Class phy_ape
In: physics/phy_ape.f90

水惑星実験

Aqua Planet Experiment

Note that Japanese and English are described in parallel.

全球が水に覆われているような惑星大気を計算する上で 必要な物理過程を計算します. 実際にこのモジュールで計算されている物理過程は以下の通りです.

  • 簡易多色放射
  • 鉛直拡散 (Mellor and Yamada, 1974, レベル 2)
  • 地表フラックス (バルク法)
  • 湿潤対流調節 (Manabe et al., 1965)
  • 乾燥対流調節,
  • 診断型大規模凝結

Physical processes are calculated for calculation of atmosphere on a planet covered with water globally. Physical processes calculated in this module is as follows.

  • Radiation process represented by band model
  • Vertical diffusion
  • Surface flux (bulk formulae)
  • Moist convective adjustment
  • Dry convective adjustment
  • Large scale condensation

Procedures List

Create :PHYAPE 型変数の初期設定
PhysicsAPE :物理過程 (放射, 鉛直拡散, 地表フラックス) の計算
PhysicsAdjust :物理過程 (湿潤対流調節, 診断型大規模凝結, 乾燥対流調節) の計算
Close :PHYAPE 型変数の終了処理
PutLine :PHYAPE 型変数に格納されている情報の印字
initialized :PHYAPE 型変数が初期設定されているか否か
———— :————
Create :Constructor of "PHYAPE"
PhysicsAPE :Calculate some physical processes (radiation, vertical diffusion, surface flux)
PhysicsAdjust :Calculate some physical processes (moist convective adjustment, large scale condensation, dry convective adjustment)
Close :Deconstructor of "PHYAPE"
PutLine :Print information of "PHYAPE"
initialized :Check initialization of "PHYAPE"

Usage

主プログラムの始めに, PHYAPE 型の変数を Create で初期設定します. PhysicsAPE は東西風速, 南北風送, 温度, 比湿, 地表面気圧 を受け取り, 物理過程 (放射など) の効果として 東西風速, 南北風送, 温度, 比湿の変化量を返します. PhysicsAdjust に温度, 比湿, 地表面気圧を与える ことで, 積雲パラメタリゼーションなどにより調節を行って 温度, 比湿, 地表面気圧を返します. 最後に, PHYAPE 型の変数の終了処理を Close にて行います.

In the begging of program, initialize "PHYAPE" by "Create". "PhysicsAPE" receives zonal and meridional wind, and temperature, specific humidity, surface pressure, and returns tendency of zonal and meridional wind, and temperature, specific humidity with physical processes (radiation etc.) "PhysicsAdjust" receives temperature, specific humidity, surface pressure, and adjusts them with cumulus parameterization etc., and returns them. Physical processes are calculate about the values. Finally, terminate "PHYAPE" by "Close".

References

  • Manabe, S., Smagorinsky, J., Strickler, R.F., 1965: Simulated climatology of a general circulation model with a hydrologic cycle. Mon. Weather Rev., 93, 769--798.
  • Mellor, G. L, Yamada, T., 1974: A hierarchy of turbulence closure models for planetary boundary layers. J. Atmos. Sci., 31, 1791--1806.

Methods

Included Modules

dc_types dc_date_types phy_ground phy_interpolate phy_neg_moist phy_cumulus_adjust phy_lscond phy_implicit phy_radiation_flux phy_verdiff phy_surface_flux phy_dryconv_adjust gt4_history dc_trace dc_present dc_message dc_error dc_string dc_date dc_iounit

Public Instance methods

Close( phy_ape, [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

PHYAPE 型の変数の終了処理を行います. なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Deconstructor of "PHYAPE". Note that if phy_ape is not initialized by "Create" yet, error is occurred.

Alias for PhysApeClose

Create( phy_ape, imax, jmax, kmax, x_Lon, y_Lat, z_Sigma, r_Sigma, PI, RAir, Grav, Cp, EL, RVap, EpsV, ES0, StB, FKarm, DelTime, [x_Lon_Weight], [y_Lat_Weight], [current_time_value], [current_time_unit], [history_varlist], [history_interval_value], [history_interval_unit], [history_precision], [history_fileprefix], [nmlfile], [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
imax :integer, intent(in)
: 経度格子点数. Number of grid points in longitude
jmax :integer, intent(in)
: 緯度格子点数. Number of grid points in latitude
kmax :integer, intent(in)
: 鉛直層数. Number of vertical level
x_Lon(0:imax-1) :real(DP), intent(in)
: 経度. Longitude
y_Lat(0:jmax-1) :real(DP), intent(in)
: 緯度. Latitude
z_Sigma(0:kmax-1) :real(DP), intent(in)
: $ sigma $ レベル (整数). Full $ sigma $ level
r_Sigma(0:kmax) :real(DP), intent(in)
: $ sigma $ レベル (半整数). Half $ sigma $ level
PI :real(DP), intent(in)
: $ pi $ . 円周率. Circular constant
RAir :real(DP), intent(in)
: $ R $ . 大気気体定数. Gas constant of air
Grav :real(DP), intent(in)
: $ g $ . 重力加速度. Gravitational acceleration
Cp :real(DP), intent(in)
: $ C_p $ . 大気定圧比熱. Specific heat of air at constant pressure
EL :real(DP), intent(in)
: $ L $ . 水の凝結の潜熱. Latent heat of condensation of water vapor
RVap :real(DP), intent(in)
: $ R_v $ . 水蒸気気体定数. Gas constant of water vapor
EpsV :real(DP), intent(in)
: $ epsilon_v $ . 水蒸気分子量比. Molecular weight ratio of water vapor
ES0 :real(DP), intent(in)
: $ e^{*} $ (273K) . 0 ℃での飽和蒸気圧. Saturated vapor pressure at 0 degrees C
StB :real(DP), intent(in)
: $ sigma_{SB} $ . ステファンボルツマン定数. Stefan-Boltzmann constant
FKarm :real(DP), intent(in)
: $ k $ . カルマン定数. Karman constant
DelTime :real(DP), intent(in)
: $ Delta t $ . タイムステップ. Time step
x_Lon_Weight(0:imax-1) :real(DP), intent(in), optional
: 経度座標重み. Weight of longitude
y_Lat_Weight(0:jmax-1) :real(DP), intent(in), optional
: 緯度座標重み. Weight of latitude
current_time_value :real(DP), intent(in), optional
: 現在時刻の数値. Numerical value of current time
current_time_unit :character(*), intent(in), optional
: 現在時刻の単位. Unit of current time
history_varlist :character(*), intent(in), optional
: ヒストリデータの出力変数リスト. カンマで区切って並べる. (例: "Rain,RadLFlux,RadSFlux" ).

List of variables output to history data. Delimiter is comma. (exp. "Rain,RadLFlux,RadSFlux" ).

history_interval_value :real(DP), intent(in), optional
: ヒストリデータの出力間隔の数値. Numerical value for interval of history data output
history_interval_unit :character(*), intent(in), optional
: ヒストリデータの出力間隔の単位. Unit for interval of history data output
history_precision :character(*), intent(in), optional
: ヒストリデータの精度. Precision of history data
history_fileprefix :character(*), intent(in), optional
: ヒストリデータのファイル名の接頭詞. Prefix of history data filenames
nmlfile :character(*), intent(in), optional
: NAMELIST ファイルの名称. この引数に空文字以外を与えた場合, 指定されたファイルから NAMELIST 変数群を読み込みます. ファイルを読み込めない場合にはエラーを 生じます.

NAMELIST 変数群の詳細に関しては NAMELIST#phy_ape_nml を参照してください.

NAMELIST file name. If nonnull character is specified to this argument, NAMELIST group name is loaded from the file. If the file can not be read, an error occurs.

See "NAMELIST#phy_ape_nml" for details about a NAMELIST group.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

PHYAPE 型の変数の初期設定を行います. 他のサブルーチンを使用する前に必ずこのサブルーチンによって PHYAPE 型の変数を初期設定してください.

なお, 与えられた phy_ape が既に初期設定されている場合, プログラムはエラーを発生させます.

NAMELIST を利用する場合には引数 nmlfileNAMELIST ファイル名 を与えてください. NAMELIST 変数群の詳細に関しては NAMELIST#phy_ape_nml を参照してください.

Constructor of "PHYAPE". Initialize phy_ape by this subroutine, before other procedures are used,

Note that if phy_ape is already initialized by this procedure, error is occurred.

In order to use NAMELIST, specify a NAMELIST filename to argument nmlfile. See "NAMELIST#phy_ape_nml" for details about a NAMELIST group.

Alias for PhysApeCreate

PHYAPE
Derived Type :
initialized = .false. :logical
: 初期設定フラグ. Initialization flag
imax :integer
: 経度格子点数. Number of grid points in longitude
jmax :integer
: 緯度格子点数. Number of grid points in latitude
kmax :integer
: 鉛直層数. Number of vertical level
x_Lon(:) =>null() :real(DP), pointer
: 経度. Longitude
x_Lon_Weight(:) =>null() :real(DP), pointer
: 経度座標重み. Weight of longitude
y_Lat(:) =>null() :real(DP), pointer
: 緯度. Latitude
y_Lat_Weight(:) =>null() :real(DP), pointer
: 緯度座標重み. Weight of latitude
z_Sigma(:) =>null() :real(DP), pointer
: $ sigma $ レベル (整数). Full $ sigma $ level
r_Sigma(:) =>null() :real(DP), pointer
: $ sigma $ レベル (半整数). Half $ sigma $ level
PI :real(DP)
: $ pi $ . 円周率. Circular constant
DelTime :real(DP)
: $ Delta t $ . タイムステップ. Time step
current_time :type(DC_DIFFTIME)
: 現在時刻. Current time.
delta_time :type(DC_DIFFTIME)
: $ Delta t $ . タイムステップ. Time step
phy_grd :type(PHYGRD)
phy_intpol :type(PHYINTPOL)
phy_neg_mst :type(PHYNEGMST)
phy_cumad :type(PHYCUMAD)
phy_lsc :type(PHYLSC)
phy_impl :type(PHYIMPL)
phy_radflx :type(PHYRADFLX)
phy_vdif :type(PHYVDIF)
phy_surfflx :type(PHYSURFFLX)
phy_dryconv :type(PHYDRYCONV)
history_varlist_array(:) =>null() :character(TOKEN), pointer
: ヒストリデータの出力変数リスト. List of variables output to history data.
history_fileprefix :character(STRING)
: ヒストリデータのファイル名の接頭詞. Prefix of history data filenames
hist_nml(:) =>null() :type(PHYAPE_HISTNML), pointer
: NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報. この配列の 1 番目にはデフォルトの設定が格納 され, 2 番目以降に個別の設定が格納される.

Individual data output information from "NAMELIST#phy_ape_history_nml". Default settings are stored in the first element of this array, and individual settings are stored in the second or more.

gthist_surfstressx =>null() :type(GT_HISTORY), pointer
gthist_surfstressy =>null() :type(GT_HISTORY), pointer
gthist_sensheatflux =>null() :type(GT_HISTORY), pointer
gthist_latentheatflux =>null() :type(GT_HISTORY), pointer
gthist_rain =>null() :type(GT_HISTORY), pointer
gthist_cumrain =>null() :type(GT_HISTORY), pointer
gthist_lscrain =>null() :type(GT_HISTORY), pointer
gthist_radlflux =>null() :type(GT_HISTORY), pointer
gthist_radsflux =>null() :type(GT_HISTORY), pointer
gthist_dnegqvapdt =>null() :type(GT_HISTORY), pointer
gthist_dcumlsctempdt =>null() :type(GT_HISTORY), pointer
gthist_dcumlscqvapdt =>null() :type(GT_HISTORY), pointer
gthist_dlsctempdt =>null() :type(GT_HISTORY), pointer
gthist_dlscqvapdt =>null() :type(GT_HISTORY), pointer
gthist_dcumtempdt =>null() :type(GT_HISTORY), pointer
gthist_dcumqvapdt =>null() :type(GT_HISTORY), pointer
gthist_ddrytempdt =>null() :type(GT_HISTORY), pointer
gthist_dpsdt =>null() :type(GT_HISTORY), pointer
gthist_dradltempdt =>null() :type(GT_HISTORY), pointer
gthist_dradstempdt =>null() :type(GT_HISTORY), pointer
gthist_dverdiffudt =>null() :type(GT_HISTORY), pointer
gthist_dverdiffvdt =>null() :type(GT_HISTORY), pointer
gthist_dverdifftempdt =>null() :type(GT_HISTORY), pointer
gthist_dverdiffqvapdt =>null() :type(GT_HISTORY), pointer

まず, Create で "PHYAPE" 型の変数を初期設定して下さい. 初期設定された "PHYAPE" 型の変数を再度利用する際には, Close によって終了処理を行ってください.

Initialize "PHYAPE" variable by "Create" before usage. If you reuse "PHYAPE" variable again for another application, terminate by "Close".

PHYAPE_HISTNML
Derived Type :
name :character(TOKEN)
: 変数名. Variable name
file :character(STRING)
: ヒストリデータのファイル名. History data filenames
history_interval_time :type(DC_DIFFTIME)
: ヒストリデータの出力間隔. Interval of history data output
history_interval_value :real(DP)
: ヒストリデータの出力間隔の数値. Numerical value for interval of history data output
history_interval_unit :character(TOKEN)
: ヒストリデータの出力間隔の単位. Unit for interval of history data output
history_precision :character(TOKEN)
: ヒストリデータの精度. Precision of history data
history_average :logical
: 出力データの平均化フラグ. Flag for average of output data.
dummy0 :logical
: 8 ビット境界用のダミー変数. Dummy variable for 8 bit boundary

NAMELIST#phy_ape_history_nml からデータの出力情報 を個別に取得するための構造データ型です. 外部からの参照は 行わないでください.

This derived type is worked for input information about data output individually from "NAMELIST#phy_ape_history_nml" Do not refer this derived type externally.

PhysicsAPE( phy_ape, xyz_U, xyz_V, xyz_Temp, xy_Ps, xyz_QVap, xyz_DUDt, xyz_DVDt, xyz_DTempDt, xyz_DQVapDt, [historyput_flag], [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
xyz_U(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ U $ . 東西風速. Zonal wind
xyz_V(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ V $ . 南北風速. Meridional wind
xyz_Temp(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ T $ . 温度. Temperature
xy_Ps(0:phy_ape%imax-1, 0:phy_ape%jmax-1) :real(DP), intent(in)
: $ p_s $ . 地表面気圧. Surface pressure
xyz_QVap(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ q $ . 比湿. Specific humidity
xyz_DUDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{U}{t} $ . 東西風速変化. Zonal wind tendency
xyz_DVDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{V}{t} $ . 南北風速変化. Meridional wind tendency
xyz_DTempDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{T}{t} $ . 温度変化. Temperature tendency
xyz_DQVapDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{q}{t} $ . 比湿変化. Temperature tendency
historyput_flag :logical, intent(in), optional
: データ出力のフラグ. SetTime によって時刻を明示的に 指定した場合には, この引数に .true. または .false. を指定する ことでデータ出力のオンオフを 明示的に指定する必要があります. デフォルトは .false. です.

Data output flag. When time is specified by "SetTime", explicit specification of data output on/off by specifying ".true." or ".false." to this argument. Default value is ".false.".

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

放射や鉛直拡散など, いくつかの物理過程 を計算し, 与えられた風速, 温度, 地表面気圧, 比湿から, それぞれの変化量を返します. 詳細は phy_ape を参照してください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Some physical processes (radiation, vertical diffusion, etc) are calculated, and tendencies of velocity, temperature, surface pressure, specific humidity are returned. See "phy_ape" for detail.

If phy_ape is not initialized by "Create" yet, error is occurred.

Alias for PhysApePhysicsAPE

PhysicsAdjust( phy_ape, xyz_Temp, xy_Ps, xyz_QVap, [historyput_flag], [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
xyz_Temp(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(inout)
: $ T $ . 温度. Temperature
xy_Ps(0:phy_ape%imax-1, 0:phy_ape%jmax-1) :real(DP), intent(inout)
: $ p_s $ . 地表面気圧. Surface pressure
xyz_QVap(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(inout)
: $ q $ . 比湿. Specific humidity
historyput_flag :logical, intent(in), optional
: データ出力のフラグ. SetTime によって時刻を明示的に 指定した場合には, この引数に .true. または .false. を指定する ことでデータ出力のオンオフを 明示的に指定する必要があります. デフォルトは .false. です.

Data output flag. When time is specified by "SetTime", explicit specification of data output on/off by specifying ".true." or ".false." to this argument. Default value is ".false.".

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

積雲パラメタリゼーションや乾燥対流調節など, いくつかの物理過程 を計算し, 与えられた風速, 温度, 地表面気圧, 比湿を調節して 返します. 詳細は phy_ape を参照してください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Some physical processes (cumulus parameterization, dry convective adjustment, etc) are calculated, and velocity, temperature, surface pressure, specific humidity are adjusted and returned. See "phy_ape" for detail.

If phy_ape is not initialized by "Create" yet, error is occurred.

Alias for PhysApeAdjust

PutLine( phy_ape, [unit], [indent], [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(in)
unit :integer, intent(in), optional
: 出力先の装置番号. デフォルトの出力先は標準出力.

Unit number for output. Default value is standard output.

indent :character(*), intent(in), optional
: 表示されるメッセージの字下げ.

Indent of displayed messages.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

引数 phy_ape に設定されている情報を印字します. デフォルトではメッセージは標準出力に出力されます. unit に装置番号を指定することで, 出力先を変更することが可能です.

Print information of phy_ape. By default messages are output to standard output. Unit number for output can be changed by unit argument.

Alias for PhysApePutLine

initialized( phy_ape ) result(result)
Function :
result :logical
phy_ape :type(PHYAPE), intent(in)

phy_ape が初期設定されている場合には .true. が, 初期設定されていない場合には .false. が返ります.

If phy_ape is initialized, .true. is returned. If phy_ape is not initialized, .false. is returned.

Alias for PhysApeInitialized

Private Instance methods

HstNmlAssoc( name, hist_nml, hptr, [err] )
Subroutine :
name :character(*), intent(in)
: 変数名. Variable name
hist_nml(:) :type(PHYAPE_HISTNML), pointer
: (in)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報. この配列の 1 番目にはデフォルトの設定が格納 され, 2 番目以降に個別の設定が格納される.

Individual data output information from "NAMELIST#phy_ape_history_nml". Default settings are stored in the first element of this array, and individual settings are stored in the second or more.

hptr :type(PHYAPE_HISTNML), pointer
: (out)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報.

Individual data output information from "NAMELIST#phy_ape_history_nml"

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

データ出力情報が格納されたポインタ配列 hist_nml 内の name に該当するデータの情報へ hptr を結合して返します.

hist_nml が割り付けられていない場合, エラーを返します.

Associate hptr to information of data correspond to name stored in pointer array hist_nml, and return it.

If hist_nml is not allocated, error is occured.

Alias for PhysApeHstNmlAssoc

HstSetXYZR( phy_ape, file, hptr, history, xdim, ydim, zdim, rdim, timedim, [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
file :character(*), intent(in)
: ヒストリデータのファイル名. History data filenames
hptr :type(PHYAPE_HISTNML), pointer
: (in)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報.

Individual data output information from "NAMELIST#phy_ape_history_nml"

history :type(GT_HISTORY), pointer
: (out)

gt4_history モジュール用構造体. Derived type for "gt4_history" module

xdim :character(*), intent(out)
: 経度の名称. Name of longitude
ydim :character(*), intent(out)
: 緯度の名称. Name of latitude
zdim :character(*), intent(out)
: $ sigma $ レベル (整数) の名称. Name of full $ sigma $ level
rdim :character(*), intent(out)
: $ sigma $ レベル (半整数) の名称. Name of half $ sigma $ level
timedim :character(*), intent(out)
: 時刻の名称. Name of time
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

このサブルーチンはモジュール内からの出力データの初期設定を行います. 内部的に使用されることを想定しているため, モジュール外部からは 呼び出さないでください.

file に与えられた名前のファイルをオープンし, ファイル ID などが 格納された GT_HISTORY 変数 history を返します. history は空状態にして与えてください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

This subroutine initializes settings of data output from this module. It is expected that this subroutine is used internally, so do not refer from the outside.

A file with name file is opened, and "GT_HISTORY" variable history that stores file ID etc. is returned. Give disassociated history.

If phy_ape is not initialized by "Create" yet, error is occurred.

Alias for PhysApeHstSetXYZR

NmlRead( nmlfile, history_varlist_, history_fileprefix_, hist_nml, [err] )
Subroutine :
nmlfile :character(*), intent(in)
: NAMELIST ファイルの名称. NAMELIST file name
history_varlist_ :character(*), intent(inout)
history_fileprefix_ :character(*), intent(inout)
hist_nml(:) :type(PHYAPE_HISTNML), pointer
: (inout)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報. この配列の 1 番目にはデフォルトの設定が格納 され, 2 番目以降に個別の設定が格納される.

Individual data output information from "NAMELIST#phy_ape_history_nml". Default settings are stored in the first element of this array, and individual settings are stored in the second or more.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

NAMELIST ファイル nmlfile から値を入力するための 内部サブルーチンです. Create 内で呼び出されることを 想定しています.

値が NAMELIST ファイル内で指定されていない場合には, 入力された値がそのまま返ります.

なお, nmlfile に空文字が与えられた場合, または 与えられた nmlfile を読み込むことができない場合, プログラムはエラーを発生させます.

This is an internal subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "Create".

A value not specified in NAMELIST file is returned without change.

If nmlfile is empty, or nmlfile can not be read, error is occurred.

This procedure input/output NAMELIST#phy_ape_varlist_nml, NAMELIST#phy_ape_history_nml .

Alias for PhysApeNmlRead

Subroutine :
phy_ape :type(PHYAPE), intent(inout)
xyz_Temp(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(inout)
: $ T $ . 温度. Temperature
xy_Ps(0:phy_ape%imax-1, 0:phy_ape%jmax-1) :real(DP), intent(inout)
: $ p_s $ . 地表面気圧. Surface pressure
xyz_QVap(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(inout)
: $ q $ . 比湿. Specific humidity
historyput_flag :logical, intent(in), optional
: データ出力のフラグ. SetTime によって時刻を明示的に 指定した場合には, この引数に .true. または .false. を指定する ことでデータ出力のオンオフを 明示的に指定する必要があります. デフォルトは .false. です.

Data output flag. When time is specified by "SetTime", explicit specification of data output on/off by specifying ".true." or ".false." to this argument. Default value is ".false.".

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

積雲パラメタリゼーションや乾燥対流調節など, いくつかの物理過程 を計算し, 与えられた風速, 温度, 地表面気圧, 比湿を調節して 返します. 詳細は phy_ape を参照してください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Some physical processes (cumulus parameterization, dry convective adjustment, etc) are calculated, and velocity, temperature, surface pressure, specific humidity are adjusted and returned. See "phy_ape" for detail.

If phy_ape is not initialized by "Create" yet, error is occurred.

[Source]

  subroutine PhysApeAdjust( phy_ape, xyz_Temp, xy_Ps, xyz_QVap, historyput_flag, err )
    !
    ! 積雲パラメタリゼーションや乾燥対流調節など, いくつかの物理過程
    ! を計算し, 与えられた風速, 温度, 地表面気圧, 比湿を調節して
    ! 返します. 詳細は phy_ape を参照してください. 
    !
    ! なお, 与えられた *phy_ape* が Create によって初期設定
    ! されていない場合, プログラムはエラーを発生させます.
    !
    ! Some physical processes (cumulus parameterization, 
    ! dry convective adjustment, etc) 
    ! are calculated, and velocity, temperature, 
    ! surface pressure, specific humidity are adjusted and returned. 
    ! See "phy_ape" for detail.
    !
    ! If *phy_ape* is not initialized by "Create" yet,
    ! error is occurred.
    !
    use phy_interpolate, only: InterpolateTemp, InterpolateGeoPot
    use phy_neg_moist, only: RemoveNegQVap
    use phy_cumulus_adjust, only: Cumulus
    use phy_lscond, only: LScaleCond
    use phy_implicit, only: GetMatrices, Integrate
    use phy_dryconv_adjust, only: DryConvectAdjust
    use dc_trace, only: BeginSub, EndSub
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_present, only: present_and_true
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT
    use dc_string, only: PutLine, Split, StrInclude
    use dc_date, only: EvalSec, EvalByUnit, mod, operator(*), operator(==), operator(<), operator(/), operator(+), operator(-)
    use gt4_history, only: HistoryPut
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    real(DP), intent(inout):: xyz_Temp (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ T $ .     温度. Temperature
    real(DP), intent(inout):: xy_Ps (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! $ p_s $ .   地表面気圧. Surface pressure
    real(DP), intent(inout):: xyz_QVap (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ q $ .     比湿. Specific humidity
    logical, intent(in), optional:: historyput_flag
                              ! データ出力のフラグ. 
                              ! SetTime によって時刻を明示的に
                              ! 指定した場合には, この引数に
                              ! .true. または .false. を指定する
                              ! ことでデータ出力のオンオフを
                              ! 明示的に指定する必要があります. 
                              ! デフォルトは .false. です. 
                              ! 
                              ! Data output flag. 
                              ! When time is specified by "SetTime", 
                              ! explicit specification of data output 
                              ! on/off by specifying ".true." or ".false." 
                              ! to this argument. 
                              ! Default value is ".false.". 
                              ! 
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  *phy_ape* から取り出される設定値
    !  Setting values fetched from *phy_ape*
    integer:: kmax ! 鉛直層数. 
                   ! Number of vertical level
    real(DP):: DelTime    ! $ \Delta t $ . タイムステップ. Time step


    !-----------------------------------
    !  負の比湿除去による地表面気圧の変化
    !  Surface pressure tendency for removal of negative moisture
    real(DP):: xy_DPsDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! $ \DP{p_s}{t} $ . 
                              ! 負の比湿除去による地表面気圧の変化. 
                              ! Surface pressure tendency for removal of negative moisture

!!$    !-----------------------------------
!!$    !  入力値の保存用変数
!!$    !  Variables for saving input value
!!$    real(DP):: xy_PsB (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
!!$                              ! $ p_s $ .   地表面気圧. Surface pressure

    !-----------------------------------
    !  温度 (整数レベル) と地表面気圧から内挿されるデータ
    !  Data interpolated from temperature (full level) and surface pressure
    real(DP):: xyr_Temp (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ T $ . 温度 (半整数レベル). 
                              ! Temperature (half level)
    real(DP):: xyz_Press (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ p $ . 気圧 (整数レベル). 
                              ! Air pressure (full level)
    real(DP):: xyr_Press (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ p $ . 気圧 (半整数レベル). 
                              ! Air pressure (half level)
    real(DP):: xyz_GeoPot (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \phi $ . ジオポテンシャル (整数レベル). 
                              ! Geo-potential (full level)
    real(DP):: xyr_GeoPot (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ \phi $ . ジオポテンシャル (半整数レベル). 
                              ! Geo-potential (half level)

    !-----------------------------------
    !  負の水蒸気除去に使用される量
    !  Values for removal of negative moisture
    real(DP):: xyz_DNegQVap1Dt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 比湿変化率 (1). 
                              ! Specific humidity tendency (1)
    real(DP):: xyz_DNegQVap2Dt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 比湿変化率 (2). 
                              ! Specific humidity tendency (2)

    !-----------------------------------
    !  湿潤過程 (積雲) で計算される量
    !  Values calculated by moist process (cumulus)
    real(DP):: xy_CumulusRain (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! 積雲スキームによる降水量. 
                              ! Precipitation by cumulus scheme
    real(DP):: xyz_DCumulusTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 積雲スキームによる温度変化率. 
                              ! Temperature tendency by cumulus scheme
    real(DP):: xyz_DCumulusQVapDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 積雲スキームによる比湿変化率. 
                              ! Specific humidity tendency by cumulus scheme

    !-----------------------------------
    !  湿潤過程 (大規模凝結) で計算される量
    !  Values calculated by moist process (large scale condensation)
    real(DP):: xyz_DLscTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 大規模凝結による温度変化率. 
                              ! Temperature tendency by large scale condensation
    real(DP):: xyz_DLscQVapDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 大規模凝結による比湿変化率. 
                              ! Specific humidity tendency by large scale condensation
    real(DP):: xy_LscRain (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! 大規模凝結による降水量. 
                              ! Precipitation by large scale condensation

    !-----------------------------------
    !  乾燥対流調節で計算される量
    !  Values calculated by dry convective adjustment
    real(DP):: xyz_DDryTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 乾燥対流調節による温度変化率. 
                              ! Temperature tendency by dry convective adjustment

    !-----------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    character(TOKEN):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hptr =>null()
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報.  
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml" 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: k               ! DO ループ用作業変数
                              ! Work variables for DO loop
    integer:: stat
    character(STRING):: cause_c
    character(*), parameter:: subname = 'PhysApeAdjust'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( .not. phy_ape % initialized ) then
      stat = DC_ENOTINIT
      cause_c = 'PHYAPE'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  *phy_ape* に格納されている設定値の取り出し
    !  Fetch setting values stored in *phy_ape*
    !-----------------------------------------------------------------
    kmax = phy_ape % kmax

    DelTime = phy_ape % DelTime

!!$    !-----------------------------------------------------------------
!!$    !  入力値の保存
!!$    !  Save input value
!!$    !-----------------------------------------------------------------
!!$    xy_PsB = xy_Ps

    !-----------------------------------------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間, 気圧とジオポテンシャルの算出 (1)
    !  Interpolate temperature on half $ \sigma $ level, and
    !  calculate pressure and geo-potential (1)
    !-----------------------------------------------------------------

    !-----------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間
    !  Interpolate temperature on half $ \sigma $ level
    call InterpolateTemp( phy_intpol = phy_ape % phy_intpol, xyz_Temp   = xyz_Temp, xyr_Temp   = xyr_Temp, err = err )                                             ! (out)

    !-----------------------------------
    !  気圧とジオポテンシャルの算出
    !  Calculate pressure and geo-potential
    call InterpolateGeoPot( phy_intpol = phy_ape % phy_intpol, xy_Ps      = xy_Ps, xyz_Temp   = xyz_Temp,   xyr_Temp   = xyr_Temp, xyz_Press  = xyz_Press,  xyr_Press  = xyr_Press, xyz_GeoPot = xyz_GeoPot, xyr_GeoPot = xyr_GeoPot, err = err )                                               ! (out)

    !-----------------------------------------------------------------
    !  負の水蒸気除去 (1)
    !  Remove negative moisture (1)
    !-----------------------------------------------------------------
    xyz_DNegQVap1Dt = 0.0_DP
    call RemoveNegQVap( phy_neg_mst = phy_ape % phy_neg_mst, xyr_Press = xyr_Press, xyz_QVap = xyz_QVap, xyz_DNegQVapDt = xyz_DNegQVap1Dt, err = err )                                              ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (積雲)
    !  Moist process (cumulus)
    !-----------------------------------------------------------------
    call Cumulus( phy_cumad = phy_ape % phy_cumad, xyz_Temp  = xyz_Temp,   xyz_QVap  = xyz_QVap, xyz_Press = xyz_Press,  xyr_Press = xyr_Press, xy_Rain = xy_CumulusRain, xyz_DTempDt = xyz_DCumulusTempDt, xyz_DQVapDt = xyz_DCumulusQVapDt, err = err )                                      ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (大規模凝結)
    !  Moist process (large scale condensation)
    !-----------------------------------------------------------------
    call LScaleCond( phy_lsc = phy_ape % phy_lsc, xyz_Temp  = xyz_Temp,   xyz_QVap  = xyz_QVap, xyz_Press = xyz_Press,  xyr_Press = xyr_Press, xy_Rain = xy_LscRain, xyz_DTempDt = xyz_DLscTempDt, xyz_DQVapDt = xyz_DLscQVapDt, err = err )                                       ! (out)

    !-----------------------------------------------------------------
    !  乾燥対流調節
    !  Dry convective adjustment
    !-----------------------------------------------------------------
    call DryConvectAdjust( phy_dryconv = phy_ape % phy_dryconv, xyz_Press = xyz_Press, xyr_Press = xyr_Press, xyz_Temp = xyz_Temp, xyz_DTempDt = xyz_DDryTempDt, err = err )                                               ! (out)

    !-----------------------------------------------------------------
    !  負の水蒸気除去 (2)
    !  Remove negative moisture (2)
    !-----------------------------------------------------------------
    xyz_DNegQVap2Dt = 0.0_DP
    call RemoveNegQVap( phy_neg_mst = phy_ape % phy_neg_mst, xyr_Press = xyr_Press, xyz_QVap = xyz_QVap, xyz_DNegQVapDt = xyz_DNegQVap2Dt, err = err )                                              ! (out)

!!$    ! ※ AGCM5 にはなかった, 地表面気圧の再計算 
!!$    !    (比湿が減った分だけ気圧を減らす??) をここにいったん退避する. 
!!$    !    やまだ由さん作成の dcpam3 に導入された物理過程に入ってた. 
!!$
!!$    !-----------------------------------  ※ これにいたっては PhysicsAPE にないといけないが....
!!$    !  地表面気圧の再計算
!!$    !  Recalculate surface pressure
!!$    do k = 0, kmax - 1
!!$      xy_Ps =   xy_Ps &
!!$        &     + xyz_DQVapDt(:,:,k)  &
!!$        &       * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) &
!!$        &       * 2.0_DP * DelTime
!!$    end do
!!$
!!$    !-----------------------------------
!!$    !  地表面気圧の再計算
!!$    !  Recalculate surface pressure
!!$    do k = 0, kmax - 1
!!$      xy_Ps =   xy_Ps &
!!$        &     + (   xyz_DLscQVapDt(:,:,k) &
!!$        &         + xyz_DCumulusQVapDt(:,:,k) &
!!$        &         + xyz_DNegQVap1Dt(:,:,k)     ) &
!!$        &       * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) &
!!$        &       * 2.0_DP * DelTime
!!$    end do
!!$
!!$    !-----------------------------------
!!$    !  地表面気圧の再計算
!!$    !  Recalculate surface pressure
!!$    do k = 0, kmax - 1
!!$       xy_Ps =   xy_Ps &
!!$         &     + xyz_DNegQVap2Dt(:,:,k) &
!!$         &       * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) &
!!$         &       * 2.0_DP * DelTime
!!$    end do

    xy_DPsDt = 0.0_DP
    !-----------------------------------
    !  地表面気圧の再計算
    !  Recalculate surface pressure
    do k = 0, kmax - 1
      xy_DPsDt =   xy_DPsDt + (   xyz_DLscQVapDt(:,:,k) + xyz_DCumulusQVapDt(:,:,k) + xyz_DNegQVap1Dt(:,:,k)     ) * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) )
    end do

    do k = 0, kmax - 1
      xy_DPsDt =   xy_DPsDt + xyz_DNegQVap2Dt(:,:,k) * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) )
    end do

    !----------------------------------------------------------------
    !  ヒストリファイルへのデータ出力
    !  History data output
    !----------------------------------------------------------------

    !-------------------------
    !  xy_LscRain + xy_CumulusRain の出力
    !  Output "xy_LscRain + xy_CumulusRain"
    name = 'Rain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_rain, varname = name, array = xy_LscRain + xy_CumulusRain, quiet = .false. )                      ! (in)
    end if

    !-------------------------
    !  xy_CumulusRain の出力
    !  Output "xy_CumulusRain"
    name = 'CumulusRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_cumrain, varname = name, array = xy_CumulusRain, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xy_LscRain の出力
    !  Output "xy_LscRain"
    name = 'LscRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_lscrain, varname = name, array = xy_LscRain, quiet = .false. )                            ! (in)
    end if

    !-------------------------
    !  xyz_DNegQVap1Dt, xyz_DNegQVap2Dt の出力
    !  Output "xyz_DNegQVap1Dt", "xyz_DNegQVap2Dt"
    name = 'DNegQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dnegqvapdt, varname = name, array = xyz_DNegQvap1Dt + xyz_DNegQvap2Dt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusTempDt + xyz_DLscTempDt の出力
    !  Output "xyz_DCumulusTempDt" + "xyz_DLscTempDt"
    name = 'DCumLscTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dcumlsctempdt, varname = name, array = xyz_DCumulusTempDt + xyz_DLscTempDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusQVapDt + xyz_DLscQVapDt の出力
    !  Output "xyz_DCumulusQVapDt" + "xyz_DLscQVapDt"
    name = 'DCumLscQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dcumlscqvapdt, varname = name, array = xyz_DCumulusQVapDt + xyz_DLscQVapDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DLscTempDt の出力
    !  Output "xyz_DLscTempDt"
    name = 'DLscTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dlsctempdt, varname = name, array = xyz_DLscTempDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DLscQVapDt の出力
    !  Output "xyz_DLscQVapDt"
    name = 'DLscQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dlscqvapdt, varname = name, array = xyz_DLscQVapDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusTempDt の出力
    !  Output "xyz_DCumulusTempDt"
    name = 'DCumulusTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dcumtempdt, varname = name, array = xyz_DCumulusTempDt, quiet = .false. )                                 ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusQVapDt の出力
    !  Output "xyz_DCumulusQVapDt"
    name = 'DCumulusQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dcumqvapdt, varname = name, array = xyz_DCumulusQVapDt, quiet = .false. )                                ! (in)
    end if

    !-------------------------
    !  xyz_DDryTempDt の出力
    !  Output "xyz_DDryTempDt"
    name = 'DDryTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_ddrytempdt, varname = name, array = xyz_DDryTempDt, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xy_DPsDt の出力
    !  Output "xy_DPsDt"
    name = 'DPsDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dpsdt, varname = name, array = xy_DPsDt, quiet = .false. )                          ! (in)
    end if

    !-----------------------------------------------------------------
    !  時刻の更新
    !  Update time
    !-----------------------------------------------------------------
    phy_ape % current_time = phy_ape % current_time + phy_ape % delta_time

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeAdjust
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

PHYAPE 型の変数の終了処理を行います. なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Deconstructor of "PHYAPE". Note that if phy_ape is not initialized by "Create" yet, error is occurred.

[Source]

  subroutine PhysApeClose( phy_ape, err )
    !
    ! PHYAPE 型の変数の終了処理を行います.
    ! なお, 与えられた *phy_ape* が Create によって初期設定
    ! されていない場合, プログラムはエラーを発生させます.
    !
    ! Deconstructor of "PHYAPE".
    ! Note that if *phy_ape* is not initialized by "Create" yet,
    ! error is occurred.
    !
    use phy_ground, only: Close
    use phy_interpolate, only: Close
    use phy_neg_moist, only: Close
    use phy_cumulus_adjust, only: Close
    use phy_lscond, only: Close
    use phy_implicit, only: Close
    use phy_radiation_flux, only: PhyRadFluxClose
    use phy_verdiff, only: Close
    use phy_surface_flux, only: Close
    use phy_dryconv_adjust, only: Close
    use dc_trace, only: BeginSub, EndSub
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT
    use dc_string, only: Split, StrInclude
    use gt4_history, only: HistoryClose
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    character(TOKEN):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hptr =>null()
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報.  
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml" 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    character(*), parameter:: subname = 'PhysApeClose'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( .not. phy_ape % initialized ) then
      stat = DC_ENOTINIT
      cause_c = 'PHYAPE'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  地表条件設定
    !  Configure ground condition
    !-----------------------------------------------------------------
    call Close( phy_grd = phy_ape % phy_grd, err = err )                             ! (out)

    !-----------------------------------------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間, 気圧とジオポテンシャルの算出
    !  Interpolate temperature on half $ \sigma $ level, and
    !  calculate pressure and geo-potential
    !-----------------------------------------------------------------
    call Close( phy_intpol = phy_ape % phy_intpol, err = err )                                   ! (out)

    !-----------------------------------------------------------------
    !  負の水蒸気除去
    !  Remove negative moisture
    !-----------------------------------------------------------------
    call Close( phy_neg_mst = phy_ape % phy_neg_mst, err = err )                                     ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (積雲)
    !  Moist process (cumulus)
    !-----------------------------------------------------------------
    call Close( phy_cumad = phy_ape % phy_cumad, err = err )                                 ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (大規模凝結)
    !  Moist process (large scale condensation)
    !-----------------------------------------------------------------
    call Close( phy_lsc = phy_ape % phy_lsc, err = err )                            ! (out)

    !-----------------------------------------------------------------
    !  陰解配列初期設定
    !  Initialize implicit matrices
    !-----------------------------------------------------------------
    call Close( phy_impl = phy_ape % phy_impl, err = err )                                 ! (out)

    !-----------------------------------------------------------------
    !  放射フラックス
    !  Radiation flux
    !-----------------------------------------------------------------
    call PhyRadFluxClose( phy_radflx = phy_ape % phy_radflx, err = err )                          ! (out)

    !-----------------------------------------------------------------
    !  鉛直拡散フラックス
    !  Vertical diffusion flux
    !-----------------------------------------------------------------
    call Close( phy_vdif = phy_ape % phy_vdif, err = err )                              ! (out)

    !-----------------------------------------------------------------
    !  地表面フラックス
    !  Surface flux
    !-----------------------------------------------------------------
    call Close( phy_surfflx = phy_ape % phy_surfflx, err = err )                                    ! (out)

    !-----------------------------------------------------------------
    !  乾燥対流調節
    !  Dry convective adjustment
    !-----------------------------------------------------------------
    call Close( phy_dryconv = phy_ape % phy_dryconv, err = err )                              ! (out)

    !-----------------------------------------------------------------
    !  ヒストリファイルへのデータ出力の終了処理
    !  Terminate the settings for history data output
    !-----------------------------------------------------------------

    !-------------------------
    !  xyr_UFlux の出力の終了処理
    !  Terminate the settings for "xyr_UFlux" output
    name = 'SurfStressX'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_surfstressx )         ! (inout)
    end if

    !-------------------------
    !  xyr_VFlux の出力の終了処理
    !  Terminate the settings for "xyr_VFlux" output
    name = 'SurfStressY'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_surfstressy )         ! (inout)
    end if

    !-------------------------
    !  xyr_TempFlux の出力の終了処理
    !  Terminate the settings for "xyr_TempFlux" output
    name = 'SensHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_sensheatflux )         ! (inout)
    end if

    !-------------------------
    !  xyr_QVapFlux の出力の終了処理
    !  Terminate the settings for "xyr_QVapFlux" output
    name = 'LatentHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_latentheatflux )         ! (inout)
    end if

    !-------------------------
    !  xy_LscRain + xy_CumulusRain の出力の終了処理
    !  Terminate the settings for "xy_LscRain + xy_CumulusRain" output
    name = 'Rain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_rain )    ! (inout)
    end if

    !-------------------------
    !  xy_CumulusRain の出力の終了処理
    !  Terminate the settings for "xy_CumulusRain" output
    name = 'CumulusRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_cumrain )         ! (inout)
    end if

    !-------------------------
    !  xy_LscRain の出力の終了処理
    !  Terminate the settings for "xy_LscRain" output
    name = 'LscRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_lscrain )        ! (inout)
    end if

    !-------------------------
    !  xyr_RadLFlux の出力の終了処理
    !  Terminate the settings for "xyr_RadLFlux" output
    name = 'RadLFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_radlflux )        ! (inout)
    end if

    !-------------------------
    !  xyr_RadSFlux の出力の終了処理
    !  Terminate the settings for "xyr_RadSFlux" output
    name = 'RadSFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_radsflux )        ! (inout)
    end if

    !-------------------------
    !  xyz_DNegQVap1Dt, xyz_DNegQVap2Dt の出力の終了処理
    !  Terminate the settings for "xyz_DNegQVap1Dt", "xyz_DNegQVap2Dt" output
    name = 'DNegQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dnegqvapdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DLscTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DLscTempDt" output
    name = 'DLscTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dlsctempdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DLscQVapDt の出力の終了処理
    !  Terminate the settings for "xyz_DLscQVapDt" output
    name = 'DLscQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dlscqvapdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DCumulusTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DCumulusTempDt" output
    name = 'DCumulusTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dcumtempdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DCumulusQVapDt の出力の終了処理
    !  Terminate the settings for "xyz_DCumulusQVapDt" output
    name = 'DCumulusQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dcumqvapdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DDryTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DDryTempDt" output
    name = 'DDryTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_ddrytempdt )        ! (inout)
    end if

    !-------------------------
    !  xy_DPsDt の出力の終了処理
    !  Terminate the settings for "xy_DPsDt" output
    name = 'DPsDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dpsdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DRadLTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DRadLTempDt" output
    name = 'DRadLTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dradltempdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DRadSTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DRadSTempDt" output
    name = 'DRadSTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dradstempdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DVerdiffUDt の出力の終了処理
    !  Terminate the settings for "xyz_DVerdiffUDt" output
    name = 'DVerdiffUDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dverdiffudt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DVerdiffVDt の出力の終了処理
    !  Terminate the settings for "xyz_DVerdiffVDt" output
    name = 'DVerdiffVDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dverdiffvdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DVerdiffTempDt の出力の終了処理
    !  Terminate the settings for "xyz_DVerdiffTempDt" output
    name = 'DVerdiffTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dverdifftempdt )        ! (inout)
    end if

    !-------------------------
    !  xyz_DVerdiffQVapDt の出力の終了処理
    !  Terminate the settings for "xyz_DVerdiffQVapDt" output
    name = 'DVerdiffQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then
      call HistoryClose( history = phy_ape % gthist_dverdiffqvapdt )        ! (inout)
    end if

    !-----------------------------------------------------------------
    !  軸データの割付解除
    !  Deallocate axes data
    !-----------------------------------------------------------------
    deallocate( phy_ape % x_Lon )
    deallocate( phy_ape % x_Lon_Weight )
    deallocate( phy_ape % y_Lat )
    deallocate( phy_ape % y_Lat_Weight )
    deallocate( phy_ape % z_Sigma )
    deallocate( phy_ape % r_Sigma )

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
    phy_ape % initialized = .false.
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeClose
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
imax :integer, intent(in)
: 経度格子点数. Number of grid points in longitude
jmax :integer, intent(in)
: 緯度格子点数. Number of grid points in latitude
kmax :integer, intent(in)
: 鉛直層数. Number of vertical level
x_Lon(0:imax-1) :real(DP), intent(in)
: 経度. Longitude
y_Lat(0:jmax-1) :real(DP), intent(in)
: 緯度. Latitude
z_Sigma(0:kmax-1) :real(DP), intent(in)
: $ sigma $ レベル (整数). Full $ sigma $ level
r_Sigma(0:kmax) :real(DP), intent(in)
: $ sigma $ レベル (半整数). Half $ sigma $ level
PI :real(DP), intent(in)
: $ pi $ . 円周率. Circular constant
RAir :real(DP), intent(in)
: $ R $ . 大気気体定数. Gas constant of air
Grav :real(DP), intent(in)
: $ g $ . 重力加速度. Gravitational acceleration
Cp :real(DP), intent(in)
: $ C_p $ . 大気定圧比熱. Specific heat of air at constant pressure
EL :real(DP), intent(in)
: $ L $ . 水の凝結の潜熱. Latent heat of condensation of water vapor
RVap :real(DP), intent(in)
: $ R_v $ . 水蒸気気体定数. Gas constant of water vapor
EpsV :real(DP), intent(in)
: $ epsilon_v $ . 水蒸気分子量比. Molecular weight ratio of water vapor
ES0 :real(DP), intent(in)
: $ e^{*} $ (273K) . 0 ℃での飽和蒸気圧. Saturated vapor pressure at 0 degrees C
StB :real(DP), intent(in)
: $ sigma_{SB} $ . ステファンボルツマン定数. Stefan-Boltzmann constant
FKarm :real(DP), intent(in)
: $ k $ . カルマン定数. Karman constant
DelTime :real(DP), intent(in)
: $ Delta t $ . タイムステップ. Time step
x_Lon_Weight(0:imax-1) :real(DP), intent(in), optional
: 経度座標重み. Weight of longitude
y_Lat_Weight(0:jmax-1) :real(DP), intent(in), optional
: 緯度座標重み. Weight of latitude
current_time_value :real(DP), intent(in), optional
: 現在時刻の数値. Numerical value of current time
current_time_unit :character(*), intent(in), optional
: 現在時刻の単位. Unit of current time
history_varlist :character(*), intent(in), optional
: ヒストリデータの出力変数リスト. カンマで区切って並べる. (例: "Rain,RadLFlux,RadSFlux" ).

List of variables output to history data. Delimiter is comma. (exp. "Rain,RadLFlux,RadSFlux" ).

history_interval_value :real(DP), intent(in), optional
: ヒストリデータの出力間隔の数値. Numerical value for interval of history data output
history_interval_unit :character(*), intent(in), optional
: ヒストリデータの出力間隔の単位. Unit for interval of history data output
history_precision :character(*), intent(in), optional
: ヒストリデータの精度. Precision of history data
history_fileprefix :character(*), intent(in), optional
: ヒストリデータのファイル名の接頭詞. Prefix of history data filenames
nmlfile :character(*), intent(in), optional
: NAMELIST ファイルの名称. この引数に空文字以外を与えた場合, 指定されたファイルから NAMELIST 変数群を読み込みます. ファイルを読み込めない場合にはエラーを 生じます.

NAMELIST 変数群の詳細に関しては NAMELIST#phy_ape_nml を参照してください.

NAMELIST file name. If nonnull character is specified to this argument, NAMELIST group name is loaded from the file. If the file can not be read, an error occurs.

See "NAMELIST#phy_ape_nml" for details about a NAMELIST group.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

PHYAPE 型の変数の初期設定を行います. 他のサブルーチンを使用する前に必ずこのサブルーチンによって PHYAPE 型の変数を初期設定してください.

なお, 与えられた phy_ape が既に初期設定されている場合, プログラムはエラーを発生させます.

NAMELIST を利用する場合には引数 nmlfileNAMELIST ファイル名 を与えてください. NAMELIST 変数群の詳細に関しては NAMELIST#phy_ape_nml を参照してください.

Constructor of "PHYAPE". Initialize phy_ape by this subroutine, before other procedures are used,

Note that if phy_ape is already initialized by this procedure, error is occurred.

In order to use NAMELIST, specify a NAMELIST filename to argument nmlfile. See "NAMELIST#phy_ape_nml" for details about a NAMELIST group.

[Source]

  subroutine PhysApeCreate( phy_ape, imax, jmax, kmax, x_Lon, y_Lat, z_Sigma, r_Sigma, PI, RAir, Grav, Cp, EL, RVap, EpsV, ES0, StB, FKarm, DelTime, x_Lon_Weight, y_Lat_Weight, current_time_value, current_time_unit, history_varlist, history_interval_value, history_interval_unit, history_precision, history_fileprefix, nmlfile, err )
    !
    ! PHYAPE 型の変数の初期設定を行います.
    ! 他のサブルーチンを使用する前に必ずこのサブルーチンによって
    ! PHYAPE 型の変数を初期設定してください.
    !
    ! なお, 与えられた *phy_ape* が既に初期設定されている場合,
    ! プログラムはエラーを発生させます.
    !
    ! NAMELIST を利用する場合には引数 *nmlfile* に NAMELIST ファイル名
    ! を与えてください. NAMELIST 変数群の詳細に関しては 
    ! NAMELIST#phy_ape_nml を参照してください. 
    !
    ! Constructor of "PHYAPE".
    ! Initialize *phy_ape* by this subroutine, 
    ! before other procedures are used, 
    !
    ! Note that if *phy_ape* is already initialized 
    ! by this procedure, error is occurred.
    !
    ! In order to use NAMELIST, specify a NAMELIST filename to 
    ! argument *nmlfile*. See "NAMELIST#phy_ape_nml"
    ! for details about a NAMELIST group.
    !
    use phy_ground, only: Create, Get
    use phy_interpolate, only: Create
    use phy_neg_moist, only: Create
    use phy_cumulus_adjust, only: Create
    use phy_lscond, only: Create
    use phy_implicit, only: Create
    use phy_radiation_flux, only: PhyRadFluxCreate
    use phy_verdiff, only: Create
    use phy_surface_flux, only: Create
    use phy_dryconv_adjust, only: Create
    use dc_trace, only: BeginSub, EndSub
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_present, only: present_and_not_empty, present_and_true
    use dc_message, only: MessageNotify
    use dc_error, only: StoreError, DC_NOERR, DC_EALREADYINIT, DC_EARGLACK, DC_ENEGATIVE, DC_ENOFILEREAD
    use dc_string, only: Split, StrInclude, StoA
    use dc_date, only: Create
    use gt4_history, only: GT_HISTORY, HistoryAddVariable, HistoryAddAttr
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    integer, intent(in):: imax ! 経度格子点数. 
                               ! Number of grid points in longitude
    integer, intent(in):: jmax ! 緯度格子点数. 
                               ! Number of grid points in latitude
    integer, intent(in):: kmax ! 鉛直層数. 
                               ! Number of vertical level
    real(DP), intent(in):: x_Lon (0:imax-1)
                              ! 経度. Longitude
    real(DP), intent(in):: y_Lat (0:jmax-1)
                              ! 緯度. Latitude
    real(DP), intent(in):: z_Sigma (0:kmax-1)
                              ! $ \sigma $ レベル (整数). 
                              ! Full $ \sigma $ level
    real(DP), intent(in):: r_Sigma (0:kmax)
                              ! $ \sigma $ レベル (半整数). 
                              ! Half $ \sigma $ level
    real(DP), intent(in):: PI         ! $ \pi $ .    円周率.         Circular constant
    real(DP), intent(in):: RAir       ! $ R $ .      大気気体定数.   Gas constant of air
    real(DP), intent(in):: Grav       ! $ g $ .      重力加速度.     Gravitational acceleration
    real(DP), intent(in):: Cp        ! $ C_p $ .    大気定圧比熱.   Specific heat of air at constant pressure
    real(DP), intent(in):: EL        ! $ L $ .      水の凝結の潜熱. Latent heat of condensation of water vapor
    real(DP), intent(in):: RVap      ! $ R_v $ .    水蒸気気体定数. Gas constant of water vapor
    real(DP), intent(in):: EpsV      ! $ \epsilon_v $ .        水蒸気分子量比. Molecular weight ratio of water vapor
    real(DP), intent(in):: ES0       ! $ e^{*} $ (273K) .      0 ℃での飽和蒸気圧. Saturated vapor pressure at 0 degrees C
    real(DP), intent(in):: StB       ! $ \sigma_{SB} $ .       ステファンボルツマン定数. Stefan-Boltzmann constant
    real(DP), intent(in):: FKarm     ! $ k $ .                 カルマン定数.   Karman constant
    real(DP), intent(in):: DelTime    ! $ \Delta t $ . タイムステップ. Time step
    real(DP), intent(in), optional:: x_Lon_Weight(0:imax-1)
                   ! 経度座標重み. 
                   ! Weight of longitude
    real(DP), intent(in), optional:: y_Lat_Weight(0:jmax-1)
                   ! 緯度座標重み. 
                   ! Weight of latitude
    real(DP), intent(in), optional:: current_time_value
                              ! 現在時刻の数値. Numerical value of current time
    character(*), intent(in), optional:: current_time_unit
                              ! 現在時刻の単位. Unit of current time
    character(*), intent(in), optional:: history_varlist
                              ! ヒストリデータの出力変数リスト. 
                              ! カンマで区切って並べる. 
                              ! (例: "Rain,RadLFlux,RadSFlux" ). 
                              ! 
                              ! List of variables output to history data. 
                              ! Delimiter is comma. 
                              ! (exp. "Rain,RadLFlux,RadSFlux" ). 
                              ! 
    real(DP), intent(in), optional:: history_interval_value
                              ! ヒストリデータの出力間隔の数値. 
                              ! Numerical value for interval of history data output
    character(*), intent(in), optional:: history_interval_unit
                              ! ヒストリデータの出力間隔の単位. 
                              ! Unit for interval of history data output
    character(*), intent(in), optional:: history_precision
                              ! ヒストリデータの精度. 
                              ! Precision of history data
    character(*), intent(in), optional:: history_fileprefix
                              ! ヒストリデータのファイル名の接頭詞. 
                              ! Prefix of history data filenames
    character(*), intent(in), optional :: nmlfile
                              ! NAMELIST ファイルの名称. 
                              ! この引数に空文字以外を与えた場合, 
                              ! 指定されたファイルから 
                              ! NAMELIST 変数群を読み込みます. 
                              ! ファイルを読み込めない場合にはエラーを
                              ! 生じます.
                              !
                              ! NAMELIST 変数群の詳細に関しては 
                              ! NAMELIST#phy_ape_nml 
                              ! を参照してください. 
                              !
                              ! NAMELIST file name. 
                              ! If nonnull character is specified to
                              ! this argument, 
                              ! NAMELIST group name is loaded from the 
                              ! file. 
                              ! If the file can not be read, 
                              ! an error occurs.
                              ! 
                              ! See "NAMELIST#phy_ape_nml" 
                              ! for details about a NAMELIST group.
                              ! 
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  地表面データ
    !  Data on surface
    real(DP):: xy_SurfTemp (0:imax-1, 0:jmax-1)
                              ! 地表面温度. 
                              ! Surface temperature
    real(DP):: xy_SurfAlbedo (0:imax-1, 0:jmax-1)
                              ! 地表アルベド. 
                              ! Surface albedo
    real(DP):: xy_SurfHumidCoeff (0:imax-1, 0:jmax-1)
                              ! 地表湿潤度. 
                              ! Surface humidity coefficient
    real(DP):: xy_SurfRoughLength (0:imax-1, 0:jmax-1)
                              ! 地表粗度長. 
                              ! Surface rough length
    real(DP):: xy_SurfHeatCapacity (0:imax-1, 0:jmax-1)
                              ! 地表熱容量. 
                              ! Surface heat capacity
    real(DP):: xy_GroundTempFlux (0:imax-1, 0:jmax-1)
                              ! 地中熱フラックス. 
                              ! Ground temperature flux
    integer:: xy_SurfCondition (0:imax-1, 0:jmax-1)
                              ! 地表状態. 
                              ! Surface condition

    !-----------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    character(TOKEN):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hptr =>null()
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報.  
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml" 
    character(STRING):: history_filename
                              ! ヒストリデータのファイル名. 
                              ! History data filenames
    character(STRING):: history_varlist_work
    type(GT_HISTORY), pointer:: history_work =>null()
                              ! gt4_history モジュール用構造体. 
                              ! Derived type for "gt4_history" module
    character(TOKEN):: xdim
                              ! 経度の名称. Name of longitude
    character(TOKEN):: ydim
                              ! 緯度の名称. Name of latitude
    character(TOKEN):: zdim
                              ! $ \sigma $ レベル (整数) の名称.  
                              ! Name of full $ \sigma $ level
    character(TOKEN):: rdim
                              ! $ \sigma $ レベル (半整数) の名称. 
                              ! Name of half $ \sigma $ level
    character(TOKEN):: timedim
                              ! 時刻の名称. Name of time

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    character(*), parameter:: subname = 'PhysApeCreate'
  continue
    call BeginSub( subname, version )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( phy_ape % initialized ) then
      stat = DC_EALREADYINIT
      cause_c = 'PHYAPE'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  引数の正当性のチェック
    !  Validation of arguments
    !-----------------------------------------------------------------
    if (imax < 1) then
      stat = DC_ENEGATIVE
      cause_c = 'imax'
      goto 999
    end if
    if (jmax < 1) then
      stat = DC_ENEGATIVE
      cause_c = 'jmax'
      goto 999
    end if
    if (kmax < 1) then
      stat = DC_ENEGATIVE
      cause_c = 'kmax'
      goto 999
    end if
    if (DelTime < 0.0_DP) then
      stat = DC_ENEGATIVE
      cause_c = 'DelTime'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  波数・格子点の設定
    !  Configure wave number and grid point
    !-----------------------------------------------------------------
    phy_ape % imax = imax
    phy_ape % jmax = jmax
    phy_ape % kmax = kmax

    !-----------------------------------------------------------------
    !  座標軸の設定
    !  Configure axes
    !-----------------------------------------------------------------
    allocate( phy_ape % x_Lon (0:imax-1) )
    phy_ape % x_Lon = x_Lon

    allocate( phy_ape % x_Lon_Weight (0:imax-1) )
    if ( present(x_Lon_Weight) ) then
      phy_ape % x_Lon_Weight = x_Lon_Weight
    else
      phy_ape % x_Lon_Weight = 2.0_DP * PI / imax
    end if

    allocate( phy_ape % y_Lat (0:jmax-1) )
    phy_ape % y_Lat = y_Lat

    allocate( phy_ape % y_Lat_Weight (0:jmax-1) )
    if ( present(y_Lat_Weight) ) then
      phy_ape % y_Lat_Weight = y_Lat_Weight
    else
      phy_ape % y_Lat_Weight = 2.0_DP / jmax
    end if

    allocate( phy_ape % z_Sigma (0:kmax-1) )
    phy_ape % z_Sigma = z_Sigma

    allocate( phy_ape % r_Sigma (0:kmax) )
    phy_ape % r_Sigma = r_Sigma

    !-----------------------------------------------------------------
    !  定数の設定
    !  Configure constants
    !-----------------------------------------------------------------
    phy_ape % PI = PI

    !-----------------------------------------------------------------
    !  $ \Delta t $ の設定
    !  Configure $ \Delta t $
    !-----------------------------------------------------------------
    phy_ape % DelTime = DelTime

    !-----------------------------------------------------------------
    !  時刻管理
    !  Time control
    !-----------------------------------------------------------------
    if ( present(current_time_value) .and. present(current_time_unit) ) then
      call Create( diff = phy_ape % current_time, value = current_time_value, unit = current_time_unit )       ! (in)
    else
      call Create( diff = phy_ape % current_time, value = 0.0_DP, unit = 'sec' )       ! (in)
    end if

    call Create( diff = phy_ape % delta_time, value = DelTime, unit = 'sec' )                 ! (in)

    !-----------------------------------------------------------------
    !  地表条件設定
    !  Configure ground condition
    !-----------------------------------------------------------------
    call Create( phy_grd = phy_ape % phy_grd, imax = imax, jmax = jmax, SurfTemp = 273.0_DP, SurfAlbedo = 0.15_DP, SurfHumidCoeff = 1.0_DP, SurfRoughLength = 1.0e-4_DP, SurfHeatCapacity = 0.0_DP, GroundTempFlux  = 0.0_DP, SurfCondition = 0, nmlfile = nmlfile, err = err )                              ! (out)

    call Get( phy_grd = phy_ape % phy_grd, xy_SurfTemp         = xy_SurfTemp, xy_SurfAlbedo       = xy_SurfAlbedo, xy_SurfHumidCoeff   = xy_SurfHumidCoeff, xy_SurfRoughLength  = xy_SurfRoughLength, xy_SurfCondition    = xy_SurfCondition, xy_SurfHeatCapacity = xy_SurfHeatCapacity, xy_GroundTempFlux   = xy_GroundTempFlux )     ! (out)

    !-----------------------------------------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間, 気圧とジオポテンシャルの算出
    !  Interpolate temperature on half $ \sigma $ level, and
    !  calculate pressure and geo-potential
    !-----------------------------------------------------------------
    call Create( phy_intpol = phy_ape % phy_intpol, imax = imax, jmax = jmax, kmax = kmax, z_Sigma = z_Sigma, r_Sigma = r_Sigma, RAir = RAir, Grav = Grav, nmlfile = nmlfile, err = err )                                    ! (out)

    !-----------------------------------------------------------------
    !  負の水蒸気除去
    !  Remove negative moisture
    !-----------------------------------------------------------------
    call Create( phy_neg_mst = phy_ape % phy_neg_mst, imax = imax, jmax = jmax, kmax = kmax, PI = PI, DelTime = DelTime, x_Lon_Weight = x_Lon_Weight, y_Lat_Weight = y_Lat_Weight, nmlfile = nmlfile, err = err )                                      ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (積雲)
    !  Moist process (cumulus)
    !-----------------------------------------------------------------
    call Create( phy_cumad = phy_ape % phy_cumad, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = Cp, RAir = RAir, EL = EL, RVap = RVap, EpsV = EpsV, ES0 = ES0, DelTime = DelTime, nmlfile = nmlfile, err = err )                                  ! (out)

    !-----------------------------------------------------------------
    !  湿潤過程 (大規模凝結)
    !  Moist process (large scale condensation)
    !-----------------------------------------------------------------
    call Create( phy_lsc = phy_ape % phy_lsc, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = Cp, EL = EL, RVap = RVap, EpsV = EpsV, ES0 = ES0, DelTime = DelTime, nmlfile = nmlfile, err = err )                                   ! (out)

    !-----------------------------------------------------------------
    !  陰解配列初期設定
    !  Initialize implicit matrices
    !-----------------------------------------------------------------
    call Create( phy_impl = phy_ape % phy_impl, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = Cp, EL = EL, DelTime = DelTime, xy_SurfHeatCapacity = xy_SurfHeatCapacity, xy_SurfCondition = xy_SurfCondition, xy_GroundTempFlux = xy_GroundTempFlux, nmlfile = nmlfile, err = err )                                  ! (out)

    !-----------------------------------------------------------------
    !  放射フラックス
    !  Radiation flux
    !-----------------------------------------------------------------
    call PhyRadFluxCreate( phy_radflx = phy_ape % phy_radflx, imax = imax, jmax = jmax, kmax = kmax, y_Lat = y_Lat, Grav = Grav, Cp = Cp, StB = StB, xy_SurfTemp = xy_SurfTemp, xy_SurfAlbedo = xy_SurfAlbedo, current_time_value = current_time_value, current_time_unit = current_time_unit, delta_time_value = DelTime, delta_time_unit = 'sec', delta_time_value_RadLong = 3.0_DP, delta_time_unit_RadLong = 'hour', delta_time_value_RadShort = 1.0_DP, delta_time_unit_RadShort = 'hour', nmlfile = nmlfile, err = err )                                   ! (out)

    !-----------------------------------------------------------------
    !  鉛直拡散フラックス
    !  Vertical diffusion flux
    !-----------------------------------------------------------------
    call Create( phy_vdif = phy_ape % phy_vdif, imax = imax, jmax = jmax, kmax = kmax, RAir = RAir, Cp = Cp, Grav = Grav, EL = EL, FKarm = FKarm, nmlfile = nmlfile, err = err )                               ! (out)

    !-----------------------------------------------------------------
    !  地表面フラックス
    !  Surface flux
    !-----------------------------------------------------------------
    call Create( phy_surfflx = phy_ape % phy_surfflx, imax = imax, jmax = jmax, kmax = kmax, RAir = RAir, Cp = Cp, Grav = Grav, EL = EL, ES0 = ES0, RVap = RVap, EpsV = EpsV, FKarm = FKarm, xy_SurfTemp = xy_SurfTemp, xy_SurfHumidCoeff = xy_SurfHumidCoeff, xy_SurfRoughLength = xy_SurfRoughLength, xy_SurfCondition = xy_SurfCondition, nmlfile = nmlfile, err = err )                                     ! (out)

    !-----------------------------------------------------------------
    !  乾燥対流調節
    !  Dry convective adjustment
    !-----------------------------------------------------------------
    call Create( phy_dryconv = phy_ape % phy_dryconv, imax = imax, jmax = jmax, kmax = kmax, RAir = RAir, Cp = Cp, DelTime = DelTime, nmlfile = nmlfile, err = err )                                     ! (out)

    !-----------------------------------------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    !-----------------------------------------------------------------
    if ( associated( phy_ape % hist_nml ) ) deallocate( phy_ape % hist_nml )
    allocate( phy_ape % hist_nml(1) )

    !-------------------------
    !  デフォルト値
    !  Default values
    history_varlist_work             = ''
    phy_ape % history_fileprefix = ''
    phy_ape % hist_nml(1) % name = ''
    phy_ape % hist_nml(1) % file = ''
    phy_ape % hist_nml(1) % history_interval_value = -1.0_DP
    phy_ape % hist_nml(1) % history_interval_unit  = 'sec'
    phy_ape % hist_nml(1) % history_precision      = 'float'
    phy_ape % hist_nml(1) % history_average        = .false.

    !-------------------------
    !  オプショナル引数からの値
    !  Values from optional arguments
    if ( present(history_varlist)        ) history_varlist_work                               = history_varlist       
    if ( present(history_fileprefix)     ) phy_ape % history_fileprefix                   = history_fileprefix    
    if ( present(history_interval_value) ) phy_ape % hist_nml(1) % history_interval_value = history_interval_value
    if ( present(history_interval_unit)  ) phy_ape % hist_nml(1) % history_interval_unit  = history_interval_unit 
    if ( present(history_precision)      ) phy_ape % hist_nml(1) % history_precision      = history_precision     

    !-------------------------
    !  NAMELIST からの値
    !  Values from NAMELIST
    if ( present_and_not_empty(nmlfile) ) then
      call MessageNotify( 'M', subname, 'Loading NAMELIST file "%c" ...', c1=trim(nmlfile) )
      call NmlRead ( nmlfile = nmlfile, history_varlist_    = history_varlist_work, history_fileprefix_ = phy_ape % history_fileprefix, hist_nml            = phy_ape % hist_nml, err = err )                          ! (out)
      if ( present_and_true(err) ) then
        call MessageNotify( 'W', subname, '"%c" can not be read.', c1=trim(nmlfile) )
        stat = DC_ENOFILEREAD
        cause_c = nmlfile
        goto 999
      end if
    end if

    !-----------------------------------------------------------------
    !  ヒストリーデータに関する時刻管理
    !  Time control for history data
    !-----------------------------------------------------------------
    call Create( diff = phy_ape % hist_nml(1) % history_interval_time, value = phy_ape % hist_nml(1) % history_interval_value, unit = phy_ape % hist_nml(1) % history_interval_unit )    ! (in)

    !-----------------------------------------------------------------
    !  内部ルーチン HstSetXYZR によるファイル作成
    !  Files are created by internal subroutine "HstSetXYZR"
    !-----------------------------------------------------------------
    call Split( str = history_varlist_work, sep = ',', carray = phy_ape % history_varlist_array ) ! (out)

    !-------------------------
    !  xyr_UFlux の出力設定
    !  Configure the settings for "xyr_UFlux" output
    name = 'SurfStressX'
    history_filename = trim(phy_ape % history_fileprefix) // 'SurfStressX.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_surfstressx => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_surfstressx, varname = 'SurfStressX', dims = StoA(xdim, ydim, rdim, timedim), longname = 'surface stress(x)', units = 'N m-2', xtype = hptr % history_precision )        ! (in)

    end if

    !-------------------------
    !  xyr_VFlux の出力設定
    !  Configure the settings for "xyr_VFlux" output
    name = 'SurfStressY'
    history_filename = trim(phy_ape % history_fileprefix) // 'SurfStressY.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_surfstressy => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_surfstressy, varname = 'SurfStressY', dims = StoA(xdim, ydim, rdim, timedim), longname = 'surface stress(y)', units = 'N m-2', xtype = hptr % history_precision )        ! (in)

    end if

    !-------------------------
    !  xyr_TempFlux の出力設定
    !  Configure the settings for "xyr_TempFlux" output
    name = 'SensHeatFlux'
    history_filename = trim(phy_ape % history_fileprefix) // 'SensHeatFlux.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_sensheatflux => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_sensheatflux, varname = 'SensHeatFlux', dims = StoA(xdim, ydim, rdim, timedim), longname = 'sensible heat flux', units = 'W m-2', xtype = hptr % history_precision )        ! (in)

    end if

    !-------------------------
    !  xyr_QVapFlux の出力設定
    !  Configure the settings for "xyr_QVapFlux" output
    name = 'LatentHeatFlux'
    history_filename = trim(phy_ape % history_fileprefix) // 'LatentHeatFlux.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_latentheatflux => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_latentheatflux, varname = 'LatentHeatFlux', dims = StoA(xdim, ydim, rdim, timedim), longname = 'latent heat flux', units = 'W m-2', xtype = hptr % history_precision )        ! (in)

    end if

    !-------------------------
    !  xy_LscRain + xy_CumulusRain の出力設定
    !  Configure the settings for "xy_LscRain + xy_CumulusRain" output
    name = 'Rain'
    history_filename = trim(phy_ape % history_fileprefix) // 'Rain.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_rain => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_rain, varname = 'Rain', dims = StoA(xdim, ydim, timedim), longname = 'precipitation', units = 'W m-2', xtype = hptr % history_precision )    ! (in)

    end if

    !-------------------------
    !  xy_CumulusRain の出力設定
    !  Configure the settings for "xy_CumulusRain" output
    name = 'CumulusRain'
    history_filename = trim(phy_ape % history_fileprefix) // 'CumulusRain.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_cumrain => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_cumrain, varname = 'CumulusRain', dims = StoA(xdim, ydim, timedim), longname = 'precipitation by cumulus scheme', units = 'W m-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xy_LscRain の出力設定
    !  Configure the settings for "xy_LscRain" output
    name = 'LscRain'
    history_filename = trim(phy_ape % history_fileprefix) // 'LscRain.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_lscrain => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_lscrain, varname = 'LscRain', dims = StoA(xdim, ydim, timedim), longname = 'precipitation by large scale condensation', units = 'W m-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyr_RadLFlux の出力設定
    !  Configure the settings for "xyr_RadLFlux" output
    name = 'RadLFlux'
    history_filename = trim(phy_ape % history_fileprefix) // 'RadLFlux.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_radlflux => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_radlflux, varname = 'RadLFlux', dims = StoA(xdim, ydim, rdim, timedim), longname = 'longwave flux', units = 'W m-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyr_RadSFlux の出力設定
    !  Configure the settings for "xyr_RadSFlux" output
    name = 'RadSFlux'
    history_filename = trim(phy_ape % history_fileprefix) // 'RadSFlux.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_radsflux => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_radsflux, varname = 'RadSFlux', dims = StoA(xdim, ydim, rdim, timedim), longname = 'shortwave flux', units = 'W m-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyz_DNegQVap1Dt, xyz_DNegQVap2Dt の出力設定
    !  Configure the settings for "xyz_DNegQVap1Dt", "xyz_DNegQVap2Dt" output
    name = 'DNegQVapDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DNegQVapDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dnegqvapdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dnegqvapdt, varname = 'DNegQVapDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'remove negative moist', units = 's-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DCumlusTempDt + xyz_DLscTempDt の出力設定
    !  Configure the settings for "xyz_DCumlusTempDt" + "xyz_DLscTempDt" output
    name = 'DCumLscTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DCumLscTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dcumlsctempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dcumlsctempdt, varname = 'DCumLscTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'cumulus and large-scale condensation heating', units = 'K s-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DCumlusQVapDt + xyz_DLscQVapDt の出力設定
    !  Configure the settings for "xyz_DCumlusQVapDt + xyz_DLscQVapDt" output
    name = 'DCumLscQVapDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DCumLscQVapDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dcumlscqvapdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dcumlscqvapdt, varname = 'DCumLscQVapDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'cumulus and large-scale condensation moistening', units = 's-1', xtype = hptr % history_precision )        ! (in)
    end if


    !-------------------------
    !  xyz_DLscTempDt の出力設定
    !  Configure the settings for "xyz_DLscTempDt" output
    name = 'DLscTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DLscTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dlsctempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dlsctempdt, varname = 'DLscTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'large-scale condensation heating', units = 'K s-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DLscQVapDt の出力設定
    !  Configure the settings for "xyz_DLscQVapDt" output
    name = 'DLscQVapDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DLscQVapDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dlscqvapdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dlscqvapdt, varname = 'DLscQVapDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'large-scale condensation moistening', units = 's-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusTempDt の出力設定
    !  Configure the settings for "xyz_DCumulusTempDt" output
    name = 'DCumulusTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DCumulusTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dcumtempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dcumtempdt, varname = 'DCumulusTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'cumulus condensation heating', units = 'K s-1', xtype = hptr % history_precision )         ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusQVapDt の出力設定
    !  Configure the settings for "xyz_DCumulusQVapDt" output
    name = 'DCumulusQVapDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DCumulusQVapDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dcumqvapdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dcumqvapdt, varname = 'DCumulusQVapDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'cumulus condensation moistening', units = 's-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DDryTempDt の出力設定
    !  Configure the settings for "xyz_DDryTempDt" output
    name = 'DDryTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DDryTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_ddrytempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_ddrytempdt, varname = 'DDryTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'temperature tendency by dry convective adjustment', units = 'K s-1', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xy_DPsDt の出力設定
    !  Configure the settings for "xy_DPsDt" output
    name = 'DPsDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DPsDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dpsdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dpsdt, varname = 'DPsDt', dims = StoA(xdim, ydim, timedim), longname = 'surface pressure tendency for removal of negative moisture', units = 'Pa s-1', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyz_DRadLTempDt の出力設定
    !  Configure the settings for "xyz_DRadLTempDt" output
    name = 'DRadLTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DRadLTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dradltempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dradltempdt, varname = 'DRadLTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'longwave heating', units = 'K s-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DRadSTempDt の出力設定
    !  Configure the settings for "xyz_DRadSTempDt" output
    name = 'DRadSTempDt'
    history_filename = trim(phy_ape % history_fileprefix) // 'DRadSTempDt.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dradstempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dradstempdt, varname = 'DRadSTempDt', dims = StoA(xdim, ydim, zdim, timedim), longname = 'shortwave heating', units = 'K s-1', xtype = hptr % history_precision )        ! (in)
    end if

    !-------------------------
    !  xyz_DUDt の出力設定
    !  Configure the settings for "xyz_DUDt" output
    name = 'DUDtAPE'
    history_filename = trim(phy_ape % history_fileprefix) // 'DUDtAPE.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dverdiffudt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dverdiffudt, varname = 'DUDtAPE', dims = StoA(xdim, ydim, zdim, timedim), longname = 'diffusive force(x)', units = 'm s-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyz_DVDt の出力設定
    !  Configure the settings for "xyz_DVDt" output
    name = 'DVDtAPE'
    history_filename = trim(phy_ape % history_fileprefix) // 'DVDtAPE.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dverdiffvdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dverdiffvdt, varname = 'DVDtAPE', dims = StoA(xdim, ydim, zdim, timedim), longname = 'diffusive force(y)', units = 'm s-2', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyz_DTempDt の出力設定
    !  Configure the settings for "xyz_DTempDt" output
    name = 'DTempDtAPE'
    history_filename = trim(phy_ape % history_fileprefix) // 'DTempDtAPE.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dverdifftempdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dverdifftempdt, varname = 'DTempDtAPE', dims = StoA(xdim, ydim, zdim, timedim), longname = 'diffusive heating', units = 'K s-1', xtype = hptr % history_precision )            ! (in)
    end if

    !-------------------------
    !  xyz_DQVapDt の出力設定
    !  Configure the settings for "xyz_DQVapDt" output
    name = 'DQVapDtAPE'
    history_filename = trim(phy_ape % history_fileprefix) // 'DQVapDtAPE.nc'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)
    if ( trim(hptr % file) /= '' ) history_filename = trim(hptr % file)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. hptr % history_interval_value > 0.0_DP ) then

      if ( associated( history_work ) ) nullify( history_work )

      call HstSetXYZR( phy_ape = phy_ape, file = history_filename, hptr = hptr, history = history_work, xdim = xdim, ydim = ydim, zdim = zdim, rdim = rdim, timedim = timedim, err = err )                                    ! (out)

      phy_ape % gthist_dverdiffqvapdt => history_work
      nullify( history_work )

      call HistoryAddVariable( history = phy_ape % gthist_dverdiffqvapdt, varname = 'DQVapDtAPE', dims = StoA(xdim, ydim, zdim, timedim), longname = 'diffusive moistening', units = 's-1', xtype = hptr % history_precision )            ! (in)
    end if

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
    phy_ape % initialized = .true.
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeCreate
Subroutine :
name :character(*), intent(in)
: 変数名. Variable name
hist_nml(:) :type(PHYAPE_HISTNML), pointer
: (in)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報. この配列の 1 番目にはデフォルトの設定が格納 され, 2 番目以降に個別の設定が格納される.

Individual data output information from "NAMELIST#phy_ape_history_nml". Default settings are stored in the first element of this array, and individual settings are stored in the second or more.

hptr :type(PHYAPE_HISTNML), pointer
: (out)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報.

Individual data output information from "NAMELIST#phy_ape_history_nml"

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

データ出力情報が格納されたポインタ配列 hist_nml 内の name に該当するデータの情報へ hptr を結合して返します.

hist_nml が割り付けられていない場合, エラーを返します.

Associate hptr to information of data correspond to name stored in pointer array hist_nml, and return it.

If hist_nml is not allocated, error is occured.

[Source]

  subroutine PhysApeHstNmlAssoc( name, hist_nml, hptr, err )
    !
    ! データ出力情報が格納されたポインタ配列 *hist_nml* 内の 
    ! *name* に該当するデータの情報へ *hptr* を結合して返します. 
    !
    ! *hist_nml* が割り付けられていない場合, エラーを返します. 
    !
    ! Associate *hptr* to information of data correspond to *name* 
    ! stored in pointer array *hist_nml*, and return it. 
    !
    ! If *hist_nml* is not allocated, error is occured. 
    !
    use dc_trace, only: BeginSub, EndSub
    use dc_string, only: PutLine, Printf, Split, StrInclude, StoA, JoinChar
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_error, only: StoreError, DC_NOERR, DC_ENOASSOC
    implicit none
    character(*), intent(in):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hist_nml(:)
                              ! (in)
                              ! 
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報. 
                              ! この配列の 1 番目にはデフォルトの設定が格納
                              ! され, 2 番目以降に個別の設定が格納される. 
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml". 
                              ! Default settings are stored in 
                              ! the first element of this array, 
                              ! and individual settings are stored in 
                              ! the second or more.
    type(PHYAPE_HISTNML), pointer:: hptr
                              ! (out)
                              ! 
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報. 
                              ! 
                              ! Individual data output information from
                              ! "NAMELIST#phy_ape_history_nml" 
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    integer:: hmax            ! hist_nml(:) のサイズ. 
                              ! Size of "hist_nml(:)"
    integer:: i               ! DO ループ用作業変数
                              ! Work variables for DO loop
    character(*), parameter:: subname = 'PhysApeHstNmlAssoc'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  割付状態の確認
    !  Check allocation
    !-----------------------------------------------------------------
    if ( .not. associated( hist_nml ) ) then
      stat = DC_ENOASSOC
      cause_c = 'hist_nml'
      goto 999
    end if

    if ( size( hist_nml ) < 1 ) then
      stat = DC_ENOASSOC
      cause_c = 'hist_nml'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  *hist_nml* に格納される, *name* に該当するデータへ結合
    !  Associate information of data correspond to *name* 
    !  stored in pointer array *hist_nml*
    !-----------------------------------------------------------------
    hmax = size( hist_nml )

    if ( associated(hptr) ) nullify( hptr )
    do i = 1, hmax
      if ( trim(hist_nml(i) % name) == trim(name) ) hptr => hist_nml(i)
    end do
    if ( .not. associated(hptr) ) hptr => hist_nml(1)

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeHstNmlAssoc
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
file :character(*), intent(in)
: ヒストリデータのファイル名. History data filenames
hptr :type(PHYAPE_HISTNML), pointer
: (in)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報.

Individual data output information from "NAMELIST#phy_ape_history_nml"

history :type(GT_HISTORY), pointer
: (out)

gt4_history モジュール用構造体. Derived type for "gt4_history" module

xdim :character(*), intent(out)
: 経度の名称. Name of longitude
ydim :character(*), intent(out)
: 緯度の名称. Name of latitude
zdim :character(*), intent(out)
: $ sigma $ レベル (整数) の名称. Name of full $ sigma $ level
rdim :character(*), intent(out)
: $ sigma $ レベル (半整数) の名称. Name of half $ sigma $ level
timedim :character(*), intent(out)
: 時刻の名称. Name of time
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

このサブルーチンはモジュール内からの出力データの初期設定を行います. 内部的に使用されることを想定しているため, モジュール外部からは 呼び出さないでください.

file に与えられた名前のファイルをオープンし, ファイル ID などが 格納された GT_HISTORY 変数 history を返します. history は空状態にして与えてください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

This subroutine initializes settings of data output from this module. It is expected that this subroutine is used internally, so do not refer from the outside.

A file with name file is opened, and "GT_HISTORY" variable history that stores file ID etc. is returned. Give disassociated history.

If phy_ape is not initialized by "Create" yet, error is occurred.

[Source]

  subroutine PhysApeHstSetXYZR( phy_ape, file, hptr, history, xdim, ydim, zdim, rdim, timedim, err )
    !
    ! このサブルーチンはモジュール内からの出力データの初期設定を行います. 
    ! 内部的に使用されることを想定しているため, モジュール外部からは
    ! 呼び出さないでください. 
    ! 
    ! *file* に与えられた名前のファイルをオープンし, ファイル ID などが
    ! 格納された GT_HISTORY 変数 *history* を返します. 
    ! *history* は空状態にして与えてください. 
    !
    ! なお, 与えられた *phy_ape* が Create によって初期設定
    ! されていない場合, プログラムはエラーを発生させます. 
    !
    ! This subroutine initializes settings of data output from this module. 
    ! It is expected that this subroutine is used internally, so 
    ! do not refer from the outside. 
    !
    ! A file with name *file* is opened, and "GT_HISTORY" variable 
    ! *history* that stores file ID etc. is returned. 
    ! Give disassociated *history*. 
    !
    ! If *phy_ape* is not initialized by "Create" yet, 
    ! error is occurred. 
    !
    use dc_trace, only: BeginSub, EndSub
    use dc_string, only: PutLine, Printf, Split, StrInclude, StoA, JoinChar
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT, DC_ENOASSOC
    use dc_date, only: Create, EvalSec, EvalByUnit
    use gt4_history, only: GT_HISTORY, HistoryCreate, HistoryAddVariable, HistoryPut, HistoryAddAttr
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    character(*), intent(in):: file
                              ! ヒストリデータのファイル名. 
                              ! History data filenames
    type(PHYAPE_HISTNML), pointer:: hptr
                              ! (in)
                              !
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報.  
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml" 
    type(GT_HISTORY), pointer:: history
                              ! (out)
                              !
                              ! gt4_history モジュール用構造体. 
                              ! Derived type for "gt4_history" module
    character(*), intent(out):: xdim
                              ! 経度の名称. Name of longitude
    character(*), intent(out):: ydim
                              ! 緯度の名称. Name of latitude
    character(*), intent(out):: zdim
                              ! $ \sigma $ レベル (整数) の名称.  
                              ! Name of full $ \sigma $ level
    character(*), intent(out):: rdim
                              ! $ \sigma $ レベル (半整数) の名称. 
                              ! Name of half $ \sigma $ level
    character(*), intent(out):: timedim
                              ! 時刻の名称. Name of time
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ. 
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します. 
                              ! 引数 *err* が与えられる場合, 
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます. 
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    character(*), parameter:: subname = 'PhysApeHstSetXYZR'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  割付状態の確認
    !  Check allocation
    !-----------------------------------------------------------------
    if ( .not. associated( hptr ) ) then
      stat = DC_ENOASSOC
      cause_c = 'hptr'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  これまでにオープンされたファイルのチェック
    !  Check already opened files
    !-----------------------------------------------------------------
    !※ HistoryInquire でファイル名が一致していることをチェック
    !※ HistoryInquire と hptr との内部情報の比較から, 
    !   origin, interval, 時刻の単位が一致することをチェック
    !
    ! 上記チェックが通れば, その gthist に結合.
    ! ファイルのみが一致し, それ以外が一致しない場合はエラーを返す. 
    ! ファイル名が一致しない場合, 下記のように allocate を行い, 
    ! リスト構造になっている ***_HISTLIST の要素を増やしてそちらから
    ! 作成済みの変数に結合する.

    if ( associated( history ) ) nullify( history )
    allocate( history )

    !-----------------------------------------------------------------
    !  軸の名称の設定
    !  Configure names of axes
    !-----------------------------------------------------------------
    xdim = 'lon'
    ydim = 'lat'
    zdim = 'sig'
    rdim = 'sigm'
    timedim = 'time'

    !-----------------------------------------------------------------
    !  HistoryCreate によるファイル作成
    !  Files are created by "HistoryCreate"
    !-----------------------------------------------------------------
    call HistoryCreate( history = history, file = file, title = 'Aqua planet experiment', source = 'dcpam4 : ' // trim(version), institution = 'GFD Dennou Club', dims = StoA(xdim, ydim, zdim, rdim, timedim), dimsizes = (/phy_ape % imax, phy_ape % jmax, phy_ape % kmax, phy_ape % kmax + 1, 0/), longnames = StoA('longitude', 'latitude', 'sigma at layer midpoints', 'sigma at layer end-points (half level)', 'time'), units = StoA('degree_east', 'degree_north', '1', '1', hptr % history_interval_unit), origin = real(EvalbyUnit(phy_ape % current_time, hptr % history_interval_unit)), interval = real(EvalbyUnit(hptr % history_interval_time, hptr % history_interval_unit)) )  ! (in)

    call HistoryAddAttr( history = history, varname = xdim, attrname = 'standard_name', value = 'longitude' )                          ! (in)
    call HistoryAddAttr( history = history, varname = ydim, attrname = 'standard_name', value = 'latitude' )                           ! (in)
    call HistoryAddAttr( history = history, varname = 'sig', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' )          ! (in)
    call HistoryAddAttr( history = history, varname = 'sigm', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' )          ! (in)
    call HistoryAddAttr( history = history, varname = 'time', attrname = 'standard_name', value = 'time' )                                ! (in)
    call HistoryAddAttr( history = history, varname = 'sig', attrname = 'positive', value = 'down' )                            ! (in)
    call HistoryAddAttr( history = history, varname = 'sigm', attrname = 'positive', value = 'down' )                            ! (in)

    call HistoryPut( history = history, varname = xdim, array = phy_ape % x_Lon / phy_ape % PI * 180.0_DP ) ! (in)
    call HistoryPut( history = history, varname = ydim, array = phy_ape % y_Lat / phy_ape % PI * 180.0_DP ) ! (in)
    call HistoryPut( history = history, varname = 'sig', array = phy_ape % z_Sigma ) ! (in)
    call HistoryPut( history = history, varname = 'sigm', array = phy_ape % r_Sigma ) ! (in)

    call HistoryAddVariable( history = history, varname = 'lon_weight', dims = StoA('lon'), longname = 'weight for integration in longitude', units = 'radian', xtype = 'double' )                ! (in)
    call HistoryAddAttr( history = history, varname = 'lon', attrname = 'gt_calc_weight', value = 'lon_weight' )                          ! (in)
    call HistoryPut( history = history, varname = 'lon_weight', array = phy_ape % x_Lon_Weight ) ! (in)

    call HistoryAddVariable( history = history, varname = 'lat_weight', dims = StoA('lat'), longname = 'weight for integration in latitude', units = 'radian', xtype = 'double' )               ! (in)
    call HistoryAddAttr( history = history, varname = 'lat', attrname = 'gt_calc_weight', value = 'lat_weight' )                          ! (in)
    call HistoryPut( history = history, varname = 'lat_weight', array = phy_ape % y_Lat_Weight ) ! (in)

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeHstSetXYZR
Function :
result :logical
phy_ape :type(PHYAPE), intent(in)

phy_ape が初期設定されている場合には .true. が, 初期設定されていない場合には .false. が返ります.

If phy_ape is initialized, .true. is returned. If phy_ape is not initialized, .false. is returned.

[Source]

  logical function PhysApeInitialized( phy_ape ) result(result)
    !
    ! *phy_ape* が初期設定されている場合には .true. が,
    ! 初期設定されていない場合には .false. が返ります.
    !
    ! If *phy_ape* is initialized, .true. is returned.
    ! If *phy_ape* is not initialized, .false. is returned.
    !
    implicit none
    type(PHYAPE), intent(in):: phy_ape
  continue
    result = phy_ape % initialized
  end function PhysApeInitialized
Subroutine :
nmlfile :character(*), intent(in)
: NAMELIST ファイルの名称. NAMELIST file name
history_varlist_ :character(*), intent(inout)
history_fileprefix_ :character(*), intent(inout)
hist_nml(:) :type(PHYAPE_HISTNML), pointer
: (inout)

NAMELIST#phy_ape_history_nml から入手される個別のデータ出力情報. この配列の 1 番目にはデフォルトの設定が格納 され, 2 番目以降に個別の設定が格納される.

Individual data output information from "NAMELIST#phy_ape_history_nml". Default settings are stored in the first element of this array, and individual settings are stored in the second or more.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

NAMELIST ファイル nmlfile から値を入力するための 内部サブルーチンです. Create 内で呼び出されることを 想定しています.

値が NAMELIST ファイル内で指定されていない場合には, 入力された値がそのまま返ります.

なお, nmlfile に空文字が与えられた場合, または 与えられた nmlfile を読み込むことができない場合, プログラムはエラーを発生させます.

This is an internal subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "Create".

A value not specified in NAMELIST file is returned without change.

If nmlfile is empty, or nmlfile can not be read, error is occurred.

This procedure input/output NAMELIST#phy_ape_varlist_nml, NAMELIST#phy_ape_history_nml .

[Source]

  subroutine PhysApeNmlRead( nmlfile, history_varlist_, history_fileprefix_, hist_nml, err )
    !
    ! NAMELIST ファイル *nmlfile* から値を入力するための
    ! 内部サブルーチンです. Create 内で呼び出されることを
    ! 想定しています.
    !
    ! 値が NAMELIST ファイル内で指定されていない場合には,
    ! 入力された値がそのまま返ります.
    !
    ! なお, *nmlfile* に空文字が与えられた場合, または
    ! 与えられた *nmlfile* を読み込むことができない場合, 
    ! プログラムはエラーを発生させます.
    !
    ! This is an internal subroutine to input values from 
    ! NAMELIST file *nmlfile*. This subroutine is expected to be
    ! called by "Create".
    !
    ! A value not specified in NAMELIST file is returned
    ! without change.
    !
    ! If *nmlfile* is empty, or *nmlfile* can not be read, 
    ! error is occurred.
    !
    use dc_trace, only: BeginSub, EndSub
    use dc_string, only: PutLine, Printf, Split, StrInclude, StoA, JoinChar
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_iounit, only: FileOpen
    use dc_message, only: MessageNotify
    use dc_present, only: present_and_true
    use dc_date, only: Create
    use dc_error, only: StoreError, DC_NOERR, DC_ENOFILEREAD, DC_ENOASSOC
    implicit none
    character(*), intent(in):: nmlfile
                              ! NAMELIST ファイルの名称. 
                              ! NAMELIST file name
    character(*), intent(inout):: history_varlist_
    character(STRING):: history_varlist
                              ! ヒストリデータの出力変数リスト. 
                              ! カンマで区切って並べる. 
                              ! (例: "Data1,Data2" ). 
                              ! 
                              ! List of variables output to history data. 
                              ! Delimiter is comma. 
                              ! (exp. "Data1,Data2" ). 
                              ! 
    character(*), intent(inout):: history_fileprefix_
    character(STRING):: history_fileprefix
                              ! ヒストリデータのファイル名の接頭詞. 
                              ! Prefix of history data filenames
    type(PHYAPE_HISTNML), pointer:: hist_nml(:)
                              ! (inout)
                              ! 
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報. 
                              ! この配列の 1 番目にはデフォルトの設定が格納
                              ! され, 2 番目以降に個別の設定が格納される. 
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml". 
                              ! Default settings are stored in 
                              ! the first element of this array, 
                              ! and individual settings are stored in 
                              ! the second or more. 
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

!!$    namelist /phy_ape_nml/ &
!!$      & param_c
!!$                              ! phy_ape モジュール用
!!$                              ! NAMELIST 変数群名.
!!$                              !
!!$                              ! phy_ape#Create を使用する際に, 
!!$                              ! オプショナル引数 *nmlfile* へ NAMELIST 
!!$                              ! ファイル名を指定することで, そのファイルから
!!$                              ! この NAMELIST 変数群を読み込みます.
!!$                              !
!!$                              ! NAMELIST group name for
!!$                              ! "phy_ape" module.
!!$                              ! 
!!$                              ! If a NAMELIST filename is specified to 
!!$                              ! an optional argument *nmlfile* 
!!$                              ! when "phy_ape#Create" is used, 
!!$                              ! this NAMELIST group is loaded from 
!!$                              ! the file.

    namelist /phy_ape_varlist_nml/ history_varlist
                              ! phy_ape モジュールの
                              ! ヒストリデータ出力リスト用
                              ! NAMELIST 変数群名.
                              !
                              ! phy_ape#Create を使用する際に, 
                              ! オプショナル引数 *nmlfile* へ NAMELIST 
                              ! ファイル名を指定することで, そのファイルから
                              ! この NAMELIST 変数群を読み込みます.
                              !
                              ! NAMELIST group name for
                              ! output list of history data of 
                              ! "phy_ape" module.
                              ! 
                              ! If a NAMELIST filename is specified to 
                              ! an optional argument *nmlfile* 
                              ! when "phy_ape#Create" is used, 
                              ! this NAMELIST group is loaded from 
                              ! the file.

    character(TOKEN):: name
                              ! 変数名. 
                              ! 空白の場合には, この他の設定値は
                              ! phy_ape モジュールにおいて
                              ! 出力されるデータ全ての
                              ! デフォルト値となります. 
                              ! 
                              ! Variable name. 
                              ! If blank is given, other values are 
                              ! used as default values of output data 
                              ! in "phy_ape". 
    character(STRING):: file
                              ! 出力ファイル名. 
                              ! これはデフォルト値としては使用されません. 
                              ! *name* に値が設定されている時のみ有効です. 
                              ! 
                              ! Output file name. 
                              ! This is not used as default value. 
                              ! This value is valid only when *name* is 
                              ! specified. 

    real(DP):: history_interval_value
                              ! ヒストリデータの出力間隔の数値. 
                              ! Numerical value for interval of history data output
    character(TOKEN):: history_interval_unit
                              ! ヒストリデータの出力間隔の単位. 
                              ! Unit for interval of history data output
    character(TOKEN):: history_precision
                              ! ヒストリデータの精度. 
                              ! Precision of history data

    logical:: history_average
                              ! 出力データの平均化フラグ. 
                              ! Flag for average of output data

    namelist /phy_ape_history_nml/ name, file, history_interval_value, history_interval_unit, history_precision, history_fileprefix, history_average
                              ! phy_ape モジュールのヒストリデータ用
                              ! NAMELIST 変数群名.
                              !
                              ! phy_ape#Create を使用する際に, 
                              ! オプショナル引数 *nmlfile* へ NAMELIST 
                              ! ファイル名を指定することで, そのファイルから
                              ! この NAMELIST 変数群を読み込みます.
                              !
                              ! NAMELIST group name for
                              ! history data of "phy_ape" module.
                              ! 
                              ! If a NAMELIST filename is specified to 
                              ! an optional argument *nmlfile* 
                              ! when "phy_ape#Create" is used, 
                              ! this NAMELIST group is loaded from 
                              ! the file.

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    integer:: unit_nml        ! NAMELIST ファイルオープン用装置番号. 
                              ! Unit number for NAMELIST file open
    integer:: iostat_nml      ! NAMELIST 読み込み時の IOSTAT. 
                              ! IOSTAT of NAMELIST read
    character(TOKEN):: pos_nml
                              ! NAMELIST 読み込み時のファイル位置. 
                              ! File position of NAMELIST read
    integer:: hmax            ! hist_nml(:) のサイズ. 
                              ! Size of "hist_nml(:)"
    type(PHYAPE_HISTNML), allocatable:: hist_nml_work(:)
    character(*), parameter:: subname = 'PhysApeNmlRead'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  割付状態の確認
    !  Check allocation
    !-----------------------------------------------------------------
    if ( .not. associated( hist_nml ) ) then
      stat = DC_ENOASSOC
      cause_c = 'hist_nml'
      goto 999
    end if

    if ( size( hist_nml ) < 1 ) then
      stat = DC_ENOASSOC
      cause_c = 'hist_nml'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  文字型引数を NAMELIST 変数群へ代入
    !  Substitute character arguments to NAMELIST group
    !-----------------------------------------------------------------
    history_varlist       = history_varlist_
    history_fileprefix    = history_fileprefix_

    !----------------------------------------------------------------
    !  NAMELIST ファイルのオープン
    !  Open NAMELIST file
    !----------------------------------------------------------------
    call FileOpen( unit = unit_nml, file = nmlfile, mode = 'r', err = err )                   ! (out)
    if ( present_and_true(err) ) then
      stat = DC_ENOFILEREAD
      cause_c = nmlfile
      goto 999
    end if

    !-----------------------------------------------------------------
    !  NAMELIST 変数群の取得
    !  Get NAMELIST group
    !-----------------------------------------------------------------

    !-------------------------
    !  係数などの取得
    !  Get coefficients etc.
!!$    rewind( unit_nml )
!!$    read( unit = unit_nml, & ! (in)
!!$      & nml = phy_ape_nml, iostat = iostat_nml ) ! (out)
!!$    if ( iostat_nml == 0 ) then
!!$      call MessageNotify( 'M', subname, &
!!$        & 'NAMELIST group "%c" is loaded from "%c".', &
!!$        & c1='phy_ape_nml', c2=trim(nmlfile) )
!!$      write(STDOUT, nml = phy_ape_nml)
!!$    else
!!$      call MessageNotify( 'W', subname, &
!!$        & 'NAMELIST group "%c" is not found in "%c" (iostat=%d).', &
!!$        & c1='phy_ape_nml', c2=trim(nmlfile), &
!!$        & i = (/iostat_nml/) )
!!$    end if
!!$
!!$    rewind( unit_nml )

    !-------------------------
    !  出力変数リスト取得
    !  Get list of output variables
    rewind( unit_nml )
    read( unit = unit_nml, nml = phy_ape_varlist_nml, iostat = iostat_nml ) ! (out)
    if ( iostat_nml == 0 ) then
      call MessageNotify( 'M', subname, 'NAMELIST group "%c" is loaded from "%c".', c1='phy_ape_varlist_nml', c2=trim(nmlfile) )
      write(STDOUT, nml = phy_ape_varlist_nml)
    else
      call MessageNotify( 'W', subname, 'NAMELIST group "%c" is not found in "%c" (iostat=%d).', c1='phy_ape_varlist_nml', c2=trim(nmlfile), i = (/iostat_nml/) )
    end if

    !-------------------------
    !  出力データの個別情報の取得
    !  Get individual information of output data
    rewind( unit_nml )
    iostat_nml = 0
    pos_nml = ''
    do while ( trim(pos_nml) /= 'APPEND' .and. iostat_nml == 0 )

      name                   = ''
      file                   = ''
      history_interval_value = hist_nml(1) % history_interval_value 
      history_interval_unit  = hist_nml(1) % history_interval_unit  
      history_precision      = hist_nml(1) % history_precision      
      history_average        = hist_nml(1) % history_average        

      read( unit = unit_nml, nml = phy_ape_history_nml, iostat = iostat_nml ) ! (out)
      inquire( unit_nml, position = pos_nml ) ! (out)

      if ( iostat_nml == 0 ) then
        call MessageNotify( 'M', subname, 'NAMELIST group "%c" is loaded from "%c".', c1='phy_ape_history_nml', c2=trim(nmlfile) )
        write(STDOUT, nml = phy_ape_history_nml)

        if ( name == '' ) then
          hist_nml(1) % name                   = name                   
          hist_nml(1) % file                   = ''
          hist_nml(1) % history_interval_value = history_interval_value 
          hist_nml(1) % history_interval_unit  = history_interval_unit  
          hist_nml(1) % history_precision      = history_precision      
          hist_nml(1) % history_average        = history_average        

          call Create( diff = hist_nml(1) % history_interval_time, value = history_interval_value, unit = history_interval_unit )       ! (in)

        elseif ( file /= '' ) then
          hmax = size( hist_nml )
          allocate( hist_nml_work(hmax) )
          hist_nml_work = hist_nml
          deallocate( hist_nml )
          allocate( hist_nml(hmax+1) )
          hist_nml(1:hmax) = hist_nml_work
          deallocate( hist_nml_work )

          if ( trim(history_varlist) /= '' ) history_varlist = trim( history_varlist ) // ','
          history_varlist = trim( history_varlist ) // trim(name)

          hist_nml(hmax+1) % name                   = name                   
          hist_nml(hmax+1) % file                   = file                   
          hist_nml(hmax+1) % history_interval_value = history_interval_value 
          hist_nml(hmax+1) % history_interval_unit  = history_interval_unit  
          hist_nml(hmax+1) % history_precision      = history_precision      
          hist_nml(hmax+1) % history_average        = history_average        

          call Create( diff = hist_nml(hmax+1) % history_interval_time, value = history_interval_value, unit = history_interval_unit )       ! (in)

        end if

      else
        call MessageNotify( 'W', subname, 'NAMELIST group "%c" is not found in "%c" any more (iostat=%d).', c1='phy_ape_history_nml', c2=trim(nmlfile), i = (/iostat_nml/) )
      end if
    end do

    close( unit_nml )

    !-----------------------------------------------------------------
    !  NAMELIST 変数群を文字型引数へ代入
    !  Substitute NAMELIST group to character arguments
    !-----------------------------------------------------------------
    history_varlist_       = history_varlist
    history_fileprefix_    = history_fileprefix

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeNmlRead
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
xyz_U(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ U $ . 東西風速. Zonal wind
xyz_V(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ V $ . 南北風速. Meridional wind
xyz_Temp(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ T $ . 温度. Temperature
xy_Ps(0:phy_ape%imax-1, 0:phy_ape%jmax-1) :real(DP), intent(in)
: $ p_s $ . 地表面気圧. Surface pressure
xyz_QVap(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(in)
: $ q $ . 比湿. Specific humidity
xyz_DUDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{U}{t} $ . 東西風速変化. Zonal wind tendency
xyz_DVDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{V}{t} $ . 南北風速変化. Meridional wind tendency
xyz_DTempDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{T}{t} $ . 温度変化. Temperature tendency
xyz_DQVapDt(0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1) :real(DP), intent(out)
: $ DP{q}{t} $ . 比湿変化. Temperature tendency
historyput_flag :logical, intent(in), optional
: データ出力のフラグ. SetTime によって時刻を明示的に 指定した場合には, この引数に .true. または .false. を指定する ことでデータ出力のオンオフを 明示的に指定する必要があります. デフォルトは .false. です.

Data output flag. When time is specified by "SetTime", explicit specification of data output on/off by specifying ".true." or ".false." to this argument. Default value is ".false.".

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

放射や鉛直拡散など, いくつかの物理過程 を計算し, 与えられた風速, 温度, 地表面気圧, 比湿から, それぞれの変化量を返します. 詳細は phy_ape を参照してください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Some physical processes (radiation, vertical diffusion, etc) are calculated, and tendencies of velocity, temperature, surface pressure, specific humidity are returned. See "phy_ape" for detail.

If phy_ape is not initialized by "Create" yet, error is occurred.

[Source]

  subroutine PhysApePhysicsAPE( phy_ape, xyz_U, xyz_V, xyz_Temp, xy_Ps, xyz_QVap, xyz_DUDt, xyz_DVDt, xyz_DTempDt, xyz_DQVapDt, historyput_flag, err )
    !
    ! 放射や鉛直拡散など, いくつかの物理過程
    ! を計算し, 与えられた風速, 温度, 地表面気圧, 比湿から, 
    ! それぞれの変化量を返します. 詳細は phy_ape を参照してください. 
    !
    ! なお, 与えられた *phy_ape* が Create によって初期設定
    ! されていない場合, プログラムはエラーを発生させます.
    !
    ! Some physical processes (radiation, vertical diffusion, etc) 
    ! are calculated, and tendencies of velocity, temperature, 
    ! surface pressure, specific humidity are returned. 
    ! See "phy_ape" for detail.
    !
    ! If *phy_ape* is not initialized by "Create" yet,
    ! error is occurred.
    !
    use phy_interpolate, only: InterpolateTemp, InterpolateGeoPot
    use phy_implicit, only: GetMatrices, Integrate
    use phy_radiation_flux, only: RadiationFlux, RadiationDTempDt
    use phy_verdiff, only: VerticalDiffusion
    use phy_surface_flux, only: SurfaceFlux
    use dc_trace, only: BeginSub, EndSub
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_present, only: present_and_true
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT
    use dc_string, only: PutLine, Split, StrInclude
    use dc_date, only: EvalSec, EvalByUnit, mod, operator(*), operator(==), operator(<), operator(/), operator(+), operator(-)
    use gt4_history, only: HistoryPut
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    real(DP), intent(in):: xyz_U (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ U $ . 東西風速. Zonal wind
    real(DP), intent(in):: xyz_V (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ V $ . 南北風速. Meridional wind

    real(DP), intent(in):: xyz_Temp (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ T $ .     温度. Temperature
    real(DP), intent(in):: xy_Ps (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! $ p_s $ .   地表面気圧. Surface pressure
    real(DP), intent(in):: xyz_QVap (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ q $ .     比湿. Specific humidity
    real(DP), intent(out):: xyz_DUDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \DP{U}{t} $ . 
                              ! 東西風速変化. 
                              ! Zonal wind tendency
    real(DP), intent(out):: xyz_DVDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \DP{V}{t} $ . 
                              ! 南北風速変化. 
                              ! Meridional wind tendency
    real(DP), intent(out):: xyz_DTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \DP{T}{t} $ . 
                              ! 温度変化. 
                              ! Temperature tendency
    real(DP), intent(out):: xyz_DQVapDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \DP{q}{t} $ . 
                              ! 比湿変化. 
                              ! Temperature tendency

    logical, intent(in), optional:: historyput_flag
                              ! データ出力のフラグ. 
                              ! SetTime によって時刻を明示的に
                              ! 指定した場合には, この引数に
                              ! .true. または .false. を指定する
                              ! ことでデータ出力のオンオフを
                              ! 明示的に指定する必要があります. 
                              ! デフォルトは .false. です. 
                              ! 
                              ! Data output flag. 
                              ! When time is specified by "SetTime", 
                              ! explicit specification of data output 
                              ! on/off by specifying ".true." or ".false." 
                              ! to this argument. 
                              ! Default value is ".false.". 
                              ! 
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  *phy_ape* から取り出される設定値
    !  Setting values fetched from *phy_ape*
    integer:: kmax ! 鉛直層数. 
                   ! Number of vertical level
    real(DP):: DelTime    ! $ \Delta t $ . タイムステップ. Time step

    !-----------------------------------
    !  温度 (整数レベル) と地表面気圧から内挿されるデータ
    !  Data interpolated from temperature (full level) and surface pressure
    real(DP):: xyr_Temp (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ T $ . 温度 (半整数レベル). 
                              ! Temperature (half level)
    real(DP):: xyz_Press (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ p $ . 気圧 (整数レベル). 
                              ! Air pressure (full level)
    real(DP):: xyr_Press (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ p $ . 気圧 (半整数レベル). 
                              ! Air pressure (half level)
    real(DP):: xyz_GeoPot (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \phi $ . ジオポテンシャル (整数レベル). 
                              ! Geo-potential (full level)
    real(DP):: xyr_GeoPot (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! $ \phi $ . ジオポテンシャル (半整数レベル). 
                              ! Geo-potential (half level)

    !-----------------------------------
    !  陰解配列
    !  Implicit matrices
    real(DP):: xyza_UVMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1, -1:1)
                              ! 速度陰解行列. 
                              ! Implicit matrix about velocity 
    real(DP):: xyza_TempMatrix  (0:phy_ape%imax-1, 0:phy_ape%jmax-1, -1:phy_ape%kmax-1, -1:1)
                              ! 温度陰解行列. 
                              ! Implicit matrix about temperature
    real(DP):: xyza_QVapMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1, -1:1)
                              ! 比湿陰解行列. 
                              ! Implicit matrix about specific humidity

    !-----------------------------------
    !  放射フラックスで計算される量
    !  Values calculated by radiation flux
    real(DP):: xyr_RadLFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 長波フラックス. 
                              ! Longwave flux
    real(DP):: xya_SurfRadLMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1, -1:1)
                              ! $ T $ 陰解行列: 地表. 
                              ! $ T $ implicit matrix: surface
    real(DP):: xyra_DelRadLFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax, 0:1)
                              ! 長波地表温度変化. 
                              ! Surface temperature tendency with longwave
    real(DP):: xyr_RadSFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 短波 (日射) フラックス. 
                              ! Shortwave (insolation) flux

    !-----------------------------------
    !  鉛直拡散フラックスで計算される量
    !  Values calculated by vertical diffusion flux
    real(DP):: xyr_UFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 東西風速フラックス. 
                              ! Zonal wind flux
    real(DP):: xyr_VFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 南北風速フラックス. 
                              ! Meridional wind flux
    real(DP):: xyr_TempFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 温度フラックス. 
                              ! Temperature flux
    real(DP):: xyr_QVapFlux (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax)
                              ! 比湿フラックス. 
                              ! Specific humidity flux

    !-----------------------------------
    !  地表面フラックスで計算される量
    !  Values calculated by surface flux
    real(DP):: xy_SurfUVMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              !  速度陰解行列: 地表. 
                              ! Implicit matrix about velocity: surface
    real(DP):: xyaa_SurfTempMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:1, -1:1)

                              ! 温度陰解行列: 地表. 
                              ! Implicit matrix about temperature: surface
    real(DP):: xyaa_SurfQVapMatrix (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:1, -1:1)
                              ! 比湿陰解行列: 地表. 
                              ! Implicit matrix about specific humidity: surface

    !-----------------------------------
    !  温度変換率
    !  Temperature tendency
    real(DP):: xyz_DRadLTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 長波加熱率. 
                              ! Temperature tendency with longwave
    real(DP):: xyz_DRadSTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! 短波加熱率. 
                              ! Temperature tendency with shortwave

    real(DP):: xyz_DTempDtWork (0:phy_ape%imax-1, 0:phy_ape%jmax-1, 0:phy_ape%kmax-1)
                              ! $ \DP{T}{t} $ . 
                              ! 温度変化. (データ出力用)
                              ! Temperature tendency (for data output)

    !-----------------------------------
    !  時間変化率の計算 (陰解法)
    !  Calculate tendency (implicit)
    real(DP):: xy_DSurfTempDt (0:phy_ape%imax-1, 0:phy_ape%jmax-1)
                              ! 地表面温度変化率. 
                              ! Surface temperature tendency

    !-----------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    character(TOKEN):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hptr =>null()
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報.  
                              ! 
                              ! Individual data output information from 
                              ! "NAMELIST#phy_ape_history_nml" 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: k               ! DO ループ用作業変数
                              ! Work variables for DO loop
    integer:: stat
    character(STRING):: cause_c
    character(*), parameter:: subname = 'PhysApePhysicsAPE'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( .not. phy_ape % initialized ) then
      stat = DC_ENOTINIT
      cause_c = 'PHYAPE'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  *phy_ape* に格納されている設定値の取り出し
    !  Fetch setting values stored in *phy_ape*
    !-----------------------------------------------------------------
    kmax = phy_ape % kmax

    DelTime = phy_ape % DelTime

    !-----------------------------------------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間, 気圧とジオポテンシャルの算出 (1)
    !  Interpolate temperature on half $ \sigma $ level, and
    !  calculate pressure and geo-potential (1)
    !-----------------------------------------------------------------

    !-----------------------------------
    !  温度の半整数 $ \sigma $ レベルの補間
    !  Interpolate temperature on half $ \sigma $ level
    call InterpolateTemp( phy_intpol = phy_ape % phy_intpol, xyz_Temp   = xyz_Temp, xyr_Temp   = xyr_Temp, err = err )                                             ! (out)

    !-----------------------------------
    !  気圧とジオポテンシャルの算出
    !  Calculate pressure and geo-potential
    call InterpolateGeoPot( phy_intpol = phy_ape % phy_intpol, xy_Ps      = xy_Ps, xyz_Temp   = xyz_Temp,   xyr_Temp   = xyr_Temp, xyz_Press  = xyz_Press,  xyr_Press  = xyr_Press, xyz_GeoPot = xyz_GeoPot, xyr_GeoPot = xyr_GeoPot, err = err )                                               ! (out)

    !-----------------------------------------------------------------
    !  陰解配列作成
    !  Create implicit matrices
    !-----------------------------------------------------------------
    call GetMatrices( phy_impl = phy_ape % phy_impl, xyr_Press = xyr_Press, xyr_UFlux = xyr_UFlux, xyr_VFlux = xyr_VFlux, xyr_TempFlux = xyr_TempFlux, xyr_QVapFlux = xyr_QVapFlux, xyza_UVMatrix = xyza_UVMatrix, xyza_TempMatrix = xyza_TempMatrix, xyza_QVapMatrix = xyza_QVapMatrix, err = err )                                                 ! (out)

    !-----------------------------------------------------------------
    !  放射フラックス
    !  Radiation flux
    !-----------------------------------------------------------------
    call RadiationFlux( phy_radflx = phy_ape % phy_radflx, xyz_Temp = xyz_Temp, xyz_QVap = xyz_QVap, xyr_Press = xyr_Press, xyr_RadLFlux = xyr_RadLFlux, xya_SurfRadLMatrix = xya_SurfRadLMatrix, xyra_DelRadLFlux = xyra_DelRadLFlux, xyr_RadSFlux = xyr_RadSFlux, err = err )                                          ! (out)

    !-----------------------------------------------------------------
    !  鉛直拡散フラックス
    !  Vertical diffusion flux
    !-----------------------------------------------------------------
    call VerticalDiffusion( phy_vdif = phy_ape % phy_vdif, xyz_U    = xyz_U,    xyz_V    = xyz_V, xyz_Temp = xyz_Temp, xyr_Temp = xyr_Temp, xyz_QVap = xyz_QVap, xyz_Press  = xyz_Press,  xyr_Press  = xyr_Press, xyz_GeoPot = xyz_GeoPot, xyr_GeoPot = xyr_GeoPot, xyr_UFlux = xyr_UFlux, xyr_VFlux = xyr_VFlux, xyr_TempFlux = xyr_TempFlux, xyr_QVapFlux = xyr_QVapFlux, xyza_UVMatrix   = xyza_UVMatrix, xyza_TempMatrix = xyza_TempMatrix, xyza_QVapMatrix = xyza_QVapMatrix, err = err )                                          ! (out)

    !-----------------------------------------------------------------
    !  地表面フラックス
    !  Surface flux
    !-----------------------------------------------------------------
    call SurfaceFlux( phy_surfflx = phy_ape % phy_surfflx, xyz_U = xyz_U, xyz_V = xyz_V, xyz_Temp = xyz_Temp, xyr_Temp = xyr_Temp, xyz_QVap = xyz_QVap, xyz_Press = xyz_Press, xyr_Press = xyr_Press, xyz_GeoPot = xyz_GeoPot, xyr_UFlux = xyr_UFlux, xyr_VFlux = xyr_VFlux, xyr_TempFlux = xyr_TempFlux, xyr_QVapFlux = xyr_QVapFlux, xy_SurfUVMatrix = xy_SurfUVMatrix, xyaa_SurfTempMatrix = xyaa_SurfTempMatrix, xyaa_SurfQVapMatrix = xyaa_SurfQVapMatrix, err = err )                                          ! (out)

    !-----------------------------------------------------------------
    !  時間変化率の計算 (陰解法)
    !  Calculate tendency (implicit)
    !-----------------------------------------------------------------
    call Integrate( phy_impl = phy_ape % phy_impl, xyr_UFlux = xyr_UFlux, xyr_VFlux = xyr_VFlux, xyr_TempFlux = xyr_TempFlux, xy_SurfRadSFlux = xyr_RadSFlux(:,:,0), xy_SurfRadLFlux = xyr_RadLFlux(:,:,0), xyr_QVapFlux = xyr_QVapFlux, xyza_UVMatrix = xyza_UVMatrix, xyza_TempMatrix = xyza_TempMatrix, xyza_QVapMatrix = xyza_QVapMatrix, xy_SurfUVMatrix = xy_SurfUVMatrix, xyaa_SurfTempMatrix = xyaa_SurfTempMatrix, xyaa_SurfQVapMatrix = xyaa_SurfQVapMatrix, xya_SurfRadLMatrix = xya_SurfRadLMatrix, xyz_DVerdiffUDt = xyz_DUDt, xyz_DVerdiffVDt = xyz_DVDt, xyz_DVerdiffTempDt = xyz_DTempDt, xy_DVerdiffSurfTempDt = xy_DSurfTempDt, xyz_DVerdiffQVapDt = xyz_DQVapDt, err = err )                                        ! (out)

    !-----------------------------------------------------------------
    !  運動量, 温度, 比湿フラックス補正
    !  Fluxes of momentum, temperature, specifid humidity correction
    !-----------------------------------------------------------------
    !  ※ dcpam3 最新版から導入予定
!!$    call FluxCorrection( phy_impl = phy_ape % phy_impl, &  ! (inout)
!!$      & xyz_DVerdiffUDt = xyz_DUDt, &               ! (in)
!!$      & xyz_DVerdiffVDt = xyz_DVDt, &               ! (in)
!!$      & xyz_DVerdiffTempDt = xyz_DTempDt, &         ! (in)
!!$      & xy_DVerdiffSurfTempDt = xy_DSurfTempDt, & ! (in)
!!$      & xyz_DVerdiffQVapDt = xyz_DQVapDt, &         ! (in)
!!$      & xyza_UVMatrix = xyza_UVMatrix, &                   ! (in)
!!$      & xyza_TempMatrix = xyza_TempMatrix, &               ! (in)
!!$      & xyza_QVapMatrix = xyza_QVapMatrix, &               ! (in)
!!$      & xy_SurfUVMatrix = xy_SurfUVMatrix, &               ! (in)
!!$      & xyaa_SurfTempMatrix = xyaa_SurfTempMatrix, &       ! (in)
!!$      & xyaa_SurfQVapMatrix = xyaa_SurfQVapMatrix, &       ! (in)
!!$      & xyr_UFlux = xyr_UFlux, xyr_VFlux = xyr_VFlux, &    ! (inout)
!!$      & xyr_TempFlux = xyr_TempFlux, &                     ! (inout)
!!$      & xyr_QVapFlux = xyr_QVapFlux )                      ! (inout)

    !-----------------------------------------------------------------
    !  放射フラックス補正
    !  Radiation flux correction
    !-----------------------------------------------------------------
    do k = 0, kmax
      xyr_RadLFlux(:,:,k) = xyr_RadLFlux(:,:,k) + (   xy_DSurfTempDt * xyra_DelRadLFlux(:,:,k,0) + xyz_DTempDt(:,:,1) * xyra_DelRadLFlux(:,:,k,1) ) * 2.0_DP * DelTime
    end do

    !-----------------------------------------------------------------
    !  放射による温度変化率
    !  Temperature tendency with radiation
    !-----------------------------------------------------------------
    call RadiationDTempDt( phy_radflx = phy_ape % phy_radflx, xyr_RadLFlux = xyr_RadLFlux, xyr_RadSFlux = xyr_RadSFlux, xyr_Press = xyr_Press, xyz_DRadLTempDt = xyz_DRadLTempDt, xyz_DRadSTempDt = xyz_DRadSTempDt, err = err )                                             ! (out)

    !-----------------------------------------------------------------
    !  重力波抵抗
    !  Gravity wave drag
    !-----------------------------------------------------------------
    !  ※ AGCM5 最新版から導入予定.

    !-----------------------------------------------------------------
    !  温度変化率へ放射による加熱率を追加
    !  Radiation heating is added to temperature tendency
    !-----------------------------------------------------------------
    xyz_DTempDtWork = xyz_DTempDt
    xyz_DTempDt = xyz_DTempDt + xyz_DRadLTempDt + xyz_DRadSTempDt


    !-----------------------------------------------------------------
    !  温度変化分の足し込み
    !  Add temperature tendency
    !-----------------------------------------------------------------
!!$    xyz_Temp =   xyz_Temp &
!!$      &        + ( xyz_DRadLTempDt + xyz_DRadSTempDt ) * 2.0_DP * DelTime
!!$
!!$    xyz_Temp =   xyz_Temp &
!!$      &        + ( xyz_DTempDt ) * 2.0_DP * DelTime
!!$
!!$    xyz_QVap =   xyz_QVap &
!!$      &        + ( xyz_DQVapDt ) * 2.0_DP * DelTime
!!$
!!$    xyz_U =   xyz_U &
!!$      &     + ( xyz_DUDt ) * 2.0_DP * DelTime
!!$
!!$    xyz_V =   xyz_V &
!!$      &     + ( xyz_DVDt ) * 2.0_DP * DelTime

!!$    ! ※ 未導入. (モジュール化されていない??)
!!$    call physics_integrate_surftemp( & 
!!$      &  xy_SurfTemp, xyr_RadLFlux, xyra_DelRadLFlux, & !(inout)
!!$      &  xy_DSurfTempDt, DelTime & !(in)
!!$      &  )

    !----------------------------------------------------------------
    !  ヒストリファイルへのデータ出力
    !  History data output
    !----------------------------------------------------------------

    !-------------------------
    !  xyr_UFlux の出力
    !  Output "xyr_UFlux"
    name = 'SurfStressX'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_surfstressx, varname = name, array = xyr_UFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyr_VFlux の出力
    !  Output "xyr_VFlux"
    name = 'SurfStressY'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_surfstressy, varname = name, array = xyr_VFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyr_TempFlux の出力
    !  Output "xyr_TempFlux"
    name = 'SensHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_sensheatflux, varname = name, array = xyr_TempFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyr_QVapFlux の出力
    !  Output "xyr_QVapFlux"
    name = 'LatentHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_latentheatflux, varname = name, array = xyr_QVapFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyr_RadLFlux の出力
    !  Output "xyr_RadLFlux"
    name = 'RadLFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_radlflux, varname = name, array = xyr_RadLFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyr_RadSFlux の出力
    !  Output "xyr_RadSFlux"
    name = 'RadSFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_radsflux, varname = name, array = xyr_RadSFlux, quiet = .false. )                             ! (in)
    end if

    !-------------------------
    !  xyz_DRadLTempDt の出力
    !  Output "xyz_DRadLTempDt"
    name = 'DRadLTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dradltempdt, varname = name, array = xyz_DRadLTempDt, quiet = .false. )                                ! (in)
    end if

    !-------------------------
    !  xyz_DRadSTempDt の出力
    !  Output "xyz_DRadSTempDt"
    name = 'DRadSTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dradstempdt, varname = name, array = xyz_DRadSTempDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DUDt の出力
    !  Output "xyz_DUDt"
    name = 'DUDtAPE'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dverdiffudt, varname = name, array = xyz_DUDt, quiet = .false. )                                ! (in)
    end if

    !-------------------------
    !  xyz_DVDt の出力
    !  Output "xyz_DVDt"
    name = 'DVDtAPE'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dverdiffvdt, varname = name, array = xyz_DVDt, quiet = .false. )                               ! (in)
    end if

    !-------------------------
    !  xyz_DTempDt の出力
    !  Output "xyz_DTempDt"
    name = 'DTempDtAPE'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dverdifftempdt, varname = name, array = xyz_DTempDtWork, quiet = .false. )                            ! (in)
    end if

    !-------------------------
    !  xyz_DQVapDt の出力
    !  Output "xyz_DQVapDt"
    name = 'DQVapDtAPE'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) .and. ( present_and_true( historyput_flag ) .or. hptr % history_interval_value > 0.0_DP .and. mod( phy_ape % current_time, hptr % history_interval_time) == 0 ) ) then

      call HistoryPut( history = phy_ape % gthist_dverdiffqvapdt, varname = name, array = xyz_DQVapDt, quiet = .false. )                                  ! (in)
    end if

    !-----------------------------------------------------------------
    !  時刻の更新は Adjust にておこなう
    !  "Adjust" updates time
    !-----------------------------------------------------------------
!!$    phy_ape % current_time = &
!!$      & phy_ape % current_time + phy_ape % delta_time

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApePhysicsAPE
Subroutine :
phy_ape :type(PHYAPE), intent(in)
unit :integer, intent(in), optional
: 出力先の装置番号. デフォルトの出力先は標準出力.

Unit number for output. Default value is standard output.

indent :character(*), intent(in), optional
: 表示されるメッセージの字下げ.

Indent of displayed messages.

err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

引数 phy_ape に設定されている情報を印字します. デフォルトではメッセージは標準出力に出力されます. unit に装置番号を指定することで, 出力先を変更することが可能です.

Print information of phy_ape. By default messages are output to standard output. Unit number for output can be changed by unit argument.

[Source]

  subroutine PhysApePutLine( phy_ape, unit, indent, err )
    !
    ! 引数 *phy_ape* に設定されている情報を印字します.
    ! デフォルトではメッセージは標準出力に出力されます. 
    ! *unit* に装置番号を指定することで, 出力先を変更することが可能です.
    !
    ! Print information of *phy_ape*.
    ! By default messages are output to standard output.
    ! Unit number for output can be changed by *unit* argument.
    !
    use phy_ground, only: PutLine
    use phy_interpolate, only: PutLine
    use phy_neg_moist, only: PutLine
    use phy_cumulus_adjust, only: PutLine
    use phy_lscond, only: PutLine
    use phy_implicit, only: PutLine
    use phy_radiation_flux, only: PhyRadFluxPutLine
    use phy_verdiff, only: PutLine
    use phy_surface_flux, only: PutLine
    use phy_dryconv_adjust, only: PutLine
    use dc_trace, only: BeginSub, EndSub
    use dc_string, only: PutLine, Printf, Split, StrInclude, StoA, JoinChar
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT
    use dc_string, only: Printf, PutLine
    implicit none
    type(PHYAPE), intent(in):: phy_ape
    integer, intent(in), optional:: unit
                              ! 出力先の装置番号.
                              ! デフォルトの出力先は標準出力.
                              !
                              ! Unit number for output.
                              ! Default value is standard output.
    character(*), intent(in), optional:: indent
                              ! 表示されるメッセージの字下げ.
                              !
                              ! Indent of displayed messages.
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    integer:: out_unit
    integer:: indent_len
    character(STRING):: indent_str
    integer:: hmax            ! hist_nml(:) のサイズ. 
                              ! Size of "hist_nml(:)"
    integer:: i               ! DO ループ用作業変数
                              ! Work variables for DO loop
    character(*), parameter:: subname = 'PhysApePutLine'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( present(unit) ) then
      out_unit = unit
    else
      out_unit = STDOUT
    end if

    indent_len = 0
    indent_str = ''
    if ( present(indent) ) then
      if ( len(indent) /= 0 ) then
        indent_len = len(indent)
        indent_str(1:indent_len) = indent
      end if
    end if


    !-----------------------------------------------------------------
    !  "PHYAPE" の設定の印字
    !  Print the settings for "PHYAPE"
    !-----------------------------------------------------------------
    if ( phy_ape % initialized ) then
      call Printf( out_unit, indent_str(1:indent_len) // '#<PHYAPE:: @initialized=%y', l = (/phy_ape % initialized/) )

      call Printf( out_unit, indent_str(1:indent_len) // ' @imax=%d @jmax=%d @kmax=%d', i = (/phy_ape % imax, phy_ape % jmax, phy_ape % kmax/) )

      call Printf( out_unit, indent_str(1:indent_len) // ' @PI=%f @DelTime=%f', d = (/phy_ape % PI, phy_ape % DelTime/) )

      call PutLine( phy_ape % x_Lon, unit = out_unit, lbounds = lbound(phy_ape % x_Lon), ubounds = ubound(phy_ape % x_Lon), indent = indent_str(1:indent_len) // ' @x_Lon=' )

      call PutLine( phy_ape % x_Lon_Weight, unit = out_unit, lbounds = lbound(phy_ape % x_Lon_Weight), ubounds = ubound(phy_ape % x_Lon_Weight), indent = indent_str(1:indent_len) // ' @x_Lon_Weight=' )

      call PutLine( phy_ape % y_Lat, unit = out_unit, lbounds = lbound(phy_ape % y_Lat), ubounds = ubound(phy_ape % y_Lat), indent = indent_str(1:indent_len) // ' @y_Lat=' )

      call PutLine( phy_ape % y_Lat_Weight, unit = out_unit, lbounds = lbound(phy_ape % y_Lat_Weight), ubounds = ubound(phy_ape % y_Lat_Weight), indent = indent_str(1:indent_len) // ' @y_Lat_Weight=' )

      call PutLine( phy_ape % z_Sigma, unit = out_unit, lbounds = lbound(phy_ape % z_Sigma), ubounds = ubound(phy_ape % z_Sigma), indent = indent_str(1:indent_len) // ' @z_Sigma=' )

      call PutLine( phy_ape % r_Sigma, unit = out_unit, lbounds = lbound(phy_ape % r_Sigma), ubounds = ubound(phy_ape % r_Sigma), indent = indent_str(1:indent_len) // ' @r_Sigma=' )

      call Printf( out_unit, indent_str(1:indent_len) // ' @history_varlist=%c', c1 = trim( JoinChar(phy_ape % history_varlist_array, ',') ) )

      call Printf( out_unit, indent_str(1:indent_len) // ' @history_fileprefix=%c', c1 = trim(phy_ape % history_fileprefix) )

      hmax = size( phy_ape % hist_nml )

      do i = 1, hmax

        call Printf( out_unit, indent_str(1:indent_len) // ' #<PHYAPE_HISTNML:: @name=%c @file=%c', c1 = trim(phy_ape % hist_nml(i) % name), c2 = trim(phy_ape % hist_nml(i) % file) )

        call Printf( out_unit, indent_str(1:indent_len) // '  @history_interval_value=%f @history_interval_unit=%c', d = (/phy_ape % hist_nml(i) % history_interval_value/), c1 = trim(phy_ape % hist_nml(i) % history_interval_unit) )

        call Printf( out_unit, indent_str(1:indent_len) // '  @history_precision=%c @history_average=%c', c1 = trim(phy_ape % hist_nml(i) % history_precision), l = (/ phy_ape % hist_nml(i) % history_average /) )

      end do

      call PutLine( phy_ape % phy_grd, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_intpol, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_neg_mst, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_cumad, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_lsc, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_impl, out_unit, indent_str(1:indent_len) // ' ', err )

      call PhyRadFluxPutLine( phy_ape % phy_radflx, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_vdif, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_surfflx, out_unit, indent_str(1:indent_len) // ' ', err )

      call PutLine( phy_ape % phy_dryconv, out_unit, indent_str(1:indent_len) // ' ', err )

      call Printf( out_unit, indent_str(1:indent_len) // '>' )
    else
      call Printf( out_unit, indent_str(1:indent_len) // '#<PHYAPE:: @initialized=%y>', l = (/phy_ape % initialized/) )
    end if

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApePutLine
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
current_time_value :real(DP), intent(in)
: 現在時刻の数値. Numerical value of current time
current_time_unit :character(*), intent(in)
: 現在時刻の単位. Unit of current time
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

phy_ape に対して時刻の設定を行います.

ヒストリデータの 出力時刻も設定します. 一度でもこのサブルーチンを呼んだ場合には, それ以後のヒストリデータ出力前にこのサブルーチンを呼び出し, 時刻の設定を行ってください. また, データを出力するサブルーチンに対しても オプショナル引数 historyput_flag に .true. を与えてください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Set time to phy_ape.

The output time of history data are specified. Once this subroutine is called, the time of history data must be specified by this routine before history data output. In additional, give ".true." to an optional argument "historyput_flag" of a data output subroutine.

If phy_ape is not initialized by "Create" yet, error is occurred.

[Source]

  subroutine PhysApeSetTime( phy_ape, current_time_value, current_time_unit, err )
    !
    ! *phy_ape* に対して時刻の設定を行います. 
    !
    ! ヒストリデータの
    ! 出力時刻も設定します. 一度でもこのサブルーチンを呼んだ場合には, 
    ! それ以後のヒストリデータ出力前にこのサブルーチンを呼び出し, 
    ! 時刻の設定を行ってください. 
    ! また, データを出力するサブルーチンに対しても 
    ! オプショナル引数 historyput_flag に .true. を与えてください. 
    !
    ! なお, 与えられた *phy_ape* が Create によって初期設定
    ! されていない場合, プログラムはエラーを発生させます.
    !
    ! Set time to *phy_ape*. 
    !
    ! The output time of history data are specified. 
    ! Once this subroutine is called, the time of history data must be 
    ! specified by this routine before history data output. 
    ! In additional, give ".true." to an optional argument 
    ! "historyput_flag" of a data output subroutine. 
    !
    ! If *phy_ape* is not initialized by "Create" yet, 
    ! error is occurred.
    !
    use dc_trace, only: BeginSub, EndSub
    use dc_string, only: PutLine, Printf, Split, StrInclude, StoA, JoinChar
    use dc_types, only: DP, STRING, TOKEN, STDOUT
    use dc_date, only: Create, EvalbyUnit
    use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT
    use gt4_history, only: HistorySetTime
    implicit none
    type(PHYAPE), intent(inout):: phy_ape
    real(DP), intent(in):: current_time_value
                              ! 現在時刻の数値. Numerical value of current time
    character(*), intent(in):: current_time_unit
                              ! 現在時刻の単位. Unit of current time
    logical, intent(out), optional:: err
                              ! 例外処理用フラグ.
                              ! デフォルトでは, この手続き内でエラーが
                              ! 生じた場合, プログラムは強制終了します.
                              ! 引数 *err* が与えられる場合,
                              ! プログラムは強制終了せず, 代わりに
                              ! *err* に .true. が代入されます.
                              !
                              ! Exception handling flag. 
                              ! By default, when error occur in 
                              ! this procedure, the program aborts. 
                              ! If this *err* argument is given, 
                              ! .true. is substituted to *err* and 
                              ! the program does not abort. 

    !-----------------------------------
    !  ヒストリファイルへのデータ出力設定
    !  Configure the settings for history data output
    character(TOKEN):: name
                              ! 変数名. Variable name
    type(PHYAPE_HISTNML), pointer:: hptr =>null()
                              ! NAMELIST#phy_ape_history_nml 
                              ! から入手される個別のデータ出力情報. 
                              ! 
                              ! Individual data output information from
                              ! "NAMELIST#phy_ape_history_nml" 

    !-----------------------------------
    !  作業変数
    !  Work variables
    integer:: stat
    character(STRING):: cause_c
    integer:: hmax            ! hist_nml(:) のサイズ. 
                              ! Size of "hist_nml(:)"
    integer:: i               ! DO ループ用作業変数
                              ! Work variables for DO loop
    character(*), parameter:: subname = 'PhysApeSetTime'
  continue
    call BeginSub( subname )
    stat = DC_NOERR
    cause_c = ''

    !-----------------------------------------------------------------
    !  初期設定のチェック
    !  Check initialization
    !-----------------------------------------------------------------
    if ( .not. phy_ape % initialized ) then
      stat = DC_ENOTINIT
      cause_c = 'PHYAPE'
      goto 999
    end if

    !-----------------------------------------------------------------
    !  時刻設定
    !  Configure time
    !-----------------------------------------------------------------
    call Create( diff = phy_ape % current_time, value = current_time_value, unit = current_time_unit )       ! (in)

    !-----------------------------------------------------------------
    !  ヒストリファイルへのデータの時刻設定
    !  Configure the time of history data
    !-----------------------------------------------------------------
    hmax = size( phy_ape % hist_nml )
    do i = 1, hmax
      phy_ape % hist_nml(i) % history_interval_value = - 1.0_DP
      call Create( diff = phy_ape % hist_nml(i) % history_interval_time, value = phy_ape % hist_nml(i) % history_interval_value, unit = phy_ape % hist_nml(i) % history_interval_unit )       ! (in)
    end do

    !-------------------------
    !  xyr_UFlux の時刻設定
    !  Configure the time of "xyr_UFlux"
    name = 'SurfStressX'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_surfstressx, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyr_VFlux の時刻設定
    !  Configure the time of "xyr_VFlux"
    name = 'SurfStressY'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_surfstressy, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyr_TempFlux の時刻設定
    !  Configure the time of "xyr_TempFlux"
    name = 'SensHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_sensheatflux, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyr_QVapFlux の時刻設定
    !  Configure the time of "xyr_QVapFlux"
    name = 'LatentHeatFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_latentheatflux, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xy_LscRain + xy_CumulusRain の時刻設定
    !  Configure the time of "xy_LscRain + xy_CumulusRain"
    name = 'Rain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_rain, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xy_CumulusRain の時刻設定
    !  Configure the time of "xy_CumulusRain"
    name = 'CumulusRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_cumrain, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xy_LscRain の時刻設定
    !  Configure the time of "xy_LscRain"
    name = 'LscRain'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_lscrain, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyr_RadLFlux の時刻設定
    !  Configure the time of "xyr_RadLFlux"
    name = 'RadLFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_radlflux, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyr_RadSFlux の時刻設定
    !  Configure the time of "xyr_RadSFlux"
    name = 'RadSFlux'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_radsflux, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DNegQVap1Dt, xyz_DNegQVap2Dt の時刻設定
    !  Configure the time of "xyz_DNegQVap1Dt", "xyz_DNegQVap2Dt"
    name = 'DNegQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dnegqvapdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DLscTempDt の時刻設定
    !  Configure the time of "xyz_DLscTempDt"
    name = 'DLscTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dlsctempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DLscQVapDt の時刻設定
    !  Configure the time of "xyz_DLscQVapDt"
    name = 'DLscQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dlscqvapdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusTempDt の時刻設定
    !  Configure the time of "xyz_DCumulusTempDt"
    name = 'DCumulusTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dcumtempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DCumulusQVapDt の時刻設定
    !  Configure the time of "xyz_DCumulusQVapDt"
    name = 'DCumulusQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dcumqvapdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DDryTempDt の時刻設定
    !  Configure the time of "xyz_DDryTempDt"
    name = 'DDryTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_ddrytempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xy_DPsDt の時刻設定
    !  Configure the time of "xy_DPsDt"
    name = 'DPsDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dpsdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DRadLTempDt の時刻設定
    !  Configure the time of "xyz_DRadLTempDt"
    name = 'DRadLTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dradltempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DRadSTempDt の時刻設定
    !  Configure the time of "xyz_DRadSTempDt"
    name = 'DRadSTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dradstempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DVerdiffUDt の時刻設定
    !  Configure the time of "xyz_DVerdiffUDt"
    name = 'DVerdiffUDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dverdiffudt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DVerdiffVDt の時刻設定
    !  Configure the time of "xyz_DVerdiffVDt"
    name = 'DVerdiffVDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dverdiffvdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DVerdiffTempDt の時刻設定
    !  Configure the time of "xyz_DVerdiffTempDt"
    name = 'DVerdiffTempDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dverdifftempdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-------------------------
    !  xyz_DVerdiffQVapDt の時刻設定
    !  Configure the time of "xyz_DVerdiffQVapDt"
    name = 'DVerdiffQVapDt'

    call HstNmlAssoc( hist_nml = phy_ape % hist_nml, name = name, hptr = hptr )                    ! (out)

    if ( StrInclude( phy_ape % history_varlist_array, name ) ) then
      call HistorySetTime( history = phy_ape % gthist_dverdiffqvapdt, time = real( EvalbyUnit( phy_ape % current_time, hptr % history_interval_unit) ) ) ! (in)
    end if

    !-----------------------------------------------------------------
    !  終了処理, 例外処理
    !  Termination and Exception handling
    !-----------------------------------------------------------------
999 continue
    call StoreError( stat, subname, err, cause_c )
    call EndSub( subname )
  end subroutine PhysApeSetTime
SetTime( phy_ape, current_time_value, current_time_unit, [err] )
Subroutine :
phy_ape :type(PHYAPE), intent(inout)
current_time_value :real(DP), intent(in)
: 現在時刻の数値. Numerical value of current time
current_time_unit :character(*), intent(in)
: 現在時刻の単位. Unit of current time
err :logical, intent(out), optional
: 例外処理用フラグ. デフォルトでは, この手続き内でエラーが 生じた場合, プログラムは強制終了します. 引数 err が与えられる場合, プログラムは強制終了せず, 代わりに err に .true. が代入されます.

Exception handling flag. By default, when error occur in this procedure, the program aborts. If this err argument is given, .true. is substituted to err and the program does not abort.

phy_ape に対して時刻の設定を行います.

ヒストリデータの 出力時刻も設定します. 一度でもこのサブルーチンを呼んだ場合には, それ以後のヒストリデータ出力前にこのサブルーチンを呼び出し, 時刻の設定を行ってください. また, データを出力するサブルーチンに対しても オプショナル引数 historyput_flag に .true. を与えてください.

なお, 与えられた phy_apeCreate によって初期設定 されていない場合, プログラムはエラーを発生させます.

Set time to phy_ape.

The output time of history data are specified. Once this subroutine is called, the time of history data must be specified by this routine before history data output. In additional, give ".true." to an optional argument "historyput_flag" of a data output subroutine.

If phy_ape is not initialized by "Create" yet, error is occurred.

Alias for PhysApeSetTime

version
Constant :
version = ’$Name: dcpam4-20080609-1 $’ // ’$Id: phy_ape.f90,v 1.31 2008-06-09 16:08:10 morikawa Exp $’ :character(*), parameter

[Validate]