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GNU Fortran compiler.
GFORTRAN(1) GNU GFORTRAN(1)
gcc-8 2020-03-04 GFORTRAN(1)
NAMEgfortran - GNU Fortran compiler
SYNOPSISgfortran [-c|-S|-E] [-g] [-pg] [-Olevel] [-Wwarn...] [-pedantic] [-Idir...] [-Ldir...] [-Dmacro[=defn]...] [-Umacro] [-foption...] [-mmachine-option...] [-o outfile] infile... Only the most useful options are listed here; see below for the remainder.
DESCRIPTIONThe gfortran command supports all the options supported by the gcc command. Only options specific to GNU Fortran are documented here. All GCC and GNU Fortran options are accepted both by gfortran and by gcc (as well as any other drivers built at the same time, such as g++), since adding GNU Fortran to the GCC distribution enables acceptance of GNU Fortran options by all of the relevant drivers. In some cases, options have positive and negative forms; the negative form of -ffoo would be -fno-foo. This manual documents only one of these two forms, whichever one is not the default.
OPTIONSHere is a summary of all the options specific to GNU Fortran, grouped by type. Explanations are in the following sections. Fortran Language Options -fall-intrinsics -fbackslash -fcray-pointer -fd-lines-as-code -fd-lines-as-comments -fdec -fdec-structure -fdec-intrinsic-ints -fdec-static -fdec-math -fdefault-double-8 -fdefault-integer-8 -fdefault-real-8 -fdefault-real-10 -fdefault-real-16 -fdollar-ok -ffixed-line-length-n -ffixed-line-length-none -ffree-form -ffree-line-length-n -ffree-line-length-none -fimplicit-none -finteger-4-integer-8 -fmax-identifier-length -fmodule-private -ffixed-form -fno-range-check -fopenacc -fopenmp -freal-4-real-10 -freal-4-real-16 -freal-4-real-8 -freal-8-real-10 -freal-8-real-16 -freal-8-real-4 -std=std -ftest-forall-temp Preprocessing Options -A-question[=answer] -Aquestion=answer -C -CC -Dmacro[=defn] -H -P -Umacro -cpp -dD -dI -dM -dN -dU -fworking-directory -imultilib dir -iprefix file -iquote -isysroot dir -isystem dir -nocpp -nostdinc -undef Error and Warning Options -Waliasing -Wall -Wampersand -Wargument-mismatch -Warray-bounds -Wc-binding-type -Wcharacter-truncation -Wconversion -Wdo-subscript -Wfunction-elimination -Wimplicit-interface -Wimplicit-procedure -Wintrinsic-shadow -Wuse-without-only -Wintrinsics-std -Wline-truncation -Wno-align-commons -Wno-tabs -Wreal-q-constant -Wsurprising -Wunderflow -Wunused-parameter -Wrealloc-lhs -Wrealloc-lhs-all -Wfrontend-loop-interchange -Wtarget-lifetime -fmax-errors=n -fsyntax-only -pedantic -pedantic-errors Debugging Options -fbacktrace -fdump-fortran-optimized -fdump-fortran-original -fdump-parse-tree -ffpe-trap=list -ffpe-summary=list Directory Options -Idir -Jdir -fintrinsic-modules-path dir Link Options -static-libgfortran Runtime Options -fconvert=conversion -fmax-subrecord-length=length -frecord-marker=length -fsign-zero Interoperability Options -fc-prototypes Code Generation Options -faggressive-function-elimination -fblas-matmul-limit=n -fbounds-check -ftail-call-workaround -ftail-call-workaround=n -fcheck-array-temporaries -fcheck=<all|array-temps|bounds|do|mem|pointer|recursion> -fcoarray=<none|single|lib> -fexternal-blas -ff2c -ffrontend-loop-interchange -ffrontend-optimize -finit-character=n -finit-integer=n -finit-local-zero -finit-derived -finit-logical=<true|false> -finit-real=<zero|inf|-inf|nan|snan> -finline-matmul-limit=n -fmax-array-constructor=n -fmax-stack-var-size=n -fno-align-commons -fno-automatic -fno-protect-parens -fno-underscoring -fsecond-underscore -fpack-derived -frealloc-lhs -frecursive -frepack-arrays -fshort-enums -fstack-arrays Options controlling Fortran dialect The following options control the details of the Fortran dialect accepted by the compiler: -ffree-form -ffixed-form Specify the layout used by the source file. The free form layout was introduced in Fortran 90. Fixed form was traditionally used in older Fortran programs. When neither option is specified, the source form is determined by the file extension. -fall-intrinsics This option causes all intrinsic procedures (including the GNU-specific extensions) to be accepted. This can be useful with -std=f95 to force standard-compliance but get access to the full range of intrinsics available with gfortran. As a consequence, -Wintrinsics-std will be ignored and no user-defined procedure with the same name as any intrinsic will be called except when it is explicitly declared "EXTERNAL". -fd-lines-as-code -fd-lines-as-comments Enable special treatment for lines beginning with "d" or "D" in fixed form sources. If the -fd-lines-as-code option is given they are treated as if the first column contained a blank. If the -fd-lines-as-comments option is given, they are treated as comment lines. -fdec DEC compatibility mode. Enables extensions and other features that mimic the default behavior of older compilers (such as DEC). These features are non-standard and should be avoided at all costs. For details on GNU Fortran's implementation of these extensions see the full documentation. Other flags enabled by this switch are: -fdollar-ok -fcray-pointer -fdec-structure -fdec-intrinsic-ints -fdec-static -fdec-math If -fd-lines-as-code/-fd-lines-as-comments are unset, then -fdec also sets -fd-lines-as-comments. -fdec-structure Enable DEC "STRUCTURE" and "RECORD" as well as "UNION", "MAP", and dot ('.') as a member separator (in addition to '%'). This is provided for compatibility only; Fortran 90 derived types should be used instead where possible. -fdec-intrinsic-ints Enable B/I/J/K kind variants of existing integer functions (e.g. BIAND, IIAND, JIAND, etc...). For a complete list of intrinsics see the full documentation. -fdec-math Enable legacy math intrinsics such as COTAN and degree-valued trigonometric functions (e.g. TAND, ATAND, etc...) for compatability with older code. -fdec-static Enable DEC-style STATIC and AUTOMATIC attributes to explicitly specify the storage of variables and other objects. -fdollar-ok Allow $ as a valid non-first character in a symbol name. Symbols that start with $ are rejected since it is unclear which rules to apply to implicit typing as different vendors implement different rules. Using $ in "IMPLICIT" statements is also rejected. -fbackslash Change the interpretation of backslashes in string literals from a single backslash character to "C-style" escape characters. The following combinations are expanded "\a", "\b", "\f", "\n", "\r", "\t", "\v", "\\", and "\0" to the ASCII characters alert, backspace, form feed, newline, carriage return, horizontal tab, vertical tab, backslash, and NUL, respectively. Additionally, "\x"nn, "\u"nnnn and "\U"nnnnnnnn (where each n is a hexadecimal digit) are translated into the Unicode characters corresponding to the specified code points. All other combinations of a character preceded by \ are unexpanded. -fmodule-private Set the default accessibility of module entities to "PRIVATE". Use-associated entities will not be accessible unless they are explicitly declared as "PUBLIC". -ffixed-line-length-n Set column after which characters are ignored in typical fixed-form lines in the source file, and through which spaces are assumed (as if padded to that length) after the ends of short fixed-form lines. Popular values for n include 72 (the standard and the default), 80 (card image), and 132 (corresponding to "extended-source" options in some popular compilers). n may also be none, meaning that the entire line is meaningful and that continued character constants never have implicit spaces appended to them to fill out the line. -ffixed-line-length-0 means the same thing as -ffixed-line-length-none. -ffree-line-length-n Set column after which characters are ignored in typical free-form lines in the source file. The default value is 132. n may be none, meaning that the entire line is meaningful. -ffree-line-length-0 means the same thing as -ffree-line-length-none. -fmax-identifier-length=n Specify the maximum allowed identifier length. Typical values are 31 (Fortran 95) and 63 (Fortran 2003 and Fortran 2008). -fimplicit-none Specify that no implicit typing is allowed, unless overridden by explicit "IMPLICIT" statements. This is the equivalent of adding "implicit none" to the start of every procedure. -fcray-pointer Enable the Cray pointer extension, which provides C-like pointer functionality. -fopenacc Enable the OpenACC extensions. This includes OpenACC "!$acc" directives in free form and "c$acc", *$acc and "!$acc" directives in fixed form, "!$" conditional compilation sentinels in free form and "c$", "*$" and "!$" sentinels in fixed form, and when linking arranges for the OpenACC runtime library to be linked in. Note that this is an experimental feature, incomplete, and subject to change in future versions of GCC. See <https://gcc.gnu.org/wiki/OpenACC> for more information. -fopenmp Enable the OpenMP extensions. This includes OpenMP "!$omp" directives in free form and "c$omp", *$omp and "!$omp" directives in fixed form, "!$" conditional compilation sentinels in free form and "c$", "*$" and "!$" sentinels in fixed form, and when linking arranges for the OpenMP runtime library to be linked in. The option -fopenmp implies -frecursive. -fno-range-check Disable range checking on results of simplification of constant expressions during compilation. For example, GNU Fortran will give an error at compile time when simplifying "a = 1. / 0". With this option, no error will be given and "a" will be assigned the value "+Infinity". If an expression evaluates to a value outside of the relevant range of ["-HUGE()":"HUGE()"], then the expression will be replaced by "-Inf" or "+Inf" as appropriate. Similarly, "DATA i/Z'FFFFFFFF'/" will result in an integer overflow on most systems, but with -fno-range-check the value will "wrap around" and "i" will be initialized to -1 instead. -fdefault-integer-8 Set the default integer and logical types to an 8 byte wide type. This option also affects the kind of integer constants like 42. Unlike -finteger-4-integer-8, it does not promote variables with explicit kind declaration. -fdefault-real-8 Set the default real type to an 8 byte wide type. This option also affects the kind of non-double real constants like 1.0, and does promote the default width of "DOUBLE PRECISION" to 16 bytes if possible, unless "-fdefault-double-8" is given, too. Unlike -freal-4-real-8, it does not promote variables with explicit kind declaration. -fdefault-real-10 Set the default real type to a 10 byte wide type. This option also affects the kind of non-double real constants like 1.0, and does promote the default width of "DOUBLE PRECISION" to 16 bytes if possible, unless "-fdefault-double-8" is given. Unlike -freal-4-real-10, it does not promote variables with explicit kind declaration. -fdefault-real-16 Set the default real type to a 16 byte wide type. This option also affects the kind of non-double real constants like 1.0, and does promote the default width of "DOUBLE PRECISION" to 16 bytes if possible, unless "-fdefault-double-8" is given. Unlike -freal-4-real-16, it does not promote variables with explicit kind declaration. -fdefault-double-8 Set the "DOUBLE PRECISION" type to an 8 byte wide type. Do nothing if this is already the default. If -fdefault-real-8 is given, "DOUBLE PRECISION" would instead be promoted to 16 bytes if possible, and -fdefault-double-8 can be used to prevent this. The kind of real constants like "1.d0" will not be changed by -fdefault-real-8 though, so also -fdefault-double-8 does not affect it. -finteger-4-integer-8 Promote all "INTEGER(KIND=4)" entities to an "INTEGER(KIND=8)" entities. If "KIND=8" is unavailable, then an error will be issued. This option should be used with care and may not be suitable for your codes. Areas of possible concern include calls to external procedures, alignment in "EQUIVALENCE" and/or "COMMON", generic interfaces, BOZ literal constant conversion, and I/O. Inspection of the intermediate representation of the translated Fortran code, produced by -fdump-tree-original, is suggested. -freal-4-real-8 -freal-4-real-10 -freal-4-real-16 -freal-8-real-4 -freal-8-real-10 -freal-8-real-16 Promote all "REAL(KIND=M)" entities to "REAL(KIND=N)" entities. If "REAL(KIND=N)" is unavailable, then an error will be issued. All other real kind types are unaffected by this option. These options should be used with care and may not be suitable for your codes. Areas of possible concern include calls to external procedures, alignment in "EQUIVALENCE" and/or "COMMON", generic interfaces, BOZ literal constant conversion, and I/O. Inspection of the intermediate representation of the translated Fortran code, produced by -fdump-tree-original, is suggested. -std=std Specify the standard to which the program is expected to conform, which may be one of f95, f2003, f2008, f2018, gnu, or legacy. The default value for std is gnu, which specifies a superset of the latest Fortran standard that includes all of the extensions supported by GNU Fortran, although warnings will be given for obsolete extensions not recommended for use in new code. The legacy value is equivalent but without the warnings for obsolete extensions, and may be useful for old non-standard programs. The f95, f2003, f2008, and f2018 values specify strict conformance to the Fortran 95, Fortran 2003, Fortran 2008 and Fortran 2018 standards, respectively; errors are given for all extensions beyond the relevant language standard, and warnings are given for the Fortran 77 features that are permitted but obsolescent in later standards. -std=f2008ts allows the Fortran 2008 standard including the additions of the Technical Specification (TS) 29113 on Further Interoperability of Fortran with C and TS 18508 on Additional Parallel Features in Fortran. -ftest-forall-temp Enhance test coverage by forcing most forall assignments to use temporary. Enable and customize preprocessing Preprocessor related options. See section Preprocessing and conditional compilation for more detailed information on preprocessing in gfortran. -cpp -nocpp Enable preprocessing. The preprocessor is automatically invoked if the file extension is .fpp, .FPP, .F, .FOR, .FTN, .F90, .F95, .F03 or .F08. Use this option to manually enable preprocessing of any kind of Fortran file. To disable preprocessing of files with any of the above listed extensions, use the negative form: -nocpp. The preprocessor is run in traditional mode. Any restrictions of the file-format, especially the limits on line length, apply for preprocessed output as well, so it might be advisable to use the -ffree-line-length-none or -ffixed-line-length-none options. -dM Instead of the normal output, generate a list of '#define' directives for all the macros defined during the execution of the preprocessor, including predefined macros. This gives you a way of finding out what is predefined in your version of the preprocessor. Assuming you have no file foo.f90, the command touch foo.f90; gfortran -cpp -E -dM foo.f90 will show all the predefined macros. -dD Like -dM except in two respects: it does not include the predefined macros, and it outputs both the "#define" directives and the result of preprocessing. Both kinds of output go to the standard output file. -dN Like -dD, but emit only the macro names, not their expansions. -dU Like dD except that only macros that are expanded, or whose definedness is tested in preprocessor directives, are output; the output is delayed until the use or test of the macro; and '#undef' directives are also output for macros tested but undefined at the time. -dI Output '#include' directives in addition to the result of preprocessing. -fworking-directory Enable generation of linemarkers in the preprocessor output that will let the compiler know the current working directory at the time of preprocessing. When this option is enabled, the preprocessor will emit, after the initial linemarker, a second linemarker with the current working directory followed by two slashes. GCC will use this directory, when it is present in the preprocessed input, as the directory emitted as the current working directory in some debugging information formats. This option is implicitly enabled if debugging information is enabled, but this can be inhibited with the negated form -fno-working-directory. If the -P flag is present in the command line, this option has no effect, since no "#line" directives are emitted whatsoever. -idirafter dir Search dir for include files, but do it after all directories specified with -I and the standard system directories have been exhausted. dir is treated as a system include directory. If dir begins with "=", then the "=" will be replaced by the sysroot prefix; see --sysroot and -isysroot. -imultilib dir Use dir as a subdirectory of the directory containing target-specific C++ headers. -iprefix prefix Specify prefix as the prefix for subsequent -iwithprefix options. If the prefix represents a directory, you should include the final '/'. -isysroot dir This option is like the --sysroot option, but applies only to header files. See the --sysroot option for more information. -iquote dir Search dir only for header files requested with "#include "file""; they are not searched for "#include <file>", before all directories specified by -I and before the standard system directories. If dir begins with "=", then the "=" will be replaced by the sysroot prefix; see --sysroot and -isysroot. -isystem dir Search dir for header files, after all directories specified by -I but before the standard system directories. Mark it as a system directory, so that it gets the same special treatment as is applied to the standard system directories. If dir begins with "=", then the "=" will be replaced by the sysroot prefix; see --sysroot and -isysroot. -nostdinc Do not search the standard system directories for header files. Only the directories you have specified with -I options (and the directory of the current file, if appropriate) are searched. -undef Do not predefine any system-specific or GCC-specific macros. The standard predefined macros remain defined. -Apredicate=answer Make an assertion with the predicate predicate and answer answer. This form is preferred to the older form -A predicate(answer), which is still supported, because it does not use shell special characters. -A-predicate=answer Cancel an assertion with the predicate predicate and answer answer. -C Do not discard comments. All comments are passed through to the output file, except for comments in processed directives, which are deleted along with the directive. You should be prepared for side effects when using -C; it causes the preprocessor to treat comments as tokens in their own right. For example, comments appearing at the start of what would be a directive line have the effect of turning that line into an ordinary source line, since the first token on the line is no longer a '#'. Warning: this currently handles C-Style comments only. The preprocessor does not yet recognize Fortran-style comments. -CC Do not discard comments, including during macro expansion. This is like -C, except that comments contained within macros are also passed through to the output file where the macro is expanded. In addition to the side-effects of the -C option, the -CC option causes all C++-style comments inside a macro to be converted to C-style comments. This is to prevent later use of that macro from inadvertently commenting out the remainder of the source line. The -CC option is generally used to support lint comments. Warning: this currently handles C- and C++-Style comments only. The preprocessor does not yet recognize Fortran-style comments. -Dname Predefine name as a macro, with definition 1. -Dname=definition The contents of definition are tokenized and processed as if they appeared during translation phase three in a '#define' directive. In particular, the definition will be truncated by embedded newline characters. If you are invoking the preprocessor from a shell or shell-like program you may need to use the shell's quoting syntax to protect characters such as spaces that have a meaning in the shell syntax. If you wish to define a function-like macro on the command line, write its argument list with surrounding parentheses before the equals sign (if any). Parentheses are meaningful to most shells, so you will need to quote the option. With sh and csh, "-D'name(args...)=definition'" works. -D and -U options are processed in the order they are given on the command line. All -imacros file and -include file options are processed after all -D and -U options. -H Print the name of each header file used, in addition to other normal activities. Each name is indented to show how deep in the '#include' stack it is. -P Inhibit generation of linemarkers in the output from the preprocessor. This might be useful when running the preprocessor on something that is not C code, and will be sent to a program which might be confused by the linemarkers. -Uname Cancel any previous definition of name, either built in or provided with a -D option. Options to request or suppress errors and warnings Errors are diagnostic messages that report that the GNU Fortran compiler cannot compile the relevant piece of source code. The compiler will continue to process the program in an attempt to report further errors to aid in debugging, but will not produce any compiled output. Warnings are diagnostic messages that report constructions which are not inherently erroneous but which are risky or suggest there is likely to be a bug in the program. Unless -Werror is specified, they do not prevent compilation of the program. You can request many specific warnings with options beginning -W, for example -Wimplicit to request warnings on implicit declarations. Each of these specific warning options also has a negative form beginning -Wno- to turn off warnings; for example, -Wno-implicit. This manual lists only one of the two forms, whichever is not the default. These options control the amount and kinds of errors and warnings produced by GNU Fortran: -fmax-errors=n Limits the maximum number of error messages to n, at which point GNU Fortran bails out rather than attempting to continue processing the source code. If n is 0, there is no limit on the number of error messages produced. -fsyntax-only Check the code for syntax errors, but do not actually compile it. This will generate module files for each module present in the code, but no other output file. -Wpedantic -pedantic Issue warnings for uses of extensions to Fortran. -pedantic also applies to C-language constructs where they occur in GNU Fortran source files, such as use of \e in a character constant within a directive like "#include". Valid Fortran programs should compile properly with or without this option. However, without this option, certain GNU extensions and traditional Fortran features are supported as well. With this option, many of them are rejected. Some users try to use -pedantic to check programs for conformance. They soon find that it does not do quite what they want---it finds some nonstandard practices, but not all. However, improvements to GNU Fortran in this area are welcome. This should be used in conjunction with -std=f95, -std=f2003, -std=f2008 or -std=f2018. -pedantic-errors Like -pedantic, except that errors are produced rather than warnings. -Wall Enables commonly used warning options pertaining to usage that we recommend avoiding and that we believe are easy to avoid. This currently includes -Waliasing, -Wampersand, -Wconversion, -Wsurprising, -Wc-binding-type, -Wintrinsics-std, -Wtabs, -Wintrinsic-shadow, -Wline-truncation, -Wtarget-lifetime, -Winteger-division, -Wreal-q-constant, -Wunused and -Wundefined-do-loop. -Waliasing Warn about possible aliasing of dummy arguments. Specifically, it warns if the same actual argument is associated with a dummy argument with "INTENT(IN)" and a dummy argument with "INTENT(OUT)" in a call with an explicit interface. The following example will trigger the warning. interface subroutine bar(a,b) integer, intent(in) :: a integer, intent(out) :: b end subroutine end interface integer :: a call bar(a,a) -Wampersand Warn about missing ampersand in continued character constants. The warning is given with -Wampersand, -pedantic, -std=f95, -std=f2003, -std=f2008 and -std=f2018. Note: With no ampersand given in a continued character constant, GNU Fortran assumes continuation at the first non-comment, non-whitespace character after the ampersand that initiated the continuation. -Wargument-mismatch Warn about type, rank, and other mismatches between formal parameters and actual arguments to functions and subroutines. These warnings are recommended and thus enabled by default. -Warray-temporaries Warn about array temporaries generated by the compiler. The information generated by this warning is sometimes useful in optimization, in order to avoid such temporaries. -Wc-binding-type Warn if the a variable might not be C interoperable. In particular, warn if the variable has been declared using an intrinsic type with default kind instead of using a kind parameter defined for C interoperability in the intrinsic "ISO_C_Binding" module. This option is implied by -Wall. -Wcharacter-truncation Warn when a character assignment will truncate the assigned string. -Wline-truncation Warn when a source code line will be truncated. This option is implied by -Wall. For free-form source code, the default is -Werror=line-truncation such that truncations are reported as error. -Wconversion Warn about implicit conversions that are likely to change the value of the expression after conversion. Implied by -Wall. -Wconversion-extra Warn about implicit conversions between different types and kinds. This option does not imply -Wconversion. -Wextra Enables some warning options for usages of language features which may be problematic. This currently includes -Wcompare-reals, -Wunused-parameter and -Wdo-subscript. -Wfrontend-loop-interchange Enable warning for loop interchanges performed by the -ffrontend-loop-interchange option. -Wimplicit-interface Warn if a procedure is called without an explicit interface. Note this only checks that an explicit interface is present. It does not check that the declared interfaces are consistent across program units. -Wimplicit-procedure Warn if a procedure is called that has neither an explicit interface nor has been declared as "EXTERNAL". -Winteger-division Warn if a constant integer division truncates it result. As an example, 3/5 evaluates to 0. -Wintrinsics-std Warn if gfortran finds a procedure named like an intrinsic not available in the currently selected standard (with -std) and treats it as "EXTERNAL" procedure because of this. -fall-intrinsics can be used to never trigger this behavior and always link to the intrinsic regardless of the selected standard. -Wreal-q-constant Produce a warning if a real-literal-constant contains a "q" exponent-letter. -Wsurprising Produce a warning when "suspicious" code constructs are encountered. While technically legal these usually indicate that an error has been made. This currently produces a warning under the following circumstances: * An INTEGER SELECT construct has a CASE that can never be matched as its lower value is greater than its upper value. * A LOGICAL SELECT construct has three CASE statements. * A TRANSFER specifies a source that is shorter than the destination. * The type of a function result is declared more than once with the same type. If -pedantic or standard-conforming mode is enabled, this is an error. * A "CHARACTER" variable is declared with negative length. -Wtabs By default, tabs are accepted as whitespace, but tabs are not members of the Fortran Character Set. For continuation lines, a tab followed by a digit between 1 and 9 is supported. -Wtabs will cause a warning to be issued if a tab is encountered. Note, -Wtabs is active for -pedantic, -std=f95, -std=f2003, -std=f2008, -std=f2008ts, -std=f2018 and -Wall. -Wundefined-do-loop Warn if a DO loop with step either 1 or -1 yields an underflow or an overflow during iteration of an induction variable of the loop. This option is implied by -Wall. -Wunderflow Produce a warning when numerical constant expressions are encountered, which yield an UNDERFLOW during compilation. Enabled by default. -Wintrinsic-shadow Warn if a user-defined procedure or module procedure has the same name as an intrinsic; in this case, an explicit interface or "EXTERNAL" or "INTRINSIC" declaration might be needed to get calls later resolved to the desired intrinsic/procedure. This option is implied by -Wall. -Wuse-without-only Warn if a "USE" statement has no "ONLY" qualifier and thus implicitly imports all public entities of the used module. -Wunused-dummy-argument Warn about unused dummy arguments. This option is implied by -Wall. -Wunused-parameter Contrary to gcc's meaning of -Wunused-parameter, gfortran's implementation of this option does not warn about unused dummy arguments (see -Wunused-dummy-argument), but about unused "PARAMETER" values. -Wunused-parameter is implied by -Wextra if also -Wunused or -Wall is used. -Walign-commons By default, gfortran warns about any occasion of variables being padded for proper alignment inside a "COMMON" block. This warning can be turned off via -Wno-align-commons. See also -falign-commons. -Wfunction-elimination Warn if any calls to functions are eliminated by the optimizations enabled by the -ffrontend-optimize option. -Wrealloc-lhs Warn when the compiler might insert code to for allocation or reallocation of an allocatable array variable of intrinsic type in intrinsic assignments. In hot loops, the Fortran 2003 reallocation feature may reduce the performance. If the array is already allocated with the correct shape, consider using a whole-array array-spec (e.g. "(:,:,:)") for the variable on the left-hand side to prevent the reallocation check. Note that in some cases the warning is shown, even if the compiler will optimize reallocation checks away. For instance, when the right-hand side contains the same variable multiplied by a scalar. See also -frealloc-lhs. -Wrealloc-lhs-all Warn when the compiler inserts code to for allocation or reallocation of an allocatable variable; this includes scalars and derived types. -Wcompare-reals Warn when comparing real or complex types for equality or inequality. This option is implied by -Wextra. -Wtarget-lifetime Warn if the pointer in a pointer assignment might be longer than the its target. This option is implied by -Wall. -Wzerotrip Warn if a "DO" loop is known to execute zero times at compile time. This option is implied by -Wall. -Wdo-subscript Warn if an array subscript inside a DO loop could lead to an out-of-bounds access even if the compiler can not prove that the statement is actually executed, in cases like real a(3) do i=1,4 if (condition(i)) then a(i) = 1.2 end if end do This option is implied by -Wextra. -Werror Turns all warnings into errors. Some of these have no effect when compiling programs written in Fortran. Options for debugging your program or GNU Fortran GNU Fortran has various special options that are used for debugging either your program or the GNU Fortran compiler. -fdump-fortran-original Output the internal parse tree after translating the source program into internal representation. This option is mostly useful for debugging the GNU Fortran compiler itself. The output generated by this option might change between releases. This option may also generate internal compiler errors for features which have only recently been added. -fdump-fortran-optimized Output the parse tree after front-end optimization. Mostly useful for debugging the GNU Fortran compiler itself. The output generated by this option might change between releases. This option may also generate internal compiler errors for features which have only recently been added. -fdump-parse-tree Output the internal parse tree after translating the source program into internal representation. Mostly useful for debugging the GNU Fortran compiler itself. The output generated by this option might change between releases. This option may also generate internal compiler errors for features which have only recently been added. This option is deprecated; use "-fdump-fortran-original" instead. -ffpe-trap=list Specify a list of floating point exception traps to enable. On most systems, if a floating point exception occurs and the trap for that exception is enabled, a SIGFPE signal will be sent and the program being aborted, producing a core file useful for debugging. list is a (possibly empty) comma-separated list of the following exceptions: invalid (invalid floating point operation, such as "SQRT(-1.0)"), zero (division by zero), overflow (overflow in a floating point operation), underflow (underflow in a floating point operation), inexact (loss of precision during operation), and denormal (operation performed on a denormal value). The first five exceptions correspond to the five IEEE 754 exceptions, whereas the last one (denormal) is not part of the IEEE 754 standard but is available on some common architectures such as x86. The first three exceptions (invalid, zero, and overflow) often indicate serious errors, and unless the program has provisions for dealing with these exceptions, enabling traps for these three exceptions is probably a good idea. Many, if not most, floating point operations incur loss of precision due to rounding, and hence the "ffpe-trap=inexact" is likely to be uninteresting in practice. By default no exception traps are enabled. -ffpe-summary=list Specify a list of floating-point exceptions, whose flag status is printed to "ERROR_UNIT" when invoking "STOP" and "ERROR STOP". list can be either none, all or a comma-separated list of the following exceptions: invalid, zero, overflow, underflow, inexact and denormal. (See -ffpe-trap for a description of the exceptions.) By default, a summary for all exceptions but inexact is shown. -fno-backtrace When a serious runtime error is encountered or a deadly signal is emitted (segmentation fault, illegal instruction, bus error, floating-point exception, and the other POSIX signals that have the action core), the Fortran runtime library tries to output a backtrace of the error. "-fno-backtrace" disables the backtrace generation. This option only has influence for compilation of the Fortran main program. Options for directory search These options affect how GNU Fortran searches for files specified by the "INCLUDE" directive and where it searches for previously compiled modules. It also affects the search paths used by cpp when used to preprocess Fortran source. -Idir These affect interpretation of the "INCLUDE" directive (as well as of the "#include" directive of the cpp preprocessor). Also note that the general behavior of -I and "INCLUDE" is pretty much the same as of -I with "#include" in the cpp preprocessor, with regard to looking for header.gcc files and other such things. This path is also used to search for .mod files when previously compiled modules are required by a "USE" statement. -Jdir This option specifies where to put .mod files for compiled modules. It is also added to the list of directories to searched by an "USE" statement. The default is the current directory. -fintrinsic-modules-path dir This option specifies the location of pre-compiled intrinsic modules, if they are not in the default location expected by the compiler. Influencing the linking step These options come into play when the compiler links object files into an executable output file. They are meaningless if the compiler is not doing a link step. -static-libgfortran On systems that provide libgfortran as a shared and a static library, this option forces the use of the static version. If no shared version of libgfortran was built when the compiler was configured, this option has no effect. Influencing runtime behavior These options affect the runtime behavior of programs compiled with GNU Fortran. -fconvert=conversion Specify the representation of data for unformatted files. Valid values for conversion are: native, the default; swap, swap between big- and little-endian; big-endian, use big-endian representation for unformatted files; little-endian, use little-endian representation for unformatted files. This option has an effect only when used in the main program. The "CONVERT" specifier and the GFORTRAN_CONVERT_UNIT environment variable override the default specified by -fconvert. -frecord-marker=length Specify the length of record markers for unformatted files. Valid values for length are 4 and 8. Default is 4. This is different from previous versions of gfortran, which specified a default record marker length of 8 on most systems. If you want to read or write files compatible with earlier versions of gfortran, use -frecord-marker=8. -fmax-subrecord-length=length Specify the maximum length for a subrecord. The maximum permitted value for length is 2147483639, which is also the default. Only really useful for use by the gfortran testsuite. -fsign-zero When enabled, floating point numbers of value zero with the sign bit set are written as negative number in formatted output and treated as negative in the "SIGN" intrinsic. -fno-sign-zero does not print the negative sign of zero values (or values rounded to zero for I/O) and regards zero as positive number in the "SIGN" intrinsic for compatibility with Fortran 77. The default is -fsign-zero. Options for code generation conventions These machine-independent options control the interface conventions used in code generation. Most of them have both positive and negative forms; the negative form of -ffoo would be -fno-foo. In the table below, only one of the forms is listed---the one which is not the default. You can figure out the other form by either removing no- or adding it. -fno-automatic Treat each program unit (except those marked as RECURSIVE) as if the "SAVE" statement were specified for every local variable and array referenced in it. Does not affect common blocks. (Some Fortran compilers provide this option under the name -static or -save.) The default, which is -fautomatic, uses the stack for local variables smaller than the value given by -fmax-stack-var-size. Use the option -frecursive to use no static memory. -ff2c Generate code designed to be compatible with code generated by g77 and f2c. The calling conventions used by g77 (originally implemented in f2c) require functions that return type default "REAL" to actually return the C type "double", and functions that return type "COMPLEX" to return the values via an extra argument in the calling sequence that points to where to store the return value. Under the default GNU calling conventions, such functions simply return their results as they would in GNU C---default "REAL" functions return the C type "float", and "COMPLEX" functions return the GNU C type "complex". Additionally, this option implies the -fsecond-underscore option, unless -fno-second-underscore is explicitly requested. This does not affect the generation of code that interfaces with the libgfortran library. Caution: It is not a good idea to mix Fortran code compiled with -ff2c with code compiled with the default -fno-f2c calling conventions as, calling "COMPLEX" or default "REAL" functions between program parts which were compiled with different calling conventions will break at execution time. Caution: This will break code which passes intrinsic functions of type default "REAL" or "COMPLEX" as actual arguments, as the library implementations use the -fno-f2c calling conventions. -fno-underscoring Do not transform names of entities specified in the Fortran source file by appending underscores to them. With -funderscoring in effect, GNU Fortran appends one underscore to external names with no underscores. This is done to ensure compatibility with code produced by many UNIX Fortran compilers. Caution: The default behavior of GNU Fortran is incompatible with f2c and g77, please use the -ff2c option if you want object files compiled with GNU Fortran to be compatible with object code created with these tools. Use of -fno-underscoring is not recommended unless you are experimenting with issues such as integration of GNU Fortran into existing system environments (vis-a-vis existing libraries, tools, and so on). For example, with -funderscoring, and assuming that "j()" and "max_count()" are external functions while "my_var" and "lvar" are local variables, a statement like I = J() + MAX_COUNT (MY_VAR, LVAR) is implemented as something akin to: i = j_() + max_count__(&my_var__, &lvar); With -fno-underscoring, the same statement is implemented as: i = j() + max_count(&my_var, &lvar); Use of -fno-underscoring allows direct specification of user-defined names while debugging and when interfacing GNU Fortran code with other languages. Note that just because the names match does not mean that the interface implemented by GNU Fortran for an external name matches the interface implemented by some other language for that same name. That is, getting code produced by GNU Fortran to link to code produced by some other compiler using this or any other method can be only a small part of the overall solution---getting the code generated by both compilers to agree on issues other than naming can require significant effort, and, unlike naming disagreements, linkers normally cannot detect disagreements in these other areas. Also, note that with -fno-underscoring, the lack of appended underscores introduces the very real possibility that a user-defined external name will conflict with a name in a system library, which could make finding unresolved-reference bugs quite difficult in some cases---they might occur at program run time, and show up only as buggy behavior at run time. In future versions of GNU Fortran we hope to improve naming and linking issues so that debugging always involves using the names as they appear in the source, even if the names as seen by the linker are mangled to prevent accidental linking between procedures with incompatible interfaces. -fsecond-underscore By default, GNU Fortran appends an underscore to external names. If this option is used GNU Fortran appends two underscores to names with underscores and one underscore to external names with no underscores. GNU Fortran also appends two underscores to internal names with underscores to avoid naming collisions with external names. This option has no effect if -fno-underscoring is in effect. It is implied by the -ff2c option. Otherwise, with this option, an external name such as "MAX_COUNT" is implemented as a reference to the link-time external symbol "max_count__", instead of "max_count_". This is required for compatibility with g77 and f2c, and is implied by use of the -ff2c option. -fcoarray=<keyword> none Disable coarray support; using coarray declarations and image-control statements will produce a compile-time error. (Default) single Single-image mode, i.e. "num_images()" is always one. lib Library-based coarray parallelization; a suitable GNU Fortran coarray library needs to be linked. -fcheck=<keyword> Enable the generation of run-time checks; the argument shall be a comma-delimited list of the following keywords. Prefixing a check with no- disables it if it was activated by a previous specification. all Enable all run-time test of -fcheck. array-temps Warns at run time when for passing an actual argument a temporary array had to be generated. The information generated by this warning is sometimes useful in optimization, in order to avoid such temporaries. Note: The warning is only printed once per location. bounds Enable generation of run-time checks for array subscripts and against the declared minimum and maximum values. It also checks array indices for assumed and deferred shape arrays against the actual allocated bounds and ensures that all string lengths are equal for character array constructors without an explicit typespec. Some checks require that -fcheck=bounds is set for the compilation of the main program. Note: In the future this may also include other forms of checking, e.g., checking substring references. do Enable generation of run-time checks for invalid modification of loop iteration variables. mem Enable generation of run-time checks for memory allocation. Note: This option does not affect explicit allocations using the "ALLOCATE" statement, which will be always checked. pointer Enable generation of run-time checks for pointers and allocatables. recursion Enable generation of run-time checks for recursively called subroutines and functions which are not marked as recursive. See also -frecursive. Note: This check does not work for OpenMP programs and is disabled if used together with -frecursive and -fopenmp. Example: Assuming you have a file foo.f90, the command gfortran -fcheck=all,no-array-temps foo.f90 will compile the file with all checks enabled as specified above except warnings for generated array temporaries. -fbounds-check Deprecated alias for -fcheck=bounds. -ftail-call-workaround -ftail-call-workaround=n Some C interfaces to Fortran codes violate the gfortran ABI by omitting the hidden character length arguments as described in This can lead to crashes because pushing arguments for tail calls can overflow the stack. To provide a workaround for existing binary packages, this option disables tail call optimization for gfortran procedures with character arguments. With -ftail-call-workaround=2 tail call optimization is disabled in all gfortran procedures with character arguments, with -ftail-call-workaround=1 or equivalent -ftail-call-workaround only in gfortran procedures with character arguments that call implicitly prototyped procedures. Using this option can lead to problems including crashes due to insufficient stack space. It is very strongly recommended to fix the code in question. The -fc-prototypes-external option can be used to generate prototypes which conform to gfortran's ABI, for inclusion in the source code. Support for this option will likely be withdrawn in a future release of gfortran. The negative form, -fno-tail-call-workaround or equivalent -ftail-call-workaround=0, can be used to disable this option. Default is currently -ftail-call-workaround, this will change in future releases. -fcheck-array-temporaries Deprecated alias for -fcheck=array-temps. -fmax-array-constructor=n This option can be used to increase the upper limit permitted in array constructors. The code below requires this option to expand the array at compile time. program test implicit none integer j integer, parameter :: n = 100000 integer, parameter :: i(n) = (/ (2*j, j = 1, n) /) print '(10(I0,1X))', i end program test Caution: This option can lead to long compile times and excessively large object files. The default value for n is 65535. -fmax-stack-var-size=n This option specifies the size in bytes of the largest array that will be put on the stack; if the size is exceeded static memory is used (except in procedures marked as RECURSIVE). Use the option -frecursive to allow for recursive procedures which do not have a RECURSIVE attribute or for parallel programs. Use -fno-automatic to never use the stack. This option currently only affects local arrays declared with constant bounds, and may not apply to all character variables. Future versions of GNU Fortran may improve this behavior. The default value for n is 32768. -fstack-arrays Adding this option will make the Fortran compiler put all arrays of unknown size and array temporaries onto stack memory. If your program uses very large local arrays it is possible that you will have to extend your runtime limits for stack memory on some operating systems. This flag is enabled by default at optimization level -Ofast unless -fmax-stack-var-size is specified. -fpack-derived This option tells GNU Fortran to pack derived type members as closely as possible. Code compiled with this option is likely to be incompatible with code compiled without this option, and may execute slower. -frepack-arrays In some circumstances GNU Fortran may pass assumed shape array sections via a descriptor describing a noncontiguous area of memory. This option adds code to the function prologue to repack the data into a contiguous block at runtime. This should result in faster accesses to the array. However it can introduce significant overhead to the function call, especially when the passed data is noncontiguous. -fshort-enums This option is provided for interoperability with C code that was compiled with the -fshort-enums option. It will make GNU Fortran choose the smallest "INTEGER" kind a given enumerator set will fit in, and give all its enumerators this kind. -fexternal-blas This option will make gfortran generate calls to BLAS functions for some matrix operations like "MATMUL", instead of using our own algorithms, if the size of the matrices involved is larger than a given limit (see -fblas-matmul-limit). This may be profitable if an optimized vendor BLAS library is available. The BLAS library will have to be specified at link time. -fblas-matmul-limit=n Only significant when -fexternal-blas is in effect. Matrix multiplication of matrices with size larger than (or equal to) n will be performed by calls to BLAS functions, while others will be handled by gfortran internal algorithms. If the matrices involved are not square, the size comparison is performed using the geometric mean of the dimensions of the argument and result matrices. The default value for n is 30. -finline-matmul-limit=n When front-end optimiztion is active, some calls to the "MATMUL" intrinsic function will be inlined. This may result in code size increase if the size of the matrix cannot be determined at compile time, as code for both cases is generated. Setting "-finline-matmul-limit=0" will disable inlining in all cases. Setting this option with a value of n will produce inline code for matrices with size up to n. If the matrices involved are not square, the size comparison is performed using the geometric mean of the dimensions of the argument and result matrices. The default value for n is 30. The "-fblas-matmul-limit" can be used to change this value. -frecursive Allow indirect recursion by forcing all local arrays to be allocated on the stack. This flag cannot be used together with -fmax-stack-var-size= or -fno-automatic. -finit-local-zero -finit-derived -finit-integer=n -finit-real=<zero|inf|-inf|nan|snan> -finit-logical=<true|false> -finit-character=n The -finit-local-zero option instructs the compiler to initialize local "INTEGER", "REAL", and "COMPLEX" variables to zero, "LOGICAL" variables to false, and "CHARACTER" variables to a string of null bytes. Finer-grained initialization options are provided by the -finit-integer=n, -finit-real=<zero|inf|-inf|nan|snan> (which also initializes the real and imaginary parts of local "COMPLEX" variables), -finit-logical=<true|false>, and -finit-character=n (where n is an ASCII character value) options. With -finit-derived, components of derived type variables will be initialized according to these flags. Components whose type is not covered by an explicit -finit-* flag will be treated as described above with -finit-local-zero. These options do not initialize * objects with the POINTER attribute * allocatable arrays * variables that appear in an "EQUIVALENCE" statement. (These limitations may be removed in future releases). Note that the -finit-real=nan option initializes "REAL" and "COMPLEX" variables with a quiet NaN. For a signalling NaN use -finit-real=snan; note, however, that compile-time optimizations may convert them into quiet NaN and that trapping needs to be enabled (e.g. via -ffpe-trap). Finally, note that enabling any of the -finit-* options will silence warnings that would have been emitted by -Wuninitialized for the affected local variables. -falign-commons By default, gfortran enforces proper alignment of all variables in a "COMMON" block by padding them as needed. On certain platforms this is mandatory, on others it increases performance. If a "COMMON" block is not declared with consistent data types everywhere, this padding can cause trouble, and -fno-align-commons can be used to disable automatic alignment. The same form of this option should be used for all files that share a "COMMON" block. To avoid potential alignment issues in "COMMON" blocks, it is recommended to order objects from largest to smallest. -fno-protect-parens By default the parentheses in expression are honored for all optimization levels such that the compiler does not do any re-association. Using -fno-protect-parens allows the compiler to reorder "REAL" and "COMPLEX" expressions to produce faster code. Note that for the re-association optimization -fno-signed-zeros and -fno-trapping-math need to be in effect. The parentheses protection is enabled by default, unless -Ofast is given. -frealloc-lhs An allocatable left-hand side of an intrinsic assignment is automatically (re)allocated if it is either unallocated or has a different shape. The option is enabled by default except when -std=f95 is given. See also -Wrealloc-lhs. -faggressive-function-elimination Functions with identical argument lists are eliminated within statements, regardless of whether these functions are marked "PURE" or not. For example, in a = f(b,c) + f(b,c) there will only be a single call to "f". This option only works if -ffrontend-optimize is in effect. -ffrontend-optimize This option performs front-end optimization, based on manipulating parts the Fortran parse tree. Enabled by default by any -O option. Optimizations enabled by this option include inlining calls to "MATMUL", elimination of identical function calls within expressions, removing unnecessary calls to "TRIM" in comparisons and assignments and replacing TRIM(a) with "a(1:LEN_TRIM(a))". It can be deselected by specifying -fno-frontend-optimize. -ffrontend-loop-interchange Attempt to interchange loops in the Fortran front end where profitable. Enabled by default by any -O option. At the moment, this option only affects "FORALL" and "DO CONCURRENT" statements with several forall triplets.
ENVIRONMENTThe gfortran compiler currently does not make use of any environment variables to control its operation above and beyond those that affect the operation of gcc.
BUGSFor instructions on reporting bugs, see <file:///usr/share/doc/gcc-8/README.Bugs>.
SEE ALSOgpl(7), gfdl(7), fsf-funding(7), cpp(1), gcov(1), gcc(1), as(1), ld(1), gdb(1), dbx(1) and the Info entries for gcc, cpp, gfortran, as, ld, binutils and gdb.
AUTHORSee the Info entry for gfortran for contributors to GCC and GNU Fortran.
COPYRIGHTCopyright (c) 2004-2018 Free Software Foundation, Inc. Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with the Invariant Sections being "Funding Free Software", the Front- Cover Texts being (a) (see below), and with the Back-Cover Texts being (b) (see below). A copy of the license is included in the gfdl(7) man page. (a) The FSF's Front-Cover Text is: A GNU Manual (b) The FSF's Back-Cover Text is: You have freedom to copy and modify this GNU Manual, like GNU software. Copies published by the Free Software Foundation raise funds for GNU development.
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