Minimum time remaining for safety alarm to start
Geek is organizing a bike race with N bikers. The initial speed of the ith biker is denoted by Hi Km/hr and the acceleration of the ith biker as Ai Km/Hr2. A biker whose speed is ‘L’ or more, is considered be a fast biker. The total speed on the track for every hour is calculated by adding the speed of each fast biker in that hour. When the total speed on the track is ‘M’ kilometers per hour or more, the safety alarm turns on. The task is to find the minimum number of hours after which the safety alarm will start.
Examples:
Input: N = 3, M = 400, L = 120, H = {20, 50, 20}, A = {20, 70, 90}
Output: 3
Explanation:
Speeds of all the Bikers at ith hour:
Biker1 = [20 40 60 80 100]
Biker2 = [50 120 190 260 330]
Biker3 = [20 110 200 290 380].Initial Speed on track = 0, because none of the biker’s speed is fast enough.
Speed on track after 1st Hour = 120.
Speed on track after 2nd Hour = 190 + 200 = 390.
Speed on track after 3rd Hour = 260 + 290.
Alarm will start at the 3rd hour.Input: N = 2, M = 60, L = 120, H = {50, 30}, A = {20, 40}
Output: 3
Approach: The given problem can be solved by using Binary Search by using the fact that if the bikes have an initial speed U and have uniform acceleration A then the speed at any point of time can be found using the equation: (V = U + A*t) and if, at a time t, the conditions satisfy, then for all time greater than t, will satisfy so discard the right half of the range until found the minimum value. Follow the steps below to solve the problem:
- Define a function check(long H[], long A[], long mid, long N, long M, long L) and perform the following steps:
- Initialize the variable, say sum as 0 that stores the sum of speeds.
- Iterate over a range [0, N] using the variable i and if the value of (mid*A[i] + H[i]) is at least L, then add this value to the sum.
- After performing the above steps, return the value of the sum as the result.
- Initialize the variables, say low as 0 and high as 1010 as the range of the binary search of the answer and ans as 0 that stores the minimum number of hours.
- Iterate until low <= high and perform the following steps:
- Find the value of mid as (low + high)/2.
- Call the function check(H, A, mid, N, M, L) and if the value returned by the function is at least M, then update the value of ans as mid. Otherwise, update the value of high as (mid – 1).
- Otherwise, update the value of low as (mid + 1).
- After performing the above steps, print the value of ans as the resultant number of hours.
Below is the implementation of the above approach:
C++
// C++ program for the above approach #include <bits/stdc++.h> using namespace std; // Function to check if the value of // mid as the minimum number of hours // satisfies the condition long check( long H[], long A[], long mid, long N, long M, long L) { // Stores the sum of speed long sum = 0; // Iterate over the range [0, N] for ( long i = 0; i < N; i++) { // Find the value of speed long speed = mid * A[i] + H[i]; // If the bike is considered // to be fast add it in sum if (speed >= L) { sum += speed; } } // Return the resultant sum return sum; } // Function to find the minimum number // of time required long buzzTime( long N, long M, long L, long H[], long A[]) { // Stores the range of Binary Search long low = 0, high = 1e10; // Stores the minimum number of // time required long ans = 0; while (high >= low) { // Find the value of mid long mid = low + (high - low) / 2; // If the mid is the resultant // speed required if (check(H, A, mid, N, M, L) >= M) { // Update the ans and high ans = mid; high = mid - 1; } // Otherwise else low = mid + 1; } // Return the minimum number of hours return ans; } // Driver Code int main() { long M = 400, L = 120; long H[] = { 20, 50, 20 }; long A[] = { 20, 70, 90 }; long N = sizeof (A) / sizeof (A[0]); cout << buzzTime(N, M, L, H, A); return 0; } |
Java
// Java program for the above approach import java.io.*; class GFG { // Function to check if the value of // mid as the minimum number of hours // satisfies the condition static long check( long H[], long A[], long mid, long N, long M, long L) { // Stores the sum of speed long sum = 0 ; // Iterate over the range [0, N] for ( long i = 0 ; i < N; i++) { // Find the value of speed long speed = mid * A[( int ) i] + H[( int ) i]; // If the bike is considered // to be fast add it in sum if (speed >= L) { sum += speed; } } // Return the resultant sum return sum; } // Function to find the minimum number // of time required static long buzzTime( long N, long M, long L, long H[], long A[]) { // Stores the range of Binary Search long low = 0 , high = 100000000 ; // Stores the minimum number of // time required long ans = 0 ; while (high >= low) { // Find the value of mid long mid = low + (high - low) / 2 ; // If the mid is the resultant // speed required if (check(H, A, mid, N, M, L) >= M) { // Update the ans and high ans = mid; high = mid - 1 ; } // Otherwise else low = mid + 1 ; } // Return the minimum number of hours return ans; } // Driver Code public static void main (String[] args) { long M = 400 , L = 120 ; long H[] = { 20 , 50 , 20 }; long A[] = { 20 , 70 , 90 }; long N = A.length; System.out.println(buzzTime(N, M, L, H, A)); } } // This code is contributed by Potta Lokesh |
Python3
# Python 3 program for the above approach # Function to check if the value of # mid as the minimum number of hours # satisfies the condition def check(H, A, mid, N, M, L): # Stores the sum of speed sum = 0 # Iterate over the range [0, N] for i in range (N): # Find the value of speed speed = mid * A[i] + H[i] # If the bike is considered # to be fast add it in sum if (speed > = L): sum + = speed # Return the resultant sum return sum # Function to find the minimum number # of time required def buzzTime(N, M, L, H, A): # Stores the range of Binary Search low = 0 high = 1e10 # Stores the minimum number of # time required ans = 0 while (high > = low): # Find the value of mid mid = low + (high - low) / / 2 # If the mid is the resultant # speed required if (check(H, A, mid, N, M, L) > = M): # Update the ans and high ans = mid high = mid - 1 # Otherwise else : low = mid + 1 # Return the minimum number of hours return int (ans) # Driver Code if __name__ = = '__main__' : M = 400 L = 120 H = [ 20 , 50 , 20 ] A = [ 20 , 70 , 90 ] N = len (A) print (buzzTime(N, M, L, H, A)) # This code is contributed by ipg2016107. |
C#
// C# program for the above approach using System; class GFG{ // Function to check if the value of // mid as the minimum number of hours // satisfies the condition static long check( long []H, long []A, long mid, long N, long M, long L) { // Stores the sum of speed long sum = 0; // Iterate over the range [0, N] for ( long i = 0; i < N; i++) { // Find the value of speed long speed = mid * A[( int ) i] + H[( int ) i]; // If the bike is considered // to be fast add it in sum if (speed >= L) { sum += speed; } } // Return the resultant sum return sum; } // Function to find the minimum number // of time required static long buzzTime( long N, long M, long L, long []H, long []A) { // Stores the range of Binary Search long low = 0, high = 100000000; // Stores the minimum number of // time required long ans = 0; while (high >= low) { // Find the value of mid long mid = low + (high - low) / 2; // If the mid is the resultant // speed required if (check(H, A, mid, N, M, L) >= M) { // Update the ans and high ans = mid; high = mid - 1; } // Otherwise else low = mid + 1; } // Return the minimum number of hours return ans; } // Driver Code public static void Main(String[] args) { long M = 400, L = 120; long []H = { 20, 50, 20 }; long []A = { 20, 70, 90 }; long N = A.Length; Console.Write(buzzTime(N, M, L, H, A)); } } // This code is contributed by shivanisinghss2110 |
Javascript
<script> // Javascript program for the above approach // Function to check if the value of // mid as the minimum number of hours // satisfies the condition function check(H, A, mid, N, M, L) { // Stores the sum of speed let sum = 0; // Iterate over the range [0, N] for (let i = 0; i < N; i++) { // Find the value of speed let speed = mid * A[i] + H[i]; // If the bike is considered // to be fast add it in sum if (speed >= L) { sum += speed; } } // Return the resultant sum return sum; } // Function to find the minimum number // of time required function buzzTime(N, M, L, H, A) { // Stores the range of Binary Search let low = 0, high = 1e10; // Stores the minimum number of // time required let ans = 0; while (high >= low) { // Find the value of mid let mid = Math.floor(low + (high - low) / 2); // If the mid is the resultant // speed required if (check(H, A, mid, N, M, L) >= M) { // Update the ans and high ans = mid; high = mid - 1; } // Otherwise else low = mid + 1; } // Return the minimum number of hours return ans; } // Driver Code let M = 400, L = 120; let H = [ 20, 50, 20 ]; let A = [ 20, 70, 90 ]; let N = A.length; document.write(buzzTime(N, M, L, H, A)); // This code is contributed by _saurabh_jaiswal. </script> |
3
Time Complexity:O(N*log(max(L, M)))
Auxiliary Space: O(1)