@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
-@item @code{CABS(A)} @tab @code{COMPLEX(4) Z} @tab @code{REAL(4)} @tab Fortran 77 and later
-@item @code{DABS(A)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 77 and later
-@item @code{IABS(A)} @tab @code{INTEGER(4) I} @tab @code{INTEGER(4)} @tab Fortran 77 and later
-@item @code{ZABS(A)} @tab @code{COMPLEX(8) Z} @tab @code{COMPLEX(8)} @tab GNU extension
-@item @code{CDABS(A)} @tab @code{COMPLEX(8) Z} @tab @code{COMPLEX(8)} @tab GNU extension
+@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
+@item @code{IABS(A)} @tab @code{INTEGER(4) A} @tab @code{INTEGER(4)} @tab Fortran 77 and later
+@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
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DACOS(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 77 and later
+@item 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
@item @emph{See also}:
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@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
-@item @code{IMAGPART(Z)} @tab @code{COMPLEX Z} @tab @code{REAL} @tab GNU extension
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{AIMAG(Z)} @tab @code{COMPLEX Z} @tab @code{REAL} @tab GNU extension
+@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
+@item @code{IMAGPART(Z)} @tab @code{COMPLEX Z} @tab @code{REAL} @tab GNU extension
@end multitable
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DINT(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 77 and later
+@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
@end table
@table @asis
@item @emph{Description}:
-@code{ALLOCATED(ARRAY)} checks the status of whether @var{X} is allocated.
+@code{ALLOCATED(ARRAY)} and @code{ALLOCATED(SCALAR)} check the allocation
+status of @var{ARRAY} and @var{SCALAR}, respectively.
@item @emph{Standard}:
-Fortran 95 and later
+Fortran 95 and later. Note, the @code{SCALAR=} keyword and allocatable
+scalar entities are available in Fortran 2003 and later.
@item @emph{Class}:
Inquiry function
@item @emph{Syntax}:
-@code{RESULT = ALLOCATED(ARRAY)}
+@code{RESULT = ALLOCATED(ARRAY)} or @code{RESULT = ALLOCATED(SCALAR)}
@item @emph{Arguments}:
@multitable @columnfractions .15 .70
@item @var{ARRAY} @tab The argument shall be an @code{ALLOCATABLE} array.
+@item @var{SCALAR} @tab The argument shall be an @code{ALLOCATABLE} scalar.
@end multitable
@item @emph{Return value}:
The return value is a scalar @code{LOGICAL} with the default logical
-kind type parameter. If @var{ARRAY} is allocated, @code{ALLOCATED(ARRAY)}
-is @code{.TRUE.}; otherwise, it returns @code{.FALSE.}
+kind type parameter. If the argument is allocated, then the result is
+@code{.TRUE.}; otherwise, it returns @code{.FALSE.}
@item @emph{Example}:
@smallexample
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item 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{DNINT(A)} @tab @code{REAL(8) A} @tab @code{REAL(8)} @tab Fortran 77 and later
@end multitable
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item 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
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item 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
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DATAN2(X, Y)} @tab @code{REAL(8) X}, @code{REAL(8) Y} @tab @code{REAL(8)} @tab Fortran 77 and later
+@item 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
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DBESJ1(X)}@tab @code{REAL(8) X} @tab @code{REAL(8)} @tab GNU extension
+@item 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
@multitable @columnfractions .20 .20 .20 .25
@item 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
+@item @tab @code{REAL(8) X} @tab @tab
@end multitable
@end table
end program test_char
@end smallexample
+@item @emph{Specific names}:
+@multitable @columnfractions .20 .20 .20 .25
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{CHAR(I)} @tab @code{INTEGER I} @tab @code{CHARACTER(LEN=1)} @tab F77 and later
+@end multitable
+
@item @emph{Note}:
See @ref{ICHAR} for a discussion of converting between numerical values
and formatted string representations.
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DCONJG(Z)} @tab @code{COMPLEX(8) Z} @tab @code{COMPLEX(8)} @tab GNU extension
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{CONJG(Z)} @tab @code{COMPLEX Z} @tab @code{COMPLEX} @tab GNU extension
+@item @code{DCONJG(Z)} @tab @code{COMPLEX(8) Z} @tab @code{COMPLEX(8)} @tab GNU extension
@end multitable
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
+@item @code{COS(X)} n@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
@item @code{ZCOS(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab GNU extension
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item 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
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@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
+@item 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
@end multitable
@end table
print *, d
end program test_dprod
@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{DPROD(X,Y)} @tab @code{REAL(4) X, Y} @tab @code{REAL(4)} @tab Fortran 77 and later
+@end multitable
+
+@end table
@node DREAL
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item 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
@item @code{ZEXP(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab GNU extension
end program test_ichar
@end smallexample
+@item @emph{Specific names}:
+@multitable @columnfractions .20 .20 .20 .25
+@item 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
+
@item @emph{Note}:
No intrinsic exists to convert between a numeric value and a formatted
character string representation -- for instance, given the
The return value is of type @code{INTEGER} and of kind @var{KIND}. If
@var{KIND} is absent, the return value is of default integer kind.
+@item @emph{Specific names}:
+@multitable @columnfractions .20 .20 .20 .25
+@item 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
+
@item @emph{See also}:
@ref{SCAN}, @ref{VERIFY}
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@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
+@item 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
@end multitable
@end table
-
@node INT2
@section @code{INT2} --- Convert to 16-bit integer type
@fnindex INT2
The return value is of type @code{INTEGER} and of kind @var{KIND}. If
@var{KIND} is absent, the return value is of default integer kind.
+
+@item @emph{Specific names}:
+@multitable @columnfractions .20 .20 .20 .25
+@item 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
+
+
@item @emph{See also}:
@ref{LEN_TRIM}, @ref{ADJUSTL}, @ref{ADJUSTR}
@end table
Returns @code{.TRUE.} if @code{STRING_A >= STRING_B}, and @code{.FALSE.}
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
+@item @code{LGE(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab @code{LOGICAL} @tab Fortran 77 and later
+@end multitable
+
@item @emph{See also}:
@ref{LGT}, @ref{LLE}, @ref{LLT}
@end table
Returns @code{.TRUE.} if @code{STRING_A > STRING_B}, and @code{.FALSE.}
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
+@item @code{LGT(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab @code{LOGICAL} @tab Fortran 77 and later
+@end multitable
+
@item @emph{See also}:
@ref{LGE}, @ref{LLE}, @ref{LLT}
@end table
Returns @code{.TRUE.} if @code{STRING_A <= STRING_B}, and @code{.FALSE.}
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
+@item @code{LLE(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab @code{LOGICAL} @tab Fortran 77 and later
+@end multitable
+
@item @emph{See also}:
@ref{LGE}, @ref{LGT}, @ref{LLT}
@end table
Returns @code{.TRUE.} if @code{STRING_A < STRING_B}, and @code{.FALSE.}
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
+@item @code{LLT(STRING_A, STRING_B)} @tab @code{CHARACTER} @tab @code{LOGICAL} @tab Fortran 77 and later
+@end multitable
+
@item @emph{See also}:
@ref{LGE}, @ref{LGT}, @ref{LLE}
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{MAX0(I)} @tab @code{INTEGER(4) I} @tab @code{INTEGER(4)} @tab Fortran 77 and later
-@item @code{AMAX0(I)} @tab @code{INTEGER(4) I} @tab @code{REAL(MAX(X))} @tab Fortran 77 and later
-@item @code{MAX1(X)} @tab @code{REAL X} @tab @code{INT(MAX(X))} @tab Fortran 77 and later
-@item @code{AMAX1(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 77 and later
-@item @code{DMAX1(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 77 and later
+@item 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
+@item @code{AMAX1(A1)} @tab @code{REAL(4) A1} @tab @code{REAL(4)} @tab Fortran 77 and later
+@item @code{DMAX1(A1)} @tab @code{REAL(8) A1} @tab @code{REAL(8)} @tab Fortran 77 and later
@end multitable
@item @emph{See also}:
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{MIN0(I)} @tab @code{INTEGER(4) I} @tab @code{INTEGER(4)} @tab Fortran 77 and later
-@item @code{AMIN0(I)} @tab @code{INTEGER(4) I} @tab @code{REAL(MIN(X))} @tab Fortran 77 and later
-@item @code{MIN1(X)} @tab @code{REAL X} @tab @code{INT(MIN(X))} @tab Fortran 77 and later
-@item @code{AMIN1(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 77 and later
-@item @code{DMIN1(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 77 and later
+@item 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
+@item @code{AMIN1(A1)} @tab @code{REAL(4) A1} @tab @code{REAL(4)} @tab Fortran 77 and later
+@item @code{DMIN1(A1)} @tab @code{REAL(8) A1} @tab @code{REAL(8)} @tab Fortran 77 and later
@end multitable
@item @emph{See also}:
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Arguments @tab Return type @tab Standard
-@item @code{AMOD(A,P)} @tab @code{REAL(4)} @tab @code{REAL(4)} @tab Fortran 95 and later
-@item @code{DMOD(A,P)} @tab @code{REAL(8)} @tab @code{REAL(8)} @tab Fortran 95 and later
+@item Name @tab Arguments @tab Return type @tab Standard
+@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
@end multitable
@end table
@end smallexample
@item @emph{Specific names}:
-@multitable @columnfractions .25 .25 .25
-@item Name @tab Argument @tab Standard
-@item @code{IDNINT(X)} @tab @code{REAL(8)} @tab Fortran 95 and later
+@multitable @columnfractions .20 .20 .20 .25
+@item Name @tab Argument @tab Return Type @tab Standard
+@item @code{NINT(A)} @tab @code{REAL(4) A} @tab @code{INTEGER} @tab Fortran 95 and later
+@item @code{IDNINT(A)} @tab @code{REAL(8) A} @tab @code{INTEGER} @tab Fortran 95 and later
@end multitable
@item @emph{See also}:
end program test_real
@end smallexample
+@item @emph{Specific names}:
+@multitable @columnfractions .20 .20 .20 .25
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{REAL(A)} @tab @code{INTEGER(4)} @tab @code{REAL(4)} @tab Fortran 77 and later
+@end multitable
+
+
@item @emph{See also}:
@ref{DBLE}, @ref{DFLOAT}, @ref{FLOAT}
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Arguments @tab Return type @tab Standard
-@item @code{ISIGN(A,P)} @tab @code{INTEGER(4)} @tab @code{INTEGER(4)} @tab f95, gnu
-@item @code{DSIGN(A,P)} @tab @code{REAL(8)} @tab @code{REAL(8)} @tab f95, gnu
+@item Name @tab Arguments @tab Return type @tab Standard
+@item @code{SIGN(A,B)} @tab @code{REAL(4) A, B} @tab @code{REAL(4)} @tab f77, gnu
+@item @code{ISIGN(A,B)} @tab @code{INTEGER(4) A, B} @tab @code{INTEGER(4)} @tab f77, gnu
+@item @code{DSIGN(A,B)} @tab @code{REAL(8) A, B} @tab @code{REAL(8)} @tab f77, gnu
@end multitable
@end table
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DSIN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab f95, gnu
-@item @code{CSIN(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab f95, gnu
-@item @code{ZSIN(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab f95, gnu
-@item @code{CDSIN(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab f95, gnu
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{SIN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab f77, gnu
+@item @code{DSIN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab f95, gnu
+@item @code{CSIN(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab f95, gnu
+@item @code{ZSIN(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab f95, gnu
+@item @code{CDSIN(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab f95, gnu
@end multitable
@item @emph{See also}:
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
+@item @code{SINH(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 95 and later
@item @code{DSINH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 95 and later
@end multitable
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
+@item @code{SQRT(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 95 and later
@item @code{DSQRT(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 95 and later
@item @code{CSQRT(X)} @tab @code{COMPLEX(4) X} @tab @code{COMPLEX(4)} @tab Fortran 95 and later
@item @code{ZSQRT(X)} @tab @code{COMPLEX(8) X} @tab @code{COMPLEX(8)} @tab GNU extension
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
-@item Name @tab Argument @tab Return type @tab Standard
-@item @code{DTAN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 95 and later
+@item Name @tab Argument @tab Return type @tab Standard
+@item @code{TAN(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 95 and later
+@item @code{DTAN(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 95 and later
@end multitable
@item @emph{See also}:
@item @emph{Specific names}:
@multitable @columnfractions .20 .20 .20 .25
@item Name @tab Argument @tab Return type @tab Standard
+@item @code{TANH(X)} @tab @code{REAL(4) X} @tab @code{REAL(4)} @tab Fortran 95 and later
@item @code{DTANH(X)} @tab @code{REAL(8) X} @tab @code{REAL(8)} @tab Fortran 95 and later
@end multitable