1115. Print FooBar Alternately
Description
Suppose you are given the following code:
class FooBar {
public void foo() {
for (int i = 0; i < n; i++) {
print("foo");
}
}
public void bar() {
for (int i = 0; i < n; i++) {
print("bar");
}
}
}
The same instance of FooBar will be passed to two different threads:
- thread
Awill callfoo(), while - thread
Bwill callbar().
Modify the given program to output "foobar" n times.
Example 1:
Input: n = 1 Output: "foobar" Explanation: There are two threads being fired asynchronously. One of them calls foo(), while the other calls bar(). "foobar" is being output 1 time.
Example 2:
Input: n = 2 Output: "foobarfoobar" Explanation: "foobar" is being output 2 times.
Constraints:
1 <= n <= 1000
Solutions
Solution 1: Multithreading + Semaphore
We use two semaphores $f$ and $b$ to control the execution order of the two threads, where $f$ is initially set to $1$ and $b$ is set to $0$, indicating that thread $A$ executes first.
When thread $A$ executes, it first performs the $acquire$ operation on $f$, which changes the value of $f$ to $0$. Thread $A$ then gains the right to use $f$ and can execute the $foo$ function. After that, it performs the $release$ operation on $b$, changing the value of $b$ to $1$. This allows thread $B$ to gain the right to use $b$ and execute the $bar$ function.
When thread $B$ executes, it first performs the $acquire$ operation on $b$, which changes the value of $b$ to $0$. Thread $B$ then gains the right to use $b$ and can execute the $bar$ function. After that, it performs the $release$ operation on $f$, changing the value of $f$ to $1$. This allows thread $A$ to gain the right to use $f$ and execute the $foo$ function.
Therefore, we only need to loop $n$ times, each time executing the $foo$ and $bar$ functions, first performing the $acquire$ operation, and then the $release$ operation.
The time complexity is $O(n)$, and the space complexity is $O(1)$.
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