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<?php

/////////////////////////////////////////////////////////////////
/// getID3() by James Heinrich <info@getid3.org>               //
//  available at https://github.com/JamesHeinrich/getID3       //
//            or https://www.getid3.org                        //
//            or http://getid3.sourceforge.net                 //
//  see readme.txt for more details                            //
/////////////////////////////////////////////////////////////////
//                                                             //
// module.audio-video.riff.php                                 //
// module for analyzing RIFF files                             //
// multiple formats supported by this module:                  //
//    Wave, AVI, AIFF/AIFC, (MP3,AC3)/RIFF, Wavpack v3, 8SVX   //
// dependencies: module.audio.mp3.php                          //
//               module.audio.ac3.php                          //
//               module.audio.dts.php                          //
//                                                            ///
/////////////////////////////////////////////////////////////////

/**
* @todo Parse AC-3/DTS audio inside WAVE correctly
* @todo Rewrite RIFF parser totally
*/

if (!defined('GETID3_INCLUDEPATH')) { // prevent path-exposing attacks that access modules directly on public webservers
	exit;
}
getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.audio.mp3.php', __FILE__, true);
getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.audio.ac3.php', __FILE__, true);
getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.audio.dts.php', __FILE__, true);

class getid3_riff extends getid3_handler
{
	protected $container = 'riff'; // default

	/**
	 * @return bool
	 *
	 * @throws getid3_exception
	 */
	public function Analyze() {
		$info = &$this->getid3->info;

		// initialize these values to an empty array, otherwise they default to NULL
		// and you can't append array values to a NULL value
		$info['riff'] = array('raw'=>array());

		// Shortcuts
		$thisfile_riff             = &$info['riff'];
		$thisfile_riff_raw         = &$thisfile_riff['raw'];
		$thisfile_audio            = &$info['audio'];
		$thisfile_video            = &$info['video'];
		$thisfile_audio_dataformat = &$thisfile_audio['dataformat'];
		$thisfile_riff_audio       = &$thisfile_riff['audio'];
		$thisfile_riff_video       = &$thisfile_riff['video'];
		$thisfile_riff_WAVE        = array();

		$Original                 = array();
		$Original['avdataoffset'] = $info['avdataoffset'];
		$Original['avdataend']    = $info['avdataend'];

		$this->fseek($info['avdataoffset']);
		$RIFFheader = $this->fread(12);
		$offset = $this->ftell();
		$RIFFtype    = substr($RIFFheader, 0, 4);
		$RIFFsize    = substr($RIFFheader, 4, 4);
		$RIFFsubtype = substr($RIFFheader, 8, 4);

		switch ($RIFFtype) {

			case 'FORM':  // AIFF, AIFC
				//$info['fileformat']   = 'aiff';
				$this->container = 'aiff';
				$thisfile_riff['header_size'] = $this->EitherEndian2Int($RIFFsize);
				$thisfile_riff[$RIFFsubtype]  = $this->ParseRIFF($offset, ($offset + $thisfile_riff['header_size'] - 4));
				break;

			case 'RIFF':  // AVI, WAV, etc
			case 'SDSS':  // SDSS is identical to RIFF, just renamed. Used by SmartSound QuickTracks (www.smartsound.com)
			case 'RMP3':  // RMP3 is identical to RIFF, just renamed. Used by [unknown program] when creating RIFF-MP3s
				//$info['fileformat']   = 'riff';
				$this->container = 'riff';
				$thisfile_riff['header_size'] = $this->EitherEndian2Int($RIFFsize);
				if ($RIFFsubtype == 'RMP3') {
					// RMP3 is identical to WAVE, just renamed. Used by [unknown program] when creating RIFF-MP3s
					$RIFFsubtype = 'WAVE';
				}
				if ($RIFFsubtype != 'AMV ') {
					// AMV files are RIFF-AVI files with parts of the spec deliberately broken, such as chunk size fields hardcoded to zero (because players known in hardware that these fields are always a certain size
					// Handled separately in ParseRIFFAMV()
					$thisfile_riff[$RIFFsubtype]  = $this->ParseRIFF($offset, ($offset + $thisfile_riff['header_size'] - 4));
				}
				if (($info['avdataend'] - $info['filesize']) == 1) {
					// LiteWave appears to incorrectly *not* pad actual output file
					// to nearest WORD boundary so may appear to be short by one
					// byte, in which case - skip warning
					$info['avdataend'] = $info['filesize'];
				}

				$nextRIFFoffset = $Original['avdataoffset'] + 8 + $thisfile_riff['header_size']; // 8 = "RIFF" + 32-bit offset
				while ($nextRIFFoffset < min($info['filesize'], $info['avdataend'])) {
					try {
						$this->fseek($nextRIFFoffset);
					} catch (getid3_exception $e) {
						if ($e->getCode() == 10) {
							//$this->warning('RIFF parser: '.$e->getMessage());
							$this->error('AVI extends beyond '.round(PHP_INT_MAX / 1073741824).'GB and PHP filesystem functions cannot read that far, playtime may be wrong');
							$this->warning('[avdataend] value may be incorrect, multiple AVIX chunks may be present');
							break;
						} else {
							throw $e;
						}
					}
					$nextRIFFheader = $this->fread(12);
					if ($nextRIFFoffset == ($info['avdataend'] - 1)) {
						if (substr($nextRIFFheader, 0, 1) == "\x00") {
							// RIFF padded to WORD boundary, we're actually already at the end
							break;
						}
					}
					$nextRIFFheaderID =                         substr($nextRIFFheader, 0, 4);
					$nextRIFFsize     = $this->EitherEndian2Int(substr($nextRIFFheader, 4, 4));
					$nextRIFFtype     =                         substr($nextRIFFheader, 8, 4);
					$chunkdata = array();
					$chunkdata['offset'] = $nextRIFFoffset + 8;
					$chunkdata['size']   = $nextRIFFsize;
					$nextRIFFoffset = $chunkdata['offset'] + $chunkdata['size'];

					switch ($nextRIFFheaderID) {
						case 'RIFF':
							$chunkdata['chunks'] = $this->ParseRIFF($chunkdata['offset'] + 4, $nextRIFFoffset);
							if (!isset($thisfile_riff[$nextRIFFtype])) {
								$thisfile_riff[$nextRIFFtype] = array();
							}
							$thisfile_riff[$nextRIFFtype][] = $chunkdata;
							break;

						case 'AMV ':
							unset($info['riff']);
							$info['amv'] = $this->ParseRIFFAMV($chunkdata['offset'] + 4, $nextRIFFoffset);
							break;

						case 'JUNK':
							// ignore
							$thisfile_riff[$nextRIFFheaderID][] = $chunkdata;
							break;

						case 'IDVX':
							$info['divxtag']['comments'] = self::ParseDIVXTAG($this->fread($chunkdata['size']));
							break;

						default:
							if ($info['filesize'] == ($chunkdata['offset'] - 8 + 128)) {
								$DIVXTAG = $nextRIFFheader.$this->fread(128 - 12);
								if (substr($DIVXTAG, -7) == 'DIVXTAG') {
									// DIVXTAG is supposed to be inside an IDVX chunk in a LIST chunk, but some bad encoders just slap it on the end of a file
									$this->warning('Found wrongly-structured DIVXTAG at offset '.($this->ftell() - 128).', parsing anyway');
									$info['divxtag']['comments'] = self::ParseDIVXTAG($DIVXTAG);
									break 2;
								}
							}
							$this->warning('Expecting "RIFF|JUNK|IDVX" at '.$nextRIFFoffset.', found "'.$nextRIFFheaderID.'" ('.getid3_lib::PrintHexBytes($nextRIFFheaderID).') - skipping rest of file');
							break 2;

					}

				}
				if ($RIFFsubtype == 'WAVE') {
					$thisfile_riff_WAVE = &$thisfile_riff['WAVE'];
				}
				break;

			default:
				$this->error('Cannot parse RIFF (this is maybe not a RIFF / WAV / AVI file?) - expecting "FORM|RIFF|SDSS|RMP3" found "'.$RIFFsubtype.'" instead');
				//unset($info['fileformat']);
				return false;
		}

		$streamindex = 0;
		switch ($RIFFsubtype) {

			// http://en.wikipedia.org/wiki/Wav
			case 'WAVE':
				$info['fileformat'] = 'wav';

				if (empty($thisfile_audio['bitrate_mode'])) {
					$thisfile_audio['bitrate_mode'] = 'cbr';
				}
				if (empty($thisfile_audio_dataformat)) {
					$thisfile_audio_dataformat = 'wav';
				}

				if (isset($thisfile_riff_WAVE['data'][0]['offset'])) {
					$info['avdataoffset'] = $thisfile_riff_WAVE['data'][0]['offset'] + 8;
					$info['avdataend']    = $info['avdataoffset'] + $thisfile_riff_WAVE['data'][0]['size'];
				}
				if (isset($thisfile_riff_WAVE['fmt '][0]['data'])) {

					$thisfile_riff_audio[$streamindex] = self::parseWAVEFORMATex($thisfile_riff_WAVE['fmt '][0]['data']);
					$thisfile_audio['wformattag'] = $thisfile_riff_audio[$streamindex]['raw']['wFormatTag'];
					if (!isset($thisfile_riff_audio[$streamindex]['bitrate']) || ($thisfile_riff_audio[$streamindex]['bitrate'] == 0)) {
						$this->error('Corrupt RIFF file: bitrate_audio == zero');
						return false;
					}
					$thisfile_riff_raw['fmt '] = $thisfile_riff_audio[$streamindex]['raw'];
					unset($thisfile_riff_audio[$streamindex]['raw']);
					$thisfile_audio['streams'][$streamindex] = $thisfile_riff_audio[$streamindex];

					$thisfile_audio = (array) getid3_lib::array_merge_noclobber($thisfile_audio, $thisfile_riff_audio[$streamindex]);
					if (substr($thisfile_audio['codec'], 0, strlen('unknown: 0x')) == 'unknown: 0x') {
						$this->warning('Audio codec = '.$thisfile_audio['codec']);
					}
					$thisfile_audio['bitrate'] = $thisfile_riff_audio[$streamindex]['bitrate'];

					if (empty($info['playtime_seconds'])) { // may already be set (e.g. DTS-WAV)
						$info['playtime_seconds'] =  (float)getid3_lib::SafeDiv(($info['avdataend'] - $info['avdataoffset']) * 8, $thisfile_audio['bitrate']);
					}

					$thisfile_audio['lossless'] = false;
					if (isset($thisfile_riff_WAVE['data'][0]['offset']) && isset($thisfile_riff_raw['fmt ']['wFormatTag'])) {
						switch ($thisfile_riff_raw['fmt ']['wFormatTag']) {

							case 0x0001:  // PCM
								$thisfile_audio['lossless'] = true;
								break;

							case 0x2000:  // AC-3
								$thisfile_audio_dataformat = 'ac3';
								break;

							default:
								// do nothing
								break;

						}
					}
					$thisfile_audio['streams'][$streamindex]['wformattag']   = $thisfile_audio['wformattag'];
					$thisfile_audio['streams'][$streamindex]['bitrate_mode'] = $thisfile_audio['bitrate_mode'];
					$thisfile_audio['streams'][$streamindex]['lossless']     = $thisfile_audio['lossless'];
					$thisfile_audio['streams'][$streamindex]['dataformat']   = $thisfile_audio_dataformat;
				}

				if (isset($thisfile_riff_WAVE['rgad'][0]['data'])) {

					// shortcuts
					$rgadData = &$thisfile_riff_WAVE['rgad'][0]['data'];
					$thisfile_riff_raw['rgad']    = array('track'=>array(), 'album'=>array());
					$thisfile_riff_raw_rgad       = &$thisfile_riff_raw['rgad'];
					$thisfile_riff_raw_rgad_track = &$thisfile_riff_raw_rgad['track'];
					$thisfile_riff_raw_rgad_album = &$thisfile_riff_raw_rgad['album'];

					$thisfile_riff_raw_rgad['fPeakAmplitude']      = getid3_lib::LittleEndian2Float(substr($rgadData, 0, 4));
					$thisfile_riff_raw_rgad['nRadioRgAdjust']      =        $this->EitherEndian2Int(substr($rgadData, 4, 2));
					$thisfile_riff_raw_rgad['nAudiophileRgAdjust'] =        $this->EitherEndian2Int(substr($rgadData, 6, 2));

					$nRadioRgAdjustBitstring      = str_pad(getid3_lib::Dec2Bin($thisfile_riff_raw_rgad['nRadioRgAdjust']), 16, '0', STR_PAD_LEFT);
					$nAudiophileRgAdjustBitstring = str_pad(getid3_lib::Dec2Bin($thisfile_riff_raw_rgad['nAudiophileRgAdjust']), 16, '0', STR_PAD_LEFT);
					$thisfile_riff_raw_rgad_track['name']       = getid3_lib::Bin2Dec(substr($nRadioRgAdjustBitstring, 0, 3));
					$thisfile_riff_raw_rgad_track['originator'] = getid3_lib::Bin2Dec(substr($nRadioRgAdjustBitstring, 3, 3));
					$thisfile_riff_raw_rgad_track['signbit']    = getid3_lib::Bin2Dec(substr($nRadioRgAdjustBitstring, 6, 1));
					$thisfile_riff_raw_rgad_track['adjustment'] = getid3_lib::Bin2Dec(substr($nRadioRgAdjustBitstring, 7, 9));
					$thisfile_riff_raw_rgad_album['name']       = getid3_lib::Bin2Dec(substr($nAudiophileRgAdjustBitstring, 0, 3));
					$thisfile_riff_raw_rgad_album['originator'] = getid3_lib::Bin2Dec(substr($nAudiophileRgAdjustBitstring, 3, 3));
					$thisfile_riff_raw_rgad_album['signbit']    = getid3_lib::Bin2Dec(substr($nAudiophileRgAdjustBitstring, 6, 1));
					$thisfile_riff_raw_rgad_album['adjustment'] = getid3_lib::Bin2Dec(substr($nAudiophileRgAdjustBitstring, 7, 9));

					$thisfile_riff['rgad']['peakamplitude'] = $thisfile_riff_raw_rgad['fPeakAmplitude'];
					if (($thisfile_riff_raw_rgad_track['name'] != 0) && ($thisfile_riff_raw_rgad_track['originator'] != 0)) {
						$thisfile_riff['rgad']['track']['name']            = getid3_lib::RGADnameLookup($thisfile_riff_raw_rgad_track['name']);
						$thisfile_riff['rgad']['track']['originator']      = getid3_lib::RGADoriginatorLookup($thisfile_riff_raw_rgad_track['originator']);
						$thisfile_riff['rgad']['track']['adjustment']      = getid3_lib::RGADadjustmentLookup($thisfile_riff_raw_rgad_track['adjustment'], $thisfile_riff_raw_rgad_track['signbit']);
					}
					if (($thisfile_riff_raw_rgad_album['name'] != 0) && ($thisfile_riff_raw_rgad_album['originator'] != 0)) {
						$thisfile_riff['rgad']['album']['name']       = getid3_lib::RGADnameLookup($thisfile_riff_raw_rgad_album['name']);
						$thisfile_riff['rgad']['album']['originator'] = getid3_lib::RGADoriginatorLookup($thisfile_riff_raw_rgad_album['originator']);
						$thisfile_riff['rgad']['album']['adjustment'] = getid3_lib::RGADadjustmentLookup($thisfile_riff_raw_rgad_album['adjustment'], $thisfile_riff_raw_rgad_album['signbit']);
					}
				}

				if (isset($thisfile_riff_WAVE['fact'][0]['data'])) {
					$thisfile_riff_raw['fact']['NumberOfSamples'] = $this->EitherEndian2Int(substr($thisfile_riff_WAVE['fact'][0]['data'], 0, 4));

					// This should be a good way of calculating exact playtime,
					// but some sample files have had incorrect number of samples,
					// so cannot use this method

					// if (!empty($thisfile_riff_raw['fmt ']['nSamplesPerSec'])) {
					//     $info['playtime_seconds'] = (float) $thisfile_riff_raw['fact']['NumberOfSamples'] / $thisfile_riff_raw['fmt ']['nSamplesPerSec'];
					// }
				}
				if (!empty($thisfile_riff_raw['fmt ']['nAvgBytesPerSec'])) {
					$thisfile_audio['bitrate'] = getid3_lib::CastAsInt($thisfile_riff_raw['fmt ']['nAvgBytesPerSec'] * 8);
				}

				if (isset($thisfile_riff_WAVE['bext'][0]['data'])) {
					// shortcut
					$thisfile_riff_WAVE_bext_0 = &$thisfile_riff_WAVE['bext'][0];

					$thisfile_riff_WAVE_bext_0['title']          =                              substr($thisfile_riff_WAVE_bext_0['data'],   0, 256);
					$thisfile_riff_WAVE_bext_0['author']         =                              substr($thisfile_riff_WAVE_bext_0['data'], 256,  32);
					$thisfile_riff_WAVE_bext_0['reference']      =                              substr($thisfile_riff_WAVE_bext_0['data'], 288,  32);
					foreach (array('title','author','reference') as $bext_key) {
						// Some software (notably Logic Pro) may not blank existing data before writing a null-terminated string to the offsets
						// assigned for text fields, resulting in a null-terminated string (or possibly just a single null) followed by garbage
						// Keep only string as far as first null byte, discard rest of fixed-width data
						// https://github.com/JamesHeinrich/getID3/issues/263
						$null_terminator_offset = strpos($thisfile_riff_WAVE_bext_0[$bext_key], "\x00");
						$thisfile_riff_WAVE_bext_0[$bext_key] = substr($thisfile_riff_WAVE_bext_0[$bext_key], 0, $null_terminator_offset);
					}

					$thisfile_riff_WAVE_bext_0['origin_date']    =                              substr($thisfile_riff_WAVE_bext_0['data'], 320,  10);
					$thisfile_riff_WAVE_bext_0['origin_time']    =                              substr($thisfile_riff_WAVE_bext_0['data'], 330,   8);
					$thisfile_riff_WAVE_bext_0['time_reference'] = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_bext_0['data'], 338,   8));
					$thisfile_riff_WAVE_bext_0['bwf_version']    = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_bext_0['data'], 346,   1));
					$thisfile_riff_WAVE_bext_0['reserved']       =                              substr($thisfile_riff_WAVE_bext_0['data'], 347, 254);
					$thisfile_riff_WAVE_bext_0['coding_history'] =         explode("\r\n", trim(substr($thisfile_riff_WAVE_bext_0['data'], 601)));
					if (preg_match('#^([0-9]{4}).([0-9]{2}).([0-9]{2})$#', $thisfile_riff_WAVE_bext_0['origin_date'], $matches_bext_date)) {
						if (preg_match('#^([0-9]{2}).([0-9]{2}).([0-9]{2})$#', $thisfile_riff_WAVE_bext_0['origin_time'], $matches_bext_time)) {
							$bext_timestamp = array();
							list($dummy, $bext_timestamp['year'], $bext_timestamp['month'],  $bext_timestamp['day'])    = $matches_bext_date;
							list($dummy, $bext_timestamp['hour'], $bext_timestamp['minute'], $bext_timestamp['second']) = $matches_bext_time;
							$thisfile_riff_WAVE_bext_0['origin_date_unix'] = gmmktime($bext_timestamp['hour'], $bext_timestamp['minute'], $bext_timestamp['second'], $bext_timestamp['month'], $bext_timestamp['day'], $bext_timestamp['year']);
						} else {
							$this->warning('RIFF.WAVE.BEXT.origin_time is invalid');
						}
					} else {
						$this->warning('RIFF.WAVE.BEXT.origin_date is invalid');
					}
					$thisfile_riff['comments']['author'][] = $thisfile_riff_WAVE_bext_0['author'];
					$thisfile_riff['comments']['title'][]  = $thisfile_riff_WAVE_bext_0['title'];
				}

				if (isset($thisfile_riff_WAVE['MEXT'][0]['data'])) {
					// shortcut
					$thisfile_riff_WAVE_MEXT_0 = &$thisfile_riff_WAVE['MEXT'][0];

					$thisfile_riff_WAVE_MEXT_0['raw']['sound_information']      = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_MEXT_0['data'], 0, 2));
					$thisfile_riff_WAVE_MEXT_0['flags']['homogenous']           = (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['sound_information'] & 0x0001);
					if ($thisfile_riff_WAVE_MEXT_0['flags']['homogenous']) {
						$thisfile_riff_WAVE_MEXT_0['flags']['padding']          = ($thisfile_riff_WAVE_MEXT_0['raw']['sound_information'] & 0x0002) ? false : true;
						$thisfile_riff_WAVE_MEXT_0['flags']['22_or_44']         =        (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['sound_information'] & 0x0004);
						$thisfile_riff_WAVE_MEXT_0['flags']['free_format']      =        (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['sound_information'] & 0x0008);

						$thisfile_riff_WAVE_MEXT_0['nominal_frame_size']        = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_MEXT_0['data'], 2, 2));
					}
					$thisfile_riff_WAVE_MEXT_0['anciliary_data_length']         = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_MEXT_0['data'], 6, 2));
					$thisfile_riff_WAVE_MEXT_0['raw']['anciliary_data_def']     = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_MEXT_0['data'], 8, 2));
					$thisfile_riff_WAVE_MEXT_0['flags']['anciliary_data_left']  = (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['anciliary_data_def'] & 0x0001);
					$thisfile_riff_WAVE_MEXT_0['flags']['anciliary_data_free']  = (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['anciliary_data_def'] & 0x0002);
					$thisfile_riff_WAVE_MEXT_0['flags']['anciliary_data_right'] = (bool) ($thisfile_riff_WAVE_MEXT_0['raw']['anciliary_data_def'] & 0x0004);
				}

				if (isset($thisfile_riff_WAVE['cart'][0]['data'])) {
					// shortcut
					$thisfile_riff_WAVE_cart_0 = &$thisfile_riff_WAVE['cart'][0];

					$thisfile_riff_WAVE_cart_0['version']              =                              substr($thisfile_riff_WAVE_cart_0['data'],   0,  4);
					$thisfile_riff_WAVE_cart_0['title']                =                         trim(substr($thisfile_riff_WAVE_cart_0['data'],   4, 64));
					$thisfile_riff_WAVE_cart_0['artist']               =                         trim(substr($thisfile_riff_WAVE_cart_0['data'],  68, 64));
					$thisfile_riff_WAVE_cart_0['cut_id']               =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 132, 64));
					$thisfile_riff_WAVE_cart_0['client_id']            =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 196, 64));
					$thisfile_riff_WAVE_cart_0['category']             =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 260, 64));
					$thisfile_riff_WAVE_cart_0['classification']       =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 324, 64));
					$thisfile_riff_WAVE_cart_0['out_cue']              =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 388, 64));
					$thisfile_riff_WAVE_cart_0['start_date']           =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 452, 10));
					$thisfile_riff_WAVE_cart_0['start_time']           =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 462,  8));
					$thisfile_riff_WAVE_cart_0['end_date']             =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 470, 10));
					$thisfile_riff_WAVE_cart_0['end_time']             =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 480,  8));
					$thisfile_riff_WAVE_cart_0['producer_app_id']      =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 488, 64));
					$thisfile_riff_WAVE_cart_0['producer_app_version'] =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 552, 64));
					$thisfile_riff_WAVE_cart_0['user_defined_text']    =                         trim(substr($thisfile_riff_WAVE_cart_0['data'], 616, 64));
					$thisfile_riff_WAVE_cart_0['zero_db_reference']    = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_cart_0['data'], 680,  4), true);
					for ($i = 0; $i < 8; $i++) {
						$thisfile_riff_WAVE_cart_0['post_time'][$i]['usage_fourcc'] =                  substr($thisfile_riff_WAVE_cart_0['data'], 684 + ($i * 8), 4);
						$thisfile_riff_WAVE_cart_0['post_time'][$i]['timer_value']  = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE_cart_0['data'], 684 + ($i * 8) + 4, 4));
					}
					$thisfile_riff_WAVE_cart_0['url']              =                 trim(substr($thisfile_riff_WAVE_cart_0['data'],  748, 1024));
					$thisfile_riff_WAVE_cart_0['tag_text']         = explode("\r\n", trim(substr($thisfile_riff_WAVE_cart_0['data'], 1772)));
					$thisfile_riff['comments']['tag_text'][]       =                      substr($thisfile_riff_WAVE_cart_0['data'], 1772);

					$thisfile_riff['comments']['artist'][] = $thisfile_riff_WAVE_cart_0['artist'];
					$thisfile_riff['comments']['title'][]  = $thisfile_riff_WAVE_cart_0['title'];
				}

				if (isset($thisfile_riff_WAVE['SNDM'][0]['data'])) {
					// SoundMiner metadata

					// shortcuts
					$thisfile_riff_WAVE_SNDM_0      = &$thisfile_riff_WAVE['SNDM'][0];
					$thisfile_riff_WAVE_SNDM_0_data = &$thisfile_riff_WAVE_SNDM_0['data'];
					$SNDM_startoffset = 0;
					$SNDM_endoffset   = $thisfile_riff_WAVE_SNDM_0['size'];

					while ($SNDM_startoffset < $SNDM_endoffset) {
						$SNDM_thisTagOffset = 0;
						$SNDM_thisTagSize      = getid3_lib::BigEndian2Int(substr($thisfile_riff_WAVE_SNDM_0_data, $SNDM_startoffset + $SNDM_thisTagOffset, 4));
						$SNDM_thisTagOffset += 4;
						$SNDM_thisTagKey       =                           substr($thisfile_riff_WAVE_SNDM_0_data, $SNDM_startoffset + $SNDM_thisTagOffset, 4);
						$SNDM_thisTagOffset += 4;
						$SNDM_thisTagDataSize  = getid3_lib::BigEndian2Int(substr($thisfile_riff_WAVE_SNDM_0_data, $SNDM_startoffset + $SNDM_thisTagOffset, 2));
						$SNDM_thisTagOffset += 2;
						$SNDM_thisTagDataFlags = getid3_lib::BigEndian2Int(substr($thisfile_riff_WAVE_SNDM_0_data, $SNDM_startoffset + $SNDM_thisTagOffset, 2));
						$SNDM_thisTagOffset += 2;
						$SNDM_thisTagDataText =                            substr($thisfile_riff_WAVE_SNDM_0_data, $SNDM_startoffset + $SNDM_thisTagOffset, $SNDM_thisTagDataSize);
						$SNDM_thisTagOffset += $SNDM_thisTagDataSize;

						if ($SNDM_thisTagSize != (4 + 4 + 2 + 2 + $SNDM_thisTagDataSize)) {
							$this->warning('RIFF.WAVE.SNDM.data contains tag not expected length (expected: '.$SNDM_thisTagSize.', found: '.(4 + 4 + 2 + 2 + $SNDM_thisTagDataSize).') at offset '.$SNDM_startoffset.' (file offset '.($thisfile_riff_WAVE_SNDM_0['offset'] + $SNDM_startoffset).')');
							break;
						} elseif ($SNDM_thisTagSize <= 0) {
							$this->warning('RIFF.WAVE.SNDM.data contains zero-size tag at offset '.$SNDM_startoffset.' (file offset '.($thisfile_riff_WAVE_SNDM_0['offset'] + $SNDM_startoffset).')');
							break;
						}
						$SNDM_startoffset += $SNDM_thisTagSize;

						$thisfile_riff_WAVE_SNDM_0['parsed_raw'][$SNDM_thisTagKey] = $SNDM_thisTagDataText;
						if ($parsedkey = self::waveSNDMtagLookup($SNDM_thisTagKey)) {
							$thisfile_riff_WAVE_SNDM_0['parsed'][$parsedkey] = $SNDM_thisTagDataText;
						} else {
							$this->warning('RIFF.WAVE.SNDM contains unknown tag "'.$SNDM_thisTagKey.'" at offset '.$SNDM_startoffset.' (file offset '.($thisfile_riff_WAVE_SNDM_0['offset'] + $SNDM_startoffset).')');
						}
					}

					$tagmapping = array(
						'tracktitle'=>'title',
						'category'  =>'genre',
						'cdtitle'   =>'album',
					);
					foreach ($tagmapping as $fromkey => $tokey) {
						if (isset($thisfile_riff_WAVE_SNDM_0['parsed'][$fromkey])) {
							$thisfile_riff['comments'][$tokey][] = $thisfile_riff_WAVE_SNDM_0['parsed'][$fromkey];
						}
					}
				}

				if (isset($thisfile_riff_WAVE['iXML'][0]['data'])) {
					// requires functions simplexml_load_string and get_object_vars
					if ($parsedXML = getid3_lib::XML2array($thisfile_riff_WAVE['iXML'][0]['data'])) {
						$thisfile_riff_WAVE['iXML'][0]['parsed'] = $parsedXML;
						if (isset($parsedXML['SPEED']['MASTER_SPEED'])) {
							@list($numerator, $denominator) = explode('/', $parsedXML['SPEED']['MASTER_SPEED']);
							$thisfile_riff_WAVE['iXML'][0]['master_speed'] = (int) $numerator / ($denominator ? $denominator : 1000);
						}
						if (isset($parsedXML['SPEED']['TIMECODE_RATE'])) {
							@list($numerator, $denominator) = explode('/', $parsedXML['SPEED']['TIMECODE_RATE']);
							$thisfile_riff_WAVE['iXML'][0]['timecode_rate'] = (int) $numerator / ($denominator ? $denominator : 1000);
						}
						if (isset($parsedXML['SPEED']['TIMESTAMP_SAMPLES_SINCE_MIDNIGHT_LO']) && !empty($parsedXML['SPEED']['TIMESTAMP_SAMPLE_RATE']) && !empty($thisfile_riff_WAVE['iXML'][0]['timecode_rate'])) {
							$samples_since_midnight = floatval(ltrim($parsedXML['SPEED']['TIMESTAMP_SAMPLES_SINCE_MIDNIGHT_HI'].$parsedXML['SPEED']['TIMESTAMP_SAMPLES_SINCE_MIDNIGHT_LO'], '0'));
							$timestamp_sample_rate = (is_array($parsedXML['SPEED']['TIMESTAMP_SAMPLE_RATE']) ? max($parsedXML['SPEED']['TIMESTAMP_SAMPLE_RATE']) : $parsedXML['SPEED']['TIMESTAMP_SAMPLE_RATE']); // XML could possibly contain more than one TIMESTAMP_SAMPLE_RATE tag, returning as array instead of integer [why? does it make sense? perhaps doesn't matter but getID3 needs to deal with it] - see https://github.com/JamesHeinrich/getID3/issues/105
							$thisfile_riff_WAVE['iXML'][0]['timecode_seconds'] = $samples_since_midnight / $timestamp_sample_rate;
							$h = floor( $thisfile_riff_WAVE['iXML'][0]['timecode_seconds']       / 3600);
							$m = floor(($thisfile_riff_WAVE['iXML'][0]['timecode_seconds'] - ($h * 3600))      / 60);
							$s = floor( $thisfile_riff_WAVE['iXML'][0]['timecode_seconds'] - ($h * 3600) - ($m * 60));
							$f =       ($thisfile_riff_WAVE['iXML'][0]['timecode_seconds'] - ($h * 3600) - ($m * 60) - $s) * $thisfile_riff_WAVE['iXML'][0]['timecode_rate'];
							$thisfile_riff_WAVE['iXML'][0]['timecode_string']       = sprintf('%02d:%02d:%02d:%05.2f', $h, $m, $s,       $f);
							$thisfile_riff_WAVE['iXML'][0]['timecode_string_round'] = sprintf('%02d:%02d:%02d:%02d',   $h, $m, $s, round($f));
							unset($samples_since_midnight, $timestamp_sample_rate, $h, $m, $s, $f);
						}
						unset($parsedXML);
					}
				}

				if (isset($thisfile_riff_WAVE['guan'][0]['data'])) {
					// shortcut
					$thisfile_riff_WAVE_guan_0 = &$thisfile_riff_WAVE['guan'][0];
					if (!empty($thisfile_riff_WAVE_guan_0['data']) && (substr($thisfile_riff_WAVE_guan_0['data'], 0, 14) == 'GUANO|Version:')) {
						$thisfile_riff['guano'] = array();
						foreach (explode("\n", $thisfile_riff_WAVE_guan_0['data']) as $line) {
							if ($line) {
								@list($key, $value) = explode(':', $line, 2);
								if (substr($value, 0, 3) == '[{"') {
									if ($decoded = @json_decode($value, true)) {
										if (!empty($decoded) && (count($decoded) == 1)) {
											$value = $decoded[0];
										} else {
											$value = $decoded;
										}
									}
								}
								$thisfile_riff['guano'] = array_merge_recursive($thisfile_riff['guano'], getid3_lib::CreateDeepArray($key, '|', $value));
							}
						}

						// https://www.wildlifeacoustics.com/SCHEMA/GUANO.html
						foreach ($thisfile_riff['guano'] as $key => $value) {
							switch ($key) {
								case 'Loc Position':
									if (preg_match('#^([\\+\\-]?[0-9]+\\.[0-9]+) ([\\+\\-]?[0-9]+\\.[0-9]+)$#', $value, $matches)) {
										list($dummy, $latitude, $longitude) = $matches;
										$thisfile_riff['comments']['gps_latitude'][0]  = floatval($latitude);
										$thisfile_riff['comments']['gps_longitude'][0] = floatval($longitude);
										$thisfile_riff['guano'][$key] = floatval($latitude).' '.floatval($longitude);
									}
									break;
								case 'Loc Elevation': // Elevation/altitude above mean sea level in meters
									$thisfile_riff['comments']['gps_altitude'][0] = floatval($value);
									$thisfile_riff['guano'][$key] = (float) $value;
									break;
								case 'Filter HP':        // High-pass filter frequency in kHz
								case 'Filter LP':        // Low-pass filter frequency in kHz
								case 'Humidity':         // Relative humidity as a percentage
								case 'Length':           // Recording length in seconds
								case 'Loc Accuracy':     // Estimated Position Error in meters
								case 'Temperature Ext':  // External temperature in degrees Celsius outside the recorder's housing
								case 'Temperature Int':  // Internal temperature in degrees Celsius inside the recorder's housing
									$thisfile_riff['guano'][$key] = (float) $value;
									break;
								case 'Samplerate':       // Recording sample rate, Hz
								case 'TE':               // Time-expansion factor. If not specified, then 1 (no time-expansion a.k.a. direct-recording) is assumed.
									$thisfile_riff['guano'][$key] = (int) $value;
									break;
							}
						}

					} else {
						$this->warning('RIFF.guan data not in expected format');
					}
				}

				if (!isset($thisfile_audio['bitrate']) && isset($thisfile_riff_audio[$streamindex]['bitrate'])) {
					$thisfile_audio['bitrate'] = $thisfile_riff_audio[$streamindex]['bitrate'];
					$info['playtime_seconds'] = (float)getid3_lib::SafeDiv((($info['avdataend'] - $info['avdataoffset']) * 8), $thisfile_audio['bitrate']);
				}

				if (!empty($info['wavpack'])) {
					$thisfile_audio_dataformat = 'wavpack';
					$thisfile_audio['bitrate_mode'] = 'vbr';
					$thisfile_audio['encoder']      = 'WavPack v'.$info['wavpack']['version'];

					// Reset to the way it was - RIFF parsing will have messed this up
					$info['avdataend']        = $Original['avdataend'];
					$thisfile_audio['bitrate'] = getid3_lib::SafeDiv(($info['avdataend'] - $info['avdataoffset']) * 8, $info['playtime_seconds']);

					$this->fseek($info['avdataoffset'] - 44);
					$RIFFdata = $this->fread(44);
					$OrignalRIFFheaderSize = getid3_lib::LittleEndian2Int(substr($RIFFdata,  4, 4)) +  8;
					$OrignalRIFFdataSize   = getid3_lib::LittleEndian2Int(substr($RIFFdata, 40, 4)) + 44;

					if ($OrignalRIFFheaderSize > $OrignalRIFFdataSize) {
						$info['avdataend'] -= ($OrignalRIFFheaderSize - $OrignalRIFFdataSize);
						$this->fseek($info['avdataend']);
						$RIFFdata .= $this->fread($OrignalRIFFheaderSize - $OrignalRIFFdataSize);
					}

					// move the data chunk after all other chunks (if any)
					// so that the RIFF parser doesn't see EOF when trying
					// to skip over the data chunk
					$RIFFdata = substr($RIFFdata, 0, 36).substr($RIFFdata, 44).substr($RIFFdata, 36, 8);
					$getid3_riff = new getid3_riff($this->getid3);
					$getid3_riff->ParseRIFFdata($RIFFdata);
					unset($getid3_riff);
				}

				if (isset($thisfile_riff_raw['fmt ']['wFormatTag'])) {
					switch ($thisfile_riff_raw['fmt ']['wFormatTag']) {
						case 0x0001: // PCM
							if (!empty($info['ac3'])) {
								// Dolby Digital WAV files masquerade as PCM-WAV, but they're not
								$thisfile_audio['wformattag']  = 0x2000;
								$thisfile_audio['codec']       = self::wFormatTagLookup($thisfile_audio['wformattag']);
								$thisfile_audio['lossless']    = false;
								$thisfile_audio['bitrate']     = $info['ac3']['bitrate'];
								$thisfile_audio['sample_rate'] = $info['ac3']['sample_rate'];
							}
							if (!empty($info['dts'])) {
								// Dolby DTS files masquerade as PCM-WAV, but they're not
								$thisfile_audio['wformattag']  = 0x2001;
								$thisfile_audio['codec']       = self::wFormatTagLookup($thisfile_audio['wformattag']);
								$thisfile_audio['lossless']    = false;
								$thisfile_audio['bitrate']     = $info['dts']['bitrate'];
								$thisfile_audio['sample_rate'] = $info['dts']['sample_rate'];
							}
							break;
						case 0x08AE: // ClearJump LiteWave
							$thisfile_audio['bitrate_mode'] = 'vbr';
							$thisfile_audio_dataformat   = 'litewave';

							//typedef struct tagSLwFormat {
							//  WORD    m_wCompFormat;     // low byte defines compression method, high byte is compression flags
							//  DWORD   m_dwScale;         // scale factor for lossy compression
							//  DWORD   m_dwBlockSize;     // number of samples in encoded blocks
							//  WORD    m_wQuality;        // alias for the scale factor
							//  WORD    m_wMarkDistance;   // distance between marks in bytes
							//  WORD    m_wReserved;
							//
							//  //following paramters are ignored if CF_FILESRC is not set
							//  DWORD   m_dwOrgSize;       // original file size in bytes
							//  WORD    m_bFactExists;     // indicates if 'fact' chunk exists in the original file
							//  DWORD   m_dwRiffChunkSize; // riff chunk size in the original file
							//
							//  PCMWAVEFORMAT m_OrgWf;     // original wave format
							// }SLwFormat, *PSLwFormat;

							// shortcut
							$thisfile_riff['litewave']['raw'] = array();
							$riff_litewave     = &$thisfile_riff['litewave'];
							$riff_litewave_raw = &$riff_litewave['raw'];

							$flags = array(
								'compression_method' => 1,
								'compression_flags'  => 1,
								'm_dwScale'          => 4,
								'm_dwBlockSize'      => 4,
								'm_wQuality'         => 2,
								'm_wMarkDistance'    => 2,
								'm_wReserved'        => 2,
								'm_dwOrgSize'        => 4,
								'm_bFactExists'      => 2,
								'm_dwRiffChunkSize'  => 4,
							);
							$litewave_offset = 18;
							foreach ($flags as $flag => $length) {
								$riff_litewave_raw[$flag] = getid3_lib::LittleEndian2Int(substr($thisfile_riff_WAVE['fmt '][0]['data'], $litewave_offset, $length));
								$litewave_offset += $length;
							}

							//$riff_litewave['quality_factor'] = intval(round((2000 - $riff_litewave_raw['m_dwScale']) / 20));
							$riff_litewave['quality_factor'] = $riff_litewave_raw['m_wQuality'];

							$riff_litewave['flags']['raw_source']    = ($riff_litewave_raw['compression_flags'] & 0x01) ? false : true;
							$riff_litewave['flags']['vbr_blocksize'] = ($riff_litewave_raw['compression_flags'] & 0x02) ? false : true;
							$riff_litewave['flags']['seekpoints']    =        (bool) ($riff_litewave_raw['compression_flags'] & 0x04);

							$thisfile_audio['lossless']        = (($riff_litewave_raw['m_wQuality'] == 100) ? true : false);
							$thisfile_audio['encoder_options'] = '-q'.$riff_litewave['quality_factor'];
							break;

						default:
							break;
					}
				}
				if ($info['avdataend'] > $info['filesize']) {
					switch ($thisfile_audio_dataformat) {
						case 'wavpack': // WavPack
						case 'lpac':    // LPAC
						case 'ofr':     // OptimFROG
						case 'ofs':     // OptimFROG DualStream
							// lossless compressed audio formats that keep original RIFF headers - skip warning
							break;

						case 'litewave':
							if (($info['avdataend'] - $info['filesize']) == 1) {
								// LiteWave appears to incorrectly *not* pad actual output file
								// to nearest WORD boundary so may appear to be short by one
								// byte, in which case - skip warning
							} else {
								// Short by more than one byte, throw warning
								$this->warning('Probably truncated file - expecting '.$thisfile_riff[$RIFFsubtype]['data'][0]['size'].' bytes of data, only found '.($info['filesize'] - $info['avdataoffset']).' (short by '.($thisfile_riff[$RIFFsubtype]['data'][0]['size'] - ($info['filesize'] - $info['avdataoffset'])).' bytes)');
								$info['avdataend'] = $info['filesize'];
							}
							break;

						default:
							if ((($info['avdataend'] - $info['filesize']) == 1) && (($thisfile_riff[$RIFFsubtype]['data'][0]['size'] % 2) == 0) && ((($info['filesize'] - $info['avdataoffset']) % 2) == 1)) {
								// output file appears to be incorrectly *not* padded to nearest WORD boundary
								// Output less severe warning
								$this->warning('File should probably be padded to nearest WORD boundary, but it is not (expecting '.$thisfile_riff[$RIFFsubtype]['data'][0]['size'].' bytes of data, only found '.($info['filesize'] - $info['avdataoffset']).' therefore short by '.($thisfile_riff[$RIFFsubtype]['data'][0]['size'] - ($info['filesize'] - $info['avdataoffset'])).' bytes)');
								$info['avdataend'] = $info['filesize'];
							} else {
								// Short by more than one byte, throw warning
								$this->warning('Probably truncated file - expecting '.$thisfile_riff[$RIFFsubtype]['data'][0]['size'].' bytes of data, only found '.($info['filesize'] - $info['avdataoffset']).' (short by '.($thisfile_riff[$RIFFsubtype]['data'][0]['size'] - ($info['filesize'] - $info['avdataoffset'])).' bytes)');
								$info['avdataend'] = $info['filesize'];
							}
							break;
					}
				}
				if (!empty($info['mpeg']['audio']['LAME']['audio_bytes'])) {
					if ((($info['avdataend'] - $info['avdataoffset']) - $info['mpeg']['audio']['LAME']['audio_bytes']) == 1) {
						$info['avdataend']--;
						$this->warning('Extra null byte at end of MP3 data assumed to be RIFF padding and therefore ignored');
					}
				}
				if ($thisfile_audio_dataformat == 'ac3') {
					unset($thisfile_audio['bits_per_sample']);
					if (!empty($info['ac3']['bitrate']) && ($info['ac3']['bitrate'] != $thisfile_audio['bitrate'])) {
						$thisfile_audio['bitrate'] = $info['ac3']['bitrate'];
					}
				}
				break;

			// http://en.wikipedia.org/wiki/Audio_Video_Interleave
			case 'AVI ':
				$info['fileformat'] = 'avi';
				$info['mime_type']  = 'video/avi';

				$thisfile_video['bitrate_mode'] = 'vbr'; // maybe not, but probably
				$thisfile_video['dataformat']   = 'avi';

				$thisfile_riff_video_current = array();

				if (isset($thisfile_riff[$RIFFsubtype]['movi']['offset'])) {
					$info['avdataoffset'] = $thisfile_riff[$RIFFsubtype]['movi']['offset'] + 8;
					if (isset($thisfile_riff['AVIX'])) {
						$info['avdataend'] = $thisfile_riff['AVIX'][(count($thisfile_riff['AVIX']) - 1)]['chunks']['movi']['offset'] + $thisfile_riff['AVIX'][(count($thisfile_riff['AVIX']) - 1)]['chunks']['movi']['size'];
					} else {
						$info['avdataend'] = $thisfile_riff['AVI ']['movi']['offset'] + $thisfile_riff['AVI ']['movi']['size'];
					}
					if ($info['avdataend'] > $info['filesize']) {
						$this->warning('Probably truncated file - expecting '.($info['avdataend'] - $info['avdataoffset']).' bytes of data, only found '.($info['filesize'] - $info['avdataoffset']).' (short by '.($info['avdataend'] - $info['filesize']).' bytes)');
						$info['avdataend'] = $info['filesize'];
					}
				}

				if (isset($thisfile_riff['AVI ']['hdrl']['strl']['indx'])) {
					//$bIndexType = array(
					//	0x00 => 'AVI_INDEX_OF_INDEXES',
					//	0x01 => 'AVI_INDEX_OF_CHUNKS',
					//	0x80 => 'AVI_INDEX_IS_DATA',
					//);
					//$bIndexSubtype = array(
					//	0x01 => array(
					//		0x01 => 'AVI_INDEX_2FIELD',
					//	),
					//);
					foreach ($thisfile_riff['AVI ']['hdrl']['strl']['indx'] as $streamnumber => $steamdataarray) {
						$ahsisd = &$thisfile_riff['AVI ']['hdrl']['strl']['indx'][$streamnumber]['data'];

						$thisfile_riff_raw['indx'][$streamnumber]['wLongsPerEntry'] = $this->EitherEndian2Int(substr($ahsisd,  0, 2));
						$thisfile_riff_raw['indx'][$streamnumber]['bIndexSubType']  = $this->EitherEndian2Int(substr($ahsisd,  2, 1));
						$thisfile_riff_raw['indx'][$streamnumber]['bIndexType']     = $this->EitherEndian2Int(substr($ahsisd,  3, 1));
						$thisfile_riff_raw['indx'][$streamnumber]['nEntriesInUse']  = $this->EitherEndian2Int(substr($ahsisd,  4, 4));
						$thisfile_riff_raw['indx'][$streamnumber]['dwChunkId']      =                         substr($ahsisd,  8, 4);
						$thisfile_riff_raw['indx'][$streamnumber]['dwReserved']     = $this->EitherEndian2Int(substr($ahsisd, 12, 4));

						//$thisfile_riff_raw['indx'][$streamnumber]['bIndexType_name']    =    $bIndexType[$thisfile_riff_raw['indx'][$streamnumber]['bIndexType']];
						//$thisfile_riff_raw['indx'][$streamnumber]['bIndexSubType_name'] = $bIndexSubtype[$thisfile_riff_raw['indx'][$streamnumber]['bIndexType']][$thisfile_riff_raw['indx'][$streamnumber]['bIndexSubType']];

						unset($ahsisd);
					}
				}
				if (isset($thisfile_riff['AVI ']['hdrl']['avih'][$streamindex]['data'])) {
					$avihData = $thisfile_riff['AVI ']['hdrl']['avih'][$streamindex]['data'];

					// shortcut
					$thisfile_riff_raw['avih'] = array();
					$thisfile_riff_raw_avih = &$thisfile_riff_raw['avih'];

					$thisfile_riff_raw_avih['dwMicroSecPerFrame']    = $this->EitherEndian2Int(substr($avihData,  0, 4)); // frame display rate (or 0L)
					if ($thisfile_riff_raw_avih['dwMicroSecPerFrame'] == 0) {
						$this->error('Corrupt RIFF file: avih.dwMicroSecPerFrame == zero');
						return false;
					}

					$flags = array(
						'dwMaxBytesPerSec',       // max. transfer rate
						'dwPaddingGranularity',   // pad to multiples of this size; normally 2K.
						'dwFlags',                // the ever-present flags
						'dwTotalFrames',          // # frames in file
						'dwInitialFrames',        //
						'dwStreams',              //
						'dwSuggestedBufferSize',  //
						'dwWidth',                //
						'dwHeight',               //
						'dwScale',                //
						'dwRate',                 //
						'dwStart',                //
						'dwLength',               //
					);
					$avih_offset = 4;
					foreach ($flags as $flag) {
						$thisfile_riff_raw_avih[$flag] = $this->EitherEndian2Int(substr($avihData, $avih_offset, 4));
						$avih_offset += 4;
					}

					$flags = array(
						'hasindex'     => 0x00000010,
						'mustuseindex' => 0x00000020,
						'interleaved'  => 0x00000100,
						'trustcktype'  => 0x00000800,
						'capturedfile' => 0x00010000,
						'copyrighted'  => 0x00020010,
					);
					foreach ($flags as $flag => $value) {
						$thisfile_riff_raw_avih['flags'][$flag] = (bool) ($thisfile_riff_raw_avih['dwFlags'] & $value);
					}

					// shortcut
					$thisfile_riff_video[$streamindex] = array();
					/** @var array $thisfile_riff_video_current */
					$thisfile_riff_video_current = &$thisfile_riff_video[$streamindex];

					if ($thisfile_riff_raw_avih['dwWidth'] > 0) { // @phpstan-ignore-line
						$thisfile_riff_video_current['frame_width'] = $thisfile_riff_raw_avih['dwWidth'];
						$thisfile_video['resolution_x']             = $thisfile_riff_video_current['frame_width'];
					}
					if ($thisfile_riff_raw_avih['dwHeight'] > 0) { // @phpstan-ignore-line
						$thisfile_riff_video_current['frame_height'] = $thisfile_riff_raw_avih['dwHeight'];
						$thisfile_video['resolution_y']              = $thisfile_riff_video_current['frame_height'];
					}
					if ($thisfile_riff_raw_avih['dwTotalFrames'] > 0) { // @phpstan-ignore-line
						$thisfile_riff_video_current['total_frames'] = $thisfile_riff_raw_avih['dwTotalFrames'];
						$thisfile_video['total_frames']              = $thisfile_riff_video_current['total_frames'];
					}

					$thisfile_riff_video_current['frame_rate'] = round(1000000 / $thisfile_riff_raw_avih['dwMicroSecPerFrame'], 3);
					$thisfile_video['frame_rate'] = $thisfile_riff_video_current['frame_rate'];
				}
				if (isset($thisfile_riff['AVI ']['hdrl']['strl']['strh'][0]['data'])) {
					if (is_array($thisfile_riff['AVI ']['hdrl']['strl']['strh'])) {
						$thisfile_riff_raw_strf_strhfccType_streamindex = null;
						for ($i = 0; $i < count($thisfile_riff['AVI ']['hdrl']['strl']['strh']); $i++) {
							if (isset($thisfile_riff['AVI ']['hdrl']['strl']['strh'][$i]['data'])) {
								$strhData = $thisfile_riff['AVI ']['hdrl']['strl']['strh'][$i]['data'];
								$strhfccType = substr($strhData,  0, 4);

								if (isset($thisfile_riff['AVI ']['hdrl']['strl']['strf'][$i]['data'])) {
									$strfData = $thisfile_riff['AVI ']['hdrl']['strl']['strf'][$i]['data'];

									if (!isset($thisfile_riff_raw['strf'][$strhfccType][$streamindex])) {
										$thisfile_riff_raw['strf'][$strhfccType][$streamindex] = null;
									}
									// shortcut
									$thisfile_riff_raw_strf_strhfccType_streamindex = &$thisfile_riff_raw['strf'][$strhfccType][$streamindex];

									switch ($strhfccType) {
										case 'auds':
											$thisfile_audio['bitrate_mode'] = 'cbr';
											$thisfile_audio_dataformat      = 'wav';
											if (isset($thisfile_riff_audio) && is_array($thisfile_riff_audio)) {
												$streamindex = count($thisfile_riff_audio);
											}

											$thisfile_riff_audio[$streamindex] = self::parseWAVEFORMATex($strfData);
											$thisfile_audio['wformattag'] = $thisfile_riff_audio[$streamindex]['raw']['wFormatTag'];

											// shortcut
											$thisfile_audio['streams'][$streamindex] = $thisfile_riff_audio[$streamindex];
											$thisfile_audio_streams_currentstream = &$thisfile_audio['streams'][$streamindex];

											if ($thisfile_audio_streams_currentstream['bits_per_sample'] == 0) {
												unset($thisfile_audio_streams_currentstream['bits_per_sample']);
											}
											$thisfile_audio_streams_currentstream['wformattag'] = $thisfile_audio_streams_currentstream['raw']['wFormatTag'];
											unset($thisfile_audio_streams_currentstream['raw']);

											// shortcut
											$thisfile_riff_raw['strf'][$strhfccType][$streamindex] = $thisfile_riff_audio[$streamindex]['raw'];

											unset($thisfile_riff_audio[$streamindex]['raw']);
											$thisfile_audio = getid3_lib::array_merge_noclobber($thisfile_audio, $thisfile_riff_audio[$streamindex]);

											$thisfile_audio['lossless'] = false;
											switch ($thisfile_riff_raw_strf_strhfccType_streamindex['wFormatTag']) {
												case 0x0001:  // PCM
													$thisfile_audio_dataformat  = 'wav';
													$thisfile_audio['lossless'] = true;
													break;

												case 0x0050: // MPEG Layer 2 or Layer 1
													$thisfile_audio_dataformat = 'mp2'; // Assume Layer-2
													break;

												case 0x0055: // MPEG Layer 3
													$thisfile_audio_dataformat = 'mp3';
													break;

												case 0x00FF: // AAC
													$thisfile_audio_dataformat = 'aac';
													break;

												case 0x0161: // Windows Media v7 / v8 / v9
												case 0x0162: // Windows Media Professional v9
												case 0x0163: // Windows Media Lossess v9
													$thisfile_audio_dataformat = 'wma';
													break;

												case 0x2000: // AC-3
													$thisfile_audio_dataformat = 'ac3';
													break;

												case 0x2001: // DTS
													$thisfile_audio_dataformat = 'dts';
													break;

												default:
													$thisfile_audio_dataformat = 'wav';
													break;
											}
											$thisfile_audio_streams_currentstream['dataformat']   = $thisfile_audio_dataformat;
											$thisfile_audio_streams_currentstream['lossless']     = $thisfile_audio['lossless'];
											$thisfile_audio_streams_currentstream['bitrate_mode'] = $thisfile_audio['bitrate_mode'];
											break;


										case 'iavs':
										case 'vids':
											// shortcut
											$thisfile_riff_raw['strh'][$i]                  = array();
											$thisfile_riff_raw_strh_current                 = &$thisfile_riff_raw['strh'][$i];

											$thisfile_riff_raw_strh_current['fccType']               =                         substr($strhData,  0, 4);  // same as $strhfccType;
											$thisfile_riff_raw_strh_current['fccHandler']            =                         substr($strhData,  4, 4);
											$thisfile_riff_raw_strh_current['dwFlags']               = $this->EitherEndian2Int(substr($strhData,  8, 4)); // Contains AVITF_* flags
											$thisfile_riff_raw_strh_current['wPriority']             = $this->EitherEndian2Int(substr($strhData, 12, 2));
											$thisfile_riff_raw_strh_current['wLanguage']             = $this->EitherEndian2Int(substr($strhData, 14, 2));
											$thisfile_riff_raw_strh_current['dwInitialFrames']       = $this->EitherEndian2Int(substr($strhData, 16, 4));
											$thisfile_riff_raw_strh_current['dwScale']               = $this->EitherEndian2Int(substr($strhData, 20, 4));
											$thisfile_riff_raw_strh_current['dwRate']                = $this->EitherEndian2Int(substr($strhData, 24, 4));
											$thisfile_riff_raw_strh_current['dwStart']               = $this->EitherEndian2Int(substr($strhData, 28, 4));
											$thisfile_riff_raw_strh_current['dwLength']              = $this->EitherEndian2Int(substr($strhData, 32, 4));
											$thisfile_riff_raw_strh_current['dwSuggestedBufferSize'] = $this->EitherEndian2Int(substr($strhData, 36, 4));
											$thisfile_riff_raw_strh_current['dwQuality']             = $this->EitherEndian2Int(substr($strhData, 40, 4));
											$thisfile_riff_raw_strh_current['dwSampleSize']          = $this->EitherEndian2Int(substr($strhData, 44, 4));
											$thisfile_riff_raw_strh_current['rcFrame']               = $this->EitherEndian2Int(substr($strhData, 48, 4));

											$thisfile_riff_video_current['codec'] = self::fourccLookup($thisfile_riff_raw_strh_current['fccHandler']);
											$thisfile_video['fourcc']             = $thisfile_riff_raw_strh_current['fccHandler'];
											if (!$thisfile_riff_video_current['codec'] && isset($thisfile_riff_raw_strf_strhfccType_streamindex['fourcc']) && self::fourccLookup($thisfile_riff_raw_strf_strhfccType_streamindex['fourcc'])) {
												$thisfile_riff_video_current['codec'] = self::fourccLookup($thisfile_riff_raw_strf_strhfccType_streamindex['fourcc']);
												$thisfile_video['fourcc']             = $thisfile_riff_raw_strf_strhfccType_streamindex['fourcc'];
											}
											$thisfile_video['codec']              = $thisfile_riff_video_current['codec'];
											$thisfile_video['pixel_aspect_ratio'] = (float) 1;
											switch ($thisfile_riff_raw_strh_current['fccHandler']) {
												case 'HFYU': // Huffman Lossless Codec
												case 'IRAW': // Intel YUV Uncompressed
												case 'YUY2': // Uncompressed YUV 4:2:2
													$thisfile_video['lossless'] = true;
													break;

												default:
													$thisfile_video['lossless'] = false;
													break;
											}

											switch ($strhfccType) {
												case 'vids':
													$thisfile_riff_raw_strf_strhfccType_streamindex = self::ParseBITMAPINFOHEADER(substr($strfData, 0, 40), ($this->container == 'riff'));
													$thisfile_video['bits_per_sample'] = $thisfile_riff_raw_strf_strhfccType_streamindex['biBitCount'];

													if ($thisfile_riff_video_current['codec'] == 'DV') {
														$thisfile_riff_video_current['dv_type'] = 2;
													}
													break;

												case 'iavs':
													$thisfile_riff_video_current['dv_type'] = 1;
													break;
											}
											break;

										default:
											$this->warning('Unhandled fccType for stream ('.$i.'): "'.$strhfccType.'"');
											break;

									}
								}
							}

							if (isset($thisfile_riff_raw_strf_strhfccType_streamindex) && isset($thisfile_riff_raw_strf_strhfccType_streamindex['fourcc'])) {

								$thisfile_video['fourcc'] = $thisfile_riff_raw_strf_strhfccType_streamindex['fourcc'];
								if (self::fourccLookup($thisfile_video['fourcc'])) {
									$thisfile_riff_video_current['codec'] = self::fourccLookup($thisfile_video['fourcc']);
									$thisfile_video['codec']              = $thisfile_riff_video_current['codec'];
								}

								switch ($thisfile_riff_raw_strf_strhfccType_streamindex['fourcc']) {
									case 'HFYU': // Huffman Lossless Codec
									case 'IRAW': // Intel YUV Uncompressed
									case 'YUY2': // Uncompressed YUV 4:2:2
										$thisfile_video['lossless']        = true;
										//$thisfile_video['bits_per_sample'] = 24;
										break;

									default:
										$thisfile_video['lossless']        = false;
										//$thisfile_video['bits_per_sample'] = 24;
										break;
								}

							}
						}
					}
				}
				break;


			case 'AMV ':
				$info['fileformat'] = 'amv';
				$info['mime_type']  = 'video/amv';

				$thisfile_video['bitrate_mode']    = 'vbr'; // it's MJPEG, presumably contant-quality encoding, thereby VBR
				$thisfile_video['dataformat']      = 'mjpeg';
				$thisfile_video['codec']           = 'mjpeg';
				$thisfile_video['lossless']        = false;
				$thisfile_video['bits_per_sample'] = 24;

				$thisfile_audio['dataformat']   = 'adpcm';
				$thisfile_audio['lossless']     = false;
				break;


			// http://en.wikipedia.org/wiki/CD-DA
			case 'CDDA':
				$info['fileformat'] = 'cda';
				unset($info['mime_type']);

				$thisfile_audio_dataformat      = 'cda';

				$info['avdataoffset'] = 44;

				if (isset($thisfile_riff['CDDA']['fmt '][0]['data'])) {
					// shortcut
					$thisfile_riff_CDDA_fmt_0 = &$thisfile_riff['CDDA']['fmt '][0];

					$thisfile_riff_CDDA_fmt_0['unknown1']           = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'],  0, 2));
					$thisfile_riff_CDDA_fmt_0['track_num']          = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'],  2, 2));
					$thisfile_riff_CDDA_fmt_0['disc_id']            = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'],  4, 4));
					$thisfile_riff_CDDA_fmt_0['start_offset_frame'] = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'],  8, 4));
					$thisfile_riff_CDDA_fmt_0['playtime_frames']    = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'], 12, 4));
					$thisfile_riff_CDDA_fmt_0['unknown6']           = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'], 16, 4));
					$thisfile_riff_CDDA_fmt_0['unknown7']           = $this->EitherEndian2Int(substr($thisfile_riff_CDDA_fmt_0['data'], 20, 4));

					$thisfile_riff_CDDA_fmt_0['start_offset_seconds'] = (float) $thisfile_riff_CDDA_fmt_0['start_offset_frame'] / 75;
					$thisfile_riff_CDDA_fmt_0['playtime_seconds']     = (float) $thisfile_riff_CDDA_fmt_0['playtime_frames'] / 75;
					$info['comments']['track_number']         = $thisfile_riff_CDDA_fmt_0['track_num'];
					$info['playtime_seconds']                 = $thisfile_riff_CDDA_fmt_0['playtime_seconds'];

					// hardcoded data for CD-audio
					$thisfile_audio['lossless']        = true;
					$thisfile_audio['sample_rate']     = 44100;
					$thisfile_audio['channels']        = 2;
					$thisfile_audio['bits_per_sample'] = 16;
					$thisfile_audio['bitrate']         = $thisfile_audio['sample_rate'] * $thisfile_audio['channels'] * $thisfile_audio['bits_per_sample'];
					$thisfile_audio['bitrate_mode']    = 'cbr';
				}
				break;

			// http://en.wikipedia.org/wiki/AIFF
			case 'AIFF':
			case 'AIFC':
				$info['fileformat'] = 'aiff';
				$info['mime_type']  = 'audio/x-aiff';

				$thisfile_audio['bitrate_mode'] = 'cbr';
				$thisfile_audio_dataformat      = 'aiff';
				$thisfile_audio['lossless']     = true;

				if (isset($thisfile_riff[$RIFFsubtype]['SSND'][0]['offset'])) {
					$info['avdataoffset'] = $thisfile_riff[$RIFFsubtype]['SSND'][0]['offset'] + 8;
					$info['avdataend']    = $info['avdataoffset'] + $thisfile_riff[$RIFFsubtype]['SSND'][0]['size'];
					if ($info['avdataend'] > $info['filesize']) {
						if (($info['avdataend'] == ($info['filesize'] + 1)) && (($info['filesize'] % 2) == 1)) {
							// structures rounded to 2-byte boundary, but dumb encoders
							// forget to pad end of file to make this actually work
						} else {
							$this->warning('Probable truncated AIFF file: expecting '.$thisfile_riff[$RIFFsubtype]['SSND'][0]['size'].' bytes of audio data, only '.($info['filesize'] - $info['avdataoffset']).' bytes found');
						}
						$info['avdataend'] = $info['filesize'];
					}
				}

				if (isset($thisfile_riff[$RIFFsubtype]['COMM'][0]['data'])) {

					// shortcut
					$thisfile_riff_RIFFsubtype_COMM_0_data = &$thisfile_riff[$RIFFsubtype]['COMM'][0]['data'];

					$thisfile_riff_audio['channels']         =         getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_COMM_0_data,  0,  2), true);
					$thisfile_riff_audio['total_samples']    =         getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_COMM_0_data,  2,  4), false);
					$thisfile_riff_audio['bits_per_sample']  =         getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_COMM_0_data,  6,  2), true);
					$thisfile_riff_audio['sample_rate']      = (int) getid3_lib::BigEndian2Float(substr($thisfile_riff_RIFFsubtype_COMM_0_data,  8, 10));

					if ($thisfile_riff[$RIFFsubtype]['COMM'][0]['size'] > 18) {
						$thisfile_riff_audio['codec_fourcc'] =                                   substr($thisfile_riff_RIFFsubtype_COMM_0_data, 18,  4);
						$CodecNameSize                       =         getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_COMM_0_data, 22,  1), false);
						$thisfile_riff_audio['codec_name']   =                                   substr($thisfile_riff_RIFFsubtype_COMM_0_data, 23,  $CodecNameSize);
						switch ($thisfile_riff_audio['codec_name']) {
							case 'NONE':
								$thisfile_audio['codec']    = 'Pulse Code Modulation (PCM)';
								$thisfile_audio['lossless'] = true;
								break;

							case '':
								switch ($thisfile_riff_audio['codec_fourcc']) {
									// http://developer.apple.com/qa/snd/snd07.html
									case 'sowt':
										$thisfile_riff_audio['codec_name'] = 'Two\'s Compliment Little-Endian PCM';
										$thisfile_audio['lossless'] = true;
										break;

									case 'twos':
										$thisfile_riff_audio['codec_name'] = 'Two\'s Compliment Big-Endian PCM';
										$thisfile_audio['lossless'] = true;
										break;

									default:
										break;
								}
								break;

							default:
								$thisfile_audio['codec']    = $thisfile_riff_audio['codec_name'];
								$thisfile_audio['lossless'] = false;
								break;
						}
					}

					$thisfile_audio['channels']        = $thisfile_riff_audio['channels'];
					if ($thisfile_riff_audio['bits_per_sample'] > 0) {
						$thisfile_audio['bits_per_sample'] = $thisfile_riff_audio['bits_per_sample'];
					}
					$thisfile_audio['sample_rate']     = $thisfile_riff_audio['sample_rate'];
					if ($thisfile_audio['sample_rate'] == 0) {
						$this->error('Corrupted AIFF file: sample_rate == zero');
						return false;
					}
					$info['playtime_seconds'] = $thisfile_riff_audio['total_samples'] / $thisfile_audio['sample_rate'];
				}

				if (isset($thisfile_riff[$RIFFsubtype]['COMT'])) {
					$offset = 0;
					$CommentCount                                   = getid3_lib::BigEndian2Int(substr($thisfile_riff[$RIFFsubtype]['COMT'][0]['data'], $offset, 2), false);
					$offset += 2;
					for ($i = 0; $i < $CommentCount; $i++) {
						$info['comments_raw'][$i]['timestamp']      = getid3_lib::BigEndian2Int(substr($thisfile_riff[$RIFFsubtype]['COMT'][0]['data'], $offset, 4), false);
						$offset += 4;
						$info['comments_raw'][$i]['marker_id']      = getid3_lib::BigEndian2Int(substr($thisfile_riff[$RIFFsubtype]['COMT'][0]['data'], $offset, 2), true);
						$offset += 2;
						$CommentLength                              = getid3_lib::BigEndian2Int(substr($thisfile_riff[$RIFFsubtype]['COMT'][0]['data'], $offset, 2), false);
						$offset += 2;
						$info['comments_raw'][$i]['comment']        =                           substr($thisfile_riff[$RIFFsubtype]['COMT'][0]['data'], $offset, $CommentLength);
						$offset += $CommentLength;

						$info['comments_raw'][$i]['timestamp_unix'] = getid3_lib::DateMac2Unix($info['comments_raw'][$i]['timestamp']);
						$thisfile_riff['comments']['comment'][] = $info['comments_raw'][$i]['comment'];
					}
				}

				$CommentsChunkNames = array('NAME'=>'title', 'author'=>'artist', '(c) '=>'copyright', 'ANNO'=>'comment');
				foreach ($CommentsChunkNames as $key => $value) {
					if (isset($thisfile_riff[$RIFFsubtype][$key][0]['data'])) {
						$thisfile_riff['comments'][$value][] = $thisfile_riff[$RIFFsubtype][$key][0]['data'];
					}
				}
/*
				if (isset($thisfile_riff[$RIFFsubtype]['ID3 '])) {
					getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.tag.id3v2.php', __FILE__, true);
					$getid3_temp = new getID3();
					$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
					$getid3_id3v2 = new getid3_id3v2($getid3_temp);
					$getid3_id3v2->StartingOffset = $thisfile_riff[$RIFFsubtype]['ID3 '][0]['offset'] + 8;
					if ($thisfile_riff[$RIFFsubtype]['ID3 '][0]['valid'] = $getid3_id3v2->Analyze()) {
						$info['id3v2'] = $getid3_temp->info['id3v2'];
					}
					unset($getid3_temp, $getid3_id3v2);
				}
*/
				break;

			// http://en.wikipedia.org/wiki/8SVX
			case '8SVX':
				$info['fileformat'] = '8svx';
				$info['mime_type']  = 'audio/8svx';

				$thisfile_audio['bitrate_mode']    = 'cbr';
				$thisfile_audio_dataformat         = '8svx';
				$thisfile_audio['bits_per_sample'] = 8;
				$thisfile_audio['channels']        = 1; // overridden below, if need be
				$ActualBitsPerSample               = 0;

				if (isset($thisfile_riff[$RIFFsubtype]['BODY'][0]['offset'])) {
					$info['avdataoffset'] = $thisfile_riff[$RIFFsubtype]['BODY'][0]['offset'] + 8;
					$info['avdataend']    = $info['avdataoffset'] + $thisfile_riff[$RIFFsubtype]['BODY'][0]['size'];
					if ($info['avdataend'] > $info['filesize']) {
						$this->warning('Probable truncated AIFF file: expecting '.$thisfile_riff[$RIFFsubtype]['BODY'][0]['size'].' bytes of audio data, only '.($info['filesize'] - $info['avdataoffset']).' bytes found');
					}
				}

				if (isset($thisfile_riff[$RIFFsubtype]['VHDR'][0]['offset'])) {
					// shortcut
					$thisfile_riff_RIFFsubtype_VHDR_0 = &$thisfile_riff[$RIFFsubtype]['VHDR'][0];

					$thisfile_riff_RIFFsubtype_VHDR_0['oneShotHiSamples']  =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'],  0, 4));
					$thisfile_riff_RIFFsubtype_VHDR_0['repeatHiSamples']   =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'],  4, 4));
					$thisfile_riff_RIFFsubtype_VHDR_0['samplesPerHiCycle'] =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'],  8, 4));
					$thisfile_riff_RIFFsubtype_VHDR_0['samplesPerSec']     =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'], 12, 2));
					$thisfile_riff_RIFFsubtype_VHDR_0['ctOctave']          =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'], 14, 1));
					$thisfile_riff_RIFFsubtype_VHDR_0['sCompression']      =   getid3_lib::BigEndian2Int(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'], 15, 1));
					$thisfile_riff_RIFFsubtype_VHDR_0['Volume']            = getid3_lib::FixedPoint16_16(substr($thisfile_riff_RIFFsubtype_VHDR_0['data'], 16, 4));

					$thisfile_audio['sample_rate'] = $thisfile_riff_RIFFsubtype_VHDR_0['samplesPerSec'];

					switch ($thisfile_riff_RIFFsubtype_VHDR_0['sCompression']) {
						case 0:
							$thisfile_audio['codec']    = 'Pulse Code Modulation (PCM)';
							$thisfile_audio['lossless'] = true;
							$ActualBitsPerSample        = 8;
							break;

						case 1:
							$thisfile_audio['codec']    = 'Fibonacci-delta encoding';
							$thisfile_audio['lossless'] = false;
							$ActualBitsPerSample        = 4;
							break;

						default:
							$this->warning('Unexpected sCompression value in 8SVX.VHDR chunk - expecting 0 or 1, found "'.$thisfile_riff_RIFFsubtype_VHDR_0['sCompression'].'"');
							break;
					}
				}

				if (isset($thisfile_riff[$RIFFsubtype]['CHAN'][0]['data'])) {
					$ChannelsIndex = getid3_lib::BigEndian2Int(substr($thisfile_riff[$RIFFsubtype]['CHAN'][0]['data'], 0, 4));
					switch ($ChannelsIndex) {
						case 6: // Stereo
							$thisfile_audio['channels'] = 2;
							break;

						case 2: // Left channel only
						case 4: // Right channel only
							$thisfile_audio['channels'] = 1;
							break;

						default:
							$this->warning('Unexpected value in 8SVX.CHAN chunk - expecting 2 or 4 or 6, found "'.$ChannelsIndex.'"');
							break;
					}

				}

				$CommentsChunkNames = array('NAME'=>'title', 'author'=>'artist', '(c) '=>'copyright', 'ANNO'=>'comment');
				foreach ($CommentsChunkNames as $key => $value) {
					if (isset($thisfile_riff[$RIFFsubtype][$key][0]['data'])) {
						$thisfile_riff['comments'][$value][] = $thisfile_riff[$RIFFsubtype][$key][0]['data'];
					}
				}

				$thisfile_audio['bitrate'] = $thisfile_audio['sample_rate'] * $ActualBitsPerSample * $thisfile_audio['channels'];
				if (!empty($thisfile_audio['bitrate'])) {
					$info['playtime_seconds'] = ($info['avdataend'] - $info['avdataoffset']) / ($thisfile_audio['bitrate'] / 8);
				}
				break;

			case 'CDXA':
				$info['fileformat'] = 'vcd'; // Asume Video CD
				$info['mime_type']  = 'video/mpeg';

				if (!empty($thisfile_riff['CDXA']['data'][0]['size'])) {
					getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.audio-video.mpeg.php', __FILE__, true);

					$getid3_temp = new getID3();
					$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
					$getid3_mpeg = new getid3_mpeg($getid3_temp);
					$getid3_mpeg->Analyze();
					if (empty($getid3_temp->info['error'])) {
						$info['audio']   = $getid3_temp->info['audio'];
						$info['video']   = $getid3_temp->info['video'];
						$info['mpeg']    = $getid3_temp->info['mpeg'];
						$info['warning'] = $getid3_temp->info['warning'];
					}
					unset($getid3_temp, $getid3_mpeg);
				}
				break;

			case 'WEBP':
				// https://developers.google.com/speed/webp/docs/riff_container
				// https://tools.ietf.org/html/rfc6386
				// https://chromium.googlesource.com/webm/libwebp/+/master/doc/webp-lossless-bitstream-spec.txt
				$info['fileformat'] = 'webp';
				$info['mime_type']  = 'image/webp';

				if (!empty($thisfile_riff['WEBP']['VP8 '][0]['size'])) {
					$old_offset = $this->ftell();
					$this->fseek($thisfile_riff['WEBP']['VP8 '][0]['offset'] + 8); // 4 bytes "VP8 " + 4 bytes chunk size
					$WEBP_VP8_header = $this->fread(10);
					$this->fseek($old_offset);
					if (substr($WEBP_VP8_header, 3, 3) == "\x9D\x01\x2A") {
						$thisfile_riff['WEBP']['VP8 '][0]['keyframe']   = !(getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 0, 3)) & 0x800000);
						$thisfile_riff['WEBP']['VP8 '][0]['version']    =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 0, 3)) & 0x700000) >> 20;
						$thisfile_riff['WEBP']['VP8 '][0]['show_frame'] =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 0, 3)) & 0x080000);
						$thisfile_riff['WEBP']['VP8 '][0]['data_bytes'] =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 0, 3)) & 0x07FFFF) >>  0;

						$thisfile_riff['WEBP']['VP8 '][0]['scale_x']    =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 6, 2)) & 0xC000) >> 14;
						$thisfile_riff['WEBP']['VP8 '][0]['width']      =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 6, 2)) & 0x3FFF);
						$thisfile_riff['WEBP']['VP8 '][0]['scale_y']    =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 8, 2)) & 0xC000) >> 14;
						$thisfile_riff['WEBP']['VP8 '][0]['height']     =  (getid3_lib::LittleEndian2Int(substr($WEBP_VP8_header, 8, 2)) & 0x3FFF);

						$info['video']['resolution_x'] = $thisfile_riff['WEBP']['VP8 '][0]['width'];
						$info['video']['resolution_y'] = $thisfile_riff['WEBP']['VP8 '][0]['height'];
					} else {
						$this->error('Expecting 9D 01 2A at offset '.($thisfile_riff['WEBP']['VP8 '][0]['offset'] + 8 + 3).', found "'.getid3_lib::PrintHexBytes(substr($WEBP_VP8_header, 3, 3)).'"');
					}

				}
				if (!empty($thisfile_riff['WEBP']['VP8L'][0]['size'])) {
					$old_offset = $this->ftell();
					$this->fseek($thisfile_riff['WEBP']['VP8L'][0]['offset'] + 8); // 4 bytes "VP8L" + 4 bytes chunk size
					$WEBP_VP8L_header = $this->fread(10);
					$this->fseek($old_offset);
					if (substr($WEBP_VP8L_header, 0, 1) == "\x2F") {
						$width_height_flags = getid3_lib::LittleEndian2Bin(substr($WEBP_VP8L_header, 1, 4));
						$thisfile_riff['WEBP']['VP8L'][0]['width']         =        bindec(substr($width_height_flags, 18, 14)) + 1;
						$thisfile_riff['WEBP']['VP8L'][0]['height']        =        bindec(substr($width_height_flags,  4, 14)) + 1;
						$thisfile_riff['WEBP']['VP8L'][0]['alpha_is_used'] = (bool) bindec(substr($width_height_flags,  3,  1));
						$thisfile_riff['WEBP']['VP8L'][0]['version']       =        bindec(substr($width_height_flags,  0,  3));

						$info['video']['resolution_x'] = $thisfile_riff['WEBP']['VP8L'][0]['width'];
						$info['video']['resolution_y'] = $thisfile_riff['WEBP']['VP8L'][0]['height'];
					} else {
						$this->error('Expecting 2F at offset '.($thisfile_riff['WEBP']['VP8L'][0]['offset'] + 8).', found "'.getid3_lib::PrintHexBytes(substr($WEBP_VP8L_header, 0, 1)).'"');
					}

				}
				break;

			default:
				$this->error('Unknown RIFF type: expecting one of (WAVE|RMP3|AVI |CDDA|AIFF|AIFC|8SVX|CDXA|WEBP), found "'.$RIFFsubtype.'" instead');
				//unset($info['fileformat']);
		}

		switch ($RIFFsubtype) {
			case 'WAVE':
			case 'AIFF':
			case 'AIFC':
				$ID3v2_key_good = 'id3 ';
				$ID3v2_keys_bad = array('ID3 ', 'tag ');
				foreach ($ID3v2_keys_bad as $ID3v2_key_bad) {
					if (isset($thisfile_riff[$RIFFsubtype][$ID3v2_key_bad]) && !array_key_exists($ID3v2_key_good, $thisfile_riff[$RIFFsubtype])) {
						$thisfile_riff[$RIFFsubtype][$ID3v2_key_good] = $thisfile_riff[$RIFFsubtype][$ID3v2_key_bad];
						$this->warning('mapping "'.$ID3v2_key_bad.'" chunk to "'.$ID3v2_key_good.'"');
					}
				}

				if (isset($thisfile_riff[$RIFFsubtype]['id3 '])) {
					getid3_lib::IncludeDependency(GETID3_INCLUDEPATH.'module.tag.id3v2.php', __FILE__, true);

					$getid3_temp = new getID3();
					$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
					$getid3_id3v2 = new getid3_id3v2($getid3_temp);
					$getid3_id3v2->StartingOffset = $thisfile_riff[$RIFFsubtype]['id3 '][0]['offset'] + 8;
					if ($thisfile_riff[$RIFFsubtype]['id3 '][0]['valid'] = $getid3_id3v2->Analyze()) {
						$info['id3v2'] = $getid3_temp->info['id3v2'];
					}
					unset($getid3_temp, $getid3_id3v2);
				}
				break;
		}

		if (isset($thisfile_riff_WAVE['DISP']) && is_array($thisfile_riff_WAVE['DISP'])) {
			$thisfile_riff['comments']['title'][] = trim(substr($thisfile_riff_WAVE['DISP'][count($thisfile_riff_WAVE['DISP']) - 1]['data'], 4));
		}
		if (isset($thisfile_riff_WAVE['INFO']) && is_array($thisfile_riff_WAVE['INFO'])) {
			self::parseComments($thisfile_riff_WAVE['INFO'], $thisfile_riff['comments']);
		}
		if (isset($thisfile_riff['AVI ']['INFO']) && is_array($thisfile_riff['AVI ']['INFO'])) {
			self::parseComments($thisfile_riff['AVI ']['INFO'], $thisfile_riff['comments']);
		}

		if (empty($thisfile_audio['encoder']) && !empty($info['mpeg']['audio']['LAME']['short_version'])) {
			$thisfile_audio['encoder'] = $info['mpeg']['audio']['LAME']['short_version'];
		}

		if (!isset($info['playtime_seconds'])) {
			$info['playtime_seconds'] = 0;
		}
		if (isset($thisfile_riff_raw['strh'][0]['dwLength']) && isset($thisfile_riff_raw['avih']['dwMicroSecPerFrame'])) { // @phpstan-ignore-line
			// needed for >2GB AVIs where 'avih' chunk only lists number of frames in that chunk, not entire movie
			$info['playtime_seconds'] = $thisfile_riff_raw['strh'][0]['dwLength'] * ($thisfile_riff_raw['avih']['dwMicroSecPerFrame'] / 1000000);
		} elseif (isset($thisfile_riff_raw['avih']['dwTotalFrames']) && isset($thisfile_riff_raw['avih']['dwMicroSecPerFrame'])) { // @phpstan-ignore-line
			$info['playtime_seconds'] = $thisfile_riff_raw['avih']['dwTotalFrames'] * ($thisfile_riff_raw['avih']['dwMicroSecPerFrame'] / 1000000);
		}

		if ($info['playtime_seconds'] > 0) {
			if (isset($thisfile_riff_audio) && isset($thisfile_riff_video)) {

				if (!isset($info['bitrate'])) {
					$info['bitrate'] = ((($info['avdataend'] - $info['avdataoffset']) / $info['playtime_seconds']) * 8);
				}

			} elseif (isset($thisfile_riff_audio) && !isset($thisfile_riff_video)) {

				if (!isset($thisfile_audio['bitrate'])) {
					$thisfile_audio['bitrate'] = ((($info['avdataend'] - $info['avdataoffset']) / $info['playtime_seconds']) * 8);
				}

			} elseif (!isset($thisfile_riff_audio) && isset($thisfile_riff_video)) {

				if (!isset($thisfile_video['bitrate'])) {
					$thisfile_video['bitrate'] = ((($info['avdataend'] - $info['avdataoffset']) / $info['playtime_seconds']) * 8);
				}

			}
		}


		if (isset($thisfile_riff_video) && isset($thisfile_audio['bitrate']) && ($thisfile_audio['bitrate'] > 0) && ($info['playtime_seconds'] > 0)) {

			$info['bitrate'] = ((($info['avdataend'] - $info['avdataoffset']) / $info['playtime_seconds']) * 8);
			$thisfile_audio['bitrate'] = 0;
			$thisfile_video['bitrate'] = $info['bitrate'];
			foreach ($thisfile_riff_audio as $channelnumber => $audioinfoarray) {
				$thisfile_video['bitrate'] -= $audioinfoarray['bitrate'];
				$thisfile_audio['bitrate'] += $audioinfoarray['bitrate'];
			}
			if ($thisfile_video['bitrate'] <= 0) {
				unset($thisfile_video['bitrate']);
			}
			if ($thisfile_audio['bitrate'] <= 0) {
				unset($thisfile_audio['bitrate']);
			}
		}

		if (isset($info['mpeg']['audio'])) {
			$thisfile_audio_dataformat      = 'mp'.$info['mpeg']['audio']['layer'];
			$thisfile_audio['sample_rate']  = $info['mpeg']['audio']['sample_rate'];
			$thisfile_audio['channels']     = $info['mpeg']['audio']['channels'];
			$thisfile_audio['bitrate']      = $info['mpeg']['audio']['bitrate'];
			$thisfile_audio['bitrate_mode'] = strtolower($info['mpeg']['audio']['bitrate_mode']);
			if (!empty($info['mpeg']['audio']['codec'])) {
				$thisfile_audio['codec'] = $info['mpeg']['audio']['codec'].' '.$thisfile_audio['codec'];
			}
			if (!empty($thisfile_audio['streams'])) {
				foreach ($thisfile_audio['streams'] as $streamnumber => $streamdata) {
					if ($streamdata['dataformat'] == $thisfile_audio_dataformat) {
						$thisfile_audio['streams'][$streamnumber]['sample_rate']  = $thisfile_audio['sample_rate'];
						$thisfile_audio['streams'][$streamnumber]['channels']     = $thisfile_audio['channels'];
						$thisfile_audio['streams'][$streamnumber]['bitrate']      = $thisfile_audio['bitrate'];
						$thisfile_audio['streams'][$streamnumber]['bitrate_mode'] = $thisfile_audio['bitrate_mode'];
						$thisfile_audio['streams'][$streamnumber]['codec']        = $thisfile_audio['codec'];
					}
				}
			}
			$getid3_mp3 = new getid3_mp3($this->getid3);
			$thisfile_audio['encoder_options'] = $getid3_mp3->GuessEncoderOptions();
			unset($getid3_mp3);
		}


		if (!empty($thisfile_riff_raw['fmt ']['wBitsPerSample']) && ($thisfile_riff_raw['fmt ']['wBitsPerSample'] > 0)) {
			switch ($thisfile_audio_dataformat) {
				case 'ac3':
					// ignore bits_per_sample
					break;

				default:
					$thisfile_audio['bits_per_sample'] = $thisfile_riff_raw['fmt ']['wBitsPerSample'];
					break;
			}
		}


		if (empty($thisfile_riff_raw)) {
			unset($thisfile_riff['raw']);
		}
		if (empty($thisfile_riff_audio)) {
			unset($thisfile_riff['audio']);
		}
		if (empty($thisfile_riff_video)) {
			unset($thisfile_riff['video']);
		}

		return true;
	}

	/**
	 * @param int $startoffset
	 * @param int $maxoffset
	 *
	 * @return array|false
	 *
	 * @throws Exception
	 * @throws getid3_exception
	 */
	public function ParseRIFFAMV($startoffset, $maxoffset) {
		// AMV files are RIFF-AVI files with parts of the spec deliberately broken, such as chunk size fields hardcoded to zero (because players known in hardware that these fields are always a certain size

		// https://code.google.com/p/amv-codec-tools/wiki/AmvDocumentation
		//typedef struct _amvmainheader {
		//FOURCC fcc; // 'amvh'
		//DWORD cb;
		//DWORD dwMicroSecPerFrame;
		//BYTE reserve[28];
		//DWORD dwWidth;
		//DWORD dwHeight;
		//DWORD dwSpeed;
		//DWORD reserve0;
		//DWORD reserve1;
		//BYTE bTimeSec;
		//BYTE bTimeMin;
		//WORD wTimeHour;
		//} AMVMAINHEADER;

		$info = &$this->getid3->info;
		$RIFFchunk = false;

		try {

			$this->fseek($startoffset);
			$maxoffset = min($maxoffset, $info['avdataend']);
			$AMVheader = $this->fread(284);
			if (substr($AMVheader,   0,  8) != 'hdrlamvh') {
				throw new Exception('expecting "hdrlamv" at offset '.($startoffset +   0).', found "'.substr($AMVheader,   0, 8).'"');
			}
			if (substr($AMVheader,   8,  4) != "\x38\x00\x00\x00") { // "amvh" chunk size, hardcoded to 0x38 = 56 bytes
				throw new Exception('expecting "0x38000000" at offset '.($startoffset +   8).', found "'.getid3_lib::PrintHexBytes(substr($AMVheader,   8, 4)).'"');
			}
			$RIFFchunk = array();
			$RIFFchunk['amvh']['us_per_frame']   = getid3_lib::LittleEndian2Int(substr($AMVheader,  12,  4));
			$RIFFchunk['amvh']['reserved28']     =                              substr($AMVheader,  16, 28);  // null? reserved?
			$RIFFchunk['amvh']['resolution_x']   = getid3_lib::LittleEndian2Int(substr($AMVheader,  44,  4));
			$RIFFchunk['amvh']['resolution_y']   = getid3_lib::LittleEndian2Int(substr($AMVheader,  48,  4));
			$RIFFchunk['amvh']['frame_rate_int'] = getid3_lib::LittleEndian2Int(substr($AMVheader,  52,  4));
			$RIFFchunk['amvh']['reserved0']      = getid3_lib::LittleEndian2Int(substr($AMVheader,  56,  4)); // 1? reserved?
			$RIFFchunk['amvh']['reserved1']      = getid3_lib::LittleEndian2Int(substr($AMVheader,  60,  4)); // 0? reserved?
			$RIFFchunk['amvh']['runtime_sec']    = getid3_lib::LittleEndian2Int(substr($AMVheader,  64,  1));
			$RIFFchunk['amvh']['runtime_min']    = getid3_lib::LittleEndian2Int(substr($AMVheader,  65,  1));
			$RIFFchunk['amvh']['runtime_hrs']    = getid3_lib::LittleEndian2Int(substr($AMVheader,  66,  2));

			$info['video']['frame_rate']   = 1000000 / $RIFFchunk['amvh']['us_per_frame'];
			$info['video']['resolution_x'] = $RIFFchunk['amvh']['resolution_x'];
			$info['video']['resolution_y'] = $RIFFchunk['amvh']['resolution_y'];
			$info['playtime_seconds']      = ($RIFFchunk['amvh']['runtime_hrs'] * 3600) + ($RIFFchunk['amvh']['runtime_min'] * 60) + $RIFFchunk['amvh']['runtime_sec'];

			// the rest is all hardcoded(?) and does not appear to be useful until you get to audio info at offset 256, even then everything is probably hardcoded

			if (substr($AMVheader,  68, 20) != 'LIST'."\x00\x00\x00\x00".'strlstrh'."\x38\x00\x00\x00") {
				throw new Exception('expecting "LIST<0x00000000>strlstrh<0x38000000>" at offset '.($startoffset +  68).', found "'.getid3_lib::PrintHexBytes(substr($AMVheader,  68, 20)).'"');
			}
			// followed by 56 bytes of null: substr($AMVheader,  88, 56) -> 144
			if (substr($AMVheader, 144,  8) != 'strf'."\x24\x00\x00\x00") {
				throw new Exception('expecting "strf<0x24000000>" at offset '.($startoffset + 144).', found "'.getid3_lib::PrintHexBytes(substr($AMVheader, 144,  8)).'"');
			}
			// followed by 36 bytes of null: substr($AMVheader, 144, 36) -> 180

			if (substr($AMVheader, 188, 20) != 'LIST'."\x00\x00\x00\x00".'strlstrh'."\x30\x00\x00\x00") {
				throw new Exception('expecting "LIST<0x00000000>strlstrh<0x30000000>" at offset '.($startoffset + 188).', found "'.getid3_lib::PrintHexBytes(substr($AMVheader, 188, 20)).'"');
			}
			// followed by 48 bytes of null: substr($AMVheader, 208, 48) -> 256
			if (substr($AMVheader, 256,  8) != 'strf'."\x14\x00\x00\x00") {
				throw new Exception('expecting "strf<0x14000000>" at offset '.($startoffset + 256).', found "'.getid3_lib::PrintHexBytes(substr($AMVheader, 256,  8)).'"');
			}
			// followed by 20 bytes of a modified WAVEFORMATEX:
			// typedef struct {
			// WORD wFormatTag;       //(Fixme: this is equal to PCM's 0x01 format code)
			// WORD nChannels;        //(Fixme: this is always 1)
			// DWORD nSamplesPerSec;  //(Fixme: for all known sample files this is equal to 22050)
			// DWORD nAvgBytesPerSec; //(Fixme: for all known sample files this is equal to 44100)
			// WORD nBlockAlign;      //(Fixme: this seems to be 2 in AMV files, is this correct ?)
			// WORD wBitsPerSample;   //(Fixme: this seems to be 16 in AMV files instead of the expected 4)
			// WORD cbSize;           //(Fixme: this seems to be 0 in AMV files)
			// WORD reserved;
			// } WAVEFORMATEX;
			$RIFFchunk['strf']['wformattag']      = getid3_lib::LittleEndian2Int(substr($AMVheader,  264,  2));
			$RIFFchunk['strf']['nchannels']       = getid3_lib::LittleEndian2Int(substr($AMVheader,  266,  2));
			$RIFFchunk['strf']['nsamplespersec']  = getid3_lib::LittleEndian2Int(substr($AMVheader,  268,  4));
			$RIFFchunk['strf']['navgbytespersec'] = getid3_lib::LittleEndian2Int(substr($AMVheader,  272,  4));
			$RIFFchunk['strf']['nblockalign']     = getid3_lib::LittleEndian2Int(substr($AMVheader,  276,  2));
			$RIFFchunk['strf']['wbitspersample']  = getid3_lib::LittleEndian2Int(substr($AMVheader,  278,  2));
			$RIFFchunk['strf']['cbsize']          = getid3_lib::LittleEndian2Int(substr($AMVheader,  280,  2));
			$RIFFchunk['strf']['reserved']        = getid3_lib::LittleEndian2Int(substr($AMVheader,  282,  2));


			$info['audio']['lossless']        = false;
			$info['audio']['sample_rate']     = $RIFFchunk['strf']['nsamplespersec'];
			$info['audio']['channels']        = $RIFFchunk['strf']['nchannels'];
			$info['audio']['bits_per_sample'] = $RIFFchunk['strf']['wbitspersample'];
			$info['audio']['bitrate']         = $info['audio']['sample_rate'] * $info['audio']['channels'] * $info['audio']['bits_per_sample'];
			$info['audio']['bitrate_mode']    = 'cbr';


		} catch (getid3_exception $e) {
			if ($e->getCode() == 10) {
				$this->warning('RIFFAMV parser: '.$e->getMessage());
			} else {
				throw $e;
			}
		}

		return $RIFFchunk;
	}

	/**
	 * @param int $startoffset
	 * @param int $maxoffset
	 *
	 * @return array|false
	 * @throws getid3_exception
	 */
	public function ParseRIFF($startoffset, $maxoffset) {
		$info = &$this->getid3->info;

		$RIFFchunk = array();
		$FoundAllChunksWeNeed = false;
		$LISTchunkParent = null;
		$LISTchunkMaxOffset = null;
		$AC3syncwordBytes = pack('n', getid3_ac3::syncword); // 0x0B77 -> "\x0B\x77"

		try {
			$this->fseek($startoffset);
			$maxoffset = min($maxoffset, $info['avdataend']);
			while ($this->ftell() < $maxoffset) {
				$chunknamesize = $this->fread(8);
				//$chunkname =                          substr($chunknamesize, 0, 4);
				$chunkname = str_replace("\x00", '_', substr($chunknamesize, 0, 4));  // note: chunk names of 4 null bytes do appear to be legal (has been observed inside INFO and PRMI chunks, for example), but makes traversing array keys more difficult
				$chunksize =  $this->EitherEndian2Int(substr($chunknamesize, 4, 4));
				//if (strlen(trim($chunkname, "\x00")) < 4) {
				if (strlen($chunkname) < 4) {
					$this->error('Expecting chunk name at offset '.($this->ftell() - 8).' but found nothing. Aborting RIFF parsing.');
					break;
				}
				if (($chunksize == 0) && ($chunkname != 'JUNK')) {
					$this->warning('Chunk ('.$chunkname.') size at offset '.($this->ftell() - 4).' is zero. Aborting RIFF parsing.');
					break;
				}
				if (($chunksize % 2) != 0) {
					// all structures are packed on word boundaries
					$chunksize++;
				}

				switch ($chunkname) {
					case 'LIST':
						$listname = $this->fread(4);
						if (preg_match('#^(movi|rec )$#i', $listname)) {
							$RIFFchunk[$listname]['offset'] = $this->ftell() - 4;
							$RIFFchunk[$listname]['size']   = $chunksize;

							if (!$FoundAllChunksWeNeed) {
								$WhereWeWere      = $this->ftell();
								$AudioChunkHeader = $this->fread(12);
								$AudioChunkStreamNum  =                              substr($AudioChunkHeader, 0, 2);
								$AudioChunkStreamType =                              substr($AudioChunkHeader, 2, 2);
								$AudioChunkSize       = getid3_lib::LittleEndian2Int(substr($AudioChunkHeader, 4, 4));

								if ($AudioChunkStreamType == 'wb') {
									$FirstFourBytes = substr($AudioChunkHeader, 8, 4);
									if (preg_match('/^\xFF[\xE2-\xE7\xF2-\xF7\xFA-\xFF][\x00-\xEB]/s', $FirstFourBytes)) {
										// MP3
										if (getid3_mp3::MPEGaudioHeaderBytesValid($FirstFourBytes)) {
											$getid3_temp = new getID3();
											$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
											$getid3_temp->info['avdataoffset'] = $this->ftell() - 4;
											$getid3_temp->info['avdataend']    = $this->ftell() + $AudioChunkSize;
											$getid3_mp3 = new getid3_mp3($getid3_temp, __CLASS__);
											$getid3_mp3->getOnlyMPEGaudioInfo($getid3_temp->info['avdataoffset'], false);
											if (isset($getid3_temp->info['mpeg']['audio'])) {
												$info['mpeg']['audio']         = $getid3_temp->info['mpeg']['audio'];
												$info['audio']                 = $getid3_temp->info['audio'];
												$info['audio']['dataformat']   = 'mp'.$info['mpeg']['audio']['layer'];
												$info['audio']['sample_rate']  = $info['mpeg']['audio']['sample_rate'];
												$info['audio']['channels']     = $info['mpeg']['audio']['channels'];
												$info['audio']['bitrate']      = $info['mpeg']['audio']['bitrate'];
												$info['audio']['bitrate_mode'] = strtolower($info['mpeg']['audio']['bitrate_mode']);
												//$info['bitrate']               = $info['audio']['bitrate'];
											}
											unset($getid3_temp, $getid3_mp3);
										}

									} elseif (strpos($FirstFourBytes, $AC3syncwordBytes) === 0) {
										// AC3
										$getid3_temp = new getID3();
										$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
										$getid3_temp->info['avdataoffset'] = $this->ftell() - 4;
										$getid3_temp->info['avdataend']    = $this->ftell() + $AudioChunkSize;
										$getid3_ac3 = new getid3_ac3($getid3_temp);
										$getid3_ac3->Analyze();
										if (empty($getid3_temp->info['error'])) {
											$info['audio']   = $getid3_temp->info['audio'];
											$info['ac3']     = $getid3_temp->info['ac3'];
											if (!empty($getid3_temp->info['warning'])) {
												foreach ($getid3_temp->info['warning'] as $key => $value) {
													$this->warning($value);
												}
											}
										}
										unset($getid3_temp, $getid3_ac3);
									}
								}
								$FoundAllChunksWeNeed = true;
								$this->fseek($WhereWeWere);
							}
							$this->fseek($chunksize - 4, SEEK_CUR);

						} else {

							if (!isset($RIFFchunk[$listname])) {
								$RIFFchunk[$listname] = array();
							}
							$LISTchunkParent    = $listname;
							$LISTchunkMaxOffset = $this->ftell() - 4 + $chunksize;
							if ($parsedChunk = $this->ParseRIFF($this->ftell(), $LISTchunkMaxOffset)) {
								$RIFFchunk[$listname] = array_merge_recursive($RIFFchunk[$listname], $parsedChunk);
							}

						}
						break;

					default:
						if (preg_match('#^[0-9]{2}(wb|pc|dc|db)$#', $chunkname)) {
							$this->fseek($chunksize, SEEK_CUR);
							break;
						}
						$thisindex = 0;
						if (isset($RIFFchunk[$chunkname]) && is_array($RIFFchunk[$chunkname])) {
							$thisindex = count($RIFFchunk[$chunkname]);
						}
						$RIFFchunk[$chunkname][$thisindex]['offset'] = $this->ftell() - 8;
						$RIFFchunk[$chunkname][$thisindex]['size']   = $chunksize;
						switch ($chunkname) {
							case 'data':
								$info['avdataoffset'] = $this->ftell();
								$info['avdataend']    = $info['avdataoffset'] + $chunksize;

								$testData = $this->fread(36);
								if ($testData === '') {
									break;
								}
								if (preg_match('/^\xFF[\xE2-\xE7\xF2-\xF7\xFA-\xFF][\x00-\xEB]/s', substr($testData, 0, 4))) {

									// Probably is MP3 data
									if (getid3_mp3::MPEGaudioHeaderBytesValid(substr($testData, 0, 4))) {
										$getid3_temp = new getID3();
										$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
										$getid3_temp->info['avdataoffset'] = $info['avdataoffset'];
										$getid3_temp->info['avdataend']    = $info['avdataend'];
										$getid3_mp3 = new getid3_mp3($getid3_temp, __CLASS__);
										$getid3_mp3->getOnlyMPEGaudioInfo($info['avdataoffset'], false);
										if (empty($getid3_temp->info['error'])) {
											$info['audio'] = $getid3_temp->info['audio'];
											$info['mpeg']  = $getid3_temp->info['mpeg'];
										}
										unset($getid3_temp, $getid3_mp3);
									}

								} elseif (($isRegularAC3 = (substr($testData, 0, 2) == $AC3syncwordBytes)) || substr($testData, 8, 2) == strrev($AC3syncwordBytes)) {

									// This is probably AC-3 data
									$getid3_temp = new getID3();
									if ($isRegularAC3) {
										$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
										$getid3_temp->info['avdataoffset'] = $info['avdataoffset'];
										$getid3_temp->info['avdataend']    = $info['avdataend'];
									}
									$getid3_ac3 = new getid3_ac3($getid3_temp);
									if ($isRegularAC3) {
										$getid3_ac3->Analyze();
									} else {
										// Dolby Digital WAV
										// AC-3 content, but not encoded in same format as normal AC-3 file
										// For one thing, byte order is swapped
										$ac3_data = '';
										for ($i = 0; $i < 28; $i += 2) {
											$ac3_data .= substr($testData, 8 + $i + 1, 1);
											$ac3_data .= substr($testData, 8 + $i + 0, 1);
										}
										$getid3_ac3->getid3->info['avdataoffset'] = 0;
										$getid3_ac3->getid3->info['avdataend']    = strlen($ac3_data);
										$getid3_ac3->AnalyzeString($ac3_data);
									}

									if (empty($getid3_temp->info['error'])) {
										$info['audio'] = $getid3_temp->info['audio'];
										$info['ac3']   = $getid3_temp->info['ac3'];
										if (!empty($getid3_temp->info['warning'])) {
											foreach ($getid3_temp->info['warning'] as $newerror) {
												$this->warning('getid3_ac3() says: ['.$newerror.']');
											}
										}
									}
									unset($getid3_temp, $getid3_ac3);

								} elseif (preg_match('/^('.implode('|', array_map('preg_quote', getid3_dts::$syncwords)).')/', $testData)) {

									// This is probably DTS data
									$getid3_temp = new getID3();
									$getid3_temp->openfile($this->getid3->filename, $this->getid3->info['filesize'], $this->getid3->fp);
									$getid3_temp->info['avdataoffset'] = $info['avdataoffset'];
									$getid3_dts = new getid3_dts($getid3_temp);
									$getid3_dts->Analyze();
									if (empty($getid3_temp->info['error'])) {
										$info['audio']            = $getid3_temp->info['audio'];
										$info['dts']              = $getid3_temp->info['dts'];
										$info['playtime_seconds'] = $getid3_temp->info['playtime_seconds']; // may not match RIFF calculations since DTS-WAV often used 14/16 bit-word packing
										if (!empty($getid3_temp->info['warning'])) {
											foreach ($getid3_temp->info['warning'] as $newerror) {
												$this->warning('getid3_dts() says: ['.$newerror.']');
											}
										}
									}

									unset($getid3_temp, $getid3_dts);

								} elseif (substr($testData, 0, 4) == 'wvpk') {

									// This is WavPack data
									$info['wavpack']['offset'] = $info['avdataoffset'];
									$info['wavpack']['size']   = getid3_lib::LittleEndian2Int(substr($testData, 4, 4));
									$this->parseWavPackHeader(substr($testData, 8, 28));

								} else {
									// This is some other kind of data (quite possibly just PCM)
									// do nothing special, just skip it
								}
								$nextoffset = $info['avdataend'];
								$this->fseek($nextoffset);
								break;

							case 'iXML':
							case 'bext':
							case 'cart':
							case 'fmt ':
							case 'strh':
							case 'strf':
							case 'indx':
							case 'MEXT':
							case 'DISP':
							case 'wamd':
							case 'guan':
								// always read data in
							case 'JUNK':
								// should be: never read data in
								// but some programs write their version strings in a JUNK chunk (e.g. VirtualDub, AVIdemux, etc)
								if ($chunksize < 1048576) {
									if ($chunksize > 0) {
										$RIFFchunk[$chunkname][$thisindex]['data'] = $this->fread($chunksize);
										if ($chunkname == 'JUNK') {
											if (preg_match('#^([\\x20-\\x7F]+)#', $RIFFchunk[$chunkname][$thisindex]['data'], $matches)) {
												// only keep text characters [chr(32)-chr(127)]
												$info['riff']['comments']['junk'][] = trim($matches[1]);
											}
											// but if nothing there, ignore
											// remove the key in either case
											unset($RIFFchunk[$chunkname][$thisindex]['data']);
										}
									}
								} else {
									$this->warning('Chunk "'.$chunkname.'" at offset '.$this->ftell().' is unexpectedly larger than 1MB (claims to be '.number_format($chunksize).' bytes), skipping data');
									$this->fseek($chunksize, SEEK_CUR);
								}
								break;

							//case 'IDVX':
							//	$info['divxtag']['comments'] = self::ParseDIVXTAG($this->fread($chunksize));
							//	break;

							case 'scot':
								// https://cmsdk.com/node-js/adding-scot-chunk-to-wav-file.html
								$RIFFchunk[$chunkname][$thisindex]['data'] = $this->fread($chunksize);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['alter']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],   0,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['attrib']          =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],   1,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['artnum']          = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],   2,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['title']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],   4,  43);  // "name" in other documentation
								$RIFFchunk[$chunkname][$thisindex]['parsed']['copy']            =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  47,   4);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['padd']            =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  51,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['asclen']          =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  52,   5);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['startseconds']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  57,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['starthundredths'] = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  59,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['endseconds']      = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  61,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['endhundreths']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  63,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['sdate']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  65,   6);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['kdate']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  71,   6);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['start_hr']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  77,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['kill_hr']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  78,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['digital']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  79,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['sample_rate']     = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  80,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['stereo']          =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  82,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['compress']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  83,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['eomstrt']         = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  84,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['eomlen']          = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  88,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['attrib2']         = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'],  90,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['future1']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'],  94,  12);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['catfontcolor']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 106,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['catcolor']        = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 110,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['segeompos']       = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 114,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['vt_startsecs']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 118,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['vt_starthunds']   = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 120,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['priorcat']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 122,   3);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['priorcopy']       =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 125,   4);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['priorpadd']       =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 129,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['postcat']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 130,   3);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['postcopy']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 133,   4);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['postpadd']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 137,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['hrcanplay']       =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 138,  21);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['future2']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 159, 108);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['artist']          =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 267,  34);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['comment']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 301,  34); // "trivia" in other documentation
								$RIFFchunk[$chunkname][$thisindex]['parsed']['intro']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 335,   2);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['end']             =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 337,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['year']            =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 338,   4);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['obsolete2']       =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 342,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['rec_hr']          =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 343,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['rdate']           =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 344,   6);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['mpeg_bitrate']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 350,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['pitch']           = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 352,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['playlevel']       = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 354,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['lenvalid']        =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 356,   1);
								$RIFFchunk[$chunkname][$thisindex]['parsed']['filelength']      = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 357,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['newplaylevel']    = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 361,   2));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['chopsize']        = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 363,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['vteomovr']        = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 367,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['desiredlen']      = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 371,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['triggers']        = getid3_lib::LittleEndian2Int(substr($RIFFchunk[$chunkname][$thisindex]['data'], 375,   4));
								$RIFFchunk[$chunkname][$thisindex]['parsed']['fillout']         =                              substr($RIFFchunk[$chunkname][$thisindex]['data'], 379,   33);

								foreach (array('title', 'artist', 'comment') as $key) {
									if (trim($RIFFchunk[$chunkname][$thisindex]['parsed'][$key])) {
										$info['riff']['comments'][$key] = array($RIFFchunk[$chunkname][$thisindex]['parsed'][$key]);
									}
								}
								if ($RIFFchunk[$chunkname][$thisindex]['parsed']['filelength'] && !empty($info['filesize']) && ($RIFFchunk[$chunkname][$thisindex]['parsed']['filelength'] != $info['filesize'])) {
									$this->warning('RIFF.WAVE.scot.filelength ('.$RIFFchunk[$chunkname][$thisindex]['parsed']['filelength'].') different from actual filesize ('.$info['filesize'].')');
								}
								break;

							default:
								if (!empty($LISTchunkParent) && isset($LISTchunkMaxOffset) && (($RIFFchunk[$chunkname][$thisindex]['offset'] + $RIFFchunk[$chunkname][$thisindex]['size']) <= $LISTchunkMaxOffset)) {
									$RIFFchunk[$LISTchunkParent][$chunkname][$thisindex]['offset'] = $RIFFchunk[$chunkname][$thisindex]['offset'];
									$RIFFchunk[$LISTchunkParent][$chunkname][$thisindex]['size']   = $RIFFchunk[$chunkname][$thisindex]['size'];
									unset($RIFFchunk[$chunkname][$thisindex]['offset']);
									unset($RIFFchunk[$chunkname][$thisindex]['size']);
									if (isset($RIFFchunk[$chunkname][$thisindex]) && empty($RIFFchunk[$chunkname][$thisindex])) {
										unset($RIFFchunk[$chunkname][$thisindex]);
									}
									if (count($RIFFchunk[$chunkname]) === 0) {
										unset($RIFFchunk[$chunkname]);
									}
									$RIFFchunk[$LISTchunkParent][$chunkname][$thisindex]['data'] = $this->fread($chunksize);
								} elseif ($chunksize < 2048) {
									// only read data in if smaller than 2kB
									$RIFFchunk[$chunkname][$thisindex]['data'] = $this->fread($chunksize);
								} else {
									$this->fseek($chunksize, SEEK_CUR);
								}
								break;
						}
						break;
				}
			}

		} catch (getid3_exception $e) {
			if ($e->getCode() == 10) {
				$this->warning('RIFF parser: '.$e->getMessage());
			} else {
				throw $e;
			}
		}

		return !empty($RIFFchunk) ? $RIFFchunk : false;
	}

	/**
	 * @param string $RIFFdata
	 *
	 * @return bool
	 */
	public function ParseRIFFdata(&$RIFFdata) {
		$info = &$this->getid3->info;
		if ($RIFFdata) {
			$tempfile = tempnam(GETID3_TEMP_DIR, 'getID3');
			$fp_temp  = fopen($tempfile, 'wb');
			$RIFFdataLength = strlen($RIFFdata);
			$NewLengthString = getid3_lib::LittleEndian2String($RIFFdataLength, 4);
			for ($i = 0; $i < 4; $i++) {
				$RIFFdata[($i + 4)] = $NewLengthString[$i];
			}
			fwrite($fp_temp, $RIFFdata);
			fclose($fp_temp);

			$getid3_temp = new getID3();
			$getid3_temp->openfile($tempfile);
			$getid3_temp->info['filesize']     = $RIFFdataLength;
			$getid3_temp->info['filenamepath'] = $info['filenamepath'];
			$getid3_temp->info['tags']         = $info['tags'];
			$getid3_temp->info['warning']      = $info['warning'];
			$getid3_temp->info['error']        = $info['error'];
			$getid3_temp->info['comments']     = $info['comments'];
			$getid3_temp->info['audio']        = (isset($info['audio']) ? $info['audio'] : array());
			$getid3_temp->info['video']        = (isset($info['video']) ? $info['video'] : array());
			$getid3_riff = new getid3_riff($getid3_temp);
			$getid3_riff->Analyze();

			$info['riff']     = $getid3_temp->info['riff'];
			$info['warning']  = $getid3_temp->info['warning'];
			$info['error']    = $getid3_temp->info['error'];
			$info['tags']     = $getid3_temp->info['tags'];
			$info['comments'] = $getid3_temp->info['comments'];
			unset($getid3_riff, $getid3_temp);
			unlink($tempfile);
		}
		return false;
	}

	/**
	 * @param array $RIFFinfoArray
	 * @param array $CommentsTargetArray
	 *
	 * @return bool
	 */
	public static function parseComments(&$RIFFinfoArray, &$CommentsTargetArray) {
		$RIFFinfoKeyLookup = array(
			'IARL'=>'archivallocation',
			'IART'=>'artist',
			'ICDS'=>'costumedesigner',
			'ICMS'=>'commissionedby',
			'ICMT'=>'comment',
			'ICNT'=>'country',
			'ICOP'=>'copyright',
			'ICRD'=>'creationdate',
			'IDIM'=>'dimensions',
			'IDIT'=>'digitizationdate',
			'IDPI'=>'resolution',
			'IDST'=>'distributor',
			'IEDT'=>'editor',
			'IENG'=>'engineers',
			'IFRM'=>'accountofparts',
			'IGNR'=>'genre',
			'IKEY'=>'keywords',
			'ILGT'=>'lightness',
			'ILNG'=>'language',
			'IMED'=>'orignalmedium',
			'IMUS'=>'composer',
			'INAM'=>'title',
			'IPDS'=>'productiondesigner',
			'IPLT'=>'palette',
			'IPRD'=>'product',
			'IPRO'=>'producer',
			'IPRT'=>'part',
			'IRTD'=>'rating',
			'ISBJ'=>'subject',
			'ISFT'=>'software',
			'ISGN'=>'secondarygenre',
			'ISHP'=>'sharpness',
			'ISRC'=>'sourcesupplier',
			'ISRF'=>'digitizationsource',
			'ISTD'=>'productionstudio',
			'ISTR'=>'starring',
			'ITCH'=>'encoded_by',
			'IWEB'=>'url',
			'IWRI'=>'writer',
			'____'=>'comment',
		);
		foreach ($RIFFinfoKeyLookup as $key => $value) {
			if (isset($RIFFinfoArray[$key])) {
				foreach ($RIFFinfoArray[$key] as $commentid => $commentdata) {
					if (!empty($commentdata['data']) && trim($commentdata['data']) != '') {
						if (isset($CommentsTargetArray[$value])) {
							$CommentsTargetArray[$value][] =     trim($commentdata['data']);
						} else {
							$CommentsTargetArray[$value] = array(trim($commentdata['data']));
						}
					}
				}
			}
		}
		return true;
	}

	/**
	 * @param string $WaveFormatExData
	 *
	 * @return array
	 */
	public static function parseWAVEFORMATex($WaveFormatExData) {
		// shortcut
		$WaveFormatEx        = array();
		$WaveFormatEx['raw'] = array();
		$WaveFormatEx_raw    = &$WaveFormatEx['raw'];

		$WaveFormatEx_raw['wFormatTag']      = substr($WaveFormatExData,  0, 2);
		$WaveFormatEx_raw['nChannels']       = substr($WaveFormatExData,  2, 2);
		$WaveFormatEx_raw['nSamplesPerSec']  = substr($WaveFormatExData,  4, 4);
		$WaveFormatEx_raw['nAvgBytesPerSec'] = substr($WaveFormatExData,  8, 4);
		$WaveFormatEx_raw['nBlockAlign']     = substr($WaveFormatExData, 12, 2);
		$WaveFormatEx_raw['wBitsPerSample']  = substr($WaveFormatExData, 14, 2);
		if (strlen($WaveFormatExData) > 16) {
			$WaveFormatEx_raw['cbSize']      = substr($WaveFormatExData, 16, 2);
		}
		$WaveFormatEx_raw = array_map('getid3_lib::LittleEndian2Int', $WaveFormatEx_raw);

		$WaveFormatEx['codec']           = self::wFormatTagLookup($WaveFormatEx_raw['wFormatTag']);
		$WaveFormatEx['channels']        = $WaveFormatEx_raw['nChannels'];
		$WaveFormatEx['sample_rate']     = $WaveFormatEx_raw['nSamplesPerSec'];
		$WaveFormatEx['bitrate']         = $WaveFormatEx_raw['nAvgBytesPerSec'] * 8;
		$WaveFormatEx['bits_per_sample'] = $WaveFormatEx_raw['wBitsPerSample'];

		return $WaveFormatEx;
	}

	/**
	 * @param string $WavPackChunkData
	 *
	 * @return bool
	 */
	public function parseWavPackHeader($WavPackChunkData) {
		// typedef struct {
		//     char ckID [4];
		//     long ckSize;
		//     short version;
		//     short bits;                // added for version 2.00
		//     short flags, shift;        // added for version 3.00
		//     long total_samples, crc, crc2;
		//     char extension [4], extra_bc, extras [3];
		// } WavpackHeader;

		// shortcut
		$info = &$this->getid3->info;
		$info['wavpack']  = array();
		$thisfile_wavpack = &$info['wavpack'];

		$thisfile_wavpack['version']           = getid3_lib::LittleEndian2Int(substr($WavPackChunkData,  0, 2));
		if ($thisfile_wavpack['version'] >= 2) {
			$thisfile_wavpack['bits']          = getid3_lib::LittleEndian2Int(substr($WavPackChunkData,  2, 2));
		}
		if ($thisfile_wavpack['version'] >= 3) {
			$thisfile_wavpack['flags_raw']     = getid3_lib::LittleEndian2Int(substr($WavPackChunkData,  4, 2));
			$thisfile_wavpack['shift']         = getid3_lib::LittleEndian2Int(substr($WavPackChunkData,  6, 2));
			$thisfile_wavpack['total_samples'] = getid3_lib::LittleEndian2Int(substr($WavPackChunkData,  8, 4));
			$thisfile_wavpack['crc1']          = getid3_lib::LittleEndian2Int(substr($WavPackChunkData, 12, 4));
			$thisfile_wavpack['crc2']          = getid3_lib::LittleEndian2Int(substr($WavPackChunkData, 16, 4));
			$thisfile_wavpack['extension']     =                              substr($WavPackChunkData, 20, 4);
			$thisfile_wavpack['extra_bc']      = getid3_lib::LittleEndian2Int(substr($WavPackChunkData, 24, 1));
			for ($i = 0; $i <= 2; $i++) {
				$thisfile_wavpack['extras'][]  = getid3_lib::LittleEndian2Int(substr($WavPackChunkData, 25 + $i, 1));
			}

			// shortcut
			$thisfile_wavpack['flags'] = array();
			$thisfile_wavpack_flags = &$thisfile_wavpack['flags'];

			$thisfile_wavpack_flags['mono']                 = (bool) ($thisfile_wavpack['flags_raw'] & 0x000001);
			$thisfile_wavpack_flags['fast_mode']            = (bool) ($thisfile_wavpack['flags_raw'] & 0x000002);
			$thisfile_wavpack_flags['raw_mode']             = (bool) ($thisfile_wavpack['flags_raw'] & 0x000004);
			$thisfile_wavpack_flags['calc_noise']           = (bool) ($thisfile_wavpack['flags_raw'] & 0x000008);
			$thisfile_wavpack_flags['high_quality']         = (bool) ($thisfile_wavpack['flags_raw'] & 0x000010);
			$thisfile_wavpack_flags['3_byte_samples']       = (bool) ($thisfile_wavpack['flags_raw'] & 0x000020);
			$thisfile_wavpack_flags['over_20_bits']         = (bool) ($thisfile_wavpack['flags_raw'] & 0x000040);
			$thisfile_wavpack_flags['use_wvc']              = (bool) ($thisfile_wavpack['flags_raw'] & 0x000080);
			$thisfile_wavpack_flags['noiseshaping']         = (bool) ($thisfile_wavpack['flags_raw'] & 0x000100);
			$thisfile_wavpack_flags['very_fast_mode']       = (bool) ($thisfile_wavpack['flags_raw'] & 0x000200);
			$thisfile_wavpack_flags['new_high_quality']     = (bool) ($thisfile_wavpack['flags_raw'] & 0x000400);
			$thisfile_wavpack_flags['cancel_extreme']       = (bool) ($thisfile_wavpack['flags_raw'] & 0x000800);
			$thisfile_wavpack_flags['cross_decorrelation']  = (bool) ($thisfile_wavpack['flags_raw'] & 0x001000);
			$thisfile_wavpack_flags['new_decorrelation']    = (bool) ($thisfile_wavpack['flags_raw'] & 0x002000);
			$thisfile_wavpack_flags['joint_stereo']         = (bool) ($thisfile_wavpack['flags_raw'] & 0x004000);
			$thisfile_wavpack_flags['extra_decorrelation']  = (bool) ($thisfile_wavpack['flags_raw'] & 0x008000);
			$thisfile_wavpack_flags['override_noiseshape']  = (bool) ($thisfile_wavpack['flags_raw'] & 0x010000);
			$thisfile_wavpack_flags['override_jointstereo'] = (bool) ($thisfile_wavpack['flags_raw'] & 0x020000);
			$thisfile_wavpack_flags['copy_source_filetime'] = (bool) ($thisfile_wavpack['flags_raw'] & 0x040000);
			$thisfile_wavpack_flags['create_exe']           = (bool) ($thisfile_wavpack['flags_raw'] & 0x080000);
		}

		return true;
	}

	/**
	 * @param string $BITMAPINFOHEADER
	 * @param bool   $littleEndian
	 *
	 * @return array
	 */
	public static function ParseBITMAPINFOHEADER($BITMAPINFOHEADER, $littleEndian=true) {

		$parsed                    = array();
		$parsed['biSize']          = substr($BITMAPINFOHEADER,  0, 4); // number of bytes required by the BITMAPINFOHEADER structure
		$parsed['biWidth']         = substr($BITMAPINFOHEADER,  4, 4); // width of the bitmap in pixels
		$parsed['biHeight']        = substr($BITMAPINFOHEADER,  8, 4); // height of the bitmap in pixels. If biHeight is positive, the bitmap is a 'bottom-up' DIB and its origin is the lower left corner. If biHeight is negative, the bitmap is a 'top-down' DIB and its origin is the upper left corner
		$parsed['biPlanes']        = substr($BITMAPINFOHEADER, 12, 2); // number of color planes on the target device. In most cases this value must be set to 1
		$parsed['biBitCount']      = substr($BITMAPINFOHEADER, 14, 2); // Specifies the number of bits per pixels
		$parsed['biSizeImage']     = substr($BITMAPINFOHEADER, 20, 4); // size of the bitmap data section of the image (the actual pixel data, excluding BITMAPINFOHEADER and RGBQUAD structures)
		$parsed['biXPelsPerMeter'] = substr($BITMAPINFOHEADER, 24, 4); // horizontal resolution, in pixels per metre, of the target device
		$parsed['biYPelsPerMeter'] = substr($BITMAPINFOHEADER, 28, 4); // vertical resolution, in pixels per metre, of the target device
		$parsed['biClrUsed']       = substr($BITMAPINFOHEADER, 32, 4); // actual number of color indices in the color table used by the bitmap. If this value is zero, the bitmap uses the maximum number of colors corresponding to the value of the biBitCount member for the compression mode specified by biCompression
		$parsed['biClrImportant']  = substr($BITMAPINFOHEADER, 36, 4); // number of color indices that are considered important for displaying the bitmap. If this value is zero, all colors are important
		$parsed = array_map('getid3_lib::'.($littleEndian ? 'Little' : 'Big').'Endian2Int', $parsed);

		$parsed['fourcc']          = substr($BITMAPINFOHEADER, 16, 4);  // compression identifier

		return $parsed;
	}

	/**
	 * @param string $DIVXTAG
	 * @param bool   $raw
	 *
	 * @return array
	 */
	public static function ParseDIVXTAG($DIVXTAG, $raw=false) {
		// structure from "IDivX" source, Form1.frm, by "Greg Frazier of Daemonic Software Group", email: gfrazier@icestorm.net, web: http://dsg.cjb.net/
		// source available at http://files.divx-digest.com/download/c663efe7ef8ad2e90bf4af4d3ea6188a/on0SWN2r/edit/IDivX.zip
		// 'Byte Layout:                   '1111111111111111
		// '32 for Movie - 1               '1111111111111111
		// '28 for Author - 6              '6666666666666666
		// '4  for year - 2                '6666666666662222
		// '3  for genre - 3               '7777777777777777
		// '48 for Comments - 7            '7777777777777777
		// '1  for Rating - 4              '7777777777777777
		// '5  for Future Additions - 0    '333400000DIVXTAG
		// '128 bytes total

		static $DIVXTAGgenre  = array(
			 0 => 'Action',
			 1 => 'Action/Adventure',
			 2 => 'Adventure',
			 3 => 'Adult',
			 4 => 'Anime',
			 5 => 'Cartoon',
			 6 => 'Claymation',
			 7 => 'Comedy',
			 8 => 'Commercial',
			 9 => 'Documentary',
			10 => 'Drama',
			11 => 'Home Video',
			12 => 'Horror',
			13 => 'Infomercial',
			14 => 'Interactive',
			15 => 'Mystery',
			16 => 'Music Video',
			17 => 'Other',
			18 => 'Religion',
			19 => 'Sci Fi',
			20 => 'Thriller',
			21 => 'Western',
		),
		$DIVXTAGrating = array(
			 0 => 'Unrated',
			 1 => 'G',
			 2 => 'PG',
			 3 => 'PG-13',
			 4 => 'R',
			 5 => 'NC-17',
		);

		$parsed              = array();
		$parsed['title']     =        trim(substr($DIVXTAG,   0, 32));
		$parsed['artist']    =        trim(substr($DIVXTAG,  32, 28));
		$parsed['year']      = intval(trim(substr($DIVXTAG,  60,  4)));
		$parsed['comment']   =        trim(substr($DIVXTAG,  64, 48));
		$parsed['genre_id']  = intval(trim(substr($DIVXTAG, 112,  3)));
		$parsed['rating_id'] =         ord(substr($DIVXTAG, 115,  1));
		//$parsed['padding'] =             substr($DIVXTAG, 116,  5);  // 5-byte null
		//$parsed['magic']   =             substr($DIVXTAG, 121,  7);  // "DIVXTAG"

		$parsed['genre']  = (isset($DIVXTAGgenre[$parsed['genre_id']])   ? $DIVXTAGgenre[$parsed['genre_id']]   : $parsed['genre_id']);
		$parsed['rating'] = (isset($DIVXTAGrating[$parsed['rating_id']]) ? $DIVXTAGrating[$parsed['rating_id']] : $parsed['rating_id']);

		if (!$raw) {
			unset($parsed['genre_id'], $parsed['rating_id']);
			foreach ($parsed as $key => $value) {
				if (empty($value)) {
					unset($parsed[$key]);
				}
			}
		}

		foreach ($parsed as $tag => $value) {
			$parsed[$tag] = array($value);
		}

		return $parsed;
	}

	/**
	 * @param string $tagshortname
	 *
	 * @return string
	 */
	public static function waveSNDMtagLookup($tagshortname) {
		$begin = __LINE__;

		/** This is not a comment!

			©kwd	keywords
			©BPM	bpm
			©trt	tracktitle
			©des	description
			©gen	category
			©fin	featuredinstrument
			©LID	longid
			©bex	bwdescription
			©pub	publisher
			©cdt	cdtitle
			©alb	library
			©com	composer

		*/

		return getid3_lib::EmbeddedLookup($tagshortname, $begin, __LINE__, __FILE__, 'riff-sndm');
	}

	/**
	 * @param int $wFormatTag
	 *
	 * @return string
	 */
	public static function wFormatTagLookup($wFormatTag) {

		$begin = __LINE__;

		/** This is not a comment!

			0x0000	Microsoft Unknown Wave Format
			0x0001	Pulse Code Modulation (PCM)
			0x0002	Microsoft ADPCM
			0x0003	IEEE Float
			0x0004	Compaq Computer VSELP
			0x0005	IBM CVSD
			0x0006	Microsoft A-Law
			0x0007	Microsoft mu-Law
			0x0008	Microsoft DTS
			0x0010	OKI ADPCM
			0x0011	Intel DVI/IMA ADPCM
			0x0012	Videologic MediaSpace ADPCM
			0x0013	Sierra Semiconductor ADPCM
			0x0014	Antex Electronics G.723 ADPCM
			0x0015	DSP Solutions DigiSTD
			0x0016	DSP Solutions DigiFIX
			0x0017	Dialogic OKI ADPCM
			0x0018	MediaVision ADPCM
			0x0019	Hewlett-Packard CU
			0x0020	Yamaha ADPCM
			0x0021	Speech Compression Sonarc
			0x0022	DSP Group TrueSpeech
			0x0023	Echo Speech EchoSC1
			0x0024	Audiofile AF36
			0x0025	Audio Processing Technology APTX
			0x0026	AudioFile AF10
			0x0027	Prosody 1612
			0x0028	LRC
			0x0030	Dolby AC2
			0x0031	Microsoft GSM 6.10
			0x0032	MSNAudio
			0x0033	Antex Electronics ADPCME
			0x0034	Control Resources VQLPC
			0x0035	DSP Solutions DigiREAL
			0x0036	DSP Solutions DigiADPCM
			0x0037	Control Resources CR10
			0x0038	Natural MicroSystems VBXADPCM
			0x0039	Crystal Semiconductor IMA ADPCM
			0x003A	EchoSC3
			0x003B	Rockwell ADPCM
			0x003C	Rockwell Digit LK
			0x003D	Xebec
			0x0040	Antex Electronics G.721 ADPCM
			0x0041	G.728 CELP
			0x0042	MSG723
			0x0050	MPEG Layer-2 or Layer-1
			0x0052	RT24
			0x0053	PAC
			0x0055	MPEG Layer-3
			0x0059	Lucent G.723
			0x0060	Cirrus
			0x0061	ESPCM
			0x0062	Voxware
			0x0063	Canopus Atrac
			0x0064	G.726 ADPCM
			0x0065	G.722 ADPCM
			0x0066	DSAT
			0x0067	DSAT Display
			0x0069	Voxware Byte Aligned
			0x0070	Voxware AC8
			0x0071	Voxware AC10
			0x0072	Voxware AC16
			0x0073	Voxware AC20
			0x0074	Voxware MetaVoice
			0x0075	Voxware MetaSound
			0x0076	Voxware RT29HW
			0x0077	Voxware VR12
			0x0078	Voxware VR18
			0x0079	Voxware TQ40
			0x0080	Softsound
			0x0081	Voxware TQ60
			0x0082	MSRT24
			0x0083	G.729A
			0x0084	MVI MV12
			0x0085	DF G.726
			0x0086	DF GSM610
			0x0088	ISIAudio
			0x0089	Onlive
			0x0091	SBC24
			0x0092	Dolby AC3 SPDIF
			0x0093	MediaSonic G.723
			0x0094	Aculab PLC    Prosody 8kbps
			0x0097	ZyXEL ADPCM
			0x0098	Philips LPCBB
			0x0099	Packed
			0x00FF	AAC
			0x0100	Rhetorex ADPCM
			0x0101	IBM mu-law
			0x0102	IBM A-law
			0x0103	IBM AVC Adaptive Differential Pulse Code Modulation (ADPCM)
			0x0111	Vivo G.723
			0x0112	Vivo Siren
			0x0123	Digital G.723
			0x0125	Sanyo LD ADPCM
			0x0130	Sipro Lab Telecom ACELP NET
			0x0131	Sipro Lab Telecom ACELP 4800
			0x0132	Sipro Lab Telecom ACELP 8V3
			0x0133	Sipro Lab Telecom G.729
			0x0134	Sipro Lab Telecom G.729A
			0x0135	Sipro Lab Telecom Kelvin
			0x0140	Windows Media Video V8
			0x0150	Qualcomm PureVoice
			0x0151	Qualcomm HalfRate
			0x0155	Ring Zero Systems TUB GSM
			0x0160	Microsoft Audio 1
			0x0161	Windows Media Audio V7 / V8 / V9
			0x0162	Windows Media Audio Professional V9
			0x0163	Windows Media Audio Lossless V9
			0x0200	Creative Labs ADPCM
			0x0202	Creative Labs Fastspeech8
			0x0203	Creative Labs Fastspeech10
			0x0210	UHER Informatic GmbH ADPCM
			0x0220	Quarterdeck
			0x0230	I-link Worldwide VC
			0x0240	Aureal RAW Sport
			0x0250	Interactive Products HSX
			0x0251	Interactive Products RPELP
			0x0260	Consistent Software CS2
			0x0270	Sony SCX
			0x0300	Fujitsu FM Towns Snd
			0x0400	BTV Digital
			0x0401	Intel Music Coder
			0x0450	QDesign Music
			0x0680	VME VMPCM
			0x0681	AT&T Labs TPC
			0x08AE	ClearJump LiteWave
			0x1000	Olivetti GSM
			0x1001	Olivetti ADPCM
			0x1002	Olivetti CELP
			0x1003	Olivetti SBC
			0x1004	Olivetti OPR
			0x1100	Lernout & Hauspie Codec (0x1100)
			0x1101	Lernout & Hauspie CELP Codec (0x1101)
			0x1102	Lernout & Hauspie SBC Codec (0x1102)
			0x1103	Lernout & Hauspie SBC Codec (0x1103)
			0x1104	Lernout & Hauspie SBC Codec (0x1104)
			0x1400	Norris
			0x1401	AT&T ISIAudio
			0x1500	Soundspace Music Compression
			0x181C	VoxWare RT24 Speech
			0x1FC4	NCT Soft ALF2CD (www.nctsoft.com)
			0x2000	Dolby AC3
			0x2001	Dolby DTS
			0x2002	WAVE_FORMAT_14_4
			0x2003	WAVE_FORMAT_28_8
			0x2004	WAVE_FORMAT_COOK
			0x2005	WAVE_FORMAT_DNET
			0x674F	Ogg Vorbis 1
			0x6750	Ogg Vorbis 2
			0x6751	Ogg Vorbis 3
			0x676F	Ogg Vorbis 1+
			0x6770	Ogg Vorbis 2+
			0x6771	Ogg Vorbis 3+
			0x7A21	GSM-AMR (CBR, no SID)
			0x7A22	GSM-AMR (VBR, including SID)
			0xFFFE	WAVE_FORMAT_EXTENSIBLE
			0xFFFF	WAVE_FORMAT_DEVELOPMENT

		*/

		return getid3_lib::EmbeddedLookup('0x'.str_pad(strtoupper(dechex($wFormatTag)), 4, '0', STR_PAD_LEFT), $begin, __LINE__, __FILE__, 'riff-wFormatTag');
	}

	/**
	 * @param string $fourcc
	 *
	 * @return string
	 */
	public static function fourccLookup($fourcc) {

		$begin = __LINE__;

		/** This is not a comment!

			swot	http://developer.apple.com/qa/snd/snd07.html
			____	No Codec (____)
			_BIT	BI_BITFIELDS (Raw RGB)
			_JPG	JPEG compressed
			_PNG	PNG compressed W3C/ISO/IEC (RFC-2083)
			_RAW	Full Frames (Uncompressed)
			_RGB	Raw RGB Bitmap
			_RL4	RLE 4bpp RGB
			_RL8	RLE 8bpp RGB
			3IV1	3ivx MPEG-4 v1
			3IV2	3ivx MPEG-4 v2
			3IVX	3ivx MPEG-4
			AASC	Autodesk Animator
			ABYR	Kensington ?ABYR?
			AEMI	Array Microsystems VideoONE MPEG1-I Capture
			AFLC	Autodesk Animator FLC
			AFLI	Autodesk Animator FLI
			AMPG	Array Microsystems VideoONE MPEG
			ANIM	Intel RDX (ANIM)
			AP41	AngelPotion Definitive
			ASV1	Asus Video v1
			ASV2	Asus Video v2
			ASVX	Asus Video 2.0 (audio)
			AUR2	AuraVision Aura 2 Codec - YUV 4:2:2
			AURA	AuraVision Aura 1 Codec - YUV 4:1:1
			AVDJ	Independent JPEG Group\'s codec (AVDJ)
			AVRN	Independent JPEG Group\'s codec (AVRN)
			AYUV	4:4:4 YUV (AYUV)
			AZPR	Quicktime Apple Video (AZPR)
			BGR 	Raw RGB32
			BLZ0	Blizzard DivX MPEG-4
			BTVC	Conexant Composite Video
			BINK	RAD Game Tools Bink Video
			BT20	Conexant Prosumer Video
			BTCV	Conexant Composite Video Codec
			BW10	Data Translation Broadway MPEG Capture
			CC12	Intel YUV12
			CDVC	Canopus DV
			CFCC	Digital Processing Systems DPS Perception
			CGDI	Microsoft Office 97 Camcorder Video
			CHAM	Winnov Caviara Champagne
			CJPG	Creative WebCam JPEG
			CLJR	Cirrus Logic YUV 4:1:1
			CMYK	Common Data Format in Printing (Colorgraph)
			CPLA	Weitek 4:2:0 YUV Planar
			CRAM	Microsoft Video 1 (CRAM)
			cvid	Radius Cinepak
			CVID	Radius Cinepak
			CWLT	Microsoft Color WLT DIB
			CYUV	Creative Labs YUV
			CYUY	ATI YUV
			D261	H.261
			D263	H.263
			DIB 	Device Independent Bitmap
			DIV1	FFmpeg OpenDivX
			DIV2	Microsoft MPEG-4 v1/v2
			DIV3	DivX ;-) MPEG-4 v3.x Low-Motion
			DIV4	DivX ;-) MPEG-4 v3.x Fast-Motion
			DIV5	DivX MPEG-4 v5.x
			DIV6	DivX ;-) (MS MPEG-4 v3.x)
			DIVX	DivX MPEG-4 v4 (OpenDivX / Project Mayo)
			divx	DivX MPEG-4
			DMB1	Matrox Rainbow Runner hardware MJPEG
			DMB2	Paradigm MJPEG
			DSVD	?DSVD?
			DUCK	Duck TrueMotion 1.0
			DPS0	DPS/Leitch Reality Motion JPEG
			DPSC	DPS/Leitch PAR Motion JPEG
			DV25	Matrox DVCPRO codec
			DV50	Matrox DVCPRO50 codec
			DVC 	IEC 61834 and SMPTE 314M (DVC/DV Video)
			DVCP	IEC 61834 and SMPTE 314M (DVC/DV Video)
			DVHD	IEC Standard DV 1125 lines @ 30fps / 1250 lines @ 25fps
			DVMA	Darim Vision DVMPEG (dummy for MPEG compressor) (www.darvision.com)
			DVSL	IEC Standard DV compressed in SD (SDL)
			DVAN	?DVAN?
			DVE2	InSoft DVE-2 Videoconferencing
			dvsd	IEC 61834 and SMPTE 314M DVC/DV Video
			DVSD	IEC 61834 and SMPTE 314M DVC/DV Video
			DVX1	Lucent DVX1000SP Video Decoder
			DVX2	Lucent DVX2000S Video Decoder
			DVX3	Lucent DVX3000S Video Decoder
			DX50	DivX v5
			DXT1	Microsoft DirectX Compressed Texture (DXT1)
			DXT2	Microsoft DirectX Compressed Texture (DXT2)
			DXT3	Microsoft DirectX Compressed Texture (DXT3)
			DXT4	Microsoft DirectX Compressed Texture (DXT4)
			DXT5	Microsoft DirectX Compressed Texture (DXT5)
			DXTC	Microsoft DirectX Compressed Texture (DXTC)
			DXTn	Microsoft DirectX Compressed Texture (DXTn)
			EM2V	Etymonix MPEG-2 I-frame (www.etymonix.com)
			EKQ0	Elsa ?EKQ0?
			ELK0	Elsa ?ELK0?
			ESCP	Eidos Escape
			ETV1	eTreppid Video ETV1
			ETV2	eTreppid Video ETV2
			ETVC	eTreppid Video ETVC
			FLIC	Autodesk FLI/FLC Animation
			FLV1	Sorenson Spark
			FLV4	On2 TrueMotion VP6
			FRWT	Darim Vision Forward Motion JPEG (www.darvision.com)
			FRWU	Darim Vision Forward Uncompressed (www.darvision.com)
			FLJP	D-Vision Field Encoded Motion JPEG
			FPS1	FRAPS v1
			FRWA	SoftLab-Nsk Forward Motion JPEG w/ alpha channel
			FRWD	SoftLab-Nsk Forward Motion JPEG
			FVF1	Iterated Systems Fractal Video Frame
			GLZW	Motion LZW (gabest@freemail.hu)
			GPEG	Motion JPEG (gabest@freemail.hu)
			GWLT	Microsoft Greyscale WLT DIB
			H260	Intel ITU H.260 Videoconferencing
			H261	Intel ITU H.261 Videoconferencing
			H262	Intel ITU H.262 Videoconferencing
			H263	Intel ITU H.263 Videoconferencing
			H264	Intel ITU H.264 Videoconferencing
			H265	Intel ITU H.265 Videoconferencing
			H266	Intel ITU H.266 Videoconferencing
			H267	Intel ITU H.267 Videoconferencing
			H268	Intel ITU H.268 Videoconferencing
			H269	Intel ITU H.269 Videoconferencing
			HFYU	Huffman Lossless Codec
			HMCR	Rendition Motion Compensation Format (HMCR)
			HMRR	Rendition Motion Compensation Format (HMRR)
			I263	FFmpeg I263 decoder
			IF09	Indeo YVU9 ("YVU9 with additional delta-frame info after the U plane")
			IUYV	Interlaced version of UYVY (www.leadtools.com)
			IY41	Interlaced version of Y41P (www.leadtools.com)
			IYU1	12 bit format used in mode 2 of the IEEE 1394 Digital Camera 1.04 spec    IEEE standard
			IYU2	24 bit format used in mode 2 of the IEEE 1394 Digital Camera 1.04 spec    IEEE standard
			IYUV	Planar YUV format (8-bpp Y plane, followed by 8-bpp 2×2 U and V planes)
			i263	Intel ITU H.263 Videoconferencing (i263)
			I420	Intel Indeo 4
			IAN 	Intel Indeo 4 (RDX)
			ICLB	InSoft CellB Videoconferencing
			IGOR	Power DVD
			IJPG	Intergraph JPEG
			ILVC	Intel Layered Video
			ILVR	ITU-T H.263+
			IPDV	I-O Data Device Giga AVI DV Codec
			IR21	Intel Indeo 2.1
			IRAW	Intel YUV Uncompressed
			IV30	Intel Indeo 3.0
			IV31	Intel Indeo 3.1
			IV32	Ligos Indeo 3.2
			IV33	Ligos Indeo 3.3
			IV34	Ligos Indeo 3.4
			IV35	Ligos Indeo 3.5
			IV36	Ligos Indeo 3.6
			IV37	Ligos Indeo 3.7
			IV38	Ligos Indeo 3.8
			IV39	Ligos Indeo 3.9
			IV40	Ligos Indeo Interactive 4.0
			IV41	Ligos Indeo Interactive 4.1
			IV42	Ligos Indeo Interactive 4.2
			IV43	Ligos Indeo Interactive 4.3
			IV44	Ligos Indeo Interactive 4.4
			IV45	Ligos Indeo Interactive 4.5
			IV46	Ligos Indeo Interactive 4.6
			IV47	Ligos Indeo Interactive 4.7
			IV48	Ligos Indeo Interactive 4.8
			IV49	Ligos Indeo Interactive 4.9
			IV50	Ligos Indeo Interactive 5.0
			JBYR	Kensington ?JBYR?
			JPEG	Still Image JPEG DIB
			JPGL	Pegasus Lossless Motion JPEG
			KMVC	Team17 Software Karl Morton\'s Video Codec
			LSVM	Vianet Lighting Strike Vmail (Streaming) (www.vianet.com)
			LEAD	LEAD Video Codec
			Ljpg	LEAD MJPEG Codec
			MDVD	Alex MicroDVD Video (hacked MS MPEG-4) (www.tiasoft.de)
			MJPA	Morgan Motion JPEG (MJPA) (www.morgan-multimedia.com)
			MJPB	Morgan Motion JPEG (MJPB) (www.morgan-multimedia.com)
			MMES	Matrox MPEG-2 I-frame
			MP2v	Microsoft S-Mpeg 4 version 1 (MP2v)
			MP42	Microsoft S-Mpeg 4 version 2 (MP42)
			MP43	Microsoft S-Mpeg 4 version 3 (MP43)
			MP4S	Microsoft S-Mpeg 4 version 3 (MP4S)
			MP4V	FFmpeg MPEG-4
			MPG1	FFmpeg MPEG 1/2
			MPG2	FFmpeg MPEG 1/2
			MPG3	FFmpeg DivX ;-) (MS MPEG-4 v3)
			MPG4	Microsoft MPEG-4
			MPGI	Sigma Designs MPEG
			MPNG	PNG images decoder
			MSS1	Microsoft Windows Screen Video
			MSZH	LCL (Lossless Codec Library) (www.geocities.co.jp/Playtown-Denei/2837/LRC.htm)
			M261	Microsoft H.261
			M263	Microsoft H.263
			M4S2	Microsoft Fully Compliant MPEG-4 v2 simple profile (M4S2)
			m4s2	Microsoft Fully Compliant MPEG-4 v2 simple profile (m4s2)
			MC12	ATI Motion Compensation Format (MC12)
			MCAM	ATI Motion Compensation Format (MCAM)
			MJ2C	Morgan Multimedia Motion JPEG2000
			mJPG	IBM Motion JPEG w/ Huffman Tables
			MJPG	Microsoft Motion JPEG DIB
			MP42	Microsoft MPEG-4 (low-motion)
			MP43	Microsoft MPEG-4 (fast-motion)
			MP4S	Microsoft MPEG-4 (MP4S)
			mp4s	Microsoft MPEG-4 (mp4s)
			MPEG	Chromatic Research MPEG-1 Video I-Frame
			MPG4	Microsoft MPEG-4 Video High Speed Compressor
			MPGI	Sigma Designs MPEG
			MRCA	FAST Multimedia Martin Regen Codec
			MRLE	Microsoft Run Length Encoding
			MSVC	Microsoft Video 1
			MTX1	Matrox ?MTX1?
			MTX2	Matrox ?MTX2?
			MTX3	Matrox ?MTX3?
			MTX4	Matrox ?MTX4?
			MTX5	Matrox ?MTX5?
			MTX6	Matrox ?MTX6?
			MTX7	Matrox ?MTX7?
			MTX8	Matrox ?MTX8?
			MTX9	Matrox ?MTX9?
			MV12	Motion Pixels Codec (old)
			MWV1	Aware Motion Wavelets
			nAVI	SMR Codec (hack of Microsoft MPEG-4) (IRC #shadowrealm)
			NT00	NewTek LightWave HDTV YUV w/ Alpha (www.newtek.com)
			NUV1	NuppelVideo
			NTN1	Nogatech Video Compression 1
			NVS0	nVidia GeForce Texture (NVS0)
			NVS1	nVidia GeForce Texture (NVS1)
			NVS2	nVidia GeForce Texture (NVS2)
			NVS3	nVidia GeForce Texture (NVS3)
			NVS4	nVidia GeForce Texture (NVS4)
			NVS5	nVidia GeForce Texture (NVS5)
			NVT0	nVidia GeForce Texture (NVT0)
			NVT1	nVidia GeForce Texture (NVT1)
			NVT2	nVidia GeForce Texture (NVT2)
			NVT3	nVidia GeForce Texture (NVT3)
			NVT4	nVidia GeForce Texture (NVT4)
			NVT5	nVidia GeForce Texture (NVT5)
			PIXL	MiroXL, Pinnacle PCTV
			PDVC	I-O Data Device Digital Video Capture DV codec
			PGVV	Radius Video Vision
			PHMO	IBM Photomotion
			PIM1	MPEG Realtime (Pinnacle Cards)
			PIM2	Pegasus Imaging ?PIM2?
			PIMJ	Pegasus Imaging Lossless JPEG
			PVEZ	Horizons Technology PowerEZ
			PVMM	PacketVideo Corporation MPEG-4
			PVW2	Pegasus Imaging Wavelet Compression
			Q1.0	Q-Team\'s QPEG 1.0 (www.q-team.de)
			Q1.1	Q-Team\'s QPEG 1.1 (www.q-team.de)
			QPEG	Q-Team QPEG 1.0
			qpeq	Q-Team QPEG 1.1
			RGB 	Raw BGR32
			RGBA	Raw RGB w/ Alpha
			RMP4	REALmagic MPEG-4 (unauthorized XVID copy) (www.sigmadesigns.com)
			ROQV	Id RoQ File Video Decoder
			RPZA	Quicktime Apple Video (RPZA)
			RUD0	Rududu video codec (http://rududu.ifrance.com/rududu/)
			RV10	RealVideo 1.0 (aka RealVideo 5.0)
			RV13	RealVideo 1.0 (RV13)
			RV20	RealVideo G2
			RV30	RealVideo 8
			RV40	RealVideo 9
			RGBT	Raw RGB w/ Transparency
			RLE 	Microsoft Run Length Encoder
			RLE4	Run Length Encoded (4bpp, 16-color)
			RLE8	Run Length Encoded (8bpp, 256-color)
			RT21	Intel Indeo RealTime Video 2.1
			rv20	RealVideo G2
			rv30	RealVideo 8
			RVX 	Intel RDX (RVX )
			SMC 	Apple Graphics (SMC )
			SP54	Logitech Sunplus Sp54 Codec for Mustek GSmart Mini 2
			SPIG	Radius Spigot
			SVQ3	Sorenson Video 3 (Apple Quicktime 5)
			s422	Tekram VideoCap C210 YUV 4:2:2
			SDCC	Sun Communication Digital Camera Codec
			SFMC	CrystalNet Surface Fitting Method
			SMSC	Radius SMSC
			SMSD	Radius SMSD
			smsv	WorldConnect Wavelet Video
			SPIG	Radius Spigot
			SPLC	Splash Studios ACM Audio Codec (www.splashstudios.net)
			SQZ2	Microsoft VXTreme Video Codec V2
			STVA	ST Microelectronics CMOS Imager Data (Bayer)
			STVB	ST Microelectronics CMOS Imager Data (Nudged Bayer)
			STVC	ST Microelectronics CMOS Imager Data (Bunched)
			STVX	ST Microelectronics CMOS Imager Data (Extended CODEC Data Format)
			STVY	ST Microelectronics CMOS Imager Data (Extended CODEC Data Format with Correction Data)
			SV10	Sorenson Video R1
			SVQ1	Sorenson Video
			T420	Toshiba YUV 4:2:0
			TM2A	Duck TrueMotion Archiver 2.0 (www.duck.com)
			TVJP	Pinnacle/Truevision Targa 2000 board (TVJP)
			TVMJ	Pinnacle/Truevision Targa 2000 board (TVMJ)
			TY0N	Tecomac Low-Bit Rate Codec (www.tecomac.com)
			TY2C	Trident Decompression Driver
			TLMS	TeraLogic Motion Intraframe Codec (TLMS)
			TLST	TeraLogic Motion Intraframe Codec (TLST)
			TM20	Duck TrueMotion 2.0
			TM2X	Duck TrueMotion 2X
			TMIC	TeraLogic Motion Intraframe Codec (TMIC)
			TMOT	Horizons Technology TrueMotion S
			tmot	Horizons TrueMotion Video Compression
			TR20	Duck TrueMotion RealTime 2.0
			TSCC	TechSmith Screen Capture Codec
			TV10	Tecomac Low-Bit Rate Codec
			TY2N	Trident ?TY2N?
			U263	UB Video H.263/H.263+/H.263++ Decoder
			UMP4	UB Video MPEG 4 (www.ubvideo.com)
			UYNV	Nvidia UYVY packed 4:2:2
			UYVP	Evans & Sutherland YCbCr 4:2:2 extended precision
			UCOD	eMajix.com ClearVideo
			ULTI	IBM Ultimotion
			UYVY	UYVY packed 4:2:2
			V261	Lucent VX2000S
			VIFP	VFAPI Reader Codec (www.yks.ne.jp/~hori/)
			VIV1	FFmpeg H263+ decoder
			VIV2	Vivo H.263
			VQC2	Vector-quantised codec 2 (research) http://eprints.ecs.soton.ac.uk/archive/00001310/01/VTC97-js.pdf)
			VTLP	Alaris VideoGramPiX
			VYU9	ATI YUV (VYU9)
			VYUY	ATI YUV (VYUY)
			V261	Lucent VX2000S
			V422	Vitec Multimedia 24-bit YUV 4:2:2 Format
			V655	Vitec Multimedia 16-bit YUV 4:2:2 Format
			VCR1	ATI Video Codec 1
			VCR2	ATI Video Codec 2
			VCR3	ATI VCR 3.0
			VCR4	ATI VCR 4.0
			VCR5	ATI VCR 5.0
			VCR6	ATI VCR 6.0
			VCR7	ATI VCR 7.0
			VCR8	ATI VCR 8.0
			VCR9	ATI VCR 9.0
			VDCT	Vitec Multimedia Video Maker Pro DIB
			VDOM	VDOnet VDOWave
			VDOW	VDOnet VDOLive (H.263)
			VDTZ	Darim Vison VideoTizer YUV
			VGPX	Alaris VideoGramPiX
			VIDS	Vitec Multimedia YUV 4:2:2 CCIR 601 for V422
			VIVO	Vivo H.263 v2.00
			vivo	Vivo H.263
			VIXL	Miro/Pinnacle Video XL
			VLV1	VideoLogic/PURE Digital Videologic Capture
			VP30	On2 VP3.0
			VP31	On2 VP3.1
			VP6F	On2 TrueMotion VP6
			VX1K	Lucent VX1000S Video Codec
			VX2K	Lucent VX2000S Video Codec
			VXSP	Lucent VX1000SP Video Codec
			WBVC	Winbond W9960
			WHAM	Microsoft Video 1 (WHAM)
			WINX	Winnov Software Compression
			WJPG	AverMedia Winbond JPEG
			WMV1	Windows Media Video V7
			WMV2	Windows Media Video V8
			WMV3	Windows Media Video V9
			WNV1	Winnov Hardware Compression
			XYZP	Extended PAL format XYZ palette (www.riff.org)
			x263	Xirlink H.263
			XLV0	NetXL Video Decoder
			XMPG	Xing MPEG (I-Frame only)
			XVID	XviD MPEG-4 (www.xvid.org)
			XXAN	?XXAN?
			YU92	Intel YUV (YU92)
			YUNV	Nvidia Uncompressed YUV 4:2:2
			YUVP	Extended PAL format YUV palette (www.riff.org)
			Y211	YUV 2:1:1 Packed
			Y411	YUV 4:1:1 Packed
			Y41B	Weitek YUV 4:1:1 Planar
			Y41P	Brooktree PC1 YUV 4:1:1 Packed
			Y41T	Brooktree PC1 YUV 4:1:1 with transparency
			Y42B	Weitek YUV 4:2:2 Planar
			Y42T	Brooktree UYUV 4:2:2 with transparency
			Y422	ADS Technologies Copy of UYVY used in Pyro WebCam firewire camera
			Y800	Simple, single Y plane for monochrome images
			Y8  	Grayscale video
			YC12	Intel YUV 12 codec
			YUV8	Winnov Caviar YUV8
			YUV9	Intel YUV9
			YUY2	Uncompressed YUV 4:2:2
			YUYV	Canopus YUV
			YV12	YVU12 Planar
			YVU9	Intel YVU9 Planar (8-bpp Y plane, followed by 8-bpp 4x4 U and V planes)
			YVYU	YVYU 4:2:2 Packed
			ZLIB	Lossless Codec Library zlib compression (www.geocities.co.jp/Playtown-Denei/2837/LRC.htm)
			ZPEG	Metheus Video Zipper

		*/

		return getid3_lib::EmbeddedLookup($fourcc, $begin, __LINE__, __FILE__, 'riff-fourcc');
	}

	/**
	 * @param string $byteword
	 * @param bool   $signed
	 *
	 * @return int|float|false
	 */
	private function EitherEndian2Int($byteword, $signed=false) {
		if ($this->container == 'riff') {
			return getid3_lib::LittleEndian2Int($byteword, $signed);
		}
		return getid3_lib::BigEndian2Int($byteword, false, $signed);
	}

}

京都の外壁塗装で選ぶべき評判・口コミの良い業者ランキング【2021年】

京都の外壁塗装で選ぶべき評判・口コミの良い業者ランキング【2021年】

京都の外壁塗装業者ランキング
京都の外壁塗装業者を評判・口コミから厳選

京都の外壁塗装業者を徹底調査!

京都で評判の良いおすすめ外壁塗装業者ランキング!

京都で評判・口コミの良い外壁塗装業者ランキング!

こんにちは、「京都のおすすめ外壁塗装業者を実績・評判から厳選して10社ご紹介」の管理人です。
この度は当サイトをご覧いただきき、本当にありがとうございます。

このサイトでは、京都で生まれ育った管理人である私が、地元である京都の優良外壁塗装業者をご紹介しています。
京都にお住まいの方で、外壁塗装を検討されている方にとって少しでもお役に立てれば幸いです。

まず、なぜ私が「京都の優良外壁塗装業者」を紹介しようと思ったのか? 手短にご説明させていただきます。

実は最近、たくさんの思い出が詰まった我が家の外壁塗装工事を行いました。

築年数は約20年程。 築20年を超えたくらいのタイミングで塗り替えをしないと家の寿命が短くなってしまうと聞いたこと。
そして何より、この20年一切外壁には手をかけていなかったので、汚れが目立ち美観がすごく悪くなっていたこと。
これが初めて外壁塗装の塗り替えを検討するきっかけとなりました。

私は性格的に凝り性で、何でも自分で調べないと気が済まない性格です。
自分が納得するまで徹底的に調査して、どこよりも良い塗装業者さんを見つけて塗り替えをしてもらおう!と意気込みました。

幸いにも、私は職業柄、そして長年京都に住み続けていることもあり、建築関係(大工さん・建築士さん・設計士さんなど)の知人が複数います。
実際に行った調査方法として、その建築関係の知人と直接会い、徹底的に塗装業界を含む建築業界の生の声を聞き込みました。

その結果、納得・安心して塗り替えをお願いできる塗装業者さんと出会うことができ、仕上がり・工事金額ともに満足のいく塗り替えをすることができました。

私と同じように、

・大切な家だからこそ、丁寧にしっかりと外壁塗装をしてほしい
・少しでも安くなれば嬉しいけど、手抜き工事はされたくない
・しっかり工事内容を説明してくれるような、信頼できる塗装業者を見つけたい

とお考えの方は、きっとこのサイトが京都での塗装業者探しの参考になると信じております。

ぜひ、京都にお住まいの方で、外壁塗装を検討されている方、優良塗装業者をお探しの方の参考にしてください。

京都で信頼できる外壁塗装業者を選ぶポイント

京都で信頼できる外壁塗装業者を選ぶポイント

今回、私が「優良外壁塗装業者の定義」として挙げたポイントは以下の3点です。

① 良心的な外壁塗装の金額設定
② 塗り替えの施工技術のレベルが高い
③ 対応品質・サポートがしっかりしている

恐らく皆さんにとっても、上記3点が揃っていれば優良塗装業者と言えるでしょう。
しかし、京都にも外壁塗装業者は数多くありますが、上記全てを満たす塗装業者というのは実は非常に少ないのです。

「値段が安くても、塗装工事自体の品質が悪い」
「仕上がりはすごく良いけど、工事金額が相場より明らかに高額」
「会社の規模は大きいが、施工は全て下請けに丸投げで対応が雑or下請け任せ」
など、どれか1つの項目は満たしても、他のポイントが良くないという塗装業者が圧倒的に多いのが現状です。

それでは、「優良外壁塗装業者の定義」をもう少し掘り下げてご説明します。

良心的な外壁塗装工事の金額設定

良心的な外壁塗装工事の金額設定

良心的な金額設定は、やはり皆さん重視したいポイントではないでしょうか?
私自身もここは絶対に外せないポイントでした。

一般的な戸建住宅の外壁塗装の価格相場は、おおよそ80万〜120万円とされています。
しかし、ただ安ければ良いという訳でない、施工品質が伴わないといけない、というのが難しいポイントです。

良心的な工事金額、その中で最大限高品質な塗り替えを行ってくれる塗装業者を見極めるポイント
それは、

営業マンやCM・チラシなど、過剰な営業費・宣伝広告費を使っていないかどうか、です。

外壁塗装業界は、大手メーカーから地元密着型の小さな塗装業者まで、お客さんの奪い合い状態となっています。
そのため、多くの塗装業者が他社より少しでも知名度を上げるため、少しでも多くのお客さんに知ってもらうために、多額の営業費・宣伝広告費を使っています。
大手メーカーであればCM、小さな塗装業者でも新聞チラシ、そして多くの営業マンを雇い、訪問販売による営業活動を行なっているのです。

もちろん塗装業者も生活がかかっているので、営業・宣伝を行い、少しでも仕事を受注しようとするのは当然です。
しかし問題は、多額の営業費・宣伝広告費は皆さんがお支払いになる工事代金に含まれる、という点です。

過剰な営業費・宣伝広告費を使っている塗装業者は、総じて塗り替えの工事金額が高額になりがちです。
こうなると、「なぜ私たちが工事には直接関係の無い営業費・宣伝広告費を支払わないといけないのか」と思ってしまいますよね。

本当に優良な塗装業者なら、広告を出したり営業マンを雇ったりしなくても評判・口コミでお客さんは自然と集まるのです。
ただでさえ価格相場の幅が広く、工事金額の内訳がわかりにくい外壁塗装です。
気になった塗装業者が、営業マンを雇っていないか、過剰な広告を出していないか、確認してみましょう。

塗り替えの施工技術のレベルが高い

塗り替えの施工技術のレベルが高い

施工技術・施工品質に関しては、気にはなりますがわかりにくいポイントです。
私もそうでしたが、普段塗装工事に馴染みが無い一般の方からすれば、実際に施工している姿を見ても、技術の良し悪しを見極めるのは難しいのです。

ここで1つの見極めポイントとなるのが、「一級塗装技能士」という資格です。

この「一級塗装技能士」は、塗装の実技試験と学科試験の両方に合格した塗装職人のみが持っている資格になります。
もちろんこれは国家資格です

資格を持っていない塗装職人さんでも、技術力が高い職人さんは沢山いらっしゃると思いますが、少なくともこの資格を持つ塗装職人さんは、一定水準以上の技術・知識を持つ塗装職人だと国から認められているのです。
気になった塗装業者に「一級塗装技能士」の取得者がいるのか、ぜひ確認しておきましょう。

塗装工事以外にも接客対応・サポートがしっかりしている

塗装工事以外にも対応・サポートがしっかりしている

外壁塗装を検討されている方の中で、外壁塗装について精通してるという方は少ないと思います。
なぜなら、外壁塗装の塗り替え周期は10~20年に一度、知らなくても当然なのです。
むしろ私のように、「初めて外壁塗装を検討している」という人の方が多いかもしれません。

一般の方が馴染みが薄い外壁塗装工事だからこそ、対応品質・サポートがしっかりしている塗装業者の方が安心して施工を任せられるでしょう。

打ち合わせや現地調査、見積もりの段階で、「わからないことはないか?心配な点はないか?」など、気遣ってくれる塗装業者は本当に心強いです。
初めて塗り替え工事を行う方なら、尚更安心して工事を任せることができます。
こちらの些細な疑問・質問にも、丁寧にしっかり対応してくれる塗装業者を選ぶようにしましょう。

また、不思議と対応品質が良い塗装業者は、総じて塗り替えの施工品質も高いです。
やはり、真面目に誠実に塗装と向き合っている業者は、その真面目さ・誠実さが対応品質にも現れるということですね。

京都で評判の良い外壁塗装業者はどこ?

京都で評判の良い外壁塗装業者はどこ?

以上のことを踏まえた上で私は、複数の塗装業者から見積もりをいただき、じっくりと見積書を比較検討し、塗装業者を吟味しました。
そしてその結果、京都の中でも大変素晴らしい外壁塗装業者さんと出会うことができ、仕上がり・価格ともに満足のいく外壁塗装工事をしていただくことができました。

ここでは、私が実際に塗り替えを依頼した塗装業者さんをはじめ、

・見積もりを依頼したり問い合わせたりした際に「3つの優良外壁塗装業者の定義を満たしている」と感じた塗装業者さん
・建築業界に在籍している知人の中で評判の良い塗装業者さん

この2点を含めた、京都で安心して塗装工事を任せることができる優良外壁塗装業者さんをランキング形式でご紹介させていただきます。

ぜひ京都にお住まいの方は、優良外壁塗装業者探しの参考にしてください。

京都で評判・口コミの良い外壁塗装業者ランキング
ランキング1位

京都で評判・口コミの良い外壁塗装業者ランキング

株式会社ウェルビーホーム

京都でおすすめの優良外壁塗装業者|株式会社ウェルビーホーム

株式会社ウェルビーホームさんの特徴

今回、私が実際に外壁塗装の塗り替えを依頼し、最も皆さんにもおすすめしたい外壁塗装業者さんは、「株式会社ウェルビーホーム」さんです。

ウェルビーホームさんは、代表の高橋さんが直接打ち合わせ・現場調査から実際の施工、そして工事後のアフターフォローまで全て対応してくれます。
また、高橋さんは建築士の資格も持っており、外壁塗装だけでなく住まいのこと全般に精通しておられるので、様々な観点から外壁塗装に関するアドバイスをしてくれます。
高橋さん自身とても笑顔の素敵な物腰の優しい方で、外壁塗装以外の住まいに関する質問にも、とてもわかりやすく丁寧に答えてくださいました。

見積書も、他のどの業者さんよりも丁寧で詳細に作ってくださり、工事内容が非常に明確で安心できたのがウェルビーホームさんを選んだ大きなポイントです。
さらに、ウェルビーホームさんは「一級塗装技能士」の資格を所持する職人さんが在籍しています。
施工してくれた職人さん方もとても愛想良くマナーもしっかりしており、塗り替えの仕上がり・接客応対ともに大満足の結果でした。

工事金額も他業者さんと比べても安価でしたし、是非とも京都で外壁塗装を検討されている方におすすめしたい優良塗装業者さんです。

株式会社ウェルビーホームさんを利用した方の評判・口コミ

40代・女性・京都市中京区在住

外壁塗装が初めての私にも非常に丁寧にご説明くださいました。
打ち合わせの時点から高橋社長の人柄の良さは伝わりました。
見積書の内容も細かく教えてくださり、初めての外壁塗装も安心して行えました、ありがとうございました。

50代・男性・京都府城陽市在住

問い合わせから施工までやりとりがとてもスムーズでした。
特に問い合わせから現地確認までの対応の早さは一番でした。
カラーシミュレーションなど、色決めも早かったです。
仕上がりも綺麗で大満足です。

50代・女性・大阪府寝屋川市在住

前回の工事代金より大幅に安かったので大変驚きました。
こんなことなら前回の塗装工事もウェルビーホームさんにお願いしたかったです。
次回の塗装もお願いしたいので、その際はよろしくお願いします。

京都で評判・口コミの良い外壁塗装業者ランキング
ランキング2位

京都で評判・口コミの良い外壁塗装業者ランキング

株式会社 佐藤塗装店

京都でおすすめの優良外壁塗装業者|株式会社 佐藤塗装店

株式会社 佐藤塗装店さんの特徴

「株式会社 佐藤塗装店」さんは、京都市西京区を中心に京都府全域、大阪府、滋賀県、奈良県と幅広いエリアで活躍する塗装業者さんです。

代表の佐藤さんは、「一級塗装技能士」の資格をはじめ、「一級左官技能士」「足場組立作業主任者」など、数多くの資格を有しておられます。
塗り替えを依頼する塗装業者さんが塗装だけでなく他の建築工事に関して精通していると、幅広い視点で的確なアドバイスをもらえるので嬉しいポイントです。

佐藤塗装店さんは、日本ペイント株式会社の特約店であり、使用する塗料も日本ペイントが主になりますので、塗料の単価や性能など、工事内容が非常に明確です。
見積もりの内容も分かりやすく明瞭会計で、職人さんの対応も非常に丁寧です。
京都の数ある塗装業者の中でも、5指に入る優良塗装業者さんです。

株式会社 佐藤塗装店さんを利用した方の評判・口コミ

50代・男性・京都市西京区在住

日本ペイントの塗料と聞いて安心しましたし、塗料の知識が豊富な営業さんで、勉強になりました。
価格がわかりやすく、日本ペイントの塗料を使用しているとのことで、決めました。
仕上がりにも大変満足です。

50代・女性・兵庫県神戸市在住

住まいのイメージを変えたく、相談に乗っていただきました。
熱心に対応して頂き、次回もお願いしたいと思います。
ありがとうございました。

40代・女性・大阪府堺市在住

塗装後玄関周りの色が気に入らず、再度塗り替えて頂き有難うございました。
大満足です。ご近所様をご紹介させて頂きます。

京都で評判・口コミの良い外壁塗装業者ランキング
ランキング3位

京都で評判・口コミの良い外壁塗装業者ランキング

株式会社 伊藤建装

京都でおすすめの優良外壁塗装業者|株式会社 伊藤建装

株式会社 伊藤建装さんの特徴

「株式会社 伊藤建装」さんは、京都市伏見区を中心に京都府・滋賀県・大阪府北部で活躍する塗装業者さんです。

「一級塗装技能士」の資格保有者だけでなく、外壁診断士や外壁アドバイザーなどの資格保有者が複数在籍しておられ、まさに外壁のプロフェッショナルです。
非常に多くの塗料・プランをご用意されており、外壁診断士さんがお住まい一軒一軒に合ったプランを提案してくれます。

非常に多くの職人さんが在籍され、宣伝・広告にも力を入れておられるので、工事金額自体は決して安価ではありません
しかし、外壁をしっかり診断してほしい・質の良い塗装工事をしてほしいといった、金額より施工品質重視の方にはおすすめの塗装業者さんです。

株式会社 伊藤建装さんを利用した方の評判・口コミ

40代・女性・京都市左京区在住

職人さん達はゴミの片付けもきっちりされていて良かったと思います。
女性の職人さんがいらっしゃったので驚きました。
足場を組む時なども男性と変わらない力強さで仕事をこなされていたので感心してました。

40代・男性・京都市西京区在住

細かいところまで綺麗にして頂き、ありがとうございました。
工事中、台風が来た時には困りましたが、結果的に綺麗に仕上げてくださり満足です。

50代・男性・滋賀県大津市在住

見積もりから施工まで、こまかいこだわりを重視してくださりありがとうございました。
家が生まれ変わったように綺麗になり感謝しています。
丁寧な職人さん達にも感謝です。

京都で評判・口コミの良い外壁塗装業者ランキング

京都でのおすすめ優良外壁塗装業者
1位:株式会社ウェルビーホーム
京都で評判・口コミの良い外壁塗装業者ランキング|株式会社ウェルビーホーム
京都でのおすすめ優良外壁塗装業者
2位:株式会社 佐藤塗装店
京京都で評判・口コミの良い外壁塗装業者ランキング|株式会社 佐藤塗装店
京都でのおすすめ優良外壁塗装業者
3位:株式会社 伊藤建装
京都で評判・口コミの良い外壁塗装業者ランキング|株式会社 伊藤建装

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