flatbuffers/php/ByteBuffer.php

496 lines
12 KiB
PHP

<?php
/*
* Copyright 2015 Google Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
namespace Google\FlatBuffers;
class ByteBuffer
{
/**
* @var string $_buffer;
*/
public $_buffer;
/**
* @var int $_pos;
*/
private $_pos;
/**
* @var bool $_is_little_endian
*/
private static $_is_little_endian = null;
public static function wrap($bytes)
{
$bb = new ByteBuffer(0);
$bb->_buffer = $bytes;
return $bb;
}
/**
* @param $size
*/
public function __construct($size)
{
$this->_buffer = str_repeat("\0", $size);
}
/**
* @return int
*/
public function capacity()
{
return strlen($this->_buffer);
}
/**
* @return int
*/
public function getPosition()
{
return $this->_pos;
}
/**
* @param $pos
*/
public function setPosition($pos)
{
$this->_pos = $pos;
}
/**
*
*/
public function reset()
{
$this->_pos = 0;
}
/**
* @return int
*/
public function length()
{
return strlen($this->_buffer);
}
/**
* @return string
*/
public function data()
{
return substr($this->_buffer, $this->_pos);
}
/**
* @return bool
*/
public static function isLittleEndian()
{
if (ByteBuffer::$_is_little_endian === null) {
ByteBuffer::$_is_little_endian = unpack('S', "\x01\x00")[1] === 1;
}
return ByteBuffer::$_is_little_endian;
}
/**
* write little endian value to the buffer.
*
* @param $offset
* @param $count byte length
* @param $data actual values
*/
public function writeLittleEndian($offset, $count, $data)
{
if (ByteBuffer::isLittleEndian()) {
for ($i = 0; $i < $count; $i++) {
$this->_buffer[$offset + $i] = chr($data >> $i * 8);
}
} else {
for ($i = 0; $i < $count; $i++) {
$this->_buffer[$offset + $count - 1 - $i] = chr($data >> $i * 8);
}
}
}
/**
* read little endian value from the buffer
*
* @param $offset
* @param $count acutal size
* @return int
*/
public function readLittleEndian($offset, $count, $force_bigendian = false)
{
$this->assertOffsetAndLength($offset, $count);
$r = 0;
if (ByteBuffer::isLittleEndian() && $force_bigendian == false) {
for ($i = 0; $i < $count; $i++) {
$r |= ord($this->_buffer[$offset + $i]) << $i * 8;
}
} else {
for ($i = 0; $i < $count; $i++) {
$r |= ord($this->_buffer[$offset + $count -1 - $i]) << $i * 8;
}
}
return $r;
}
/**
* @param $offset
* @param $length
*/
public function assertOffsetAndLength($offset, $length)
{
if ($offset < 0 ||
$offset >= strlen($this->_buffer) ||
$offset + $length > strlen($this->_buffer)) {
throw new \OutOfRangeException(sprintf("offset: %d, length: %d, buffer; %d", $offset, $length, strlen($this->_buffer)));
}
}
/**
* @param $offset
* @param $value
* @return mixed
*/
public function putSbyte($offset, $value)
{
self::validateValue(-128, 127, $value, "sbyte");
$length = strlen($value);
$this->assertOffsetAndLength($offset, $length);
return $this->_buffer[$offset] = $value;
}
/**
* @param $offset
* @param $value
* @return mixed
*/
public function putByte($offset, $value)
{
self::validateValue(0, 255, $value, "byte");
$length = strlen($value);
$this->assertOffsetAndLength($offset, $length);
return $this->_buffer[$offset] = $value;
}
/**
* @param $offset
* @param $value
*/
public function put($offset, $value)
{
$length = strlen($value);
$this->assertOffsetAndLength($offset, $length);
for ($i = 0; $i < $length; $i++) {
$this->_buffer[$offset + $i] = $value[$i];
}
}
/**
* @param $offset
* @param $value
*/
public function putShort($offset, $value)
{
self::validateValue(-32768, 32767, $value, "short");
$this->assertOffsetAndLength($offset, 2);
$this->writeLittleEndian($offset, 2, $value);
}
/**
* @param $offset
* @param $value
*/
public function putUshort($offset, $value)
{
self::validateValue(0, 65535, $value, "short");
$this->assertOffsetAndLength($offset, 2);
$this->writeLittleEndian($offset, 2, $value);
}
/**
* @param $offset
* @param $value
*/
public function putInt($offset, $value)
{
self::validateValue(~PHP_INT_MAX, PHP_INT_MAX, $value, "int");
$this->assertOffsetAndLength($offset, 4);
$this->writeLittleEndian($offset, 4, $value);
}
/**
* @param $offset
* @param $value
*/
public function putUint($offset, $value)
{
// NOTE: We can't put big integer value. this is PHP limitation.
self::validateValue(0, PHP_INT_MAX, $value, "uint", " php has big numbers limitation. check your PHP_INT_MAX");
$this->assertOffsetAndLength($offset, 4);
$this->writeLittleEndian($offset, 4, $value);
}
/**
* @param $offset
* @param $value
*/
public function putLong($offset, $value)
{
// NOTE: We can't put big integer value. this is PHP limitation.
self::validateValue(~PHP_INT_MAX, PHP_INT_MAX, $value, "long", " php has big numbers limitation. check your PHP_INT_MAX");
$this->assertOffsetAndLength($offset, 8);
$this->writeLittleEndian($offset, 8, $value);
}
/**
* @param $offset
* @param $value
*/
public function putUlong($offset, $value)
{
// NOTE: We can't put big integer value. this is PHP limitation.
self::validateValue(0, PHP_INT_MAX, $value, "long", " php has big numbers limitation. check your PHP_INT_MAX");
$this->assertOffsetAndLength($offset, 8);
$this->writeLittleEndian($offset, 8, $value);
}
/**
* @param $offset
* @param $value
*/
public function putFloat($offset, $value)
{
$this->assertOffsetAndLength($offset, 4);
$floathelper = pack("f", $value);
$v = unpack("V", $floathelper);
$this->writeLittleEndian($offset, 4, $v[1]);
}
/**
* @param $offset
* @param $value
*/
public function putDouble($offset, $value)
{
$this->assertOffsetAndLength($offset, 8);
$floathelper = pack("d", $value);
$v = unpack("V*", $floathelper);
$this->writeLittleEndian($offset, 4, $v[1]);
$this->writeLittleEndian($offset + 4, 4, $v[2]);
}
/**
* @param $index
* @return mixed
*/
public function getByte($index)
{
return ord($this->_buffer[$index]);
}
/**
* @param $index
* @return mixed
*/
public function getSbyte($index)
{
$v = unpack("c", $this->_buffer[$index]);
return $v[1];
}
/**
* @param $buffer
*/
public function getX(&$buffer)
{
for ($i = $this->_pos, $j = 0; $j < strlen($buffer); $i++, $j++) {
$buffer[$j] = $this->_buffer[$i];
}
}
/**
* @param $index
* @return mixed
*/
public function get($index)
{
$this->assertOffsetAndLength($index, 1);
return $this->_buffer[$index];
}
/**
* @param $index
* @return mixed
*/
public function getBool($index)
{
return (bool)ord($this->_buffer[$index]);
}
/**
* @param $index
* @return int
*/
public function getShort($index)
{
$result = $this->readLittleEndian($index, 2);
return self::convertHelper(self::__SHORT, $result);
}
/**
* @param $index
* @return int
*/
public function getUShort($index)
{
return $this->readLittleEndian($index, 2);
}
/**
* @param $index
* @return int
*/
public function getInt($index)
{
$result = $this->readLittleEndian($index, 4);
return self::convertHelper(self::__INT, $result);
}
/**
* @param $index
* @return int
*/
public function getUint($index)
{
return $this->readLittleEndian($index, 4);
}
/**
* @param $index
* @return int
*/
public function getLong($index)
{
$result = $this->readLittleEndian($index, 8);
return self::convertHelper(self::__LONG, $result);
}
/**
* @param $index
* @return int
*/
public function getUlong($index)
{
return $this->readLittleEndian($index, 8);
}
/**
* @param $index
* @return mixed
*/
public function getFloat($index)
{
$i = $this->readLittleEndian($index, 4);
return self::convertHelper(self::__FLOAT, $i);
}
/**
* @param $index
* @return float
*/
public function getDouble($index)
{
$i = $this->readLittleEndian($index, 4);
$i2 = $this->readLittleEndian($index + 4, 4);
return self::convertHelper(self::__DOUBLE, $i, $i2);
}
const __SHORT = 1;
const __INT = 2;
const __LONG = 3;
const __FLOAT = 4;
const __DOUBLE = 5;
private static function convertHelper($type, $value, $value2 = null) {
// readLittleEndian construct unsigned integer value from bytes. we have to encode this value to
// correct bytes, and decode as expected types with `unpack` function.
// then it returns correct type value.
// see also: http://php.net/manual/en/function.pack.php
switch ($type) {
case self::__SHORT:
$helper = pack("v", $value);
$v = unpack("s", $helper);
return $v[1];
break;
case self::__INT:
$helper = pack("V", $value);
$v = unpack("l", $helper);
return $v[1];
break;
case self::__LONG:
$helper = pack("P", $value);
$v = unpack("q", $helper);
return $v[1];
break;
case self::__FLOAT:
$inthelper = pack("V", $value);
$v = unpack("f", $inthelper);
return $v[1];
break;
case self::__DOUBLE:
$inthelper = pack("VV", $value, $value2);
$v = unpack("d", $inthelper);
return $v[1];
break;
default:
throw new \Exception(sprintf("unexpected type %d specified", $type));
}
}
private static function validateValue($min, $max, $value, $type, $additional_notes = "") {
if(!($min <= $value && $value <= $max)) {
throw new \InvalidArgumentException(sprintf("bad number %s for type %s.%s", $value, $type, $additional_notes));
}
}
}