IEx v1.6.6 IEx.Helpers View Source
Welcome to Interactive Elixir. You are currently
seeing the documentation for the module IEx.Helpers
which provides many helpers to make Elixir’s shell
more joyful to work with.
This message was triggered by invoking the helper h()
,
usually referred to as h/0
(since it expects 0 arguments).
You can use the h/1
function to invoke the documentation
for any Elixir module or function:
iex> h(Enum)
iex> h(Enum.map)
iex> h(Enum.reverse/1)
You can also use the i/1
function to introspect any value
you have in the shell:
iex> i("hello")
There are many other helpers available, here are some examples:
b/1
- prints callbacks info and docs for a given modulec/1
- compiles a file into the current directoryc/2
- compiles a file to the given pathcd/1
- changes the current directoryclear/0
- clears the screenexports/1
- shows all exports (functions + macros) in a moduleflush/0
- flushes all messages sent to the shellh/0
- prints this help messageh/1
- prints help for the given module, function or macroi/0
- prints information about the last valuei/1
- prints information about the given termls/0
- lists the contents of the current directoryls/1
- lists the contents of the specified directoryopen/1
- opens the source for the given module or function in your editorpid/1
- creates a PID from a stringpid/3
- creates a PID with the 3 integer arguments passedref/1
- creates a Reference from a stringref/4
- creates a Reference with the 4 integer arguments passedpwd/0
- prints the current working directoryr/1
- recompiles the given module’s source filerecompile/0
- recompiles the current projectruntime_info/0
- prints runtime info (versions, memory usage, stats)v/0
- retrieves the last value from the historyv/1
- retrieves the nth value from the history
Help for all of those functions can be consulted directly from
the command line using the h/1
helper itself. Try:
iex> h(v/0)
To list all IEx helpers available, which is effectively all
exports (functions and macros) in the IEx.Helpers
module:
iex> exports(IEx.Helpers)
This module also includes helpers for debugging purposes, see
IEx.break!/4
for more information.
To learn more about IEx as a whole, type h(IEx)
.
Link to this section Summary
Functions
Prints the documentation for the given callback function
Macro-based shortcut for IEx.break!/4
Sets up a breakpoint in module
, function
and arity
with the given number of stops
Prints all breakpoints to the terminal
Compiles the given files
Changes the current working directory to the given path
Clears the console screen
Continues execution of the current process
Prints a list of all the functions and macros exported by the given module
Flushes all messages sent to the shell and prints them out
Prints the documentation for IEx.Helpers
Prints the documentation for the given module or for the given function/arity pair
Prints information about the data type of any given term
Evaluates the contents of the file at path
as if it were directly typed into
the shell
Similar to import_file
but only imports the file it if it is available
Calls import/2
with the given arguments, but only if the module is available
Loads the given module’s BEAM code (and ensures any previous old version was properly purged before)
Prints a list of the given directory’s contents
Deploys a given module’s BEAM code to a list of nodes
Opens the current prying location
Opens the given module, module/function/arity or {file, line}
Creates a PID from string
Creates a PID with 3 non-negative integers passed as arguments to the function
Prints the current working directory
Recompiles and reloads the given module
Recompiles the current Mix application
Creates a Reference from string
Removes all breakpoints and instrumentation from all modules
Removes all breakpoints and instrumentation from module
Sets the number of pending stops in the breakpoint with the given id to zero
Sets the number of pending stops in the given module, function and arity to zero
Respawns the current shell by starting a new shell process
Prints vm/runtime information such as versions, memory usage and statistics.
Additional topics are available via runtime_info/1
Just like runtime_info/0
, except accepts topic or a list of topics.
E.g. topic :applications
will list the applications loaded
Prints the types for the given module or for the given function/arity pair
Returns the value of the n
th expression in the history
Prints the current location and stacktrace in a pry session
Link to this section Functions
Prints the documentation for the given callback function.
It also accepts single module argument to list all available behaviour callbacks.
Examples
iex> b(Mix.Task.run/1)
iex> b(Mix.Task.run)
iex> b(GenServer)
Macro-based shortcut for IEx.break!/4
.
Sets up a breakpoint in module
, function
and arity
with the given number of stops
.
See IEx.break!/4
for a complete description of breakpoints
in IEx.
Prints all breakpoints to the terminal.
Compiles the given files.
It expects a list of files to compile and an optional path to write the compiled code to (defaults to the current directory). When compiling one file, there is no need to wrap it in a list.
It returns the names of the compiled modules.
If you want to recompile an existing module, check r/1
instead.
Examples
iex> c(["foo.ex", "bar.ex"], "ebin")
[Foo, Bar]
iex> c("baz.ex")
[Baz]
Changes the current working directory to the given path.
Clears the console screen.
This function only works if ANSI escape codes are enabled on the shell, which means this function is by default unavailable on Windows machines.
Continues execution of the current process.
This is usually called by sessions started with IEx.pry/0
or IEx.break!/4
. This allows the current process to execute
until the next breakpoint, which will automatically yield control
back to IEx without requesting permission to pry.
If the running process terminates, a new IEx session is started.
While the process executes, the user will no longer have
control of the shell. If you would rather start a new shell,
use respawn/0
instead.
Prints a list of all the functions and macros exported by the given module.
Flushes all messages sent to the shell and prints them out.
Prints the documentation for IEx.Helpers
.
Prints the documentation for the given module or for the given function/arity pair.
Examples
iex> h(Enum)
It also accepts functions in the format fun/arity
and module.fun/arity
, for example:
iex> h receive/1
iex> h Enum.all?/2
iex> h Enum.all?
Prints information about the data type of any given term.
If no argument is given, the value of the previous expression is used.
Examples
iex> i(1..5)
Will print:
Term
1..5
Data type
Range
Description
This is a struct. Structs are maps with a __struct__ key.
Reference modules
Range, Map
Evaluates the contents of the file at path
as if it were directly typed into
the shell.
path
has to be a literal string. path
is automatically expanded via
Path.expand/1
.
Examples
# ~/file.exs
value = 13
# in the shell
iex(1)> import_file "~/file.exs"
13
iex(2)> value
13
Similar to import_file
but only imports the file it if it is available.
By default, import_file/1
fails when the given file does not exist.
However, since import_file/1
is expanded at compile-time, it’s not
possible to conditionally import a file since the macro is always
expanded:
# This raises a File.Error if ~/.iex.exs doesn't exist.
if ("~/.iex.exs" |> Path.expand |> File.exists?) do
import_file "~/.iex.exs"
end
This macro addresses this issue by checking if the file exists or not in behalf of the user.
Calls import/2
with the given arguments, but only if the module is available.
This lets you put imports in .iex.exs
files (including ~/.iex.exs
) without
getting compile errors if you open a console where the module is not available.
Example
# In ~/.iex.exs
import_if_available Ecto.Query
Loads the given module’s BEAM code (and ensures any previous old version was properly purged before).
This function is useful when you know the bytecode for module has been updated in the filesystem and you want to tell the VM to load it.
Prints a list of the given directory’s contents.
If path
points to a file, prints its full path.
Deploys a given module’s BEAM code to a list of nodes.
This function is useful for development and debugging when you have code that has been compiled or updated locally that you want to run on other nodes.
The node list defaults to a list of all connected nodes.
Returns {:error, :nofile}
if the object code (i.e. “.beam” file) for the module
could not be found locally.
Examples
iex> nl(HelloWorld)
{:ok, [{:node1@easthost, :loaded, HelloWorld},
{:node1@westhost, :loaded, HelloWorld}]}
iex> nl(NoSuchModuleExists)
{:error, :nofile}
Opens the current prying location.
This command only works inside a pry session started manually
via IEx.pry/0
or a breakpoint set via IEx.break!/4
. Calling
this function during a regular IEx
session will print an error.
Keep in mind the open/0
location may not exist when prying
precompiled source code, such as Elixir itself.
For more information and to open any module or function, see
open/1
.
Opens the given module, module/function/arity or {file, line}
.
This function uses the ELIXIR_EDITOR
environment variable
and falls back to EDITOR
if the former is not available.
By default, it attempts to open the file and line using the
file:line
notation. For example, if your editor is called
subl
, it will open the file as:
subl path/to/file:line
It is important that you choose an editor command that does not block nor that attempts to run an editor directly in the terminal. Command-line based editors likely extra configuration so they open up the given file and line in a separate window.
Custom editors are supported by using the FILE and LINE notations, for example:
ELIXIR_EDITOR="my_editor +__LINE__ __FILE__"
and Elixir will properly interpolate values.
Since this function prints the result returned by the editor,
ELIXIR_EDITOR
can be set “echo” if you prefer to display the
location rather than opening it.
Keep in mind the location may not exist when opening precompiled source code.
Examples
iex> open MyApp
iex> open MyApp.fun/2
iex> open {"path/to/file", 1}
Creates a PID with 3 non-negative integers passed as arguments to the function.
Examples
iex> pid(0, 21, 32)
#PID<0.21.32>
iex> pid(0, 64, 2048)
#PID<0.64.2048>
Prints the current working directory.
Recompiles and reloads the given module
.
Please note that all the modules defined in the same
file as module
are recompiled and reloaded.
This function is meant to be used for development and debugging purposes. Do not depend on it in production code.
In-memory reloading
When we reload the module in IEx, we recompile the module source
code, updating its contents in memory. The original .beam
file
in disk, probably the one where the first definition of the module
came from, does not change at all.
Since typespecs and docs are loaded from the .beam file (they are not loaded in memory with the module because there is no need for them to be in memory), they are not reloaded when you reload the module.
Recompiles the current Mix application.
This helper only works when IEx is started with a Mix
project, for example, iex -S mix
. The application is
not restarted after compilation, which means any long
running process may crash as any changed module will be
temporarily removed and recompiled, without going through
the proper code changes callback.
If you want to reload a single module, consider using
r(ModuleName)
instead.
This function is meant to be used for development and debugging purposes. Do not depend on it in production code.
Removes all breakpoints and instrumentation from all modules.
Removes all breakpoints and instrumentation from module
.
Sets the number of pending stops in the breakpoint with the given id to zero.
Returns :ok
if there is such breakpoint id. :not_found
otherwise.
Note the module remains “instrumented” on reset. If you would
like to effectively remove all breakpoints and instrumentation
code from a module, use remove_breaks/1
instead.
Sets the number of pending stops in the given module, function and arity to zero.
If the module is not instrumented or if the given function
does not have a breakpoint, it is a no-op and it returns
:not_found
. Otherwise it returns :ok
.
Note the module remains “instrumented” on reset. If you would
like to effectively remove all breakpoints and instrumentation
code from a module, use remove_breaks/1
instead.
Respawns the current shell by starting a new shell process.
Prints vm/runtime information such as versions, memory usage and statistics.
Additional topics are available via runtime_info/1
.
Just like runtime_info/0
, except accepts topic or a list of topics.
E.g. topic :applications
will list the applications loaded.
Prints the types for the given module or for the given function/arity pair.
Examples
iex> t(Enum)
@type t() :: Enumerable.t()
@type acc() :: any()
@type element() :: any()
@type index() :: integer()
@type default() :: any()
iex> t(Enum.t/0)
@type t() :: Enumerable.t()
iex> t(Enum.t)
@type t() :: Enumerable.t()
Returns the value of the n
th expression in the history.
n
can be a negative value: if it is, the corresponding expression value
relative to the current one is returned. For example, v(-2)
returns the
value of the expression evaluated before the last evaluated expression. In
particular, v(-1)
returns the result of the last evaluated expression and
v()
does the same.
Examples
iex(1)> "hello" <> " world"
"hello world"
iex(2)> 40 + 2
42
iex(3)> v(-2)
"hello world"
iex(4)> v(2)
42
iex(5)> v()
42
Prints the current location and stacktrace in a pry session.
It expects a radius
which chooses how many lines before and after
the current line we should print. By default the radius
is of two
lines:
Location: lib/iex/lib/iex/helpers.ex:79
77:
78: def recompile do
79: require IEx; IEx.pry
80: if mix_started?() do
81: config = Mix.Project.config
(IEx.Helpers) lib/iex/lib/iex/helpers.ex:78: IEx.Helpers.recompile/0
This command only works inside a pry session started manually
via IEx.pry/0
or a breakpoint set via IEx.break!/4
. Calling
this function during a regular IEx
session will print an error.
Keep in mind the whereami/1
location may not exist when prying
precompiled source code, such as Elixir itself.