dotfiles/.vscode/extensions/vscodevim.vim-0.2.0/node_modules/diff-match-patch/test/index.js
Cyryl Płotnicki 280bcab25f VSCode update
2016-09-24 13:12:34 +02:00

1022 lines
No EOL
40 KiB
JavaScript

'use strict'
var assert = require('assert');
var test = require('testit');
var diff_match_patch = require('../');
var DIFF_DELETE = diff_match_patch.DIFF_DELETE;
var DIFF_INSERT = diff_match_patch.DIFF_INSERT;
var DIFF_EQUAL = diff_match_patch.DIFF_EQUAL;
/**
* Test Harness for Diff Match and Patch
*
* Copyright 2006 Google Inc.
* http://code.google.com/p/google-diff-match-patch/
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// If expected and actual are the equivalent, pass the test.
function assertEquivalent(msg, expected, actual) {
if (typeof actual == 'undefined') {
// msg is optional.
actual = expected;
expected = msg;
msg = 'Expected: \'' + expected + '\' Actual: \'' + actual + '\'';
}
if (_equivalent(expected, actual)) {
assertEquals(msg, String.toString(expected), String.toString(actual));
} else {
assertEquals(msg, expected, actual);
}
}
// Are a and b the equivalent? -- Recursive.
function _equivalent(a, b) {
if (a == b) {
return true;
}
if (typeof a == 'object' && typeof b == 'object' && a !== null && b !== null) {
if (a.toString() != b.toString()) {
return false;
}
for (var p in a) {
if (!_equivalent(a[p], b[p])) {
return false;
}
}
for (var p in b) {
if (!_equivalent(a[p], b[p])) {
return false;
}
}
return true;
}
return false;
}
function diff_rebuildtexts(diffs) {
// Construct the two texts which made up the diff originally.
var text1 = '';
var text2 = '';
for (var x = 0; x < diffs.length; x++) {
if (diffs[x][0] != DIFF_INSERT) {
text1 += diffs[x][1];
}
if (diffs[x][0] != DIFF_DELETE) {
text2 += diffs[x][1];
}
}
return [text1, text2];
}
var dmp = new diff_match_patch();
// DIFF TEST FUNCTIONS
function testDiffCommonPrefix() {
// Detect any common prefix.
// Null case.
assertEquals(0, dmp.diff_commonPrefix('abc', 'xyz'));
// Non-null case.
assertEquals(4, dmp.diff_commonPrefix('1234abcdef', '1234xyz'));
// Whole case.
assertEquals(4, dmp.diff_commonPrefix('1234', '1234xyz'));
}
function testDiffCommonSuffix() {
// Detect any common suffix.
// Null case.
assertEquals(0, dmp.diff_commonSuffix('abc', 'xyz'));
// Non-null case.
assertEquals(4, dmp.diff_commonSuffix('abcdef1234', 'xyz1234'));
// Whole case.
assertEquals(4, dmp.diff_commonSuffix('1234', 'xyz1234'));
}
function testDiffCommonOverlap() {
// Detect any suffix/prefix overlap.
// Null case.
assertEquals(0, dmp.diff_commonOverlap_('', 'abcd'));
// Whole case.
assertEquals(3, dmp.diff_commonOverlap_('abc', 'abcd'));
// No overlap.
assertEquals(0, dmp.diff_commonOverlap_('123456', 'abcd'));
// Overlap.
assertEquals(3, dmp.diff_commonOverlap_('123456xxx', 'xxxabcd'));
// Unicode.
// Some overly clever languages (C#) may treat ligatures as equal to their
// component letters. E.g. U+FB01 == 'fi'
assertEquals(0, dmp.diff_commonOverlap_('fi', '\ufb01i'));
}
function testDiffHalfMatch() {
// Detect a halfmatch.
dmp.Diff_Timeout = 1;
// No match.
assertEquals(null, dmp.diff_halfMatch_('1234567890', 'abcdef'));
assertEquals(null, dmp.diff_halfMatch_('12345', '23'));
// Single Match.
assertEquivalent(['12', '90', 'a', 'z', '345678'], dmp.diff_halfMatch_('1234567890', 'a345678z'));
assertEquivalent(['a', 'z', '12', '90', '345678'], dmp.diff_halfMatch_('a345678z', '1234567890'));
assertEquivalent(['abc', 'z', '1234', '0', '56789'], dmp.diff_halfMatch_('abc56789z', '1234567890'));
assertEquivalent(['a', 'xyz', '1', '7890', '23456'], dmp.diff_halfMatch_('a23456xyz', '1234567890'));
// Multiple Matches.
assertEquivalent(['12123', '123121', 'a', 'z', '1234123451234'], dmp.diff_halfMatch_('121231234123451234123121', 'a1234123451234z'));
assertEquivalent(['', '-=-=-=-=-=', 'x', '', 'x-=-=-=-=-=-=-='], dmp.diff_halfMatch_('x-=-=-=-=-=-=-=-=-=-=-=-=', 'xx-=-=-=-=-=-=-='));
assertEquivalent(['-=-=-=-=-=', '', '', 'y', '-=-=-=-=-=-=-=y'], dmp.diff_halfMatch_('-=-=-=-=-=-=-=-=-=-=-=-=y', '-=-=-=-=-=-=-=yy'));
// Non-optimal halfmatch.
// Optimal diff would be -q+x=H-i+e=lloHe+Hu=llo-Hew+y not -qHillo+x=HelloHe-w+Hulloy
assertEquivalent(['qHillo', 'w', 'x', 'Hulloy', 'HelloHe'], dmp.diff_halfMatch_('qHilloHelloHew', 'xHelloHeHulloy'));
// Optimal no halfmatch.
dmp.Diff_Timeout = 0;
assertEquals(null, dmp.diff_halfMatch_('qHilloHelloHew', 'xHelloHeHulloy'));
}
function testDiffLinesToChars() {
function assertLinesToCharsResultEquals(a, b) {
assertEquals(a.chars1, b.chars1);
assertEquals(a.chars2, b.chars2);
assertEquivalent(a.lineArray, b.lineArray);
}
// Convert lines down to characters.
assertLinesToCharsResultEquals({chars1: '\x01\x02\x01', chars2: '\x02\x01\x02', lineArray: ['', 'alpha\n', 'beta\n']}, dmp.diff_linesToChars_('alpha\nbeta\nalpha\n', 'beta\nalpha\nbeta\n'));
assertLinesToCharsResultEquals({chars1: '', chars2: '\x01\x02\x03\x03', lineArray: ['', 'alpha\r\n', 'beta\r\n', '\r\n']}, dmp.diff_linesToChars_('', 'alpha\r\nbeta\r\n\r\n\r\n'));
assertLinesToCharsResultEquals({chars1: '\x01', chars2: '\x02', lineArray: ['', 'a', 'b']}, dmp.diff_linesToChars_('a', 'b'));
// More than 256 to reveal any 8-bit limitations.
var n = 300;
var lineList = [];
var charList = [];
for (var x = 1; x < n + 1; x++) {
lineList[x - 1] = x + '\n';
charList[x - 1] = String.fromCharCode(x);
}
assertEquals(n, lineList.length);
var lines = lineList.join('');
var chars = charList.join('');
assertEquals(n, chars.length);
lineList.unshift('');
assertLinesToCharsResultEquals({chars1: chars, chars2: '', lineArray: lineList}, dmp.diff_linesToChars_(lines, ''));
}
function testDiffCharsToLines() {
// Convert chars up to lines.
var diffs = [[DIFF_EQUAL, '\x01\x02\x01'], [DIFF_INSERT, '\x02\x01\x02']];
dmp.diff_charsToLines_(diffs, ['', 'alpha\n', 'beta\n']);
assertEquivalent([[DIFF_EQUAL, 'alpha\nbeta\nalpha\n'], [DIFF_INSERT, 'beta\nalpha\nbeta\n']], diffs);
// More than 256 to reveal any 8-bit limitations.
var n = 300;
var lineList = [];
var charList = [];
for (var x = 1; x < n + 1; x++) {
lineList[x - 1] = x + '\n';
charList[x - 1] = String.fromCharCode(x);
}
assertEquals(n, lineList.length);
var lines = lineList.join('');
var chars = charList.join('');
assertEquals(n, chars.length);
lineList.unshift('');
var diffs = [[DIFF_DELETE, chars]];
dmp.diff_charsToLines_(diffs, lineList);
assertEquivalent([[DIFF_DELETE, lines]], diffs);
}
function testDiffCleanupMerge() {
// Cleanup a messy diff.
// Null case.
var diffs = [];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([], diffs);
// No change case.
diffs = [[DIFF_EQUAL, 'a'], [DIFF_DELETE, 'b'], [DIFF_INSERT, 'c']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'a'], [DIFF_DELETE, 'b'], [DIFF_INSERT, 'c']], diffs);
// Merge equalities.
diffs = [[DIFF_EQUAL, 'a'], [DIFF_EQUAL, 'b'], [DIFF_EQUAL, 'c']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'abc']], diffs);
// Merge deletions.
diffs = [[DIFF_DELETE, 'a'], [DIFF_DELETE, 'b'], [DIFF_DELETE, 'c']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_DELETE, 'abc']], diffs);
// Merge insertions.
diffs = [[DIFF_INSERT, 'a'], [DIFF_INSERT, 'b'], [DIFF_INSERT, 'c']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_INSERT, 'abc']], diffs);
// Merge interweave.
diffs = [[DIFF_DELETE, 'a'], [DIFF_INSERT, 'b'], [DIFF_DELETE, 'c'], [DIFF_INSERT, 'd'], [DIFF_EQUAL, 'e'], [DIFF_EQUAL, 'f']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_DELETE, 'ac'], [DIFF_INSERT, 'bd'], [DIFF_EQUAL, 'ef']], diffs);
// Prefix and suffix detection.
diffs = [[DIFF_DELETE, 'a'], [DIFF_INSERT, 'abc'], [DIFF_DELETE, 'dc']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'a'], [DIFF_DELETE, 'd'], [DIFF_INSERT, 'b'], [DIFF_EQUAL, 'c']], diffs);
// Prefix and suffix detection with equalities.
diffs = [[DIFF_EQUAL, 'x'], [DIFF_DELETE, 'a'], [DIFF_INSERT, 'abc'], [DIFF_DELETE, 'dc'], [DIFF_EQUAL, 'y']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'xa'], [DIFF_DELETE, 'd'], [DIFF_INSERT, 'b'], [DIFF_EQUAL, 'cy']], diffs);
// Slide edit left.
diffs = [[DIFF_EQUAL, 'a'], [DIFF_INSERT, 'ba'], [DIFF_EQUAL, 'c']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_INSERT, 'ab'], [DIFF_EQUAL, 'ac']], diffs);
// Slide edit right.
diffs = [[DIFF_EQUAL, 'c'], [DIFF_INSERT, 'ab'], [DIFF_EQUAL, 'a']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'ca'], [DIFF_INSERT, 'ba']], diffs);
// Slide edit left recursive.
diffs = [[DIFF_EQUAL, 'a'], [DIFF_DELETE, 'b'], [DIFF_EQUAL, 'c'], [DIFF_DELETE, 'ac'], [DIFF_EQUAL, 'x']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_DELETE, 'abc'], [DIFF_EQUAL, 'acx']], diffs);
// Slide edit right recursive.
diffs = [[DIFF_EQUAL, 'x'], [DIFF_DELETE, 'ca'], [DIFF_EQUAL, 'c'], [DIFF_DELETE, 'b'], [DIFF_EQUAL, 'a']];
dmp.diff_cleanupMerge(diffs);
assertEquivalent([[DIFF_EQUAL, 'xca'], [DIFF_DELETE, 'cba']], diffs);
}
function testDiffCleanupSemanticLossless() {
// Slide diffs to match logical boundaries.
// Null case.
var diffs = [];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([], diffs);
// Blank lines.
diffs = [[DIFF_EQUAL, 'AAA\r\n\r\nBBB'], [DIFF_INSERT, '\r\nDDD\r\n\r\nBBB'], [DIFF_EQUAL, '\r\nEEE']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'AAA\r\n\r\n'], [DIFF_INSERT, 'BBB\r\nDDD\r\n\r\n'], [DIFF_EQUAL, 'BBB\r\nEEE']], diffs);
// Line boundaries.
diffs = [[DIFF_EQUAL, 'AAA\r\nBBB'], [DIFF_INSERT, ' DDD\r\nBBB'], [DIFF_EQUAL, ' EEE']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'AAA\r\n'], [DIFF_INSERT, 'BBB DDD\r\n'], [DIFF_EQUAL, 'BBB EEE']], diffs);
// Word boundaries.
diffs = [[DIFF_EQUAL, 'The c'], [DIFF_INSERT, 'ow and the c'], [DIFF_EQUAL, 'at.']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'The '], [DIFF_INSERT, 'cow and the '], [DIFF_EQUAL, 'cat.']], diffs);
// Alphanumeric boundaries.
diffs = [[DIFF_EQUAL, 'The-c'], [DIFF_INSERT, 'ow-and-the-c'], [DIFF_EQUAL, 'at.']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'The-'], [DIFF_INSERT, 'cow-and-the-'], [DIFF_EQUAL, 'cat.']], diffs);
// Hitting the start.
diffs = [[DIFF_EQUAL, 'a'], [DIFF_DELETE, 'a'], [DIFF_EQUAL, 'ax']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_DELETE, 'a'], [DIFF_EQUAL, 'aax']], diffs);
// Hitting the end.
diffs = [[DIFF_EQUAL, 'xa'], [DIFF_DELETE, 'a'], [DIFF_EQUAL, 'a']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'xaa'], [DIFF_DELETE, 'a']], diffs);
// Sentence boundaries.
diffs = [[DIFF_EQUAL, 'The xxx. The '], [DIFF_INSERT, 'zzz. The '], [DIFF_EQUAL, 'yyy.']];
dmp.diff_cleanupSemanticLossless(diffs);
assertEquivalent([[DIFF_EQUAL, 'The xxx.'], [DIFF_INSERT, ' The zzz.'], [DIFF_EQUAL, ' The yyy.']], diffs);
}
function testDiffCleanupSemantic() {
// Cleanup semantically trivial equalities.
// Null case.
var diffs = [];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([], diffs);
// No elimination #1.
diffs = [[DIFF_DELETE, 'ab'], [DIFF_INSERT, 'cd'], [DIFF_EQUAL, '12'], [DIFF_DELETE, 'e']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'ab'], [DIFF_INSERT, 'cd'], [DIFF_EQUAL, '12'], [DIFF_DELETE, 'e']], diffs);
// No elimination #2.
diffs = [[DIFF_DELETE, 'abc'], [DIFF_INSERT, 'ABC'], [DIFF_EQUAL, '1234'], [DIFF_DELETE, 'wxyz']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abc'], [DIFF_INSERT, 'ABC'], [DIFF_EQUAL, '1234'], [DIFF_DELETE, 'wxyz']], diffs);
// Simple elimination.
diffs = [[DIFF_DELETE, 'a'], [DIFF_EQUAL, 'b'], [DIFF_DELETE, 'c']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abc'], [DIFF_INSERT, 'b']], diffs);
// Backpass elimination.
diffs = [[DIFF_DELETE, 'ab'], [DIFF_EQUAL, 'cd'], [DIFF_DELETE, 'e'], [DIFF_EQUAL, 'f'], [DIFF_INSERT, 'g']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abcdef'], [DIFF_INSERT, 'cdfg']], diffs);
// Multiple eliminations.
diffs = [[DIFF_INSERT, '1'], [DIFF_EQUAL, 'A'], [DIFF_DELETE, 'B'], [DIFF_INSERT, '2'], [DIFF_EQUAL, '_'], [DIFF_INSERT, '1'], [DIFF_EQUAL, 'A'], [DIFF_DELETE, 'B'], [DIFF_INSERT, '2']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'AB_AB'], [DIFF_INSERT, '1A2_1A2']], diffs);
// Word boundaries.
diffs = [[DIFF_EQUAL, 'The c'], [DIFF_DELETE, 'ow and the c'], [DIFF_EQUAL, 'at.']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_EQUAL, 'The '], [DIFF_DELETE, 'cow and the '], [DIFF_EQUAL, 'cat.']], diffs);
// No overlap elimination.
diffs = [[DIFF_DELETE, 'abcxx'], [DIFF_INSERT, 'xxdef']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abcxx'], [DIFF_INSERT, 'xxdef']], diffs);
// Overlap elimination.
diffs = [[DIFF_DELETE, 'abcxxx'], [DIFF_INSERT, 'xxxdef']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abc'], [DIFF_EQUAL, 'xxx'], [DIFF_INSERT, 'def']], diffs);
// Reverse overlap elimination.
diffs = [[DIFF_DELETE, 'xxxabc'], [DIFF_INSERT, 'defxxx']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_INSERT, 'def'], [DIFF_EQUAL, 'xxx'], [DIFF_DELETE, 'abc']], diffs);
// Two overlap eliminations.
diffs = [[DIFF_DELETE, 'abcd1212'], [DIFF_INSERT, '1212efghi'], [DIFF_EQUAL, '----'], [DIFF_DELETE, 'A3'], [DIFF_INSERT, '3BC']];
dmp.diff_cleanupSemantic(diffs);
assertEquivalent([[DIFF_DELETE, 'abcd'], [DIFF_EQUAL, '1212'], [DIFF_INSERT, 'efghi'], [DIFF_EQUAL, '----'], [DIFF_DELETE, 'A'], [DIFF_EQUAL, '3'], [DIFF_INSERT, 'BC']], diffs);
}
function testDiffCleanupEfficiency() {
// Cleanup operationally trivial equalities.
dmp.Diff_EditCost = 4;
// Null case.
var diffs = [];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([], diffs);
// No elimination.
diffs = [[DIFF_DELETE, 'ab'], [DIFF_INSERT, '12'], [DIFF_EQUAL, 'wxyz'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '34']];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([[DIFF_DELETE, 'ab'], [DIFF_INSERT, '12'], [DIFF_EQUAL, 'wxyz'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '34']], diffs);
// Four-edit elimination.
diffs = [[DIFF_DELETE, 'ab'], [DIFF_INSERT, '12'], [DIFF_EQUAL, 'xyz'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '34']];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([[DIFF_DELETE, 'abxyzcd'], [DIFF_INSERT, '12xyz34']], diffs);
// Three-edit elimination.
diffs = [[DIFF_INSERT, '12'], [DIFF_EQUAL, 'x'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '34']];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([[DIFF_DELETE, 'xcd'], [DIFF_INSERT, '12x34']], diffs);
// Backpass elimination.
diffs = [[DIFF_DELETE, 'ab'], [DIFF_INSERT, '12'], [DIFF_EQUAL, 'xy'], [DIFF_INSERT, '34'], [DIFF_EQUAL, 'z'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '56']];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([[DIFF_DELETE, 'abxyzcd'], [DIFF_INSERT, '12xy34z56']], diffs);
// High cost elimination.
dmp.Diff_EditCost = 5;
diffs = [[DIFF_DELETE, 'ab'], [DIFF_INSERT, '12'], [DIFF_EQUAL, 'wxyz'], [DIFF_DELETE, 'cd'], [DIFF_INSERT, '34']];
dmp.diff_cleanupEfficiency(diffs);
assertEquivalent([[DIFF_DELETE, 'abwxyzcd'], [DIFF_INSERT, '12wxyz34']], diffs);
dmp.Diff_EditCost = 4;
}
function testDiffPrettyHtml() {
// Pretty print.
var diffs = [[DIFF_EQUAL, 'a\n'], [DIFF_DELETE, '<B>b</B>'], [DIFF_INSERT, 'c&d']];
assertEquals('<span>a&para;<br></span><del style="background:#ffe6e6;">&lt;B&gt;b&lt;/B&gt;</del><ins style="background:#e6ffe6;">c&amp;d</ins>', dmp.diff_prettyHtml(diffs));
}
function testDiffText() {
// Compute the source and destination texts.
var diffs = [[DIFF_EQUAL, 'jump'], [DIFF_DELETE, 's'], [DIFF_INSERT, 'ed'], [DIFF_EQUAL, ' over '], [DIFF_DELETE, 'the'], [DIFF_INSERT, 'a'], [DIFF_EQUAL, ' lazy']];
assertEquals('jumps over the lazy', dmp.diff_text1(diffs));
assertEquals('jumped over a lazy', dmp.diff_text2(diffs));
}
function testDiffDelta() {
// Convert a diff into delta string.
var diffs = [[DIFF_EQUAL, 'jump'], [DIFF_DELETE, 's'], [DIFF_INSERT, 'ed'], [DIFF_EQUAL, ' over '], [DIFF_DELETE, 'the'], [DIFF_INSERT, 'a'], [DIFF_EQUAL, ' lazy'], [DIFF_INSERT, 'old dog']];
var text1 = dmp.diff_text1(diffs);
assertEquals('jumps over the lazy', text1);
var delta = dmp.diff_toDelta(diffs);
assertEquals('=4\t-1\t+ed\t=6\t-3\t+a\t=5\t+old dog', delta);
// Convert delta string into a diff.
assertEquivalent(diffs, dmp.diff_fromDelta(text1, delta));
// Generates error (19 != 20).
try {
dmp.diff_fromDelta(text1 + 'x', delta);
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
// Generates error (19 != 18).
try {
dmp.diff_fromDelta(text1.substring(1), delta);
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
// Generates error (%c3%xy invalid Unicode).
try {
dmp.diff_fromDelta('', '+%c3%xy');
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
// Test deltas with special characters.
diffs = [[DIFF_EQUAL, '\u0680 \x00 \t %'], [DIFF_DELETE, '\u0681 \x01 \n ^'], [DIFF_INSERT, '\u0682 \x02 \\ |']];
text1 = dmp.diff_text1(diffs);
assertEquals('\u0680 \x00 \t %\u0681 \x01 \n ^', text1);
delta = dmp.diff_toDelta(diffs);
assertEquals('=7\t-7\t+%DA%82 %02 %5C %7C', delta);
// Convert delta string into a diff.
assertEquivalent(diffs, dmp.diff_fromDelta(text1, delta));
// Verify pool of unchanged characters.
diffs = [[DIFF_INSERT, 'A-Z a-z 0-9 - _ . ! ~ * \' ( ) ; / ? : @ & = + $ , # ']];
var text2 = dmp.diff_text2(diffs);
assertEquals('A-Z a-z 0-9 - _ . ! ~ * \' ( ) ; / ? : @ & = + $ , # ', text2);
delta = dmp.diff_toDelta(diffs);
assertEquals('+A-Z a-z 0-9 - _ . ! ~ * \' ( ) ; / ? : @ & = + $ , # ', delta);
// Convert delta string into a diff.
assertEquivalent(diffs, dmp.diff_fromDelta('', delta));
}
function testDiffXIndex() {
// Translate a location in text1 to text2.
// Translation on equality.
assertEquals(5, dmp.diff_xIndex([[DIFF_DELETE, 'a'], [DIFF_INSERT, '1234'], [DIFF_EQUAL, 'xyz']], 2));
// Translation on deletion.
assertEquals(1, dmp.diff_xIndex([[DIFF_EQUAL, 'a'], [DIFF_DELETE, '1234'], [DIFF_EQUAL, 'xyz']], 3));
}
function testDiffLevenshtein() {
// Levenshtein with trailing equality.
assertEquals(4, dmp.diff_levenshtein([[DIFF_DELETE, 'abc'], [DIFF_INSERT, '1234'], [DIFF_EQUAL, 'xyz']]));
// Levenshtein with leading equality.
assertEquals(4, dmp.diff_levenshtein([[DIFF_EQUAL, 'xyz'], [DIFF_DELETE, 'abc'], [DIFF_INSERT, '1234']]));
// Levenshtein with middle equality.
assertEquals(7, dmp.diff_levenshtein([[DIFF_DELETE, 'abc'], [DIFF_EQUAL, 'xyz'], [DIFF_INSERT, '1234']]));
}
function testDiffBisect() {
// Normal.
var a = 'cat';
var b = 'map';
// Since the resulting diff hasn't been normalized, it would be ok if
// the insertion and deletion pairs are swapped.
// If the order changes, tweak this test as required.
assertEquivalent([[DIFF_DELETE, 'c'], [DIFF_INSERT, 'm'], [DIFF_EQUAL, 'a'], [DIFF_DELETE, 't'], [DIFF_INSERT, 'p']], dmp.diff_bisect_(a, b, Number.MAX_VALUE));
// Timeout.
assertEquivalent([[DIFF_DELETE, 'cat'], [DIFF_INSERT, 'map']], dmp.diff_bisect_(a, b, 0));
}
function testDiffMain() {
// Perform a trivial diff.
// Null case.
assertEquivalent([], dmp.diff_main('', '', false));
// Equality.
assertEquivalent([[DIFF_EQUAL, 'abc']], dmp.diff_main('abc', 'abc', false));
// Simple insertion.
assertEquivalent([[DIFF_EQUAL, 'ab'], [DIFF_INSERT, '123'], [DIFF_EQUAL, 'c']], dmp.diff_main('abc', 'ab123c', false));
// Simple deletion.
assertEquivalent([[DIFF_EQUAL, 'a'], [DIFF_DELETE, '123'], [DIFF_EQUAL, 'bc']], dmp.diff_main('a123bc', 'abc', false));
// Two insertions.
assertEquivalent([[DIFF_EQUAL, 'a'], [DIFF_INSERT, '123'], [DIFF_EQUAL, 'b'], [DIFF_INSERT, '456'], [DIFF_EQUAL, 'c']], dmp.diff_main('abc', 'a123b456c', false));
// Two deletions.
assertEquivalent([[DIFF_EQUAL, 'a'], [DIFF_DELETE, '123'], [DIFF_EQUAL, 'b'], [DIFF_DELETE, '456'], [DIFF_EQUAL, 'c']], dmp.diff_main('a123b456c', 'abc', false));
// Perform a real diff.
// Switch off the timeout.
dmp.Diff_Timeout = 0;
// Simple cases.
assertEquivalent([[DIFF_DELETE, 'a'], [DIFF_INSERT, 'b']], dmp.diff_main('a', 'b', false));
assertEquivalent([[DIFF_DELETE, 'Apple'], [DIFF_INSERT, 'Banana'], [DIFF_EQUAL, 's are a'], [DIFF_INSERT, 'lso'], [DIFF_EQUAL, ' fruit.']], dmp.diff_main('Apples are a fruit.', 'Bananas are also fruit.', false));
assertEquivalent([[DIFF_DELETE, 'a'], [DIFF_INSERT, '\u0680'], [DIFF_EQUAL, 'x'], [DIFF_DELETE, '\t'], [DIFF_INSERT, '\0']], dmp.diff_main('ax\t', '\u0680x\0', false));
// Overlaps.
assertEquivalent([[DIFF_DELETE, '1'], [DIFF_EQUAL, 'a'], [DIFF_DELETE, 'y'], [DIFF_EQUAL, 'b'], [DIFF_DELETE, '2'], [DIFF_INSERT, 'xab']], dmp.diff_main('1ayb2', 'abxab', false));
assertEquivalent([[DIFF_INSERT, 'xaxcx'], [DIFF_EQUAL, 'abc'], [DIFF_DELETE, 'y']], dmp.diff_main('abcy', 'xaxcxabc', false));
assertEquivalent([[DIFF_DELETE, 'ABCD'], [DIFF_EQUAL, 'a'], [DIFF_DELETE, '='], [DIFF_INSERT, '-'], [DIFF_EQUAL, 'bcd'], [DIFF_DELETE, '='], [DIFF_INSERT, '-'], [DIFF_EQUAL, 'efghijklmnopqrs'], [DIFF_DELETE, 'EFGHIJKLMNOefg']], dmp.diff_main('ABCDa=bcd=efghijklmnopqrsEFGHIJKLMNOefg', 'a-bcd-efghijklmnopqrs', false));
// Large equality.
assertEquivalent([[DIFF_INSERT, ' '], [DIFF_EQUAL, 'a'], [DIFF_INSERT, 'nd'], [DIFF_EQUAL, ' [[Pennsylvania]]'], [DIFF_DELETE, ' and [[New']], dmp.diff_main('a [[Pennsylvania]] and [[New', ' and [[Pennsylvania]]', false));
// Timeout.
dmp.Diff_Timeout = 0.1; // 100ms
var a = '`Twas brillig, and the slithy toves\nDid gyre and gimble in the wabe:\nAll mimsy were the borogoves,\nAnd the mome raths outgrabe.\n';
var b = 'I am the very model of a modern major general,\nI\'ve information vegetable, animal, and mineral,\nI know the kings of England, and I quote the fights historical,\nFrom Marathon to Waterloo, in order categorical.\n';
// Increase the text lengths by 1024 times to ensure a timeout.
for (var x = 0; x < 10; x++) {
a = a + a;
b = b + b;
}
var startTime = (new Date()).getTime();
dmp.diff_main(a, b);
var endTime = (new Date()).getTime();
// Test that we took at least the timeout period.
assertTrue(dmp.Diff_Timeout * 1000 <= endTime - startTime);
// Test that we didn't take forever (be forgiving).
// Theoretically this test could fail very occasionally if the
// OS task swaps or locks up for a second at the wrong moment.
// ****
// TODO(fraser): For unknown reasons this is taking 500 ms on Google's
// internal test system. Whereas browsers take 140 ms.
//assertTrue(dmp.Diff_Timeout * 1000 * 2 > endTime - startTime);
// ****
dmp.Diff_Timeout = 0;
// Test the linemode speedup.
// Must be long to pass the 100 char cutoff.
// Simple line-mode.
a = '1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n';
b = 'abcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\nabcdefghij\n';
assertEquivalent(dmp.diff_main(a, b, false), dmp.diff_main(a, b, true));
// Single line-mode.
a = '1234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890';
b = 'abcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghijabcdefghij';
assertEquivalent(dmp.diff_main(a, b, false), dmp.diff_main(a, b, true));
// Overlap line-mode.
a = '1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n1234567890\n';
b = 'abcdefghij\n1234567890\n1234567890\n1234567890\nabcdefghij\n1234567890\n1234567890\n1234567890\nabcdefghij\n1234567890\n1234567890\n1234567890\nabcdefghij\n';
var texts_linemode = diff_rebuildtexts(dmp.diff_main(a, b, true));
var texts_textmode = diff_rebuildtexts(dmp.diff_main(a, b, false));
assertEquivalent(texts_textmode, texts_linemode);
// Test null inputs.
try {
dmp.diff_main(null, null);
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
}
// MATCH TEST FUNCTIONS
function testMatchAlphabet() {
// Initialise the bitmasks for Bitap.
// Unique.
assertEquivalent({'a':4, 'b':2, 'c':1}, dmp.match_alphabet_('abc'));
// Duplicates.
assertEquivalent({'a':37, 'b':18, 'c':8}, dmp.match_alphabet_('abcaba'));
}
function testMatchBitap() {
// Bitap algorithm.
dmp.Match_Distance = 100;
dmp.Match_Threshold = 0.5;
// Exact matches.
assertEquals(5, dmp.match_bitap_('abcdefghijk', 'fgh', 5));
assertEquals(5, dmp.match_bitap_('abcdefghijk', 'fgh', 0));
// Fuzzy matches.
assertEquals(4, dmp.match_bitap_('abcdefghijk', 'efxhi', 0));
assertEquals(2, dmp.match_bitap_('abcdefghijk', 'cdefxyhijk', 5));
assertEquals(-1, dmp.match_bitap_('abcdefghijk', 'bxy', 1));
// Overflow.
assertEquals(2, dmp.match_bitap_('123456789xx0', '3456789x0', 2));
// Threshold test.
dmp.Match_Threshold = 0.4;
assertEquals(4, dmp.match_bitap_('abcdefghijk', 'efxyhi', 1));
dmp.Match_Threshold = 0.3;
assertEquals(-1, dmp.match_bitap_('abcdefghijk', 'efxyhi', 1));
dmp.Match_Threshold = 0.0;
assertEquals(1, dmp.match_bitap_('abcdefghijk', 'bcdef', 1));
dmp.Match_Threshold = 0.5;
// Multiple select.
assertEquals(0, dmp.match_bitap_('abcdexyzabcde', 'abccde', 3));
assertEquals(8, dmp.match_bitap_('abcdexyzabcde', 'abccde', 5));
// Distance test.
dmp.Match_Distance = 10; // Strict location.
assertEquals(-1, dmp.match_bitap_('abcdefghijklmnopqrstuvwxyz', 'abcdefg', 24));
assertEquals(0, dmp.match_bitap_('abcdefghijklmnopqrstuvwxyz', 'abcdxxefg', 1));
dmp.Match_Distance = 1000; // Loose location.
assertEquals(0, dmp.match_bitap_('abcdefghijklmnopqrstuvwxyz', 'abcdefg', 24));
}
function testMatchMain() {
// Full match.
// Shortcut matches.
assertEquals(0, dmp.match_main('abcdef', 'abcdef', 1000));
assertEquals(-1, dmp.match_main('', 'abcdef', 1));
assertEquals(3, dmp.match_main('abcdef', '', 3));
assertEquals(3, dmp.match_main('abcdef', 'de', 3));
// Beyond end match.
assertEquals(3, dmp.match_main("abcdef", "defy", 4));
// Oversized pattern.
assertEquals(0, dmp.match_main("abcdef", "abcdefy", 0));
// Complex match.
assertEquals(4, dmp.match_main('I am the very model of a modern major general.', ' that berry ', 5));
// Test null inputs.
try {
dmp.match_main(null, null, 0);
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
}
// PATCH TEST FUNCTIONS
function testPatchObj() {
// Patch Object.
var p = new diff_match_patch.patch_obj();
p.start1 = 20;
p.start2 = 21;
p.length1 = 18;
p.length2 = 17;
p.diffs = [[DIFF_EQUAL, 'jump'], [DIFF_DELETE, 's'], [DIFF_INSERT, 'ed'], [DIFF_EQUAL, ' over '], [DIFF_DELETE, 'the'], [DIFF_INSERT, 'a'], [DIFF_EQUAL, '\nlaz']];
var strp = p.toString();
assertEquals('@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n %0Alaz\n', strp);
}
function testPatchFromText() {
assertEquivalent([], dmp.patch_fromText(strp));
var strp = '@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n %0Alaz\n';
assertEquals(strp, dmp.patch_fromText(strp)[0].toString());
assertEquals('@@ -1 +1 @@\n-a\n+b\n', dmp.patch_fromText('@@ -1 +1 @@\n-a\n+b\n')[0].toString());
assertEquals('@@ -1,3 +0,0 @@\n-abc\n', dmp.patch_fromText('@@ -1,3 +0,0 @@\n-abc\n')[0].toString());
assertEquals('@@ -0,0 +1,3 @@\n+abc\n', dmp.patch_fromText('@@ -0,0 +1,3 @@\n+abc\n')[0].toString());
// Generates error.
try {
dmp.patch_fromText('Bad\nPatch\n');
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
}
function testPatchToText() {
var strp = '@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n laz\n';
var p = dmp.patch_fromText(strp);
assertEquals(strp, dmp.patch_toText(p));
strp = '@@ -1,9 +1,9 @@\n-f\n+F\n oo+fooba\n@@ -7,9 +7,9 @@\n obar\n-,\n+.\n tes\n';
p = dmp.patch_fromText(strp);
assertEquals(strp, dmp.patch_toText(p));
}
function testPatchAddContext() {
dmp.Patch_Margin = 4;
var p = dmp.patch_fromText('@@ -21,4 +21,10 @@\n-jump\n+somersault\n')[0];
dmp.patch_addContext_(p, 'The quick brown fox jumps over the lazy dog.');
assertEquals('@@ -17,12 +17,18 @@\n fox \n-jump\n+somersault\n s ov\n', p.toString());
// Same, but not enough trailing context.
p = dmp.patch_fromText('@@ -21,4 +21,10 @@\n-jump\n+somersault\n')[0];
dmp.patch_addContext_(p, 'The quick brown fox jumps.');
assertEquals('@@ -17,10 +17,16 @@\n fox \n-jump\n+somersault\n s.\n', p.toString());
// Same, but not enough leading context.
p = dmp.patch_fromText('@@ -3 +3,2 @@\n-e\n+at\n')[0];
dmp.patch_addContext_(p, 'The quick brown fox jumps.');
assertEquals('@@ -1,7 +1,8 @@\n Th\n-e\n+at\n qui\n', p.toString());
// Same, but with ambiguity.
p = dmp.patch_fromText('@@ -3 +3,2 @@\n-e\n+at\n')[0];
dmp.patch_addContext_(p, 'The quick brown fox jumps. The quick brown fox crashes.');
assertEquals('@@ -1,27 +1,28 @@\n Th\n-e\n+at\n quick brown fox jumps. \n', p.toString());
}
function testPatchMake() {
// Null case.
var patches = dmp.patch_make('', '');
assertEquals('', dmp.patch_toText(patches));
var text1 = 'The quick brown fox jumps over the lazy dog.';
var text2 = 'That quick brown fox jumped over a lazy dog.';
// Text2+Text1 inputs.
var expectedPatch = '@@ -1,8 +1,7 @@\n Th\n-at\n+e\n qui\n@@ -21,17 +21,18 @@\n jump\n-ed\n+s\n over \n-a\n+the\n laz\n';
// The second patch must be "-21,17 +21,18", not "-22,17 +21,18" due to rolling context.
patches = dmp.patch_make(text2, text1);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Text1+Text2 inputs.
expectedPatch = '@@ -1,11 +1,12 @@\n Th\n-e\n+at\n quick b\n@@ -22,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n laz\n';
patches = dmp.patch_make(text1, text2);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Diff input.
var diffs = dmp.diff_main(text1, text2, false);
patches = dmp.patch_make(diffs);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Text1+Diff inputs.
patches = dmp.patch_make(text1, diffs);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Text1+Text2+Diff inputs (deprecated).
patches = dmp.patch_make(text1, text2, diffs);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Character encoding.
patches = dmp.patch_make('`1234567890-=[]\\;\',./', '~!@#$%^&*()_+{}|:"<>?');
assertEquals('@@ -1,21 +1,21 @@\n-%601234567890-=%5B%5D%5C;\',./\n+~!@#$%25%5E&*()_+%7B%7D%7C:%22%3C%3E?\n', dmp.patch_toText(patches));
// Character decoding.
diffs = [[DIFF_DELETE, '`1234567890-=[]\\;\',./'], [DIFF_INSERT, '~!@#$%^&*()_+{}|:"<>?']];
assertEquivalent(diffs, dmp.patch_fromText('@@ -1,21 +1,21 @@\n-%601234567890-=%5B%5D%5C;\',./\n+~!@#$%25%5E&*()_+%7B%7D%7C:%22%3C%3E?\n')[0].diffs);
// Long string with repeats.
text1 = '';
for (var x = 0; x < 100; x++) {
text1 += 'abcdef';
}
text2 = text1 + '123';
expectedPatch = '@@ -573,28 +573,31 @@\n cdefabcdefabcdefabcdefabcdef\n+123\n';
patches = dmp.patch_make(text1, text2);
assertEquals(expectedPatch, dmp.patch_toText(patches));
// Test null inputs.
try {
dmp.patch_make(null);
assertEquals(Error, null);
} catch (e) {
// Exception expected.
}
}
function testPatchSplitMax() {
// Assumes that dmp.Match_MaxBits is 32.
var patches = dmp.patch_make('abcdefghijklmnopqrstuvwxyz01234567890', 'XabXcdXefXghXijXklXmnXopXqrXstXuvXwxXyzX01X23X45X67X89X0');
dmp.patch_splitMax(patches);
assertEquals('@@ -1,32 +1,46 @@\n+X\n ab\n+X\n cd\n+X\n ef\n+X\n gh\n+X\n ij\n+X\n kl\n+X\n mn\n+X\n op\n+X\n qr\n+X\n st\n+X\n uv\n+X\n wx\n+X\n yz\n+X\n 012345\n@@ -25,13 +39,18 @@\n zX01\n+X\n 23\n+X\n 45\n+X\n 67\n+X\n 89\n+X\n 0\n', dmp.patch_toText(patches));
patches = dmp.patch_make('abcdef1234567890123456789012345678901234567890123456789012345678901234567890uvwxyz', 'abcdefuvwxyz');
var oldToText = dmp.patch_toText(patches);
dmp.patch_splitMax(patches);
assertEquals(oldToText, dmp.patch_toText(patches));
patches = dmp.patch_make('1234567890123456789012345678901234567890123456789012345678901234567890', 'abc');
dmp.patch_splitMax(patches);
assertEquals('@@ -1,32 +1,4 @@\n-1234567890123456789012345678\n 9012\n@@ -29,32 +1,4 @@\n-9012345678901234567890123456\n 7890\n@@ -57,14 +1,3 @@\n-78901234567890\n+abc\n', dmp.patch_toText(patches));
patches = dmp.patch_make('abcdefghij , h : 0 , t : 1 abcdefghij , h : 0 , t : 1 abcdefghij , h : 0 , t : 1', 'abcdefghij , h : 1 , t : 1 abcdefghij , h : 1 , t : 1 abcdefghij , h : 0 , t : 1');
dmp.patch_splitMax(patches);
assertEquals('@@ -2,32 +2,32 @@\n bcdefghij , h : \n-0\n+1\n , t : 1 abcdef\n@@ -29,32 +29,32 @@\n bcdefghij , h : \n-0\n+1\n , t : 1 abcdef\n', dmp.patch_toText(patches));
}
function testPatchAddPadding() {
// Both edges full.
var patches = dmp.patch_make('', 'test');
assertEquals('@@ -0,0 +1,4 @@\n+test\n', dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals('@@ -1,8 +1,12 @@\n %01%02%03%04\n+test\n %01%02%03%04\n', dmp.patch_toText(patches));
// Both edges partial.
patches = dmp.patch_make('XY', 'XtestY');
assertEquals('@@ -1,2 +1,6 @@\n X\n+test\n Y\n', dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals('@@ -2,8 +2,12 @@\n %02%03%04X\n+test\n Y%01%02%03\n', dmp.patch_toText(patches));
// Both edges none.
patches = dmp.patch_make('XXXXYYYY', 'XXXXtestYYYY');
assertEquals('@@ -1,8 +1,12 @@\n XXXX\n+test\n YYYY\n', dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals('@@ -5,8 +5,12 @@\n XXXX\n+test\n YYYY\n', dmp.patch_toText(patches));
}
function testPatchApply() {
dmp.Match_Distance = 1000;
dmp.Match_Threshold = 0.5;
dmp.Patch_DeleteThreshold = 0.5;
// Null case.
var patches = dmp.patch_make('', '');
var results = dmp.patch_apply(patches, 'Hello world.');
assertEquivalent(['Hello world.', []], results);
// Exact match.
patches = dmp.patch_make('The quick brown fox jumps over the lazy dog.', 'That quick brown fox jumped over a lazy dog.');
results = dmp.patch_apply(patches, 'The quick brown fox jumps over the lazy dog.');
assertEquivalent(['That quick brown fox jumped over a lazy dog.', [true, true]], results);
// Partial match.
results = dmp.patch_apply(patches, 'The quick red rabbit jumps over the tired tiger.');
assertEquivalent(['That quick red rabbit jumped over a tired tiger.', [true, true]], results);
// Failed match.
results = dmp.patch_apply(patches, 'I am the very model of a modern major general.');
assertEquivalent(['I am the very model of a modern major general.', [false, false]], results);
// Big delete, small change.
patches = dmp.patch_make('x1234567890123456789012345678901234567890123456789012345678901234567890y', 'xabcy');
results = dmp.patch_apply(patches, 'x123456789012345678901234567890-----++++++++++-----123456789012345678901234567890y');
assertEquivalent(['xabcy', [true, true]], results);
// Big delete, big change 1.
patches = dmp.patch_make('x1234567890123456789012345678901234567890123456789012345678901234567890y', 'xabcy');
results = dmp.patch_apply(patches, 'x12345678901234567890---------------++++++++++---------------12345678901234567890y');
assertEquivalent(['xabc12345678901234567890---------------++++++++++---------------12345678901234567890y', [false, true]], results);
// Big delete, big change 2.
dmp.Patch_DeleteThreshold = 0.6;
patches = dmp.patch_make('x1234567890123456789012345678901234567890123456789012345678901234567890y', 'xabcy');
results = dmp.patch_apply(patches, 'x12345678901234567890---------------++++++++++---------------12345678901234567890y');
assertEquivalent(['xabcy', [true, true]], results);
dmp.Patch_DeleteThreshold = 0.5;
// Compensate for failed patch.
dmp.Match_Threshold = 0.0;
dmp.Match_Distance = 0;
patches = dmp.patch_make('abcdefghijklmnopqrstuvwxyz--------------------1234567890', 'abcXXXXXXXXXXdefghijklmnopqrstuvwxyz--------------------1234567YYYYYYYYYY890');
results = dmp.patch_apply(patches, 'ABCDEFGHIJKLMNOPQRSTUVWXYZ--------------------1234567890');
assertEquivalent(['ABCDEFGHIJKLMNOPQRSTUVWXYZ--------------------1234567YYYYYYYYYY890', [false, true]], results);
dmp.Match_Threshold = 0.5;
dmp.Match_Distance = 1000;
// No side effects.
patches = dmp.patch_make('', 'test');
var patchstr = dmp.patch_toText(patches);
dmp.patch_apply(patches, '');
assertEquals(patchstr, dmp.patch_toText(patches));
// No side effects with major delete.
patches = dmp.patch_make('The quick brown fox jumps over the lazy dog.', 'Woof');
patchstr = dmp.patch_toText(patches);
dmp.patch_apply(patches, 'The quick brown fox jumps over the lazy dog.');
assertEquals(patchstr, dmp.patch_toText(patches));
// Edge exact match.
patches = dmp.patch_make('', 'test');
results = dmp.patch_apply(patches, '');
assertEquivalent(['test', [true]], results);
// Near edge exact match.
patches = dmp.patch_make('XY', 'XtestY');
results = dmp.patch_apply(patches, 'XY');
assertEquivalent(['XtestY', [true]], results);
// Edge partial match.
patches = dmp.patch_make('y', 'y123');
results = dmp.patch_apply(patches, 'x');
assertEquivalent(['x123', [true]], results);
}
/**
* End of test harness, now run tests
*/
// If expected and actual are the identical, print 'Ok', otherwise 'Fail!'
function assertEquals(msg, expected, actual) {
if (typeof actual == 'undefined') {
// msg is optional.
actual = expected;
expected = msg;
msg = undefined;
}
assert.equal(actual, expected, msg);
}
function assertTrue(msg, actual) {
if (typeof actual == 'undefined') {
// msg is optional.
actual = msg;
assertEquals(true, actual);
} else {
assertEquals(msg, true, actual);
}
}
function assertFalse(msg, actual) {
if (typeof actual == 'undefined') {
// msg is optional.
actual = msg;
assertEquals(false, actual);
} else {
assertEquals(msg, false, actual);
}
}
var tests = [
'testDiffCommonPrefix',
'testDiffCommonSuffix',
'testDiffCommonOverlap',
'testDiffHalfMatch',
'testDiffLinesToChars',
'testDiffCharsToLines',
'testDiffCleanupMerge',
'testDiffCleanupSemanticLossless',
'testDiffCleanupSemantic',
'testDiffCleanupEfficiency',
'testDiffPrettyHtml',
'testDiffText',
'testDiffDelta',
'testDiffXIndex',
'testDiffLevenshtein',
'testDiffBisect',
'testDiffMain',
'testMatchAlphabet',
'testMatchBitap',
'testMatchMain',
'testPatchObj',
'testPatchFromText',
'testPatchToText',
'testPatchAddContext',
'testPatchMake',
'testPatchSplitMax',
'testPatchAddPadding',
'testPatchApply'];
for (var x = 0; x < tests.length; x++) {
test(tests[x], eval(tests[x]))
}