Posted: Wed Sep 05, 2007 7:59 pm Post subject: Production Order IDOC program
Author: Aveek Ghose
Creation of production order IDOCs to a given selection
This program selects to an input given via the selection screen the
corresponding production orders from the database. Then the function
module for creation of planned order idocs is called.
Code:
*&---------------------------------------------------------------------*
************************************************************************
* PROGRAM....... ZRCCLORDPROC
* TITLE......... Production Odrer Idocs
* AUTHOR........ Aveek Ghose
* DATE WRITTEN.. 15/09/2006
* R/3 RELEASE... 4.6C
* =====================================================================*
* COPIED FROM... N/A
* DESCRIPTION...
*& Creation of production order IDOCs to a given selection
*& This program selects to an input given via the selection screen the *
*& corresponding production orders from the database. Then the function
*& module for creation of planned order idocs is called. *
*
* =====================================================================*
* PROGRAM TYPE.. Outbound Interface
* DEV. CLASS.... ZPD1
* LOGICAL DB.... N/A
* =====================================================================*
* SCREENS....... N/A
* GUI TITLE..... N/A
* GUI STATUS.... N/A
* TRANSACTIONS.. N/A
* USER EXITS.... N/A
* =====================================================================*
* CHANGE HISTORY *
* Date By Correction Number & Brief Description Release
*----------------------------------------------------------------------*
* Tables / Structures
*----------------------------------------------------------------------*
REPORT zrcclordproc
NO STANDARD PAGE HEADING
MESSAGE-ID ZCUST
LINE-COUNT 65(0)
LINE-SIZE 255.
* INCLUDE RCORDO01. " PBO-Modules *
* INCLUDE RCORDI01. " PAI-Modules *
* INCLUDE RCORDF01. " FORM-Routines *
* --> Global data
TYPE-POOLS: cloi.
INCLUDE zprodata. "Types / constants for Orderselection
INCLUDE zrcordtop. "Tables / Data for this report
INCLUDE zrcordtop1.
* BEGIN OF INSERTION DS001
INCLUDE yrccl_constants.
TABLES : jcds,
tvarv,
zzzz_xref_data.
TYPES: BEGIN OF ty_date,
aufnr TYPE aufnr,
aedat TYPE aufaedat,
aezeit TYPE co_chg_time,
erdat TYPE auferfdat,
erfzeit TYPE co_ins_time,
loekz TYPE aufloekz,
indicator(1) TYPE c,
END OF ty_date.
DATA: is_enhancement type isu_ord_segments_determine.
DATA: itab_date TYPE STANDARD TABLE OF ty_date
INITIAL SIZE 0 WITH HEADER LINE.
DATA: f_objnr TYPE j_objnr.
DATA: g_report_sub_head(72) TYPE c, "Sub-Header hold area
g_report_head(72) TYPE c, "Header hold area
g_run_date(72) TYPE c, "Holds message for Run date
g_run_time(72) TYPE c. "Holds message for Run time
DATA:
f_old_date TYPE datum,
f_old_time TYPE uzeit,
f_continue(1) TYPE c.
* END OF INSERTION DS001
* --> Uberschrift fur sonstige Einstellungen
SELECTION-SCREEN SKIP 2.
SELECTION-SCREEN BEGIN OF BLOCK miscellaneous WITH FRAME.
SELECTION-SCREEN SKIP 1.
SELECTION-SCREEN COMMENT 1(30) text-001. "#EC
SELECTION-SCREEN SKIP 1.
*>> Logical system comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-002.
SELECTION-SCREEN POSITION 35.
PARAMETERS opt_sys LIKE tbdlst-logsys.
SELECTION-SCREEN END OF LINE.
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-003.
SELECTION-SCREEN POSITION 35.
PARAMETERS mestyp LIKE tbdme-mestyp.
SELECTION-SCREEN END OF LINE.
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-004.
SELECTION-SCREEN POSITION 35.
PARAMETERS: p_date TYPE sydatum. "last run date
SELECTION-SCREEN END OF LINE.
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-005.
SELECTION-SCREEN POSITION 35.
PARAMETERS: p_time TYPE syuzeit. "last run time
SELECTION-SCREEN END OF LINE.
* SELECTION-SCREEN END OF BLOCK MISCELLANEOUS.
*MOD-006
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-006.
SELECTION-SCREEN POSITION 35.
PARAMETERS: p_update AS CHECKBOX DEFAULT space.
SELECTION-SCREEN END OF LINE.
*MOD-006
*MOD-006
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-007.
SELECTION-SCREEN POSITION 32.
SELECT-OPTIONS: s_rundt FOR sy-datum NO-EXTENSION.
SELECTION-SCREEN END OF LINE.
*MOD-006
*MOD-006
*>> Messagetype comes from Report RCCLTRANS
SELECTION-SCREEN BEGIN OF LINE.
SELECTION-SCREEN COMMENT 3(30) text-008.
SELECTION-SCREEN POSITION 32.
SELECT-OPTIONS: s_runtm FOR sy-uzeit NO-EXTENSION.
SELECTION-SCREEN END OF LINE.
*MOD-006
**MOD-006
*SELECTION-SCREEN BEGIN OF LINE.
*SELECTION-SCREEN COMMENT 3(30) text-009.
*SELECTION-SCREEN POSITION 32.
*SELECT-OPTIONS: s_emat FOR zzzz_xref_data-z_in_value.
*SELECTION-SCREEN END OF LINE.
SELECTION-SCREEN END OF BLOCK miscellaneous.
**MOD-006
* Write selected AUFPL numbers via ranges table to memory ?
PARAMETERS:
ordtomem TYPE cloi_x DEFAULT '' NO-DISPLAY. "X: yes
* do not select from MARC, but use ranges tables directly. MK 4.0C
* matnr_gl and werks_gl must have the same length.
PARAMETERS: no_sel TYPE c DEFAULT ' ' NO-DISPLAY.
* --> Normal selection parameters for ORD comes from the logical db
*&---------------------------------------------------------------------*
*& Event START-OF-SELECTION
*&---------------------------------------------------------------------*
START-OF-SELECTION.
* --> Select the ORD according to the selected
* MRP controller, Material, work center and plant
*MOD-006
* Validate the last run date & Time
* PERFORM validate_last_run_date_time.
*MOD-006
** BEGIN OF INSERTION DS001
** get the entry of the last program run
* select single * for update from ycloidownlprot
* where logsys = OPT_SYS and
* downloadtype eq C_DOWNL_PROCESS_ORDERS.
** if YCLOIDOWNLPROT-IN_PROGRESS eq CLOI_TRUE.
*** program is already running, do not allow to start again
** write : / text-004, YCLOIDOWNLPROT-USERNAME.
** exit.
** endif.
* YCLOIDOWNLPROT-MANDT = SY-MANDT.
* YCLOIDOWNLPROT-LOGSYS = OPT_SYS.
* YCLOIDOWNLPROT-START_DATE = SY-DATUM.
* YCLOIDOWNLPROT-START_TIME = SY-UZEIT.
* YCLOIDOWNLPROT-USERNAME = SY-UNAME.
* YCLOIDOWNLPROT-DOWNLOADTYPE = C_DOWNL_PROCESS_ORDERS.
* YCLOIDOWNLPROT-IN_PROGRESS = CLOI_TRUE.
** insert or update entry (dependant if entry already exists)
* MODIFY YCLOIDOWNLPROT.
* COMMIT WORK.
* CLEAR CREATED_MASTERIDOCS_PRO.
* EXPORT CREATED_MASTERIDOCS_PRO TO MEMORY ID 'YLOI001'.
** END OF INSERTION DS001
* BEGIN OF INSERTION DS001
* if not sscrfields-ucomm = 'ONLI'. mk zu 4.0
* exit.
* endif.
* if s_dispo is initial and
* s_matnr is initial and
* s_arbpl is initial and
* s_werks is initial.
* exit.
* endif.
** Send only orders with type 40 - process orders
* p_autyp = '40'.
** END OF INSERTION DS001
*>> Put the ranges tabs back into matwrk list if no selection (NO_SEL)
IF no_sel = cloi_true.
CLEAR t_matwrk_key. REFRESH t_matwrk_key.
LOOP AT s_matnr.
t_matwrk_key-matnr = s_matnr-low.
READ TABLE s_werks INDEX sy-tabix.
t_matwrk_key-werks = s_werks-low.
APPEND t_matwrk_key.
ENDLOOP.
SORT t_matwrk_key BY matnr werks.
DELETE ADJACENT DUPLICATES FROM t_matwrk_key.
* delete duplicate duplicates from ranges table. Therfore sort by LOW
* (HIGH is not used in this case).
SORT s_matnr BY low.
DELETE ADJACENT DUPLICATES FROM s_matnr.
SORT s_werks BY low.
DELETE ADJACENT DUPLICATES FROM s_werks.
ENDIF.
* --> Determine which segments are selected in the message type
PERFORM ord_segments_determine
USING mestyp
CHANGING afpo_x
jstk_x
afab_x
affl_x
afvo_x
kbed_x
jstv_x
resb_x
kbeu_x
afuv_x
is_enhancement
jstu_x.
* Export the flags to the memory, because the following subroutine
* must not have any parameters !!!
EXPORT affl_x
afvo_x
kbed_x
resb_x
kbeu_x
afuv_x
TO MEMORY ID 'LOI03'.
* MK 19980326 enhanced selections on header/operation level
* get selection profile for log system from customizing if available
SELECT SINGLE * FROM tcloi9 WHERE logsys = opt_sys.
* if entry exists for the logical system
IF sy-subrc = 0.
* if an selection profile for the order is entered, use it for selection
IF NOT tcloi9-ord_selid IS INITIAL.
p_selid = tcloi9-ord_selid.
ENDIF.
IF NOT tcloi9-ord_opr_selid IS INITIAL AND
NOT afvo_x IS INITIAL AND NOT affl_x IS INITIAL.
ord_opr_selid = tcloi9-ord_opr_selid.
ENDIF.
ENDIF.
* initialize control key table for selections
CALL FUNCTION 'CLOI_STEUS_GET'
EXPORTING
logsys_to_init = opt_sys
IMPORTING
no_entry_for_logsys = no_entry_for_logsys
TABLES
t_steus = t_steus
EXCEPTIONS
logsys_not_initialized = 1
OTHERS = 2.
* Write structure information into the memory
* perform fill_memory_selobj.
* -> import table with already sent orders
IMPORT gt_aufnrdone FROM MEMORY ID 'LOIAUFNRTAB'. "N599845
SORT gt_aufnrdone BY low. "N599845
* --> Read header information
GET ioheader.
* Check if material/plant combination is selected MK 4.0C
CLEAR check_flg.
IF no_sel = cloi_true.
READ TABLE t_matwrk_key
WITH KEY matnr = ioheader-matnr
werks = ioheader-werks BINARY SEARCH.
IF sy-subrc <> 0.
check_flg = cloi_true.
ENDIF.
ENDIF.
* -> check if order was already sent
IF NOT gt_aufnrdone[] IS INITIAL. "N599845
READ TABLE gt_aufnrdone WITH KEY "N599845
low = ioheader-aufnr "N599845
TRANSPORTING NO FIELDS "N599845
BINARY SEARCH. "N599845
IF sy-subrc = 0. "N599845
* -> order already sent
check_flg = cloi_true. "N599845
ENDIF. "N599845
ENDIF. "N599845
* leave GET routine if check_flg is set.
CHECK check_flg IS INITIAL.
** BEGIN OF INSERTION DS001
** Check whether the process order has been changed since the last
** run of the program
* clear f_continue.
** if the CHANGED date is greater than the last run or initial
* IF IOHEADER-AEDAT GT F_OLD_DATE OR
* ( ioheader-aedat is initial and
* ioheader-aezeit is initial ).
** if the CHANGED date is initial check the creation date
* if ioheader-aedat is initial.
** if the creation date is greater than or equal to the date of the last
** run, if it is equal the creation time must be later or equal to the
** start time of the last run
* IF IOHEADER-ERDAT GT F_OLD_DATE OR
* ( IOHEADER-ERDAT EQ F_OLD_DATE AND
* IOHEADER-ERFZEIT GE F_OLD_TIME ).
* f_continue = 'X'.
* endif.
* else.
* f_continue = 'X'.
* endif.
** if the CHANGED dat is not initial check it against the last run
* ELSEIF IOHEADER-AEDAT EQ F_OLD_DATE AND
* IOHEADER-AEZEIT GE F_OLD_TIME.
* f_continue ='X'.
* endif.
*
** Aenderung 295/99 Selektions-Aenderung vom 26. August 99
** Wenn Auftrag bereits techn. abgeschlossen ist, so darf kein IDOC
** erzeugt werden, wenn Auftrag zum loschen vorgemerkt wird.
* CONCATENATE 'OR' IOHEADER-AUFNR INTO F_OBJNR.
* SELECT SINGLE * FROM JEST
* WHERE OBJNR = F_OBJNR
* AND STAT = 'I0045'.
* IF JEST-INACT EQ SPACE AND SY-SUBRC EQ 0.
* SELECT * FROM JCDS WHERE OBJNR EQ F_OBJNR AND
* STAT EQ 'I0045' AND
* INACT EQ SPACE.
** letzte Aenderung des Status TABG wird geprueft Beg. WA 354/99
* ENDSELECT.
* IF ( F_OLD_DATE GT JCDS-UDATE OR " Beg JB_02
* ( F_OLD_DATE EQ JCDS-UDATE AND
* F_OLD_TIME GT JCDS-UTIME ) ) AND " End JB_02
* SY-SUBRC EQ 0.
* CLEAR F_CONTINUE.
* ENDIF.
*
* ENDIF.
** Ende 295/99
** check f_continue eq 'X'.
** END OF INSERTION DS001
*---> Remember the orders that are already selected for the global
* selection parameters
IF ordtomem = cloi_x. "write order numbers to memory
t_aufnr_range_done-sign = 'I'.
t_aufnr_range_done-option = 'NE'.
t_aufnr_range_done-low = ioheader-aufpl.
APPEND t_aufnr_range_done.
ENDIF.
*---> Remember the orders internal/external keys for AFAB (relationship)
IF afab_x = cloi_x.
MOVE-CORRESPONDING ioheader TO t_aufpl_aufnr.
APPEND t_aufpl_aufnr.
ENDIF.
* check afpo_x = cloi_x.
GET ioitem.
** BEGIN OF INSERTION DS001
** Check whether the process order has been changed since the last
** run of the program
* CLEAR F_CONTINUE.
** if the CHANGED date is greater than the last run or initial
* IF IOHEADER-AEDAT GT F_OLD_DATE OR
* ( ioheader-aedat is initial and
* ioheader-aezeit is initial ).
** if the CHANGED date is initial check the creation date
* if ioheader-aedat is initial.
** if the creation date is greater than or equal to the date of the last
** run, if it is equal the creation time must be later or equal to the
** start time of the last run
* IF IOHEADER-ERDAT GT F_OLD_DATE OR
* ( IOHEADER-ERDAT EQ F_OLD_DATE AND
* IOHEADER-ERFZEIT GE F_OLD_TIME ).
* f_continue = 'X'.
* endif.
* else.
* f_continue = 'X'.
* endif.
** if the CHANGED date is not initial check it against the last run
* ELSEIF IOHEADER-AEDAT EQ F_OLD_DATE AND
* IOHEADER-AEZEIT GE F_OLD_TIME.
* f_continue ='X'.
* endif.
** Aenderung 295/99 Selektions-Aenderung vom 26. August 99
** Wenn Auftrag bereits techn. abgeschlossen ist, so darf kein IDOC
** erzeugt werden, wenn Auftrag zum loschen vorgemerkt wird.
* CONCATENATE 'OR' IOHEADER-AUFNR INTO F_OBJNR.
* SELECT SINGLE * FROM JEST
* WHERE OBJNR = F_OBJNR
* AND STAT = 'I0045'.
* IF JEST-INACT EQ SPACE AND SY-SUBRC EQ 0.
* SELECT * FROM JCDS WHERE OBJNR EQ F_OBJNR AND
* STAT EQ 'I0045' AND
* INACT EQ SPACE.
** letzte Aenderung des Status TABG wird geprueft
* ENDSELECT.
* IF ( F_OLD_DATE GT JCDS-UDATE OR " Beg JB_02
* ( F_OLD_DATE EQ JCDS-UDATE AND
* F_OLD_TIME GT JCDS-UTIME ) ) AND " End JB_02
* SY-SUBRC EQ 0.
* CLEAR F_CONTINUE.
* ENDIF.
*
* ENDIF.
** Ende 295/99
** check f_continue eq 'X'.
** END OF INSERTION DS001
IF afpo_x = cloi_x.
MOVE-CORRESPONDING ioitem TO t_afpo.
APPEND t_afpo.
ENDIF.
* Put matnr and ltrmi in a help structure, which later goes to t_afpo
IF ioitem-posnr = '0001'.
MOVE-CORRESPONDING ioitem TO help_afpo.
APPEND help_afpo.
* put PSP element (internal key) into order header. Unique for positions
IF t_afko-pspel IS INITIAL.
t_afko-pspel = ioitem-projn.
ENDIF.
ENDIF.
CHECK affl_x = cloi_x.
GET iosequen.
CLEAR t_afvo. REFRESH t_afvo.
MOVE-CORRESPONDING iosequen TO t_affl.
GET iosequen LATE.
t_affl-t_afvo = t_afvo[].
APPEND t_affl.
CHECK afvo_x = cloi_x.
GET iooper.
CLEAR t_kbed. REFRESH t_kbed.
CLEAR t_afuv. REFRESH t_afuv.
CLEAR t_resb. REFRESH t_resb.
MOVE-CORRESPONDING iooper TO t_afvo.
"Temporary storing of operation information if for a phase
"the corresponding operation has is needed
MOVE-CORRESPONDING iooper TO t_aufpl_aplzl_vornr.
APPEND t_aufpl_aplzl_vornr.
* check, if selection profile (if exists) for the operation is ok
IF NOT ord_opr_selid IS INITIAL.
CALL FUNCTION 'STATUS_CHECK_BY_SELSCHEM'
EXPORTING
objnr = iooper-objnr
selid = ord_opr_selid
IMPORTING
fullfill = status_ok
EXCEPTIONS
no_stat_tab = 1
no_stat_scheme = 2
OTHERS = 3.
IF sy-subrc <> 0.
status_ok = cloi_x.
ENDIF.
ELSE.
status_ok = cloi_x.
ENDIF.
* check if control key (STEUS) should not be selected.
control_key_ok = cloi_x.
IF no_entry_for_logsys IS INITIAL.
READ TABLE t_steus WITH KEY
steus = iooper-steus BINARY SEARCH.
IF sy-subrc <> 0.
CLEAR control_key_ok.
ENDIF.
ENDIF.
CHECK NOT status_ok IS INITIAL.
CHECK NOT control_key_ok IS INITIAL.
GET ioopcap.
MOVE-CORRESPONDING ioopcap TO t_kbed.
APPEND t_kbed.
CHECK resb_x = cloi_x.
GET ioopcomp.
* do not transfer RESB entries with deletion flag
CHECK ioopcomp-xloek IS INITIAL.
MOVE-CORRESPONDING ioopcomp TO t_resb.
APPEND t_resb.
CHECK afuv_x = cloi_x.
GET iosoper.
CLEAR t_kbeu. REFRESH t_kbeu.
MOVE-CORRESPONDING iosoper TO t_afuv.
* check if control key (STEUS) should not be selected.
control_key_ok = cloi_x.
IF no_entry_for_logsys IS INITIAL.
READ TABLE t_steus WITH KEY
steus = iooper-steus BINARY SEARCH.
IF sy-subrc <> 0.
CLEAR control_key_ok.
ENDIF.
ENDIF.
CHECK NOT control_key_ok IS INITIAL.
*MOD-006
DATA: itab_matnr TYPE zzzz_xref_data OCCURS 0.
DATA: l_wa_matnr TYPE zzzz_xref_data.
DATA: l_wa_matnr_value TYPE zzzz_xref_data-z_in_value.
DATA: l_wa_afko TYPE cloi_afko_struct.
* SELECT *
* FROM zzzz_xref_data
* APPENDING TABLE itab_matnr
* WHERE trans_id = 'ZELCUSMATLOOKUP' AND
* ( z_in_value IN s_matnr OR
* z_out_value IN s_matnr ).
* IF sy-subrc = 0.
* LOOP AT ITAB_MATNR INTO L_WA_MATNR.
* L_WA_MATNR_VALUE = L_WA_MATNR-z_OUT_VALUE.
* S_MATNR-LOW = L_WA_MATNR_VALUE.
* S_MATNR-SIGN = 'I'.
* S_MATNR-OPTION = 'EQ'.
* APPEND S_MATNR.
* ENDLOOP.
* DELETE itab_matnr WHERE NOT in_value IN s_emat.
* SORT itab_matnr BY out_value.
* ENDIF.
* CLEAR: l_wa_matnr.
**MOD-010
* Data which is not in the material lookup table but in the T_AFKO.
LOOP AT t_afko INTO l_wa_afko.
* READ TABLE S_MATNR WITH KEY LOW = L_WA_AFKO-MATNR BINARY SEARCH.
READ TABLE itab_matnr INTO l_wa_matnr
WITH KEY z_out_value = l_wa_afko-matnr BINARY SEARCH.
IF sy-subrc NE 0.
l_wa_afko-rgekz = 'X'.
MODIFY t_afko FROM l_wa_afko TRANSPORTING rgekz.
ENDIF.
* IF NOT P_DATE IS INITIAL.
* IF T_AFKO-GSTRP < p_date OR
* ( T_AFKO-GSTRP = p_date AND
* T_AFKO-GSUZP > p_time ).
* L_WA_AFKO-RGEKZ = 'X'.
* MODIFY T_AFKO FROM L_WA_AFKO TRANSPORTING RGEKZ.
* ENDIF.
* ENDIF.
ENDLOOP.
* Delete Data which is not in the material lookup
* table but in the T_AFKO.
* DELETE t_afko WHERE rgekz = 'X'.
*MOD-010
*MOD-006
* BEGIN OF INSERTION DS001
DATA: l_wa_itab_date TYPE ty_date.
* Check whether the process order has been changed since the last
* run of the program
CLEAR f_continue.
IF NOT t_afko IS INITIAL.
SELECT aufnr aedat aezeit erdat erfzeit loekz
INTO TABLE itab_date
FROM aufk
FOR ALL ENTRIES IN t_afko
WHERE aufnr = t_afko-aufnr.
IF sy-subrc = 0.
IF NOT p_date IS INITIAL.
CLEAR: itab_date.
* Check whether the process order has been changed since the last
* run of the program
LOOP AT itab_date INTO l_wa_itab_date.
* if the CHANGED date is greater than the last run or initial
IF l_wa_itab_date-aedat GT p_date OR
( l_wa_itab_date-aedat IS INITIAL AND
l_wa_itab_date-aezeit IS INITIAL ).
* if the CHANGED date is initial check the creation date
IF l_wa_itab_date-aedat IS INITIAL.
* if the creation date is greater than or equal to the date of the last
* run, if it is equal the creation time must be later or equal to the
* start time of the last run
IF l_wa_itab_date-erdat GT p_date OR
( l_wa_itab_date-erdat EQ p_date AND
l_wa_itab_date-erfzeit GE p_time ).
f_continue = 'X'.
ELSE.
l_wa_itab_date-indicator = 'X'.
MODIFY itab_date FROM l_wa_itab_date TRANSPORTING indicator.
ENDIF.
ELSE.
f_continue = 'X'.
ENDIF.
* if the CHANGED dat is not initial check it against the last run
ELSEIF l_wa_itab_date-aedat EQ p_date AND
l_wa_itab_date-aezeit GE p_time.
f_continue ='X'.
ELSE.
l_wa_itab_date-indicator = 'X'.
MODIFY itab_date FROM l_wa_itab_date TRANSPORTING indicator.
ENDIF.
ENDLOOP.
*MOD-006
* ELSE.
* CLEAR: ITAB_DATE.
* LOOP AT ITAB_DATE INTO L_WA_ITAB_DATE.
** if the CHANGED date is greater than the last run or initial
* IF L_WA_ITAB_DATE-AEDAT GT P_RUNDT OR
* ( L_WA_ITAB_DATE-aedat is initial and
* L_WA_ITAB_DATE-aezeit is initial ).
** if the CHANGED date is initial check the creation date
* if l_wa_itab_date-aedat is initial.
** if the creation date is greater than or equal to the date of the last
** run, if it is equal the creation time must be later or equal to the
** start time of the last run
* IF L_WA_ITAB_DATE-ERDAT GT P_RUNDT OR
* ( L_WA_ITAB_DATE-ERDAT EQ P_RUNDT AND
* L_WA_ITAB_DATE-ERFZEIT GE S_RUNTM-LOW OR
* L_WA_ITAB_DATE-ERFZEIT LE S_RUNTM-HIGH ).
* f_continue = 'X'.
* else.
* l_wa_itab_date-indicator = 'X'.
* MODIFY ITAB_DATE FROM L_WA_ITAB_DATE
* TRANSPORTING INDICATOR.
* endif.
* else.
* f_continue = 'X'.
* endif.
** if the CHANGED dat is not initial check it against the last run
* ELSEIF L_WA_ITAB_DATE-AEDAT EQ P_RUNDT AND
* L_WA_ITAB_DATE-AEZEIT GE S_RUNTM-LOW.
* f_continue ='X'.
* ELSE.
* l_wa_itab_date-indicator = 'X'.
* MODIFY ITAB_DATE FROM L_WA_ITAB_DATE
* TRANSPORTING INDICATOR.
* endif.
* ENDLOOP.
*MOD-006
ENDIF.
ENDIF.
ENDIF.
* DELETE ITAB_DATE WHERE INDICATOR = 'X'.
*MOD-006
CLEAR: itab_date.
IF s_rundt-high IS INITIAL AND NOT s_rundt IS INITIAL.
s_rundt-high = sy-datum.
ENDIF.
LOOP AT itab_date INTO l_wa_itab_date.
IF NOT s_rundt IS INITIAL.
* if the CHANGED date is greater than the last run or initial
IF ( l_wa_itab_date-aedat IS INITIAL AND
l_wa_itab_date-aezeit IS INITIAL ).
* if the CHANGED date is initial check the creation date
IF l_wa_itab_date-aedat IS INITIAL.
* if the creation date is greater than or equal to the date of the last
* run, if it is equal the creation time must be later or equal to the
* start time of the last run
IF ( l_wa_itab_date-erdat GT s_rundt-low AND
l_wa_itab_date-erfzeit GT s_runtm-low ) AND
( l_wa_itab_date-erdat LT s_rundt-high AND
l_wa_itab_date-erfzeit LT s_runtm-high ).
f_continue = 'X'.
ELSE.
l_wa_itab_date-indicator = 'X'.
MODIFY itab_date FROM l_wa_itab_date
TRANSPORTING indicator.
ENDIF.
ELSE.
f_continue = 'X'.
ENDIF.
* if the CHANGED dat is not initial check it against the last run
ELSEIF ( l_wa_itab_date-aedat GE s_rundt-low AND
l_wa_itab_date-aezeit GE s_runtm-low ) AND
( l_wa_itab_date-aedat LE s_rundt-high AND
l_wa_itab_date-aezeit LE s_runtm-high ).
f_continue ='X'.
ELSE.
l_wa_itab_date-indicator = 'X'.
MODIFY itab_date FROM l_wa_itab_date
TRANSPORTING indicator.
ENDIF.
ENDIF.
ENDLOOP.
* DELETE itab_date WHERE indicator = 'X'.
*MOD-006
**MOD-006
* LOOP AT t_afko INTO l_wa_afko.
* READ TABLE itab_date INTO l_wa_itab_date
* WITH KEY aufnr = l_wa_afko-aufnr BINARY SEARCH.
* IF sy-subrc NE 0.
* l_wa_afko-rgekz = 'X'.
* MODIFY t_afko FROM l_wa_afko TRANSPORTING rgekz.
* ENDIF.
* ENDLOOP.
* DELETE t_afko WHERE rgekz = 'X'.
**MOD-006
*----------------------------------------------------------------------
* -> initialize logical data base to reduce memory consumption
*----------------------------------------------------------------------
PERFORM ldb_process_init(sapdbioc)
CHANGING
lv_subrc.
*----------------------------------------------------------------------
* --> add information to the order structure that is not
* selected via logical database:
* - if AFVO-entry is a phase (phflg) --> fill field for
* corresponding operation number (PVZNR)
* The internal node number (aplzl) of the corresponding operation
* is in field PVZKN of the phase
*
* - relationship information: E1AFABL
* especially: select external numbers for the used
* internal numbers in the table AFAB
* - status information of the order header: E1JSTKL
* - status information of the operation: E1JSTVL
*----------------------------------------------------------------------
*----------------------------------------------------------------------
* --> Put matnr and ltrmi in the table t_afko
*----------------------------------------------------------------------
SORT t_afko BY aufnr.
LOOP AT help_afpo.
READ TABLE t_afko WITH KEY aufnr = help_afpo-aufnr
ASSIGNING <afko>
BINARY SEARCH.
IF sy-subrc = 0.
<afko>-matnr = help_afpo-matnr.
<afko>-gltri = help_afpo-ltrmi.
ENDIF.
ENDLOOP.
*----------------------------------------------------------------------
* --> Select entries for order and operation status
*----------------------------------------------------------------------
IF NOT t_objnr[] IS INITIAL.
SELECT objnr stat FROM jest INTO TABLE t_jest2
FOR ALL ENTRIES IN t_objnr
WHERE objnr = t_objnr-objnr
AND inact <> 'X'.
ENDIF.
*----------------------------------------------------------------------
* --> Select entries for relationships from afab for all orders
* into table t_afab_tmp
*----------------------------------------------------------------------
SORT t_aufpl_aplzl_vornr BY aufpl aplzl.
IF afab_x = cloi_x AND NOT t_aufpl_aufnr[] IS INITIAL.
* -> select afab data
SELECT * FROM afab INTO TABLE t_afab_tmp
FOR ALL ENTRIES IN t_aufpl_aufnr
WHERE aufpl_vor = t_aufpl_aufnr-aufpl.
SELECT * FROM afab APPENDING TABLE t_afab_tmp
FOR ALL ENTRIES IN t_aufpl_aufnr
WHERE aufpl_nch = t_aufpl_aufnr-aufpl.
* -> read external order numbers out of data base
CLEAR t_aufpl. REFRESH t_aufpl.
LOOP AT t_afab_tmp ASSIGNING <afab>.
t_aufpl = <afab>-aufpl_vor.
COLLECT t_aufpl.
t_aufpl = <afab>-aufpl_nch.
COLLECT t_aufpl.
ENDLOOP.
CLEAR t_aufpl_aufnr. REFRESH t_aufpl_aufnr.
IF NOT t_aufpl[] IS INITIAL.
SELECT aufpl aufnr FROM afko INTO TABLE t_aufpl_aufnr
FOR ALL ENTRIES IN t_aufpl
WHERE aufpl = t_aufpl-aufpl.
SORT t_aufpl_aufnr BY aufpl.
ENDIF.
* -> add order numbers to afab data
LOOP AT t_afab_tmp ASSIGNING <afab>.
READ TABLE t_aufpl_aufnr WITH KEY
aufpl = <afab>-aufpl_vor
BINARY SEARCH.
IF sy-subrc = 0.
<afab>-aufnr_vor = t_aufpl_aufnr-aufnr.
ENDIF.
READ TABLE t_aufpl_aufnr WITH KEY
aufpl = <afab>-aufpl_nch
BINARY SEARCH.
IF sy-subrc = 0.
<afab>-aufnr_nch = t_aufpl_aufnr-aufnr.
ENDIF.
ENDLOOP.
* -> read operation numbers out of data base
CLEAR t_aufpl_aplzl. REFRESH t_aufpl_aplzl.
LOOP AT t_afab_tmp ASSIGNING <afab>.
t_aufpl_aplzl-aufpl = <afab>-aufpl_vor.
t_aufpl_aplzl-aplzl = <afab>-aplzl_vor.
COLLECT t_aufpl_aplzl.
t_aufpl_aplzl-aufpl = <afab>-aufpl_nch.
t_aufpl_aplzl-aplzl = <afab>-aplzl_nch.
COLLECT t_aufpl_aplzl.
ENDLOOP.
IF NOT t_aufpl_aplzl[] IS INITIAL.
SELECT aufpl aplzl vornr FROM afvc
APPENDING TABLE t_aufpl_aplzl_vornr
FOR ALL ENTRIES IN t_aufpl_aplzl
WHERE aufpl = t_aufpl_aplzl-aufpl
AND aplzl = t_aufpl_aplzl-aplzl.
SORT t_aufpl_aplzl_vornr BY aufpl aplzl.
ENDIF.
* -> add operation numbers to afab data
LOOP AT t_afab_tmp ASSIGNING <afab>.
READ TABLE t_aufpl_aplzl_vornr WITH KEY
aufpl = <afab>-aufpl_vor
aplzl = <afab>-aplzl_vor
BINARY SEARCH.
IF sy-subrc = 0.
<afab>-vornr_vor = t_aufpl_aplzl_vornr-vornr.
ENDIF.
READ TABLE t_aufpl_aplzl_vornr WITH KEY
aufpl = <afab>-aufpl_nch
aplzl = <afab>-aplzl_nch
BINARY SEARCH.
IF sy-subrc = 0.
<afab>-vornr_nch = t_aufpl_aplzl_vornr-vornr.
ENDIF.
ENDLOOP.
ENDIF. "afab_x
*----------------------------------------------------------------------
* --> fill AFAB (relationship information) and status information
*----------------------------------------------------------------------
SORT t_aufpl_aufnr BY aufnr.
LOOP AT t_afko ASSIGNING <afko>.
* -> fill order head status information
IF jstk_x = cloi_x.
CLEAR t_jstk. REFRESH t_jstk.
LOOP AT t_jest2 INTO wa_tjest2 WHERE objnr = <afko>-objnr.
MOVE-CORRESPONDING wa_tjest2 TO t_jstk.
APPEND t_jstk.
ENDLOOP.
<afko>-t_jstk = t_jstk[].
ENDIF.
* -> fill afab information
IF afab_x = cloi_x.
CLEAR t_aufpl_aufnr.
READ TABLE t_aufpl_aufnr WITH KEY
aufnr = <afko>-aufnr
BINARY SEARCH.
CLEAR t_afab. REFRESH t_afab.
LOOP AT t_afab_tmp ASSIGNING <afab>
WHERE aufpl_vor = t_aufpl_aufnr-aufpl OR
aufpl_nch = t_aufpl_aufnr-aufpl.
MOVE-CORRESPONDING <afab> TO t_afab.
APPEND t_afab.
ENDLOOP.
<afko>-t_afab = t_afab[].
ENDIF.
* -> fill operation and suboperation status information
IF jstv_x = cloi_x OR afvo_x = cloi_x.
LOOP AT <afko>-t_affl ASSIGNING <affl>.
LOOP AT <affl>-t_afvo ASSIGNING <afvo>.
* -> read status information of suboperation
IF jstu_x = cloi_x.
LOOP AT <afvo>-t_afuv ASSIGNING <afuv>.
CLEAR t_jstu. REFRESH t_jstu.
LOOP AT t_jest2 INTO wa_tjest2 WHERE objnr = <afuv>-objnr.
MOVE-CORRESPONDING wa_tjest2 TO t_jstu.
APPEND t_jstu.
ENDLOOP.
<afuv>-t_jstu = t_jstu[].
ENDLOOP.
ENDIF.
* -> read status information of operation
IF jstv_x = cloi_x.
CLEAR t_jstv. REFRESH t_jstv.
LOOP AT t_jest2 INTO wa_tjest2 WHERE objnr = <afvo>-objnr.
MOVE-CORRESPONDING wa_tjest2 TO t_jstv.
APPEND t_jstv.
ENDLOOP.
<afvo>-t_jstv = t_jstv[].
ENDIF.
* -> Read operation for a phase
IF NOT <afvo>-pvzkn IS INITIAL.
READ TABLE t_aufpl_aplzl_vornr WITH KEY
aufpl = <afvo>-aufpl
aplzl = <afvo>-pvzkn
BINARY SEARCH.
IF sy-subrc = 0.
<afvo>-pvznr = t_aufpl_aplzl_vornr-vornr.
ENDIF.
ENDIF.
ENDLOOP.
ENDLOOP.
ENDIF.
* -> collect order numbers
CLEAR wa_aufnrdone.
wa_aufnrdone-low = <afko>-aufnr.
APPEND wa_aufnrdone TO lt_aufnrdone.
ENDLOOP.
* -> append collected order numbers to global table
APPEND LINES OF lt_aufnrdone TO gt_aufnrdone.
EXPORT gt_aufnrdone TO MEMORY ID 'LOIAUFNRTAB'.
* -> export already selected order numbers via ranges tab to memory
EXPORT t_aufnr_range_done TO MEMORY ID 'LOI002'.
**MOD-006
* IMPORT created_masteridocs_pro FROM MEMORY ID 'YLOI001'.
* ycloidownlprot-end_date = sy-datum.
* ycloidownlprot-end_time = sy-uzeit.
* ycloidownlprot-idocs_selected = created_masteridocs_pro.
* ycloidownlprot-in_progress = cloi_false.
*
** insert or update entry (dependant if entry already exists)
* MODIFY ycloidownlprot.
* COMMIT WORK.
* MESSAGE i967(z001) WITH created_masteridocs_pro.
**MOD-006
* Update last run date and time
IF p_update = 'X'.
PERFORM update_last_run.
ELSE.
* MESSAGE s000 WITH text-022.
"Last Run Date and Last Run Time not updated
LEAVE LIST-PROCESSING.
ENDIF.
INCLUDE rcordf01.
*&---------------------------------------------------------------------*
*& Form validate_last_run_date_time
*&---------------------------------------------------------------------*
* text
*----------------------------------------------------------------------*
* --> p1 text
* <-- p2 text
*----------------------------------------------------------------------*
*FORM validate_last_run_date_time.
*
* IF p_date IS INITIAL OR
* p_time IS INITIAL.
* IF sy-batch IS INITIAL.
* MESSAGE s000 WITH text-017.
* "Last Run date & Last Run Time can not be blank
* LEAVE LIST-PROCESSING.
* ELSE.
* MESSAGE e000 WITH text-017.
* "Last Run date & Last Run Time can not be blank
* ENDIF.
* ENDIF.
*
*ENDFORM. " validate_last_run_date_time
*&---------------------------------------------------------------------*
*& Form update_last_run
*&---------------------------------------------------------------------*
* text
*----------------------------------------------------------------------*
* --> p1 text
* <-- p2 text
*----------------------------------------------------------------------*
FORM update_last_run.
CONSTANTS:
l_c_name TYPE rvari_vnam VALUE 'Z_PROC_DATE',
l_c_name1 TYPE rvari_vnam VALUE 'Z_PROC_TIME',
l_c_type TYPE rsscr_kind VALUE 'P',
l_c_numb TYPE tvarv_numb VALUE '0000'.
* Update last run date
UPDATE tvarv SET low = sy-datum
WHERE name = l_c_name AND
type = l_c_type AND
numb = l_c_numb.
IF sy-subrc = 0.
COMMIT WORK.
ELSE.
ROLLBACK WORK.
g_run_date = text-015. "#EC
"Updation of TVARV table failed for ZLAST_RUN_DATE. Update manually
ENDIF.
* Update last run time
UPDATE tvarv SET low = sy-uzeit
WHERE name = l_c_name1 AND
type = l_c_type AND
numb = l_c_numb.
IF sy-subrc = 0.
COMMIT WORK.
ELSE.
ROLLBACK WORK.
g_run_time = text-016. "#EC
"Updation of TVARV table failed for ZLAST_RUN_TIME. Update manually
ENDIF.
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