FreeChainXenon/gcc
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

Initial revision

Browse source 
From-SVN: r26263
This commit is contained in:
Tom Tromey 1999-04-07 14:42:40 +00:00
parent 140fa895c6
commit ee9dd3721b
370 changed files with 173494 additions and 0 deletions
Download patch file Download diff file Expand all files Collapse all files

373
libjava/java/io/BufferedReader.java Normal file
View file

@ -0,0 +1,373 @@
/* 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;
/**
* @author Per Bothner <bothner@cygnus.com>
* @date April 22, 1998.
*/
/* Written using "Java Class Libraries", 2nd edition, plus online
* API docs for JDK 1.2 beta from http://www.javasoft.com.
* Status: Believed complete and correct.
*/
public class BufferedReader extends Reader
{
Reader in;
char[] buffer;
/* Index of current read position. Must be >= 0 and <= limit. */
/* There is a special case where pos may be equal to limit+1; this
* is used as an indicator that a readLine was done with a '\r' was
* the very last char in the buffer. Since we don't want to read-ahead
* and potentially block, we set pos this way to indicate the situation
* and deal with it later. Doing it this way rather than having a
* separate boolean field to indicate the condition has the advantage
* that it is self-clearing on things like mark/reset.
*/
int pos;
/* Limit of valid data in buffer. Must be >= pos and <= buffer.length. */
/* This can be < pos in the one special case described above. */
int limit;
/* The value -1 means there is no mark, or the mark has been invalidated.
Otherwise, markPos is the index in the buffer of the marked position.
Must be >= 0 and <= pos.
Note we do not explicitly store the read-limit.
The implicit read-limit is (buffer.length - markPos), which is
guaranteed to be >= the read-limit requested in the call to mark. */
int markPos = -1;
public BufferedReader(Reader in)
{
this(in, 8192);
}
public BufferedReader(Reader in, int size)
{
super(in.lock);
this.in = in;
buffer = new char[size];
}
public void close() throws IOException
{
synchronized (lock)
{
if (in != null)
in.close();
in = null;
buffer = null;
}
}
public boolean markSupported()
{
return true;
}
public void mark(int readLimit) throws IOException
{
synchronized (lock)
{
// In this method we need to be aware of the special case where
// pos + 1 == limit. This indicates that a '\r' was the last char
// in the buffer during a readLine. We'll want to maintain that
// condition after we shift things around and if a larger buffer is
// needed to track readLimit, we'll have to make it one element
// larger to ensure we don't invalidate the mark too early, if the
// char following the '\r' is NOT a '\n'. This is ok because, per
// the spec, we are not required to invalidate when passing readLimit.
//
// Note that if 'pos > limit', then doing 'limit -= pos' will cause
// limit to be negative. This is the only way limit will be < 0.
if (pos + readLimit > limit)
{
char[] old_buffer = buffer;
int extraBuffSpace = 0;
if (pos > limit)
extraBuffSpace = 1;
if (readLimit + extraBuffSpace > limit)
buffer = new char[readLimit + extraBuffSpace];
limit -= pos;
if (limit >= 0)
{
System.arraycopy(old_buffer, pos, buffer, 0, limit);
pos = 0;
}
}
if (limit < 0)
{
// Maintain the relationship of 'pos > limit'.
pos = 1;
limit = markPos = 0;
}
else
markPos = pos;
// Now pos + readLimit <= buffer.length. thus if we need to read
// beyond buffer.length, then we are allowed to invalidate markPos.
}
}
public void reset() throws IOException
{
synchronized (lock)
{
if (markPos < 0)
throw new IOException("mark never set or invalidated");
// Need to handle the extremely unlikely case where a readLine was
// done with a '\r' as the last char in the buffer; which was then
// immediately followed by a mark and a reset with NO intervening
// read of any sort. In that case, setting pos to markPos would
// lose that info and a subsequent read would thus not skip a '\n'
// (if one exists). The value of limit in this rare case is zero.
// We can assume that if limit is zero for other reasons, then
// pos is already set to zero and doesn't need to be readjusted.
if (limit > 0)
pos = markPos;
}
}
public boolean ready() throws IOException
{
synchronized (lock)
{
return pos < limit || in.ready();
}
}
public int read(char[] buf, int offset, int count) throws IOException
{
synchronized (lock)
{
// Once again, we need to handle the special case of a readLine
// that has a '\r' at the end of the buffer. In this case, we'll
// need to skip a '\n' if it is the next char to be read.
// This special case is indicated by 'pos > limit'.
boolean retAtEndOfBuffer = false;
int avail = limit - pos;
if (count > avail)
{
if (avail > 0)
count = avail;
else // pos >= limit
{
if (limit == buffer.length)
markPos = -1; // read too far - invalidate the mark.
if (pos > limit)
{
// Set a boolean and make pos == limit to simplify things.
retAtEndOfBuffer = true;
--pos;
}
if (markPos < 0)
{
// Optimization: can read directly into buf.
if (count >= buffer.length && !retAtEndOfBuffer)
return in.read(buf, offset, count);
pos = limit = 0;
}
avail = in.read(buffer, limit, buffer.length - limit);
if (retAtEndOfBuffer && avail > 0 && buffer[limit] == '\n')
{
--avail;
limit++;
}
if (avail < count)
{
if (avail <= 0)
return avail;
count = avail;
}
limit += avail;
}
}
System.arraycopy(buffer, pos, buf, offset, count);
pos += count;
return count;
}
}
/* Read more data into the buffer. Update pos and limit appropriatly.
Assumes pos==limit initially. May invalidate the mark if read too much.
Return number of chars read (never 0), or -1 on eof. */
private int fill() throws IOException
{
// Handle the special case of a readLine that has a '\r' at the end of
// the buffer. In this case, we'll need to skip a '\n' if it is the
// next char to be read. This special case is indicated by 'pos > limit'.
boolean retAtEndOfBuffer = false;
if (pos > limit)
{
retAtEndOfBuffer = true;
--pos;
}
if (markPos >= 0 && limit == buffer.length)
markPos = -1;
if (markPos <= 0)
pos = limit = 0;
int count = in.read(buffer, limit, buffer.length - limit);
if (count > 0)
limit += count;
if (retAtEndOfBuffer && buffer[pos] == '\n')
{
--count;
pos++;
}
return count;
}
public int read() throws IOException
{
synchronized (lock)
{
if (pos >= limit && fill () <= 0)
return -1;
return buffer[pos++];
}
}
/* Return the end of the line starting at this.pos and ending at limit.
* The index returns is *before* any line terminators, or limit
* if no line terminators were found.
*/
private int lineEnd(int limit)
{
int i = pos;
for (; i < limit; i++)
{
char ch = buffer[i];
if (ch == '\n' || ch == '\r')
break;
}
return i;
}
public String readLine() throws IOException
{
// Handle the special case where a previous readLine (with no intervening
// reads/skips) had a '\r' at the end of the buffer.
// In this case, we'll need to skip a '\n' if it's the next char to be read.
// This special case is indicated by 'pos > limit'.
if (pos > limit)
{
int ch = read();
if (ch < 0)
return null;
if (ch != '\n')
--pos;
}
int i = lineEnd(limit);
if (i < limit)
{
String str = new String(buffer, pos, i - pos);
pos = i + 1;
// If the last char in the buffer is a '\r', we must remember
// to check if the next char to be read after the buffer is refilled
// is a '\n'. If so, skip it. To indicate this condition, we set pos
// to be limit + 1, which normally is never possible.
if (buffer[i] == '\r')
if (pos == limit || buffer[pos] == '\n')
pos++;
return str;
}
StringBuffer sbuf = new StringBuffer(200);
sbuf.append(buffer, pos, i - pos);
pos = i;
// We only want to return null when no characters were read before
// EOF. So we must keep track of this separately. Otherwise we
// would treat an empty `sbuf' as an EOF condition, which is wrong
// when there is just a newline.
boolean eof = false;
for (;;)
{
int ch = read();
if (ch < 0)
{
eof = true;
break;
}
if (ch == '\n' || ch == '\r')
{
// Check here if a '\r' was the last char in the buffer; if so,
// mark it as in the comment above to indicate future reads
// should skip a newline that is the next char read after
// refilling the buffer.
if (ch == '\r')
if (pos == limit || buffer[pos] == '\n')
pos++;
break;
}
i = lineEnd(limit);
sbuf.append(buffer, pos - 1, i - (pos - 1));
pos = i;
}
return (sbuf.length() == 0 && eof) ? null : sbuf.toString();
}
public long skip(long count) throws IOException
{
if (count <= 0)
return 0;
synchronized (lock)
{
// Yet again, we need to handle the special case of a readLine
// that has a '\r' at the end of the buffer. In this case, we need
// to ignore a '\n' if it is the next char to be read.
// This special case is indicated by 'pos > limit' (i.e. avail < 0).
// To simplify things, if we're dealing with the special case for
// readLine, just read the next char (since the fill method will
// skip the '\n' for us). By doing this, we'll have to back up pos.
// That's easier than trying to keep track of whether we've skipped
// one element or not.
int ch;
if (pos > limit)
if ((ch = read()) < 0)
return 0;
else
--pos;
int avail = limit - pos;
if (count < avail)
{
pos += count;
return count;
}
pos = limit;
long todo = count - avail;
if (todo > buffer.length)
{
markPos = -1;
todo -= in.skip(todo);
}
else
{
while (todo > 0)
{
avail = fill();
if (avail <= 0)
break;
if (avail > todo)
avail = (int) todo;
pos += avail;
todo -= avail;
}
}
return count - todo;
}
}
}