komasaru/regression_curve_sqrt.f95

## regression_curve_sqrt.f95
!****************************************************
! 単回帰曲線（ルート回帰）計算
! : y = a + b * sqrt(x)
! : 連立方程式は ガウスの消去法で解く

!   date          name            version
!   2019.04.10    mk-mode.com     1.00 新規作成
!
! Copyright(C) 2019 mk-mode.com All Rights Reserved.
!****************************************************
!
module const
  ! SP: 単精度(4), DP: 倍精度(8)
  integer,     parameter :: SP = kind(1.0)
  integer(SP), parameter :: DP = selected_real_kind(2 * precision(1.0_SP))
end module const

module comp
  use const
  implicit none
  private
  public :: calc_reg_curve_sqrt

contains
  ! 単回帰曲線（ルート回帰）計算
  !
  ! :param(in)  real(8) x(:): 説明変数配列
  ! :param(in)  real(8) y(:): 目的変数配列
  ! :param(out) real(8)    a: 係数 a
  ! :param(out) real(8)    b: 係数 b
  subroutine calc_reg_curve_sqrt(x, y, a, b)
    implicit none
    real(DP), intent(in)  :: x(:), y(:)
    real(DP), intent(out) :: a, b
    integer(SP) :: size_x, size_y, i
    real(DP)    :: sum_x, sum_xs, sum_y, sum_xsy
    real(DP)    :: mtx(2, 3)

    size_x = size(x)
    size_y = size(y)
    if (size_x == 0 .or. size_y == 0) then
      print *, "[ERROR] array size == 0"
      stop
    end if
    if (size_x /= size_y) then
      print *, "[ERROR] size(X) != size(Y)"
      stop
    end if

    sum_x   = sum(x)
    sum_y   = sum(y)
    sum_xs  = sum(sqrt(x))
    sum_xsy = sum(sqrt(x) * y)
    mtx(1, :) = (/real(size_x, DP), sum_xs,   sum_y/)
    mtx(2, :) = (/          sum_xs,  sum_x, sum_xsy/)
    call solve_ge(2, mtx)
    a = mtx(1, 3)
    b = mtx(2, 3)
  end subroutine calc_reg_curve_sqrt

  ! 連立方程式を解く（ガウスの消去法）
  !
  ! :param(in)    integer(4)     n: 元数
  ! :param(inout) real(8) a(n,n+1): 係数配列
  subroutine solve_ge(n, a)
    implicit none
    integer(SP), intent(in)    :: n
    real(DP),    intent(inout) :: a(n, n + 1)
    integer(SP) :: i, j
    real(DP)    :: d

    ! 前進消去
    do j = 1, n - 1
      do i = j + 1, n
        d = a(i, j) / a(j, j)
        a(i, j+1:n+1) = a(i, j+1:n+1) - a(j, j+1:n+1) * d
      end do
    end do

    ! 後退代入
    do i = n, 1, -1
      d = a(i, n + 1)
      do j = i + 1, n
        d = d - a(i, j) * a(j, n + 1)
      end do
      a(i, n + 1) = d / a(i, i)
    end do
  end subroutine solve_ge
end module comp

program regression_curve_sqrt
  use const
  use comp
  implicit none
  character(9), parameter :: F_INP = "input.txt"
  integer(SP),  parameter :: UID   = 10
  real(DP)      :: a, b
  integer(SP)   :: n, i
  character(20) :: f
  real(DP), allocatable :: x(:), y(:)

  ! IN ファイル OPEN
  open(UID, file = F_INP, status = "old")

  ! データ数読み込み
  read(UID, *) n

  ! 配列用メモリ確保
  allocate(x(n))
  allocate(y(n))

  ! データ読み込み
  do i = 1, n
    read(UID, *) x(i), y(i)
  end do
  write(f, '("(A, ", I0, "F8.2, A)")') n
  print f, "説明変数 X = (", x, ")"
  print f, "目的変数 Y = (", y, ")"
  print '(A)', "---"

  ! IN ファイル CLOSE
  close (UID)

  ! 回帰曲線計算
  call calc_reg_curve_sqrt(x, y, a, b)
  print '(A, F12.8)', "a = ", a
  print '(A, F12.8)', "b = ", b

  ! 配列用メモリ解放
  deallocate(x)
  deallocate(y)

  stop
end program regression_curve_sqrt
	!****************************************************
	! 単回帰曲線（ルート回帰）計算
	! : y = a + b * sqrt(x)
	! : 連立方程式はガウスの消去法で解く

	! date name version
	! 2019.04.10 mk-mode.com 1.00 新規作成
	!
	! Copyright(C) 2019 mk-mode.com All Rights Reserved.
	!****************************************************
	!
	module const
	! SP: 単精度(4), DP: 倍精度(8)
	integer, parameter :: SP = kind(1.0)
	integer(SP), parameter :: DP = selected_real_kind(2 * precision(1.0_SP))
	end module const

	module comp
	use const
	implicit none
	private
	public :: calc_reg_curve_sqrt

	contains
	! 単回帰曲線（ルート回帰）計算
	!
	! :param(in) real(8) x(:): 説明変数配列
	! :param(in) real(8) y(:): 目的変数配列
	! :param(out) real(8) a: 係数 a
	! :param(out) real(8) b: 係数 b
	subroutine calc_reg_curve_sqrt(x, y, a, b)
	implicit none
	real(DP), intent(in) :: x(:), y(:)
	real(DP), intent(out) :: a, b
	integer(SP) :: size_x, size_y, i
	real(DP) :: sum_x, sum_xs, sum_y, sum_xsy
	real(DP) :: mtx(2, 3)

	size_x = size(x)
	size_y = size(y)
	if (size_x == 0 .or. size_y == 0) then
	print *, "[ERROR] array size == 0"
	stop
	end if
	if (size_x /= size_y) then
	print *, "[ERROR] size(X) != size(Y)"
	stop
	end if

	sum_x = sum(x)
	sum_y = sum(y)
	sum_xs = sum(sqrt(x))
	sum_xsy = sum(sqrt(x) * y)
	mtx(1, :) = (/real(size_x, DP), sum_xs, sum_y/)
	mtx(2, :) = (/ sum_xs, sum_x, sum_xsy/)
	call solve_ge(2, mtx)
	a = mtx(1, 3)
	b = mtx(2, 3)
	end subroutine calc_reg_curve_sqrt

	! 連立方程式を解く（ガウスの消去法）
	!
	! :param(in) integer(4) n: 元数
	! :param(inout) real(8) a(n,n+1): 係数配列
	subroutine solve_ge(n, a)
	implicit none
	integer(SP), intent(in) :: n
	real(DP), intent(inout) :: a(n, n + 1)
	integer(SP) :: i, j
	real(DP) :: d

	! 前進消去
	do j = 1, n - 1
	do i = j + 1, n
	d = a(i, j) / a(j, j)
	a(i, j+1:n+1) = a(i, j+1:n+1) - a(j, j+1:n+1) * d
	end do
	end do

	! 後退代入
	do i = n, 1, -1
	d = a(i, n + 1)
	do j = i + 1, n
	d = d - a(i, j) * a(j, n + 1)
	end do
	a(i, n + 1) = d / a(i, i)
	end do
	end subroutine solve_ge
	end module comp

	program regression_curve_sqrt
	use const
	use comp
	implicit none
	character(9), parameter :: F_INP = "input.txt"
	integer(SP), parameter :: UID = 10
	real(DP) :: a, b
	integer(SP) :: n, i
	character(20) :: f
	real(DP), allocatable :: x(:), y(:)

	! IN ファイル OPEN
	open(UID, file = F_INP, status = "old")

	! データ数読み込み
	read(UID, *) n

	! 配列用メモリ確保
	allocate(x(n))
	allocate(y(n))

	! データ読み込み
	do i = 1, n
	read(UID, *) x(i), y(i)
	end do
	write(f, '("(A, ", I0, "F8.2, A)")') n
	print f, "説明変数 X = (", x, ")"
	print f, "目的変数 Y = (", y, ")"
	print '(A)', "---"

	! IN ファイル CLOSE
	close (UID)

	! 回帰曲線計算
	call calc_reg_curve_sqrt(x, y, a, b)
	print '(A, F12.8)', "a = ", a
	print '(A, F12.8)', "b = ", b

	! 配列用メモリ解放
	deallocate(x)
	deallocate(y)

	stop
	end program regression_curve_sqrt