Class | phy_radiation_flux |
In: |
physics/phy_radiation_flux.f90
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Note that Japanese and English are described in parallel.
温度, 比湿, 気圧から, 放射フラックスを計算します.
Calculate radiation flux from temperature, specific humidity, and air pressure.
PhyRadFluxCreate : | PHYRADFLX 型変数の初期設定 |
RadiationFlux : | 放射フラックスの計算 |
RadiationDTempDt : | 放射フラックスによる温度変化の計算 |
PhyRadFluxClose : | PHYRADFLX 型変数の終了処理 |
PhyRadFluxPutLine : | PHYRADFLX 型変数に格納されている情報の印字 |
PhyRadFluxInitialized : | PHYRADFLX 型変数が初期設定されているか否か |
———— : | ———— |
PhyRadFluxCreate : | Constructor of "PHYRADFLX" |
RadiationFlux : | Calculate radiation flux |
RadiationDTempDt : | Calculate temperature tendency with radiation flux |
PhyRadFluxClose : | Deconstructor of "PHYRADFLX" |
PhyRadFluxPutLine : | Print information of "PHYRADFLX" |
PhyRadFluxInitialized : | Check initialization of "PHYRADFLX" |
始めに, PHYRADFLX 型の変数を定義し, PhyRadFluxCreate で初期設定を行います. RadiationFlux を用いて放射フラックスを, RadiationDTempDt によって放射フラックスによる温度変化を計算します. PHYRADFLX 型の変数の終了処理には PhyRadFluxClose を用いてください.
First, initialize "PHYRADFLX" by "PhyRadFluxCreate". Calculate radiation flux by "RadiationFlux". And calculate temperature tendency with radiation flux by "RadiationFlux". In order to terminate "PHYRADFLX", use "PhyRadFluxClose".
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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Grav : | real(DP)
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Cp : | real(DP)
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StB : | real(DP)
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y_Lat(:) =>null() : | real(DP), pointer
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xy_SurfTemp(:,:) =>null() : | real(DP), pointer
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xy_SurfAlbedo(:,:) =>null() : | real(DP), pointer
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current_time : | type(DC_DIFFTIME)
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delta_time : | type(DC_DIFFTIME)
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save_flag : | logical
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delta_time_RadLong : | type(DC_DIFFTIME)
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delta_time_value_RadLong : | real(DP)
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delta_time_unit_RadLong : | character(STRING)
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LongBandNumber = 4 : | integer
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LongAbsorpCoeffQVap(:) =>null() : | real(DP), pointer
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LongAbsorpCoeffDryAir(:) =>null() : | real(DP), pointer
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LongBandWeight(:) =>null() : | real(DP), pointer
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LongPathLengthFact = 1.5_DP : | real(DP)
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xy_TempSave(:,:) =>null() : | real(DP), pointer
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xyr_RadLFluxSave(:,:,:) =>null() : | real(DP), pointer
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xyra_DelRadLFluxSave(:,:,:,:) =>null() : | real(DP), pointer
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delta_time_RadShort : | type(DC_DIFFTIME)
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delta_time_value_RadShort : | real(DP)
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delta_time_unit_RadShort : | character(STRING)
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ShortBandNumber = 1 : | integer
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ShortAbsorpCoeffQVap(:) =>null() : | real(DP), pointer
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ShortAbsorpCoeffDryAir(:) =>null() : | real(DP), pointer
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ShortBandWeight(:) =>null() : | real(DP), pointer
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ShortSecScat = 1.66_DP : | real(DP)
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xyr_RadSFluxSave(:,:,:) =>null() : | real(DP), pointer
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SolarCoeff = 1380.0_DP : | real(DP)
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AtmosAlbedo = 0.2_DP : | real(DP)
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IncomAIns = 0.127_DP : | real(DP)
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IncomBIns = 0.183_DP : | real(DP)
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IncomAZet = 0.410_DP : | real(DP)
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IncomBZet = 0.590_DP : | real(DP)
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xy_IncomRadSFlux(:,:) =>null() : | real(DP), pointer
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xy_InAngle(:,:) =>null() : | real(DP), pointer
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まず, PhyRadFluxCreate で "PHYRADFLX" 型の変数を初期設定して下さい. 初期設定された "PHYRADFLX" 型の変数を再度利用する際には, PhyRadFluxClose によって終了処理を行ってください.
Initialize "PHYRADFLX" variable by "PhyRadFluxCreate" before usage. If you reuse "PHYRADFLX" variable again for another application, terminate by "PhyRadFluxClose".
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
err : | logical, intent(out), optional
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PHYRADFLX 型の変数の終了処理を行います. なお, 与えられた phy_radflx が PhyRadFluxCreate 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 "PHYRADFLX". Note that if phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxClose( phy_radflx, err ) ! ! PHYRADFLX 型の変数の終了処理を行います. ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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 "PHYRADFLX". ! Note that if *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT implicit none type(PHYRADFLX), intent(inout):: phy_radflx logical, intent(out), optional:: err ! 例外処理用フラグ. ! デフォルトでは, この手続き内でエラーが ! 生じた場合, プログラムは強制終了します. ! 引数 *err* が与えられる場合, ! プログラムは強制終了せず, 代わりに ! *err* に .true. が代入されます. ! ! Exception handling flag. ! By default, when error occur in ! this procedure, the program aborts. ! If this *err* argument is given, ! .true. is substituted to *err* and ! the program does not abort. !----------------------------------- ! 作業変数 ! Work variables integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyRadFluxClose' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! "PHYRADFLX" の設定の消去 ! Clear the settings for "PHYRADFLX" !----------------------------------------------------------------- deallocate( phy_radflx % y_Lat ) deallocate( phy_radflx % xy_SurfTemp ) deallocate( phy_radflx % xy_SurfAlbedo ) deallocate( phy_radflx % xy_TempSave ) deallocate( phy_radflx % xyr_RadLFluxSave ) deallocate( phy_radflx % xyra_DelRadLFluxSave ) deallocate( phy_radflx % LongAbsorpCoeffQVap ) deallocate( phy_radflx % LongAbsorpCoeffDryAir ) deallocate( phy_radflx % LongBandWeight ) deallocate( phy_radflx % xyr_RadSFluxSave ) deallocate( phy_radflx % xy_IncomRadSFlux ) deallocate( phy_radflx % xy_InAngle ) !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- phy_radflx % initialized = .false. 999 continue call StoreError( stat, subname, err, cause_c ) call EndSub( subname ) end subroutine PhyRadFluxClose
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), 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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y_Lat(0:jmax-1) : | real(DP), intent(in)
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Grav : | real(DP), intent(in)
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Cp : | real(DP), intent(in)
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StB : | real(DP), intent(in)
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xy_SurfTemp(0:imax-1, 0:jmax-1) : | real(DP), intent(in)
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xy_SurfAlbedo(0:imax-1, 0:jmax-1) : | real(DP), intent(in)
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current_time_value : | real(DP), intent(in), optional
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current_time_unit : | character(*), intent(in), optional
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delta_time_value : | real(DP), intent(in), optional
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delta_time_unit : | character(*), intent(in), optional
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delta_time_value_RadLong : | real(DP), intent(in), optional
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delta_time_unit_RadLong : | character(*), intent(in), optional
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delta_time_value_RadShort : | real(DP), intent(in), optional
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delta_time_unit_RadShort : | character(*), intent(in), optional
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LongBandNumber : | integer, intent(in), optional
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LongAbsorpCoeffQVap(:) : | real(DP), intent(in), optional
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LongAbsorpCoeffDryAir(:) : | real(DP), intent(in), optional
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LongBandWeight(:) : | real(DP), intent(in), optional
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LongPathLengthFact : | real(DP), intent(in), optional
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ShortBandNumber : | integer, intent(in), optional
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ShortAbsorpCoeffQVap(:) : | real(DP), intent(in), optional
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ShortAbsorpCoeffDryAir(:) : | real(DP), intent(in), optional
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ShortBandWeight(:) : | real(DP), intent(in), optional
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ShortSecScat : | real(DP), intent(in), optional
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SolarCoeff : | real(DP), intent(in), optional
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AtmosAlbedo : | real(DP), intent(in), optional
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IncomAIns : | real(DP), intent(in), optional
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IncomBIns : | real(DP), intent(in), optional
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IncomAZet : | real(DP), intent(in), optional
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IncomBZet : | real(DP), 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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PHYRADFLX 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 PHYRADFLX 型の変数を初期設定してください.
なお, 与えられた phy_radflx 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_radiation_flux_nml を参照してください.
Constructor of "PHYRADFLX". Initialize phy_radflx by this subroutine, before other procedures are used,
Note that if phy_radflx is already initialized by this procedure, error is occurred.
In order to use NAMELIST, specify a NAMELIST filename to argument nmlfile. See "NAMELIST#phy_radiation_flux_nml" for details about a NAMELIST group.
subroutine PhyRadFluxCreate( phy_radflx, imax, jmax, kmax, y_Lat, Grav, Cp, StB, xy_SurfTemp, xy_SurfAlbedo, current_time_value, current_time_unit, delta_time_value, delta_time_unit, delta_time_value_RadLong, delta_time_unit_RadLong, delta_time_value_RadShort, delta_time_unit_RadShort, LongBandNumber, LongAbsorpCoeffQVap, LongAbsorpCoeffDryAir, LongBandWeight, LongPathLengthFact, ShortBandNumber, ShortAbsorpCoeffQVap, ShortAbsorpCoeffDryAir, ShortBandWeight, ShortSecScat, SolarCoeff, AtmosAlbedo, IncomAIns, IncomBIns, IncomAZet, IncomBZet, nmlfile, err ) ! ! PHYRADFLX 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 ! PHYRADFLX 型の変数を初期設定してください. ! ! なお, 与えられた *phy_radflx* 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_radiation_flux_nml を参照してください. ! ! Constructor of "PHYRADFLX". ! Initialize *phy_radflx* by this subroutine, ! before other procedures are used, ! ! Note that if *phy_radflx* is already initialized ! by this procedure, error is occurred. ! ! In order to use NAMELIST, specify a NAMELIST filename to ! argument *nmlfile*. See "NAMELIST#phy_radiation_flux_nml" ! for details about a NAMELIST group. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_present, only: present_and_not_empty, present_and_true use dc_message, only: MessageNotify use dc_error, only: DC_NOERR, DC_EALREADYINIT, DC_EARGLACK, DC_ENEGATIVE, DC_ENOFILEREAD use dc_date, only: DCDiffTimeCreate use dcpam_error, only: StoreError, DCPAM_ENMLARRAYINSUFF implicit none type(PHYRADFLX), intent(inout):: phy_radflx 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):: Grav ! $ g $ . 重力加速度. Gravitational acceleration real(DP), intent(in):: Cp ! $ C_p $ . 大気定圧比熱. Specific heat of air at constant pressure real(DP), intent(in):: StB ! $ \sigma_{SB} $ . ステファンボルツマン定数. Stefan-Boltzmann constant real(DP), intent(in):: y_Lat (0:jmax-1) ! 緯度. Latitude real(DP), intent(in):: xy_SurfTemp (0:imax-1, 0:jmax-1) ! 地表面温度. ! Surface temperature real(DP), intent(in):: xy_SurfAlbedo (0:imax-1, 0:jmax-1) ! 地表アルベド. ! Surface albedo real(DP), intent(in), optional:: current_time_value ! 現在時刻の値. Value of current time character(*), intent(in), optional:: current_time_unit ! 現在時刻の単位. Unit of current time real(DP), intent(in), optional:: delta_time_value ! $ \Delta t $ . タイムステップの値. Value of time step character(*), intent(in), optional:: delta_time_unit ! タイムステップの単位. Unit of time step real(DP), intent(in), optional:: delta_time_value_RadLong ! 長波フラックスを計算するステップ間隔の数値. ! Value of step interval of long wave flux calculation character(*), intent(in), optional:: delta_time_unit_RadLong ! 長波フラックスを計算するステップ間隔の単位. ! Unit of step interval of long wave flux calculation real(DP), intent(in), optional:: delta_time_value_RadShort ! 短波 (日射) フラックスを計算するステップ間隔の数値. ! Value of step interval of short wave (insolation) flux calculation character(*), intent(in), optional:: delta_time_unit_RadShort ! 短波 (日射) フラックスを計算するステップ間隔の単位. ! Unit of step interval of short wave (insolation) flux calculation integer, intent(in), optional:: LongBandNumber ! 長波バンド数. ! Number of long wave band real(DP), intent(in), optional:: LongAbsorpCoeffQVap(:) ! 水の吸収係数. ! Absorption coefficient of water real(DP), intent(in), optional:: LongAbsorpCoeffDryAir(:) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), intent(in), optional:: LongBandWeight(:) ! バンドウェイト. ! Band weight real(DP), intent(in), optional:: LongPathLengthFact ! 光路長のファクタ. ! Factor of optical length integer, intent(in), optional:: ShortBandNumber ! 短波バンド数. ! Number of long wave band real(DP), intent(in), optional:: ShortAbsorpCoeffQVap(:) ! 水の吸収係数. ! Absorption coefficient of water real(DP), intent(in), optional:: ShortAbsorpCoeffDryAir(:) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), intent(in), optional:: ShortBandWeight(:) ! バンドウェイト. ! Band weight real(DP), intent(in), optional:: ShortSecScat ! 散乱の $ sec \zeta $ ! $ sec \zeta $ of scattering real(DP), intent(in), optional:: SolarCoeff ! 太陽定数. ! Solar constant real(DP), intent(in), optional:: AtmosAlbedo ! 大気アルベド. ! Albedo of air !!$ real(DP), intent(in), optional:: EpsOrb !!$ ! 赤道傾斜角. !!$ ! Inclination of equator to orbit !!$ real(DP), intent(in), optional:: EqnOrb !!$ ! 昇降点黄経. !!$ ! real(DP), intent(in), optional:: IncomAIns ! 年平均入射の係数. ! Coefficient of annual mean incoming radiation. real(DP), intent(in), optional:: IncomBIns ! 年平均入射の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP), intent(in), optional:: IncomAZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP), intent(in), optional:: IncomBZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". 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_radiation_flux_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_radiation_flux_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. !----------------------------------- ! NAMELIST 読み込み用変数 ! Variables for loading NAMELIST real(DP), parameter:: invalid_value = -9999.0 integer:: ary_size, loaded_ary_size, err_count real(DP), pointer:: a_loaded_array(:), a_loaded_array_tmp(:), a_default_array(:) real(DP), target:: long_default(1:4), short_default(1:1) character(STRING):: warn_msg, ok_msg, loaded_array_name !----------------------------------- ! 作業変数 ! Work variables integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyRadFluxCreate' continue call BeginSub( subname, version ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( phy_radflx % initialized ) then stat = DC_EALREADYINIT cause_c = 'PHYRADFLX' 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 !----------------------------------------------------------------- ! "PHYRADFLX" の設定 ! Configure the settings for "PHYRADFLX" !----------------------------------------------------------------- phy_radflx % imax = imax phy_radflx % jmax = jmax phy_radflx % kmax = kmax phy_radflx % Grav = Grav phy_radflx % Cp = Cp phy_radflx % StB = StB allocate( phy_radflx % y_Lat (0:phy_radflx%jmax-1) ) phy_radflx % y_Lat = y_Lat allocate( phy_radflx % xy_SurfTemp (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ) allocate( phy_radflx % xy_SurfAlbedo (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ) phy_radflx % xy_SurfTemp = xy_SurfTemp phy_radflx % xy_SurfAlbedo = xy_SurfAlbedo !----------------------------------------------------------------- ! 保存用変数の割付 ! Allocate variables for save !----------------------------------------------------------------- phy_radflx % save_flag = .false. allocate( phy_radflx % xy_TempSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ) allocate( phy_radflx % xyr_RadLFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ) allocate( phy_radflx % xyr_RadSFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ) allocate( phy_radflx % xyra_DelRadLFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) ) phy_radflx % xy_TempSave = 0.0_DP phy_radflx % xyr_RadLFluxSave = 0.0_DP phy_radflx % xyr_RadSFluxSave = 0.0_DP phy_radflx % xyra_DelRadLFluxSave = 0.0_DP !----------------------------------------------------------------- ! NAMELIST の取得 ! Get NAMELIST !----------------------------------------------------------------- !------------------------- ! 割り付け ! Allocation allocate( phy_radflx % LongAbsorpCoeffQVap ( MaximumBandNumber ) ) allocate( phy_radflx % LongAbsorpCoeffDryAir ( MaximumBandNumber ) ) allocate( phy_radflx % LongBandWeight ( MaximumBandNumber ) ) phy_radflx % LongAbsorpCoeffQVap = invalid_value phy_radflx % LongAbsorpCoeffDryAir = invalid_value phy_radflx % LongBandWeight = invalid_value allocate( phy_radflx % ShortAbsorpCoeffQVap ( MaximumBandNumber ) ) allocate( phy_radflx % ShortAbsorpCoeffDryAir ( MaximumBandNumber ) ) allocate( phy_radflx % ShortBandWeight ( MaximumBandNumber ) ) phy_radflx % ShortAbsorpCoeffQVap = invalid_value phy_radflx % ShortAbsorpCoeffDryAir = invalid_value phy_radflx % ShortBandWeight = invalid_value !------------------------- ! オプショナル引数からの値 ! Values from optional arguments phy_radflx % delta_time_value_RadLong = -1.0_DP phy_radflx % delta_time_unit_RadLong = 'sec' phy_radflx % delta_time_value_RadShort = -1.0_DP phy_radflx % delta_time_unit_RadShort = 'sec' if ( present( delta_time_value_RadLong ) ) phy_radflx % delta_time_value_RadLong = delta_time_value_RadLong if ( present( delta_time_unit_RadLong ) ) phy_radflx % delta_time_unit_RadLong = delta_time_unit_RadLong if ( present( delta_time_value_RadShort ) ) phy_radflx % delta_time_value_RadShort = delta_time_value_RadShort if ( present( delta_time_unit_RadShort ) ) phy_radflx % delta_time_unit_RadShort = delta_time_unit_RadShort if ( present( LongBandNumber ) ) phy_radflx % LongBandNumber = LongBandNumber if ( present( LongPathLengthFact ) ) phy_radflx % LongPathLengthFact = LongPathLengthFact if ( present( LongAbsorpCoeffQVap ) ) then ary_size = size( LongAbsorpCoeffQVap ) phy_radflx % LongAbsorpCoeffQVap(1:ary_size) = LongAbsorpCoeffQVap end if if ( present( LongAbsorpCoeffDryAir ) ) then ary_size = size( LongAbsorpCoeffDryAir ) phy_radflx % LongAbsorpCoeffDryAir(1:ary_size) = LongAbsorpCoeffDryAir end if if ( present( LongBandWeight ) ) then ary_size = size( LongBandWeight ) phy_radflx % LongBandWeight(1:ary_size) = LongBandWeight end if if ( present( ShortBandNumber ) ) phy_radflx % ShortBandNumber = ShortBandNumber if ( present( ShortSecScat ) ) phy_radflx % ShortSecScat = ShortSecScat if ( present( ShortAbsorpCoeffQVap ) ) then ary_size = size( ShortAbsorpCoeffQVap ) phy_radflx % ShortAbsorpCoeffQVap(1:ary_size) = ShortAbsorpCoeffQVap end if if ( present( ShortAbsorpCoeffDryAir ) ) then ary_size = size( ShortAbsorpCoeffDryAir ) phy_radflx % ShortAbsorpCoeffDryAir(1:ary_size) = ShortAbsorpCoeffDryAir end if if ( present( ShortBandWeight ) ) then ary_size = size( ShortBandWeight ) phy_radflx % ShortBandWeight(1:ary_size) = ShortBandWeight end if if ( present( SolarCoeff ) ) phy_radflx % SolarCoeff = SolarCoeff if ( present( AtmosAlbedo) ) phy_radflx % AtmosAlbedo = AtmosAlbedo !!$ if ( present( EpsOrb ) ) phy_radflx % EpsOrb = EpsOrb !!$ if ( present( EqnOrb ) ) phy_radflx % EqnOrb = EqnOrb if ( present( IncomAIns ) ) phy_radflx % IncomAIns = IncomAIns if ( present( IncomBIns ) ) phy_radflx % IncomBIns = IncomBIns if ( present( IncomAZet ) ) phy_radflx % IncomAZet = IncomAZet if ( present( IncomBZet ) ) phy_radflx % IncomBZet = IncomBZet !------------------------- ! NAMELIST からの値 ! Values from NAMELIST if ( present_and_not_empty(nmlfile) ) then call MessageNotify( 'M', subname, 'Loading NAMELIST file "%c" ...', c1 = trim(nmlfile) ) call NmlRead ( nmlfile = nmlfile, delta_time_value_RadLong = phy_radflx % delta_time_value_RadLong, delta_time_unit_RadLong_ = phy_radflx % delta_time_unit_RadLong, delta_time_value_RadShort = phy_radflx % delta_time_value_RadShort, delta_time_unit_RadShort_ = phy_radflx % delta_time_unit_RadShort, LongBandNumber = phy_radflx % LongBandNumber, LongAbsorpCoeffQVap = phy_radflx % LongAbsorpCoeffQVap, LongAbsorpCoeffDryAir = phy_radflx % LongAbsorpCoeffDryAir, LongBandWeight = phy_radflx % LongBandWeight, LongPathLengthFact = phy_radflx % LongPathLengthFact, ShortBandNumber = phy_radflx % ShortBandNumber, ShortAbsorpCoeffQVap = phy_radflx % ShortAbsorpCoeffQVap, ShortAbsorpCoeffDryAir = phy_radflx % ShortAbsorpCoeffDryAir, ShortBandWeight = phy_radflx % ShortBandWeight, ShortSecScat = phy_radflx % ShortSecScat, SolarCoeff = phy_radflx % SolarCoeff, AtmosAlbedo = phy_radflx % AtmosAlbedo, IncomAIns = phy_radflx % IncomAIns, IncomBIns = phy_radflx % IncomBIns, IncomAZet = phy_radflx % IncomAZet, IncomBZet = phy_radflx % IncomBZet, 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 !----------------------------------------------------------------- ! オプショナル引数および NAMELIST から得られた設定値の正当性のチェック ! Validate setting values from optional arguments and NAMELIST !----------------------------------------------------------------- err_count = 0 warn_msg = 'Number of data "%c" is "%d" (insufficient). ' // 'Number of data must be "%d".' ok_msg = '%c(%d:%d) = %*f' !----------------------------------- ! 長波フラックス用情報管理 ! Information control for long wave flux if (phy_radflx % LongBandNumber < 1) then stat = DC_ENEGATIVE cause_c = 'LongBandNumber' goto 999 else ary_size = phy_radflx % LongBandNumber end if a_loaded_array => phy_radflx % LongAbsorpCoeffQVap loaded_array_name = 'LongAbsorpCoeffQVap' long_default = (/ 8.0_DP, 1.0_DP, 0.1_DP, 0.0_DP /) a_default_array => long_default call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % LongAbsorpCoeffQVap => a_loaded_array a_loaded_array => phy_radflx % LongAbsorpCoeffDryAir loaded_array_name = 'LongAbsorpCoeffDryAir' long_default = (/ 0.0_DP, 0.0_DP, 0.0_DP, 5.0e-5_DP /) a_default_array => long_default call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % LongAbsorpCoeffDryAir => a_loaded_array a_loaded_array => phy_radflx % LongBandWeight long_default = (/ 0.2_DP, 0.1_DP, 0.1_DP, 0.6_DP /) a_default_array => long_default loaded_array_name = 'LongBandWeight' call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % LongBandWeight => a_loaded_array if (phy_radflx % LongPathLengthFact < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'LongPathLengthFact' goto 999 end if !----------------------------------- ! 短波フラックス用情報管理 ! Information control for short wave flux if (phy_radflx % ShortBandNumber < 1) then stat = DC_ENEGATIVE cause_c = 'ShortBandNumber' goto 999 else ary_size = phy_radflx % ShortBandNumber end if a_loaded_array => phy_radflx % ShortAbsorpCoeffQVap loaded_array_name = 'ShortAbsorpCoeffQVap' short_default = (/ 0.002_DP /) a_default_array => short_default call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % ShortAbsorpCoeffQVap => a_loaded_array a_loaded_array => phy_radflx % ShortAbsorpCoeffDryAir loaded_array_name = 'ShortAbsorpCoeffDryAir' short_default = (/ 0.0_DP /) a_default_array => short_default call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % ShortAbsorpCoeffDryAir => a_loaded_array a_loaded_array => phy_radflx % ShortBandWeight short_default = (/ 1.0_DP /) a_default_array => short_default loaded_array_name = 'ShortBandWeight' call array_validation_check ! これは内部サブルーチン. This is an internal subroutine phy_radflx % ShortBandWeight => a_loaded_array if (phy_radflx % ShortSecScat < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'ShortSecScat' goto 999 end if !----------------------------------- ! 短波入射用情報管理 ! Information control for short wave incomming if (phy_radflx % SolarCoeff < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'SolarCoeff' goto 999 end if if (phy_radflx % AtmosAlbedo < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'AtmosAlbedo' goto 999 end if !!$ if (phy_radflx % EpsOrb < 0.0_DP) then !!$ stat = DC_ENEGATIVE !!$ cause_c = 'EpsOrb' !!$ goto 999 !!$ end if !!$ if (phy_radflx % EqnOrb < 0.0_DP) then !!$ stat = DC_ENEGATIVE !!$ cause_c = 'EqnOrb' !!$ goto 999 !!$ end if if (phy_radflx % IncomAIns < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'IncomAIns' goto 999 end if if (phy_radflx % IncomBIns < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'IncomBIns' goto 999 end if if (phy_radflx % IncomAZet < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'IncomAZet' goto 999 end if if (phy_radflx % IncomBZet < 0.0_DP) then stat = DC_ENEGATIVE cause_c = 'IncomBZet' goto 999 end if if ( err_count > 0 ) then stat = DCPAM_ENMLARRAYINSUFF cause_c = '' goto 999 end if !----------------------------------------------------------------- ! 時刻の設定 ! Configure time !----------------------------------------------------------------- if ( present(current_time_value) .and. present(current_time_unit) ) then call DCDiffTimeCreate( diff = phy_radflx % current_time, value = current_time_value, unit = current_time_unit ) ! (in) else call DCDiffTimeCreate( diff = phy_radflx % current_time, value = 0.0_DP, unit = 'sec' ) ! (in) end if if ( present(delta_time_value) .and. present(delta_time_unit) ) then call DCDiffTimeCreate( diff = phy_radflx % delta_time, value = delta_time_value, unit = delta_time_unit ) ! (in) else call DCDiffTimeCreate( diff = phy_radflx % delta_time, value = 1.0_DP, unit = 'sec' ) ! (in) end if call DCDiffTimeCreate( diff = phy_radflx % delta_time_RadLong, value = phy_radflx % delta_time_value_RadLong, unit = phy_radflx % delta_time_unit_RadLong ) ! (in) call DCDiffTimeCreate( diff = phy_radflx % delta_time_RadShort, value = phy_radflx % delta_time_value_RadShort, unit = phy_radflx % delta_time_unit_RadShort ) ! (in) !----------------------------------------------------------------- ! 初期化フラグの設定 ! Set initialization flag !----------------------------------------------------------------- phy_radflx % initialized = .true. !----------------------------------------------------------------- ! 短波入射の計算 ! Calculate short wave (insolation) incoming radiation !----------------------------------------------------------------- allocate( phy_radflx % xy_IncomRadSFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ) allocate( phy_radflx % xy_InAngle (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ) call ShortIncoming( phy_radflx = phy_radflx, xy_IncomRadSFlux = phy_radflx % xy_IncomRadSFlux, xy_InAngle = phy_radflx % xy_InAngle ) ! (out) !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- 999 continue call StoreError( stat, subname, err, cause_c ) if ( present_and_true(err) ) then if ( associated( phy_radflx % xy_TempSave ) ) deallocate( phy_radflx % xy_TempSave ) if ( associated( phy_radflx % xyr_RadLFluxSave ) ) deallocate( phy_radflx % xyr_RadLFluxSave ) if ( associated( phy_radflx % xyra_DelRadLFluxSave ) ) deallocate( phy_radflx % xyra_DelRadLFluxSave ) if ( associated( phy_radflx % LongAbsorpCoeffQVap ) ) deallocate( phy_radflx % LongAbsorpCoeffQVap ) if ( associated( phy_radflx % LongAbsorpCoeffDryAir ) ) deallocate( phy_radflx % LongAbsorpCoeffDryAir ) if ( associated( phy_radflx % LongBandWeight ) ) deallocate( phy_radflx % LongBandWeight ) end if call EndSub( subname ) contains subroutine array_validation_check ! ! 配列型データを NAMELIST から読み込んだ際の値の妥当性を ! チェックする. ! ! 妥当性が検証された場合には, a_loaded_array に, 過不足ない ! 配列サイズのデータが格納される. ! ! 一方, 妥当性が検証されない場合には, err_count の値が ! プラス 1 され, 警告メッセージが表示される. ! ! ! Check validation when array data is loaded from NAMELIST. ! ! If validation is checked, just enough data is stored in ! "a_loaded_array". ! ! Otherwise, if validation is not checked, add 1 to ! value of "err_count", and display warning messages. ! loaded_ary_size = count( a_loaded_array > invalid_value + 1.0_DP ) if ( loaded_ary_size == 0 ) then loaded_ary_size = size( a_default_array ) deallocate( a_loaded_array ) a_loaded_array => a_default_array end if if ( loaded_ary_size == ary_size ) then call MessageNotify( 'M', subname, ok_msg, c1 = trim(loaded_array_name), i = (/1, loaded_ary_size/), d = a_loaded_array, n = (/loaded_ary_size/) ) allocate( a_loaded_array_tmp(1:loaded_ary_size) ) a_loaded_array_tmp(1:loaded_ary_size) = a_loaded_array(1:loaded_ary_size) nullify( a_loaded_array ) a_loaded_array => a_loaded_array_tmp nullify( a_loaded_array_tmp ) else call MessageNotify( 'W', subname, warn_msg, c1 = trim(loaded_array_name), i = (/loaded_ary_size, ary_size/) ) err_count = err_count + 1 end if end subroutine array_validation_check end subroutine PhyRadFluxCreate
Function : | |
result : | logical |
phy_radflx : | type(PHYRADFLX), intent(in) |
phy_radflx 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_radflx is initialized, .true. is returned. If phy_radflx is not initialized, .false. is returned.
logical function PhyRadFluxInitialized( phy_radflx ) result(result) ! ! *phy_radflx* 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_radflx* is initialized, .true. is returned. ! If *phy_radflx* is not initialized, .false. is returned. ! implicit none type(PHYRADFLX), intent(in):: phy_radflx continue result = phy_radflx % initialized end function PhyRadFluxInitialized
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(in) | ||
unit : | integer, intent(in), optional
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indent : | character(*), intent(in), optional
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err : | logical, intent(out), optional
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引数 phy_radflx 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_radflx. By default messages are output to standard output. Unit number for output can be changed by unit argument.
subroutine PhyRadFluxPutLine( phy_radflx, unit, indent, err ) ! ! 引数 *phy_radflx* 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_radflx*. ! 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 use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT use dc_date, only: toChar implicit none type(PHYRADFLX), intent(in):: phy_radflx 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 = 'PhyRadFluxPutLine' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( present(unit) ) then out_unit = unit else out_unit = STDOUT end if indent_len = 0 indent_str = '' if ( present(indent) ) then if ( len(indent) /= 0 ) then indent_len = len(indent) indent_str(1:indent_len) = indent end if end if !----------------------------------------------------------------- ! "PHYRADFLX" の設定の印字 ! Print the settings for "PHYRADFLX" !----------------------------------------------------------------- if ( phy_radflx % initialized ) then call Printf( out_unit, indent_str(1:indent_len) // '#<PHYRADFLX:: @initialized=%y', l = (/phy_radflx % initialized/) ) call Printf( out_unit, indent_str(1:indent_len) // ' @imax=%d @jmax=%d @kmax=%d', i = (/phy_radflx % imax, phy_radflx % jmax, phy_radflx % kmax/) ) call PutLine( phy_radflx % y_Lat, unit = out_unit, lbounds = lbound(phy_radflx % y_Lat), ubounds = ubound(phy_radflx % y_Lat), indent = indent_str(1:indent_len) // ' @y_Lat=' ) call Printf( out_unit, indent_str(1:indent_len) // ' @Grav=%f @Cp=%f @StB=%f', d = (/ phy_radflx % Grav, phy_radflx % Cp, phy_radflx % StB/) ) call Printf( out_unit, indent_str(1:indent_len) // ' @current_time=%c', c1 = trim( toChar(phy_radflx % current_time) ) ) call Printf( out_unit, indent_str(1:indent_len) // ' @delta_time=%c', c1 = trim( toChar(phy_radflx % delta_time) ) ) call Printf( out_unit, indent_str(1:indent_len) // ' @delta_time_RadLong=%c', c1 = trim( toChar(phy_radflx % delta_time_RadLong) ) ) call Printf( out_unit, indent_str(1:indent_len) // ' @delta_time_RadShort=%c', c1 = trim( toChar(phy_radflx % delta_time_RadShort) ) ) call Printf( out_unit, indent_str(1:indent_len) // ' @LongBandNumber=%d, @LongPathLengthFact=%f', i = (/ phy_radflx % LongBandNumber /), d = (/ phy_radflx % LongPathLengthFact /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @LongAbsorpCoeffQVap=%*f', d = (/ phy_radflx % LongAbsorpCoeffQVap /), n = (/ phy_radflx % LongBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @LongAbsorpCoeffDryAir=%*f', d = (/ phy_radflx % LongAbsorpCoeffDryAir /), n = (/ phy_radflx % LongBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @LongBandWeight=%*f', d = (/ phy_radflx % LongBandWeight /), n = (/ phy_radflx % LongBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @ShortBandNumber=%d, @ShortSecScat=%f', i = (/ phy_radflx % ShortBandNumber /), d = (/ phy_radflx % ShortSecScat /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @ShortAbsorpCoeffQVap=%*f', d = (/ phy_radflx % ShortAbsorpCoeffQVap /), n = (/ phy_radflx % ShortBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @ShortAbsorpCoeffDryAir=%*f', d = (/ phy_radflx % ShortAbsorpCoeffDryAir /), n = (/ phy_radflx % ShortBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @ShortBandWeight=%*f', d = (/ phy_radflx % ShortBandWeight /), n = (/ phy_radflx % ShortBandNumber /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @SolarCoeff=%f, @AtmosAlbedo=%f', d = (/ phy_radflx % SolarCoeff, phy_radflx % AtmosAlbedo /) ) !!$ call Printf( out_unit, & !!$ & indent_str(1:indent_len) // & !!$ & ' @EpsOrb=%f, @EqnOrb=%f', & !!$ & d = (/ phy_radflx % EpsOrb, phy_radflx % EqnOrb /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @IncomAIns=%f, @IncomBIns=%f', d = (/ phy_radflx % IncomAIns, phy_radflx % IncomBIns /) ) call Printf( out_unit, indent_str(1:indent_len) // ' @IncomAZet=%f, @IncomBZet=%f', d = (/ phy_radflx % IncomAZet, phy_radflx % IncomBZet /) ) call PutLine( phy_radflx % xy_SurfTemp, unit = out_unit, lbounds = lbound(phy_radflx % xy_SurfTemp), ubounds = ubound(phy_radflx % xy_SurfTemp), indent = indent_str(1:indent_len) // ' @xy_SurfTemp=' ) call PutLine( phy_radflx % xy_SurfAlbedo, unit = out_unit, lbounds = lbound(phy_radflx % xy_SurfAlbedo), ubounds = ubound(phy_radflx % xy_SurfAlbedo), indent = indent_str(1:indent_len) // ' @xy_SurfAlbedo=' ) call PutLine( phy_radflx % xy_TempSave, unit = out_unit, lbounds = lbound(phy_radflx % xy_TempSave), ubounds = ubound(phy_radflx % xy_TempSave), indent = indent_str(1:indent_len) // ' @xy_TempSave=' ) call PutLine( phy_radflx % xyr_RadLFluxSave, unit = out_unit, lbounds = lbound(phy_radflx % xyr_RadLFluxSave), ubounds = ubound(phy_radflx % xyr_RadLFluxSave), indent = indent_str(1:indent_len) // ' @xyr_RadLFluxSave=' ) call PutLine( phy_radflx % xyra_DelRadLFluxSave, unit = out_unit, lbounds = lbound(phy_radflx % xyra_DelRadLFluxSave), ubounds = ubound(phy_radflx % xyra_DelRadLFluxSave), indent = indent_str(1:indent_len) // ' @xyra_DelRadLFluxSave=' ) call PutLine( phy_radflx % xy_IncomRadSFlux, unit = out_unit, lbounds = lbound(phy_radflx % xy_IncomRadSFlux), ubounds = ubound(phy_radflx % xy_IncomRadSFlux), indent = indent_str(1:indent_len) // ' @xy_IncomRadSFlux=' ) call PutLine( phy_radflx % xy_InAngle, unit = out_unit, lbounds = lbound(phy_radflx % xy_InAngle), ubounds = ubound(phy_radflx % xy_InAngle), indent = indent_str(1:indent_len) // ' @xy_InAngle=' ) call Printf( out_unit, indent_str(1:indent_len) // '>' ) else call Printf( out_unit, indent_str(1:indent_len) // '#<PHYRADFLX:: @initialized=%y>', l = (/phy_radflx % initialized/) ) end if !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- 999 continue call StoreError( stat, subname, err, cause_c ) call EndSub( subname ) end subroutine PhyRadFluxPutLine
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
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xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
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xyr_Press(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyz_DRadLTempDt(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(out)
| ||
xyz_DRadSTempDt(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(out)
| ||
err : | logical, intent(out), optional
|
放射による温度変化率を計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate temperature tendency with radiation.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
Alias for PhyRadFluxDTempDt
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyz_Temp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xyz_QVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xyr_Press(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
xya_SurfRadLMatrix(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, -1:1) : | real(DP), intent(out)
| ||
xyra_DelRadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) : | real(DP), intent(out)
| ||
xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
err : | logical, intent(out), optional
|
温度, 比湿, 気圧から, 放射フラックスを計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate radiation flux from temperature, specific humidity, and air pressure.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
Alias for PhyRadFluxRadiationFlux
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
xyra_DelRadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) : | real(DP), intent(out)
| ||
xyz_Temp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xy_SurfTemp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(in)
| ||
xyr_TauQVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_TauDryAir(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
err : | logical, intent(out), optional
|
長波フラックスの計算
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate long wave flux
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
Alias for PhyRadFluxLongFlux
Constant : | |||
MaximumBandNumber = 256 : | integer, parameter
|
Subroutine : | |||
nmlfile : | character(*), intent(in)
| ||
delta_time_value_RadLong : | real(DP), intent(inout)
| ||
delta_time_unit_RadLong_ : | character(*), intent(inout) | ||
delta_time_value_RadShort : | real(DP), intent(inout)
| ||
delta_time_unit_RadShort_ : | character(*), intent(inout) | ||
LongBandNumber : | integer, intent(inout)
| ||
LongAbsorpCoeffQVap(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongAbsorpCoeffDryAir(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongBandWeight(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongPathLengthFact : | real(DP), intent(inout)
| ||
ShortBandNumber : | integer, intent(inout)
| ||
ShortAbsorpCoeffQVap(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortAbsorpCoeffDryAir(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortBandWeight(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortSecScat : | real(DP), intent(inout)
| ||
SolarCoeff : | real(DP), intent(inout)
| ||
AtmosAlbedo : | real(DP), intent(inout)
| ||
IncomAIns : | real(DP), intent(inout)
| ||
IncomBIns : | real(DP), intent(inout)
| ||
IncomAZet : | real(DP), intent(inout)
| ||
IncomBZet : | real(DP), intent(inout)
| ||
err : | logical, intent(out), optional
|
NAMELIST ファイル nmlfile から値を入力するための 内部サブルーチンです. PhyRadFluxCreate 内で呼び出されることを 想定しています.
値が NAMELIST ファイル内で指定されていない場合には, 入力された値がそのまま返ります.
なお, nmlfile に空文字が与えられた場合, または 与えられた nmlfile を読み込むことができない場合, プログラムはエラーを発生させます.
This is an internal subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "PhyRadFluxCreate".
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_radiation_flux_nml .
Alias for PhyRadFluxNmlRead
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_Press(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyz_DRadLTempDt(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(out)
| ||
xyz_DRadSTempDt(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(out)
| ||
err : | logical, intent(out), optional
|
放射による温度変化率を計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate temperature tendency with radiation.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxDTempDt( phy_radflx, xyr_RadLFlux, xyr_RadSFlux, xyr_Press, xyz_DRadLTempDt, xyz_DRadSTempDt, err ) ! ! 放射による温度変化率を計算します. ! ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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. ! ! Calculate temperature tendency with radiation. ! ! If *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT implicit none type(PHYRADFLX), intent(inout):: phy_radflx real(DP), intent(in):: xyr_RadLFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 長波フラックス. ! Long wave flux real(DP), intent(in):: xyr_RadSFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 短波 (日射) フラックス. ! Short wave (insolation) flux real(DP), intent(in):: xyr_Press (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! $ P_s $ . 地表面気圧 (半整数レベル). ! Surface pressure (half level) real(DP), intent(out):: xyz_DRadLTempDt (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! 長波加熱率. ! Temperature tendency with long wave real(DP), intent(out):: xyz_DRadSTempDt (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! 短波加熱率. ! Temperature tendency with short wave 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:: kmax ! 鉛直層数. ! Number of vertical level real(DP):: Grav ! $ g $ . 重力加速度. Gravitational acceleration real(DP):: Cp ! $ C_p $ . 大気定圧比熱. Specific heat of air at constant pressure 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 = 'PhyRadFluxDTempDt' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! *phy_radflx* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_radflx* !----------------------------------------------------------------- kmax = phy_radflx % kmax Grav = phy_radflx % Grav Cp = phy_radflx % Cp !---------------------------------------------------------------- ! 放射冷却率の演算 ! Calculate radiation cooling rate !---------------------------------------------------------------- do k = 0, kmax - 1 xyz_DRadLTempDt(:,:,k) = ( xyr_RadLFlux(:,:,k) - xyr_RadLFlux(:,:,k+1) ) / ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) / Cp * Grav xyz_DRadSTempDt(:,:,k) = ( xyr_RadSFlux(:,:,k) - xyr_RadSFlux(:,:,k+1) ) / ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) / Cp * Grav 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 PhyRadFluxDTempDt
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
xyra_DelRadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) : | real(DP), intent(out)
| ||
xyz_Temp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xy_SurfTemp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(in)
| ||
xyr_TauQVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_TauDryAir(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
err : | logical, intent(out), optional
|
長波フラックスの計算
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate long wave flux
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxLongFlux( phy_radflx, xyr_RadLFlux, xyra_DelRadLFlux, xyz_Temp, xy_SurfTemp, xyr_TauQVap, xyr_TauDryAir, err ) ! ! 長波フラックスの計算 ! ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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. ! ! Calculate long wave flux ! ! If *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT implicit none type(PHYRADFLX), intent(inout):: phy_radflx real(DP), intent(out):: xyr_RadLFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 長波フラックス. ! Long wave flux real(DP), intent(out):: xyra_DelRadLFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) ! 長波地表温度変化. ! Surface temperature tendency with long wave real(DP), intent(in):: xyz_Temp (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! $ T $ . 温度. Temperature real(DP), intent(in):: xy_SurfTemp (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! 地表面温度. ! Surface temperature real(DP), intent(in):: xyr_TauQVap (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:水 ! Optical depth of water real(DP), intent(in):: xyr_TauDryAir (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:空気 ! Optical depth of air 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:: kmax ! 鉛直層数. ! Number of vertical level real(DP):: StB ! $ \sigma_{SB} $ . ステファンボルツマン定数. Stefan-Boltzmann constant real(DP):: xyr_Trans (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 透過係数. ! Transmission coefficient real(DP):: xyr_Trans1 (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 1/2 レベルからの透過係数. ! Transmission coefficient above 1/2 level real(DP):: xyr_Trans2 (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 3/2 レベルからの透過係数. ! Transmission coefficient above 3/2 level real(DP):: xyz_PiB (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! $ \pi B = \sigma T^{4} $ real(DP):: xy_SurfPiB (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! 地表面の $ \pi B $ . ! $ \pi B $ on surface integer:: kk , bn real(DP):: BandWeightSum integer:: BandNumber ! 長波バンド数. ! Number of long wave band real(DP), pointer:: AbsorpCoeffQVap(:) ! 水の吸収係数. ! Absorption coefficient of water real(DP), pointer:: AbsorpCoeffDryAir(:) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), pointer:: BandWeight(:) ! バンドウェイト. ! Band weight real(DP):: PathLengthFact ! 光路長のファクタ. ! Factor of optical length 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 = 'PhyRadFluxLongFlux' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! *phy_radflx* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_radflx* !----------------------------------------------------------------- kmax = phy_radflx % kmax StB = phy_radflx % StB BandNumber = phy_radflx % LongBandNumber AbsorpCoeffQVap => phy_radflx % LongAbsorpCoeffQVap AbsorpCoeffDryAir => phy_radflx % LongAbsorpCoeffDryAir BandWeight => phy_radflx % LongBandWeight PathLengthFact = phy_radflx % LongPathLengthFact !----------------------------------------------------------------- ! バンドウェイトの設定 ! Configure band weight !----------------------------------------------------------------- BandWeightSum = 0.0_DP do bn = 1, BandNumber BandWeightSum = BandWeightSum + BandWeight(bn) end do do bn = 1, BandNumber BandWeight(bn) = BandWeight(bn) / BandWeightSum end do !----------------------------------------------------------------- ! $ \pi B $ の計算 ! Calculate $ \pi B $ !----------------------------------------------------------------- xyz_PiB = StB * ( xyz_Temp**4 ) xy_SurfPiB = StB * ( xy_SurfTemp**4 ) do k = 0, kmax !--------------------------------------------------------------- ! 透過関数計算 ! Calculate transmission functions !--------------------------------------------------------------- xyr_Trans = 0.0_DP do bn = 1, BandNumber do kk = 0, kmax xyr_Trans(:,:,kk) = xyr_Trans(:,:,kk) + BandWeight(bn) * exp( - PathLengthFact * ( AbsorpCoeffQVap(bn) * abs( xyr_TauQVap(:,:,kk) - xyr_TauQVap(:,:,k) ) + AbsorpCoeffDryAir(bn) * abs( xyr_TauDryAir(:,:,kk) - xyr_TauDryAir(:,:,k) ) ) ) end do end do !--------------------------------------------------------------- ! 放射フラックス計算 ! Calculate radiation flux !--------------------------------------------------------------- xyr_RadLFlux(:,:,k) = xy_SurfPiB * xyr_Trans(:,:,0) do kk = 0, kmax-1 xyr_RadLFlux(:,:,k) = xyr_RadLFlux(:,:,k) - xyz_PiB(:,:,kk) * ( xyr_Trans(:,:,kk) - xyr_Trans(:,:,kk+1) ) end do !--------------------------------------------------------------- ! 補正項計算用透過関数計算 ! Calculate transmission functions for correction terms !--------------------------------------------------------------- xyr_Trans1(:,:,k) = xyr_Trans(:,:,0) xyr_Trans2(:,:,k) = xyr_Trans(:,:,1) end do !----------------------------------------------------------------- ! 長波地表温度変化の計算 ! Calclate surface temperature tendency with long wave !----------------------------------------------------------------- do k = 0, kmax xyra_DelRadLFlux(:,:,k,0) = 4.0_DP * xy_SurfPiB / xy_SurfTemp * xyr_Trans1(:,:,k) xyra_DelRadLFlux(:,:,k,1) = 4.0_DP * xyz_PiB(:,:,0) / xyz_Temp(:,:,0) * ( xyr_Trans2(:,:,k) - xyr_Trans1(:,:,k) ) 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 PhyRadFluxLongFlux
Subroutine : | |||
nmlfile : | character(*), intent(in)
| ||
delta_time_value_RadLong : | real(DP), intent(inout)
| ||
delta_time_unit_RadLong_ : | character(*), intent(inout) | ||
delta_time_value_RadShort : | real(DP), intent(inout)
| ||
delta_time_unit_RadShort_ : | character(*), intent(inout) | ||
LongBandNumber : | integer, intent(inout)
| ||
LongAbsorpCoeffQVap(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongAbsorpCoeffDryAir(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongBandWeight(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
LongPathLengthFact : | real(DP), intent(inout)
| ||
ShortBandNumber : | integer, intent(inout)
| ||
ShortAbsorpCoeffQVap(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortAbsorpCoeffDryAir(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortBandWeight(1:MaximumBandNumber) : | real(DP), intent(inout)
| ||
ShortSecScat : | real(DP), intent(inout)
| ||
SolarCoeff : | real(DP), intent(inout)
| ||
AtmosAlbedo : | real(DP), intent(inout)
| ||
IncomAIns : | real(DP), intent(inout)
| ||
IncomBIns : | real(DP), intent(inout)
| ||
IncomAZet : | real(DP), intent(inout)
| ||
IncomBZet : | real(DP), intent(inout)
| ||
err : | logical, intent(out), optional
|
NAMELIST ファイル nmlfile から値を入力するための 内部サブルーチンです. PhyRadFluxCreate 内で呼び出されることを 想定しています.
値が NAMELIST ファイル内で指定されていない場合には, 入力された値がそのまま返ります.
なお, nmlfile に空文字が与えられた場合, または 与えられた nmlfile を読み込むことができない場合, プログラムはエラーを発生させます.
This is an internal subroutine to input values from NAMELIST file nmlfile. This subroutine is expected to be called by "PhyRadFluxCreate".
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_radiation_flux_nml .
subroutine PhyRadFluxNmlRead( nmlfile, delta_time_value_RadLong, delta_time_unit_RadLong_, delta_time_value_RadShort, delta_time_unit_RadShort_, LongBandNumber, LongAbsorpCoeffQVap, LongAbsorpCoeffDryAir, LongBandWeight, LongPathLengthFact, ShortBandNumber, ShortAbsorpCoeffQVap, ShortAbsorpCoeffDryAir, ShortBandWeight, ShortSecScat, SolarCoeff, AtmosAlbedo, IncomAIns, IncomBIns, IncomAZet, IncomBZet, err ) ! ! NAMELIST ファイル *nmlfile* から値を入力するための ! 内部サブルーチンです. PhyRadFluxCreate 内で呼び出されることを ! 想定しています. ! ! 値が NAMELIST ファイル内で指定されていない場合には, ! 入力された値がそのまま返ります. ! ! なお, *nmlfile* に空文字が与えられた場合, または ! 与えられた *nmlfile* を読み込むことができない場合, ! プログラムはエラーを発生させます. ! ! This is an internal subroutine to input values from ! NAMELIST file *nmlfile*. This subroutine is expected to be ! called by "PhyRadFluxCreate". ! ! 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 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_error, only: StoreError, DC_NOERR, DC_ENOFILEREAD implicit none character(*), intent(in):: nmlfile ! NAMELIST ファイルの名称. ! NAMELIST file name real(DP), intent(inout):: delta_time_value_RadLong ! 長波フラックスを計算するステップ間隔の数値. ! Value of step interval of long wave flux calculation character(*), intent(inout):: delta_time_unit_RadLong_ character(STRING):: delta_time_unit_RadLong ! 長波フラックスを計算するステップ間隔の単位. ! Unit of step interval of long wave flux calculation real(DP), intent(inout):: delta_time_value_RadShort ! 短波 (日射) フラックスを計算するステップ間隔の数値. ! Value of step interval of short wave (insolation) flux calculation character(*), intent(inout):: delta_time_unit_RadShort_ character(STRING):: delta_time_unit_RadShort ! 短波 (日射) フラックスを計算するステップ間隔の単位. ! Unit of step interval of short wave (insolation) flux calculation integer, intent(inout):: LongBandNumber ! 長波バンド数. ! Number of long wave band real(DP), intent(inout):: LongAbsorpCoeffQVap(1:MaximumBandNumber) ! 水の吸収係数. ! Absorption coefficient of water real(DP), intent(inout):: LongAbsorpCoeffDryAir(1:MaximumBandNumber) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), intent(inout):: LongBandWeight(1:MaximumBandNumber) ! バンドウェイト. ! Band weight real(DP), intent(inout):: LongPathLengthFact ! 光路長のファクタ. ! Factor of optical length integer, intent(inout):: ShortBandNumber ! 短波バンド数. ! Number of long wave band real(DP), intent(inout):: ShortAbsorpCoeffQVap(1:MaximumBandNumber) ! 水の吸収係数. ! Absorption coefficient of water real(DP), intent(inout):: ShortAbsorpCoeffDryAir(1:MaximumBandNumber) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), intent(inout):: ShortBandWeight(1:MaximumBandNumber) ! バンドウェイト. ! Band weight real(DP), intent(inout):: ShortSecScat ! 散乱の $ sec \zeta $ ! $ sec \zeta $ of scattering real(DP), intent(inout):: SolarCoeff ! 太陽定数. ! Solar constant real(DP), intent(inout):: AtmosAlbedo ! 大気アルベド. ! Albedo of air !!$ real(DP), intent(inout):: EpsOrb !!$ ! 赤道傾斜角. !!$ ! Inclination of equator to orbit !!$ real(DP), intent(inout):: EqnOrb !!$ ! 昇降点黄経. !!$ ! real(DP), intent(inout):: IncomAIns ! 年平均入射の係数. ! Coefficient of annual mean incoming radiation. real(DP), intent(inout):: IncomBIns ! 年平均入射の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP), intent(inout):: IncomAZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP), intent(inout):: IncomBZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". 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_radiation_flux_nml/ delta_time_value_RadLong, delta_time_unit_RadLong, delta_time_value_RadShort, delta_time_unit_RadShort, LongBandNumber, LongAbsorpCoeffQVap, LongAbsorpCoeffDryAir, LongBandWeight, LongPathLengthFact, ShortBandNumber, ShortAbsorpCoeffQVap, ShortAbsorpCoeffDryAir, ShortBandWeight, ShortSecScat, SolarCoeff, AtmosAlbedo, IncomAIns, IncomBIns, IncomAZet, IncomBZet ! phy_radiation_flux モジュール用 ! NAMELIST 変数群名. ! ! phy_radiation_flux#Create を使用する際に, ! オプショナル引数 *nmlfile* へ NAMELIST ! ファイル名を指定することで, そのファイルから ! この NAMELIST 変数群を読み込みます. ! ! NAMELIST group name for ! "phy_radiation_flux" module. ! ! If a NAMELIST filename is specified to ! an optional argument *nmlfile* ! when "phy_radiation_flux#Create" is used, ! this NAMELIST group is loaded from ! the file. !----------------------------------- ! 作業変数 ! Work variables integer:: stat character(STRING):: cause_c integer:: unit_nml ! NAMELIST ファイルオープン用装置番号. ! Unit number for NAMELIST file open integer:: iostat_nml ! NAMELIST 読み込み時の IOSTAT. ! IOSTAT of NAMELIST read character(*), parameter:: subname = 'PhyRadFluxNmlRead' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 文字型引数を NAMELIST 変数群へ代入 ! Substitute character arguments to NAMELIST group !----------------------------------------------------------------- delta_time_unit_RadLong = delta_time_unit_RadLong_ delta_time_unit_RadShort = delta_time_unit_RadShort_ !---------------------------------------------------------------- ! 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 !----------------------------------------------------------------- read( unit = unit_nml, nml = phy_radiation_flux_nml, iostat = iostat_nml ) ! (out) if ( iostat_nml == 0 ) then call MessageNotify( 'M', subname, 'NAMELIST group "%c" is loaded from "%c".', c1 = 'phy_radiation_flux_nml', c2 = trim(nmlfile) ) !!$ write(STDOUT, nml = phy_radiation_flux_nml) else call MessageNotify( 'W', subname, 'NAMELIST group "%c" is not found in "%c" (iostat=%d).', c1 = 'phy_radiation_flux_nml', c2 = trim(nmlfile), i = (/iostat_nml/) ) end if close( unit_nml ) !----------------------------------------------------------------- ! NAMELIST 変数群を文字型引数へ代入 ! Substitute NAMELIST group to character arguments !----------------------------------------------------------------- delta_time_unit_RadLong_ = delta_time_unit_RadLong delta_time_unit_RadShort_ = delta_time_unit_RadShort !----------------------------------------------------------------- ! 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 PhyRadFluxNmlRead
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyz_Temp(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xyz_QVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) : | real(DP), intent(in)
| ||
xyr_Press(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_RadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
xya_SurfRadLMatrix(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, -1:1) : | real(DP), intent(out)
| ||
xyra_DelRadLFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) : | real(DP), intent(out)
| ||
xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(out)
| ||
err : | logical, intent(out), optional
|
温度, 比湿, 気圧から, 放射フラックスを計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate radiation flux from temperature, specific humidity, and air pressure.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxRadiationFlux( phy_radflx, xyz_Temp, xyz_QVap, xyr_Press, xyr_RadLFlux, xya_SurfRadLMatrix, xyra_DelRadLFlux, xyr_RadSFlux, err ) ! ! 温度, 比湿, 気圧から, 放射フラックスを計算します. ! ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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. ! ! Calculate radiation flux from temperature, specific humidity, and ! air pressure. ! ! If *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub, DbgMessage use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT use dc_date, only: EvalSec, EvalByUnit, mod, operator(*), operator(==), operator(<), operator(/), operator(+), operator(-) implicit none type(PHYRADFLX), intent(inout):: phy_radflx real(DP), intent(in):: xyz_Temp (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! $ T $ . 温度. Temperature real(DP), intent(in):: xyz_QVap (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax-1) ! $ q $ . 比湿. Specific humidity real(DP), intent(in):: xyr_Press (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! $ P_s $ . 地表面気圧 (半整数レベル). ! Surface pressure (half level) real(DP), intent(out):: xyr_RadLFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 長波フラックス. ! Long wave flux real(DP), intent(out):: xya_SurfRadLMatrix (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, -1:1) ! $ T $ 陰解行列: 地表. ! $ T $ implicit matrix: surface real(DP), intent(out):: xyra_DelRadLFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) ! 長波地表温度変化. ! Surface temperature tendency with long wave real(DP), intent(out):: xyr_RadSFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 短波 (日射) フラックス. ! Short wave (insolation) flux 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:: kmax ! 鉛直層数. ! Number of vertical level real(DP):: Grav ! $ g $ . 重力加速度. Gravitational acceleration real(DP):: xy_SurfTemp (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! 地表面温度. ! Surface temperature real(DP):: xy_TempSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! $ T $ . 温度 (保存用). Temperature (for save) real(DP):: xyr_RadLFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 長波フラックス (保存用). ! Long wave flux (for save) real(DP):: xyr_RadSFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 短波 (日射) フラックス (保存用). ! Short wave (insolation) flux (for save) real(DP):: xyra_DelRadLFluxSave (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax, 0:1) ! 長波地表温度変化 (保存用). ! Surface temperature tendency with long wave (for save) real(DP):: xyr_TauQVap (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:水 ! Optical depth of water real(DP):: xyr_TauDryAir (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:空気 ! Optical depth of air 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 = 'PhyRadFluxRadiationFlux' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! *phy_radflx* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_radflx* !----------------------------------------------------------------- kmax = phy_radflx % kmax Grav = phy_radflx % Grav xy_SurfTemp = phy_radflx % xy_SurfTemp xyr_RadSFlux = 0.0_DP xyr_RadSFlux(:,:,kmax) = phy_radflx % xy_IncomRadSFlux xy_TempSave = phy_radflx % xy_TempSave xyr_RadLFluxSave = phy_radflx % xyr_RadLFluxSave xyr_RadSFluxSave = phy_radflx % xyr_RadSFluxSave xyra_DelRadLFluxSave = phy_radflx % xyra_DelRadLFluxSave !----------------------------------------------------------------- ! 光学的厚さの計算 ! Calculate optical depth !----------------------------------------------------------------- xyr_TauQVap = 0.0_DP xyr_TauDryAir = 0.0_DP do k = kmax-1 , 0, -1 xyr_TauQVap(:,:,k) = xyr_TauQVap(:,:,k+1) + xyz_QVap(:,:,k) * ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) / Grav xyr_TauDryAir(:,:,k) = xyr_TauDryAir(:,:,k+1) + ( xyr_Press(:,:,k) - xyr_Press(:,:,k+1) ) / Grav end do !----------------------------------------------------------------- ! 長波フラックスの算出 ! Calculate long wave flux !----------------------------------------------------------------- !--------------------------------------------- ! current_time / delta_time_RadLong == 0, または ! delta_time_RadLong 未設定, または ! まだ一度も計算していない場合には計算を行う. ! ! If current_time / delta_time_RadLong == 0, or ! "delta_time_RadLong" is not configured, or ! calculation was never performed, ! calculation is performed. if ( mod( phy_radflx % current_time, phy_radflx % delta_time_RadLong) == 0 .or. EvalSec( phy_radflx % delta_time_RadLong ) < 0.0_DP .or. .not. phy_radflx % save_flag ) then call DbgMessage( 'LongFlux is calculated' ) call LongFlux( phy_radflx = phy_radflx, xyr_RadLFlux = xyr_RadLFlux, xyra_DelRadLFlux = xyra_DelRadLFlux, xyz_Temp = xyz_Temp, xy_SurfTemp = xy_SurfTemp, xyr_TauQVap = xyr_TauQVap, xyr_TauDryAir = xyr_TauDryAir ) ! (in) !----------------------------------- ! 前回の値を利用 ! Use values in last time else call DbgMessage( 'LongFlux is not calculated. Save values are used' ) xyr_RadLFlux = xyr_RadLFluxSave xyra_DelRadLFlux = xyra_DelRadLFluxSave do k = 0, kmax xyr_RadLFlux(:,:,k) = xyr_RadLFlux(:,:,k) + xyra_DelRadLFlux(:,:,k,1) * ( xyz_Temp(:,:,0) - xy_TempSave ) xyra_DelRadLFlux(:,:,k,1) = xyra_DelRadLFlux(:,:,k,1) / ( xy_TempSave**3 ) * ( xyz_Temp(:,:,0)**3 ) end do end if !----------------------------------------------------------------- ! 長波陰解用行列の算出 ! Calculate long wave implicit matrix !----------------------------------------------------------------- xya_SurfRadLMatrix(:,:,0) = xyra_DelRadLFlux(:,:,0,0) xya_SurfRadLMatrix(:,:,1) = xyra_DelRadLFlux(:,:,0,1) xya_SurfRadLMatrix(:,:,-1) = 0.0_DP !----------------------------------------------------------------- ! 短波 (日射) フラックスの算出 ! Calculate short wave (insolation) !----------------------------------------------------------------- !--------------------------------------------- ! current_time / delta_time_RadShort == 0, または ! delta_time_RadShort 未設定, または ! まだ一度も計算していない場合には計算を行う. ! ! If current_time / delta_time_RadShort == 0, or ! "delta_time_RadShort" is not configured, or ! calculation was never performed, ! calculation is performed. if ( mod( phy_radflx % current_time, phy_radflx % delta_time_RadShort) == 0 .or. EvalSec( phy_radflx % delta_time_RadShort ) < 0.0_DP .or. .not. phy_radflx % save_flag ) then call DbgMessage( 'ShortFlux is calculated' ) !--------------------------------- ! 短波フラックスの計算 ! Calculate short wave (insolation) flux call ShortFlux( phy_radflx = phy_radflx, xyr_RadSFlux = xyr_RadSFlux, xyr_TauQVap = xyr_TauQVap, xyr_TauDryAir = xyr_TauDryAir ) ! (in) !----------------------------------- ! 前回の値を利用 ! Use values in last time else call DbgMessage( 'ShortFlux is not calculated. Save values are used' ) xyr_RadSFlux = xyr_RadSFluxSave end if !----------------------------------------------------------------- ! 今回計算した値を保存 ! Save calculated values in this time !----------------------------------------------------------------- phy_radflx % xy_TempSave = xyz_Temp (:,:,0) phy_radflx % xyr_RadLFluxSave = xyr_RadLFlux phy_radflx % xyr_RadSFluxSave = xyr_RadSFlux phy_radflx % xyra_DelRadLFluxSave = xyra_DelRadLFlux phy_radflx % save_flag = .true. !----------------------------------------------------------------- ! 時刻の更新 ! Update time !----------------------------------------------------------------- phy_radflx % current_time = phy_radflx % current_time + phy_radflx % delta_time !----------------------------------------------------------------- ! 終了処理, 例外処理 ! Termination and Exception handling !----------------------------------------------------------------- 999 continue call StoreError( stat, subname, err, cause_c ) call EndSub( subname ) end subroutine PhyRadFluxRadiationFlux
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(inout)
| ||
xyr_TauQVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
xyr_TauDryAir(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
| ||
err : | logical, intent(out), optional
|
長波フラックスの計算
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate long wave flux
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxShortFlux( phy_radflx, xyr_RadSFlux, xyr_TauQVap, xyr_TauDryAir, err ) ! ! 長波フラックスの計算 ! ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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. ! ! Calculate long wave flux ! ! If *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT implicit none type(PHYRADFLX), intent(inout):: phy_radflx real(DP), intent(inout):: xyr_RadSFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 短波 (日射) フラックス. ! Short wave (insolation) flux real(DP), intent(in):: xyr_TauQVap (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:水 ! Optical depth of water real(DP), intent(in):: xyr_TauDryAir (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) ! 光学的厚さ:空気 ! Optical depth of air 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:: kmax ! 鉛直層数. ! Number of vertical level real(DP):: xy_InAngle (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! sec (入射角). ! sec (angle of incidence) real(DP):: xy_SurfAlbedo (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! 地表アルベド. ! Surface albedo integer:: bn real(DP):: BandWeightSum integer:: BandNumber ! 短波バンド数. ! Number of short wave band real(DP), pointer:: AbsorpCoeffQVap(:) ! 水の吸収係数. ! Absorption coefficient of water real(DP), pointer:: AbsorpCoeffDryAir(:) ! 空気の吸収係数. ! Absorption coefficient of air real(DP), pointer:: BandWeight(:) ! バンドウェイト. ! Band weight real(DP):: SecScat ! 散乱の $ sec \zeta $ ! $ sec \zeta $ of scattering 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 = 'PhyRadFluxShortFlux' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! *phy_radflx* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_radflx* !----------------------------------------------------------------- kmax = phy_radflx % kmax xy_InAngle = phy_radflx % xy_InAngle xy_SurfAlbedo = phy_radflx % xy_SurfAlbedo BandNumber = phy_radflx % ShortBandNumber AbsorpCoeffQVap => phy_radflx % ShortAbsorpCoeffQVap AbsorpCoeffDryAir => phy_radflx % ShortAbsorpCoeffDryAir BandWeight => phy_radflx % ShortBandWeight SecScat = phy_radflx % ShortSecScat !----------------------------------------------------------------- ! バンドウェイトの設定 ! Configure band weight !----------------------------------------------------------------- BandWeightSum = 0.0_DP do bn = 1, BandNumber BandWeightSum = BandWeightSum + BandWeight(bn) end do do bn = 1, BandNumber BandWeight(bn) = BandWeight(bn) / BandWeightSum end do do bn = 1, BandNumber do k = 0, kmax !------------------------------------------------------------- ! 各レベルでの下向き透過 ! Downward transmission on each level !------------------------------------------------------------- if ( k /= kmax ) then xyr_RadSFlux(:,:,k) = xyr_RadSFlux(:,:,k) + BandWeight(bn) * xyr_RadSFlux(:,:,kmax) * exp( - xy_InAngle(:,:) * ( AbsorpCoeffQVap(bn) * xyr_TauQVap(:,:,k) + AbsorpCoeffDryAir(bn) * xyr_TauDryAir(:,:,k) ) ) end if !------------------------------------------------------------- ! 各レベルでの上向き透過 ! Upward transmission on each level !------------------------------------------------------------- xyr_RadSFlux(:,:,k) = xyr_RadSFlux(:,:,k) - BandWeight(bn) * xyr_RadSFlux(:,:,kmax) * exp( - xy_InAngle(:,:) * ( AbsorpCoeffQVap(bn) * xyr_TauQVap(:,:,0) + AbsorpCoeffDryAir(bn) * xyr_TauDryAir(:,:,0) ) ) * xy_SurfAlbedo * exp( - SecScat * ( AbsorpCoeffQVap(bn) * ( xyr_TauQVap(:,:,0) - xyr_TauQVap(:,:,k) ) + AbsorpCoeffDryAir(bn) * ( xyr_TauDryAir(:,:,0) - xyr_TauDryAir(:,:,k) ) ) ) end do end do !----------------------------------------------------------------- ! 吸収なしの場合 ! In the case of no absorption !----------------------------------------------------------------- if ( BandNumber == 0 ) then do k = 0, kmax xyr_RadSFlux(:,:,k) = ( 1.0_DP - xy_SurfAlbedo ) * xyr_RadSFlux(:,:,kmax) end do 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 PhyRadFluxShortFlux
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xy_IncomRadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(out)
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xy_InAngle(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(out)
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err : | logical, intent(out), optional
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短波入射を計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate short wave (insolation) incoming radiation.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
subroutine PhyRadFluxShortIncoming( phy_radflx, xy_IncomRadSFlux, xy_InAngle, err ) ! ! 短波入射を計算します. ! ! なお, 与えられた *phy_radflx* が PhyRadFluxCreate 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. ! ! Calculate short wave (insolation) incoming radiation. ! ! If *phy_radflx* is not initialized by "PhyRadFluxCreate" yet, ! error is occurred. ! use dc_trace, only: BeginSub, EndSub use dc_string, only: PutLine, Printf use dc_types, only: DP, STRING, TOKEN, STDOUT use dc_error, only: StoreError, DC_NOERR, DC_ENOTINIT implicit none type(PHYRADFLX), intent(inout):: phy_radflx real(DP), intent(out):: xy_IncomRadSFlux (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! 短波 (日射) フラックス. ! Short wave (insolation) flux real(DP), intent(out):: xy_InAngle (0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) ! sec (入射角). ! sec (angle of incidence) 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:: imax ! 経度格子点数. ! Number of grid points in longitude integer:: jmax ! 緯度格子点数. ! Number of grid points in latitude real(DP):: y_Lat (0:phy_radflx%jmax-1) ! 緯度 (ラジアン). Latitude (radian) real(DP):: SolarCoeff ! 太陽定数. ! Solar constant real(DP):: AtmosAlbedo ! 大気アルベド. ! Albedo of air !!$ real(DP):: EpsOrb !!$ ! 赤道傾斜角. !!$ ! Inclination of equator to orbit !!$ real(DP):: EqnOrb !!$ ! 昇降点黄経. !!$ ! real(DP):: AIns ! 年平均入射の係数. ! Coefficient of annual mean incoming radiation. real(DP):: BIns ! 年平均入射の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP):: AZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". real(DP):: BZet ! 年平均入射角の係数. AIns に同じ. ! Coefficient of annual mean incoming radiation. ! Same as "AIns". integer:: i, j ! DO ループ用作業変数 ! Work variables for DO loop integer:: stat character(STRING):: cause_c character(*), parameter:: subname = 'PhyRadFluxShortIncoming' continue call BeginSub( subname ) stat = DC_NOERR cause_c = '' !----------------------------------------------------------------- ! 初期設定のチェック ! Check initialization !----------------------------------------------------------------- if ( .not. phy_radflx % initialized ) then stat = DC_ENOTINIT cause_c = 'PHYRADFLX' goto 999 end if !----------------------------------------------------------------- ! *phy_radflx* に格納されている設定値の取り出し ! Fetch setting values stored in *phy_radflx* !----------------------------------------------------------------- imax = phy_radflx % imax jmax = phy_radflx % jmax y_Lat = phy_radflx % y_Lat SolarCoeff = phy_radflx % SolarCoeff AtmosAlbedo = phy_radflx % AtmosAlbedo !!$ EpsOrb = phy_radflx % EpsOrb !!$ EqnOrb = phy_radflx % EqnOrb AIns = phy_radflx % IncomAIns BIns = phy_radflx % IncomBIns AZet = phy_radflx % IncomAZet BZet = phy_radflx % IncomBZet !----------------------------------------------------------------- ! 年, 日平均日射の計算 ! Calculate annual mean, daily mean insolation !----------------------------------------------------------------- do i = 0, imax - 1 do j = 0, jmax - 1 xy_IncomRadSFlux(i,j) = - SolarCoeff * (1.0_DP - AtmosAlbedo ) * ( AIns + BIns * cos( y_Lat(j) )**2 ) if ( xy_IncomRadSFlux(i,j) < 0.0_DP ) then xy_InAngle(i,j) = 1.0_DP / ( AZet + BZet * cos( y_Lat(j) )**2 ) else xy_IncomRadSFlux(i,j) = 0.0_DP xy_InAngle(i,j) = 0.0_DP end if end do end do !----------------------------------------------------------------- ! 季節変化, 日変化がある場合の計算 ! Calculate with seasonal change and diurnal change !----------------------------------------------------------------- ! 近く AGCM5 から移植予定. ! Importation from AGCM5 is planed within days !----------------------------------------------------------------- ! 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 PhyRadFluxShortIncoming
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xyr_RadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(inout)
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xyr_TauQVap(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
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xyr_TauDryAir(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1, 0:phy_radflx%kmax) : | real(DP), intent(in)
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err : | logical, intent(out), optional
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長波フラックスの計算
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate long wave flux
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
Alias for PhyRadFluxShortFlux
Subroutine : | |||
phy_radflx : | type(PHYRADFLX), intent(inout) | ||
xy_IncomRadSFlux(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(out)
| ||
xy_InAngle(0:phy_radflx%imax-1, 0:phy_radflx%jmax-1) : | real(DP), intent(out)
| ||
err : | logical, intent(out), optional
|
短波入射を計算します.
なお, 与えられた phy_radflx が PhyRadFluxCreate 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.
Calculate short wave (insolation) incoming radiation.
If phy_radflx is not initialized by "PhyRadFluxCreate" yet, error is occurred.
Alias for PhyRadFluxShortIncoming
Subroutine : |
配列型データを NAMELIST から読み込んだ際の値の妥当性を チェックする.
妥当性が検証された場合には, a_loaded_array に, 過不足ない 配列サイズのデータが格納される.
一方, 妥当性が検証されない場合には, err_count の値が プラス 1 され, 警告メッセージが表示される.
Check validation when array data is loaded from NAMELIST.
If validation is checked, just enough data is stored in "a_loaded_array".
Otherwise, if validation is not checked, add 1 to value of "err_count", and display warning messages.
subroutine array_validation_check ! ! 配列型データを NAMELIST から読み込んだ際の値の妥当性を ! チェックする. ! ! 妥当性が検証された場合には, a_loaded_array に, 過不足ない ! 配列サイズのデータが格納される. ! ! 一方, 妥当性が検証されない場合には, err_count の値が ! プラス 1 され, 警告メッセージが表示される. ! ! ! Check validation when array data is loaded from NAMELIST. ! ! If validation is checked, just enough data is stored in ! "a_loaded_array". ! ! Otherwise, if validation is not checked, add 1 to ! value of "err_count", and display warning messages. ! loaded_ary_size = count( a_loaded_array > invalid_value + 1.0_DP ) if ( loaded_ary_size == 0 ) then loaded_ary_size = size( a_default_array ) deallocate( a_loaded_array ) a_loaded_array => a_default_array end if if ( loaded_ary_size == ary_size ) then call MessageNotify( 'M', subname, ok_msg, c1 = trim(loaded_array_name), i = (/1, loaded_ary_size/), d = a_loaded_array, n = (/loaded_ary_size/) ) allocate( a_loaded_array_tmp(1:loaded_ary_size) ) a_loaded_array_tmp(1:loaded_ary_size) = a_loaded_array(1:loaded_ary_size) nullify( a_loaded_array ) a_loaded_array => a_loaded_array_tmp nullify( a_loaded_array_tmp ) else call MessageNotify( 'W', subname, warn_msg, c1 = trim(loaded_array_name), i = (/loaded_ary_size, ary_size/) ) err_count = err_count + 1 end if end subroutine array_validation_check
Constant : | |
version = ’$Name: dcpam4-20080609-1 $’ // ’$Id: phy_radiation_flux.f90,v 1.10 2008-03-02 22:34:19 morikawa Exp $’ : | character(*), parameter |