Bitwise Operations in C/C++: It's a good idea to test your results out in a C++ program! In 1 sentence, explain how you would change bit 5 in a 32-bit number to be 0? Based on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits), changes its bit 5 (remember that the least significant bit is bit 0) to 0 and returns the new integer. You can ONLY use a single return statement, declare auxiliary variables, use assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc... int setBit5to0 (int v) { } b) In 1 sentence, explain how you would change bit 17 in a 32-bit number to be the inverse of what it was originally (i.e. 1 → 0 and 0 ➜ 1). Based on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits), sets its bit 17 its inverse and returns the new integer. Again: you can ONLY use a single return statement, declare auxiliary variables, use assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc... int flipBit17 (int v) {
Bitwise Operations in C/C++: It's a good idea to test your results out in a C++ program! In 1 sentence, explain how you would change bit 5 in a 32-bit number to be 0? Based on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits), changes its bit 5 (remember that the least significant bit is bit 0) to 0 and returns the new integer. You can ONLY use a single return statement, declare auxiliary variables, use assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc... int setBit5to0 (int v) { } b) In 1 sentence, explain how you would change bit 17 in a 32-bit number to be the inverse of what it was originally (i.e. 1 → 0 and 0 ➜ 1). Based on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits), sets its bit 17 its inverse and returns the new integer. Again: you can ONLY use a single return statement, declare auxiliary variables, use assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc... int flipBit17 (int v) {
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
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in c++ please
![Bitwise Operations in C/C++; It's a good idea to test your results out in a C++ program!
In 1 sentence, explain how you would change bit 5 in a 32-bit number to be 0? Based
on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits),
changes its bit 5 (remember that the least significant bit is bit 0) to 0 and returns the new
integer. You can ONLY use a single return statement, declare auxiliary variables, use
assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other
words, DO NOT USE if-else, loops, etc...
int setBit5to0 (int v)
{
}
b) In 1 sentence, explain how you would change bit 17 in a 32-bit number to be the
inverse of what it was originally (i.e. 1 → 0 and 0 ➜ 1). Based on your explanation,
complete this C/C++ function that takes an integer (i.e. signed 32-bits), sets its bit 17 its
inverse and returns the new integer. Again: you can ONLY use a single return statement,
declare auxiliary variables, use assignment (=), use constants, and use bitwise
operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc...
int flipBit17 (int v)
{](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ffe70859f-d1ee-4d19-93f5-d3c21b44393e%2Fbea56fb5-b6c2-4e74-ae2b-c1a5fd447d59%2Fisbiu3_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Bitwise Operations in C/C++; It's a good idea to test your results out in a C++ program!
In 1 sentence, explain how you would change bit 5 in a 32-bit number to be 0? Based
on your explanation, complete this C/C++ function that takes an integer (i.e. signed 32-bits),
changes its bit 5 (remember that the least significant bit is bit 0) to 0 and returns the new
integer. You can ONLY use a single return statement, declare auxiliary variables, use
assignment (=), use constants, and use bitwise operations (>>, <<, &, |, ^, ~). In other
words, DO NOT USE if-else, loops, etc...
int setBit5to0 (int v)
{
}
b) In 1 sentence, explain how you would change bit 17 in a 32-bit number to be the
inverse of what it was originally (i.e. 1 → 0 and 0 ➜ 1). Based on your explanation,
complete this C/C++ function that takes an integer (i.e. signed 32-bits), sets its bit 17 its
inverse and returns the new integer. Again: you can ONLY use a single return statement,
declare auxiliary variables, use assignment (=), use constants, and use bitwise
operations (>>, <<, &, |, ^, ~). In other words, DO NOT USE if-else, loops, etc...
int flipBit17 (int v)
{
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