Pushed as obvious.
Martin
gcc/fortran/ChangeLog:
* intrinsic.texi: Add missing @headitem to tables with a header.
---
gcc/fortran/intrinsic.texi | 144 ++++++++++++++++++-------------------
1 file changed, 72 insertions(+), 72 deletions(-)
diff --git a/gcc/fortran/intrinsic.texi b/gcc/fortran/intrinsic.texi
index 260dbaae76b..8a92b862070 100644
--- a/gcc/fortran/intrinsic.texi
+++ b/gcc/fortran/intrinsic.texi
@@ -462,7 +462,7 @@ end program test_abs
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ABS(A)} @tab @code{REAL(4) A} @tab @code{REAL(4)} @tab
Fortran 77 and later
@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
@@ -627,7 +627,7 @@ end program test_acos
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ACOS(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran
77 and later
@item @code{DACOS(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran
77 and later
@end multitable
@@ -686,7 +686,7 @@ end program test_acosd
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ACOSD(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DACOSD(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -742,7 +742,7 @@ END PROGRAM
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DACOSH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -891,7 +891,7 @@ end program test_aimag
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{AIMAG(Z)} @tab @code{COMPLEX Z} @tab @code{REAL} @tab
Fortran 77 and later
@item @code{DIMAG(Z)} @tab @code{COMPLEX(8) Z} @tab @code{REAL(8)} @tab
GNU extension
@item @code{IMAG(Z)} @tab @code{COMPLEX Z} @tab @code{REAL} @tab
GNU extension
@@ -951,7 +951,7 @@ end program test_aint
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{AINT(A)} @tab @code{REAL(4) A} @tab @code{REAL(4)} @tab Fortran
77 and later
@item @code{DINT(A)} @tab @code{REAL(8) A} @tab @code{REAL(8)} @tab Fortran
77 and later
@end multitable
@@ -1231,7 +1231,7 @@ end program test_anint
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ANINT(A)} @tab @code{REAL(4) A} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DNINT(A)} @tab @code{REAL(8) A} @tab @code{REAL(8)} @tab Fortran
77 and later
@end multitable
@@ -1347,7 +1347,7 @@ end program test_asin
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ASIN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DASIN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -1406,7 +1406,7 @@ end program test_asind
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ASIND(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DASIND(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -1462,7 +1462,7 @@ END PROGRAM
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DASINH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension.
@end multitable
@@ -1598,7 +1598,7 @@ end program test_atan
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ATAN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DATAN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -1663,7 +1663,7 @@ end program test_atand
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ATAND(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DATAND(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -1728,7 +1728,7 @@ end program test_atan2
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{ATAN2(X, Y)} @tab @code{REAL(4) X, Y} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DATAN2(X, Y)} @tab @code{REAL(8) X, Y} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -1796,7 +1796,7 @@ end program test_atan2d
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{ATAN2D(X, Y)} @tab @code{REAL(4) X, Y} @tab @code{REAL(4)} @tab
GNU extension
@item @code{DATAN2D(X, Y)} @tab @code{REAL(8) X, Y} @tab @code{REAL(8)} @tab
GNU extension
@end multitable
@@ -1852,7 +1852,7 @@ END PROGRAM
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DATANH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -2541,7 +2541,7 @@ end program test_besj0
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DBESJ0(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -2590,7 +2590,7 @@ end program test_besj1
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DBESJ1(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -2655,7 +2655,7 @@ end program test_besjn
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{DBESJN(N, X)} @tab @code{INTEGER N} @tab @code{REAL(8)} @tab
GNU extension
@item @tab @code{REAL(8) X} @tab @tab
@end multitable
@@ -2703,7 +2703,7 @@ end program test_besy0
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DBESY0(X)}@tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -2750,7 +2750,7 @@ end program test_besy1
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DBESY1(X)}@tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -2815,7 +2815,7 @@ end program test_besyn
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{DBESYN(N,X)} @tab @code{INTEGER N} @tab @code{REAL(8)} @tab GNU
extension
@item @tab @code{REAL(8) X} @tab @tab
@end multitable
@@ -3058,7 +3058,7 @@ end program test_btest
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{BTEST(I,POS)} @tab @code{INTEGER I,POS} @tab @code{LOGICAL} @tab
Fortran 95 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
@@ -3475,7 +3475,7 @@ end program test_char
@item @emph{Specific names}:
@multitable @columnfractions .18 .18 .24 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{CHAR(I)} @tab @code{INTEGER I} @tab @code{CHARACTER(LEN=1)} @tab
Fortran 77 and later
@end multitable
@@ -4204,7 +4204,7 @@ end program test_conjg
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{DCONJG(Z)} @tab @code{COMPLEX(8) Z} @tab @code{COMPLEX(8)} @tab
GNU extension
@end multitable
@end table
@@ -4255,7 +4255,7 @@ end program test_cos
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{COS(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DCOS(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@item @code{CCOS(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
Fortran 77 and later
@@ -4319,7 +4319,7 @@ end program test_cosd
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{COSD(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
GNU extension
@item @code{DCOSD(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
GNU extension
@item @code{CCOSD(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
GNU extension
@@ -4378,7 +4378,7 @@ end program test_cosh
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{COSH(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DCOSH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -4432,7 +4432,7 @@ end program test_cotan
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{COTAN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DCOTAN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -4488,7 +4488,7 @@ end program test_cotand
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{COTAND(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DCOTAND(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -5003,7 +5003,7 @@ end program test_dim
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{DIM(X,Y)} @tab @code{REAL(4) X, Y} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{IDIM(X,Y)} @tab @code{INTEGER(4) X, Y} @tab @code{INTEGER(4)} @tab
Fortran 77 and later
@item @code{DDIM(X,Y)} @tab @code{REAL(8) X, Y} @tab @code{REAL(8)} @tab
Fortran 77 and later
@@ -5106,7 +5106,7 @@ end program test_dprod
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{DPROD(X,Y)} @tab @code{REAL(4) X, Y} @tab @code{REAL(8)}
@tab Fortran 77 and later
@end multitable
@@ -5475,7 +5475,7 @@ end program test_erf
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DERF(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -5519,7 +5519,7 @@ end program test_erfc
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DERFC(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@end table
@@ -5863,7 +5863,7 @@ end program test_exp
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{EXP(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DEXP(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@item @code{CEXP(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
Fortran 77 and later
@@ -6803,7 +6803,7 @@ end program test_gamma
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DGAMMA(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -7692,7 +7692,7 @@ END PROGRAM
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IAND(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -7855,7 +7855,7 @@ The return value is of type @code{INTEGER} and of the
same kind as
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IBCLR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -7914,7 +7914,7 @@ The return value is of type @code{INTEGER} and of the
same kind as
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IBITS(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -7968,7 +7968,7 @@ The return value is of type @code{INTEGER} and of the
same kind as
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IBSET(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -8029,7 +8029,7 @@ end program test_ichar
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{ICHAR(C)} @tab @code{CHARACTER C} @tab @code{INTEGER(4)}
@tab Fortran 77 and later
@end multitable
@@ -8156,7 +8156,7 @@ type parameter of the other argument as-if a call to @ref{INT} occurred.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IEOR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -8293,7 +8293,7 @@ The return value is of type @code{INTEGER} and of kind
@var{KIND}. If
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return
type @tab Standard
@item @code{INDEX(STRING, SUBSTRING)} @tab @code{CHARACTER} @tab
@code{INTEGER(4)} @tab Fortran 77 and later
@end multitable
@@ -8360,7 +8360,7 @@ end program
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{INT(A)} @tab @code{REAL(4) A} @tab @code{INTEGER} @tab
Fortran 77 and later
@item @code{IFIX(A)} @tab @code{REAL(4) A} @tab @code{INTEGER} @tab
Fortran 77 and later
@item @code{IDINT(A)} @tab @code{REAL(8) A} @tab @code{INTEGER} @tab
Fortran 77 and later
@@ -8486,7 +8486,7 @@ type parameter of the other argument as-if a call to
@ref{INT} occurred.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{IOR(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -8840,7 +8840,7 @@ The return value is of type @code{INTEGER} and of the
same kind as
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ISHFT(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -8898,7 +8898,7 @@ The return value is of type @code{INTEGER} and of the
same kind as
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ISHFTC(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -9259,7 +9259,7 @@ The return value is of type @code{INTEGER} and of kind
@var{KIND}. If
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{LEN(STRING)} @tab @code{CHARACTER} @tab @code{INTEGER} @tab
Fortran 77 and later
@end multitable
@@ -9352,7 +9352,7 @@ otherwise, based on the ASCII ordering.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return
type @tab Standard
@item @code{LGE(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab
@code{LOGICAL} @tab Fortran 77 and later
@end multitable
@@ -9406,7 +9406,7 @@ otherwise, based on the ASCII ordering.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return
type @tab Standard
@item @code{LGT(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab
@code{LOGICAL} @tab Fortran 77 and later
@end multitable
@@ -9504,7 +9504,7 @@ otherwise, based on the ASCII ordering.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return
type @tab Standard
@item @code{LLE(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab
@code{LOGICAL} @tab Fortran 77 and later
@end multitable
@@ -9558,7 +9558,7 @@ otherwise, based on the ASCII ordering.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return
type @tab Standard
@item @code{LLT(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab
@code{LOGICAL} @tab Fortran 77 and later
@end multitable
@@ -9697,7 +9697,7 @@ end program test_log
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ALOG(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 or later
@item @code{DLOG(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 or later
@item @code{CLOG(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
Fortran 77 or later
@@ -9749,7 +9749,7 @@ end program test_log10
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{ALOG10(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DLOG10(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -9798,7 +9798,7 @@ end program test_log_gamma
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{LGAMMA(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{ALGAMA(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DLGAMA(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@@ -10257,7 +10257,7 @@ and has the same type and kind as the first argument.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{MAX0(A1)} @tab @code{INTEGER(4) A1} @tab @code{INTEGER(4)} @tab
Fortran 77 and later
@item @code{AMAX0(A1)} @tab @code{INTEGER(4) A1} @tab @code{REAL(MAX(X))} @tab
Fortran 77 and later
@item @code{MAX1(A1)} @tab @code{REAL A1} @tab @code{INT(MAX(X))} @tab
Fortran 77 and later
@@ -10632,7 +10632,7 @@ and has the same type and kind as the first argument.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{MIN0(A1)} @tab @code{INTEGER(4) A1} @tab @code{INTEGER(4)} @tab
Fortran 77 and later
@item @code{AMIN0(A1)} @tab @code{INTEGER(4) A1} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{MIN1(A1)} @tab @code{REAL A1} @tab @code{INTEGER(4)} @tab
Fortran 77 and later
@@ -10865,7 +10865,7 @@ end program test_mod
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Arguments @tab Return type @tab
Standard
+@headitem Name @tab Arguments @tab Return type @tab
Standard
@item @code{MOD(A,P)} @tab @code{INTEGER A,P} @tab @code{INTEGER} @tab
Fortran 77 and later
@item @code{AMOD(A,P)} @tab @code{REAL(4) A,P} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DMOD(A,P)} @tab @code{REAL(8) A,P} @tab @code{REAL(8)} @tab
Fortran 77 and later
@@ -11030,7 +11030,7 @@ same kind as @var{FROM}.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{MVBITS(A)} @tab @code{INTEGER A} @tab @code{INTEGER} @tab
Fortran 90 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
@@ -11180,7 +11180,7 @@ end program test_nint
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return Type @tab
Standard
+@headitem Name @tab Argument @tab Return Type @tab
Standard
@item @code{NINT(A)} @tab @code{REAL(4) A} @tab @code{INTEGER} @tab
Fortran 77 and later
@item @code{IDNINT(A)} @tab @code{REAL(8) A} @tab @code{INTEGER} @tab
Fortran 77 and later
@end multitable
@@ -11278,7 +11278,7 @@ argument.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem 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
@@ -12294,7 +12294,7 @@ end program test_real
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{FLOAT(A)} @tab @code{INTEGER(4)} @tab @code{REAL(4)} @tab GNU
extension
@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
@@ -13198,7 +13198,7 @@ end program test_sign
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Arguments @tab Return type
@tab Standard
+@headitem Name @tab Arguments @tab Return type
@tab Standard
@item @code{SIGN(A,B)} @tab @code{REAL(4) A, B} @tab @code{REAL(4)}
@tab Fortran 77 and later
@item @code{ISIGN(A,B)} @tab @code{INTEGER(4) A, B} @tab @code{INTEGER(4)}
@tab Fortran 77 and later
@item @code{DSIGN(A,B)} @tab @code{REAL(8) A, B} @tab @code{REAL(8)}
@tab Fortran 77 and later
@@ -13307,7 +13307,7 @@ end program test_sin
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{SIN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DSIN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@item @code{CSIN(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
Fortran 77 and later
@@ -13369,7 +13369,7 @@ end program test_sind
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{SIND(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
GNU extension
@item @code{DSIND(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
GNU extension
@item @code{CSIND(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab
GNU extension
@@ -13426,7 +13426,7 @@ end program test_sinh
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{DSINH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 90 and later
@end multitable
@@ -13711,7 +13711,7 @@ end program test_sqrt
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type
@tab Standard
+@headitem Name @tab Argument @tab Return type
@tab Standard
@item @code{SQRT(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)}
@tab Fortran 77 and later
@item @code{DSQRT(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)}
@tab Fortran 77 and later
@item @code{CSQRT(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)}
@tab Fortran 77 and later
@@ -14162,7 +14162,7 @@ end program test_tan
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{TAN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran
77 and later
@item @code{DTAN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran
77 and later
@end multitable
@@ -14217,7 +14217,7 @@ end program test_tand
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{TAND(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab GNU
extension
@item @code{DTAND(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU
extension
@end multitable
@@ -14273,7 +14273,7 @@ end program test_tanh
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab
Standard
+@headitem Name @tab Argument @tab Return type @tab
Standard
@item @code{TANH(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab
Fortran 77 and later
@item @code{DTANH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab
Fortran 77 and later
@end multitable
@@ -15197,7 +15197,7 @@ Furthermore, if @code{__float128} is supported in C,
the named constants
@code{C_FLOAT128, C_FLOAT128_COMPLEX} are defined.
@multitable @columnfractions .15 .35 .35 .35
-@item Fortran Type @tab Named constant @tab C type
@tab Extension
+@headitem Fortran Type @tab Named constant @tab C type
@tab Extension
@item @code{INTEGER}@tab @code{C_INT} @tab @code{int}
@item @code{INTEGER}@tab @code{C_SHORT} @tab @code{short int}
@item @code{INTEGER}@tab @code{C_LONG} @tab @code{long int}
@@ -15238,7 +15238,7 @@ Additionally, the following parameters of type
@code{CHARACTER(KIND=C_CHAR)}
are defined.
@multitable @columnfractions .20 .45 .15
-@item Name @tab C definition @tab Value
+@headitem Name @tab C definition @tab Value
@item @code{C_NULL_CHAR} @tab null character @tab @code{'\0'}
@item @code{C_ALERT} @tab alert @tab @code{'\a'}
@item @code{C_BACKSPACE} @tab backspace @tab @code{'\b'}
@@ -15252,7 +15252,7 @@ are defined.
Moreover, the following two named constants are defined:
@multitable @columnfractions .20 .80
-@item Name @tab Type
+@headitem Name @tab Type
@item @code{C_NULL_PTR} @tab @code{C_PTR}
@item @code{C_NULL_FUNPTR} @tab @code{C_FUNPTR}
@end multitable
--
2.31.1
