jasmine.DEFAULT_TIMEOUT_INTERVAL = 20000; describe('PathKit\'s SVG Behavior', function() { // Note, don't try to print the PathKit object - it can cause Karma/Jasmine to lock up. var PathKit = null; const LoadPathKit = new Promise(function(resolve, reject) { if (PathKit) { resolve(); } else { PathKitInit({ locateFile: (file) => '/pathkit/'+file, }).ready().then((_PathKit) => { PathKit = _PathKit; resolve(); }); } }); it('can create a path from an SVG string', function(done) { LoadPathKit.then(catchException(done, () => { //.This is a parallelagram from // https://upload.wikimedia.org/wikipedia/commons/e/e7/Simple_parallelogram.svg let path = PathKit.FromSVGString('M 205,5 L 795,5 L 595,295 L 5,295 L 205,5 z'); let cmds = path.toCmds(); expect(cmds).toBeTruthy(); // 1 move, 4 lines, 1 close // each element in cmds is an array, with index 0 being the verb, and the rest being args expect(cmds.length).toBe(6); expect(cmds).toEqual([[PathKit.MOVE_VERB, 205, 5], [PathKit.LINE_VERB, 795, 5], [PathKit.LINE_VERB, 595, 295], [PathKit.LINE_VERB, 5, 295], [PathKit.LINE_VERB, 205, 5], [PathKit.CLOSE_VERB]]); path.delete(); done(); })); }); it('can create an SVG string from a path', function(done) { LoadPathKit.then(catchException(done, () => { let cmds = [[PathKit.MOVE_VERB, 205, 5], [PathKit.LINE_VERB, 795, 5], [PathKit.LINE_VERB, 595, 295], [PathKit.LINE_VERB, 5, 295], [PathKit.LINE_VERB, 205, 5], [PathKit.CLOSE_VERB]]; let path = PathKit.FromCmds(cmds); let svgStr = path.toSVGString(); // We output it in terse form, which is different than Wikipedia's version expect(svgStr).toEqual('M205 5L795 5L595 295L5 295L205 5Z'); path.delete(); done(); })); }); it('can create an SVG string from hex values', function(done) { LoadPathKit.then(catchException(done, () => { let cmds = [[PathKit.MOVE_VERB, "0x15e80300", "0x400004dc"], // 9.37088e-26f, 2.0003f [PathKit.LINE_VERB, 795, 5], [PathKit.LINE_VERB, 595, 295], [PathKit.LINE_VERB, 5, 295], [PathKit.LINE_VERB, "0x15e80300", "0x400004dc"], // 9.37088e-26f, 2.0003f [PathKit.CLOSE_VERB]]; let path = PathKit.FromCmds(cmds); let svgStr = path.toSVGString(); expect(svgStr).toEqual('M9.37088e-26 2.0003L795 5L595 295L5 295L9.37088e-26 2.0003Z'); path.delete(); done(); })); }); it('should have input and the output be the same', function(done) { LoadPathKit.then(catchException(done, () => { let testCases = [ 'M0 0L1075 0L1075 242L0 242L0 0Z' ]; for(let svg of testCases) { let path = PathKit.FromSVGString(svg); let output = path.toSVGString(); expect(svg).toEqual(output); path.delete(); } done(); })); }); it('approximates arcs (conics) with quads', function(done) { LoadPathKit.then(catchException(done, () => { let path = PathKit.NewPath(); path.moveTo(50, 120); path.arc(50, 120, 45, 0, 1.75 * Math.PI); path.lineTo(50, 120); let svgStr = path.toSVGString(); // Q stands for quad. No need to check the whole path, as that's more // what the gold correctness tests are for (can account for changes we make // to the approximation algorithms). expect(svgStr).toContain('Q'); path.delete(); reportSVGString(svgStr, 'conics_quads_approx').then(() => { done(); }).catch(reportError(done)); })); }); });