-spec env_compiler_options() -> [term()].

Return compiler options given via the environment variable ERL_COMPILER_OPTIONS. If the value is a list, it is returned as is. If it is not a list, it is put into a list.

-spec file(module() | file:filename()) -> CompRet :: comp_ret().

Is the same as file(File, [verbose,report_errors,report_warnings]).

-spec file(File :: module() | file:filename(), Options :: [option()] | option()) ->
              CompRet :: comp_ret().

Compiles the code in the file File, which is an Erlang source code file without the .erl extension.

Options determine the behavior of the compiler.

Returns {ok,ModuleName} if successful, or error if there are errors. An object code file is created if the compilation succeeds without errors. It is considered to be an error if the module name in the source code is not the same as the basename of the output file.

Available options:

• brief - Restricts error and warning messages to a single line of output. As of Erlang/OTP 24, the compiler will by default also display the part of the source code that the message refers to.

• basic_validation - This option is a fast way to test whether a module will compile successfully. This is useful for code generators that want to verify the code that they emit. No code is generated. If warnings are enabled, warnings generated by the erl_lint module (such as warnings for unused variables and functions) are also returned.

  Use option strong_validation to generate all warnings that the compiler would generate.

• strong_validation - Similar to option basic_validation. No code is generated, but more compiler passes are run to ensure that warnings generated by the optimization passes are generated (such as clauses that will not match, or expressions that are guaranteed to fail with an exception at runtime).

• no_docs - The compiler by default extracts documentation from -doc attributes and places them in the Docs chunk according to EEP-48.

  This option switches off the placement of -doc attributes in the Docs chunk.

• binary - The compiler returns the object code in a binary instead of creating an object file. If successful, the compiler returns {ok,ModuleName,Binary}.

• bin_opt_info - The compiler will emit informational warnings about binary matching optimizations (both successful and unsuccessful). For more information, see the section about bin_opt_info in the Efficiency Guide.

• {compile_info, [{atom(), term()}]} - Allows compilers built on top of compile to attach extra compilation metadata to the compile_info chunk in the generated BEAM file.

  It is advised for compilers to remove all non-deterministic information if the deterministic option is supported and it was supplied by the user.

• compressed - The compiler will compress the generated object code, which can be useful for embedded systems.

• debug_info - Includes debug information in the form of Erlang Abstract Format in the debug_info chunk of the compiled beam module. Tools such as Debugger, Xref, and Cover require the debug information to be included.

  Warning: Source code can be reconstructed from the debug information. Use encrypted debug information (encrypt_debug_info) to prevent this.

  For details, see beam_lib(3).

• {debug_info, {Backend, Data}} - Includes custom debug information in the form of a Backend module with custom Data in the compiled beam module. The given module must implement a debug_info/4 function and is responsible for generating different code representations, as described in the debug_info under beam_lib(3).

  Warning: Source code can be reconstructed from the debug information. Use encrypted debug information (encrypt_debug_info) to prevent this.

• {debug_info_key,KeyString}

• {debug_info_key,{Mode,KeyString}} - Includes debug information, but encrypts it so that it cannot be accessed without supplying the key. (To give option debug_info as well is allowed, but not necessary.) Using this option is a good way to always have the debug information available during testing, yet protecting the source code.

  Mode is the type of crypto algorithm to be used for encrypting the debug information. The default (and currently the only) type is des3_cbc.

  For details, see beam_lib(3).

• encrypt_debug_info - Similar to the debug_info_key option, but the key is read from an .erlang.crypt file.

  For details, see beam_lib(3).

• deterministic - Omit the options and source tuples in the list returned by Module:module_info(compile), and reduce the paths in stack traces to the module name alone. This option will make it easier to achieve reproducible builds.

• {feature, Feature, enable | disable} - Enable (disable) the feature Feature during compilation. The special feature all can be used to enable (disable) all features.

  Note

  This option has no effect when used in a -compile(..) attribute. Instead, the -feature(..) directive (described next) should be used.

  A feature can also be enabled (disabled) using the -feature(Feature, enable | disable). module directive. Note that this directive can only be present in a prefix of the file, before exports and function definitions. This is the preferred method of enabling and disabling features, since it is a local property of a module.

• makedep - Produces a Makefile rule to track headers dependencies. No object file is produced.

  By default, this rule is written to <File>.Pbeam. However, if option binary is set, nothing is written and the rule is returned in Binary.

  The output will be encoded in UTF-8.

  For example, if you have the following module:

  -module(module).
  
  -include_lib("eunit/include/eunit.hrl").
  -include("header.hrl").

  The Makefile rule generated by this option looks as follows:

  module.beam: module.erl \
    /usr/local/lib/erlang/lib/eunit/include/eunit.hrl \
    header.hrl

• makedep_side_effect - The dependencies are created as a side effect to the normal compilation process. This means that the object file will also be produced. This option override the makedep option.

• {makedep_output, Output} - Writes generated rules to Output instead of the default <File>.Pbeam. Output can be a filename or an io_device(). To write to stdout, use standard_io. However, if binary is set, nothing is written to Output and the result is returned to the caller with {ok, ModuleName, Binary}.

• {makedep_target, Target} - Changes the name of the rule emitted to Target.

• makedep_quote_target - Characters in Target special to make(1) are quoted.

• makedep_add_missing - Considers missing headers as generated files and adds them to the dependencies.

• makedep_phony - Adds a phony target for each dependency.

• 'P' - Produces a listing of the parsed code, after preprocessing and parse transforms, in the file <File>.P. No object file is produced.

• 'E' - Produces a listing of the code, after all source code transformations have been performed, in the file <File>.E. No object file is produced.

• 'S' - Produces a listing of the assembler code in the file <File>.S. No object file is produced.

• recv_opt_info - The compiler will emit informational warnings about selective receive optimizations (both successful and unsuccessful). For more information, see the section about selective receive optimization in the Efficiency Guide.

• report_errors/report_warnings - Causes errors/warnings to be printed as they occur.

• report - A short form for both report_errors and report_warnings.

• return_errors - If this flag is set, {error,ErrorList,WarningList} is returned when there are errors.

• return_warnings - If this flag is set, an extra field, containing WarningList, is added to the tuples returned on success.

• warnings_as_errors - Causes warnings to be treated as errors.

• {error_location,line | column} - If the value of this flag is line, the location ErrorLocation of warnings and errors is a line number. If the value is column, ErrorLocation includes both a line number and a column number. Default is column. This option is supported since Erlang/OTP 24.0.

  If the value of this flag is column, debug information includes column information.

• return - A short form for both return_errors and return_warnings.

• verbose - Causes more verbose information from the compiler, describing what it is doing.

• {source,FileName} - Overrides the source file name as presented in module_info(compile) and stack traces.

• absolute_source - Turns the source file name (as presented in module_info(compile) and stack traces) into an absolute path, which helps external tools like perf and gdb find Erlang source code.

• {outdir,Dir} - Sets a new directory for the object code. The current directory is used for output, except when a directory has been specified with this option.

• export_all - Causes all functions in the module to be exported.

• {i,Dir} - Adds Dir to the list of directories to be searched when including a file. When encountering an -include or -include_lib directive, the compiler searches for header files in the following directories:

  1. ".", the current working directory of the file server
  2. The base name of the compiled file
  3. The directories specified using option i; the directory specified last is searched first

• {d,Macro}

• {d,Macro,Value} - Defines a macro Macro to have the value Value. Macro is of type atom, and Value can be any term. The default Value is true.

• {parse_transform,Module} - Causes the parse transformation function Module:parse_transform/2 to be applied to the parsed code before the code is checked for errors.

• from_abstr - The input file is expected to contain Erlang terms representing forms in abstract format (default file suffix ".abstr"). Note that the format of such terms can change between releases.

  See also the no_lint option.

• from_asm - The input file is expected to be assembler code (default file suffix ".S"). Notice that the format of assembler files is not documented, and can change between releases.

• from_core - The input file is expected to be core code (default file suffix ".core"). Notice that the format of core files is not documented, and can change between releases.

• no_spawn_compiler_process - By default, all code is compiled in a separate process which is terminated at the end of compilation. However, some tools, like Dialyzer or compilers for other BEAM languages, may already manage their own worker processes and spawning an extra process may slow the compilation down. In such scenarios, you can pass this option to stop the compiler from spawning an additional process.

• no_strict_record_tests - This option is not recommended.

  By default, the generated code for operation Record#record_tag.field verifies that the tuple Record has the correct size for the record, and that the first element is the tag record_tag. Use this option to omit the verification code.

• no_error_module_mismatch - Normally the compiler verifies that the module name given in the source code is the same as the base name of the output file and refuses to generate an output file if there is a mismatch. If there is a good reason for having a module name unrelated to the name of the output file, this option disables that verification (there will not even be a warning if there is a mismatch).

• {no_auto_import,[{F,A}, ...]} - Makes the function F/A no longer being auto-imported from the erlang module, which resolves BIF name clashes. This option must be used to resolve name clashes with auto-imported BIFs that existed before Erlang/OTP R14A when calling a local function with the same name as an auto-imported BIF without module prefix.

  If the BIF is to be called, use the erlang module prefix in the call, not {no_auto_import,[{F,A}, ...]}.

  If this option is written in the source code, as a -compile directive, the syntax F/A can be used instead of {F,A}. For example:

  -compile({no_auto_import,[error/1]}).

• no_auto_import - Do not auto-import any functions from erlang module.

• no_line_info - Omits line number information to produce a slightly smaller output file.

• no_lint - Skips the pass that checks for errors and warnings. Only applicable together with the from_abstr option. This is mainly for implementations of other languages on top of Erlang, which have already done their own checks to guarantee correctness of the code.

  Caveat: When this option is used, there are no guarantees that the code output by the compiler is correct and safe to use. The responsibility for correctness lies on the code or person generating the abstract format. If the code contains errors, the compiler may crash or produce unsafe code.

• {extra_chunks, [{binary(), binary()}]} - Pass extra chunks to be stored in the .beam file. The extra chunks must be a list of tuples with a four byte binary as chunk name followed by a binary with the chunk contents. See beam_lib for more information.

• {check_ssa, Tag :: atom()} - Parse and check assertions on the structure and content of the BEAM SSA code produced by the compiler. The Tag indicates the set of assertions to check and after which compiler pass the check is performed. This option is internal to the compiler and can be changed or removed at any time without prior warning.

• line_coverage - Instrument the compiled code for line coverage by inserting an executable_line instruction for each executable line in the source code. By default, this instruction will be ignored when loading the code.

  To activate the executable_line instructions, the runtime system must be started with the option +JPcover to enable a coverage mode. Alternatively, code:set_coverage_mode/1 can be used to set a coverage mode before loading the code.

  The coverage information gathered by the instrumented code can be retrieved by calling code:get_coverage(line, Module).

• force_line_counters - When combined with option line_coverage, this module will be loaded in the line_counter coverage mode, regardless of the current coverage mode in the runtime system. This option is used by cover to load cover-compiled code.

If warnings are turned on (option report_warnings described earlier), the following options control what type of warnings that are generated. Except from {warn_format,Verbosity}, the following options have two forms:

• A warn_xxx form, to turn on the warning.
• A nowarn_xxx form, to turn off the warning.

In the descriptions that follow, the form that is used to change the default value are listed.

• {warn_format, Verbosity} - Causes warnings to be emitted for malformed format strings as arguments to io:format and similar functions.

  Verbosity selects the number of warnings:

  • 0 = No warnings
  • 1 = Warnings for invalid format strings and incorrect number of arguments
  • 2 = Warnings also when the validity cannot be checked, for example, when the format string argument is a variable.

  The default verbosity is 1. Verbosity 0 can also be selected by option nowarn_format.

• nowarn_bif_clash - This option is removed; it generates a fatal error if used.

  To resolve BIF clashes, use explicit module names or the {no_auto_import,[F/A]} compiler directive.

• {nowarn_bif_clash, FAs} - This option is removed; it generates a fatal error if used.

  To resolve BIF clashes, use explicit module names or the {no_auto_import,[F/A]} compiler directive.

• nowarn_export_all - Turns off warnings for uses of the export_all option. Default is to emit a warning if option export_all is also given.

• warn_export_vars - Emits warnings for all implicitly exported variables referred to after the primitives where they were first defined. By default, the compiler only emits warnings for exported variables referred to in a pattern.

• nowarn_shadow_vars - Turns off warnings for "fresh" variables in functional objects or list comprehensions with the same name as some already defined variable. Default is to emit warnings for such variables.

• warn_keywords - Emits warnings when the code contains atoms that are used as keywords in some feature. When the feature is enabled, any occurrences will lead to a syntax error. To prevent this, the atom has to be renamed or quoted.

• nowarn_unused_function - Turns off warnings for unused local functions. Default is to emit warnings for all local functions that are not called directly or indirectly by an exported function. The compiler does not include unused local functions in the generated BEAM file, but the warning is still useful to keep the source code cleaner.

• {nowarn_unused_function, FAs} - Turns off warnings for unused local functions like nowarn_unused_function does, but only for the mentioned local functions. FAs is a tuple {Name,Arity} or a list of such tuples.

• nowarn_deprecated_function - Turns off warnings for calls to deprecated functions. Default is to emit warnings for every call to a function known by the compiler to be deprecated. Notice that the compiler does not know about attribute -deprecated(), but uses an assembled list of deprecated functions in Erlang/OTP. To do a more general check, the Xref tool can be used. See also xref(3) and the function xref:m/1, also accessible through the function c:xm/1.

• {nowarn_deprecated_function, MFAs} - Turns off warnings for calls to deprecated functions like nowarn_deprecated_function does, but only for the mentioned functions. MFAs is a tuple {Module,Name,Arity} or a list of such tuples.

• nowarn_deprecated_type - Turns off warnings for use of deprecated types. Default is to emit warnings for every use of a type known by the compiler to be deprecated.

• nowarn_deprecated_callback - Turns off warnings for use of deprecated callbacks. Default is to emit warnings for every use of a callback known by the compiler to be deprecated.

• nowarn_removed - Turns off warnings for calls to functions that have been removed. Default is to emit warnings for every call to a function known by the compiler to have been recently removed from Erlang/OTP.

• {nowarn_removed, ModulesOrMFAs} - Turns off warnings for calls to modules or functions that have been removed. Default is to emit warnings for every call to a function known by the compiler to have been recently removed from Erlang/OTP.

• nowarn_obsolete_guard - Turns off warnings for calls to old type testing BIFs, such as pid/1 and list/1. See the Erlang Reference Manual for a complete list of type testing BIFs and their old equivalents. Default is to emit warnings for calls to old type testing BIFs.

• warn_unused_import - Emits warnings for unused imported functions. Default is to emit no warnings for unused imported functions.

• nowarn_underscore_match - By default, warnings are emitted when a variable that begins with an underscore is matched after being bound. Use this option to turn off this kind of warning.

• nowarn_unused_vars - By default, warnings are emitted for unused variables, except for variables beginning with an underscore ("Prolog style warnings"). Use this option to turn off this kind of warning.

• nowarn_unused_record - Turns off warnings for unused record definitions. Default is to emit warnings for unused locally defined records.

• {nowarn_unused_record, RecordNames} - Turns off warnings for unused record definitions. Default is to emit warnings for unused locally defined records.

• nowarn_unused_type - Turns off warnings for unused type declarations. Default is to emit warnings for unused local type declarations.

• nowarn_nif_inline - By default, warnings are emitted when inlining is enabled in a module that may load NIFs, as the compiler may inline NIF fallbacks by accident. Use this option to turn off this kind of warnings.

• warn_missing_doc | warn_missing_doc_functions | warn_missing_doc_types | warn_missing_doc_callbacks
  By default, warnings are not emitted when -doc attribute for an exported function, callback or type is not given. Use these option to turn on this kind of warning. warn_missing_doc is equivalent to setting all of warn_missing_doc_functions, warn_missing_doc_types and warn_missing_doc_callbacks.

• nowarn_missing_doc | nowarn_missing_doc_functions | nowarn_missing_doc_types | nowarn_missing_doc_callbacks
  If warnings are enabled by warn_missing_doc, then you can use these options turn those warnings off again. nowarn_missing_doc is equivalent to setting all of nowarn_missing_doc_functions, nowarn_missing_doc_types and nowarn_missing_doc_callbacks.

• nowarn_hidden_doc | {nowarn_hidden_doc,NAs}
  By default, warnings are emitted when -doc false attribute is set on a callback or referenced type. You can set nowarn_hidden_doc to suppress all those warnings, or {nowarn_hidden_doc, NAs} to suppress specific callbacks or types. NAs is a tuple {Name, Arity} or a list of such tuples.

• warn_missing_spec - By default, warnings are not emitted when a specification (or contract) for an exported function is not given. Use this option to turn on this kind of warning.

• warn_missing_spec_documented - By default, warnings are not emitted when a specification (or contract) for a documented function is not given. Use this option to turn on this kind of warning.

• warn_missing_spec_all - By default, warnings are not emitted when a specification (or contract) for an exported or unexported function is not given. Use this option to turn on this kind of warning.

• nowarn_redefined_builtin_type - By default, a warning is emitted when a built-in type is locally redefined. Use this option to turn off this kind of warning.

• {nowarn_redefined_builtin_type, Types} - By default, a warning is emitted when a built-in type is locally redefined. Use this option to turn off this kind of warning for the types in Types, where Types is a tuple {TypeName,Arity} or a list of such tuples.

Other kinds of warnings are opportunistic warnings. They are generated when the compiler happens to notice potential issues during optimization and code generation.

Note

The compiler does not warn for expressions that it does not attempt to optimize. For example, the compiler will emit a warning for 1/0 but not for X/0, because 1/0 is a constant expression that the compiler will attempt to evaluate.

The absence of warnings does not mean that there are no remaining errors in the code.

Opportunistic warnings can be disabled using the following options:

• nowarn_opportunistic - Disable all opportunistic warnings.

• nowarn_failed - Disable warnings for expressions that will always fail (such as atom+42).

• nowarn_ignored - Disable warnings for expressions whose values are ignored.

• nowarn_nomatch - Disable warnings for patterns that will never match (such as a=b) and for guards that always evaluate to false.

Note

All options, except the include path ({i,Dir}), can also be given in the file with attribute -compile([Option,...]). Attribute -compile() is allowed after the function definitions.

Note

Before Erlang/OTP 22, the option {nowarn_deprecated_function, MFAs} was only recognized when given in the file with attribute -compile(). (The option {nowarn_unused_function,FAs} was incorrectly documented to only work in a file, but it also worked when given in the option list.) Starting from Erlang/OTP 22, all options that can be given in the file can also be given in the option list.

For debugging of the compiler, or for pure curiosity, the intermediate code generated by each compiler pass can be inspected. To print a complete list of the options to produce list files, type compile:options() at the Erlang shell prompt. The options are printed in the order that the passes are executed. If more than one listing option is used, the one representing the earliest pass takes effect.

Unrecognized options are ignored.

Both WarningList and ErrorList have the following format:

[{FileName,[ErrorInfo]}].

The filename is included here, as the compiler uses the Erlang pre-processor epp, which allows the code to be included in other files. It is therefore important to know to which file the location of an error or a warning refers.

The ErrorInfo structure has the following format:

{ErrorLocation, Module, ErrorDescriptor}

ErrorLocation is usually the tuple {Line, Column}. If option {error_location,line} has been given, ErrorLocation is only the line number. If the error does not correspond to a specific location (for example, if the source file does not exist), ErrorLocation is the atom none.

A string describing the error is obtained with the following call:

Module:format_error(ErrorDescriptor)

-spec format_error(ErrorDescription :: error_description()) -> string().

Uses an ErrorDescriptor and returns a deep list of characters that describes the error.

This function is usually called implicitly when an ErrorInfo structure is processed.

-spec forms(forms()) -> CompRet :: comp_ret().

Is the same as forms(Forms, [verbose,report_errors,report_warnings]).

-spec forms(Forms :: forms(), Options :: [option()] | option()) -> CompRet :: comp_ret().

Analogous to file/1, but takes a list of forms (in either Erlang abstract or Core Erlang format representation) as first argument.

Option binary is implicit, that is, no object code file is produced. For options that normally produce a listing file, such as 'E', the internal format for that compiler pass (an Erlang term, usually not a binary) is returned instead of a binary.

-spec noenv_file(File :: module() | file:filename(), Options :: [option()] | option()) -> comp_ret().

Works like file/2, except that the environment variable ERL_COMPILER_OPTIONS is not consulted.

-spec noenv_forms(Forms :: forms(), Options :: [option()] | option()) -> comp_ret().

Works like forms/2, except that the environment variable ERL_COMPILER_OPTIONS is not consulted.

-spec noenv_output_generated(Options :: [option()]) -> boolean().

Works like output_generated/1, except that the environment variable ERL_COMPILER_OPTIONS is not consulted.

-spec output_generated(Options :: [option()]) -> boolean().

Determines whether the compiler generates a BEAM file with the given options.

true means that a BEAM file is generated. false means that the compiler generates some listing file, returns a binary, or merely checks the syntax of the source code.