penf_global_parameters_variables.F90 Source File


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Source Code

!< PENF global parameters and variables.

module penf_global_parameters_variables
!< PENF global parameters and variables.
!<
!< @note All module defined entities are public.

implicit none
public
save

integer, parameter :: endianL = 1 !< Little endian parameter.
integer, parameter :: endianB = 0 !< Big endian parameter.

! portable kind parameters
#ifdef _ASCII_SUPPORTED
integer, parameter :: ASCII = selected_char_kind('ascii')     !< ASCII character set kind.
#else
integer, parameter :: ASCII = selected_char_kind('default')   !< ASCII character set kind defined as default set.
#endif
#ifdef _UCS4_SUPPORTED
integer, parameter :: UCS4  = selected_char_kind('iso_10646') !< Unicode character set kind.
#else
integer, parameter :: UCS4  = selected_char_kind('default')   !< Unicode character set kind defined as default set.
#endif
#if defined _CK_IS_DEFAULT
integer, parameter :: CK  = selected_char_kind('default')     !< Default kind character.
#elif defined _CK_IS_ASCII
integer, parameter :: CK  = ASCII                             !< Default kind character.
#elif defined _CK_IS_UCS4
integer, parameter :: CK  = UCS4                              !< Default kind character.
#else
integer, parameter :: CK  = selected_char_kind('default')     !< Default kind character.
#endif

#if defined _R16P
integer, parameter :: R16P = selected_real_kind(33,4931) !< 33 digits, range \([10^{-4931}, 10^{+4931} - 1]\); 128 bits.
#else
integer, parameter :: R16P = selected_real_kind(15,307)  !< 15 digits, range \([10^{-307} , 10^{+307}  - 1]\); 64 bits.
#endif
integer, parameter :: R8P  = selected_real_kind(15,307)  !< 15 digits, range \([10^{-307} , 10^{+307}  - 1]\); 64 bits.
integer, parameter :: R4P  = selected_real_kind(6,37)    !< 6  digits, range \([10^{-37}  , 10^{+37}   - 1]\); 32 bits.
#if defined _R16P
#if defined _R_P_IS_R16P
integer, parameter :: R_P  = R16P                        !< Default real precision.
#endif
#endif
#if defined _R_P_IS_R8P
integer, parameter :: R_P  = R8P                         !< Default real precision.
#elif defined _R_P_IS_R4P
integer, parameter :: R_P  = R4P                         !< Default real precision.
#else
integer, parameter :: R_P  = R8P                         !< Default real precision.
#endif

integer, parameter :: I8P = selected_int_kind(18) !< Range \([-2^{63},+2^{63} - 1]\), 19 digits plus sign; 64 bits.
integer, parameter :: I4P = selected_int_kind(9)  !< Range \([-2^{31},+2^{31} - 1]\), 10 digits plus sign; 32 bits.
integer, parameter :: I2P = selected_int_kind(4)  !< Range \([-2^{15},+2^{15} - 1]\), 5  digits plus sign; 16 bits.
integer, parameter :: I1P = selected_int_kind(2)  !< Range \([-2^{7} ,+2^{7}  - 1]\), 3  digits plus sign; 8  bits.
integer, parameter :: I_P = I4P                   !< Default integer precision.

! format parameters
#if defined _R16P
character(*), parameter :: FR16P = '(E42.33E4)' !< Output format for kind=R16P real.
#else
character(*), parameter :: FR16P = '(E23.15E3)' !< Output format for kind=R8P real.
#endif
character(*), parameter :: FR8P  = '(E23.15E3)' !< Output format for kind=R8P real.
character(*), parameter :: FR4P  = '(E13.6E2)'  !< Output format for kind=R4P real.
#if defined _R16P
#if defined _R_P_IS_R16P
character(*), parameter :: FR_P  = FR16P        !< Output format for kind=R_P real.
#endif
#endif
#if defined _R_P_IS_R8P
character(*), parameter :: FR_P  = FR8P         !< Output format for kind=R_P real.
#elif defined _R_P_IS_R4P
character(*), parameter :: FR_P  = FR4P         !< Output format for kind=R_P real.
#else
character(*), parameter :: FR_P  = FR8P         !< Output format for kind=R_P real.
#endif

character(*), parameter :: FI8P   = '(I20)'    !< Output format for kind=I8P integer.
character(*), parameter :: FI8PZP = '(I20.19)' !< Output format for kind=I8P integer with zero prefixing.
character(*), parameter :: FI4P   = '(I11)'    !< Output format for kind=I4P integer.
character(*), parameter :: FI4PZP = '(I11.10)' !< Output format for kind=I4P integer with zero prefixing.
character(*), parameter :: FI2P   = '(I6)'     !< Output format for kind=I2P integer.
character(*), parameter :: FI2PZP = '(I6.5)'   !< Output format for kind=I2P integer with zero prefixing.
character(*), parameter :: FI1P   = '(I4)'     !< Output format for kind=I1P integer.
character(*), parameter :: FI1PZP = '(I4.3)'   !< Output format for kind=I1P integer with zero prefixing.
character(*), parameter :: FI_P   = FI4P       !< Output format for kind=I_P integer.
character(*), parameter :: FI_PZP = FI4PZP     !< Output format for kind=I_P integer with zero prefixing.

! length (number of digits) of formatted numbers
#if defined _R16P
integer, parameter :: DR16P = 42    !< Number of digits of output format FR16P.
#else
integer, parameter :: DR16P = 23    !< Number of digits of output format FR8P.
#endif
integer, parameter :: DR8P  = 23    !< Number of digits of output format FR8P.
integer, parameter :: DR4P  = 13    !< Number of digits of output format FR4P.
#if defined _R16P
#if defined _R_P_IS_R16P
integer, parameter :: DR_P  = DR16P !< Number of digits of output format FR_P.
#endif
#endif
#if defined _R_P_IS_R8P
integer, parameter :: DR_P  = DR8P  !< Number of digits of output format FR_P.
#elif defined _R_P_IS_R4P
integer, parameter :: DR_P  = DR4P  !< Number of digits of output format FR_P.
#else
integer, parameter :: DR_P  = DR8P  !< Number of digits of output format FR_P.
#endif

integer, parameter :: DI8P  = 20   !< Number of digits of output format I8P.
integer, parameter :: DI4P  = 11   !< Number of digits of output format I4P.
integer, parameter :: DI2P  = 6    !< Number of digits of output format I2P.
integer, parameter :: DI1P  = 4    !< Number of digits of output format I1P.
integer, parameter :: DI_P  = DI4P !< Number of digits of output format I_P.

! list of kinds
integer,      parameter :: CHARACTER_KINDS_LIST(1:3) = [ASCII, UCS4, CK]                        !< List of character kinds.
#if defined _R16P
integer,      parameter :: REAL_KINDS_LIST(1:4)      = [R16P, R8P, R4P, R_P]                    !< List of real kinds.
#else
integer,      parameter :: REAL_KINDS_LIST(1:3)      = [R8P, R4P, R_P]                    !< List of real kinds.
#endif
#if defined _R16P
character(*), parameter :: REAL_FORMATS_LIST(1:4)    = [FR16P, FR8P, FR4P//' ', FR_P]           !< List of real formats.
#else
character(*), parameter :: REAL_FORMATS_LIST(1:3)    = [FR8P, FR4P//' ', FR_P]           !< List of real formats.
#endif
integer,      parameter :: INTEGER_KINDS_LIST(1:5)   = [I8P, I4P, I2P, I1P,I_P]                 !< List of integer kinds.
character(*), parameter :: INTEGER_FORMATS_LIST(1:5) = [FI8P, FI4P, FI2P//' ', FI1P//' ', FI_P] !< List of integer formats.

! minimum and maximum (representable) values
#if defined _R16P
real(R16P),   parameter :: MinR16P = -huge(1._R16P) !< Minimum value of kind=R16P real.
real(R16P),   parameter :: MaxR16P =  huge(1._R16P) !< Maximum value of kind=R16P real.
#else
real(R8P),    parameter :: MinR16P = -huge(1._R8P ) !< Minimum value of kind=R8P real.
real(R8P),    parameter :: MaxR16P =  huge(1._R8P ) !< Maximum value of kind=R8P real.
#endif
real(R8P),    parameter :: MinR8P  = -huge(1._R8P ) !< Minimum value of kind=R8P real.
real(R8P),    parameter :: MaxR8P  =  huge(1._R8P ) !< Maximum value of kind=R8P real.
real(R4P),    parameter :: MinR4P  = -huge(1._R4P ) !< Minimum value of kind=R4P real.
real(R4P),    parameter :: MaxR4P  =  huge(1._R4P ) !< Maximum value of kind=R4P real.
real(R_P),    parameter :: MinR_P  = -huge(1._R_P ) !< Minimum value of kind=R_P real.
real(R_P),    parameter :: MaxR_P  =  huge(1._R_P ) !< Maximum value of kind=R_P real.
integer(I8P), parameter :: MinI8P  = -huge(1_I8P)   !< Minimum value of kind=I8P integer.
integer(I4P), parameter :: MinI4P  = -huge(1_I4P)   !< Minimum value of kind=I4P integer.
integer(I2P), parameter :: MinI2P  = -huge(1_I2P)   !< Minimum value of kind=I2P integer.
integer(I1P), parameter :: MinI1P  = -huge(1_I1P)   !< Minimum value of kind=I1P integer.
integer(I_P), parameter :: MinI_P  = -huge(1_I_P)   !< Minimum value of kind=I_P integer.
integer(I8P), parameter :: MaxI8P  =  huge(1_I8P)   !< Maximum value of kind=I8P integer.
integer(I4P), parameter :: MaxI4P  =  huge(1_I4P)   !< Maximum value of kind=I4P integer.
integer(I2P), parameter :: MaxI2P  =  huge(1_I2P)   !< Maximum value of kind=I2P integer.
integer(I1P), parameter :: MaxI1P  =  huge(1_I1P)   !< Maximum value of kind=I1P integer.
integer(I_P), parameter :: MaxI_P  =  huge(1_I_P)   !< Maximum value of kind=I_P integer.

! real smallest (representable) values
#if defined _R16P
real(R16P), parameter :: smallR16P = tiny(1._R16P) !< Smallest representable value of kind=R16P real.
#else
real(R8P),  parameter :: smallR16P = tiny(1._R8P ) !< Smallest representable value of kind=R8P real.
#endif
real(R8P),  parameter :: smallR8P  = tiny(1._R8P ) !< Smallest representable value of kind=R8P real.
real(R4P),  parameter :: smallR4P  = tiny(1._R4P ) !< Smallest representable value of kind=R4P real.
real(R_P),  parameter :: smallR_P  = tiny(1._R_P ) !< Smallest representable value of kind=R_P real.

! smallest real representable difference by the running calculator
#if defined _R16P
real(R16P), parameter :: ZeroR16P = nearest(1._R16P, 1._R16P) - &
                                    nearest(1._R16P,-1._R16P) !< Smallest representable difference of kind=R16P real.
#else
real(R8P),  parameter :: ZeroR16P = 0._R8P !nearest(1._R8P, 1._R8P) - &
                                    !nearest(1._R8P,-1._R8P)   !< Smallest representable difference of kind=R8P real.
#endif
real(R8P),  parameter :: ZeroR8P  = 0._R8P !nearest(1._R8P, 1._R8P) - &
                                    !nearest(1._R8P,-1._R8P)   !< Smallest representable difference of kind=R8P real.
real(R4P),  parameter :: ZeroR4P  = 0._R4P !nearest(1._R4P, 1._R4P) - &
                                    !nearest(1._R4P,-1._R4P)   !< Smallest representable difference of kind=R4P real.
real(R_P),  parameter :: ZeroR_P  = 0._R_P !nearest(1._R_P, 1._R_P) - &
                                    !nearest(1._R_P,-1._R_P)   !< Smallest representable difference of kind=R_P real.

! bits/bytes memory requirements
#if defined _R16P
integer(I2P), parameter :: BIR16P = storage_size(MaxR16P)      !< Number of bits of kind=R16P real.
#else
integer(I1P), parameter :: BIR16P = storage_size(MaxR8P)       !< Number of bits of kind=R8P real.
#endif
integer(I1P), parameter :: BIR8P  = storage_size(MaxR8P)       !< Number of bits of kind=R8P real.
integer(I1P), parameter :: BIR4P  = storage_size(MaxR4P)       !< Number of bits of kind=R4P real.
integer(I1P), parameter :: BIR_P  = storage_size(MaxR_P)       !< Number of bits of kind=R_P real.
#if defined _R16P
integer(I2P), parameter :: BYR16P = BIR16P/8_I2P               !< Number of bytes of kind=R16P real.
#else
integer(I1P), parameter :: BYR16P = BIR8P/8_I1P                !< Number of bytes of kind=R8P real.
#endif
integer(I1P), parameter :: BYR8P  = BIR8P/8_I1P                !< Number of bytes of kind=R8P real.
integer(I1P), parameter :: BYR4P  = BIR4P/8_I1P                !< Number of bytes of kind=R4P real.
integer(I1P), parameter :: BYR_P  = BIR_P/8_I1P                !< Number of bytes of kind=R_P real.
integer(I8P), parameter :: BII8P  = storage_size(MaxI8P)       !< Number of bits of kind=I8P integer.
integer(I4P), parameter :: BII4P  = storage_size(MaxI4P)       !< Number of bits of kind=I4P integer.
integer(I2P), parameter :: BII2P  = storage_size(MaxI2P)       !< Number of bits of kind=I2P integer.
integer(I1P), parameter :: BII1P  = storage_size(MaxI1P)       !< Number of bits of kind=I1P integer.
integer(I_P), parameter :: BII_P  = storage_size(MaxI_P)       !< Number of bits of kind=I_P integer.
integer(I8P), parameter :: BYI8P  = BII8P/8_I8P                !< Number of bytes of kind=I8P integer.
integer(I4P), parameter :: BYI4P  = BII4P/8_I4P                !< Number of bytes of kind=I4P integer.
integer(I2P), parameter :: BYI2P  = BII2P/8_I2P                !< Number of bytes of kind=I2P integer.
integer(I1P), parameter :: BYI1P  = BII1P/8_I1P                !< Number of bytes of kind=I1P integer.
integer(I_P), parameter :: BYI_P  = BII_P/8_I_P                !< Number of bytes of kind=I_P integer.
endmodule penf_global_parameters_variables