Erlang Run-Time System Application (ERTS)

Reference Manual

Version 11.2.2.17

Table of Contents

erlc

Command

erlc

Command Summary

Compiler

Description

The erlc program provides a common way to run all compilers in the Erlang system. Depending on the extension of each input file, erlc invokes the appropriate compiler. Regardless of which compiler is used, the same flags are used to provide parameters, such as include paths and output directory.

The current working directory, ".", is not included in the code path when running the compiler. This is to avoid loading Beam files from the current working directory that could potentially be in conflict with the compiler or the Erlang/OTP system used by the compiler.

erlc flags file1.ext file2.ext...

Compiles one or more files. The files must include the extension, for example, .erl for Erlang source code, or .yrl for Yecc source code. Erlc uses the extension to invoke the correct compiler.

Generally Useful Flags

The following flags are supported:

-I <Directory>

Instructs the compiler to search for include files in the Directory. When encountering an -include or -include_lib directive, the compiler searches for header files in the following directories:

  • ".", the current working directory of the file server

  • The base name of the compiled file

  • The directories specified using option -I; the directory specified last is searched first

-o <Directory>

The directory where the compiler is to place the output files. Defaults to the current working directory.

-D<Name>

Defines a macro.

-D<Name>=<Value>

Defines a macro with the specified value. The value can be any Erlang term. Depending on the platform, the value may need to be quoted if the shell itself interprets certain characters. On Unix, terms containing tuples and lists must be quoted. Terms containing spaces must be quoted on all platforms.

-WError

Makes all warnings into errors.

-W<Number>

Sets warning level to Number. Defaults to 1. To turn off warnings, use -W0.

-W

Same as -W1. Default.

-v

Enables verbose output.

-b <Output_type>

Specifies the type of output file. Output_type is the same as the file extension of the output file, but without the period. This option is ignored by compilers that have a single output format.

-smp

Compiles using the SMP emulator. This is mainly useful for compiling native code, which must be compiled with the same runtime system that it is to be run on.

-no-server

Do not use the compile server.

-server

Use the compile server.

-M

Produces a Makefile rule to track header dependencies. The rule is sent to stdout. No object file is produced.

-MMD

Generate dependencies as a side-effect. The object file will be produced as normal. This option overrides the option -M.

-MF <Makefile>

As option -M, except that the Makefile is written to Makefile. No object file is produced.

-MD

Same as -M -MF <File>.Pbeam.

-MT <Target>

In conjunction with option -M or -MF, changes the name of the rule emitted to Target.

-MQ <Target>

As option -MT, except that characters special to make/1 are quoted.

-MP

In conjunction with option -M or -MF, adds a phony target for each dependency.

-MG

In conjunction with option -M or -MF, considers missing headers as generated files and adds them to the dependencies.

--

Signals that no more options will follow. The rest of the arguments is treated as filenames, even if they start with hyphens.

+<Term>

A flag starting with a plus (+) rather than a hyphen is converted to an Erlang term and passed unchanged to the compiler. For example, option export_all for the Erlang compiler can be specified as follows:

erlc +export_all file.erl

Depending on the platform, the value may need to be quoted if the shell itself interprets certain characters. On Unix, terms containing tuples and lists must be quoted. Terms containing spaces must be quoted on all platforms.

Special Flags

The following flags are useful in special situations, such as rebuilding the OTP system:

-pa <Directory>

Appends Directory to the front of the code path in the invoked Erlang emulator. This can be used to invoke another compiler than the default one.

-pz <Directory>

Appends Directory to the code path in the invoked Erlang emulator.

Supported Compilers

The following compilers are supported:

.erl

Erlang source code. It generates a .beam file.

Options -P, -E, and -S are equivalent to +'P', +'E', and +'S', except that it is not necessary to include the single quotes to protect them from the shell.

Supported options: -I, -o, -D, -v, -W, -b.

.S

Erlang assembler source code. It generates a .beam file.

Supported options: same as for .erl.

.core

Erlang core source code. It generates a .beam file.

Supported options: same as for .erl.

.yrl

Yecc source code. It generates an .erl file.

Use option -I with the name of a file to use that file as a customized prologue file (option includefile).

Supported options: -o, -v, -I, -W.

.mib

MIB for SNMP. It generates a .bin file.

Supported options: -I, -o, -W.

.bin

A compiled MIB for SNMP. It generates a .hrl file.

Supported options: -o, -v.

.rel

Script file. It generates a boot file.

Use option -I to name directories to be searched for application files (equivalent to the path in the option list for systools:make_script/2).

Supported option: -o.

.asn1

ASN1 file. It creates an .erl, .hrl, and .asn1db file from an .asn1 file. Also compiles the .erl using the Erlang compiler unless option +noobj is specified.

Supported options: -I, -o, -b, -W.

.idl

IC file. It runs the IDL compiler.

Supported options: -I, -o.

Compile Server

The compile server can be used to potentially speed up the build of multi-file projects by avoiding to start an Erlang system for each file to compile. Whether it will speed up the build depends on the nature of the project and the build machine.

By default, the compile server is not used. It can be enabled by giving erlc the option -server or by setting the environment variable ERLC_USE_SERVER to yes or true.

When the compile server is enabled, erlc will automatically use the server if it is started and start the server if has not already started. The server will terminate itself when it has been idle for some number of seconds.

erlc and the compile server communicate using the Erlang distribution. The compile server is started as a hidden node, with a name that includes the current user. Thus, each user on a computer has their own compile server.

Using the compile server does not always speed up the build, as the compile server sometimes must be restarted to ensure correctness. Here are some examples of situtations that force a restart:

  • erlc wants to use a different version of Erlang than the compile server is using.
  • erlc wants to use different options for erl than the compile server was started with. (A change to code path using the option -pa could cause different parse transforms to be loaded. To be safe, the compile server will be restarted when any erl option is changed.)
  • If the current working directory for erlc is different from the working directory active when the compile server was started, and if the compile server has active jobs, it will be restarted as soon as those jobs have finished. (Build systems that build files randomly across multiple directories in parallel will probably not benefit from the compile server.)

Environment Variables

ERLC_EMULATOR
The command for starting the emulator. Defaults to erl in the same directory as the erlc program itself, or, if it does not exist, erl in any of the directories specified in environment variable PATH.
ERLC_USE_SERVER
Allowed values are yes or true to use the compile server, and no or false to not use the compile server. If other values are given, erlc will print a warning message and continue.
ERLC_SERVER_ID
Tells erlc to identify the compile server by the given name, allowing a single user to run multiple unrelated builds in parallel without them affecting each other, which can be useful for shared build machines and the like. The name must be alpha­numeric, and it defaults to being empty.