/*
    * $Source$
    * $Revision$
    *
    * Copyright (C) 2000 Myles Chippendale
    *
    * Part of Melati (http://melati.org), a framework for the rapid
    * development of clean, maintainable web applications.
    *
   * Melati is free software; Permission is granted to copy, distribute
   * and/or modify this software under the terms either:
   *
   * a) the GNU General Public License as published by the Free Software
   *    Foundation; either version 2 of the License, or (at your option)
   *    any later version,
   *
   *    or
   *
   * b) any version of the Melati Software License, as published
   *    at http://melati.org
   *
   * You should have received a copy of the GNU General Public License and
   * the Melati Software License along with this program;
   * if not, write to the Free Software Foundation, Inc.,
   * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA to obtain the
   * GNU General Public License and visit http://melati.org to obtain the
   * Melati Software License.
   *
   * Feel free to contact the Developers of Melati (http://melati.org),
   * if you would like to work out a different arrangement than the options
   * outlined here.  It is our intention to allow Melati to be used by as
   * wide an audience as possible.
   *
   * This program is distributed in the hope that it will be useful,
   * but WITHOUT ANY WARRANTY; without even the implied warranty of
   * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   * GNU General Public License for more details.
   *
   * Contact details for copyright holder:
   *
   *     Myles Chippendale <mylesc At paneris.org>
   *     http://paneris.org/
   *     29 Stanley Road, Oxford, OX4 1QY, UK
   */
  
  package org.melati.util;
  
  import java.io.BufferedInputStream;
  import java.io.IOException;
  import java.io.InputStream;
  
  /**
   * Like a <code>BufferedInputStream</code> except it has a new function
   * {@link #readToDelimiter} which will only read bytes upto the start
   * of any occurrence of the delimiter in the InputStream.
   *
   * @see java.io.BufferedInputStream
   */
  
  public class DelimitedBufferedInputStream extends BufferedInputStream {
  
      private int potentialMatch = -1;
  
      /**
       * Creates a <code>DelimitedBufferedInputStream</code>
       * and saves its  argument, the input stream
       * <code>in</code>, for later use. An internal
       * buffer array is created and  stored in <code>buf</code>.
       *
       * @param   in   the underlying input stream.
       **/
      public DelimitedBufferedInputStream(InputStream in) {
         super(in);
      }
  
      /**
       * Creates a <code>DelimitedBufferedInputStream</code>
       * with the specified buffer size,
       * and saves its  argument, the input stream
       * <code>in</code>, for later use.  An internal
       * buffer array of length  <code>size</code>
       * is created and stored in <code>buf</code>.
       *
       * @param   in     the underlying input stream.
       * @param   size   the buffer size.
       **/
      public DelimitedBufferedInputStream(InputStream in, int size) {
        super(in, size);
      }
  
      /**
       * Fills the buffer with more data, taking into account
       * shuffling and other tricks for dealing with marks.
       * Assumes that it is being called by a synchronized method.
       * This method also assumes that all data has already been read in,
       * hence pos > count.
       * <p>
       * This code is copy'n'pasted from BufferedInputString (it's private)
       **/
     private void fill() throws IOException {
       if (markpos < 0)
            pos = 0;                 /* no mark: throw away the buffer */
       else if (pos >= buf.length)   /* no room left in buffer */
            if (markpos > 0) {    /* can throw away early part of the buffer */
                int sz = pos - markpos;
                System.arraycopy(buf, markpos, buf, 0, sz);
                pos = sz;
                markpos = 0;
             }
             else if (buf.length >= marklimit) {
                markpos = -1;    /* buffer got too big, invalidate mark */
                pos = 0;         /* drop buffer contents */
             }
             else {              /* grow buffer */
                int nsz = pos * 2;
                if (nsz > marklimit)
                    nsz = marklimit;
                byte nbuf[] = new byte[nsz];
                System.arraycopy(buf, 0, nbuf, 0, pos);
                buf = nbuf;
             }
 
       count = pos;
       int n = in.read(buf, pos, buf.length - pos);
       if (n > 0)
         count = n + pos;
     }
 
     /**
      * Check to make sure that this stream has not been closed.
      * <p>
      * This code is copy'n'pasted from BufferedInputString (it's private)
      **/
     private void ensureOpen() throws IOException {
       if (in == null)
         throw new IOException("Stream closed");
     }
 
     /**
      * Read characters into a portion of an array, reading from the underlying
      * stream at most twice if necessary.
      **/
     private int readToDelimiter1(byte[] b, int off, int len, byte delim[])
           throws IOException {
       int avail = count - pos;
       if (avail <= 0) {
           fill();
           avail = count - pos;
           if (avail <= 0) return -1;
       }
       int cnt = (avail < len) ? avail : len;
 
       // indexOf sets potentialMatch
       int found = indexOf(buf, delim, pos, avail);
       int max = cnt;
       if (found != -1)
         max = found - pos;
       else if (potentialMatch != -1)
         max = potentialMatch - pos;
 
       cnt = (max < cnt) ? max : cnt;
       System.arraycopy(buf, pos, b, off, cnt);
       pos += cnt;
 
       /* We want to shuffle the buffer so that it contains
        * at least delim.length bytes after potentialMatch,
        * if we have read that far into the buffer 
        */
       if (found == -1 && potentialMatch != -1 && pos == potentialMatch) {
 
         /* the number of bytes to shift the buffer down by */
         int halfmark = (markpos == -1)
                        ? potentialMatch
                        : markpos;
 
         /* 
            the number of bytes we need to read to get all our potential
            delim into the buffer 
          */
         int extras = potentialMatch + delim.length - count;
 
         /* the number of bytes we want to end up in buf */
         int nsz = potentialMatch + delim.length - halfmark;
         if (nsz > buf.length) {
           // we need to grow the buffer
           byte nbuf[] = new byte[nsz];
           System.arraycopy(buf, halfmark, nbuf, 0, count - halfmark);
           buf = nbuf;
         } else {
           System.arraycopy(buf, halfmark, buf, 0, count - halfmark);
         }
 
         pos = pos - halfmark;
         count = count - halfmark;
         markpos = (markpos == -1) ? -1 : 0;
         int n = in.read(buf, count, buf.length - count);
         if (n > 0)
           count += n;
 
         /* If, after reading, we don't have enough bytes to match delim,
            add the new bytes to our output */
         if (n < extras) {
           int unfilled = len - cnt;
           if (unfilled > 0) {
             avail = count - pos;
             int cnt2 = (unfilled < avail) ? unfilled : avail;
             System.arraycopy(buf, pos, b, off+cnt, cnt2);
             cnt += cnt2;
             pos += cnt2;
           }
         }
       }
       return cnt;
     }
 
     /**
      * Reads bytes from this byte-input stream into the specified byte array,
      * starting at the given offset, but we stop at the first occurrence of
      * delim.
      *
      * <p> This method implements the general contract of the corresponding
      * <code>{@link InputStream#read(byte[], int, int) read}</code> method of
      * the <code>{@link InputStream}</code> class.  As an additional
      * convenience, it attempts to read as many bytes as possible by repeatedly
      * invoking the <code>read</code> method of the underlying stream.  This
      * iterated <code>read</code> continues until one of the following
      * conditions becomes true: <ul>
      *
      *   <li> The specified number of bytes have been read,
      *
      *   <li> The <code>read</code> method of the underlying stream returns
      *   <code>-1</code>, indicating end-of-file, or
      *
      *   <li> The <code>available</code> method of the underlying stream
      *   returns zero, indicating that further input requests would block.
      *
      *   <li> We encounter an occurrence of delim in the underlying stream
      *
      * </ul> If the first <code>read</code> on the underlying stream returns
      * <code>-1</code> to indicate end-of-file then this method returns
      * <code>-1</code>.  Otherwise this method returns the number of bytes
      * actually read.
      *
      * <p> Subclasses of this class are encouraged, but not required, to
      * attempt to read as many bytes as possible in the same fashion.
      *
      * @param      b     destination buffer.
      * @param      off   offset at which to start storing bytes.
      * @param      len   maximum number of bytes to read.
      * @param      delim the delimiter which we should stop reading at.
      * @return     the number of bytes read, or <code>-1</code> if the end of
      *             the stream has been reached.
      * @exception  IOException  if an I/O error occurs.
      **/
   public synchronized int readToDelimiter(byte b[], int off, 
                                           int len, byte delim[])
         throws IOException  {
     ensureOpen();
     if ((off < 0) || (off > b.length) || (len < 0) ||
             ((off + len) > b.length) || ((off + len) < 0)) {
         throw new IndexOutOfBoundsException();
     } else if (len == 0) {
         return 0;
     }
 
     int n = readToDelimiter1(b, off, len, delim);
     if (n <= 0) return n;
     while ((n < len) && (in.available() > 0)) {
       int n1 = readToDelimiter1(b, off + n, len - n, delim);
       if (n1 <= 0) break;
       n += n1;
     }
     return n;
   }
 
     /**
      * Calculates length.
      * <p>
      * Returns the index within data1 of the
      * byte array data2. It starts looking in data1 at fromIndex and only
      * considers len bytes of data1
      *  
      * @param      data1 array to look in.
      * @param      data2 array to look for.
      * @param      fromIndex where to start looking from in data1.
      * @return the index of data2 within data1 or
      *         -1 if data2 does not occur within data1
      */
     public int indexOf(byte[] data1, byte[] data2, int fromIndex) {
       if (fromIndex < 0)
         fromIndex = 0;
       return indexOf(data1, data2, fromIndex, data1.length - fromIndex);
     }
 
     /**
      * Returns the index within data1 of the
      * byte array data2. It starts looking in data1 at fromIndex and only
      * considers len bytes of data1
      *
      * @param      data1 array to look in.
      * @param      data2 array to look for.
      * @param      fromIndex where to start looking from in data1.
      * @param      len   maximum number of bytes of data1 to look in.
      * @return the index of data2 within data1 or
      *         -1 if data2 does not occur within data1
      **/
     public int indexOf(byte[] data1, byte[] data2, int fromIndex, int len) {
       byte[] v1 = data1;
       byte[] v2 = data2;
       if (len <= 0)
         return -1;
       if (fromIndex >= data1.length) {
         if (data1.length == 0 && fromIndex == 0 && data2.length == 0)
           return 0;
         return -1;
       }
       if (fromIndex < 0)
         fromIndex = 0;
       if (data2.length == 0)
         return fromIndex;
       int end = (fromIndex + len > data1.length) ? 
                            data1.length : fromIndex + len;
       int maxStart = end - data2.length;
       byte first = v2[0];
       int i = fromIndex;
 
       startSearchForFirstByte:
       while (true) {
         potentialMatch = -1;
         while (i < end && v1[i] != first)
           i++;
         if (i >= end)
           return -1;
         if (i > maxStart) {  // we might find an initial segment of delim
           potentialMatch = i;
         }
         int j = i + 1;
         int last = (potentialMatch == -1) ? i + data2.length : data1.length;
         int k = 1;
         while (j < last) {
           if (v1[j++] != v2[k++]) {
             i++;
             continue startSearchForFirstByte;
           }
         }
         return (potentialMatch == -1) ? i : -1;
       }
     }
 
 
     /**
      * Used in tests.
      * @return the buffer length
      */
     public int getBufferLength() { 
       return buf.length;
     }
     /**
      * Used in tests.
      * @return the potentialMatch
      */
     public int getPotentialMatch() {
       return potentialMatch;
     }
 
 }