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<?php /** * Parses string representations into their corresponding native PHP * variable type. The base implementation does a simple type-check. */ class HTMLPurifier_VarParser { const C_STRING = 1; const ISTRING = 2; const TEXT = 3; const ITEXT = 4; const C_INT = 5; const C_FLOAT = 6; const C_BOOL = 7; const LOOKUP = 8; const ALIST = 9; const HASH = 10; const C_MIXED = 11; /** * Lookup table of allowed types. Mainly for backwards compatibility, but * also convenient for transforming string type names to the integer constants. */ public static $types = array( 'string' => self::C_STRING, 'istring' => self::ISTRING, 'text' => self::TEXT, 'itext' => self::ITEXT, 'int' => self::C_INT, 'float' => self::C_FLOAT, 'bool' => self::C_BOOL, 'lookup' => self::LOOKUP, 'list' => self::ALIST, 'hash' => self::HASH, 'mixed' => self::C_MIXED ); /** * Lookup table of types that are string, and can have aliases or * allowed value lists. */ public static $stringTypes = array( self::C_STRING => true, self::ISTRING => true, self::TEXT => true, self::ITEXT => true, ); /** * Validate a variable according to type. * It may return NULL as a valid type if $allow_null is true. * * @param mixed $var Variable to validate * @param int $type Type of variable, see HTMLPurifier_VarParser->types * @param bool $allow_null Whether or not to permit null as a value * @return string Validated and type-coerced variable * @throws HTMLPurifier_VarParserException */ final public function parse($var, $type, $allow_null = false) { if (is_string($type)) { if (!isset(HTMLPurifier_VarParser::$types[$type])) { throw new HTMLPurifier_VarParserException("Invalid type '$type'"); } else { $type = HTMLPurifier_VarParser::$types[$type]; } } $var = $this->parseImplementation($var, $type, $allow_null); if ($allow_null && $var === null) { return null; } // These are basic checks, to make sure nothing horribly wrong // happened in our implementations. switch ($type) { case (self::C_STRING): case (self::ISTRING): case (self::TEXT): case (self::ITEXT): if (!is_string($var)) { break; } if ($type == self::ISTRING || $type == self::ITEXT) { $var = strtolower($var); } return $var; case (self::C_INT): if (!is_int($var)) { break; } return $var; case (self::C_FLOAT): if (!is_float($var)) { break; } return $var; case (self::C_BOOL): if (!is_bool($var)) { break; } return $var; case (self::LOOKUP): case (self::ALIST): case (self::HASH): if (!is_array($var)) { break; } if ($type === self::LOOKUP) { foreach ($var as $k) { if ($k !== true) { $this->error('Lookup table contains value other than true'); } } } elseif ($type === self::ALIST) { $keys = array_keys($var); if (array_keys($keys) !== $keys) { $this->error('Indices for list are not uniform'); } } return $var; case (self::C_MIXED): return $var; default: $this->errorInconsistent(get_class($this), $type); } $this->errorGeneric($var, $type); } /** * Actually implements the parsing. Base implementation does not * do anything to $var. Subclasses should overload this! * @param mixed $var * @param int $type * @param bool $allow_null * @return string */ protected function parseImplementation($var, $type, $allow_null) { return $var; } /** * Throws an exception. * @throws HTMLPurifier_VarParserException */ protected function error($msg) { throw new HTMLPurifier_VarParserException($msg); } /** * Throws an inconsistency exception. * @note This should not ever be called. It would be called if we * extend the allowed values of HTMLPurifier_VarParser without * updating subclasses. * @param string $class * @param int $type * @throws HTMLPurifier_Exception */ protected function errorInconsistent($class, $type) { throw new HTMLPurifier_Exception( "Inconsistency in $class: " . HTMLPurifier_VarParser::getTypeName($type) . " not implemented" ); } /** * Generic error for if a type didn't work. * @param mixed $var * @param int $type */ protected function errorGeneric($var, $type) { $vtype = gettype($var); $this->error("Expected type " . HTMLPurifier_VarParser::getTypeName($type) . ", got $vtype"); } /** * @param int $type * @return string */ public static function getTypeName($type) { static $lookup; if (!$lookup) { // Lazy load the alternative lookup table $lookup = array_flip(HTMLPurifier_VarParser::$types); } if (!isset($lookup[$type])) { return 'unknown'; } return $lookup[$type]; } } // vim: et sw=4 sts=4

About Section

About NFC Pay: Our Story and Mission

NFC Pay was founded with a vision to transform the way people handle transactions. Our journey is defined by a commitment to innovation, security, and convenience. We strive to deliver seamless, user-friendly payment solutions that make everyday transactions effortless and secure. Our mission is to empower you to pay with ease and confidence, anytime, anywhere.

Simplifying Payments, One Tap at a Time.
Reinventing Your Wallet for Modern Convenience.
Smart Payments for a Effortless Lifestyle.
Experience the Ease of Tap and Pay.
Innovative Solutions for Your Daily Transactions.

FAQ Section

Frequently Asked Questions About NFC Pay

Here are answers to some common questions about NFC Pay. We aim to provide clear and concise information to help you understand how our platform works and how it can benefit you. If you have any further inquiries, please don’t hesitate to contact our support team.

How do I register for NFC Pay?

Download the app and sign up using your email or phone number, then complete the verification process.

Is my payment information secure?

Yes, we use advanced encryption and security protocols to protect your payment details.

Can I add multiple cards to my NFC Pay wallet?

Absolutely, you can link multiple debit or credit cards to your wallet.

How do I transfer money to another user?

Go to the transfer section, select the recipient, enter the amount, and authorize the transfer.

What should I do if I forget my PIN?

Use the “Forgot PIN” feature in the app to reset it following the provided instructions.

How can I activate my merchant account?

Can I track my payment status?

Yes, you can view and track your payment status in the account dashboard