point2), or we can create a default line and set its properties afterwards, as we did here.

A circle can be created in a similar way:

Note again, we used the circle (geometry primitive) to construct a shape out of it. We can of course still access our construction geometry afterwards, by doing:

Here we take the shape of our object f, then we take its list of edges. In this case there will be only one because we made the whole shape out of a single circle, so we take only the first item of the Edges list, and we takes its curve. Every Edge has a Curve, which is the geometry primitive it is based on.

Head to the Topological data scripting page if you would like to know more.

Tutorials

 * Import from STL or OBJ : How to import STL/OBJ files in FreeCAD
 * Export to STL or OBJ : How to export STL/OBJ files from FreeCAD
 * Whiffle Ball tutorial : How to use the Part Module