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|
/*
* Test harness for diff_match_patch.java
*
* 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.
*/
package name.fraser.neil.plaintext;
import junit.framework.TestCase;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Set;
import name.fraser.neil.plaintext.diff_match_patch.Diff;
import name.fraser.neil.plaintext.diff_match_patch.LinesToCharsResult;
import name.fraser.neil.plaintext.diff_match_patch.Patch;
public class diff_match_patch_test extends TestCase {
private diff_match_patch dmp;
private diff_match_patch.Operation DELETE = diff_match_patch.Operation.DELETE;
private diff_match_patch.Operation EQUAL = diff_match_patch.Operation.EQUAL;
private diff_match_patch.Operation INSERT = diff_match_patch.Operation.INSERT;
protected void setUp() {
// Create an instance of the diff_match_patch object.
dmp = new diff_match_patch();
}
// DIFF TEST FUNCTIONS
public void testDiffCommonPrefix() {
// Detect and remove any common prefix.
assertEquals("diff_commonPrefix: Null case.", 0, dmp.diff_commonPrefix("abc", "xyz"));
assertEquals("diff_commonPrefix: Non-null case.", 4, dmp.diff_commonPrefix("1234abcdef", "1234xyz"));
assertEquals("diff_commonPrefix: Whole case.", 4, dmp.diff_commonPrefix("1234", "1234xyz"));
}
public void testDiffCommonSuffix() {
// Detect and remove any common suffix.
assertEquals("diff_commonSuffix: Null case.", 0, dmp.diff_commonSuffix("abc", "xyz"));
assertEquals("diff_commonSuffix: Non-null case.", 4, dmp.diff_commonSuffix("abcdef1234", "xyz1234"));
assertEquals("diff_commonSuffix: Whole case.", 4, dmp.diff_commonSuffix("1234", "xyz1234"));
}
public void testDiffHalfmatch() {
// Detect a halfmatch.
assertNull("diff_halfMatch: No match.", dmp.diff_halfMatch("1234567890", "abcdef"));
assertArrayEquals("diff_halfMatch: Single Match #1.", new String[]{"12", "90", "a", "z", "345678"}, dmp.diff_halfMatch("1234567890", "a345678z"));
assertArrayEquals("diff_halfMatch: Single Match #2.", new String[]{"a", "z", "12", "90", "345678"}, dmp.diff_halfMatch("a345678z", "1234567890"));
assertArrayEquals("diff_halfMatch: Multiple Matches #1.", new String[]{"12123", "123121", "a", "z", "1234123451234"}, dmp.diff_halfMatch("121231234123451234123121", "a1234123451234z"));
assertArrayEquals("diff_halfMatch: Multiple Matches #2.", new String[]{"", "-=-=-=-=-=", "x", "", "x-=-=-=-=-=-=-="}, dmp.diff_halfMatch("x-=-=-=-=-=-=-=-=-=-=-=-=", "xx-=-=-=-=-=-=-="));
assertArrayEquals("diff_halfMatch: Multiple Matches #3.", new String[]{"-=-=-=-=-=", "", "", "y", "-=-=-=-=-=-=-=y"}, dmp.diff_halfMatch("-=-=-=-=-=-=-=-=-=-=-=-=y", "-=-=-=-=-=-=-=yy"));
}
public void testDiffLinesToChars() {
// Convert lines down to characters.
ArrayList<String> tmpVector = new ArrayList<String>();
tmpVector.add("");
tmpVector.add("alpha\n");
tmpVector.add("beta\n");
assertLinesToCharsResultEquals("diff_linesToChars:", new LinesToCharsResult("\u0001\u0002\u0001", "\u0002\u0001\u0002", tmpVector), dmp.diff_linesToChars("alpha\nbeta\nalpha\n", "beta\nalpha\nbeta\n"));
tmpVector.clear();
tmpVector.add("");
tmpVector.add("alpha\r\n");
tmpVector.add("beta\r\n");
tmpVector.add("\r\n");
assertLinesToCharsResultEquals("diff_linesToChars:", new LinesToCharsResult("", "\u0001\u0002\u0003\u0003", tmpVector), dmp.diff_linesToChars("", "alpha\r\nbeta\r\n\r\n\r\n"));
tmpVector.clear();
tmpVector.add("");
tmpVector.add("a");
tmpVector.add("b");
assertLinesToCharsResultEquals("diff_linesToChars:", new LinesToCharsResult("\u0001", "\u0002", tmpVector), dmp.diff_linesToChars("a", "b"));
// More than 256 to reveal any 8-bit limitations.
int n = 300;
tmpVector.clear();
StringBuilder lineList = new StringBuilder();
StringBuilder charList = new StringBuilder();
for (int x = 1; x < n + 1; x++) {
tmpVector.add(x + "\n");
lineList.append(x + "\n");
charList.append(String.valueOf((char) x));
}
assertEquals(n, tmpVector.size());
String lines = lineList.toString();
String chars = charList.toString();
assertEquals(n, chars.length());
tmpVector.add(0, "");
assertLinesToCharsResultEquals("diff_linesToChars: More than 256.", new LinesToCharsResult(chars, "", tmpVector), dmp.diff_linesToChars(lines, ""));
}
public void testDiffCharsToLines() {
// First check that Diff equality works.
assertTrue("diff_charsToLines:", new Diff(EQUAL, "a").equals(new Diff(EQUAL, "a")));
assertEquals("diff_charsToLines:", new Diff(EQUAL, "a"), new Diff(EQUAL, "a"));
// Convert chars up to lines
LinkedList<Diff> diffs = diffList(new Diff(EQUAL, "\u0001\u0002\u0001"), new Diff(INSERT, "\u0002\u0001\u0002"));
ArrayList<String> tmpVector = new ArrayList<String>();
tmpVector.add("");
tmpVector.add("alpha\n");
tmpVector.add("beta\n");
dmp.diff_charsToLines(diffs, tmpVector);
assertEquals("diff_charsToLines:", diffList(new Diff(EQUAL, "alpha\nbeta\nalpha\n"), new Diff(INSERT, "beta\nalpha\nbeta\n")), diffs);
// More than 256 to reveal any 8-bit limitations.
int n = 300;
tmpVector.clear();
StringBuilder lineList = new StringBuilder();
StringBuilder charList = new StringBuilder();
for (int x = 1; x < n + 1; x++) {
tmpVector.add(x + "\n");
lineList.append(x + "\n");
charList.append(String.valueOf((char) x));
}
assertEquals(n, tmpVector.size());
String lines = lineList.toString();
String chars = charList.toString();
assertEquals(n, chars.length());
tmpVector.add(0, "");
diffs = diffList(new Diff(DELETE, chars));
dmp.diff_charsToLines(diffs, tmpVector);
assertEquals("diff_charsToLines: More than 256.", diffList(new Diff(DELETE, lines)), diffs);
}
public void testDiffCleanupMerge() {
// Cleanup a messy diff.
LinkedList<Diff> diffs = diffList();
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Null case.", diffList(), diffs);
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "b"), new Diff(INSERT, "c"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: No change case.", diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "b"), new Diff(INSERT, "c")), diffs);
diffs = diffList(new Diff(EQUAL, "a"), new Diff(EQUAL, "b"), new Diff(EQUAL, "c"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Merge equalities.", diffList(new Diff(EQUAL, "abc")), diffs);
diffs = diffList(new Diff(DELETE, "a"), new Diff(DELETE, "b"), new Diff(DELETE, "c"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Merge deletions.", diffList(new Diff(DELETE, "abc")), diffs);
diffs = diffList(new Diff(INSERT, "a"), new Diff(INSERT, "b"), new Diff(INSERT, "c"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Merge insertions.", diffList(new Diff(INSERT, "abc")), diffs);
diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "b"), new Diff(DELETE, "c"), new Diff(INSERT, "d"), new Diff(EQUAL, "e"), new Diff(EQUAL, "f"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Merge interweave.", diffList(new Diff(DELETE, "ac"), new Diff(INSERT, "bd"), new Diff(EQUAL, "ef")), diffs);
diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "abc"), new Diff(DELETE, "dc"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Prefix and suffix detection.", diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "d"), new Diff(INSERT, "b"), new Diff(EQUAL, "c")), diffs);
diffs = diffList(new Diff(EQUAL, "a"), new Diff(INSERT, "ba"), new Diff(EQUAL, "c"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Slide edit left.", diffList(new Diff(INSERT, "ab"), new Diff(EQUAL, "ac")), diffs);
diffs = diffList(new Diff(EQUAL, "c"), new Diff(INSERT, "ab"), new Diff(EQUAL, "a"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Slide edit right.", diffList(new Diff(EQUAL, "ca"), new Diff(INSERT, "ba")), diffs);
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "b"), new Diff(EQUAL, "c"), new Diff(DELETE, "ac"), new Diff(EQUAL, "x"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Slide edit left recursive.", diffList(new Diff(DELETE, "abc"), new Diff(EQUAL, "acx")), diffs);
diffs = diffList(new Diff(EQUAL, "x"), new Diff(DELETE, "ca"), new Diff(EQUAL, "c"), new Diff(DELETE, "b"), new Diff(EQUAL, "a"));
dmp.diff_cleanupMerge(diffs);
assertEquals("diff_cleanupMerge: Slide edit right recursive.", diffList(new Diff(EQUAL, "xca"), new Diff(DELETE, "cba")), diffs);
}
public void testDiffCleanupSemanticLossless() {
// Slide diffs to match logical boundaries.
LinkedList<Diff> diffs = diffList();
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Null case.", diffList(), diffs);
diffs = diffList(new Diff(EQUAL, "AAA\r\n\r\nBBB"), new Diff(INSERT, "\r\nDDD\r\n\r\nBBB"), new Diff(EQUAL, "\r\nEEE"));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Blank lines.", diffList(new Diff(EQUAL, "AAA\r\n\r\n"), new Diff(INSERT, "BBB\r\nDDD\r\n\r\n"), new Diff(EQUAL, "BBB\r\nEEE")), diffs);
diffs = diffList(new Diff(EQUAL, "AAA\r\nBBB"), new Diff(INSERT, " DDD\r\nBBB"), new Diff(EQUAL, " EEE"));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Line boundaries.", diffList(new Diff(EQUAL, "AAA\r\n"), new Diff(INSERT, "BBB DDD\r\n"), new Diff(EQUAL, "BBB EEE")), diffs);
diffs = diffList(new Diff(EQUAL, "The c"), new Diff(INSERT, "ow and the c"), new Diff(EQUAL, "at."));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Word boundaries.", diffList(new Diff(EQUAL, "The "), new Diff(INSERT, "cow and the "), new Diff(EQUAL, "cat.")), diffs);
diffs = diffList(new Diff(EQUAL, "The-c"), new Diff(INSERT, "ow-and-the-c"), new Diff(EQUAL, "at."));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Alphanumeric boundaries.", diffList(new Diff(EQUAL, "The-"), new Diff(INSERT, "cow-and-the-"), new Diff(EQUAL, "cat.")), diffs);
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "a"), new Diff(EQUAL, "ax"));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Hitting the start.", diffList(new Diff(DELETE, "a"), new Diff(EQUAL, "aax")), diffs);
diffs = diffList(new Diff(EQUAL, "xa"), new Diff(DELETE, "a"), new Diff(EQUAL, "a"));
dmp.diff_cleanupSemanticLossless(diffs);
assertEquals("diff_cleanupSemanticLossless: Hitting the end.", diffList(new Diff(EQUAL, "xaa"), new Diff(DELETE, "a")), diffs);
}
public void testDiffCleanupSemantic() {
// Cleanup semantically trivial equalities.
LinkedList<Diff> diffs = diffList();
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: Null case.", diffList(), diffs);
diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "b"), new Diff(EQUAL, "cd"), new Diff(DELETE, "e"));
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: No elimination.", diffList(new Diff(DELETE, "a"), new Diff(INSERT, "b"), new Diff(EQUAL, "cd"), new Diff(DELETE, "e")), diffs);
diffs = diffList(new Diff(DELETE, "a"), new Diff(EQUAL, "b"), new Diff(DELETE, "c"));
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: Simple elimination.", diffList(new Diff(DELETE, "abc"), new Diff(INSERT, "b")), diffs);
diffs = diffList(new Diff(DELETE, "ab"), new Diff(EQUAL, "cd"), new Diff(DELETE, "e"), new Diff(EQUAL, "f"), new Diff(INSERT, "g"));
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: Backpass elimination.", diffList(new Diff(DELETE, "abcdef"), new Diff(INSERT, "cdfg")), diffs);
diffs = diffList(new Diff(INSERT, "1"), new Diff(EQUAL, "A"), new Diff(DELETE, "B"), new Diff(INSERT, "2"), new Diff(EQUAL, "_"), new Diff(INSERT, "1"), new Diff(EQUAL, "A"), new Diff(DELETE, "B"), new Diff(INSERT, "2"));
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: Multiple elimination.", diffList(new Diff(DELETE, "AB_AB"), new Diff(INSERT, "1A2_1A2")), diffs);
diffs = diffList(new Diff(EQUAL, "The c"), new Diff(DELETE, "ow and the c"), new Diff(EQUAL, "at."));
dmp.diff_cleanupSemantic(diffs);
assertEquals("diff_cleanupSemantic: Word boundaries.", diffList(new Diff(EQUAL, "The "), new Diff(DELETE, "cow and the "), new Diff(EQUAL, "cat.")), diffs);
}
public void testDiffCleanupEfficiency() {
// Cleanup operationally trivial equalities.
dmp.Diff_EditCost = 4;
LinkedList<Diff> diffs = diffList();
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: Null case.", diffList(), diffs);
diffs = diffList(new Diff(DELETE, "ab"), new Diff(INSERT, "12"), new Diff(EQUAL, "wxyz"), new Diff(DELETE, "cd"), new Diff(INSERT, "34"));
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: No elimination.", diffList(new Diff(DELETE, "ab"), new Diff(INSERT, "12"), new Diff(EQUAL, "wxyz"), new Diff(DELETE, "cd"), new Diff(INSERT, "34")), diffs);
diffs = diffList(new Diff(DELETE, "ab"), new Diff(INSERT, "12"), new Diff(EQUAL, "xyz"), new Diff(DELETE, "cd"), new Diff(INSERT, "34"));
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: Four-edit elimination.", diffList(new Diff(DELETE, "abxyzcd"), new Diff(INSERT, "12xyz34")), diffs);
diffs = diffList(new Diff(INSERT, "12"), new Diff(EQUAL, "x"), new Diff(DELETE, "cd"), new Diff(INSERT, "34"));
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: Three-edit elimination.", diffList(new Diff(DELETE, "xcd"), new Diff(INSERT, "12x34")), diffs);
diffs = diffList(new Diff(DELETE, "ab"), new Diff(INSERT, "12"), new Diff(EQUAL, "xy"), new Diff(INSERT, "34"), new Diff(EQUAL, "z"), new Diff(DELETE, "cd"), new Diff(INSERT, "56"));
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: Backpass elimination.", diffList(new Diff(DELETE, "abxyzcd"), new Diff(INSERT, "12xy34z56")), diffs);
dmp.Diff_EditCost = 5;
diffs = diffList(new Diff(DELETE, "ab"), new Diff(INSERT, "12"), new Diff(EQUAL, "wxyz"), new Diff(DELETE, "cd"), new Diff(INSERT, "34"));
dmp.diff_cleanupEfficiency(diffs);
assertEquals("diff_cleanupEfficiency: High cost elimination.", diffList(new Diff(DELETE, "abwxyzcd"), new Diff(INSERT, "12wxyz34")), diffs);
dmp.Diff_EditCost = 4;
}
public void testDiffPrettyHtml() {
// Pretty print.
LinkedList<Diff> diffs = diffList(new Diff(EQUAL, "a\n"), new Diff(DELETE, "<B>b</B>"), new Diff(INSERT, "c&d"));
assertEquals("diff_prettyHtml:", "<SPAN TITLE=\"i=0\">a¶<BR></SPAN><DEL STYLE=\"background:#FFE6E6;\" TITLE=\"i=2\"><B>b</B></DEL><INS STYLE=\"background:#E6FFE6;\" TITLE=\"i=2\">c&d</INS>", dmp.diff_prettyHtml(diffs));
}
public void testDiffText() {
// Compute the source and destination texts.
LinkedList<Diff> diffs = diffList(new Diff(EQUAL, "jump"), new Diff(DELETE, "s"), new Diff(INSERT, "ed"), new Diff(EQUAL, " over "), new Diff(DELETE, "the"), new Diff(INSERT, "a"), new Diff(EQUAL, " lazy"));
assertEquals("diff_text1:", "jumps over the lazy", dmp.diff_text1(diffs));
assertEquals("diff_text2:", "jumped over a lazy", dmp.diff_text2(diffs));
}
public void testDiffDelta() {
// Convert a diff into delta string.
LinkedList<Diff> diffs = diffList(new Diff(EQUAL, "jump"), new Diff(DELETE, "s"), new Diff(INSERT, "ed"), new Diff(EQUAL, " over "), new Diff(DELETE, "the"), new Diff(INSERT, "a"), new Diff(EQUAL, " lazy"), new Diff(INSERT, "old dog"));
String text1 = dmp.diff_text1(diffs);
assertEquals("diff_text1: Base text.", "jumps over the lazy", text1);
String delta = dmp.diff_toDelta(diffs);
assertEquals("diff_toDelta:", "=4\t-1\t+ed\t=6\t-3\t+a\t=5\t+old dog", delta);
// Convert delta string into a diff.
assertEquals("diff_fromDelta: Normal.", diffs, dmp.diff_fromDelta(text1, delta));
// Generates error (19 < 20).
try {
dmp.diff_fromDelta(text1 + "x", delta);
fail("diff_fromDelta: Too long.");
} catch (IllegalArgumentException ex) {
// Exception expected.
}
// Generates error (19 > 18).
try {
dmp.diff_fromDelta(text1.substring(1), delta);
fail("diff_fromDelta: Too short.");
} catch (IllegalArgumentException ex) {
// Exception expected.
}
// Generates error (%c3%xy invalid Unicode).
try {
dmp.diff_fromDelta("", "+%c3%xy");
fail("diff_fromDelta: Invalid character.");
} catch (IllegalArgumentException ex) {
// Exception expected.
}
// Test deltas with special characters.
diffs = diffList(new Diff(EQUAL, "\u0680 \000 \t %"), new Diff(DELETE, "\u0681 \001 \n ^"), new Diff(INSERT, "\u0682 \002 \\ |"));
text1 = dmp.diff_text1(diffs);
assertEquals("diff_text1: Unicode text.", "\u0680 \000 \t %\u0681 \001 \n ^", text1);
delta = dmp.diff_toDelta(diffs);
assertEquals("diff_toDelta: Unicode.", "=7\t-7\t+%DA%82 %02 %5C %7C", delta);
assertEquals("diff_fromDelta: Unicode.", diffs, dmp.diff_fromDelta(text1, delta));
// Verify pool of unchanged characters.
diffs = diffList(new Diff(INSERT, "A-Z a-z 0-9 - _ . ! ~ * ' ( ) ; / ? : @ & = + $ , # "));
String text2 = dmp.diff_text2(diffs);
assertEquals("diff_text2: Unchanged characters.", "A-Z a-z 0-9 - _ . ! ~ * \' ( ) ; / ? : @ & = + $ , # ", text2);
delta = dmp.diff_toDelta(diffs);
assertEquals("diff_toDelta: Unchanged characters.", "+A-Z a-z 0-9 - _ . ! ~ * \' ( ) ; / ? : @ & = + $ , # ", delta);
// Convert delta string into a diff.
assertEquals("diff_fromDelta: Unchanged characters.", diffs, dmp.diff_fromDelta("", delta));
}
public void testDiffXIndex() {
// Translate a location in text1 to text2.
LinkedList<Diff> diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "1234"), new Diff(EQUAL, "xyz"));
assertEquals("diff_xIndex: Translation on equality.", 5, dmp.diff_xIndex(diffs, 2));
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "1234"), new Diff(EQUAL, "xyz"));
assertEquals("diff_xIndex: Translation on deletion.", 1, dmp.diff_xIndex(diffs, 3));
}
public void testDiffLevenshtein() {
LinkedList<Diff> diffs = diffList(new Diff(DELETE, "abc"), new Diff(INSERT, "1234"), new Diff(EQUAL, "xyz"));
assertEquals("Levenshtein with trailing equality.", 4, dmp.diff_levenshtein(diffs));
diffs = diffList(new Diff(EQUAL, "xyz"), new Diff(DELETE, "abc"), new Diff(INSERT, "1234"));
assertEquals("Levenshtein with leading equality.", 4, dmp.diff_levenshtein(diffs));
diffs = diffList(new Diff(DELETE, "abc"), new Diff(EQUAL, "xyz"), new Diff(INSERT, "1234"));
assertEquals("Levenshtein with middle equality.", 7, dmp.diff_levenshtein(diffs));
}
public void testDiffPath() {
// First, check footprints are different.
assertTrue("diff_footprint:", dmp.diff_footprint(1, 10) != dmp.diff_footprint(10, 1));
// Single letters.
// Trace a path from back to front.
List<Set<Long>> v_map;
Set<Long> row_set;
v_map = new ArrayList<Set<Long>>();
{
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 1));
row_set.add(dmp.diff_footprint(1, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 2));
row_set.add(dmp.diff_footprint(2, 0));
row_set.add(dmp.diff_footprint(2, 2));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 3));
row_set.add(dmp.diff_footprint(2, 3));
row_set.add(dmp.diff_footprint(3, 0));
row_set.add(dmp.diff_footprint(4, 3));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 4));
row_set.add(dmp.diff_footprint(2, 4));
row_set.add(dmp.diff_footprint(4, 0));
row_set.add(dmp.diff_footprint(4, 4));
row_set.add(dmp.diff_footprint(5, 3));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 5));
row_set.add(dmp.diff_footprint(2, 5));
row_set.add(dmp.diff_footprint(4, 5));
row_set.add(dmp.diff_footprint(5, 0));
row_set.add(dmp.diff_footprint(6, 3));
row_set.add(dmp.diff_footprint(6, 5));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 6));
row_set.add(dmp.diff_footprint(2, 6));
row_set.add(dmp.diff_footprint(4, 6));
row_set.add(dmp.diff_footprint(6, 6));
row_set.add(dmp.diff_footprint(7, 5));
v_map.add(row_set);
}
LinkedList<Diff> diffs = diffList(new Diff(INSERT, "W"), new Diff(DELETE, "A"), new Diff(EQUAL, "1"), new Diff(DELETE, "B"), new Diff(EQUAL, "2"), new Diff(INSERT, "X"), new Diff(DELETE, "C"), new Diff(EQUAL, "3"), new Diff(DELETE, "D"));
assertEquals("diff_path1: Single letters.", diffs, dmp.diff_path1(v_map, "A1B2C3D", "W12X3"));
// Trace a path from front to back.
v_map.remove(v_map.size() - 1);
diffs = diffList(new Diff(EQUAL, "4"), new Diff(DELETE, "E"), new Diff(INSERT, "Y"), new Diff(EQUAL, "5"), new Diff(DELETE, "F"), new Diff(EQUAL, "6"), new Diff(DELETE, "G"), new Diff(INSERT, "Z"));
assertEquals("diff_path2: Single letters.", diffs, dmp.diff_path2(v_map, "4E5F6G", "4Y56Z"));
// Double letters.
// Trace a path from back to front.
v_map = new ArrayList<Set<Long>>();
{
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 1));
row_set.add(dmp.diff_footprint(1, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 2));
row_set.add(dmp.diff_footprint(1, 1));
row_set.add(dmp.diff_footprint(2, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 3));
row_set.add(dmp.diff_footprint(1, 2));
row_set.add(dmp.diff_footprint(2, 1));
row_set.add(dmp.diff_footprint(3, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 4));
row_set.add(dmp.diff_footprint(1, 3));
row_set.add(dmp.diff_footprint(3, 1));
row_set.add(dmp.diff_footprint(4, 0));
row_set.add(dmp.diff_footprint(4, 4));
v_map.add(row_set);
}
diffs = diffList(new Diff(INSERT, "WX"), new Diff(DELETE, "AB"), new Diff(EQUAL, "12"));
assertEquals("diff_path1: Double letters.", diffs, dmp.diff_path1(v_map, "AB12", "WX12"));
// Trace a path from front to back.
v_map = new ArrayList<Set<Long>>();
{
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(0, 1));
row_set.add(dmp.diff_footprint(1, 0));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(1, 1));
row_set.add(dmp.diff_footprint(2, 0));
row_set.add(dmp.diff_footprint(2, 4));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(2, 1));
row_set.add(dmp.diff_footprint(2, 5));
row_set.add(dmp.diff_footprint(3, 0));
row_set.add(dmp.diff_footprint(3, 4));
v_map.add(row_set);
row_set = new HashSet<Long>();
row_set.add(dmp.diff_footprint(2, 6));
row_set.add(dmp.diff_footprint(3, 5));
row_set.add(dmp.diff_footprint(4, 4));
v_map.add(row_set);
}
diffs = diffList(new Diff(DELETE, "CD"), new Diff(EQUAL, "34"), new Diff(INSERT, "YZ"));
assertEquals("diff_path2: Double letters.", diffs, dmp.diff_path2(v_map, "CD34", "34YZ"));
}
public void testDiffMain() {
// Perform a trivial diff.
LinkedList<Diff> diffs = diffList(new Diff(EQUAL, "abc"));
assertEquals("diff_main: Null case.", diffs, dmp.diff_main("abc", "abc", false));
diffs = diffList(new Diff(EQUAL, "ab"), new Diff(INSERT, "123"), new Diff(EQUAL, "c"));
assertEquals("diff_main: Simple insertion.", diffs, dmp.diff_main("abc", "ab123c", false));
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "123"), new Diff(EQUAL, "bc"));
assertEquals("diff_main: Simple deletion.", diffs, dmp.diff_main("a123bc", "abc", false));
diffs = diffList(new Diff(EQUAL, "a"), new Diff(INSERT, "123"), new Diff(EQUAL, "b"), new Diff(INSERT, "456"), new Diff(EQUAL, "c"));
assertEquals("diff_main: Two insertions.", diffs, dmp.diff_main("abc", "a123b456c", false));
diffs = diffList(new Diff(EQUAL, "a"), new Diff(DELETE, "123"), new Diff(EQUAL, "b"), new Diff(DELETE, "456"), new Diff(EQUAL, "c"));
assertEquals("diff_main: Two deletions.", diffs, dmp.diff_main("a123b456c", "abc", false));
// Perform a real diff.
// Switch off the timeout.
dmp.Diff_Timeout = 0;
dmp.Diff_DualThreshold = 32;
diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "b"));
assertEquals("diff_main: Simple case #1.", diffs, dmp.diff_main("a", "b", false));
diffs = diffList(new Diff(DELETE, "Apple"), new Diff(INSERT, "Banana"), new Diff(EQUAL, "s are a"), new Diff(INSERT, "lso"), new Diff(EQUAL, " fruit."));
assertEquals("diff_main: Simple case #2.", diffs, dmp.diff_main("Apples are a fruit.", "Bananas are also fruit.", false));
diffs = diffList(new Diff(DELETE, "a"), new Diff(INSERT, "\u0680"), new Diff(EQUAL, "x"), new Diff(DELETE, "\t"), new Diff(INSERT, "\000"));
assertEquals("diff_main: Simple case #3.", diffs, dmp.diff_main("ax\t", "\u0680x\000", false));
diffs = diffList(new Diff(DELETE, "1"), new Diff(EQUAL, "a"), new Diff(DELETE, "y"), new Diff(EQUAL, "b"), new Diff(DELETE, "2"), new Diff(INSERT, "xab"));
assertEquals("diff_main: Overlap #1.", diffs, dmp.diff_main("1ayb2", "abxab", false));
diffs = diffList(new Diff(INSERT, "xaxcx"), new Diff(EQUAL, "abc"), new Diff(DELETE, "y"));
assertEquals("diff_main: Overlap #2.", diffs, dmp.diff_main("abcy", "xaxcxabc", false));
// Sub-optimal double-ended diff.
dmp.Diff_DualThreshold = 2;
diffs = diffList(new Diff(INSERT, "x"), new Diff(EQUAL, "a"), new Diff(DELETE, "b"), new Diff(INSERT, "x"), new Diff(EQUAL, "c"), new Diff(DELETE, "y"), new Diff(INSERT, "xabc"));
assertEquals("diff_main: Overlap #3.", diffs, dmp.diff_main("abcy", "xaxcxabc", false));
dmp.Diff_DualThreshold = 32;
dmp.Diff_Timeout = 0.001f; // 1ms
String 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";
String 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 (int x = 0; x < 10; x++) {
a = a + a;
b = b + b;
}
assertNull("diff_main: Timeout.", dmp.diff_map(a, b));
dmp.Diff_Timeout = 0;
// Test the linemode speedup.
// Must be long to pass the 200 char cutoff.
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";
assertEquals("diff_main: Simple.", dmp.diff_main(a, b, true), dmp.diff_main(a, b, false));
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";
String[] texts_linemode = diff_rebuildtexts(dmp.diff_main(a, b, true));
String[] texts_textmode = diff_rebuildtexts(dmp.diff_main(a, b, false));
assertArrayEquals("diff_main: Overlap.", texts_textmode, texts_linemode);
// Test null inputs.
try {
dmp.diff_main(null, null);
fail("diff_main: Null inputs.");
} catch (IllegalArgumentException ex) {
// Error expected.
}
}
// MATCH TEST FUNCTIONS
public void testMatchAlphabet() {
// Initialise the bitmasks for Bitap.
Map<Character, Integer> bitmask;
bitmask = new HashMap<Character, Integer>();
bitmask.put('a', 4); bitmask.put('b', 2); bitmask.put('c', 1);
assertEquals("match_alphabet: Unique.", bitmask, dmp.match_alphabet("abc"));
bitmask = new HashMap<Character, Integer>();
bitmask.put('a', 37); bitmask.put('b', 18); bitmask.put('c', 8);
assertEquals("match_alphabet: Duplicates.", bitmask, dmp.match_alphabet("abcaba"));
}
public void testMatchBitap() {
// Bitap algorithm.
dmp.Match_Distance = 100;
dmp.Match_Threshold = 0.5f;
assertEquals("match_bitap: Exact match #1.", 5, dmp.match_bitap("abcdefghijk", "fgh", 5));
assertEquals("match_bitap: Exact match #2.", 5, dmp.match_bitap("abcdefghijk", "fgh", 0));
assertEquals("match_bitap: Fuzzy match #1.", 4, dmp.match_bitap("abcdefghijk", "efxhi", 0));
assertEquals("match_bitap: Fuzzy match #2.", 2, dmp.match_bitap("abcdefghijk", "cdefxyhijk", 5));
assertEquals("match_bitap: Fuzzy match #3.", -1, dmp.match_bitap("abcdefghijk", "bxy", 1));
assertEquals("match_bitap: Overflow.", 2, dmp.match_bitap("123456789xx0", "3456789x0", 2));
assertEquals("match_bitap: Before start match.", 0, dmp.match_bitap("abcdef", "xxabc", 4));
assertEquals("match_bitap: Beyond end match.", 3, dmp.match_bitap("abcdef", "defyy", 4));
assertEquals("match_bitap: Oversized pattern.", 0, dmp.match_bitap("abcdef", "xabcdefy", 0));
dmp.Match_Threshold = 0.4f;
assertEquals("match_bitap: Threshold #1.", 4, dmp.match_bitap("abcdefghijk", "efxyhi", 1));
dmp.Match_Threshold = 0.3f;
assertEquals("match_bitap: Threshold #2.", -1, dmp.match_bitap("abcdefghijk", "efxyhi", 1));
dmp.Match_Threshold = 0.0f;
assertEquals("match_bitap: Threshold #3.", 1, dmp.match_bitap("abcdefghijk", "bcdef", 1));
dmp.Match_Threshold = 0.5f;
assertEquals("match_bitap: Multiple select #1.", 0, dmp.match_bitap("abcdexyzabcde", "abccde", 3));
assertEquals("match_bitap: Multiple select #2.", 8, dmp.match_bitap("abcdexyzabcde", "abccde", 5));
dmp.Match_Distance = 10; // Strict location.
assertEquals("match_bitap: Distance test #1.", -1, dmp.match_bitap("abcdefghijklmnopqrstuvwxyz", "abcdefg", 24));
assertEquals("match_bitap: Distance test #2.", 0, dmp.match_bitap("abcdefghijklmnopqrstuvwxyz", "abcdxxefg", 1));
dmp.Match_Distance = 1000; // Loose location.
assertEquals("match_bitap: Distance test #3.", 0, dmp.match_bitap("abcdefghijklmnopqrstuvwxyz", "abcdefg", 24));
}
public void testMatchMain() {
// Full match.
assertEquals("match_main: Equality.", 0, dmp.match_main("abcdef", "abcdef", 1000));
assertEquals("match_main: Null text.", -1, dmp.match_main("", "abcdef", 1));
assertEquals("match_main: Null pattern.", 3, dmp.match_main("abcdef", "", 3));
assertEquals("match_main: Exact match.", 3, dmp.match_main("abcdef", "de", 3));
assertEquals("match_main: Beyond end match.", 3, dmp.match_main("abcdef", "defy", 4));
assertEquals("match_main: Oversized pattern.", 0, dmp.match_main("abcdef", "abcdefy", 0));
dmp.Match_Threshold = 0.7f;
assertEquals("match_main: Complex match.", 4, dmp.match_main("I am the very model of a modern major general.", " that berry ", 5));
dmp.Match_Threshold = 0.5f;
// Test null inputs.
try {
dmp.match_main(null, null, 0);
fail("match_main: Null inputs.");
} catch (IllegalArgumentException ex) {
// Error expected.
}
}
// PATCH TEST FUNCTIONS
public void testPatchObj() {
// Patch Object.
Patch p = new Patch();
p.start1 = 20;
p.start2 = 21;
p.length1 = 18;
p.length2 = 17;
p.diffs = diffList(new Diff(EQUAL, "jump"), new Diff(DELETE, "s"), new Diff(INSERT, "ed"), new Diff(EQUAL, " over "), new Diff(DELETE, "the"), new Diff(INSERT, "a"), new Diff(EQUAL, "\nlaz"));
String strp = "@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n %0Alaz\n";
assertEquals("Patch: toString.", strp, p.toString());
}
public void testPatchFromText() {
assertTrue("patch_fromText: #0.", dmp.patch_fromText("").isEmpty());
String strp = "@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n %0Alaz\n";
assertEquals("patch_fromText: #1.", strp, dmp.patch_fromText(strp).get(0).toString());
assertEquals("patch_fromText: #2.", "@@ -1 +1 @@\n-a\n+b\n", dmp.patch_fromText("@@ -1 +1 @@\n-a\n+b\n").get(0).toString());
assertEquals("patch_fromText: #3.", "@@ -1,3 +0,0 @@\n-abc\n", dmp.patch_fromText("@@ -1,3 +0,0 @@\n-abc\n").get(0).toString());
assertEquals("patch_fromText: #4.", "@@ -0,0 +1,3 @@\n+abc\n", dmp.patch_fromText("@@ -0,0 +1,3 @@\n+abc\n").get(0).toString());
// Generates error.
try {
dmp.patch_fromText("Bad\nPatch\n");
fail("patch_fromText: #5.");
} catch (IllegalArgumentException ex) {
// Exception expected.
}
}
public void testPatchToText() {
String strp = "@@ -21,18 +22,17 @@\n jump\n-s\n+ed\n over \n-the\n+a\n laz\n";
List<Patch> patches;
patches = dmp.patch_fromText(strp);
assertEquals("patch_toText: Single", strp, dmp.patch_toText(patches));
strp = "@@ -1,9 +1,9 @@\n-f\n+F\n oo+fooba\n@@ -7,9 +7,9 @@\n obar\n-,\n+.\n tes\n";
patches = dmp.patch_fromText(strp);
assertEquals("patch_toText: Dual", strp, dmp.patch_toText(patches));
}
public void testPatchAddContext() {
dmp.Patch_Margin = 4;
Patch p;
p = dmp.patch_fromText("@@ -21,4 +21,10 @@\n-jump\n+somersault\n").get(0);
dmp.patch_addContext(p, "The quick brown fox jumps over the lazy dog.");
assertEquals("patch_addContext: Simple case.", "@@ -17,12 +17,18 @@\n fox \n-jump\n+somersault\n s ov\n", p.toString());
p = dmp.patch_fromText("@@ -21,4 +21,10 @@\n-jump\n+somersault\n").get(0);
dmp.patch_addContext(p, "The quick brown fox jumps.");
assertEquals("patch_addContext: Not enough trailing context.", "@@ -17,10 +17,16 @@\n fox \n-jump\n+somersault\n s.\n", p.toString());
p = dmp.patch_fromText("@@ -3 +3,2 @@\n-e\n+at\n").get(0);
dmp.patch_addContext(p, "The quick brown fox jumps.");
assertEquals("patch_addContext: Not enough leading context.", "@@ -1,7 +1,8 @@\n Th\n-e\n+at\n qui\n", p.toString());
p = dmp.patch_fromText("@@ -3 +3,2 @@\n-e\n+at\n").get(0);
dmp.patch_addContext(p, "The quick brown fox jumps. The quick brown fox crashes.");
assertEquals("patch_addContext: Ambiguity.", "@@ -1,27 +1,28 @@\n Th\n-e\n+at\n quick brown fox jumps. \n", p.toString());
}
@SuppressWarnings("deprecation")
public void testPatchMake() {
LinkedList<Patch> patches;
String text1 = "The quick brown fox jumps over the lazy dog.";
String text2 = "That quick brown fox jumped over a lazy dog.";
String 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("patch_make: Text2+Text1 inputs", expectedPatch, dmp.patch_toText(patches));
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("patch_make: Text1+Text2 inputs", expectedPatch, dmp.patch_toText(patches));
LinkedList<Diff> diffs = dmp.diff_main(text1, text2, false);
patches = dmp.patch_make(diffs);
assertEquals("patch_make: Diff input", expectedPatch, dmp.patch_toText(patches));
patches = dmp.patch_make(text1, diffs);
assertEquals("patch_make: Text1+Diff inputs", expectedPatch, dmp.patch_toText(patches));
patches = dmp.patch_make(text1, text2, diffs);
assertEquals("patch_make: Text1+Text2+Diff inputs (deprecated)", expectedPatch, dmp.patch_toText(patches));
patches = dmp.patch_make("`1234567890-=[]\\;',./", "~!@#$%^&*()_+{}|:\"<>?");
assertEquals("patch_toText: Character encoding.", "@@ -1,21 +1,21 @@\n-%601234567890-=%5B%5D%5C;',./\n+~!@#$%25%5E&*()_+%7B%7D%7C:%22%3C%3E?\n", dmp.patch_toText(patches));
diffs = diffList(new Diff(DELETE, "`1234567890-=[]\\;',./"), new Diff(INSERT, "~!@#$%^&*()_+{}|:\"<>?"));
assertEquals("patch_fromText: Character decoding.", diffs, dmp.patch_fromText("@@ -1,21 +1,21 @@\n-%601234567890-=%5B%5D%5C;',./\n+~!@#$%25%5E&*()_+%7B%7D%7C:%22%3C%3E?\n").get(0).diffs);
text1 = "";
for (int 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("patch_make: Long string with repeats.", expectedPatch, dmp.patch_toText(patches));
// Test null inputs.
try {
dmp.patch_make(null);
fail("patch_make: Null inputs.");
} catch (IllegalArgumentException ex) {
// Error expected.
}
}
public void testPatchSplitMax() {
// Assumes that Match_MaxBits is 32.
LinkedList<Patch> patches;
patches = dmp.patch_make("abcdefghijklmnopqrstuvwxyz01234567890", "XabXcdXefXghXijXklXmnXopXqrXstXuvXwxXyzX01X23X45X67X89X0");
dmp.patch_splitMax(patches);
assertEquals("patch_splitMax: #1.", "@@ -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");
String oldToText = dmp.patch_toText(patches);
dmp.patch_splitMax(patches);
assertEquals("patch_splitMax: #2.", oldToText, dmp.patch_toText(patches));
patches = dmp.patch_make("1234567890123456789012345678901234567890123456789012345678901234567890", "abc");
dmp.patch_splitMax(patches);
assertEquals("patch_splitMax: #3.", "@@ -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("patch_splitMax: #4.", "@@ -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));
}
public void testPatchAddPadding() {
LinkedList<Patch> patches;
patches = dmp.patch_make("", "test");
assertEquals("patch_addPadding: Both edges full.", "@@ -0,0 +1,4 @@\n+test\n", dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals("patch_addPadding: Both edges full.", "@@ -1,8 +1,12 @@\n %01%02%03%04\n+test\n %01%02%03%04\n", dmp.patch_toText(patches));
patches = dmp.patch_make("XY", "XtestY");
assertEquals("patch_addPadding: Both edges partial.", "@@ -1,2 +1,6 @@\n X\n+test\n Y\n", dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals("patch_addPadding: Both edges partial.", "@@ -2,8 +2,12 @@\n %02%03%04X\n+test\n Y%01%02%03\n", dmp.patch_toText(patches));
patches = dmp.patch_make("XXXXYYYY", "XXXXtestYYYY");
assertEquals("patch_addPadding: Both edges none.", "@@ -1,8 +1,12 @@\n XXXX\n+test\n YYYY\n", dmp.patch_toText(patches));
dmp.patch_addPadding(patches);
assertEquals("patch_addPadding: Both edges none.", "@@ -5,8 +5,12 @@\n XXXX\n+test\n YYYY\n", dmp.patch_toText(patches));
}
public void testPatchApply() {
dmp.Match_Distance = 1000;
dmp.Match_Threshold = 0.5f;
dmp.Patch_DeleteThreshold = 0.5f;
LinkedList<Patch> patches;
patches = dmp.patch_make("The quick brown fox jumps over the lazy dog.", "That quick brown fox jumped over a lazy dog.");
Object[] results = dmp.patch_apply(patches, "The quick brown fox jumps over the lazy dog.");
boolean[] boolArray = (boolean[]) results[1];
String resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Exact match.", "That quick brown fox jumped over a lazy dog.\ttrue\ttrue", resultStr);
results = dmp.patch_apply(patches, "The quick red rabbit jumps over the tired tiger.");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Partial match.", "That quick red rabbit jumped over a tired tiger.\ttrue\ttrue", resultStr);
results = dmp.patch_apply(patches, "I am the very model of a modern major general.");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Failed match.", "I am the very model of a modern major general.\tfalse\tfalse", resultStr);
patches = dmp.patch_make("x1234567890123456789012345678901234567890123456789012345678901234567890y", "xabcy");
results = dmp.patch_apply(patches, "x123456789012345678901234567890-----++++++++++-----123456789012345678901234567890y");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Big delete, small change.", "xabcy\ttrue\ttrue", resultStr);
patches = dmp.patch_make("x1234567890123456789012345678901234567890123456789012345678901234567890y", "xabcy");
results = dmp.patch_apply(patches, "x12345678901234567890---------------++++++++++---------------12345678901234567890y");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Big delete, big change 1.", "xabc12345678901234567890---------------++++++++++---------------12345678901234567890y\tfalse\ttrue", resultStr);
dmp.Patch_DeleteThreshold = 0.6f;
patches = dmp.patch_make("x1234567890123456789012345678901234567890123456789012345678901234567890y", "xabcy");
results = dmp.patch_apply(patches, "x12345678901234567890---------------++++++++++---------------12345678901234567890y");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("patch_apply: Big delete, big change 2.", "xabcy\ttrue\ttrue", resultStr);
dmp.Patch_DeleteThreshold = 0.5f;
// Compensate for failed patch.
dmp.Match_Threshold = 0.0f;
dmp.Match_Distance = 0;
patches = dmp.patch_make("abcdefghijklmnopqrstuvwxyz--------------------1234567890", "abcXXXXXXXXXXdefghijklmnopqrstuvwxyz--------------------1234567YYYYYYYYYY890");
results = dmp.patch_apply(patches, "ABCDEFGHIJKLMNOPQRSTUVWXYZ--------------------1234567890");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0] + "\t" + boolArray[1];
assertEquals("ABCDEFGHIJKLMNOPQRSTUVWXYZ--------------------1234567YYYYYYYYYY890\tfalse\ttrue", resultStr);
dmp.Match_Threshold = 0.5f;
dmp.Match_Distance = 1000;
patches = dmp.patch_make("", "test");
String patchStr = dmp.patch_toText(patches);
dmp.patch_apply(patches, "");
assertEquals("patch_apply: No side effects.", patchStr, dmp.patch_toText(patches));
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("patch_apply: No side effects with major delete.", patchStr, dmp.patch_toText(patches));
patches = dmp.patch_make("", "test");
results = dmp.patch_apply(patches, "");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0];
assertEquals("patch_apply: Edge exact match.", "test\ttrue", resultStr);
patches = dmp.patch_make("XY", "XtestY");
results = dmp.patch_apply(patches, "XY");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0];
assertEquals("patch_apply: Near edge exact match.", "XtestY\ttrue", resultStr);
patches = dmp.patch_make("y", "y123");
results = dmp.patch_apply(patches, "x");
boolArray = (boolean[]) results[1];
resultStr = results[0] + "\t" + boolArray[0];
assertEquals("patch_apply: Edge partial match.", "x123\ttrue", resultStr);
}
private void assertArrayEquals(String error_msg, Object[] a, Object[] b) {
List<Object> list_a = Arrays.asList(a);
List<Object> list_b = Arrays.asList(b);
assertEquals(error_msg, list_a, list_b);
}
private void assertLinesToCharsResultEquals(String error_msg,
LinesToCharsResult a, LinesToCharsResult b) {
assertEquals(error_msg, a.chars1, b.chars1);
assertEquals(error_msg, a.chars2, b.chars2);
assertEquals(error_msg, a.lineArray, b.lineArray);
}
// Construct the two texts which made up the diff originally.
private static String[] diff_rebuildtexts(LinkedList<Diff> diffs) {
String[] text = {"", ""};
for (Diff myDiff : diffs) {
if (myDiff.operation != diff_match_patch.Operation.INSERT) {
text[0] += myDiff.text;
}
if (myDiff.operation != diff_match_patch.Operation.DELETE) {
text[1] += myDiff.text;
}
}
return text;
}
// Private function for quickly building lists of diffs.
private static LinkedList<Diff> diffList(Diff... diffs) {
LinkedList<Diff> myDiffList = new LinkedList<Diff>();
for (Diff myDiff : diffs) {
myDiffList.add(myDiff);
}
return myDiffList;
}
}
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