Difference between revisions of "Bit.bor"
From ComputerCraft Wiki
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|args=[[int (type)|int]] m, [[int (type)|int]] n | |args=[[int (type)|int]] m, [[int (type)|int]] n | ||
|api=bit | |api=bit | ||
| − | |returns=[[int]] the value of <var>m</var> OR <var>n</var> | + | |returns=[[int (type)|int]] the value of <var>m</var> OR <var>n</var> |
|addon=ComputerCraft | |addon=ComputerCraft | ||
|desc=Computes the bitwise inclusive OR of two numbers | |desc=Computes the bitwise inclusive OR of two numbers | ||
Revision as of 18:27, 30 November 2012
 Function bit.bor | |
| Computes the bitwise inclusive OR of two numbers | |
| Syntax | bit.bor(int m, int n) |
| Returns | int the value of m OR n |
| Part of | ComputerCraft |
| API | bit |
Examples
 Example | |
| OR the number 18 (10010) with the number 3 (00011), yielding 19 (10011) | |
| Code |
print(bit.bor(18, 3)) |
| Output | 19 |
Explanation
All bit operations operate in binary numeral system [1]. An inclusive OR operation between two bits yields a 1 if either of the bits is 1 and a 0 if they are both 0. This function produces an output by computing the OR of each bit of its two inputs independently. So, for the example above:
| Bit index: | 4 | 3 | 2 | 1 | 0 |
|---|---|---|---|---|---|
| Input 1 (18): | 1 | 0 | 0 | 1 | 0 |
| Input 2 (3): | 0 | 0 | 0 | 1 | 1 |
| Calculation: | 18 has a 1 | Both 0 | Both 0 | Both 1 | 3 has a 1 |
| Output (19): | 1 | 0 | 0 | 1 | 1 |
