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mediawiki-extensions-Visual.../modules/ve/test/dm/ve.dm.Document.test.js
Catrope 857535b63f Introduce meta-linmod 
* ve.dm.Converter still generates metaInline/metaBlock elements as
  before, it's not affected by this change
* ve.dm.Document constructor splits its input into "real" data and
  metadata
** Metadata is stored in this.metadata (the meta-linmod) as a sparse
   array of arrays, with an element for each offset in this.data
** this.data itself does not contain the metadata
** This means the node tree also doesn't contain the metadata
** Which means CE doesn't know about it at all
* All splice operations on the linear model are sent through
  ve.dm.Document.spliceData(), which performs the splice and syncs the
  meta-linmod
** Metadata in the removed range is reaped and added to the metadata for
   the offset immediately following the removal
* ve.dm.Document.getFullData() splices the linmod and meta-linmod back
  into each other; this "full data" is then fed back to ve.dm.Converter

Change-Id: Ief6dfd5b59cc13a8457993ed85c725413029c4fb
2012-11-02 19:06:49 -07:00

1499 lines
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/**
* VisualEditor data model Document tests.
*
* @copyright 2011-2012 VisualEditor Team and others; see AUTHORS.txt
* @license The MIT License (MIT); see LICENSE.txt
*/
QUnit.module( 've.dm.Document' );
/* Tests */
QUnit.test( 'constructor', 7, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) );
assert.equalNodeTree( doc.getDocumentNode(), ve.dm.example.tree, 'node tree matches example data' );
assert.throws(
function () {
doc = new ve.dm.Document( [
{ 'type': '/paragraph' },
{ 'type': 'paragraph' }
] );
},
Error,
'unbalanced input causes exception'
);
// TODO data provider?
doc = new ve.dm.Document( [ 'a', 'b', 'c', 'd' ] );
assert.equalNodeTree(
doc.getDocumentNode(),
new ve.dm.DocumentNode( [ new ve.dm.TextNode( 4 ) ] ),
'plain text input is handled correctly'
);
doc = new ve.dm.Document( [ { 'type': 'paragraph' }, { 'type': '/paragraph' } ] );
assert.equalNodeTree(
doc.getDocumentNode(),
new ve.dm.DocumentNode( [ new ve.dm.ParagraphNode( [ new ve.dm.TextNode( 0 ) ] ) ] ),
'empty paragraph gets a zero-length text node'
);
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.withMeta ) );
assert.deepEqual( doc.data, ve.dm.example.withMetaPlainData,
'metadata is stripped out of the linear model'
);
assert.deepEqual( doc.metadata, ve.dm.example.withMetaMetaData,
'metadata is put in the meta-linmod'
);
assert.equalNodeTree(
doc.getDocumentNode(),
new ve.dm.DocumentNode( [ new ve.dm.ParagraphNode( [ new ve.dm.TextNode( 9 ) ] ) ] ),
'node tree does not contain metadata'
);
} );
QUnit.test( 'getData', 1, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) );
assert.deepEqual( doc.getData(), ve.dm.example.data );
} );
QUnit.test( 'getFullData', 1, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.withMeta ) );
assert.deepEqual( doc.getFullData(), ve.dm.example.withMeta );
} );
QUnit.test( 'spliceData', 12, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.withMeta ) ),
fullData = ve.copyArray( ve.dm.example.withMeta ),
plainData = ve.copyArray( ve.dm.example.withMetaPlainData ),
metaData = ve.copyArray( ve.dm.example.withMetaMetaData ),
actualResult, expectedResult;
actualResult = doc.spliceData( 2, 0, [ 'X', 'Y' ] );
expectedResult = plainData.splice( 2, 0, 'X', 'Y' );
fullData.splice( 4, 0, 'X', 'Y' );
metaData.splice( 2, 0, undefined, undefined );
assert.deepEqual( doc.data, plainData, 'adding two elements at offset 2 (plain data)' );
assert.deepEqual( doc.metadata, metaData, 'adding two elements at offset 2 (metadata)' );
assert.deepEqual( doc.getFullData(), fullData, 'adding two elements at offset 2 (full data)' );
actualResult = doc.spliceData( 10, 1 );
expectedResult = plainData.splice( 10, 1 );
fullData.splice( 16, 1 );
metaData.splice( 10, 1 );
assert.deepEqual( doc.data, plainData, 'removing one element at offset 10 (plain data)' );
assert.deepEqual( doc.metadata, metaData, 'removing one element at offset 10 (metadata)' );
assert.deepEqual( doc.getFullData(), fullData, 'removing one element at offset 10 (full data)' );
actualResult = doc.spliceData( 5, 2 );
expectedResult = plainData.splice( 5, 2 );
fullData.splice( 7, 1 );
fullData.splice( 9, 1 );
metaData.splice( 5, 3, metaData[6] );
assert.deepEqual( doc.data, plainData, 'removing two elements at offset 5 (plain data)' );
assert.deepEqual( doc.metadata, metaData, 'removing two elements at offset 5 (metadata)' );
assert.deepEqual( doc.getFullData(), fullData, 'removing two elements at offset 5 (full data)' );
actualResult = doc.spliceData( 1, 8 );
expectedResult = plainData.splice( 1, 8 );
fullData.splice( 3, 4 );
fullData.splice( 5, 2 );
fullData.splice( 7, 2 );
metaData.splice( 1, 9, metaData[5].concat( metaData[7] ) );
assert.deepEqual( doc.data, plainData, 'blanking paragraph, removing 8 elements at offset 1 (plain data)' );
assert.deepEqual( doc.metadata, metaData, 'blanking paragraph, removing 8 elements at offset 1 (metadata)' );
assert.deepEqual( doc.getFullData(), fullData, 'blanking paragraph, removing 8 elements at offset 1 (full data)' );
} );
QUnit.test( 'getNodeFromOffset', function ( assert ) {
var i, j, node,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
root = doc.getDocumentNode().getRoot(),
expected = [
[], // 0 - document
[0], // 1 - heading
[0], // 2 - heading
[0], // 3 - heading
[0], // 4 - heading
[], // 5 - document
[1], // 6 - table
[1, 0], // 7 - tableSection
[1, 0, 0], // 7 - tableRow
[1, 0, 0, 0], // 8 - tableCell
[1, 0, 0, 0, 0], // 9 - paragraph
[1, 0, 0, 0, 0], // 10 - paragraph
[1, 0, 0, 0], // 11 - tableCell
[1, 0, 0, 0, 1], // 12 - list
[1, 0, 0, 0, 1, 0], // 13 - listItem
[1, 0, 0, 0, 1, 0, 0], // 14 - paragraph
[1, 0, 0, 0, 1, 0, 0], // 15 - paragraph
[1, 0, 0, 0, 1, 0], // 16 - listItem
[1, 0, 0, 0, 1, 0, 1], // 17 - list
[1, 0, 0, 0, 1, 0, 1, 0], // 18 - listItem
[1, 0, 0, 0, 1, 0, 1, 0, 0], // 19 - paragraph
[1, 0, 0, 0, 1, 0, 1, 0, 0], // 20 - paragraph
[1, 0, 0, 0, 1, 0, 1, 0], // 21 - listItem
[1, 0, 0, 0, 1, 0, 1], // 22 - list
[1, 0, 0, 0, 1, 0], // 23 - listItem
[1, 0, 0, 0, 1], // 24 - list
[1, 0, 0, 0], // 25 - tableCell
[1, 0, 0, 0, 2], // 26 - list
[1, 0, 0, 0, 2, 0], // 27 - listItem
[1, 0, 0, 0, 2, 0, 0], // 28 - paragraph
[1, 0, 0, 0, 2, 0, 0], // 29 - paragraph
[1, 0, 0, 0, 2, 0], // 30 - listItem
[1, 0, 0, 0, 2], // 31 - list
[1, 0, 0, 0], // 32 - tableCell
[1, 0, 0], // 33 - tableRow
[1, 0], // 33 - tableSection
[1], // 34 - table
[], // 35- document
[2], // 36 - preformatted
[2], // 37 - preformatted
[2], // 38 - preformatted
[2], // 39 - preformatted
[2], // 40 - preformatted
[], // 41 - document
[3], // 42 - definitionList
[3, 0], // 43 - definitionListItem
[3, 0, 0], // 44 - paragraph
[3, 0, 0], // 45 - paragraph
[3, 0], // 46 - definitionListItem
[3], // 47 - definitionList
[3, 1], // 48 - definitionListItem
[3, 1, 0], // 49 - paragraph
[3, 1, 0], // 50 - paragraph
[3, 1], // 51 - definitionListItem
[3], // 52 - definitionList
[], // 53 - document
[4], // 54 - paragraph
[4], // 55 - paragraph
[], // 56 - document
[5], // 57 - paragraph
[5], // 58 - paragraph
[] // 59 - document
];
QUnit.expect( expected.length );
for ( i = 0; i < expected.length; i++ ) {
node = root;
for ( j = 0; j < expected[i].length; j++ ) {
node = node.children[expected[i][j]];
}
assert.ok( node === doc.getNodeFromOffset( i ), 'reference at offset ' + i );
}
} );
QUnit.test( 'getDataFromNode', 3, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) );
assert.deepEqual(
doc.getDataFromNode( doc.getDocumentNode().getChildren()[0] ),
ve.dm.example.data.slice( 1, 4 ),
'branch with leaf children'
);
assert.deepEqual(
doc.getDataFromNode( doc.getDocumentNode().getChildren()[1] ),
ve.dm.example.data.slice( 6, 36 ),
'branch with branch children'
);
assert.deepEqual(
doc.getDataFromNode( doc.getDocumentNode().getChildren()[2].getChildren()[1] ),
[],
'leaf without children'
);
} );
QUnit.test( 'getAnnotationsFromOffset', 1, function ( assert ) {
var c, i, j,
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++ ) {
ve.dm.example.preprocessAnnotations( cases[i].data );
doc = new ve.dm.Document( cases[i].data );
for ( j = 0; j < doc.getData().length; j++ ) {
annotations = doc.getAnnotationsFromOffset( j );
assert.deepEqual( annotations,
ve.dm.example.createAnnotationSet( cases[i].expected[j] ),
cases[i].msg[j]
);
}
}
} );
QUnit.test( 'getAnnotationsFromRange', 1, function ( assert ) {
var i, 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': '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', [ { 'type': 'textStyle/bold' } ] ],
['b', [ { 'type': 'textStyle/italic' } ] ],
['c']
],
'all': true,
'expected': [
{ 'type': 'textStyle/bold' },
{ 'type': 'textStyle/italic' }
]
},
{
'msg': 'annotations are collected using all, even with a plain character at the middle',
'data': [
['a', [ { 'type': 'textStyle/bold' } ] ],
['b', [ { 'type': 'textStyle/italic' } ] ],
['c']
],
'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++ ) {
ve.dm.example.preprocessAnnotations( cases[i].data );
doc = new ve.dm.Document( cases[i].data );
assert.deepEqual(
doc.getAnnotationsFromRange( new ve.Range( 0, cases[i].data.length ), cases[i].all ),
ve.dm.example.createAnnotationSet( cases[i].expected ),
cases[i].msg
);
}
} );
QUnit.test( 'offsetContainsAnnotation', 1, function ( assert ) {
var i, doc,
cases = [
{
msg: 'contains no annotations',
data: [
'a'
],
lookFor: {'type': 'textStyle/bold'},
expected: false
},
{
msg: 'contains bold',
data: [
['a', [ { 'type': 'textStyle/bold' } ] ]
],
lookFor: {'type': 'textStyle/bold'},
expected: true
},
{
msg: 'contains bold',
data: [
['a', [
{ 'type': 'textStyle/bold' },
{ 'type': 'textStyle/italic'}
]
]
],
lookFor: {'type': 'textStyle/bold'},
expected: true
}
];
QUnit.expect( cases.length );
for ( i = 0;i < cases.length; i++ ) {
ve.dm.example.preprocessAnnotations( cases[i].data );
doc = new ve.dm.Document( cases[i].data );
assert.deepEqual(
doc.offsetContainsAnnotation( 0,
ve.dm.example.createAnnotation( cases[i].lookFor ) ),
cases[i].expected,
cases[i].msg
);
}
});
QUnit.test( 'getAnnotatedRangeFromOffset', 1, function ( assert ) {
var i, 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': { 'html/src': 'image.png' },
'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++ ) {
ve.dm.example.preprocessAnnotations( cases[i].data );
doc = new ve.dm.Document( cases[i].data );
assert.deepEqual(
doc.getAnnotatedRangeFromOffset( cases[i].offset,
ve.dm.example.createAnnotation( cases[i].annotation ) ),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'getOuterLength', 1, function ( assert ) {
var doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) );
assert.strictEqual(
doc.getDocumentNode().getOuterLength(),
ve.dm.example.data.length,
'document does not have elements around it'
);
} );
QUnit.test( 'isContentOffset', function ( assert ) {
var i, left, right,
data = [
{ '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.length + 1 );
for ( i = 0; i < cases.length; i++ ) {
left = data[i - 1] ? ( data[i - 1].type || data[i - 1][0] ) : '[start]';
right = data[i] ? ( data[i].type || data[i][0] ) : '[end]';
assert.strictEqual(
ve.dm.Document.isContentOffset( data, i ),
cases[i].expected,
cases[i].msg + ' (' + left + '|' + right + ' @ ' + i + ')'
);
}
} );
QUnit.test( 'isStructuralOffset', function ( assert ) {
var i, left, right,
data = [
{ '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.length + 1 ) * 2 );
for ( i = 0; i < cases.length; i++ ) {
left = data[i - 1] ? ( data[i - 1].type || data[i - 1][0] ) : '[start]';
right = data[i] ? ( data[i].type || data[i][0] ) : '[end]';
assert.strictEqual(
ve.dm.Document.isStructuralOffset( data, i ),
cases[i].expected[0],
cases[i].msg + ' (' + left + '|' + right + ' @ ' + i + ')'
);
assert.strictEqual(
ve.dm.Document.isStructuralOffset( data, i, true ),
cases[i].expected[1],
cases[i].msg + ', unrestricted (' + left + '|' + right + ' @ ' + i + ')'
);
}
} );
QUnit.test( 'isElementData', 1, function ( assert ) {
var i,
data = [
{ '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.length + 1 );
for ( i = 0; i < cases.length; i++ ) {
assert.strictEqual( ve.dm.Document.isElementData( data, i ), cases[i].expected, cases[i].msg );
}
} );
QUnit.test( 'containsElementData', 1, function ( assert ) {
var i,
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++ ) {
assert.strictEqual(
ve.dm.Document.containsElementData( cases[i].data ), cases[i].expected, cases[i].msg
);
}
} );
QUnit.test( 'isContentData', 1, function ( assert ) {
var i,
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++ ) {
assert.strictEqual(
ve.dm.Document.isContentData( cases[i].data ), cases[i].expected, cases[i].msg
);
}
} );
QUnit.test( 'rebuildNodes', 2, function ( assert ) {
var tree,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
documentNode = doc.getDocumentNode();
// Rebuild table without changes
doc.rebuildNodes( documentNode, 1, 1, 5, 32 );
assert.equalNodeTree(
documentNode,
ve.dm.example.tree,
'rebuild without changes'
);
// XXX: Create a new document node tree from the old one
tree = new ve.dm.DocumentNode( ve.dm.example.tree.getChildren() );
// Replace table with paragraph
doc.spliceData( 5, 32, [ { 'type': 'paragraph' }, 'a', 'b', 'c', { 'type': '/paragraph' } ] );
tree.splice( 1, 1, new ve.dm.ParagraphNode( [new ve.dm.TextNode( 3 )] ) );
// Rebuild with changes
doc.rebuildNodes( documentNode, 1, 1, 5, 5 );
assert.equalNodeTree(
documentNode,
tree,
'replace table with paragraph'
);
} );
QUnit.test( 'getRelativeOffset', function ( assert ) {
var i, doc, 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++ ) {
doc = new ve.dm.Document( cases[i].data );
assert.strictEqual(
doc.getRelativeOffset.apply(
doc,
[
cases[i].offset,
cases[i].distance,
cases[i].callback
].concat( cases[i].args || [] )
),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'getRelativeContentOffset', function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
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': '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.getRelativeContentOffset( cases[i].offset, cases[i].distance ),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'getNearestContentOffset', function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
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.getNearestContentOffset( cases[i].offset, cases[i].direction ),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'getRelativeStructuralOffset', function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
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': 58,
'distance': 2,
'expected': 61
},
{
'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.getRelativeStructuralOffset(
cases[i].offset, cases[i].distance, cases[i].unrestricted
),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'getNearestStructuralOffset', function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
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.getNearestStructuralOffset(
cases[i].offset, cases[i].direction, cases[i].unrestricted
),
cases[i].expected,
cases[i].msg
);
}
} );
QUnit.test( 'selectNodes', 21, function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
cases = ve.example.getSelectNodesCases( doc );
for ( i = 0; i < cases.length; i++ ) {
assert.equalNodeSelection( cases[i].actual, cases[i].expected, cases[i].msg );
}
} );
QUnit.test( 'getBalancedData', function ( assert ) {
var i,
doc = new ve.dm.Document( ve.copyArray( ve.dm.example.data ) ),
cases = [
{
'msg': 'empty range',
'range': new ve.Range( 2, 2 ),
'expected': []
},
{
'msg': 'range with one character',
'range': new ve.Range( 2, 3 ),
'expected': [
['b', [ ve.dm.example.bold ]]
]
},
{
'msg': 'range with two characters',
'range': new ve.Range( 2, 4 ),
'expected': [
['b', [ ve.dm.example.bold ]],
['c', [ ve.dm.example.italic ]]
]
},
{
'msg': 'range with two characters and a header closing',
'range': new ve.Range( 2, 5 ),
'expected': [
{ 'type': 'heading', 'attributes': { 'level': 1 } },
['b', [ ve.dm.example.bold ]],
['c', [ ve.dm.example.italic ]],
{ 'type': '/heading' }
]
},
{
'msg': 'range with one character, a header closing and a table opening',
'range': new ve.Range( 3, 6 ),
'expected': [
{ 'type': 'heading', 'attributes': { 'level': 1 } },
['c', [ ve.dm.example.italic ]],
{ 'type': '/heading' },
{ 'type': 'table' },
{ 'type': '/table' }
]
},
{
'msg': 'range from a paragraph into a list',
'range': new ve.Range( 15, 21 ),
'expected': [
{ 'type': 'paragraph' },
'e',
{ 'type': '/paragraph' },
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'paragraph' },
'f',
{ 'type': '/paragraph' },
{ 'type': '/listItem' },
{ 'type': '/list' }
]
},
{
'msg': 'range from a paragraph inside a nested list into the next list',
'range': new ve.Range( 20, 27 ),
'expected': [
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'paragraph' },
'f',
{ 'type': '/paragraph' },
{ 'type': '/listItem' },
{ 'type': '/list' },
{ 'type': '/listItem' },
{ 'type': '/list' },
{ 'type': 'list', 'attributes': { 'style': 'number' } },
{ 'type': '/list' }
]
},
{
'msg': 'range from a paragraph inside a nested list out of both lists',
'range': new ve.Range( 20, 26 ),
'expected': [
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'paragraph' },
'f',
{ 'type': '/paragraph' },
{ 'type': '/listItem' },
{ 'type': '/list' },
{ 'type': '/listItem' },
{ 'type': '/list' }
]
},
{
'msg': 'range from a paragraph inside a nested list out of the outer listItem',
'range': new ve.Range( 20, 25 ),
'expected': [
{ 'type': 'listItem' },
{ 'type': 'list', 'attributes': { 'style': 'bullet' } },
{ 'type': 'listItem' },
{ 'type': 'paragraph' },
'f',
{ 'type': '/paragraph' },
{ 'type': '/listItem' },
{ 'type': '/list' },
{ 'type': '/listItem' }
]
}
];
QUnit.expect( cases.length );
for ( i = 0; i < cases.length; i++ ) {
ve.dm.example.preprocessAnnotations( cases[i].expected );
assert.deepEqual(
doc.getBalancedData( cases[i].range ),
cases[i].expected,
cases[i].msg
);
}
} );
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