Autoría | Ultima modificación | Ver Log |
<?phpnamespace PhpOffice\PhpSpreadsheet\Calculation;/*** @deprecated 1.18.0*/class MathTrig{/*** ARABIC.** Converts a Roman numeral to an Arabic numeral.** Excel Function:* ARABIC(text)** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Arabic class instead* @see MathTrig\Arabic::evaluate()** @param array|string $roman** @return array|int|string the arabic numberal contrived from the roman numeral*/public static function ARABIC($roman){return MathTrig\Arabic::evaluate($roman);}/*** ATAN2.** This function calculates the arc tangent of the two variables x and y. It is similar to* calculating the arc tangent of y ÷ x, except that the signs of both arguments are used* to determine the quadrant of the result.* The arctangent is the angle from the x-axis to a line containing the origin (0, 0) and a* point with coordinates (xCoordinate, yCoordinate). The angle is given in radians between* -pi and pi, excluding -pi.** Note that the Excel ATAN2() function accepts its arguments in the reverse order to the standard* PHP atan2() function, so we need to reverse them here before calling the PHP atan() function.** Excel Function:* ATAN2(xCoordinate,yCoordinate)** @deprecated 1.18.0* Use the atan2 method in the MathTrig\Trig\Tangent class instead* @see MathTrig\Trig\Tangent::atan2()** @param array|float $xCoordinate the x-coordinate of the point* @param array|float $yCoordinate the y-coordinate of the point** @return array|float|string the inverse tangent of the specified x- and y-coordinates, or a string containing an error*/public static function ATAN2($xCoordinate = null, $yCoordinate = null){return MathTrig\Trig\Tangent::atan2($xCoordinate, $yCoordinate);}/*** BASE.** Converts a number into a text representation with the given radix (base).** Excel Function:* BASE(Number, Radix [Min_length])** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Base class instead* @see MathTrig\Base::evaluate()** @param float $number* @param float $radix* @param int $minLength** @return array|string the text representation with the given radix (base)*/public static function BASE($number, $radix, $minLength = null){return MathTrig\Base::evaluate($number, $radix, $minLength);}/*** CEILING.** Returns number rounded up, away from zero, to the nearest multiple of significance.* For example, if you want to avoid using pennies in your prices and your product is* priced at $4.42, use the formula =CEILING(4.42,0.05) to round prices up to the* nearest nickel.** Excel Function:* CEILING(number[,significance])** @deprecated 1.17.0* Use the ceiling() method in the MathTrig\Ceiling class instead* @see MathTrig\Ceiling::ceiling()** @param float $number the number you want to round* @param float $significance the multiple to which you want to round** @return array|float|string Rounded Number, or a string containing an error*/public static function CEILING($number, $significance = null){return MathTrig\Ceiling::ceiling($number, $significance);}/*** COMBIN.** Returns the number of combinations for a given number of items. Use COMBIN to* determine the total possible number of groups for a given number of items.** Excel Function:* COMBIN(numObjs,numInSet)** @deprecated 1.18.0* Use the withoutRepetition() method in the MathTrig\Combinations class instead* @see MathTrig\Combinations::withoutRepetition()** @param array|int $numObjs Number of different objects* @param array|int $numInSet Number of objects in each combination** @return array|float|int|string Number of combinations, or a string containing an error*/public static function COMBIN($numObjs, $numInSet){return MathTrig\Combinations::withoutRepetition($numObjs, $numInSet);}/*** EVEN.** Returns number rounded up to the nearest even integer.* You can use this function for processing items that come in twos. For example,* a packing crate accepts rows of one or two items. The crate is full when* the number of items, rounded up to the nearest two, matches the crate's* capacity.** Excel Function:* EVEN(number)** @deprecated 1.18.0* Use the even() method in the MathTrig\Round class instead* @see MathTrig\Round::even()** @param array|float $number Number to round** @return array|float|int|string Rounded Number, or a string containing an error*/public static function EVEN($number){return MathTrig\Round::even($number);}/*** Helper function for Even.** @deprecated 1.18.0* Use the evaluate() method in the MathTrig\Helpers class instead* @see MathTrig\Helpers::getEven()*/public static function getEven(float $number): int{return (int) MathTrig\Helpers::getEven($number);}/*** FACT.** Returns the factorial of a number.* The factorial of a number is equal to 1*2*3*...* number.** Excel Function:* FACT(factVal)** @deprecated 1.18.0* Use the fact() method in the MathTrig\Factorial class instead* @see MathTrig\Factorial::fact()** @param array|float $factVal Factorial Value** @return array|float|int|string Factorial, or a string containing an error*/public static function FACT($factVal){return MathTrig\Factorial::fact($factVal);}/*** FACTDOUBLE.** Returns the double factorial of a number.** Excel Function:* FACTDOUBLE(factVal)** @deprecated 1.18.0* Use the factDouble() method in the MathTrig\Factorial class instead* @see MathTrig\Factorial::factDouble()** @param array|float $factVal Factorial Value** @return array|float|int|string Double Factorial, or a string containing an error*/public static function FACTDOUBLE($factVal){return MathTrig\Factorial::factDouble($factVal);}/*** FLOOR.** Rounds number down, toward zero, to the nearest multiple of significance.** Excel Function:* FLOOR(number[,significance])** @deprecated 1.17.0* Use the floor() method in the MathTrig\Floor class instead* @see MathTrig\Floor::floor()** @param float $number Number to round* @param float $significance Significance** @return array|float|string Rounded Number, or a string containing an error*/public static function FLOOR($number, $significance = null){return MathTrig\Floor::floor($number, $significance);}/*** FLOOR.MATH.** Round a number down to the nearest integer or to the nearest multiple of significance.** Excel Function:* FLOOR.MATH(number[,significance[,mode]])** @deprecated 1.17.0* Use the math() method in the MathTrig\Floor class instead* @see MathTrig\Floor::math()** @param float $number Number to round* @param float $significance Significance* @param int $mode direction to round negative numbers** @return array|float|string Rounded Number, or a string containing an error*/public static function FLOORMATH($number, $significance = null, $mode = 0){return MathTrig\Floor::math($number, $significance, $mode);}/*** FLOOR.PRECISE.** Rounds number down, toward zero, to the nearest multiple of significance.** Excel Function:* FLOOR.PRECISE(number[,significance])** @deprecated 1.17.0* Use the precise() method in the MathTrig\Floor class instead* @see MathTrig\Floor::precise()** @param float $number Number to round* @param float $significance Significance** @return array|float|string Rounded Number, or a string containing an error*/public static function FLOORPRECISE($number, $significance = 1){return MathTrig\Floor::precise($number, $significance);}/*** INT.** Casts a floating point value to an integer** Excel Function:* INT(number)** @deprecated 1.17.0* Use the evaluate() method in the MathTrig\IntClass class instead* @see MathTrig\IntClass::evaluate()** @param array|float $number Number to cast to an integer** @return array|int|string Integer value, or a string containing an error*/public static function INT($number){return MathTrig\IntClass::evaluate($number);}/*** GCD.** Returns the greatest common divisor of a series of numbers.* The greatest common divisor is the largest integer that divides both* number1 and number2 without a remainder.** Excel Function:* GCD(number1[,number2[, ...]])** @deprecated 1.18.0* Use the evaluate() method in the MathTrig\Gcd class instead* @see MathTrig\Gcd::evaluate()** @param mixed ...$args Data values** @return int|mixed|string Greatest Common Divisor, or a string containing an error*/public static function GCD(...$args){return MathTrig\Gcd::evaluate(...$args);}/*** LCM.** Returns the lowest common multiplier of a series of numbers* The least common multiple is the smallest positive integer that is a multiple* of all integer arguments number1, number2, and so on. Use LCM to add fractions* with different denominators.** Excel Function:* LCM(number1[,number2[, ...]])** @deprecated 1.18.0* Use the evaluate() method in the MathTrig\Lcm class instead* @see MathTrig\Lcm::evaluate()** @param mixed ...$args Data values** @return int|string Lowest Common Multiplier, or a string containing an error*/public static function LCM(...$args){return MathTrig\Lcm::evaluate(...$args);}/*** LOG_BASE.** Returns the logarithm of a number to a specified base. The default base is 10.** Excel Function:* LOG(number[,base])** @deprecated 1.18.0* Use the withBase() method in the MathTrig\Logarithms class instead* @see MathTrig\Logarithms::withBase()** @param float $number The positive real number for which you want the logarithm* @param float $base The base of the logarithm. If base is omitted, it is assumed to be 10.** @return array|float|string The result, or a string containing an error*/public static function logBase($number, $base = 10){return MathTrig\Logarithms::withBase($number, $base);}/*** MDETERM.** Returns the matrix determinant of an array.** Excel Function:* MDETERM(array)** @deprecated 1.18.0* Use the determinant() method in the MathTrig\MatrixFunctions class instead* @see MathTrig\MatrixFunctions::determinant()** @param array $matrixValues A matrix of values** @return float|string The result, or a string containing an error*/public static function MDETERM($matrixValues){return MathTrig\MatrixFunctions::determinant($matrixValues);}/*** MINVERSE.** Returns the inverse matrix for the matrix stored in an array.** Excel Function:* MINVERSE(array)** @deprecated 1.18.0* Use the inverse() method in the MathTrig\MatrixFunctions class instead* @see MathTrig\MatrixFunctions::inverse()** @param array $matrixValues A matrix of values** @return array|string The result, or a string containing an error*/public static function MINVERSE($matrixValues){return MathTrig\MatrixFunctions::inverse($matrixValues);}/*** MMULT.** @deprecated 1.18.0* Use the multiply() method in the MathTrig\MatrixFunctions class instead* @see MathTrig\MatrixFunctions::multiply()** @param array $matrixData1 A matrix of values* @param array $matrixData2 A matrix of values** @return array|string The result, or a string containing an error*/public static function MMULT($matrixData1, $matrixData2){return MathTrig\MatrixFunctions::multiply($matrixData1, $matrixData2);}/*** MOD.** @deprecated 1.18.0* Use the mod() method in the MathTrig\Operations class instead* @see MathTrig\Operations::mod()** @param int $a Dividend* @param int $b Divisor** @return array|float|int|string Remainder, or a string containing an error*/public static function MOD($a = 1, $b = 1){return MathTrig\Operations::mod($a, $b);}/*** MROUND.** Rounds a number to the nearest multiple of a specified value** @deprecated 1.17.0* Use the multiple() method in the MathTrig\Mround class instead* @see MathTrig\Round::multiple()** @param float $number Number to round* @param array|int $multiple Multiple to which you want to round $number** @return array|float|string Rounded Number, or a string containing an error*/public static function MROUND($number, $multiple){return MathTrig\Round::multiple($number, $multiple);}/*** MULTINOMIAL.** Returns the ratio of the factorial of a sum of values to the product of factorials.** @deprecated 1.18.0* Use the multinomial method in the MathTrig\Factorial class instead* @see MathTrig\Factorial::multinomial()** @param mixed[] $args An array of mixed values for the Data Series** @return float|string The result, or a string containing an error*/public static function MULTINOMIAL(...$args){return MathTrig\Factorial::multinomial(...$args);}/*** ODD.** Returns number rounded up to the nearest odd integer.** @deprecated 1.18.0* Use the odd method in the MathTrig\Round class instead* @see MathTrig\Round::odd()** @param array|float $number Number to round** @return array|float|int|string Rounded Number, or a string containing an error*/public static function ODD($number){return MathTrig\Round::odd($number);}/*** POWER.** Computes x raised to the power y.** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Power class instead* @see MathTrig\Operations::power()** @param float $x* @param float $y** @return array|float|int|string The result, or a string containing an error*/public static function POWER($x = 0, $y = 2){return MathTrig\Operations::power($x, $y);}/*** PRODUCT.** PRODUCT returns the product of all the values and cells referenced in the argument list.** @deprecated 1.18.0* Use the product method in the MathTrig\Operations class instead* @see MathTrig\Operations::product()** Excel Function:* PRODUCT(value1[,value2[, ...]])** @param mixed ...$args Data values** @return float|string*/public static function PRODUCT(...$args){return MathTrig\Operations::product(...$args);}/*** QUOTIENT.** QUOTIENT function returns the integer portion of a division. Numerator is the divided number* and denominator is the divisor.** @deprecated 1.18.0* Use the quotient method in the MathTrig\Operations class instead* @see MathTrig\Operations::quotient()** Excel Function:* QUOTIENT(value1[,value2[, ...]])** @param mixed $numerator* @param mixed $denominator** @return array|int|string*/public static function QUOTIENT($numerator, $denominator){return MathTrig\Operations::quotient($numerator, $denominator);}/*** RAND/RANDBETWEEN.** @deprecated 1.18.0* Use the randBetween or randBetween method in the MathTrig\Random class instead* @see MathTrig\Random::randBetween()** @param int $min Minimal value* @param int $max Maximal value** @return array|float|int|string Random number*/public static function RAND($min = 0, $max = 0){return MathTrig\Random::randBetween($min, $max);}/*** ROMAN.** Converts a number to Roman numeral** @deprecated 1.17.0* Use the evaluate() method in the MathTrig\Roman class instead* @see MathTrig\Roman::evaluate()** @param mixed $aValue Number to convert* @param mixed $style Number indicating one of five possible forms** @return array|string Roman numeral, or a string containing an error*/public static function ROMAN($aValue, $style = 0){return MathTrig\Roman::evaluate($aValue, $style);}/*** ROUNDUP.** Rounds a number up to a specified number of decimal places** @deprecated 1.17.0* Use the up() method in the MathTrig\Round class instead* @see MathTrig\Round::up()** @param array|float $number Number to round* @param array|int $digits Number of digits to which you want to round $number** @return array|float|string Rounded Number, or a string containing an error*/public static function ROUNDUP($number, $digits){return MathTrig\Round::up($number, $digits);}/*** ROUNDDOWN.** Rounds a number down to a specified number of decimal places** @deprecated 1.17.0* Use the down() method in the MathTrig\Round class instead* @see MathTrig\Round::down()** @param array|float $number Number to round* @param array|int $digits Number of digits to which you want to round $number** @return array|float|string Rounded Number, or a string containing an error*/public static function ROUNDDOWN($number, $digits){return MathTrig\Round::down($number, $digits);}/*** SERIESSUM.** Returns the sum of a power series** @deprecated 1.18.0* Use the evaluate method in the MathTrig\SeriesSum class instead* @see MathTrig\SeriesSum::evaluate()** @param mixed $x Input value* @param mixed $n Initial power* @param mixed $m Step* @param mixed[] $args An array of coefficients for the Data Series** @return array|float|string The result, or a string containing an error*/public static function SERIESSUM($x, $n, $m, ...$args){return MathTrig\SeriesSum::evaluate($x, $n, $m, ...$args);}/*** SIGN.** Determines the sign of a number. Returns 1 if the number is positive, zero (0)* if the number is 0, and -1 if the number is negative.** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Sign class instead* @see MathTrig\Sign::evaluate()** @param array|float $number Number to round** @return array|int|string sign value, or a string containing an error*/public static function SIGN($number){return MathTrig\Sign::evaluate($number);}/*** returnSign = returns 0/-1/+1.** @deprecated 1.18.0* Use the returnSign method in the MathTrig\Helpers class instead* @see MathTrig\Helpers::returnSign()*/public static function returnSign(float $number): int{return MathTrig\Helpers::returnSign($number);}/*** SQRTPI.** Returns the square root of (number * pi).** @deprecated 1.18.0* Use the pi method in the MathTrig\Sqrt class instead* @see MathTrig\Sqrt::sqrt()** @param array|float $number Number** @return array|float|string Square Root of Number * Pi, or a string containing an error*/public static function SQRTPI($number){return MathTrig\Sqrt::pi($number);}/*** SUBTOTAL.** Returns a subtotal in a list or database.** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Subtotal class instead* @see MathTrig\Subtotal::evaluate()** @param int $functionType* A number 1 to 11 that specifies which function to* use in calculating subtotals within a range* list* Numbers 101 to 111 shadow the functions of 1 to 11* but ignore any values in the range that are* in hidden rows or columns* @param mixed[] $args A mixed data series of values** @return float|string*/public static function SUBTOTAL($functionType, ...$args){return MathTrig\Subtotal::evaluate($functionType, ...$args);}/*** SUM.** SUM computes the sum of all the values and cells referenced in the argument list.** @deprecated 1.18.0* Use the sumErroringStrings method in the MathTrig\Sum class instead* @see MathTrig\Sum::sumErroringStrings()** Excel Function:* SUM(value1[,value2[, ...]])** @param mixed ...$args Data values** @return float|string*/public static function SUM(...$args){return MathTrig\Sum::sumIgnoringStrings(...$args);}/*** SUMIF.** Totals the values of cells that contain numbers within the list of arguments** Excel Function:* SUMIF(range, criteria, [sum_range])** @deprecated 1.17.0* Use the SUMIF() method in the Statistical\Conditional class instead* @see Statistical\Conditional::SUMIF()** @param mixed $range Data values* @param string $criteria the criteria that defines which cells will be summed* @param mixed $sumRange** @return null|float|string*/public static function SUMIF($range, $criteria, $sumRange = []){return Statistical\Conditional::SUMIF($range, $criteria, $sumRange);}/*** SUMIFS.** Totals the values of cells that contain numbers within the list of arguments** Excel Function:* SUMIFS(sum_range, criteria_range1, criteria1, [criteria_range2, criteria2], ...)** @deprecated 1.17.0* Use the SUMIFS() method in the Statistical\Conditional class instead* @see Statistical\Conditional::SUMIFS()** @param mixed $args Data values** @return null|float|string*/public static function SUMIFS(...$args){return Statistical\Conditional::SUMIFS(...$args);}/*** SUMPRODUCT.** Excel Function:* SUMPRODUCT(value1[,value2[, ...]])** @deprecated 1.18.0* Use the product method in the MathTrig\Sum class instead* @see MathTrig\Sum::product()** @param mixed ...$args Data values** @return float|string The result, or a string containing an error*/public static function SUMPRODUCT(...$args){return MathTrig\Sum::product(...$args);}/*** SUMSQ.** SUMSQ returns the sum of the squares of the arguments** @deprecated 1.18.0* Use the sumSquare method in the MathTrig\SumSquares class instead* @see MathTrig\SumSquares::sumSquare()** Excel Function:* SUMSQ(value1[,value2[, ...]])** @param mixed ...$args Data values** @return float|string*/public static function SUMSQ(...$args){return MathTrig\SumSquares::sumSquare(...$args);}/*** SUMX2MY2.** @deprecated 1.18.0* Use the sumXSquaredMinusYSquared method in the MathTrig\SumSquares class instead* @see MathTrig\SumSquares::sumXSquaredMinusYSquared()** @param mixed[] $matrixData1 Matrix #1* @param mixed[] $matrixData2 Matrix #2** @return float|string*/public static function SUMX2MY2($matrixData1, $matrixData2){return MathTrig\SumSquares::sumXSquaredMinusYSquared($matrixData1, $matrixData2);}/*** SUMX2PY2.** @deprecated 1.18.0* Use the sumXSquaredPlusYSquared method in the MathTrig\SumSquares class instead* @see MathTrig\SumSquares::sumXSquaredPlusYSquared()** @param mixed[] $matrixData1 Matrix #1* @param mixed[] $matrixData2 Matrix #2** @return float|string*/public static function SUMX2PY2($matrixData1, $matrixData2){return MathTrig\SumSquares::sumXSquaredPlusYSquared($matrixData1, $matrixData2);}/*** SUMXMY2.** @deprecated 1.18.0* Use the sumXMinusYSquared method in the MathTrig\SumSquares class instead* @see MathTrig\SumSquares::sumXMinusYSquared()** @param mixed[] $matrixData1 Matrix #1* @param mixed[] $matrixData2 Matrix #2** @return float|string*/public static function SUMXMY2($matrixData1, $matrixData2){return MathTrig\SumSquares::sumXMinusYSquared($matrixData1, $matrixData2);}/*** TRUNC.** Truncates value to the number of fractional digits by number_digits.** @deprecated 1.17.0* Use the evaluate() method in the MathTrig\Trunc class instead* @see MathTrig\Trunc::evaluate()** @param float $value* @param int $digits** @return array|float|string Truncated value, or a string containing an error*/public static function TRUNC($value = 0, $digits = 0){return MathTrig\Trunc::evaluate($value, $digits);}/*** SEC.** Returns the secant of an angle.** @deprecated 1.18.0* Use the sec method in the MathTrig\Trig\Secant class instead* @see MathTrig\Trig\Secant::sec()** @param array|float $angle Number** @return array|float|string The secant of the angle*/public static function SEC($angle){return MathTrig\Trig\Secant::sec($angle);}/*** SECH.** Returns the hyperbolic secant of an angle.** @deprecated 1.18.0* Use the sech method in the MathTrig\Trig\Secant class instead* @see MathTrig\Trig\Secant::sech()** @param array|float $angle Number** @return array|float|string The hyperbolic secant of the angle*/public static function SECH($angle){return MathTrig\Trig\Secant::sech($angle);}/*** CSC.** Returns the cosecant of an angle.** @deprecated 1.18.0* Use the csc method in the MathTrig\Trig\Cosecant class instead* @see MathTrig\Trig\Cosecant::csc()** @param array|float $angle Number** @return array|float|string The cosecant of the angle*/public static function CSC($angle){return MathTrig\Trig\Cosecant::csc($angle);}/*** CSCH.** Returns the hyperbolic cosecant of an angle.** @deprecated 1.18.0* Use the csch method in the MathTrig\Trig\Cosecant class instead* @see MathTrig\Trig\Cosecant::csch()** @param array|float $angle Number** @return array|float|string The hyperbolic cosecant of the angle*/public static function CSCH($angle){return MathTrig\Trig\Cosecant::csch($angle);}/*** COT.** Returns the cotangent of an angle.** @deprecated 1.18.0* Use the cot method in the MathTrig\Trig\Cotangent class instead* @see MathTrig\Trig\Cotangent::cot()** @param array|float $angle Number** @return array|float|string The cotangent of the angle*/public static function COT($angle){return MathTrig\Trig\Cotangent::cot($angle);}/*** COTH.** Returns the hyperbolic cotangent of an angle.** @deprecated 1.18.0* Use the coth method in the MathTrig\Trig\Cotangent class instead* @see MathTrig\Trig\Cotangent::coth()** @param array|float $angle Number** @return array|float|string The hyperbolic cotangent of the angle*/public static function COTH($angle){return MathTrig\Trig\Cotangent::coth($angle);}/*** ACOT.** Returns the arccotangent of a number.** @deprecated 1.18.0* Use the acot method in the MathTrig\Trig\Cotangent class instead* @see MathTrig\Trig\Cotangent::acot()** @param array|float $number Number** @return array|float|string The arccotangent of the number*/public static function ACOT($number){return MathTrig\Trig\Cotangent::acot($number);}/*** Return NAN or value depending on argument.** @deprecated 1.18.0* Use the numberOrNan method in the MathTrig\Helpers class instead* @see MathTrig\Helpers::numberOrNan()** @param float $result Number** @return float|string*/public static function numberOrNan($result){return MathTrig\Helpers::numberOrNan($result);}/*** ACOTH.** Returns the hyperbolic arccotangent of a number.** @deprecated 1.18.0* Use the acoth method in the MathTrig\Trig\Cotangent class instead* @see MathTrig\Trig\Cotangent::acoth()** @param array|float $number Number** @return array|float|string The hyperbolic arccotangent of the number*/public static function ACOTH($number){return MathTrig\Trig\Cotangent::acoth($number);}/*** ROUND.** Returns the result of builtin function round after validating args.** @deprecated 1.17.0* Use the round() method in the MathTrig\Round class instead* @see MathTrig\Round::round()** @param array|mixed $number Should be numeric* @param array|mixed $precision Should be int** @return array|float|string Rounded number*/public static function builtinROUND($number, $precision){return MathTrig\Round::round($number, $precision);}/*** ABS.** Returns the result of builtin function abs after validating args.** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Absolute class instead* @see MathTrig\Absolute::evaluate()** @param array|mixed $number Should be numeric** @return array|float|int|string Rounded number*/public static function builtinABS($number){return MathTrig\Absolute::evaluate($number);}/*** ACOS.** @deprecated 1.18.0* Use the acos method in the MathTrig\Trig\Cosine class instead* @see MathTrig\Trig\Cosine::acos()** Returns the result of builtin function acos after validating args.** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinACOS($number){return MathTrig\Trig\Cosine::acos($number);}/*** ACOSH.** Returns the result of builtin function acosh after validating args.** @deprecated 1.18.0* Use the acosh method in the MathTrig\Trig\Cosine class instead* @see MathTrig\Trig\Cosine::acosh()** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinACOSH($number){return MathTrig\Trig\Cosine::acosh($number);}/*** ASIN.** Returns the result of builtin function asin after validating args.** @deprecated 1.18.0* Use the asin method in the MathTrig\Trig\Sine class instead* @see MathTrig\Trig\Sine::asin()** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinASIN($number){return MathTrig\Trig\Sine::asin($number);}/*** ASINH.** Returns the result of builtin function asinh after validating args.** @deprecated 1.18.0* Use the asinh method in the MathTrig\Trig\Sine class instead* @see MathTrig\Trig\Sine::asinh()** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinASINH($number){return MathTrig\Trig\Sine::asinh($number);}/*** ATAN.** Returns the result of builtin function atan after validating args.** @deprecated 1.18.0* Use the atan method in the MathTrig\Trig\Tangent class instead* @see MathTrig\Trig\Tangent::atan()** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinATAN($number){return MathTrig\Trig\Tangent::atan($number);}/*** ATANH.** Returns the result of builtin function atanh after validating args.** @deprecated 1.18.0* Use the atanh method in the MathTrig\Trig\Tangent class instead* @see MathTrig\Trig\Tangent::atanh()** @param array|float $number Should be numeric** @return array|float|string Rounded number*/public static function builtinATANH($number){return MathTrig\Trig\Tangent::atanh($number);}/*** COS.** Returns the result of builtin function cos after validating args.** @deprecated 1.18.0* Use the cos method in the MathTrig\Trig\Cosine class instead* @see MathTrig\Trig\Cosine::cos()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinCOS($number){return MathTrig\Trig\Cosine::cos($number);}/*** COSH.** Returns the result of builtin function cos after validating args.** @deprecated 1.18.0* Use the cosh method in the MathTrig\Trig\Cosine class instead* @see MathTrig\Trig\Cosine::cosh()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinCOSH($number){return MathTrig\Trig\Cosine::cosh($number);}/*** DEGREES.** Returns the result of builtin function rad2deg after validating args.** @deprecated 1.18.0* Use the toDegrees method in the MathTrig\Angle class instead* @see MathTrig\Angle::toDegrees()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinDEGREES($number){return MathTrig\Angle::toDegrees($number);}/*** EXP.** Returns the result of builtin function exp after validating args.** @deprecated 1.18.0* Use the evaluate method in the MathTrig\Exp class instead* @see MathTrig\Exp::evaluate()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinEXP($number){return MathTrig\Exp::evaluate($number);}/*** LN.** Returns the result of builtin function log after validating args.** @deprecated 1.18.0* Use the natural method in the MathTrig\Logarithms class instead* @see MathTrig\Logarithms::natural()** @param mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinLN($number){return MathTrig\Logarithms::natural($number);}/*** LOG10.** Returns the result of builtin function log after validating args.** @deprecated 1.18.0* Use the natural method in the MathTrig\Logarithms class instead* @see MathTrig\Logarithms::base10()** @param mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinLOG10($number){return MathTrig\Logarithms::base10($number);}/*** RADIANS.** Returns the result of builtin function deg2rad after validating args.** @deprecated 1.18.0* Use the toRadians method in the MathTrig\Angle class instead* @see MathTrig\Angle::toRadians()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinRADIANS($number){return MathTrig\Angle::toRadians($number);}/*** SIN.** Returns the result of builtin function sin after validating args.** @deprecated 1.18.0* Use the sin method in the MathTrig\Trig\Sine class instead* @see MathTrig\Trig\Sine::evaluate()** @param array|mixed $number Should be numeric** @return array|float|string sine*/public static function builtinSIN($number){return MathTrig\Trig\Sine::sin($number);}/*** SINH.** Returns the result of builtin function sinh after validating args.** @deprecated 1.18.0* Use the sinh method in the MathTrig\Trig\Sine class instead* @see MathTrig\Trig\Sine::sinh()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinSINH($number){return MathTrig\Trig\Sine::sinh($number);}/*** SQRT.** Returns the result of builtin function sqrt after validating args.** @deprecated 1.18.0* Use the sqrt method in the MathTrig\Sqrt class instead* @see MathTrig\Sqrt::sqrt()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinSQRT($number){return MathTrig\Sqrt::sqrt($number);}/*** TAN.** Returns the result of builtin function tan after validating args.** @deprecated 1.18.0* Use the tan method in the MathTrig\Trig\Tangent class instead* @see MathTrig\Trig\Tangent::tan()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinTAN($number){return MathTrig\Trig\Tangent::tan($number);}/*** TANH.** Returns the result of builtin function sinh after validating args.** @deprecated 1.18.0* Use the tanh method in the MathTrig\Trig\Tangent class instead* @see MathTrig\Trig\Tangent::tanh()** @param array|mixed $number Should be numeric** @return array|float|string Rounded number*/public static function builtinTANH($number){return MathTrig\Trig\Tangent::tanh($number);}/*** Many functions accept null/false/true argument treated as 0/0/1.** @deprecated 1.18.0* Use the validateNumericNullBool method in the MathTrig\Helpers class instead* @see MathTrig\Helpers::validateNumericNullBool()** @param mixed $number*/public static function nullFalseTrueToNumber(&$number): void{$number = Functions::flattenSingleValue($number);if ($number === null) {$number = 0;} elseif (is_bool($number)) {$number = (int) $number;}}}