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Blazingly fast Minecraft world manipulation for artists, builders and everyone else.

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/*
 * WorldEdit, a Minecraft world manipulation toolkit
 * Copyright (C) sk89q 
 * Copyright (C) WorldEdit team and contributors
 *
 * 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, either version 3 of the License, or
 * (at your option) any later version.
 *
 * 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.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program.  If not, see .
 */

package com.sk89q.jnbt;

import com.fastasyncworldedit.core.jnbt.streamer.StreamDelegate;
import com.fastasyncworldedit.core.jnbt.streamer.ValueReader;

import java.io.Closeable;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.util.AbstractMap;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;

/**
 * This class reads NBT, or Named Binary Tag
 * streams, and produces an object graph of subclasses of the {@code Tag}
 * object.
 *
 * 

* The NBT format was created by Markus Persson, and the specification may be * found at * https://minecraft.gamepedia.com/NBT_format. *

* * @deprecated JNBT is being removed for adventure-nbt in WorldEdit 8. */ @Deprecated(forRemoval = true) public final class NBTInputStream implements Closeable { private final DataInputStream is; /** * Creates a new {@code NBTInputStream}, which will source its data * from the specified input stream. * * @param is the input stream */ public NBTInputStream(InputStream is) { this.is = new DataInputStream(is); } public NBTInputStream(DataInputStream dis) { this.is = dis; } public void mark(int mark) { is.mark(mark); } public void reset() throws IOException { is.reset(); } /** * Reads an NBT tag from the stream. * * @return The tag that was read. * @throws IOException if an I/O error occurs. */ public NamedTag readNamedTag() throws IOException { return readNamedTag(0); } /** * Reads an NBT from the stream. * * @param depth the depth of this tag * @return The tag that was read. * @throws IOException if an I/O error occurs. */ private NamedTag readNamedTag(int depth) throws IOException { int type = is.readByte() & 0xFF; return new NamedTag(readNamedTagName(type), readTagPayload(type, depth)); } public Tag readTag() throws IOException { int type = is.readByte(); return readTagPayload(type, 0); } public void readNamedTagLazy(StreamDelegate scope) throws IOException { try { int type = is.readByte(); if (type == NBTConstants.TYPE_END) { return; } StreamDelegate child = scope.get(is); if (child != null) { child.acceptRoot(this, type, 0); } else { readTagPayloadLazy(type, 0); } } catch (Throwable e) { e.printStackTrace(); } } public String readNamedTagName(int type) throws IOException { if (type != NBTConstants.TYPE_END) { int nameLength = is.readShort() & 0xFFFF; byte[] nameBytes = new byte[nameLength]; is.readFully(nameBytes); return new String(nameBytes, NBTConstants.CHARSET); } else { return ""; } } private byte[] buf; public void readTagPayloadLazy(int type, int depth) throws IOException { switch (type) { case NBTConstants.TYPE_END: return; case NBTConstants.TYPE_BYTE: is.skipBytes(1); return; case NBTConstants.TYPE_SHORT: is.skipBytes(2); return; case NBTConstants.TYPE_INT: is.skipBytes(4); return; case NBTConstants.TYPE_LONG: is.skipBytes(8); return; case NBTConstants.TYPE_FLOAT: is.skipBytes(4); return; case NBTConstants.TYPE_DOUBLE: is.skipBytes(8); return; case NBTConstants.TYPE_STRING: int length = is.readShort() & 0xFFFF; is.skipBytes(length); return; case NBTConstants.TYPE_BYTE_ARRAY: is.skipBytes(is.readInt()); return; case NBTConstants.TYPE_LIST: { int childType = is.readByte(); length = is.readInt(); for (int i = 0; i < length; ++i) { readTagPayloadLazy(childType, depth + 1); } return; } case NBTConstants.TYPE_COMPOUND: { // readDataPayload depth++; while (true) { int childType = is.readByte(); if (childType == NBTConstants.TYPE_END) { return; } is.skipBytes(is.readShort() & 0xFFFF); readTagPayloadLazy(childType, depth + 1); } } case NBTConstants.TYPE_INT_ARRAY: { is.skipBytes(is.readInt() << 2); return; } case NBTConstants.TYPE_LONG_ARRAY: { is.skipBytes(is.readInt() << 3); return; } default: throw new IOException("Invalid tag type: " + type + "."); } } public void readTagPayloadLazy(int type, int depth, StreamDelegate scope) throws IOException { switch (type) { case NBTConstants.TYPE_END: return; case NBTConstants.TYPE_BYTE: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyInt(0, is.readByte()); } else { is.skipBytes(1); } return; } case NBTConstants.TYPE_SHORT: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyInt(0, is.readShort()); } else { is.skipBytes(2); } return; } case NBTConstants.TYPE_INT: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyInt(0, is.readInt()); } else { is.skipBytes(4); } return; } case NBTConstants.TYPE_LONG: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyLong(0, is.readLong()); } else { is.skipBytes(8); } return; } case NBTConstants.TYPE_FLOAT: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyFloat(0, is.readFloat()); } else { is.skipBytes(4); } return; } case NBTConstants.TYPE_DOUBLE: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } if (value != null) { value.applyDouble(0, is.readDouble()); } else { is.skipBytes(8); } return; } case NBTConstants.TYPE_STRING: { ValueReader value = scope.getValueReader(); if (value == null) { value = scope.getElemReader(); } int length = is.readShort() & 0xFFFF; if (value != null) { byte[] bytes = new byte[length]; is.readFully(bytes); value.apply(0, new String(bytes, NBTConstants.CHARSET)); } else { is.skipBytes(length); } return; } case NBTConstants.TYPE_LIST: { int childType = is.readByte(); int length = is.readInt(); StreamDelegate child; scope.acceptInfo(length, childType); ValueReader valueReader = scope.getValueReader(); if (valueReader != null) { List tagList = readListRaw(depth, childType, length); valueReader.apply(0, tagList); return; } valueReader = scope.getElemReader(); if (valueReader != null) { for (int i = 0; i < length; ++i) { valueReader.apply(i, readTagPayloadRaw(childType, depth + 1)); } return; } child = scope.get0(); if (child == null) { for (int i = 0; i < length; ++i) { readTagPayloadLazy(childType, depth + 1); } } else { for (int i = 0; i < length; ++i) { readTagPayloadLazy(childType, depth + 1, child); } } return; } case NBTConstants.TYPE_COMPOUND: { // readDataPayload scope.acceptInfo(-1, NBTConstants.TYPE_BYTE); ValueReader valueReader = scope.getValueReader(); if (valueReader != null) { valueReader.apply(0, this.readTagPayloadRaw(type, depth)); return; } valueReader = scope.getElemReader(); if (valueReader != null) { for (int i = 0; ; i++) { int childType = is.readByte(); if (childType == NBTConstants.TYPE_END) { return; } String key = readNamedTagName(childType); Object value = readTagPayloadRaw(childType, depth + 1); AbstractMap.SimpleEntry entry = new AbstractMap.SimpleEntry<>(key, value); valueReader.apply(i, entry); } } while (true) { int childType = is.readByte(); if (childType == NBTConstants.TYPE_END) { return; } StreamDelegate child = scope.get(is); if (child == null) { readTagPayloadLazy(childType, depth + 1); } else { readTagPayloadLazy(childType, depth + 1, child); } } } case NBTConstants.TYPE_BYTE_ARRAY: { int length = is.readInt(); scope.acceptInfo(length, NBTConstants.TYPE_BYTE); if (scope.acceptLazy(length, this)) { return; } ValueReader valueReader = scope.getValueReader(); if (valueReader != null) { byte[] arr = new byte[length]; is.readFully(arr); valueReader.apply(0, arr); return; } valueReader = scope.getElemReader(); if (valueReader != null) { int i = 0; DataInputStream dis = is; if (length > 1024) { if (buf == null) { buf = new byte[1024]; } int left = length; for (; left > 1024; left -= 1024) { dis.readFully(buf); for (byte b : buf) { valueReader.applyInt(i++, b & 0xFF); } } } for (; i < length; i++) { valueReader.applyInt(i, dis.read()); } return; } is.skipBytes(length); return; } case NBTConstants.TYPE_INT_ARRAY: { int length = is.readInt(); scope.acceptInfo(length, NBTConstants.TYPE_INT); if (scope.acceptLazy(length, this)) { return; } ValueReader valueReader = scope.getValueReader(); if (valueReader != null) { valueReader.apply(0, readIntArrayRaw(length)); return; } valueReader = scope.getElemReader(); if (valueReader != null) { for (int i = 0; i < length; i++) { valueReader.applyInt(i, is.readInt()); } return; } is.skipBytes(length << 2); return; } case NBTConstants.TYPE_LONG_ARRAY: { int length = is.readInt(); scope.acceptInfo(length, NBTConstants.TYPE_LONG); if (scope.acceptLazy(length, this)) { return; } ValueReader valueReader = scope.getValueReader(); if (valueReader != null) { valueReader.apply(0, readLongArrayRaw(length)); return; } valueReader = scope.getElemReader(); if (valueReader != null) { for (int i = 0; i < length; i++) { valueReader.applyLong(i, is.readLong()); } return; } is.skipBytes(length << 3); return; } default: throw new IOException("Invalid tag type: " + type + "."); } } private List readListRaw(int depth, int childType, int length) throws IOException { List tagList = new ArrayList<>(length); for (int i = 0; i < length; ++i) { Object tag = readTagPayloadRaw(childType, depth + 1); if (tag == null) { throw new IOException("TAG_End not permitted in a list."); } tagList.add(tag); } return tagList; } public static int getSize(int type) { switch (type) { default: case NBTConstants.TYPE_END: case NBTConstants.TYPE_BYTE: return 1; case NBTConstants.TYPE_BYTE_ARRAY: case NBTConstants.TYPE_STRING: case NBTConstants.TYPE_LIST: case NBTConstants.TYPE_COMPOUND: case NBTConstants.TYPE_INT_ARRAY: case NBTConstants.TYPE_LONG_ARRAY: case NBTConstants.TYPE_SHORT: return 2; case NBTConstants.TYPE_FLOAT: case NBTConstants.TYPE_INT: return 4; case NBTConstants.TYPE_DOUBLE: case NBTConstants.TYPE_LONG: return 8; } } public Object readTagPayloadRaw(int type, int depth) throws IOException { switch (type) { case NBTConstants.TYPE_END: if (depth == 0) { throw new IOException( "TAG_End found without a TAG_Compound/TAG_List tag preceding it."); } else { return null; } case NBTConstants.TYPE_BYTE: return (is.readByte()); case NBTConstants.TYPE_SHORT: return (is.readShort()); case NBTConstants.TYPE_INT: return (is.readInt()); case NBTConstants.TYPE_LONG: return (is.readLong()); case NBTConstants.TYPE_FLOAT: return (is.readFloat()); case NBTConstants.TYPE_DOUBLE: return (is.readDouble()); case NBTConstants.TYPE_BYTE_ARRAY: int length = is.readInt(); byte[] bytes = new byte[length]; is.readFully(bytes); return (bytes); case NBTConstants.TYPE_STRING: length = is.readShort() & 0xFFFF; bytes = new byte[length]; is.readFully(bytes); return (new String(bytes, NBTConstants.CHARSET)); case NBTConstants.TYPE_LIST: { int childType = is.readByte(); length = is.readInt(); return readListRaw(depth, childType, length); } case NBTConstants.TYPE_COMPOUND: { Map tagMap = new HashMap<>(); while (true) { int childType = is.readByte(); if (childType == NBTConstants.TYPE_END) { return tagMap; } String name = readNamedTagName(childType); Object value = readTagPayloadRaw(childType, depth + 1); tagMap.put(name, value); } } case NBTConstants.TYPE_INT_ARRAY: { length = is.readInt(); return readIntArrayRaw(length); } case NBTConstants.TYPE_LONG_ARRAY: { length = is.readInt(); return readLongArrayRaw(length); } default: throw new IOException("Invalid tag type: " + type + "."); } } private int[] readIntArrayRaw(int length) throws IOException { int[] data = new int[length]; if (buf == null) { buf = new byte[1024]; } int index = 0; while (length > 0) { int toRead = Math.min(length << 2, buf.length); is.readFully(buf, 0, toRead); for (int i = 0; i < toRead; i += 4, index++) { data[index] = ((buf[i] & 0xFF) << 24) + ((buf[i + 1] & 0xFF) << 16) + ((buf[i + 2] & 0xFF) << 8) + (buf[i + 3] & 0xFF); } length -= toRead; } return data; } private long[] readLongArrayRaw(int length) throws IOException { long[] data = new long[length]; if (buf == null) { buf = new byte[1024]; } int index = 0; while (length > 0) { int toRead = Math.min(length << 3, buf.length); is.readFully(buf, 0, toRead); for (int i = 0; i < toRead; i += 8, index++) { data[index] = (((long) buf[i] << 56) | ((long) (buf[i + 1] & 255) << 48) | ((long) (buf[i + 2] & 255) << 40) | ((long) (buf[i + 3] & 255) << 32) | ((long) (buf[i + 4] & 255) << 24) | ((buf[i + 5] & 255) << 16) | ((buf[i + 6] & 255) << 8) | (buf[i + 7] & 255)); } length -= toRead; } return (data); } /** * Reads the payload of a tag given the type. * * @param type the type * @param depth the depth * @return the tag * @throws IOException if an I/O error occurs. */ private Tag readTagPayload(int type, int depth) throws IOException { switch (type) { case NBTConstants.TYPE_END: if (depth == 0) { throw new IOException( "TAG_End found without a TAG_Compound/TAG_List tag preceding it."); } else { return new EndTag(); } case NBTConstants.TYPE_BYTE: return new ByteTag(is.readByte()); case NBTConstants.TYPE_SHORT: return new ShortTag(is.readShort()); case NBTConstants.TYPE_INT: return new IntTag(is.readInt()); case NBTConstants.TYPE_LONG: return new LongTag(is.readLong()); case NBTConstants.TYPE_FLOAT: return new FloatTag(is.readFloat()); case NBTConstants.TYPE_DOUBLE: return new DoubleTag(is.readDouble()); case NBTConstants.TYPE_BYTE_ARRAY: int length = is.readInt(); byte[] bytes = new byte[length]; is.readFully(bytes); return new ByteArrayTag(bytes); case NBTConstants.TYPE_STRING: length = is.readShort() & 0xFFFF; bytes = new byte[length]; is.readFully(bytes); return new StringTag(new String(bytes, NBTConstants.CHARSET)); case NBTConstants.TYPE_LIST: int childType = is.readByte(); length = is.readInt(); List tagList = new ArrayList<>(); for (int i = 0; i < length; ++i) { Tag tag = readTagPayload(childType, depth + 1); if (tag instanceof EndTag) { throw new IOException("TAG_End not permitted in a list."); } tagList.add(tag); } return new ListTag(NBTUtils.getTypeClass(childType), tagList); case NBTConstants.TYPE_COMPOUND: Map tagMap = new HashMap<>(); while (true) { NamedTag namedTag = readNamedTag(depth + 1); Tag tag = namedTag.getTag(); if (tag instanceof EndTag) { break; } else { tagMap.put(namedTag.getName(), tag); } } return new CompoundTag(tagMap); case NBTConstants.TYPE_INT_ARRAY: length = is.readInt(); int[] data = new int[length]; for (int i = 0; i < length; i++) { data[i] = is.readInt(); } return new IntArrayTag(data); case NBTConstants.TYPE_LONG_ARRAY: length = is.readInt(); long[] longData = new long[length]; for (int i = 0; i < length; i++) { longData[i] = is.readLong(); } return new LongArrayTag(longData); default: throw new IOException("Invalid tag type: " + type + "."); } } @Override public void close() throws IOException { is.close(); } //FAWE start - Copied from FaweStreamChangeSet public Iterator toIterator() { return new Iterator() { private CompoundTag last = read(); public CompoundTag read() { try { return (CompoundTag) NBTInputStream.this.readTag(); } catch (Exception ignored) { // Assume input is complete } try { is.close(); } catch (IOException e) { e.printStackTrace(); } return null; } @Override public boolean hasNext() { return last != null || ((last = read()) != null); } @Override public CompoundTag next() { CompoundTag tmp = last; if (tmp == null) { tmp = read(); } last = null; return tmp; } @Override public void remove() { throw new IllegalArgumentException("CANNOT REMOVE"); } }; } //FAWE end }