Recently, Kolya found out that a new movie theatre is going to be opened in his city soon, which will show a new movie every day for $$$n$$$ days. So, on the day with the number $$$1 \le i \le n$$$, the movie theatre will show the premiere of the $$$i$$$-th movie. Also, Kolya found out the schedule of the movies and assigned the entertainment value to each movie, denoted by $$$a_i$$$.

However, the longer Kolya stays without visiting a movie theatre, the larger the decrease in entertainment value of the next movie. That decrease is equivalent to $$$d \cdot cnt$$$, where $$$d$$$ is a predetermined value and $$$cnt$$$ is the number of days since the last visit to the movie theatre. It is also known that Kolya managed to visit another movie theatre a day before the new one opened — the day with the number $$$0$$$. So if we visit the movie theatre the first time on the day with the number $$$i$$$, then $$$cnt$$$ — the number of days since the last visit to the movie theatre will be equal to $$$i$$$.

For example, if $$$d = 2$$$ and $$$a = [3, 2, 5, 4, 6]$$$, then by visiting movies with indices $$$1$$$ and $$$3$$$, $$$cnt$$$ value for the day $$$1$$$ will be equal to $$$1 - 0 = 1$$$ and $$$cnt$$$ value for the day $$$3$$$ will be $$$3 - 1 = 2$$$, so the total entertainment value of the movies will be $$$a_1 - d \cdot 1 + a_3 - d \cdot 2 = 3 - 2 \cdot 1 + 5 - 2 \cdot 2 = 2$$$.

Unfortunately, Kolya only has time to visit at most $$$m$$$ movies. Help him create a plan to visit the cinema in such a way that the total entertainment value of all the movies he visits is maximized.