/* * 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.util.Arrays; /** * Wraps an existing {@link Reader} and buffers the input. Expensive * interaction with the underlying reader is minimized, since most (smaller) * requests can be satisfied by accessing the buffer alone. The drawback is that * some extra space is required to hold the buffer and that copying takes place * when filling that buffer, but this is usually outweighed by the performance * benefits. * *
A typical application pattern for the class looks like this: * ** BufferedReader buf = new BufferedReader(new FileReader("file.java")); ** * @see BufferedWriter * @since 1.1 */ public class BufferedReader extends Reader { private Reader in; /** * The characters that can be read and refilled in bulk. We maintain three * indices into this buffer:
* { X X X X X X X X X X X X - - } * ^ ^ ^ * | | | * mark pos end* Pos points to the next readable character. End is one greater than the * last readable character. When {@code pos == end}, the buffer is empty and * must be {@link #fillBuf() filled} before characters can be read. * *
Mark is the value pos will be set to on calls to {@link #reset}. Its * value is in the range {@code [0...pos]}. If the mark is {@code -1}, the * buffer cannot be reset. * *
MarkLimit limits the distance between the mark and the pos. When this * limit is exceeded, {@link #reset} is permitted (but not required) to * throw an exception. For shorter distances, {@link #reset} shall not throw * (unless the reader is closed). */ private char[] buf; private int pos; private int end; private int mark = -1; private int markLimit = -1; /** * Constructs a new {@code BufferedReader}, providing {@code in} with a buffer * of 8192 characters. * * @param in the {@code Reader} the buffer reads from. */ public BufferedReader(Reader in) { this(in, 8192); } /** * Constructs a new {@code BufferedReader}, providing {@code in} with {@code size} characters * of buffer. * * @param in the {@code InputStream} the buffer reads from. * @param size the size of buffer in characters. * @throws IllegalArgumentException if {@code size <= 0}. */ public BufferedReader(Reader in, int size) { super(in); if (size <= 0) { throw new IllegalArgumentException("size <= 0"); } this.in = in; buf = new char[size]; } /** * Closes this reader. This implementation closes the buffered source reader * and releases the buffer. Nothing is done if this reader has already been * closed. * * @throws IOException * if an error occurs while closing this reader. */ @Override public void close() throws IOException { synchronized (lock) { if (!isClosed()) { in.close(); buf = null; } } } /** * Populates the buffer with data. It is an error to call this method when * the buffer still contains data; ie. if {@code pos < end}. * * @return the number of bytes read into the buffer, or -1 if the end of the * source stream has been reached. */ private int fillBuf() throws IOException { // assert(pos == end); if (mark == -1 || (pos - mark >= markLimit)) { /* mark isn't set or has exceeded its limit. use the whole buffer */ int result = in.read(buf, 0, buf.length); if (result > 0) { mark = -1; pos = 0; end = result; } return result; } if (mark == 0 && markLimit > buf.length) { /* the only way to make room when mark=0 is by growing the buffer */ int newLength = buf.length * 2; if (newLength > markLimit) { newLength = markLimit; } char[] newbuf = new char[newLength]; System.arraycopy(buf, 0, newbuf, 0, buf.length); buf = newbuf; } else if (mark > 0) { /* make room by shifting the buffered data to left mark positions */ System.arraycopy(buf, mark, buf, 0, buf.length - mark); pos -= mark; end -= mark; mark = 0; } /* Set the new position and mark position */ int count = in.read(buf, pos, buf.length - pos); if (count != -1) { end += count; } return count; } /** * Indicates whether or not this reader is closed. * * @return {@code true} if this reader is closed, {@code false} * otherwise. */ private boolean isClosed() { return buf == null; } /** * Sets a mark position in this reader. The parameter {@code markLimit} * indicates how many characters can be read before the mark is invalidated. * Calling {@code reset()} will reposition the reader back to the marked * position if {@code markLimit} has not been surpassed. * * @param markLimit * the number of characters that can be read before the mark is * invalidated. * @throws IllegalArgumentException * if {@code markLimit < 0}. * @throws IOException * if an error occurs while setting a mark in this reader. * @see #markSupported() * @see #reset() */ @Override public void mark(int markLimit) throws IOException { if (markLimit < 0) { throw new IllegalArgumentException(); } synchronized (lock) { checkNotClosed(); this.markLimit = markLimit; mark = pos; } } private void checkNotClosed() throws IOException { if (isClosed()) { throw new IOException("BufferedReader is closed"); } } /** * Indicates whether this reader supports the {@code mark()} and * {@code reset()} methods. This implementation returns {@code true}. * * @return {@code true} for {@code BufferedReader}. * @see #mark(int) * @see #reset() */ @Override public boolean markSupported() { return true; } /** * Reads a single character from this reader and returns it with the two * higher-order bytes set to 0. If possible, BufferedReader returns a * character from the buffer. If there are no characters available in the * buffer, it fills the buffer and then returns a character. It returns -1 * if there are no more characters in the source reader. * * @return the character read or -1 if the end of the source 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) { checkNotClosed(); /* Are there buffered characters available? */ if (pos < end || fillBuf() != -1) { return buf[pos++]; } return -1; } } /** * Reads at most {@code length} characters from this reader and stores them * at {@code offset} in the character array {@code buffer}. Returns the * number of characters actually read or -1 if the end of the source reader * has been reached. If all the buffered characters have been used, a mark * has not been set and the requested number of characters is larger than * this readers buffer size, BufferedReader bypasses the buffer and simply * places the results directly into {@code buffer}. * * @param buffer * the character array to store the characters read. * @param offset * the initial position in {@code buffer} to store the bytes read * from this reader. * @param length * the maximum number of characters to read, must be * non-negative. * @return number of characters read or -1 if the end of the source reader * has been reached. * @throws IndexOutOfBoundsException * if {@code offset < 0} or {@code length < 0}, or if * {@code offset + length} is greater than the size of * {@code buffer}. * @throws IOException * if this reader is closed or some other I/O error occurs. */ @Override public int read(char[] buffer, int offset, int length) throws IOException { synchronized (lock) { checkNotClosed(); Arrays.checkOffsetAndCount(buffer.length, offset, length); int outstanding = length; while (outstanding > 0) { /* * If there are bytes in the buffer, grab those first. */ int available = end - pos; if (available > 0) { int count = available >= outstanding ? outstanding : available; System.arraycopy(buf, pos, buffer, offset, count); pos += count; offset += count; outstanding -= count; } /* * Before attempting to read from the underlying stream, make * sure we really, really want to. We won't bother if we're * done, or if we've already got some bytes and reading from the * underlying stream would block. */ if (outstanding == 0 || (outstanding < length && !in.ready())) { break; } // assert(pos == end); /* * If we're unmarked and the requested size is greater than our * buffer, read the bytes directly into the caller's buffer. We * don't read into smaller buffers because that could result in * a many reads. */ if ((mark == -1 || (pos - mark >= markLimit)) && outstanding >= buf.length) { int count = in.read(buffer, offset, outstanding); if (count > 0) { outstanding -= count; mark = -1; } break; // assume the source stream gave us all that it could } if (fillBuf() == -1) { break; // source is exhausted } } int count = length - outstanding; return (count > 0 || count == length) ? count : -1; } } /** * Peeks at the next input character, refilling the buffer if necessary. If * this character is a newline character ("\n"), it is discarded. */ final void chompNewline() throws IOException { if ((pos != end || fillBuf() != -1) && buf[pos] == '\n') { pos++; } } /** * Returns the next line of text available from this reader. A line is * represented by zero or more characters followed by {@code '\n'}, * {@code '\r'}, {@code "\r\n"} or the end of the reader. The string does * not include the newline sequence. * * @return the contents of the line or {@code null} if no characters were * read before the end of the reader has been reached. * @throws IOException * if this reader is closed or some other I/O error occurs. */ public String readLine() throws IOException { synchronized (lock) { checkNotClosed(); /* has the underlying stream been exhausted? */ if (pos == end && fillBuf() == -1) { return null; } for (int charPos = pos; charPos < end; charPos++) { char ch = buf[charPos]; if (ch > '\r') { continue; } if (ch == '\n') { String res = new String(buf, pos, charPos - pos); pos = charPos + 1; return res; } else if (ch == '\r') { String res = new String(buf, pos, charPos - pos); pos = charPos + 1; if (((pos < end) || (fillBuf() != -1)) && (buf[pos] == '\n')) { pos++; } return res; } } char eol = '\0'; StringBuilder result = new StringBuilder(80); /* Typical Line Length */ result.append(buf, pos, end - pos); while (true) { pos = end; /* Are there buffered characters available? */ if (eol == '\n') { return result.toString(); } // attempt to fill buffer if (fillBuf() == -1) { // characters or null. return result.length() > 0 || eol != '\0' ? result.toString() : null; } for (int charPos = pos; charPos < end; charPos++) { char c = buf[charPos]; if (eol == '\0') { if ((c == '\n' || c == '\r')) { eol = c; } } else if (eol == '\r' && c == '\n') { if (charPos > pos) { result.append(buf, pos, charPos - pos - 1); } pos = charPos + 1; return result.toString(); } else { if (charPos > pos) { result.append(buf, pos, charPos - pos - 1); } pos = charPos; return result.toString(); } } if (eol == '\0') { result.append(buf, pos, end - pos); } else { result.append(buf, pos, end - pos - 1); } } } } /** * Indicates whether this reader is ready to be read without blocking. * * @return {@code true} if this reader 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. * @see #read() * @see #read(char[], int, int) * @see #readLine() */ @Override public boolean ready() throws IOException { synchronized (lock) { checkNotClosed(); return ((end - pos) > 0) || in.ready(); } } /** * Resets this reader's position to the last {@code mark()} location. * Invocations of {@code read()} and {@code skip()} will occur from this new * location. * * @throws IOException * if this reader is closed or no mark has been set. * @see #mark(int) * @see #markSupported() */ @Override public void reset() throws IOException { synchronized (lock) { checkNotClosed(); if (mark == -1) { throw new IOException("Invalid mark"); } pos = mark; } } /** * Skips {@code byteCount} bytes in this stream. Subsequent calls to * {@code read} will not return these bytes unless {@code reset} is * used. * Skipping characters may invalidate a mark if {@code markLimit} * is surpassed. * * @param byteCount * the maximum number of characters to skip. * @return the number of characters actually skipped. * @throws IllegalArgumentException * if {@code byteCount < 0}. * @throws IOException * if this reader is closed or some other I/O error occurs. * @see #mark(int) * @see #markSupported() * @see #reset() */ @Override public long skip(long byteCount) throws IOException { if (byteCount < 0) { throw new IllegalArgumentException("byteCount < 0: " + byteCount); } synchronized (lock) { checkNotClosed(); if (byteCount < 1) { return 0; } if (end - pos >= byteCount) { pos += byteCount; return byteCount; } long read = end - pos; pos = end; while (read < byteCount) { if (fillBuf() == -1) { return read; } if (end - pos >= byteCount - read) { pos += byteCount - read; return byteCount; } // Couldn't get all the characters, skip what we read read += (end - pos); pos = end; } return byteCount; } } }