/*! * UnicodeJS Word Break module tests * * @copyright 2013 UnicodeJS team and others; see AUTHORS.txt * @license The MIT License (MIT); see LICENSE.txt */ QUnit.module( 'unicodeJS.wordbreak' ); QUnit.test( 'isBreak', function ( assert ) { var i, pos, result, context, breakOffsets, textString, broken = [ '\u0300', 'xyz\'d', ' ', 'a', '\'', ' ', '\'', 'a', ' ', 'a', '-', 'b', ' ', '1a', '\r\n', 'カタカナ', '3,1.2', ' ', 'a_b_3_ナ_', ' ', '汉', '字', '/', '漢', '字', ' ', 'c\u0300\u0327k', ' ', // Test ALetter characters above U+FFFF. // ALetter+ should be a single word // (ALetter Extend*)+ should be a single word // // We'll use: // U+10308 OLD ITALIC LETTER THE \ud800\udf08 // U+1030A OLD ITALIC LETTER KA \ud800\udf0a // U+0302 COMBINING CIRCUMFLEX \u0302 '\ud800\udf08' + '\ud800\udf08\u0302' + '\ud800\udf0a', ' ', '\ud800\udf0a' + '\ud800\udf0a', ' ', '뜨락또르', ' ', '트랙터', ' ', // hangul (composed) //// TODO: test the equivalent hangul decomposed into jamo //// '\u1104\u1173\u1105\u1161\u11a8\u1104\u1169\u1105\u1173 ' + //// '\u1110\u1173\u1105\u1162\u11a8\u1110\u1165' + ' ', 'c\u0300\u0327', ' ', 'a', '.' ]; breakOffsets = [0]; pos = 0; for ( i = 0; i < broken.length; i++ ) { pos += unicodeJS.graphemebreak.splitClusters( broken[i] ).length; breakOffsets.push( pos ); } textString = new unicodeJS.TextString( broken.join( '' ) ); QUnit.expect( textString.getLength() + 1 ); for ( i = 0; i <= textString.getLength(); i++ ) { result = ( breakOffsets.indexOf( i ) !== -1 ); context = textString.substring( Math.max( i - 4, 0 ), i ).getString() + '│' + textString.substring( i, Math.min( i + 4, textString.getLength() ) ).getString() ; assert.equal( unicodeJS.wordbreak.isBreak( textString, i ), result, 'Break at position ' + i + ' (expect ' + result + '): ' + context ); } }); QUnit.test( 'nextBreakOffset/prevBreakOffset', function ( assert ) { var i, offset = 0, text = 'The quick brown fox', textString = new unicodeJS.TextString( text ), breaks = [ 0, 0, 3, 4, 9, 10, 15, 16, 19, 19 ]; QUnit.expect( 2 * (breaks.length - 2) ); for ( i = 2; i < breaks.length; i++ ) { offset = unicodeJS.wordbreak.nextBreakOffset( textString, offset ); assert.equal( offset, breaks[i], 'Next break is at position ' + breaks[i] ); } for ( i = breaks.length - 3; i >= 0; i-- ) { offset = unicodeJS.wordbreak.prevBreakOffset( textString, offset ); assert.equal( offset, breaks[i], 'Previous break is at position ' + breaks[i] ); } }); QUnit.test( 'nextBreakOffset/prevBreakOffset (ignore whitespace)', function ( assert ) { var i, offset = 0, text = ' The quick brown ..fox jumps... 3.14159 すどくスドク ', textString = new unicodeJS.TextString( text ), nextBreaks = [ 6, 12, 19, 25, 31, 42, 49, 52 ], prevBreaks = [ 46, 35, 26, 22, 14, 7, 3, 0 ]; QUnit.expect( nextBreaks.length + prevBreaks.length + 6 ); for ( i = 0; i < nextBreaks.length; i++ ) { offset = unicodeJS.wordbreak.nextBreakOffset( textString, offset, true ); assert.equal( offset, nextBreaks[i], 'Next break is at position ' + nextBreaks[i] ); } for ( i = 0; i < prevBreaks.length; i++ ) { offset = unicodeJS.wordbreak.prevBreakOffset( textString, offset, true ); assert.equal( offset, prevBreaks[i], 'Previous break is at position ' + prevBreaks[i] ); } assert.equal( unicodeJS.wordbreak.nextBreakOffset( textString, 9, true ), 12, 'Jump to end of word when starting in middle of word'); assert.equal( unicodeJS.wordbreak.nextBreakOffset( textString, 3, true ), 6, 'Jump to end of word when starting at start of word'); assert.equal( unicodeJS.wordbreak.nextBreakOffset( textString, 13, true ), 19, 'Jump to end of word when starting in double whitespace'); assert.equal( unicodeJS.wordbreak.prevBreakOffset( textString, 17, true ), 14, 'Jump to start of word when starting in middle of word'); assert.equal( unicodeJS.wordbreak.prevBreakOffset( textString, 6, true ), 3, 'Jump to start of word when starting at end of word'); assert.equal( unicodeJS.wordbreak.prevBreakOffset( textString, 13, true ), 7, 'Jump to start of word when starting in double whitespace'); });