/* * 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.charset.Charset; import java.nio.charset.IllegalCharsetNameException; import java.util.Arrays; import java.util.Formatter; import java.util.IllegalFormatException; import java.util.Locale; /** * Wraps an existing {@link OutputStream} and provides convenience methods for * writing common data types in a human readable format. This is not to be * confused with DataOutputStream which is used for encoding common data types * so that they can be read back in. No {@code IOException} is thrown by this * class. Instead, callers should use {@link #checkError()} to see if a problem * has occurred in this stream. */ public class PrintStream extends FilterOutputStream implements Appendable, Closeable { /** * indicates whether or not this PrintStream has incurred an error. */ private boolean ioError; /** * indicates whether or not this PrintStream should flush its contents after * printing a new line. */ private boolean autoFlush; private String encoding; /** * Constructs a new {@code PrintStream} with {@code out} as its target * stream. By default, the new print stream does not automatically flush its * contents to the target stream when a newline is encountered. * * @param out * the target output stream. * @throws NullPointerException * if {@code out} is {@code null}. */ public PrintStream(OutputStream out) { super(out); if (out == null) { throw new NullPointerException(); } } /** * Constructs a new {@code PrintStream} with {@code out} as its target * stream. The parameter {@code autoFlush} determines if the print stream * automatically flushes its contents to the target stream when a newline is * encountered. * * @param out * the target output stream. * @param autoFlush * indicates whether to flush contents upon encountering a * newline sequence. * @throws NullPointerException * if {@code out} is {@code null}. */ public PrintStream(OutputStream out, boolean autoFlush) { super(out); if (out == null) { throw new NullPointerException(); } this.autoFlush = autoFlush; } /** * Constructs a new {@code PrintStream} with {@code out} as its target * stream and using the character encoding {@code enc} while writing. The * parameter {@code autoFlush} determines if the print stream automatically * flushes its contents to the target stream when a newline is encountered. * * @param out * the target output stream. * @param autoFlush * indicates whether or not to flush contents upon encountering a * newline sequence. * @param enc * the non-null string describing the desired character encoding. * @throws NullPointerException * if {@code out} or {@code enc} are {@code null}. * @throws UnsupportedEncodingException * if the encoding specified by {@code enc} is not supported. */ public PrintStream(OutputStream out, boolean autoFlush, String enc) throws UnsupportedEncodingException { super(out); if (out == null || enc == null) { throw new NullPointerException(); } this.autoFlush = autoFlush; try { if (!Charset.isSupported(enc)) { throw new UnsupportedEncodingException(enc); } } catch (IllegalCharsetNameException e) { throw new UnsupportedEncodingException(enc); } encoding = enc; } /** * Constructs a new {@code PrintStream} with {@code file} as its target. The * VM's default character set is used for character encoding. * * @param file * the target file. If the file already exists, its contents are * removed, otherwise a new file is created. * @throws FileNotFoundException * if an error occurs while opening or creating the target file. */ public PrintStream(File file) throws FileNotFoundException { super(new FileOutputStream(file)); } /** * Constructs a new {@code PrintStream} with {@code file} as its target. The * character set named {@code csn} is used for character encoding. * * @param file * the target file. If the file already exists, its contents are * removed, otherwise a new file is created. * @param csn * the name of the character set used for character encoding. * @throws FileNotFoundException * if an error occurs while opening or creating the target file. * @throws NullPointerException * if {@code csn} is {@code null}. * @throws UnsupportedEncodingException * if the encoding specified by {@code csn} is not supported. */ public PrintStream(File file, String csn) throws FileNotFoundException, UnsupportedEncodingException { super(new FileOutputStream(file)); if (csn == null) { throw new NullPointerException(); } if (!Charset.isSupported(csn)) { throw new UnsupportedEncodingException(csn); } encoding = csn; } /** * Constructs a new {@code PrintStream} with the file identified by * {@code fileName} as its target. The VM's default character * set is used for character encoding. * * @param fileName * the target file's name. If the file already exists, its * contents are removed, otherwise a new file is created. * @throws FileNotFoundException * if an error occurs while opening or creating the target file. */ public PrintStream(String fileName) throws FileNotFoundException { this(new File(fileName)); } /** * Constructs a new {@code PrintStream} with the file identified by * {@code fileName} as its target. The character set named {@code csn} is * used for character encoding. * * @param fileName * the target file's name. If the file already exists, its * contents are removed, otherwise a new file is created. * @param csn * the name of the character set used for character encoding. * @throws FileNotFoundException * if an error occurs while opening or creating the target file. * @throws NullPointerException * if {@code csn} is {@code null}. * @throws UnsupportedEncodingException * if the encoding specified by {@code csn} is not supported. */ public PrintStream(String fileName, String csn) throws FileNotFoundException, UnsupportedEncodingException { this(new File(fileName), csn); } /** * Flushes this stream and returns the value of the error flag. * * @return {@code true} if either an {@code IOException} has been thrown * previously or if {@code setError()} has been called; * {@code false} otherwise. * @see #setError() */ public boolean checkError() { OutputStream delegate = out; if (delegate == null) { return ioError; } flush(); return ioError || delegate.checkError(); } /** * Sets the error state of the stream to false. * @since 1.6 */ protected void clearError() { ioError = false; } /** * Closes this print stream. Flushes this stream and then closes the target * stream. If an I/O error occurs, this stream's error state is set to * {@code true}. */ @Override public synchronized void close() { flush(); if (out != null) { try { out.close(); out = null; } catch (IOException e) { setError(); } } } /** * Ensures that all pending data is sent out to the target stream. It also * flushes the target stream. If an I/O error occurs, this stream's error * state is set to {@code true}. */ @Override public synchronized void flush() { if (out != null) { try { out.flush(); return; } catch (IOException e) { // Ignored, fall through to setError } } setError(); } /** * Formats {@code args} according to the format string {@code format}, and writes the result * to this stream. This method uses the user's default locale. * See "Be wary of the default locale". * * @param format the format string (see {@link java.util.Formatter#format}) * @param args * the list of arguments passed to the formatter. If there are * more arguments than required by {@code format}, * additional arguments are ignored. * @return this stream. * @throws IllegalFormatException * if the format string is illegal or incompatible with the * arguments, if there are not enough arguments or if any other * error regarding the format string or arguments is detected. * @throws NullPointerException if {@code format == null} */ public PrintStream format(String format, Object... args) { return format(Locale.getDefault(), format, args); } /** * Writes a string formatted by an intermediate {@link Formatter} to this * stream using the specified locale, format string and arguments. * * @param l * the locale used in the method. No localization will be applied * if {@code l} is {@code null}. * @param format the format string (see {@link java.util.Formatter#format}) * @param args * the list of arguments passed to the formatter. If there are * more arguments than required by {@code format}, * additional arguments are ignored. * @return this stream. * @throws IllegalFormatException * if the format string is illegal or incompatible with the * arguments, if there are not enough arguments or if any other * error regarding the format string or arguments is detected. * @throws NullPointerException if {@code format == null} */ public PrintStream format(Locale l, String format, Object... args) { if (format == null) { throw new NullPointerException("format == null"); } new Formatter(this, l).format(format, args); return this; } /** * Prints a formatted string. The behavior of this method is the same as * this stream's {@code #format(String, Object...)} method. * *
The {@code Locale} used is the user's default locale. * See "Be wary of the default locale". * * @param format the format string (see {@link java.util.Formatter#format}) * @param args * the list of arguments passed to the formatter. If there are * more arguments than required by {@code format}, * additional arguments are ignored. * @return this stream. * @throws IllegalFormatException * if the format string is illegal or incompatible with the * arguments, if there are not enough arguments or if any other * error regarding the format string or arguments is detected. * @throws NullPointerException if {@code format == null} */ public PrintStream printf(String format, Object... args) { return format(format, args); } /** * Prints a formatted string. The behavior of this method is the same as * this stream's {@code #format(Locale, String, Object...)} method. * * @param l * the locale used in the method. No localization will be applied * if {@code l} is {@code null}. * @param format the format string (see {@link java.util.Formatter#format}) * @param args * the list of arguments passed to the formatter. If there are * more arguments than required by {@code format}, * additional arguments are ignored. * @return this stream. * @throws IllegalFormatException * if the format string is illegal or incompatible with the * arguments, if there are not enough arguments or if any other * error regarding the format string or arguments is detected. * @throws NullPointerException if {@code format == null}. */ public PrintStream printf(Locale l, String format, Object... args) { return format(l, format, args); } /** * Put the line separator String onto the print stream. */ private void newline() { print(System.lineSeparator()); } /** * Prints the string representation of the character array {@code chars}. */ public void print(char[] chars) { print(new String(chars, 0, chars.length)); } /** * Prints the string representation of the char {@code c}. */ public void print(char c) { print(String.valueOf(c)); } /** * Prints the string representation of the double {@code d}. */ public void print(double d) { print(String.valueOf(d)); } /** * Prints the string representation of the float {@code f}. */ public void print(float f) { print(String.valueOf(f)); } /** * Prints the string representation of the int {@code i}. */ public void print(int i) { print(String.valueOf(i)); } /** * Prints the string representation of the long {@code l}. */ public void print(long l) { print(String.valueOf(l)); } /** * Prints the string representation of the Object {@code o}, or {@code "null"}. */ public void print(Object o) { print(String.valueOf(o)); } /** * Prints a string to the target stream. The string is converted to an array * of bytes using the encoding chosen during the construction of this * stream. The bytes are then written to the target stream with * {@code write(int)}. * *
If an I/O error occurs, this stream's error state is set to {@code true}. * * @param str * the string to print to the target stream. * @see #write(int) */ public synchronized void print(String str) { if (out == null) { setError(); return; } if (str == null) { print("null"); return; } try { if (encoding == null) { write(str.getBytes()); } else { write(str.getBytes(encoding)); } } catch (IOException e) { setError(); } } /** * Prints the string representation of the boolean {@code b}. */ public void print(boolean b) { print(String.valueOf(b)); } /** * Prints a newline. */ public void println() { newline(); } /** * Prints the string representation of the character array {@code chars} followed by a newline. */ public void println(char[] chars) { println(new String(chars, 0, chars.length)); } /** * Prints the string representation of the char {@code c} followed by a newline. */ public void println(char c) { println(String.valueOf(c)); } /** * Prints the string representation of the double {@code d} followed by a newline. */ public void println(double d) { println(String.valueOf(d)); } /** * Prints the string representation of the float {@code f} followed by a newline. */ public void println(float f) { println(String.valueOf(f)); } /** * Prints the string representation of the int {@code i} followed by a newline. */ public void println(int i) { println(String.valueOf(i)); } /** * Prints the string representation of the long {@code l} followed by a newline. */ public void println(long l) { println(String.valueOf(l)); } /** * Prints the string representation of the Object {@code o}, or {@code "null"}, * followed by a newline. */ public void println(Object o) { println(String.valueOf(o)); } /** * Prints a string followed by a newline. The string is converted to an array of bytes using * the encoding chosen during the construction of this stream. The bytes are * then written to the target stream with {@code write(int)}. * *
If an I/O error occurs, this stream's error state is set to {@code true}. * * @param str * the string to print to the target stream. * @see #write(int) */ public synchronized void println(String str) { print(str); newline(); } /** * Prints the string representation of the boolean {@code b} followed by a newline. */ public void println(boolean b) { println(String.valueOf(b)); } /** * Sets the error flag of this print stream to true. */ protected void setError() { ioError = true; } /** * Writes {@code count} bytes from {@code buffer} starting at {@code offset} * to the target stream. If autoFlush is set, this stream gets flushed after * writing the buffer. * *
This stream's error flag is set to {@code true} if this stream is closed * or an I/O error occurs. * * @param buffer * the buffer to be written. * @param offset * the index of the first byte in {@code buffer} to write. * @param length * the number of bytes in {@code buffer} to write. * @throws IndexOutOfBoundsException * if {@code offset < 0} or {@code count < 0}, or if {@code * offset + count} is bigger than the length of {@code buffer}. * @see #flush() */ @Override public void write(byte[] buffer, int offset, int length) { Arrays.checkOffsetAndCount(buffer.length, offset, length); synchronized (this) { if (out == null) { setError(); return; } try { out.write(buffer, offset, length); if (autoFlush) { flush(); } } catch (IOException e) { setError(); } } } /** * Writes one byte to the target stream. Only the least significant byte of * the integer {@code oneByte} is written. This stream is flushed if * {@code oneByte} is equal to the character {@code '\n'} and this stream is * set to autoFlush. *
* This stream's error flag is set to {@code true} if it is closed or an I/O * error occurs. * * @param oneByte * the byte to be written */ @Override public synchronized void write(int oneByte) { if (out == null) { setError(); return; } try { out.write(oneByte); int b = oneByte & 0xFF; // 0x0A is ASCII newline, 0x15 is EBCDIC newline. boolean isNewline = b == 0x0A || b == 0x15; if (autoFlush && isNewline) { flush(); } } catch (IOException e) { setError(); } } /** * Appends the char {@code c}. * @return this stream. */ public PrintStream append(char c) { print(c); return this; } /** * Appends the CharSequence {@code charSequence}, or {@code "null"}. * @return this stream. */ public PrintStream append(CharSequence charSequence) { if (charSequence == null) { print("null"); } else { print(charSequence.toString()); } return this; } /** * Appends a subsequence of CharSequence {@code charSequence}, or {@code "null"}. * * @param charSequence * the character sequence appended to the target stream. * @param start * the index of the first char in the character sequence appended * to the target stream. * @param end * the index of the character following the last character of the * subsequence appended to the target stream. * @return this stream. * @throws IndexOutOfBoundsException * if {@code start > end}, {@code start < 0}, {@code end < 0} or * either {@code start} or {@code end} are greater or equal than * the length of {@code charSequence}. */ public PrintStream append(CharSequence charSequence, int start, int end) { if (charSequence == null) { charSequence = "null"; } print(charSequence.subSequence(start, end).toString()); return this; } }