annotate src/ca/randelshofer/DataChunkOutputStream.java @ 30:be37291c62b8

propagated AudioFormat to other classes.
author Robert McIntyre <rlm@mit.edu>
date Sun, 30 Oct 2011 10:11:21 -0700
parents 4c5fc53778c1
children
rev   line source
rlm@10 1 /**
rlm@10 2 * @(#)DataChunkOutputStream.java 1.1 2011-01-17
rlm@10 3 *
rlm@10 4 * Copyright (c) 2008-2011 Werner Randelshofer, Immensee, Switzerland.
rlm@10 5 * All rights reserved.
rlm@10 6 *
rlm@10 7 * You may not use, copy or modify this file, except in compliance with the
rlm@10 8 * license agreement you entered into with Werner Randelshofer.
rlm@10 9 * For details see accompanying license terms.
rlm@10 10 */
rlm@10 11 package ca.randelshofer;
rlm@10 12
rlm@10 13 import java.io.*;
rlm@10 14
rlm@10 15 /**
rlm@10 16 * This output stream filter supports common data types used inside
rlm@10 17 * of AVI RIFF Data Chunks.
rlm@10 18 *
rlm@10 19 * @author Werner Randelshofer
rlm@10 20 * @version 1.1 2011-01-17 Adds functionality for blocking flush and close.
rlm@10 21 * <br>1.0.1 2010-04-05 Removed unused constants.
rlm@10 22 * <br>1.0 2008-08-11 Created.
rlm@10 23 */
rlm@10 24 public class DataChunkOutputStream extends FilterOutputStream {
rlm@10 25
rlm@10 26 /**
rlm@10 27 * The number of bytes written to the data output stream so far.
rlm@10 28 * If this counter overflows, it will be wrapped to Integer.MAX_VALUE.
rlm@10 29 */
rlm@10 30 protected long written;
rlm@10 31
rlm@10 32 /** Whether flush and close request shall be forwarded to underlying stream.*/
rlm@10 33 private boolean forwardFlushAndClose;
rlm@10 34
rlm@10 35 public DataChunkOutputStream(OutputStream out) {
rlm@10 36 this(out,true);
rlm@10 37 }
rlm@10 38 public DataChunkOutputStream(OutputStream out, boolean forwardFlushAndClose) {
rlm@10 39 super(out);
rlm@10 40 this.forwardFlushAndClose=forwardFlushAndClose;
rlm@10 41 }
rlm@10 42
rlm@10 43 /**
rlm@10 44 * Writes an chunk type identifier (4 bytes).
rlm@10 45 * @param s A string with a length of 4 characters.
rlm@10 46 */
rlm@10 47 public void writeType(String s) throws IOException {
rlm@10 48 if (s.length() != 4) {
rlm@10 49 throw new IllegalArgumentException("type string must have 4 characters");
rlm@10 50 }
rlm@10 51
rlm@10 52 try {
rlm@10 53 out.write(s.getBytes("ASCII"), 0, 4);
rlm@10 54 incCount(4);
rlm@10 55 } catch (UnsupportedEncodingException e) {
rlm@10 56 throw new InternalError(e.toString());
rlm@10 57 }
rlm@10 58 }
rlm@10 59
rlm@10 60 /**
rlm@10 61 * Writes out a <code>byte</code> to the underlying output stream as
rlm@10 62 * a 1-byte value. If no exception is thrown, the counter
rlm@10 63 * <code>written</code> is incremented by <code>1</code>.
rlm@10 64 *
rlm@10 65 * @param v a <code>byte</code> value to be written.
rlm@10 66 * @exception IOException if an I/O error occurs.
rlm@10 67 * @see java.io.FilterOutputStream#out
rlm@10 68 */
rlm@10 69 public final void writeByte(int v) throws IOException {
rlm@10 70 out.write(v);
rlm@10 71 incCount(1);
rlm@10 72 }
rlm@10 73
rlm@10 74 /**
rlm@10 75 * Writes <code>len</code> bytes from the specified byte array
rlm@10 76 * starting at offset <code>off</code> to the underlying output stream.
rlm@10 77 * If no exception is thrown, the counter <code>written</code> is
rlm@10 78 * incremented by <code>len</code>.
rlm@10 79 *
rlm@10 80 * @param b the data.
rlm@10 81 * @param off the start offset in the data.
rlm@10 82 * @param len the number of bytes to write.
rlm@10 83 * @exception IOException if an I/O error occurs.
rlm@10 84 * @see java.io.FilterOutputStream#out
rlm@10 85 */
rlm@10 86 @Override
rlm@10 87 public synchronized void write(byte b[], int off, int len)
rlm@10 88 throws IOException {
rlm@10 89 out.write(b, off, len);
rlm@10 90 incCount(len);
rlm@10 91 }
rlm@10 92
rlm@10 93 /**
rlm@10 94 * Writes the specified byte (the low eight bits of the argument
rlm@10 95 * <code>b</code>) to the underlying output stream. If no exception
rlm@10 96 * is thrown, the counter <code>written</code> is incremented by
rlm@10 97 * <code>1</code>.
rlm@10 98 * <p>
rlm@10 99 * Implements the <code>write</code> method of <code>OutputStream</code>.
rlm@10 100 *
rlm@10 101 * @param b the <code>byte</code> to be written.
rlm@10 102 * @exception IOException if an I/O error occurs.
rlm@10 103 * @see java.io.FilterOutputStream#out
rlm@10 104 */
rlm@10 105 @Override
rlm@10 106 public synchronized void write(int b) throws IOException {
rlm@10 107 out.write(b);
rlm@10 108 incCount(1);
rlm@10 109 }
rlm@10 110
rlm@10 111 /**
rlm@10 112 * Writes an <code>int</code> to the underlying output stream as four
rlm@10 113 * bytes, high byte first. If no exception is thrown, the counter
rlm@10 114 * <code>written</code> is incremented by <code>4</code>.
rlm@10 115 *
rlm@10 116 * @param v an <code>int</code> to be written.
rlm@10 117 * @exception IOException if an I/O error occurs.
rlm@10 118 * @see java.io.FilterOutputStream#out
rlm@10 119 */
rlm@10 120 public void writeInt(int v) throws IOException {
rlm@10 121 out.write((v >>> 0) & 0xff);
rlm@10 122 out.write((v >>> 8) & 0xff);
rlm@10 123 out.write((v >>> 16) & 0xff);
rlm@10 124 out.write((v >>> 24) & 0xff);
rlm@10 125 incCount(4);
rlm@10 126 }
rlm@10 127
rlm@10 128 /**
rlm@10 129 * Writes an unsigned 32 bit integer value.
rlm@10 130 *
rlm@10 131 * @param v The value
rlm@10 132 * @throws java.io.IOException
rlm@10 133 */
rlm@10 134 public void writeUInt(long v) throws IOException {
rlm@10 135 out.write((int) ((v >>> 0) & 0xff));
rlm@10 136 out.write((int) ((v >>> 8) & 0xff));
rlm@10 137 out.write((int) ((v >>> 16) & 0xff));
rlm@10 138 out.write((int) ((v >>> 24) & 0xff));
rlm@10 139 incCount(4);
rlm@10 140 }
rlm@10 141
rlm@10 142 /**
rlm@10 143 * Writes a signed 16 bit integer value.
rlm@10 144 *
rlm@10 145 * @param v The value
rlm@10 146 * @throws java.io.IOException
rlm@10 147 */
rlm@10 148 public void writeShort(int v) throws IOException {
rlm@10 149 out.write((int) ((v >>> 0) & 0xff));
rlm@10 150 out.write((int) ((v >> 8) & 0xff));
rlm@10 151 incCount(2);
rlm@10 152 }
rlm@10 153
rlm@10 154 public void writeLong(long v) throws IOException {
rlm@10 155 out.write((int) (v >>> 0) & 0xff);
rlm@10 156 out.write((int) (v >>> 8) & 0xff);
rlm@10 157 out.write((int) (v >>> 16) & 0xff);
rlm@10 158 out.write((int) (v >>> 24) & 0xff);
rlm@10 159 out.write((int) (v >>> 32) & 0xff);
rlm@10 160 out.write((int) (v >>> 40) & 0xff);
rlm@10 161 out.write((int) (v >>> 48) & 0xff);
rlm@10 162 out.write((int) (v >>> 56) & 0xff);
rlm@10 163 incCount(8);
rlm@10 164 }
rlm@10 165
rlm@10 166 public void writeUShort(int v) throws IOException {
rlm@10 167 out.write((int) ((v >>> 0) & 0xff));
rlm@10 168 out.write((int) ((v >> 8) & 0xff));
rlm@10 169 incCount(2);
rlm@10 170 }
rlm@10 171
rlm@10 172 /**
rlm@10 173 * Increases the written counter by the specified value
rlm@10 174 * until it reaches Long.MAX_VALUE.
rlm@10 175 */
rlm@10 176 protected void incCount(int value) {
rlm@10 177 long temp = written + value;
rlm@10 178 if (temp < 0) {
rlm@10 179 temp = Long.MAX_VALUE;
rlm@10 180 }
rlm@10 181 written = temp;
rlm@10 182 }
rlm@10 183
rlm@10 184 /**
rlm@10 185 * Returns the current value of the counter <code>written</code>,
rlm@10 186 * the number of bytes written to this data output stream so far.
rlm@10 187 * If the counter overflows, it will be wrapped to Integer.MAX_VALUE.
rlm@10 188 *
rlm@10 189 * @return the value of the <code>written</code> field.
rlm@10 190 * @see java.io.DataOutputStream#written
rlm@10 191 */
rlm@10 192 public final long size() {
rlm@10 193 return written;
rlm@10 194 }
rlm@10 195
rlm@10 196 /**
rlm@10 197 * Sets the value of the counter <code>written</code> to 0.
rlm@10 198 */
rlm@10 199 public void clearCount() {
rlm@10 200 written = 0;
rlm@10 201 }
rlm@10 202
rlm@10 203 @Override
rlm@10 204 public void close() throws IOException {
rlm@10 205 if (forwardFlushAndClose) {
rlm@10 206 super.close();
rlm@10 207 }
rlm@10 208 }
rlm@10 209
rlm@10 210 @Override
rlm@10 211 public void flush() throws IOException {
rlm@10 212 if (forwardFlushAndClose) {
rlm@10 213 super.flush();
rlm@10 214 }
rlm@10 215 }
rlm@10 216
rlm@10 217 }