DAMASK_EICMD/src/prec.f90

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!--------------------------------------------------------------------------------------------------
!> @author Franz Roters, Max-Planck-Institut für Eisenforschung GmbH
!> @author Philip Eisenlohr, Max-Planck-Institut für Eisenforschung GmbH
!> @author Christoph Kords, Max-Planck-Institut für Eisenforschung GmbH
!> @author Martin Diehl, Max-Planck-Institut für Eisenforschung GmbH
!> @author Luv Sharma, Max-Planck-Institut für Eisenforschung GmbH
!> @brief setting precision for real and int type
!--------------------------------------------------------------------------------------------------
module prec
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! ToDo: use, intrinsic :: iso_fortran_env, only : I8 => int64, WP => real64
implicit none
private
#if (FLOAT==8)
integer, parameter, public :: pReal = 8 !< floating point double precision (was selected_real_kind(15,300), number with 15 significant digits, up to 1e+-300)
#else
NO SUITABLE PRECISION FOR REAL SELECTED, STOPPING COMPILATION
#endif
#if (INT==4)
integer, parameter, public :: pInt = 4 !< integer representation 32 bit (was selected_int_kind(9), number with at least up to +- 1e9)
#elif (INT==8)
integer, parameter, public :: pInt = 8 !< integer representation 64 bit (was selected_int_kind(12), number with at least up to +- 1e12)
#else
NO SUITABLE PRECISION FOR INTEGER SELECTED, STOPPING COMPILATION
#endif
integer, parameter, public :: pStringLen = 256 !< default string lenth
integer, parameter, public :: pLongInt = 8 !< integer representation 64 bit (was selected_int_kind(12), number with at least up to +- 1e12)
real(pReal), parameter, public :: tol_math_check = 1.0e-8_pReal !< tolerance for internal math self-checks (rotation)
integer(pInt), allocatable, dimension(:) :: realloc_lhs_test
type, public :: group_float !< variable length datatype used for storage of state
real(pReal), dimension(:), pointer :: p
end type group_float
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type, public :: group_int
integer(pInt), dimension(:), pointer :: p
end type group_int
!http://stackoverflow.com/questions/3948210/can-i-have-a-pointer-to-an-item-in-an-allocatable-array
type, public :: tState
integer(pInt) :: &
sizeState = 0_pInt, & !< size of state
sizeDotState = 0_pInt, & !< size of dot state, i.e. state(1:sizeDot) follows time evolution by dotState rates
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offsetDeltaState = 0_pInt, & !< index offset of delta state
sizeDeltaState = 0_pInt, & !< size of delta state, i.e. state(offset+1:offset+sizeDelta) follows time evolution by deltaState increments
sizePostResults = 0_pInt !< size of output data
real(pReal), pointer, dimension(:), contiguous :: &
atolState
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real(pReal), pointer, dimension(:,:), contiguous :: & ! a pointer is needed here because we might point to state/doState. However, they will never point to something, but are rather allocated and, hence, contiguous
state0, &
state, & !< state
dotState, & !< rate of state change
deltaState !< increment of state change
real(pReal), allocatable, dimension(:,:) :: &
partionedState0, &
subState0, &
previousDotState, & !< state rate of previous xxxx
previousDotState2, & !< state rate two xxxx ago
RK4dotState
real(pReal), allocatable, dimension(:,:,:) :: &
RKCK45dotState
end type
type, extends(tState), public :: tPlasticState
integer(pInt) :: &
nSlip = 0_pInt , &
nTwin = 0_pInt, &
nTrans = 0_pInt
logical :: &
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nonlocal = .false.
real(pReal), pointer, dimension(:,:) :: &
slipRate, & !< slip rate
accumulatedSlip !< accumulated plastic slip
end type
type, public :: tSourceState
type(tState), dimension(:), allocatable :: p !< tState for each active source mechanism in a phase
end type
type, public :: tHomogMapping
integer(pInt), pointer, dimension(:,:) :: p
end type
type, public :: tPhaseMapping
integer(pInt), pointer, dimension(:,:,:) :: p
end type
public :: &
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prec_init, &
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dEq, &
dEq0, &
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cEq, &
dNeq, &
dNeq0, &
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cNeq
contains
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!--------------------------------------------------------------------------------------------------
!> @brief reporting precision
!--------------------------------------------------------------------------------------------------
subroutine prec_init
#if defined(__GFORTRAN__) || __INTEL_COMPILER >= 1800
use, intrinsic :: iso_fortran_env, only: &
compiler_version, &
compiler_options
#endif
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implicit none
external :: &
quit
write(6,'(/,a)') ' <<<+- prec init -+>>>'
#include "compilation_info.f90"
write(6,'(a,i3)') ' Bytes for pReal: ',pReal
write(6,'(a,i3)') ' Bytes for pInt: ',pInt
write(6,'(a,i3)') ' Bytes for pLongInt: ',pLongInt
realloc_lhs_test = [1_pInt,2_pInt]
if (realloc_lhs_test(2)/=2_pInt) call quit(9000)
end subroutine prec_init
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!--------------------------------------------------------------------------------------------------
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!> @brief equality comparison for float with double precision
! replaces "==" but for certain (relative) tolerance. Counterpart to dNeq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
! AlmostEqualRelative
!--------------------------------------------------------------------------------------------------
logical elemental pure function dEq(a,b,tol)
implicit none
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real(pReal), intent(in) :: a,b
real(pReal), intent(in), optional :: tol
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real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C
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dEq = merge(.True.,.False.,abs(a-b) <= merge(tol,eps,present(tol))*maxval(abs([a,b])))
end function dEq
!--------------------------------------------------------------------------------------------------
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!> @brief inequality comparison for float with double precision
! replaces "!=" but for certain (relative) tolerance. Counterpart to dEq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
! AlmostEqualRelative NOT
!--------------------------------------------------------------------------------------------------
logical elemental pure function dNeq(a,b,tol)
implicit none
real(pReal), intent(in) :: a,b
real(pReal), intent(in), optional :: tol
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real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C
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dNeq = merge(.False.,.True.,abs(a-b) <= merge(tol,eps,present(tol))*maxval(abs([a,b])))
end function dNeq
!--------------------------------------------------------------------------------------------------
!> @brief equality to 0 comparison for float with double precision
! replaces "==0" but everything not representable as a normal number is treated as 0. Counterpart to dNeq0
! https://de.mathworks.com/help/matlab/ref/realmin.html
! https://docs.oracle.com/cd/E19957-01/806-3568/ncg_math.html
!--------------------------------------------------------------------------------------------------
logical elemental pure function dEq0(a,tol)
implicit none
real(pReal), intent(in) :: a
real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.2250738585072014E-308 ! smallest non-denormalized number
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dEq0 = merge(.True.,.False.,abs(a) <= merge(tol,eps,present(tol)))
end function dEq0
!--------------------------------------------------------------------------------------------------
!> @brief inequality to 0 comparison for float with double precision
! replaces "!=0" but everything not representable as a normal number is treated as 0. Counterpart to dEq0
! https://de.mathworks.com/help/matlab/ref/realmin.html
! https://docs.oracle.com/cd/E19957-01/806-3568/ncg_math.html
!--------------------------------------------------------------------------------------------------
logical elemental pure function dNeq0(a,tol)
implicit none
real(pReal), intent(in) :: a
real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.2250738585072014E-308 ! smallest non-denormalized number
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dNeq0 = merge(.False.,.True.,abs(a) <= merge(tol,eps,present(tol)))
end function dNeq0
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!--------------------------------------------------------------------------------------------------
!> @brief equality comparison for complex with double precision
! replaces "==" but for certain (relative) tolerance. Counterpart to cNeq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
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! probably a component wise comparison would be more accurate than the comparsion of the absolute
! value
!--------------------------------------------------------------------------------------------------
logical elemental pure function cEq(a,b,tol)
implicit none
complex(pReal), intent(in) :: a,b
real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C
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cEq = merge(.True.,.False.,abs(a-b) <= merge(tol,eps,present(tol))*maxval(abs([a,b])))
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end function cEq
!--------------------------------------------------------------------------------------------------
!> @brief inequality comparison for complex with double precision
! replaces "!=" but for certain (relative) tolerance. Counterpart to cEq
! https://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/
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! probably a component wise comparison would be more accurate than the comparsion of the absolute
! value
!--------------------------------------------------------------------------------------------------
logical elemental pure function cNeq(a,b,tol)
implicit none
complex(pReal), intent(in) :: a,b
real(pReal), intent(in), optional :: tol
real(pReal), parameter :: eps = 2.220446049250313E-16 ! DBL_EPSILON in C
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cNeq = merge(.False.,.True.,abs(a-b) <= merge(tol,eps,present(tol))*maxval(abs([a,b])))
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end function cNeq
end module prec