The way of thinking about this that I read somewhere that really helped me on this front is to look at it this way:

- Every expression produces a
*thunk*.
- Thunks will be
*forced* when their value is "needed."
- The notion of "need" is what you may call "conditional forcing": "Assuming that thunk
*T* is being forced, which other thunks will this cause to be forced?" A function is **strict** in its argument if forcing a thunk that applies that function causes its argument's thunk to be forced.

So, values are printed to the console by invoking the appropriate `show`

method on them; i.e., printing to the console forces an expression of form `show x`

(for some `x`

). Forcing `show x`

forces `x`

. Suppose `x`

is `negate $ 5 * sqrt 16`

; since `negate`

is strict in its argument, forcing the thunk also forces the thunk for `5 * sqrt 16`

. Likewise, `*`

and `sqrt`

are both strict in their arguments, so the thunks for `5`

, `sqrt 16`

and `16`

must also be forced.

The other thing to understand is how data constructors and pattern matching affect thunking. Basically, unless there are special strictness anotations, constructors are like non-strict functions, in that forcing the thunk doesn't force the constructor's arguments. Unless the special lazy pattern matching syntax is used, matching against a constructor forces the argument thunk. So we have:

```
identity x = x -- irrefutable pattern; `x` is not forced
uncons (x:xs) = (x, xs) -- match against (:) constructor; argument
-- must be forced, but x and xs aren't forced
foo (x:x':xs) = (x, x', xs) -- two matches against (:) constructor;
-- the argument thunk is forced, as is its
-- tail thunk.
```