/** * @license Copyright (c) 2003-2016, CKSource - Frederico Knabben. All rights reserved. * For licensing, see LICENSE.md. */ /* bender-tags: model */ 'use strict'; import Document from '/ckeditor5/engine/model/document.js'; import Element from '/ckeditor5/engine/model/element.js'; import Text from '/ckeditor5/engine/model/text.js'; import Range from '/ckeditor5/engine/model/range.js'; import Position from '/ckeditor5/engine/model/position.js'; import LiveRange from '/ckeditor5/engine/model/liverange.js'; import Selection from '/ckeditor5/engine/model/selection.js'; import InsertOperation from '/ckeditor5/engine/model/operation/insertoperation.js'; import MoveOperation from '/ckeditor5/engine/model/operation/moveoperation.js'; import CKEditorError from '/ckeditor5/utils/ckeditorerror.js'; import testUtils from '/tests/ckeditor5/_utils/utils.js'; import count from '/ckeditor5/utils/count.js'; import { jsonParseStringify, wrapInDelta } from '/tests/engine/model/_utils/utils.js'; testUtils.createSinonSandbox(); describe( 'Selection', () => { let attrFooBar; before( () => { attrFooBar = { foo: 'bar' }; } ); let doc, root, selection, liveRange, range; beforeEach( () => { doc = new Document(); root = doc.createRoot(); root.appendChildren( [ new Element( 'p' ), new Element( 'p' ), new Element( 'p', [], 'foobar' ), new Element( 'p' ), new Element( 'p' ), new Element( 'p' ), new Element( 'p', [], 'foobar' ) ] ); selection = doc.selection; doc.schema.registerItem( 'p', '$block' ); liveRange = new LiveRange( new Position( root, [ 0 ] ), new Position( root, [ 1 ] ) ); range = new Range( new Position( root, [ 2 ] ), new Position( root, [ 2, 2 ] ) ); } ); afterEach( () => { doc.destroy(); liveRange.detach(); } ); describe( 'default range', () => { it( 'should go to the first editable element', () => { const ranges = Array.from( selection.getRanges() ); expect( ranges.length ).to.equal( 1 ); expect( selection.anchor.isEqual( new Position( root, [ 0, 0 ] ) ) ).to.be.true; expect( selection.focus.isEqual( new Position( root, [ 0, 0 ] ) ) ).to.be.true; expect( selection ).to.have.property( 'isBackward', false ); expect( selection._attrs ).to.be.instanceof( Map ); expect( selection._attrs.size ).to.equal( 0 ); } ); it( 'should be set to the beginning of the doc if there is no editable element', () => { doc = new Document(); root = doc.createRoot(); root.insertChildren( 0, 'foobar' ); selection = doc.selection; const ranges = Array.from( selection.getRanges() ); expect( ranges.length ).to.equal( 1 ); expect( selection.anchor.isEqual( new Position( root, [ 0 ] ) ) ).to.be.true; expect( selection.focus.isEqual( new Position( root, [ 0 ] ) ) ).to.be.true; expect( selection ).to.have.property( 'isBackward', false ); expect( selection._attrs ).to.be.instanceof( Map ); expect( selection._attrs.size ).to.equal( 0 ); } ); it( 'should skip element when you can not put selection', () => { doc = new Document(); root = doc.createRoot(); root.insertChildren( 0, [ new Element( 'img' ), new Element( 'p', [], 'foobar' ) ] ); doc.schema.registerItem( 'img' ); doc.schema.registerItem( 'p', '$block' ); selection = doc.selection; const ranges = Array.from( selection.getRanges() ); expect( ranges.length ).to.equal( 1 ); expect( selection.anchor.isEqual( new Position( root, [ 1, 0 ] ) ) ).to.be.true; expect( selection.focus.isEqual( new Position( root, [ 1, 0 ] ) ) ).to.be.true; expect( selection ).to.have.property( 'isBackward', false ); expect( selection._attrs ).to.be.instanceof( Map ); expect( selection._attrs.size ).to.equal( 0 ); } ); } ); describe( 'isCollapsed', () => { it( 'should return true for default range', () => { expect( selection.isCollapsed ).to.be.true; } ); it( 'should return true when there is single collapsed ranges', () => { selection.addRange( new Range( new Position( root, [ 0 ] ), new Position( root, [ 0 ] ) ) ); expect( selection.isCollapsed ).to.be.true; } ); it( 'should return false when there are multiple ranges', () => { selection.addRange( new Range( new Position( root, [ 0 ] ), new Position( root, [ 0 ] ) ) ); selection.addRange( new Range( new Position( root, [ 2 ] ), new Position( root, [ 2 ] ) ) ); expect( selection.isCollapsed ).to.be.false; } ); it( 'should return false when there is not collapsed range', () => { selection.addRange( range ); expect( selection.isCollapsed ).to.be.false; } ); } ); describe( 'rangeCount', () => { it( 'should return proper range count', () => { expect( selection.rangeCount ).to.equal( 1 ); selection.addRange( new Range( new Position( root, [ 0 ] ), new Position( root, [ 0 ] ) ) ); expect( selection.rangeCount ).to.equal( 1 ); selection.addRange( new Range( new Position( root, [ 2 ] ), new Position( root, [ 2 ] ) ) ); expect( selection.rangeCount ).to.equal( 2 ); } ); } ); describe( 'isBackward', () => { it( 'is defined by the last added range', () => { selection.addRange( range, true ); expect( selection ).to.have.property( 'isBackward', true ); selection.addRange( liveRange ); expect( selection ).to.have.property( 'isBackward', false ); } ); it( 'is false when last range is collapsed', () => { const pos = Position.createAt( root, 0 ); selection.addRange( new Range( pos, pos ), true ); expect( selection.isBackward ).to.be.false; } ); } ); describe( 'addRange', () => { it( 'should copy added ranges and store multiple ranges', () => { selection.addRange( liveRange ); selection.addRange( range ); const ranges = selection._ranges; expect( ranges.length ).to.equal( 2 ); expect( ranges[ 0 ].isEqual( liveRange ) ).to.be.true; expect( ranges[ 1 ].isEqual( range ) ).to.be.true; expect( ranges[ 0 ] ).not.to.be.equal( liveRange ); expect( ranges[ 1 ] ).not.to.be.equal( range ); } ); it( 'should set anchor and focus to the start and end of the most recently added range', () => { selection.addRange( liveRange ); expect( selection.anchor.path ).to.deep.equal( [ 0 ] ); expect( selection.focus.path ).to.deep.equal( [ 1 ] ); selection.addRange( range ); expect( selection.anchor.path ).to.deep.equal( [ 2 ] ); expect( selection.focus.path ).to.deep.equal( [ 2, 2 ] ); } ); it( 'should set anchor and focus to the end and start of the most recently added range if backward flag was used', () => { selection.addRange( liveRange, true ); expect( selection.anchor.path ).to.deep.equal( [ 1 ] ); expect( selection.focus.path ).to.deep.equal( [ 0 ] ); selection.addRange( range, true ); expect( selection.anchor.path ).to.deep.equal( [ 2, 2 ] ); expect( selection.focus.path ).to.deep.equal( [ 2 ] ); } ); it( 'should return a copy of (not a reference to) array of stored ranges', () => { selection.addRange( liveRange ); const ranges = Array.from( selection.getRanges() ); selection.addRange( range ); expect( ranges.length ).to.equal( 1 ); expect( ranges[ 0 ].isEqual( liveRange ) ).to.be.true; } ); it( 'should convert added Range to LiveRange', () => { selection.addRange( range ); const ranges = selection._ranges; expect( ranges[ 0 ] ).to.be.instanceof( LiveRange ); } ); it( 'should fire change:range event when adding a range', () => { let spy = sinon.spy(); selection.on( 'change:range', spy ); selection.addRange( range ); expect( spy.called ).to.be.true; } ); it( 'should unbind all events when destroyed', () => { selection.addRange( liveRange ); selection.addRange( range ); const ranges = selection._ranges; sinon.spy( ranges[ 0 ], 'detach' ); sinon.spy( ranges[ 1 ], 'detach' ); selection.destroy(); expect( ranges[ 0 ].detach.called ).to.be.true; expect( ranges[ 1 ].detach.called ).to.be.true; ranges[ 0 ].detach.restore(); ranges[ 1 ].detach.restore(); } ); it( 'should throw an error if added range intersects with already stored range', () => { selection.addRange( liveRange ); expect( () => { selection.addRange( new Range( new Position( root, [ 0, 4 ] ), new Position( root, [ 1, 2 ] ) ) ); } ).to.throw( CKEditorError, /selection-range-intersects/ ); } ); } ); describe( 'collapse', () => { it( 'detaches all existing ranges', () => { selection.addRange( range ); selection.addRange( liveRange ); const spy = testUtils.sinon.spy( LiveRange.prototype, 'detach' ); selection.collapse( root ); expect( spy.calledTwice ).to.be.true; } ); it( 'fires change:range', () => { const spy = sinon.spy(); selection.on( 'change:range', spy ); selection.collapse( root ); expect( spy.calledOnce ).to.be.true; } ); it( 'sets selection at the 0 offset if second parameter not passed', () => { selection.collapse( root ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', 0 ); } ); it( 'sets selection at given offset in given parent', () => { selection.collapse( root, 3 ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', 3 ); } ); it( 'sets selection at the end of the given parent', () => { selection.collapse( root, 'END' ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', root.getChildCount() ); } ); it( 'sets selection before the specified element', () => { selection.collapse( root.getChild( 1 ), 'BEFORE' ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', 1 ); } ); it( 'sets selection after the specified element', () => { selection.collapse( root.getChild( 1 ), 'AFTER' ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', 2 ); } ); it( 'sets selection at the specified position', () => { const pos = Position.createFromParentAndOffset( root, 3 ); selection.collapse( pos ); expect( selection ).to.have.property( 'isCollapsed', true ); const focus = selection.focus; expect( focus ).to.have.property( 'parent', root ); expect( focus ).to.have.property( 'offset', 3 ); } ); } ); describe( 'setFocus', () => { it( 'keeps all existing ranges and fires no change:range when no modifications needed', () => { selection.addRange( range ); selection.addRange( liveRange ); const spy = sinon.spy(); selection.on( 'change:range', spy ); selection.setFocus( selection.focus ); expect( count( selection.getRanges() ) ).to.equal( 2 ); expect( spy.callCount ).to.equal( 0 ); } ); it( 'fires change:range', () => { selection.addRange( range ); const spy = sinon.spy(); selection.on( 'change:range', spy ); selection.setFocus( Position.createAt( root, 'END' ) ); expect( spy.calledOnce ).to.be.true; } ); it( 'modifies default range', () => { const startPos = selection.getFirstPosition(); const endPos = Position.createAt( root, 'END' ); selection.setFocus( endPos ); expect( selection.anchor.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( endPos ) ).to.equal( 'SAME' ); } ); it( 'modifies existing collapsed selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); selection.collapse( startPos ); selection.setFocus( endPos ); expect( selection.anchor.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( endPos ) ).to.equal( 'SAME' ); } ); it( 'makes existing collapsed selection a backward selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 0 ); selection.collapse( startPos ); selection.setFocus( endPos ); expect( selection.anchor.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( endPos ) ).to.equal( 'SAME' ); expect( selection.isBackward ).to.be.true; } ); it( 'modifies existing non-collapsed selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 3 ); selection.addRange( new Range( startPos, endPos ) ); selection.setFocus( newEndPos ); expect( selection.anchor.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); } ); it( 'makes existing non-collapsed selection a backward selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 0 ); selection.addRange( new Range( startPos, endPos ) ); selection.setFocus( newEndPos ); expect( selection.anchor.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); expect( selection.isBackward ).to.be.true; } ); it( 'makes existing backward selection a forward selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 3 ); selection.addRange( new Range( startPos, endPos ), true ); selection.setFocus( newEndPos ); expect( selection.anchor.compareWith( endPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); expect( selection.isBackward ).to.be.false; } ); it( 'modifies existing backward selection', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 0 ); selection.addRange( new Range( startPos, endPos ), true ); selection.setFocus( newEndPos ); expect( selection.anchor.compareWith( endPos ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); expect( selection.isBackward ).to.be.true; } ); it( 'modifies only the last range', () => { // Offsets are chosen in this way that the order of adding ranges must count, not their document order. const startPos1 = Position.createAt( root, 4 ); const endPos1 = Position.createAt( root, 5 ); const startPos2 = Position.createAt( root, 1 ); const endPos2 = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 0 ); selection.addRange( new Range( startPos1, endPos1 ) ); selection.addRange( new Range( startPos2, endPos2 ) ); const spy = sinon.spy(); selection.on( 'change:range', spy ); selection.setFocus( newEndPos ); const ranges = Array.from( selection.getRanges() ); expect( ranges ).to.have.lengthOf( 2 ); expect( ranges[ 0 ].start.compareWith( startPos1 ) ).to.equal( 'SAME' ); expect( ranges[ 0 ].end.compareWith( endPos1 ) ).to.equal( 'SAME' ); expect( selection.anchor.compareWith( startPos2 ) ).to.equal( 'SAME' ); expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); expect( selection.isBackward ).to.be.true; expect( spy.calledOnce ).to.be.true; } ); it( 'collapses the selection when extending to the anchor', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); selection.addRange( new Range( startPos, endPos ) ); selection.setFocus( startPos ); expect( selection.focus.compareWith( startPos ) ).to.equal( 'SAME' ); expect( selection.isCollapsed ).to.be.true; } ); it( 'uses Position.createAt', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 4 ); const spy = testUtils.sinon.stub( Position, 'createAt', () => newEndPos ); selection.addRange( new Range( startPos, endPos ) ); selection.setFocus( root, 'END' ); expect( spy.calledOnce ).to.be.true; expect( selection.focus.compareWith( newEndPos ) ).to.equal( 'SAME' ); } ); it( 'detaches the range it replaces', () => { const startPos = Position.createAt( root, 1 ); const endPos = Position.createAt( root, 2 ); const newEndPos = Position.createAt( root, 4 ); const spy = testUtils.sinon.spy( LiveRange.prototype, 'detach' ); selection.addRange( new Range( startPos, endPos ) ); selection.setFocus( newEndPos ); expect( spy.calledOnce ).to.be.true; } ); } ); describe( 'removeAllRanges', () => { let spy, ranges; beforeEach( () => { selection.addRange( liveRange ); selection.addRange( range ); spy = sinon.spy(); selection.on( 'change:range', spy ); ranges = selection._ranges; sinon.spy( ranges[ 0 ], 'detach' ); sinon.spy( ranges[ 1 ], 'detach' ); selection.removeAllRanges(); } ); afterEach( () => { ranges[ 0 ].detach.restore(); ranges[ 1 ].detach.restore(); } ); it( 'should remove all stored ranges (and reset to default range)', () => { expect( Array.from( selection.getRanges() ).length ).to.equal( 1 ); expect( selection.anchor.isEqual( new Position( root, [ 0, 0 ] ) ) ).to.be.true; expect( selection.focus.isEqual( new Position( root, [ 0, 0 ] ) ) ).to.be.true; } ); it( 'should fire exactly one update event', () => { expect( spy.calledOnce ).to.be.true; } ); it( 'should detach ranges', () => { expect( ranges[ 0 ].detach.called ).to.be.true; expect( ranges[ 1 ].detach.called ).to.be.true; } ); } ); describe( 'setRanges', () => { let newRanges, spy, oldRanges; before( () => { newRanges = [ new Range( new Position( root, [ 4 ] ), new Position( root, [ 5 ] ) ), new Range( new Position( root, [ 5, 0 ] ), new Position( root, [ 6, 0 ] ) ) ]; } ); beforeEach( () => { selection.addRange( liveRange ); selection.addRange( range ); spy = sinon.spy(); selection.on( 'change:range', spy ); oldRanges = selection._ranges; sinon.spy( oldRanges[ 0 ], 'detach' ); sinon.spy( oldRanges[ 1 ], 'detach' ); } ); afterEach( () => { oldRanges[ 0 ].detach.restore(); oldRanges[ 1 ].detach.restore(); } ); it( 'should remove all ranges and add given ranges', () => { selection.setRanges( newRanges ); let ranges = selection._ranges; expect( ranges.length ).to.equal( 2 ); expect( ranges[ 0 ].isEqual( newRanges[ 0 ] ) ).to.be.true; expect( ranges[ 1 ].isEqual( newRanges[ 1 ] ) ).to.be.true; } ); it( 'should use last range from given array to get anchor and focus position', () => { selection.setRanges( newRanges ); expect( selection.anchor.path ).to.deep.equal( [ 5, 0 ] ); expect( selection.focus.path ).to.deep.equal( [ 6, 0 ] ); } ); it( 'should acknowledge backward flag when setting anchor and focus', () => { selection.setRanges( newRanges, true ); expect( selection.anchor.path ).to.deep.equal( [ 6, 0 ] ); expect( selection.focus.path ).to.deep.equal( [ 5, 0 ] ); } ); it( 'should fire exactly one update event', () => { selection.setRanges( newRanges ); expect( spy.calledOnce ).to.be.true; } ); it( 'should detach removed LiveRanges', () => { selection.setRanges( newRanges ); expect( oldRanges[ 0 ].detach.called ).to.be.true; expect( oldRanges[ 1 ].detach.called ).to.be.true; } ); } ); describe( 'getFirstRange', () => { it( 'should return a range which start position is before all other ranges\' start positions', () => { // This will not be the first range despite being added as first selection.addRange( new Range( new Position( root, [ 4 ] ), new Position( root, [ 5 ] ) ) ); // This should be the first range. selection.addRange( new Range( new Position( root, [ 1 ] ), new Position( root, [ 4 ] ) ) ); // A random range that is not first. selection.addRange( new Range( new Position( root, [ 6 ] ), new Position( root, [ 7 ] ) ) ); let range = selection.getFirstRange(); expect( range.start.path ).to.deep.equal( [ 1 ] ); expect( range.end.path ).to.deep.equal( [ 4 ] ); } ); } ); describe( 'getFirstPosition', () => { it( 'should return a position that is in selection and is before any other position from the selection', () => { // This will not be a range containing the first position despite being added as first selection.addRange( new Range( new Position( root, [ 4 ] ), new Position( root, [ 5 ] ) ) ); // This should be the first range. selection.addRange( new Range( new Position( root, [ 1 ] ), new Position( root, [ 4 ] ) ) ); // A random range that is not first. selection.addRange( new Range( new Position( root, [ 6 ] ), new Position( root, [ 7 ] ) ) ); let position = selection.getFirstPosition(); expect( position.path ).to.deep.equal( [ 1 ] ); } ); } ); // Selection uses LiveRanges so here are only simple test to see if integration is // working well, without getting into complicated corner cases. describe( 'after applying an operation should get updated and not fire update event', () => { let spy; beforeEach( () => { root.insertChildren( 0, [ new Element( 'ul', [], 'abcdef' ), new Element( 'p', [], 'foobar' ), 'xyz' ] ); selection.addRange( new Range( new Position( root, [ 0, 2 ] ), new Position( root, [ 1, 4 ] ) ) ); spy = sinon.spy(); selection.on( 'change:range', spy ); } ); describe( 'InsertOperation', () => { it( 'before selection', () => { doc.applyOperation( wrapInDelta( new InsertOperation( new Position( root, [ 0, 1 ] ), 'xyz', doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 5 ] ); expect( range.end.path ).to.deep.equal( [ 1, 4 ] ); expect( spy.called ).to.be.false; } ); it( 'inside selection', () => { doc.applyOperation( wrapInDelta( new InsertOperation( new Position( root, [ 1, 0 ] ), 'xyz', doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 2 ] ); expect( range.end.path ).to.deep.equal( [ 1, 7 ] ); expect( spy.called ).to.be.false; } ); } ); describe( 'MoveOperation', () => { it( 'move range from before a selection', () => { doc.applyOperation( wrapInDelta( new MoveOperation( new Position( root, [ 0, 0 ] ), 2, new Position( root, [ 2 ] ), doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 0 ] ); expect( range.end.path ).to.deep.equal( [ 1, 4 ] ); expect( spy.called ).to.be.false; } ); it( 'moved into before a selection', () => { doc.applyOperation( wrapInDelta( new MoveOperation( new Position( root, [ 2 ] ), 2, new Position( root, [ 0, 0 ] ), doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 4 ] ); expect( range.end.path ).to.deep.equal( [ 1, 4 ] ); expect( spy.called ).to.be.false; } ); it( 'move range from inside of selection', () => { doc.applyOperation( wrapInDelta( new MoveOperation( new Position( root, [ 1, 0 ] ), 2, new Position( root, [ 2 ] ), doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 2 ] ); expect( range.end.path ).to.deep.equal( [ 1, 2 ] ); expect( spy.called ).to.be.false; } ); it( 'moved range intersects with selection', () => { doc.applyOperation( wrapInDelta( new MoveOperation( new Position( root, [ 1, 3 ] ), 2, new Position( root, [ 4 ] ), doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 2 ] ); expect( range.end.path ).to.deep.equal( [ 1, 3 ] ); expect( spy.called ).to.be.false; } ); it( 'split inside selection (do not break selection)', () => { doc.applyOperation( wrapInDelta( new InsertOperation( new Position( root, [ 2 ] ), new Element( 'p' ), doc.version ) ) ); doc.applyOperation( wrapInDelta( new MoveOperation( new Position( root, [ 1, 2 ] ), 4, new Position( root, [ 2, 0 ] ), doc.version ) ) ); let range = selection._ranges[ 0 ]; expect( range.start.path ).to.deep.equal( [ 0, 2 ] ); expect( range.end.path ).to.deep.equal( [ 2, 2 ] ); expect( spy.called ).to.be.false; } ); } ); } ); describe( 'attributes interface', () => { let fullP, emptyP, rangeInFullP, rangeInEmptyP; beforeEach( () => { root.insertChildren( 0, [ new Element( 'p', [], 'foobar' ), new Element( 'p', [], [] ) ] ); fullP = root.getChild( 0 ); emptyP = root.getChild( 1 ); rangeInFullP = new Range( new Position( root, [ 0, 4 ] ), new Position( root, [ 0, 4 ] ) ); rangeInEmptyP = new Range( new Position( root, [ 1, 0 ] ), new Position( root, [ 1, 0 ] ) ); } ); describe( 'setAttribute', () => { it( 'should set given attribute on the selection', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'foo', 'bar' ); expect( selection.getAttribute( 'foo' ) ).to.equal( 'bar' ); expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; } ); it( 'should store attribute if the selection is in empty node', () => { selection.setRanges( [ rangeInEmptyP ] ); selection.setAttribute( 'foo', 'bar' ); expect( selection.getAttribute( 'foo' ) ).to.equal( 'bar' ); expect( emptyP.getAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.equal( 'bar' ); } ); it( 'should fire change:attribute event', () => { let spy = sinon.spy(); selection.on( 'change:attribute', spy ); selection.setAttribute( 'foo', 'bar' ); expect( spy.called ).to.be.true; } ); } ); describe( 'hasAttribute', () => { it( 'should return true if element contains attribute with given key', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'foo', 'bar' ); expect( selection.hasAttribute( 'foo' ) ).to.be.true; } ); it( 'should return false if element does not contain attribute with given key', () => { expect( selection.hasAttribute( 'abc' ) ).to.be.false; } ); } ); describe( 'getAttribute', () => { it( 'should return undefined if element does not contain given attribute', () => { expect( selection.getAttribute( 'abc' ) ).to.be.undefined; } ); } ); describe( 'getAttributes', () => { it( 'should return an iterator that iterates over all attributes set on the text fragment', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'foo', 'bar' ); selection.setAttribute( 'abc', 'xyz' ); let attrs = Array.from( selection.getAttributes() ); expect( attrs ).to.deep.equal( [ [ 'foo', 'bar' ], [ 'abc', 'xyz' ] ] ); } ); } ); describe( 'setAttributesTo', () => { it( 'should remove all attributes set on element and set the given ones', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'abc', 'xyz' ); selection.setAttributesTo( { foo: 'bar' } ); expect( selection.getAttribute( 'foo' ) ).to.equal( 'bar' ); expect( selection.getAttribute( 'abc' ) ).to.be.undefined; expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'abc' ) ) ).to.be.false; } ); it( 'should remove all stored attributes and store the given ones if the selection is in empty node', () => { selection.setRanges( [ rangeInEmptyP ] ); selection.setAttribute( 'abc', 'xyz' ); selection.setAttributesTo( { foo: 'bar' } ); expect( selection.getAttribute( 'foo' ) ).to.equal( 'bar' ); expect( selection.getAttribute( 'abc' ) ).to.be.undefined; expect( emptyP.getAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.equal( 'bar' ); expect( emptyP.hasAttribute( Selection._getStoreAttributeKey( 'abc' ) ) ).to.be.false; } ); it( 'should fire change:attribute event', () => { let spy = sinon.spy(); selection.on( 'change:attribute', spy ); selection.setAttributesTo( { foo: 'bar' } ); expect( spy.called ).to.be.true; } ); } ); describe( 'removeAttribute', () => { it( 'should remove attribute set on the text fragment', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'foo', 'bar' ); selection.removeAttribute( 'foo' ); expect( selection.getAttribute( 'foo' ) ).to.be.undefined; expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; } ); it( 'should remove stored attribute if the selection is in empty node', () => { selection.setRanges( [ rangeInEmptyP ] ); selection.setAttribute( 'foo', 'bar' ); selection.removeAttribute( 'foo' ); expect( selection.getAttribute( 'foo' ) ).to.be.undefined; expect( emptyP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; } ); it( 'should fire change:attribute event', () => { let spy = sinon.spy(); selection.on( 'change:attribute', spy ); selection.removeAttribute( 'foo' ); expect( spy.called ).to.be.true; } ); } ); describe( 'clearAttributes', () => { it( 'should remove all attributes from the element', () => { selection.setRanges( [ rangeInFullP ] ); selection.setAttribute( 'foo', 'bar' ); selection.setAttribute( 'abc', 'xyz' ); selection.clearAttributes(); expect( selection.getAttribute( 'foo' ) ).to.be.undefined; expect( selection.getAttribute( 'abc' ) ).to.be.undefined; expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; expect( fullP.hasAttribute( Selection._getStoreAttributeKey( 'abc' ) ) ).to.be.false; } ); it( 'should remove all stored attributes if the selection is in empty node', () => { selection.setRanges( [ rangeInEmptyP ] ); selection.setAttribute( 'foo', 'bar' ); selection.setAttribute( 'abc', 'xyz' ); selection.clearAttributes(); expect( selection.getAttribute( 'foo' ) ).to.be.undefined; expect( selection.getAttribute( 'abc' ) ).to.be.undefined; expect( emptyP.hasAttribute( Selection._getStoreAttributeKey( 'foo' ) ) ).to.be.false; expect( emptyP.hasAttribute( Selection._getStoreAttributeKey( 'abc' ) ) ).to.be.false; } ); it( 'should fire change:attribute event', () => { let spy = sinon.spy(); selection.on( 'change:attribute', spy ); selection.clearAttributes(); expect( spy.called ).to.be.true; } ); } ); } ); describe( '_updateAttributes', () => { beforeEach( () => { root.insertChildren( 0, [ new Element( 'p', { p: true } ), new Text( 'a', { a: true } ), new Element( 'p', { p: true } ), new Text( 'b', { b: true } ), new Text( 'c', { c: true } ), new Element( 'p', [], [ new Text( 'd', { d: true } ) ] ), new Element( 'p', { p: true } ), new Text( 'e', { e: true } ) ] ); } ); it( 'if selection is a range, should find first character in it and copy it\'s attributes', () => { selection.setRanges( [ new Range( new Position( root, [ 2 ] ), new Position( root, [ 5 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'b', true ] ] ); // Step into elements when looking for first character: selection.setRanges( [ new Range( new Position( root, [ 5 ] ), new Position( root, [ 7 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'd', true ] ] ); } ); it( 'if selection is collapsed it should seek a character to copy that character\'s attributes', () => { // Take styles from character before selection. selection.setRanges( [ new Range( new Position( root, [ 2 ] ), new Position( root, [ 2 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'a', true ] ] ); // If there are none, // Take styles from character after selection. selection.setRanges( [ new Range( new Position( root, [ 3 ] ), new Position( root, [ 3 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'b', true ] ] ); // If there are none, // Look from the selection position to the beginning of node looking for character to take attributes from. selection.setRanges( [ new Range( new Position( root, [ 6 ] ), new Position( root, [ 6 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'c', true ] ] ); // If there are none, // Look from the selection position to the end of node looking for character to take attributes from. selection.setRanges( [ new Range( new Position( root, [ 0 ] ), new Position( root, [ 0 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [ [ 'a', true ] ] ); // If there are no characters to copy attributes from, use stored attributes. selection.setRanges( [ new Range( new Position( root, [ 0, 0 ] ), new Position( root, [ 0, 0 ] ) ) ] ); expect( Array.from( selection.getAttributes() ) ).to.deep.equal( [] ); } ); it( 'should fire change:attribute event', () => { let spy = sinon.spy(); selection.on( 'change:attribute', spy ); selection.setRanges( [ new Range( new Position( root, [ 2 ] ), new Position( root, [ 5 ] ) ) ] ); expect( spy.called ).to.be.true; } ); } ); describe( '_getStoredAttributes', () => { it( 'should return no values if there are no ranges in selection', () => { let values = Array.from( selection._getStoredAttributes() ); expect( values ).to.deep.equal( [] ); } ); } ); } );