/* * Copyright (c) 1999, 2010, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.sound.sampled; import java.util.Collections; import java.util.HashMap; import java.util.Map; /** * AudioFormat is the class that specifies a particular arrangement of data in a sound stream. * By examing the information stored in the audio format, you can discover how to interpret the bits in the * binary sound data. *

* Every data line has an audio format associated with its data stream. The audio format of a source (playback) data line indicates * what kind of data the data line expects to receive for output. For a target (capture) data line, the audio format specifies the kind * of the data that can be read from the line. * Sound files also have audio formats, of course. The {@link AudioFileFormat} * class encapsulates an AudioFormat in addition to other, * file-specific information. Similarly, an {@link AudioInputStream} has an * AudioFormat. *

* The AudioFormat class accommodates a number of common sound-file encoding techniques, including * pulse-code modulation (PCM), mu-law encoding, and a-law encoding. These encoding techniques are predefined, * but service providers can create new encoding types. * The encoding that a specific format uses is named by its encoding field. *

* In addition to the encoding, the audio format includes other properties that further specify the exact * arrangement of the data. * These include the number of channels, sample rate, sample size, byte order, frame rate, and frame size. * Sounds may have different numbers of audio channels: one for mono, two for stereo. * The sample rate measures how many "snapshots" (samples) of the sound pressure are taken per second, per channel. * (If the sound is stereo rather than mono, two samples are actually measured at each instant of time: one for the left channel, * and another for the right channel; however, the sample rate still measures the number per channel, so the rate is the same * regardless of the number of channels. This is the standard use of the term.) * The sample size indicates how many bits are used to store each snapshot; 8 and 16 are typical values. * For 16-bit samples (or any other sample size larger than a byte), * byte order is important; the bytes in each sample are arranged in * either the "little-endian" or "big-endian" style. * For encodings like PCM, a frame consists of the set of samples for all channels at a given * point in time, and so the size of a frame (in bytes) is always equal to the size of a sample (in bytes) times * the number of channels. However, with some other sorts of encodings a frame can contain * a bundle of compressed data for a whole series of samples, as well as additional, non-sample * data. For such encodings, the sample rate and sample size refer to the data after it is decoded into PCM, * and so they are completely different from the frame rate and frame size. * *

An AudioFormat object can include a set of * properties. A property is a pair of key and value: the key * is of type String, the associated property * value is an arbitrary object. Properties specify * additional format specifications, like the bit rate for * compressed formats. Properties are mainly used as a means * to transport additional information of the audio format * to and from the service providers. Therefore, properties * are ignored in the {@link #matches(AudioFormat)} method. * However, methods which rely on the installed service * providers, like {@link AudioSystem#isConversionSupported * (AudioFormat, AudioFormat) isConversionSupported} may consider * properties, depending on the respective service provider * implementation. * *

The following table lists some common properties which * service providers should use, if applicable: * * * * * * * * * * * * * * * * * * * * * * *
Property keyValue typeDescription
"bitrate"{@link java.lang.Integer Integer}average bit rate in bits per second
"vbr"{@link java.lang.Boolean Boolean}true, if the file is encoded in variable bit * rate (VBR)
"quality"{@link java.lang.Integer Integer}encoding/conversion quality, 1..100
* *

Vendors of service providers (plugins) are encouraged * to seek information about other already established * properties in third party plugins, and follow the same * conventions. * * @author Kara Kytle * @author Florian Bomers * @see DataLine#getFormat * @see AudioInputStream#getFormat * @see AudioFileFormat * @see javax.sound.sampled.spi.FormatConversionProvider * @since 1.3 */ public class AudioFormat { // INSTANCE VARIABLES /** * The audio encoding technique used by this format. */ protected Encoding encoding; /** * The number of samples played or recorded per second, for sounds that have this format. */ protected float sampleRate; /** * The number of bits in each sample of a sound that has this format. */ protected int sampleSizeInBits; /** * The number of audio channels in this format (1 for mono, 2 for stereo). */ protected int channels; /** * The number of bytes in each frame of a sound that has this format. */ protected int frameSize; /** * The number of frames played or recorded per second, for sounds that have this format. */ protected float frameRate; /** * Indicates whether the audio data is stored in big-endian or little-endian order. */ protected boolean bigEndian; /** The set of properties */ private HashMap properties; /** * Constructs an AudioFormat with the given parameters. * The encoding specifies the convention used to represent the data. * The other parameters are further explained in the {@link AudioFormat * class description}. * @param encoding the audio encoding technique * @param sampleRate the number of samples per second * @param sampleSizeInBits the number of bits in each sample * @param channels the number of channels (1 for mono, 2 for stereo, and so on) * @param frameSize the number of bytes in each frame * @param frameRate the number of frames per second * @param bigEndian indicates whether the data for a single sample * is stored in big-endian byte order (false * means little-endian) */ public AudioFormat(Encoding encoding, float sampleRate, int sampleSizeInBits, int channels, int frameSize, float frameRate, boolean bigEndian) { this.encoding = encoding; this.sampleRate = sampleRate; this.sampleSizeInBits = sampleSizeInBits; this.channels = channels; this.frameSize = frameSize; this.frameRate = frameRate; this.bigEndian = bigEndian; this.properties = null; } /** * Constructs an AudioFormat with the given parameters. * The encoding specifies the convention used to represent the data. * The other parameters are further explained in the {@link AudioFormat * class description}. * @param encoding the audio encoding technique * @param sampleRate the number of samples per second * @param sampleSizeInBits the number of bits in each sample * @param channels the number of channels (1 for mono, 2 for * stereo, and so on) * @param frameSize the number of bytes in each frame * @param frameRate the number of frames per second * @param bigEndian indicates whether the data for a single sample * is stored in big-endian byte order * (false means little-endian) * @param properties a Map<String,Object> object * containing format properties * * @since 1.5 */ public AudioFormat(Encoding encoding, float sampleRate, int sampleSizeInBits, int channels, int frameSize, float frameRate, boolean bigEndian, Map properties) { this(encoding, sampleRate, sampleSizeInBits, channels, frameSize, frameRate, bigEndian); this.properties = new HashMap(properties); } /** * Constructs an AudioFormat with a linear PCM encoding and * the given parameters. The frame size is set to the number of bytes * required to contain one sample from each channel, and the frame rate * is set to the sample rate. * * @param sampleRate the number of samples per second * @param sampleSizeInBits the number of bits in each sample * @param channels the number of channels (1 for mono, 2 for stereo, and so on) * @param signed indicates whether the data is signed or unsigned * @param bigEndian indicates whether the data for a single sample * is stored in big-endian byte order (false * means little-endian) */ public AudioFormat(float sampleRate, int sampleSizeInBits, int channels, boolean signed, boolean bigEndian) { this((signed == true ? Encoding.PCM_SIGNED : Encoding.PCM_UNSIGNED), sampleRate, sampleSizeInBits, channels, (channels == AudioSystem.NOT_SPECIFIED || sampleSizeInBits == AudioSystem.NOT_SPECIFIED)? AudioSystem.NOT_SPECIFIED: ((sampleSizeInBits + 7) / 8) * channels, sampleRate, bigEndian); } /** * Obtains the type of encoding for sounds in this format. * * @return the encoding type * @see Encoding#PCM_SIGNED * @see Encoding#PCM_UNSIGNED * @see Encoding#ULAW * @see Encoding#ALAW */ public Encoding getEncoding() { return encoding; } /** * Obtains the sample rate. * For compressed formats, the return value is the sample rate of the uncompressed * audio data. * When this AudioFormat is used for queries (e.g. {@link * AudioSystem#isConversionSupported(AudioFormat, AudioFormat) * AudioSystem.isConversionSupported}) or capabilities (e.g. {@link * DataLine.Info#getFormats() DataLine.Info.getFormats}), a sample rate of * AudioSystem.NOT_SPECIFIED means that any sample rate is * acceptable. AudioSystem.NOT_SPECIFIED is also returned when * the sample rate is not defined for this audio format. * @return the number of samples per second, * or AudioSystem.NOT_SPECIFIED * * @see #getFrameRate() * @see AudioSystem#NOT_SPECIFIED */ public float getSampleRate() { return sampleRate; } /** * Obtains the size of a sample. * For compressed formats, the return value is the sample size of the * uncompressed audio data. * When this AudioFormat is used for queries (e.g. {@link * AudioSystem#isConversionSupported(AudioFormat, AudioFormat) * AudioSystem.isConversionSupported}) or capabilities (e.g. {@link * DataLine.Info#getFormats() DataLine.Info.getFormats}), a sample size of * AudioSystem.NOT_SPECIFIED means that any sample size is * acceptable. AudioSystem.NOT_SPECIFIED is also returned when * the sample size is not defined for this audio format. * @return the number of bits in each sample, * or AudioSystem.NOT_SPECIFIED * * @see #getFrameSize() * @see AudioSystem#NOT_SPECIFIED */ public int getSampleSizeInBits() { return sampleSizeInBits; } /** * Obtains the number of channels. * When this AudioFormat is used for queries (e.g. {@link * AudioSystem#isConversionSupported(AudioFormat, AudioFormat) * AudioSystem.isConversionSupported}) or capabilities (e.g. {@link * DataLine.Info#getFormats() DataLine.Info.getFormats}), a return value of * AudioSystem.NOT_SPECIFIED means that any (positive) number of channels is * acceptable. * @return The number of channels (1 for mono, 2 for stereo, etc.), * or AudioSystem.NOT_SPECIFIED * * @see AudioSystem#NOT_SPECIFIED */ public int getChannels() { return channels; } /** * Obtains the frame size in bytes. * When this AudioFormat is used for queries (e.g. {@link * AudioSystem#isConversionSupported(AudioFormat, AudioFormat) * AudioSystem.isConversionSupported}) or capabilities (e.g. {@link * DataLine.Info#getFormats() DataLine.Info.getFormats}), a frame size of * AudioSystem.NOT_SPECIFIED means that any frame size is * acceptable. AudioSystem.NOT_SPECIFIED is also returned when * the frame size is not defined for this audio format. * @return the number of bytes per frame, * or AudioSystem.NOT_SPECIFIED * * @see #getSampleSizeInBits() * @see AudioSystem#NOT_SPECIFIED */ public int getFrameSize() { return frameSize; } /** * Obtains the frame rate in frames per second. * When this AudioFormat is used for queries (e.g. {@link * AudioSystem#isConversionSupported(AudioFormat, AudioFormat) * AudioSystem.isConversionSupported}) or capabilities (e.g. {@link * DataLine.Info#getFormats() DataLine.Info.getFormats}), a frame rate of * AudioSystem.NOT_SPECIFIED means that any frame rate is * acceptable. AudioSystem.NOT_SPECIFIED is also returned when * the frame rate is not defined for this audio format. * @return the number of frames per second, * or AudioSystem.NOT_SPECIFIED * * @see #getSampleRate() * @see AudioSystem#NOT_SPECIFIED */ public float getFrameRate() { return frameRate; } /** * Indicates whether the audio data is stored in big-endian or little-endian * byte order. If the sample size is not more than one byte, the return value is * irrelevant. * @return true if the data is stored in big-endian byte order, * false if little-endian */ public boolean isBigEndian() { return bigEndian; } /** * Obtain an unmodifiable map of properties. * The concept of properties is further explained in * the {@link AudioFileFormat class description}. * * @return a Map<String,Object> object containing * all properties. If no properties are recognized, an empty map is * returned. * * @see #getProperty(String) * @since 1.5 */ public Map properties() { Map ret; if (properties == null) { ret = new HashMap(0); } else { ret = (Map) (properties.clone()); } return (Map) Collections.unmodifiableMap(ret); } /** * Obtain the property value specified by the key. * The concept of properties is further explained in * the {@link AudioFileFormat class description}. * *

If the specified property is not defined for a * particular file format, this method returns * null. * * @param key the key of the desired property * @return the value of the property with the specified key, * or null if the property does not exist. * * @see #properties() * @since 1.5 */ public Object getProperty(String key) { if (properties == null) { return null; } return properties.get(key); } /** * Indicates whether this format matches the one specified. * To match, two formats must have the same encoding, * and consistent values of the number of channels, sample rate, sample size, * frame rate, and frame size. * The values of the property are consistent if they are equal * or the specified format has the property value * {@code AudioSystem.NOT_SPECIFIED}. * The byte order (big-endian or little-endian) must be the same * if the sample size is greater than one byte. * * @param format format to test for match * @return {@code true} if this format matches the one specified, * {@code false} otherwise. */ public boolean matches(AudioFormat format) { if (format.getEncoding().equals(getEncoding()) && (format.getChannels() == AudioSystem.NOT_SPECIFIED || format.getChannels() == getChannels()) && (format.getSampleRate() == (float)AudioSystem.NOT_SPECIFIED || format.getSampleRate() == getSampleRate()) && (format.getSampleSizeInBits() == AudioSystem.NOT_SPECIFIED || format.getSampleSizeInBits() == getSampleSizeInBits()) && (format.getFrameRate() == (float)AudioSystem.NOT_SPECIFIED || format.getFrameRate() == getFrameRate()) && (format.getFrameSize() == AudioSystem.NOT_SPECIFIED || format.getFrameSize() == getFrameSize()) && (getSampleSizeInBits() <= 8 || format.isBigEndian() == isBigEndian())) { return true; } return false; } /** * Returns a string that describes the format, such as: * "PCM SIGNED 22050 Hz 16 bit mono big-endian". The contents of the string * may vary between implementations of Java Sound. * * @return a string that describes the format parameters */ public String toString() { String sEncoding = ""; if (getEncoding() != null) { sEncoding = getEncoding().toString() + " "; } String sSampleRate; if (getSampleRate() == (float) AudioSystem.NOT_SPECIFIED) { sSampleRate = "unknown sample rate, "; } else { sSampleRate = "" + getSampleRate() + " Hz, "; } String sSampleSizeInBits; if (getSampleSizeInBits() == (float) AudioSystem.NOT_SPECIFIED) { sSampleSizeInBits = "unknown bits per sample, "; } else { sSampleSizeInBits = "" + getSampleSizeInBits() + " bit, "; } String sChannels; if (getChannels() == 1) { sChannels = "mono, "; } else if (getChannels() == 2) { sChannels = "stereo, "; } else { if (getChannels() == AudioSystem.NOT_SPECIFIED) { sChannels = " unknown number of channels, "; } else { sChannels = ""+getChannels()+" channels, "; } } String sFrameSize; if (getFrameSize() == (float) AudioSystem.NOT_SPECIFIED) { sFrameSize = "unknown frame size, "; } else { sFrameSize = "" + getFrameSize()+ " bytes/frame, "; } String sFrameRate = ""; if (Math.abs(getSampleRate() - getFrameRate()) > 0.00001) { if (getFrameRate() == (float) AudioSystem.NOT_SPECIFIED) { sFrameRate = "unknown frame rate, "; } else { sFrameRate = getFrameRate() + " frames/second, "; } } String sEndian = ""; if ((getEncoding().equals(Encoding.PCM_SIGNED) || getEncoding().equals(Encoding.PCM_UNSIGNED)) && ((getSampleSizeInBits() > 8) || (getSampleSizeInBits() == AudioSystem.NOT_SPECIFIED))) { if (isBigEndian()) { sEndian = "big-endian"; } else { sEndian = "little-endian"; } } return sEncoding + sSampleRate + sSampleSizeInBits + sChannels + sFrameSize + sFrameRate + sEndian; } /** * The Encoding class names the specific type of data representation * used for an audio stream. The encoding includes aspects of the * sound format other than the number of channels, sample rate, sample size, * frame rate, frame size, and byte order. *

* One ubiquitous type of audio encoding is pulse-code modulation (PCM), * which is simply a linear (proportional) representation of the sound * waveform. With PCM, the number stored in each sample is proportional * to the instantaneous amplitude of the sound pressure at that point in * time. The numbers may be signed or unsigned integers or floats. * Besides PCM, other encodings include mu-law and a-law, which are nonlinear * mappings of the sound amplitude that are often used for recording speech. *

* You can use a predefined encoding by referring to one of the static * objects created by this class, such as PCM_SIGNED or * PCM_UNSIGNED. Service providers can create new encodings, such as * compressed audio formats, and make * these available through the {@link AudioSystem} class. *

* The Encoding class is static, so that all * AudioFormat objects that have the same encoding will refer * to the same object (rather than different instances of the same class). * This allows matches to be made by checking that two format's encodings * are equal. * * @see AudioFormat * @see javax.sound.sampled.spi.FormatConversionProvider * * @author Kara Kytle * @since 1.3 */ public static class Encoding { // ENCODING DEFINES /** * Specifies signed, linear PCM data. */ public static final Encoding PCM_SIGNED = new Encoding("PCM_SIGNED"); /** * Specifies unsigned, linear PCM data. */ public static final Encoding PCM_UNSIGNED = new Encoding("PCM_UNSIGNED"); /** * Specifies floating-point PCM data. * * @since 1.7 */ public static final Encoding PCM_FLOAT = new Encoding("PCM_FLOAT"); /** * Specifies u-law encoded data. */ public static final Encoding ULAW = new Encoding("ULAW"); /** * Specifies a-law encoded data. */ public static final Encoding ALAW = new Encoding("ALAW"); // INSTANCE VARIABLES /** * Encoding name. */ private String name; // CONSTRUCTOR /** * Constructs a new encoding. * @param name the name of the new type of encoding */ public Encoding(String name) { this.name = name; } // METHODS /** * Finalizes the equals method */ public final boolean equals(Object obj) { if (toString() == null) { return (obj != null) && (obj.toString() == null); } if (obj instanceof Encoding) { return toString().equals(obj.toString()); } return false; } /** * Finalizes the hashCode method */ public final int hashCode() { if (toString() == null) { return 0; } return toString().hashCode(); } /** * Provides the String representation of the encoding. This String is * the same name that was passed to the constructor. For the predefined encodings, the name * is similar to the encoding's variable (field) name. For example, PCM_SIGNED.toString() returns * the name "pcm_signed". * * @return the encoding name */ public final String toString() { return name; } } // class Encoding }