# Blackjack aces sequence

I have a sequence say: 11, 11, 6, 4, 11, 10, 6,... which simulates the following possible card values for a player's hand in blackjack.

When the sum of these numbers accumulates to 11 or greater, I am trying to make each value of 11 which occurs after this point equal to 1.

Where the cumulative sum is: 11, 22, 28, 32,...

Desired outcome: 11, 1, 6, 4, 1, 10, 6,...

Here is what I have been unsuccessfully trying with:

``````nphand = c(11,11,6,4,11,10,6)
v=cumsum(nphand)
p=v[v<=11]

for (i in (length(p)+1):length(nphand)){
if (nphand[i]==11){
nphand[i]==1
}
}
``````

Any help and/or advice would be greatly appreciated.

• Your codes are working well. The only thing you need to change is that change double equal symbol by single one at the second part. I mean use nphand[i]=1 instead of nphand[i]==1. – maydin Dec 31 '17 at 13:20

This should work.

``````nphand = c(11,11,6,4,11,10,6)
v=cumsum(nphand)
p=v[v<=11]

for (i in 1:length(nphand)){
cards <- nphand[1:i]
elevens <- cards[-1] %in% 11
if(sum(cards)>=11 &  sum(elevens) >=1){
cards[which(elevens) +1] <- 1
}
nphand[1:i] <- cards
}

> nphand
 11  1  6  4  1 10  6
``````

This looks like it is dependent on the first card being 11. The solution below should work regardless:

``````nphand = c(2,11,6,4,11,10,6)
v=cumsum(nphand)
p=v[v<=11]

for (i in 1:length(nphand)){
cards <- nphand[1:i]
elevens <- cards %in% 11
if(sum(cards)>=11 &  sum(elevens) >=1){
cards[which(elevens[-1]) + 1] <- 1
}
nphand[1:i] <- cards
}
``````