Let's take apart your problem:

You have a set of numbers. Really, you have a “special” first number, and then the rest of them. Specifically, you probably want only real numbers, because “less than” does not make sense in terms of complex (imaginary) numbers.

You can use `first`

to get the first number from the list, and `rest`

for the others.

Of these, you want to count any that are not greater than the first.

So let's start with sort of pseudocode

```
(defun count-numbers-greater-than-first (list)
;; split out first and rest
;; call the real count function
)
```

Well, we know now that we can use `first`

and `rest`

(also, as you used, historically `car`

and `cdr`

), so:

```
(defun count-numbers-greater-than-first (list)
(count-numbers-greater-than (first list) (rest list))
```

You already probably know that `>`

is used to test whether real numbers are greater than one another.

A quick look at the CLHS reveals a nice function called `count-if`

```
(defun count-numbers-not-greater-than (reference other-numbers)
(count-if ??? other-numbers))
```

The `???`

needs to be an object of `function`

type, or the name of a function. We need to “curry” the `reference`

(first number) into that function. This means we want to create a new function, that is only used for one run through the `count-if`

, that already has “closed over” the value of `reference`

.

If we knew that `number`

would always be, say, `100`

, that function would look like this:

```
(defun greater-than-100 (number)
(> number 100))
```

That function could then get used in the `count-if`

:

```
(defun count-numbers-greater-than (reference other-numbers)
(count-if (function greater-than-100)
other-numbers))
(defun count-numbers-greater-than (reference other-numbers)
(count-if #'greater-than-100 other-numbers))
```

But that doesn't solve the problem of getting the `reference`

number “curried” into the function.

Without reaching for Alexandria (I'll explain in a moment), you can use a `lambda`

form to create a new, anonymous function right here. Since `reference`

is available within `count-numbers-not-greater-than`

, you can use its value within that `lambda`

. Let's convert for 100 first:

```
(defun count-numbers-greater-than (reference other-numbers)
(count-if (lambda (number) (> number 100))
other-numbers))
```

Now we can use `reference`

:

```
(defun count-numbers-greater-than (reference other-numbers)
(count-if (lambda (number) (> number reference))
other-numbers))
```

And, in fact, you could even merge this back into the other function, if you wanted:

```
(defun count-numbers-greater-than-first (list)
(count-if (lambda (number) (> number (first list)))
(rest list)))
```

# That Alexandria thing

But, what about Alexandria? Alexandria is a collection of super-useful utility functions that's available in Quicklisp or elsewhere.

```
(ql:quickload "alexandria")
(use-package #:alexandria)
```

Of course, you'd normally `use`

it in your own `defpackage`

```
(defpackage my-cool-program
(:use :common-lisp :alexandria))
```

Two of the things it provides are `curry`

and `rcurry`

functions. It turns out, that `lambda`

function in there is a really common case. You have an existing function — here, `>`

— that you want to call with the same value over and over, and also some unknown value that you want to pass in each time.

These end up looking a lot like this:

```
(lambda (x) (foo known x))
```

You can use `curry`

to write the same thing more concisely:

```
(curry #'foo known)
```

It also work with any number of arguments. `RCurry`

does the same, but it puts the unknown values “x” at the left, and your known values at the right.

```
(lambda (x) (foo x known)) = (rcurry #'foo known)
```

So another way to write the `count-if`

is:

```
(defun count-numbers-greater-than-first (list)
(count-if (rcurry #'> (first list))
(rest list)))
* (count-numbers-greater-than-first '(10 9 8 7 11 12))
2
```