/* * Copyright (c) 2002-2012, the original author or authors. * * This software is distributable under the BSD license. See the terms of the * BSD license in the documentation provided with this software. * * http://www.opensource.org/licenses/bsd-license.php */ package jline.internal; import java.io.IOException; import java.io.InputStream; import java.io.OutputStreamWriter; import java.io.Reader; import java.io.UnsupportedEncodingException; import java.nio.ByteBuffer; import java.nio.CharBuffer; import java.nio.charset.Charset; import java.nio.charset.CharsetDecoder; import java.nio.charset.CoderResult; import java.nio.charset.CodingErrorAction; import java.nio.charset.MalformedInputException; import java.nio.charset.UnmappableCharacterException; /** * * NOTE for JLine: the default InputStreamReader that comes from the JRE * usually read more bytes than needed from the input stream, which * is not usable in a character per character model used in the console. * We thus use the harmony code which only reads the minimal number of bytes, * with a modification to ensure we can read larger characters (UTF-16 has * up to 4 bytes, and UTF-32, rare as it is, may have up to 8). */ /** * A class for turning a byte stream into a character stream. Data read from the * source input stream is converted into characters by either a default or a * provided character converter. The default encoding is taken from the * "file.encoding" system property. {@code InputStreamReader} contains a buffer * of bytes read from the source stream and converts these into characters as * needed. The buffer size is 8K. * * @see OutputStreamWriter */ public class InputStreamReader extends Reader { private InputStream in; private static final int BUFFER_SIZE = 8192; private boolean endOfInput = false; String encoding; CharsetDecoder decoder; ByteBuffer bytes = ByteBuffer.allocate(BUFFER_SIZE); /** * Constructs a new {@code InputStreamReader} on the {@link InputStream} * {@code in}. This constructor sets the character converter to the encoding * specified in the "file.encoding" property and falls back to ISO 8859_1 * (ISO-Latin-1) if the property doesn't exist. * * @param in * the input stream from which to read characters. */ public InputStreamReader(InputStream in) { super(in); this.in = in; // FIXME: This should probably use Configuration.getFileEncoding() encoding = System.getProperty("file.encoding", "ISO8859_1"); //$NON-NLS-1$//$NON-NLS-2$ decoder = Charset.forName(encoding).newDecoder().onMalformedInput( CodingErrorAction.REPLACE).onUnmappableCharacter( CodingErrorAction.REPLACE); bytes.limit(0); } /** * Constructs a new InputStreamReader on the InputStream {@code in}. The * character converter that is used to decode bytes into characters is * identified by name by {@code enc}. If the encoding cannot be found, an * UnsupportedEncodingException error is thrown. * * @param in * the InputStream from which to read characters. * @param enc * identifies the character converter to use. * @throws NullPointerException * if {@code enc} is {@code null}. * @throws UnsupportedEncodingException * if the encoding specified by {@code enc} cannot be found. */ public InputStreamReader(InputStream in, final String enc) throws UnsupportedEncodingException { super(in); if (enc == null) { throw new NullPointerException(); } this.in = in; try { decoder = Charset.forName(enc).newDecoder().onMalformedInput( CodingErrorAction.REPLACE).onUnmappableCharacter( CodingErrorAction.REPLACE); } catch (IllegalArgumentException e) { throw (UnsupportedEncodingException) new UnsupportedEncodingException(enc).initCause(e); } bytes.limit(0); } /** * Constructs a new InputStreamReader on the InputStream {@code in} and * CharsetDecoder {@code dec}. * * @param in * the source InputStream from which to read characters. * @param dec * the CharsetDecoder used by the character conversion. */ public InputStreamReader(InputStream in, CharsetDecoder dec) { super(in); dec.averageCharsPerByte(); this.in = in; decoder = dec; bytes.limit(0); } /** * Constructs a new InputStreamReader on the InputStream {@code in} and * Charset {@code charset}. * * @param in * the source InputStream from which to read characters. * @param charset * the Charset that defines the character converter */ public InputStreamReader(InputStream in, Charset charset) { super(in); this.in = in; decoder = charset.newDecoder().onMalformedInput( CodingErrorAction.REPLACE).onUnmappableCharacter( CodingErrorAction.REPLACE); bytes.limit(0); } /** * Closes this reader. This implementation closes the source InputStream and * releases all local storage. * * @throws IOException * if an error occurs attempting to close this reader. */ @Override public void close() throws IOException { synchronized (lock) { decoder = null; if (in != null) { in.close(); in = null; } } } /** * Returns the name of the encoding used to convert bytes into characters. * The value {@code null} is returned if this reader has been closed. * * @return the name of the character converter or {@code null} if this * reader is closed. */ public String getEncoding() { if (!isOpen()) { return null; } return encoding; } /** * Reads a single character from this reader and returns it as an integer * with the two higher-order bytes set to 0. Returns -1 if the end of the * reader has been reached. The byte value is either obtained from * converting bytes in this reader's buffer or by first filling the buffer * from the source InputStream and then reading from the buffer. * * @return the character read or -1 if the end of the reader has been * reached. * @throws IOException * if this reader is closed or some other I/O error occurs. */ @Override public int read() throws IOException { synchronized (lock) { if (!isOpen()) { throw new IOException("InputStreamReader is closed."); } char buf[] = new char[4]; return read(buf, 0, 4) != -1 ? Character.codePointAt(buf, 0) : -1; } } /** * Reads at most {@code length} characters from this reader and stores them * at position {@code offset} in the character array {@code buf}. Returns * the number of characters actually read or -1 if the end of the reader has * been reached. The bytes are either obtained from converting bytes in this * reader's buffer or by first filling the buffer from the source * InputStream and then reading from the buffer. * * @param buf * the array to store the characters read. * @param offset * the initial position in {@code buf} to store the characters * read from this reader. * @param length * the maximum number of characters to read. * @return the number of characters read or -1 if the end of the reader has * been reached. * @throws IndexOutOfBoundsException * if {@code offset < 0} or {@code length < 0}, or if * {@code offset + length} is greater than the length of * {@code buf}. * @throws IOException * if this reader is closed or some other I/O error occurs. */ @Override public int read(char[] buf, int offset, int length) throws IOException { synchronized (lock) { if (!isOpen()) { throw new IOException("InputStreamReader is closed."); } if (offset < 0 || offset > buf.length - length || length < 0) { throw new IndexOutOfBoundsException(); } if (length == 0) { return 0; } CharBuffer out = CharBuffer.wrap(buf, offset, length); CoderResult result = CoderResult.UNDERFLOW; // bytes.remaining() indicates number of bytes in buffer // when 1-st time entered, it'll be equal to zero boolean needInput = !bytes.hasRemaining(); while (out.hasRemaining()) { // fill the buffer if needed if (needInput) { try { if ((in.available() == 0) && (out.position() > offset)) { // we could return the result without blocking read break; } } catch (IOException e) { // available didn't work so just try the read } int to_read = bytes.capacity() - bytes.limit(); int off = bytes.arrayOffset() + bytes.limit(); int was_red = in.read(bytes.array(), off, to_read); if (was_red == -1) { endOfInput = true; break; } else if (was_red == 0) { break; } bytes.limit(bytes.limit() + was_red); needInput = false; } // decode bytes result = decoder.decode(bytes, out, false); if (result.isUnderflow()) { // compact the buffer if no space left if (bytes.limit() == bytes.capacity()) { bytes.compact(); bytes.limit(bytes.position()); bytes.position(0); } needInput = true; } else { break; } } if (result == CoderResult.UNDERFLOW && endOfInput) { result = decoder.decode(bytes, out, true); decoder.flush(out); decoder.reset(); } if (result.isMalformed()) { throw new MalformedInputException(result.length()); } else if (result.isUnmappable()) { throw new UnmappableCharacterException(result.length()); } return out.position() - offset == 0 ? -1 : out.position() - offset; } } /* * Answer a boolean indicating whether or not this InputStreamReader is * open. */ private boolean isOpen() { return in != null; } /** * Indicates whether this reader is ready to be read without blocking. If * the result is {@code true}, the next {@code read()} will not block. If * the result is {@code false} then this reader may or may not block when * {@code read()} is called. This implementation returns {@code true} if * there are bytes available in the buffer or the source stream has bytes * available. * * @return {@code true} if the receiver will not block when {@code read()} * is called, {@code false} if unknown or blocking will occur. * @throws IOException * if this reader is closed or some other I/O error occurs. */ @Override public boolean ready() throws IOException { synchronized (lock) { if (in == null) { throw new IOException("InputStreamReader is closed."); } try { return bytes.hasRemaining() || in.available() > 0; } catch (IOException e) { return false; } } } }