/*! * VisualEditor ElementLinearData tests. * * @copyright 2011-2013 VisualEditor Team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ QUnit.module( 've.dm.ElementLinearData' ); /* Tests */ QUnit.test( 'getAnnotationsFromOffset', 1, function ( assert ) { var c, i, j, data, doc, annotations, expectCount = 0, cases = [ { 'msg': ['bold #1', 'bold #2'], 'data': [ ['a', [ { 'type': 'textStyle/bold' } ]], ['b', [ { 'type': 'textStyle/bold' } ]] ], 'expected': [ [ { 'type': 'textStyle/bold' } ], [ { 'type': 'textStyle/bold' } ] ] }, { 'msg': ['bold #3', 'italic #1'], 'data': [ ['a', [ { 'type': 'textStyle/bold' } ]], ['b', [ { 'type': 'textStyle/italic' } ]] ], 'expected': [ [ { 'type': 'textStyle/bold' } ], [ { 'type': 'textStyle/italic' } ] ] }, { 'msg': ['bold, italic & underline'], 'data': [ [ 'a', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic'}, { 'type': 'textStyle/underline'} ] ] ], 'expected': [ [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic'}, { 'type': 'textStyle/underline'} ] ] } ]; // Calculate expected assertion count for ( c = 0; c < cases.length; c++ ) { expectCount += cases[c].data.length; } QUnit.expect( expectCount ); // Run tests for ( i = 0; i < cases.length; i++ ) { data = ve.dm.example.preprocessAnnotations( cases[i].data ); doc = new ve.dm.Document( data ); for ( j = 0; j < doc.getData().length; j++ ) { annotations = doc.data.getAnnotationsFromOffset( j ); assert.deepEqual( annotations, ve.dm.example.createAnnotationSet( doc.getStore(), cases[i].expected[j] ), cases[i].msg[j] ); } } } ); QUnit.test( 'getAnnotationsFromRange', 1, function ( assert ) { var i, data, doc, cases = [ { 'msg': 'single annotations', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], ['b', [ { 'type': 'textStyle/bold' } ] ] ], 'expected': [ { 'type': 'textStyle/bold' } ] }, { 'msg': 'multiple annotations', 'data': [ [ 'a', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic'} ] ], [ 'b', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] ] ], 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'lowest common coverage', 'data': [ [ 'a', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] ], [ 'b', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' }, { 'type': 'textStyle/underline' } ] ] ], 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'no common coverage due to plain character at the start', 'data': [ 'a', [ 'b', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' }, { 'type': 'textStyle/underline' } ] ], [ 'c', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] ] ], 'expected': [] }, { 'msg': 'no common coverage due to plain character in the middle', 'data': [ [ 'a', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' }, { 'type': 'textStyle/underline' } ] ], ['b'], [ 'c', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] ] ], 'expected': [] }, { 'msg': 'no common coverage due to plain character at the end', 'data': [ [ 'a', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] ], [ 'b', [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' }, { 'type': 'textStyle/underline' } ] ], ['c'] ], 'expected': [] }, { 'msg': 'no common coverage due to mismatched annotations', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], ['b', [ { 'type': 'textStyle/italic' } ] ] ], 'expected': [] }, { 'msg': 'no common coverage due to un-annotated content node', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], { 'type': 'image' }, { 'type': '/image' } ], 'expected': [] }, { 'msg': 'branch node is ignored', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], { 'type': 'paragraph' }, { 'type': '/paragraph' } ], 'expected': [ { 'type': 'textStyle/bold' } ] }, { 'msg': 'annotations are collected using all with mismatched annotations', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], ['b', [ { 'type': 'textStyle/italic' } ] ] ], 'all': true, 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'annotations are collected using all, even with a plain character at the start', 'data': [ 'a', ['b', [ { 'type': 'textStyle/bold' } ] ], ['c', [ { 'type': 'textStyle/italic' } ] ] ], 'all': true, 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'annotations are collected using all, even with a plain character in the middle', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], 'b', ['c', [ { 'type': 'textStyle/italic' } ] ] ], 'all': true, 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'annotations are collected using all, even with a plain character at the end', 'data': [ ['a', [ { 'type': 'textStyle/bold' } ] ], ['b', [ { 'type': 'textStyle/italic' } ] ], 'c' ], 'all': true, 'expected': [ { 'type': 'textStyle/bold' }, { 'type': 'textStyle/italic' } ] }, { 'msg': 'no common coverage from all plain characters', 'data': ['a', 'b'], 'expected': {} }, { 'msg': 'no common coverage using all from all plain characters', 'data': ['a', 'b'], 'all': true, 'expected': {} } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = ve.dm.example.preprocessAnnotations( cases[i].data ); doc = new ve.dm.Document( data ); assert.deepEqual( doc.data.getAnnotationsFromRange( new ve.Range( 0, cases[i].data.length ), cases[i].all ).getIndexes(), ve.dm.example.createAnnotationSet( doc.getStore(), cases[i].expected ).getIndexes(), cases[i].msg ); } } ); QUnit.test( 'getAnnotatedRangeFromOffset', 1, function ( assert ) { var i, data, doc, cases = [ { 'msg': 'a bold word', 'data': [ // 0 'a', // 1 ['b', [ { 'type': 'textStyle/bold' } ]], // 2 ['o', [ { 'type': 'textStyle/bold' } ]], // 3 ['l', [ { 'type': 'textStyle/bold' } ]], // 4 ['d', [ { 'type': 'textStyle/bold' } ]], // 5 'w', // 6 'o', // 7 'r', // 8 'd' ], 'annotation': { 'type': 'textStyle/bold' }, 'offset': 3, 'expected': new ve.Range( 1, 5 ) }, { 'msg': 'a linked', 'data': [ // 0 'x', // 1 'x', // 2 'x', // 3 ['l', [ { 'type': 'link' } ]], // 4 ['i', [ { 'type': 'link' } ]], // 5 ['n', [ { 'type': 'link' } ]], // 6 ['k', [ { 'type': 'link' } ]], // 7 'x', // 8 'x', // 9 'x' ], 'annotation': { 'type': 'link' }, 'offset': 3, 'expected': new ve.Range( 3, 7 ) }, { 'msg': 'bold over an annotated leaf node', 'data': [ // 0 'h', // 1 ['b', [ { 'type': 'textStyle/bold' } ]], // 2 ['o', [ { 'type': 'textStyle/bold' } ]], // 3 { 'type': 'image', 'attributes': { 'src': ve.dm.example.imgSrc }, 'annotations': [ { 'type': 'textStyle/bold' }] }, // 4 { 'type': '/image' }, // 5 ['l', [ { 'type': 'textStyle/bold' } ]], // 6 ['d', [ { 'type': 'textStyle/bold' } ]], // 7 'i' ], 'annotation': { 'type': 'textStyle/bold' }, 'offset': 3, 'expected': new ve.Range( 1, 7 ) } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = ve.dm.example.preprocessAnnotations( cases[i].data ); doc = new ve.dm.Document( data ); assert.deepEqual( doc.data.getAnnotatedRangeFromOffset( cases[i].offset, ve.dm.example.createAnnotation( cases[i].annotation ) ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'trimOuterSpaceFromRange', function ( assert ) { var i, linearData, elementData, data = [ // 0 { 'type': 'paragraph' }, // 1 ' ', // 2 'F', // 3 'o', // 4 'o', // 5 ' ', // 6 ' ', // 7 [ ' ', ve.dm.example.bold ], // 8 [ ' ', ve.dm.example.italic ], // 9 [ 'B', ve.dm.example.italic ], // 10 'a', // 11 'r', // 12 ' ', // 13 { 'type': '/paragraph' } // 14 ], cases = [ { 'msg': 'Word without spaces is untouched', 'range': new ve.Range( 2, 5 ), 'trimmed': new ve.Range( 2, 5 ) }, { 'msg': 'Consecutive words with spaces in between but not at the edges are untouched', 'range': new ve.Range( 2, 12 ), 'trimmed': new ve.Range( 2, 12 ) }, { 'msg': 'Single space is trimmed from the start', 'range': new ve.Range( 1, 4 ), 'trimmed': new ve.Range( 2, 4 ) }, { 'msg': 'Single space is trimmed from the end', 'range': new ve.Range( 3, 6 ), 'trimmed': new ve.Range( 3, 5 ) }, { 'msg': 'Single space is trimmed from both sides', 'range': new ve.Range( 1, 6 ), 'trimmed': new ve.Range( 2, 5 ) }, { 'msg': 'Different number of spaces trimmed on each side', 'range': new ve.Range( 1, 7 ), 'trimmed': new ve.Range( 2, 5 ) }, { 'msg': 'Annotated spaces are trimmed correctly from the end', 'range': new ve.Range( 3, 9 ), 'trimmed': new ve.Range( 3, 5 ) }, { 'msg': 'Annotated spaces are trimmed correctly from the start', 'range': new ve.Range( 7, 10 ), 'trimmed': new ve.Range( 9, 10 ) }, { 'msg': 'Trimming annotated spaces at the end and plain spaces at the start', 'range': new ve.Range( 1, 9 ), 'trimmed': new ve.Range( 2, 5 ) }, { 'msg': 'Spaces are trimmed from the ends but not in the middle', 'range': new ve.Range( 1, 13 ), 'trimmed': new ve.Range( 2, 12 ) }, { 'msg': 'All-whitespace range is trimmed to empty range', 'range': new ve.Range( 5, 9 ), 'trimmed': new ve.Range( 5, 5 ) } ]; QUnit.expect( cases.length ); linearData = ve.dm.example.preprocessAnnotations( data ); elementData = new ve.dm.ElementLinearData( linearData.getStore(), linearData.getData() ); for ( i = 0; i < cases.length; i++ ) { assert.deepEqual( elementData.trimOuterSpaceFromRange( cases[i].range ), cases[i].trimmed, cases[i].msg ); } } ); QUnit.test( 'isContentOffset', function ( assert ) { var i, left, right, data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), [ { 'type': 'heading' }, 'a', { 'type': 'image' }, { 'type': '/image' }, 'b', 'c', { 'type': '/heading' }, { 'type': 'paragraph' }, { 'type': '/paragraph' }, { 'type': 'preformatted' }, { 'type': 'image' }, { 'type': '/image' }, { 'type': '/preformatted' }, { 'type': 'list' }, { 'type': 'listItem' }, { 'type': '/listItem' }, { 'type': '/list' }, { 'type': 'alienBlock' }, { 'type': '/alienBlock' }, { 'type': 'table' }, { 'type': 'tableRow' }, { 'type': 'tableCell' }, { 'type': 'alienBlock' }, { 'type': '/alienBlock' }, { 'type': '/tableCell' }, { 'type': '/tableRow' }, { 'type': '/table' } ] ), cases = [ { 'msg': 'left of document', 'expected': false }, { 'msg': 'begining of content branch', 'expected': true }, { 'msg': 'left of non-text inline leaf', 'expected': true }, { 'msg': 'inside non-text inline leaf', 'expected': false }, { 'msg': 'right of non-text inline leaf', 'expected': true }, { 'msg': 'between characters', 'expected': true }, { 'msg': 'end of content branch', 'expected': true }, { 'msg': 'between content branches', 'expected': false }, { 'msg': 'inside emtpy content branch', 'expected': true }, { 'msg': 'between content branches', 'expected': false }, { 'msg': 'begining of content branch, left of inline leaf', 'expected': true }, { 'msg': 'inside content branch with non-text inline leaf', 'expected': false }, { 'msg': 'end of content branch, right of non-content leaf', 'expected': true }, { 'msg': 'between content, non-content branches', 'expected': false }, { 'msg': 'between parent, child branches, descending', 'expected': false }, { 'msg': 'inside empty non-content branch', 'expected': false }, { 'msg': 'between parent, child branches, ascending', 'expected': false }, { 'msg': 'between non-content branch, non-content leaf', 'expected': false }, { 'msg': 'inside non-content leaf', 'expected': false }, { 'msg': 'between non-content branches', 'expected': false }, { 'msg': 'between non-content branches', 'expected': false }, { 'msg': 'between non-content branches', 'expected': false }, { 'msg': 'inside non-content branch before non-content leaf', 'expected': false }, { 'msg': 'inside non-content leaf', 'expected': false }, { 'msg': 'inside non-content branch after non-content leaf', 'expected': false }, { 'msg': 'between non-content branches', 'expected': false }, { 'msg': 'between non-content branches', 'expected': false }, { 'msg': 'right of document', 'expected': false } ]; QUnit.expect( data.getLength() + 1 ); for ( i = 0; i < cases.length; i++ ) { left = data.getData( i - 1 ) ? ( data.getData( i - 1 ).type || data.getCharacterData( i - 1 ) ) : '[start]'; right = data.getData( i ) ? ( data.getData( i ).type || data.getCharacterData( i ) ) : '[end]'; assert.strictEqual( data.isContentOffset( i ), cases[i].expected, cases[i].msg + ' (' + left + '|' + right + ' @ ' + i + ')' ); } } ); QUnit.test( 'isStructuralOffset', function ( assert ) { var i, left, right, data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), [ { 'type': 'heading' }, 'a', { 'type': 'image' }, { 'type': '/image' }, 'b', 'c', { 'type': '/heading' }, { 'type': 'paragraph' }, { 'type': '/paragraph' }, { 'type': 'preformatted' }, { 'type': 'image' }, { 'type': '/image' }, { 'type': '/preformatted' }, { 'type': 'list' }, { 'type': 'listItem' }, { 'type': '/listItem' }, { 'type': '/list' }, { 'type': 'alienBlock' }, { 'type': '/alienBlock' }, { 'type': 'table' }, { 'type': 'tableRow' }, { 'type': 'tableCell' }, { 'type': 'alienBlock' }, { 'type': '/alienBlock' }, { 'type': '/tableCell' }, { 'type': '/tableRow' }, { 'type': '/table' } ] ), cases = [ { 'msg': 'left of document', 'expected': [true, true] }, { 'msg': 'begining of content branch', 'expected': [false, false] }, { 'msg': 'left of non-text inline leaf', 'expected': [false, false] }, { 'msg': 'inside non-text inline leaf', 'expected': [false, false] }, { 'msg': 'right of non-text inline leaf', 'expected': [false, false] }, { 'msg': 'between characters', 'expected': [false, false] }, { 'msg': 'end of content branch', 'expected': [false, false] }, { 'msg': 'between content branches', 'expected': [true, true] }, { 'msg': 'inside emtpy content branch', 'expected': [false, false] }, { 'msg': 'between content branches', 'expected': [true, true] }, { 'msg': 'begining of content branch, left of inline leaf', 'expected': [false, false] }, { 'msg': 'inside content branch with non-text inline leaf', 'expected': [false, false] }, { 'msg': 'end of content branch, right of inline leaf', 'expected': [false, false] }, { 'msg': 'between content, non-content branches', 'expected': [true, true] }, { 'msg': 'between parent, child branches, descending', 'expected': [true, false] }, { 'msg': 'inside empty non-content branch', 'expected': [true, true] }, { 'msg': 'between parent, child branches, ascending', 'expected': [true, false] }, { 'msg': 'between non-content branch, non-content leaf', 'expected': [true, true] }, { 'msg': 'inside non-content leaf', 'expected': [false, false] }, { 'msg': 'between non-content branches', 'expected': [true, true] }, { 'msg': 'between non-content branches', 'expected': [true, false] }, { 'msg': 'between non-content branches', 'expected': [true, false] }, { 'msg': 'inside non-content branch before non-content leaf', 'expected': [true, true] }, { 'msg': 'inside non-content leaf', 'expected': [false, false] }, { 'msg': 'inside non-content branch after non-content leaf', 'expected': [true, true] }, { 'msg': 'between non-content branches', 'expected': [true, false] }, { 'msg': 'between non-content branches', 'expected': [true, false] }, { 'msg': 'right of document', 'expected': [true, true] } ]; QUnit.expect( ( data.getLength() + 1 ) * 2 ); for ( i = 0; i < cases.length; i++ ) { left = data.getData( i - 1 ) ? ( data.getData( i - 1 ).type || data.getCharacterData( i - 1 ) ) : '[start]'; right = data.getData( i ) ? ( data.getData( i ).type || data.getCharacterData( i ) ) : '[end]'; assert.strictEqual( data.isStructuralOffset( i ), cases[i].expected[0], cases[i].msg + ' (' + left + '|' + right + ' @ ' + i + ')' ); assert.strictEqual( data.isStructuralOffset( i, true ), cases[i].expected[1], cases[i].msg + ', unrestricted (' + left + '|' + right + ' @ ' + i + ')' ); } } ); QUnit.test( 'isElementData', 1, function ( assert ) { var i, data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), [ { 'type': 'heading' }, 'a', { 'type': 'image' }, { 'type': '/image' }, 'b', 'c', { 'type': '/heading' }, { 'type': 'paragraph' }, { 'type': '/paragraph' }, { 'type': 'preformatted' }, { 'type': 'image' }, { 'type': '/image' }, { 'type': '/preformatted' }, { 'type': 'list' }, { 'type': 'listItem' }, { 'type': '/listItem' }, { 'type': '/list' }, { 'type': 'alienBlock' }, { 'type': '/alienBlock' } ] ), cases = [ { 'msg': 'left of document', 'expected': true }, { 'msg': 'begining of content branch', 'expected': false }, { 'msg': 'left of non-text inline leaf', 'expected': true }, { 'msg': 'inside non-text inline leaf', 'expected': true }, { 'msg': 'right of non-text inline leaf', 'expected': false }, { 'msg': 'between characters', 'expected': false }, { 'msg': 'end of content branch', 'expected': true }, { 'msg': 'between content branches', 'expected': true }, { 'msg': 'inside emtpy content branch', 'expected': true }, { 'msg': 'between content branches', 'expected': true }, { 'msg': 'begining of content branch, left of inline leaf', 'expected': true }, { 'msg': 'inside content branch with non-text leaf', 'expected': true }, { 'msg': 'end of content branch, right of inline leaf', 'expected': true }, { 'msg': 'between content, non-content branches', 'expected': true }, { 'msg': 'between parent, child branches, descending', 'expected': true }, { 'msg': 'inside empty non-content branch', 'expected': true }, { 'msg': 'between parent, child branches, ascending', 'expected': true }, { 'msg': 'between non-content branch, non-content leaf', 'expected': true }, { 'msg': 'inside non-content leaf', 'expected': true }, { 'msg': 'right of document', 'expected': false } ]; QUnit.expect( data.getLength() + 1 ); for ( i = 0; i < cases.length; i++ ) { assert.strictEqual( data.isElementData( i ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'containsElementData', 1, function ( assert ) { var i, data, cases = [ { 'msg': 'simple paragraph', 'data': [{ 'type': 'paragraph' }, 'a', { 'type': '/paragraph' }], 'expected': true }, { 'msg': 'plain text', 'data': ['a', 'b', 'c'], 'expected': false }, { 'msg': 'annotated text', 'data': [['a', { '{"type:"bold"}': { 'type': 'bold' } } ]], 'expected': false }, { 'msg': 'non-text leaf', 'data': ['a', { 'type': 'image' }, { 'type': '/image' }, 'c'], 'expected': true } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), cases[i].data ); assert.strictEqual( data.containsElementData(), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'isContentData', 1, function ( assert ) { var i, data, cases = [ { 'msg': 'simple paragraph', 'data': [{ 'type': 'paragraph' }, 'a', { 'type': '/paragraph' }], 'expected': false }, { 'msg': 'plain text', 'data': ['a', 'b', 'c'], 'expected': true }, { 'msg': 'annotated text', 'data': [['a', { '{"type:"bold"}': { 'type': 'bold' } } ]], 'expected': true }, { 'msg': 'non-text leaf', 'data': ['a', { 'type': 'image' }, { 'type': '/image' }, 'c'], 'expected': true } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), cases[i].data ); assert.strictEqual( data.isContentData(), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getRelativeOffset', function ( assert ) { var i, data, cases = [ { 'msg': 'document without any valid offsets returns -1', 'offset': 0, 'distance': 1, 'data': [], 'callback': function () { return false; }, 'expected': -1 }, { 'msg': 'document with all valid offsets returns offset + distance', 'offset': 0, 'distance': 2, 'data': ['a', 'b'], 'callback': function () { return true; }, 'expected': 2 } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = new ve.dm.ElementLinearData( new ve.dm.IndexValueStore(), cases[i].data ); assert.strictEqual( data.getRelativeOffset( cases[i].offset, cases[i].distance, cases[i].callback ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getRelativeContentOffset', function ( assert ) { var i, doc = ve.dm.example.createExampleDocument(), cases = [ { 'msg': 'invalid starting offset with zero distance gets corrected', 'offset': 0, 'distance': 0, 'expected': 1 }, { 'msg': 'invalid starting offset with zero distance gets corrected', 'offset': 61, 'distance': 0, 'expected': 60 }, { 'msg': 'valid offset with zero distance returns same offset', 'offset': 2, 'distance': 0, 'expected': 2 }, { 'msg': 'invalid starting offset gets corrected', 'offset': 0, 'distance': -1, 'expected': 1 }, { 'msg': 'invalid starting offset gets corrected', 'offset': 61, 'distance': 1, 'expected': 60 }, { 'msg': 'stop at left edge if already valid', 'offset': 1, 'distance': -1, 'expected': 1 }, { 'msg': 'stop at right edge if already valid', 'offset': 60, 'distance': 1, 'expected': 60 }, { 'msg': 'first content offset is farthest left', 'offset': 2, 'distance': -2, 'expected': 1 }, { 'msg': 'last content offset is farthest right', 'offset': 59, 'distance': 2, 'expected': 60 }, { 'msg': '1 right within text', 'offset': 1, 'distance': 1, 'expected': 2 }, { 'msg': '2 right within text', 'offset': 1, 'distance': 2, 'expected': 3 }, { 'msg': '1 left within text', 'offset': 2, 'distance': -1, 'expected': 1 }, { 'msg': '2 left within text', 'offset': 3, 'distance': -2, 'expected': 1 }, { 'msg': '1 right over elements', 'offset': 4, 'distance': 1, 'expected': 10 }, { 'msg': '2 right over elements', 'offset': 4, 'distance': 2, 'expected': 11 }, { 'msg': '1 left over elements', 'offset': 10, 'distance': -1, 'expected': 4 }, { 'msg': '2 left over elements', 'offset': 10, 'distance': -2, 'expected': 3 } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { assert.strictEqual( doc.data.getRelativeContentOffset( cases[i].offset, cases[i].distance ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getNearestContentOffset', function ( assert ) { var i, doc = ve.dm.example.createExampleDocument(), cases = [ { 'msg': 'unspecified direction results in shortest distance', 'offset': 0, 'direction': 0, 'expected': 1 }, { 'msg': 'unspecified direction results in shortest distance', 'offset': 5, 'direction': 0, 'expected': 4 }, { 'msg': 'positive direction results in next valid offset to the right', 'offset': 5, 'direction': 1, 'expected': 10 }, { 'msg': 'negative direction results in next valid offset to the left', 'offset': 5, 'direction': -1, 'expected': 4 }, { 'msg': 'valid offset without direction returns same offset', 'offset': 1, 'expected': 1 }, { 'msg': 'valid offset with positive direction returns same offset', 'offset': 1, 'direction': 1, 'expected': 1 }, { 'msg': 'valid offset with negative direction returns same offset', 'offset': 1, 'direction': -1, 'expected': 1 } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { assert.strictEqual( doc.data.getNearestContentOffset( cases[i].offset, cases[i].direction ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getRelativeStructuralOffset', function ( assert ) { var i, doc = ve.dm.example.createExampleDocument(), cases = [ { 'msg': 'invalid starting offset with zero distance gets corrected', 'offset': 1, 'distance': 0, 'expected': 5 }, { 'msg': 'invalid starting offset with zero distance gets corrected', 'offset': 60, 'distance': 0, 'expected': 61 }, { 'msg': 'valid offset with zero distance returns same offset', 'offset': 0, 'distance': 0, 'expected': 0 }, { 'msg': 'invalid starting offset gets corrected', 'offset': 2, 'distance': -1, 'expected': 0 }, { 'msg': 'invalid starting offset gets corrected', 'offset': 59, 'distance': 1, 'expected': 61 }, { 'msg': 'first structural offset is farthest left', 'offset': 5, 'distance': -2, 'expected': 0 }, { 'msg': 'last structural offset is farthest right', 'offset': 62, 'distance': 2, 'expected': 63 }, { 'msg': '1 right', 'offset': 0, 'distance': 1, 'expected': 5 }, { 'msg': '1 right, unrestricted', 'offset': 5, 'distance': 1, 'unrestricted': true, 'expected': 9 }, { 'msg': '2 right', 'offset': 0, 'distance': 2, 'expected': 6 }, { 'msg': '2 right, unrestricted', 'offset': 0, 'distance': 2, 'unrestricted': true, 'expected': 9 }, { 'msg': '1 left', 'offset': 61, 'distance': -1, 'expected': 58 }, { 'msg': '1 left, unrestricted', 'offset': 9, 'distance': -1, 'unrestricted': true, 'expected': 5 }, { 'msg': '2 left', 'offset': 61, 'distance': -2, 'expected': 55 }, { 'msg': '2 left, unrestricted', 'offset': 9, 'distance': -2, 'unrestricted': true, 'expected': 0 } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { assert.strictEqual( doc.data.getRelativeStructuralOffset( cases[i].offset, cases[i].distance, cases[i].unrestricted ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getNearestStructuralOffset', function ( assert ) { var i, doc = ve.dm.example.createExampleDocument(), cases = [ { 'msg': 'unspecified direction results in shortest distance', 'offset': 1, 'direction': 0, 'expected': 0 }, { 'msg': 'unspecified direction results in shortest distance', 'offset': 4, 'direction': 0, 'expected': 5 }, { 'msg': 'unspecified direction results in shortest distance, unrestricted', 'offset': 8, 'direction': 0, 'unrestricted': true, 'expected': 9 }, { 'msg': 'unspecified direction results in shortest distance, unrestricted', 'offset': 6, 'direction': 0, 'unrestricted': true, 'expected': 5 }, { 'msg': 'positive direction results in next valid offset to the right', 'offset': 1, 'direction': 1, 'expected': 5 }, { 'msg': 'positive direction results in next valid offset to the right', 'offset': 4, 'direction': 1, 'expected': 5 }, { 'msg': 'positive direction results in next valid offset to the right, unrestricted', 'offset': 7, 'direction': 1, 'unrestricted': true, 'expected': 9 }, { 'msg': 'negative direction results in next valid offset to the left', 'offset': 1, 'direction': -1, 'expected': 0 }, { 'msg': 'negative direction results in next valid offset to the left', 'offset': 4, 'direction': -1, 'expected': 0 }, { 'msg': 'negative direction results in next valid offset to the left, unrestricted', 'offset': 6, 'direction': -1, 'unrestricted': true, 'expected': 5 }, { 'msg': 'valid offset without direction returns same offset', 'offset': 0, 'expected': 0 }, { 'msg': 'valid offset with positive direction returns same offset', 'offset': 0, 'direction': 1, 'expected': 0 }, { 'msg': 'valid offset with negative direction returns same offset', 'offset': 0, 'direction': -1, 'expected': 0 }, { 'msg': 'valid offset without direction returns same offset, unrestricted', 'offset': 0, 'unrestricted': true, 'expected': 0 }, { 'msg': 'valid offset with positive direction returns same offset, unrestricted', 'offset': 0, 'direction': 1, 'unrestricted': true, 'expected': 0 }, { 'msg': 'valid offset with negative direction returns same offset, unrestricted', 'offset': 0, 'direction': -1, 'unrestricted': true, 'expected': 0 } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { assert.strictEqual( doc.data.getNearestStructuralOffset( cases[i].offset, cases[i].direction, cases[i].unrestricted ), cases[i].expected, cases[i].msg ); } } ); QUnit.test( 'getNearestWordRange', function ( assert ) { var i, data, range, word, store = new ve.dm.IndexValueStore(), cases = [ { 'phrase': 'visual editor test', 'msg': 'simple Latin word', 'offset': 10, 'expected': 'editor' }, { 'phrase': 'visual editor test', 'msg': 'cursor at start of word', 'offset': 7, 'expected': 'editor' }, { 'phrase': 'visual editor test', 'msg': 'cursor at end of word', 'offset': 13, 'expected': 'editor' }, { 'phrase': 'visual editor test', 'msg': 'cursor at start of text', 'offset': 0, 'expected': 'visual' }, { 'phrase': 'visual editor test', 'msg': 'cursor at end of text', 'offset': 18, 'expected': 'test' }, { 'phrase': 'Computer-aided design', 'msg': 'hyphenated Latin word', 'offset': 12, 'expected': 'aided' }, { 'phrase': 'Water (l\'eau) is', 'msg': 'apostrophe and parentheses (Latin)', 'offset': 8, 'expected': 'l\'eau' }, { 'phrase': 'Water (H2O) is', 'msg': 'number in word (Latin)', 'offset': 9, 'expected': 'H2O' }, { 'phrase': 'The \'word\' is', 'msg': 'apostrophes as single quotes', 'offset': 7, 'expected': 'word' }, { 'phrase': 'Some "double" quotes', 'msg': 'double quotes', 'offset': 8, 'expected': 'double' }, { 'phrase': 'Wikipédia l\'encyclopédie libre', 'msg': 'extended Latin word', 'offset': 15, 'expected': 'l\'encyclopédie' }, { 'phrase': 'Wikipédia l\'encyclopédie libre', 'msg': 'Extend characters (i.e. letter + accent)', 'offset': 15, 'expected': 'l\'encyclopédie' }, { 'phrase': 'Википедия свободная энциклопедия', 'msg': 'Cyrillic word', 'offset': 14, 'expected': 'свободная' }, { 'phrase': 'την ελεύθερη εγκυκλοπαίδεια', 'msg': 'Greek word', 'offset': 7, 'expected': 'ελεύθερη' }, { 'phrase': '우리 모두의 백과사전', 'msg': 'Hangul word', 'offset': 4, 'expected': '모두의' }, { 'phrase': 'This: ٠١٢٣٤٥٦٧٨٩ means 0123456789', 'msg': 'Eastern Arabic numerals', 'offset': 13, 'expected': '٠١٢٣٤٥٦٧٨٩' }, { 'phrase': 'Latinカタカナwrapped', 'msg': 'Latin-wrapped Katakana word', 'offset': 7, 'expected': 'カタカナ' }, { 'phrase': '维基百科', 'msg': 'Hanzi characters (cursor in middle)', 'offset': 2, 'expected': '' }, { 'phrase': '维基百科', 'msg': 'Hanzi characters (cursor at end)', 'offset': 4, 'expected': '' }, { 'phrase': 'Costs £1,234.00 each', 'msg': 'formatted number sequence', 'offset': 11, 'expected': '1,234.00' }, { 'phrase': 'Reset index_of variable', 'msg': 'underscore-joined word', 'offset': 8, 'expected': 'index_of' } ]; QUnit.expect( cases.length ); for ( i = 0; i < cases.length; i++ ) { data = new ve.dm.ElementLinearData( store, cases[i].phrase.split( '' ) ); range = data.getNearestWordRange( cases[i].offset ); word = cases[i].phrase.substring( range.start, range.end ); assert.strictEqual( word, cases[i].expected, cases[i].msg + ': ' + cases[i].phrase.substring( 0, cases[i].offset ) + '│' + cases[i].phrase.substring( cases[i].offset, cases[i].phrase.length ) + ' → ' + cases[i].expected ); } } ); QUnit.test( 'sanitize', function ( assert ) { var i, model, data, count = 0, bold = new ve.dm.TextStyleBoldAnnotation( { 'type': 'textStyle/bold', 'attributes': { 'nodeName': 'b' } } ), cases = [ { 'html': '

Foo

', 'data': [ { 'type': 'paragraph' }, 'F', ['o', [0]], 'o', { 'type': '/paragraph' }, { 'type': 'internalList' }, { 'type': '/internalList' } ], 'store': [ bold ], 'rules': { 'removeHtmlAttributes': true }, 'msg': 'HTML attributes removed' }, { 'html': '

Bar

', 'data': [ { 'type': 'paragraph' }, 'B', 'r', { 'type': '/paragraph' }, { 'type': 'internalList' }, { 'type': '/internalList' } ], 'rules': { 'blacklist': ['alienInline','image'] }, 'msg': 'Blacklisted nodes removed' }, { 'html': '

Baz

', 'data': [ { 'type': 'paragraph' }, 'B', 'a', 'z', { 'type': '/paragraph' }, { 'type': 'internalList' }, { 'type': '/internalList' } ], 'plainText': true, 'msg': 'Annotations removed in plainText mode' }, { 'html': '

Foo

Bar

', 'data': [ { 'type': 'paragraph' }, 'F', 'o', 'o', { 'type': '/paragraph' }, { 'type': 'paragraph' }, 'B', 'a', 'r', { 'type': '/paragraph' }, { 'type': 'internalList' }, { 'type': '/internalList' } ], 'msg': 'Empty content nodes are stripped' } ]; for ( i = 0; i < cases.length; i++ ) { count++; if ( cases[i].store ) { count++; } } QUnit.expect( count ); for ( i = 0; i < cases.length; i++ ) { model = ve.dm.converter.getModelFromDom( ve.createDocumentFromHtml( cases[i].html ) ); data = model.data; data.sanitize( cases[i].rules || {}, cases[i].plainText ); assert.deepEqualWithDomElements( data.data, cases[i].data, cases[i].msg + ': data' ); if ( cases[i].store ) { assert.deepEqualWithDomElements( data.getStore().valueStore, cases[i].store, cases[i].msg + ': store' ); } } } );