#P1146D. Frog Jumping
Frog Jumping
No submission language available for this problem.
Description
A frog is initially at position $0$ on the number line. The frog has two positive integers $a$ and $b$. From a position $k$, it can either jump to position $k+a$ or $k-b$.
Let $f(x)$ be the number of distinct integers the frog can reach if it never jumps on an integer outside the interval $[0, x]$. The frog doesn't need to visit all these integers in one trip, that is, an integer is counted if the frog can somehow reach it if it starts from $0$.
Given an integer $m$, find $\sum_{i=0}^{m} f(i)$. That is, find the sum of all $f(i)$ for $i$ from $0$ to $m$.
The first line contains three integers $m, a, b$ ($1 \leq m \leq 10^9, 1 \leq a,b \leq 10^5$).
Print a single integer, the desired sum.
Input
The first line contains three integers $m, a, b$ ($1 \leq m \leq 10^9, 1 \leq a,b \leq 10^5$).
Output
Print a single integer, the desired sum.
Samples
7 5 3
19
1000000000 1 2019
500000001500000001
100 100000 1
101
6 4 5
10
Note
In the first example, we must find $f(0)+f(1)+\ldots+f(7)$. We have $f(0) = 1, f(1) = 1, f(2) = 1, f(3) = 1, f(4) = 1, f(5) = 3, f(6) = 3, f(7) = 8$. The sum of these values is $19$.
In the second example, we have $f(i) = i+1$, so we want to find $\sum_{i=0}^{10^9} i+1$.
In the third example, the frog can't make any jumps in any case.