WebSVN – eFlore/Applications.cel – Blame – /branches/v2.6-greffoir/jrest/lib/PHPExcel/Classes/PHPExcel/Calculation/Engineering.php

Rev	Author	Line No.	Line
2390	jpm	1	`<?php`
		2	`/**`
		3	`* PHPExcel`
		4	`*`
		5	`* Copyright (c) 2006 - 2013 PHPExcel`
		6	`*`
		7	`* This library is free software; you can redistribute it and/or`
		8	`* modify it under the terms of the GNU Lesser General Public`
		9	`* License as published by the Free Software Foundation; either`
		10	`* version 2.1 of the License, or (at your option) any later version.`
		11	`*`
		12	`* This library is distributed in the hope that it will be useful,`
		13	`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
		14	`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
		15	`* Lesser General Public License for more details.`
		16	`*`
		17	`* You should have received a copy of the GNU Lesser General Public`
		18	`* License along with this library; if not, write to the Free Software`
		19	`* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA`
		20	`*`
		21	`* @category PHPExcel`
		22	`* @package PHPExcel_Calculation`
		23	`* @copyright Copyright (c) 2006 - 2013 PHPExcel (http://www.codeplex.com/PHPExcel)`
		24	`* @license http://www.gnu.org/licenses/old-licenses/lgpl-2.1.txt LGPL`
		25	`* @version ##VERSION##, ##DATE##`
		26	`*/`
		27
		28
		29	`/** PHPExcel root directory */`
		30	`if (!defined('PHPEXCEL_ROOT')) {`
		31	`/**`
		32	`* @ignore`
		33	`*/`
		34	`define('PHPEXCEL_ROOT', dirname(__FILE__) . '/../../');`
		35	`require(PHPEXCEL_ROOT . 'PHPExcel/Autoloader.php');`
		36	`}`
		37
		38
		39	`/** EULER */`
		40	`define('EULER', 2.71828182845904523536);`
		41
		42
		43	`/**`
		44	`* PHPExcel_Calculation_Engineering`
		45	`*`
		46	`* @category PHPExcel`
		47	`* @package PHPExcel_Calculation`
		48	`* @copyright Copyright (c) 2006 - 2013 PHPExcel (http://www.codeplex.com/PHPExcel)`
		49	`*/`
		50	`class PHPExcel_Calculation_Engineering {`
		51
		52	`/**`
		53	`* Details of the Units of measure that can be used in CONVERTUOM()`
		54	`*`
		55	`* @var mixed[]`
		56	`*/`
		57	`private static $_conversionUnits = array( 'g' => array( 'Group' => 'Mass', 'Unit Name' => 'Gram', 'AllowPrefix' => True ),`
		58	`'sg' => array( 'Group' => 'Mass', 'Unit Name' => 'Slug', 'AllowPrefix' => False ),`
		59	`'lbm' => array( 'Group' => 'Mass', 'Unit Name' => 'Pound mass (avoirdupois)', 'AllowPrefix' => False ),`
		60	`'u' => array( 'Group' => 'Mass', 'Unit Name' => 'U (atomic mass unit)', 'AllowPrefix' => True ),`
		61	`'ozm' => array( 'Group' => 'Mass', 'Unit Name' => 'Ounce mass (avoirdupois)', 'AllowPrefix' => False ),`
		62	`'m' => array( 'Group' => 'Distance', 'Unit Name' => 'Meter', 'AllowPrefix' => True ),`
		63	`'mi' => array( 'Group' => 'Distance', 'Unit Name' => 'Statute mile', 'AllowPrefix' => False ),`
		64	`'Nmi' => array( 'Group' => 'Distance', 'Unit Name' => 'Nautical mile', 'AllowPrefix' => False ),`
		65	`'in' => array( 'Group' => 'Distance', 'Unit Name' => 'Inch', 'AllowPrefix' => False ),`
		66	`'ft' => array( 'Group' => 'Distance', 'Unit Name' => 'Foot', 'AllowPrefix' => False ),`
		67	`'yd' => array( 'Group' => 'Distance', 'Unit Name' => 'Yard', 'AllowPrefix' => False ),`
		68	`'ang' => array( 'Group' => 'Distance', 'Unit Name' => 'Angstrom', 'AllowPrefix' => True ),`
		69	`'Pica' => array( 'Group' => 'Distance', 'Unit Name' => 'Pica (1/72 in)', 'AllowPrefix' => False ),`
		70	`'yr' => array( 'Group' => 'Time', 'Unit Name' => 'Year', 'AllowPrefix' => False ),`
		71	`'day' => array( 'Group' => 'Time', 'Unit Name' => 'Day', 'AllowPrefix' => False ),`
		72	`'hr' => array( 'Group' => 'Time', 'Unit Name' => 'Hour', 'AllowPrefix' => False ),`
		73	`'mn' => array( 'Group' => 'Time', 'Unit Name' => 'Minute', 'AllowPrefix' => False ),`
		74	`'sec' => array( 'Group' => 'Time', 'Unit Name' => 'Second', 'AllowPrefix' => True ),`
		75	`'Pa' => array( 'Group' => 'Pressure', 'Unit Name' => 'Pascal', 'AllowPrefix' => True ),`
		76	`'p' => array( 'Group' => 'Pressure', 'Unit Name' => 'Pascal', 'AllowPrefix' => True ),`
		77	`'atm' => array( 'Group' => 'Pressure', 'Unit Name' => 'Atmosphere', 'AllowPrefix' => True ),`
		78	`'at' => array( 'Group' => 'Pressure', 'Unit Name' => 'Atmosphere', 'AllowPrefix' => True ),`
		79	`'mmHg' => array( 'Group' => 'Pressure', 'Unit Name' => 'mm of Mercury', 'AllowPrefix' => True ),`
		80	`'N' => array( 'Group' => 'Force', 'Unit Name' => 'Newton', 'AllowPrefix' => True ),`
		81	`'dyn' => array( 'Group' => 'Force', 'Unit Name' => 'Dyne', 'AllowPrefix' => True ),`
		82	`'dy' => array( 'Group' => 'Force', 'Unit Name' => 'Dyne', 'AllowPrefix' => True ),`
		83	`'lbf' => array( 'Group' => 'Force', 'Unit Name' => 'Pound force', 'AllowPrefix' => False ),`
		84	`'J' => array( 'Group' => 'Energy', 'Unit Name' => 'Joule', 'AllowPrefix' => True ),`
		85	`'e' => array( 'Group' => 'Energy', 'Unit Name' => 'Erg', 'AllowPrefix' => True ),`
		86	`'c' => array( 'Group' => 'Energy', 'Unit Name' => 'Thermodynamic calorie', 'AllowPrefix' => True ),`
		87	`'cal' => array( 'Group' => 'Energy', 'Unit Name' => 'IT calorie', 'AllowPrefix' => True ),`
		88	`'eV' => array( 'Group' => 'Energy', 'Unit Name' => 'Electron volt', 'AllowPrefix' => True ),`
		89	`'ev' => array( 'Group' => 'Energy', 'Unit Name' => 'Electron volt', 'AllowPrefix' => True ),`
		90	`'HPh' => array( 'Group' => 'Energy', 'Unit Name' => 'Horsepower-hour', 'AllowPrefix' => False ),`
		91	`'hh' => array( 'Group' => 'Energy', 'Unit Name' => 'Horsepower-hour', 'AllowPrefix' => False ),`
		92	`'Wh' => array( 'Group' => 'Energy', 'Unit Name' => 'Watt-hour', 'AllowPrefix' => True ),`
		93	`'wh' => array( 'Group' => 'Energy', 'Unit Name' => 'Watt-hour', 'AllowPrefix' => True ),`
		94	`'flb' => array( 'Group' => 'Energy', 'Unit Name' => 'Foot-pound', 'AllowPrefix' => False ),`
		95	`'BTU' => array( 'Group' => 'Energy', 'Unit Name' => 'BTU', 'AllowPrefix' => False ),`
		96	`'btu' => array( 'Group' => 'Energy', 'Unit Name' => 'BTU', 'AllowPrefix' => False ),`
		97	`'HP' => array( 'Group' => 'Power', 'Unit Name' => 'Horsepower', 'AllowPrefix' => False ),`
		98	`'h' => array( 'Group' => 'Power', 'Unit Name' => 'Horsepower', 'AllowPrefix' => False ),`
		99	`'W' => array( 'Group' => 'Power', 'Unit Name' => 'Watt', 'AllowPrefix' => True ),`
		100	`'w' => array( 'Group' => 'Power', 'Unit Name' => 'Watt', 'AllowPrefix' => True ),`
		101	`'T' => array( 'Group' => 'Magnetism', 'Unit Name' => 'Tesla', 'AllowPrefix' => True ),`
		102	`'ga' => array( 'Group' => 'Magnetism', 'Unit Name' => 'Gauss', 'AllowPrefix' => True ),`
		103	`'C' => array( 'Group' => 'Temperature', 'Unit Name' => 'Celsius', 'AllowPrefix' => False ),`
		104	`'cel' => array( 'Group' => 'Temperature', 'Unit Name' => 'Celsius', 'AllowPrefix' => False ),`
		105	`'F' => array( 'Group' => 'Temperature', 'Unit Name' => 'Fahrenheit', 'AllowPrefix' => False ),`
		106	`'fah' => array( 'Group' => 'Temperature', 'Unit Name' => 'Fahrenheit', 'AllowPrefix' => False ),`
		107	`'K' => array( 'Group' => 'Temperature', 'Unit Name' => 'Kelvin', 'AllowPrefix' => False ),`
		108	`'kel' => array( 'Group' => 'Temperature', 'Unit Name' => 'Kelvin', 'AllowPrefix' => False ),`
		109	`'tsp' => array( 'Group' => 'Liquid', 'Unit Name' => 'Teaspoon', 'AllowPrefix' => False ),`
		110	`'tbs' => array( 'Group' => 'Liquid', 'Unit Name' => 'Tablespoon', 'AllowPrefix' => False ),`
		111	`'oz' => array( 'Group' => 'Liquid', 'Unit Name' => 'Fluid Ounce', 'AllowPrefix' => False ),`
		112	`'cup' => array( 'Group' => 'Liquid', 'Unit Name' => 'Cup', 'AllowPrefix' => False ),`
		113	`'pt' => array( 'Group' => 'Liquid', 'Unit Name' => 'U.S. Pint', 'AllowPrefix' => False ),`
		114	`'us_pt' => array( 'Group' => 'Liquid', 'Unit Name' => 'U.S. Pint', 'AllowPrefix' => False ),`
		115	`'uk_pt' => array( 'Group' => 'Liquid', 'Unit Name' => 'U.K. Pint', 'AllowPrefix' => False ),`
		116	`'qt' => array( 'Group' => 'Liquid', 'Unit Name' => 'Quart', 'AllowPrefix' => False ),`
		117	`'gal' => array( 'Group' => 'Liquid', 'Unit Name' => 'Gallon', 'AllowPrefix' => False ),`
		118	`'l' => array( 'Group' => 'Liquid', 'Unit Name' => 'Litre', 'AllowPrefix' => True ),`
		119	`'lt' => array( 'Group' => 'Liquid', 'Unit Name' => 'Litre', 'AllowPrefix' => True )`
		120	`);`
		121
		122	`/**`
		123	`* Details of the Multiplier prefixes that can be used with Units of Measure in CONVERTUOM()`
		124	`*`
		125	`* @var mixed[]`
		126	`*/`
		127	`private static $_conversionMultipliers = array( 'Y' => array( 'multiplier' => 1E24, 'name' => 'yotta' ),`
		128	`'Z' => array( 'multiplier' => 1E21, 'name' => 'zetta' ),`
		129	`'E' => array( 'multiplier' => 1E18, 'name' => 'exa' ),`
		130	`'P' => array( 'multiplier' => 1E15, 'name' => 'peta' ),`
		131	`'T' => array( 'multiplier' => 1E12, 'name' => 'tera' ),`
		132	`'G' => array( 'multiplier' => 1E9, 'name' => 'giga' ),`
		133	`'M' => array( 'multiplier' => 1E6, 'name' => 'mega' ),`
		134	`'k' => array( 'multiplier' => 1E3, 'name' => 'kilo' ),`
		135	`'h' => array( 'multiplier' => 1E2, 'name' => 'hecto' ),`
		136	`'e' => array( 'multiplier' => 1E1, 'name' => 'deka' ),`
		137	`'d' => array( 'multiplier' => 1E-1, 'name' => 'deci' ),`
		138	`'c' => array( 'multiplier' => 1E-2, 'name' => 'centi' ),`
		139	`'m' => array( 'multiplier' => 1E-3, 'name' => 'milli' ),`
		140	`'u' => array( 'multiplier' => 1E-6, 'name' => 'micro' ),`
		141	`'n' => array( 'multiplier' => 1E-9, 'name' => 'nano' ),`
		142	`'p' => array( 'multiplier' => 1E-12, 'name' => 'pico' ),`
		143	`'f' => array( 'multiplier' => 1E-15, 'name' => 'femto' ),`
		144	`'a' => array( 'multiplier' => 1E-18, 'name' => 'atto' ),`
		145	`'z' => array( 'multiplier' => 1E-21, 'name' => 'zepto' ),`
		146	`'y' => array( 'multiplier' => 1E-24, 'name' => 'yocto' )`
		147	`);`
		148
		149	`/**`
		150	`* Details of the Units of measure conversion factors, organised by group`
		151	`*`
		152	`* @var mixed[]`
		153	`*/`
		154	`private static $_unitConversions = array( 'Mass' => array( 'g' => array( 'g' => 1.0,`
		155	`'sg' => 6.85220500053478E-05,`
		156	`'lbm' => 2.20462291469134E-03,`
		157	`'u' => 6.02217000000000E+23,`
		158	`'ozm' => 3.52739718003627E-02`
		159	`),`
		160	`'sg' => array( 'g' => 1.45938424189287E+04,`
		161	`'sg' => 1.0,`
		162	`'lbm' => 3.21739194101647E+01,`
		163	`'u' => 8.78866000000000E+27,`
		164	`'ozm' => 5.14782785944229E+02`
		165	`),`
		166	`'lbm' => array( 'g' => 4.5359230974881148E+02,`
		167	`'sg' => 3.10810749306493E-02,`
		168	`'lbm' => 1.0,`
		169	`'u' => 2.73161000000000E+26,`
		170	`'ozm' => 1.60000023429410E+01`
		171	`),`
		172	`'u' => array( 'g' => 1.66053100460465E-24,`
		173	`'sg' => 1.13782988532950E-28,`
		174	`'lbm' => 3.66084470330684E-27,`
		175	`'u' => 1.0,`
		176	`'ozm' => 5.85735238300524E-26`
		177	`),`
		178	`'ozm' => array( 'g' => 2.83495152079732E+01,`
		179	`'sg' => 1.94256689870811E-03,`
		180	`'lbm' => 6.24999908478882E-02,`
		181	`'u' => 1.70725600000000E+25,`
		182	`'ozm' => 1.0`
		183	`)`
		184	`),`
		185	`'Distance' => array( 'm' => array( 'm' => 1.0,`
		186	`'mi' => 6.21371192237334E-04,`
		187	`'Nmi' => 5.39956803455724E-04,`
		188	`'in' => 3.93700787401575E+01,`
		189	`'ft' => 3.28083989501312E+00,`
		190	`'yd' => 1.09361329797891E+00,`
		191	`'ang' => 1.00000000000000E+10,`
		192	`'Pica' => 2.83464566929116E+03`
		193	`),`
		194	`'mi' => array( 'm' => 1.60934400000000E+03,`
		195	`'mi' => 1.0,`
		196	`'Nmi' => 8.68976241900648E-01,`
		197	`'in' => 6.33600000000000E+04,`
		198	`'ft' => 5.28000000000000E+03,`
		199	`'yd' => 1.76000000000000E+03,`
		200	`'ang' => 1.60934400000000E+13,`
		201	`'Pica' => 4.56191999999971E+06`
		202	`),`
		203	`'Nmi' => array( 'm' => 1.85200000000000E+03,`
		204	`'mi' => 1.15077944802354E+00,`
		205	`'Nmi' => 1.0,`
		206	`'in' => 7.29133858267717E+04,`
		207	`'ft' => 6.07611548556430E+03,`
		208	`'yd' => 2.02537182785694E+03,`
		209	`'ang' => 1.85200000000000E+13,`
		210	`'Pica' => 5.24976377952723E+06`
		211	`),`
		212	`'in' => array( 'm' => 2.54000000000000E-02,`
		213	`'mi' => 1.57828282828283E-05,`
		214	`'Nmi' => 1.37149028077754E-05,`
		215	`'in' => 1.0,`
		216	`'ft' => 8.33333333333333E-02,`
		217	`'yd' => 2.77777777686643E-02,`
		218	`'ang' => 2.54000000000000E+08,`
		219	`'Pica' => 7.19999999999955E+01`
		220	`),`
		221	`'ft' => array( 'm' => 3.04800000000000E-01,`
		222	`'mi' => 1.89393939393939E-04,`
		223	`'Nmi' => 1.64578833693305E-04,`
		224	`'in' => 1.20000000000000E+01,`
		225	`'ft' => 1.0,`
		226	`'yd' => 3.33333333223972E-01,`
		227	`'ang' => 3.04800000000000E+09,`
		228	`'Pica' => 8.63999999999946E+02`
		229	`),`
		230	`'yd' => array( 'm' => 9.14400000300000E-01,`
		231	`'mi' => 5.68181818368230E-04,`
		232	`'Nmi' => 4.93736501241901E-04,`
		233	`'in' => 3.60000000118110E+01,`
		234	`'ft' => 3.00000000000000E+00,`
		235	`'yd' => 1.0,`
		236	`'ang' => 9.14400000300000E+09,`
		237	`'Pica' => 2.59200000085023E+03`
		238	`),`
		239	`'ang' => array( 'm' => 1.00000000000000E-10,`
		240	`'mi' => 6.21371192237334E-14,`
		241	`'Nmi' => 5.39956803455724E-14,`
		242	`'in' => 3.93700787401575E-09,`
		243	`'ft' => 3.28083989501312E-10,`
		244	`'yd' => 1.09361329797891E-10,`
		245	`'ang' => 1.0,`
		246	`'Pica' => 2.83464566929116E-07`
		247	`),`
		248	`'Pica' => array( 'm' => 3.52777777777800E-04,`
		249	`'mi' => 2.19205948372629E-07,`
		250	`'Nmi' => 1.90484761219114E-07,`
		251	`'in' => 1.38888888888898E-02,`
		252	`'ft' => 1.15740740740748E-03,`
		253	`'yd' => 3.85802469009251E-04,`
		254	`'ang' => 3.52777777777800E+06,`
		255	`'Pica' => 1.0`
		256	`)`
		257	`),`
		258	`'Time' => array( 'yr' => array( 'yr' => 1.0,`
		259	`'day' => 365.25,`
		260	`'hr' => 8766.0,`
		261	`'mn' => 525960.0,`
		262	`'sec' => 31557600.0`
		263	`),`
		264	`'day' => array( 'yr' => 2.73785078713210E-03,`
		265	`'day' => 1.0,`
		266	`'hr' => 24.0,`
		267	`'mn' => 1440.0,`
		268	`'sec' => 86400.0`
		269	`),`
		270	`'hr' => array( 'yr' => 1.14077116130504E-04,`
		271	`'day' => 4.16666666666667E-02,`
		272	`'hr' => 1.0,`
		273	`'mn' => 60.0,`
		274	`'sec' => 3600.0`
		275	`),`
		276	`'mn' => array( 'yr' => 1.90128526884174E-06,`
		277	`'day' => 6.94444444444444E-04,`
		278	`'hr' => 1.66666666666667E-02,`
		279	`'mn' => 1.0,`
		280	`'sec' => 60.0`
		281	`),`
		282	`'sec' => array( 'yr' => 3.16880878140289E-08,`
		283	`'day' => 1.15740740740741E-05,`
		284	`'hr' => 2.77777777777778E-04,`
		285	`'mn' => 1.66666666666667E-02,`
		286	`'sec' => 1.0`
		287	`)`
		288	`),`
		289	`'Pressure' => array( 'Pa' => array( 'Pa' => 1.0,`
		290	`'p' => 1.0,`
		291	`'atm' => 9.86923299998193E-06,`
		292	`'at' => 9.86923299998193E-06,`
		293	`'mmHg' => 7.50061707998627E-03`
		294	`),`
		295	`'p' => array( 'Pa' => 1.0,`
		296	`'p' => 1.0,`
		297	`'atm' => 9.86923299998193E-06,`
		298	`'at' => 9.86923299998193E-06,`
		299	`'mmHg' => 7.50061707998627E-03`
		300	`),`
		301	`'atm' => array( 'Pa' => 1.01324996583000E+05,`
		302	`'p' => 1.01324996583000E+05,`
		303	`'atm' => 1.0,`
		304	`'at' => 1.0,`
		305	`'mmHg' => 760.0`
		306	`),`
		307	`'at' => array( 'Pa' => 1.01324996583000E+05,`
		308	`'p' => 1.01324996583000E+05,`
		309	`'atm' => 1.0,`
		310	`'at' => 1.0,`
		311	`'mmHg' => 760.0`
		312	`),`
		313	`'mmHg' => array( 'Pa' => 1.33322363925000E+02,`
		314	`'p' => 1.33322363925000E+02,`
		315	`'atm' => 1.31578947368421E-03,`
		316	`'at' => 1.31578947368421E-03,`
		317	`'mmHg' => 1.0`
		318	`)`
		319	`),`
		320	`'Force' => array( 'N' => array( 'N' => 1.0,`
		321	`'dyn' => 1.0E+5,`
		322	`'dy' => 1.0E+5,`
		323	`'lbf' => 2.24808923655339E-01`
		324	`),`
		325	`'dyn' => array( 'N' => 1.0E-5,`
		326	`'dyn' => 1.0,`
		327	`'dy' => 1.0,`
		328	`'lbf' => 2.24808923655339E-06`
		329	`),`
		330	`'dy' => array( 'N' => 1.0E-5,`
		331	`'dyn' => 1.0,`
		332	`'dy' => 1.0,`
		333	`'lbf' => 2.24808923655339E-06`
		334	`),`
		335	`'lbf' => array( 'N' => 4.448222,`
		336	`'dyn' => 4.448222E+5,`
		337	`'dy' => 4.448222E+5,`
		338	`'lbf' => 1.0`
		339	`)`
		340	`),`
		341	`'Energy' => array( 'J' => array( 'J' => 1.0,`
		342	`'e' => 9.99999519343231E+06,`
		343	`'c' => 2.39006249473467E-01,`
		344	`'cal' => 2.38846190642017E-01,`
		345	`'eV' => 6.24145700000000E+18,`
		346	`'ev' => 6.24145700000000E+18,`
		347	`'HPh' => 3.72506430801000E-07,`
		348	`'hh' => 3.72506430801000E-07,`
		349	`'Wh' => 2.77777916238711E-04,`
		350	`'wh' => 2.77777916238711E-04,`
		351	`'flb' => 2.37304222192651E+01,`
		352	`'BTU' => 9.47815067349015E-04,`
		353	`'btu' => 9.47815067349015E-04`
		354	`),`
		355	`'e' => array( 'J' => 1.00000048065700E-07,`
		356	`'e' => 1.0,`
		357	`'c' => 2.39006364353494E-08,`
		358	`'cal' => 2.38846305445111E-08,`
		359	`'eV' => 6.24146000000000E+11,`
		360	`'ev' => 6.24146000000000E+11,`
		361	`'HPh' => 3.72506609848824E-14,`
		362	`'hh' => 3.72506609848824E-14,`
		363	`'Wh' => 2.77778049754611E-11,`
		364	`'wh' => 2.77778049754611E-11,`
		365	`'flb' => 2.37304336254586E-06,`
		366	`'BTU' => 9.47815522922962E-11,`
		367	`'btu' => 9.47815522922962E-11`
		368	`),`
		369	`'c' => array( 'J' => 4.18399101363672E+00,`
		370	`'e' => 4.18398900257312E+07,`
		371	`'c' => 1.0,`
		372	`'cal' => 9.99330315287563E-01,`
		373	`'eV' => 2.61142000000000E+19,`
		374	`'ev' => 2.61142000000000E+19,`
		375	`'HPh' => 1.55856355899327E-06,`
		376	`'hh' => 1.55856355899327E-06,`
		377	`'Wh' => 1.16222030532950E-03,`
		378	`'wh' => 1.16222030532950E-03,`
		379	`'flb' => 9.92878733152102E+01,`
		380	`'BTU' => 3.96564972437776E-03,`
		381	`'btu' => 3.96564972437776E-03`
		382	`),`
		383	`'cal' => array( 'J' => 4.18679484613929E+00,`
		384	`'e' => 4.18679283372801E+07,`
		385	`'c' => 1.00067013349059E+00,`
		386	`'cal' => 1.0,`
		387	`'eV' => 2.61317000000000E+19,`
		388	`'ev' => 2.61317000000000E+19,`
		389	`'HPh' => 1.55960800463137E-06,`
		390	`'hh' => 1.55960800463137E-06,`
		391	`'Wh' => 1.16299914807955E-03,`
		392	`'wh' => 1.16299914807955E-03,`
		393	`'flb' => 9.93544094443283E+01,`
		394	`'BTU' => 3.96830723907002E-03,`
		395	`'btu' => 3.96830723907002E-03`
		396	`),`
		397	`'eV' => array( 'J' => 1.60219000146921E-19,`
		398	`'e' => 1.60218923136574E-12,`
		399	`'c' => 3.82933423195043E-20,`
		400	`'cal' => 3.82676978535648E-20,`
		401	`'eV' => 1.0,`
		402	`'ev' => 1.0,`
		403	`'HPh' => 5.96826078912344E-26,`
		404	`'hh' => 5.96826078912344E-26,`
		405	`'Wh' => 4.45053000026614E-23,`
		406	`'wh' => 4.45053000026614E-23,`
		407	`'flb' => 3.80206452103492E-18,`
		408	`'BTU' => 1.51857982414846E-22,`
		409	`'btu' => 1.51857982414846E-22`
		410	`),`
		411	`'ev' => array( 'J' => 1.60219000146921E-19,`
		412	`'e' => 1.60218923136574E-12,`
		413	`'c' => 3.82933423195043E-20,`
		414	`'cal' => 3.82676978535648E-20,`
		415	`'eV' => 1.0,`
		416	`'ev' => 1.0,`
		417	`'HPh' => 5.96826078912344E-26,`
		418	`'hh' => 5.96826078912344E-26,`
		419	`'Wh' => 4.45053000026614E-23,`
		420	`'wh' => 4.45053000026614E-23,`
		421	`'flb' => 3.80206452103492E-18,`
		422	`'BTU' => 1.51857982414846E-22,`
		423	`'btu' => 1.51857982414846E-22`
		424	`),`
		425	`'HPh' => array( 'J' => 2.68451741316170E+06,`
		426	`'e' => 2.68451612283024E+13,`
		427	`'c' => 6.41616438565991E+05,`
		428	`'cal' => 6.41186757845835E+05,`
		429	`'eV' => 1.67553000000000E+25,`
		430	`'ev' => 1.67553000000000E+25,`
		431	`'HPh' => 1.0,`
		432	`'hh' => 1.0,`
		433	`'Wh' => 7.45699653134593E+02,`
		434	`'wh' => 7.45699653134593E+02,`
		435	`'flb' => 6.37047316692964E+07,`
		436	`'BTU' => 2.54442605275546E+03,`
		437	`'btu' => 2.54442605275546E+03`
		438	`),`
		439	`'hh' => array( 'J' => 2.68451741316170E+06,`
		440	`'e' => 2.68451612283024E+13,`
		441	`'c' => 6.41616438565991E+05,`
		442	`'cal' => 6.41186757845835E+05,`
		443	`'eV' => 1.67553000000000E+25,`
		444	`'ev' => 1.67553000000000E+25,`
		445	`'HPh' => 1.0,`
		446	`'hh' => 1.0,`
		447	`'Wh' => 7.45699653134593E+02,`
		448	`'wh' => 7.45699653134593E+02,`
		449	`'flb' => 6.37047316692964E+07,`
		450	`'BTU' => 2.54442605275546E+03,`
		451	`'btu' => 2.54442605275546E+03`
		452	`),`
		453	`'Wh' => array( 'J' => 3.59999820554720E+03,`
		454	`'e' => 3.59999647518369E+10,`
		455	`'c' => 8.60422069219046E+02,`
		456	`'cal' => 8.59845857713046E+02,`
		457	`'eV' => 2.24692340000000E+22,`
		458	`'ev' => 2.24692340000000E+22,`
		459	`'HPh' => 1.34102248243839E-03,`
		460	`'hh' => 1.34102248243839E-03,`
		461	`'Wh' => 1.0,`
		462	`'wh' => 1.0,`
		463	`'flb' => 8.54294774062316E+04,`
		464	`'BTU' => 3.41213254164705E+00,`
		465	`'btu' => 3.41213254164705E+00`
		466	`),`
		467	`'wh' => array( 'J' => 3.59999820554720E+03,`
		468	`'e' => 3.59999647518369E+10,`
		469	`'c' => 8.60422069219046E+02,`
		470	`'cal' => 8.59845857713046E+02,`
		471	`'eV' => 2.24692340000000E+22,`
		472	`'ev' => 2.24692340000000E+22,`
		473	`'HPh' => 1.34102248243839E-03,`
		474	`'hh' => 1.34102248243839E-03,`
		475	`'Wh' => 1.0,`
		476	`'wh' => 1.0,`
		477	`'flb' => 8.54294774062316E+04,`
		478	`'BTU' => 3.41213254164705E+00,`
		479	`'btu' => 3.41213254164705E+00`
		480	`),`
		481	`'flb' => array( 'J' => 4.21400003236424E-02,`
		482	`'e' => 4.21399800687660E+05,`
		483	`'c' => 1.00717234301644E-02,`
		484	`'cal' => 1.00649785509554E-02,`
		485	`'eV' => 2.63015000000000E+17,`
		486	`'ev' => 2.63015000000000E+17,`
		487	`'HPh' => 1.56974211145130E-08,`
		488	`'hh' => 1.56974211145130E-08,`
		489	`'Wh' => 1.17055614802000E-05,`
		490	`'wh' => 1.17055614802000E-05,`
		491	`'flb' => 1.0,`
		492	`'BTU' => 3.99409272448406E-05,`
		493	`'btu' => 3.99409272448406E-05`
		494	`),`
		495	`'BTU' => array( 'J' => 1.05505813786749E+03,`
		496	`'e' => 1.05505763074665E+10,`
		497	`'c' => 2.52165488508168E+02,`
		498	`'cal' => 2.51996617135510E+02,`
		499	`'eV' => 6.58510000000000E+21,`
		500	`'ev' => 6.58510000000000E+21,`
		501	`'HPh' => 3.93015941224568E-04,`
		502	`'hh' => 3.93015941224568E-04,`
		503	`'Wh' => 2.93071851047526E-01,`
		504	`'wh' => 2.93071851047526E-01,`
		505	`'flb' => 2.50369750774671E+04,`
		506	`'BTU' => 1.0,`
		507	`'btu' => 1.0,`
		508	`),`
		509	`'btu' => array( 'J' => 1.05505813786749E+03,`
		510	`'e' => 1.05505763074665E+10,`
		511	`'c' => 2.52165488508168E+02,`
		512	`'cal' => 2.51996617135510E+02,`
		513	`'eV' => 6.58510000000000E+21,`
		514	`'ev' => 6.58510000000000E+21,`
		515	`'HPh' => 3.93015941224568E-04,`
		516	`'hh' => 3.93015941224568E-04,`
		517	`'Wh' => 2.93071851047526E-01,`
		518	`'wh' => 2.93071851047526E-01,`
		519	`'flb' => 2.50369750774671E+04,`
		520	`'BTU' => 1.0,`
		521	`'btu' => 1.0,`
		522	`)`
		523	`),`
		524	`'Power' => array( 'HP' => array( 'HP' => 1.0,`
		525	`'h' => 1.0,`
		526	`'W' => 7.45701000000000E+02,`
		527	`'w' => 7.45701000000000E+02`
		528	`),`
		529	`'h' => array( 'HP' => 1.0,`
		530	`'h' => 1.0,`
		531	`'W' => 7.45701000000000E+02,`
		532	`'w' => 7.45701000000000E+02`
		533	`),`
		534	`'W' => array( 'HP' => 1.34102006031908E-03,`
		535	`'h' => 1.34102006031908E-03,`
		536	`'W' => 1.0,`
		537	`'w' => 1.0`
		538	`),`
		539	`'w' => array( 'HP' => 1.34102006031908E-03,`
		540	`'h' => 1.34102006031908E-03,`
		541	`'W' => 1.0,`
		542	`'w' => 1.0`
		543	`)`
		544	`),`
		545	`'Magnetism' => array( 'T' => array( 'T' => 1.0,`
		546	`'ga' => 10000.0`
		547	`),`
		548	`'ga' => array( 'T' => 0.0001,`
		549	`'ga' => 1.0`
		550	`)`
		551	`),`
		552	`'Liquid' => array( 'tsp' => array( 'tsp' => 1.0,`
		553	`'tbs' => 3.33333333333333E-01,`
		554	`'oz' => 1.66666666666667E-01,`
		555	`'cup' => 2.08333333333333E-02,`
		556	`'pt' => 1.04166666666667E-02,`
		557	`'us_pt' => 1.04166666666667E-02,`
		558	`'uk_pt' => 8.67558516821960E-03,`
		559	`'qt' => 5.20833333333333E-03,`
		560	`'gal' => 1.30208333333333E-03,`
		561	`'l' => 4.92999408400710E-03,`
		562	`'lt' => 4.92999408400710E-03`
		563	`),`
		564	`'tbs' => array( 'tsp' => 3.00000000000000E+00,`
		565	`'tbs' => 1.0,`
		566	`'oz' => 5.00000000000000E-01,`
		567	`'cup' => 6.25000000000000E-02,`
		568	`'pt' => 3.12500000000000E-02,`
		569	`'us_pt' => 3.12500000000000E-02,`
		570	`'uk_pt' => 2.60267555046588E-02,`
		571	`'qt' => 1.56250000000000E-02,`
		572	`'gal' => 3.90625000000000E-03,`
		573	`'l' => 1.47899822520213E-02,`
		574	`'lt' => 1.47899822520213E-02`
		575	`),`
		576	`'oz' => array( 'tsp' => 6.00000000000000E+00,`
		577	`'tbs' => 2.00000000000000E+00,`
		578	`'oz' => 1.0,`
		579	`'cup' => 1.25000000000000E-01,`
		580	`'pt' => 6.25000000000000E-02,`
		581	`'us_pt' => 6.25000000000000E-02,`
		582	`'uk_pt' => 5.20535110093176E-02,`
		583	`'qt' => 3.12500000000000E-02,`
		584	`'gal' => 7.81250000000000E-03,`
		585	`'l' => 2.95799645040426E-02,`
		586	`'lt' => 2.95799645040426E-02`
		587	`),`
		588	`'cup' => array( 'tsp' => 4.80000000000000E+01,`
		589	`'tbs' => 1.60000000000000E+01,`
		590	`'oz' => 8.00000000000000E+00,`
		591	`'cup' => 1.0,`
		592	`'pt' => 5.00000000000000E-01,`
		593	`'us_pt' => 5.00000000000000E-01,`
		594	`'uk_pt' => 4.16428088074541E-01,`
		595	`'qt' => 2.50000000000000E-01,`
		596	`'gal' => 6.25000000000000E-02,`
		597	`'l' => 2.36639716032341E-01,`
		598	`'lt' => 2.36639716032341E-01`
		599	`),`
		600	`'pt' => array( 'tsp' => 9.60000000000000E+01,`
		601	`'tbs' => 3.20000000000000E+01,`
		602	`'oz' => 1.60000000000000E+01,`
		603	`'cup' => 2.00000000000000E+00,`
		604	`'pt' => 1.0,`
		605	`'us_pt' => 1.0,`
		606	`'uk_pt' => 8.32856176149081E-01,`
		607	`'qt' => 5.00000000000000E-01,`
		608	`'gal' => 1.25000000000000E-01,`
		609	`'l' => 4.73279432064682E-01,`
		610	`'lt' => 4.73279432064682E-01`
		611	`),`
		612	`'us_pt' => array( 'tsp' => 9.60000000000000E+01,`
		613	`'tbs' => 3.20000000000000E+01,`
		614	`'oz' => 1.60000000000000E+01,`
		615	`'cup' => 2.00000000000000E+00,`
		616	`'pt' => 1.0,`
		617	`'us_pt' => 1.0,`
		618	`'uk_pt' => 8.32856176149081E-01,`
		619	`'qt' => 5.00000000000000E-01,`
		620	`'gal' => 1.25000000000000E-01,`
		621	`'l' => 4.73279432064682E-01,`
		622	`'lt' => 4.73279432064682E-01`
		623	`),`
		624	`'uk_pt' => array( 'tsp' => 1.15266000000000E+02,`
		625	`'tbs' => 3.84220000000000E+01,`
		626	`'oz' => 1.92110000000000E+01,`
		627	`'cup' => 2.40137500000000E+00,`
		628	`'pt' => 1.20068750000000E+00,`
		629	`'us_pt' => 1.20068750000000E+00,`
		630	`'uk_pt' => 1.0,`
		631	`'qt' => 6.00343750000000E-01,`
		632	`'gal' => 1.50085937500000E-01,`
		633	`'l' => 5.68260698087162E-01,`
		634	`'lt' => 5.68260698087162E-01`
		635	`),`
		636	`'qt' => array( 'tsp' => 1.92000000000000E+02,`
		637	`'tbs' => 6.40000000000000E+01,`
		638	`'oz' => 3.20000000000000E+01,`
		639	`'cup' => 4.00000000000000E+00,`
		640	`'pt' => 2.00000000000000E+00,`
		641	`'us_pt' => 2.00000000000000E+00,`
		642	`'uk_pt' => 1.66571235229816E+00,`
		643	`'qt' => 1.0,`
		644	`'gal' => 2.50000000000000E-01,`
		645	`'l' => 9.46558864129363E-01,`
		646	`'lt' => 9.46558864129363E-01`
		647	`),`
		648	`'gal' => array( 'tsp' => 7.68000000000000E+02,`
		649	`'tbs' => 2.56000000000000E+02,`
		650	`'oz' => 1.28000000000000E+02,`
		651	`'cup' => 1.60000000000000E+01,`
		652	`'pt' => 8.00000000000000E+00,`
		653	`'us_pt' => 8.00000000000000E+00,`
		654	`'uk_pt' => 6.66284940919265E+00,`
		655	`'qt' => 4.00000000000000E+00,`
		656	`'gal' => 1.0,`
		657	`'l' => 3.78623545651745E+00,`
		658	`'lt' => 3.78623545651745E+00`
		659	`),`
		660	`'l' => array( 'tsp' => 2.02840000000000E+02,`
		661	`'tbs' => 6.76133333333333E+01,`
		662	`'oz' => 3.38066666666667E+01,`
		663	`'cup' => 4.22583333333333E+00,`
		664	`'pt' => 2.11291666666667E+00,`
		665	`'us_pt' => 2.11291666666667E+00,`
		666	`'uk_pt' => 1.75975569552166E+00,`
		667	`'qt' => 1.05645833333333E+00,`
		668	`'gal' => 2.64114583333333E-01,`
		669	`'l' => 1.0,`
		670	`'lt' => 1.0`
		671	`),`
		672	`'lt' => array( 'tsp' => 2.02840000000000E+02,`
		673	`'tbs' => 6.76133333333333E+01,`
		674	`'oz' => 3.38066666666667E+01,`
		675	`'cup' => 4.22583333333333E+00,`
		676	`'pt' => 2.11291666666667E+00,`
		677	`'us_pt' => 2.11291666666667E+00,`
		678	`'uk_pt' => 1.75975569552166E+00,`
		679	`'qt' => 1.05645833333333E+00,`
		680	`'gal' => 2.64114583333333E-01,`
		681	`'l' => 1.0,`
		682	`'lt' => 1.0`
		683	`)`
		684	`)`
		685	`);`
		686
		687
		688	`/**`
		689	`* _parseComplex`
		690	`*`
		691	`* Parses a complex number into its real and imaginary parts, and an I or J suffix`
		692	`*`
		693	`* @param string $complexNumber The complex number`
		694	`* @return string[] Indexed on "real", "imaginary" and "suffix"`
		695	`*/`
		696	`public static function _parseComplex($complexNumber) {`
		697	`$workString = (string) $complexNumber;`
		698
		699	`$realNumber = $imaginary = 0;`
		700	`// Extract the suffix, if there is one`
		701	`$suffix = substr($workString,-1);`
		702	`if (!is_numeric($suffix)) {`
		703	`$workString = substr($workString,0,-1);`
		704	`} else {`
		705	`$suffix = '';`
		706	`}`
		707
		708	`// Split the input into its Real and Imaginary components`
		709	`$leadingSign = 0;`
		710	`if (strlen($workString) > 0) {`
		711	`$leadingSign = (($workString{0} == '+') \|\| ($workString{0} == '-')) ? 1 : 0;`
		712	`}`
		713	`$power = '';`
		714	`$realNumber = strtok($workString, '+-');`
		715	`if (strtoupper(substr($realNumber,-1)) == 'E') {`
		716	`$power = strtok('+-');`
		717	`++$leadingSign;`
		718	`}`
		719
		720	`$realNumber = substr($workString,0,strlen($realNumber)+strlen($power)+$leadingSign);`
		721
		722	`if ($suffix != '') {`
		723	`$imaginary = substr($workString,strlen($realNumber));`
		724
		725	`if (($imaginary == '') && (($realNumber == '') \|\| ($realNumber == '+') \|\| ($realNumber == '-'))) {`
		726	`$imaginary = $realNumber.'1';`
		727	`$realNumber = '0';`
		728	`} else if ($imaginary == '') {`
		729	`$imaginary = $realNumber;`
		730	`$realNumber = '0';`
		731	`} elseif (($imaginary == '+') \|\| ($imaginary == '-')) {`
		732	`$imaginary .= '1';`
		733	`}`
		734	`}`
		735
		736	`return array( 'real' => $realNumber,`
		737	`'imaginary' => $imaginary,`
		738	`'suffix' => $suffix`
		739	`);`
		740	`} // function _parseComplex()`
		741
		742
		743	`/**`
		744	`* Cleans the leading characters in a complex number string`
		745	`*`
		746	`* @param string $complexNumber The complex number to clean`
		747	`* @return string The "cleaned" complex number`
		748	`*/`
		749	`private static function _cleanComplex($complexNumber) {`
		750	`if ($complexNumber{0} == '+') $complexNumber = substr($complexNumber,1);`
		751	`if ($complexNumber{0} == '0') $complexNumber = substr($complexNumber,1);`
		752	`if ($complexNumber{0} == '.') $complexNumber = '0'.$complexNumber;`
		753	`if ($complexNumber{0} == '+') $complexNumber = substr($complexNumber,1);`
		754	`return $complexNumber;`
		755	`}`
		756
		757	`/**`
		758	`* Formats a number base string value with leading zeroes`
		759	`*`
		760	`* @param string $xVal The "number" to pad`
		761	`* @param integer $places The length that we want to pad this value`
		762	`* @return string The padded "number"`
		763	`*/`
		764	`private static function _nbrConversionFormat($xVal, $places) {`
		765	`if (!is_null($places)) {`
		766	`if (strlen($xVal) <= $places) {`
		767	`return substr(str_pad($xVal, $places, '0', STR_PAD_LEFT), -10);`
		768	`} else {`
		769	`return PHPExcel_Calculation_Functions::NaN();`
		770	`}`
		771	`}`
		772
		773	`return substr($xVal, -10);`
		774	`} // function _nbrConversionFormat()`
		775
		776	`/**`
		777	`* BESSELI`
		778	`*`
		779	`* Returns the modified Bessel function In(x), which is equivalent to the Bessel function evaluated`
		780	`* for purely imaginary arguments`
		781	`*`
		782	`* Excel Function:`
		783	`* BESSELI(x,ord)`
		784	`*`
		785	`* @access public`
		786	`* @category Engineering Functions`
		787	`* @param float $x The value at which to evaluate the function.`
		788	`* If x is nonnumeric, BESSELI returns the #VALUE! error value.`
		789	`* @param integer $ord The order of the Bessel function.`
		790	`* If ord is not an integer, it is truncated.`
		791	`* If $ord is nonnumeric, BESSELI returns the #VALUE! error value.`
		792	`* If $ord < 0, BESSELI returns the #NUM! error value.`
		793	`* @return float`
		794	`*`
		795	`*/`
		796	`public static function BESSELI($x, $ord) {`
		797	`$x = (is_null($x)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		798	`$ord = (is_null($ord)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($ord);`
		799
		800	`if ((is_numeric($x)) && (is_numeric($ord))) {`
		801	`$ord = floor($ord);`
		802	`if ($ord < 0) {`
		803	`return PHPExcel_Calculation_Functions::NaN();`
		804	`}`
		805
		806	`if (abs($x) <= 30) {`
		807	`$fResult = $fTerm = pow($x / 2, $ord) / PHPExcel_Calculation_MathTrig::FACT($ord);`
		808	`$ordK = 1;`
		809	`$fSqrX = ($x * $x) / 4;`
		810	`do {`
		811	`$fTerm *= $fSqrX;`
		812	`$fTerm /= ($ordK * ($ordK + $ord));`
		813	`$fResult += $fTerm;`
		814	`} while ((abs($fTerm) > 1e-12) && (++$ordK < 100));`
		815	`} else {`
		816	`$f_2_PI = 2 * M_PI;`
		817
		818	`$fXAbs = abs($x);`
		819	`$fResult = exp($fXAbs) / sqrt($f_2_PI * $fXAbs);`
		820	`if (($ord & 1) && ($x < 0)) {`
		821	`$fResult = -$fResult;`
		822	`}`
		823	`}`
		824	`return (is_nan($fResult)) ? PHPExcel_Calculation_Functions::NaN() : $fResult;`
		825	`}`
		826	`return PHPExcel_Calculation_Functions::VALUE();`
		827	`} // function BESSELI()`
		828
		829
		830	`/**`
		831	`* BESSELJ`
		832	`*`
		833	`* Returns the Bessel function`
		834	`*`
		835	`* Excel Function:`
		836	`* BESSELJ(x,ord)`
		837	`*`
		838	`* @access public`
		839	`* @category Engineering Functions`
		840	`* @param float $x The value at which to evaluate the function.`
		841	`* If x is nonnumeric, BESSELJ returns the #VALUE! error value.`
		842	`* @param integer $ord The order of the Bessel function. If n is not an integer, it is truncated.`
		843	`* If $ord is nonnumeric, BESSELJ returns the #VALUE! error value.`
		844	`* If $ord < 0, BESSELJ returns the #NUM! error value.`
		845	`* @return float`
		846	`*`
		847	`*/`
		848	`public static function BESSELJ($x, $ord) {`
		849	`$x = (is_null($x)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		850	`$ord = (is_null($ord)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($ord);`
		851
		852	`if ((is_numeric($x)) && (is_numeric($ord))) {`
		853	`$ord = floor($ord);`
		854	`if ($ord < 0) {`
		855	`return PHPExcel_Calculation_Functions::NaN();`
		856	`}`
		857
		858	`$fResult = 0;`
		859	`if (abs($x) <= 30) {`
		860	`$fResult = $fTerm = pow($x / 2, $ord) / PHPExcel_Calculation_MathTrig::FACT($ord);`
		861	`$ordK = 1;`
		862	`$fSqrX = ($x * $x) / -4;`
		863	`do {`
		864	`$fTerm *= $fSqrX;`
		865	`$fTerm /= ($ordK * ($ordK + $ord));`
		866	`$fResult += $fTerm;`
		867	`} while ((abs($fTerm) > 1e-12) && (++$ordK < 100));`
		868	`} else {`
		869	`$f_PI_DIV_2 = M_PI / 2;`
		870	`$f_PI_DIV_4 = M_PI / 4;`
		871
		872	`$fXAbs = abs($x);`
		873	`$fResult = sqrt(M_2DIVPI / $fXAbs) * cos($fXAbs - $ord * $f_PI_DIV_2 - $f_PI_DIV_4);`
		874	`if (($ord & 1) && ($x < 0)) {`
		875	`$fResult = -$fResult;`
		876	`}`
		877	`}`
		878	`return (is_nan($fResult)) ? PHPExcel_Calculation_Functions::NaN() : $fResult;`
		879	`}`
		880	`return PHPExcel_Calculation_Functions::VALUE();`
		881	`} // function BESSELJ()`
		882
		883
		884	`private static function _Besselk0($fNum) {`
		885	`if ($fNum <= 2) {`
		886	`$fNum2 = $fNum * 0.5;`
		887	`$y = ($fNum2 * $fNum2);`
		888	`$fRet = -log($fNum2) * self::BESSELI($fNum, 0) +`
		889	`(-0.57721566 + $y * (0.42278420 + $y * (0.23069756 + $y * (0.3488590e-1 + $y * (0.262698e-2 + $y *`
		890	`(0.10750e-3 + $y * 0.74e-5))))));`
		891	`} else {`
		892	`$y = 2 / $fNum;`
		893	`$fRet = exp(-$fNum) / sqrt($fNum) *`
		894	`(1.25331414 + $y * (-0.7832358e-1 + $y * (0.2189568e-1 + $y * (-0.1062446e-1 + $y *`
		895	`(0.587872e-2 + $y * (-0.251540e-2 + $y * 0.53208e-3))))));`
		896	`}`
		897	`return $fRet;`
		898	`} // function _Besselk0()`
		899
		900
		901	`private static function _Besselk1($fNum) {`
		902	`if ($fNum <= 2) {`
		903	`$fNum2 = $fNum * 0.5;`
		904	`$y = ($fNum2 * $fNum2);`
		905	`$fRet = log($fNum2) * self::BESSELI($fNum, 1) +`
		906	`(1 + $y * (0.15443144 + $y * (-0.67278579 + $y * (-0.18156897 + $y * (-0.1919402e-1 + $y *`
		907	`(-0.110404e-2 + $y * (-0.4686e-4))))))) / $fNum;`
		908	`} else {`
		909	`$y = 2 / $fNum;`
		910	`$fRet = exp(-$fNum) / sqrt($fNum) *`
		911	`(1.25331414 + $y * (0.23498619 + $y * (-0.3655620e-1 + $y * (0.1504268e-1 + $y * (-0.780353e-2 + $y *`
		912	`(0.325614e-2 + $y * (-0.68245e-3)))))));`
		913	`}`
		914	`return $fRet;`
		915	`} // function _Besselk1()`
		916
		917
		918	`/**`
		919	`* BESSELK`
		920	`*`
		921	`* Returns the modified Bessel function Kn(x), which is equivalent to the Bessel functions evaluated`
		922	`* for purely imaginary arguments.`
		923	`*`
		924	`* Excel Function:`
		925	`* BESSELK(x,ord)`
		926	`*`
		927	`* @access public`
		928	`* @category Engineering Functions`
		929	`* @param float $x The value at which to evaluate the function.`
		930	`* If x is nonnumeric, BESSELK returns the #VALUE! error value.`
		931	`* @param integer $ord The order of the Bessel function. If n is not an integer, it is truncated.`
		932	`* If $ord is nonnumeric, BESSELK returns the #VALUE! error value.`
		933	`* If $ord < 0, BESSELK returns the #NUM! error value.`
		934	`* @return float`
		935	`*`
		936	`*/`
		937	`public static function BESSELK($x, $ord) {`
		938	`$x = (is_null($x)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		939	`$ord = (is_null($ord)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($ord);`
		940
		941	`if ((is_numeric($x)) && (is_numeric($ord))) {`
		942	`if (($ord < 0) \|\| ($x == 0.0)) {`
		943	`return PHPExcel_Calculation_Functions::NaN();`
		944	`}`
		945
		946	`switch(floor($ord)) {`
		947	`case 0 : return self::_Besselk0($x);`
		948	`break;`
		949	`case 1 : return self::_Besselk1($x);`
		950	`break;`
		951	`default : $fTox = 2 / $x;`
		952	`$fBkm = self::_Besselk0($x);`
		953	`$fBk = self::_Besselk1($x);`
		954	`for ($n = 1; $n < $ord; ++$n) {`
		955	`$fBkp = $fBkm + $n * $fTox * $fBk;`
		956	`$fBkm = $fBk;`
		957	`$fBk = $fBkp;`
		958	`}`
		959	`}`
		960	`return (is_nan($fBk)) ? PHPExcel_Calculation_Functions::NaN() : $fBk;`
		961	`}`
		962	`return PHPExcel_Calculation_Functions::VALUE();`
		963	`} // function BESSELK()`
		964
		965
		966	`private static function _Bessely0($fNum) {`
		967	`if ($fNum < 8.0) {`
		968	`$y = ($fNum * $fNum);`
		969	`$f1 = -2957821389.0 + $y * (7062834065.0 + $y * (-512359803.6 + $y * (10879881.29 + $y * (-86327.92757 + $y * 228.4622733))));`
		970	`$f2 = 40076544269.0 + $y * (745249964.8 + $y * (7189466.438 + $y * (47447.26470 + $y * (226.1030244 + $y))));`
		971	`$fRet = $f1 / $f2 + 0.636619772 * self::BESSELJ($fNum, 0) * log($fNum);`
		972	`} else {`
		973	`$z = 8.0 / $fNum;`
		974	`$y = ($z * $z);`
		975	`$xx = $fNum - 0.785398164;`
		976	`$f1 = 1 + $y * (-0.1098628627e-2 + $y * (0.2734510407e-4 + $y * (-0.2073370639e-5 + $y * 0.2093887211e-6)));`
		977	`$f2 = -0.1562499995e-1 + $y * (0.1430488765e-3 + $y * (-0.6911147651e-5 + $y * (0.7621095161e-6 + $y * (-0.934945152e-7))));`
		978	`$fRet = sqrt(0.636619772 / $fNum) * (sin($xx) * $f1 + $z * cos($xx) * $f2);`
		979	`}`
		980	`return $fRet;`
		981	`} // function _Bessely0()`
		982
		983
		984	`private static function _Bessely1($fNum) {`
		985	`if ($fNum < 8.0) {`
		986	`$y = ($fNum * $fNum);`
		987	`$f1 = $fNum * (-0.4900604943e13 + $y * (0.1275274390e13 + $y * (-0.5153438139e11 + $y * (0.7349264551e9 + $y *`
		988	`(-0.4237922726e7 + $y * 0.8511937935e4)))));`
		989	`$f2 = 0.2499580570e14 + $y * (0.4244419664e12 + $y * (0.3733650367e10 + $y * (0.2245904002e8 + $y *`
		990	`(0.1020426050e6 + $y * (0.3549632885e3 + $y)))));`
		991	`$fRet = $f1 / $f2 + 0.636619772 * ( self::BESSELJ($fNum, 1) * log($fNum) - 1 / $fNum);`
		992	`} else {`
		993	`$fRet = sqrt(0.636619772 / $fNum) * sin($fNum - 2.356194491);`
		994	`}`
		995	`return $fRet;`
		996	`} // function _Bessely1()`
		997
		998
		999	`/**`
		1000	`* BESSELY`
		1001	`*`
		1002	`* Returns the Bessel function, which is also called the Weber function or the Neumann function.`
		1003	`*`
		1004	`* Excel Function:`
		1005	`* BESSELY(x,ord)`
		1006	`*`
		1007	`* @access public`
		1008	`* @category Engineering Functions`
		1009	`* @param float $x The value at which to evaluate the function.`
		1010	`* If x is nonnumeric, BESSELK returns the #VALUE! error value.`
		1011	`* @param integer $ord The order of the Bessel function. If n is not an integer, it is truncated.`
		1012	`* If $ord is nonnumeric, BESSELK returns the #VALUE! error value.`
		1013	`* If $ord < 0, BESSELK returns the #NUM! error value.`
		1014	`*`
		1015	`* @return float`
		1016	`*/`
		1017	`public static function BESSELY($x, $ord) {`
		1018	`$x = (is_null($x)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1019	`$ord = (is_null($ord)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($ord);`
		1020
		1021	`if ((is_numeric($x)) && (is_numeric($ord))) {`
		1022	`if (($ord < 0) \|\| ($x == 0.0)) {`
		1023	`return PHPExcel_Calculation_Functions::NaN();`
		1024	`}`
		1025
		1026	`switch(floor($ord)) {`
		1027	`case 0 : return self::_Bessely0($x);`
		1028	`break;`
		1029	`case 1 : return self::_Bessely1($x);`
		1030	`break;`
		1031	`default: $fTox = 2 / $x;`
		1032	`$fBym = self::_Bessely0($x);`
		1033	`$fBy = self::_Bessely1($x);`
		1034	`for ($n = 1; $n < $ord; ++$n) {`
		1035	`$fByp = $n * $fTox * $fBy - $fBym;`
		1036	`$fBym = $fBy;`
		1037	`$fBy = $fByp;`
		1038	`}`
		1039	`}`
		1040	`return (is_nan($fBy)) ? PHPExcel_Calculation_Functions::NaN() : $fBy;`
		1041	`}`
		1042	`return PHPExcel_Calculation_Functions::VALUE();`
		1043	`} // function BESSELY()`
		1044
		1045
		1046	`/**`
		1047	`* BINTODEC`
		1048	`*`
		1049	`* Return a binary value as decimal.`
		1050	`*`
		1051	`* Excel Function:`
		1052	`* BIN2DEC(x)`
		1053	`*`
		1054	`* @access public`
		1055	`* @category Engineering Functions`
		1056	`* @param string $x The binary number (as a string) that you want to convert. The number`
		1057	`* cannot contain more than 10 characters (10 bits). The most significant`
		1058	`* bit of number is the sign bit. The remaining 9 bits are magnitude bits.`
		1059	`* Negative numbers are represented using two's-complement notation.`
		1060	`* If number is not a valid binary number, or if number contains more than`
		1061	`* 10 characters (10 bits), BIN2DEC returns the #NUM! error value.`
		1062	`* @return string`
		1063	`*/`
		1064	`public static function BINTODEC($x) {`
		1065	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1066
		1067	`if (is_bool($x)) {`
		1068	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1069	`$x = (int) $x;`
		1070	`} else {`
		1071	`return PHPExcel_Calculation_Functions::VALUE();`
		1072	`}`
		1073	`}`
		1074	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_GNUMERIC) {`
		1075	`$x = floor($x);`
		1076	`}`
		1077	`$x = (string) $x;`
		1078	`if (strlen($x) > preg_match_all('/[01]/',$x,$out)) {`
		1079	`return PHPExcel_Calculation_Functions::NaN();`
		1080	`}`
		1081	`if (strlen($x) > 10) {`
		1082	`return PHPExcel_Calculation_Functions::NaN();`
		1083	`} elseif (strlen($x) == 10) {`
		1084	`// Two's Complement`
		1085	`$x = substr($x,-9);`
		1086	`return '-'.(512-bindec($x));`
		1087	`}`
		1088	`return bindec($x);`
		1089	`} // function BINTODEC()`
		1090
		1091
		1092	`/**`
		1093	`* BINTOHEX`
		1094	`*`
		1095	`* Return a binary value as hex.`
		1096	`*`
		1097	`* Excel Function:`
		1098	`* BIN2HEX(x[,places])`
		1099	`*`
		1100	`* @access public`
		1101	`* @category Engineering Functions`
		1102	`* @param string $x The binary number (as a string) that you want to convert. The number`
		1103	`* cannot contain more than 10 characters (10 bits). The most significant`
		1104	`* bit of number is the sign bit. The remaining 9 bits are magnitude bits.`
		1105	`* Negative numbers are represented using two's-complement notation.`
		1106	`* If number is not a valid binary number, or if number contains more than`
		1107	`* 10 characters (10 bits), BIN2HEX returns the #NUM! error value.`
		1108	`* @param integer $places The number of characters to use. If places is omitted, BIN2HEX uses the`
		1109	`* minimum number of characters necessary. Places is useful for padding the`
		1110	`* return value with leading 0s (zeros).`
		1111	`* If places is not an integer, it is truncated.`
		1112	`* If places is nonnumeric, BIN2HEX returns the #VALUE! error value.`
		1113	`* If places is negative, BIN2HEX returns the #NUM! error value.`
		1114	`* @return string`
		1115	`*/`
		1116	`public static function BINTOHEX($x, $places=NULL) {`
		1117	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1118	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1119
		1120	`if (is_bool($x)) {`
		1121	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1122	`$x = (int) $x;`
		1123	`} else {`
		1124	`return PHPExcel_Calculation_Functions::VALUE();`
		1125	`}`
		1126	`}`
		1127	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_GNUMERIC) {`
		1128	`$x = floor($x);`
		1129	`}`
		1130	`$x = (string) $x;`
		1131	`if (strlen($x) > preg_match_all('/[01]/',$x,$out)) {`
		1132	`return PHPExcel_Calculation_Functions::NaN();`
		1133	`}`
		1134	`if (strlen($x) > 10) {`
		1135	`return PHPExcel_Calculation_Functions::NaN();`
		1136	`} elseif (strlen($x) == 10) {`
		1137	`// Two's Complement`
		1138	`return str_repeat('F',8).substr(strtoupper(dechex(bindec(substr($x,-9)))),-2);`
		1139	`}`
		1140	`$hexVal = (string) strtoupper(dechex(bindec($x)));`
		1141
		1142	`return self::_nbrConversionFormat($hexVal,$places);`
		1143	`} // function BINTOHEX()`
		1144
		1145
		1146	`/**`
		1147	`* BINTOOCT`
		1148	`*`
		1149	`* Return a binary value as octal.`
		1150	`*`
		1151	`* Excel Function:`
		1152	`* BIN2OCT(x[,places])`
		1153	`*`
		1154	`* @access public`
		1155	`* @category Engineering Functions`
		1156	`* @param string $x The binary number (as a string) that you want to convert. The number`
		1157	`* cannot contain more than 10 characters (10 bits). The most significant`
		1158	`* bit of number is the sign bit. The remaining 9 bits are magnitude bits.`
		1159	`* Negative numbers are represented using two's-complement notation.`
		1160	`* If number is not a valid binary number, or if number contains more than`
		1161	`* 10 characters (10 bits), BIN2OCT returns the #NUM! error value.`
		1162	`* @param integer $places The number of characters to use. If places is omitted, BIN2OCT uses the`
		1163	`* minimum number of characters necessary. Places is useful for padding the`
		1164	`* return value with leading 0s (zeros).`
		1165	`* If places is not an integer, it is truncated.`
		1166	`* If places is nonnumeric, BIN2OCT returns the #VALUE! error value.`
		1167	`* If places is negative, BIN2OCT returns the #NUM! error value.`
		1168	`* @return string`
		1169	`*/`
		1170	`public static function BINTOOCT($x, $places=NULL) {`
		1171	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1172	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1173
		1174	`if (is_bool($x)) {`
		1175	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1176	`$x = (int) $x;`
		1177	`} else {`
		1178	`return PHPExcel_Calculation_Functions::VALUE();`
		1179	`}`
		1180	`}`
		1181	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_GNUMERIC) {`
		1182	`$x = floor($x);`
		1183	`}`
		1184	`$x = (string) $x;`
		1185	`if (strlen($x) > preg_match_all('/[01]/',$x,$out)) {`
		1186	`return PHPExcel_Calculation_Functions::NaN();`
		1187	`}`
		1188	`if (strlen($x) > 10) {`
		1189	`return PHPExcel_Calculation_Functions::NaN();`
		1190	`} elseif (strlen($x) == 10) {`
		1191	`// Two's Complement`
		1192	`return str_repeat('7',7).substr(strtoupper(decoct(bindec(substr($x,-9)))),-3);`
		1193	`}`
		1194	`$octVal = (string) decoct(bindec($x));`
		1195
		1196	`return self::_nbrConversionFormat($octVal,$places);`
		1197	`} // function BINTOOCT()`
		1198
		1199
		1200	`/**`
		1201	`* DECTOBIN`
		1202	`*`
		1203	`* Return a decimal value as binary.`
		1204	`*`
		1205	`* Excel Function:`
		1206	`* DEC2BIN(x[,places])`
		1207	`*`
		1208	`* @access public`
		1209	`* @category Engineering Functions`
		1210	`* @param string $x The decimal integer you want to convert. If number is negative,`
		1211	`* valid place values are ignored and DEC2BIN returns a 10-character`
		1212	`* (10-bit) binary number in which the most significant bit is the sign`
		1213	`* bit. The remaining 9 bits are magnitude bits. Negative numbers are`
		1214	`* represented using two's-complement notation.`
		1215	`* If number < -512 or if number > 511, DEC2BIN returns the #NUM! error`
		1216	`* value.`
		1217	`* If number is nonnumeric, DEC2BIN returns the #VALUE! error value.`
		1218	`* If DEC2BIN requires more than places characters, it returns the #NUM!`
		1219	`* error value.`
		1220	`* @param integer $places The number of characters to use. If places is omitted, DEC2BIN uses`
		1221	`* the minimum number of characters necessary. Places is useful for`
		1222	`* padding the return value with leading 0s (zeros).`
		1223	`* If places is not an integer, it is truncated.`
		1224	`* If places is nonnumeric, DEC2BIN returns the #VALUE! error value.`
		1225	`* If places is zero or negative, DEC2BIN returns the #NUM! error value.`
		1226	`* @return string`
		1227	`*/`
		1228	`public static function DECTOBIN($x, $places=NULL) {`
		1229	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1230	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1231
		1232	`if (is_bool($x)) {`
		1233	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1234	`$x = (int) $x;`
		1235	`} else {`
		1236	`return PHPExcel_Calculation_Functions::VALUE();`
		1237	`}`
		1238	`}`
		1239	`$x = (string) $x;`
		1240	`if (strlen($x) > preg_match_all('/[-0123456789.]/',$x,$out)) {`
		1241	`return PHPExcel_Calculation_Functions::VALUE();`
		1242	`}`
		1243	`$x = (string) floor($x);`
		1244	`$r = decbin($x);`
		1245	`if (strlen($r) == 32) {`
		1246	`// Two's Complement`
		1247	`$r = substr($r,-10);`
		1248	`} elseif (strlen($r) > 11) {`
		1249	`return PHPExcel_Calculation_Functions::NaN();`
		1250	`}`
		1251
		1252	`return self::_nbrConversionFormat($r,$places);`
		1253	`} // function DECTOBIN()`
		1254
		1255
		1256	`/**`
		1257	`* DECTOHEX`
		1258	`*`
		1259	`* Return a decimal value as hex.`
		1260	`*`
		1261	`* Excel Function:`
		1262	`* DEC2HEX(x[,places])`
		1263	`*`
		1264	`* @access public`
		1265	`* @category Engineering Functions`
		1266	`* @param string $x The decimal integer you want to convert. If number is negative,`
		1267	`* places is ignored and DEC2HEX returns a 10-character (40-bit)`
		1268	`* hexadecimal number in which the most significant bit is the sign`
		1269	`* bit. The remaining 39 bits are magnitude bits. Negative numbers`
		1270	`* are represented using two's-complement notation.`
		1271	`* If number < -549,755,813,888 or if number > 549,755,813,887,`
		1272	`* DEC2HEX returns the #NUM! error value.`
		1273	`* If number is nonnumeric, DEC2HEX returns the #VALUE! error value.`
		1274	`* If DEC2HEX requires more than places characters, it returns the`
		1275	`* #NUM! error value.`
		1276	`* @param integer $places The number of characters to use. If places is omitted, DEC2HEX uses`
		1277	`* the minimum number of characters necessary. Places is useful for`
		1278	`* padding the return value with leading 0s (zeros).`
		1279	`* If places is not an integer, it is truncated.`
		1280	`* If places is nonnumeric, DEC2HEX returns the #VALUE! error value.`
		1281	`* If places is zero or negative, DEC2HEX returns the #NUM! error value.`
		1282	`* @return string`
		1283	`*/`
		1284	`public static function DECTOHEX($x, $places=null) {`
		1285	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1286	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1287
		1288	`if (is_bool($x)) {`
		1289	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1290	`$x = (int) $x;`
		1291	`} else {`
		1292	`return PHPExcel_Calculation_Functions::VALUE();`
		1293	`}`
		1294	`}`
		1295	`$x = (string) $x;`
		1296	`if (strlen($x) > preg_match_all('/[-0123456789.]/',$x,$out)) {`
		1297	`return PHPExcel_Calculation_Functions::VALUE();`
		1298	`}`
		1299	`$x = (string) floor($x);`
		1300	`$r = strtoupper(dechex($x));`
		1301	`if (strlen($r) == 8) {`
		1302	`// Two's Complement`
		1303	`$r = 'FF'.$r;`
		1304	`}`
		1305
		1306	`return self::_nbrConversionFormat($r,$places);`
		1307	`} // function DECTOHEX()`
		1308
		1309
		1310	`/**`
		1311	`* DECTOOCT`
		1312	`*`
		1313	`* Return an decimal value as octal.`
		1314	`*`
		1315	`* Excel Function:`
		1316	`* DEC2OCT(x[,places])`
		1317	`*`
		1318	`* @access public`
		1319	`* @category Engineering Functions`
		1320	`* @param string $x The decimal integer you want to convert. If number is negative,`
		1321	`* places is ignored and DEC2OCT returns a 10-character (30-bit)`
		1322	`* octal number in which the most significant bit is the sign bit.`
		1323	`* The remaining 29 bits are magnitude bits. Negative numbers are`
		1324	`* represented using two's-complement notation.`
		1325	`* If number < -536,870,912 or if number > 536,870,911, DEC2OCT`
		1326	`* returns the #NUM! error value.`
		1327	`* If number is nonnumeric, DEC2OCT returns the #VALUE! error value.`
		1328	`* If DEC2OCT requires more than places characters, it returns the`
		1329	`* #NUM! error value.`
		1330	`* @param integer $places The number of characters to use. If places is omitted, DEC2OCT uses`
		1331	`* the minimum number of characters necessary. Places is useful for`
		1332	`* padding the return value with leading 0s (zeros).`
		1333	`* If places is not an integer, it is truncated.`
		1334	`* If places is nonnumeric, DEC2OCT returns the #VALUE! error value.`
		1335	`* If places is zero or negative, DEC2OCT returns the #NUM! error value.`
		1336	`* @return string`
		1337	`*/`
		1338	`public static function DECTOOCT($x, $places=null) {`
		1339	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1340	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1341
		1342	`if (is_bool($x)) {`
		1343	`if (PHPExcel_Calculation_Functions::getCompatibilityMode() == PHPExcel_Calculation_Functions::COMPATIBILITY_OPENOFFICE) {`
		1344	`$x = (int) $x;`
		1345	`} else {`
		1346	`return PHPExcel_Calculation_Functions::VALUE();`
		1347	`}`
		1348	`}`
		1349	`$x = (string) $x;`
		1350	`if (strlen($x) > preg_match_all('/[-0123456789.]/',$x,$out)) {`
		1351	`return PHPExcel_Calculation_Functions::VALUE();`
		1352	`}`
		1353	`$x = (string) floor($x);`
		1354	`$r = decoct($x);`
		1355	`if (strlen($r) == 11) {`
		1356	`// Two's Complement`
		1357	`$r = substr($r,-10);`
		1358	`}`
		1359
		1360	`return self::_nbrConversionFormat($r,$places);`
		1361	`} // function DECTOOCT()`
		1362
		1363
		1364	`/**`
		1365	`* HEXTOBIN`
		1366	`*`
		1367	`* Return a hex value as binary.`
		1368	`*`
		1369	`* Excel Function:`
		1370	`* HEX2BIN(x[,places])`
		1371	`*`
		1372	`* @access public`
		1373	`* @category Engineering Functions`
		1374	`* @param string $x the hexadecimal number you want to convert. Number cannot`
		1375	`* contain more than 10 characters. The most significant bit of`
		1376	`* number is the sign bit (40th bit from the right). The remaining`
		1377	`* 9 bits are magnitude bits. Negative numbers are represented`
		1378	`* using two's-complement notation.`
		1379	`* If number is negative, HEX2BIN ignores places and returns a`
		1380	`* 10-character binary number.`
		1381	`* If number is negative, it cannot be less than FFFFFFFE00, and`
		1382	`* if number is positive, it cannot be greater than 1FF.`
		1383	`* If number is not a valid hexadecimal number, HEX2BIN returns`
		1384	`* the #NUM! error value.`
		1385	`* If HEX2BIN requires more than places characters, it returns`
		1386	`* the #NUM! error value.`
		1387	`* @param integer $places The number of characters to use. If places is omitted,`
		1388	`* HEX2BIN uses the minimum number of characters necessary. Places`
		1389	`* is useful for padding the return value with leading 0s (zeros).`
		1390	`* If places is not an integer, it is truncated.`
		1391	`* If places is nonnumeric, HEX2BIN returns the #VALUE! error value.`
		1392	`* If places is negative, HEX2BIN returns the #NUM! error value.`
		1393	`* @return string`
		1394	`*/`
		1395	`public static function HEXTOBIN($x, $places=null) {`
		1396	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1397	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1398
		1399	`if (is_bool($x)) {`
		1400	`return PHPExcel_Calculation_Functions::VALUE();`
		1401	`}`
		1402	`$x = (string) $x;`
		1403	`if (strlen($x) > preg_match_all('/[0123456789ABCDEF]/',strtoupper($x),$out)) {`
		1404	`return PHPExcel_Calculation_Functions::NaN();`
		1405	`}`
		1406	`$binVal = decbin(hexdec($x));`
		1407
		1408	`return substr(self::_nbrConversionFormat($binVal,$places),-10);`
		1409	`} // function HEXTOBIN()`
		1410
		1411
		1412	`/**`
		1413	`* HEXTODEC`
		1414	`*`
		1415	`* Return a hex value as decimal.`
		1416	`*`
		1417	`* Excel Function:`
		1418	`* HEX2DEC(x)`
		1419	`*`
		1420	`* @access public`
		1421	`* @category Engineering Functions`
		1422	`* @param string $x The hexadecimal number you want to convert. This number cannot`
		1423	`* contain more than 10 characters (40 bits). The most significant`
		1424	`* bit of number is the sign bit. The remaining 39 bits are magnitude`
		1425	`* bits. Negative numbers are represented using two's-complement`
		1426	`* notation.`
		1427	`* If number is not a valid hexadecimal number, HEX2DEC returns the`
		1428	`* #NUM! error value.`
		1429	`* @return string`
		1430	`*/`
		1431	`public static function HEXTODEC($x) {`
		1432	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1433
		1434	`if (is_bool($x)) {`
		1435	`return PHPExcel_Calculation_Functions::VALUE();`
		1436	`}`
		1437	`$x = (string) $x;`
		1438	`if (strlen($x) > preg_match_all('/[0123456789ABCDEF]/',strtoupper($x),$out)) {`
		1439	`return PHPExcel_Calculation_Functions::NaN();`
		1440	`}`
		1441	`return hexdec($x);`
		1442	`} // function HEXTODEC()`
		1443
		1444
		1445	`/**`
		1446	`* HEXTOOCT`
		1447	`*`
		1448	`* Return a hex value as octal.`
		1449	`*`
		1450	`* Excel Function:`
		1451	`* HEX2OCT(x[,places])`
		1452	`*`
		1453	`* @access public`
		1454	`* @category Engineering Functions`
		1455	`* @param string $x The hexadecimal number you want to convert. Number cannot`
		1456	`* contain more than 10 characters. The most significant bit of`
		1457	`* number is the sign bit. The remaining 39 bits are magnitude`
		1458	`* bits. Negative numbers are represented using two's-complement`
		1459	`* notation.`
		1460	`* If number is negative, HEX2OCT ignores places and returns a`
		1461	`* 10-character octal number.`
		1462	`* If number is negative, it cannot be less than FFE0000000, and`
		1463	`* if number is positive, it cannot be greater than 1FFFFFFF.`
		1464	`* If number is not a valid hexadecimal number, HEX2OCT returns`
		1465	`* the #NUM! error value.`
		1466	`* If HEX2OCT requires more than places characters, it returns`
		1467	`* the #NUM! error value.`
		1468	`* @param integer $places The number of characters to use. If places is omitted, HEX2OCT`
		1469	`* uses the minimum number of characters necessary. Places is`
		1470	`* useful for padding the return value with leading 0s (zeros).`
		1471	`* If places is not an integer, it is truncated.`
		1472	`* If places is nonnumeric, HEX2OCT returns the #VALUE! error`
		1473	`* value.`
		1474	`* If places is negative, HEX2OCT returns the #NUM! error value.`
		1475	`* @return string`
		1476	`*/`
		1477	`public static function HEXTOOCT($x, $places=null) {`
		1478	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1479	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1480
		1481	`if (is_bool($x)) {`
		1482	`return PHPExcel_Calculation_Functions::VALUE();`
		1483	`}`
		1484	`$x = (string) $x;`
		1485	`if (strlen($x) > preg_match_all('/[0123456789ABCDEF]/',strtoupper($x),$out)) {`
		1486	`return PHPExcel_Calculation_Functions::NaN();`
		1487	`}`
		1488	`$octVal = decoct(hexdec($x));`
		1489
		1490	`return self::_nbrConversionFormat($octVal,$places);`
		1491	`} // function HEXTOOCT()`
		1492
		1493
		1494	`/**`
		1495	`* OCTTOBIN`
		1496	`*`
		1497	`* Return an octal value as binary.`
		1498	`*`
		1499	`* Excel Function:`
		1500	`* OCT2BIN(x[,places])`
		1501	`*`
		1502	`* @access public`
		1503	`* @category Engineering Functions`
		1504	`* @param string $x The octal number you want to convert. Number may not`
		1505	`* contain more than 10 characters. The most significant`
		1506	`* bit of number is the sign bit. The remaining 29 bits`
		1507	`* are magnitude bits. Negative numbers are represented`
		1508	`* using two's-complement notation.`
		1509	`* If number is negative, OCT2BIN ignores places and returns`
		1510	`* a 10-character binary number.`
		1511	`* If number is negative, it cannot be less than 7777777000,`
		1512	`* and if number is positive, it cannot be greater than 777.`
		1513	`* If number is not a valid octal number, OCT2BIN returns`
		1514	`* the #NUM! error value.`
		1515	`* If OCT2BIN requires more than places characters, it`
		1516	`* returns the #NUM! error value.`
		1517	`* @param integer $places The number of characters to use. If places is omitted,`
		1518	`* OCT2BIN uses the minimum number of characters necessary.`
		1519	`* Places is useful for padding the return value with`
		1520	`* leading 0s (zeros).`
		1521	`* If places is not an integer, it is truncated.`
		1522	`* If places is nonnumeric, OCT2BIN returns the #VALUE!`
		1523	`* error value.`
		1524	`* If places is negative, OCT2BIN returns the #NUM! error`
		1525	`* value.`
		1526	`* @return string`
		1527	`*/`
		1528	`public static function OCTTOBIN($x, $places=null) {`
		1529	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1530	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1531
		1532	`if (is_bool($x)) {`
		1533	`return PHPExcel_Calculation_Functions::VALUE();`
		1534	`}`
		1535	`$x = (string) $x;`
		1536	`if (preg_match_all('/[01234567]/',$x,$out) != strlen($x)) {`
		1537	`return PHPExcel_Calculation_Functions::NaN();`
		1538	`}`
		1539	`$r = decbin(octdec($x));`
		1540
		1541	`return self::_nbrConversionFormat($r,$places);`
		1542	`} // function OCTTOBIN()`
		1543
		1544
		1545	`/**`
		1546	`* OCTTODEC`
		1547	`*`
		1548	`* Return an octal value as decimal.`
		1549	`*`
		1550	`* Excel Function:`
		1551	`* OCT2DEC(x)`
		1552	`*`
		1553	`* @access public`
		1554	`* @category Engineering Functions`
		1555	`* @param string $x The octal number you want to convert. Number may not contain`
		1556	`* more than 10 octal characters (30 bits). The most significant`
		1557	`* bit of number is the sign bit. The remaining 29 bits are`
		1558	`* magnitude bits. Negative numbers are represented using`
		1559	`* two's-complement notation.`
		1560	`* If number is not a valid octal number, OCT2DEC returns the`
		1561	`* #NUM! error value.`
		1562	`* @return string`
		1563	`*/`
		1564	`public static function OCTTODEC($x) {`
		1565	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1566
		1567	`if (is_bool($x)) {`
		1568	`return PHPExcel_Calculation_Functions::VALUE();`
		1569	`}`
		1570	`$x = (string) $x;`
		1571	`if (preg_match_all('/[01234567]/',$x,$out) != strlen($x)) {`
		1572	`return PHPExcel_Calculation_Functions::NaN();`
		1573	`}`
		1574	`return octdec($x);`
		1575	`} // function OCTTODEC()`
		1576
		1577
		1578	`/**`
		1579	`* OCTTOHEX`
		1580	`*`
		1581	`* Return an octal value as hex.`
		1582	`*`
		1583	`* Excel Function:`
		1584	`* OCT2HEX(x[,places])`
		1585	`*`
		1586	`* @access public`
		1587	`* @category Engineering Functions`
		1588	`* @param string $x The octal number you want to convert. Number may not contain`
		1589	`* more than 10 octal characters (30 bits). The most significant`
		1590	`* bit of number is the sign bit. The remaining 29 bits are`
		1591	`* magnitude bits. Negative numbers are represented using`
		1592	`* two's-complement notation.`
		1593	`* If number is negative, OCT2HEX ignores places and returns a`
		1594	`* 10-character hexadecimal number.`
		1595	`* If number is not a valid octal number, OCT2HEX returns the`
		1596	`* #NUM! error value.`
		1597	`* If OCT2HEX requires more than places characters, it returns`
		1598	`* the #NUM! error value.`
		1599	`* @param integer $places The number of characters to use. If places is omitted, OCT2HEX`
		1600	`* uses the minimum number of characters necessary. Places is useful`
		1601	`* for padding the return value with leading 0s (zeros).`
		1602	`* If places is not an integer, it is truncated.`
		1603	`* If places is nonnumeric, OCT2HEX returns the #VALUE! error value.`
		1604	`* If places is negative, OCT2HEX returns the #NUM! error value.`
		1605	`* @return string`
		1606	`*/`
		1607	`public static function OCTTOHEX($x, $places=null) {`
		1608	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		1609	`$places = PHPExcel_Calculation_Functions::flattenSingleValue($places);`
		1610
		1611	`if (is_bool($x)) {`
		1612	`return PHPExcel_Calculation_Functions::VALUE();`
		1613	`}`
		1614	`$x = (string) $x;`
		1615	`if (preg_match_all('/[01234567]/',$x,$out) != strlen($x)) {`
		1616	`return PHPExcel_Calculation_Functions::NaN();`
		1617	`}`
		1618	`$hexVal = strtoupper(dechex(octdec($x)));`
		1619
		1620	`return self::_nbrConversionFormat($hexVal,$places);`
		1621	`} // function OCTTOHEX()`
		1622
		1623
		1624	`/**`
		1625	`* COMPLEX`
		1626	`*`
		1627	`* Converts real and imaginary coefficients into a complex number of the form x + yi or x + yj.`
		1628	`*`
		1629	`* Excel Function:`
		1630	`* COMPLEX(realNumber,imaginary[,places])`
		1631	`*`
		1632	`* @access public`
		1633	`* @category Engineering Functions`
		1634	`* @param float $realNumber The real coefficient of the complex number.`
		1635	`* @param float $imaginary The imaginary coefficient of the complex number.`
		1636	`* @param string $suffix The suffix for the imaginary component of the complex number.`
		1637	`* If omitted, the suffix is assumed to be "i".`
		1638	`* @return string`
		1639	`*/`
		1640	`public static function COMPLEX($realNumber=0.0, $imaginary=0.0, $suffix='i') {`
		1641	`$realNumber = (is_null($realNumber)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($realNumber);`
		1642	`$imaginary = (is_null($imaginary)) ? 0.0 : PHPExcel_Calculation_Functions::flattenSingleValue($imaginary);`
		1643	`$suffix = (is_null($suffix)) ? 'i' : PHPExcel_Calculation_Functions::flattenSingleValue($suffix);`
		1644
		1645	`if (((is_numeric($realNumber)) && (is_numeric($imaginary))) &&`
		1646	`(($suffix == 'i') \|\| ($suffix == 'j') \|\| ($suffix == ''))) {`
		1647	`$realNumber = (float) $realNumber;`
		1648	`$imaginary = (float) $imaginary;`
		1649
		1650	`if ($suffix == '') $suffix = 'i';`
		1651	`if ($realNumber == 0.0) {`
		1652	`if ($imaginary == 0.0) {`
		1653	`return (string) '0';`
		1654	`} elseif ($imaginary == 1.0) {`
		1655	`return (string) $suffix;`
		1656	`} elseif ($imaginary == -1.0) {`
		1657	`return (string) '-'.$suffix;`
		1658	`}`
		1659	`return (string) $imaginary.$suffix;`
		1660	`} elseif ($imaginary == 0.0) {`
		1661	`return (string) $realNumber;`
		1662	`} elseif ($imaginary == 1.0) {`
		1663	`return (string) $realNumber.'+'.$suffix;`
		1664	`} elseif ($imaginary == -1.0) {`
		1665	`return (string) $realNumber.'-'.$suffix;`
		1666	`}`
		1667	`if ($imaginary > 0) { $imaginary = (string) '+'.$imaginary; }`
		1668	`return (string) $realNumber.$imaginary.$suffix;`
		1669	`}`
		1670
		1671	`return PHPExcel_Calculation_Functions::VALUE();`
		1672	`} // function COMPLEX()`
		1673
		1674
		1675	`/**`
		1676	`* IMAGINARY`
		1677	`*`
		1678	`* Returns the imaginary coefficient of a complex number in x + yi or x + yj text format.`
		1679	`*`
		1680	`* Excel Function:`
		1681	`* IMAGINARY(complexNumber)`
		1682	`*`
		1683	`* @access public`
		1684	`* @category Engineering Functions`
		1685	`* @param string $complexNumber The complex number for which you want the imaginary`
		1686	`* coefficient.`
		1687	`* @return float`
		1688	`*/`
		1689	`public static function IMAGINARY($complexNumber) {`
		1690	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1691
		1692	`$parsedComplex = self::_parseComplex($complexNumber);`
		1693	`return $parsedComplex['imaginary'];`
		1694	`} // function IMAGINARY()`
		1695
		1696
		1697	`/**`
		1698	`* IMREAL`
		1699	`*`
		1700	`* Returns the real coefficient of a complex number in x + yi or x + yj text format.`
		1701	`*`
		1702	`* Excel Function:`
		1703	`* IMREAL(complexNumber)`
		1704	`*`
		1705	`* @access public`
		1706	`* @category Engineering Functions`
		1707	`* @param string $complexNumber The complex number for which you want the real coefficient.`
		1708	`* @return float`
		1709	`*/`
		1710	`public static function IMREAL($complexNumber) {`
		1711	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1712
		1713	`$parsedComplex = self::_parseComplex($complexNumber);`
		1714	`return $parsedComplex['real'];`
		1715	`} // function IMREAL()`
		1716
		1717
		1718	`/**`
		1719	`* IMABS`
		1720	`*`
		1721	`* Returns the absolute value (modulus) of a complex number in x + yi or x + yj text format.`
		1722	`*`
		1723	`* Excel Function:`
		1724	`* IMABS(complexNumber)`
		1725	`*`
		1726	`* @param string $complexNumber The complex number for which you want the absolute value.`
		1727	`* @return float`
		1728	`*/`
		1729	`public static function IMABS($complexNumber) {`
		1730	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1731
		1732	`$parsedComplex = self::_parseComplex($complexNumber);`
		1733
		1734	`return sqrt(($parsedComplex['real'] * $parsedComplex['real']) + ($parsedComplex['imaginary'] * $parsedComplex['imaginary']));`
		1735	`} // function IMABS()`
		1736
		1737
		1738	`/**`
		1739	`* IMARGUMENT`
		1740	`*`
		1741	`* Returns the argument theta of a complex number, i.e. the angle in radians from the real`
		1742	`* axis to the representation of the number in polar coordinates.`
		1743	`*`
		1744	`* Excel Function:`
		1745	`* IMARGUMENT(complexNumber)`
		1746	`*`
		1747	`* @param string $complexNumber The complex number for which you want the argument theta.`
		1748	`* @return float`
		1749	`*/`
		1750	`public static function IMARGUMENT($complexNumber) {`
		1751	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1752
		1753	`$parsedComplex = self::_parseComplex($complexNumber);`
		1754
		1755	`if ($parsedComplex['real'] == 0.0) {`
		1756	`if ($parsedComplex['imaginary'] == 0.0) {`
		1757	`return 0.0;`
		1758	`} elseif($parsedComplex['imaginary'] < 0.0) {`
		1759	`return M_PI / -2;`
		1760	`} else {`
		1761	`return M_PI / 2;`
		1762	`}`
		1763	`} elseif ($parsedComplex['real'] > 0.0) {`
		1764	`return atan($parsedComplex['imaginary'] / $parsedComplex['real']);`
		1765	`} elseif ($parsedComplex['imaginary'] < 0.0) {`
		1766	`return 0 - (M_PI - atan(abs($parsedComplex['imaginary']) / abs($parsedComplex['real'])));`
		1767	`} else {`
		1768	`return M_PI - atan($parsedComplex['imaginary'] / abs($parsedComplex['real']));`
		1769	`}`
		1770	`} // function IMARGUMENT()`
		1771
		1772
		1773	`/**`
		1774	`* IMCONJUGATE`
		1775	`*`
		1776	`* Returns the complex conjugate of a complex number in x + yi or x + yj text format.`
		1777	`*`
		1778	`* Excel Function:`
		1779	`* IMCONJUGATE(complexNumber)`
		1780	`*`
		1781	`* @param string $complexNumber The complex number for which you want the conjugate.`
		1782	`* @return string`
		1783	`*/`
		1784	`public static function IMCONJUGATE($complexNumber) {`
		1785	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1786
		1787	`$parsedComplex = self::_parseComplex($complexNumber);`
		1788
		1789	`if ($parsedComplex['imaginary'] == 0.0) {`
		1790	`return $parsedComplex['real'];`
		1791	`} else {`
		1792	`return self::_cleanComplex( self::COMPLEX( $parsedComplex['real'],`
		1793
		1794	`$parsedComplex['suffix']`
		1795	`)`
		1796	`);`
		1797	`}`
		1798	`} // function IMCONJUGATE()`
		1799
		1800
		1801	`/**`
		1802	`* IMCOS`
		1803	`*`
		1804	`* Returns the cosine of a complex number in x + yi or x + yj text format.`
		1805	`*`
		1806	`* Excel Function:`
		1807	`* IMCOS(complexNumber)`
		1808	`*`
		1809	`* @param string $complexNumber The complex number for which you want the cosine.`
		1810	`* @return string\|float`
		1811	`*/`
		1812	`public static function IMCOS($complexNumber) {`
		1813	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1814
		1815	`$parsedComplex = self::_parseComplex($complexNumber);`
		1816
		1817	`if ($parsedComplex['imaginary'] == 0.0) {`
		1818	`return cos($parsedComplex['real']);`
		1819	`} else {`
		1820	`return self::IMCONJUGATE(self::COMPLEX(cos($parsedComplex['real']) * cosh($parsedComplex['imaginary']),sin($parsedComplex['real']) * sinh($parsedComplex['imaginary']),$parsedComplex['suffix']));`
		1821	`}`
		1822	`} // function IMCOS()`
		1823
		1824
		1825	`/**`
		1826	`* IMSIN`
		1827	`*`
		1828	`* Returns the sine of a complex number in x + yi or x + yj text format.`
		1829	`*`
		1830	`* Excel Function:`
		1831	`* IMSIN(complexNumber)`
		1832	`*`
		1833	`* @param string $complexNumber The complex number for which you want the sine.`
		1834	`* @return string\|float`
		1835	`*/`
		1836	`public static function IMSIN($complexNumber) {`
		1837	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1838
		1839	`$parsedComplex = self::_parseComplex($complexNumber);`
		1840
		1841	`if ($parsedComplex['imaginary'] == 0.0) {`
		1842	`return sin($parsedComplex['real']);`
		1843	`} else {`
		1844	`return self::COMPLEX(sin($parsedComplex['real']) * cosh($parsedComplex['imaginary']),cos($parsedComplex['real']) * sinh($parsedComplex['imaginary']),$parsedComplex['suffix']);`
		1845	`}`
		1846	`} // function IMSIN()`
		1847
		1848
		1849	`/**`
		1850	`* IMSQRT`
		1851	`*`
		1852	`* Returns the square root of a complex number in x + yi or x + yj text format.`
		1853	`*`
		1854	`* Excel Function:`
		1855	`* IMSQRT(complexNumber)`
		1856	`*`
		1857	`* @param string $complexNumber The complex number for which you want the square root.`
		1858	`* @return string`
		1859	`*/`
		1860	`public static function IMSQRT($complexNumber) {`
		1861	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1862
		1863	`$parsedComplex = self::_parseComplex($complexNumber);`
		1864
		1865	`$theta = self::IMARGUMENT($complexNumber);`
		1866	`$d1 = cos($theta / 2);`
		1867	`$d2 = sin($theta / 2);`
		1868	`$r = sqrt(sqrt(($parsedComplex['real'] * $parsedComplex['real']) + ($parsedComplex['imaginary'] * $parsedComplex['imaginary'])));`
		1869
		1870	`if ($parsedComplex['suffix'] == '') {`
		1871	`return self::COMPLEX($d1 * $r,$d2 * $r);`
		1872	`} else {`
		1873	`return self::COMPLEX($d1 * $r,$d2 * $r,$parsedComplex['suffix']);`
		1874	`}`
		1875	`} // function IMSQRT()`
		1876
		1877
		1878	`/**`
		1879	`* IMLN`
		1880	`*`
		1881	`* Returns the natural logarithm of a complex number in x + yi or x + yj text format.`
		1882	`*`
		1883	`* Excel Function:`
		1884	`* IMLN(complexNumber)`
		1885	`*`
		1886	`* @param string $complexNumber The complex number for which you want the natural logarithm.`
		1887	`* @return string`
		1888	`*/`
		1889	`public static function IMLN($complexNumber) {`
		1890	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1891
		1892	`$parsedComplex = self::_parseComplex($complexNumber);`
		1893
		1894	`if (($parsedComplex['real'] == 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1895	`return PHPExcel_Calculation_Functions::NaN();`
		1896	`}`
		1897
		1898	`$logR = log(sqrt(($parsedComplex['real'] * $parsedComplex['real']) + ($parsedComplex['imaginary'] * $parsedComplex['imaginary'])));`
		1899	`$t = self::IMARGUMENT($complexNumber);`
		1900
		1901	`if ($parsedComplex['suffix'] == '') {`
		1902	`return self::COMPLEX($logR,$t);`
		1903	`} else {`
		1904	`return self::COMPLEX($logR,$t,$parsedComplex['suffix']);`
		1905	`}`
		1906	`} // function IMLN()`
		1907
		1908
		1909	`/**`
		1910	`* IMLOG10`
		1911	`*`
		1912	`* Returns the common logarithm (base 10) of a complex number in x + yi or x + yj text format.`
		1913	`*`
		1914	`* Excel Function:`
		1915	`* IMLOG10(complexNumber)`
		1916	`*`
		1917	`* @param string $complexNumber The complex number for which you want the common logarithm.`
		1918	`* @return string`
		1919	`*/`
		1920	`public static function IMLOG10($complexNumber) {`
		1921	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1922
		1923	`$parsedComplex = self::_parseComplex($complexNumber);`
		1924
		1925	`if (($parsedComplex['real'] == 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1926	`return PHPExcel_Calculation_Functions::NaN();`
		1927	`} elseif (($parsedComplex['real'] > 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1928	`return log10($parsedComplex['real']);`
		1929	`}`
		1930
		1931	`return self::IMPRODUCT(log10(EULER),self::IMLN($complexNumber));`
		1932	`} // function IMLOG10()`
		1933
		1934
		1935	`/**`
		1936	`* IMLOG2`
		1937	`*`
		1938	`* Returns the base-2 logarithm of a complex number in x + yi or x + yj text format.`
		1939	`*`
		1940	`* Excel Function:`
		1941	`* IMLOG2(complexNumber)`
		1942	`*`
		1943	`* @param string $complexNumber The complex number for which you want the base-2 logarithm.`
		1944	`* @return string`
		1945	`*/`
		1946	`public static function IMLOG2($complexNumber) {`
		1947	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1948
		1949	`$parsedComplex = self::_parseComplex($complexNumber);`
		1950
		1951	`if (($parsedComplex['real'] == 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1952	`return PHPExcel_Calculation_Functions::NaN();`
		1953	`} elseif (($parsedComplex['real'] > 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1954	`return log($parsedComplex['real'],2);`
		1955	`}`
		1956
		1957	`return self::IMPRODUCT(log(EULER,2),self::IMLN($complexNumber));`
		1958	`} // function IMLOG2()`
		1959
		1960
		1961	`/**`
		1962	`* IMEXP`
		1963	`*`
		1964	`* Returns the exponential of a complex number in x + yi or x + yj text format.`
		1965	`*`
		1966	`* Excel Function:`
		1967	`* IMEXP(complexNumber)`
		1968	`*`
		1969	`* @param string $complexNumber The complex number for which you want the exponential.`
		1970	`* @return string`
		1971	`*/`
		1972	`public static function IMEXP($complexNumber) {`
		1973	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		1974
		1975	`$parsedComplex = self::_parseComplex($complexNumber);`
		1976
		1977	`if (($parsedComplex['real'] == 0.0) && ($parsedComplex['imaginary'] == 0.0)) {`
		1978	`return '1';`
		1979	`}`
		1980
		1981	`$e = exp($parsedComplex['real']);`
		1982	`$eX = $e * cos($parsedComplex['imaginary']);`
		1983	`$eY = $e * sin($parsedComplex['imaginary']);`
		1984
		1985	`if ($parsedComplex['suffix'] == '') {`
		1986	`return self::COMPLEX($eX,$eY);`
		1987	`} else {`
		1988	`return self::COMPLEX($eX,$eY,$parsedComplex['suffix']);`
		1989	`}`
		1990	`} // function IMEXP()`
		1991
		1992
		1993	`/**`
		1994	`* IMPOWER`
		1995	`*`
		1996	`* Returns a complex number in x + yi or x + yj text format raised to a power.`
		1997	`*`
		1998	`* Excel Function:`
		1999	`* IMPOWER(complexNumber,realNumber)`
		2000	`*`
		2001	`* @param string $complexNumber The complex number you want to raise to a power.`
		2002	`* @param float $realNumber The power to which you want to raise the complex number.`
		2003	`* @return string`
		2004	`*/`
		2005	`public static function IMPOWER($complexNumber,$realNumber) {`
		2006	`$complexNumber = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber);`
		2007	`$realNumber = PHPExcel_Calculation_Functions::flattenSingleValue($realNumber);`
		2008
		2009	`if (!is_numeric($realNumber)) {`
		2010	`return PHPExcel_Calculation_Functions::VALUE();`
		2011	`}`
		2012
		2013	`$parsedComplex = self::_parseComplex($complexNumber);`
		2014
		2015	`$r = sqrt(($parsedComplex['real'] * $parsedComplex['real']) + ($parsedComplex['imaginary'] * $parsedComplex['imaginary']));`
		2016	`$rPower = pow($r,$realNumber);`
		2017	`$theta = self::IMARGUMENT($complexNumber) * $realNumber;`
		2018	`if ($theta == 0) {`
		2019	`return 1;`
		2020	`} elseif ($parsedComplex['imaginary'] == 0.0) {`
		2021	`return self::COMPLEX($rPower * cos($theta),$rPower * sin($theta),$parsedComplex['suffix']);`
		2022	`} else {`
		2023	`return self::COMPLEX($rPower * cos($theta),$rPower * sin($theta),$parsedComplex['suffix']);`
		2024	`}`
		2025	`} // function IMPOWER()`
		2026
		2027
		2028	`/**`
		2029	`* IMDIV`
		2030	`*`
		2031	`* Returns the quotient of two complex numbers in x + yi or x + yj text format.`
		2032	`*`
		2033	`* Excel Function:`
		2034	`* IMDIV(complexDividend,complexDivisor)`
		2035	`*`
		2036	`* @param string $complexDividend The complex numerator or dividend.`
		2037	`* @param string $complexDivisor The complex denominator or divisor.`
		2038	`* @return string`
		2039	`*/`
		2040	`public static function IMDIV($complexDividend,$complexDivisor) {`
		2041	`$complexDividend = PHPExcel_Calculation_Functions::flattenSingleValue($complexDividend);`
		2042	`$complexDivisor = PHPExcel_Calculation_Functions::flattenSingleValue($complexDivisor);`
		2043
		2044	`$parsedComplexDividend = self::_parseComplex($complexDividend);`
		2045	`$parsedComplexDivisor = self::_parseComplex($complexDivisor);`
		2046
		2047	`if (($parsedComplexDividend['suffix'] != '') && ($parsedComplexDivisor['suffix'] != '') &&`
		2048	`($parsedComplexDividend['suffix'] != $parsedComplexDivisor['suffix'])) {`
		2049	`return PHPExcel_Calculation_Functions::NaN();`
		2050	`}`
		2051	`if (($parsedComplexDividend['suffix'] != '') && ($parsedComplexDivisor['suffix'] == '')) {`
		2052	`$parsedComplexDivisor['suffix'] = $parsedComplexDividend['suffix'];`
		2053	`}`
		2054
		2055	`$d1 = ($parsedComplexDividend['real'] * $parsedComplexDivisor['real']) + ($parsedComplexDividend['imaginary'] * $parsedComplexDivisor['imaginary']);`
		2056	`$d2 = ($parsedComplexDividend['imaginary'] * $parsedComplexDivisor['real']) - ($parsedComplexDividend['real'] * $parsedComplexDivisor['imaginary']);`
		2057	`$d3 = ($parsedComplexDivisor['real'] * $parsedComplexDivisor['real']) + ($parsedComplexDivisor['imaginary'] * $parsedComplexDivisor['imaginary']);`
		2058
		2059	`$r = $d1/$d3;`
		2060	`$i = $d2/$d3;`
		2061
		2062	`if ($i > 0.0) {`
		2063	`return self::_cleanComplex($r.'+'.$i.$parsedComplexDivisor['suffix']);`
		2064	`} elseif ($i < 0.0) {`
		2065	`return self::_cleanComplex($r.$i.$parsedComplexDivisor['suffix']);`
		2066	`} else {`
		2067	`return $r;`
		2068	`}`
		2069	`} // function IMDIV()`
		2070
		2071
		2072	`/**`
		2073	`* IMSUB`
		2074	`*`
		2075	`* Returns the difference of two complex numbers in x + yi or x + yj text format.`
		2076	`*`
		2077	`* Excel Function:`
		2078	`* IMSUB(complexNumber1,complexNumber2)`
		2079	`*`
		2080	`* @param string $complexNumber1 The complex number from which to subtract complexNumber2.`
		2081	`* @param string $complexNumber2 The complex number to subtract from complexNumber1.`
		2082	`* @return string`
		2083	`*/`
		2084	`public static function IMSUB($complexNumber1,$complexNumber2) {`
		2085	`$complexNumber1 = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber1);`
		2086	`$complexNumber2 = PHPExcel_Calculation_Functions::flattenSingleValue($complexNumber2);`
		2087
		2088	`$parsedComplex1 = self::_parseComplex($complexNumber1);`
		2089	`$parsedComplex2 = self::_parseComplex($complexNumber2);`
		2090
		2091	`if ((($parsedComplex1['suffix'] != '') && ($parsedComplex2['suffix'] != '')) &&`
		2092	`($parsedComplex1['suffix'] != $parsedComplex2['suffix'])) {`
		2093	`return PHPExcel_Calculation_Functions::NaN();`
		2094	`} elseif (($parsedComplex1['suffix'] == '') && ($parsedComplex2['suffix'] != '')) {`
		2095	`$parsedComplex1['suffix'] = $parsedComplex2['suffix'];`
		2096	`}`
		2097
		2098	`$d1 = $parsedComplex1['real'] - $parsedComplex2['real'];`
		2099	`$d2 = $parsedComplex1['imaginary'] - $parsedComplex2['imaginary'];`
		2100
		2101	`return self::COMPLEX($d1,$d2,$parsedComplex1['suffix']);`
		2102	`} // function IMSUB()`
		2103
		2104
		2105	`/**`
		2106	`* IMSUM`
		2107	`*`
		2108	`* Returns the sum of two or more complex numbers in x + yi or x + yj text format.`
		2109	`*`
		2110	`* Excel Function:`
		2111	`* IMSUM(complexNumber[,complexNumber[,...]])`
		2112	`*`
		2113	`* @param string $complexNumber,... Series of complex numbers to add`
		2114	`* @return string`
		2115	`*/`
		2116	`public static function IMSUM() {`
		2117	`// Return value`
		2118	`$returnValue = self::_parseComplex('0');`
		2119	`$activeSuffix = '';`
		2120
		2121	`// Loop through the arguments`
		2122	`$aArgs = PHPExcel_Calculation_Functions::flattenArray(func_get_args());`
		2123	`foreach ($aArgs as $arg) {`
		2124	`$parsedComplex = self::_parseComplex($arg);`
		2125
		2126	`if ($activeSuffix == '') {`
		2127	`$activeSuffix = $parsedComplex['suffix'];`
		2128	`} elseif (($parsedComplex['suffix'] != '') && ($activeSuffix != $parsedComplex['suffix'])) {`
		2129	`return PHPExcel_Calculation_Functions::VALUE();`
		2130	`}`
		2131
		2132	`$returnValue['real'] += $parsedComplex['real'];`
		2133	`$returnValue['imaginary'] += $parsedComplex['imaginary'];`
		2134	`}`
		2135
		2136	`if ($returnValue['imaginary'] == 0.0) { $activeSuffix = ''; }`
		2137	`return self::COMPLEX($returnValue['real'],$returnValue['imaginary'],$activeSuffix);`
		2138	`} // function IMSUM()`
		2139
		2140
		2141	`/**`
		2142	`* IMPRODUCT`
		2143	`*`
		2144	`* Returns the product of two or more complex numbers in x + yi or x + yj text format.`
		2145	`*`
		2146	`* Excel Function:`
		2147	`* IMPRODUCT(complexNumber[,complexNumber[,...]])`
		2148	`*`
		2149	`* @param string $complexNumber,... Series of complex numbers to multiply`
		2150	`* @return string`
		2151	`*/`
		2152	`public static function IMPRODUCT() {`
		2153	`// Return value`
		2154	`$returnValue = self::_parseComplex('1');`
		2155	`$activeSuffix = '';`
		2156
		2157	`// Loop through the arguments`
		2158	`$aArgs = PHPExcel_Calculation_Functions::flattenArray(func_get_args());`
		2159	`foreach ($aArgs as $arg) {`
		2160	`$parsedComplex = self::_parseComplex($arg);`
		2161
		2162	`$workValue = $returnValue;`
		2163	`if (($parsedComplex['suffix'] != '') && ($activeSuffix == '')) {`
		2164	`$activeSuffix = $parsedComplex['suffix'];`
		2165	`} elseif (($parsedComplex['suffix'] != '') && ($activeSuffix != $parsedComplex['suffix'])) {`
		2166	`return PHPExcel_Calculation_Functions::NaN();`
		2167	`}`
		2168	`$returnValue['real'] = ($workValue['real'] * $parsedComplex['real']) - ($workValue['imaginary'] * $parsedComplex['imaginary']);`
		2169	`$returnValue['imaginary'] = ($workValue['real'] * $parsedComplex['imaginary']) + ($workValue['imaginary'] * $parsedComplex['real']);`
		2170	`}`
		2171
		2172	`if ($returnValue['imaginary'] == 0.0) { $activeSuffix = ''; }`
		2173	`return self::COMPLEX($returnValue['real'],$returnValue['imaginary'],$activeSuffix);`
		2174	`} // function IMPRODUCT()`
		2175
		2176
		2177	`/**`
		2178	`* DELTA`
		2179	`*`
		2180	`* Tests whether two values are equal. Returns 1 if number1 = number2; returns 0 otherwise.`
		2181	`* Use this function to filter a set of values. For example, by summing several DELTA`
		2182	`* functions you calculate the count of equal pairs. This function is also known as the`
		2183	`* Kronecker Delta function.`
		2184	`*`
		2185	`* Excel Function:`
		2186	`* DELTA(a[,b])`
		2187	`*`
		2188	`* @param float $a The first number.`
		2189	`* @param float $b The second number. If omitted, b is assumed to be zero.`
		2190	`* @return int`
		2191	`*/`
		2192	`public static function DELTA($a, $b=0) {`
		2193	`$a = PHPExcel_Calculation_Functions::flattenSingleValue($a);`
		2194	`$b = PHPExcel_Calculation_Functions::flattenSingleValue($b);`
		2195
		2196	`return (int) ($a == $b);`
		2197	`} // function DELTA()`
		2198
		2199
		2200	`/**`
		2201	`* GESTEP`
		2202	`*`
		2203	`* Excel Function:`
		2204	`* GESTEP(number[,step])`
		2205	`*`
		2206	`* Returns 1 if number >= step; returns 0 (zero) otherwise`
		2207	`* Use this function to filter a set of values. For example, by summing several GESTEP`
		2208	`* functions you calculate the count of values that exceed a threshold.`
		2209	`*`
		2210	`* @param float $number The value to test against step.`
		2211	`* @param float $step The threshold value.`
		2212	`* If you omit a value for step, GESTEP uses zero.`
		2213	`* @return int`
		2214	`*/`
		2215	`public static function GESTEP($number, $step=0) {`
		2216	`$number = PHPExcel_Calculation_Functions::flattenSingleValue($number);`
		2217	`$step = PHPExcel_Calculation_Functions::flattenSingleValue($step);`
		2218
		2219	`return (int) ($number >= $step);`
		2220	`} // function GESTEP()`
		2221
		2222
		2223	`//`
		2224	`// Private method to calculate the erf value`
		2225	`//`
		2226	`private static $_two_sqrtpi = 1.128379167095512574;`
		2227
		2228	`public static function _erfVal($x) {`
		2229	`if (abs($x) > 2.2) {`
		2230	`return 1 - self::_erfcVal($x);`
		2231	`}`
		2232	`$sum = $term = $x;`
		2233	`$xsqr = ($x * $x);`
		2234	`$j = 1;`
		2235	`do {`
		2236	`$term *= $xsqr / $j;`
		2237	`$sum -= $term / (2 * $j + 1);`
		2238	`++$j;`
		2239	`$term *= $xsqr / $j;`
		2240	`$sum += $term / (2 * $j + 1);`
		2241	`++$j;`
		2242	`if ($sum == 0.0) {`
		2243	`break;`
		2244	`}`
		2245	`} while (abs($term / $sum) > PRECISION);`
		2246	`return self::$_two_sqrtpi * $sum;`
		2247	`} // function _erfVal()`
		2248
		2249
		2250	`/**`
		2251	`* ERF`
		2252	`*`
		2253	`* Returns the error function integrated between the lower and upper bound arguments.`
		2254	`*`
		2255	`* Note: In Excel 2007 or earlier, if you input a negative value for the upper or lower bound arguments,`
		2256	`* the function would return a #NUM! error. However, in Excel 2010, the function algorithm was`
		2257	`* improved, so that it can now calculate the function for both positive and negative ranges.`
		2258	`* PHPExcel follows Excel 2010 behaviour, and accepts nagative arguments.`
		2259	`*`
		2260	`* Excel Function:`
		2261	`* ERF(lower[,upper])`
		2262	`*`
		2263	`* @param float $lower lower bound for integrating ERF`
		2264	`* @param float $upper upper bound for integrating ERF.`
		2265	`* If omitted, ERF integrates between zero and lower_limit`
		2266	`* @return float`
		2267	`*/`
		2268	`public static function ERF($lower, $upper = NULL) {`
		2269	`$lower = PHPExcel_Calculation_Functions::flattenSingleValue($lower);`
		2270	`$upper = PHPExcel_Calculation_Functions::flattenSingleValue($upper);`
		2271
		2272	`if (is_numeric($lower)) {`
		2273	`if (is_null($upper)) {`
		2274	`return self::_erfVal($lower);`
		2275	`}`
		2276	`if (is_numeric($upper)) {`
		2277	`return self::_erfVal($upper) - self::_erfVal($lower);`
		2278	`}`
		2279	`}`
		2280	`return PHPExcel_Calculation_Functions::VALUE();`
		2281	`} // function ERF()`
		2282
		2283
		2284	`//`
		2285	`// Private method to calculate the erfc value`
		2286	`//`
		2287	`private static $_one_sqrtpi = 0.564189583547756287;`
		2288
		2289	`private static function _erfcVal($x) {`
		2290	`if (abs($x) < 2.2) {`
		2291	`return 1 - self::_erfVal($x);`
		2292	`}`
		2293	`if ($x < 0) {`
		2294	`return 2 - self::ERFC(-$x);`
		2295	`}`
		2296	`$a = $n = 1;`
		2297	`$b = $c = $x;`
		2298	`$d = ($x * $x) + 0.5;`
		2299	`$q1 = $q2 = $b / $d;`
		2300	`$t = 0;`
		2301	`do {`
		2302	`$t = $a * $n + $b * $x;`
		2303	`$a = $b;`
		2304	`$b = $t;`
		2305	`$t = $c * $n + $d * $x;`
		2306	`$c = $d;`
		2307	`$d = $t;`
		2308	`$n += 0.5;`
		2309	`$q1 = $q2;`
		2310	`$q2 = $b / $d;`
		2311	`} while ((abs($q1 - $q2) / $q2) > PRECISION);`
		2312	`return self::$_one_sqrtpi * exp(-$x * $x) * $q2;`
		2313	`} // function _erfcVal()`
		2314
		2315
		2316	`/**`
		2317	`* ERFC`
		2318	`*`
		2319	`* Returns the complementary ERF function integrated between x and infinity`
		2320	`*`
		2321	`* Note: In Excel 2007 or earlier, if you input a negative value for the lower bound argument,`
		2322	`* the function would return a #NUM! error. However, in Excel 2010, the function algorithm was`
		2323	`* improved, so that it can now calculate the function for both positive and negative x values.`
		2324	`* PHPExcel follows Excel 2010 behaviour, and accepts nagative arguments.`
		2325	`*`
		2326	`* Excel Function:`
		2327	`* ERFC(x)`
		2328	`*`
		2329	`* @param float $x The lower bound for integrating ERFC`
		2330	`* @return float`
		2331	`*/`
		2332	`public static function ERFC($x) {`
		2333	`$x = PHPExcel_Calculation_Functions::flattenSingleValue($x);`
		2334
		2335	`if (is_numeric($x)) {`
		2336	`return self::_erfcVal($x);`
		2337	`}`
		2338	`return PHPExcel_Calculation_Functions::VALUE();`
		2339	`} // function ERFC()`
		2340
		2341
		2342	`/**`
		2343	`* getConversionGroups`
		2344	`* Returns a list of the different conversion groups for UOM conversions`
		2345	`*`
		2346	`* @return array`
		2347	`*/`
		2348	`public static function getConversionGroups() {`
		2349	`$conversionGroups = array();`
		2350	`foreach(self::$_conversionUnits as $conversionUnit) {`
		2351	`$conversionGroups[] = $conversionUnit['Group'];`
		2352	`}`
		2353	`return array_merge(array_unique($conversionGroups));`
		2354	`} // function getConversionGroups()`
		2355
		2356
		2357	`/**`
		2358	`* getConversionGroupUnits`
		2359	`* Returns an array of units of measure, for a specified conversion group, or for all groups`
		2360	`*`
		2361	`* @param string $group The group whose units of measure you want to retrieve`
		2362	`* @return array`
		2363	`*/`
		2364	`public static function getConversionGroupUnits($group = NULL) {`
		2365	`$conversionGroups = array();`
		2366	`foreach(self::$_conversionUnits as $conversionUnit => $conversionGroup) {`
		2367	`if ((is_null($group)) \|\| ($conversionGroup['Group'] == $group)) {`
		2368	`$conversionGroups[$conversionGroup['Group']][] = $conversionUnit;`
		2369	`}`
		2370	`}`
		2371	`return $conversionGroups;`
		2372	`} // function getConversionGroupUnits()`
		2373
		2374
		2375	`/**`
		2376	`* getConversionGroupUnitDetails`
		2377	`*`
		2378	`* @param string $group The group whose units of measure you want to retrieve`
		2379	`* @return array`
		2380	`*/`
		2381	`public static function getConversionGroupUnitDetails($group = NULL) {`
		2382	`$conversionGroups = array();`
		2383	`foreach(self::$_conversionUnits as $conversionUnit => $conversionGroup) {`
		2384	`if ((is_null($group)) \|\| ($conversionGroup['Group'] == $group)) {`
		2385	`$conversionGroups[$conversionGroup['Group']][] = array( 'unit' => $conversionUnit,`
		2386	`'description' => $conversionGroup['Unit Name']`
		2387	`);`
		2388	`}`
		2389	`}`
		2390	`return $conversionGroups;`
		2391	`} // function getConversionGroupUnitDetails()`
		2392
		2393
		2394	`/**`
		2395	`* getConversionMultipliers`
		2396	`* Returns an array of the Multiplier prefixes that can be used with Units of Measure in CONVERTUOM()`
		2397	`*`
		2398	`* @return array of mixed`
		2399	`*/`
		2400	`public static function getConversionMultipliers() {`
		2401	`return self::$_conversionMultipliers;`
		2402	`} // function getConversionGroups()`
		2403
		2404
		2405	`/**`
		2406	`* CONVERTUOM`
		2407	`*`
		2408	`* Converts a number from one measurement system to another.`
		2409	`* For example, CONVERT can translate a table of distances in miles to a table of distances`
		2410	`* in kilometers.`
		2411	`*`
		2412	`* Excel Function:`
		2413	`* CONVERT(value,fromUOM,toUOM)`
		2414	`*`
		2415	`* @param float $value The value in fromUOM to convert.`
		2416	`* @param string $fromUOM The units for value.`
		2417	`* @param string $toUOM The units for the result.`
		2418	`*`
		2419	`* @return float`
		2420	`*/`
		2421	`public static function CONVERTUOM($value, $fromUOM, $toUOM) {`
		2422	`$value = PHPExcel_Calculation_Functions::flattenSingleValue($value);`
		2423	`$fromUOM = PHPExcel_Calculation_Functions::flattenSingleValue($fromUOM);`
		2424	`$toUOM = PHPExcel_Calculation_Functions::flattenSingleValue($toUOM);`
		2425
		2426	`if (!is_numeric($value)) {`
		2427	`return PHPExcel_Calculation_Functions::VALUE();`
		2428	`}`
		2429	`$fromMultiplier = 1.0;`
		2430	`if (isset(self::$_conversionUnits[$fromUOM])) {`
		2431	`$unitGroup1 = self::$_conversionUnits[$fromUOM]['Group'];`
		2432	`} else {`
		2433	`$fromMultiplier = substr($fromUOM,0,1);`
		2434	`$fromUOM = substr($fromUOM,1);`
		2435	`if (isset(self::$_conversionMultipliers[$fromMultiplier])) {`
		2436	`$fromMultiplier = self::$_conversionMultipliers[$fromMultiplier]['multiplier'];`
		2437	`} else {`
		2438	`return PHPExcel_Calculation_Functions::NA();`
		2439	`}`
		2440	`if ((isset(self::$_conversionUnits[$fromUOM])) && (self::$_conversionUnits[$fromUOM]['AllowPrefix'])) {`
		2441	`$unitGroup1 = self::$_conversionUnits[$fromUOM]['Group'];`
		2442	`} else {`
		2443	`return PHPExcel_Calculation_Functions::NA();`
		2444	`}`
		2445	`}`
		2446	`$value *= $fromMultiplier;`
		2447
		2448	`$toMultiplier = 1.0;`
		2449	`if (isset(self::$_conversionUnits[$toUOM])) {`
		2450	`$unitGroup2 = self::$_conversionUnits[$toUOM]['Group'];`
		2451	`} else {`
		2452	`$toMultiplier = substr($toUOM,0,1);`
		2453	`$toUOM = substr($toUOM,1);`
		2454	`if (isset(self::$_conversionMultipliers[$toMultiplier])) {`
		2455	`$toMultiplier = self::$_conversionMultipliers[$toMultiplier]['multiplier'];`
		2456	`} else {`
		2457	`return PHPExcel_Calculation_Functions::NA();`
		2458	`}`
		2459	`if ((isset(self::$_conversionUnits[$toUOM])) && (self::$_conversionUnits[$toUOM]['AllowPrefix'])) {`
		2460	`$unitGroup2 = self::$_conversionUnits[$toUOM]['Group'];`
		2461	`} else {`
		2462	`return PHPExcel_Calculation_Functions::NA();`
		2463	`}`
		2464	`}`
		2465	`if ($unitGroup1 != $unitGroup2) {`
		2466	`return PHPExcel_Calculation_Functions::NA();`
		2467	`}`
		2468
		2469	`if (($fromUOM == $toUOM) && ($fromMultiplier == $toMultiplier)) {`
		2470	`// We've already factored $fromMultiplier into the value, so we need`
		2471	`// to reverse it again`
		2472	`return $value / $fromMultiplier;`
		2473	`} elseif ($unitGroup1 == 'Temperature') {`
		2474	`if (($fromUOM == 'F') \|\| ($fromUOM == 'fah')) {`
		2475	`if (($toUOM == 'F') \|\| ($toUOM == 'fah')) {`
		2476	`return $value;`
		2477	`} else {`
		2478	`$value = (($value - 32) / 1.8);`
		2479	`if (($toUOM == 'K') \|\| ($toUOM == 'kel')) {`
		2480	`$value += 273.15;`
		2481	`}`
		2482	`return $value;`
		2483	`}`
		2484	`} elseif ((($fromUOM == 'K') \|\| ($fromUOM == 'kel')) &&`
		2485	`(($toUOM == 'K') \|\| ($toUOM == 'kel'))) {`
		2486	`return $value;`
		2487	`} elseif ((($fromUOM == 'C') \|\| ($fromUOM == 'cel')) &&`
		2488	`(($toUOM == 'C') \|\| ($toUOM == 'cel'))) {`
		2489	`return $value;`
		2490	`}`
		2491	`if (($toUOM == 'F') \|\| ($toUOM == 'fah')) {`
		2492	`if (($fromUOM == 'K') \|\| ($fromUOM == 'kel')) {`
		2493	`$value -= 273.15;`
		2494	`}`
		2495	`return ($value * 1.8) + 32;`
		2496	`}`
		2497	`if (($toUOM == 'C') \|\| ($toUOM == 'cel')) {`
		2498	`return $value - 273.15;`
		2499	`}`
		2500	`return $value + 273.15;`
		2501	`}`
		2502	`return ($value * self::$_unitConversions[$unitGroup1][$fromUOM][$toUOM]) / $toMultiplier;`
		2503	`} // function CONVERTUOM()`
		2504
		2505	`} // class PHPExcel_Calculation_Engineering`

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