I am writing a Haskell function that recursively compares an integer `i`

to a list of tuples. In particular, I want to compare integer `i`

to each `a`

in `(a,b)`

in the list. If `i < a`

then print the `b`

that corresponds with the `a`

Sample input/output

```
check 0.01 [(0.25, 'x'),(0.50,'y'),(0.75,'z')] = 'x'
check 0.4 [(0.25, 'x'),(0.50,'y'),(0.75,'z')] = 'y'
check 100 [(0.25, 'x'),(0.50,'y'),(0.75,'z')] = ' '
```

I wrote a pseudocode on how I would approach it but I'm having trouble translating that pseudocode to a actual Haskell function. Here is what I have so far:

```
check :: a -> [(a,b)] -> b
check i (a,b):xs = tuples d xs
| if d <= a in (a,b) then = b //pseudocode
| id d !<= a in (a,b) then recursively check the next tuple //pseudocode
| otherwise ' ' // d is larger than all the a's of the tuple so return a space
```

I believe the way I'm thinking about it is correct but I can't figure out how to traverse through the tuples comparing the integer `i`

to the `a`

s of the tuples. Any help?