paper.js/test/tests/HitResult.js

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/*
* Paper.js - The Swiss Army Knife of Vector Graphics Scripting.
* http://paperjs.org/
*
* Copyright (c) 2011 - 2020, Jürg Lehni & Jonathan Puckey
* http://juerglehni.com/ & https://puckey.studio/
*
* Distributed under the MIT license. See LICENSE file for details.
*
* All rights reserved.
*/
QUnit.module('HitResult');
test('Hit-testing options', function() {
var defaultOptions = {
type: null,
tolerance: paper.settings.hitTolerance,
fill: true,
stroke: true,
segments: true,
handles: false,
ends: false,
position: false,
center: false,
bounds: false,
guides: false,
selected: false
};
equals(HitResult.getOptions(), defaultOptions, 'Default options');
});
function testHitResult(hitResult, expeced, message) {
equals(!!hitResult, !!expeced, message
? message
: expeced
? 'A HitResult should be returned.'
: 'No HitResult should be returned.');
if (hitResult && expeced) {
if (expeced.type) {
equals(hitResult.type, expeced.type,
'hitResult.type == \'' + expeced.type + '\'');
}
if (expeced.item) {
equals(hitResult.item == expeced.item, true,
'hitResult.item == ' + expeced.item);
}
if (expeced.name) {
equals(hitResult.name, expeced.name,
'hitResult.name == \'' + expeced.name + '\'');
}
if (expeced.point) {
equals(hitResult.point.toString(), expeced.point.toString(),
'hitResult.point == \'' + expeced.point + '\'');
}
if (expeced.segment) {
equals(hitResult.segment == expeced.segment, true,
'hitResult.segment == ' + expeced.segment);
}
}
}
test('hitting a filled shape', function() {
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var path = new Path.Circle([50, 50], 50);
var hitResult = path.hitTest([75, 75]);
testHitResult(path.hitTest([75, 75]), null,
'Since the path is not filled, the hit-test should return null.');
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path.fillColor = 'red';
testHitResult(path.hitTest([75, 75]), {
type: 'fill',
item: path
});
});
test('the item on top should be returned', function() {
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var path = new Path.Circle([50, 50], 50);
path.fillColor = 'red';
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// The cloned path is lying above the path:
var copy = path.clone();
testHitResult(paper.project.hitTest([75, 75]), {
type: 'fill',
item: copy
});
});
test('hitting a stroked path', function() {
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var path = new Path([0, 0], [50, 0]);
// We are hit-testing with an offset of 5pt on a path with a stroke width
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// of 10:
testHitResult(paper.project.hitTest([25, 5]), null,
'Since the path is not stroked yet, the hit-test should return null.');
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path.strokeColor = 'black';
path.strokeWidth = 10;
testHitResult(path.hitTest([25, 5]), {
type: 'stroke',
item: path
});
});
test('hitting a selected path', function() {
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var path = new Path.Circle([50, 50], 50);
path.fillColor = 'red';
testHitResult(paper.project.hitTest([75, 75], { selected: true }), null,
'Since the path is not stroked yet, the hit-test should return null.');
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path.selected = true;
testHitResult(paper.project.hitTest([75, 75]), {
type: 'fill',
item: path
});
});
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test('hitting path segments', function() {
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var path = new Path([0, 0], [10, 10], [20, 0]);
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testHitResult(paper.project.hitTest([10, 10]), {
type: 'segment',
item: path
});
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});
test('hitting the center and position of a path', function() {
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var path = new Path([0, 0], [100, 100], [200, 0]);
path.closed = true;
var center = path.bounds.center,
position = path.position,
positionResult = {
type: 'position', item: path, point: position
},
centerResult = {
type: 'center', item: path, point: center
};
testHitResult(paper.project.hitTest(position, {
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center: true
}), centerResult);
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var offset = new Point(1, 1);
testHitResult(paper.project.hitTest(position.add(offset), {
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tolerance: offset.length,
center: true
}), centerResult, 'position with tolerance');
testHitResult(paper.project.hitTest(position, {
position: true
}), positionResult);
testHitResult(paper.project.hitTest(center, {
position: true
}), positionResult);
path.pivot = [100, 100];
testHitResult(paper.project.hitTest(center, {
position: true
}), null, 'with pivot, the position should not be in the center');
testHitResult(paper.project.hitTest(path.position, {
position: true
}), {
type: 'position', item: path, point: path.position
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});
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});
test('hitting path handles (1)', function() {
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var path = new Path.Circle(new Point(), 10);
path.firstSegment.handleIn = [-50, 0];
path.firstSegment.handleOut = [50, 0];
var firstPoint = path.firstSegment.point;
testHitResult(paper.project.hitTest(firstPoint.add(50, 0), {
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handles: true
}), {
type: 'handle-out',
item: path
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});
testHitResult(paper.project.hitTest(firstPoint.add(-50, 0), {
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handles: true
}), {
type: 'handle-in',
item: path
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});
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});
test('hitting path handles (2)', function() {
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var path = new Path(new Segment({
point: [0, 0],
handleIn: [-50, -50],
handleOut: [50, 50]
}));
testHitResult(paper.project.hitTest([50, 50], {
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handles: true
}), {
type: 'handle-out',
item: path
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});
testHitResult(paper.project.hitTest([-50, -50], {
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handles: true
}), {
type: 'handle-in',
item: path
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});
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});
test('hit-testing stroke on segment point of a path', function() {
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var path = new Path([0, 0], [50, 50], [100, 0]);
path.strokeColor = 'black';
path.closed = true;
var error = null;
try {
var hitResult = paper.project.hitTest(path.firstSegment.point, {
stroke: true
});
} catch (e) {
error = e;
}
var description = 'This hit-test should not throw an error';
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if (error)
description += ': ' + error;
equals(error == null, true, description);
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});
test('hit-testing a point that is extremely close to a curve', function() {
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var path = new Path.Rectangle([0, 0], [100, 100]);
// A point whose x value is extremely close to 0:
var point = new Point(2.842 / Math.pow(10, 14), 0);
var error;
try {
var hitResult = path.hitTest(point, {
stroke: true
});
} catch(e) {
error = e;
}
var description = 'This hit-test should not throw an error';
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if (error)
description += ': ' + error;
equals(error == null, true, description);
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});
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test('hitting path ends', function() {
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var path = new Path([0, 0], [50, 50], [100, 0]);
path.closed = true;
equals(function() {
return !paper.project.hitTest(path.firstSegment.point, {
ends: true
});
}, true, 'No HitResult should be returned, because the path is closed.');
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path.closed = false;
testHitResult(paper.project.hitTest(path.lastSegment.point, {
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ends: true
}), {
type: 'segment',
item: path,
segment: path.lastSegment
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});
equals(function() {
return !paper.project.hitTest(path.segments[1].point, {
ends: true
});
}, true, 'No HitResult should be returned, since the second segment is not an end');
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});
test('When a path is closed, the end of a path cannot be hit.', function() {
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var path = new Path([0, 0], [50, 50], [100, 0]);
path.closed = true;
var hitResult = paper.project.hitTest([0, 0], {
ends: true
});
equals(function() {
return !hitResult;
}, true, 'When a path is closed, the end of a path cannot be hit.');
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});
test('hitting path bounding box', function() {
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var path = new Path.Circle({
center: [100, 100],
radius: 50,
fillColor: 'red'
});
testHitResult(paper.project.hitTest(path.bounds.topLeft, {
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bounds: true
}), {
type: 'bounds',
item: path,
name: 'top-left',
point: path.bounds.topLeft
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});
});
test('hitting raster bounding box', function() {
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var path = new Path.Circle({
center: [100, 100],
radius: 50,
fillColor: 'red'
});
var raster = path.rasterize(72);
path.remove();
testHitResult(paper.project.hitTest(raster.bounds.topLeft, {
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bounds: true
}), {
type: 'bounds',
item: raster,
name: 'top-left',
point: path.bounds.topLeft
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});
});
test('hitting guides', function() {
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var path = new Path.Circle({
center: [100, 100],
radius: 50,
fillColor: 'red'
});
var copy = path.clone();
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var result = paper.project.hitTest(path.position);
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equals(result && result.item, copy,
'The copy should be returned, because it is on top.');
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path.guide = true;
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var result = paper.project.hitTest(path.position, {
guides: true,
fill: true
});
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equals(result && result.item, path,
'The path should be returned, because it is a guide.');
});
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test('hitting raster items', function() {
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// Create a path, rasterize it and then remove the path:
var path = new Path.Rectangle(new Point(), new Size(320, 240));
path.fillColor = 'red';
var raster = path.rasterize(72);
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var hitResult = paper.project.hitTest(new Point(160, 120));
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equals(function() {
return hitResult && hitResult.item == raster;
}, true, 'Hit raster item before moving');
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// Move the raster:
raster.translate(100, 100);
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var hitResult = paper.project.hitTest(new Point(160, 120));
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equals(function() {
return hitResult && hitResult.item == raster;
}, true, 'Hit raster item after moving');
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});
test('hitting path with a text item in the project', function() {
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var path = new Path.Rectangle(new Point(50, 50), new Point(100, 100));
path.fillColor = 'blue';
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var hitResult = paper.project.hitTest(new Point(75, 75));
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equals(function() {
return hitResult && hitResult.item == path;
}, true, 'Hit path item before adding text item');
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var text1 = new PointText(30, 30);
text1.content = "Text 1";
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var hitResult = paper.project.hitTest(new Point(75, 75));
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equals(function() {
return !!hitResult;
}, true, 'A hitresult should be returned.');
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equals(function() {
return !!hitResult && hitResult.item == path;
}, true, 'We should have hit the path');
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});
test('hit-testing of items that come after a transformed group.', function() {
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paper.project.currentStyle.fillColor = 'black';
var point1 = new Point(100, 100);
var point2 = new Point(140, 100);
var delta = new Point(250, 0);
var path1 = new Path.Circle(point1, 20);
path1.name = 'path1';
var path2 = new Path.Circle(point2, 20);
path2.name = 'path2';
var group = new Group(path2);
group.name = 'group';
var hitResult = paper.project.hitTest(point1);
equals(function() {
return hitResult && hitResult.item;
}, path1, 'Hit testing project for point1 should give us path1.');
hitResult = paper.project.hitTest(point2);
equals(function() {
return hitResult && hitResult.item;
}, path2, 'Hit testing project for point2 should give us path2.');
hitResult = paper.project.hitTest(point2);
equals(function() {
return hitResult && hitResult.item;
}, path2, 'Hit testing project for point2 should give us path2.');
group.translate(delta);
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hitResult = paper.project.hitTest(point1);
equals(function() {
return hitResult && hitResult.item;
}, path1, 'After translating group, hit-testing project for point1 should give us path1.');
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hitResult = paper.project.hitTest(point2.add(delta));
equals(function() {
return hitResult && hitResult.item;
}, path2, 'After translating group, hit-testing project for point2 + delta should give us path2.');
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hitResult = path1.hitTest(point1);
equals(function() {
return hitResult && hitResult.item;
}, path1, 'After translating group, hit-testing path1 for point1 should give us path1.');
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group.moveBelow(path1);
hitResult = paper.project.hitTest(point1);
equals(function() {
return hitResult && hitResult.item;
}, path1, 'After moving group before path1, hit-testing project for point1 should give us path1.');
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hitResult = paper.project.hitTest(point2.add(delta));
equals(function() {
return hitResult && hitResult.item;
}, path2, 'After moving group before path1, hit-testing project for point2 + delta should give us path2.');
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hitResult = path1.hitTest(point1);
equals(function() {
return hitResult && hitResult.item;
}, path1, 'After moving group before path1, hit-testing path1 for point1 should give us path1.');
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});
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test('hit-testing of placed symbols.', function() {
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var point = new Point(100, 100);
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var path = new Path.Circle([0, 0], 20);
path.fillColor = 'black';
var definition = new SymbolDefinition(path);
var placedItem = definition.place(point);
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var hitResult = placedItem.hitTest(point);
equals(function() {
return hitResult && hitResult.item == placedItem;
}, true, 'hitResult.item should be placedItem');
});
test('hit-testing the corner of a rectangle with miter stroke.', function() {
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var rect = new Path.Rectangle({
rectangle: [100, 100, 300, 200],
fillColor: '#f00',
strokeColor: 'blue',
strokeJoin: 'miter',
strokeWidth: 20
});
equals(function() {
return rect.hitTest(rect.strokeBounds.topRight) != null;
}, true);
});
test('hit-testing invisible items.', function() {
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var point = new Point(0, 0);
var circle1 = new Path.Circle({
center: point.subtract([25, 0]),
radius: 50,
fillColor: 'red'
});
var circle2 = new Path.Circle({
center: point.add([25, 0]),
radius: 50,
fillColor: 'blue'
});
equals(function() {
return paper.project.hitTest(point).item === circle2;
}, true);
circle2.visible = false;
equals(function() {
return paper.project.hitTest(point).item === circle1;
}, true);
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});
test('hit-testing guides.', function() {
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var point = new Point(0, 0);
var circle1 = new Path.Circle({
center: point.subtract([25, 0]),
radius: 50,
fillColor: 'red'
});
var circle2 = new Path.Circle({
center: point.add([25, 0]),
radius: 50,
fillColor: 'blue'
});
var strokePoint = circle2.bounds.leftCenter;
equals(function() {
return paper.project.hitTest(strokePoint).item === circle2;
}, true);
circle2.guide = true;
equals(function() {
return paper.project.hitTest(strokePoint).item === circle1;
}, true);
equals(function() {
var result = paper.project.hitTest(strokePoint, {
guides: true,
fill: true
});
return result && result.item === circle2;
}, true);
});
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test('hit-testing fills with tolerance', function() {
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var path = new Path.Rectangle({
from: [50, 50],
to: [200, 200],
fillColor: 'red'
});
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var tolerance = 10;
var point = path.bounds.bottomRight.add(tolerance / Math.SQRT2);
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equals(function() {
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var result = paper.project.hitTest(point, {
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tolerance: tolerance,
fill: true
});
return result && result.item === path;
}, true);
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var point = new Point(20, 20);
var size = new Size(40, 40);
var hitPoint = new Point(10, 10);
var options = {
fill: true,
tolerance: 20
};
var shapeRect = new Shape.Rectangle(point, size);
shapeRect.fillColor = 'black';
var pathRect = new Path.Rectangle(point, size);
pathRect.fillColor = 'black';
equals(function() {
var hit = shapeRect.hitTest(hitPoint, options);
return hit && hit.type === 'fill';
}, true);
equals(function() {
var hit = pathRect.hitTest(hitPoint, options);
return hit && hit.type === 'fill';
}, true);
});
test('hit-testing compound-paths', function() {
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var center = new Point(100, 100);
var path1 = new Path.Circle({
center: center,
radius: 100
});
var path2 = new Path.Circle({
center: center,
radius: 50
});
var compoundPath = new CompoundPath({
children: [path1, path2],
fillColor: 'blue',
fillRule: 'evenodd'
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});
// When hit-testing a side, we should get a result on the torus
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equals(function() {
var result = paper.project.hitTest(center.add([75, 0]), {
fill: true
});
return result && result.item === compoundPath;
}, true);
// When hit-testing the center, we should not get a result on the torus
equals(function() {
var result = paper.project.hitTest(center, {
fill: true
});
return result === null;
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}, true);
// When asking specifically for paths, she should get the top-most path in
// the center (the one that cuts out the hole)
equals(function() {
var result = paper.project.hitTest(center, {
class: Path,
fill: true
});
return result && result.item === path2;
}, true);
});
test('hit-testing clipped items', function() {
var rect = new Path.Rectangle({
point: [50, 150],
size: [100, 50],
fillColor: 'red'
});
var circle = new Path.Circle({
center: [100, 200],
radius: 20,
fillColor: 'green'
});
var group = new Group({
children: [rect, circle]
});
group.clipped = true;
var point1 = new Point(100, 190);
var point2 = new Point(100, 210);
equals(function() {
var result = paper.project.hitTest(point1);
return result && result.item === circle;
}, true);
equals(function() {
var result = paper.project.hitTest(point2);
return result === null;
}, true);
});
test('hit-testing with a match function', function() {
var point = new Point(100, 100),
red = new Color('red'),
green = new Color('green'),
blue = new Color('blue');
var c1 = new Path.Circle({
center: point,
radius: 50,
fillColor: red
});
var c2 = new Path.Circle({
center: point,
radius: 50,
fillColor: green
});
var c3 = new Path.Circle({
center: point,
radius: 50,
fillColor: blue
});
equals(function() {
var result = paper.project.hitTest(point, {
fill: true,
match: function(res) {
return res.item.fillColor == red;
}
});
return result && result.item === c1;
}, true);
equals(function() {
var result = paper.project.hitTest(point, {
fill: true,
match: function(res) {
return res.item.fillColor == green;
}
});
return result && result.item === c2;
}, true);
equals(function() {
var result = paper.project.hitTest(point, {
fill: true,
match: function(res) {
return res.item.fillColor == blue;
}
});
return result && result.item === c3;
}, true);
});
test('hit-testing for all items', function() {
var c1 = new Path.Circle({
center: [100, 100],
radius: 40,
fillColor: 'red'
});
var c2 = new Path.Circle({
center: [120, 120],
radius: 40,
fillColor: 'green'
});
var c3 = new Path.Circle({
center: [140, 140],
radius: 40,
fillColor: 'blue'
});
equals(function() {
var result = paper.project.hitTestAll([60, 60]);
return result.length === 0;
}, true);
equals(function() {
var result = paper.project.hitTestAll([80, 80]);
return result.length === 1 && result[0].item === c1;
}, true);
equals(function() {
var result = paper.project.hitTestAll([100, 100]);
return result.length === 2 && result[0].item === c2
&& result[1].item === c1;
}, true);
equals(function() {
var result = paper.project.hitTestAll([120, 120]);
return result.length === 3 && result[0].item === c3
&& result[1].item === c2
&& result[2].item === c1;
}, true);
equals(function() {
var result = paper.project.hitTestAll([140, 140]);
return result.length === 2 && result[0].item === c3
&& result[1].item === c2;
}, true);
equals(function() {
var result = paper.project.hitTestAll([160, 160]);
return result.length === 1 && result[0].item === c3;
}, true);
equals(function() {
var result = paper.project.hitTestAll([180, 180]);
return result.length === 0;
}, true);
});
2016-02-16 14:52:07 -05:00
test('hit-testing shapes with strokes and rounded corners (#1207)', function() {
var rect = new Shape.Rectangle({
size: [300, 180],
strokeWidth: 30,
strokeColor: 'black',
fillColor: 'blue',
radius: 90
});
var path = rect.toPath();
path.visible = false;
// Test a few shape stroke hit-test edge cases that are right between the
// rounded corners and the straight parts.
testHitResult(project.hitTest([90, -10]), {
type: 'stroke'
});
testHitResult(project.hitTest([90, 190]), {
type: 'stroke'
});
testHitResult(project.hitTest([-10, 90]), {
type: 'stroke'
});
// Test at regular intervals along the stroke, and step away from the center
// in both directions to hit-test
for (var pos = 0; pos < path.length; pos += 10) {
var loc = path.getLocationAt(pos),
step = loc.normal.multiply(5);
testHitResult(project.hitTest(loc.point.add(step)), {
type: 'stroke'
});
testHitResult(project.hitTest(loc.point.subtract(step)), {
type: 'stroke'
});
}
});
test('hit-testing scaled items with different settings of view.zoom and item.strokeScaling (#1195)', function() {
function testItem(ctor, zoom, strokeScaling) {
var item = new ctor.Rectangle({
point: [100, 100],
size: [100, 100],
fillColor: 'red',
strokeColor: 'black',
strokeWidth: 10,
strokeScaling: strokeScaling,
applyMatrix: true
});
item.scale(2);
view.zoom = zoom;
var tolerance = 10,
options = { tolerance: tolerance, fill: true, stroke: true },
bounds = item.strokeBounds,
point = bounds.leftCenter,
name = ctor.name + '.Rectangle, strokeScaling = ' + strokeScaling
+ ', zoom = ' + zoom;
testHitResult(project.hitTest(point.subtract(tolerance + 1, 0), options),
null,
name + ' outside of stroke'
);
testHitResult(project.hitTest(point.subtract(tolerance, 0), options),
{ type: 'stroke' },
name + ' on stroke within tolerance'
);
testHitResult(project.hitTest(point, options),
{ type: 'stroke' },
name + ' on stroke'
);
item.remove();
}
testItem(Shape, 1, false);
testItem(Shape, 1, true);
testItem(Shape, 2, false);
testItem(Shape, 2, true);
testItem(Path, 1, false);
testItem(Path, 1, true);
testItem(Path, 2, false);
testItem(Path, 2, true);
});
test('hit-testing items scaled to 0', function() {
var item = new Shape.Rectangle({
point: [0, 0],
size: [100, 100],
fillColor: 'red',
selected: true
});
item.scale(0);
testHitResult(project.hitTest(item.position), null,
'should not throw an exception.');
});
// TODO: project.hitTest(point, {type: AnItemType});