README.md

# OK

**Elegant error/exception handling in Elixir, with result monads.**

- [Install from Hex](https://hex.pm/packages/ok)
- [Documentation available on hexdoc](https://hexdocs.pm/ok)

## Result tuples

The OK module works with result tuples by treating them as a result monad.

```elixir
{:ok, value} | {:error, reason}
```

See [Handling Errors in Elixir](http://insights.workshop14.io/2015/10/18/handling-errors-in-elixir-no-one-say-monad.html) for a more detailed explanation.

See [FAQ](#faq) at end of README for a few common question.

## OK.for

`OK.for/1` combines serveral functions that may fail.

- Use the `<-` operator to match & extract a value for an `:ok` tuple.
- Use the `=` operator as you normally would for pattern matching an untagged result.

```elixir
require OK

OK.for do
  user <- fetch_user(1)             # `<-` operator means func returns {:ok, user}
  cart <- fetch_cart(1)             # `<-` again, {:ok, cart}
  order = checkout(cart, user)      # `=` allows pattern matching on non-tagged funcs
  saved_order <- save_order(order)
after
  saved_order                       # Value will be wrapped if not already a result tuple
end
```

`OK.for/1` guarantees that it's return value is also in the structure of a result tuple.

## OK.try

`OK.try/1` combines serveral functions that may fail, and handles errors.

This is useful when writing code that has it's own representation of errors.
e.g. HTTP Responses.

For example when using raxx to build responses the following code will always return a response.

```elixir
require OK
import Raxx

OK.try do
  user <- fetch_user(1)             # `<-` operator means func returns {:ok, user}
  cart <- fetch_cart(1)             # `<-` again, {:ok, cart}
  order = checkout(cart, user)      # `=` allows pattern matching on non-tagged funcs
  saved_order <- save_order(order)
after
  response(:created)                # Value will be returned unwrapped
rescue
  :user_not_found ->
    response(:not_found)
  :could_not_save ->
    response(:internal_server_error)
end
```

## OK Pipeline Operator

The OK pipeline macro (`~>>`) is equivalent to `bind`/`flat_map` in other
languages, and this allows pipelining result tuples through multiple functions
for an extremely concise happy path.

```elixir
import OK, only: ["~>>": 2]

def get_employee_data(file, name) do
  {:ok, file}
  ~>> File.read
  ~>> Poison.decode
  ~>> Dict.fetch(name)
end
```

## OK.with

#### This macro is deprecated. Use instead `OK.try/1` or `OK.for/1`

`OK.with/1` allows for more concise and ultimately more readable code than the native `with` construct. It does this by leveraging result monads for both the happy and non-happy paths. By extracting the actual function return values from the result tuples, `OK.with/1` reduces noise which improves readability and recovers precious horizontal code real estate. This also encourages writing idiomatic Elixir functions which return `:ok`/`:error` tuples.

- [Elegant error handling with result monads, alternative to elixir `with` special form](https://elixirforum.com/t/elegant-error-handling-with-result-monads-alternative-to-elixir-with-special-form/3264/1)
- [Discussion on :ok/:error](https://elixirforum.com/t/usage-of-ok-result-error-vs-some-result-none/3253)

#### Basic Usage

- Use the `<-` operator to match & extract a value for an `:ok` tuple.
- Use the `=` operator as you normally would for pattern matching an untagged result.
- Return result must also be in the form of a tagged tuple.
- _Optionally_ pattern match on some errors in an `else` block.

_NB: Statements inside `OK.with` blocks are **not** delimited by commas as with the native Elixir `with` construct._

```elixir
require OK

OK.with do
  user <- fetch_user(1)        # `<-` operator means func returns {:ok, user}
  cart <- fetch_cart(1)        # `<-` again, {:ok, cart}
  order = checkout(cart, user) # `=` allows pattern matching on non-tagged funcs
  save_order(order)            # Returns an ok/error tuple
end
```

The cart example above is equivalent to the following nested `case` statements

```elixir
case fetch_user(1) do
  {:ok, user} ->
    case fetch_cart(1) do
      {:ok, cart} ->
        order = checkout(cart, user)
        save_order(order)
      {:error, reason} ->
        {:error, reason}
    end
  {:error, reason} ->
    {:error, reason}
end
```

You can pattern match on errors as well in an `else` block:

```elixir
require OK

OK.with do
  user <- fetch_user(1)
  cart <- fetch_cart(1)
  order = checkout(cart, user)
  save_order(order)
else
  :user_not_found ->           # Match on untagged reason
    {:error, :unauthorized}    # Return a literal error tuple
end
```

Note that the `else` block pattern matches on the extracted error reason, but the return expression must still be the full tuple.

*Unlike Elixir's native `with` construct, any unmatched error case does not throw an error and will just be passed as the return value*

You can also use `OK.success` and `OK.failure` macros:

```elixir
require OK

OK.with do
  user <- fetch_user(1)
  cart <- fetch_cart(1)
  order = checkout(cart, user)
  saved <- save_order(order)
  OK.success saved
else
  :user_not_found ->
    OK.failure :unauthorized
end
```

## Semantic matches

`OK` provides macros for matching on success and failure cases.
This allows for code to check if a result returned from a function was a
success or failure while hiding implementation details about how that result is
structured.

```elixir
import OK, only: [success: 2, failure: 2]

case fetch_user(id) do
  success(user) ->
    user
  failure(:not_found) ->
    create_guest_user()
end
```

## FAQ

#### Why does `OK` not catch raised errors?

Two reasons:
- Exceptional input and errors are not the same thing,
  `OK` leaves raising exceptions as a way to handle errors that should never happen.
- Calls inside try/1 are not tail recursive since the VM needs to keep the stacktrace in case an exception happens.
  [see source](https://github.com/elixir-lang/elixir/blob/22bd10a8170af0b187029d115abe4cc8edcf2ae6/lib/elixir/lib/kernel/special_forms.ex#L1622).

#### What about other shapes of error and success?

- Accepting any extra forms is a slippery slope, and they are not always unambiguous.
  If a library is not returning errors as you like it is very easy to wrap in a custom function.

  ```elixir
  def fetch_foo(map) do
    case Map.fetch(map, :foo) do
      {:ok, foo} -> {:ok, foo}
      :error -> {:error, :no_foo}
    end
  end
  ```

## Additional External Links and Resources

- Elixir Forum
  - [OK v1 library](https://elixirforum.com/t/ok-elegant-error-handling-for-elixir-pipelines-version-1-0-released/1932/)
- [Railway programming](http://www.zohaib.me/railway-programming-pattern-in-elixir/)
- Similar Libraries
  - [exceptional](https://github.com/expede/exceptional)
  - [elixir-monad](https://github.com/nickmeharry/elixir-monad)
  - [happy_with](https://github.com/vic/happy_with)
  - [monad](https://github.com/rmies/monad)
  - [ok_jose](https://github.com/vic/ok_jose)
  - [towel](https://github.com/knrz/towel)