DAMASK_EICMD/src/polynomials.f90

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!--------------------------------------------------------------------------------------------------
!> @author Martin Diehl, KU Leuven
!> @brief Polynomial representation for variable data
!--------------------------------------------------------------------------------------------------
module polynomials
use prec
use IO
use YAML_parse
use YAML_types
implicit none
private
type, public :: tPolynomial
real(pReal), dimension(:), allocatable :: coef
real(pReal) :: x_ref = huge(0.0_pReal)
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contains
procedure, public :: at => eval
end type tPolynomial
interface polynomial
module procedure polynomial_from_dict
module procedure polynomial_from_coef
end interface polynomial
public :: &
polynomial, &
polynomials_init
contains
!--------------------------------------------------------------------------------------------------
!> @brief Run self-test.
!--------------------------------------------------------------------------------------------------
subroutine polynomials_init()
print'(/,1x,a)', '<<<+- polynomials init -+>>>'; flush(IO_STDOUT)
call selfTest()
end subroutine polynomials_init
!--------------------------------------------------------------------------------------------------
!> @brief Initialize a Polynomial from Coefficients.
!--------------------------------------------------------------------------------------------------
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pure function polynomial_from_coef(coef,x_ref) result(p)
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real(pReal), dimension(0:), intent(in) :: coef
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real(pReal), intent(in) :: x_ref
type(tPolynomial) :: p
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p%coef = coef
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p%x_ref = x_ref
end function polynomial_from_coef
!--------------------------------------------------------------------------------------------------
!> @brief Initialize a Polynomial from a Dictionary with Coefficients.
!--------------------------------------------------------------------------------------------------
function polynomial_from_dict(dict,y,x) result(p)
type(tDict), intent(in) :: dict
character(len=*), intent(in) :: y, x
type(tPolynomial) :: p
real(pReal), dimension(:), allocatable :: coef
real(pReal) :: x_ref
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integer :: i, o
character(len=1) :: o_s
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allocate(coef(1),source=dict%get_asFloat(y))
if (dict%contains(y//','//x)) then
x_ref = dict%get_asFloat(x//'_ref')
coef = [coef,dict%get_asFloat(y//','//x)]
end if
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do o = 2,4
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write(o_s,'(I0.0)') o
if (dict%contains(y//','//x//'^'//o_s)) then
x_ref = dict%get_asFloat(x//'_ref')
coef = [coef,[(0.0_pReal,i=size(coef),o-1)],dict%get_asFloat(y//','//x//'^'//o_s)]
end if
end do
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p = Polynomial(coef,x_ref)
end function polynomial_from_dict
!--------------------------------------------------------------------------------------------------
!> @brief Evaluate a Polynomial.
!--------------------------------------------------------------------------------------------------
pure function eval(self,x) result(y)
class(tPolynomial), intent(in) :: self
real(pReal), intent(in) :: x
real(pReal) :: y
integer :: i
y = self%coef(ubound(self%coef,1))
do i = ubound(self%coef,1)-1, 0, -1
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#ifndef __INTEL_LLVM_COMPILER
y = y*(x-self%x_ref) +self%coef(i)
#else
y = IEEE_FMA(y,x-self%x_ref,self%coef(i))
#endif
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enddo
end function eval
!--------------------------------------------------------------------------------------------------
!> @brief Check correctness of polynomical functionality.
!--------------------------------------------------------------------------------------------------
subroutine selfTest()
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type(tPolynomial) :: p1, p2
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real(pReal), dimension(5) :: coef
integer :: i
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real(pReal) :: x_ref, x, y
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class(tNode), pointer :: dict
character(len=pStringLen), dimension(size(coef)) :: coef_s
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character(len=pStringLen) :: x_ref_s, x_s, YAML_s
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call random_number(coef)
call random_number(x_ref)
call random_number(x)
coef = coef*10_pReal -0.5_pReal
x_ref = x_ref*10_pReal -0.5_pReal
x = x*10_pReal -0.5_pReal
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p1 = polynomial([coef(1)],x_ref)
if (dNeq(p1%at(x),coef(1))) error stop 'polynomial: eval(constant)'
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p1 = polynomial(coef,x_ref)
if (dNeq(p1%at(x_ref),coef(1))) error stop 'polynomial: @ref'
do i = 1, size(coef_s)
write(coef_s(i),*) coef(i)
end do
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write(x_ref_s,*) x_ref
write(x_s,*) x
YAML_s = 'C: '//trim(adjustl(coef_s(1)))//IO_EOL//&
'C,T: '//trim(adjustl(coef_s(2)))//IO_EOL//&
'C,T^2: '//trim(adjustl(coef_s(3)))//IO_EOL//&
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'C,T^3: '//trim(adjustl(coef_s(4)))//IO_EOL//&
'C,T^4: '//trim(adjustl(coef_s(5)))//IO_EOL//&
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'T_ref: '//trim(adjustl(x_ref_s))//IO_EOL
Dict => YAML_parse_str(trim(YAML_s))
p2 = polynomial(dict%asDict(),'C','T')
if (dNeq(p1%at(x),p2%at(x),1.0e-6_pReal)) error stop 'polynomials: init'
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y = coef(1)+coef(2)*(x-x_ref)+coef(3)*(x-x_ref)**2+coef(4)*(x-x_ref)**3+coef(5)*(x-x_ref)**4
if (dNeq(p1%at(x),y,1.0e-6_pReal)) error stop 'polynomials: eval(full)'
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YAML_s = 'C: 0.0'//IO_EOL//&
'C,T: '//trim(adjustl(coef_s(2)))//IO_EOL//&
'T_ref: '//trim(adjustl(x_ref_s))//IO_EOL
Dict => YAML_parse_str(trim(YAML_s))
p1 = polynomial(dict%asDict(),'C','T')
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if (dNeq(p1%at(x_ref+x),-p1%at(x_ref-x),1.0e-10_pReal)) error stop 'polynomials: eval(linear)'
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YAML_s = 'C: 0.0'//IO_EOL//&
'C,T^2: '//trim(adjustl(coef_s(3)))//IO_EOL//&
'T_ref: '//trim(adjustl(x_ref_s))//IO_EOL
Dict => YAML_parse_str(trim(YAML_s))
p1 = polynomial(dict%asDict(),'C','T')
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if (dNeq(p1%at(x_ref+x),p1%at(x_ref-x),1e-10_pReal)) error stop 'polynomials: eval(quadratic)'
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YAML_s = 'Y: '//trim(adjustl(coef_s(1)))//IO_EOL//&
'Y,X^3: '//trim(adjustl(coef_s(2)))//IO_EOL//&
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'X_ref: '//trim(adjustl(x_ref_s))//IO_EOL
Dict => YAML_parse_str(trim(YAML_s))
p1 = polynomial(dict%asDict(),'Y','X')
if (dNeq(p1%at(x_ref+x)-coef(1),-(p1%at(x_ref-x)-coef(1)),1.0e-8_pReal)) error stop 'polynomials: eval(cubic)'
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YAML_s = 'Y: '//trim(adjustl(coef_s(1)))//IO_EOL//&
'Y,X^4: '//trim(adjustl(coef_s(2)))//IO_EOL//&
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'X_ref: '//trim(adjustl(x_ref_s))//IO_EOL
Dict => YAML_parse_str(trim(YAML_s))
p1 = polynomial(dict%asDict(),'Y','X')
if (dNeq(p1%at(x_ref+x),p1%at(x_ref-x),1.0e-6_pReal)) error stop 'polynomials: eval(quartic)'
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end subroutine selfTest
end module polynomials