Examples of RegionOps
RegionOps.splitPathsByRegionInOnOutXY
This splits any curve into parts in, on, and outside an xy region.
25 points | |
split the black path into parts inside and outside the grey area | const splitParts = RegionOps.splitPathsByRegionInOnOutXY(path, loop); |
(red) Path parts "inside" the region splitParts.insideParts |
|
(green) Path parts "outside" the region splitParts.outsideParts |
Remarks
Using a closed region as the cutter is a specialized high level operation, just one of the many ways that splitting may be needed. It is a combination of
a split step uses the region boundary curves but not the interior/exterior properties. | const splitPaths = RegionOps.splitToPathsBetweenFlagBreaks ((pathWithIntersectionMarkup, true); |
a classification step tests one point from each fragment of the splitPaths : |
|
(a) obtain one point on a fragment being tested | const pointOnChild = CurveCollection.createCurveLocationDetailOnAnyCurvePrimiitive(splitPaths); |
(b) determine if that single point is inside or outside. since the fragments have no interior crossings, that point classifies the whole fragment |
const inOnOut = RegionOps.testPointInOnOutRegionXY(region, pointOnChild.point.x, pointOnChild.point.y); |
Unit Test
- source: core\geometry\src\test\topology\RegionOps.test.ts
- test name: "InOutSplits"
- output: core\geometry\src\test\output\RegionOps\InOutSplits.imjs
RegionOps.testPointInOnOutRegionXY
This tests whether single points are in, out, or on an xy region.
Parity region with various test points circle is "on" diamond is "in" plus is "out" |
Unit Test
- source: core\geometry\src\test\topology\RegionOps.test.ts
- test name: "MixedInOut"
- output: core\geometry\src\test\output\RegionOps\MixedInOut.imjs
RegionOps.regionBooleanXY
Compute union, intersection, and difference among area regions.
The call form is
RegionOps.regionBooleanXY(regionA, regionB, opcode)
where
- Each of regionA and regionB may be
- a single Loop
- a single ParityRegion
- an array of Loop and ParityRegion
- all the loops and parity regions within each array are considered as a union.
- The operation between regionA and regionB is one of
- RegionBinaryOpType.Union
- RegionBinaryOpType.Intersection
- RegionBinaryOpType.AMinusB
- RegionBinaryOpType.BMinusA
For a first example, each of regionA and regionB is a single Loop:
filletedRectangle = CurveFactory.createRectangleXY(0, 0, 5, 4, 0, 1); | |
splitter = CurveFactory.createRectangleXY(1, -1, 6, 2); | |
Both regions, placed for operations | |
union = RegionOps.regionBooleanXY(filletedRectangle, splitter, RegionBinaryOpType.Union); | |
intersection = RegionOps.regionBooleanXY(filletedRectangle, splitter, RegionBinaryOpType.Intersection); | |
diff = RegionOps.regionBooleanXY(filletedRectangle, splitter, RegionBinaryOpType.AMinusB); |
For a second example, each of regionA and regionB is an array of regions to be treated as a union:
region A is constructed by
const manyRoundedRectangles = []; for (let a = 0; a < 5; a += 1) { manyRoundedRectangles.push(CurveFactory.createRectangleXY(a, a, a + 4, a + 1.75, 0, 0.5)); }
and region B by
const splitterB0 = CurveFactory.createRectangleXY(0.5, 0.4, 6, 2.1, 0, 0); const splitterB1 = splitterB0.cloneTransformed(Transform.createFixedPointAndMatrix({ x: 1, y: 2, z: 0 }, Matrix3d.createRotationAroundAxisIndex(2, Angle.createDegrees(40)))) as Loop; const splitterB = [splitterB0, splitterB1];
region A | |
region B | |
Both regions, placed for operations | |
unionB = RegionOps.regionBooleanXY(manyRoundedRectangles, splitterB, RegionBinaryOpType.Union); | |
intersectionB = RegionOps.regionBooleanXY(manyRoundedRectangles, splitterB, RegionBinaryOpType.Intersection); | |
diffB = RegionOps.regionBooleanXY(manyRoundedRectangles, splitterB, RegionBinaryOpType.AMinusB); |
Unit Test
- source: core\geometry\src\test\topology\RegionBoolean.test.ts
- test name: "DocDemo"
- output: core\geometry\src\test\output\sweepBooleans\DocDemo.imjs
Last Updated: 13 May, 2024
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