case, cond, and if
In this chapter, we will learn about the case
, cond
, and if
control flow structures.
case
case
allows us to compare a value against many patterns until we find a matching one:
iex> case {1, 2, 3} do
...> {4, 5, 6} ->
...> "This clause won't match"
...> {1, x, 3} ->
...> "This clause will match and bind x to 2 in this clause"
...> _ ->
...> "This clause would match any value"
...> end
"This clause will match and bind x to 2 in this clause"
If you want to pattern match against an existing variable, you need to use the ^
operator:
iex> x = 1
1
iex> case 10 do
...> ^x -> "Won't match"
...> _ -> "Will match"
...> end
"Will match"
Clauses also allow extra conditions to be specified via guards:
iex> case {1, 2, 3} do
...> {1, x, 3} when x > 0 ->
...> "Will match"
...> _ ->
...> "Would match, if guard condition were not satisfied"
...> end
"Will match"
The first clause above will only match when x
is positive.
Keep in mind errors in guards do not leak but simply make the guard fail:
iex> hd(1)
** (ArgumentError) argument error
iex> case 1 do
...> x when hd(x) -> "Won't match"
...> x -> "Got #{x}"
...> end
"Got 1"
If none of the clauses match, an error is raised:
iex> case :ok do
...> :error -> "Won't match"
...> end
** (CaseClauseError) no case clause matching: :ok
Consult the full documentation for guards for more information about guards, how they are used, and what expressions are allowed in them.
Note anonymous functions can also have multiple clauses and guards:
iex> f = fn
...> x, y when x > 0 -> x + y
...> x, y -> x * y
...> end
#Function<12.71889879/2 in :erl_eval.expr/5>
iex> f.(1, 3)
4
iex> f.(-1, 3)
-3
The number of arguments in each anonymous function clause needs to be the same, otherwise an error is raised.
iex> f2 = fn
...> x, y when x > 0 -> x + y
...> x, y, z -> x * y + z
...> end
** (CompileError) iex:1: cannot mix clauses with different arities in anonymous functions
cond
case
is useful when you need to match against different values. However, in many circumstances, we want to check different conditions and find the first one that does not evaluate to nil
or false
. In such cases, one may use cond
:
iex> cond do
...> 2 + 2 == 5 ->
...> "This will not be true"
...> 2 * 2 == 3 ->
...> "Nor this"
...> 1 + 1 == 2 ->
...> "But this will"
...> end
"But this will"
This is equivalent to else if
clauses in many imperative languages (although used way less frequently here).
If all of the conditions return nil
or false
, an error (CondClauseError
) is raised. For this reason, it may be necessary to add a final condition, equal to true
, which will always match:
iex> cond do
...> 2 + 2 == 5 ->
...> "This is never true"
...> 2 * 2 == 3 ->
...> "Nor this"
...> true ->
...> "This is always true (equivalent to else)"
...> end
"This is always true (equivalent to else)"
Finally, note cond
considers any value besides nil
and false
to be true:
iex> cond do
...> hd([1, 2, 3]) ->
...> "1 is considered as true"
...> end
"1 is considered as true"
if
and unless
Besides case
and cond
, Elixir also provides the macros if/2
and unless/2
which are useful when you need to check for only one condition:
iex> if true do
...> "This works!"
...> end
"This works!"
iex> unless true do
...> "This will never be seen"
...> end
nil
If the condition given to if/2
returns false
or nil
, the body given between do/end
is not executed and instead it returns nil
. The opposite happens with unless/2
.
They also support else
blocks:
iex> if nil do
...> "This won't be seen"
...> else
...> "This will"
...> end
"This will"
Note: An interesting note regarding
if/2
andunless/2
is that they are implemented as macros in the language; they aren’t special language constructs as they would be in many languages. You can check the documentation and the source ofif/2
in theKernel
module docs. TheKernel
module is also where operators like+/2
and functions likeis_function/2
are defined, all automatically imported and available in your code by default.
do/end
blocks
At this point, we have learned four control structures: case
, cond
, if
, and unless
, and they were all wrapped in do/end
blocks. It happens we could also write if
as follows:
iex> if true, do: 1 + 2
3
Notice how the example above has a comma between true
and do:
, that’s because it is using Elixir’s regular syntax where each argument is separated by a comma. We say this syntax is using keyword lists. We can pass else
using keywords too:
iex> if false, do: :this, else: :that
:that
do/end
blocks are a syntactic convenience built on top of the keywords one. That’s why do/end
blocks do not require a comma between the previous argument and the block. They are useful exactly because they remove the verbosity when writing blocks of code. These are equivalent:
iex> if true do
...> a = 1 + 2
...> a + 10
...> end
13
iex> if true, do: (
...> a = 1 + 2
...> a + 10
...> )
13
One thing to keep in mind when using do/end
blocks is they are always bound to the outermost function call. For example, the following expression:
iex> is_number if true do
...> 1 + 2
...> end
** (CompileError) iex:1: undefined function is_number/2
Would be parsed as:
iex> is_number(if true) do
...> 1 + 2
...> end
** (CompileError) iex:1: undefined function is_number/2
which leads to an undefined function error because that invocation passes two arguments, and is_number/2
does not exist. The if true
expression is invalid in itself because it needs the block, but since the arity of is_number/2
does not match, Elixir does not even reach its evaluation.
Adding explicit parentheses is enough to bind the block to if
:
iex> is_number(if true do
...> 1 + 2
...> end)
true
Keyword lists play an important role in the language and are quite common in many functions and macros. We will explore them a bit more in a future chapter. Now it is time to talk about “Binaries, strings, and char lists”.