Mercurial > jhg
view src/org/tmatesoft/hg/internal/ConfigFileParser.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 | 0205a5c4566b |
children |
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/* * Copyright (c) 2012 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.io.ByteArrayOutputStream; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.util.ArrayList; import java.util.Collections; import java.util.HashSet; import java.util.Iterator; import java.util.LinkedHashMap; import java.util.LinkedHashSet; import java.util.List; /** * Simplistic parser to allow altering configuration files without touching user modifications/formatting/comments * * @author Artem Tikhomirov * @author TMate Software Ltd. */ public class ConfigFileParser { private enum ParseState {Initial, Section, Entry}; private ParseState state = ParseState.Initial; private int lastNonEmptyLineEndOffset = -1; private String sectionName; private int sectionStart = -1; private String entryKey; private int entryStart = -1; private int valueStart = -1, valueEnd = -1; private ArrayList<Entry> entries; private ArrayList<Section> sections = new ArrayList<Section>(); private byte[] contents; private List<String> deletions = new ArrayList<String>(5); private List<String> additions = new ArrayList<String>(5), changes = new ArrayList<String>(5); public boolean exists(String section, String key) { assert contents != null; for (Section s : sections) { if (s.name.equals(section)) { for (Entry e : s.entries) { if (e.name.equals(key)) { return true; } } return false; } } return false; } public void add(String section, String key, String newValue) { additions.add(section); additions.add(key); additions.add(newValue); } public void change(String section, String key, String newValue) { changes.add(section); changes.add(key); changes.add(newValue); } public void delete(String section, String key) { deletions.add(section); deletions.add(key); } public void parse(InputStream is) throws IOException { state = ParseState.Initial; sections.clear(); contents = null; ByteArrayOutputStream bos = new ByteArrayOutputStream(1024); ByteArrayOutputStream line = new ByteArrayOutputStream(80); int offset = 0; int lineOffset = -1; int lineNumber = 1; boolean crDetected = false; // true when previous char was \r int b; while ( (b = is.read()) != -1) { bos.write(b); if (b == '\n' || b == '\r') { if (line.size() > 0) { processLine(lineNumber, lineOffset, line.toByteArray()); line.reset(); lineOffset = -1; lastNonEmptyLineEndOffset = bos.size() - 1; // offset points to EOL char } // else: XXX does empty line closes entry??? // when \n follows \r, increment line count only once if (!(b == '\n' && crDetected)) { lineNumber++; } crDetected = b == '\r'; } else { crDetected = false; if (line.size() == 0) { lineOffset = offset; } line.write(b); } offset++; } // handle last line in case it's not EOL-terminated if (line.size() > 0) { processLine(lineNumber, lineOffset, line.toByteArray()); // might need it for #closeSection() below lastNonEmptyLineEndOffset = bos.size(); } if (state == ParseState.Entry) { closeEntry(); } if (state == ParseState.Section) { closeSection(); } contents = bos.toByteArray(); } public void update(OutputStream out) throws IOException { if (contents == null) { throw new IOException("Shall parse first"); } HashSet<String> processedSections = new HashSet<String>(); int contentsOffset = 0; for (Section section : sections) { LinkedHashMap<String,String> additionsInSection = new LinkedHashMap<String,String>(); LinkedHashMap<String,String> changesInSection = new LinkedHashMap<String,String>(); LinkedHashSet<String> deletionsInSection = new LinkedHashSet<String>(); if (!processedSections.contains(section.name)) { for (Iterator<String> it = additions.iterator(); it.hasNext();) { String s = it.next(), k = it.next(), v = it.next(); if (section.name.equals(s)) { additionsInSection.put(k, v); } } for (Iterator<String> it = changes.iterator(); it.hasNext();) { String s = it.next(), k = it.next(), v = it.next(); if (section.name.equals(s)) { changesInSection.put(k, v); } } for (Iterator<String> it = deletions.iterator(); it.hasNext();) { String s = it.next(), k = it.next(); if (section.name.equals(s)) { deletionsInSection.add(k); } } } for (Entry e : section.entries) { if (deletionsInSection.contains(e.name)) { // write up to key start only out.write(contents, contentsOffset, e.start - contentsOffset); contentsOffset = e.valueEnd + 1; } else if (changesInSection.containsKey(e.name)) { if (e.valueStart == -1) { // e.valueEnd determines insertion point out.write(contents, contentsOffset, e.valueEnd + 1 - contentsOffset); } else { // e.valueEnd points to last character of the value out.write(contents, contentsOffset, e.valueStart - contentsOffset); } String value = changesInSection.get(e.name); out.write(value == null ? new byte[0] : value.getBytes()); contentsOffset = e.valueEnd + 1; } // else: keep contentsOffset to point to first uncopied character } if (section.entries.length == 0) { // no entries, empty or only comments, perhaps. // use end of last meaningful line (whether [section] or comment string), // which points to newline character out.write(contents, contentsOffset, section.end - contentsOffset); contentsOffset = section.end; // since it's tricky to track \n or \r\n with lastNonEmptyLineEndOffset, // we copy up to the line delimiter and insert new lines, if any, with \n prepended, // so that original EOL will be moved to the very end of the section. // Indeed, would be better to insert *after* lastNonEmptyLineEndOffset, // but I don't want to complicate #parse (if line.size() > 0 part) method. // Hope, this won't make too much trouble (if any, at all - // if String.format translates \n to system EOL, then nobody would notice) } if (!additionsInSection.isEmpty()) { // make sure additions are written once everything else is there out.write(contents, contentsOffset, section.end - contentsOffset); contentsOffset = section.end; for (String k : additionsInSection.keySet()) { String v = additionsInSection.get(k); out.write(String.format("\n%s = %s", k, v == null ? "" : v).getBytes()); } } // if section comes more than once, update only first one. processedSections.add(section.name); } // push rest of the contents out.write(contents, contentsOffset, contents.length - contentsOffset); // // add entries in new sections LinkedHashSet<String> newSections = new LinkedHashSet<String>(); for (Iterator<String> it = additions.iterator(); it.hasNext();) { String s = it.next(); it.next(); it.next(); if (!processedSections.contains(s)) { newSections.add(s); } } for (String newSectionName : newSections) { out.write(String.format("\n[%s]", newSectionName).getBytes()); for (Iterator<String> it = additions.iterator(); it.hasNext();) { String s = it.next(), k = it.next(), v = it.next(); if (newSectionName.equals(s)) { out.write(String.format("\n%s = %s", k, v).getBytes()); } } out.write("\n".getBytes()); } } private void processLine(int lineNumber, int offset, byte[] line) throws IOException { int localOffset = 0, i = 0; while (i < line.length && Character.isWhitespace(line[i])) { i++; } if (i == line.length) { return; } localOffset = i; if (line[i] == '[') { if (state == ParseState.Entry) { closeEntry(); } if (state == ParseState.Section) { closeSection(); } while (i < line.length && line[i] != ']') { i++; } if (i == line.length) { throw new IOException(String.format("Can't find closing ']' for section name in line %d", lineNumber)); } sectionName = new String(line, localOffset+1, i-localOffset-1); sectionStart = offset + localOffset; state = ParseState.Section; } else if (line[i] == '#' || line[i] == ';') { // comment line, nothing to process return; } else { // entry if (state == ParseState.Initial) { throw new IOException(String.format("Line %d doesn't belong to any section", lineNumber)); } if (localOffset > 0) { if (state == ParseState.Section) { throw new IOException(String.format("Non-indented key is expected in line %d", lineNumber)); } assert state == ParseState.Entry; // whitespace-indented continuation of the previous entry if (valueStart == -1) { // value didn't start at the same line the key was found at valueStart = offset + localOffset; } // value ends with eol (assumption is trailing comments are not allowed) valueEnd = offset + line.length - 1; } else { if (state == ParseState.Entry) { closeEntry(); } assert state == ParseState.Section; // it's a new entry state = ParseState.Entry; // get name of the entry while (i < line.length && !Character.isWhitespace(line[i]) && line[i] != '=') { i++; } if (i == line.length) { throw new IOException(String.format("Can't process entry in line %d", lineNumber)); } entryKey = new String(line, localOffset, i - localOffset); entryStart = offset + localOffset; // look for '=' after key name while (i < line.length && line[i] != '=') { i++; } if (i == line.length) { throw new IOException(String.format("Can't find '=' after key %s in line %d", entryKey, lineNumber)); } // skip whitespaces after '=' i++; // line[i] == '=' while (i < line.length && Character.isWhitespace(line[i])) { i++; } // valueStart might be -1 in case no value is specified in the same line as key // but valueEnd is always initialized just in case there's no next, value continuation line if (i == line.length) { valueStart = -1; } else { valueStart = offset + i; } // if trailing comments are allowed, shall // look up comment char and set valueEnd to its position-1 valueEnd = offset + line.length - 1; } } } private void closeSection() { assert state == ParseState.Section; assert sectionName != null; assert lastNonEmptyLineEndOffset != -1; Section s = new Section(sectionName, sectionStart, lastNonEmptyLineEndOffset, entries == null ? Collections.<Entry>emptyList() : entries); sections.add(s); sectionName = null; sectionStart = -1; state = ParseState.Initial; entries = null; } private void closeEntry() { assert state == ParseState.Entry; assert entryKey != null; state = ParseState.Section; Entry e = new Entry(entryKey, entryStart, valueStart, valueEnd); if (entries == null) { entries = new ArrayList<Entry>(); } entries.add(e); entryKey = null; entryStart = valueStart = valueEnd -1; } private static class Block { public final int start; Block(int s) { start = s; } } private static class Entry extends Block { public final int valueStart, valueEnd; public final String name; Entry(String n, int s, int vs, int ve) { super(s); name = n; valueStart = vs; valueEnd = ve; } } private static class Section extends Block { public final String name; public final Entry[] entries; public final int end; Section(String n, int s, int endOffset, List<Entry> e) { super(s); name = n; end = endOffset; entries = new Entry[e.size()]; e.toArray(entries); } } }