\input texinfo @c -*-texinfo-*-
@c %**start of header
@setfilename gfortran.info
-@set last-update 13 May 2004
-@set copyrights-gfortran 1999-2004
+@set copyrights-gfortran 1999-2006
@include gcc-common.texi
-@settitle The GNU Fortran 95 Compiler
+@settitle The GNU Fortran Compiler
@c Create a separate index for command line options
@defcodeindex op
@syncodeindex pg cp
@syncodeindex tp cp
+@c TODO: The following "Part" definitions are included here temporarily
+@c until they are incorporated into the official Texinfo distribution.
+@c They borrow heavily from Texinfo's \unnchapentry definitions.
+
+@tex
+\gdef\part#1#2{%
+ \pchapsepmacro
+ \gdef\thischapter{}
+ \begingroup
+ \vglue\titlepagetopglue
+ \titlefonts \rm
+ \leftline{Part #1:@* #2}
+ \vskip4pt \hrule height 4pt width \hsize \vskip4pt
+ \endgroup
+ \writetocentry{part}{#2}{#1}
+}
+\gdef\blankpart{%
+ \writetocentry{blankpart}{}{}
+}
+% Part TOC-entry definition for summary contents.
+\gdef\dosmallpartentry#1#2#3#4{%
+ \vskip .5\baselineskip plus.2\baselineskip
+ \begingroup
+ \let\rm=\bf \rm
+ \tocentry{Part #2: #1}{\doshortpageno\bgroup#4\egroup}
+ \endgroup
+}
+\gdef\dosmallblankpartentry#1#2#3#4{%
+ \vskip .5\baselineskip plus.2\baselineskip
+}
+% Part TOC-entry definition for regular contents. This has to be
+% equated to an existing entry to not cause problems when the PDF
+% outline is created.
+\gdef\dopartentry#1#2#3#4{%
+ \unnchapentry{Part #2: #1}{}{#3}{#4}
+}
+\gdef\doblankpartentry#1#2#3#4{}
+@end tex
+
@c %**end of header
@c Use with @@smallbook.
@end copying
@ifinfo
-@dircategory Programming
+@dircategory Software development
@direntry
-* gfortran: (gfortran). The GNU Fortran 95 Compiler.
+* gfortran: (gfortran). The GNU Fortran Compiler.
@end direntry
This file documents the use and the internals of
-the GNU Fortran 95 compiler, (@command{gfortran}).
+the GNU Fortran compiler, (@command{gfortran}).
Published by the Free Software Foundation
-59 Temple Place - Suite 330
-Boston, MA 02111-1307 USA
+51 Franklin Street, Fifth Floor
+Boston, MA 02110-1301 USA
@insertcopying
@end ifinfo
-Contributed by Steven Bosscher (@email{s.bosscher@@gcc.gnu.org}).
@setchapternewpage odd
@titlepage
-@title Using GNU Fortran 95
+@title Using GNU Fortran
@sp 2
-@center Steven Bosscher
-@sp 3
-@center Last updated @value{last-update}
-@sp 1
-@center for version @value {version-GCC}
+@center The gfortran team
@page
@vskip 0pt plus 1filll
For the @value{version-GCC} Version*
@sp 1
Published by the Free Software Foundation @*
-59 Temple Place - Suite 330@*
-Boston, MA 02111-1307, USA@*
+51 Franklin Street, Fifth Floor@*
+Boston, MA 02110-1301, USA@*
@c Last printed ??ber, 19??.@*
@c Printed copies are available for $? each.@*
@c ISBN ???
@sp 1
@insertcopying
@end titlepage
+
+@c TODO: The following "Part" definitions are included here temporarily
+@c until they are incorporated into the official Texinfo distribution.
+
+@tex
+\global\let\partentry=\dosmallpartentry
+\global\let\blankpartentry=\dosmallblankpartentry
+@end tex
@summarycontents
+
+@tex
+\global\let\partentry=\dopartentry
+\global\let\blankpartentry=\doblankpartentry
+@end tex
@contents
+
@page
-@node Top, Copying,, (DIR)
+@node Top
@top Introduction
@cindex Introduction
This manual documents the use of @command{gfortran},
-the GNU Fortran 95 compiler. You can find in this manual how to invoke
+the GNU Fortran compiler. You can find in this manual how to invoke
@command{gfortran}, as well as its features and incompatibilities.
@ifset DEVELOPMENT
@emph{Warning:} This document, and the compiler it describes, are still
-under development. While efforts are made too keep it up-to-date it might
-not accurately reflect the status of the most recent @command{gfortran}.
+under development. While efforts are made to keep it up-to-date, it might
+not accurately reflect the status of the most recent GNU Fortran compiler.
@end ifset
+@comment
+@comment When you add a new menu item, please keep the right hand
+@comment aligned to the same column. Do not use tabs. This provides
+@comment better formatting.
+@comment
@menu
-* Copying:: GNU General Public License says
- how you can copy and share GNU Fortran.
+Part I: About GNU Fortran
+* Getting Started:: What you should know about GNU Fortran.
+* GNU Fortran and GCC:: You can compile Fortran, C, or other programs.
+* GNU Fortran and G77:: Why we chose to start from scratch.
+* Project Status:: Status of GNU Fortran, roadmap, proposed extensions.
+* Standards:: Standards supported by GNU Fortran.
+
+Part II: Invoking GNU Fortran
+* Invoking GNU Fortran:: Command options supported by @command{gfortran}.
+* Runtime:: Influencing runtime behavior with environment variables.
+
+Part III: Language Reference
+* Fortran 2003 status:: Fortran 2003 features supported by GNU Fortran.
+* Extensions:: Language extensions implemented by GNU Fortran.
+* Intrinsic Procedures:: Intrinsic procedures supported by GNU Fortran.
+
+* Contributing:: How you can help.
+* Copying:: GNU General Public License says
+ how you can copy and share GNU Fortran.
* GNU Free Documentation License::
- How you can copy and share this manual.
-* Funding:: How to help assure continued work for free software.
-* Getting Started:: What you should know about @command{gfortran}.
-* GFORTRAN and GCC:: You can compile Fortran, C, or other programs.
-* GFORTRAN and G77:: Why we choose to start from scratch.
-* Invoking GFORTRAN:: Command options supported by @command{gfortran}.
-* Project Status:: Status of @command{gfortran}, Roadmap, proposed extensions.
-* Contributing:: Helping you can help.
-* Standards:: Standards supported by @command{gfortran}
-* Extensions:: Language extensions implemented by @command{gfortran}
-* Index:: Index of this documentation.
+ How you can copy and share this manual.
+* Funding:: How to help assure continued work for free software.
+* Index:: Index of this documentation.
@end menu
+@c =====================================================================
+@c PART I: ABOUT GNU FORTRAN
+@c =====================================================================
-@c ---------------------------------------------------------------------
-@c GNU General Public License
-@c ---------------------------------------------------------------------
-
-@include gpl.texi
-
-
-
-@c ---------------------------------------------------------------------
-@c GNU Free Documentation License
-@c ---------------------------------------------------------------------
-
-@include fdl.texi
-
-
-
-@c ---------------------------------------------------------------------
-@c Funding Free Software
-@c ---------------------------------------------------------------------
-
-@include funding.texi
-
-
+@tex
+\part{I}{About GNU Fortran}
+@end tex
@c ---------------------------------------------------------------------
@c Getting Started
@node Getting Started
@chapter Getting Started
-Gfortran is the GNU Fortran 95 compiler front end,
+The GNU Fortran compiler front end was
designed initially as a free replacement for,
or alternative to, the unix @command{f95} command;
-@command{gfortran} is command you'll use to invoke the compiler.
+@command{gfortran} is the command you'll use to invoke the compiler.
-Gfortran is still in an early state of development.
-@command{gfortran} can generate code for most constructs and expressions,
+The GNU Fortran compiler is still in an early state of development.
+It can generate code for most constructs and expressions,
but much work remains to be done.
-When @command{gfortran} is finished,
+When the GNU Fortran compiler is finished,
it will do everything you expect from any decent compiler:
@itemize @bullet
@item
Read a user's program,
stored in a file and containing instructions written
-in Fortran 77, Fortran 90 or Fortran 95.
+in Fortran 77, Fortran 90, Fortran 95 or Fortran 2003.
This file contains @dfn{source code}.
@item
and @dfn{linked} to the user program.
@end itemize
-Gfortran consists of several components:
+The GNU Fortran compiler consists of several components:
@itemize @bullet
@item
The @command{gcc} command is the @dfn{driver} program for
all the languages in the GNU Compiler Collection (GCC);
With @command{gcc},
-you can compiler the source code of any language for
+you can compile the source code of any language for
which a front end is available in GCC.
@item
which also might be installed as the
system's @command{f95} command.
@command{gfortran} is just another driver program,
-but specifically for the Fortran 95 compiler only.
+but specifically for the Fortran compiler only.
The difference with @command{gcc} is that @command{gfortran}
will automatically link the correct libraries to your program.
@item
A collection of run-time libraries.
-These libraries contains the machine code needed to support
+These libraries contain the machine code needed to support
capabilities of the Fortran language that are not directly
provided by the machine code generated by the
@command{gfortran} compilation phase,
@item
The Fortran compiler itself, (@command{f951}).
-This is the gfortran parser and code generator,
+This is the GNU Fortran parser and code generator,
linked to and interfaced with the GCC backend library.
@command{f951} ``translates'' the source code to
assembler code. You would typically not use this
@end itemize
-
@c ---------------------------------------------------------------------
-@c GFORTRAN and GCC
+@c GNU Fortran and GCC
@c ---------------------------------------------------------------------
-@node GFORTRAN and GCC
-@chapter GFORTRAN and GCC
+@node GNU Fortran and GCC
+@chapter GNU Fortran and GCC
@cindex GNU Compiler Collection
GCC used to be the GNU ``C'' Compiler,
but is now known as the @dfn{GNU Compiler Collection}.
GCC provides the GNU system with a very versatile
compiler middle end (shared optimization passes),
-and with back ends (code generators) for many different
+and back ends (code generators) for many different
computer architectures and operating systems.
The code of the middle end and back end are shared by all
compiler front ends that are in the GNU Compiler Collection.
A GCC front end is essentially a source code parser
-and a pass to generate a representation of the semantics
-of the program in the source code in the GCC language
-independent intermediate language,
-called @dfn{GENERIC}.
+and an intermediate code generator. The code generator translates the
+semantics of the source code into a language independent form called
+@dfn{GENERIC}.
The parser takes a source file written in a
particular computer language, reads and parses it,
This data structure represents the whole program
or a subroutine or a function.
The ``tree'' is passed to the GCC middle end,
-which will perform optimization passes on it,
-pass the optimized AST and generate assembly
-for the program unit.
+which will perform optimization passes on it. The optimized AST is then
+handed off too the back end which assembles the program unit.
Different phases in this translation process can be,
and in fact @emph{are} merged in many compiler front ends.
-GNU Fortran 95 has a strict separation between the
+GNU Fortran has a strict separation between the
parser and code generator.
-The goal of the gfortran project is to build a new front end for GCC:
-A Fortran 95 front end.
-In a non-gfortran installation,
-@command{gcc} will not be able to compile Fortran 95 source code
+The goal of the GNU Fortran project is to build a new front end for GCC.
+Specifically, a Fortran 95 front end.
+In a non-@command{gfortran} installation,
+@command{gcc} will not be able to compile Fortran source code
(only the ``C'' front end has to be compiled if you want to build GCC,
all other languages are optional).
-If you build GCC with gfortran, @command{gcc} will recognize
-@file{.f/.f90/.f95} source files and accepts Fortran 95 specific
+If you build GCC with @command{gfortran}, @command{gcc} will recognize
+@file{.f/.f90/.f95} source files and accepts Fortran specific
command line options.
-
@c ---------------------------------------------------------------------
-@c GFORTRAN and G77
+@c GNU Fortran and G77
@c ---------------------------------------------------------------------
-@node GFORTRAN and G77
-@chapter GFORTRAN and G77
+@node GNU Fortran and G77
+@chapter GNU Fortran and G77
@cindex Fortran 77
@cindex G77
and then build a Fortran 95 compiler out of it.
-@include invoke.texi
-
@c ---------------------------------------------------------------------
@c Project Status
@c ---------------------------------------------------------------------
@chapter Project Status
@quotation
-As soon as gfortran can parse all of the statements correctly,
+As soon as @command{gfortran} can parse all of the statements correctly,
it will be in the ``larva'' state.
When we generate code, the ``puppa'' state.
-When gfortran is done,
+When @command{gfortran} is done,
we'll see if it will be a beautiful butterfly,
or just a big bug....
The start of the GNU Fortran 95 project was announced on
the GCC homepage in March 18, 2000
(even though Andy had already been working on it for a while,
-or course).
+of course).
+
+The GNU Fortran compiler is able to compile nearly all
+standard-compliant Fortran 95, Fortran 90, and Fortran 77 programs,
+including a number of standard and non-standard extensions, and can be
+used on real-world programs. In particular, the supported extensions
+include OpenMP, Cray-style pointers, and several Fortran 2003 features
+such as enumeration, stream I/O, and some of the enhancements to
+allocatable array support from TR 15581. However, it is still under
+development and has a few remaining rough edges.
+
+At present, the GNU Fortran compiler passes the
+@uref{http://www.fortran-2000.com/ArnaudRecipes/fcvs21_f95.html,
+NIST Fortran 77 Test Suite}, and produces acceptable results on the
+@uref{http://www.netlib.org/lapack/faq.html#1.21, LAPACK Test Suite}.
+It also provides respectable performance on
+the @uref{http://www.polyhedron.com/pb05.html, Polyhedron Fortran
+compiler benchmarks} and the
+@uref{http://www.llnl.gov/asci_benchmarks/asci/limited/lfk/README.html,
+Livermore Fortran Kernels test}. It has been used to compile a number of
+large real-world programs, including
+@uref{http://mysite.verizon.net/serveall/moene.pdf, the HIRLAM
+weather-forecasting code} and
+@uref{http://www.theochem.uwa.edu.au/tonto/, the Tonto quantum
+chemistry package}; see @url{http://gcc.gnu.org/wiki/GfortranApps} for an
+extended list.
+
+Among other things, the GNU Fortran compiler is intended as a replacement
+for G77. At this point, nearly all programs that could be compiled with
+G77 can be compiled with GNU Fortran, although there are a few minor known
+regressions.
+
+The primary work remaining to be done on GNU Fortran falls into three
+categories: bug fixing (primarily regarding the treatment of invalid code
+and providing useful error messages), improving the compiler optimizations
+and the performance of compiled code, and extending the compiler to support
+future standards---in particular, Fortran 2003.
+
+
+@c ---------------------------------------------------------------------
+@c Standards
+@c ---------------------------------------------------------------------
+
+@node Standards
+@chapter Standards
+@cindex Standards
+
+The GNU Fortran compiler implements
+ISO/IEC 1539:1997 (Fortran 95). As such, it can also compile essentially all
+standard-compliant Fortran 90 and Fortran 77 programs. It also supports
+the ISO/IEC TR-15581 enhancements to allocatable arrays, and
+the @uref{http://www.openmp.org/drupal/mp-documents/spec25.pdf,
+OpenMP Application Program Interface v2.5} specification.
+
+In the future, the GNU Fortran compiler may also support other standard
+variants of and extensions to the Fortran language. These include
+ISO/IEC 1539-1:2004 (Fortran 2003).
+
-Gfortran is currently reaching the stage where is is able to compile real
-world programs. However it is still under development and has many rough
-edges.
+@c =====================================================================
+@c PART II: INVOCATION REFERENCE
+@c =====================================================================
+
+@tex
+\part{II}{Invoking GNU Fortran}
+@end tex
+
+@c ---------------------------------------------------------------------
+@c Compiler Options
+@c ---------------------------------------------------------------------
+
+@include invoke.texi
+
+
+@c ---------------------------------------------------------------------
+@c Runtime
+@c ---------------------------------------------------------------------
+
+@node Runtime
+@chapter Runtime: Influencing runtime behavior with environment variables
+@cindex Runtime
+
+The behavior of the @command{gfortran} can be influenced by
+environment variables.
+
+Malformed environment variables are silently ignored.
@menu
-* Compiler Status::
-* Library Status::
-* Proposed Extensions::
+* GFORTRAN_STDIN_UNIT:: Unit number for standard input
+* GFORTRAN_STDOUT_UNIT:: Unit number for standard output
+* GFORTRAN_STDERR_UNIT:: Unit number for standard error
+* GFORTRAN_USE_STDERR:: Send library output to standard error
+* GFORTRAN_TMPDIR:: Directory for scratch files
+* GFORTRAN_UNBUFFERED_ALL:: Don't buffer output
+* GFORTRAN_SHOW_LOCUS:: Show location for runtime errors
+* GFORTRAN_OPTIONAL_PLUS:: Print leading + where permitted
+* GFORTRAN_DEFAULT_RECL:: Default record length for new files
+* GFORTRAN_LIST_SEPARATOR:: Separator for list output
+* GFORTRAN_CONVERT_UNIT:: Set endianness for unformatted I/O
@end menu
-@node Compiler Status
-@section Compiler Status
+@node GFORTRAN_STDIN_UNIT
+@section @env{GFORTRAN_STDIN_UNIT}---Unit number for standard input
-@table @emph
-@item Front end
-This is the part of gfortran which parses a source file, verifies that it
-is valid Fortran 95, performs compile time replacement of constants
-(PARAMETER variables) and reads and generate module files. This is
-almost complete. Every Fortran 95 source should be accepted, and most
-none-Fortran 95 source should be rejected. If you find a source file where
-this is not true, please tell us. You can use the -fsyntax-only switch to
-make gfortran quit after running the front end, effectively reducing it to
-a syntax checker.
-
-@item Middle end interface
-These are the parts of gfortran that take the parse tree generated by the
-front end and translate it to the GENERIC form required by the GCC back
-end. Work is ongoing in these parts of gfortran, but a large part has
-already been completed.
-@end table
+This environment variable can be used to select the unit number
+preconnected to standard input. This must be a positive integer.
+The default value is 5.
-@node Library Status
-@section Library Status
+@node GFORTRAN_STDOUT_UNIT
+@section @env{GFORTRAN_STDOUT_UNIT}---Unit number for standard output
-Some intrinsic functions map directly to library functions, and in most
-cases the name of the library function used depends on the type of the
-arguments. For some intrinsics we generate inline code, and for others,
-such as sin, cos and sqrt, we rely on the backend to use special
-instructions in the floating point unit of the CPU if available, or to
-fall back to a call to libm if these are not available.
+This environment variable can be used to select the unit number
+preconnected to standard output. This must be a positive integer.
+The default value is 6.
-Implementation of some non-elemental intrinsic functions (eg. DOT_PRODUCT,
-AVERAGE) is not yet optimal. This is hard because we have to make decisions
-whether to use inline code (good for small arrays as no function call
-overhead occurs) or generate function calls (good for large arrays as it
-allows use of hand-optimized assembly routines, SIMD instructions, etc.)
+@node GFORTRAN_STDERR_UNIT
+@section @env{GFORTRAN_STDERR_UNIT}---Unit number for standard error
-The IO library is still under development. The following features should be
-usable for real programs:
+This environment variable can be used to select the unit number
+preconnected to standard error. This must be a positive integer.
+The default value is 0.
-@itemize @minus
-@item List directed
-@item Unformatted sequential
-@end itemize
+@node GFORTRAN_USE_STDERR
+@section @env{GFORTRAN_USE_STDERR}---Send library output to standard error
-Usable with bugs:
+This environment variable controls where library output is sent.
+If the first letter is @samp{y}, @samp{Y} or @samp{1}, standard
+error is used. If the first letter is @samp{n}, @samp{N} or
+@samp{0}, standard output is used.
-@itemize @minus
-@item Formatted sequential ('T' edit descriptor, and others)
-@item Namelist (can read a namelist that it writes, but not free-form)
-@end itemize
+@node GFORTRAN_TMPDIR
+@section @env{GFORTRAN_TMPDIR}---Directory for scratch files
-Not recommended:
+This environment variable controls where scratch files are
+created. If this environment variable is missing,
+GNU Fortran searches for the environment variable @env{TMP}. If
+this is also missing, the default is @file{/tmp}.
-@itemize @minus
-@item Unformatted direct access
-@item Formatted direct access
-@end itemize
+@node GFORTRAN_UNBUFFERED_ALL
+@section @env{GFORTRAN_UNBUFFERED_ALL}---Don't buffer output
-Many Fortran programs only use a small subset of the available IO
-capabilities, so your mileage may vary.
+This environment variable controls whether all output is unbuffered.
+If the first letter is @samp{y}, @samp{Y} or @samp{1}, all output is
+unbuffered. This will slow down large writes. If the first letter is
+@samp{n}, @samp{N} or @samp{0}, output is buffered. This is the
+default.
-@node Proposed Extensions
-@section Proposed Extensions
+@node GFORTRAN_SHOW_LOCUS
+@section @env{GFORTRAN_SHOW_LOCUS}---Show location for runtime errors
-Here's a list of proposed extensions for @command{gfortran}, in no particular
-order. Most of these are necessary to be fully compatible with
-existing Fortran compilers, but they are not part of the official
-J3 Fortran 95 standard.
+If the first letter is @samp{y}, @samp{Y} or @samp{1}, filename and
+line numbers for runtime errors are printed. If the first letter is
+@samp{n}, @samp{N} or @samp{0}, don't print filename and line numbers
+for runtime errors. The default is to print the location.
-@subsection Compiler extensions:
-@itemize @bullet
-@item
-Flag for defining the kind number for default logicals.
+@node GFORTRAN_OPTIONAL_PLUS
+@section @env{GFORTRAN_OPTIONAL_PLUS}---Print leading + where permitted
-@item
-User-specified alignment rules for structures.
-@item
-Flag to generate a @code{Makefile} info.
+If the first letter is @samp{y}, @samp{Y} or @samp{1},
+a plus sign is printed
+where permitted by the Fortran standard. If the first letter
+is @samp{n}, @samp{N} or @samp{0}, a plus sign is not printed
+in most cases. Default is not to print plus signs.
-@item
-Automatically extend single precision constants to double.
+@node GFORTRAN_DEFAULT_RECL
+@section @env{GFORTRAN_DEFAULT_RECL}---Default record length for new files
-@item
-Cray pointers (this was high on the @command{g77} wishlist).
+This environment variable specifies the default record length for
+files which are opened without a @code{RECL} tag in the @code{OPEN}
+statement. This must be a positive integer. The default value is
+1073741824.
-@item
-Compile code that conserves memory by dynamically allocating common and
-module storage either on stack or heap.
+@node GFORTRAN_LIST_SEPARATOR
+@section @env{GFORTRAN_LIST_SEPARATOR}---Separator for list output
-@item
-Flag to cause the compiler to distinguish between upper and lower case
-names. The Fortran 95 standard does not distinguish them.
+This environment variable specifies the separator when writing
+list-directed output. It may contain any number of spaces and
+at most one comma. If you specify this on the command line,
+be sure to quote spaces, as in
+@smallexample
+$ GFORTRAN_LIST_SEPARATOR=' , ' ./a.out
+@end smallexample
+when @command{a.out} is the compiled Fortran program that you want to run.
+Default is a single space.
-@item
-Compile switch for changing the interpretation of a backslash from a
-character to ``C''-style escape characters.
+@node GFORTRAN_CONVERT_UNIT
+@section @env{GFORTRAN_CONVERT_UNIT}---Set endianness for unformatted I/O
-@item
-Compile flag to generate code for array conformance checking (suggest -CC).
+By setting the @env{GFORTRAN_CONVERT_UNIT} variable, it is possible
+to change the representation of data for unformatted files.
+The syntax for the @env{GFORTRAN_CONVERT_UNIT} variable is:
+@smallexample
+GFORTRAN_CONVERT_UNIT: mode | mode ';' exception ;
+mode: 'native' | 'swap' | 'big_endian' | 'little_endian' ;
+exception: mode ':' unit_list | unit_list ;
+unit_list: unit_spec | unit_list unit_spec ;
+unit_spec: INTEGER | INTEGER '-' INTEGER ;
+@end smallexample
+The variable consists of an optional default mode, followed by
+a list of optional exceptions, which are separated by semicolons
+from the preceding default and each other. Each exception consists
+of a format and a comma-separated list of units. Valid values for
+the modes are the same as for the @code{CONVERT} specifier:
+
+@itemize @w{}
+@item @code{NATIVE} Use the native format. This is the default.
+@item @code{SWAP} Swap between little- and big-endian.
+@item @code{LITTLE_ENDIAN} Use the little-endian format
+ for unformatted files.
+@item @code{BIG_ENDIAN} Use the big-endian format for unformatted files.
+@end itemize
+A missing mode for an exception is taken to mean @code{BIG_ENDIAN}.
+Examples of values for @env{GFORTRAN_CONVERT_UNIT} are:
+@itemize @w{}
+@item @code{'big_endian'} Do all unformatted I/O in big_endian mode.
+@item @code{'little_endian;native:10-20,25'} Do all unformatted I/O
+in little_endian mode, except for units 10 to 20 and 25, which are in
+native format.
+@item @code{'10-20'} Units 10 to 20 are big-endian, the rest is native.
+@end itemize
-@item
-User control of symbol names (underscores, etc).
+Setting the environment variables should be done on the command
+line or via the @command{export}
+command for @command{sh}-compatible shells and via @command{setenv}
+for @command{csh}-compatible shells.
-@item
-Compile setting for maximum size of stack frame size before spilling
-parts to static or heap.
+Example for @command{sh}:
+@smallexample
+$ gfortran foo.f90
+$ GFORTRAN_CONVERT_UNIT='big_endian;native:10-20' ./a.out
+@end smallexample
-@item
-Flag to force local variables into static space.
+Example code for @command{csh}:
+@smallexample
+% gfortran foo.f90
+% setenv GFORTRAN_CONVERT_UNIT 'big_endian;native:10-20'
+% ./a.out
+@end smallexample
-@item
-Flag to force local variables onto stack.
+Using anything but the native representation for unformatted data
+carries a significant speed overhead. If speed in this area matters
+to you, it is best if you use this only for data that needs to be
+portable.
-@item
-Flag to compile lines beginning with ``D''.
+@xref{CONVERT specifier}, for an alternative way to specify the
+data representation for unformatted files. @xref{Runtime Options}, for
+setting a default data representation for the whole program. The
+@code{CONVERT} specifier overrides the @option{-fconvert} compile options.
-@item
-Flag to ignore lines beginning with ``D''.
-@item
-Flag for maximum errors before ending compile.
+@c =====================================================================
+@c PART III: LANGUAGE REFERENCE
+@c =====================================================================
-@item
-Generate code to check for null pointer dereferences -- prints locus of
-dereference instead of segfaulting. There was some discussion about this
-option in the g95 development mailing list.
+@tex
+\part{III}{Language Reference}
+@end tex
-@item
-Allow setting default unit number.
+@c ---------------------------------------------------------------------
+@c Fortran 2003 Status
+@c ---------------------------------------------------------------------
-@item
-Option to initialize of otherwise uninitialized integer and floating
-point variables.
+@node Fortran 2003 status
+@chapter Fortran 2003 Status
-@item
-Support for OpenMP directives. This also requires support from the runtime
-library and the rest of the compiler.
+Although GNU Fortran focuses on implementing the Fortran 95
+standard for the time being, a few Fortran 2003 features are currently
+available.
-@item
-Support for Fortran 200x. This includes several new features including
-floating point exceptions, extended use of allocatable arrays, C
-interoperability, Parameterizer data types and function pointers.
-@end itemize
+@itemize
+@item
+Intrinsics @code{command_argument_count}, @code{get_command},
+@code{get_command_argument}, @code{get_environment_variable}, and
+@code{move_alloc}.
+@item
+@cindex Array constructors
+@cindex @code{[...]}
+Array constructors using square brackets. That is, @code{[...]} rather
+than @code{(/.../)}.
-@subsection Environment Options
-@itemize @bullet
@item
-Pluggable library modules for random numbers, linear algebra.
-LA should use BLAS calling conventions.
+@cindex @code{FLUSH} statement
+@code{FLUSH} statement.
@item
-Environment variables controlling actions on arithmetic exceptions like
-overflow, underflow, precision loss -- Generate NaN, abort, default.
-action.
+@cindex @code{IOMSG=} specifier
+@code{IOMSG=} specifier for I/O statements.
@item
-Set precision for fp units that support it (i387).
+@cindex @code{ENUM} statement
+@cindex @code{ENUMERATOR} statement
+@cindex @command{-fshort-enums}
+Support for the declaration of enumeration constants via the
+@code{ENUM} and @code{ENUMERATOR} statements. Interoperability with
+@command{gcc} is guaranteed also for the case where the
+@command{-fshort-enums} command line option is given.
@item
-Variables for setting fp rounding mode.
-
+@cindex TR 15581
+TR 15581:
+@itemize
@item
-Support old style namelists ending in $end or &end.
-
+@cindex @code{ALLOCATABLE} dummy arguments
+@code{ALLOCATABLE} dummy arguments.
@item
-Variable to fill uninitialized variables with a user-defined bit
-pattern.
-
+@cindex @code{ALLOCATABLE} function results
+@code{ALLOCATABLE} function results
@item
-Environment variable controlling filename that is opened for that unit
-number.
+@cindex @code{ALLOCATABLE} components of derived types
+@code{ALLOCATABLE} components of derived types
+@end itemize
@item
-Environment variable to clear/trash memory being freed.
+@cindex @code{STREAM} I/O
+@cindex @code{ACCESS='STREAM'} I/O
+The @code{OPEN} statement supports the @code{ACCESS='STREAM'} specifier,
+allowing I/O without any record structure.
@item
-Environment variable to control tracing of allocations and frees.
+Namelist input/output for internal files.
@item
-Environment variable to display allocated memory at normal program end.
+@cindex @code{PROTECTED}
+The @code{PROTECTED} statement and attribute.
@item
-Environment variable for filename for * IO-unit.
+@cindex @code{VALUE}
+The @code{VALUE} statement and attribute.
@item
-Environment variable for temporary file directory.
+@cindex @code{VOLATILE}
+The @code{VOLATILE} statement and attribute.
@item
-Environment variable forcing standard output to be line buffered (unix).
+@cindex @code{IMPORT}
+The @code{IMPORT} statement, allowing to import
+host-associated derived types.
@item
-Variable for swapping endianness during unformatted read.
+@cindex @code{USE, INTRINSIC}
+@cindex @code{ISO_FORTRAN_ENV}
+@code{USE} statement with @code{INTRINSIC} and @code{NON_INTRINSIC}
+attribute; supported intrinsic modules: @code{ISO_FORTRAN_ENV},
+@code{OMP_LIB} and @code{OMP_LIB_KINDS}.
-@item
-Variable for swapping Endianness during unformatted write.
@end itemize
+
@c ---------------------------------------------------------------------
@c Extensions
@c ---------------------------------------------------------------------
@chapter Extensions
@cindex Extension
-@command{gfortran} implements a number of extensions over standard
+GNU Fortran implements a number of extensions over standard
Fortran. This chapter contains information on their syntax and
-meaning.
+meaning. There are currently two categories of GNU Fortran
+extensions, those that provide functionality beyond that provided
+by any standard, and those that are supported by GNU Fortran
+purely for backward compatibility with legacy compilers. By default,
+@option{-std=gnu} allows the compiler to accept both types of
+extensions, but to warn about the use of the latter. Specifying
+either @option{-std=f95} or @option{-std=f2003} disables both types
+of extensions, and @option{-std=legacy} allows both without warning.
@menu
* Old-style kind specifications::
* Old-style variable initialization::
+* Extensions to namelist::
+* X format descriptor::
+* Commas in FORMAT specifications::
+* Missing period in FORMAT specifications::
+* I/O item lists::
+* Hexadecimal constants::
+* Real array indices::
+* Unary operators::
+* Implicitly interconvert LOGICAL and INTEGER::
+* Hollerith constants support::
+* Cray pointers::
+* CONVERT specifier::
+* OpenMP::
@end menu
@node Old-style kind specifications
@section Old-style kind specifications
@cindex Kind specifications
-@command{gfortran} allows old-style kind specifications in
+GNU Fortran allows old-style kind specifications in
declarations. These look like:
@smallexample
TYPESPEC*k x,y,z
@section Old-style variable initialization
@cindex Initialization
-@command{gfortran} allows old-style initialization of variables of the
+GNU Fortran allows old-style initialization of variables of the
form:
@smallexample
INTEGER*4 i/1/,j/2/
DATA i,j,x /1,2,3*0.,1./
@end smallexample
+Note that variables initialized in type declarations
+automatically acquire the @code{SAVE} attribute.
+
+@node Extensions to namelist
+@section Extensions to namelist
+@cindex Namelist
+
+GNU Fortran fully supports the Fortran 95 standard for namelist I/O
+including array qualifiers, substrings and fully qualified derived types.
+The output from a namelist write is compatible with namelist read. The
+output has all names in upper case and indentation to column 1 after the
+namelist name. Two extensions are permitted:
+
+Old-style use of $ instead of &
+@smallexample
+$MYNML
+ X(:)%Y(2) = 1.0 2.0 3.0
+ CH(1:4) = "abcd"
+$END
+@end smallexample
+
+It should be noticed that the default terminator is / rather than &END.
+
+Querying of the namelist when inputting from stdin. After at least
+one space, entering ? sends to stdout the namelist name and the names of
+the variables in the namelist:
+@smallexample
+?
+
+&mynml
+ x
+ x%y
+ ch
+&end
+@end smallexample
+
+Entering =? outputs the namelist to stdout, as if WRITE (*,NML = mynml)
+had been called:
+@smallexample
+=?
+
+&MYNML
+ X(1)%Y= 0.000000 , 1.000000 , 0.000000 ,
+ X(2)%Y= 0.000000 , 2.000000 , 0.000000 ,
+ X(3)%Y= 0.000000 , 3.000000 , 0.000000 ,
+ CH=abcd, /
+@end smallexample
+
+To aid this dialog, when input is from stdin, errors send their
+messages to stderr and execution continues, even if IOSTAT is set.
+
+PRINT namelist is permitted. This causes an error if -std=f95 is used.
+@smallexample
+PROGRAM test_print
+ REAL, dimension (4) :: x = (/1.0, 2.0, 3.0, 4.0/)
+ NAMELIST /mynml/ x
+ PRINT mynml
+END PROGRAM test_print
+@end smallexample
+
+Expanded namelist reads are permitted. This causes an error if -std=f95
+is used. In the following example, the first element of the array will be
+given the value 0.00 and succeeding elements will be 1.00 and 2.00.
+@smallexample
+&MYNML
+ X(1,1) = 0.00 , 1.00 , 2.00
+/
+@end smallexample
+
+@node X format descriptor
+@section X format descriptor
+@cindex X format descriptor
+
+To support legacy codes, GNU Fortran permits the count field
+of the X edit descriptor in FORMAT statements to be omitted. When
+omitted, the count is implicitly assumed to be one.
+
+@smallexample
+ PRINT 10, 2, 3
+10 FORMAT (I1, X, I1)
+@end smallexample
+
+@node Commas in FORMAT specifications
+@section Commas in FORMAT specifications
+@cindex Commas in FORMAT specifications
+
+To support legacy codes, GNU Fortran allows the comma separator
+to be omitted immediately before and after character string edit
+descriptors in FORMAT statements.
+
+@smallexample
+ PRINT 10, 2, 3
+10 FORMAT ('FOO='I1' BAR='I2)
+@end smallexample
+
+
+@node Missing period in FORMAT specifications
+@section Missing period in FORMAT specifications
+@cindex Missing period in FORMAT specifications
+
+To support legacy codes, GNU Fortran allows missing periods in format
+specifications if and only if -std=legacy is given on the command line. This
+is considered non-conforming code and is discouraged.
+
+@smallexample
+ REAL :: value
+ READ(*,10) value
+10 FORMAT ('F4')
+@end smallexample
+
+@node I/O item lists
+@section I/O item lists
+@cindex I/O item lists
+
+To support legacy codes, GNU Fortran allows the input item list
+of the READ statement, and the output item lists of the WRITE and PRINT
+statements to start with a comma.
+
+@node Hexadecimal constants
+@section Hexadecimal constants
+@cindex Hexadecimal constants
+
+As an extension, GNU Fortran allows hexadecimal constants to
+be specified using the X prefix, in addition to the standard Z prefix.
+BOZ literal constants can also be specified by adding a suffix to the string.
+For example, @code{Z'ABC'} and @code{'ABC'Z} are the same constant.
+
+The Fortran standard restricts the appearance of a BOZ literal constant to
+the @code{DATA} statement, and it is expected to be assigned to an
+@code{INTEGER} variable. GNU Fortran permits a BOZ literal to appear
+in any initialization expression as well as assignment statements.
+
+Attempts to use a BOZ literal constant to do a bitwise initialization of a
+variable can lead to confusion. A BOZ literal constant is converted to an
+@code{INTEGER} value with the kind type with the largest decimal representation,
+and this value is then converted numerically to the type and kind of the
+variable in question. Thus, one should not expect a bitwise copy of the BOZ
+literal constant to be assigned to a @code{REAL} variable.
+
+Similarly, initializing an @code{INTEGER} variable with a statement such as
+@code{DATA i/Z'FFFFFFFF'/} will produce an integer overflow rather than the
+desired result of @math{-1} when @code{i} is a 32-bit integer on a system that
+supports 64-bit integers. The @samp{-fno-range-check} option can be used as
+a workaround for legacy code that initializes integers in this manner.
+
+
+@node Real array indices
+@section Real array indices
+@cindex Real array indices
+
+As an extension, GNU Fortran allows arrays to be indexed using
+real types, whose values are implicitly converted to integers.
+
+@node Unary operators
+@section Unary operators
+@cindex Unary operators
+
+As an extension, GNU Fortran allows unary plus and unary
+minus operators to appear as the second operand of binary arithmetic
+operators without the need for parenthesis.
+
+@smallexample
+ X = Y * -Z
+@end smallexample
+
+@node Implicitly interconvert LOGICAL and INTEGER
+@section Implicitly interconvert LOGICAL and INTEGER
+@cindex Implicitly interconvert LOGICAL and INTEGER
+
+As an extension for backwards compatibility with other compilers,
+GNU Fortran allows the implicit conversion of LOGICALs to INTEGERs
+and vice versa. When converting from a LOGICAL to an INTEGER, the numeric
+value of @code{.FALSE.} is zero, and that of @code{.TRUE.} is one. When
+converting from INTEGER to LOGICAL, the value zero is interpreted as
+@code{.FALSE.} and any nonzero value is interpreted as @code{.TRUE.}.
+
+@smallexample
+ INTEGER*4 i
+ i = .FALSE.
+@end smallexample
+
+@node Hollerith constants support
+@section Hollerith constants support
+@cindex Hollerith constants
+
+A Hollerith constant is a string of characters preceded by the letter @samp{H}
+or @samp{h}, and there must be an literal, unsigned, nonzero default integer
+constant indicating the number of characters in the string. Hollerith constants
+are stored as byte strings, one character per byte.
+
+GNU Fortran supports Hollerith constants. They can be used as the right
+hands in the @code{DATA} statement and @code{ASSIGN} statement, also as the
+arguments. The left hands can be of Integer, Real, Complex and Logical type.
+The constant will be padded or truncated to fit the size of left hand.
+
+Valid Hollerith constants examples:
+@smallexample
+complex*16 x(2)
+data x /16Habcdefghijklmnop, 16Hqrstuvwxyz012345/
+call foo (4H abc)
+x(1) = 16Habcdefghijklmnop
+@end smallexample
+
+Invalid Hollerith constants examples:
+@smallexample
+integer*4 a
+a = 8H12345678 ! The Hollerith constant is too long. It will be truncated.
+a = 0H ! At least one character needed.
+@end smallexample
+
+@node Cray pointers
+@section Cray pointers
+@cindex Cray pointers
+
+Cray pointers are part of a non-standard extension that provides a
+C-like pointer in Fortran. This is accomplished through a pair of
+variables: an integer "pointer" that holds a memory address, and a
+"pointee" that is used to dereference the pointer.
+
+Pointer/pointee pairs are declared in statements of the form:
+@smallexample
+ pointer ( <pointer> , <pointee> )
+@end smallexample
+or,
+@smallexample
+ pointer ( <pointer1> , <pointee1> ), ( <pointer2> , <pointee2> ), ...
+@end smallexample
+The pointer is an integer that is intended to hold a memory address.
+The pointee may be an array or scalar. A pointee can be an assumed
+size array---that is, the last dimension may be left unspecified by
+using a '*' in place of a value---but a pointee cannot be an assumed
+shape array. No space is allocated for the pointee.
+
+The pointee may have its type declared before or after the pointer
+statement, and its array specification (if any) may be declared
+before, during, or after the pointer statement. The pointer may be
+declared as an integer prior to the pointer statement. However, some
+machines have default integer sizes that are different than the size
+of a pointer, and so the following code is not portable:
+@smallexample
+ integer ipt
+ pointer (ipt, iarr)
+@end smallexample
+If a pointer is declared with a kind that is too small, the compiler
+will issue a warning; the resulting binary will probably not work
+correctly, because the memory addresses stored in the pointers may be
+truncated. It is safer to omit the first line of the above example;
+if explicit declaration of ipt's type is omitted, then the compiler
+will ensure that ipt is an integer variable large enough to hold a
+pointer.
+
+Pointer arithmetic is valid with Cray pointers, but it is not the same
+as C pointer arithmetic. Cray pointers are just ordinary integers, so
+the user is responsible for determining how many bytes to add to a
+pointer in order to increment it. Consider the following example:
+@smallexample
+ real target(10)
+ real pointee(10)
+ pointer (ipt, pointee)
+ ipt = loc (target)
+ ipt = ipt + 1
+@end smallexample
+The last statement does not set ipt to the address of
+@code{target(1)}, as one familiar with C pointer arithmetic might
+expect. Adding 1 to ipt just adds one byte to the address stored in
+ipt.
+
+Any expression involving the pointee will be translated to use the
+value stored in the pointer as the base address.
+
+To get the address of elements, this extension provides an intrinsic
+function loc(), loc() is essentially the C '&' operator, except the
+address is cast to an integer type:
+@smallexample
+ real ar(10)
+ pointer(ipt, arpte(10))
+ real arpte
+ ipt = loc(ar) ! Makes arpte is an alias for ar
+ arpte(1) = 1.0 ! Sets ar(1) to 1.0
+@end smallexample
+The pointer can also be set by a call to the @code{MALLOC} intrinsic
+(see @ref{MALLOC}).
+
+Cray pointees often are used to alias an existing variable. For
+example:
+@smallexample
+ integer target(10)
+ integer iarr(10)
+ pointer (ipt, iarr)
+ ipt = loc(target)
+@end smallexample
+As long as ipt remains unchanged, iarr is now an alias for target.
+The optimizer, however, will not detect this aliasing, so it is unsafe
+to use iarr and target simultaneously. Using a pointee in any way
+that violates the Fortran aliasing rules or assumptions is illegal.
+It is the user's responsibility to avoid doing this; the compiler
+works under the assumption that no such aliasing occurs.
+
+Cray pointers will work correctly when there is no aliasing (i.e.,
+when they're used to access a dynamically allocated block of memory),
+and also in any routine where a pointee is used, but any variable with
+which it shares storage is not used. Code that violates these rules
+may not run as the user intends. This is not a bug in the optimizer;
+any code that violates the aliasing rules is illegal. (Note that this
+is not unique to GNU Fortran; any Fortran compiler that supports Cray
+pointers will ``incorrectly'' optimize code with illegal aliasing.)
+
+There are a number of restrictions on the attributes that can be
+applied to Cray pointers and pointees. Pointees may not have the
+attributes ALLOCATABLE, INTENT, OPTIONAL, DUMMY, TARGET,
+INTRINSIC, or POINTER. Pointers may not have the attributes
+DIMENSION, POINTER, TARGET, ALLOCATABLE, EXTERNAL, or INTRINSIC.
+Pointees may not occur in more than one pointer statement. A pointee
+cannot be a pointer. Pointees cannot occur in equivalence, common, or
+data statements.
+
+A Cray pointer may point to a function or a subroutine. For example,
+the following excerpt is valid:
+@smallexample
+ implicit none
+ external sub
+ pointer (subptr,subpte)
+ external subpte
+ subptr = loc(sub)
+ call subpte()
+ [...]
+ subroutine sub
+ [...]
+ end subroutine sub
+@end smallexample
+
+A pointer may be modified during the course of a program, and this
+will change the location to which the pointee refers. However, when
+pointees are passed as arguments, they are treated as ordinary
+variables in the invoked function. Subsequent changes to the pointer
+will not change the base address of the array that was passed.
+
+@node CONVERT specifier
+@section CONVERT specifier
+@cindex CONVERT specifier
+
+GNU Fortran allows the conversion of unformatted data between little-
+and big-endian representation to facilitate moving of data
+between different systems. The conversion can be indicated with
+the @code{CONVERT} specifier on the @code{OPEN} statement.
+@xref{GFORTRAN_CONVERT_UNIT}, for an alternative way of specifying
+the data format via an environment variable.
+
+Valid values for @code{CONVERT} are:
+@itemize @w{}
+@item @code{CONVERT='NATIVE'} Use the native format. This is the default.
+@item @code{CONVERT='SWAP'} Swap between little- and big-endian.
+@item @code{CONVERT='LITTLE_ENDIAN'} Use the little-endian representation
+ for unformatted files.
+@item @code{CONVERT='BIG_ENDIAN'} Use the big-endian representation for
+ unformatted files.
+@end itemize
+
+Using the option could look like this:
+@smallexample
+ open(file='big.dat',form='unformatted',access='sequential', &
+ convert='big_endian')
+@end smallexample
+
+The value of the conversion can be queried by using
+@code{INQUIRE(CONVERT=ch)}. The values returned are
+@code{'BIG_ENDIAN'} and @code{'LITTLE_ENDIAN'}.
+
+@code{CONVERT} works between big- and little-endian for
+@code{INTEGER} values of all supported kinds and for @code{REAL}
+on IEEE systems of kinds 4 and 8. Conversion between different
+``extended double'' types on different architectures such as
+m68k and x86_64, which GNU Fortran
+supports as @code{REAL(KIND=10)}, will probably not work.
+
+@emph{Note that the values specified via the GFORTRAN_CONVERT_UNIT
+environment variable will override the CONVERT specifier in the
+open statement}. This is to give control over data formats to
+a user who does not have the source code of his program available.
+
+Using anything but the native representation for unformatted data
+carries a significant speed overhead. If speed in this area matters
+to you, it is best if you use this only for data that needs to be
+portable.
+
+@node OpenMP
+@section OpenMP
+@cindex OpenMP
+
+GNU Fortran attempts to be OpenMP Application Program Interface v2.5
+compatible when invoked with the @option{-fopenmp} option. GNU Fortran
+then generates parallelized code according to the OpenMP directives
+used in the source. The OpenMP Fortran runtime library
+routines are provided both in a form of a Fortran 90 module named
+@code{omp_lib} and in a form of a Fortran @code{include} file named
+@file{omp_lib.h}.
+
+For details refer to the actual
+@uref{http://www.openmp.org/drupal/mp-documents/spec25.pdf,
+OpenMP Application Program Interface v2.5} specification.
+
+@c ---------------------------------------------------------------------
+@c Intrinsic Procedures
+@c ---------------------------------------------------------------------
+
+@include intrinsic.texi
+
+
+@tex
+\blankpart
+@end tex
+
@c ---------------------------------------------------------------------
@c Contributing
@c ---------------------------------------------------------------------
@node Contributing
-@chapter Contributing
+@unnumbered Contributing
@cindex Contributing
Free software is only possible if people contribute to efforts
We're always in need of more people helping out with ideas
and comments, writing documentation and contributing code.
-If you want to contribute to GNU Fortran 95,
+If you want to contribute to GNU Fortran,
have a look at the long lists of projects you can take on.
Some of these projects are small,
some of them are large;
some are completely orthogonal to the rest of what is
-happening on @command{gfortran},
+happening on GNU Fortran,
but others are ``mainstream'' projects in need of enthusiastic hackers.
All of these projects are important!
We'll eventually get around to the things here,
@menu
* Contributors::
* Projects::
+* Proposed Extensions::
@end menu
@node Contributors
-@section Contributors to GNU Fortran 95
+@section Contributors to GNU Fortran
@cindex Contributors
@cindex Credits
@cindex Authors
Most of the interface with GCC was written by @emph{Paul Brook}.
The following individuals have contributed code and/or
-ideas and significant help to the gfortran project
-(in no particular order):
+ideas and significant help to the GNU Fortran project
+(in no particular order):
@itemize @minus
@item Andy Vaught
@item Katherine Holcomb
-@item Tobias SchlΓΌter
+@item Tobias Schl@"uter
@item Steven Bosscher
@item Toon Moene
@item Tim Prince
@item Paul Brook
@item Feng Wang
@item Bud Davis
+@item Paul Thomas
+@item Fran@,{c}ois-Xavier Coudert
+@item Steven G. Kargl
+@item Jerry Delisle
+@item Janne Blomqvist
+@item Erik Edelmann
+@item Thomas Koenig
+@item Asher Langton
+@item Jakub Jelinek
+@item Roger Sayle
+@item H.J. Lu
+@item Richard Henderson
+@item Richard Sandiford
+@item Richard Guenther
+@item Bernhard Fischer
@end itemize
The following people have contributed bug reports,
smaller or larger patches,
and much needed feedback and encouragement for the
-@command{gfortran} project:
+GNU Fortran project:
@itemize @minus
@item Erik Schnetter
@end itemize
Many other individuals have helped debug,
-test and improve @command{gfortran} over the past two years,
+test and improve the GNU Fortran compiler over the past few years,
and we welcome you to do the same!
If you already have done so,
and you would like to see your name listed in the
@c TODO: email!
+@node Proposed Extensions
+@section Proposed Extensions
+
+Here's a list of proposed extensions for the GNU Fortran compiler, in no particular
+order. Most of these are necessary to be fully compatible with
+existing Fortran compilers, but they are not part of the official
+J3 Fortran 95 standard.
+
+@subsection Compiler extensions:
+@itemize @bullet
+@item
+User-specified alignment rules for structures.
+
+@item
+Flag to generate @code{Makefile} info.
+
+@item
+Automatically extend single precision constants to double.
+
+@item
+Compile code that conserves memory by dynamically allocating common and
+module storage either on stack or heap.
+
+@item
+Compile flag to generate code for array conformance checking (suggest -CC).
+
+@item
+User control of symbol names (underscores, etc).
+
+@item
+Compile setting for maximum size of stack frame size before spilling
+parts to static or heap.
+
+@item
+Flag to force local variables into static space.
+
+@item
+Flag to force local variables onto stack.
+
+@item
+Flag for maximum errors before ending compile.
+
+@item
+Option to initialize otherwise uninitialized integer and floating
+point variables.
+@end itemize
+
+
+@subsection Environment Options
+@itemize @bullet
+@item
+Pluggable library modules for random numbers, linear algebra.
+LA should use BLAS calling conventions.
+
+@item
+Environment variables controlling actions on arithmetic exceptions like
+overflow, underflow, precision loss---Generate NaN, abort, default.
+action.
+
+@item
+Set precision for fp units that support it (i387).
+
+@item
+Variable for setting fp rounding mode.
+
+@item
+Variable to fill uninitialized variables with a user-defined bit
+pattern.
+
+@item
+Environment variable controlling filename that is opened for that unit
+number.
+
+@item
+Environment variable to clear/trash memory being freed.
+
+@item
+Environment variable to control tracing of allocations and frees.
+
+@item
+Environment variable to display allocated memory at normal program end.
+
+@item
+Environment variable for filename for * IO-unit.
+
+@item
+Environment variable for temporary file directory.
+
+@item
+Environment variable forcing standard output to be line buffered (unix).
+
+@end itemize
+
+
@c ---------------------------------------------------------------------
-@c Standards
+@c GNU General Public License
@c ---------------------------------------------------------------------
-@node Standards
-@chapter Standards
-@cindex Standards
+@include gpl.texi
+
+
+
+@c ---------------------------------------------------------------------
+@c GNU Free Documentation License
+@c ---------------------------------------------------------------------
+
+@include fdl.texi
+
-The GNU Fortran 95 Compiler aims to be a conforming implementation of
-ISO/IEC 1539:1997 (Fortran 95).
-In the future it may also support other variants and extensions to the Fortran
-language. This includes ANSI Fortran 77, Fortran 90, Fortran 2000 (not yet
-finalized), and OpenMP.
+@c ---------------------------------------------------------------------
+@c Funding Free Software
+@c ---------------------------------------------------------------------
+
+@include funding.texi
+
+@c ---------------------------------------------------------------------
+@c Index
+@c ---------------------------------------------------------------------
@node Index
@unnumbered Index
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