# `Exception` [🔗](https://github.com/elixir-lang/elixir/blob/v1.20.1/lib/elixir/lib/exception.ex#L5) Functions for dealing with throw/catch/exit and exceptions. This module also defines the behaviour required by custom exceptions. To define your own, see `defexception/1`. ## Formatting functions Several functions in this module help format exceptions. Some of these functions expect the stacktrace as argument. The stacktrace is typically available inside catch and rescue by using the `__STACKTRACE__/0` variable. Do not rely on the particular format returned by the functions in this module. They may be changed in future releases in order to better suit Elixir's tool chain. In other words, by using the functions in this module it is guaranteed you will format exceptions as in the current Elixir version being used. # `arity_or_args` ```elixir @type arity_or_args() :: non_neg_integer() | list() ``` # `kind` ```elixir @type kind() :: :error | non_error_kind() ``` The kind handled by formatting functions # `location` ```elixir @type location() :: keyword() ``` # `non_error_kind` ```elixir @type non_error_kind() :: :exit | :throw | {:EXIT, pid()} ``` # `stacktrace` ```elixir @type stacktrace() :: [stacktrace_entry()] ``` # `stacktrace_entry` ```elixir @type stacktrace_entry() :: {module(), atom(), arity_or_args(), location()} | {(... -> any()), arity_or_args(), location()} ``` # `t` ```elixir @type t() :: %{ :__struct__ => module(), :__exception__ => term(), optional(atom()) => any() } ``` The exception type # `blame` *optional* ```elixir @callback blame(t(), stacktrace()) :: {t(), stacktrace()} ``` Called from `Exception.blame/3` to augment the exception struct. Can be used to collect additional information about the exception or do some additional expensive computation. # `exception` ```elixir @callback exception(term()) :: t() ``` Receives the arguments given to `raise/2` and returns the exception struct. The default implementation accepts either a set of keyword arguments that is merged into the struct or a string to be used as the exception's message. # `message` ```elixir @callback message(t()) :: String.t() ``` Receives the exception struct and must return its message. Many exceptions have a message field which by default is accessed by this function. However, if an exception does not have a message field, this function must be explicitly implemented. # `blame` *since 1.5.0* ```elixir @spec blame(:error, any(), stacktrace()) :: {t(), stacktrace()} @spec blame(non_error_kind(), payload, stacktrace()) :: {payload, stacktrace()} when payload: var ``` Attaches information to throws/errors/exits for extra debugging. This operation is potentially expensive, as it reads data from the file system, parses beam files, evaluates code and so on. If `kind` argument is `:error` and the `error` is an Erlang exception, this function will normalize it. If the `error` argument is an Elixir exception, this function will invoke the optional `c:blame/2` callback on the exception module if it is implemented. Unlike `message/1`, this function will not rescue errors - if the callback raises an exception, the error will propagate to the caller. It is your choice if you want to rescue and return the original exception, return a different exception, or let it cascade. # `blame_mfa` *since 1.5.0* ```elixir @spec blame_mfa(module(), function :: atom(), args :: [term()]) :: {:ok, :def | :defp | :defmacro | :defmacrop, [{args :: [term()], guards :: [term()]}]} | :error ``` Blames the invocation of the given module, function and arguments. This function will retrieve the available clauses from bytecode and evaluate them against the given arguments. The clauses are returned as a list of `{args, guards}` pairs where each argument and each top-level condition in a guard separated by `and`/`or` is wrapped in a tuple with blame metadata. This function returns either `{:ok, definition, clauses}` or `:error`. Where `definition` is `:def`, `:defp`, `:defmacro` or `:defmacrop`. # `format` ```elixir @spec format(kind(), any(), stacktrace()) :: String.t() ``` Normalizes and formats throws/errors/exits and stacktraces. It relies on `format_banner/3` and `format_stacktrace/1` to generate the final format. If `kind` is `{:EXIT, pid}`, it does not generate a stacktrace, as such exits are retrieved as messages without stacktraces. # `format_banner` ```elixir @spec format_banner(kind(), any(), stacktrace()) :: String.t() ``` Normalizes and formats any throw/error/exit. The message is formatted and displayed in the same format as used by Elixir's CLI. The third argument is the stacktrace which is used to enrich a normalized error with more information. It is only used when the kind is an error. # `format_exit` ```elixir @spec format_exit(any()) :: String.t() ``` Formats an exit. It returns a string. Often there are errors/exceptions inside exits. Exits are often wrapped by the caller and provide stacktraces too. This function formats exits in a way to nicely show the exit reason, caller and stacktrace. # `format_fa` ```elixir @spec format_fa(fun(), arity()) :: String.t() ``` Receives an anonymous function and arity and formats it as shown in stacktraces. The arity may also be a list of arguments. ## Examples Exception.format_fa(fn -> nil end, 1) #=> "#Function<...>/1" # `format_file_line` ```elixir @spec format_file_line(String.t() | nil, non_neg_integer() | nil, String.t()) :: String.t() ``` Formats the given `file` and `line` as shown in stacktraces. If any of the values are `nil`, they are omitted. ## Examples iex> Exception.format_file_line("foo", 1) "foo:1:" iex> Exception.format_file_line("foo", nil) "foo:" iex> Exception.format_file_line(nil, nil) "" # `format_file_line_column` ```elixir @spec format_file_line_column( String.t() | nil, non_neg_integer() | nil, non_neg_integer() | nil, String.t() ) :: String.t() ``` Formats the given `file`, `line`, and `column` as shown in stacktraces. If any of the values are `nil`, they are omitted. ## Examples iex> Exception.format_file_line_column("foo", 1, 2) "foo:1:2:" iex> Exception.format_file_line_column("foo", 1, nil) "foo:1:" iex> Exception.format_file_line_column("foo", nil, nil) "foo:" iex> Exception.format_file_line_column("foo", nil, 2) "foo:" iex> Exception.format_file_line_column(nil, nil, nil) "" # `format_mfa` ```elixir @spec format_mfa(module(), atom(), arity_or_args()) :: String.t() ``` Receives a module, fun and arity and formats it as shown in stacktraces. The arity may also be a list of arguments. ## Examples iex> Exception.format_mfa(Foo, :bar, 1) "Foo.bar/1" iex> Exception.format_mfa(Foo, :bar, []) "Foo.bar()" iex> Exception.format_mfa(nil, :bar, []) "nil.bar()" Anonymous functions are reported as -func/arity-anonfn-count-, where func is the name of the enclosing function. Convert to "anonymous fn in func/arity" # `format_stacktrace` ```elixir @spec format_stacktrace(stacktrace() | nil) :: String.t() ``` Formats the stacktrace. A stacktrace must be given as an argument. If not, the stacktrace is retrieved from `Process.info/2`. # `format_stacktrace_entry` ```elixir @spec format_stacktrace_entry(stacktrace_entry()) :: String.t() ``` Receives a stacktrace entry and formats it into a string. # `message` ```elixir @spec message(t()) :: String.t() ``` Gets the message for an `exception`. This function will invoke the `c:message/1` callback on the exception module to retrieve the message. If the callback raises an exception or returns a non-binary value, this function will rescue the error and return a descriptive error message instead. # `normalize` ```elixir @spec normalize(:error, any(), stacktrace()) :: t() @spec normalize(non_error_kind(), payload, stacktrace()) :: payload when payload: var ``` Normalizes an exception, converting Erlang exceptions to Elixir exceptions. It takes the `kind` spilled by `catch` as an argument and normalizes only `:error`, returning the untouched payload for others. The third argument is the stacktrace which is used to enrich a normalized error with more information. It is only used when the kind is an error. --- *Consult [api-reference.md](api-reference.md) for complete listing*