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module_PRECIP_ADJUST.F @ 2759

Last change on this file since 2759 was 2759, checked in by aslmd, 2 years ago
adding unmodified code from WRFV3.0.1.1, expurged from useless data +1M size
File size: 10.3 KB

Rev	Line
[2759]	1	!-----------------------------------------------------------------------
	2	!
	3	!NCEP_MESO:MODEL_LAYER: PHYSICS
	4	!
	5	!----------------------------------------------------------------------
	6	#include "nmm_loop_basemacros.h"
	7	#include "nmm_loop_macros.h"
	8	!-----------------------------------------------------------------------
	9	!
	10	MODULE MODULE_PRECIP_ADJUST
	11	!
	12	! This module contains 3 subroutines:
	13	! READPCP
	14	! CHKSNOW
	15	! ADJPPT
	16	!-----------------------------------------------------------------------
	17	!***
	18	!*** Specify the diagnostic point here: (i,j) and the processor number.
	19	!*** Remember that in WRF, local and global (i,j) are the same, so don't
	20	!*** use the "local(i,j)" output from glb2loc.f; use the GLOBAL (I,J)
	21	!*** and the PE_WRF.
	22	!***
	23	!
	24	INTEGER :: ITEST=346,JTEST=256,TESTPE=53
	25	!-----------------------------------------------------------------------
	26	!
	27	CONTAINS
	28	!
	29	!-----------------------------------------------------------------------
	30	SUBROUTINE READPCP(PPTDAT,DDATA,LSPA &
	31	& ,IDS,IDE,JDS,JDE,KDS,KDE &
	32	& ,IMS,IME,JMS,JME,KMS,KME &
	33	& ,ITS,ITE,JTS,JTE,KTS,KTE)
	34	!
	35	! ****************************************************************
	36	! * *
	37	! * PRECIPITATION ASSIMILATION INITIALIZATION. *
	38	! * READ IN PRECIP ANALYSIS AND DATA MASK AND SET UP ALL *
	39	! * APPROPRIATE VARIABLES. *
	40	! * MIKE BALDWIN, MARCH 1994 *
	41	! * Adapted to 2-D code, Ying Lin, Mar 1996 *
	42	! * For WRF/NMM: Y.Lin Mar 2005 *
	43	! * *
	44	! ****************************************************************
	45	!-----------------------------------------------------------------------
	46	!
	47	! READ THE BINARY VERSION OF THE PRECIP ANALYSIS.
	48	!
	49	IMPLICIT NONE
	50	INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE, &
	51	& IMS,IME,JMS,JME,KMS,KME, &
	52	& ITS,ITE,JTS,JTE,KTS,KTE
	53	REAL,DIMENSION(IDS:IDE,JDS:JDE) :: TEMPG
	54	REAL,DIMENSION(IMS:IME,JMS:JME) :: TEMPL
	55	REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(OUT) :: DDATA, LSPA
	56	REAL,DIMENSION(IMS:IME,JMS:JME,3),INTENT(OUT) :: PPTDAT
	57	INTEGER :: I, J, IHR
	58	INTEGER :: MYPE
	59	CHARACTER*256 :: MESSAGE
	60	!
	61	! Get the value of MYPE:
	62	!
	63	CALL WRF_GET_MYPROC(MYPE)
	64	!
	65	TEMPG=999.
	66	!
	67	DO IHR=1,3
	68	IF(MYPE==0)THEN
	69	READ(40+IHR) ((TEMPG(I,J),I=IDS,IDE-1),J=JDS,JDE-1)
	70	WRITE(MESSAGE,*) 'IHR=', IHR, ' FINISHED READING PCP TO TEMPG'
	71	CALL WRF_MESSAGE(MESSAGE)
	72	CLOSE(40+IHR)
	73	!
	74	DO J=JDS,JDE-1
	75	DO I=IDS,IDE-1
	76	! In the binary version of the precip data, missing data are denoted as '999.'
	77	! Convert the valid data from mm to m:
	78	IF (TEMPG(I,J).LT.900.) TEMPG(I,J)=TEMPG(I,J)*0.001
	79	ENDDO
	80	ENDDO
	81	ENDIF
	82	!
	83	! Distribute to local temp array:
	84	CALL DSTRB(TEMPG,TEMPL,1,1,1,1,1 &
	85	&, IDS,IDE,JDS,JDE,KDS,KDE &
	86	&, IMS,IME,JMS,JME,KMS,KME &
	87	&, ITS,ITE,JTS,JTE,KTS,KTE)
	88	!
	89	! Place into correct hour slot in PPTDAT:
	90	DO J=JMS,JME
	91	DO I=IMS,IME
	92	PPTDAT(I,J,IHR)=TEMPL(I,J)
	93	ENDDO
	94	ENDDO
	95	!
	96	IF(MYPE==TESTPE)THEN
	97	WRITE(MESSAGE,*) 'ADJPPT-READPCP, IHR',IHR, 'PPTDAT=', &
	98	& PPTDAT(ITEST,JTEST,IHR)
	99	CALL WRF_MESSAGE(MESSAGE)
	100	ENDIF
	101
	102	ENDDO
	103	!
	104	! Give DDATA (hourly precipitation analysis partitioned into each physics
	105	! timestep; partitioning done in ADJPPT) an initial value of 999, because
	106	! TURBL/SURFCE is called before ADJPPT. Also initialize LSPA to zero.
	107	!
	108	DDATA=999.
	109	LSPA=0.
	110	!
	111	RETURN
	112	END SUBROUTINE READPCP
	113	!
	114	SUBROUTINE CHKSNOW(NTSD,DT,NPHS,SR,PPTDAT &
	115	& ,IDS,IDE,JDS,JDE,KDS,KDE &
	116	& ,IMS,IME,JMS,JME,KMS,KME &
	117	& ,ITS,ITE,JTS,JTE,KTS,KTE)
	118	!
	119	! AT THE FIRST PHYSICS TIME STEP AFTER THE TOP OF EACH HOUR, CHECK THE SNOW
	120	! ARRAY AGAINST THE SR (SNOW/TOTAL PRECIP RATIO). IF SR .GE. 0.9, SET THIS
	121	! POINT TO MISSING (SO WE WON'T DO SNOW ADJUSTMENT HERE).
	122	!
	123	!-----------------------------------------------------------------------
	124	!
	125	IMPLICIT NONE
	126	!
	127	!-----------------------------------------------------------------------
	128	!
	129	INTEGER,INTENT(IN) :: NTSD,NPHS
	130	INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE, &
	131	& IMS,IME,JMS,JME,KMS,KME, &
	132	& ITS,ITE,JTS,JTE,KTS,KTE
	133	REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: SR
	134	REAL,DIMENSION(IMS:IME,JMS:JME,3),INTENT(INOUT) :: PPTDAT
	135	REAL,INTENT(IN) :: DT
	136	REAL :: TIMES
	137	INTEGER :: I, J, IHR
	138	INTEGER :: MYPE
	139	CHARACTER*256 :: MESSAGE
	140	!-----------------------------------------------------------------------
	141	TIMES=NTSD*DT
	142	IF (MOD(TIMES,3600.) < NPHS*DT) THEN
	143	IHR=INT(TIMES)/3600+1
	144	IF (IHR > 3) go to 10
	145	DO J=MYJS2,MYJE2
	146	DO I=MYIS1,MYIE1
	147	IF (SR(I,J) >= 0.9) PPTDAT(I,J,IHR) = 999.
	148	ENDDO
	149	ENDDO
	150	!
	151	! Get the value of MYPE:
	152	!
	153	CALL WRF_GET_MYPROC(MYPE)
	154	!
	155	IF (MYPE==TESTPE) THEN
	156	WRITE(MESSAGE,1010) TIMES,SR(ITEST,JTEST)
	157	1010 FORMAT('ADJPPT-CHKSNOW: TIMES, SR=',F6.0,1X,F6.4)
	158	CALL WRF_MESSAGE(MESSAGE)
	159	ENDIF
	160	ENDIF
	161	10 CONTINUE
	162	RETURN
	163	END SUBROUTINE CHKSNOW
	164	!
	165	SUBROUTINE ADJPPT(NTSD,DT,NPHS,PREC,LSPA,PPTDAT,DDATA &
	166	& ,IDS,IDE,JDS,JDE,KDS,KDE &
	167	& ,IMS,IME,JMS,JME,KMS,KME &
	168	& ,ITS,ITE,JTS,JTE,KTS,KTE)
	169
	170	!***********************************************************************
	171	!$$$ SUBPROGRAM DOCUMENTATION BLOCK
	172	! . . .
	173	! SUBPROGRAM: ADJPPT PRECIPITATION/CLOUD ADJUSTMENT
	174	! PRGRMMR: Y. LIN ORG: W/NP22 DATE: 2005/03/30
	175	!
	176	! ABSTRACT:
	177	! ADJPPT MAKES ADJUSTMENT TO MODEL'S TEMPERATURE, MOISTURE, HYDROMETEOR
	178	! FIELDS TO BE MORE CONSISTENT WITH THE OBSERVED PRECIPITATION AND CLOUD
	179	! TOP PRESSURE
	180	!
	181	! FOR NOW, AS A FIRST STEP, JUST PARTITION THE INPUT HOURLY PRECIPITATION
	182	! OBSERVATION INTO TIME STEPS, AND FEED IT INTO THE SOIL.
	183	! PROGRAM HISTORY LOG:
	184	!
	185	! 2005/03/30 LIN - BAREBONES PRECIPITATION PARTITION/FEEDING TO GROUND
	186	! ATTRIBUTES:
	187	! LANGUAGE: FORTRAN 90
	188	! MACHINE : IBM
	189	!$$$
	190	!-----------------------------------------------------------------------
	191	!
	192	IMPLICIT NONE
	193	!
	194	!-----------------------------------------------------------------------
	195	INTEGER,INTENT(IN) :: NPHS, NTSD
	196	INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE, &
	197	& IMS,IME,JMS,JME,KMS,KME, &
	198	& ITS,ITE,JTS,JTE,KTS,KTE
	199	REAL,INTENT(IN) :: DT
	200	REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: PREC
	201	REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(OUT) :: DDATA, LSPA
	202	REAL,DIMENSION(IMS:IME,JMS:JME,3),INTENT(OUT) :: PPTDAT
	203	!-----------------------------------------------------------------------
	204	!***
	205	!*** LOCAL VARIABLES
	206	!***
	207	!-----------------------------------------------------------------------
	208	REAL :: DTPHS, FRACT, FRACT1, FRACT2, TIMES, TPHS1, TPHS2
	209	INTEGER :: I, J, IHR, IHR1, IHR2, NTSP
	210	INTEGER :: MYPE
	211	CHARACTER*256 :: MESSAGE
	212	!
	213	! Get the value of MYPE:
	214	!
	215	CALL WRF_GET_MYPROC(MYPE)
	216	!
	217	TIMES=NTSD*DT
	218	IHR=INT(TIMES)/3600+1
	219	! Size of physics time step:
	220	DTPHS=NPHS*DT
	221	!
	222	! Compute the beginning and ending time of the current physics time step,
	223	! TPHS1 and TPHS2:
	224	!
	225	NTSP=NTSD/NPHS+1
	226	TPHS1=(NTSP-1)*DTPHS
	227	TPHS2=NTSP*DTPHS
	228	!
	229	IHR1=INT(TPHS1)/3600+1
	230	IHR2=INT(TPHS2)/3600+1
	231	!
	232	! Fraction of an hour that falls into IHR1 and IHR2. Note that IHR1 and IHR2
	233	! might be identical.
	234	IF (IHR1 > 3) THEN
	235	GO TO 200
	236	ELSEIF (IHR2 > 3) THEN
	237	IHR2=3
	238	FRACT1=(3600.- MOD(INT(TPHS1),3600))/3600.
	239	FRACT2=0.
	240	ELSEIF (IHR1 .EQ. IHR2) THEN
	241	FRACT1=0.5*DTPHS/3600.
	242	FRACT2=FRACT1
	243	ELSE
	244	FRACT1=(3600.- MOD(INT(TPHS1),3600))/3600.
	245	FRACT2=FLOAT(MOD(INT(TPHS2),3600))/3600.
	246	ENDIF
	247	!
	248	FRACT=FRACT1 + FRACT2
	249	!
	250	IF (MYPE==TESTPE) THEN
	251	WRITE(MESSAGE,1010) NTSD,NTSP,TIMES,IHR1,IHR2,TPHS1,TPHS2, &
	252	& FRACT1,FRACT2
	253	1010 FORMAT('ADJPPT: NTSD,NTSP,TIMES=',I4,1X,I4,1X,F6.0,' IHR1,IHR2=' &
	254	& ,I1,1X,I1,' TPHS1,TPHS2=',F6.0,1X,F6.0,' FRACT1,FRACT2=' &
	255	& ,2(1X,F6.4))
	256	CALL WRF_MESSAGE(MESSAGE)
	257	ENDIF
	258	!
	259	!-----------------------------------------------------------------------
	260	! FRACT1/2 IS THE FRACTION OF IHR1/2'S PRECIP THAT WE WANT FOR
	261	! THIS ADJUSTMENT (assuming that the physics time step spans over
	262	! IHR1 and IHR2. If not, then IHR1=IHR2).
	263	!-----------------------------------------------------------------------
	264	! SET UP OBSERVED PRECIP FOR THIS TIMESTEP IN DDATA
	265	!-----------------------------------------------------------------------
	266	DO J=MYJS2,MYJE2
	267	DO I=MYIS1,MYIE1
	268	! Note sometimes IHR1=IHR2.
	269	IF (PPTDAT(I,J,IHR1).GT.900..OR.PPTDAT(I,J,IHR2).GT.900.) THEN
	270	DDATA(I,J) = 999.
	271	LSPA(I,J) = LSPA(I,J) + PREC(I,J)
	272	GO TO 100
	273	ELSE
	274	IF (IHR2 .LE. 3) then
	275	DDATA(I,J) = PPTDAT(I,J,IHR1)*FRACT1 &
	276	& + PPTDAT(I,J,IHR2)*FRACT2
	277	ELSE
	278	DDATA(I,J) = PPTDAT(I,J,IHR1)*FRACT1
	279	ENDIF
	280	!
	281	LSPA(I,J) = LSPA(I,J) + DDATA(I,J)
	282	ENDIF
	283	IF (I.EQ.ITEST .AND. J.EQ.JTEST .AND. MYPE.EQ.TESTPE) THEN
	284	WRITE(MESSAGE,1020) DDATA(I,J), PREC(I,J), LSPA(I,J)
	285	1020 FORMAT('ADJPPT: DDATA=',E12.6, ' PREC=',E12.6,' LSPA=',E12.6)
	286	CALL WRF_MESSAGE(MESSAGE)
	287	ENDIF
	288	!
	289	100 CONTINUE
	290	ENDDO
	291	ENDDO
	292	!
	293	200 CONTINUE
	294
	295	RETURN
	296	END SUBROUTINE ADJPPT
	297	END MODULE module_PRECIP_ADJUST

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