. \" Definitions of F, L and LR for the benefit of systems . \" whose -man lacks them... .de F .nh .if n \%\&\\$1 .if t \%\&\f(CW\\$1\fR .hy 14 .. .de L .nh .if n \%`\\$1' .if t \%\&\f(CW\\$1\fR .hy 14 .. .de LR .nh .if n \%`\\$1'\\$2 .if t \%\&\f(CW\\$1\fR\\$2 .hy 14 .. .TH F2C 6 .CT 1 prog_other .SH NAME f\^2c \(mi Convert Fortran 77 to C or C++ .SH SYNOPSIS .B ~em/lib.bin/f\^2c [ .I option ... ] .I file ... .SH DESCRIPTION .I F2c converts Fortran 77 source code in .I files with names ending in .L .f or .L .F to C (or C++) source files in the current directory, with .L .c substituted for the final .L .f or .LR .F . If no Fortran files are named, .I f\^2c reads Fortran from standard input and writes C on standard output. .I File names that end with .L .p or .L .P are taken to be prototype files, as produced by option .LR -P , and are read first. .PP The following options have the same meaning as in .IR f\^77 (1). .TP .B -C Compile code to check that subscripts are within declared array bounds. .TP .B -I2 Render INTEGER and LOGICAL as short, INTEGER\(**4 as long int. Assume the default \fIlibF77\fR and \fIlibI77\fR: allow only INTEGER\(**4 (and no LOGICAL) variables in INQUIREs. Option .L -I4 confirms the default rendering of INTEGER as long int. .TP .B -onetrip Compile DO loops that are performed at least once if reached. (Fortran 77 DO loops are not performed at all if the upper limit is smaller than the lower limit.) .TP .B -U Honor the case of variable and external names. Fortran keywords must be in .I lower case. .TP .B -u Make the default type of a variable `undefined' rather than using the default Fortran rules. .TP .B -w Suppress all warning messages. If the option is .LR -w66 , only Fortran 66 compatibility warnings are suppressed. .PP The following options are peculiar to .IR f\^2c . .TP .B -A Produce .SM ANSI C. Default is old-style C. .TP .B -a Make local variables automatic rather than static unless they appear in a .SM "DATA, EQUIVALENCE, NAMELIST," or .SM SAVE statement. .TP .B -C++ Output C++ code. .TP .B -c Include original Fortran source as comments. .TP .B -E Declare uninitialized .SM COMMON to be .B Extern (overridably defined in .F f2c.h as .B extern). .TP .B -ec Place uninitialized .SM COMMON blocks in separate files: .B COMMON /ABC/ appears in file .BR abc_com.c . Option .LR -e1c bundles the separate files into the output file, with comments that give an unbundling .IR sed (1) script. .TP .B -ext Complain about .IR f\^77 (1) extensions. .TP .B -g Include original Fortran line numbers as comments. .TP .B -h Try to align character strings on word (or, if the option is .LR -hd , on double-word) boundaries. .TP .B -i2 Similar to .BR -I2 , but assume a modified .I libF77 and .I libI77 (compiled with .BR -Df\^2c_i2 ), so .SM INTEGER and .SM LOGICAL variables may be assigned by .SM INQUIRE and array lengths are stored in short ints. .TP .B -kr Use temporary values to enforce Fortran expression evaluation where K&R (first edition) parenthesization rules allow rearrangement. If the option is .LR -krd , use double precision temporaries even for single-precision operands. .TP .B -P Write a .IB file .P of ANSI (or C++) prototypes for procedures defined in each input .IB file .f or .IB file .F . When reading Fortran from standard input, write prototypes at the beginning of standard output. Implies .B -A unless option .L -C++ is present. Option .B -Ps implies .B -P , and gives exit status 4 if rerunning .I f\^2c may change prototypes or declarations. .TP .B -p Supply preprocessor definitions to make common-block members look like local variables. .TP .B -R Do not promote .SM REAL functions and operations to .SM DOUBLE PRECISION. Option .L -!R confirms the default, which imitates .IR f\^77 . .TP .B -r Cast values of REAL functions (including intrinsics) to REAL. .TP .B -r8 Promote .SM REAL to .SM DOUBLE PRECISION, COMPLEX to .SM DOUBLE COMPLEX. .TP .BI -T dir Put temporary files in directory .I dir. .TP .B -w8 Suppress warnings when .SM COMMON or .SM EQUIVALENCE forces odd-word alignment of doubles. .TP .BI -W n Assume .I n characters/word (default 4) when initializing numeric variables with character data. .TP .B -z Do not implicitly recognize .SM DOUBLE COMPLEX. .TP .B -!bs Do not recognize \fIb\fRack\fIs\fRlash escapes (\e", \e', \e0, \e\e, \eb, \ef, \en, \er, \et, \ev) in character strings. .TP .B -!c Inhibit C output, but produce .B -P output. .TP .B -!I Reject .B include statements. .TP .B -!it Don't infer types of untyped .SM EXTERNAL procedures from use as parameters to previously defined or prototyped procedures. .TP .B -!P Do not attempt to infer .SM ANSI or C++ prototypes from usage. .PP The resulting C invokes the support routines of .IR f\^77 ; object code should be loaded by .I f\^77 or with .IR ld (1) or .IR cc (1) options .BR "-lF77 -lI77 -lm" . Calling conventions are those of .IR f\&77 : see the reference below. .br .SH FILES .TP .IB file .[fF] input file .TP .B *.c output file .TP .F ~em/include/fortran/f2c.h header file .SH "SEE ALSO" S. I. Feldman and P. J. Weinberger, `A Portable Fortran 77 Compiler', \fIUNIX Time Sharing System Programmer's Manual\fR, Tenth Edition, Volume 2, AT&T Bell Laboratories, 1990. .SH DIAGNOSTICS The diagnostics produced by .I f\^2c are intended to be self-explanatory. .SH BUGS Floating-point constant expressions are simplified in the floating-point arithmetic of the machine running .IR f\^2c , so they are typically accurate to at most 16 or 17 decimal places. .br Untypable .SM EXTERNAL functions are declared .BR int .