1 @c Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
2 @c Free Software Foundation, Inc.
3 @c This is part of the GCC manual.
4 @c For copying conditions, see the file gcc.texi.
7 @chapter Option specification files
8 @cindex option specification files
9 @cindex @samp{optc-gen.awk}
11 Most GCC command-line options are described by special option
12 definition files, the names of which conventionally end in
13 @code{.opt}. This chapter describes the format of these files.
16 * Option file format:: The general layout of the files
17 * Option properties:: Supported option properties
20 @node Option file format
21 @section Option file format
23 Option files are a simple list of records in which each field occupies
24 its own line and in which the records themselves are separated by
25 blank lines. Comments may appear on their own line anywhere within
26 the file and are preceded by semicolons. Whitespace is allowed before
29 The files can contain the following types of record:
33 A language definition record. These records have two fields: the
34 string @samp{Language} and the name of the language. Once a language
35 has been declared in this way, it can be used as an option property.
36 @xref{Option properties}.
39 A target specific save record to save additional information. These
40 records have two fields: the string @samp{TargetSave}, and a
41 declaration type to go in the @code{cl_target_option} structure.
44 A variable record to define a variable used to store option
45 information. These records have two fields: the string
46 @samp{Variable}, and a declaration of the type and name of the
47 variable, optionally with an initializer (but without any trailing
48 @samp{;}). These records may be used for variables used for many
49 options where declaring the initializer in a single option definition
50 record, or duplicating it in many records, would be inappropriate, or
51 for variables set in option handlers rather than referenced by
52 @code{Var} properties.
55 A variable record to define a variable used to store option
56 information. These records have two fields: the string
57 @samp{TargetVariable}, and a declaration of the type and name of the
58 variable, optionally with an initializer (but without any trailing
59 @samp{;}). @samp{TargetVariable} is a combination of @samp{Variable}
60 and @samp{TargetSave} records in that the variable is defined in the
61 @code{gcc_options} structure, but these variables are also stored in
62 the @code{cl_target_option} structure. The variables are saved in the
63 target save code and restored in the target restore code.
66 A variable record to record any additional files that the
67 @file{options.h} file should include. This is useful to provide
68 enumeration or structure definitions needed for target variables.
69 These records have two fields: the string @samp{HeaderInclude} and the
70 name of the include file.
73 A variable record to record any additional files that the
74 @file{options.c} or @file{options-save.c} file should include. This
76 inline functions needed for target variables and/or @code{#ifdef}
77 sequences to properly set up the initialization. These records have
78 two fields: the string @samp{SourceInclude} and the name of the
82 An enumeration record to define a set of strings that may be used as
83 arguments to an option or options. These records have three fields:
84 the string @samp{Enum}, a space-separated list of properties and help
85 text used to describe the set of strings in @option{--help} output.
86 Properties use the same format as option properties; the following are
89 @item Name(@var{name})
90 This property is required; @var{name} must be a name (suitable for use
91 in C identifiers) used to identify the set of strings in @code{Enum}
94 @item Type(@var{type})
95 This property is required; @var{type} is the C type for variables set
96 by options using this enumeration together with @code{Var}.
98 @item UnknownError(@var{message})
99 The message @var{message} will be used as an error message if the
100 argument is invalid; for enumerations without @code{UnknownError}, a
101 generic error message is used. @var{message} should contain a single
102 @samp{%qs} format, which will be used to format the invalid argument.
106 An enumeration value record to define one of the strings in a set
107 given in an @samp{Enum} record. These records have two fields: the
108 string @samp{EnumValue} and a space-separated list of properties.
109 Properties use the same format as option properties; the following are
112 @item Enum(@var{name})
113 This property is required; @var{name} says which @samp{Enum} record
114 this @samp{EnumValue} record corresponds to.
116 @item String(@var{string})
117 This property is required; @var{string} is the string option argument
118 being described by this record.
120 @item Value(@var{value})
121 This property is required; it says what value (representable as
122 @code{int}) should be used for the given string.
125 This property is optional. If present, it says the present string is
126 the canonical one among all those with the given value. Other strings
127 yielding that value will be mapped to this one so specs do not need to
131 This property is optional. If present, the present string will only
132 be accepted by the driver. This is used for cases such as
133 @option{-march=native} that are processed by the driver so that
134 @samp{gcc -v} shows how the options chosen depended on the system on
135 which the compiler was run.
139 An option definition record. These records have the following fields:
142 the name of the option, with the leading ``-'' removed
144 a space-separated list of option properties (@pxref{Option properties})
146 the help text to use for @option{--help} (omitted if the second field
147 contains the @code{Undocumented} property).
150 By default, all options beginning with ``f'', ``W'' or ``m'' are
151 implicitly assumed to take a ``no-'' form. This form should not be
152 listed separately. If an option beginning with one of these letters
153 does not have a ``no-'' form, you can use the @code{RejectNegative}
154 property to reject it.
156 The help text is automatically line-wrapped before being displayed.
157 Normally the name of the option is printed on the left-hand side of
158 the output and the help text is printed on the right. However, if the
159 help text contains a tab character, the text to the left of the tab is
160 used instead of the option's name and the text to the right of the
161 tab forms the help text. This allows you to elaborate on what type
162 of argument the option takes.
165 A target mask record. These records have one field of the form
166 @samp{Mask(@var{x})}. The options-processing script will automatically
167 allocate a bit in @code{target_flags} (@pxref{Run-time Target}) for
168 each mask name @var{x} and set the macro @code{MASK_@var{x}} to the
169 appropriate bitmask. It will also declare a @code{TARGET_@var{x}}
170 macro that has the value 1 when bit @code{MASK_@var{x}} is set and
173 They are primarily intended to declare target masks that are not
174 associated with user options, either because these masks represent
175 internal switches or because the options are not available on all
176 configurations and yet the masks always need to be defined.
179 @node Option properties
180 @section Option properties
182 The second field of an option record can specify any of the following
183 properties. When an option takes an argument, it is enclosed in parentheses
184 following the option property name. The parser that handles option files
185 is quite simplistic, and will be tricked by any nested parentheses within
186 the argument text itself; in this case, the entire option argument can
187 be wrapped in curly braces within the parentheses to demarcate it, e.g.:
190 Condition(@{defined (USE_CYGWIN_LIBSTDCXX_WRAPPERS)@})
195 The option is available for all languages and targets.
198 The option is available for all languages but is target-specific.
201 The option is handled by the compiler driver using code not shared
202 with the compilers proper (@file{cc1} etc.).
205 The option is available when compiling for the given language.
207 It is possible to specify several different languages for the same
208 option. Each @var{language} must have been declared by an earlier
209 @code{Language} record. @xref{Option file format}.
212 The option is only handled by the compilers proper (@file{cc1} etc.)@:
213 and should not be accepted by the driver.
216 The option does not have a ``no-'' form. All options beginning with
217 ``f'', ``W'' or ``m'' are assumed to have a ``no-'' form unless this
220 @item Negative(@var{othername})
221 The option will turn off another option @var{othername}, which is
222 the option name with the leading ``-'' removed. This chain action will
223 propagate through the @code{Negative} property of the option to be
226 As a consequence, if you have a group of mutually-exclusive
227 options, their @code{Negative} properties should form a circular chain.
228 For example, if options @option{-@var{a}}, @option{-@var{b}} and
229 @option{-@var{c}} are mutually exclusive, their respective @code{Negative}
230 properties should be @samp{Negative(@var{b})}, @samp{Negative(@var{c})}
231 and @samp{Negative(@var{a})}.
235 The option takes a mandatory argument. @code{Joined} indicates
236 that the option and argument can be included in the same @code{argv}
237 entry (as with @code{-mflush-func=@var{name}}, for example).
238 @code{Separate} indicates that the option and argument can be
239 separate @code{argv} entries (as with @code{-o}). An option is
240 allowed to have both of these properties.
242 @item JoinedOrMissing
243 The option takes an optional argument. If the argument is given,
244 it will be part of the same @code{argv} entry as the option itself.
246 This property cannot be used alongside @code{Joined} or @code{Separate}.
248 @item MissingArgError(@var{message})
249 For an option marked @code{Joined} or @code{Separate}, the message
250 @var{message} will be used as an error message if the mandatory
251 argument is missing; for options without @code{MissingArgError}, a
252 generic error message is used. @var{message} should contain a single
253 @samp{%qs} format, which will be used to format the name of the option
257 For an option marked @code{Separate}, indicate that it takes @var{n}
258 arguments. The default is 1.
261 The option's argument is a non-negative integer. The option parser
262 will check and convert the argument before passing it to the relevant
263 option handler. @code{UInteger} should also be used on options like
264 @code{-falign-loops} where both @code{-falign-loops} and
265 @code{-falign-loops}=@var{n} are supported to make sure the saved
266 options are given a full integer.
269 The option's argument should be converted to lowercase as part of
270 putting it in canonical form, and before comparing with the strings
271 indicated by any @code{Enum} property.
274 For an option marked @code{Separate}, the option only takes an
275 argument in the compiler proper, not in the driver. This is for
276 compatibility with existing options that are used both directly and
277 via @option{-Wp,}; new options should not have this property.
280 The state of this option should be stored in variable @var{var}
281 (actually a macro for @code{global_options.x_@var{var}}).
282 The way that the state is stored depends on the type of option:
286 If the option uses the @code{Mask} or @code{InverseMask} properties,
287 @var{var} is the integer variable that contains the mask.
290 If the option is a normal on/off switch, @var{var} is an integer
291 variable that is nonzero when the option is enabled. The options
292 parser will set the variable to 1 when the positive form of the
293 option is used and 0 when the ``no-'' form is used.
296 If the option takes an argument and has the @code{UInteger} property,
297 @var{var} is an integer variable that stores the value of the argument.
300 If the option takes an argument and has the @code{Enum} property,
301 @var{var} is a variable (type given in the @code{Type} property of the
302 @samp{Enum} record whose @code{Name} property has the same argument as
303 the @code{Enum} property of this option) that stores the value of the
307 If the option has the @code{Defer} property, @var{var} is a pointer to
308 a @code{VEC(cl_deferred_option,heap)} that stores the option for later
309 processing. (@var{var} is declared with type @code{void *} and needs
310 to be cast to @code{VEC(cl_deferred_option,heap)} before use.)
313 Otherwise, if the option takes an argument, @var{var} is a pointer to
314 the argument string. The pointer will be null if the argument is optional
318 The option-processing script will usually zero-initialize @var{var}.
319 You can modify this behavior using @code{Init}.
321 @item Var(@var{var}, @var{set})
322 The option controls an integer variable @var{var} and is active when
323 @var{var} equals @var{set}. The option parser will set @var{var} to
324 @var{set} when the positive form of the option is used and @code{!@var{set}}
325 when the ``no-'' form is used.
327 @var{var} is declared in the same way as for the single-argument form
330 @item Init(@var{value})
331 The variable specified by the @code{Var} property should be statically
332 initialized to @var{value}. If more than one option using the same
333 variable specifies @code{Init}, all must specify the same initializer.
335 @item Mask(@var{name})
336 The option is associated with a bit in the @code{target_flags}
337 variable (@pxref{Run-time Target}) and is active when that bit is set.
338 You may also specify @code{Var} to select a variable other than
341 The options-processing script will automatically allocate a unique bit
342 for the option. If the option is attached to @samp{target_flags},
343 the script will set the macro @code{MASK_@var{name}} to the appropriate
344 bitmask. It will also declare a @code{TARGET_@var{name}} macro that has
345 the value 1 when the option is active and 0 otherwise. If you use @code{Var}
346 to attach the option to a different variable, the associated macros are
347 called @code{OPTION_MASK_@var{name}} and @code{OPTION_@var{name}} respectively.
349 You can disable automatic bit allocation using @code{MaskExists}.
351 @item InverseMask(@var{othername})
352 @itemx InverseMask(@var{othername}, @var{thisname})
353 The option is the inverse of another option that has the
354 @code{Mask(@var{othername})} property. If @var{thisname} is given,
355 the options-processing script will declare a @code{TARGET_@var{thisname}}
356 macro that is 1 when the option is active and 0 otherwise.
359 The mask specified by the @code{Mask} property already exists.
360 No @code{MASK} or @code{TARGET} definitions should be added to
361 @file{options.h} in response to this option record.
363 The main purpose of this property is to support synonymous options.
364 The first option should use @samp{Mask(@var{name})} and the others
365 should use @samp{Mask(@var{name}) MaskExists}.
367 @item Enum(@var{name})
368 The option's argument is a string from the set of strings associated
369 with the corresponding @samp{Enum} record. The string is checked and
370 converted to the integer specified in the corresponding
371 @samp{EnumValue} record before being passed to option handlers.
374 The option should be stored in a vector, specified with @code{Var},
375 for later processing.
377 @item Alias(@var{opt})
378 @itemx Alias(@var{opt}, @var{arg})
379 @itemx Alias(@var{opt}, @var{posarg}, @var{negarg})
380 The option is an alias for @option{-@var{opt}} (or the negative form
381 of that option, depending on @code{NegativeAlias}). In the first form,
382 any argument passed to the alias is considered to be passed to
383 @option{-@var{opt}}, and @option{-@var{opt}} is considered to be
384 negated if the alias is used in negated form. In the second form, the
385 alias may not be negated or have an argument, and @var{posarg} is
386 considered to be passed as an argument to @option{-@var{opt}}. In the
387 third form, the alias may not have an argument, if the alias is used
388 in the positive form then @var{posarg} is considered to be passed to
389 @option{-@var{opt}}, and if the alias is used in the negative form
390 then @var{negarg} is considered to be passed to @option{-@var{opt}}.
392 Aliases should not specify @code{Var} or @code{Mask} or
393 @code{UInteger}. Aliases should normally specify the same languages
394 as the target of the alias; the flags on the target will be used to
395 determine any diagnostic for use of an option for the wrong language,
396 while those on the alias will be used to identify what command-line
397 text is the option and what text is any argument to that option.
399 When an @code{Alias} definition is used for an option, driver specs do
400 not need to handle it and no @samp{OPT_} enumeration value is defined
401 for it; only the canonical form of the option will be seen in those
405 For an option marked with @code{Alias(@var{opt})}, the option is
406 considered to be an alias for the positive form of @option{-@var{opt}}
407 if negated and for the negative form of @option{-@var{opt}} if not
408 negated. @code{NegativeAlias} may not be used with the forms of
409 @code{Alias} taking more than one argument.
412 This option is ignored apart from printing any warning specified using
413 @code{Warn}. The option will not be seen by specs and no @samp{OPT_}
414 enumeration value is defined for it.
417 For an option marked with @code{Joined}, @code{Separate} and
418 @code{Alias}, the option only acts as an alias when passed a separate
419 argument; with a joined argument it acts as a normal option, with an
420 @samp{OPT_} enumeration value. This is for compatibility with the
421 Java @option{-d} option and should not be used for new options.
423 @item Warn(@var{message})
424 If this option is used, output the warning @var{message}.
425 @var{message} is a format string, either taking a single operand with
426 a @samp{%qs} format which is the option name, or not taking any
427 operands, which is passed to the @samp{warning} function. If an alias
428 is marked @code{Warn}, the target of the alias must not also be marked
432 The state of the option should be printed by @option{-fverbose-asm}.
435 This is a warning option and should be shown as such in
436 @option{--help} output. This flag does not currently affect anything
437 other than @option{--help}.
440 This is an optimization option. It should be shown as such in
441 @option{--help} output, and any associated variable named using
442 @code{Var} should be saved and restored when the optimization level is
443 changed with @code{optimize} attributes.
446 The option is deliberately missing documentation and should not
447 be included in the @option{--help} output.
449 @item Condition(@var{cond})
450 The option should only be accepted if preprocessor condition
451 @var{cond} is true. Note that any C declarations associated with the
452 option will be present even if @var{cond} is false; @var{cond} simply
453 controls whether the option is accepted and whether it is printed in
454 the @option{--help} output.
457 Build the @code{cl_target_option} structure to hold a copy of the
458 option, add the functions @code{cl_target_option_save} and
459 @code{cl_target_option_restore} to save and restore the options.
462 The option may also be set by a combined option such as
463 @option{-ffast-math}. This causes the @code{gcc_options} struct to
464 have a field @code{frontend_set_@var{name}}, where @code{@var{name}}
465 is the name of the field holding the value of this option (without the
466 leading @code{x_}). This gives the front end a way to indicate that
467 the value has been set explicitly and should not be changed by the
468 combined option. For example, some front ends use this to prevent
469 @option{-ffast-math} and @option{-fno-fast-math} from changing the
470 value of @option{-fmath-errno} for languages that do not use