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code(3) Erlang Module Definition code(3)
NAME
code - Erlang code server.
DESCRIPTION
This module contains the interface to the Erlang code server, which
deals with the loading of compiled code into a running Erlang runtime
system.
The runtime system can be started in interactive or embedded mode.
Which one is decided by the command-line flag -mode:
% erl -mode interactive
The modes are as follows:
* In interactive mode, which is default, only some code is loaded
during system startup, basically the modules needed by the runtime
system. Other code is dynamically loaded when first referenced.
When a call to a function in a certain module is made, and the
module is not loaded, the code server searches for and tries to
load the module.
* In embedded mode, modules are not auto loaded. Trying to use a
module that has not been loaded results in an error. This mode is
recommended when the boot script loads all modules, as it is
typically done in OTP releases. (Code can still be loaded later by
explicitly ordering the code server to do so).
To prevent accidentally reloading of modules affecting the Erlang
runtime system, directories kernel, stdlib, and compiler are considered
sticky. This means that the system issues a warning and rejects the
request if a user tries to reload a module residing in any of them. The
feature can be disabled by using command-line flag -nostick.
CODE PATH
In interactive mode, the code server maintains a search path, usually
called the code path, consisting of a list of directories, which it
searches sequentially when trying to load a module.
Initially, the code path consists of the current working directory and
all Erlang object code directories under library directory
$OTPROOT/lib, where $OTPROOT is the installation directory of
Erlang/OTP, code:root_dir(). Directories can be named Name[-Vsn] and
the code server, by default, chooses the directory with the highest
version number among those having the same Name. Suffix -Vsn is
optional. If an ebin directory exists under Name[-Vsn], this directory
is added to the code path.
Environment variable ERL_LIBS (defined in the operating system) can be
used to define more library directories to be handled in the same way
as the standard OTP library directory described above, except that
directories without an ebin directory are ignored.
All application directories found in the additional directories appear
before the standard OTP applications, except for the Kernel and STDLIB
applications, which are placed before any additional applications. In
Example:
On a Unix-like system, ERL_LIBS can be set to the following
/usr/local/jungerl:/home/some_user/my_erlang_lib
On Windows, use semi-colon as separator.
LOADING OF CODE FROM ARCHIVE FILES
Warning:
The support for loading code from archive files is experimental. The
purpose of releasing it before it is ready is to obtain early feedback.
The file format, semantics, interfaces, and so on, can be changed in a
future release. The function lib_dir/2 and flag -code_path_choice are
also experimental.
The Erlang archives are ZIP files with extension .ez. Erlang archives
can also be enclosed in escript files whose file extension is
arbitrary.
Erlang archive files can contain entire Erlang applications or parts of
applications. The structure in an archive file is the same as the
directory structure for an application. If you, for example, create an
archive of mnesia-4.4.7, the archive file must be named mnesia-4.4.7.ez
and it must contain a top directory named mnesia-4.4.7. If the version
part of the name is omitted, it must also be omitted in the archive.
That is, a mnesia.ez archive must contain a mnesia top directory.
An archive file for an application can, for example, be created like
this:
zip:create("mnesia-4.4.7.ez",
["mnesia-4.4.7"],
[{cwd, code:lib_dir()},
{compress, all},
{uncompress,[".beam",".app"]}]).
Any file in the archive can be compressed, but to speed up the access
of frequently read files, it can be a good idea to store beam and app
files uncompressed in the archive.
Normally the top directory of an application is located in library
directory $OTPROOT/lib or in a directory referred to by environment
variable ERL_LIBS. At startup, when the initial code path is computed,
the code server also looks for archive files in these directories and
possibly adds ebin directories in archives to the code path. The code
path then contains paths to directories that look like
$OTPROOT/lib/mnesia.ez/mnesia/ebin or
$OTPROOT/lib/mnesia-4.4.7.ez/mnesia-4.4.7/ebin.
The code server uses module erl_prim_loader in ERTS (possibly through
erl_boot_server) to read code files from archives. However, the
functions in erl_prim_loader can also be used by other applications to
read files from archives. For example, the call
erl_prim_loader:list_dir(
and start port programs. For other applications that do not need this,
directory priv can reside in the archive and the files under the
directory priv can be read through erl_prim_loader.
When a directory is added to the code path and when the entire code
path is (re)set, the code server decides which subdirectories in an
application that are to be read from the archive and which that are to
be read as regular files. If directories are added or removed
afterwards, the file access can fail if the code path is not updated
(possibly to the same path as before, to trigger the directory
resolution update).
For each directory on the second level in the application archive
(ebin, priv, src, and so on), the code server first chooses the regular
directory if it exists and second from the archive. Function
code:lib_dir/2 returns the path to the subdirectory. For example,
code:lib_dir(megaco,ebin) can return
/otp/root/lib/megaco-3.9.1.1.ez/megaco-3.9.1.1/ebin while
code:lib_dir(megaco,priv) can return /otp/root/lib/megaco-3.9.1.1/priv.
When an escript file contains an archive, there are no restrictions on
the name of the escript and no restrictions on how many applications
that can be stored in the embedded archive. Single Beam files can also
reside on the top level in the archive. At startup, the top directory
in the embedded archive and all (second level) ebin directories in the
embedded archive are added to the code path. See erts:escript(1).
When the choice of directories in the code path is strict, the
directory that ends up in the code path is exactly the stated one. This
means that if, for example, the directory
$OTPROOT/lib/mnesia-4.4.7/ebin is explicitly added to the code path,
the code server does not load files from
$OTPROOT/lib/mnesia-4.4.7.ez/mnesia-4.4.7/ebin.
This behavior can be controlled through command-line flag
-code_path_choice Choice. If the flag is set to relaxed, the code
server instead chooses a suitable directory depending on the actual
file structure. If a regular application ebin directory exists, it is
chosen. Otherwise, the directory ebin in the archive is chosen if it
exists. If neither of them exists, the original directory is chosen.
Command-line flag -code_path_choice Choice also affects how module init
interprets the boot script. The interpretation of the explicit code
paths in the boot script can be strict or relaxed. It is particularly
useful to set the flag to relaxed when elaborating with code loading
from archives without editing the boot script. The default is relaxed.
See erts:init(3).
CURRENT AND OLD CODE
The code for a module can exist in two variants in a system: current
code and old code. When a module is loaded into the system for the
first time, the module code becomes 'current' and the global export
table is updated with references to all functions exported from the
module.
If then a new instance of the module is loaded (for example, because of
error correction), the code of the previous instance becomes 'old', and
all export entries referring to the previous instance are removed.
After that, the new instance is loaded as for the first time, and
If a third instance of the module is loaded, the code server removes
(purges) the old code and any processes lingering in it are terminated.
Then the third instance becomes 'current' and the previously current
code becomes 'old'.
For more information about old and current code, and how to make a
process switch from old to current code, see section Compilation and
Code Loading in the Erlang Reference Manual.
ARGUMENT TYPES AND INVALID ARGUMENTS
Module and application names are atoms, while file and directory names
are strings. For backward compatibility reasons, some functions accept
both strings and atoms, but a future release will probably only allow
the arguments that are documented.
Functions in this module generally fail with an exception if they are
passed an incorrect type (for example, an integer or a tuple where an
atom is expected). An error tuple is returned if the argument type is
correct, but there are some other errors (for example, a non-existing
directory is specified to set_path/1).
ERROR REASONS FOR CODE-LOADING FUNCTIONS
Functions that load code (such as load_file/1) will return
{error,Reason} if the load operation fails. Here follows a description
of the common reasons.
badfile:
The object code has an incorrect format or the module name in the
object code is not the expected module name.
nofile:
No file with object code was found.
not_purged:
The object code could not be loaded because an old version of the
code already existed.
on_load_failure:
The module has an -on_load function that failed when it was called.
sticky_directory:
The object code resides in a sticky directory.
DATA TYPES
load_ret() =
{error, What :: load_error_rsn()} |
{module, Module :: module()}
load_error_rsn() =
badfile | nofile | not_purged | on_load_failure |
sticky_directory
module_status() = not_loaded | loaded | modified | removed
prepared_code()
An opaque term holding prepared code.
Path = [Dir :: file:filename()]
What = bad_directory
Sets the code path to the list of directories Path.
Returns:
true:
If successful
{error, bad_directory}:
If any Dir is not a directory name
get_path() -> Path
Types:
Path = [Dir :: file:filename()]
Returns the code path.
add_path(Dir) -> add_path_ret()
add_pathz(Dir) -> add_path_ret()
Types:
Dir = file:filename()
add_path_ret() = true | {error, bad_directory}
Adds Dir to the code path. The directory is added as the last
directory in the new path. If Dir already exists in the path, it
is not added.
Returns true if successful, or {error, bad_directory} if Dir is
not the name of a directory.
add_patha(Dir) -> add_path_ret()
Types:
Dir = file:filename()
add_path_ret() = true | {error, bad_directory}
Adds Dir to the beginning of the code path. If Dir exists, it is
removed from the old position in the code path.
Returns true if successful, or {error, bad_directory} if Dir is
not the name of a directory.
add_paths(Dirs) -> ok
add_pathsz(Dirs) -> ok
Types:
Dir.
add_pathsa(Dirs) -> ok
Types:
Dirs = [Dir :: file:filename()]
Traverses Dirs and adds each Dir to the beginning of the code
path. This means that the order of Dirs is reversed in the
resulting code path. For example, if you add [Dir1,Dir2], the
resulting path will be [Dir2,Dir1|OldCodePath].
If a Dir already exists in the code path, it is removed from the
old position.
Always returns ok, regardless of the validity of each individual
Dir.
del_path(NameOrDir) -> boolean() | {error, What}
Types:
NameOrDir = Name | Dir
Name = atom()
Dir = file:filename()
What = bad_name
Deletes a directory from the code path. The argument can be an
atom Name, in which case the directory with the name
.../Name[-Vsn][/ebin] is deleted from the code path. Also, the
complete directory name Dir can be specified as argument.
Returns:
true:
If successful
false:
If the directory is not found
{error, bad_name}:
If the argument is invalid
replace_path(Name, Dir) -> true | {error, What}
Types:
Name = atom()
Dir = file:filename()
What = bad_directory | bad_name | {badarg, term()}
Replaces an old occurrence of a directory named
.../Name[-Vsn][/ebin] in the code path, with Dir. If Name does
not exist, it adds the new directory Dir last in the code path.
The new directory must also be named .../Name[-Vsn][/ebin]. This
{error, bad_name}:
If Name is not found
{error, bad_directory}:
If Dir does not exist
{error, {badarg, [Name, Dir]}}:
If Name or Dir is invalid
load_file(Module) -> load_ret()
Types:
Module = module()
load_ret() =
{error, What :: load_error_rsn()} |
{module, Module :: module()}
Tries to load the Erlang module Module, using the code path. It
looks for the object code file with an extension corresponding
to the Erlang machine used, for example, Module.beam. The
loading fails if the module name found in the object code
differs from the name Module. load_binary/3 must be used to load
object code with a module name that is different from the file
name.
Returns {module, Module} if successful, or {error, Reason} if
loading fails. See Error Reasons for Code-Loading Functions for
a description of the possible error reasons.
load_abs(Filename) -> load_ret()
Types:
Filename = file:filename()
load_ret() =
{error, What :: load_error_rsn()} |
{module, Module :: module()}
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
loaded_ret_atoms() = cover_compiled | preloaded
Same as load_file(Module), but Filename is an absolute or
relative filename. The code path is not searched. It returns a
value in the same way as load_file/1. Notice that Filename must
not contain the extension (for example, .beam) because
load_abs/1 adds the correct extension.
ensure_loaded(Module) -> {module, Module} | {error, What}
Types:
Module = module()
What = embedded | badfile | nofile | on_load_failure
load_binary(Module, Filename, Binary) ->
{module, Module} | {error, What}
Types:
Module = module()
Filename = loaded_filename()
Binary = binary()
What = badarg | load_error_rsn()
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
loaded_ret_atoms() = cover_compiled | preloaded
This function can be used to load object code on remote Erlang
nodes. Argument Binary must contain object code for Module.
Filename is only used by the code server to keep a record of
from which file the object code for Module comes. Thus, Filename
is not opened and read by the code server.
Returns {module, Module} if successful, or {error, Reason} if
loading fails. See Error Reasons for Code-Loading Functions for
a description of the possible error reasons.
atomic_load(Modules) -> ok | {error, [{Module, What}]}
Types:
Modules = [Module | {Module, Filename, Binary}]
Module = module()
Filename = file:filename()
Binary = binary()
What =
badfile | nofile | on_load_not_allowed | duplicated |
not_purged | sticky_directory | pending_on_load
Tries to load all of the modules in the list Modules atomically.
That means that either all modules are loaded at the same time,
or none of the modules are loaded if there is a problem with any
of the modules.
Loading can fail for one the following reasons:
badfile:
The object code has an incorrect format or the module name
in the object code is not the expected module name.
nofile:
No file with object code exists.
on_load_not_allowed:
A module contains an -on_load function.
duplicated:
A module is included more than once in Modules.
not_purged:
The object code cannot be loaded because an old version of
the code already exists.
If it is important to minimize the time that an application is
inactive while changing code, use prepare_loading/1 and
finish_loading/1 instead of atomic_load/1. Here is an example:
{ok,Prepared} = code:prepare_loading(Modules),
%% Put the application into an inactive state or do any
%% other preparation needed before changing the code.
ok = code:finish_loading(Prepared),
%% Resume the application.
prepare_loading(Modules) ->
{ok, Prepared} | {error, [{Module, What}]}
Types:
Modules = [Module | {Module, Filename, Binary}]
Module = module()
Filename = file:filename()
Binary = binary()
Prepared = prepared_code()
What = badfile | nofile | on_load_not_allowed | duplicated
Prepares to load the modules in the list Modules. Finish the
loading by calling finish_loading(Prepared).
This function can fail with one of the following error reasons:
badfile:
The object code has an incorrect format or the module name
in the object code is not the expected module name.
nofile:
No file with object code exists.
on_load_not_allowed:
A module contains an -on_load function.
duplicated:
A module is included more than once in Modules.
finish_loading(Prepared) -> ok | {error, [{Module, What}]}
Types:
Prepared = prepared_code()
Module = module()
What = not_purged | sticky_directory | pending_on_load
Tries to load code for all modules that have been previously
prepared by prepare_loading/1. The loading occurs atomically,
meaning that either all modules are loaded at the same time, or
none of the modules are loaded.
This function can fail with one of the following error reasons:
pending_on_load:
A previously loaded module contains an -on_load function
that never finished.
ensure_modules_loaded(Modules :: [Module]) ->
ok | {error, [{Module, What}]}
Types:
Module = module()
What = badfile | nofile | on_load_failure
Tries to load any modules not already loaded in the list Modules
in the same way as load_file/1.
Returns ok if successful, or {error,[{Module,Reason}]} if
loading of some modules fails. See Error Reasons for Code-
Loading Functions for a description of other possible error
reasons.
delete(Module) -> boolean()
Types:
Module = module()
Removes the current code for Module, that is, the current code
for Module is made old. This means that processes can continue
to execute the code in the module, but no external function
calls can be made to it.
Returns true if successful, or false if there is old code for
Module that must be purged first, or if Module is not a (loaded)
module.
purge(Module) -> boolean()
Types:
Module = module()
Purges the code for Module, that is, removes code marked as old.
If some processes still linger in the old code, these processes
are killed before the code is removed.
Note:
As of ERTS version 9.0, a process is only considered to be
lingering in the code if it has direct references to the code.
For more information see documentation of
erlang:check_process_code/3, which is used in order to determine
this.
Returns true if successful and any process is needed to be
killed, otherwise false.
but only if no processes linger in it.
Note:
As of ERTS version 9.0, a process is only considered to be
lingering in the code if it has direct references to the code.
For more information see documentation of
erlang:check_process_code/3, which is used in order to determine
this.
Returns false if the module cannot be purged because of
processes lingering in old code, otherwise true.
is_loaded(Module) -> {file, Loaded} | false
Types:
Module = module()
Loaded = loaded_filename()
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
Filename is an absolute filename.
loaded_ret_atoms() = cover_compiled | preloaded
Checks if Module is loaded. If it is, {file, Loaded} is
returned, otherwise false.
Normally, Loaded is the absolute filename Filename from which
the code is obtained. If the module is preloaded (see
script(4)), Loaded==preloaded. If the module is Cover-compiled
(see cover(3)), Loaded==cover_compiled.
all_available() -> [{Module, Filename, Loaded}]
Types:
Module = string()
Filename = loaded_filename()
Loaded = boolean()
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
Filename is an absolute filename.
loaded_ret_atoms() = cover_compiled | preloaded
Returns a list of tuples {Module, Filename, Loaded} for all
available modules. A module is considered to be available if it
either is loaded or would be loaded if called. Filename is
normally the absolute filename, as described for is_loaded/1.
all_loaded() -> [{Module, Loaded}]
Types:
Module = module()
Loaded = loaded_filename()
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
which(Module) -> Which
Types:
Module = module()
Which = loaded_filename() | non_existing
loaded_filename() =
(Filename :: file:filename()) | loaded_ret_atoms()
loaded_ret_atoms() = cover_compiled | preloaded
If the module is not loaded, this function searches the code
path for the first file containing object code for Module and
returns the absolute filename.
If the module is loaded, it returns the name of the file
containing the loaded object code.
If the module is preloaded, preloaded is returned.
If the module is Cover-compiled, cover_compiled is returned.
If the module cannot be found, non_existing is returned.
get_object_code(Module) -> {Module, Binary, Filename} | error
Types:
Module = module()
Binary = binary()
Filename = file:filename()
Searches the code path for the object code of module Module.
Returns {Module, Binary, Filename} if successful, otherwise
error. Binary is a binary data object, which contains the object
code for the module. This can be useful if code is to be loaded
on a remote node in a distributed system. For example, loading
module Module on a node Node is done as follows:
{_Module, Binary, Filename} = code:get_object_code(Module),
rpc:call(Node, code, load_binary, [Module, Filename, Binary]),
get_doc(Mod) -> {ok, Res} | {error, Reason}
Types:
Mod = module()
Res = #docs_v1{}
Reason = non_existing | missing | file:posix()
Searches the code path for EEP-48 style documentation and
returns it if available. If no documentation can be found the
function tries to generate documentation from the debug
information in the module. If no debug information is available,
this function will return {error,missing}.
where it is installed.
Example:
> code:root_dir().
"/usr/local/otp"
lib_dir() -> file:filename()
Returns the library directory, $OTPROOT/lib, where $OTPROOT is
the root directory of Erlang/OTP.
Example:
> code:lib_dir().
"/usr/local/otp/lib"
lib_dir(Name) -> file:filename() | {error, bad_name}
Types:
Name = atom()
Returns the path for the "library directory", the top directory,
for an application Name located under $OTPROOT/lib or on a
directory referred to with environment variable ERL_LIBS.
If a regular directory called Name or Name-Vsn exists in the
code path with an ebin subdirectory, the path to this directory
is returned (not the ebin directory).
If the directory refers to a directory in an archive, the
archive name is stripped away before the path is returned. For
example, if directory
/usr/local/otp/lib/mnesia-4.2.2.ez/mnesia-4.2.2/ebin is in the
path, /usr/local/otp/lib/mnesia-4.2.2/ebin is returned. This
means that the library directory for an application is the same,
regardless if the application resides in an archive or not.
Example:
> code:lib_dir(mnesia).
"/usr/local/otp/lib/mnesia-4.2.2"
Returns {error, bad_name} if Name is not the name of an
application under $OTPROOT/lib or on a directory referred to
through environment variable ERL_LIBS. Fails with an exception
if Name has the wrong type.
Warning:
For backward compatibility, Name is also allowed to be a string.
That will probably change in a future release.
directory of an application. Normally the subdirectories reside
under the top directory for the application, but when
applications at least partly reside in an archive, the situation
is different. Some of the subdirectories can reside as regular
directories while others reside in an archive file. It is not
checked whether this directory exists.
Example:
> code:lib_dir(megaco, priv).
"/usr/local/otp/lib/megaco-3.9.1.1/priv"
Fails with an exception if Name or SubDir has the wrong type.
compiler_dir() -> file:filename()
Returns the compiler library directory. Equivalent to
code:lib_dir(compiler).
priv_dir(Name) -> file:filename() | {error, bad_name}
Types:
Name = atom()
Returns the path to the priv directory in an application.
Equivalent to code:lib_dir(Name, priv).
Warning:
For backward compatibility, Name is also allowed to be a string.
That will probably change in a future release.
objfile_extension() -> nonempty_string()
Returns the object code file extension corresponding to the
Erlang machine used, namely .beam.
stick_dir(Dir) -> ok | error
Types:
Dir = file:filename()
Marks Dir as sticky.
Returns ok if successful, otherwise error.
unstick_dir(Dir) -> ok | error
Types:
Dir = file:filename()
Types:
Module = module()
Returns true if Module is the name of a module that has been
loaded from a sticky directory (in other words: an attempt to
reload the module will fail), or false if Module is not a loaded
module or is not sticky.
where_is_file(Filename) -> non_existing | Absname
Types:
Filename = Absname = file:filename()
Searches the code path for Filename, a file of arbitrary type.
If found, the full name is returned. non_existing is returned if
the file cannot be found. The function can be useful, for
example, to locate application resource files.
clash() -> ok
Searches all directories in the code path for module names with
identical names and writes a report to stdout.
module_status() -> [{module(), module_status()}]
Types:
module_status() = not_loaded | loaded | modified | removed
See module_status/1 and all_loaded/0 for details.
module_status(Module :: module() | [module()]) ->
module_status() | [{module(), module_status()}]
Types:
module_status() = not_loaded | loaded | modified | removed
The status of a module can be one of:
not_loaded:
If Module is not currently loaded.
loaded:
If Module is loaded and the object file exists and contains
the same code.
removed:
If Module is loaded but no corresponding object file can be
found in the code path.
modified:
If Module is loaded but the object file contains code with a
reported as loaded or not_loaded.
See also modified_modules/0.
modified_modules() -> [module()]
Returns the list of all currently loaded modules for which
module_status/1 returns modified. See also all_loaded/0.
is_module_native(Module) -> true | false | undefined
Types:
Module = module()
Returns false if the given Module is loaded, and undefined if it
is not.
Warning:
This function is deprecated and will be removed in a future
release.
get_mode() -> embedded | interactive
Returns an atom describing the mode of the code server:
interactive or embedded.
This information is useful when an external entity (for example,
an IDE) provides additional code for a running node. If the code
server is in interactive mode, it only has to add the path to
the code. If the code server is in embedded mode, the code must
be loaded with load_binary/3.
Ericsson AB kernel 8.5.4 code(3)