/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.io; import java.nio.ByteBuffer; import java.nio.CharBuffer; import java.nio.charset.Charset; import java.nio.charset.CharsetEncoder; import java.nio.charset.CoderResult; import java.nio.charset.CodingErrorAction; import java.util.Arrays; /** * A class for turning a character stream into a byte stream. Data written to * the target input stream is converted into bytes by either a default or a * provided character converter. The default encoding is taken from the * "file.encoding" system property. {@code OutputStreamWriter} contains a buffer * of bytes to be written to target stream and converts these into characters as * needed. The buffer size is 8K. * * @see InputStreamReader */ public class OutputStreamWriter extends Writer { private final OutputStream out; private CharsetEncoder encoder; private ByteBuffer bytes = ByteBuffer.allocate(8192); /** * Constructs a new OutputStreamWriter using {@code out} as the target * stream to write converted characters to. The default character encoding * is used. * * @param out * the non-null target stream to write converted bytes to. */ public OutputStreamWriter(OutputStream out) { this(out, Charset.defaultCharset()); } /** * Constructs a new OutputStreamWriter using {@code out} as the target * stream to write converted characters to and {@code charsetName} as the character * encoding. If the encoding cannot be found, an * UnsupportedEncodingException error is thrown. * * @param out * the target stream to write converted bytes to. * @param charsetName * the string describing the desired character encoding. * @throws NullPointerException * if {@code charsetName} is {@code null}. * @throws UnsupportedEncodingException * if the encoding specified by {@code charsetName} cannot be found. */ public OutputStreamWriter(OutputStream out, final String charsetName) throws UnsupportedEncodingException { super(out); if (charsetName == null) { throw new NullPointerException("charsetName == null"); } this.out = out; try { encoder = Charset.forName(charsetName).newEncoder(); } catch (Exception e) { throw new UnsupportedEncodingException(charsetName); } encoder.onMalformedInput(CodingErrorAction.REPLACE); encoder.onUnmappableCharacter(CodingErrorAction.REPLACE); } /** * Constructs a new OutputStreamWriter using {@code out} as the target * stream to write converted characters to and {@code cs} as the character * encoding. * * @param out * the target stream to write converted bytes to. * @param cs * the {@code Charset} that specifies the character encoding. */ public OutputStreamWriter(OutputStream out, Charset cs) { super(out); this.out = out; encoder = cs.newEncoder(); encoder.onMalformedInput(CodingErrorAction.REPLACE); encoder.onUnmappableCharacter(CodingErrorAction.REPLACE); } /** * Constructs a new OutputStreamWriter using {@code out} as the target * stream to write converted characters to and {@code charsetEncoder} as the character * encoder. * * @param out * the target stream to write converted bytes to. * @param charsetEncoder * the character encoder used for character conversion. */ public OutputStreamWriter(OutputStream out, CharsetEncoder charsetEncoder) { super(out); charsetEncoder.charset(); this.out = out; encoder = charsetEncoder; } /** * Closes this writer. This implementation flushes the buffer but does not * flush the target stream. The target stream is then closed and the resources for the * buffer and converter are released. * *

Only the first invocation of this method has any effect. Subsequent calls * do nothing. * * @throws IOException * if an error occurs while closing this writer. */ @Override public void close() throws IOException { synchronized (lock) { if (encoder != null) { drainEncoder(); flushBytes(false); out.close(); encoder = null; bytes = null; } } } /** * Flushes this writer. This implementation ensures that all buffered bytes * are written to the target stream. After writing the bytes, the target * stream is flushed as well. * * @throws IOException * if an error occurs while flushing this writer. */ @Override public void flush() throws IOException { flushBytes(true); } private void flushBytes(boolean flushUnderlyingStream) throws IOException { synchronized (lock) { checkStatus(); int position = bytes.position(); if (position > 0) { bytes.flip(); out.write(bytes.array(), bytes.arrayOffset(), position); bytes.clear(); } if (flushUnderlyingStream) { out.flush(); } } } private void convert(CharBuffer chars) throws IOException { while (true) { CoderResult result = encoder.encode(chars, bytes, false); if (result.isOverflow()) { // Make room and try again. flushBytes(false); continue; } else if (result.isError()) { result.throwException(); } break; } } private void drainEncoder() throws IOException { // Strictly speaking, I think it's part of the CharsetEncoder contract that you call // encode with endOfInput true before flushing. Our ICU-based implementations don't // actually need this, and you'd hope that any reasonable implementation wouldn't either. // CharsetEncoder.encode doesn't actually pass the boolean through to encodeLoop anyway! CharBuffer chars = CharBuffer.allocate(0); while (true) { CoderResult result = encoder.encode(chars, bytes, true); if (result.isError()) { result.throwException(); } else if (result.isOverflow()) { flushBytes(false); continue; } break; } // Some encoders (such as ISO-2022-JP) have stuff to write out after all the // characters (such as shifting back into a default state). In our implementation, // this is actually the first time ICU is told that we've run out of input. CoderResult result = encoder.flush(bytes); while (!result.isUnderflow()) { if (result.isOverflow()) { flushBytes(false); result = encoder.flush(bytes); } else { result.throwException(); } } } private void checkStatus() throws IOException { if (encoder == null) { throw new IOException("OutputStreamWriter is closed"); } } /** * Returns the canonical name of the encoding used by this writer to convert characters to * bytes, or null if this writer has been closed. Most callers should probably keep * track of the String or Charset they passed in; this method may not return the same * name. */ public String getEncoding() { if (encoder == null) { return null; } return encoder.charset().name(); } /** * Writes {@code count} characters starting at {@code offset} in {@code buf} * to this writer. The characters are immediately converted to bytes by the * character converter and stored in a local buffer. If the buffer gets full * as a result of the conversion, this writer is flushed. * * @param buffer * the array containing characters to write. * @param offset * the index of the first character in {@code buf} to write. * @param count * the maximum number of characters to write. * @throws IndexOutOfBoundsException * if {@code offset < 0} or {@code count < 0}, or if * {@code offset + count} is greater than the size of * {@code buf}. * @throws IOException * if this writer has already been closed or another I/O error * occurs. */ @Override public void write(char[] buffer, int offset, int count) throws IOException { synchronized (lock) { checkStatus(); Arrays.checkOffsetAndCount(buffer.length, offset, count); CharBuffer chars = CharBuffer.wrap(buffer, offset, count); convert(chars); } } /** * Writes the character {@code oneChar} to this writer. The lowest two bytes * of the integer {@code oneChar} are immediately converted to bytes by the * character converter and stored in a local buffer. If the buffer gets full * by converting this character, this writer is flushed. * * @param oneChar * the character to write. * @throws IOException * if this writer is closed or another I/O error occurs. */ @Override public void write(int oneChar) throws IOException { synchronized (lock) { checkStatus(); CharBuffer chars = CharBuffer.wrap(new char[] { (char) oneChar }); convert(chars); } } /** * Writes {@code count} characters starting at {@code offset} in {@code str} * to this writer. The characters are immediately converted to bytes by the * character converter and stored in a local buffer. If the buffer gets full * as a result of the conversion, this writer is flushed. * * @param str * the string containing characters to write. * @param offset * the start position in {@code str} for retrieving characters. * @param count * the maximum number of characters to write. * @throws IOException * if this writer has already been closed or another I/O error * occurs. * @throws IndexOutOfBoundsException * if {@code offset < 0} or {@code count < 0}, or if * {@code offset + count} is bigger than the length of * {@code str}. */ @Override public void write(String str, int offset, int count) throws IOException { synchronized (lock) { if (count < 0) { throw new StringIndexOutOfBoundsException(str, offset, count); } if (str == null) { throw new NullPointerException("str == null"); } if ((offset | count) < 0 || offset > str.length() - count) { throw new StringIndexOutOfBoundsException(str, offset, count); } checkStatus(); CharBuffer chars = CharBuffer.wrap(str, offset, count + offset); convert(chars); } } @Override boolean checkError() { return out.checkError(); } }