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WavFile.php
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WavFile.php
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<?php
// error_reporting(E_ALL); ini_set('display_errors', 1); // uncomment this line for debugging
/**
* Project: PHPWavUtils: Classes for creating, reading, and manipulating WAV files in PHP<br />
* File: WavFile.php<br />
*
* Copyright (c) 2012, Drew Phillips
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
* - Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* Any modifications to the library should be indicated clearly in the source code
* to inform users that the changes are not a part of the original software.<br /><br />
*
* @copyright 2012 Drew Phillips
* @author Drew Phillips <[email protected]>
* @author Paul Voegler <http://www.voegler.eu/>
* @version 1.0RC1 (April 2012)
* @package PHPWavUtils
* @license BSD License
*
* Changelog:
*
* 1.0 RC1 (4/20/2012)
* - Initial release candidate
* - Supports 8, 16, 24, 32 bit PCM, 32-bit IEEE FLOAT, Extensible Format
* - Support for 18 channels of audio
* - Ability to read an offset from a file to reduce memory footprint with large files
* - Single-pass audio filter processing
* - Highly accurate and efficient mix and normalization filters (http://www.voegler.eu/pub/audio/)
* - Utility filters for degrading audio, and inserting silence
*
* 0.6 (4/12/2012)
* - Support 8, 16, 24, 32 bit and PCM float (Paul Voegler)
* - Add normalize filter, misc improvements and fixes (Paul Voegler)
* - Normalize parameters to filter() to use filter constants as array indices
* - Add option to mix filter to loop the target file if the source is longer
*
* 0.5 (4/3/2012)
* - Fix binary pack routine (Paul Voegler)
* - Add improved mixing function (Paul Voegler)
*
*/
class WavFile
{
/*%******************************************************************************************%*/
// Class constants
/** @var int Filter flag for mixing two files */
const FILTER_MIX = 0x01;
/** @var int Filter flag for normalizing audio data */
const FILTER_NORMALIZE = 0x02;
/** @var int Filter flag for degrading audio data */
const FILTER_DEGRADE = 0x04;
/** @var int Maximum number of channels */
const MAX_CHANNEL = 18;
/** @var int Maximum sample rate */
const MAX_SAMPLERATE = 192000;
/** Channel Locations for ChannelMask */
const SPEAKER_DEFAULT = 0x000000;
const SPEAKER_FRONT_LEFT = 0x000001;
const SPEAKER_FRONT_RIGHT = 0x000002;
const SPEAKER_FRONT_CENTER = 0x000004;
const SPEAKER_LOW_FREQUENCY = 0x000008;
const SPEAKER_BACK_LEFT = 0x000010;
const SPEAKER_BACK_RIGHT = 0x000020;
const SPEAKER_FRONT_LEFT_OF_CENTER = 0x000040;
const SPEAKER_FRONT_RIGHT_OF_CENTER = 0x000080;
const SPEAKER_BACK_CENTER = 0x000100;
const SPEAKER_SIDE_LEFT = 0x000200;
const SPEAKER_SIDE_RIGHT = 0x000400;
const SPEAKER_TOP_CENTER = 0x000800;
const SPEAKER_TOP_FRONT_LEFT = 0x001000;
const SPEAKER_TOP_FRONT_CENTER = 0x002000;
const SPEAKER_TOP_FRONT_RIGHT = 0x004000;
const SPEAKER_TOP_BACK_LEFT = 0x008000;
const SPEAKER_TOP_BACK_CENTER = 0x010000;
const SPEAKER_TOP_BACK_RIGHT = 0x020000;
const SPEAKER_ALL = 0x03FFFF;
/** @var int PCM Audio Format */
const WAVE_FORMAT_PCM = 0x0001;
/** @var int IEEE FLOAT Audio Format */
const WAVE_FORMAT_IEEE_FLOAT = 0x0003;
/** @var int EXTENSIBLE Audio Format - actual audio format defined by SubFormat */
const WAVE_FORMAT_EXTENSIBLE = 0xFFFE;
/** @var string PCM Audio Format SubType - LE hex representation of GUID {00000001-0000-0010-8000-00AA00389B71} */
const WAVE_SUBFORMAT_PCM = "0100000000001000800000aa00389b71";
/** @var string IEEE FLOAT Audio Format SubType - LE hex representation of GUID {00000003-0000-0010-8000-00AA00389B71} */
const WAVE_SUBFORMAT_IEEE_FLOAT = "0300000000001000800000aa00389b71";
/*%******************************************************************************************%*/
// Properties
/** @var array Log base modifier lookup table for a given threshold (in 0.05 steps) used by normalizeSample.
* Adjusts the slope (1st derivative) of the log function at the threshold to 1 for a smooth transition
* from linear to logarithmic amplitude output. */
protected static $LOOKUP_LOGBASE = array(
2.513, 2.667, 2.841, 3.038, 3.262,
3.520, 3.819, 4.171, 4.589, 5.093,
5.711, 6.487, 7.483, 8.806, 10.634,
13.302, 17.510, 24.970, 41.155, 96.088
);
/** @var int The actual physical file size */
protected $_actualSize;
/** @var int The size of the file in RIFF header */
protected $_chunkSize;
/** @var int The size of the "fmt " chunk */
protected $_fmtChunkSize;
/** @var int The size of the extended "fmt " data */
protected $_fmtExtendedSize;
/** @var int The size of the "fact" chunk */
protected $_factChunkSize;
/** @var int Size of the data chunk */
protected $_dataSize;
/** @var int Size of the data chunk in the opened wav file */
protected $_dataSize_fp;
/** @var int Does _dataSize really reflect strlen($_samples)? Case when a wav file is read with readData = false */
protected $_dataSize_valid;
/** @var int Starting offset of data chunk */
protected $_dataOffset;
/** @var int The audio format - WavFile::WAVE_FORMAT_* */
protected $_audioFormat;
/** @var int The audio subformat - WavFile::WAVE_SUBFORMAT_* */
protected $_audioSubFormat;
/** @var int Number of channels in the audio file */
protected $_numChannels;
/** @var int The channel mask */
protected $_channelMask;
/** @var int Samples per second */
protected $_sampleRate;
/** @var int Number of bits per sample */
protected $_bitsPerSample;
/** @var int Number of valid bits per sample */
protected $_validBitsPerSample;
/** @var int NumChannels * BitsPerSample/8 */
protected $_blockAlign;
/** @var int Number of sample blocks */
protected $_numBlocks;
/** @var int Bytes per second */
protected $_byteRate;
/** @var string Binary string of samples */
protected $_samples;
/** @var resource The file pointer used for reading wavs from file or memory */
protected $_fp;
/*%******************************************************************************************%*/
// Special methods
/**
* WavFile Constructor.
*
* <code>
* $wav1 = new WavFile(2, 44100, 16); // new wav with 2 channels, at 44100 samples/sec and 16 bits per sample
* $wav2 = new WavFile('./audio/sound.wav'); // open and read wav file
* </code>
*
* @param string|int $numChannelsOrFileName (Optional) If string, the filename of the wav file to open. The number of channels otherwise. Defaults to 1.
* @param int|bool $sampleRateOrReadData (Optional) If opening a file and boolean, decides whether to read the data chunk or not. Defaults to true. The sample rate in samples per second otherwise. 8000 = standard telephone, 16000 = wideband telephone, 32000 = FM radio and 44100 = CD quality. Defaults to 8000.
* @param int $bitsPerSample (Optional) The number of bits per sample. Has to be 8, 16 or 24 for PCM audio or 32 for IEEE FLOAT audio. 8 = telephone, 16 = CD and 24 or 32 = studio quality. Defaults to 8.
* @throws WavFormatException
* @throws WavFileException
*/
public function __construct($numChannelsOrFileName = null, $sampleRateOrReadData = null, $bitsPerSample = null)
{
$this->_actualSize = 44;
$this->_chunkSize = 36;
$this->_fmtChunkSize = 16;
$this->_fmtExtendedSize = 0;
$this->_factChunkSize = 0;
$this->_dataSize = 0;
$this->_dataSize_fp = 0;
$this->_dataSize_valid = true;
$this->_dataOffset = 44;
$this->_audioFormat = self::WAVE_FORMAT_PCM;
$this->_audioSubFormat = null;
$this->_numChannels = 1;
$this->_channelMask = self::SPEAKER_DEFAULT;
$this->_sampleRate = 8000;
$this->_bitsPerSample = 8;
$this->_validBitsPerSample = 8;
$this->_blockAlign = 1;
$this->_numBlocks = 0;
$this->_byteRate = 8000;
$this->_samples = '';
$this->_fp = null;
if (is_string($numChannelsOrFileName)) {
$this->openWav($numChannelsOrFileName, is_bool($sampleRateOrReadData) ? $sampleRateOrReadData : true);
} else {
$this->setNumChannels(is_null($numChannelsOrFileName) ? 1 : $numChannelsOrFileName)
->setSampleRate(is_null($sampleRateOrReadData) ? 8000 : $sampleRateOrReadData)
->setBitsPerSample(is_null($bitsPerSample) ? 8 : $bitsPerSample);
}
}
public function __destruct() {
if (is_resource($this->_fp)) $this->closeWav();
}
public function __clone() {
$this->_fp = null;
}
/**
* Output the wav file headers and data.
*
* @return string The encoded file.
*/
public function __toString()
{
return $this->makeHeader() .
$this->getDataSubchunk();
}
/*%******************************************************************************************%*/
// Static methods
/**
* Unpacks a single binary sample to numeric value.
*
* @param string $sampleBinary (Required) The sample to decode.
* @param int $bitDepth (Optional) The bits per sample to decode. If omitted, derives it from the length of $sampleBinary.
* @return int|float The numeric sample value. Float for 32-bit samples. Returns null for unsupported bit depths.
*/
public static function unpackSample($sampleBinary, $bitDepth = null)
{
if ($bitDepth === null) {
$bitDepth = strlen($sampleBinary) * 8;
}
switch ($bitDepth) {
case 8:
// unsigned char
return ord($sampleBinary);
case 16:
// signed short, little endian
$data = unpack('v', $sampleBinary);
$sample = $data[1];
if ($sample >= 0x8000) {
$sample -= 0x10000;
}
return $sample;
case 24:
// 3 byte packed signed integer, little endian
$data = unpack('C3', $sampleBinary);
$sample = $data[1] | ($data[2] << 8) | ($data[3] << 16);
if ($sample >= 0x800000) {
$sample -= 0x1000000;
}
return $sample;
case 32:
// 32-bit float
$data = unpack('f', $sampleBinary);
return $data[1];
default:
return null;
}
}
/**
* Packs a single numeric sample to binary.
*
* @param int|float $sample (Required) The sample to encode. Has to be within valid range for $bitDepth. Float values only for 32 bits.
* @param int $bitDepth (Required) The bits per sample to encode with.
* @return string The encoded binary sample. Returns null for unsupported bit depths.
*/
public static function packSample($sample, $bitDepth)
{
switch ($bitDepth) {
case 8:
// unsigned char
return chr($sample);
case 16:
// signed short, little endian
if ($sample < 0) {
$sample += 0x10000;
}
return pack('v', $sample);
case 24:
// 3 byte packed signed integer, little endian
if ($sample < 0) {
$sample += 0x1000000;
}
return pack('C3', $sample & 0xff, ($sample >> 8) & 0xff, ($sample >> 16) & 0xff);
case 32:
// 32-bit float
return pack('f', $sample);
default:
return null;
}
}
/**
* Unpacks a binary sample block to numeric values.
*
* @param string $sampleBlock (Required) The binary sample block (all channels).
* @param int $bitDepth (Required) The bits per sample to decode.
* @param int $numChannels (Optional) The number of channels to decode. If omitted, derives it from the length of $sampleBlock and $bitDepth.
* @return array The sample values as an array of integers of floats for 32 bits. First channel is array index 1.
*/
public static function unpackSampleBlock($sampleBlock, $bitDepth, $numChannels = null) {
$sampleBytes = $bitDepth / 8;
if ($numChannels === null) {
$numChannels = strlen($sampleBlock) / $sampleBytes;
}
$samples = array();
for ($i = 0; $i < $numChannels; $i++) {
$sampleBinary = substr($sampleBlock, $i * $sampleBytes, $sampleBytes);
$samples[$i + 1] = self::unpackSample($sampleBinary, $bitDepth);
}
return $samples;
}
/**
* Packs an array of numeric channel samples to a binary sample block.
*
* @param array $samples (Required) The array of channel sample values. Expects float values for 32 bits and integer otherwise.
* @param int $bitDepth (Required) The bits per sample to encode with.
* @return string The encoded binary sample block.
*/
public static function packSampleBlock($samples, $bitDepth) {
$sampleBlock = '';
foreach($samples as $sample) {
$sampleBlock .= self::packSample($sample, $bitDepth);
}
return $sampleBlock;
}
/**
* Normalizes a float audio sample. Maximum input range assumed for compression is [-2, 2].
* See http://www.voegler.eu/pub/audio/ for more information.
*
* @param float $sampleFloat (Required) The float sample to normalize.
* @param float $threshold (Required) The threshold or gain factor for normalizing the amplitude. <ul>
* <li> >= 1 - Normalize by multiplying by the threshold (boost - positive gain). <br />
* A value of 1 in effect means no normalization (and results in clipping). </li>
* <li> <= -1 - Normalize by dividing by the the absolute value of threshold (attenuate - negative gain). <br />
* A factor of 2 (-2) is about 6dB reduction in volume.</li>
* <li> [0, 1) - (open inverval - not including 1) - The threshold
* above which amplitudes are comressed logarithmically. <br />
* e.g. 0.6 to leave amplitudes up to 60% "as is" and compress above. </li>
* <li> (-1, 0) - (open inverval - not including -1 and 0) - The threshold
* above which amplitudes are comressed linearly. <br />
* e.g. -0.6 to leave amplitudes up to 60% "as is" and compress above. </li></ul>
* @return float The normalized sample.
**/
public static function normalizeSample($sampleFloat, $threshold) {
// apply positive gain
if ($threshold >= 1) {
return $sampleFloat * $threshold;
}
// apply negative gain
if ($threshold <= -1) {
return $sampleFloat / -$threshold;
}
$sign = $sampleFloat < 0 ? -1 : 1;
$sampleAbs = abs($sampleFloat);
// logarithmic compression
if ($threshold >= 0 && $threshold < 1 && $sampleAbs > $threshold) {
$loga = self::$LOOKUP_LOGBASE[(int)($threshold * 20)]; // log base modifier
return $sign * ($threshold + (1 - $threshold) * log(1 + $loga * ($sampleAbs - $threshold) / (2 - $threshold)) / log(1 + $loga));
}
// linear compression
$thresholdAbs = abs($threshold);
if ($threshold > -1 && $threshold < 0 && $sampleAbs > $thresholdAbs) {
return $sign * ($thresholdAbs + (1 - $thresholdAbs) / (2 - $thresholdAbs) * ($sampleAbs - $thresholdAbs));
}
// else ?
return $sampleFloat;
}
/*%******************************************************************************************%*/
// Getter and Setter methods for properties
public function getActualSize() {
return $this->_actualSize;
}
protected function setActualSize($actualSize = null) {
if (is_null($actualSize)) {
$this->_actualSize = 8 + $this->_chunkSize; // + "RIFF" header (ID + size)
} else {
$this->_actualSize = $actualSize;
}
return $this;
}
public function getChunkSize() {
return $this->_chunkSize;
}
protected function setChunkSize($chunkSize = null) {
if (is_null($chunkSize)) {
$this->_chunkSize = 4 + // "WAVE" chunk
8 + $this->_fmtChunkSize + // "fmt " subchunk
($this->_factChunkSize > 0 ? 8 + $this->_factChunkSize : 0) + // "fact" subchunk
8 + $this->_dataSize + // "data" subchunk
($this->_dataSize & 1); // padding byte
} else {
$this->_chunkSize = $chunkSize;
}
$this->setActualSize();
return $this;
}
public function getFmtChunkSize() {
return $this->_fmtChunkSize;
}
protected function setFmtChunkSize($fmtChunkSize = null) {
if (is_null($fmtChunkSize)) {
$this->_fmtChunkSize = 16 + $this->_fmtExtendedSize;
} else {
$this->_fmtChunkSize = $fmtChunkSize;
}
$this->setChunkSize() // implicit setActualSize()
->setDataOffset();
return $this;
}
public function getFmtExtendedSize() {
return $this->_fmtExtendedSize;
}
protected function setFmtExtendedSize($fmtExtendedSize = null) {
if (is_null($fmtExtendedSize)) {
if ($this->_audioFormat == self::WAVE_FORMAT_EXTENSIBLE) {
$this->_fmtExtendedSize = 2 + 22; // extension size for WAVE_FORMAT_EXTENSIBLE
} elseif ($this->_audioFormat != self::WAVE_FORMAT_PCM) {
$this->_fmtExtendedSize = 2 + 0; // empty extension
} else {
$this->_fmtExtendedSize = 0; // no extension, only for WAVE_FORMAT_PCM
}
} else {
$this->_fmtExtendedSize = $fmtExtendedSize;
}
$this->setFmtChunkSize(); // implicit setSize(), setActualSize(), setDataOffset()
return $this;
}
public function getFactChunkSize() {
return $this->_factChunkSize;
}
protected function setFactChunkSize($factChunkSize = null) {
if (is_null($factChunkSize)) {
if ($this->_audioFormat != self::WAVE_FORMAT_PCM) {
$this->_factChunkSize = 4;
} else {
$this->_factChunkSize = 0;
}
} else {
$this->_factChunkSize = $factChunkSize;
}
$this->setChunkSize() // implicit setActualSize()
->setDataOffset();
return $this;
}
public function getDataSize() {
return $this->_dataSize;
}
protected function setDataSize($dataSize = null) {
if (is_null($dataSize)) {
$this->_dataSize = strlen($this->_samples);
} else {
$this->_dataSize = $dataSize;
}
$this->setChunkSize() // implicit setActualSize()
->setNumBlocks();
$this->_dataSize_valid = true;
return $this;
}
public function getDataOffset() {
return $this->_dataOffset;
}
protected function setDataOffset($dataOffset = null) {
if (is_null($dataOffset)) {
$this->_dataOffset = 8 + // "RIFF" header (ID + size)
4 + // "WAVE" chunk
8 + $this->_fmtChunkSize + // "fmt " subchunk
($this->_factChunkSize > 0 ? 8 + $this->_factChunkSize : 0) + // "fact" subchunk
8; // "data" subchunk
} else {
$this->_dataOffset = $dataOffset;
}
return $this;
}
public function getAudioFormat() {
return $this->_audioFormat;
}
protected function setAudioFormat($audioFormat = null) {
if (is_null($audioFormat)) {
if (($this->_bitsPerSample <= 16 || $this->_bitsPerSample == 32)
&& $this->_validBitsPerSample == $this->_bitsPerSample
&& $this->_channelMask == self::SPEAKER_DEFAULT
&& $this->_numChannels <= 2) {
if ($this->_bitsPerSample <= 16) {
$this->_audioFormat = self::WAVE_FORMAT_PCM;
} else {
$this->_audioFormat = self::WAVE_FORMAT_IEEE_FLOAT;
}
} else {
$this->_audioFormat = self::WAVE_FORMAT_EXTENSIBLE;
}
} else {
$this->_audioFormat = $audioFormat;
}
$this->setAudioSubFormat()
->setFactChunkSize() // implicit setSize(), setActualSize(), setDataOffset()
->setFmtExtendedSize(); // implicit setFmtChunkSize(), setSize(), setActualSize(), setDataOffset()
return $this;
}
public function getAudioSubFormat() {
return $this->_audioSubFormat;
}
protected function setAudioSubFormat($audioSubFormat = null) {
if (is_null($audioSubFormat)) {
if ($this->_bitsPerSample == 32) {
$this->_audioSubFormat = self::WAVE_SUBFORMAT_IEEE_FLOAT; // 32 bits are IEEE FLOAT in this class
} else {
$this->_audioSubFormat = self::WAVE_SUBFORMAT_PCM; // 8, 16 and 24 bits are PCM in this class
}
} else {
$this->_audioSubFormat = $audioSubFormat;
}
return $this;
}
public function getNumChannels() {
return $this->_numChannels;
}
public function setNumChannels($numChannels) {
if ($numChannels < 1 || $numChannels > self::MAX_CHANNEL) {
throw new WavFileException('Unsupported number of channels. Only up to ' . self::MAX_CHANNEL . ' channels are supported.');
} elseif ($this->_samples !== '') {
trigger_error('Wav already has sample data. Changing the number of channels does not convert and may corrupt the data.', E_USER_NOTICE);
}
$this->_numChannels = (int)$numChannels;
$this->setAudioFormat() // implicit setAudioSubFormat(), setFactChunkSize(), setFmtExtendedSize(), setFmtChunkSize(), setSize(), setActualSize(), setDataOffset()
->setByteRate()
->setBlockAlign(); // implicit setNumBlocks()
return $this;
}
public function getChannelMask() {
return $this->_channelMask;
}
public function setChannelMask($channelMask = self::SPEAKER_DEFAULT) {
if ($channelMask != 0) {
// count number of set bits - Hamming weight
$c = (int)$channelMask;
$n = 0;
while ($c > 0) {
$n += $c & 1;
$c >>= 1;
}
if ($n != $this->_numChannels || (((int)$channelMask | self::SPEAKER_ALL) != self::SPEAKER_ALL)) {
throw new WavFileException('Invalid channel mask. The number of channels does not match the number of locations in the mask.');
}
}
$this->_channelMask = (int)$channelMask;
$this->setAudioFormat(); // implicit setAudioSubFormat(), setFactChunkSize(), setFmtExtendedSize(), setFmtChunkSize(), setSize(), setActualSize(), setDataOffset()
return $this;
}
public function getSampleRate() {
return $this->_sampleRate;
}
public function setSampleRate($sampleRate) {
if ($sampleRate < 1 || $sampleRate > self::MAX_SAMPLERATE) {
throw new WavFileException('Invalid sample rate.');
} elseif ($this->_samples !== '') {
trigger_error('Wav already has sample data. Changing the sample rate does not convert the data and may yield undesired results.', E_USER_NOTICE);
}
$this->_sampleRate = (int)$sampleRate;
$this->setByteRate();
return $this;
}
public function getBitsPerSample() {
return $this->_bitsPerSample;
}
public function setBitsPerSample($bitsPerSample) {
if (!in_array($bitsPerSample, array(8, 16, 24, 32))) {
throw new WavFileException('Unsupported bits per sample. Only 8, 16, 24 and 32 bits are supported.');
} elseif ($this->_samples !== '') {
trigger_error('Wav already has sample data. Changing the bits per sample does not convert and may corrupt the data.', E_USER_NOTICE);
}
$this->_bitsPerSample = (int)$bitsPerSample;
$this->setValidBitsPerSample() // implicit setAudioFormat(), setAudioSubFormat(), setFmtChunkSize(), setFactChunkSize(), setSize(), setActualSize(), setDataOffset()
->setByteRate()
->setBlockAlign(); // implicit setNumBlocks()
return $this;
}
public function getValidBitsPerSample() {
return $this->_validBitsPerSample;
}
protected function setValidBitsPerSample($validBitsPerSample = null) {
if (is_null($validBitsPerSample)) {
$this->_validBitsPerSample = $this->_bitsPerSample;
} else {
if ($validBitsPerSample < 1 || $validBitsPerSample > $this->_bitsPerSample) {
throw new WavFileException('ValidBitsPerSample cannot be greater than BitsPerSample.');
}
$this->_validBitsPerSample = (int)$validBitsPerSample;
}
$this->setAudioFormat(); // implicit setAudioSubFormat(), setFactChunkSize(), setFmtExtendedSize(), setFmtChunkSize(), setSize(), setActualSize(), setDataOffset()
return $this;
}
public function getBlockAlign() {
return $this->_blockAlign;
}
protected function setBlockAlign($blockAlign = null) {
if (is_null($blockAlign)) {
$this->_blockAlign = $this->_numChannels * $this->_bitsPerSample / 8;
} else {
$this->_blockAlign = $blockAlign;
}
$this->setNumBlocks();
return $this;
}
public function getNumBlocks()
{
return $this->_numBlocks;
}
protected function setNumBlocks($numBlocks = null) {
if (is_null($numBlocks)) {
$this->_numBlocks = (int)($this->_dataSize / $this->_blockAlign); // do not count incomplete sample blocks
} else {
$this->_numBlocks = $numBlocks;
}
return $this;
}
public function getByteRate() {
return $this->_byteRate;
}
protected function setByteRate($byteRate = null) {
if (is_null($byteRate)) {
$this->_byteRate = $this->_sampleRate * $this->_numChannels * $this->_bitsPerSample / 8;
} else {
$this->_byteRate = $byteRate;
}
return $this;
}
public function getSamples() {
return $this->_samples;
}
public function setSamples(&$samples = '') {
if (strlen($samples) % $this->_blockAlign != 0) {
throw new WavFileException('Incorrect samples size. Has to be a multiple of BlockAlign.');
}
$this->_samples = $samples;
$this->setDataSize(); // implicit setSize(), setActualSize(), setNumBlocks()
return $this;
}
/*%******************************************************************************************%*/
// Getters
public function getMinAmplitude()
{
if ($this->_bitsPerSample == 8) {
return 0;
} elseif ($this->_bitsPerSample == 32) {
return -1.0;
} else {
return -(1 << ($this->_bitsPerSample - 1));
}
}
public function getZeroAmplitude()
{
if ($this->_bitsPerSample == 8) {
return 0x80;
} elseif ($this->_bitsPerSample == 32) {
return 0.0;
} else {
return 0;
}
}
public function getMaxAmplitude()
{
if($this->_bitsPerSample == 8) {
return 0xFF;
} elseif($this->_bitsPerSample == 32) {
return 1.0;
} else {
return (1 << ($this->_bitsPerSample - 1)) - 1;
}
}
/*%******************************************************************************************%*/
// Wave file methods
/**
* Construct a wav header from this object. Includes "fact" chunk in necessary.
* http://www-mmsp.ece.mcgill.ca/documents/audioformats/wave/wave.html
*
* @return string The RIFF header data.
*/
public function makeHeader()
{
// reset and recalculate
$this->setAudioFormat(); // implicit setAudioSubFormat(), setFactChunkSize(), setFmtExtendedSize(), setFmtChunkSize(), setSize(), setActualSize(), setDataOffset()
$this->setNumBlocks();
// RIFF header
$header = pack('N', 0x52494646); // ChunkID - "RIFF"
$header .= pack('V', $this->getChunkSize()); // ChunkSize
$header .= pack('N', 0x57415645); // Format - "WAVE"
// "fmt " subchunk
$header .= pack('N', 0x666d7420); // SubchunkID - "fmt "
$header .= pack('V', $this->getFmtChunkSize()); // SubchunkSize
$header .= pack('v', $this->getAudioFormat()); // AudioFormat
$header .= pack('v', $this->getNumChannels()); // NumChannels
$header .= pack('V', $this->getSampleRate()); // SampleRate
$header .= pack('V', $this->getByteRate()); // ByteRate
$header .= pack('v', $this->getBlockAlign()); // BlockAlign
$header .= pack('v', $this->getBitsPerSample()); // BitsPerSample
if($this->getFmtExtendedSize() == 24) {
$header .= pack('v', 22); // extension size = 24 bytes, cbSize: 24 - 2 = 22 bytes
$header .= pack('v', $this->getValidBitsPerSample()); // ValidBitsPerSample
$header .= pack('V', $this->getChannelMask()); // ChannelMask
$header .= pack('H32', $this->getAudioSubFormat()); // SubFormat
} elseif ($this->getFmtExtendedSize() == 2) {
$header .= pack('v', 0); // extension size = 2 bytes, cbSize: 2 - 2 = 0 bytes
}
// "fact" subchunk
if ($this->getFactChunkSize() == 4) {
$header .= pack('N', 0x66616374); // SubchunkID - "fact"
$header .= pack('V', 4); // SubchunkSize
$header .= pack('V', $this->getNumBlocks()); // SampleLength (per channel)
}
return $header;
}
/**
* Construct wav DATA chunk.
*
* @return string The DATA header and chunk.
*/
public function getDataSubchunk()
{
// check preconditions
if (!$this->_dataSize_valid) {
$this->setDataSize(); // implicit setSize(), setActualSize(), setNumBlocks()
}
// create subchunk
return pack('N', 0x64617461) . // SubchunkID - "data"
pack('V', $this->getDataSize()) . // SubchunkSize
$this->_samples . // Subchunk data
($this->getDataSize() & 1 ? chr(0) : ''); // padding byte
}
/**
* Save the wav data to a file.
*
* @param string $filename (Required) The file path to save the wav to.
* @throws WavFileException
*/
public function save($filename)
{
$fp = @fopen($filename, 'w+b');
if (!is_resource($fp)) {
throw new WavFileException('Failed to open "' . $filename . '" for writing.');
}
fwrite($fp, $this->makeHeader());
fwrite($fp, $this->getDataSubchunk());
fclose($fp);
return $this;
}
/**
* Reads a wav header and data from a file.
*
* @param string $filename (Required) The path to the wav file to read.
* @param bool $readData (Optional) If true, also read the data chunk.
* @throws WavFormatException
* @throws WavFileException
*/
public function openWav($filename, $readData = true)
{
// check preconditions
if (!file_exists($filename)) {
throw new WavFileException('Failed to open "' . $filename . '". File not found.');
} elseif (!is_readable($filename)) {
throw new WavFileException('Failed to open "' . $filename . '". File is not readable.');
} elseif (is_resource($this->_fp)) {
$this->closeWav();
}
// open the file
$this->_fp = @fopen($filename, 'rb');
if (!is_resource($this->_fp)) {
throw new WavFileException('Failed to open "' . $filename . '".');
}
// read the file
return $this->readWav($readData);
}
/**
* Close a with openWav() previously opened wav file or free the buffer of setWavData().
* Not necessary if the data has been read (readData = true) already.
*/
public function closeWav() {
if (is_resource($this->_fp)) fclose($this->_fp);
return $this;
}
/**
* Set the wav file data and properties from a wav file in a string.
*
* @param string $data (Required) The wav file data. Passed by reference.
* @param bool $free (Optional) True to free the passed $data after copying.
* @throws WavFormatException
* @throws WavFileException
*/
public function setWavData(&$data, $free = true)
{
// check preconditions
if (is_resource($this->_fp)) $this->closeWav();
// open temporary stream in memory
$this->_fp = @fopen('php://memory', 'w+b');
if (!is_resource($this->_fp)) {
throw new WavFileException('Failed to open memory stream to write wav data. Use openWav() instead.');
}
// prepare stream
fwrite($this->_fp, $data);
rewind($this->_fp);
// free the passed data
if ($free) $data = null;
// read the stream like a file
return $this->readWav(true);
}
/**
* Read wav file from a stream.
*
* @param $readData (Optional) If true, also read the data chunk.
* @throws WavFormatException
* @throws WavFileException
*/
protected function readWav($readData = true)
{
if (!is_resource($this->_fp)) {
throw new WavFileException('No wav file open. Use openWav() first.');
}
try {