svgedit/test/utilities_bbox_test.js

479 lines
17 KiB
JavaScript

/* eslint-env qunit */
import '../editor/svgpathseg.js';
import {NS} from '../editor/namespaces.js';
import * as utilities from '../editor/utilities.js';
import * as transformlist from '../editor/svgtransformlist.js';
import * as math from '../editor/math.js';
import * as path from '../editor/path.js';
import closePlugin from './qunit/qunit-assert-close.js';
closePlugin(QUnit);
// log function
QUnit.log((details) => {
if (window.console && window.console.log) {
window.console.log(details.result + ' :: ' + details.message);
}
});
function mockCreateSVGElement (jsonMap) {
const elem = document.createElementNS(NS.SVG, jsonMap['element']);
for (const attr in jsonMap['attr']) {
elem.setAttribute(attr, jsonMap['attr'][attr]);
}
return elem;
}
let mockaddSVGElementFromJsonCallCount = 0;
function mockaddSVGElementFromJson (json) {
const elem = mockCreateSVGElement(json);
svgroot.append(elem);
mockaddSVGElementFromJsonCallCount++;
return elem;
}
const mockPathActions = {
resetOrientation (pth) {
if (pth == null || pth.nodeName !== 'path') { return false; }
const tlist = transformlist.getTransformList(pth);
const m = math.transformListToTransform(tlist).matrix;
tlist.clear();
pth.removeAttribute('transform');
const segList = pth.pathSegList;
const len = segList.numberOfItems;
// let lastX, lastY;
for (let i = 0; i < len; ++i) {
const seg = segList.getItem(i);
const type = seg.pathSegType;
if (type === 1) { continue; }
const pts = [];
['', 1, 2].forEach(function (n, j) {
const x = seg['x' + n], y = seg['y' + n];
if (x !== undefined && y !== undefined) {
const pt = math.transformPoint(x, y, m);
pts.splice(pts.length, 0, pt.x, pt.y);
}
});
path.replacePathSeg(type, i, pts, pth);
}
// path.reorientGrads(pth, m);
}
};
const EPSILON = 0.001;
// const svg = document.createElementNS(NS.SVG, 'svg');
const sandbox = document.getElementById('sandbox');
const svgroot = mockCreateSVGElement({
element: 'svg',
attr: {id: 'svgroot'}
});
sandbox.append(svgroot);
QUnit.module('svgedit.utilities_bbox', {
beforeEach () {
// We're reusing ID's so we need to do this for transforms.
transformlist.resetListMap();
path.init(null);
mockaddSVGElementFromJsonCallCount = 0;
},
afterEach () {
}
});
QUnit.test('Test svgedit.utilities package', function (assert) {
assert.ok(utilities);
assert.ok(utilities.getBBoxWithTransform);
assert.ok(utilities.getStrokedBBox);
assert.ok(utilities.getRotationAngleFromTransformList);
assert.ok(utilities.getRotationAngle);
});
QUnit.test('Test getBBoxWithTransform and no transform', function (assert) {
const {getBBoxWithTransform} = utilities;
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M0,1 L2,3'}
});
svgroot.append(elem);
let bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 2, height: 2});
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10'}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
elem.remove();
elem = mockCreateSVGElement({
element: 'line',
attr: {id: 'line', x1: '0', y1: '1', x2: '5', y2: '6'}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 5});
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10'}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {}
});
g.append(elem);
svgroot.append(g);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
g.remove();
});
QUnit.test('Test getBBoxWithTransform and a rotation transform', function (assert) {
const {getBBoxWithTransform} = utilities;
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M10,10 L20,20', transform: 'rotate(45 10,10)'}
});
svgroot.append(elem);
let bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, 10, EPSILON);
assert.close(bbox.y, 10, EPSILON);
assert.close(bbox.width, 0, EPSILON);
assert.close(bbox.height, Math.sqrt(100 + 100), EPSILON);
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '10', y: '10', width: '10', height: '20', transform: 'rotate(90 15,20)'}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, 5, EPSILON);
assert.close(bbox.y, 15, EPSILON);
assert.close(bbox.width, 20, EPSILON);
assert.close(bbox.height, 10, EPSILON);
assert.equal(mockaddSVGElementFromJsonCallCount, 1);
elem.remove();
const rect = {x: 10, y: 10, width: 10, height: 20};
const angle = 45;
const origin = {x: 15, y: 20};
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect2', x: rect.x, y: rect.y, width: rect.width, height: rect.height, transform: 'rotate(' + angle + ' ' + origin.x + ',' + origin.y + ')'}
});
svgroot.append(elem);
mockaddSVGElementFromJsonCallCount = 0;
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
const r2 = rotateRect(rect, angle, origin);
assert.close(bbox.x, r2.x, EPSILON, 'rect2 x is ' + r2.x);
assert.close(bbox.y, r2.y, EPSILON, 'rect2 y is ' + r2.y);
assert.close(bbox.width, r2.width, EPSILON, 'rect2 width is' + r2.width);
assert.close(bbox.height, r2.height, EPSILON, 'rect2 height is ' + r2.height);
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
elem.remove();
// Same as previous but wrapped with g and the transform is with the g.
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect3', x: rect.x, y: rect.y, width: rect.width, height: rect.height}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {transform: 'rotate(' + angle + ' ' + origin.x + ',' + origin.y + ')'}
});
g.append(elem);
svgroot.append(g);
mockaddSVGElementFromJsonCallCount = 0;
bbox = getBBoxWithTransform(g, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, r2.x, EPSILON, 'rect2 x is ' + r2.x);
assert.close(bbox.y, r2.y, EPSILON, 'rect2 y is ' + r2.y);
assert.close(bbox.width, r2.width, EPSILON, 'rect2 width is' + r2.width);
assert.close(bbox.height, r2.height, EPSILON, 'rect2 height is ' + r2.height);
assert.equal(mockaddSVGElementFromJsonCallCount, 0);
g.remove();
elem = mockCreateSVGElement({
element: 'ellipse',
attr: {id: 'ellipse1', cx: '100', cy: '100', rx: '50', ry: '50', transform: 'rotate(45 100,100)'}
});
svgroot.append(elem);
mockaddSVGElementFromJsonCallCount = 0;
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
// TODO: the BBox algorithm is using the bezier control points to calculate the bounding box. Should be 50, 50, 100, 100.
assert.ok(bbox.x > 45 && bbox.x <= 50);
assert.ok(bbox.y > 45 && bbox.y <= 50);
assert.ok(bbox.width >= 100 && bbox.width < 110);
assert.ok(bbox.height >= 100 && bbox.height < 110);
assert.equal(mockaddSVGElementFromJsonCallCount, 1);
elem.remove();
});
QUnit.test('Test getBBoxWithTransform with rotation and matrix transforms', function (assert) {
const {getBBoxWithTransform} = utilities;
let tx = 10; // tx right
let ty = 10; // tx down
let txInRotatedSpace = Math.sqrt(tx * tx + ty * ty); // translate in rotated 45 space.
let tyInRotatedSpace = 0;
let matrix = 'matrix(1,0,0,1,' + txInRotatedSpace + ',' + tyInRotatedSpace + ')';
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M10,10 L20,20', transform: 'rotate(45 10,10) ' + matrix}
});
svgroot.append(elem);
let bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, 10 + tx, EPSILON);
assert.close(bbox.y, 10 + ty, EPSILON);
assert.close(bbox.width, 0, EPSILON);
assert.close(bbox.height, Math.sqrt(100 + 100), EPSILON);
elem.remove();
txInRotatedSpace = tx; // translate in rotated 90 space.
tyInRotatedSpace = -ty;
matrix = 'matrix(1,0,0,1,' + txInRotatedSpace + ',' + tyInRotatedSpace + ')';
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '10', y: '10', width: '10', height: '20', transform: 'rotate(90 15,20) ' + matrix}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, 5 + tx, EPSILON);
assert.close(bbox.y, 15 + ty, EPSILON);
assert.close(bbox.width, 20, EPSILON);
assert.close(bbox.height, 10, EPSILON);
elem.remove();
const rect = {x: 10, y: 10, width: 10, height: 20};
const angle = 45;
const origin = {x: 15, y: 20};
tx = 10; // tx right
ty = 10; // tx down
txInRotatedSpace = Math.sqrt(tx * tx + ty * ty); // translate in rotated 45 space.
tyInRotatedSpace = 0;
matrix = 'matrix(1,0,0,1,' + txInRotatedSpace + ',' + tyInRotatedSpace + ')';
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect2', x: rect.x, y: rect.y, width: rect.width, height: rect.height, transform: 'rotate(' + angle + ' ' + origin.x + ',' + origin.y + ') ' + matrix}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
const r2 = rotateRect(rect, angle, origin);
assert.close(bbox.x, r2.x + tx, EPSILON, 'rect2 x is ' + r2.x);
assert.close(bbox.y, r2.y + ty, EPSILON, 'rect2 y is ' + r2.y);
assert.close(bbox.width, r2.width, EPSILON, 'rect2 width is' + r2.width);
assert.close(bbox.height, r2.height, EPSILON, 'rect2 height is ' + r2.height);
elem.remove();
// Same as previous but wrapped with g and the transform is with the g.
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect3', x: rect.x, y: rect.y, width: rect.width, height: rect.height}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {transform: 'rotate(' + angle + ' ' + origin.x + ',' + origin.y + ') ' + matrix}
});
g.append(elem);
svgroot.append(g);
bbox = getBBoxWithTransform(g, mockaddSVGElementFromJson, mockPathActions);
assert.close(bbox.x, r2.x + tx, EPSILON, 'rect2 x is ' + r2.x);
assert.close(bbox.y, r2.y + ty, EPSILON, 'rect2 y is ' + r2.y);
assert.close(bbox.width, r2.width, EPSILON, 'rect2 width is' + r2.width);
assert.close(bbox.height, r2.height, EPSILON, 'rect2 height is ' + r2.height);
g.remove();
elem = mockCreateSVGElement({
element: 'ellipse',
attr: {id: 'ellipse1', cx: '100', cy: '100', rx: '50', ry: '50', transform: 'rotate(45 100,100) ' + matrix}
});
svgroot.append(elem);
bbox = getBBoxWithTransform(elem, mockaddSVGElementFromJson, mockPathActions);
// TODO: the BBox algorithm is using the bezier control points to calculate the bounding box. Should be 50, 50, 100, 100.
assert.ok(bbox.x > 45 + tx && bbox.x <= 50 + tx);
assert.ok(bbox.y > 45 + ty && bbox.y <= 50 + ty);
assert.ok(bbox.width >= 100 && bbox.width < 110);
assert.ok(bbox.height >= 100 && bbox.height < 110);
elem.remove();
});
QUnit.test('Test getStrokedBBox with stroke-width 10', function (assert) {
const {getStrokedBBox} = utilities;
const strokeWidth = 10;
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M0,1 L2,3', 'stroke-width': strokeWidth}
});
svgroot.append(elem);
let bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0 - strokeWidth / 2, y: 1 - strokeWidth / 2, width: 2 + strokeWidth, height: 2 + strokeWidth});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10', 'stroke-width': strokeWidth}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0 - strokeWidth / 2, y: 1 - strokeWidth / 2, width: 5 + strokeWidth, height: 10 + strokeWidth});
elem.remove();
elem = mockCreateSVGElement({
element: 'line',
attr: {id: 'line', x1: '0', y1: '1', x2: '5', y2: '6', 'stroke-width': strokeWidth}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0 - strokeWidth / 2, y: 1 - strokeWidth / 2, width: 5 + strokeWidth, height: 5 + strokeWidth});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10', 'stroke-width': strokeWidth}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {}
});
g.append(elem);
svgroot.append(g);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0 - strokeWidth / 2, y: 1 - strokeWidth / 2, width: 5 + strokeWidth, height: 10 + strokeWidth});
g.remove();
});
QUnit.test("Test getStrokedBBox with stroke-width 'none'", function (assert) {
const {getStrokedBBox} = utilities;
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M0,1 L2,3', 'stroke-width': 'none'}
});
svgroot.append(elem);
let bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 2, height: 2});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10', 'stroke-width': 'none'}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
elem.remove();
elem = mockCreateSVGElement({
element: 'line',
attr: {id: 'line', x1: '0', y1: '1', x2: '5', y2: '6', 'stroke-width': 'none'}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 5});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10', 'stroke-width': 'none'}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {}
});
g.append(elem);
svgroot.append(g);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
g.remove();
});
QUnit.test('Test getStrokedBBox with no stroke-width attribute', function (assert) {
const {getStrokedBBox} = utilities;
let elem = mockCreateSVGElement({
element: 'path',
attr: {id: 'path', d: 'M0,1 L2,3'}
});
svgroot.append(elem);
let bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 2, height: 2});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10'}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
elem.remove();
elem = mockCreateSVGElement({
element: 'line',
attr: {id: 'line', x1: '0', y1: '1', x2: '5', y2: '6'}
});
svgroot.append(elem);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 5});
elem.remove();
elem = mockCreateSVGElement({
element: 'rect',
attr: {id: 'rect', x: '0', y: '1', width: '5', height: '10'}
});
const g = mockCreateSVGElement({
element: 'g',
attr: {}
});
g.append(elem);
svgroot.append(g);
bbox = getStrokedBBox([elem], mockaddSVGElementFromJson, mockPathActions);
assert.deepEqual(bbox, {x: 0, y: 1, width: 5, height: 10});
g.remove();
});
function radians (degrees) {
return degrees * Math.PI / 180;
}
function rotatePoint (point, angle, origin) {
if (!origin) {
origin = {x: 0, y: 0};
}
const x = point.x - origin.x;
const y = point.y - origin.y;
const theta = radians(angle);
return {
x: x * Math.cos(theta) + y * Math.sin(theta) + origin.x,
y: x * Math.sin(theta) + y * Math.cos(theta) + origin.y
};
}
function rotateRect (rect, angle, origin) {
const tl = rotatePoint({x: rect.x, y: rect.y}, angle, origin);
const tr = rotatePoint({x: rect.x + rect.width, y: rect.y}, angle, origin);
const br = rotatePoint({x: rect.x + rect.width, y: rect.y + rect.height}, angle, origin);
const bl = rotatePoint({x: rect.x, y: rect.y + rect.height}, angle, origin);
const minx = Math.min(tl.x, tr.x, bl.x, br.x);
const maxx = Math.max(tl.x, tr.x, bl.x, br.x);
const miny = Math.min(tl.y, tr.y, bl.y, br.y);
const maxy = Math.max(tl.y, tr.y, bl.y, br.y);
return {
x: minx,
y: miny,
width: (maxx - minx),
height: (maxy - miny)
};
}