/* * Copyright (C) 2016, Google Inc. 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.util; import static org.eclipse.jgit.lib.FileMode.TYPE_MASK; import static org.eclipse.jgit.lib.FileMode.TYPE_TREE; /** * Utility functions for paths inside of a Git repository. * * @since 4.2 */ public class Paths { /** * Remove trailing {@code '/'} if present. * * @param path * input path to potentially remove trailing {@code '/'} from. * @return null if {@code path == null}; {@code path} after removing a * trailing {@code '/'}. */ public static String stripTrailingSeparator(String path) { if (path == null || path.isEmpty()) { return path; } int i = path.length(); if (path.charAt(path.length() - 1) != '/') { return path; } do { i--; } while (path.charAt(i - 1) == '/'); return path.substring(0, i); } /** * Compare two paths according to Git path sort ordering rules. * * @param aPath * first path buffer. The range {@code [aPos, aEnd)} is used. * @param aPos * index into {@code aPath} where the first path starts. * @param aEnd * 1 past last index of {@code aPath}. * @param aMode * mode of the first file. Trees are sorted as though * {@code aPath[aEnd] == '/'}, even if aEnd does not exist. * @param bPath * second path buffer. The range {@code [bPos, bEnd)} is used. * @param bPos * index into {@code bPath} where the second path starts. * @param bEnd * 1 past last index of {@code bPath}. * @param bMode * mode of the second file. Trees are sorted as though * {@code bPath[bEnd] == '/'}, even if bEnd does not exist. * @return <0 if {@code aPath} sorts before {@code bPath}; * 0 if the paths are the same; * >0 if {@code aPath} sorts after {@code bPath}. */ public static int compare(byte[] aPath, int aPos, int aEnd, int aMode, byte[] bPath, int bPos, int bEnd, int bMode) { int cmp = coreCompare( aPath, aPos, aEnd, aMode, bPath, bPos, bEnd, bMode); if (cmp == 0) { cmp = lastPathChar(aMode) - lastPathChar(bMode); } return cmp; } /** * Compare two paths, checking for identical name. *
* Unlike {@code compare} this method returns {@code 0} when the paths have * the same characters in their names, even if the mode differs. It is * intended for use in validation routines detecting duplicate entries. *
* Returns {@code 0} if the names are identical and a conflict exists * between {@code aPath} and {@code bPath}, as they share the same name. *
* Returns {@code <0} if all possibles occurrences of {@code aPath} sort * before {@code bPath} and no conflict can happen. In a properly sorted * tree there are no other occurrences of {@code aPath} and therefore there * are no duplicate names. *
* Returns {@code >0} when it is possible for a duplicate occurrence of * {@code aPath} to appear later, after {@code bPath}. Callers should * continue to examine candidates for {@code bPath} until the method returns * one of the other return values. * * @param aPath * first path buffer. The range {@code [aPos, aEnd)} is used. * @param aPos * index into {@code aPath} where the first path starts. * @param aEnd * 1 past last index of {@code aPath}. * @param bPath * second path buffer. The range {@code [bPos, bEnd)} is used. * @param bPos * index into {@code bPath} where the second path starts. * @param bEnd * 1 past last index of {@code bPath}. * @param bMode * mode of the second file. Trees are sorted as though * {@code bPath[bEnd] == '/'}, even if bEnd does not exist. * @return <0 if no duplicate name could exist; * 0 if the paths have the same name; * >0 other {@code bPath} should still be checked by caller. */ public static int compareSameName( byte[] aPath, int aPos, int aEnd, byte[] bPath, int bPos, int bEnd, int bMode) { return coreCompare( aPath, aPos, aEnd, TYPE_TREE, bPath, bPos, bEnd, bMode); } private static int coreCompare( byte[] aPath, int aPos, int aEnd, int aMode, byte[] bPath, int bPos, int bEnd, int bMode) { while (aPos < aEnd && bPos < bEnd) { int cmp = (aPath[aPos++] & 0xff) - (bPath[bPos++] & 0xff); if (cmp != 0) { return cmp; } } if (aPos < aEnd) { return (aPath[aPos] & 0xff) - lastPathChar(bMode); } if (bPos < bEnd) { return lastPathChar(aMode) - (bPath[bPos] & 0xff); } return 0; } private static int lastPathChar(int mode) { if ((mode & TYPE_MASK) == TYPE_TREE) { return '/'; } return 0; } private Paths() { } }