From: Fritz Reese Date: Wed, 3 Aug 2016 14:55:26 +0000 (+0000) Subject: lang.opt: New option -fdec-intrinsic-ints. X-Git-Tag: upstream/12.2.0~45473 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=c98583e997e74487876c1a4aafb3d12602e330ff;p=platform%2Fupstream%2Fgcc.git lang.opt: New option -fdec-intrinsic-ints. 2016-08-03 Fritz Reese gcc/fortran/ * lang.opt: New option -fdec-intrinsic-ints. * options.c (set_dec_flags): Enable with -fdec. * gfortran.texi, invoke.texi, intrinsics.texi: Update documentation. * intrinsic.c (add_function, add_subroutine): New B/I/J/K intrinsic variants. gcc/testsuite/gfortran.dg/ * dec_intrinsic_ints.f90: New testcase. From-SVN: r239078 --- diff --git a/gcc/fortran/ChangeLog b/gcc/fortran/ChangeLog index d39bd9a..04726bb 100644 --- a/gcc/fortran/ChangeLog +++ b/gcc/fortran/ChangeLog @@ -1,3 +1,11 @@ +2016-08-03 Fritz Reese + + * lang.opt: New option -fdec-intrinsic-ints. + * options.c (set_dec_flags): Enable with -fdec. + * gfortran.texi, invoke.texi, intrinsics.texi: Update documentation. + * intrinsic.c (add_function, add_subroutine): New B/I/J/K intrinsic + variants. + 2016-07-30 Steven G. Kargl PR fortran/41922 diff --git a/gcc/fortran/gfortran.texi b/gcc/fortran/gfortran.texi index cc80204..b34ae86 100644 --- a/gcc/fortran/gfortran.texi +++ b/gcc/fortran/gfortran.texi @@ -1461,6 +1461,7 @@ without warning. * Read/Write after EOF marker:: * STRUCTURE and RECORD:: * UNION and MAP:: +* Type variants for integer intrinsics:: @end menu @node Old-style kind specifications @@ -2367,6 +2368,58 @@ a.h === '.C' a.l === '.D' @end example +@node Type variants for integer intrinsics +@subsection Type variants for integer intrinsics +@cindex intrinsics, integer + +Similar to the D/C prefixes to real functions to specify the input/output +types, GNU Fortran offers B/I/J/K prefixes to integer functions for +compatibility with DEC programs. The types implied by each are: + +@example +@code{B} - @code{INTEGER(kind=1)} +@code{I} - @code{INTEGER(kind=2)} +@code{J} - @code{INTEGER(kind=4)} +@code{K} - @code{INTEGER(kind=8)} +@end example + +GNU Fortran supports these with the flag @option{-fdec-intrinsic-ints}. +Intrinsics for which prefixed versions are available and in what form are noted +in @ref{Intrinsic Procedures}. The complete list of supported intrinsics is +here: + +@multitable @columnfractions .2 .2 .2 .2 .2 + +@headitem Intrinsic @tab B @tab I @tab J @tab K + +@item @code{@ref{ABS}} + @tab @code{BABS} @tab @code{IIABS} @tab @code{JIABS} @tab @code{KIABS} +@item @code{@ref{BTEST}} + @tab @code{BBTEST} @tab @code{BITEST} @tab @code{BJTEST} @tab @code{BKTEST} +@item @code{@ref{IAND}} + @tab @code{BIAND} @tab @code{IIAND} @tab @code{JIAND} @tab @code{KIAND} +@item @code{@ref{IBCLR}} + @tab @code{BBCLR} @tab @code{IIBCLR} @tab @code{JIBCLR} @tab @code{KIBCLR} +@item @code{@ref{IBITS}} + @tab @code{BBITS} @tab @code{IIBITS} @tab @code{JIBITS} @tab @code{KIBITS} +@item @code{@ref{IBSET}} + @tab @code{BBSET} @tab @code{IIBSET} @tab @code{JIBSET} @tab @code{KIBSET} +@item @code{@ref{IEOR}} + @tab @code{BIEOR} @tab @code{IIEOR} @tab @code{JIEOR} @tab @code{KIEOR} +@item @code{@ref{IOR}} + @tab @code{BIOR} @tab @code{IIOR} @tab @code{JIOR} @tab @code{KIOR} +@item @code{@ref{ISHFT}} + @tab @code{BSHFT} @tab @code{IISHFT} @tab @code{JISHFT} @tab @code{KISHFT} +@item @code{@ref{ISHFTC}} + @tab @code{BSHFTC} @tab @code{IISHFTC} @tab @code{JISHFTC} @tab @code{KISHFTC} +@item @code{@ref{MOD}} + @tab @code{BMOD} @tab @code{IMOD} @tab @code{JMOD} @tab @code{KMOD} +@item @code{@ref{NOT}} + @tab @code{BNOT} @tab @code{INOT} @tab @code{JNOT} @tab @code{KNOT} +@item @code{@ref{REAL}} + @tab @code{--} @tab @code{FLOATI} @tab @code{FLOATJ} @tab @code{FLOATK} +@end multitable + @node Extensions not implemented in GNU Fortran @section Extensions not implemented in GNU Fortran diff --git a/gcc/fortran/intrinsic.c b/gcc/fortran/intrinsic.c index 1d7503d..ca28eac 100644 --- a/gcc/fortran/intrinsic.c +++ b/gcc/fortran/intrinsic.c @@ -1255,6 +1255,14 @@ add_functions (void) gfc_check_abs, gfc_simplify_abs, gfc_resolve_abs, a, BT_REAL, dr, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("babs", GFC_STD_GNU); + make_alias ("iiabs", GFC_STD_GNU); + make_alias ("jiabs", GFC_STD_GNU); + make_alias ("kiabs", GFC_STD_GNU); + } + add_sym_1 ("iabs", GFC_ISYM_ABS, CLASS_ELEMENTAL, ACTUAL_YES, BT_INTEGER, di, GFC_STD_F77, NULL, gfc_simplify_abs, gfc_resolve_abs, a, BT_INTEGER, di, REQUIRED); @@ -1557,6 +1565,14 @@ add_functions (void) gfc_check_bitfcn, gfc_simplify_btest, gfc_resolve_btest, i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bbtest", GFC_STD_GNU); + make_alias ("bitest", GFC_STD_GNU); + make_alias ("bjtest", GFC_STD_GNU); + make_alias ("bktest", GFC_STD_GNU); + } + make_generic ("btest", GFC_ISYM_BTEST, GFC_STD_F95); add_sym_2 ("ceiling", GFC_ISYM_CEILING, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95, @@ -1950,6 +1966,14 @@ add_functions (void) gfc_check_iand, gfc_simplify_iand, gfc_resolve_iand, i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("biand", GFC_STD_GNU); + make_alias ("iiand", GFC_STD_GNU); + make_alias ("jiand", GFC_STD_GNU); + make_alias ("kiand", GFC_STD_GNU); + } + make_generic ("iand", GFC_ISYM_IAND, GFC_STD_F95); add_sym_2 ("and", GFC_ISYM_AND, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL, @@ -1981,6 +2005,14 @@ add_functions (void) gfc_check_bitfcn, gfc_simplify_ibclr, gfc_resolve_ibclr, i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bbclr", GFC_STD_GNU); + make_alias ("iibclr", GFC_STD_GNU); + make_alias ("jibclr", GFC_STD_GNU); + make_alias ("kibclr", GFC_STD_GNU); + } + make_generic ("ibclr", GFC_ISYM_IBCLR, GFC_STD_F95); add_sym_3 ("ibits", GFC_ISYM_IBITS, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95, @@ -1988,12 +2020,28 @@ add_functions (void) i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED, ln, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bbits", GFC_STD_GNU); + make_alias ("iibits", GFC_STD_GNU); + make_alias ("jibits", GFC_STD_GNU); + make_alias ("kibits", GFC_STD_GNU); + } + make_generic ("ibits", GFC_ISYM_IBITS, GFC_STD_F95); add_sym_2 ("ibset", GFC_ISYM_IBSET, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95, gfc_check_bitfcn, gfc_simplify_ibset, gfc_resolve_ibset, i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bbset", GFC_STD_GNU); + make_alias ("iibset", GFC_STD_GNU); + make_alias ("jibset", GFC_STD_GNU); + make_alias ("kibset", GFC_STD_GNU); + } + make_generic ("ibset", GFC_ISYM_IBSET, GFC_STD_F95); add_sym_2 ("ichar", GFC_ISYM_ICHAR, CLASS_ELEMENTAL, ACTUAL_NO, @@ -2007,6 +2055,14 @@ add_functions (void) gfc_check_ieor, gfc_simplify_ieor, gfc_resolve_ieor, i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bieor", GFC_STD_GNU); + make_alias ("iieor", GFC_STD_GNU); + make_alias ("jieor", GFC_STD_GNU); + make_alias ("kieor", GFC_STD_GNU); + } + make_generic ("ieor", GFC_ISYM_IEOR, GFC_STD_F95); add_sym_2 ("xor", GFC_ISYM_XOR, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL, @@ -2072,6 +2128,14 @@ add_functions (void) gfc_check_ior, gfc_simplify_ior, gfc_resolve_ior, i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bior", GFC_STD_GNU); + make_alias ("iior", GFC_STD_GNU); + make_alias ("jior", GFC_STD_GNU); + make_alias ("kior", GFC_STD_GNU); + } + make_generic ("ior", GFC_ISYM_IOR, GFC_STD_F95); add_sym_2 ("or", GFC_ISYM_OR, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL, @@ -2139,6 +2203,14 @@ add_functions (void) gfc_check_ishft, gfc_simplify_ishft, gfc_resolve_ishft, i, BT_INTEGER, di, REQUIRED, sh, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bshft", GFC_STD_GNU); + make_alias ("iishft", GFC_STD_GNU); + make_alias ("jishft", GFC_STD_GNU); + make_alias ("kishft", GFC_STD_GNU); + } + make_generic ("ishft", GFC_ISYM_ISHFT, GFC_STD_F95); add_sym_3 ("ishftc", GFC_ISYM_ISHFTC, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95, @@ -2146,6 +2218,14 @@ add_functions (void) i, BT_INTEGER, di, REQUIRED, sh, BT_INTEGER, di, REQUIRED, sz, BT_INTEGER, di, OPTIONAL); + if (flag_dec_intrinsic_ints) + { + make_alias ("bshftc", GFC_STD_GNU); + make_alias ("iishftc", GFC_STD_GNU); + make_alias ("jishftc", GFC_STD_GNU); + make_alias ("kishftc", GFC_STD_GNU); + } + make_generic ("ishftc", GFC_ISYM_ISHFTC, GFC_STD_F95); add_sym_2 ("kill", GFC_ISYM_KILL, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER, @@ -2456,6 +2536,14 @@ add_functions (void) gfc_check_a_p, gfc_simplify_mod, gfc_resolve_mod, a, BT_INTEGER, di, REQUIRED, p, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bmod", GFC_STD_GNU); + make_alias ("imod", GFC_STD_GNU); + make_alias ("jmod", GFC_STD_GNU); + make_alias ("kmod", GFC_STD_GNU); + } + add_sym_2 ("amod", GFC_ISYM_MOD, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dr, GFC_STD_F77, NULL, gfc_simplify_mod, gfc_resolve_mod, a, BT_REAL, dr, REQUIRED, p, BT_REAL, dr, REQUIRED); @@ -2498,6 +2586,14 @@ add_functions (void) gfc_check_i, gfc_simplify_not, gfc_resolve_not, i, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("bnot", GFC_STD_GNU); + make_alias ("inot", GFC_STD_GNU); + make_alias ("jnot", GFC_STD_GNU); + make_alias ("knot", GFC_STD_GNU); + } + make_generic ("not", GFC_ISYM_NOT, GFC_STD_F95); add_sym_2 ("norm2", GFC_ISYM_NORM2, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, @@ -2608,6 +2704,13 @@ add_functions (void) gfc_check_float, gfc_simplify_float, NULL, a, BT_INTEGER, di, REQUIRED); + if (flag_dec_intrinsic_ints) + { + make_alias ("floati", GFC_STD_GNU); + make_alias ("floatj", GFC_STD_GNU); + make_alias ("floatk", GFC_STD_GNU); + } + add_sym_1 ("dfloat", GFC_ISYM_REAL, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dd, GFC_STD_GNU, gfc_check_float, gfc_simplify_dble, gfc_resolve_dble, a, BT_REAL, dr, REQUIRED); @@ -3306,6 +3409,14 @@ add_subroutines (void) t, BT_INTEGER, di, REQUIRED, INTENT_INOUT, tp, BT_INTEGER, di, REQUIRED, INTENT_IN); + if (flag_dec_intrinsic_ints) + { + make_alias ("bmvbits", GFC_STD_GNU); + make_alias ("imvbits", GFC_STD_GNU); + make_alias ("jmvbits", GFC_STD_GNU); + make_alias ("kmvbits", GFC_STD_GNU); + } + add_sym_1s ("random_number", GFC_ISYM_RANDOM_NUMBER, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_F95, gfc_check_random_number, NULL, gfc_resolve_random_number, diff --git a/gcc/fortran/intrinsic.texi b/gcc/fortran/intrinsic.texi index 8840630..ae5d814 100644 --- a/gcc/fortran/intrinsic.texi +++ b/gcc/fortran/intrinsic.texi @@ -401,6 +401,10 @@ end program test_abort @fnindex IABS @fnindex ZABS @fnindex CDABS +@fnindex BABS +@fnindex IIABS +@fnindex JIABS +@fnindex KIABS @cindex absolute value @table @asis @@ -446,6 +450,10 @@ end program test_abs @item @code{CABS(A)} @tab @code{COMPLEX(4) A} @tab @code{REAL(4)} @tab Fortran 77 and later @item @code{DABS(A)} @tab @code{REAL(8) A} @tab @code{REAL(8)} @tab Fortran 77 and later @item @code{IABS(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab Fortran 77 and later +@item @code{BABS(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIABS(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIABS(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIABS(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension @item @code{ZABS(A)} @tab @code{COMPLEX(8) A} @tab @code{COMPLEX(8)} @tab GNU extension @item @code{CDABS(A)} @tab @code{COMPLEX(8) A} @tab @code{COMPLEX(8)} @tab GNU extension @end multitable @@ -2666,6 +2674,10 @@ The return value is of type @code{LOGICAL} and of the default kind. @node BTEST @section @code{BTEST} --- Bit test function @fnindex BTEST +@fnindex BBTEST +@fnindex BITEST +@fnindex BJTEST +@fnindex BKTEST @cindex bits, testing @table @asis @@ -2674,7 +2686,7 @@ The return value is of type @code{LOGICAL} and of the default kind. in @var{I} is set. The counting of the bits starts at 0. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -2703,8 +2715,17 @@ program test_btest end do end program test_btest @end smallexample -@end table +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{BTEST(I,POS)} @tab @code{INTEGER I,POS} @tab @code{LOGICAL} @tab F95 and later +@item @code{BBTEST(I,POS)} @tab @code{INTEGER(1) I,POS} @tab @code{LOGICAL(1)} @tab GNU extension +@item @code{BITEST(I,POS)} @tab @code{INTEGER(2) I,POS} @tab @code{LOGICAL(2)} @tab GNU extension +@item @code{BJTEST(I,POS)} @tab @code{INTEGER(4) I,POS} @tab @code{LOGICAL(4)} @tab GNU extension +@item @code{BKTEST(I,POS)} @tab @code{INTEGER(8) I,POS} @tab @code{LOGICAL(8)} @tab GNU extension +@end multitable +@end table @node C_ASSOCIATED @section @code{C_ASSOCIATED} --- Status of a C pointer @@ -6972,6 +6993,10 @@ END PROGRAM @node IAND @section @code{IAND} --- Bitwise logical and @fnindex IAND +@fnindex BIAND +@fnindex IIAND +@fnindex JIAND +@fnindex KIAND @cindex bitwise logical and @cindex logical and, bitwise @@ -6980,7 +7005,7 @@ END PROGRAM Bitwise logical @code{AND}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7010,6 +7035,16 @@ PROGRAM test_iand END PROGRAM @end smallexample +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IAND(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BIAND(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIAND(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIAND(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIAND(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IOR}, @ref{IEOR}, @ref{IBITS}, @ref{IBSET}, @ref{IBCLR}, @ref{NOT} @@ -7124,6 +7159,10 @@ Fortran 2003 functions and subroutines: @ref{GET_COMMAND}, @node IBCLR @section @code{IBCLR} --- Clear bit @fnindex IBCLR +@fnindex BBCLR +@fnindex IIBCLR +@fnindex JIBCLR +@fnindex KIBCLR @cindex bits, unset @cindex bits, clear @@ -7133,7 +7172,7 @@ Fortran 2003 functions and subroutines: @ref{GET_COMMAND}, @var{POS} set to zero. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7151,6 +7190,16 @@ Elemental function The return value is of type @code{INTEGER} and of the same kind as @var{I}. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IBCLR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BBCLR(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIBCLR(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIBCLR(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIBCLR(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IBITS}, @ref{IBSET}, @ref{IAND}, @ref{IOR}, @ref{IEOR}, @ref{MVBITS} @@ -7161,6 +7210,10 @@ The return value is of type @code{INTEGER} and of the same kind as @node IBITS @section @code{IBITS} --- Bit extraction @fnindex IBITS +@fnindex BBITS +@fnindex IIBITS +@fnindex JIBITS +@fnindex KIBITS @cindex bits, get @cindex bits, extract @@ -7173,7 +7226,7 @@ zeroed. The value of @code{POS+LEN} must be less than or equal to the value @code{BIT_SIZE(I)}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7192,6 +7245,16 @@ Elemental function The return value is of type @code{INTEGER} and of the same kind as @var{I}. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IBITS(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BBITS(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIBITS(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIBITS(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIBITS(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{BIT_SIZE}, @ref{IBCLR}, @ref{IBSET}, @ref{IAND}, @ref{IOR}, @ref{IEOR} @end table @@ -7201,6 +7264,10 @@ The return value is of type @code{INTEGER} and of the same kind as @node IBSET @section @code{IBSET} --- Set bit @fnindex IBSET +@fnindex BBSET +@fnindex IIBSET +@fnindex JIBSET +@fnindex KIBSET @cindex bits, set @table @asis @@ -7209,7 +7276,7 @@ The return value is of type @code{INTEGER} and of the same kind as @var{POS} set to one. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7227,6 +7294,16 @@ Elemental function The return value is of type @code{INTEGER} and of the same kind as @var{I}. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IBSET(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BBSET(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIBSET(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIBSET(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIBSET(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IBCLR}, @ref{IBITS}, @ref{IAND}, @ref{IOR}, @ref{IEOR}, @ref{MVBITS} @@ -7358,6 +7435,10 @@ end program test_idate @node IEOR @section @code{IEOR} --- Bitwise logical exclusive or @fnindex IEOR +@fnindex BIEOR +@fnindex IIEOR +@fnindex JIEOR +@fnindex KIEOR @cindex bitwise logical exclusive or @cindex logical exclusive or, bitwise @@ -7367,7 +7448,7 @@ end program test_idate @var{J}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7388,6 +7469,16 @@ The return type is @code{INTEGER}, of the same kind as the arguments. (If the argument kinds differ, it is of the same kind as the larger argument.) +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IEOR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BIEOR(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIEOR(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIEOR(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIEOR(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IOR}, @ref{IAND}, @ref{IBITS}, @ref{IBSET}, @ref{IBCLR}, @ref{NOT} @end table @@ -7662,6 +7753,10 @@ The return value is a @code{INTEGER(8)} variable. @node IOR @section @code{IOR} --- Bitwise logical or @fnindex IOR +@fnindex BIOR +@fnindex IIOR +@fnindex JIOR +@fnindex KIOR @cindex bitwise logical or @cindex logical or, bitwise @@ -7671,7 +7766,7 @@ The return value is a @code{INTEGER(8)} variable. @var{J}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7692,6 +7787,16 @@ The return type is @code{INTEGER}, of the same kind as the arguments. (If the argument kinds differ, it is of the same kind as the larger argument.) +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{IOR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BIOR(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IIOR(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JIOR(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KIOR(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IEOR}, @ref{IAND}, @ref{IBITS}, @ref{IBSET}, @ref{IBCLR}, @ref{NOT} @end table @@ -7945,6 +8050,10 @@ END PROGRAM @node ISHFT @section @code{ISHFT} --- Shift bits @fnindex ISHFT +@fnindex BSHFT +@fnindex IISHFT +@fnindex JISHFT +@fnindex KISHFT @cindex bits, shift @table @asis @@ -7958,7 +8067,7 @@ value is undefined. Bits shifted out from the left end or right end are lost; zeros are shifted in from the opposite end. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -7976,6 +8085,16 @@ Elemental function The return value is of type @code{INTEGER} and of the same kind as @var{I}. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{ISHFT(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BSHFT(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IISHFT(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JISHFT(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KISHFT(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{ISHFTC} @end table @@ -7985,6 +8104,10 @@ The return value is of type @code{INTEGER} and of the same kind as @node ISHFTC @section @code{ISHFTC} --- Shift bits circularly @fnindex ISHFTC +@fnindex BSHFTC +@fnindex IISHFTC +@fnindex JISHFTC +@fnindex KISHFTC @cindex bits, shift circular @table @asis @@ -7999,7 +8122,7 @@ a right shift. The absolute value of @var{SHIFT} must be less than equivalent to @code{BIT_SIZE(I)}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -8020,6 +8143,16 @@ the value must be greater than zero and less than or equal to The return value is of type @code{INTEGER} and of the same kind as @var{I}. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{ISHFTC(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BSHFTC(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IISHFTC(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JISHFTC(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KISHFTC(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{ISHFT} @end table @@ -9843,6 +9976,10 @@ cases, the result is of the same type and kind as @var{ARRAY}. @fnindex MOD @fnindex AMOD @fnindex DMOD +@fnindex BMOD +@fnindex IMOD +@fnindex JMOD +@fnindex KMOD @cindex remainder @cindex division, remainder @@ -9851,7 +9988,7 @@ cases, the result is of the same type and kind as @var{ARRAY}. @code{MOD(A,P)} computes the remainder of the division of A by P@. @item @emph{Standard}: -Fortran 77 and later +Fortran 77 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -9898,6 +10035,10 @@ end program test_mod @item @code{MOD(A,P)} @tab @code{INTEGER A,P} @tab @code{INTEGER} @tab Fortran 95 and later @item @code{AMOD(A,P)} @tab @code{REAL(4) A,P} @tab @code{REAL(4)} @tab Fortran 95 and later @item @code{DMOD(A,P)} @tab @code{REAL(8) A,P} @tab @code{REAL(8)} @tab Fortran 95 and later +@item @code{BMOD(A,P)} @tab @code{INTEGER(1) A,P} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IMOD(A,P)} @tab @code{INTEGER(2) A,P} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JMOD(A,P)} @tab @code{INTEGER(4) A,P} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KMOD(A,P)} @tab @code{INTEGER(8) A,P} @tab @code{INTEGER(8)} @tab GNU extension @end multitable @item @emph{See also}: @@ -10017,6 +10158,10 @@ end program test_move_alloc @node MVBITS @section @code{MVBITS} --- Move bits from one integer to another @fnindex MVBITS +@fnindex BMVBITS +@fnindex IMVBITS +@fnindex JMVBITS +@fnindex KMVBITS @cindex bits, move @table @asis @@ -10029,7 +10174,7 @@ affected by the movement of bits is unchanged. The values of @code{BIT_SIZE(FROM)}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental subroutine @@ -10047,6 +10192,16 @@ same kind as @var{FROM}. @item @var{TOPOS} @tab The type shall be @code{INTEGER}. @end multitable +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{MVBITS(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BMVBITS(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{IMVBITS(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JMVBITS(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KMVBITS(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IBCLR}, @ref{IBSET}, @ref{IBITS}, @ref{IAND}, @ref{IOR}, @ref{IEOR} @end table @@ -10250,6 +10405,10 @@ END PROGRAM @node NOT @section @code{NOT} --- Logical negation @fnindex NOT +@fnindex BNOT +@fnindex INOT +@fnindex JNOT +@fnindex KNOT @cindex bits, negate @cindex bitwise logical not @cindex logical not, bitwise @@ -10259,7 +10418,7 @@ END PROGRAM @code{NOT} returns the bitwise Boolean inverse of @var{I}. @item @emph{Standard}: -Fortran 95 and later +Fortran 95 and later, has overloads that are GNU extensions @item @emph{Class}: Elemental function @@ -10276,6 +10435,16 @@ Elemental function The return type is @code{INTEGER}, of the same kind as the argument. +@item @emph{Specific names}: +@multitable @columnfractions .20 .20 .20 .25 +@item Name @tab Argument @tab Return type @tab Standard +@item @code{NOT(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab Fortran 95 and later +@item @code{BNOT(A)} @tab @code{INTEGER(1) A} @tab @code{INTEGER(1)} @tab GNU extension +@item @code{INOT(A)} @tab @code{INTEGER(2) A} @tab @code{INTEGER(2)} @tab GNU extension +@item @code{JNOT(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab GNU extension +@item @code{KNOT(A)} @tab @code{INTEGER(8) A} @tab @code{INTEGER(8)} @tab GNU extension +@end multitable + @item @emph{See also}: @ref{IAND}, @ref{IEOR}, @ref{IOR}, @ref{IBITS}, @ref{IBSET}, @ref{IBCLR} @@ -11192,6 +11361,9 @@ end program test_rank @fnindex REALPART @fnindex FLOAT @fnindex DFLOAT +@fnindex FLOATI +@fnindex FLOATJ +@fnindex FLOATK @fnindex SNGL @cindex conversion, to real @cindex complex numbers, real part @@ -11252,6 +11424,9 @@ end program test_real @item Name @tab Argument @tab Return type @tab Standard @item @code{FLOAT(A)} @tab @code{INTEGER(4)} @tab @code{REAL(4)} @tab Fortran 77 and later @item @code{DFLOAT(A)} @tab @code{INTEGER(4)} @tab @code{REAL(8)} @tab GNU extension +@item @code{FLOATI(A)} @tab @code{INTEGER(2)} @tab @code{REAL(4)} @tab GNU extension +@item @code{FLOATJ(A)} @tab @code{INTEGER(4)} @tab @code{REAL(4)} @tab GNU extension +@item @code{FLOATK(A)} @tab @code{INTEGER(8)} @tab @code{REAL(4)} @tab GNU extension @item @code{SNGL(A)} @tab @code{INTEGER(8)} @tab @code{REAL(4)} @tab Fortran 77 and later @end multitable diff --git a/gcc/fortran/invoke.texi b/gcc/fortran/invoke.texi index 87baf15..2fd12cb 100644 --- a/gcc/fortran/invoke.texi +++ b/gcc/fortran/invoke.texi @@ -116,7 +116,8 @@ by type. Explanations are in the following sections. @xref{Fortran Dialect Options,,Options controlling Fortran dialect}. @gccoptlist{-fall-intrinsics -fbackslash -fcray-pointer -fd-lines-as-code @gol -fd-lines-as-comments @gol --fdec -fdec-structure -fdefault-double-8 -fdefault-integer-8 @gol +-fdec -fdec-structure -fdec-intrinsic-ints @gol +-fdefault-double-8 -fdefault-integer-8 @gol -fdefault-real-8 -fdollar-ok -ffixed-line-length-@var{n} @gol -ffixed-line-length-none -ffree-form -ffree-line-length-@var{n} @gol -ffree-line-length-none -fimplicit-none -finteger-4-integer-8 @gol @@ -239,6 +240,7 @@ full documentation. Other flags enabled by this switch are: @option{-fdollar-ok} @option{-fcray-pointer} @option{-fdec-structure} +@option{-fdec-intrinsic-ints} @item -fdec-structure @opindex @code{fdec-structure} @@ -247,6 +249,11 @@ Enable DEC @code{STRUCTURE} and @code{RECORD} as well as @code{UNION}, provided for compatibility only; Fortran 90 derived types should be used instead where possible. +@item -fdec-intrinsic-ints +@opindex @code{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. + @item -fdollar-ok @opindex @code{fdollar-ok} @cindex @code{$} diff --git a/gcc/fortran/lang.opt b/gcc/fortran/lang.opt index 8f8b299..4ff54e2 100644 --- a/gcc/fortran/lang.opt +++ b/gcc/fortran/lang.opt @@ -424,6 +424,10 @@ fdec Fortran Enable all DEC language extensions. +fdec-intrinsic-ints +Fortran Var(flag_dec_intrinsic_ints) +Enable kind-specific variants of integer intrinsic functions. + fdec-structure Fortran Enable support for DEC STRUCTURE/RECORD. diff --git a/gcc/fortran/options.c b/gcc/fortran/options.c index 5a91ec1..4aa8303 100644 --- a/gcc/fortran/options.c +++ b/gcc/fortran/options.c @@ -53,6 +53,7 @@ static void set_dec_flags (int value) { gfc_option.flag_dec_structure = value; + flag_dec_intrinsic_ints = value; } diff --git a/gcc/testsuite/ChangeLog b/gcc/testsuite/ChangeLog index 2ab2f25..cafdb6d 100644 --- a/gcc/testsuite/ChangeLog +++ b/gcc/testsuite/ChangeLog @@ -1,3 +1,7 @@ +2016-08-03 Fritz Reese + + * gfortran.dg/dec_intrinsic_ints.f90: New testcase. + 2016-08-03 Richard Biener * c-c++-common/ubsan/pr71403-1.c: Use dg-additional-options diff --git a/gcc/testsuite/gfortran.dg/dec_intrinsic_ints.f90 b/gcc/testsuite/gfortran.dg/dec_intrinsic_ints.f90 new file mode 100644 index 0000000..faa3078 --- /dev/null +++ b/gcc/testsuite/gfortran.dg/dec_intrinsic_ints.f90 @@ -0,0 +1,165 @@ +! { dg-do compile } +! { dg-options "-fdec-intrinsic-ints" } +! +! Test B/I/J/K integer intrinsics. +! +program main + +implicit none + +integer*1 :: ab = 9_1, bb = 3_1, cb +integer*2 :: ai = 9_2, bi = 3_2, ci +integer*4 :: aj = 9_4, bj = 3_4, cj +integer*8 :: ak = 9_8, bk = 3_8, ck +integer :: a = 9 , b = 3 , c + +integer*1 :: ib = 9_1, bpos = 3_1 +integer*2 :: ii = 9_2, ipos = 3_2 +integer*4 :: ij = 9_4, jpos = 3_4 +integer*8 :: ik = 9_8, kpos = 3_8 +integer :: i = 9 , pos = 3 + +integer*1 :: ba, bc, bd +integer*2 :: ia, ic, id +integer*4 :: ja, jb, jc, jd +integer*8 :: ka, kb, kc, kd + +logical*1 :: lb +logical*2 :: li +logical*4 :: lj +logical*8 :: lk +logical :: l + +real :: r + +lb = bbtest(ib, bpos) +li = bitest(ii, ipos) +lj = bjtest(ij, jpos) +lk = bktest(ik, kpos) +l = btest(i , pos) + +lb = bbtest(9_1, 3_1) +li = bitest(9_2, 3_2) +lj = bjtest(9_4, 3_4) +lk = bktest(9_8, 3_8) +l = btest(9 , 3 ) + +r = floati(ai) +r = floatj(aj) +r = floatk(ak) +r = float (a ) + +r = floati(9_2) +r = floatj(9_4) +r = floatk(9_8) +r = float (9 ) + +bb = babs(ab) +bi = iiabs(ai) +bj = jiabs(aj) +bk = kiabs(ak) +b = iabs(a ) + +bb = babs(9_1) +bi = iiabs(9_2) +bj = jiabs(9_4) +bk = kiabs(9_8) +b = iabs(9 ) + +cb = biand(ab, bb) +ci = iiand(ai, bi) +cj = jiand(aj, bj) +ck = kiand(ak, bk) +c = iand(a , b ) + +cb = biand(9_1, 3_1) +ci = iiand(9_2, 3_2) +cj = jiand(9_4, 3_4) +ck = kiand(9_8, 3_8) +c = iand(9 , 3 ) + +cb = bbclr(ib, bpos) +ci = iibclr(ii, ipos) +cj = jibclr(ij, jpos) +ck = kibclr(ik, kpos) +c = ibclr(i , pos) + +cb = bbclr(9_1, 3_1) +ci = iibclr(9_2, 3_2) +cj = jibclr(9_4, 3_4) +ck = kibclr(9_8, 3_8) +c = ibclr(i , pos) + +cb = bbset(ib, bpos) +ci = iibset(ii, ipos) +cj = jibset(ij, jpos) +ck = kibset(ik, kpos) +c = ibset(i , pos) + +cb = bbset(9_1, 3_1) +ci = iibset(9_2, 3_2) +cj = jibset(9_4, 3_4) +ck = kibset(9_8, 3_8) +c = ibset(i , pos) + +cb = bieor(ab, bb) +ci = iieor(ai, bi) +cj = jieor(aj, bj) +ck = kieor(ak, bk) +c = ieor(a , b ) + +cb = bieor(9_1, 3_1) +ci = iieor(9_2, 3_2) +cj = jieor(9_4, 3_4) +ck = kieor(9_8, 3_8) +c = ieor(9 , 3 ) + +cb = bior(ab, bb) +ci = iior(ai, bi) +cj = jior(aj, bj) +ck = kior(ak, bk) +c = ior(a , b ) + +cb = bior(9_1, 3_1) +ci = iior(9_2, 3_2) +cj = jior(9_4, 3_4) +ck = kior(9_8, 3_8) +c = ior(9 , 3 ) + +cb = bmod(ab, bb) +ci = imod(ai, bi) +cj = jmod(aj, bj) +ck = kmod(ak, bk) +c = mod(a , b ) + +cb = bmod(9_1, 3_1) +ci = imod(9_2, 3_2) +cj = jmod(9_4, 3_4) +ck = kmod(9_8, 3_8) +c = mod(9 , 3 ) + +ba = bbits(121, 10, 5) +call bmvbits(121_1, 2, 3, ba, 1) +bc = bshftc(ba, 3, 6) +bd = bshft(bc, -3) +ba = bnot(bd) + +ia = iibits(357, 10, 5) +call imvbits(357_2, 8, 3, ia, 1) +ic = iishftc(ia, 3, 6) +id = iishft(ic, -3) +ia = inot(id) + +ja = jibits(357, 10, 5) +call jmvbits(357_4, 8, 3, ja, 1) +jc = jishftc(ja, 3, 6) +jd = jishft(jc, -3) +ja = jnot(jd) + +ka = kibits(357_8, 10_8, 5_8) +call kmvbits(357_8, 8_8, 3_8, ka, 1_8) +kc = kishftc(ka, 3_8, 6_8) +kd = kishft(kc, -3_8) +ka = knot(kd) + +end program