Class | phy_jupiter_case00 |
In: |
physics/phy_jupiter_case00.f90
|
Note that Japanese and English are described in parallel.
木星大気を念頭においた, 仮想惑星実験を行います. 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.
Sugiyama et al. (2008) の手法を真似て, 2.0e5 〜 1.0e4 Pa の範囲に一定の冷却 (-1.0 K/day) を与えます.
1.0e4 Pa 以下の層へ, 速度の擾乱成分を潰すための減衰の効果. 時定数 1 日で東西平均値に合わせます.
最下層の比湿を 6.11641e-3 に固定します (Sugiyama, 2008 より) . 最下層の温度を $ 490 sigma_1^{R/C_p} $ に固定します (Sugiyama, 2008 より). ここで, $ sigma_1 $ [1] は最下層の中心, $ R $ [J kg-1 K-1] は乾燥大気の気体定数, $ C_p $ [J kg-1 K-1] は乾燥大気の定圧比熱です.
A virtual planet experiment like Jovian atmosphere is performed. Physical processes calculated in this module is as follows.
The method of Sugiyama et al. (2008) is mimicked. A constant cooling (-1.0 K/day) is given within the range of 2.0e5 — 1.0e4 Pa.
Effect of damping perturbation of velocity to layers under 1.0e4 Pa. Effect of damping is decided to Strength of damping is decided to match to east and west mean value by a time constant (1 day).
Specific humidity on bottom layer is fixed to 6.11641e-3 (for Sugiyama, 2008) . Temperature on bottom layer is fixed to $ 490 sigma_1^{R/C_p} $ (for Sugiyama, 2008), where $ sigma_1 $ [1] is center of botton layer, $ R $ [J kg-1 K-1] is specific heat of dry air at constant pressure, $ C_p $ [J kg-1 K-1] gas constant of dry air.
PhyJpCreate : | PHYJP 型変数の初期設定 |
PhysicsJupiter : | 木星大気を念頭においた仮想惑星の物理過程 (放射, 鉛直拡散, スポンジ層) の演算 |
PhysicsJupiterAdjust : | 木星大気を念頭においた仮想惑星の物理過程 (湿潤対流調節, 診断型大規模凝結, 乾燥対流調節, 最下層の温度と比湿の固定) の計算 |
PhyJpClose : | PHYJP 型変数の終了処理 |
PhyJpPutLine : | PHYJP 型変数に格納されている情報の印字 |
PhyJpinitialized : | PHYJP 型変数が初期設定されているか否か |
PhyJpSetTime : | 時刻の設定 |
———— : | ———— |
PhyJpCreate : | Constructor of "PHYJP" |
PhysicsJupiter : | Calculation of physical processes of virtual planet experiment like Jovian atmosphere (radiation, vertical diffusion, sponge layer) |
PhysicsJupiterAdjust : | Calculate some physical processes (moist convective adjustment, large scale condensation, dry convective adjustment, fix of temperature and specific humidity on bottom layer) |
PhyJpClose : | Deconstructor of "PHYJP" |
PhyJpPutLine : | Print information of "PHYJP" |
PhyJpinitialized : | Check initialization of "PHYJP" |
PhyJpSetTime : | Configure time |
始めに, PHYJP 型の変数を定義し, PhyJpCreate で初期設定を行います. PhysicsJupiter 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. PhysicsJupiterAdjust 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. PHYJP 型の変数の終了処理には PhyJpClose を用いてください.
First, initialize "PHYJP" by "PhyJpCreate". "PhysicsJupiter" 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.) "PhysicsJupiterAdjust" receives temperature, specific humidity, surface pressure, and adjusts them with cumulus parameterization etc., and returns them. In order to terminate "PHYJP", use "PhyJpClose".
Derived Type : | |||
initialized = .false. : | logical
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imax : | integer
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jmax : | integer
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kmax : | integer
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x_Lon(:) =>null() : | real(DP), pointer
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x_Lon_Weight(:) =>null() : | real(DP), pointer
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y_Lat(:) =>null() : | real(DP), pointer
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y_Lat_Weight(:) =>null() : | real(DP), pointer
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z_Sigma(:) =>null() : | real(DP), pointer
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r_Sigma(:) =>null() : | real(DP), pointer
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z_DelSigma(:) =>null() : | real(DP), pointer
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phy_grd : | type(PHYGRD)
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phy_cool : | type(PHYCOOL)
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phy_intpol : | type(PHYINTPOL)
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phy_vdif : | type(PHYVDIF)
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phy_impl : | type(PHYIMPL)
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phy_spo_lay : | type(PHYSPOLAY)
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phy_cumad : | type(PHYCUMAD)
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phy_lsc : | type(PHYLSC)
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phy_neg_mst : | type(PHYNEGMST)
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phy_dryconv : | type(PHYDRYCONV)
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phy_adj_fix : | type(PHYADJFIX)
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current_time : | type(DC_DIFFTIME)
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delta_time : | type(DC_DIFFTIME)
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gthstnml : | type(GTHST_NMLINFO)
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まず, PhyJpCreate で "PHYJP" 型の 変数を初期設定して下さい. 初期設定された "PHYJP" 型の変数を再度利用する際には, PhyJpClose によって終了処理を行ってください.
Initialize "PHYJP" variable by "PhyJpCreate" before usage. If you reuse "PHYJP" variable again for another application, terminate by "PhyJpClose".
Subroutine : | |||
phy_jp : | type(PHYJP), intent(inout) | ||
err : | logical, intent(out), optional
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PHYJP 型の変数の終了処理を行います. なお, 与えられた phy_jp が PhyJpCreate 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 "PHYJP". Note that if phy_jp is not initialized by "PhyJpCreate" yet, error is occurred.
subroutine PhyJpClose( phy_jp, err ) ! ! PHYJP 型の変数の終了処理を行います. ! なお, 与えられた *phy_jp* が PhyJpCreate ! 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 "PHYJP". ! Note that if *phy_jp* is not initialized ! by "PhyJpCreate" 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 use gt4_history_nmlinfo, only: HstNmlInfoClose, HstNmlInfoNames, HstNmlInfoAssocGtHist, HstNmlInfoPutLine use gt4_history, only: GT_HISTORY, HistoryClose, HistoryInitialized use phy_ground, only: Close use phy_interpolate, only: Close use phy_cooling_s08, only: PhyCoolClose use phy_implicit, only: Close use phy_verdiff, only: Close use phy_sponge_layer, only: PhySpoLayClose use phy_cumulus_adjust, only: Close use phy_lscond, only: Close use phy_neg_moist, only: Close use phy_dryconv_adjust, only: Close use phy_adjust_fixed, only: PhyAdjFixClose implicit none type(PHYJP), intent(inout):: phy_jp 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(STRING):: name = '' ! 変数名. Variable identifier character(STRING):: varnames ! 変数名リスト. ! List of variables character(TOKEN), pointer:: varnames_array(:) =>null() ! 変数名リスト配列. ! List of variables (array) integer:: i, vnmax type(GT_HISTORY), pointer:: gthist =>null() ! gt4_history モジュール用構造体. ! Derived type for "gt4_history" module !----------------------------------- ! 作業変数 ! Work variables integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyJpClose' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_jp % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYJP' goto 999 end if !----------------------------------------------------------------- ! 軸データの割付解除 ! Deallocate axes data !----------------------------------------------------------------- deallocate( phy_jp % x_Lon ) deallocate( phy_jp % x_Lon_Weight ) deallocate( phy_jp % y_Lat ) deallocate( phy_jp % y_Lat_Weight ) deallocate( phy_jp % z_Sigma ) deallocate( phy_jp % r_Sigma ) deallocate( phy_jp % z_DelSigma ) !----------------------------------------------------------------- ! 地表条件設定 ! Configure ground condition !----------------------------------------------------------------- call Close( phy_grd = phy_jp % 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_jp % phy_intpol, err = err ) ! (out) !----------------------------------------------------------------- ! 木星を模した大気上層への冷却 ! Cooling of atmospheric upper layer to imitate Jupiter !----------------------------------------------------------------- call PhyCoolClose( phy_cool = phy_jp % phy_cool, err = err ) ! (out) !----------------------------------------------------------------- ! 陰解配列初期設定 ! Initialize implicit matrices !----------------------------------------------------------------- call Close( phy_impl = phy_jp % phy_impl, err = err ) ! (out) !----------------------------------------------------------------- ! 鉛直拡散フラックス ! Vertical diffusion flux !----------------------------------------------------------------- call Close( phy_vdif = phy_jp % phy_vdif, err = err ) ! (out) !----------------------------------------------------------------- ! 速度を減衰させるためのスポンジ層 ! Sponge layer for damping velocity !----------------------------------------------------------------- call PhySpoLayClose( phy_spo_lay = phy_jp % phy_spo_lay, err = err ) ! (out) !----------------------------------------------------------------- ! 湿潤過程 (積雲) ! Moist process (cumulus) !----------------------------------------------------------------- call Close( phy_cumad = phy_jp % phy_cumad, err = err ) ! (out) !----------------------------------------------------------------- ! 湿潤過程 (大規模凝結) ! Moist process (large scale condensation) !----------------------------------------------------------------- call Close( phy_lsc = phy_jp % phy_lsc, err = err ) ! (out) !----------------------------------------------------------------- ! 負の水蒸気除去 ! Remove negative moisture !----------------------------------------------------------------- call Close( phy_neg_mst = phy_jp % phy_neg_mst, err = err ) ! (out) !----------------------------------------------------------------- ! 乾燥対流調節 ! Dry convective adjustment !----------------------------------------------------------------- call Close( phy_dryconv = phy_jp % phy_dryconv, err = err ) ! (out) !----------------------------------------------------------------- ! 最下層の比湿と温度を固定 ! Temperature and specific humidity on bottom layer are fixed !----------------------------------------------------------------- call PhyAdjFixClose( phy_adj_fix = phy_jp % phy_adj_fix, 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 !----------------------------------------------------------------- varnames = HstNmlInfoNames( phy_jp % gthstnml ) call Split( str = varnames, sep = ',', carray = varnames_array ) ! (out) vnmax = size( varnames_array ) do i = 1, vnmax name = varnames_array(i) if ( trim( name ) == '' ) exit nullify( gthist ) call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( HistoryInitialized( gthist ) ) then call HistoryClose( history = gthist, err = err ) ! (out) end if end do !----------------------------------------------------------------- ! ヒストリファイルへのデータ出力設定の割付解除 ! Deallocate the settings for history data output !----------------------------------------------------------------- call HstNmlInfoClose( phy_jp % gthstnml, err = err ) ! (out) !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- phy_jp % initialized = .false. 999 continue call StoreError( stat, subname, err, cause_c ) call EndSub( subname ) end subroutine PhyJpClose
Subroutine : | |||
phy_jp : | type(PHYJP), intent(inout) | ||
imax : | integer, intent(in)
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jmax : | integer, intent(in)
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kmax : | integer, intent(in)
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x_Lon(0:imax-1) : | real(DP), intent(in)
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y_Lat(0:jmax-1) : | real(DP), intent(in)
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z_Sigma(0:kmax-1) : | real(DP), intent(in)
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r_Sigma(0:kmax) : | real(DP), intent(in)
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DelTime : | real(DP), intent(in)
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GasRDry : | real(DP), intent(in)
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Grav : | real(DP), intent(in)
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CpDry : | real(DP), intent(in)
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LatentHeat : | real(DP), intent(in)
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GasRWet : | real(DP), intent(in)
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EpsV : | real(DP), intent(in)
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ES0 : | real(DP), intent(in)
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FKarm : | real(DP), intent(in)
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x_Lon_Weight(0:imax-1) : | real(DP), intent(in), optional
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y_Lat_Weight(0:jmax-1) : | real(DP), intent(in), optional
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current_time_value : | real, intent(in), optional
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current_time_unit : | character(*), intent(in), optional
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history_varlist : | character(*), intent(in), optional
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history_interval_value : | real, intent(in), optional
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history_interval_unit : | character(*), intent(in), optional
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history_precision : | character(*), intent(in), optional
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history_fileprefix : | character(*), intent(in), optional
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nmlfile : | character(*), intent(in), optional
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err : | logical, intent(out), optional
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PHYJP 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 PHYJP 型の変数を初期設定してください.
なお, 与えられた phy_jp 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_jupiter_case00_nml を参照してください.
Constructor of "PHYJP". Initialize phy_jp by this subroutine, before other procedures are used,
Note that if phy_jp is already initialized by this procedure, error is occurred.
In order to use NAMELIST, specify a NAMELIST filename to argument nmlfile. See "NAMELIST#phy_jupiter_case00_nml" for details about a NAMELIST group.
subroutine PhyJpCreate( phy_jp, imax, jmax, kmax, x_Lon, y_Lat, z_Sigma, r_Sigma, DelTime, GasRDry, Grav, CpDry, LatentHeat, GasRWet, EpsV, ES0, FKarm, 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 ) ! ! PHYJP 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 ! PHYJP 型の変数を初期設定してください. ! ! なお, 与えられた *phy_jp* 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_jupiter_case00_nml を参照してください. ! ! Constructor of "PHYJP". ! Initialize *phy_jp* by this subroutine, ! before other procedures are used, ! ! Note that if *phy_jp* is already initialized ! by this procedure, error is occurred. ! ! In order to use NAMELIST, specify a NAMELIST filename to ! argument *nmlfile*. See "NAMELIST#phy_jupiter_case00_nml" ! for details about a NAMELIST group. ! 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_present, only: present_and_not_empty, present_and_true, present_select use dc_message, only: MessageNotify use dc_error, only: StoreError, DC_NOERR, DC_EALREADYINIT, DC_EARGLACK, DC_ENEGATIVE, DC_ENOFILEREAD, USR_ERRNO, HST_EBADVARNAME use dc_date, only: DCDiffTimeCreate use dc_hash, only: HASH, DCHashPut, DCHashRewind, DCHashNext, DCHashDelete use gt4_history_nmlinfo, only: HstNmlInfoCreate, HstNmlInfoAdd, HstNmlInfoEndDefine, HstNmlInfoPutLine, HstNmlInfoAllNameValid use gt4_history, only: GT_HISTORY, HistoryAddVariable, HistoryAddAttr use phy_ground, only: Create, Get use phy_interpolate, only: Create use phy_cooling_s08, only: PhyCoolCreate use phy_implicit, only: Create use phy_verdiff, only: Create use phy_sponge_layer, only: PhySpoLayCreate use phy_cumulus_adjust, only: Create use phy_lscond, only: Create use phy_neg_moist, only: Create use phy_dryconv_adjust, only: Create use phy_adjust_fixed, only: PhyAdjFixCreate implicit none type(PHYJP), intent(inout):: phy_jp 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):: DelTime ! $ \Delta t $ . タイムステップ. Time step real(DP), intent(in):: GasRDry ! $ R $ [J kg-1 K-1]. ! 乾燥大気の気体定数. ! Gas constant of air real(DP), intent(in):: Grav ! $ g $ [m s-2]. ! 重力加速度. ! Gravitational acceleration real(DP), intent(in):: CpDry ! $ C_p $ [J kg-1 K-1]. ! 乾燥大気の定圧比熱. ! Specific heat of air at constant pressure real(DP), intent(in):: LatentHeat ! $ L $ [J kg-1] . ! 凝結の潜熱. ! Latent heat of condensation real(DP), intent(in):: GasRWet ! $ R_v $ [J kg-1 K-1]. ! 凝結成分の気体定数. ! Gas constant of condensible elements real(DP), intent(in):: EpsV ! $ \epsilon_v $ . ! 水蒸気分子量比. ! Molecular weight 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):: FKarm ! $ k $ . ! カルマン定数. ! Karman constant real(DP), intent(in), optional:: x_Lon_Weight (0:imax-1) ! 経度積分用座標重み. ! Weight for integration in longitude real(DP), intent(in), optional:: y_Lat_Weight (0:jmax-1) ! 緯度積分用座標重み. ! Weight for integration in latitude real, 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: "Data1,Data2" ). ! ! List of variables output to history data. ! Delimiter is comma. ! (exp. "Data1,Data2" ). ! real, 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_jupiter_case00_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_jupiter_case00_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(STRING):: name = '' ! 変数名. Variable identifier character(STRING):: longname = '' ! 変数の記述的名称. Descriptive name of variables character(STRING), allocatable:: dims(:) ! 座標軸の名称. Name of axes character(STRING):: units = '' ! 単位. Units type(GT_HISTORY), pointer:: gthist =>null() ! gt4_history モジュール用構造体. ! Derived type for "gt4_history" module character(TOKEN):: precision ! ヒストリデータの精度. ! Precision of history data logical:: average ! 出力データの平均化フラグ. ! Flag for average of output data type(HASH):: registered_varnames ! このモジュールから出力される変数名のリスト. ! ! List of names of variables output ! from this module. logical:: hash_end ! HASH オブジェクトの終了フラグ. ! ! End flag of "HASH" object logical:: allvar_invalid ! 無効な変数名のチェックフラグ. ! ! Check flag of invalid variable names character(STRING):: names_invalid ! 無効な変数名. ! ! Invalid variable names character(STRING):: nmlfile_msg ! NAMELIST ファイル名に関するメッセージ. ! ! Messages about NAMELIST file name !----------------------------------- ! 作業変数 ! Work variables integer:: k ! DO ループ用作業変数 ! Work variables for DO loop real(DP), parameter:: PI = 3.1415926535897930_DP ! $ \pi $ . 円周率. Circular constant integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyJpCreate' continue call BeginSub( subname, version ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( phy_jp % initialized ) then stat = DC_EALREADYINIT cause_c = 'PHYJP' goto 999 end if !----------------------------------------------------------------- ! 引数の正当性のチェック ! Validate 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_jp % imax = imax phy_jp % jmax = jmax phy_jp % kmax = kmax !----------------------------------------------------------------- ! 座標軸の設定 ! Configure axes !----------------------------------------------------------------- allocate( phy_jp % x_Lon (0:imax-1) ) phy_jp % x_Lon = x_Lon allocate( phy_jp % y_Lat (0:jmax-1) ) phy_jp % y_Lat = y_Lat allocate( phy_jp % z_Sigma (0:kmax-1) ) phy_jp % z_Sigma = z_Sigma allocate( phy_jp % r_Sigma (0:kmax) ) phy_jp % r_Sigma = r_Sigma allocate( phy_jp % x_Lon_Weight (0:imax-1) ) if ( present(x_Lon_Weight) ) then phy_jp % x_Lon_Weight = x_Lon_Weight else phy_jp % x_Lon_Weight = 2.0_DP * PI / imax end if allocate( phy_jp % y_Lat_Weight (0:jmax-1) ) if ( present(y_Lat_Weight) ) then phy_jp % y_Lat_Weight = y_Lat_Weight else phy_jp % y_Lat_Weight = 2.0_DP / jmax end if allocate( phy_jp % z_DelSigma (0:kmax-1) ) do k = 0, kmax - 1 phy_jp % z_DelSigma(k) = r_Sigma(k) - r_Sigma(k+1) end do !----------------------------------------------------------------- ! 時刻管理 ! Time control !----------------------------------------------------------------- if ( present(current_time_value) .and. present(current_time_unit) ) then call DCDiffTimeCreate( diff = phy_jp % current_time, value = real( current_time_value, DP ), unit = current_time_unit ) ! (in) else call DCDiffTimeCreate( diff = phy_jp % current_time, value = 0.0_DP, unit = 'sec' ) ! (in) end if call DCDiffTimeCreate( diff = phy_jp % delta_time, value = DelTime, unit = 'sec' ) ! (in) !----------------------------------------------------------------- ! "PHYJP" の設定 ! Configure the settings for "PHYJP" !----------------------------------------------------------------- !!$ phy_jp % CoefAlpha = CoefAlpha !!$ phy_jp % key00 = '' !----------------------------------------------------------------- ! 地表条件設定 ! Configure ground condition !----------------------------------------------------------------- call Create( phy_grd = phy_jp % phy_grd, imax = imax, jmax = jmax, SurfTemp = 490.0_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_jp % 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_jp % phy_intpol, imax = imax, jmax = jmax, kmax = kmax, z_Sigma = z_Sigma, r_Sigma = r_Sigma, RAir = GasRDry, Grav = Grav, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 木星を模した大気上層への冷却 ! Cooling of atmospheric upper layer to imitate Jupiter !----------------------------------------------------------------- call PhyCoolCreate( phy_cool = phy_jp % phy_cool, imax = imax, jmax = jmax, kmax = kmax, x_Lon = x_Lon, y_Lat = y_Lat, z_Sigma = z_Sigma, DelTime = DelTime, day_seconds = 86400.0_DP, DTempDdayCooling = -1.0_DP, UpperPress = 1.0e4_DP, LowerPress = 2.0e5_DP, x_Lon_Weight = phy_jp % x_Lon_Weight, y_Lat_Weight = phy_jp % y_Lat_Weight, z_DelSigma = phy_jp % z_DelSigma, current_time_value = current_time_value, current_time_unit = current_time_unit, history_interval_value = history_interval_value, history_interval_unit = history_interval_unit, history_precision = history_precision, history_fileprefix = history_fileprefix, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 陰解配列初期設定 ! Initialize implicit matrices !----------------------------------------------------------------- call Create( phy_impl = phy_jp % phy_impl, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = CpDry, EL = LatentHeat, DelTime = DelTime, xy_SurfHeatCapacity = xy_SurfHeatCapacity, xy_SurfCondition = xy_SurfCondition, xy_GroundTempFlux = xy_GroundTempFlux, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 鉛直拡散フラックス ! Vertical diffusion flux !----------------------------------------------------------------- call Create( phy_vdif = phy_jp % phy_vdif, imax = imax, jmax = jmax, kmax = kmax, RAir = GasRDry, Cp = CpDry, Grav = Grav, EL = LatentHeat, FKarm = FKarm, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 速度を減衰させるためのスポンジ層 ! Sponge layer for damping velocity !----------------------------------------------------------------- call PhySpoLayCreate( phy_spo_lay = phy_jp % phy_spo_lay, imax = imax, jmax = jmax, kmax = kmax, x_Lon = x_Lon, y_Lat = y_Lat, z_Sigma = z_Sigma, DelTime = DelTime, DampingTime = 86400.0_DP, UpperPress = 0.0_DP, LowerPress = 1.0e4_DP, x_Lon_Weight = phy_jp % x_Lon_Weight, y_Lat_Weight = phy_jp % y_Lat_Weight, z_DelSigma = phy_jp % z_DelSigma, current_time_value = current_time_value, current_time_unit = current_time_unit, history_interval_value = history_interval_value, history_interval_unit = history_interval_unit, history_precision = history_precision, history_fileprefix = history_fileprefix, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 湿潤過程 (積雲) ! Moist process (cumulus) !----------------------------------------------------------------- call Create( phy_cumad = phy_jp % phy_cumad, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = CpDry, RAir = GasRDry, EL = LatentHeat, RVap = GasRWet, 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_jp % phy_lsc, imax = imax, jmax = jmax, kmax = kmax, Grav = Grav, Cp = CpDry, EL = LatentHeat, RVap = GasRWet, EpsV = EpsV, ES0 = ES0, DelTime = DelTime, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 負の水蒸気除去 ! Remove negative moisture !----------------------------------------------------------------- call Create( phy_neg_mst = phy_jp % phy_neg_mst, imax = imax, jmax = jmax, kmax = kmax, PI = PI, DelTime = DelTime, x_Lon_Weight = phy_jp % x_Lon_Weight, y_Lat_Weight = phy_jp % y_Lat_Weight, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 乾燥対流調節 ! Dry convective adjustment !----------------------------------------------------------------- call Create( phy_dryconv = phy_jp % phy_dryconv, imax = imax, jmax = jmax, kmax = kmax, RAir = GasRDry, Cp = CpDry, DelTime = DelTime, nmlfile = nmlfile, err = err ) ! (out) !----------------------------------------------------------------- ! 最下層の比湿と温度を固定 ! Temperature and specific humidity on bottom layer are fixed !----------------------------------------------------------------- call PhyAdjFixCreate( phy_adj_fix = phy_jp % phy_adj_fix, imax = imax, jmax = jmax, kmax = 1, x_Lon = x_Lon, y_Lat = y_Lat, z_Sigma = z_Sigma, DelTime = DelTime, TempFixed = 490.0_DP * z_Sigma(0) ** ( GasRDry / CpDry ), QVapFixed = 0.00611641_DP, x_Lon_Weight = phy_jp % x_Lon_Weight, y_Lat_Weight = phy_jp % y_Lat_Weight, z_DelSigma = phy_jp % z_DelSigma, current_time_value = current_time_value, current_time_unit = current_time_unit, history_interval_value = history_interval_value, history_interval_unit = history_interval_unit, history_precision = history_precision, history_fileprefix = history_fileprefix, 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 !----------------------------------------------------------------- !------------------------- ! デフォルト値 ! Default values call HstNmlInfoCreate( gthstnml = phy_jp % gthstnml ) ! (inout) !------------------------- ! オプショナル引数からの値 ! Values from optional arguments call HstNmlInfoAdd( gthstnml = phy_jp % gthstnml, name = '', interval_value = history_interval_value, interval_unit = history_interval_unit, precision = history_precision, average = .false., fileprefix = history_fileprefix ) ! (in) if ( present(history_varlist) ) then call HstNmlInfoAdd( gthstnml = phy_jp % gthstnml, name = history_varlist ) ! (in) end if !----------------------------------------------------------------- ! NAMELIST からの値の読み込み ! Load 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, gthstnml = phy_jp % gthstnml, 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 call HstNmlInfoEndDefine( gthstnml = phy_jp % gthstnml, err = err ) ! (out) if ( present_and_true( err ) ) then stat = USR_ERRNO goto 999 end if !----------------------------------------------------------------- ! データ出力の初期設定 ! Initialize data output !----------------------------------------------------------------- !------------------------- ! xyr_UFlux の出力設定 ! Configure the settings for "xyr_UFlux" output name = 'UFluxJp' longname = 'surface stress(x)' units = 'N m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) ! 出力ファイルの初期設定. ! * gthist (gt4_history#GT_HISTORY) が設定される. ! Initialize output file. ! * "gthist" (gt4_history#GT_HISTORY) is configured. call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyr_VFlux の出力設定 ! Configure the settings for "xyr_VFlux" output name = 'VFluxJp' longname = 'surface stress(y)' units = 'N m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyr_TempFlux の出力設定 ! Configure the settings for "xyr_TempFlux" output name = 'TempFluxJp' longname = 'sensible heat flux' units = 'W m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyr_QVapFlux の出力設定 ! Configure the settings for "xyr_QVapFlux" output name = 'QVapFluxJp' longname = 'latent heat flux' units = 'W m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyr_RadLFlux の出力設定 ! Configure the settings for "xyr_RadLFlux" output name = 'RadLFluxJp' longname = 'longwave flux' units = 'W m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyr_RadSFlux の出力設定 ! Configure the settings for "xyr_RadSFlux" output name = 'RadSFlux' longname = 'shortwave flux' units = 'W m-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sigm', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DTempDtRadL の出力設定 ! Configure the settings for "xyz_DTempDtRadL" output name = 'DTempDtRadL' longname = 'longwave heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DTempDtRadS の出力設定 ! Configure the settings for "xyz_DTempDtRadS" output name = 'DTempDtRadS' longname = 'shortwave heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DUDt の出力設定 ! Configure the settings for "xyz_DUDt" output name = 'DUDtJp' longname = 'diffusive force(x)' units = 'm s-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DVDt の出力設定 ! Configure the settings for "xyz_DVDt" output name = 'DVDtJp' longname = 'diffusive force(y)' units = 'm s-2' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DTempDt の出力設定 ! Configure the settings for "xyz_DTempDt" output name = 'DTempDtJp' longname = 'diffusive heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DQVapDt の出力設定 ! Configure the settings for "xyz_DQVapDt" output name = 'DQVapDtJp' longname = 'diffusive moistening' units = 'kg kg-1 s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xy_CumulusRain + xy_LscRain の出力設定 ! Configure the settings for "xy_CumulusRain" + "xy_LscRain" output name = 'Rain' longname = 'precipitation' units = 'W m-2' allocate( dims(3) ) dims = StoA( 'lon', 'lat', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xy_CumulusRain の出力設定 ! Configure the settings for "xy_CumulusRain" output name = 'CumulusRain' longname = 'precipitation by cumulus scheme' units = 'W m-2' allocate( dims(3) ) dims = StoA( 'lon', 'lat', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xy_LscRain の出力設定 ! Configure the settings for "xy_LscRain" output name = 'LscRain' longname = 'precipitation by large scale condensation' units = 'W m-2' allocate( dims(3) ) dims = StoA( 'lon', 'lat', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DNegQVap1Dt + xyz_DNegQVap2Dt の出力設定 ! Configure the settings for "xyz_DNegQVap1Dt" + "xyz_DNegQVap2Dt" output name = 'DNegQVapDt' longname = 'removed negative moist' units = 's-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DCumulusTempDt + xyz_DLscTempDt の出力設定 ! Configure the settings for "xyz_DCumulusTempDt" + "xyz_DLscTempDt" output name = 'DCumLscTempDt' longname = 'cumulus and large-scale condensation heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DCumulusQVapDt + xyz_DLscQVapDt の出力設定 ! Configure the settings for "xyz_DCumulusQVapDt" + "xyz_DLscQVapDt" output name = 'DCumLscQVapDt' longname = 'cumulus and large-scale condensation moistening' units = 'kg kg-1 s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DCumulusTempDt の出力設定 ! Configure the settings for "xyz_DCumulusTempDt" output name = 'DCumulusTempDt' longname = 'cumulus condensation heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DLscTempDt の出力設定 ! Configure the settings for "xyz_DLscTempDt" output name = 'DLscTempDt' longname = 'large-scale condensation heating' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DCumulusQVapDt の出力設定 ! Configure the settings for "xyz_DCumulusQVapDt" output name = 'DCumulusQVapDt' longname = 'cumulus condensation moistening' units = 'kg kg-1 s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DLscQVapDt の出力設定 ! Configure the settings for "xyz_DLscQVapDt" output name = 'DLscQVapDt' longname = 'large-scale condensation moistening' units = 'kg kg-1 s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xyz_DTempDtDryConv の出力設定 ! Configure the settings for "xyz_DTempDtDryConv" output name = 'DTempDtDryConv' longname = 'temperature tendency by dry convective adjustment' units = 'K s-1' allocate( dims(4) ) dims = StoA( 'lon', 'lat', 'sig', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !------------------------- ! xy_DPsDt の出力設定 ! Configure the settings for "xy_DPsDt" output name = 'DPsDt' longname = 'surface pressure tendency for removal of negative moisture' units = 'Pa s-1' allocate( dims(3) ) dims = StoA( 'lon', 'lat', 'time' ) call output_init ! これは内部サブルーチン. This is an internal subroutine deallocate( dims ) !!$ !------------------------- !!$ ! x_Data1 の出力設定 !!$ ! Configure the settings for "x_Data1" output !!$ name = 'Data1' !!$ longname = 'Sample data (1)' !!$ units = '1' !!$ allocate( dims(2) ) !!$ dims = StoA( 'lon', 'time' ) !!$ !!$ ! 出力ファイルの初期設定. !!$ ! * gthist (gt4_history#GT_HISTORY) が設定される. !!$ ! Initialize output file. !!$ ! * "gthist" (gt4_history#GT_HISTORY) is configured. !!$ call output_init ! これは内部サブルーチン. This is an internal subroutine !!$ !!$ ! 属性の付加などを行う場合には以下のようにする. !!$ ! Describe codes as follows in order to add attributes etc. !!$ if ( associated( gthist ) ) then !!$ call HistoryAddAttr( & !!$ & history = gthist, & ! (inout) !!$ & varname = name, attrname = 'missing_value', & ! (in) !!$ & value = 9999.0 ) ! (in) !!$ end if !!$ deallocate( dims ) !!$ !!$ !------------------------- !!$ ! y_Data2 の出力設定 !!$ ! Configure the settings for "y_Data2" output !!$ name = 'Data2' !!$ longname = 'Sample data (2)' !!$ units = '1' !!$ allocate( dims(2) ) !!$ dims = StoA( 'lat', 'time' ) !!$ !!$ ! 出力ファイルの初期設定. !!$ ! * gthist (gt4_history#GT_HISTORY) が設定される. !!$ ! Initialize output file. !!$ ! * "gthist" (gt4_history#GT_HISTORY) is configured. !!$ call output_init ! これは内部サブルーチン. This is an internal subroutine !!$ deallocate( dims ) !----------------------------------------------------------------- ! このモジュールから出力される変数名のリストを表示 ! Print list of names of variables output from this module !----------------------------------------------------------------- call Printf( STDOUT, ' *** MESSAGE *** +---- "%c" module output varnames list -----', c1 = 'phy_jupiter_case00' ) call DCHashRewind( hashv = registered_varnames ) ! (inout) do call DCHashNext( hashv = registered_varnames, key = name, value = longname, end = hash_end ) ! (out) if ( hash_end ) exit call Printf( STDOUT, ' *** MESSAGE *** | "%c" (%c)', c1 = trim(name), c2 = trim(longname) ) enddo call DCHashDelete( hashv = registered_varnames ) ! (inout) call Printf( STDOUT, ' *** MESSAGE *** `----------------------------------------' ) !----------------------------------------------------------------- ! 無効な変数名のチェック ! Check invalid variable names !----------------------------------------------------------------- call HstNmlInfoAllNameValid( gthstnml = phy_jp % gthstnml, invalid = allvar_invalid, names = names_invalid, err = err ) ! (out) if ( allvar_invalid ) then stat = HST_EBADVARNAME cause_c = names_invalid phy_jp % initialized = .true. call PhyJpClose( phy_jp, err = err ) ! (out) if ( present(nmlfile) ) then nmlfile_msg = ' or NAMELIST "phy_jupiter_case00_history_nml" in "'// trim(nmlfile) // '"' else nmlfile_msg = '' end if call MessageNotify( 'W', subname, 'names "%c" from an optional argument "history_varlist"%c are invalid.', c1 = trim(names_invalid), c2 = trim(nmlfile_msg) ) goto 999 end if !----------------------------------------------------------------- ! 設定値の正当性のチェック ! Validate setting values !----------------------------------------------------------------- !!$ if ( phy_jp % CoefAlpha < 0.0_DP ) then !!$ stat = DC_ENEGATIVE !!$ cause_c = 'CoefAlpha' !!$ goto 999 !!$ end if !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- phy_jp % initialized = .true. 999 continue call StoreError( stat, subname, err, cause_c ) call EndSub( subname ) contains subroutine output_init ! ! 変数 *name* に関して出力ファイルの初期設定を行います. ! 出力ファイル名や出力間隔などの情報は phy_jp % gthstnml ! から取り出されます. ! ! 変数 *name* に関して出力が行われる場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 出力データの精度を precision に, ! 出力データ平均化の可否を average に設定します. ! ! 標準出力に表示される変数リスト *registered_varnames* に ! *name*, *longname*, *dims*, *units* が登録されます. ! ! An output file is initialized for a variable *name*. ! Information such as the output filename and output intervals ! is taken out of "phy_jp % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with the "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, the accuracy of output data is set to *precision*, and ! right or wrong of averaging the output data is set to *average*. ! ! *name*, *longname*, *dims*, *units* are registered to ! a list of variables *registered_varnames* that is printed to ! standard output. ! use dc_date, only: DCDiffTimeCreate, EvalSec, EvalByUnit use gt4_history_nmlinfo, only: GTHST_NMLINFO, HstNmlInfoInitialized, HstNmlInfoInquire, HstNmlInfoOutputValid, HstNmlInfoAssocGtHist, HstNmlInfoPutLine, HstNmlInfoSetValidName use gt4_history, only: GT_HISTORY, HistoryCreate, HistoryAddVariable, HistoryPut, HistoryAddAttr, HistoryInitialized !----------------------------------- ! 作業変数 ! Work variables character(STRING):: file ! ヒストリデータのファイル名. ! History data filenames character(STRING):: dims_str ! 座標軸のリスト. ! List of axes real:: 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):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue !----------------------------------------------------------------- ! 標準出力に表示される変数の登録 ! Register a variable name for print to standard output !----------------------------------------------------------------- if ( allocated(dims) ) then dims_str = JoinChar( dims, ',' ) else dims_str = '' end if call DCHashPut( hashv = registered_varnames, key = name, value = trim( longname ) // ' [' // trim( units ) // '] {' // trim( dims_str ) // '}' ) ! (in) !----------------------------------------------------------------- ! 変数の初期化 ! Initialize variable !----------------------------------------------------------------- nullify( gthist ) precision = 'float' average = .false. !----------------------------------------------------------------- ! 変数名の有効性を設定 ! Set validation of the variable name !----------------------------------------------------------------- call HstNmlInfoSetValidName( gthstnml = phy_jp % gthstnml, name = name ) ! (in) !----------------------------------------------------------------- ! 出力が有効かどうかを確認する ! Confirm whether the output is effective !----------------------------------------------------------------- if ( .not. HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then return end if !----------------------------------------------------------------- ! GT_HISTORY 変数の取得 ! Get "GT_HISTORY" variable !----------------------------------------------------------------- call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) return call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, precision = precision, average = average, err = err ) ! (out) if ( present_and_true( err ) ) return !----------------------------------------------------------------- ! GT_HISTORY 変数の初期設定の確認 ! Check initialization of "GT_HISTORY" variable !----------------------------------------------------------------- if ( HistoryInitialized( gthist ) ) then !--------------------------------------------------------------- ! HistoryAddVariable による変数作成 ! A variable is created by "HistoryAddVariable" !--------------------------------------------------------------- call HistoryAddVariable( history = gthist, varname = name, dims = dims, longname = longname, units = units, xtype = precision, average = average ) ! (in) return end if !----------------------------------------------------------------- ! HistoryCreate のための設定値の取得 ! Get the settings for "HistoryCreate" !----------------------------------------------------------------- call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, file = file, interval_unit = interval_unit, interval_value = interval_value, err = err ) ! (out) if ( present_and_true( err ) ) return !----------------------------------------------------------------- ! HistoryCreate によるファイル作成 ! Files are created by "HistoryCreate" !----------------------------------------------------------------- call HistoryCreate( history = gthist, file = file, title = 'Virtual planet experiment like Jovian atmosphere', source = 'dcpam4 project : ' // trim(version), institution = 'GFD Dennou Club', dims = StoA( 'lon', 'lat', 'sig', 'sigm', 'time' ), dimsizes = (/ phy_jp % imax, phy_jp % jmax, phy_jp % kmax, phy_jp % 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', interval_unit ), origin = real( EvalbyUnit( phy_jp % current_time, interval_unit) ), interval = interval_value, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if call HistoryAddAttr( history = gthist, varname = 'lon', attrname = 'standard_name', value = 'longitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lat', attrname = 'standard_name', value = 'latitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'time', attrname = 'standard_name', value = 'time' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'positive', value = 'down' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'positive', value = 'down' ) ! (in) call HistoryPut( history = gthist, varname = 'lon', array = phy_jp % x_Lon / PI * 180.0_DP ) ! (in) call HistoryPut( history = gthist, varname = 'lat', array = phy_jp % y_Lat / PI * 180.0_DP ) ! (in) call HistoryPut( history = gthist, varname = 'sig', array = phy_jp % z_Sigma ) ! (in) call HistoryPut( history = gthist, varname = 'sigm', array = phy_jp % r_Sigma ) ! (in) call HistoryAddVariable( history = gthist, varname = 'lon_weight', dims = StoA('lon'), longname = 'weight for integration in longitude', units = 'radian', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lon', attrname = 'gt_calc_weight', value = 'lon_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'lon_weight', array = phy_jp % x_Lon_Weight ) ! (in) call HistoryAddVariable( history = gthist, varname = 'lat_weight', dims = StoA('lat'), longname = 'weight for integration in latitude', units = 'radian', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lat', attrname = 'gt_calc_weight', value = 'lat_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'lat_weight', array = phy_jp % y_Lat_Weight ) ! (in) call HistoryAddVariable( history = gthist, varname = 'sig_weight', dims = StoA('sig'), longname = 'weight for integration in sigma', units = '1', xtype = 'float' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'gt_calc_weight', value = 'sig_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'sig_weight', array = phy_jp % z_DelSigma ) ! (in) !----------------------------------------------------------------- ! HistoryAddVariable による変数作成 ! A variable is created by "HistoryAddVariable" !----------------------------------------------------------------- if ( HistoryInitialized( gthist ) ) then call HistoryAddVariable( history = gthist, varname = name, dims = dims, longname = longname, units = units, xtype = precision, average = average ) ! (in) else nullify( gthist ) end if end subroutine output_init end subroutine PhyJpCreate
Function : | |
result : | logical |
phy_jp : | type(PHYJP), intent(in) |
phy_jp 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_jp is initialized, .true. is returned. If phy_jp is not initialized, .false. is returned.
logical function PhyJpInitialized( phy_jp ) result(result) ! ! *phy_jp* 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_jp* is initialized, .true. is returned. ! If *phy_jp* is not initialized, .false. is returned. ! implicit none type(PHYJP), intent(in):: phy_jp continue result = phy_jp % initialized end function PhyJpInitialized
Subroutine : | |||
phy_jp : | type(PHYJP), intent(in) | ||
unit : | integer, intent(in), optional
| ||
indent : | character(*), intent(in), optional
| ||
err : | logical, intent(out), optional
|
引数 phy_jp 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_jp. By default messages are output to standard output. Unit number for output can be changed by unit argument.
subroutine PhyJpPutLine( phy_jp, unit, indent, err ) ! ! 引数 *phy_jp* 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_jp*. ! By default messages are output to standard output. ! Unit number for output can be changed by *unit* argument. ! 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: EvalSec use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT use gt4_history_nmlinfo, only: GTHST_NMLINFO, HstNmlInfoPutLine use phy_ground, only: PutLine use phy_interpolate, only: PutLine use phy_cooling_s08, only: PhyCoolPutLine use phy_implicit, only: PutLine use phy_verdiff, only: PutLine use phy_sponge_layer, only: PhySpoLayPutLine use phy_cumulus_adjust, only: PutLine use phy_lscond, only: PutLine use phy_neg_moist, only: PutLine use phy_dryconv_adjust, only: PutLine use phy_adjust_fixed, only: PhyAdjFixPutLine implicit none type(PHYJP), intent(in):: phy_jp 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 character(*), parameter:: subname = 'PhyJpPutLine' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 出力先装置番号と字下げの設定 ! Configure output unit number and indents !----------------------------------------------------------------- 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 !----------------------------------------------------------------- ! "PHYJP" の設定の印字 ! Print the settings for "PHYJP" !----------------------------------------------------------------- if ( phy_jp % initialized ) then call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // '#<PHYJP:: @initialized=%y', l = (/ phy_jp % initialized /) ) ! (in) call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // ' @imax=%d @jmax=%d @kmax=%d', i = (/ phy_jp % imax, phy_jp % jmax, phy_jp % kmax /) ) ! (in) call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // ' @current_time=%f [sec] @delta_time=%f [sec]', d = (/ EvalSec( phy_jp % current_time ), EvalSec( phy_jp % delta_time ) /) ) ! (in) call PutLine( array = phy_jp % x_Lon, unit = out_unit, lbounds = lbound(phy_jp % x_Lon), ubounds = ubound(phy_jp % x_Lon), indent = indent_str(1:indent_len) // ' @x_Lon=' ) ! (in) call PutLine( array = phy_jp % x_Lon_Weight, unit = out_unit, lbounds = lbound(phy_jp % x_Lon_Weight), ubounds = ubound(phy_jp % x_Lon_Weight), indent = indent_str(1:indent_len) // ' @x_Lon_Weight=' ) ! (in) call PutLine( array = phy_jp % y_Lat, unit = out_unit, lbounds = lbound(phy_jp % y_Lat), ubounds = ubound(phy_jp % y_Lat), indent = indent_str(1:indent_len) // ' @y_Lat=' ) ! (in) call PutLine( array = phy_jp % y_Lat_Weight, unit = out_unit, lbounds = lbound(phy_jp % y_Lat_Weight), ubounds = ubound(phy_jp % y_Lat_Weight), indent = indent_str(1:indent_len) // ' @y_Lat_Weight=' ) ! (in) call PutLine( array = phy_jp % z_Sigma, unit = out_unit, lbounds = lbound(phy_jp % z_Sigma), ubounds = ubound(phy_jp % z_Sigma), indent = indent_str(1:indent_len) // ' @z_Sigma=' ) ! (in) call PutLine( array = phy_jp % r_Sigma, unit = out_unit, lbounds = lbound(phy_jp % r_Sigma), ubounds = ubound(phy_jp % r_Sigma), indent = indent_str(1:indent_len) // ' @r_Sigma=' ) ! (in) call PutLine( array = phy_jp % z_DelSigma, unit = out_unit, lbounds = lbound(phy_jp % z_DelSigma), ubounds = ubound(phy_jp % z_DelSigma), indent = indent_str(1:indent_len) // ' @z_DelSigma=' ) ! (in) call PutLine( phy_grd = phy_jp % phy_grd, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_intpol = phy_jp % phy_intpol, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PhyCoolPutLine( phy_cool = phy_jp % phy_cool, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_impl = phy_jp % phy_impl, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_vdif = phy_jp % phy_vdif, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PhySpoLayPutLine( phy_spo_lay = phy_jp % phy_spo_lay, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_cumad = phy_jp % phy_cumad, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_lsc = phy_jp % phy_lsc, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_neg_mst = phy_jp % phy_neg_mst, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call PutLine( phy_dryconv = phy_jp % phy_dryconv, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) call PhyAdjFixPutLine( phy_adj_fix = phy_jp % phy_adj_fix, unit = out_unit, indent = indent_str(1:indent_len) // ' ', err = err ) ! (out) call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // ' @gthstnml=' ) ! (in) call HstNmlInfoPutLine( gthstnml = phy_jp % gthstnml, unit = out_unit, indent = indent_str(1:indent_len) // ' ' ) ! (in) call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // '>' ) ! (in) else call Printf( unit = out_unit, fmt = indent_str(1:indent_len) // '#<PHYJP:: @initialized=%y>', l = (/phy_jp % initialized/) ) ! (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 PhyJpPutLine
Subroutine : | |||
phy_jp : | type(PHYJP), intent(inout) | ||
current_time_value : | real, intent(in)
| ||
current_time_unit : | character(*), intent(in)
| ||
err : | logical, intent(out), optional
|
phy_jp に対して時刻の設定を行います.
ヒストリデータを出力している場合には, 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_jp が PhyJpCreate 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_jp.
When history data are output, 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_jp is not initialized by "PhyJpCreate" yet, error is occurred.
subroutine PhyJpSetTime( phy_jp, current_time_value, current_time_unit, err ) ! ! *phy_jp* に対して時刻の設定を行います. ! ! ヒストリデータを出力している場合には, ! 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_jp* が PhyJpCreate ! 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_jp*. ! ! When history data are output, ! 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_jp* is not initialized ! by "PhyJpCreate" 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: DCDiffTimeCreate, EvalbyUnit use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT use gt4_history_nmlinfo, only: HstNmlInfoAdd, HstNmlInfoInquire, HstNmlInfoNames, HstNmlInfoAssocGtHist, HstNmlInfoOutputStepDisable, HstNmlInfoPutLine use gt4_history, only: GT_HISTORY, HistorySetTime, HistoryInitialized implicit none type(PHYJP), intent(inout):: phy_jp real, 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(STRING):: name = '' ! 変数名. Variable identifier character(TOKEN):: 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(STRING):: varnames ! 変数名リスト. ! List of variables character(TOKEN), pointer:: varnames_array(:) =>null() ! 変数名リスト配列. ! List of variables (array) integer:: i, vnmax type(GT_HISTORY), pointer:: gthist =>null() ! gt4_history モジュール用構造体. ! Derived type for "gt4_history" module !----------------------------------- ! 作業変数 ! Work variables integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyJpSetTime' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_jp % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYJP' goto 999 end if !----------------------------------------------------------------- ! 時刻設定 ! Configure time !----------------------------------------------------------------- call DCDiffTimeCreate( diff = phy_jp % current_time, value = real( current_time_value, DP ), 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 !----------------------------------------------------------------- varnames = HstNmlInfoNames( phy_jp % gthstnml ) call Split( str = varnames, sep = ',', carray = varnames_array ) ! (out) vnmax = size( varnames_array ) do i = 1, vnmax name = varnames_array(i) if ( trim( name ) == '' ) exit call HstNmlInfoOutputStepDisable( gthstnml = phy_jp % gthstnml, name = name, err = err ) ! (out) nullify( gthist ) call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( HistoryInitialized( gthist ) ) then call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, interval_unit = interval_unit ) ! (out) call HistorySetTime( history = gthist, time = real( EvalbyUnit( phy_jp % current_time, interval_unit) ) ) ! (in) end if end do !----------------------------------------------------------------- ! 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 PhyJpSetTime
Function : | |
result : | logical |
phy_jp : | type(PHYJP), intent(in) |
phy_jp 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_jp is initialized, .true. is returned. If phy_jp is not initialized, .false. is returned.
Alias for PhyJpInitialized
Subroutine : | |||
phy_jp : | type(PHYJP), intent(inout) | ||
xyz_U(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(in)
| ||
xyz_V(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(in)
| ||
xyz_Temp(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(in)
| ||
xy_Ps(0:phy_jp%imax-1, 0:phy_jp%jmax-1) : | real(DP), intent(in)
| ||
xyz_QVap(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(in)
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xyz_DUDt(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(out)
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xyz_DVDt(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(out)
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xyz_DTempDt(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(out)
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xyz_DQVapDt(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(out)
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historyput_flag : | logical, intent(in), optional
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err : | logical, intent(out), optional
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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_jupiter_case00 を参照してください.
なお, 与えられた phy_jp が PhyJpCreate 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_jupiter_case00" for detail.
If phy_jp is not initialized by "PhyJpCreate" yet, error is occurred.
subroutine PhysicsJupiter( phy_jp, 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_jupiter_case00 を参照してください. ! ! なお, 与えられた *phy_jp* が PhyJpCreate ! 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_jupiter_case00" for detail. ! ! If *phy_jp* is not initialized ! by "PhyJpCreate" 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_present, only: present_and_true use dc_date, only: mod, operator(+), operator(==), EvalbyUnit, EvalSec use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT, USR_ERRNO use gt4_history_nmlinfo, only: HstNmlInfoInquire, HstNmlInfoOutputValid, HstNmlInfoAssocGtHist, HstNmlInfoPutLine use gt4_history, only: GT_HISTORY, HistoryPut, HistoryInitialized use phy_interpolate, only: InterpolateTemp, InterpolateGeoPot use phy_cooling_s08, only: Cooling use phy_implicit, only: GetMatrices, Integrate use phy_verdiff, only: VerticalDiffusion use phy_sponge_layer, only: Damping implicit none type(PHYJP), intent(inout):: phy_jp real(DP), intent(in):: xyz_U (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ u $ . 東西風速. Zonal wind real(DP), intent(in):: xyz_V (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ v $ . 南北風速. Meridional wind real(DP), intent(in):: xyz_Temp (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ T $ . 温度. Temperature real(DP), intent(in):: xy_Ps (0:phy_jp%imax-1, 0:phy_jp%jmax-1) ! $ p_s $ . 地表面気圧. Surface pressure real(DP), intent(in):: xyz_QVap (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ q $ . 比湿. Specific humidity real(DP), intent(out):: xyz_DUDt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ \DP{u}{t} $ . ! 東西風速変化. ! Zonal wind tendency real(DP), intent(out):: xyz_DVDt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ \DP{v}{t} $ . ! 南北風速変化. ! Meridional wind tendency real(DP), intent(out):: xyz_DTempDt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ \DP{T}{t} $ . ! 温度変化. ! Temperature tendency real(DP), intent(out):: xyz_DQVapDt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp* から取り出される設定値 ! Setting values fetched from *phy_jp* 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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! $ T $ . 温度 (半整数レベル). ! Temperature (half level) real(DP):: xyz_Press (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP):: xyr_Press (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! $ p $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP):: xyz_GeoPot (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1, -1:1) ! 速度陰解行列. ! Implicit matrix about velocity real(DP):: xyza_TempMatrix (0:phy_jp%imax-1, 0:phy_jp%jmax-1, -1:phy_jp%kmax-1, -1:1) ! 温度陰解行列. ! Implicit matrix about temperature real(DP):: xyza_QVapMatrix (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! 長波フラックス. ! Longwave flux real(DP):: xya_SurfRadLMatrix (0:phy_jp%imax-1, 0:phy_jp%jmax-1, -1:1) ! $ T $ 陰解行列: 地表. ! $ T $ implicit matrix: surface real(DP):: xyra_DelRadLFlux (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax, 0:1) ! 長波地表温度変化. ! Surface temperature tendency with longwave real(DP):: xyr_RadSFlux (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! 東西風速フラックス. ! Zonal wind flux real(DP):: xyr_VFlux (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! 南北風速フラックス. ! Meridional wind flux real(DP):: xyr_TempFlux (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! 温度フラックス. ! Temperature flux real(DP):: xyr_QVapFlux (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1) ! 速度陰解行列: 地表. ! Implicit matrix about velocity: surface real(DP):: xyaa_SurfTempMatrix (0:phy_jp%imax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%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_DTempDtRadL (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! 長波加熱率. ! Temperature tendency with longwave real(DP):: xyz_DTempDtRadS (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! 短波加熱率. ! Temperature tendency with shortwave real(DP):: xyz_DTempDtWork (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1) ! 地表面温度変化率. ! Surface temperature tendency !----------------------------------- ! 速度を減衰させるためのスポンジ層 ! Sponge layer for damping velocity real(DP):: xyz_DUDtSpoDamping (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ \DP{u}{t} $ . ! 減衰の効果による東西風速変化. ! Zonal wind tendency by damping effect real(DP):: xyz_DVDtSpoDamping (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ \DP{v}{t} $ . ! 減衰の効果による南北風速変化. ! Meridional wind tendency by damping effect !----------------------------------- ! 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(STRING):: name = '' ! 変数名. Variable identifier real:: time ! 時刻. Time type(GT_HISTORY), pointer:: gthist =>null() ! gt4_history モジュール用構造体. ! Derived type for "gt4_history" module !----------------------------------- ! 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 = 'PhysicsJupiter' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_jp % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYJP' goto 999 end if !----------------------------------------------------------------- ! *phy_jp* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_jp* !----------------------------------------------------------------- kmax = phy_jp % kmax DelTime = EvalSec( phy_jp % delta_time ) !----------------------------------------------------------------- ! 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_jp % 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_jp % 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_jp % 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) !----------------------------------------------------------------- ! 鉛直拡散フラックス ! Vertical diffusion flux !----------------------------------------------------------------- ! phy_cooling_s08 では, 上空のある範囲のみ冷却を与えるように ! しているので, 短波はゼロで良いが, ! 長波はゼロでは本当はまずいはずなのだが, とりあえず... ! (森川 2008/05/19) xyr_RadLFlux = 0.0_DP xya_SurfRadLMatrix = 0.0_DP xyra_DelRadLFlux = 0.0_DP xyr_RadSFlux = 0.0_DP call VerticalDiffusion( phy_vdif = phy_jp % 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) !----------------------------------------------------------------- ! 地表面フラックスなし ! Surface flux is nothing !----------------------------------------------------------------- xy_SurfUVMatrix = 0.0_DP xyaa_SurfTempMatrix = 0.0_DP xyaa_SurfQVapMatrix = 0.0_DP !----------------------------------------------------------------- ! 時間変化率の計算 (陰解法) ! Calculate tendency (implicit) !----------------------------------------------------------------- call Integrate( phy_impl = phy_jp % 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_jp % 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 !----------------------------------------------------------------- ! 木星を模した大気上層への冷却 ! Cooling of atmospheric upper layer to imitate Jupiter !----------------------------------------------------------------- call Cooling( phy_cool = phy_jp % phy_cool, xy_Ps = xy_Ps, xyz_DTempDtCooling = xyz_DTempDtRadL ) ! (out) xyz_DTempDtRadS = 0.0_DP !----------------------------------------------------------------- ! 速度を減衰させるためのスポンジ層 ! Sponge layer for damping velocity !----------------------------------------------------------------- call Damping( phy_spo_lay = phy_jp % phy_spo_lay, xyz_U = xyz_U, xyz_V = xyz_V, xy_Ps = xy_Ps, xyz_DUDtSpoDamping = xyz_DUDtSpoDamping, xyz_DVDtSpoDamping = xyz_DVDtSpoDamping ) ! (out) xyz_DUDt = xyz_DUDt + xyz_DUDtSpoDamping xyz_DVDt = xyz_DVDt + xyz_DVDtSpoDamping !----------------------------------------------------------------- ! 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_DTempDtRadL + xyz_DTempDtRadS !----------------------------------------------------------------- ! 温度変化分の足し込み ! Add temperature tendency !----------------------------------------------------------------- !!$ ! ※ 未導入. (そもそもまともに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 = 'UFluxJp' ! 出力のチェック. ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. ! Check for output. ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. call output_check ! これは内部サブルーチン. This is an internal subroutine ! 出力データを引数 array に渡す. ! Give output data to argument "array" if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_UFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyr_VFlux の出力 ! Output "xyr_VFlux" name = 'VFluxJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_VFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyr_TempFlux の出力 ! Output "xyr_TempFlux" name = 'TempFluxJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_TempFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyr_QVapFlux の出力 ! Output "xyr_QVapFlux" name = 'QVapFluxJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_QVapFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyr_RadLFlux の出力 ! Output "xyr_RadLFlux" name = 'RadLFluxJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_RadLFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyr_RadSFlux の出力 ! Output "xyr_RadSFlux" name = 'RadSFlux' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyr_RadSFlux, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DTempDtRadL の出力 ! Output "xyz_DTempDtRadL" name = 'DTempDtRadL' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DTempDtRadL, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DTempDtRadS の出力 ! Output "xyz_DTempDtRadS" name = 'DTempDtRadS' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DTempDtRadS, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DUDt の出力 ! Output "xyz_DUDt" name = 'DUDtJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DUDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DVDt の出力 ! Output "xyz_DVDt" name = 'DVDtJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DVDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DTempDt の出力 ! Output "xyz_DTempDt" name = 'DTempDtJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DTempDtWork, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DQVapDt の出力 ! Output "xyz_DQVapDt" name = 'DQVapDtJp' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DQVapDt, time = time, quiet = .false., err = err ) ! (out) end if !!$ !----------------------------------- !!$ ! x_Data1 の出力 !!$ ! Output "x_Data1" !!$ name = 'Data1' !!$ !!$ ! 出力のチェック. !!$ ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. !!$ ! Check for output. !!$ ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. !!$ call output_check ! これは内部サブルーチン. This is an internal subroutine !!$ !!$ ! 出力データを引数 array に渡す. !!$ ! Give output data to argument "array" !!$ if ( associated( gthist ) ) then !!$ call HistoryPut( & !!$ & history = gthist, & ! (inout) !!$ & varname = name, array = x_Data1, & ! (in) !!$ & time = time, quiet = .false., & ! (in) !!$ & err = err ) ! (out) !!$ end if !!$ !!$ !----------------------------------- !!$ ! y_Data2 の出力 !!$ ! Output "y_Data2" !!$ name = 'Data2' !!$ !!$ ! 出力のチェック. !!$ ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. !!$ ! Check for output. !!$ ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. !!$ call output_check ! これは内部サブルーチン. This is an internal subroutine !!$ !!$ ! 出力データを引数 array に渡す. !!$ ! Give output data to argument "array" !!$ if ( associated( gthist ) ) then !!$ call HistoryPut( & !!$ & history = gthist, & ! (inout) !!$ & varname = name, array = y_Data2, & ! (in) !!$ & time = time, quiet = .false., & ! (in) !!$ & err = err ) ! (out) !!$ end if !----------------------------------------------------------------- ! 時刻の更新は Adjust にておこなう ! "Adjust" updates time !----------------------------------------------------------------- !!$ phy_jp % current_time = & !!$ & phy_jp % current_time + phy_jp % 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 ) contains subroutine output_check ! ! 変数 *name* を出力するかどうかをチェックします. ! 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます. ! ! 変数 *name* に関して出力するよう設定されている場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 現在時刻を *time* に設定します. ! ! Check whether to output variable *name*. ! Information about output is taken out of "dcm_sam_cod % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, current time is set to *time*. ! character(TOKEN):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue nullify( gthist ) time = 0.0 if ( HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, interval_unit = interval_unit ) ! (out) time = real( EvalbyUnit( phy_jp % current_time, interval_unit ) ) if ( present_and_true( historyput_flag ) ) time = 0.0 call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if if ( .not. HistoryInitialized( gthist ) ) nullify( gthist ) end if end subroutine output_check end subroutine PhysicsJupiter
Subroutine : | |||
phy_jp : | type(PHYJP), intent(inout) | ||
xyz_Temp(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(inout)
| ||
xy_Ps(0:phy_jp%imax-1, 0:phy_jp%jmax-1) : | real(DP), intent(inout)
| ||
xyz_QVap(0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) : | real(DP), intent(inout)
| ||
historyput_flag : | logical, intent(in), optional
| ||
err : | logical, intent(out), optional
|
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_jupiter_case00 を参照してください.
なお, 与えられた phy_jp が PhyJpCreate 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_jupiter_case00" for detail.
If phy_jp is not initialized by "PhyJpCreate" yet, error is occurred.
subroutine PhysicsJupiterAdjust( phy_jp, 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_jupiter_case00 を参照してください. ! ! なお, 与えられた *phy_jp* が PhyJpCreate ! 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_jupiter_case00" for detail. ! ! If *phy_jp* is not initialized ! by "PhyJpCreate" 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_present, only: present_and_true use dc_date, only: mod, operator(+), operator(==), EvalbyUnit, EvalSec use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT, USR_ERRNO use gt4_history_nmlinfo, only: HstNmlInfoInquire, HstNmlInfoOutputValid, HstNmlInfoAssocGtHist, HstNmlInfoPutLine use gt4_history, only: GT_HISTORY, HistoryPut, HistoryInitialized 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 phy_adjust_fixed, only: AdjustFixed implicit none type(PHYJP), intent(inout):: phy_jp real(DP), intent(inout):: xyz_Temp (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ T $ . 温度. Temperature real(DP), intent(inout):: xy_Ps (0:phy_jp%imax-1, 0:phy_jp%jmax-1) ! $ p_s $ . 地表面気圧. Surface pressure real(DP), intent(inout):: xyz_QVap (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp* から取り出される設定値 ! Setting values fetched from *phy_jp* 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_jp%imax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! $ T $ . 温度 (半整数レベル). ! Temperature (half level) real(DP):: xyz_Press (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! $ p $ . 気圧 (整数レベル). ! Air pressure (full level) real(DP):: xyr_Press (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax) ! $ p $ . 気圧 (半整数レベル). ! Air pressure (half level) real(DP):: xyz_GeoPot (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%kmax-1) ! 比湿変化率 (1). ! Specific humidity tendency (1) real(DP):: xyz_DNegQVap2Dt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1) ! 積雲スキームによる降水量. ! Precipitation by cumulus scheme real(DP):: xyz_DCumulusTempDt (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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_jp%imax-1, 0:phy_jp%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_DTempDtDryConv (0:phy_jp%imax-1, 0:phy_jp%jmax-1, 0:phy_jp%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(STRING):: name = '' ! 変数名. Variable identifier real:: time ! 時刻. Time type(GT_HISTORY), pointer:: gthist =>null() ! gt4_history モジュール用構造体. ! Derived type for "gt4_history" module !----------------------------------- ! 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 = 'PhysicsJupiterAdjust' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_jp % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYJP' goto 999 end if !----------------------------------------------------------------- ! *phy_jp* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_jp* !----------------------------------------------------------------- kmax = phy_jp % kmax DelTime = EvalSec( phy_jp % delta_time ) !!$ !----------------------------------------------------------------- !!$ ! 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_jp % 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_jp % 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_jp % 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_jp % 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_jp % 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_jp % phy_dryconv, xyz_Press = xyz_Press, xyr_Press = xyr_Press, xyz_Temp = xyz_Temp, xyz_DTempDt = xyz_DTempDtDryConv, 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_jp % 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 PhysicsJupiter 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 !----------------------------------------------------------------- ! 最下層の比湿と温度を固定 ! Temperature and specific humidity on bottom layer are fixed !----------------------------------------------------------------- call AdjustFixed( phy_adj_fix = phy_jp % phy_adj_fix, xyz_Temp = xyz_Temp(:,:,0:0), xyz_QVap = xyz_QVap(:,:,0:0) ) ! (inout) !---------------------------------------------------------------- ! ヒストリファイルへのデータ出力 ! History data output !---------------------------------------------------------------- !------------------------- ! xy_CumulusRain + xy_LscRain の出力 ! Output "xy_CumulusRain" + "xy_LscRain" name = 'Rain' ! 出力のチェック. ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. ! Check for output. ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. call output_check ! これは内部サブルーチン. This is an internal subroutine ! 出力データを引数 array に渡す. ! Give output data to argument "array" if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xy_CumulusRain + xy_LscRain, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xy_CumulusRain の出力 ! Output "xy_CumulusRain" name = 'CumulusRain' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xy_CumulusRain, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xy_LscRain の出力 ! Output "xy_LscRain" name = 'LscRain' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xy_LscRain, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DNegQVap1Dt + xyz_DNegQVap2Dt の出力 ! Configure the settings for "xyz_DNegQVap1Dt" + "xyz_DNegQVap2Dt" output name = 'DNegQVapDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DNegQVap1Dt + xyz_DNegQVap2Dt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DCumulusTempDt + xyz_DLscTempDt の出力 ! Output "xyz_DCumulusTempDt" + "xyz_DLscTempDt" name = 'DCumLscTempDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DCumulusTempDt + xyz_DLscTempDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DCumulusQVapDt + xyz_DLscQVapDt の出力 ! Output "xyz_DCumulusQVapDt" + "xyz_DLscQVapDt" name = 'DCumLscQVapDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DCumulusQVapDt + xyz_DLscQVapDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DCumulusTempDt の出力 ! Output "xyz_DCumulusTempDt" name = 'DCumulusTempDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DCumulusTempDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DLscTempDt の出力 ! Output "xyz_DLscTempDt" name = 'DLscTempDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DLscTempDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DCumulusQVapDt の出力 ! Output "xyz_DCumulusQVapDt" name = 'DCumulusQVapDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DCumulusQVapDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DLscQVapDt の出力 ! Output "xyz_DLscQVapDt" name = 'DLscQVapDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DLscQVapDt, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xyz_DTempDtDryConv の出力 ! Output "xyz_DTempDtDryConv" name = 'DTempDtDryConv' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xyz_DTempDtDryConv, time = time, quiet = .false., err = err ) ! (out) end if !------------------------- ! xy_DPsDt の出力 ! Output "xy_DPsDt" name = 'DPsDt' call output_check ! これは内部サブルーチン. This is an internal subroutine if ( associated( gthist ) ) then call HistoryPut( history = gthist, varname = name, array = xy_DPsDt, time = time, quiet = .false., err = err ) ! (out) end if !!$ !----------------------------------- !!$ ! x_Data1 の出力 !!$ ! Output "x_Data1" !!$ name = 'Data1' !!$ !!$ ! 出力のチェック. !!$ ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. !!$ ! Check for output. !!$ ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. !!$ call output_check ! これは内部サブルーチン. This is an internal subroutine !!$ !!$ ! 出力データを引数 array に渡す. !!$ ! Give output data to argument "array" !!$ if ( associated( gthist ) ) then !!$ call HistoryPut( & !!$ & history = gthist, & ! (inout) !!$ & varname = name, array = x_Data1, & ! (in) !!$ & time = time, quiet = .false., & ! (in) !!$ & err = err ) ! (out) !!$ end if !!$ !!$ !----------------------------------- !!$ ! y_Data2 の出力 !!$ ! Output "y_Data2" !!$ name = 'Data2' !!$ !!$ ! 出力のチェック. !!$ ! * gthist (gt4_history#GT_HISTORY), time (単精度実数型) が設定される. !!$ ! Check for output. !!$ ! * "gthist" (gt4_history#GT_HISTORY), time (real) are configured. !!$ call output_check ! これは内部サブルーチン. This is an internal subroutine !!$ !!$ ! 出力データを引数 array に渡す. !!$ ! Give output data to argument "array" !!$ if ( associated( gthist ) ) then !!$ call HistoryPut( & !!$ & history = gthist, & ! (inout) !!$ & varname = name, array = y_Data2, & ! (in) !!$ & time = time, quiet = .false., & ! (in) !!$ & err = err ) ! (out) !!$ end if !----------------------------------------------------------------- ! 時刻の更新 ! Update time !----------------------------------------------------------------- phy_jp % current_time = phy_jp % current_time + phy_jp % 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 ) contains subroutine output_check ! ! 変数 *name* を出力するかどうかをチェックします. ! 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます. ! ! 変数 *name* に関して出力するよう設定されている場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 現在時刻を *time* に設定します. ! ! Check whether to output variable *name*. ! Information about output is taken out of "dcm_sam_cod % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, current time is set to *time*. ! character(TOKEN):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue nullify( gthist ) time = 0.0 if ( HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, interval_unit = interval_unit ) ! (out) time = real( EvalbyUnit( phy_jp % current_time, interval_unit ) ) if ( present_and_true( historyput_flag ) ) time = 0.0 call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if if ( .not. HistoryInitialized( gthist ) ) nullify( gthist ) end if end subroutine output_check end subroutine PhysicsJupiterAdjust
Subroutine : | |||
nmlfile : | character(*), intent(in)
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gthstnml : | type(GTHST_NMLINFO), intent(inout)
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err : | logical, intent(out), optional
|
NAMELIST ファイル nmlfile から値を入力するための サブルーチンです. PhyJpCreate 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 a subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "PhyJpCreate".
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_jupiter_case00_history_nml .
Alias for PhyJpNmlRead
Subroutine : | |||
nmlfile : | character(*), intent(in)
| ||
gthstnml : | type(GTHST_NMLINFO), intent(inout)
| ||
err : | logical, intent(out), optional
|
NAMELIST ファイル nmlfile から値を入力するための サブルーチンです. PhyJpCreate 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 a subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "PhyJpCreate".
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_jupiter_case00_history_nml .
subroutine PhyJpNmlRead( nmlfile, gthstnml, err ) ! ! NAMELIST ファイル *nmlfile* から値を入力するための ! サブルーチンです. PhyJpCreate ! 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 a subroutine to input values from ! NAMELIST file *nmlfile*. This subroutine is expected to be ! called by "PhyJpCreate". ! ! 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: DCDiffTimeCreate use dc_error, only: StoreError, DC_NOERR, DC_ENOFILEREAD, DC_ENOTINIT use gt4_history_nmlinfo, only: GTHST_NMLINFO, HstNmlInfoAdd, HstNmlInfoInquire, HstNmlInfoInitialized, HstNmlInfoPutLine implicit none character(*), intent(in):: nmlfile ! NAMELIST ファイルの名称. ! NAMELIST file name !!$ real(DP), intent(inout):: CoefAlpha !!$ ! $ \alpha $ . 係数. Coefficient !!$ !!$ character(*), intent(inout):: key00_ !!$ character(TOKEN):: key00 !!$ ! キーワード. Keyword !!$ type(GTHST_NMLINFO), intent(inout):: gthstnml ! NAMELIST#phy_jupiter_case00_history_nml ! から入手される個別のデータ出力情報. ! ! 初期設定やデフォルト値の設定などを ! 行った後に与えること. ! ! Individual data output information from ! "NAMELIST#phy_jupiter_case00_history_nml". ! ! Before this argument is given to ! this procedure, initialize and ! configure the defaut settings. 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_jupiter_case00_nml/ & !!$ & CoefAlpha, key00 !!$ ! phy_jupiter_case00 モジュール用 !!$ ! NAMELIST 変数群名. !!$ ! !!$ ! phy_jupiter_case00#PhyJpCreate !!$ ! 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_jupiter_case00" module. !!$ ! !!$ ! If a NAMELIST filename is specified to !!$ ! an optional argument *nmlfile* when !!$ ! "phy_jupiter_case00#PhyJpCreate" !!$ ! is used, this NAMELIST group is !!$ ! loaded from the file. character(STRING):: name ! 変数名. ! 空白の場合には, この他の設定値は ! phy_jupiter_case00 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. ! ! "Data1,Data2" のようにカンマで区切って複数 ! の変数を指定することも可能です. ! ! Variable identifier. ! If blank is given, other values are ! used as default values of output data ! in "phy_jupiter_case00". ! ! Multiple variables can be specified ! as "Data1,Data2" too. Delimiter is comma. 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:: interval_value ! ヒストリデータの出力間隔の数値. ! 負の値を与えると, 出力を抑止します. ! Numerical value for interval of history data output ! Negative values suppresses output. character(TOKEN):: 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):: precision ! ヒストリデータの精度. ! Precision of history data logical:: average ! 出力データの平均化フラグ. ! Flag for average of output data character(STRING):: fileprefix ! ヒストリデータのファイル名の接頭詞. ! Prefixes of history data filenames namelist /phy_jupiter_case00_history_nml/ name, file, interval_value, interval_unit, precision, fileprefix, average ! phy_jupiter_case00 モジュールのヒストリデータ用 ! NAMELIST 変数群名. ! ! phy_jupiter_case00#PhyJpCreate ! 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_jupiter_case00" module. ! ! If a NAMELIST filename is specified to ! an optional argument *nmlfile* when ! "phy_jupiter_case00#PhyJpCreate" ! 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 character(*), parameter:: subname = 'PhyJpNmlRead' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- !----------------------------------------------------------------- ! 文字型引数を NAMELIST 変数群へ代入 ! Substitute character arguments to NAMELIST group !----------------------------------------------------------------- !!$ key00 = key00_ !---------------------------------------------------------------- ! 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_jupiter_case00_nml, & ! (out) !!$ & iostat = iostat_nml ) ! (out) !!$ if ( iostat_nml == 0 ) then !!$ call MessageNotify( 'M', subname, & !!$ & 'NAMELIST group "%c" is loaded from "%c".', & !!$ & c1 = 'phy_jupiter_case00_nml', c2 = trim(nmlfile) ) !!$ write(STDOUT, nml = phy_jupiter_case00_nml) !!$ else !!$ call MessageNotify( 'W', subname, & !!$ & 'NAMELIST group "%c" is not found in "%c" (iostat=%d).', & !!$ & c1 = 'phy_jupiter_case00_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 = '' call HstNmlInfoInquire( gthstnml = gthstnml, interval_value = interval_value, interval_unit = interval_unit, precision = precision, average = average, fileprefix = fileprefix ) ! (out) read( unit = unit_nml, nml = phy_jupiter_case00_history_nml, iostat = iostat_nml ) ! (out) inquire( unit = unit_nml, position = pos_nml ) ! (out) if ( iostat_nml == 0 ) then call MessageNotify( 'M', subname, 'NAMELIST group "%c" is loaded from "%c".', c1='phy_jupiter_case00_history_nml', c2=trim(nmlfile) ) write(STDOUT, nml = phy_jupiter_case00_history_nml) call HstNmlInfoAdd( gthstnml = gthstnml, name = name, file = file, interval_value = interval_value, interval_unit = interval_unit, precision = precision, average = average, fileprefix = fileprefix ) ! (in) else call MessageNotify( 'W', subname, 'NAMELIST group "%c" is not found in "%c" any more (iostat=%d).', c1='phy_jupiter_case00_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 !----------------------------------------------------------------- !!$ key00_ = key00 !----------------------------------------------------------------- ! 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 PhyJpNmlRead
Subroutine : |
変数 name を出力するかどうかをチェックします. 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます.
変数 name に関して出力するよう設定されている場合には, gthist に出力先ファイルの gt4_history#GT_HISTORY 型変数を結合させます. そうでない場合は, gthist を空状態にします.
また, 現在時刻を time に設定します.
Check whether to output variable name. Information about output is taken out of "dcm_sam_cod % gthstnml".
When output is done for the variable name, gthist is associated with "gt4_history#GT_HISTORY" variable of the output file. Otherwise, gthist is nullified.
Moreover, current time is set to time.
subroutine output_check ! ! 変数 *name* を出力するかどうかをチェックします. ! 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます. ! ! 変数 *name* に関して出力するよう設定されている場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 現在時刻を *time* に設定します. ! ! Check whether to output variable *name*. ! Information about output is taken out of "dcm_sam_cod % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, current time is set to *time*. ! character(TOKEN):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue nullify( gthist ) time = 0.0 if ( HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, interval_unit = interval_unit ) ! (out) time = real( EvalbyUnit( phy_jp % current_time, interval_unit ) ) if ( present_and_true( historyput_flag ) ) time = 0.0 call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if if ( .not. HistoryInitialized( gthist ) ) nullify( gthist ) end if end subroutine output_check
Subroutine : |
変数 name を出力するかどうかをチェックします. 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます.
変数 name に関して出力するよう設定されている場合には, gthist に出力先ファイルの gt4_history#GT_HISTORY 型変数を結合させます. そうでない場合は, gthist を空状態にします.
また, 現在時刻を time に設定します.
Check whether to output variable name. Information about output is taken out of "dcm_sam_cod % gthstnml".
When output is done for the variable name, gthist is associated with "gt4_history#GT_HISTORY" variable of the output file. Otherwise, gthist is nullified.
Moreover, current time is set to time.
subroutine output_check ! ! 変数 *name* を出力するかどうかをチェックします. ! 出力に関する情報は dcm_sam_cod % gthstnml から取り出されます. ! ! 変数 *name* に関して出力するよう設定されている場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 現在時刻を *time* に設定します. ! ! Check whether to output variable *name*. ! Information about output is taken out of "dcm_sam_cod % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, current time is set to *time*. ! character(TOKEN):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue nullify( gthist ) time = 0.0 if ( HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, interval_unit = interval_unit ) ! (out) time = real( EvalbyUnit( phy_jp % current_time, interval_unit ) ) if ( present_and_true( historyput_flag ) ) time = 0.0 call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if if ( .not. HistoryInitialized( gthist ) ) nullify( gthist ) end if end subroutine output_check
Subroutine : |
変数 name に関して出力ファイルの初期設定を行います. 出力ファイル名や出力間隔などの情報は phy_jp % gthstnml から取り出されます.
変数 name に関して出力が行われる場合には, gthist に出力先ファイルの gt4_history#GT_HISTORY 型変数を結合させます. そうでない場合は, gthist を空状態にします.
また, 出力データの精度を precision に, 出力データ平均化の可否を average に設定します.
標準出力に表示される変数リスト registered_varnames に name, longname, dims, units が登録されます.
An output file is initialized for a variable name. Information such as the output filename and output intervals is taken out of "phy_jp % gthstnml".
When output is done for the variable name, gthist is associated with the "gt4_history#GT_HISTORY" variable of the output file. Otherwise, gthist is nullified.
Moreover, the accuracy of output data is set to precision, and right or wrong of averaging the output data is set to average.
name, longname, dims, units are registered to a list of variables registered_varnames that is printed to standard output.
subroutine output_init ! ! 変数 *name* に関して出力ファイルの初期設定を行います. ! 出力ファイル名や出力間隔などの情報は phy_jp % gthstnml ! から取り出されます. ! ! 変数 *name* に関して出力が行われる場合には, ! *gthist* に出力先ファイルの gt4_history#GT_HISTORY ! 型変数を結合させます. そうでない場合は, *gthist* を空状態にします. ! ! また, 出力データの精度を precision に, ! 出力データ平均化の可否を average に設定します. ! ! 標準出力に表示される変数リスト *registered_varnames* に ! *name*, *longname*, *dims*, *units* が登録されます. ! ! An output file is initialized for a variable *name*. ! Information such as the output filename and output intervals ! is taken out of "phy_jp % gthstnml". ! ! When output is done for the variable *name*, *gthist* is ! associated with the "gt4_history#GT_HISTORY" variable of ! the output file. Otherwise, *gthist* is nullified. ! ! Moreover, the accuracy of output data is set to *precision*, and ! right or wrong of averaging the output data is set to *average*. ! ! *name*, *longname*, *dims*, *units* are registered to ! a list of variables *registered_varnames* that is printed to ! standard output. ! use dc_date, only: DCDiffTimeCreate, EvalSec, EvalByUnit use gt4_history_nmlinfo, only: GTHST_NMLINFO, HstNmlInfoInitialized, HstNmlInfoInquire, HstNmlInfoOutputValid, HstNmlInfoAssocGtHist, HstNmlInfoPutLine, HstNmlInfoSetValidName use gt4_history, only: GT_HISTORY, HistoryCreate, HistoryAddVariable, HistoryPut, HistoryAddAttr, HistoryInitialized !----------------------------------- ! 作業変数 ! Work variables character(STRING):: file ! ヒストリデータのファイル名. ! History data filenames character(STRING):: dims_str ! 座標軸のリスト. ! List of axes real:: 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):: interval_unit ! ヒストリデータの出力間隔の単位. ! Unit for interval of history data output continue !----------------------------------------------------------------- ! 標準出力に表示される変数の登録 ! Register a variable name for print to standard output !----------------------------------------------------------------- if ( allocated(dims) ) then dims_str = JoinChar( dims, ',' ) else dims_str = '' end if call DCHashPut( hashv = registered_varnames, key = name, value = trim( longname ) // ' [' // trim( units ) // '] {' // trim( dims_str ) // '}' ) ! (in) !----------------------------------------------------------------- ! 変数の初期化 ! Initialize variable !----------------------------------------------------------------- nullify( gthist ) precision = 'float' average = .false. !----------------------------------------------------------------- ! 変数名の有効性を設定 ! Set validation of the variable name !----------------------------------------------------------------- call HstNmlInfoSetValidName( gthstnml = phy_jp % gthstnml, name = name ) ! (in) !----------------------------------------------------------------- ! 出力が有効かどうかを確認する ! Confirm whether the output is effective !----------------------------------------------------------------- if ( .not. HstNmlInfoOutputValid( phy_jp % gthstnml, name ) ) then return end if !----------------------------------------------------------------- ! GT_HISTORY 変数の取得 ! Get "GT_HISTORY" variable !----------------------------------------------------------------- call HstNmlInfoAssocGtHist( gthstnml = phy_jp % gthstnml, name = name, history = gthist, err = err ) ! (out) if ( present_and_true( err ) ) return call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, precision = precision, average = average, err = err ) ! (out) if ( present_and_true( err ) ) return !----------------------------------------------------------------- ! GT_HISTORY 変数の初期設定の確認 ! Check initialization of "GT_HISTORY" variable !----------------------------------------------------------------- if ( HistoryInitialized( gthist ) ) then !--------------------------------------------------------------- ! HistoryAddVariable による変数作成 ! A variable is created by "HistoryAddVariable" !--------------------------------------------------------------- call HistoryAddVariable( history = gthist, varname = name, dims = dims, longname = longname, units = units, xtype = precision, average = average ) ! (in) return end if !----------------------------------------------------------------- ! HistoryCreate のための設定値の取得 ! Get the settings for "HistoryCreate" !----------------------------------------------------------------- call HstNmlInfoInquire( gthstnml = phy_jp % gthstnml, name = name, file = file, interval_unit = interval_unit, interval_value = interval_value, err = err ) ! (out) if ( present_and_true( err ) ) return !----------------------------------------------------------------- ! HistoryCreate によるファイル作成 ! Files are created by "HistoryCreate" !----------------------------------------------------------------- call HistoryCreate( history = gthist, file = file, title = 'Virtual planet experiment like Jovian atmosphere', source = 'dcpam4 project : ' // trim(version), institution = 'GFD Dennou Club', dims = StoA( 'lon', 'lat', 'sig', 'sigm', 'time' ), dimsizes = (/ phy_jp % imax, phy_jp % jmax, phy_jp % kmax, phy_jp % 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', interval_unit ), origin = real( EvalbyUnit( phy_jp % current_time, interval_unit) ), interval = interval_value, err = err ) ! (out) if ( present_and_true( err ) ) then nullify( gthist ) return end if call HistoryAddAttr( history = gthist, varname = 'lon', attrname = 'standard_name', value = 'longitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lat', attrname = 'standard_name', value = 'latitude' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'standard_name', value = 'atmosphere_sigma_coordinate' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'time', attrname = 'standard_name', value = 'time' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'positive', value = 'down' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sigm', attrname = 'positive', value = 'down' ) ! (in) call HistoryPut( history = gthist, varname = 'lon', array = phy_jp % x_Lon / PI * 180.0_DP ) ! (in) call HistoryPut( history = gthist, varname = 'lat', array = phy_jp % y_Lat / PI * 180.0_DP ) ! (in) call HistoryPut( history = gthist, varname = 'sig', array = phy_jp % z_Sigma ) ! (in) call HistoryPut( history = gthist, varname = 'sigm', array = phy_jp % r_Sigma ) ! (in) call HistoryAddVariable( history = gthist, varname = 'lon_weight', dims = StoA('lon'), longname = 'weight for integration in longitude', units = 'radian', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lon', attrname = 'gt_calc_weight', value = 'lon_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'lon_weight', array = phy_jp % x_Lon_Weight ) ! (in) call HistoryAddVariable( history = gthist, varname = 'lat_weight', dims = StoA('lat'), longname = 'weight for integration in latitude', units = 'radian', xtype = 'double' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'lat', attrname = 'gt_calc_weight', value = 'lat_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'lat_weight', array = phy_jp % y_Lat_Weight ) ! (in) call HistoryAddVariable( history = gthist, varname = 'sig_weight', dims = StoA('sig'), longname = 'weight for integration in sigma', units = '1', xtype = 'float' ) ! (in) call HistoryAddAttr( history = gthist, varname = 'sig', attrname = 'gt_calc_weight', value = 'sig_weight' ) ! (in) call HistoryPut( history = gthist, varname = 'sig_weight', array = phy_jp % z_DelSigma ) ! (in) !----------------------------------------------------------------- ! HistoryAddVariable による変数作成 ! A variable is created by "HistoryAddVariable" !----------------------------------------------------------------- if ( HistoryInitialized( gthist ) ) then call HistoryAddVariable( history = gthist, varname = name, dims = dims, longname = longname, units = units, xtype = precision, average = average ) ! (in) else nullify( gthist ) end if end subroutine output_init
Constant : | |
version = ’$Name: dcpam4-20080626 $’ // ’$Id: phy_jupiter_case00.f90,v 1.6 2008-06-09 16:58:24 morikawa Exp $’ : | character(*), parameter |