Php shift operation and shift operation learning notes. The following are some frequently used learning notes on php shift operations and shift operations. I hope the article will bring value to you. The bitwise operation application uses and when clearing the bit. some common learning notes about the php shift operation and shift operation can be used at a certain location or below. I hope the article will bring value to you.
Bit operation application tips
The bitwise is to be used with or at a specified position.
To reverse and exchange, you can easily use an exception or
Shift operation
Key aspect 1: they are binary operators, both of which are integers, and the result is also an integer.
2 "<" left shift: fill 0 on the right blank bit. the left bit will be squeezed out from the header, and its value is equal to 2.
3 ">" right shift: the right bit is squeezed out. For the vacant positions removed from the left, if it is a positive number, the vacant space is supplemented with 0. if it is a negative number, it may be supplemented with 0 or 1, depending on the computer system used.
4 ">>>" operator, the right bit is squeezed out, and 0 is added for the left Removed space.
Application of bitwise operators (source operand s mask)
(1) bitwise and --&
1. reset the special location (0 for a specific position in the mask, 1 for other bits, s = s & mask)
2. locate a specified position in a specified number (1 in mask, 0 for other bits, s = s & mask)
(2) bitwise OR -- |
It is often used to set the source operand to some positions of 1, and the other bits remain unchanged. (In mask, the specific position is 1, and the other bit is 0 s = s | mask)
(3) bitwise OR -- ^
1. reverse the value of the specific location (1 in a specific position in mask and 0 s = s ^ mask in other bits)
2. if the third variable is not introduced, the values of the two variables are exchanged (set a = a1, B = b1)
Status after operation
A = a1 ^ b1 a = a ^ B a = a1 ^ b1, B = b1
B = a1 ^ b1 ^ b1 B = a ^ B a = a1 ^ b1, B = a1
A = b1 ^ a1 ^ a1 a = a ^ B a = b1, B = a1
Binary complement calculation formula:
-X = ~ X + 1 = ~ X-1)
~ X =-X-1
-(~ X) = x + 1
~ (-X) = x-1
X + y = x -~ Y-1 = (x | y) + (x & y)
X-y = x ++ ~ Y + 1 = (x | ~ Y )-(~ X & y)
X ^ y = (x | y)-(x & y)
X | y = (x &~ Y) + y
X & y = (~ X | y )-~ X
X = y :~ (X-y | y-x)
X! = Y: x-y | y-x
X <y: (x-y) ^ (x ^ y) & (x-y) ^ x ))
X <= y: (x | ~ Y) & (x ^ y) | ~ (Y-x ))
X <y :(~ X & y) | ((~ X | y) & (x-y) // comparison of unsigned x and y
X <= y :(~ X | y) & (x ^ y) | ~ (Y-x) // unsigned x, y comparison
Application example
(1) judge whether int variable a is an odd or even number.
A & 1 = 0 even
A & 1 = 1 Odd
(2) take the k-bit (k =, 2…) Of int-type variable ...... Sizeof (int), that is, a> k & 1
(3) clear the k bit of int variable a by 0, that is, a = &~ (1 <
(4) place the k position of int type variable a 1, that is, a = a | (1 <
(5) int type variable loops are shifted k times left, that is, a = a < > 16-k (set sizeof (int) = 16)
(6) int type variable a shifts k times to the right, that is, a = a> k | a <16-k (set sizeof (int) = 16)
(7) average integer
If two integers x and y are used to calculate the average value (x + y)/2, the overflow will occur, because x + y may be greater than INT_MAX, however, we know that their average values will certainly not overflow. We use the following algorithm:
Int average (int x, int y) // returns the average value of X and Y.
{
Return (x & y) + (x ^ y)> 1 );
}
(8) judge whether an integer is the power of 2. for a number x> = 0, determine whether it is the power of 2.
Boolean power2 (int x)
{
Return (x & (x-1) = 0) & (x! = 0 );
}
(9) two integers are not exchanged using temp.
Void swap (int x, int y)
{
X ^ = y;
Y ^ = x;
X ^ = y;
}
(10) calculate the absolute value
Int abs (int x)
{
Int y;
Y = x> 31;
Return (x ^ y)-y; // or: (x + y) ^ y
}
(11) modulo operation into bitwise operation (without overflow)
A % (2 ^ n) is equivalent to a & (2 ^ n-1)
(12) multiplication is converted into bitwise operations (without overflow)
A * (2 ^ n) is equivalent to a <n
(13) division operations are converted into bitwise operations (without overflow)
A/(2 ^ n) is equivalent to a> n
For example: 12/8 = 12> 3
(14) a % 2 is equivalent to a & 1
(15) if (x = a) x = B;
Else x =;
It is equivalent to x = a ^ B ^ x;
(16) the opposite number of x is expressed (~ X + 1)
Finally, add some binary displacement operations.
PHP is mainly designed for text operations. In fact, PHP is not suitable for mathematical operations and is inefficient. However, this project has something that must be used for binary displacement operations, I encountered some trouble in PHP.
Because PHP only has 32-bit signed integers, neither 64-bit long integers nor unsigned integers. The integer range is-231-1 ~ 231, beyond this range, will be interpreted as floating point. Therefore, 0 xFFFFFFFF is printed directly, and the display is 4294967295, and 232:
> 0 xFFFFFFFFF
4294967295
> Gettype (0 xFFFFFFFF)
'Double'
In a 32-bit signed integer, 0xFFFFFFFF indicates-1:
> (Int) 0 xFFFFFFFFF
-1
PHP does not support binary displacement of floating point numbers. if you want to perform this operation, it will first convert it to an integer type. The final result will also be returned according to the integer type:
> 1 <31
-2147483648
> 1 <30
1073741824
> 1 <32
1
> 0 xFFFFFFFF> 1
-1
At the same time, PHP's right displacement operation will fill the sign bit in the high position, and PHP does not provide a Java-like >>> to force fill 0:
> 1 <32
1
> 0 xFFFFFFFF> 1
-1
> 0 xFFFFFFFF> 2
-1
> 0 xFFFFFFFF> 3
-1
> 0 xFFFFFFFF> 31
-1
How can I solve this problem? I have considered using the BCMath function library to directly process integers expressed by strings, or GMP/BigInt extensions. However, since I want to use strings, I can thoroughly convert the numbers into 32 binary strings, then manually fill them with 0, and finally convert them back.
I don't know which one has a better method. please let me know.
The code is as follows:
Download the code directly: shift. php
(In addition, the code can be extended to any bitwise binary displacement operation, which I did not do here)
PHP
The code is as follows: |
|
/** * Unsigned 32-bit right shift * @ Param mixed $ x indicates the number to be operated. if it is a string, it must be in decimal format. * @ Param string $ bits right-shifted digits * @ Return mixed result. if the integer range is exceeded, the floating point number is returned. */ Function shr32 ($ x, $ bits ){ // Two situations in which the displacement exceeds the range If ($ bits <= 0 ){ Return $ x; } If ($ bits> = 32 ){ Return 0; } // Convert to a string that represents a binary number $ Bin = decbin ($ x ); $ L = strlen ($ bin ); // If the length of the string exceeds the limit, the minimum 32 bits are intercepted. if the length is not enough, the padding height is 0 to 32 bits. If ($ l> 32 ){ $ Bin = substr ($ bin, $ l-32, 32 ); } Elseif ($ l <32 ){ $ Bin = str_pad ($ bin, 32, '0', STR_PAD_LEFT ); } // Retrieve the number of digits to be moved and fill it with 0 on the left Return bindec (str_pad (substr ($ bin, 0, 32-$ bits), 32, '0', STR_PAD_LEFT )); } /** * Unsigned 32-bit left shift * @ Param mixed $ x indicates the number to be operated. if it is a string, it must be in decimal format. * @ Param string $ bits left-shifted digits * @ Return mixed result. if the integer range is exceeded, the floating point number is returned. */ Function shl32 ($ x, $ bits ){ // Two situations in which the displacement exceeds the range If ($ bits <= 0 ){ Return $ x; } If ($ bits> = 32 ){ Return 0; } // Convert to a string that represents a binary number $ Bin = decbin ($ x ); $ L = strlen ($ bin ); // If the length of the string exceeds the limit, the minimum 32 bits are intercepted. if the length is not enough, the padding height is 0 to 32 bits. If ($ l> 32 ){ $ Bin = substr ($ bin, $ l-32, 32 ); } Elseif ($ l <32 ){ $ Bin = str_pad ($ bin, 32, '0', STR_PAD_LEFT ); } // Retrieve the number of digits to be moved and fill 0 in the right Return bindec (str_pad (substr ($ bin, $ bits), 32, '0', STR_PAD_RIGHT )); } |
Bytes. Bitwise operations are used and when bit is cleared, a certain location can be used or...