58e0c0e916
* improve KCL Samples & .gitignore * update block and car wheel assembly * update flange and lego, delete flange xy * artifacts Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> * scale Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> * docs Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> * updates Signed-off-by: Jess Frazelle <github@jessfraz.com> --------- Signed-off-by: Jess Frazelle <github@jessfraz.com> Co-authored-by: Jess Frazelle <github@jessfraz.com>
272 KiB
272 KiB
title, excerpt, layout
| title | excerpt | layout |
|---|---|---|
| scale | Scale a solid. | manual |
Scale a solid.
By default the transform is applied in local sketch axis, therefore the origin will not move.
If you want to apply the transform in global space, set global to true. The origin of the model will move. If the model is not centered on origin and you scale globally it will look like the model moves and gets bigger at the same time. Say you have a square (1,1) - (1,2) - (2,2) - (2,1) and you scale by 2 globally it will become (2,2) - (2,4)...etc so the origin has moved from (1.5, 1.5) to (2,2).
scale(
solidSet: SolidOrImportedGeometry,
scale: [number],
global?: bool,
): SolidOrImportedGeometry
Arguments
| Name | Type | Description | Required |
|---|---|---|---|
solidSet |
SolidOrImportedGeometry |
The solid or set of solids to scale. | Yes |
scale |
[number] |
The scale factor for the x, y, and z axes. | Yes |
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
SolidOrImportedGeometry - Data for a solid or an imported geometry.
Examples
// Scale a pipe.
// Create a path for the sweep.
sweepPath = startSketchOn('XZ')
|> startProfileAt([0.05, 0.05], %)
|> line(end = [0, 7])
|> tangentialArc({ offset = 90, radius = 5 }, %)
|> line(end = [-3, 0])
|> tangentialArc({ offset = -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)
|> hole(pipeHole, %)
|> sweep(path = sweepPath)
|> scale(scale = [1.0, 1.0, 2.5])
// Scale an imported model.
import "tests/inputs/cube.sldprt" as cube
cube
|> scale(scale = [1.0, 1.0, 2.5])
// Sweep two sketches along the same path.
sketch001 = startSketchOn('XY')
rectangleSketch = startProfileAt([-200, 23.86], sketch001)
|> angledLine([0, 73.47], %, $rectangleSegmentA001)
|> angledLine([
segAng(rectangleSegmentA001) - 90,
50.61
], %)
|> angledLine([
segAng(rectangleSegmentA001),
-segLen(rectangleSegmentA001)
], %)
|> line(endAbsolute = [profileStartX(%), profileStartY(%)])
|> close()
circleSketch = circle(sketch001, center = [200, -30.29], radius = 32.63)
sketch002 = startSketchOn('YZ')
sweepPath = startProfileAt([0, 0], sketch002)
|> yLine(length = 231.81)
|> tangentialArc({ radius = 80, offset = -90 }, %)
|> xLine(length = 384.93)
parts = sweep([rectangleSketch, circleSketch], path = sweepPath)
// Scale the sweep.
scale(parts, scale = [1.0, 1.0, 0.5])