baseConvert($operand, $base, 10); } $prod = bcmul($operand, '1'); if (bccomp($operand, $prod) !== 0) { return false; } return $sign . $operand; } /** * Add two big integers * * @param string $leftOperand * @param string $rightOperand * @return string */ public function add($leftOperand, $rightOperand) { return bcadd($leftOperand, $rightOperand); } /** * Subtract two big integers * * @param string $leftOperand * @param string $rightOperand * @return string */ public function sub($leftOperand, $rightOperand) { return bcsub($leftOperand, $rightOperand); } /** * Multiply two big integers * * @param string $leftOperand * @param string $rightOperand * @return string */ public function mul($leftOperand, $rightOperand) { return bcmul($leftOperand, $rightOperand); } /** * Divide two big integers and return integer part result. * Raises exception if the divisor is zero. * * @param string $leftOperand * @param string $rightOperand * @return string * @throws Exception\DivisionByZeroException */ public function div($leftOperand, $rightOperand) { if ($rightOperand == 0) { throw new Exception\DivisionByZeroException( "Division by zero; divisor = {$rightOperand}" ); } $result = bcdiv($leftOperand, $rightOperand); return $result; } /** * Raise a big integers to another * * @param string $operand * @param string $exp * @return string */ public function pow($operand, $exp) { return bcpow($operand, $exp); } /** * Get the square root of a big integer * * @param string $operand * @return string */ public function sqrt($operand) { return bcsqrt($operand); } /** * Get absolute value of a big integer * * @param string $operand * @return string */ public function abs($operand) { return ltrim($operand, '-'); } /** * Get modulus of a big integer * * @param string $leftOperand * @param string $rightOperand * @return string */ public function mod($leftOperand, $rightOperand) { return bcmod($leftOperand, $rightOperand); } /** * Raise a big integer to another, reduced by a specified modulus * * @param string $leftOperand * @param string $rightOperand * @param string $modulus * @return string */ public function powmod($leftOperand, $rightOperand, $modulus) { return bcpowmod($leftOperand, $rightOperand, $modulus); } /** * Compare two big integers and returns result as an integer where * Returns < 0 if leftOperand is less than rightOperand; * > 0 if leftOperand is greater than rightOperand, and 0 if they are equal. * * @param string $leftOperand * @param string $rightOperand * @return int */ public function comp($leftOperand, $rightOperand) { return bccomp($leftOperand, $rightOperand); } /** * Convert big integer into it's binary number representation * * @param string $operand * @param bool $twoc return in two's complement form * @return string */ public function intToBin($operand, $twoc = false) { $nb = chr(0); $isNegative = (strpos($operand, '-') === 0); $operand = ltrim($operand, '+-0'); if (empty($operand)) { return $nb; } if ($isNegative && $twoc) { $operand = bcsub($operand, '1'); } $bytes = ''; while (bccomp($operand, '0', 0) > 0) { $temp = bcmod($operand, '16777216'); $bytes = chr($temp >> 16) . chr($temp >> 8) . chr($temp) . $bytes; $operand = bcdiv($operand, '16777216'); } $bytes = ltrim($bytes, $nb); if ($twoc) { if (ord($bytes[0]) & 0x80) { $bytes = $nb . $bytes; } return $isNegative ? ~$bytes : $bytes; } return $bytes; } /** * Convert big integer into it's binary number representation * * @param string $bytes * @param bool $twoc whether binary number is in twos' complement form * @return string */ public function binToInt($bytes, $twoc = false) { $isNegative = ((ord($bytes[0]) & 0x80) && $twoc); if ($isNegative) { $bytes = ~$bytes; } $len = (strlen($bytes) + 3) & 0xfffffffc; $bytes = str_pad($bytes, $len, chr(0), STR_PAD_LEFT); $result = '0'; for ($i = 0; $i < $len; $i += 4) { $result = bcmul($result, '4294967296'); // 2**32 $result = bcadd($result, 0x1000000 * ord($bytes[$i]) + ((ord($bytes[$i + 1]) << 16) | (ord($bytes[$i + 2]) << 8) | ord($bytes[$i + 3]))); } if ($isNegative) { $result = bcsub('-' . $result, '1'); } return $result; } /** * Base conversion. Bases 2..62 are supported * * @param string $operand * @param int $fromBase * @param int $toBase * @return string * @throws Exception\InvalidArgumentException */ public function baseConvert($operand, $fromBase, $toBase = 10) { if ($fromBase == $toBase) { return $operand; } if ($fromBase < 2 || $fromBase > 62) { throw new Exception\InvalidArgumentException( "Unsupported base: {$fromBase}, should be 2..62" ); } if ($toBase < 2 || $toBase > 62) { throw new Exception\InvalidArgumentException( "Unsupported base: {$toBase}, should be 2..62" ); } $sign = (strpos($operand, '-') === 0) ? '-' : ''; $operand = ltrim($operand, '-+'); $chars = self::BASE62_ALPHABET; // convert to decimal if ($fromBase == 10) { $decimal = $operand; } else { $decimal = '0'; for ($i = 0, $len = strlen($operand); $i < $len; $i++) { $decimal = bcmul($decimal, $fromBase); $decimal = bcadd($decimal, strpos($chars, $operand[$i])); } } if ($toBase == 10) { return $decimal; } // convert decimal to base $result = ''; do { $remainder = bcmod($decimal, $toBase); $decimal = bcdiv($decimal, $toBase); $result = $chars[$remainder] . $result; } while (bccomp($decimal, '0')); return $sign . $result; } }