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gerrit / jgit / a0aebbd52899c21eedc9b021f595e45da07820d2 / . / org.eclipse.jgit.test / tst / org / eclipse / jgit / treewalk / filter / PathFilterLogicTest.java
blob: ef77663821de605136b3ce70e4ed37168b0465b8 [file] [log] [blame]
/*
* Copyright (C) 2017 Magnus Vigerlöf (magnus.vigerlof@gmail.com) and others
*
* This program and the accompanying materials are made available under the
* terms of the Eclipse Distribution License v. 1.0 which is available at
* https://www.eclipse.org/org/documents/edl-v10.php.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
package org.eclipse.jgit.treewalk.filter;
import static org.junit.Assert.assertEquals;
import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import org.eclipse.jgit.dircache.DirCache;
import org.eclipse.jgit.dircache.DirCacheBuilder;
import org.eclipse.jgit.dircache.DirCacheEntry;
import org.eclipse.jgit.junit.RepositoryTestCase;
import org.eclipse.jgit.lib.FileMode;
import org.eclipse.jgit.lib.ObjectId;
import org.eclipse.jgit.lib.ObjectInserter;
import org.eclipse.jgit.treewalk.TreeWalk;
import org.junit.Before;
import org.junit.Test;
public class PathFilterLogicTest extends RepositoryTestCase {
private ObjectId treeId;
@Before
public void setup() throws IOException {
String[] paths = new String[] {
"a.txt",
"sub1.txt",
"sub1/suba/a.txt",
"sub1/subb/b.txt",
"sub2/suba/a.txt"
};
treeId = createTree(paths);
}
@Test
public void testSinglePath() throws IOException {
List<String> expected = Arrays.asList("sub1/suba/a.txt",
"sub1/subb/b.txt");
TreeFilter tf = PathFilter.create("sub1");
List<String> paths = getMatchingPaths(treeId, tf);
assertEquals(expected, paths);
}
@Test
public void testSingleSubPath() throws IOException {
List<String> expected = Collections.singletonList("sub1/suba/a.txt");
TreeFilter tf = PathFilter.create("sub1/suba");
List<String> paths = getMatchingPaths(treeId, tf);
assertEquals(expected, paths);
}
@Test
public void testSinglePathNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt",
"sub2/suba/a.txt");
TreeFilter tf = PathFilter.create("sub1").negate();
List<String> paths = getMatchingPaths(treeId, tf);
assertEquals(expected, paths);
}
@Test
public void testSingleSubPathNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt",
"sub1/subb/b.txt", "sub2/suba/a.txt");
TreeFilter tf = PathFilter.create("sub1/suba").negate();
List<String> paths = getMatchingPaths(treeId, tf);
assertEquals(expected, paths);
}
@Test
public void testOrMultiTwoPath() throws IOException {
List<String> expected = Arrays.asList("sub1/suba/a.txt",
"sub1/subb/b.txt", "sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub2")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testOrMultiThreePath() throws IOException {
List<String> expected = Arrays.asList("sub1.txt", "sub1/suba/a.txt",
"sub1/subb/b.txt", "sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub2"), PathFilter.create("sub1.txt")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testOrMultiTwoSubPath() throws IOException {
List<String> expected = Arrays.asList("sub1/subb/b.txt",
"sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1/subb"),
PathFilter.create("sub2/suba")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testOrMultiTwoMixSubPath() throws IOException {
List<String> expected = Arrays.asList("sub1/subb/b.txt",
"sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1/subb"),
PathFilter.create("sub2")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testOrMultiTwoMixSubPathNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt",
"sub1/suba/a.txt", "sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1").negate(),
PathFilter.create("sub1/suba")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testOrMultiThreeMixSubPathNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt",
"sub1/suba/a.txt", "sub2/suba/a.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1").negate(),
PathFilter.create("sub1/suba"), PathFilter.create("no/path")};
List<String> paths = getMatchingPaths(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testPatternParentFileMatch() throws IOException {
List<String> expected = Collections.emptyList();
TreeFilter tf = PathFilter.create("a.txt/test/path");
List<String> paths = getMatchingPaths(treeId, tf);
assertEquals(expected, paths);
}
@Test
public void testAndMultiPath() throws IOException {
List<String> expected = Collections.emptyList();
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub2")};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testAndMultiPathNegate() throws IOException {
List<String> expected = Arrays.asList("sub1/suba/a.txt",
"sub1/subb/b.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub2").negate()};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testAndMultiSubPathDualNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt",
"sub1/subb/b.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1/suba").negate(),
PathFilter.create("sub2").negate()};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testAndMultiSubPath() throws IOException {
List<String> expected = Collections.emptyList();
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub2/suba")};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testAndMultiSubPathNegate() throws IOException {
List<String> expected = Collections.singletonList("sub1/subb/b.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1"),
PathFilter.create("sub1/suba").negate()};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testAndMultiThreeSubPathNegate() throws IOException {
List<String> expected = Collections.singletonList("sub1/subb/b.txt");
TreeFilter[] tf = new TreeFilter[]{PathFilter.create("sub1"),
PathFilter.create("sub1/suba").negate(),
PathFilter.create("no/path").negate()};
List<String> paths = getMatchingPaths(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testTopAndMultiPathDualNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1").negate(),
PathFilter.create("sub2").negate()};
List<String> paths = getMatchingPathsFlat(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testTopAndMultiSubPathDualNegate() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt", "sub1");
// Filter on 'sub1/suba' is kind of silly for a non-recursive walk.
// The result is interesting though as the 'sub1' path should be
// returned, due to the fact that there may be hits once the pattern
// is tested with one of the leaf paths.
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1/suba").negate(),
PathFilter.create("sub2").negate()};
List<String> paths = getMatchingPathsFlat(treeId, AndTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testTopOrMultiPathDual() throws IOException {
List<String> expected = Arrays.asList("sub1.txt", "sub2");
TreeFilter[] tf = new TreeFilter[] {PathFilter.create("sub1.txt"),
PathFilter.create("sub2")};
List<String> paths = getMatchingPathsFlat(treeId, OrTreeFilter.create(tf));
assertEquals(expected, paths);
}
@Test
public void testTopNotPath() throws IOException {
List<String> expected = Arrays.asList("a.txt", "sub1.txt", "sub2");
TreeFilter tf = PathFilter.create("sub1");
List<String> paths = getMatchingPathsFlat(treeId, NotTreeFilter.create(tf));
assertEquals(expected, paths);
}
private List<String> getMatchingPaths(final ObjectId objId,
TreeFilter tf) throws IOException {
return getMatchingPaths(objId, tf, true);
}
private List<String> getMatchingPathsFlat(final ObjectId objId,
TreeFilter tf) throws IOException {
return getMatchingPaths(objId, tf, false);
}
private List<String> getMatchingPaths(final ObjectId objId,
TreeFilter tf, boolean recursive) throws IOException {
try (TreeWalk tw = new TreeWalk(db)) {
tw.setFilter(tf);
tw.setRecursive(recursive);
tw.addTree(objId);
List<String> paths = new ArrayList<>();
while (tw.next()) {
paths.add(tw.getPathString());
}
return paths;
}
}
private ObjectId createTree(String... paths) throws IOException {
final ObjectInserter odi = db.newObjectInserter();
final DirCache dc = db.readDirCache();
final DirCacheBuilder builder = dc.builder();
for (String path : paths) {
DirCacheEntry entry = createEntry(path, FileMode.REGULAR_FILE);
builder.add(entry);
}
builder.finish();
final ObjectId objId = dc.writeTree(odi);
odi.flush();
return objId;
}
}