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merge into: thib8956:fix/issue-31-npe-resize
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thib8956:master thib8956:feature/issue-38-polygon thib8956:feature/issue-37-save-load thib8956:feature/issue-36-group-ungroup thib8956:feature/issue-35-copy-paste thib8956:feature/issue-34-undo-redo thib8956:feature/issue-33-box-selection thib8956:fix/issue-31-npe-resize thib8956:nix-flake thib8956:issue-25/maven-wrapper
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pull from: thib8956:master
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thib8956:feature/issue-38-polygon thib8956:feature/issue-37-save-load thib8956:feature/issue-36-group-ungroup thib8956:feature/issue-35-copy-paste thib8956:feature/issue-34-undo-redo thib8956:feature/issue-33-box-selection thib8956:fix/issue-31-npe-resize thib8956:master thib8956:nix-flake thib8956:issue-25/maven-wrapper

6 Commits
fix/issue- ... master

Author SHA1 Message Date
Thibaud Gasser
bf01bae17f Merge pull request 'test: add contains(Point) hit-testing tests for all shapes' (#21) from issue-11/contains-point-tests into master
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Reviewed-on: #21
 2026-03-27 23:28:58 +00:00
Thibaud
740572bfb7 test: add contains(Point) hit-testing tests for all shapes
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Details 
Add 36 tests covering bounds-based hit-testing (getBounds().contains(Point))
for SRectangle, SCircle, STriangle, SText, and SCollection:
- Point inside, outside, on boundary (inclusive top-left, exclusive bottom-right)
- Point after translate to verify position update
- SCollection union bounds, gap between children, single-child bounds

Closes #11
 2026-03-27 23:25:29 +00:00
Thibaud Gasser
e8cb0810de Merge pull request 'test: add edge case tests (null, negative coords, zero dimensions)' (#23) from issue-13/edge-case-tests into master
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Reviewed-on: #23
 2026-03-27 23:24:11 +00:00
Thibaud
6cc6fbbfe8 test: add edge case tests for shapes
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Details 
Add 19 tests covering edge cases across all shape types:
- Negative coordinates: SRectangle, SCircle, STriangle, translate
- Zero dimensions: zero width/height rectangle, zero radius circle
- Resize clamping: verify width/height minimum enforcement
- Null handling: null/blank text normalization, unknown attribute key, empty collection
- Large values: Integer.MAX_VALUE/2 coords, MAX/MIN_VALUE translate

Closes #13
 2026-03-27 23:23:17 +00:00
Thibaud Gasser
5415c10c26 Merge pull request 'fix: SText.updateMeasuredBounds() mutates defensive copy instead of internal state' (#32) from fix/issue-27-stext-update-measured-bounds into master
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Reviewed-on: #32
 2026-03-27 23:22:20 +00:00
Thibaud
873f5d2711 fix: SText.updateMeasuredBounds() must mutate internal bounds, not defensive copy
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Closes #27
 2026-03-27 23:22:08 +00:00
4 changed files with 647 additions and 1 deletions
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2
src/main/java/ovh/gasser/newshapes/shapes/SText.java
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@@ -57,7 +57,7 @@ public class SText extends AbstractShape {
} }
public void updateMeasuredBounds(int width, int height) { public void updateMeasuredBounds(int width, int height) {
getBounds().setSize(Math.max(width, 0), Math.max(height, 0)); bounds.setSize(Math.max(width, 0), Math.max(height, 0));
} }
@Override @Override

387
src/test/java/ovh/gasser/newshapes/shapes/ContainsPointTest.java Normal file
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@@ -0,0 +1,387 @@
package ovh.gasser.newshapes.shapes;
import org.junit.jupiter.api.Nested;
import org.junit.jupiter.api.Test;
import java.awt.Color;
import java.awt.Point;
import static org.junit.jupiter.api.Assertions.*;
/**
* Tests bounds-based hit-testing for all shape types.
* Hit-testing is performed via {@code shape.getBounds().contains(Point)},
* delegating to {@link java.awt.Rectangle#contains(Point)}.
*
* <p>Note on {@link java.awt.Rectangle#contains} boundary semantics:
* A rectangle {@code (x, y, w, h)} contains a point {@code (px, py)} when:
* {@code x <= px < x+w} and {@code y <= py < y+h}.
* The top-left corner is <em>inclusive</em>; the bottom-right corner is <em>exclusive</em>.
*/
class ContainsPointTest {
// -----------------------------------------------------------------------
// SRectangle — bounds = (x, y, width, height)
// -----------------------------------------------------------------------
@Nested
class SRectangleContainsPoint {
// Shape: origin (10, 20), size 80×60 → right-exclusive: x=90, y=80
private final SRectangle rect = SRectangle.create(10, 20, 80, 60);
@Test
void pointInsideShouldBeContained() {
Point inside = new Point(50, 50);
assertTrue(rect.getBounds().contains(inside),
"A point clearly inside the rectangle should be contained");
}
@Test
void pointOutsideShouldNotBeContained() {
Point outside = new Point(5, 5);
assertFalse(rect.getBounds().contains(outside),
"A point outside the rectangle should not be contained");
}
@Test
void pointFarOutsideShouldNotBeContained() {
Point farOutside = new Point(200, 300);
assertFalse(rect.getBounds().contains(farOutside),
"A point far outside the rectangle should not be contained");
}
@Test
void topLeftCornerShouldBeContained() {
// Rectangle.contains is inclusive of the top-left corner
Point topLeft = new Point(10, 20);
assertTrue(rect.getBounds().contains(topLeft),
"The top-left corner (inclusive boundary) should be contained");
}
@Test
void bottomRightCornerShouldNotBeContained() {
// Rectangle.contains is exclusive of the bottom-right corner
Point bottomRight = new Point(90, 80); // x + width, y + height
assertFalse(rect.getBounds().contains(bottomRight),
"The bottom-right corner (exclusive boundary) should not be contained");
}
@Test
void pointJustInsideBottomRightShouldBeContained() {
Point justInside = new Point(89, 79); // one pixel before exclusive boundary
assertTrue(rect.getBounds().contains(justInside),
"A point one pixel before the bottom-right boundary should be contained");
}
@Test
void pointAfterTranslateShouldBeAtNewPosition() {
SRectangle moved = SRectangle.create(10, 20, 80, 60);
moved.translate(30, 40); // new bounds: (40, 60, 80, 60)
Point oldCenter = new Point(50, 50);
assertFalse(moved.getBounds().contains(oldCenter),
"After translate, old center should no longer be contained");
Point newCenter = new Point(80, 90);
assertTrue(moved.getBounds().contains(newCenter),
"After translate, a point at the new center should be contained");
}
@Test
void pointOnTopEdgeShouldBeContained() {
Point topEdge = new Point(50, 20); // y == rect.y, inside x range
assertTrue(rect.getBounds().contains(topEdge),
"A point on the top edge should be contained");
}
@Test
void pointOnLeftEdgeShouldBeContained() {
Point leftEdge = new Point(10, 50); // x == rect.x, inside y range
assertTrue(rect.getBounds().contains(leftEdge),
"A point on the left edge should be contained");
}
@Test
void pointOnRightEdgeShouldNotBeContained() {
Point rightEdge = new Point(90, 50); // x == rect.x + rect.width (exclusive)
assertFalse(rect.getBounds().contains(rightEdge),
"A point exactly on the right edge (exclusive) should not be contained");
}
@Test
void pointOnBottomEdgeShouldNotBeContained() {
Point bottomEdge = new Point(50, 80); // y == rect.y + rect.height (exclusive)
assertFalse(rect.getBounds().contains(bottomEdge),
"A point exactly on the bottom edge (exclusive) should not be contained");
}
}
// -----------------------------------------------------------------------
// SCircle — bounds = (x, y, radius*2, radius*2)
// -----------------------------------------------------------------------
@Nested
class SCircleContainsPoint {
// Shape: origin (20, 30), radius=40 → bounds (20, 30, 80, 80)
// right-exclusive corner: (100, 110)
private final SCircle circle = SCircle.create(20, 30, 40);
@Test
void pointInsideBoundsShouldBeContained() {
Point inside = new Point(60, 70);
assertTrue(circle.getBounds().contains(inside),
"A point inside the bounding box should be contained");
}
@Test
void pointOutsideBoundsShouldNotBeContained() {
Point outside = new Point(10, 10);
assertFalse(circle.getBounds().contains(outside),
"A point outside the bounding box should not be contained");
}
@Test
void topLeftCornerShouldBeContained() {
Point topLeft = new Point(20, 30);
assertTrue(circle.getBounds().contains(topLeft),
"The top-left corner of the bounding box (inclusive) should be contained");
}
@Test
void bottomRightCornerShouldNotBeContained() {
Point bottomRight = new Point(100, 110); // x + 2r, y + 2r
assertFalse(circle.getBounds().contains(bottomRight),
"The bottom-right corner of the bounding box (exclusive) should not be contained");
}
@Test
void pointAfterTranslateShouldBeAtNewPosition() {
SCircle moved = SCircle.create(20, 30, 40);
moved.translate(50, 50); // new bounds: (70, 80, 80, 80)
Point oldCenter = new Point(60, 70);
assertFalse(moved.getBounds().contains(oldCenter),
"After translate, old center should no longer be contained");
Point newCenter = new Point(110, 120);
assertTrue(moved.getBounds().contains(newCenter),
"After translate, a point at the new center should be contained");
}
}
// -----------------------------------------------------------------------
// STriangle — bounds = (x, y, size, size)
// -----------------------------------------------------------------------
@Nested
class STriangleContainsPoint {
// Shape: origin (5, 15), size=60 → bounds (5, 15, 60, 60)
// right-exclusive corner: (65, 75)
private final STriangle triangle = STriangle.create(5, 15, 60, Color.RED, Color.BLACK);
@Test
void pointInsideBoundsShouldBeContained() {
Point inside = new Point(35, 45);
assertTrue(triangle.getBounds().contains(inside),
"A point inside the bounding box should be contained");
}
@Test
void pointOutsideBoundsShouldNotBeContained() {
Point outside = new Point(0, 0);
assertFalse(triangle.getBounds().contains(outside),
"A point outside the bounding box should not be contained");
}
@Test
void topLeftCornerShouldBeContained() {
Point topLeft = new Point(5, 15);
assertTrue(triangle.getBounds().contains(topLeft),
"The top-left corner of the bounding box (inclusive) should be contained");
}
@Test
void bottomRightCornerShouldNotBeContained() {
Point bottomRight = new Point(65, 75); // x + size, y + size
assertFalse(triangle.getBounds().contains(bottomRight),
"The bottom-right corner of the bounding box (exclusive) should not be contained");
}
@Test
void pointAfterTranslateShouldBeAtNewPosition() {
STriangle moved = STriangle.create(5, 15, 60, Color.RED, Color.BLACK);
moved.translate(100, 100); // new bounds: (105, 115, 60, 60)
Point oldCenter = new Point(35, 45);
assertFalse(moved.getBounds().contains(oldCenter),
"After translate, old center should no longer be contained");
Point newCenter = new Point(135, 145);
assertTrue(moved.getBounds().contains(newCenter),
"After translate, a point at the new center should be contained");
}
}
// -----------------------------------------------------------------------
// SText — bounds = (x, y, 100, 20)
// -----------------------------------------------------------------------
@Nested
class STextContainsPoint {
// Shape: origin (50, 100) → bounds (50, 100, 100, 20)
// right-exclusive corner: (150, 120)
private final SText text = SText.create(50, 100, "Hello");
@Test
void pointInsideBoundsShouldBeContained() {
Point inside = new Point(100, 110);
assertTrue(text.getBounds().contains(inside),
"A point inside the default text bounding box should be contained");
}
@Test
void pointOutsideBoundsShouldNotBeContained() {
Point outside = new Point(10, 10);
assertFalse(text.getBounds().contains(outside),
"A point outside the text bounding box should not be contained");
}
@Test
void topLeftCornerShouldBeContained() {
Point topLeft = new Point(50, 100);
assertTrue(text.getBounds().contains(topLeft),
"The top-left corner of the text bounding box (inclusive) should be contained");
}
@Test
void bottomRightCornerShouldNotBeContained() {
// Default bounds width=100, height=20 → exclusive corner at (150, 120)
Point bottomRight = new Point(150, 120);
assertFalse(text.getBounds().contains(bottomRight),
"The bottom-right corner of the text bounding box (exclusive) should not be contained");
}
@Test
void pointJustBeforeBottomRightShouldBeContained() {
Point justInside = new Point(149, 119);
assertTrue(text.getBounds().contains(justInside),
"A point one pixel before the exclusive bottom-right boundary should be contained");
}
@Test
void pointAfterTranslateShouldBeAtNewPosition() {
// Original bounds: (50, 100, 100, 20) — covers x∈[50,150), y∈[100,120)
SText moved = SText.create(50, 100, "Hello");
moved.translate(-40, 10); // new bounds: (10, 110, 100, 20) — covers x∈[10,110), y∈[110,130)
// (130, 105) was inside original bounds but is now outside (x=130 >= 110, y=105 < 110)
Point oldPosition = new Point(130, 105);
assertFalse(moved.getBounds().contains(oldPosition),
"After translate, a point that was in the old bounds should no longer be contained");
// (50, 115) is inside new bounds: x∈[10,110), y∈[110,130) ✓
Point newPosition = new Point(50, 115);
assertTrue(moved.getBounds().contains(newPosition),
"After translate, a point in the new bounds should be contained");
}
@Test
void blankTextUsesDefaultPlaceholderAndSameBounds() {
// Even blank/null text falls back to the placeholder — bounds remain (x, y, 100, 20)
SText blankText = SText.create(0, 0, "");
Point inside = new Point(50, 10);
assertTrue(blankText.getBounds().contains(inside),
"Blank text still uses default bounds; interior point should be contained");
}
}
// -----------------------------------------------------------------------
// SCollection — bounds = union of children bounds
// -----------------------------------------------------------------------
@Nested
class SCollectionContainsPoint {
// Two non-overlapping children:
// rect1: (10, 10, 50, 50) → covers x∈[10,60), y∈[10,60)
// rect2: (100, 100, 40, 40) → covers x∈[100,140), y∈[100,140)
// Union bounds: (10, 10, 130, 130) → exclusive corner: (140, 140)
private final SRectangle child1 = SRectangle.create(10, 10, 50, 50);
private final SRectangle child2 = SRectangle.create(100, 100, 40, 40);
private final SCollection collection = SCollection.of(child1, child2);
@Test
void pointInsideFirstChildBoundsShouldBeContained() {
Point insideChild1 = new Point(30, 30);
assertTrue(collection.getBounds().contains(insideChild1),
"A point inside the first child's bounds is within the union and should be contained");
}
@Test
void pointInsideSecondChildBoundsShouldBeContained() {
Point insideChild2 = new Point(120, 120);
assertTrue(collection.getBounds().contains(insideChild2),
"A point inside the second child's bounds is within the union and should be contained");
}
@Test
void pointInGapBetweenChildrenShouldBeContained() {
// The union rectangle spans the gap between the two children
Point inGap = new Point(70, 70);
assertTrue(collection.getBounds().contains(inGap),
"A point in the gap between children is still inside the union bounds and should be contained");
}
@Test
void pointOutsideUnionShouldNotBeContained() {
Point outside = new Point(0, 0);
assertFalse(collection.getBounds().contains(outside),
"A point outside the union bounds should not be contained");
}
@Test
void topLeftCornerOfUnionShouldBeContained() {
// Union top-left = (10, 10) — inclusive
Point topLeft = new Point(10, 10);
assertTrue(collection.getBounds().contains(topLeft),
"The top-left corner of the union bounds (inclusive) should be contained");
}
@Test
void bottomRightCornerOfUnionShouldNotBeContained() {
// Union: x=10, y=10, w=130, h=130 → exclusive corner (140, 140)
Point bottomRight = new Point(140, 140);
assertFalse(collection.getBounds().contains(bottomRight),
"The bottom-right corner of the union bounds (exclusive) should not be contained");
}
@Test
void pointAfterTranslatingChildrenShouldBeAtNewPosition() {
SRectangle movableChild = SRectangle.create(0, 0, 30, 30);
SCollection movable = SCollection.of(movableChild);
movable.translate(50, 50); // child now at (50, 50, 30, 30)
Point oldPoint = new Point(15, 15);
assertFalse(movable.getBounds().contains(oldPoint),
"After translate, a point at the old location should not be contained");
Point newPoint = new Point(65, 65);
assertTrue(movable.getBounds().contains(newPoint),
"After translate, a point at the new location should be contained");
}
@Test
void singleChildCollectionBoundsMatchChildBounds() {
SRectangle only = SRectangle.create(5, 5, 20, 20);
SCollection single = SCollection.of(only);
assertEquals(only.getBounds(), single.getBounds(),
"A single-child collection's bounds should equal the child's own bounds");
}
}
}

223
src/test/java/ovh/gasser/newshapes/shapes/EdgeCaseTest.java Normal file
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@@ -0,0 +1,223 @@
package ovh.gasser.newshapes.shapes;
import ovh.gasser.newshapes.App;
import ovh.gasser.newshapes.attributes.SelectionAttributes;
import org.junit.jupiter.api.Nested;
import org.junit.jupiter.api.Test;
import java.awt.*;
import static org.junit.jupiter.api.Assertions.*;
class EdgeCaseTest {
// -------------------------------------------------------------------------
// NegativeCoordinates
// -------------------------------------------------------------------------
@Nested
class NegativeCoordinates {
@Test
void rectangleAtNegativeCoordsShouldPreserveBounds() {
SRectangle rect = SRectangle.create(-10, -20, 50, 50);
Rectangle bounds = rect.getBounds();
assertEquals(-10, bounds.x, "x should be -10");
assertEquals(-20, bounds.y, "y should be -20");
assertEquals(50, bounds.width, "width should be 50");
assertEquals(50, bounds.height, "height should be 50");
}
@Test
void circleAtNegativeCoordsShouldPreserveBounds() {
SCircle circle = SCircle.create(-30, -40, 25);
Rectangle bounds = circle.getBounds();
assertEquals(-30, bounds.x, "x should be -30");
assertEquals(-40, bounds.y, "y should be -40");
assertEquals(50, bounds.width, "width should be radius*2 = 50");
assertEquals(50, bounds.height, "height should be radius*2 = 50");
}
@Test
void triangleAtNegativeCoordsShouldPreserveBounds() {
STriangle tri = STriangle.create(-5, -15, 60, Color.RED, Color.BLACK);
Rectangle bounds = tri.getBounds();
assertEquals(-5, bounds.x, "x should be -5");
assertEquals(-15, bounds.y, "y should be -15");
assertEquals(60, bounds.width, "width should be 60");
assertEquals(60, bounds.height, "height should be 60");
}
@Test
void translateToNegativePositionShouldUpdateBoundsCorrectly() {
SRectangle rect = SRectangle.create(10, 20, 80, 40);
rect.translate(-50, -70);
Rectangle bounds = rect.getBounds();
assertEquals(-40, bounds.x, "x after translate should be -40");
assertEquals(-50, bounds.y, "y after translate should be -50");
// dimensions must be unchanged
assertEquals(80, bounds.width, "width must remain 80 after translate");
assertEquals(40, bounds.height, "height must remain 40 after translate");
}
}
// -------------------------------------------------------------------------
// ZeroDimensions
// -------------------------------------------------------------------------
@Nested
class ZeroDimensions {
@Test
void rectangleWithZeroWidthShouldReturnZeroWidthFromFactory() {
SRectangle rect = SRectangle.create(0, 0, 0, 50);
assertEquals(0, rect.getBounds().width,
"factory should allow zero width without clamping");
}
@Test
void rectangleWithZeroHeightShouldReturnZeroHeightFromFactory() {
SRectangle rect = SRectangle.create(0, 0, 50, 0);
assertEquals(0, rect.getBounds().height,
"factory should allow zero height without clamping");
}
@Test
void circleWithZeroRadiusShouldHaveZeroBoundsDimensions() {
SCircle circle = SCircle.create(5, 10, 0);
assertEquals(0, circle.getRadius(), "radius should be 0");
assertEquals(0, circle.getBounds().width, "bounds width should be 0 (radius*2)");
assertEquals(0, circle.getBounds().height, "bounds height should be 0 (radius*2)");
}
}
// -------------------------------------------------------------------------
// ResizeClamping
// -------------------------------------------------------------------------
@Nested
class ResizeClamping {
@Test
void rectangleResizedToNegativeShouldClampWidthToOne() {
// Start with a 10x10 rect and drag the E handle far to the left
SRectangle rect = SRectangle.create(0, 0, 10, 10);
rect.resize(ResizeHandle.E, -200, 0);
assertTrue(rect.getBounds().width >= 1,
"width must be clamped to a minimum of 1 after negative resize");
assertEquals(1, rect.getBounds().width,
"width should be exactly 1 after extreme negative resize on E handle");
}
@Test
void rectangleResizedToNegativeShouldClampHeightToOne() {
SRectangle rect = SRectangle.create(0, 0, 10, 10);
rect.resize(ResizeHandle.S, 0, -200);
assertTrue(rect.getBounds().height >= 1,
"height must be clamped to a minimum of 1 after negative resize");
assertEquals(1, rect.getBounds().height,
"height should be exactly 1 after extreme negative resize on S handle");
}
@Test
void circleResizedToNegativeShouldClampToTwo() {
SCircle circle = SCircle.create(0, 0, 50);
// Drag E handle far to the left → shrink
circle.resize(ResizeHandle.E, -500, 0);
assertTrue(circle.getBounds().width >= 2,
"circle width must be clamped to a minimum of 2");
assertTrue(circle.getBounds().height >= 2,
"circle height must be clamped to a minimum of 2");
assertEquals(2, circle.getBounds().width,
"circle width should be exactly 2 after extreme negative resize");
assertEquals(2, circle.getBounds().height,
"circle height should be exactly 2 after extreme negative resize");
}
}
// -------------------------------------------------------------------------
// NullHandling
// -------------------------------------------------------------------------
@Nested
class NullHandling {
@Test
void textCreatedWithNullShouldReturnPlaceholder() {
SText text = SText.create(0, 0, null);
assertEquals(SText.PLACEHOLDER_TEXT, text.getText(),
"null input should be normalized to the placeholder text");
}
@Test
void textCreatedWithBlankStringShouldReturnPlaceholder() {
SText text = SText.create(0, 0, " ");
assertEquals(SText.PLACEHOLDER_TEXT, text.getText(),
"blank string input should be normalized to the placeholder text");
}
@Test
void getAttributesWithUnknownKeyShouldReturnNull() {
SRectangle rect = SRectangle.create(0, 0, 50, 50);
assertNull(rect.getAttributes("NONEXISTENT"),
"getAttributes() with an unknown key must return null");
}
@Test
void emptyCollectionCreationShouldNotThrow() {
assertDoesNotThrow(() -> SCollection.of(),
"SCollection.of() with no arguments must not throw");
}
@Test
void emptyCollectionGetBoundsShouldReturnWindowSize() {
SCollection collection = SCollection.of();
Rectangle bounds = collection.getBounds();
assertNotNull(bounds, "getBounds() on empty collection must not return null");
assertEquals(App.WIN_SIZE.width, bounds.width,
"empty collection bounds width should equal WIN_SIZE.width");
assertEquals(App.WIN_SIZE.height, bounds.height,
"empty collection bounds height should equal WIN_SIZE.height");
}
}
// -------------------------------------------------------------------------
// LargeValues
// -------------------------------------------------------------------------
@Nested
class LargeValues {
@Test
void rectangleAtMaxIntHalfCoordsShouldNotThrow() {
int halfMax = Integer.MAX_VALUE / 2;
assertDoesNotThrow(() -> SRectangle.create(halfMax, halfMax, 100, 100),
"SRectangle.create() with very large coordinates must not throw");
}
@Test
void rectangleAtMaxIntHalfCoordsPreservesBounds() {
int halfMax = Integer.MAX_VALUE / 2;
SRectangle rect = SRectangle.create(halfMax, halfMax, 100, 100);
assertEquals(halfMax, rect.getBounds().x, "x should be Integer.MAX_VALUE/2");
assertEquals(halfMax, rect.getBounds().y, "y should be Integer.MAX_VALUE/2");
assertEquals(100, rect.getBounds().width, "width should be 100");
assertEquals(100, rect.getBounds().height, "height should be 100");
}
@Test
void translateWithLargeValuesShouldNotThrow() {
SRectangle rect = SRectangle.create(0, 0, 50, 50);
// Integer overflow is a known platform behaviour; we only assert no exception
assertDoesNotThrow(() -> rect.translate(Integer.MAX_VALUE, Integer.MAX_VALUE),
"translate() with Integer.MAX_VALUE must not throw (overflow is acceptable)");
}
@Test
void translateWithLargeNegativeValuesShouldNotThrow() {
SRectangle rect = SRectangle.create(0, 0, 50, 50);
assertDoesNotThrow(() -> rect.translate(Integer.MIN_VALUE, Integer.MIN_VALUE),
"translate() with Integer.MIN_VALUE must not throw (overflow is acceptable)");
}
}
}

36
src/test/java/ovh/gasser/newshapes/shapes/STextTest.java
View File

@@ -44,4 +44,40 @@ class STextTest {
SText text = SText.create(0, 0, null); SText text = SText.create(0, 0, null);
assertEquals(SText.PLACEHOLDER_TEXT, text.getText()); assertEquals(SText.PLACEHOLDER_TEXT, text.getText());
} }
@Test
void testUpdateMeasuredBoundsActuallyUpdatesBounds() {
SText text = SText.create(10, 20, "Hello");
text.updateMeasuredBounds(200, 30);
Rectangle bounds = text.getBounds();
assertEquals(200, bounds.width, "updateMeasuredBounds must update width");
assertEquals(30, bounds.height, "updateMeasuredBounds must update height");
}
@Test
void testUpdateMeasuredBoundsDoesNotChangePosition() {
SText text = SText.create(10, 20, "Hello");
text.updateMeasuredBounds(200, 30);
Rectangle bounds = text.getBounds();
assertEquals(10, bounds.x, "updateMeasuredBounds must not change x");
assertEquals(20, bounds.y, "updateMeasuredBounds must not change y");
}
@Test
void testUpdateMeasuredBoundsNegativeClampedToZero() {
SText text = SText.create(0, 0, "Hello");
text.updateMeasuredBounds(-5, -10);
Rectangle bounds = text.getBounds();
assertEquals(0, bounds.width, "negative width must be clamped to 0");
assertEquals(0, bounds.height, "negative height must be clamped to 0");
}
@Test
void testUpdateMeasuredBoundsZeroIsAllowed() {
SText text = SText.create(0, 0, "Hello");
text.updateMeasuredBounds(0, 0);
Rectangle bounds = text.getBounds();
assertEquals(0, bounds.width);
assertEquals(0, bounds.height);
}
} }