Path: | physics/phy_interpolate_test_prepnc00.f90 |
Last Update: | Sat Jun 14 20:44:15 +0900 2008 |
Authors: | Yasuhiro MORIKAWA |
Version: | $Id: phy_interpolate_test_prepnc00.f90,v 1.3 2008-06-14 11:44:15 morikawa Exp $ |
Tag Name: | $Name: dcpam4-20080624-1 $ |
Copyright: | Copyright (C) GFD Dennou Club, 2007. All rights reserved. |
License: | See COPYRIGHT |
Note that Japanese and English are described in parallel.
phy_interpolate_test で使用する netCDF ファイルを作成する開発者用 プログラムです.
This is a program for developers that generates netCDF data for "phy_interpolate_test"
Main Program : |
program phy_interpolate_test_prepnc00 use spline_data, only: SPLDAT, Create, Close, PutLine, initialized, GetSpline use constants, only: CONST, Create, Get use phy_interpolate, only: PHYINTPOL, Create, Close, PutLine, initialized, InterpolateTemp, InterpolateGeoPot use dc_test, only: AssertEqual use dc_types, only: DP, STRING use dc_string, only: StoA, PutLine use dc_args, only: ARGS, Open, HelpMsg, Option, Debug, Help, Strict, Close use gt4_history, only: GT_HISTORY, HistoryCreate, HistoryAddVariable, HistoryPut, HistoryClose, HistoryAddAttr implicit none !--------------------------------------------------------- ! 実験の表題, モデルの名称, 所属機関名 ! Title of a experiment, name of model, sub-organ !--------------------------------------------------------- character(*), parameter:: title = 'phy_interpolate_test_prepnc00 $Name: dcpam4-20080624-1 $ :: ' // 'NetCDF file generation program for "phy_interpolate_test"' character(*), parameter:: source = 'dcpam4 ' // '(See http://www.gfd-dennou.org/library/dcpam)' character(*), parameter:: institution = 'GFD Dennou Club (See http://www.gfd-dennou.org)' !------------------------------------------------------------------- ! 格子点数・最大全波数 ! Grid points and maximum truncated wavenumber !------------------------------------------------------------------- integer:: nmax = 10 ! 最大全波数. ! Maximum truncated wavenumber integer:: imax = 32 ! 経度格子点数. ! Number of grid points in longitude integer:: jmax = 16 ! 緯度格子点数. ! Number of grid points in latitude integer:: kmax = 12 ! 鉛直層数. ! Number of vertical level !----------------------------------------------------------------- ! 物理定数の設定 ! Configure physical constants !----------------------------------------------------------------- real(DP):: RAir ! $ R $ . 大気気体定数. Gas constant of air real(DP):: Grav ! $ g $ . 重力加速度. Gravitational acceleration !--------------------------------------------------------- ! 軸データ ! Axes data !--------------------------------------------------------- real(DP), allocatable:: x_Lon (:) ! 経度. Longitude real(DP), allocatable:: y_Lat (:) ! 緯度. Latitude real(DP), allocatable:: z_Sigma (:) ! $ \sigma $ レベル (整数). ! Full $ \sigma $ level real(DP), allocatable:: r_Sigma (:) ! $ \sigma $ レベル (半整数). ! Half $ \sigma $ level !--------------------------------------------------------- ! 物理量 ! Physical values !--------------------------------------------------------- real(DP), allocatable:: xyz_Temp (:,:,:) ! $ T $ . 温度 (整数レベル). ! Temperature (full level) real(DP), allocatable:: y_Temp (:) ! $ T $ . 温度 ! Temperature real(DP), allocatable:: z_TempCoeff (:) ! 温度の係数 ! Temperature coefficient !!$ real(DP), allocatable:: xyr_Temp (:,:,:) !!$ ! $ T $ . 温度 (半整数レベル). !!$ ! Temperature (half level) !!$ real(DP), allocatable:: y_Ps (:) ! $ p_s $ . 地表面気圧. Surface pressure real(DP), allocatable:: xy_Ps (:,:) ! $ p_s $ . 地表面気圧. Surface pressure !!$ real(DP), allocatable:: xyz_Press (:,:,:) !!$ ! $ p_s $ . 地表面気圧 (整数レベル). !!$ ! Surface pressure (full level) !!$ real(DP), allocatable:: xyr_Press (:,:,:) !!$ ! $ p_s $ . 地表面気圧 (半整数レベル). !!$ ! Surface pressure (half level) !!$ real(DP), allocatable:: xyz_GeoPot (:,:,:) !!$ ! $ \phi $ . ジオポテンシャル (整数レベル). !!$ ! Geo-potential (full level) !!$ real(DP), allocatable:: xyr_GeoPot (:,:,:) !!$ ! $ \phi $ . ジオポテンシャル (半整数レベル). !!$ ! Geo-potential (half level) !--------------------------------------------------------- ! データ入出力 ! Data I/O !--------------------------------------------------------- type(GT_HISTORY):: gthist character(STRING):: default_output_file = 'phy_interpolate_test00.nc' character(STRING):: output_file !--------------------------------------------------------- ! 作業変数 ! Work variables !--------------------------------------------------------- type(ARGS):: arg ! コマンドライン引数. ! Command line arguments logical:: OPT_output ! -o, --output オプションの有無. ! Existence of '-o', '--output' option character(STRING):: VAL_output ! -o, --output オプションの値. ! Value of '-o', '--output' option integer:: i, j, k ! DO ループ用作業変数 ! Work variables for DO loop type(CONST):: const_earth type(SPLDAT):: spl_dat_ps, spl_dat_tempy, spl_dat_tempz real(DP):: PI ! $ \pi $ . 円周率. Circular constant type(PHYINTPOL):: phy_intpol00 continue !--------------------------------------------------------- ! コマンドライン引数の処理 ! Command line arguments handling !--------------------------------------------------------- call Open( arg ) call HelpMsg( arg, 'Title', title ) call HelpMsg( arg, 'Usage', './phy_interpolate_test_prepnc00 [Options]' ) call HelpMsg( arg, 'Source', source ) call HelpMsg( arg, 'Institution', institution ) call Option( arg, StoA('-o', '--output'), OPT_output, VAL_output, help = 'Output filename (default: ' // trim(default_output_file) // ' )' ) call Debug( arg ) call Help( arg ) call Strict( arg, severe = .true. ) call Close( arg ) if ( VAL_output == '' ) then output_file = default_output_file else output_file = VAL_output end if !--------------------------------------------------------- ! 物理定数の設定 ! Configure a physical constant !--------------------------------------------------------- call Create( constant = const_earth ) ! (inout) call Get( constant = const_earth, PI = PI, RAir = RAir, Grav = Grav ) ! (out) !--------------------------------------------------------- ! 軸データの設定 ! Configure axes data !--------------------------------------------------------- allocate( x_Lon (0:imax-1) ) allocate( y_Lat (0:jmax-1) ) allocate( z_Sigma (0:kmax-1) ) allocate( r_Sigma (0:kmax) ) x_Lon = (/ 0.0, 11.25, 22.5, 33.75, 45.0, 56.25, 67.5, 78.75, 90.0, 101.25, 112.5, 123.75, 135.0, 146.25, 157.5, 168.75, 180.0, 191.25, 202.5, 213.75, 225.0, 236.25, 247.5, 258.75, 270.0, 281.25, 292.5, 303.75, 315.0, 326.25, 337.5, 348.75 /) y_Lat = (/ -81.65059, -70.83464, -59.95486, -49.06072, -38.16121, -27.25921, -16.35593, -5.45204, 5.45204, 16.35593, 27.25921, 38.16121, 49.06072, 59.95486, 70.83464, 81.65059 /) z_Sigma = (/ 0.994997, 0.9799879, 0.9499499, 0.8897859, 0.7996277, 0.689378, 0.5641075, 0.4286365, 0.2879657, 0.1572454, 0.07398598, 0.02074752 /) r_Sigma = (/ 1.0, 0.99, 0.97, 0.93, 0.85, 0.75, 0.63, 0.5, 0.36, 0.22, 0.1, 0.05, 0.0 /) !!$ !--------------------------------------------------------- !!$ ! 初期設定 !!$ ! Initialization !!$ !--------------------------------------------------------- !!$ call Create( phy_intpol = phy_intpol00, & ! (inout) !!$ & nmax = nmax, imax = imax, jmax = jmax, & ! (in) !!$ & z_Sigma, r_Sigma, & !!$ & PI = PI ) ! (in) !!$ !--------------------------------------------------------- ! 地表面気圧の設定 ! Configure surface pressure !--------------------------------------------------------- call Create( spl_dat = spl_dat_ps, knots_num = 13, x_knots = (/ -90.0_DP, -75.0_DP, -60.0_DP, -45.0_DP, -30.0_DP, -15.0_DP, 0.0_DP, 15.0_DP, 30.0_DP, 45.0_DP, 60.0_DP, 75.0_DP, 90.0_DP /), x_value = (/ 1003.0_DP, 997.0_DP, 990.0_DP, 994.0_DP, 1005.0_DP, 998.0_DP, 996.0_DP, 998.0_DP, 1006.0_DP, 998.0_DP, 987.0_DP, 996.0_DP, 998.0_DP /) * 100.0_DP ) ! (in) allocate( xy_Ps (0:imax-1, 0:jmax-1) ) allocate( y_Ps (0:jmax-1) ) call GetSpline( spl_dat = spl_dat_ps , a_Dim = y_Lat, a_Data = y_Ps ) ! (out) do i = 0, imax - 1 xy_Ps(i,:) = y_Ps end do !--------------------------------------------------------- ! 温度の設定 ! Configure temperature !--------------------------------------------------------- allocate( xyz_Temp (0:imax-1, 0:jmax-1, 0:kmax-1) ) allocate( y_Temp (0:jmax-1) ) allocate( z_TempCoeff (0:kmax-1) ) call Create( spl_dat = spl_dat_tempy, knots_num = 7, x_knots = (/ -90.0_DP, -60.0_DP, -30.0_DP, 0.0_DP, 30.0_DP, 60.0_DP, 90.0_DP /), x_value = (/ 255.0_DP, 270.0_DP, 290.0_DP, 300.0_DP, 290.0_DP, 270.0_DP, 255.0_DP /) ) ! (in) call GetSpline( spl_dat = spl_dat_tempy , a_Dim = y_Lat, a_Data = y_Temp ) ! (out) call PutLine(y_Temp, indent=' y_Temp=') call Create( spl_dat = spl_dat_tempz, knots_num = 3, x_knots = (/ 1.0_DP, 0.5_DP, 0.0_DP /), x_value = (/ 1.0_DP, 0.85_DP, 0.75_DP /) ) ! (in) call GetSpline( spl_dat = spl_dat_tempz , a_Dim = z_Sigma, a_Data = z_TempCoeff ) ! (out) call PutLine(z_TempCoeff, indent=' z_TempCoeff=') do k = 0, kmax - 1 do j = 0, jmax - 1 xyz_Temp(:,j,k) = y_Temp(j) * z_TempCoeff(k) end do end do !---------------------------------------------------------------- ! データ出力 ! Output data !---------------------------------------------------------------- call HistoryCreate( history = gthist, file = 'phy_interpolate_test00.nc', title = title, source = source, institution = institution, dims = StoA('lon', 'lat', 'sig', 'sigm'), dimsizes = (/imax, jmax, kmax, kmax + 1/), longnames = StoA('longitude', 'latitude', 'sigma at layer midpoints', 'sigma at layer end-points (half level)'), units = StoA('degree_east', 'degree_north', '1', '1') ) ! (out) call HistoryPut( history = gthist, varname = 'lon', array = x_Lon ) ! (in) call HistoryPut( history = gthist, varname = 'lat', array = y_Lat ) ! (in) call HistoryPut( history = gthist, varname = 'sig', array = z_Sigma ) ! (in) call HistoryPut( history = gthist, varname = 'sigm', array = r_Sigma ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lon', attrname = 'standard_name', value = 'longitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lat', attrname = 'standard_name', value = 'latitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'positive', value = 'down' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'positive', value = 'down' ) ! (in) call HistoryAddVariable( history = gthist, varname = 'Ps', dims = StoA('lon', 'lat'), longname = 'surface pressure', units = 'Pa', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'Ps', attrname = 'standard_name', value = 'surface_air_pressure' ) ! (in) call HistoryPut( history = gthist, varname = 'Ps', array = xy_Ps ) ! (in) call HistoryAddVariable( history = gthist, varname = 'Temp', dims = StoA('lon', 'lat', 'sig'), longname = 'temperature', units = 'K', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'Temp', attrname = 'standard_name', value = 'air_temperature' ) ! (in) call HistoryPut( history = gthist, varname = 'Temp', array = xyz_Temp ) ! (in) call HistoryClose( history = gthist ) ! (inout) end program phy_interpolate_test_prepnc00