Draft PathArray
Yol dizisi |
Menü konumu |
---|
Draft → PathArray |
Tezgahlar |
Draft, Arch |
Varsayılan kısayol |
Hiçbiri |
Versiyonda tanıtıldı |
- |
Ayrıca bkz |
Draft Array |
Description
The Draft PathArray tool places copies of a selected shape along a selected path, which can be a Draft Wire, a Draft BSpline, and similar edges.
The PathArray tool can be used on 2D shapes created with the Draft Workbench, but can also be used on many types of 3D objects such as those created with the Part, PartDesign, or Arch Workbenches.
To position copies in an orthogonal array use Draft Array; to position copies at specified points use Draft PointArray; to create copies or clones, and manually place them use Draft Move, Draft Rotate, and Draft Clone.
Object arranged along a path
Usage
- Select an object that you wish to distribute.
- Select a path object or some edges along which the object will be distributed.
- Press the Draft PathArray button.
- The Array object is immediately created. You must change the properties of the array to change the number and direction of copies created.
Each element in the array is an exact clone of the original object, but the entire array is considered a single unit in terms of properties and appearance.
The base object should be centred around the origin, even if the path starts somewhere else.
Options
There are no options for this tool. Either it works with the selected objects or not.
Properties
- VeriBase: specifies the object to duplicate in the path.
- VeriPathObj: specifies the path object.
- VeriPathSubs: specifies the sub-elements (edges) of the path object. This property does not yet appear in the property editor.
- VeriCount: specifies the number of copies of the base object.
- VeriAlign: if it is
true
the copies are aligned to the path; otherwise they are left in their default orientation.
- Note: in certain cases the shape will appear flat, in reality it may have moved in the 3D space, so instead of using a flat view, change the view to axonometric.
- VeriXlate: specifies a translation vector (x, y, z) to displace each copy along the path.
- Note: when VeriAlign is
true
, the vector is relative to the local tangent, normal or binormal coordinates; otherwise the vector is relative to the global coordinates.
Scripting
See also: Draft API and FreeCAD Scripting Basics.
The PathArray tool can be used in macros and from the Python console by using the following function:
PathArray = makePathArray(baseobject, pathobject, count, xlate=None, align=False, pathobjsubs=[])
- Creates a
PathArray
object from thebaseobject
, by placing as many ascount
copies alongpathobject
.- If
pathobjsubs
is given, it is a list of sub-objects ofpathobject
, and the copies are created along this shorter path.
- If
- If
xlate
is given, it is aFreeCAD.Vector
that indicates an additional displacement to move the base point of the copies. - If
align
isTrue
the copies are aligned to the tangent, normal or binormal of thepathobject
at the point where the copy is placed.
Example:
import FreeCAD,Draft
p1 = FreeCAD.Vector(500, -1000, 0)
p2 = FreeCAD.Vector(1500, 1000, 0)
p3 = FreeCAD.Vector(3000, 500, 0)
p4 = FreeCAD.Vector(4500, 100, 0)
spline = Draft.makeBSpline([p1, p2, p3, p4])
object = Draft.makePolygon(3, 500)
PathArray = Draft.makePathArray(object, spline, 6)
Technical explanation for the Align property
When VeriAlign is false
, the placement of the copied shapes is easy to understand; they are just moved to a different position in their original orientation.
Object arranged along a closed path in the original orientation
When VeriAlign is true
, the positioning of the shapes becomes a bit more complex:
- First, Frenet coordinate systems are built on the path: X is tangent, Z is normal, Y is binormal.
- Then the original object is copied to every on-path coordinate system, so that the global origin is matched with the on-path coordinate system origin.
Object arranged along a closed path; description of components and path
The following images show how the array is produced, depending on which plane the path is.
Path on XY Plane:
Object arranged along a closed path which is aligned to the XY plane
Path on XZ Plane:
Object arranged along a closed path which is aligned to the XZ plane
Path on YZ Plane:
Object arranged along a closed path which is aligned to the YZ plane
As you reorient the path but not the object, the result is consistent: the object remains aligned to the path the way it was before reorienting the path.
Editor: thank you to user DeepSOIC for this explanation.
Additional alignment modes and options introduced in v0.19
Original mode (the default) is the historic alignment mode as in version 0.18. It is not really the Frenet alignment. Original mode uses the normal parameter from Draft.getNormal (or the default) as a constant - it does not calculate curve normal. X follows the curve tangent, Y is the normal parameter, Z is X.Cross(Y).
Tangent mode is similar to Original, but includes a rotation to align the Base object's X to the TangentVector before placing copies. After the rotation, Tangent behaves the same as Original. In previous versions this rotation would be performed manually before invoking PathArray.
Frenet mode orients the copies to a coordinate system along the path. X is tangent to curve, Y is curve normal, Z is curve binormal. If a normal can not be computed (ex a straight line), the default is used.
The ForceVertical option applies to Original and Tangent modes. When this option is applied, the normal parameter from Draft.getNormal is ignored. X follows the curve tangent, Z is the VerticalVector property and Y is X.Cross(Z).
Version 18 cycle chain - Original mode
Railway cross ties (sleepers) - Tangent mode + ForceVertical
Frenet Mode
- Drafting: Line, Polyline, Fillet, Arc, Arc by 3 points, Circle, Ellipse, Rectangle, Polygon, B-spline, Cubic Bézier curve, Bézier curve, Point, Facebinder, ShapeString, Hatch
- Annotation: Text, Dimension, Label, Annotation styles, Annotation scale
- Modification: Move, Rotate, Scale, Mirror, Offset, Trimex, Stretch, Clone, Array, Polar array, Circular array, Path array, Path link array, Point array, Point link array, Edit, Subelement highlight, Join, Split, Upgrade, Downgrade, Wire to B-spline, Draft to sketch, Set slope, Flip dimension, Shape 2D view
- Draft Tray: Select plane, Set style, Toggle construction mode, AutoGroup
- Snapping: Snap lock, Snap endpoint, Snap midpoint, Snap center, Snap angle, Snap intersection, Snap perpendicular, Snap extension, Snap parallel, Snap special, Snap near, Snap ortho, Snap grid, Snap working plane, Snap dimensions, Toggle grid
- Miscellaneous: Apply current style, Layer, Manage layers, Add a new named group, Move to group, Select group, Add to construction group, Toggle normal/wireframe display, Create working plane proxy, Heal, Show snap toolbar
- Additional: Constraining, Pattern, Preferences, Import Export Preferences, DXF/DWG, SVG, OCA, DAT
- Context menu:
- Layer container: Merge layer duplicates, Add new layer
- Layer: Activate this layer, Select layer contents
- Text: Open hyperlinks
- Wire: Flatten
- Working plane proxy: Write camera position, Write objects state
- Getting started
- Installation: Download, Windows, Linux, Mac, Additional components, Docker, AppImage, Ubuntu Snap
- Basics: About FreeCAD, Interface, Mouse navigation, Selection methods, Object name, Preferences, Workbenches, Document structure, Properties, Help FreeCAD, Donate
- Help: Tutorials, Video tutorials
- Workbenches: Std Base, Assembly, BIM, CAM, Draft, FEM, Inspection, Mesh, OpenSCAD, Part, PartDesign, Points, Reverse Engineering, Robot, Sketcher, Spreadsheet, Surface, TechDraw, Test Framework
- Hubs: User hub, Power users hub, Developer hub