// PrintStream.java - Print string representations /* Copyright (C) 1998, 1999 Cygnus Solutions This file is part of libgcj. This software is copyrighted work licensed under the terms of the Libgcj License. Please consult the file "LIBGCJ_LICENSE" for details. */ package java.io; import gnu.gcj.convert.UnicodeToBytes; /** * @author Tom Tromey * @date September 24, 1998 */ /* Written using "Java Class Libraries", 2nd edition, ISBN 0-201-31002-3 * "The Java Language Specification", ISBN 0-201-63451-1 * Status: Not finished. */ public class PrintStream extends FilterOutputStream { /* Notice the implementation is quite similar to OutputStreamWriter. * This leads to some minor duplication, because neither inherits * from the other, and we want to maximize performance. */ public boolean checkError () { return error; } public void close () { try { out.close(); } catch (IOException e) { setError (); } } public void flush () { try { out.flush(); } catch (IOException e) { setError (); } } private synchronized void print (String str, boolean println) { try { writeChars(str, 0, str.length()); if (println) writeChars(line_separator, 0, line_separator.length); if (auto_flush) flush(); } catch (IOException e) { setError (); } } private synchronized void print (char[] chars, int pos, int len, boolean println) { try { writeChars(chars, pos, len); if (println) writeChars(line_separator, 0, line_separator.length); if (auto_flush) flush(); } catch (IOException e) { setError (); } } /** Writes characters through to the inferior BufferedOutputStream. */ private void writeChars(char[] buf, int offset, int count) throws IOException { while (count > 0) { // We must flush if out.count == out.buf.length. // It is probably a good idea to flush if out.buf is almost full. // This test is an approximation for "almost full". if (out.count + count >= out.buf.length) { out.flush(); if (out.count != 0) throw new IOException("unable to flush output byte buffer"); } converter.setOutput(out.buf, out.count); int converted = converter.write(buf, offset, count); offset += converted; count -= converted; out.count = converter.count; } } private void writeChars(String str, int offset, int count) throws IOException { while (count > 0) { // We must flush if out.count == out.buf.length. // It is probably a good idea to flush if out.buf is almost full. // This test is an approximation for "almost full". if (out.count + count >= out.buf.length) { out.flush(); if (out.count != 0) throw new IOException("unable to flush output byte buffer"); } converter.setOutput(out.buf, out.count); int converted = converter.write(str, offset, count, work); offset += converted; count -= converted; out.count = converter.count; } } public void print (boolean bool) { print(String.valueOf(bool), false); } public void print (int inum) { print(String.valueOf(inum), false); } public void print (long lnum) { print(String.valueOf(lnum), false); } public void print (float fnum) { print(String.valueOf(fnum), false); } public void print (double dnum) { print(String.valueOf(dnum), false); } public void print (Object obj) { print(obj == null ? "null" : obj.toString(), false); } public void print (String str) { print(str == null ? "null" : str, false); } public synchronized void print (char ch) { work[0] = ch; print(work, 0, 1, false); } public void print (char[] charArray) { print(charArray, 0, charArray.length, false); } public void println () { print(line_separator, 0, line_separator.length, false); } public void println (boolean bool) { print(String.valueOf(bool), true); } public void println (int inum) { print(String.valueOf(inum), true); } public void println (long lnum) { print(String.valueOf(lnum), true); } public void println (float fnum) { print(String.valueOf(fnum), true); } public void println (double dnum) { print(String.valueOf(dnum), true); } public void println (Object obj) { print(obj == null ? "null" : obj.toString(), true); } public void println (String str) { print (str == null ? "null" : str, true); } public synchronized void println (char ch) { work[0] = ch; print(work, 0, 1, true); } public void println (char[] charArray) { print(charArray, 0, charArray.length, true); } public PrintStream (OutputStream out) { this(out, false); } public PrintStream (OutputStream out, boolean af) { super ((this.out = (out instanceof BufferedOutputStream ? (BufferedOutputStream) out : new BufferedOutputStream(out, 250)))); converter = UnicodeToBytes.getDefaultEncoder(); error = false; auto_flush = af; } protected void setError () { error = true; } public void write (int oneByte) { try { out.write(oneByte); if (auto_flush && oneByte == '\n') out.flush(); } catch (IOException e) { setError (); } } public void write (byte[] buffer, int offset, int count) { try { out.write(buffer, offset, count); if (auto_flush) out.flush(); } catch (IOException e) { setError (); } } BufferedOutputStream out; UnicodeToBytes converter; char[] work = new char[100]; // True if error occurred. private boolean error; // True if auto-flush. private boolean auto_flush; // Line separator string. private static final char[] line_separator = System.getProperty("line.separator").toCharArray(); }