File "ErfC.php"

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<?php

namespace PhpOffice\PhpSpreadsheet\Calculation\Engineering;

use PhpOffice\PhpSpreadsheet\Calculation\ArrayEnabled;
use PhpOffice\PhpSpreadsheet\Calculation\Functions;
use PhpOffice\PhpSpreadsheet\Calculation\Information\ExcelError;

class ErfC
{
    use ArrayEnabled;

    /**
     * ERFC.
     *
     *    Returns the complementary ERF function integrated between x and infinity
     *
     *    Note: In Excel 2007 or earlier, if you input a negative value for the lower bound argument,
     *        the function would return a #NUM! error. However, in Excel 2010, the function algorithm was
     *        improved, so that it can now calculate the function for both positive and negative x values.
     *            PhpSpreadsheet follows Excel 2010 behaviour, and accepts nagative arguments.
     *
     *    Excel Function:
     *        ERFC(x)
     *
     * @param mixed $value The float lower bound for integrating ERFC
     *                      Or can be an array of values
     *
     * @return array|float|string
     *         If an array of numbers is passed as an argument, then the returned result will also be an array
     *            with the same dimensions
     */
    public static function ERFC($value)
    {
        if (is_array($value)) {
            return self::evaluateSingleArgumentArray([self::class, __FUNCTION__], $value);
        }

        if (is_numeric($value)) {
            return self::erfcValue($value);
        }

        return ExcelError::VALUE();
    }

    private const ONE_SQRT_PI = 0.564189583547756287;

    /**
     * Method to calculate the erfc value.
     *
     * @param float|int|string $value
     *
     * @return float
     */
    private static function erfcValue($value)
    {
        $value = (float) $value;
        if (abs($value) < 2.2) {
            return 1 - Erf::erfValue($value);
        }
        if ($value < 0) {
            return 2 - self::erfcValue(-$value);
        }
        $a = $n = 1;
        $b = $c = $value;
        $d = ($value * $value) + 0.5;
        $q2 = $b / $d;
        do {
            $t = $a * $n + $b * $value;
            $a = $b;
            $b = $t;
            $t = $c * $n + $d * $value;
            $c = $d;
            $d = $t;
            $n += 0.5;
            $q1 = $q2;
            $q2 = $b / $d;
        } while ((abs($q1 - $q2) / $q2) > Functions::PRECISION);

        return self::ONE_SQRT_PI * exp(-$value * $value) * $q2;
    }
}