128e1093fb
* update pattern entity ids since that pr merged Signed-off-by: Jess Frazelle <github@jessfraz.com> * artifacts Signed-off-by: Jess Frazelle <github@jessfraz.com> --------- Signed-off-by: Jess Frazelle <github@jessfraz.com>
541 KiB
title, subtitle, excerpt, layout
| title | subtitle | excerpt | layout |
|---|---|---|---|
| rotate | Function in std::transform | Rotate a solid or a sketch. | manual |
Rotate a solid or a sketch.
rotate(
@objects: [Solid] | [Sketch] | ImportedGeometry,
roll?: number,
pitch?: number,
yaw?: number,
axis?: [number],
angle?: number,
global?: bool,
): [Solid] | [Sketch] | ImportedGeometry
This is really useful for assembling parts together. You can create a part and then rotate it to the correct orientation.
For sketches, you can use this to rotate a sketch and then loft it with another sketch.
Using Roll, Pitch, and Yaw
When rotating a part in 3D space, "roll," "pitch," and "yaw" refer to the three rotational axes used to describe its orientation: roll is rotation around the longitudinal axis (front-to-back), pitch is rotation around the lateral axis (wing-to-wing), and yaw is rotation around the vertical axis (up-down); essentially, it's like tilting the part on its side (roll), tipping the nose up or down (pitch), and turning it left or right (yaw).
So, in the context of a 3D model:
-
Roll: Imagine spinning a pencil on its tip - that's a roll movement.
-
Pitch: Think of a seesaw motion, where the object tilts up or down along its side axis.
-
Yaw: Like turning your head left or right, this is a rotation around the vertical axis
Using an Axis and Angle
When rotating a part around an axis, you specify the axis of rotation and the angle of rotation.
Arguments
| Name | Type | Description | Required |
|---|---|---|---|
objects |
[Solid] or [Sketch] or ImportedGeometry |
The solid, sketch, or set of solids or sketches to rotate. | Yes |
roll |
number |
The roll angle in degrees. Must be between -360 and 360. Default is 0 if not given. | No |
pitch |
number |
The pitch angle in degrees. Must be between -360 and 360. Default is 0 if not given. | No |
yaw |
number |
The yaw angle in degrees. Must be between -360 and 360. Default is 0 if not given. | No |
axis |
[number] |
The axis to rotate around. Must be used with angle. |
No |
angle |
number |
The angle to rotate in degrees. Must be used with axis. Must be between -360 and 360. |
No |
global |
bool |
If true, the transform is applied in global space. The origin of the model will move. By default, the transform is applied in local sketch axis, therefore the origin will not move. | No |
Returns
[Solid] or [Sketch] or ImportedGeometry - Data for a solid, sketch, or an imported geometry.
Examples
// Rotate a pipe with roll, pitch, and yaw.
// Create a path for the sweep.
sweepPath = startSketchOn(XZ)
|> startProfile(at = [0.05, 0.05])
|> line(end = [0, 7])
|> tangentialArc(angle = 90, radius = 5)
|> line(end = [-3, 0])
|> tangentialArc(angle = -90, radius = 5)
|> line(end = [0, 7])
// Create a hole for the pipe.
pipeHole = startSketchOn(XY)
|> circle(center = [0, 0], radius = 1.5)
sweepSketch = startSketchOn(XY)
|> circle(center = [0, 0], radius = 2)
|> subtract2d(tool = pipeHole)
|> sweep(path = sweepPath)
|> rotate(roll = 10, pitch = 10, yaw = 90)
// Rotate a pipe with just roll.
// Create a path for the sweep.
sweepPath = startSketchOn(XZ)
|> startProfile(at = [0.05, 0.05])
|> line(end = [0, 7])
|> tangentialArc(angle = 90, radius = 5)
|> line(end = [-3, 0])
|> tangentialArc(angle = -90, radius = 5)
|> line(end = [0, 7])
// Create a hole for the pipe.
pipeHole = startSketchOn(XY)
|> circle(center = [0, 0], radius = 1.5)
sweepSketch = startSketchOn(XY)
|> circle(center = [0, 0], radius = 2)
|> subtract2d(tool = pipeHole)
|> sweep(path = sweepPath)
|> rotate(roll = 10)
// Rotate a pipe about an axis with an angle.
// Create a path for the sweep.
sweepPath = startSketchOn(XZ)
|> startProfile(at = [0.05, 0.05])
|> line(end = [0, 7])
|> tangentialArc(angle = 90, radius = 5)
|> line(end = [-3, 0])
|> tangentialArc(angle = -90, radius = 5)
|> line(end = [0, 7])
// Create a hole for the pipe.
pipeHole = startSketchOn(XY)
|> circle(center = [0, 0], radius = 1.5)
sweepSketch = startSketchOn(XY)
|> circle(center = [0, 0], radius = 2)
|> subtract2d(tool = pipeHole)
|> sweep(path = sweepPath)
|> rotate(axis = [0, 0, 1.0], angle = 90)
// Rotate an imported model.
import "tests/inputs/cube.sldprt" as cube
cube
|> rotate(axis = [0, 0, 1.0], angle = 9)
// Sweep two sketches along the same path.
sketch001 = startSketchOn(XY)
rectangleSketch = startProfile(sketch001, at = [-200, 23.86])
|> angledLine(angle = 0, length = 73.47, tag = $rectangleSegmentA001)
|> angledLine(angle = segAng(rectangleSegmentA001) - 90, length = 50.61)
|> angledLine(angle = segAng(rectangleSegmentA001), length = -segLen(rectangleSegmentA001))
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
circleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)
sketch002 = startSketchOn(YZ)
sweepPath = startProfile(sketch002, at = [0, 0])
|> yLine(length = 231.81)
|> tangentialArc(radius = 80, angle = -90)
|> xLine(length = 384.93)
parts = sweep([rectangleSketch, circleSketch], path = sweepPath)
// Rotate the sweeps.
rotate(parts, axis = [0, 0, 1.0], angle = 90)
// Translate and rotate a sketch to create a loft.
sketch001 = startSketchOn(XY)
fn square() {
return startProfile(sketch001, at = [-10, 10])
|> xLine(length = 20)
|> yLine(length = -20)
|> xLine(length = -20)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
}
profile001 = square()
profile002 = square()
|> translate(x = 0, y = 0, z = 20)
|> rotate(axis = [0, 0, 1.0], angle = 45)
loft([profile001, profile002])