Mercurial > jhg
view src/org/tmatesoft/hg/internal/StoragePathHelper.java @ 709:497e697636fc
Report merged lines as changed block if possible, not as a sequence of added/deleted blocks. To facilitate access to merge parent lines AddBlock got mergeLineAt() method that reports index of the line in the second parent (if any), while insertedAt() has been changed to report index in the first parent always
author | Artem Tikhomirov <tikhomirov.artem@gmail.com> |
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date | Wed, 21 Aug 2013 16:23:27 +0200 |
parents | 5e0313485eef |
children |
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/* * Copyright (c) 2011-2013 TMate Software Ltd * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * For information on how to redistribute this software under * the terms of a license other than GNU General Public License * contact TMate Software at support@hg4j.com */ package org.tmatesoft.hg.internal; import java.nio.ByteBuffer; import java.nio.CharBuffer; import java.nio.charset.Charset; import java.nio.charset.CharsetEncoder; import java.util.Arrays; import java.util.TreeSet; import org.tmatesoft.hg.util.PathRewrite; /** * @see http://mercurial.selenic.com/wiki/CaseFoldingPlan * @see http://mercurial.selenic.com/wiki/fncacheRepoFormat * @see http://mercurial.selenic.com/wiki/EncodingStrategy * * @author Artem Tikhomirov * @author TMate Software Ltd. */ class StoragePathHelper implements PathRewrite { static final String STR_STORE = "store/"; static final String STR_DATA = "data/"; static final String STR_DH = "dh/"; private final boolean store; private final boolean fncache; private final boolean dotencode; private final EncodeDirPathHelper dirPathRewrite; private final CharsetEncoder csEncoder; private final char[] hexEncodedByte = new char[] {'~', '0', '0'}; private final ByteBuffer byteEncodingBuf; private final CharBuffer charEncodingBuf; public StoragePathHelper(boolean isStore, boolean isFncache, boolean isDotencode) { this(isStore, isFncache, isDotencode, Charset.defaultCharset()); } public StoragePathHelper(boolean isStore, boolean isFncache, boolean isDotencode, Charset fsEncoding) { assert fsEncoding != null; store = isStore; fncache = isFncache; dotencode = isDotencode; dirPathRewrite = new EncodeDirPathHelper(); csEncoder = fsEncoding.newEncoder(); byteEncodingBuf = ByteBuffer.allocate(Math.round(csEncoder.maxBytesPerChar()) + 1/*in fact, need ceil, hence +1*/); charEncodingBuf = CharBuffer.allocate(1); } /** * path argument is repository-relative name of the user's file. * It has to be normalized (slashes) and shall not include extension .i or .d. */ public CharSequence rewrite(CharSequence p) { final String reservedChars = "\\:*?\"<>|"; CharSequence path = dirPathRewrite.rewrite(p); StringBuilder sb = new StringBuilder(path.length() << 1); if (store || fncache) { for (int i = 0; i < path.length(); i++) { final char ch = path.charAt(i); if (ch >= 'a' && ch <= 'z') { sb.append(ch); // POIRAE } else if (ch >= 'A' && ch <= 'Z') { sb.append('_'); sb.append(Character.toLowerCase(ch)); // Perhaps, (char) (((int) ch) + 32)? Even better, |= 0x20? } else if (reservedChars.indexOf(ch) != -1) { sb.append(toHexByte(ch)); } else if ((ch >= '~' /*126*/ && ch <= 255) || ch < ' ' /*32*/) { sb.append(toHexByte(ch)); } else if (ch == '_') { sb.append('_'); sb.append('_'); } else { // either ASCII char that doesn't require special handling, or an Unicode character to get encoded // according to filesystem/native encoding, see http://mercurial.selenic.com/wiki/EncodingStrategy // despite of what the page says, use of native encoding seems worst solution to me (repositories // can't be easily shared between OS'es with different encodings then, e.g. Win1251 and Linux UTF8). // If the ease of sharing was not the point, what's the reason to mangle with names at all then ( // lowercase and exclude reserved device names). if (ch < '~' /*126*/ || !csEncoder.canEncode(ch)) { sb.append(ch); } else { appendEncoded(sb, ch); } } } // auxencode if (fncache) { encodeWindowsDeviceNames(sb); } } final int MAX_PATH_LEN = 120; if (fncache && (sb.length() + STR_DATA.length() + ".i".length() > MAX_PATH_LEN)) { // TODO [post-1.0] Mercurial uses system encoding for paths, hence we need to pass bytes to DigestHelper // to ensure our sha1 value (default encoding of unicode string if one looks into DH impl) match that // produced by Mercurial (based on native string). String digest = new DigestHelper().sha1(STR_DATA, path, ".i").asHexString(); final int DIR_PREFIX_LEN = 8; // not sure why (-4) is here. 120 - 40 = up to 80 for path with ext. dh/ + ext(.i) = 3+2 final int MAX_DIR_PREFIX = 8 * (DIR_PREFIX_LEN + 1) - 4; sb = new StringBuilder(MAX_PATH_LEN); for (int i = 0; i < path.length(); i++) { final char ch = path.charAt(i); if (ch >= 'a' && ch <= 'z') { sb.append(ch); } else if (ch >= 'A' && ch <= 'Z') { sb.append((char) (ch | 0x20)); // lowercase } else if (reservedChars.indexOf(ch) != -1) { sb.append(toHexByte(ch)); } else if ((ch >= '~' /*126*/ && ch <= 255) || ch < ' ' /*32*/) { sb.append(toHexByte(ch)); } else { if (ch < '~' /*126*/ || !csEncoder.canEncode(ch)) { sb.append(ch); } else { appendEncoded(sb, ch); } } } encodeWindowsDeviceNames(sb); int fnameStart = sb.lastIndexOf("/"); // since we rewrite file names, it never ends with slash (for dirs, I'd pass length-2); StringBuilder completeHashName = new StringBuilder(MAX_PATH_LEN); completeHashName.append(STR_STORE); completeHashName.append(STR_DH); if (fnameStart == -1) { // no dirs, just long filename sb.setLength(MAX_PATH_LEN - 40 /*digest.length()*/ - STR_DH.length() - ".i".length()); completeHashName.append(sb); } else { StringBuilder sb2 = new StringBuilder(MAX_PATH_LEN); int x = 0; do { int i = sb.indexOf("/", x); final int sb2Len = sb2.length(); if (i-x <= DIR_PREFIX_LEN) { // a b c d e f g h / sb2.append(sb, x, i + 1); // with slash } else { sb2.append(sb, x, x + DIR_PREFIX_LEN); // may unexpectedly end with bad character final int last = sb2.length()-1; char lastChar = sb2.charAt(last); assert lastChar == sb.charAt(x + DIR_PREFIX_LEN - 1); if (lastChar == '.' || lastChar == ' ') { sb2.setCharAt(last, '_'); } sb2.append('/'); } if (sb2.length()-1 > MAX_DIR_PREFIX) { sb2.setLength(sb2Len); // strip off last segment, it's too much break; } x = i+1; } while (x < fnameStart); assert sb2.charAt(sb2.length() - 1) == '/'; int left = MAX_PATH_LEN - sb2.length() - 40 /*digest.length()*/ - STR_DH.length() - ".i".length(); assert left >= 0; fnameStart++; // move from / to actual name if (fnameStart + left > sb.length()) { // there left less chars in the mangled name that we can fit sb2.append(sb, fnameStart, sb.length()); int stillAvailable = (fnameStart+left) - sb.length(); // stillAvailable > 0; sb2.append(".i", 0, stillAvailable > 2 ? 2 : stillAvailable); } else { // add as much as we can sb2.append(sb, fnameStart, fnameStart+left); } completeHashName.append(sb2); } completeHashName.append(digest); sb = completeHashName; } else if (store) { sb.insert(0, STR_STORE + STR_DATA); } sb.append(".i"); return sb.toString(); } private void encodeWindowsDeviceNames(StringBuilder sb) { int x = 0; // last segment start final TreeSet<String> windowsReservedFilenames = new TreeSet<String>(); windowsReservedFilenames.addAll(Arrays.asList("con prn aux nul com1 com2 com3 com4 com5 com6 com7 com8 com9 lpt1 lpt2 lpt3 lpt4 lpt5 lpt6 lpt7 lpt8 lpt9".split(" "))); do { int i = sb.indexOf("/", x); if (i == -1) { i = sb.length(); } // windows reserved filenames are at least of length 3 if (i - x >= 3) { boolean found = false; if (i-x == 3 || i-x == 4) { found = windowsReservedFilenames.contains(sb.subSequence(x, i)); } else if (sb.charAt(x+3) == '.') { // implicit i-x > 3 found = windowsReservedFilenames.contains(sb.subSequence(x, x+3)); } else if (i-x > 4 && sb.charAt(x+4) == '.') { found = windowsReservedFilenames.contains(sb.subSequence(x, x+4)); } if (found) { // x+2 as we change the third letter in device name replace(sb, x+2, toHexByte(sb.charAt(x+2))); i += 2; } } if (dotencode && (sb.charAt(x) == '.' || sb.charAt(x) == ' ')) { char dotOrSpace = sb.charAt(x); // beware, replace() below changes charAt(x), rather get a copy // not to get ~7e for '.' instead of ~2e, if later refactoring changes the logic replace(sb, x, toHexByte(dotOrSpace)); i += 2; } x = i+1; } while (x < sb.length()); } // shall be synchronized in case of multithreaded use private void appendEncoded(StringBuilder sb, char ch) { charEncodingBuf.clear(); byteEncodingBuf.clear(); charEncodingBuf.put(ch).flip(); csEncoder.encode(charEncodingBuf, byteEncodingBuf, false); byteEncodingBuf.flip(); while (byteEncodingBuf.hasRemaining()) { sb.append(toHexByte(byteEncodingBuf.get())); } } /** * replace char at sb[index] with a sequence */ private static void replace(StringBuilder sb, int index, char[] with) { // there's StringBuilder.replace(int, int+1, String), but with char[] - I don't want to make a string out of hexEncodedByte sb.setCharAt(index, with[0]); sb.insert(index+1, with, 1, with.length - 1); } /** * put hex representation of byte ch into buf from specified offset */ private char[] toHexByte(int ch) { final String hexDigits = "0123456789abcdef"; hexEncodedByte[1] = hexDigits.charAt((ch & 0x00F0) >>> 4); hexEncodedByte[2] = hexDigits.charAt(ch & 0x0F); return hexEncodedByte; } }