cycleCheck = $cycleCheck; $this->options = $options; } /** * Use the JSON encoding scheme for the value specified. * * @param mixed $value The value to be encoded. * @param bool $cycleCheck Whether or not to check for possible object recursion when encoding. * @param array $options Additional options used during encoding. * @return string The encoded value. */ public static function encode($value, $cycleCheck = false, array $options = []) { $encoder = new static($cycleCheck, $options); if ($value instanceof JsonSerializable) { $value = $value->jsonSerialize(); } return $encoder->encodeValue($value); } /** * Encode a value to JSON. * * Recursive method which determines the type of value to be encoded * and then dispatches to the appropriate method. * * $values are either * - objects (returns from {@link encodeObject()}) * - arrays (returns from {@link encodeArray()}) * - scalars (returns from {@link encodeDatum()}) * * @param $value mixed The value to be encoded. * @return string Encoded value. */ protected function encodeValue(&$value) { if (is_object($value)) { return $this->encodeObject($value); } if (is_array($value)) { return $this->encodeArray($value); } return $this->encodeDatum($value); } /** * Encode an object to JSON by encoding each of the public properties. * * A special property is added to the JSON object called '__className' that * contains the classname of $value; this can be used by consumers of the * resulting JSON to cast to the specific class. * * @param $value object * @return string * @throws RecursionException If recursive checks are enabled and the * object has been serialized previously. */ protected function encodeObject(&$value) { if ($this->cycleCheck) { if ($this->wasVisited($value)) { if (! isset($this->options['silenceCyclicalExceptions']) || $this->options['silenceCyclicalExceptions'] !== true ) { throw new RecursionException(sprintf( 'Cycles not supported in JSON encoding; cycle introduced by class "%s"', get_class($value) )); } return '"* RECURSION (' . str_replace('\\', '\\\\', get_class($value)) . ') *"'; } $this->visited[] = $value; } $props = ''; if (method_exists($value, 'toJson')) { $props = ',' . preg_replace("/^\{(.*)\}$/", "\\1", $value->toJson()); } else { if ($value instanceof IteratorAggregate) { $propCollection = $value->getIterator(); } elseif ($value instanceof Iterator) { $propCollection = $value; } else { $propCollection = get_object_vars($value); } foreach ($propCollection as $name => $propValue) { if (! isset($propValue)) { continue; } $props .= ',' . $this->encodeValue($name) . ':' . $this->encodeValue($propValue); } } $className = get_class($value); return '{"__className":' . $this->encodeString($className) . $props . '}'; } /** * Determine if an object has been serialized already. * * @param mixed $value * @return bool */ protected function wasVisited(&$value) { if (in_array($value, $this->visited, true)) { return true; } return false; } /** * JSON encode an array value. * * Recursively encodes each value of an array and returns a JSON encoded * array string. * * Arrays are defined as integer-indexed arrays starting at index 0, where * the last index is (count($array) -1); any deviation from that is * considered an associative array, and will be passed to * {@link encodeAssociativeArray()}. * * @param $array array * @return string */ protected function encodeArray($array) { // Check for associative array if (! empty($array) && (array_keys($array) !== range(0, count($array) - 1))) { // Associative array return $this->encodeAssociativeArray($array); } // Indexed array $tmpArray = []; $result = '['; $length = count($array); for ($i = 0; $i < $length; $i++) { $tmpArray[] = $this->encodeValue($array[$i]); } $result .= implode(',', $tmpArray); $result .= ']'; return $result; } /** * Encode an associative array to JSON. * * JSON does not have a concept of associative arrays; as such, we encode * them to objects. * * @param array $array Array to encode. * @return string */ protected function encodeAssociativeArray($array) { $tmpArray = []; $result = '{'; foreach ($array as $key => $value) { $tmpArray[] = sprintf( '%s:%s', $this->encodeString((string) $key), $this->encodeValue($value) ); } $result .= implode(',', $tmpArray); $result .= '}'; return $result; } /** * JSON encode a scalar data type (string, number, boolean, null). * * If value type is not a string, number, boolean, or null, the string * 'null' is returned. * * @param mixed $value * @return string */ protected function encodeDatum($value) { if (is_int($value) || is_float($value)) { return str_replace(',', '.', (string) $value); } if (is_string($value)) { return $this->encodeString($value); } if (is_bool($value)) { return $value ? 'true' : 'false'; } return 'null'; } /** * JSON encode a string value by escaping characters as necessary. * * @param string $string * @return string */ protected function encodeString($string) { // @codingStandardsIgnoreStart // Escape these characters with a backslash or unicode escape: // " \ / \n \r \t \b \f $search = ['\\', "\n", "\t", "\r", "\b", "\f", '"', '\'', '&', '<', '>', '/']; $replace = ['\\\\', '\\n', '\\t', '\\r', '\\b', '\\f', '\\u0022', '\\u0027', '\\u0026', '\\u003C', '\\u003E', '\\/']; $string = str_replace($search, $replace, $string); // @codingStandardsIgnoreEnd // Escape certain ASCII characters: // 0x08 => \b // 0x0c => \f $string = str_replace([chr(0x08), chr(0x0C)], ['\b', '\f'], $string); $string = self::encodeUnicodeString($string); return '"' . $string . '"'; } /** * Encode the constants associated with the ReflectionClass parameter. * * The encoding format is based on the class2 format. * * @param ReflectionClass $class * @return string Encoded constant block in class2 format */ private static function encodeConstants(ReflectionClass $class) { $result = "constants:{"; $constants = $class->getConstants(); if (empty($constants)) { return $result . '}'; } $tmpArray = []; foreach ($constants as $key => $value) { $tmpArray[] = sprintf('%s: %s', $key, self::encode($value)); } $result .= implode(', ', $tmpArray); return $result . "}"; } /** * Encode the public methods of the ReflectionClass in the class2 format * * @param ReflectionClass $class * @return string Encoded method fragment. */ private static function encodeMethods(ReflectionClass $class) { $result = 'methods:{'; $started = false; foreach ($class->getMethods() as $method) { if (! $method->isPublic() || ! $method->isUserDefined()) { continue; } if ($started) { $result .= ','; } $started = true; $result .= sprintf('%s:function(', $method->getName()); if ('__construct' === $method->getName()) { $result .= '){}'; continue; } $argsStarted = false; $argNames = "var argNames=["; foreach ($method->getParameters() as $param) { if ($argsStarted) { $result .= ','; } $result .= $param->getName(); if ($argsStarted) { $argNames .= ','; } $argNames .= sprintf('"%s"', $param->getName()); $argsStarted = true; } $argNames .= "];"; $result .= "){" . $argNames . 'var result = ZAjaxEngine.invokeRemoteMethod(' . "this, '" . $method->getName() . "',argNames,arguments);" . 'return(result);}'; } return $result . "}"; } /** * Encode the public properties of the ReflectionClass in the class2 format. * * @param ReflectionClass $class * @return string Encode properties list * */ private static function encodeVariables(ReflectionClass $class) { $propValues = get_class_vars($class->getName()); $result = "variables:{"; $tmpArray = []; foreach ($class->getProperties() as $prop) { if (! $prop->isPublic()) { continue; } $name = $prop->getName(); $tmpArray[] = sprintf('%s:%s', $name, self::encode($propValues[$name])); } $result .= implode(',', $tmpArray); return $result . "}"; } /** * Encodes the given $className into the class2 model of encoding PHP classes into JavaScript class2 classes. * * NOTE: Currently only public methods and variables are proxied onto the * client machine * * @param $className string The name of the class, the class must be * instantiable using a null constructor. * @param $package string Optional package name appended to JavaScript * proxy class name. * @return string The class2 (JavaScript) encoding of the class. * @throws InvalidArgumentException */ public static function encodeClass($className, $package = '') { $class = new ReflectionClass($className); if (! $class->isInstantiable()) { throw new InvalidArgumentException(sprintf( '"%s" must be instantiable', $className )); } return sprintf( 'Class.create(\'%s%s\',{%s,%s,%s});', $package, $className, self::encodeConstants($class), self::encodeMethods($class), self::encodeVariables($class) ); } /** * Encode several classes at once. * * Returns JSON encoded classes, using {@link encodeClass()}. * * @param string[] $classNames * @param string $package * @return string */ public static function encodeClasses(array $classNames, $package = '') { $result = ''; foreach ($classNames as $className) { $result .= static::encodeClass($className, $package); } return $result; } /** * Encode Unicode Characters to \u0000 ASCII syntax. * * This algorithm was originally developed for the Solar Framework by Paul * M. Jones. * * @link http://solarphp.com/ * @link https://github.com/solarphp/core/blob/master/Solar/Json.php * @param string $value * @return string */ public static function encodeUnicodeString($value) { $strlenVar = strlen($value); $ascii = ""; // Iterate over every character in the string, escaping with a slash or // encoding to UTF-8 where necessary. for ($i = 0; $i < $strlenVar; $i++) { $ordVarC = ord($value[$i]); switch (true) { case (($ordVarC >= 0x20) && ($ordVarC <= 0x7F)): // characters U-00000000 - U-0000007F (same as ASCII) $ascii .= $value[$i]; break; case (($ordVarC & 0xE0) == 0xC0): // characters U-00000080 - U-000007FF, mask 110XXXXX // see http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 $char = pack('C*', $ordVarC, ord($value[$i + 1])); $i += 1; $utf16 = self::utf82utf16($char); $ascii .= sprintf('\u%04s', bin2hex($utf16)); break; case (($ordVarC & 0xF0) == 0xE0): // characters U-00000800 - U-0000FFFF, mask 1110XXXX // see http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 $char = pack( 'C*', $ordVarC, ord($value[$i + 1]), ord($value[$i + 2]) ); $i += 2; $utf16 = self::utf82utf16($char); $ascii .= sprintf('\u%04s', bin2hex($utf16)); break; case (($ordVarC & 0xF8) == 0xF0): // characters U-00010000 - U-001FFFFF, mask 11110XXX // see http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 $char = pack( 'C*', $ordVarC, ord($value[$i + 1]), ord($value[$i + 2]), ord($value[$i + 3]) ); $i += 3; $utf16 = self::utf82utf16($char); $ascii .= sprintf('\u%04s', bin2hex($utf16)); break; case (($ordVarC & 0xFC) == 0xF8): // characters U-00200000 - U-03FFFFFF, mask 111110XX // see http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 $char = pack( 'C*', $ordVarC, ord($value[$i + 1]), ord($value[$i + 2]), ord($value[$i + 3]), ord($value[$i + 4]) ); $i += 4; $utf16 = self::utf82utf16($char); $ascii .= sprintf('\u%04s', bin2hex($utf16)); break; case (($ordVarC & 0xFE) == 0xFC): // characters U-04000000 - U-7FFFFFFF, mask 1111110X // see http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 $char = pack( 'C*', $ordVarC, ord($value[$i + 1]), ord($value[$i + 2]), ord($value[$i + 3]), ord($value[$i + 4]), ord($value[$i + 5]) ); $i += 5; $utf16 = self::utf82utf16($char); $ascii .= sprintf('\u%04s', bin2hex($utf16)); break; } } return $ascii; } /** * Convert a string from one UTF-8 char to one UTF-16 char. * * Normally should be handled by mb_convert_encoding, but provides a slower * PHP-only method for installations that lack the multibyte string * extension. * * This method is from the Solar Framework by Paul M. Jones. * * @link http://solarphp.com * @param string $utf8 UTF-8 character * @return string UTF-16 character */ protected static function utf82utf16($utf8) { // Check for mb extension otherwise do by hand. if (function_exists('mb_convert_encoding')) { return mb_convert_encoding($utf8, 'UTF-16', 'UTF-8'); } switch (strlen($utf8)) { case 1: // This case should never be reached, because we are in ASCII range; // see: http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 return $utf8; case 2: // Return a UTF-16 character from a 2-byte UTF-8 char; // see: http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 return chr(0x07 & (ord($utf8[0]) >> 2)) . chr((0xC0 & (ord($utf8[0]) << 6)) | (0x3F & ord($utf8[1]))); case 3: // Return a UTF-16 character from a 3-byte UTF-8 char; // see: http://www.cl.cam.ac.uk/~mgk25/unicode.html#utf-8 return chr((0xF0 & (ord($utf8[0]) << 4)) | (0x0F & (ord($utf8[1]) >> 2))) . chr((0xC0 & (ord($utf8[1]) << 6)) | (0x7F & ord($utf8[2]))); } // ignoring UTF-32 for now, sorry return ''; } }