rec_read_elements.f90 Source File


This file depends on

sourcefile~~rec_read_elements.f90~~EfferentGraph sourcefile~rec_read_elements.f90 rec_read_elements.f90 sourcefile~calibration_data_module.f90 calibration_data_module.f90 sourcefile~rec_read_elements.f90->sourcefile~calibration_data_module.f90 sourcefile~hydrograph_module.f90 hydrograph_module.f90 sourcefile~rec_read_elements.f90->sourcefile~hydrograph_module.f90 sourcefile~input_file_module.f90 input_file_module.f90 sourcefile~rec_read_elements.f90->sourcefile~input_file_module.f90 sourcefile~maximum_data_module.f90 maximum_data_module.f90 sourcefile~rec_read_elements.f90->sourcefile~maximum_data_module.f90 sourcefile~basin_module.f90 basin_module.f90 sourcefile~hydrograph_module.f90->sourcefile~basin_module.f90 sourcefile~time_module.f90 time_module.f90 sourcefile~hydrograph_module.f90->sourcefile~time_module.f90

Source Code

      subroutine rec_read_elements
   
      use input_file_module
      use maximum_data_module
      use calibration_data_module
      use hydrograph_module
      implicit none

      character (len=80) :: titldum = ""!           |title of file
      character (len=80) :: header = "" !           |header of file
      integer :: eof = 0              !           |end of file
      logical :: i_exist              !none       |check to determine if file exists
      integer :: imax = 0             !none       |end of loop
      integer :: isp = 0              !none       |counter
      integer :: mcal = 0             !           |           
      integer :: mreg = 0             !none       |end of loop
      integer :: i = 0                !none       |counter
      integer :: k = 0                !           |  
      integer :: nspu = 0             !none       |end of loop
      integer :: ielem1 = 0           !           | 
      integer :: ireg = 0             !none       |counter
      integer :: irec = 0             !none       |counter
      
      imax = 0
      mcal = 0
      mreg = 0
            
    inquire (file=in_regs%def_psc, exist=i_exist)
    if (i_exist .or. in_regs%def_psc /= "null") then
      do
        open (107,file=in_regs%def_psc)
        read (107,*,iostat=eof) titldum
        if (eof < 0) exit
        read (107,*,iostat=eof) mreg
        if (eof < 0) exit
        read (107,*,iostat=eof) header
        if (eof < 0) exit
        
        !! allocate recall outputsby region
        allocate (srec_d(0:mreg))
        allocate (srec_m(0:mreg))
        allocate (srec_y(0:mreg))
        allocate (srec_a(0:mreg))

      do i = 1, mreg

        read (107,*,iostat=eof) k, pcu_out(i)%name, pcu_out(i)%area_ha, nspu      
        if (eof < 0) exit
        if (nspu > 0) then
          allocate (elem_cnt(nspu), source = 0)
          backspace (107)
          read (107,*,iostat=eof) k, pcu_out(i)%name, pcu_out(i)%area_ha, nspu, (elem_cnt(isp), isp = 1, nspu)
          if (eof < 0) exit

          call define_unit_elements (nspu, ielem1)
          
          allocate (pcu_out(i)%num(ielem1), source = 0)
          pcu_out(i)%num = defunit_num
          pcu_out(i)%num_tot = ielem1
          deallocate (defunit_num)
        else
          !!all hrus are in region 
          allocate (pcu_out(i)%num(sp_ob%hru), source = 0)
          pcu_out(i)%num_tot = sp_ob%recall
          do irec = 1, sp_ob%recall
            pcu_out(i)%num(irec) = irec
          end do      
        end if

      end do    ! i = 1, mreg
      exit
         
      db_mx%rec_out = mreg
      end do 
      end if      
        
    !! setting up regions for recall soft cal and/or output by type
    inquire (file=in_regs%def_psc_reg, exist=i_exist)
    if (i_exist .or. in_regs%def_psc_reg /= "null") then
      do
        open (107,file=in_regs%def_psc_reg)
        read (107,*,iostat=eof) titldum
        if (eof < 0) exit
        read (107,*,iostat=eof) mreg
        if (eof < 0) exit
        read (107,*,iostat=eof) header
        if (eof < 0) exit

      do i = 1, mreg

        read (107,*,iostat=eof) k, pcu_reg(i)%name, pcu_reg(i)%area_ha, nspu       
        if (eof < 0) exit
        if (nspu > 0) then
          allocate (elem_cnt(nspu), source = 0)
          backspace (107)
          read (107,*,iostat=eof) k, pcu_reg(i)%name, pcu_reg(i)%area_ha, nspu, (elem_cnt(isp), isp = 1, nspu)
          if (eof < 0) exit

          call define_unit_elements (nspu, ielem1)
          
          allocate (pcu_reg(i)%num(ielem1), source = 0)
          pcu_reg(i)%num = defunit_num
          pcu_reg(i)%num_tot = ielem1
          deallocate (defunit_num)
        else
          !!all hrus are in region 
          allocate (pcu_reg(i)%num(sp_ob%recall), source = 0)
          pcu_reg(i)%num_tot = sp_ob%recall
          do irec = 1, sp_ob%recall
            pcu_reg(i)%num(irec) = irec
          end do      
        end if

      end do    ! i = 1, mreg
      exit
         
      db_mx%rec_reg = mreg
      end do 
      end if      
      
      !! if no regions are input, don"t need elements
      if (mreg > 0) then
        do ireg = 1, mreg
          pcu_cal(ireg)%lum_ha_tot = 0.
          pcu_cal(ireg)%lum_num_tot = 0
          pcu_cal(ireg)%lum_ha_tot = 0.
        end do
      end if    ! mreg > 0
      
      !!read data for each element in all landscape cataloging units
      inquire (file=in_regs%ele_psc, exist=i_exist)
      if (i_exist .or. in_regs%ele_psc /= "null") then
      do
        open (107,file=in_regs%ele_psc)
        read (107,*,iostat=eof) titldum
        if (eof < 0) exit
        read (107,*,iostat=eof) header
        if (eof < 0) exit
        imax = 0
          do while (eof == 0)
              read (107,*,iostat=eof) i
              if (eof < 0) exit
              imax = Max(i,imax)
          end do

        allocate (pcu_elem(imax))

        rewind (107)
        read (107,*,iostat=eof) titldum
        if (eof < 0) exit
        read (107,*,iostat=eof) header
        if (eof < 0) exit
        
        ielem_ru = 0
   
        do isp = 1, imax
          read (107,*,iostat=eof) i
          if (eof < 0) exit
          backspace (107)
          read (107,*,iostat=eof) k, pcu_elem(i)%name, pcu_elem(i)%obtyp, pcu_elem(i)%obtypno,      &
                                    pcu_elem(i)%bsn_frac, pcu_elem(i)%ru_frac, pcu_elem(i)%reg_frac
          if (eof < 0) exit
        end do
        exit
      end do
      end if
      
      ! set hru number from element number and set hru areas in the region
      do ireg = 1, mreg
        do irec = 1, pcu_reg(ireg)%num_tot
          ielem1 = pcu_reg(ireg)%num(irec)
          !switch %num from element number to hru number
          pcu_cal(ireg)%num(irec) = pcu_elem(ielem1)%obtypno
          pcu_cal(ireg)%hru_ha(irec) = pcu_elem(ielem1)%ru_frac * pcu_cal(ireg)%area_ha
        end do
      end do
      
      close (107)

      return
      end subroutine rec_read_elements