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See the recommended documentation of this function
bitor
bitwise OR
Calling Sequence
z = bitor(x, y)
Parameters
- x :
a
m
-by-n
matrix of doubles or am1
-by-m2
-by-...-by-mm
hypermatrix of doubles or am
-by-n
matrix of unsigned integers (uint8
,uint16
oruint32
). Must contain positive integer values.- y :
a
m
-by-n
matrix of doubles or am1
-by-m2
-by-...-by-mm
hypermatrix of doubles or am
-by-n
matrix of unsigned integers (uint8
,uint16
oruint32
). Must contain positive integer values.- z :
a
m
-by-n
matrix of doubles or am1
-by-m2
-by-...-by-mm
hypermatrix of doubles or am
-by-n
matrix of integers.
Description
Given x
and y
two positive integers, this function returns the decimal
number z
whose the binary form is the OR of the binary representations
of x
and y
.
x
, y
, z
have the same size.
Examples
// '110000' : is the binary representation of 48 // '100101' : is the binary representation of 37 // '110101' : is the binary representation for the OR applied to the binary forms 48 and 37 // so the decimal number corresponding to the OR applied to binary forms 48 and 37 is : 53 x=48; y=37; z=bitor(x,y) // Compute the bitwise OR of two matrices of doubles. x=[12,45]; y=[25,49]; z=bitor(x,y) // Compute the bitwise OR of two matrices of doubles. x = [0 1 0 1]; y = [0 0 1 1]; z = bitor(x, y) expected = [0 1 1 1]; // Compute the bitwise OR of two matrices of integers. x = uint8([0 1 0 1]); y = uint8([0 0 1 1]); z = bitor(x, y) // The types of x and y cannot be mixed (error). x = [0 1 0 1]; y = uint8([0 0 1 1]); // z = bitor(x, y) // 13 is (01101)_2 // 27 is (11011)_2 // OR is (11111)_2 which is 31. bitor(uint8(13), uint8(27)) bitor(13, 27)
See Also
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