How to improve performence of CRM_ORDER_MAINTAIN?
Hi Experts,
I am doing lead upload from flat file using CRM_ORDER_MAINTAIN.
If the file contains records upto 50 ,it is taking aorund 6 to 10 min.
If file contains records upto 100,it is taking 30 to 40 min.
For around 250 records ,it has taken around 4 hours.
Please advice on improving the performance.
Thanks,
Adi.
Adi,
I would look at using CRMXIF_ORDER_SAVE instead to upload your leads. You also need to look at your "block size", which is basically how many records do you upload before performing a commit work in CRM?
Also check to see if you are properly refreshing the buffers during each upload of a block of transactions.
Take care,
Stephen
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Hi how to improve performence of this program
Hi all,
How to improve the performence of this program.....................
REPORT z03_gil010 NO STANDARD PAGE HEADING LINE-SIZE 130.
INCLUDE *
INCLUDE: z00_bci010. " Gestion des anomalies.
Déclaration des données *
Tables de la bases de données *
TABLES:
ekpo, " Poste document d'achat.
lfa1, " Base fournisseurs (généralités).
marc, " Données division de l'article.
z03_bw_cmp1,
eord, "Répertoire des sources appro. Achats
eina, "Fiche infos-achats - données générales
t024, "Groupes d'acheteurs
tvarv. "FAE17345+
Déclaration des données internes *
Déclaration de la table interne qui permet de recuperer les mois.
DATA: BEGIN OF itb_months OCCURS 12.
INCLUDE STRUCTURE t247.
DATA: END OF itb_months.
Table pour récupération d'infos sur les divisions
DATA: BEGIN OF itb_t001w OCCURS 0,
werks LIKE t001w-werks,
fabkl LIKE t001w-fabkl," Clé du calendrier d'entreprise
END OF itb_t001w.
Déclaration de la table interne contenant les infos sur l'adresse du
fournisseur.
DATA: BEGIN OF itb_adresse OCCURS 0,
lifnr LIKE lfa1-lifnr, " Numéro de compte fournisseur.
name1 LIKE lfa1-name1, " Nom 1.
name2 LIKE lfa1-name2, " Nom 2.
name3 LIKE lfa1-name3, " Nom 3.
name4 LIKE lfa1-name4, " Nom 4.
stras LIKE lfa1-stras, " N° de rue et nom de la rue.
pstlz LIKE lfa1-pstlz, " Code postal.
ort01 LIKE lfa1-ort01, " Localité.
pfach LIKE lfa1-pfach, " Boîte postale.
pstl2 LIKE lfa1-pstl2, " Code de la boîte postale.
land1 LIKE lfa1-land1, " Clé de pays.
landx LIKE t005t-landx, " Pays.
spras LIKE lfa1-spras, " Code langue
END OF itb_adresse.
Déclaration d'une table interne pour les informations sur les
prévisions de commande.
DATA: BEGIN OF itb_prev_cde OCCURS 0,
werks LIKE marc-werks, " Division
idnlf LIKE eina-idnlf, " ADDsde ref article frn
lifnr LIKE eord-lifnr, " N° fournisseur.
ekgrp LIKE marc-ekgrp, " Groupe d'acheteurs
dispo LIKE marc-dispo, " Code gestionnaire MRP
matnr LIKE eord-matnr, " Article.
maktx LIKE makt-maktx, " Désignation article.
bstmi LIKE marc-bstmi, " Quantité de commande.
men00 LIKE plaf-gsmng, " Quantité du mois en cours M.
men01 LIKE plaf-gsmng, " Quantité pour le mois M+1.
men02 LIKE plaf-gsmng, " Quantité pour le mois M+2.
men03 LIKE plaf-gsmng, " Quantité pour le mois M+3.
men04 LIKE plaf-gsmng, " Quantité pour le mois M+4.
men05 LIKE plaf-gsmng, " Quantité pour le mois M+5.
men06 LIKE plaf-gsmng. " Quantité pour le mois M+6.
DATA: END OF itb_prev_cde.
Structure de travail pour les commandes convernant les PFC
DATA str_pca_pfc LIKE itb_prev_cde.
*add sde
DATA str_eord_pfc LIKE itb_prev_cde.
Structure de travail pour les prévisons PFC
DATA str_prev_pfc LIKE itb_prev_cde.
Déclaration d'une table interne pour les informations sur le
portefeuille des commandes d'achat.
DATA: BEGIN OF itb_pca OCCURS 0,
werks LIKE ekpo-werks, " Division
idnlf LIKE eina-idnlf, " ADDsde ref article frn
lifnr LIKE eord-lifnr, " N° fournisseur.
ekgrp LIKE marc-ekgrp, " Groupe d'acheteurs
dispo LIKE marc-dispo, " Code gestionnaire MRP
matnr LIKE eord-matnr, " Article.
maktx LIKE makt-maktx, " Désignation article.
ebeln LIKE ekes-ebeln, " Numéro du document d'achat.
ebelp LIKE ekes-ebelp, " Numéro de poste du document d'achat.
slfdt LIKE eket-slfdt, " Date de livraison statistique
eindt LIKE ekes-eindt, " Date de livraison indiquée dans la
" confirmation de la cde.
menge LIKE ekes-menge, " Quantité indiquée dans la confirma-
" tion de la commande.
attdu LIKE eket-wemng, " Portefeuille fournisseur.
netpr LIKE ekpo-brtwr, " Prix net du document d'achat dans
" la devise du document.
rtard TYPE i, " Retard en jours ouvres.
wemng LIKE eket-wemng, " Quantité de l'entrée de marchandise.
bldat LIKE mkpf-bldat, " Date inscrite sur la pièce/sur le
" document.
qtran LIKE ekes-menge, " Quantité en transit.
dtran LIKE ekes-eindt. " Date du dernier avis de transit.
DATA: END OF itb_pca.
DATA: w_i TYPE i, "Compteur
w_i_char(1) TYPE c, "Texte pour récupérer compteur
w_nm_zone(20) TYPE c, "Nom zone pour assign au field-symbols
w_nb_j TYPE i, "Nb de jours ouvrés jusqu'à fin mois
w_nb_j_tot TYPE i. "Nb de jours ouvrés du mois
FIELD-SYMBOLS: TYPE ANY.
Déclaration d'une table contenant les fiches info achat.
DATA: BEGIN OF itb_eina OCCURS 0,
matnr LIKE eina-matnr,
lifnr LIKE eina-lifnr,
idfnl LIKE eina-idnlf.
DATA: END OF itb_eina.
Déclaration d'une table contenant les infos groupe acheteur.
*DATA: BEGIN OF itb_t024 OCCURS 0,
ekgrp LIKE t024-ekgrp,
eknam LIKE t024-eknam,
ektel LIKE t024-ektel,
telfx LIKE t024-telfx.
*DATA: END OF itb_t024.
Déclaration d'une table pour le transfert du fichier.
DATA: BEGIN OF itb_transfert OCCURS 0,
col00(8), "division
col00bis(20), "Reference article
col01(18), "No article
col02(45), "libelle article
col021(17), "Groupe acheteur
col022(13), "gestionnaire
col03(17), "qte commandée ou No de commande
col04(13), "Mois 1 ou No poste cde
col05(20), "Mois 2 ou délai initial
col06(33), "Mois 3 ou délai négocié
col07(13), "Mois 4 ou qté cdée
col08(13), "Mois 5 ou qté attendue
col09(13), "Mois 6 ou Montant attendu
col10(13), "Mois 7 ou retard
col11(13), "qte partielle livree
col12(13), "date livraison partielle
col13(13), "qté en transit
col14(13). "date
DATA: END OF itb_transfert.
Déclaration d'une table contenant la liste des fournisseurs.
DATA: BEGIN OF itb_lifnr OCCURS 0,
werks LIKE marc-werks,
idfnl LIKE eina-idnlf,
lifnr LIKE eord-lifnr,
ekgrp LIKE marc-ekgrp,
spras LIKE lfa1-spras,
eknam LIKE t024-eknam,
ektel LIKE t024-ektel,
telfx LIKE t024-telfx.
DATA: END OF itb_lifnr.
Déclaration d'une structure pour la selection dans la table MSEG.
DATA : BEGIN OF itb_mseg OCCURS 0,
mblnr LIKE mseg-mblnr,
mjahr LIKE mseg-mjahr,
ebeln LIKE mseg-ebeln,
ebelp LIKE mseg-ebelp,
END OF itb_mseg.
déclaration d'une structure pour la selection dans EKPO.
DATA : BEGIN OF itb_ekpo OCCURS 0,
lifnr LIKE ekko-lifnr,
ebeln LIKE ekpo-ebeln,
ebelp LIKE ekpo-ebelp,
menge LIKE ekpo-menge,
bpumz LIKE ekpo-bpumz,
bpumn LIKE ekpo-bpumn,
matnr LIKE ekpo-matnr,
werks LIKE ekpo-werks,
netpr LIKE ekpo-netpr,
peinh LIKE ekpo-peinh, "Base de prix FAE17345+
ekgrp LIKE ekko-ekgrp, "AFT++
dispo LIKE marc-dispo, "AFT++
END OF itb_ekpo.
déclaration d'une structure pour la selection dans EKPO.
DATA : BEGIN OF itb_ekko OCCURS 0,
ebeln LIKE ekko-ebeln,
lifnr LIKE ekko-lifnr,
spras LIKE ekko-spras,
END OF itb_ekko.
déclaration d'une structure pour la selection dans EKES.
DATA : BEGIN OF itb_ekes OCCURS 0,
ebeln LIKE eket-ebeln,
ebelp LIKE eket-ebelp,
ebtyp LIKE ekes-ebtyp,
eindt LIKE ekes-eindt,
menge LIKE ekes-menge,
dabmg LIKE ekes-dabmg,
etens LIKE ekes-etens,
END OF itb_ekes.
déclaration d'une structure pour la selection dans EKET
DATA : BEGIN OF itb_eket OCCURS 0,
ebeln LIKE eket-ebeln,
ebelp LIKE eket-ebelp,
menge LIKE eket-menge,
wemng LIKE eket-wemng,
eindt LIKE eket-eindt,
slfdt LIKE eket-slfdt,
END OF itb_eket.
déclaration d'une structure pour la selection dans MKPF.
DATA : BEGIN OF itb_mkpf OCCURS 0,
mblnr LIKE mkpf-mblnr,
mjahr LIKE mkpf-mjahr,
bldat LIKE mkpf-bldat,
END OF itb_mkpf.
Déclaration d'une structure pour la sélection dans EORD.
DATA : BEGIN OF itb_eord OCCURS 0,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
lifnr LIKE eord-lifnr,
ekgrp LIKE marc-ekgrp,
dispo LIKE marc-dispo, "DE3K924352
disls LIKE marc-disls,
bstfe LIKE marc-bstfe,
bstrf LIKE marc-bstrf,
bstmi LIKE marc-bstmi,
bstma LIKE marc-bstma,
END OF itb_eord.
DATA : BEGIN OF itb_eordw OCCURS 0.
INCLUDE STRUCTURE itb_eord.
DATA : END OF itb_eordw.
Déclaration d'une structure pour la sélection dans MAKT.
DATA : BEGIN OF itb_makt OCCURS 0,
matnr LIKE makt-matnr,
spras LIKE makt-spras,
maktx LIKE makt-maktx,
END OF itb_makt.
Déclaration d'une structure pour la sélection dans EBAN.
DATA : BEGIN OF itb_eban OCCURS 0,
matnr LIKE eban-matnr,
werks LIKE eban-werks,
flief LIKE eban-flief,
lfdat LIKE eban-lfdat,
menge LIKE eban-menge,
bsmng LIKE eban-bsmng,
webaz LIKE eban-webaz,
ekgrp LIKE eban-ekgrp,
ebeln LIKE eban-ebeln,
banfn LIKE eban-banfn,
bnfpo LIKE eban-bnfpo, "DB3K900702+
END OF itb_eban.
Déclaration d'une structure pour la sélection dans PLAF.
DATA : BEGIN OF itb_plaf OCCURS 0,
plnum LIKE plaf-plnum, "DB3K900702+
matnr LIKE plaf-matnr,
plwrk LIKE plaf-plwrk,
flief LIKE plaf-flief,
pedtr LIKE plaf-pedtr,
gsmng LIKE plaf-gsmng,
webaz LIKE plaf-webaz,
END OF itb_plaf.
Déclaration d'une structure pour la sélection dans MARC.
DATA : BEGIN OF itb_marc OCCURS 0,
matnr LIKE marc-matnr,
werks LIKE marc-werks,
disls LIKE marc-disls,
bstrf LIKE marc-bstrf,
bstmi LIKE marc-bstmi,
bstma LIKE marc-bstma,
bstfe LIKE marc-bstfe,
ekgrp LIKE marc-ekgrp,
dispo LIKE marc-dispo,
END OF itb_marc.
DATA : BEGIN OF itb_marc_eord OCCURS 0,
matnr LIKE marc-matnr,
werks LIKE marc-werks,
strgr LIKE marc-strgr, "groupe de stratégie planif
END OF itb_marc_eord.
DATA : BEGIN OF itb_z03_bw_cmp1 OCCURS 0,
matnr LIKE z03_bw_cmp1-matnr,
werks LIKE z03_bw_cmp1-werks,
pdatu LIKE z03_bw_cmp1-pdatu,
plnmg LIKE z03_bw_cmp1-plnmg,
END OF itb_z03_bw_cmp1.
Begin change BNI <DE3K937051>
DATA : BEGIN OF itb_z03_bw_cmp2 OCCURS 0,
matnr LIKE z03_bw_cmp2-matnr,
werks LIKE z03_bw_cmp2-werks,
pdatu LIKE z03_bw_cmp2-pdatu,
plnmg LIKE z03_bw_cmp2-plnmg,
END OF itb_z03_bw_cmp2.
*End change BNI
DATA : BEGIN OF str_index1,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index1.
DATA : BEGIN OF str_index2,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index2.
DATA : BEGIN OF str_index3_eord,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index3_eord.
DATA : BEGIN OF str_index4,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index4.
DATA : BEGIN OF str_index5,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index5.
DATA : BEGIN OF str_index6,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index6.
DATA : BEGIN OF str_index7,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index7.
Déclaration des variables de debut et de fin de mois.
DATA: w_debut_mois LIKE sy-datum,
w_debut_periode LIKE sy-datum,
w_fin_mois LIKE sy-datum,
w_fin_periode LIKE sy-datum.
Déclaration des variables pour les dates.
DATA: w_date0 LIKE sy-datum,
w_date1 LIKE sy-datum,
w_date2 LIKE sy-datum,
w_date3 LIKE sy-datum,
w_date4 LIKE sy-datum,
w_date5 LIKE sy-datum,
w_date6 LIKE sy-datum,
w_datejour LIKE sy-datum, "FAE15269
w_dat_da LIKE eban-lfdat,
w_dat_op LIKE plaf-pedtr,
w_mois0 LIKE t247-ltx,
w_mois1 LIKE t247-ltx,
w_mois2 LIKE t247-ltx,
w_mois3 LIKE t247-ltx,
w_mois4 LIKE t247-ltx,
w_mois5 LIKE t247-ltx,
w_mois6 LIKE t247-ltx,
w_lendemain LIKE sy-datum. "FAE17345+
Temoin d'un AR dans la commande d'achat.
DATA: w_temoin_ar.
Numéro de la confirmation de la commande
DATA : w_etens LIKE ekes-etens.
Déclaration des variables pour le nom des fichiers.
DATA: w_nom_fichier LIKE rlgrap-filename,
w_fichier LIKE rlgrap-filename,
w_racine LIKE rlgrap-filename,
w_file LIKE rlgrap-filename.
Déclaration d'une table interne pour le transfert.
DATA: BEGIN OF itb_trans OCCURS 0,
w_ligne(320).
DATA: END OF itb_trans.
Déclaration d'une variable pour rechercher les enregistrements vides.
DATA: w_compteur TYPE i,
w_compteur1 TYPE i,
w_compteur2 TYPE i,
w_retard TYPE i, " Retard en jours ouvres.
w_trouve_pfc TYPE c, "addsde
w_trouve_pfs TYPE c, "+DE3K937051
w_trouve TYPE c.
*Index pour les LOOP
DATA : w_index_ekpo LIKE sy-tabix,
w_index_ekes LIKE sy-tabix,
w_index_eket LIKE sy-tabix,
w_index_mseg LIKE sy-tabix,
w_index_eban LIKE sy-tabix,
w_index_plaf LIKE sy-tabix,
w_index_pca LIKE sy-tabix,
w_index_z03_bw_cmp1 LIKE sy-tabix,
w_index_z03_bw_cmp2 LIKE sy-tabix."+DE3K937051
RANGES : r_type_pfs FOR marc-strgr.
*fichier sur serveur +EDR231003
DATA : w_chemin LIKE filename-fileintern, "nom du fichier
w_date_fichier(12) TYPE c, "Date format DD_MM_AA
w_csv(307) TYPE c. "ligne du fichier format CSV
CONSTANTS: k_imputation_m LIKE eban-knttp VALUE 'M'. "FAE19001+
Description de l écran de sélection *
Paramètres "UTILISATION" *
Ouverture d'un block de sélection pour le(s) fournisseur(s).
SELECTION-SCREEN BEGIN OF BLOCK block1 WITH FRAME TITLE text-bl1.
Sélection division(s)
SELECT-OPTIONS: s_werks FOR ekpo-werks.
Sélection fournisseur(s).
SELECT-OPTIONS: s_lifnr FOR lfa1-lifnr OBLIGATORY.
Sélection du Groupe d'acheteur
*SELECT-OPTIONS: s_ekgrp FOR marc-ekgrp. "-FAE26446
*SELECT-OPTIONS: s_dispo FOR marc-dispo. "-FAE26446
SELECTION-SCREEN END OF BLOCK block1.
FAE 26446 : ajout
SELECTION-SCREEN BEGIN OF BLOCK block3 WITH FRAME TITLE text-bl3.
SELECTION-SCREEN BEGIN OF LINE.
PARAMETER p_ekgrp RADIOBUTTON GROUP g3.
SELECTION-SCREEN COMMENT 5(24) text-001 FOR FIELD p_ekgrp.
SELECT-OPTIONS: s_ekgrp FOR marc-ekgrp.
SELECTION-SCREEN END OF LINE.
SELECTION-SCREEN BEGIN OF LINE.
PARAMETER p_dispo RADIOBUTTON GROUP g3.
SELECTION-SCREEN COMMENT 5(24) text-002 FOR FIELD p_dispo.
SELECT-OPTIONS: s_dispo FOR marc-dispo.
SELECTION-SCREEN END OF LINE.
SELECTION-SCREEN END OF BLOCK block3.
FAE 26446 : fin ajout
Paramètres "SYSTEME" *
Saut de 2 lignes.
SELECTION-SCREEN: SKIP 2.
Ouverture d'un block de sélection pour l'adresse physique du fichier.
SELECTION-SCREEN BEGIN OF BLOCK block2 WITH FRAME TITLE text-bl2.
PARAMETERS: p_pc RADIOBUTTON GROUP rad1 DEFAULT 'X', "+EDR231003
p_fic_pc LIKE rlgrap-filename. "+EDR231003
SELECTION-SCREEN SKIP. "+EDR231003
PARAMETERS : p_serve RADIOBUTTON GROUP rad1, "+EDR231003
p_fic_se LIKE filename-fileintern "+EDR231003
DEFAULT 'Z03_PREV_COMMANDES'. "+EDR231003
SELECTION-SCREEN END OF BLOCK block2.
Logique de traitement *
INITIALIZATION *
INITIALIZATION.
Date du jour
MOVE sy-datum TO w_datejour. "FAE15269
Gestion des anomalies.
MOVE text-lb1 TO w_lb_traitement.
PERFORM f930_init USING sy-cprog '30'.
Fin de la gestions des anomalies.
Récuperation des mois dans la table interne 'ITB_MONTHS'.
CALL FUNCTION 'MONTH_NAMES_GET'
EXPORTING
language = sy-langu
TABLES
month_names = itb_months
EXCEPTIONS
month_names_not_found = 1
OTHERS = 2.
IF sy-subrc <> 0.
MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
ENDIF.
Récupération des differentes periodes.
PERFORM f100_recuperation_date TABLES itb_months.
Récupération du debut du mois.
CONCATENATE sy-datlo(6) '01' INTO w_debut_mois.
MOVE: w_debut_mois TO w_debut_periode.
Récupération du dernier jour du mois.
CALL FUNCTION 'LAST_DAY_OF_MONTHS'
EXPORTING
day_in = sy-datlo
IMPORTING
last_day_of_month = w_fin_mois
EXCEPTIONS
day_in_no_date = 1
OTHERS = 2.
IF sy-subrc <> 0.
MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
ENDIF.
TOP-OF-PAGE *
TOP-OF-PAGE.
CALL FUNCTION 'Z_00_BC_TOP_OF_PAGE'
EXPORTING
p_linsz = k_ligne
p_pagno = sy-pagno
p_prog = sy-cprog
p_projet = k_projet
p_societe = k_societe
p_sujet = sy-title.
END-OF-PAGE *
END-OF-PAGE.
AT SELECTION-SCREEN *
FAE 26446 : ajout
AT SELECTION-SCREEN ON BLOCK block3.
IF NOT ( s_ekgrp IS INITIAL )
AND NOT ( s_dispo IS INITIAL ).
MESSAGE e394(z03_mm).
ENDIF.
IF p_ekgrp = 'X'.
IF s_ekgrp IS INITIAL.
MESSAGE e395(z03_mm).
ENDIF.
ELSE.
IF s_dispo IS INITIAL.
MESSAGE e396(z03_mm).
ENDIF.
ENDIF.
fae26446 fin ajout
AT SELECTION-SCREEN ON BLOCK block2.
IF p_pc = 'X'.
IF p_fic_pc IS INITIAL.
*Attention, il n'y a aucune adresse de sauvegarde pour le(s) fichier(s)
MESSAGE e021(z03_mm).
ENDIF.
ELSE.
IF p_fic_se IS INITIAL.
*Attention, il n'y a aucune adresse de sauvegarde pour le(s) fichier(s)
MESSAGE e021(z03_mm).
ENDIF.
ENDIF.
Création du matchcode pour la selection du fichier local.
AT SELECTION-SCREEN ON VALUE-REQUEST FOR p_fic_pc.
CALL FUNCTION 'WS_FILENAME_GET'
EXPORTING
def_filename = p_fic_pc
def_path = 'C:'
mask = text-ma1
mode = 'S'
title = text-sel
IMPORTING
filename = p_fic_pc
EXCEPTIONS
inv_winsys = 1
no_batch = 2
selection_cancel = 3
selection_error = 4
OTHERS = 5.
IF sy-subrc NE 0 AND sy-subrc NE 3.
MESSAGE e032(z03_mm).
ENDIF.
START-OF-SELECTION *
START-OF-SELECTION.
PERFORM select_donnees.
=================================================
Liste des ARTICLES impactés pour les prévisions *
=================================================
===================================
PORTEFEUILLE DE COMMANDES D'ACHAT *
===================================
Construction itb_pca à partir de EKKO/EKPO.
w_index_ekpo = 1.
w_index_ekes = 1.
w_index_eket = 1.
w_index_mseg = 1.
SORT itb_ekko BY ebeln. "-FAE26446
SORT itb_ekpo BY ebeln ebelp.
SORT itb_makt BY matnr spras.
SORT itb_eket BY ebeln ebelp.
SORT itb_ekes BY ebeln ebelp.
SORT itb_mseg BY ebeln ebelp.
SORT itb_mkpf BY mblnr mjahr.
SORT itb_marc BY matnr werks. "+FAE26446
FAE 26446 remplacement
LOOP AT itb_ekko.
LOOP AT itb_ekpo.
FROM w_index_ekpo.
IF itb_ekko-ebeln = itb_ekpo-ebeln.
LOOP AT itb_ekpo.
READ TABLE itb_marc WITH KEY
matnr = itb_ekpo-matnr
werks = itb_ekpo-werks BINARY SEARCH.
CHECK sy-subrc = 0.
FAE 26446 fin remplacement
itb_pca-ebeln = itb_ekpo-ebeln.
itb_pca-ebelp = itb_ekpo-ebelp.
itb_pca-lifnr = itb_ekko-lifnr. "-FAE26446
itb_pca-lifnr = itb_ekpo-lifnr. "+FAE26446
itb_pca-ekgrp = itb_ekpo-ekgrp. "+FAE26446
itb_pca-dispo = itb_ekpo-dispo. "+FAE26446
itb_pca-matnr = itb_ekpo-matnr.
itb_pca-werks = itb_ekpo-werks.
Recherche du libellé article
READ TABLE itb_makt
WITH KEY matnr = itb_ekpo-matnr
spras = text-fra
BINARY SEARCH.
IF sy-subrc = 0.
itb_pca-maktx = itb_makt-maktx.
ELSE.
READ TABLE itb_makt
WITH KEY matnr = itb_ekpo-matnr
spras = text-ang
BINARY SEARCH.
IF sy-subrc = 0.
itb_pca-maktx = itb_makt-maktx.
ENDIF.
ENDIF.
IF NOT itb_ekpo-bpumn IS INITIAL.
itb_pca-menge = itb_ekpo-menge * itb_ekpo-bpumz /
itb_ekpo-bpumn.
ENDIF.
Sélect° ds la table EKES des dates de livraisons et des qtés
en transit
CLEAR w_temoin_ar.
CLEAR w_etens.
LOOP AT itb_ekes
FROM w_index_ekes.
IF itb_ekes-ebeln = itb_ekpo-ebeln
AND itb_ekes-ebelp = itb_ekpo-ebelp.
IF itb_ekes-ebtyp = text-arn.
itb_pca-eindt = itb_ekes-eindt.
w_temoin_ar = 'X'.
ELSE.
Si c'est une qté en transit alors on recupere
la quantité et la date.
IF itb_ekes-dabmg < itb_ekes-menge.
itb_pca-qtran = itb_pca-qtran + itb_ekes-menge -
itb_ekes-dabmg.
ENDIF.
IF itb_ekes-etens > w_etens.
w_etens = itb_ekes-etens.
itb_pca-dtran = itb_ekes-eindt.
ENDIF.
ENDIF.
ELSEIF itb_ekes-ebeln > itb_ekpo-ebeln
OR ( itb_ekes-ebeln = itb_ekpo-ebeln
AND itb_ekes-ebelp > itb_ekpo-ebelp ).
w_index_ekes = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
S'il n'y a pas d'AR alors récupérat° de la date livraison dans EKET.
LOOP AT itb_eket
FROM w_index_eket.
IF itb_eket-ebeln = itb_ekpo-ebeln
AND itb_eket-ebelp = itb_ekpo-ebelp.
IF w_temoin_ar IS INITIAL.
itb_pca-eindt = itb_eket-eindt.
ENDIF.
itb_pca-slfdt = itb_eket-slfdt.
Calcul du portefeuille fournisseur à partir de la
qté commandée et la qté reçue
itb_pca-attdu = itb_pca-attdu + itb_eket-menge -
itb_eket-wemng.
Calcul du montant du poste
itb_pca-netpr = itb_ekpo-netpr * itb_pca-attdu.
IF itb_ekpo-peinh NE 0.
itb_pca-netpr = itb_pca-netpr / itb_ekpo-peinh.
ENDIF.
Calcul quantité réceptionnée.
itb_pca-wemng = itb_pca-wemng + itb_eket-wemng.
Calcul du retard en nombre de jours calendaires
Le calcul du retard ne doit pas prendre en compte
le jour de livraison
ADD 1 TO itb_eket-eindt.
IF NOT itb_pca-attdu IS INITIAL
AND itb_eket-eindt LT sy-datum.
Calcul du retard en nombre de jours ouvrés
CLEAR w_retard.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = itb_eket-eindt
date_fin = sy-datum
IMPORTING
jours = w_retard.
itb_pca-rtard = itb_pca-rtard + w_retard .
ENDIF.
ELSEIF itb_eket-ebeln > itb_ekpo-ebeln
OR ( itb_eket-ebeln = itb_ekpo-ebeln
AND itb_eket-ebelp > itb_ekpo-ebelp ).
w_index_eket = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
Recherche de la derniere date de livraison.
LOOP AT itb_mseg
FROM w_index_mseg.
IF itb_mseg-ebeln = itb_ekpo-ebeln
AND itb_mseg-ebelp = itb_ekpo-ebelp.
READ TABLE itb_mkpf
WITH KEY mblnr = itb_mseg-mblnr
mjahr = itb_mseg-mjahr
BINARY SEARCH.
IF sy-subrc = 0.
IF itb_mkpf-bldat > itb_pca-bldat.
itb_pca-bldat = itb_mkpf-bldat.
ENDIF.
ENDIF.
ELSEIF itb_mseg-ebeln > itb_ekpo-ebeln
OR ( itb_mseg-ebeln = itb_ekpo-ebeln
AND itb_mseg-ebelp > itb_ekpo-ebelp ).
w_index_mseg = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
APPEND itb_pca.
CLEAR itb_pca.
FAE26446 suppression parag. suivant
ELSEIF itb_ekpo-ebeln > itb_ekko-ebeln.
w_index_ekpo = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
Fin FAE26446
ENDLOOP.
=========================
PREVISIONS DE COMMANDES *
=========================
SORT itb_eord BY matnr werks lifnr ekgrp.
SORT itb_eban BY matnr werks flief ekgrp.
SORT itb_plaf BY matnr plwrk flief.
SORT itb_z03_bw_cmp1 BY matnr werks.
SORT itb_z03_bw_cmp2 BY matnr werks."+DE3K937051
SORT itb_pca BY matnr werks lifnr.
w_index_eban = 1.
w_index_plaf = 1.
w_index_z03_bw_cmp1 = 1.
w_index_pca = 1.
w_index_z03_bw_cmp2 = 1."+DE3K937051
Remplissage de la table des prévisions de commande.
LOOP AT itb_eord.
CLEAR: str_prev_pfc,
w_trouve.
MOVE-CORRESPONDING itb_eord TO str_index1.
MOVE-CORRESPONDING itb_eord TO str_index3_eord.
MOVE-CORRESPONDING itb_eord TO itb_prev_cde.
Recherche dans table division/article (MARC) afin de déterminer si
article PFS (prod fabriqué à stock) ou PFC (Prod fabriqué sur cde)
AT NEW werks.
READ TABLE itb_marc_eord
WITH KEY matnr = itb_eord-matnr
werks = itb_eord-werks
BINARY SEARCH.
IF sy-subrc NE 0.
CLEAR itb_marc_eord.
ENDIF.
ENDAT.
a - Prévisions pour les PFS : DA + OP *
*Calcul des quantités de commande.
IF itb_eord-disls = text-tl1.
itb_prev_cde-bstmi = itb_eord-bstfe.
ELSEIF itb_eord-disls = text-tl2
OR itb_eord-disls = text-tl3.
IF itb_eord-bstrf NE 0
AND itb_eord-bstmi = 0
AND itb_eord-bstma = 0.
itb_prev_cde-bstmi = itb_eord-bstrf.
ELSEIF itb_eord-bstrf NE 0
AND itb_eord-bstmi NE 0.
itb_prev_cde-bstmi = itb_eord-bstmi.
ELSEIF itb_eord-bstrf = itb_eord-bstma
AND itb_eord-bstrf NE 0
AND itb_eord-bstmi = 0.
itb_prev_cde-bstmi = itb_eord-bstma.
ENDIF.
ENDIF.
si article PFS (Prod fabriqué à stock) recherche des
demandes d'achat ou ordres planfiés
IF itb_marc_eord-strgr IN r_type_pfs.
Récupérat° calendrier de la division pour calcul correct lors de
l'ajout de eban-webaz ou plaf-webaz jours ouvrés
CLEAR w_trouve_pfs ."+DE3K937051
READ TABLE itb_t001w
WITH KEY werks = itb_eord-werks
BINARY SEARCH.
IF sy-subrc = 0.
LOOP AT itb_eban
FROM w_index_eban.
MOVE-CORRESPONDING itb_eban TO str_index2.
IF str_index1 = str_index2.
w_trouve_pfs = 'X'."+DE3K937051
si qte commandées pour la DA < quantité de la DA
IF itb_eban-bsmng < itb_eban-menge.
ajout de quantité de la DA - qte commandée pour la DA
PERFORM affect_da.
ENDIF.
ELSEIF str_index2 > str_index1.
w_index_eban = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
ENDIF.
ajout des quantité des OP (ordres planifiés)
LOOP AT itb_plaf
FROM w_index_plaf.
MOVE-CORRESPONDING itb_plaf TO str_index4.
str_index4-werks = itb_plaf-plwrk.
str_index4-lifnr = itb_plaf-flief.
IF str_index4 = str_index3_eord.
Ajout de webaz jours ouvrés à pedtr
CALL FUNCTION 'Z_03_MM_ADD_TO_FACTORYDATE'
EXPORTING
i_date = itb_plaf-pedtr
i_calendar_id = itb_t001w-fabkl
i_nb_days = itb_plaf-webaz
IMPORTING
o_date = w_dat_op
EXCEPTIONS
conv_error = 1
OTHERS = 2.
IF sy-subrc
If forecasts found in Z03_BW_CMP2 for the article
IF w_trouve_pfs = 'X'."-DE3K937602
Recalculation prev month M in fct of Nb of wrought days of the month
IF NOT itb_prev_cde-men00 IS INITIAL.
one does not hold any more account of the day in progress
w_lendemain = w_date0 + 1.
CLEAR:w_nb_j,w_nb_j_tot. "DE3K938206+
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = w_lendemain
date_fin = w_fin_mois
IMPORTING
jours = w_nb_j.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_MONTH'
EXPORTING
date = w_lendemain
IMPORTING
jours = w_nb_j_tot.
itb_prev_cde-men00 = itb_prev_cde-men00 * w_nb_j / w_nb_j_tot
*CLA DE3K925301 FAE27197
*to round has the higher entirety
itb_prev_cde-men00 = ceil( itb_prev_cde-men00 ). "DE3K938206-
ENDIF.
ENDIF."-DE3K937602
*End change BNI
b - Prévisions pour les PFC (Z03_BW_CMP1 puis rééquilibrage) *
Recherche des previsions dans Z03_BW_CMP1
si article PFC (Prod fabriqué sur cde) recherche des prévisions
IF NOT itb_marc_eord-strgr IN r_type_pfs.
CLEAR str_prev_pfc.
MOVE-CORRESPONDING itb_eord TO str_prev_pfc.
CLEAR w_trouve_pfc .
LOOP AT itb_z03_bw_cmp1
FROM w_index_z03_bw_cmp1.
MOVE-CORRESPONDING itb_z03_bw_cmp1 TO str_index7.
MOVE-CORRESPONDING itb_eord TO str_index6.
IF str_index6 = str_index7.
si on trouve des prévisions dans z03_bw_cmp1 pour la source
d'appro eord alors c'est un article PFC
w_trouve_pfc = 'X'.
CASE itb_z03_bw_cmp1-pdatu+0(6).
WHEN w_date0+0(6).
str_prev_pfc-men00 = itb_z03_bw_cmp1-plnmg.
WHEN w_date1+0(6).
str_prev_pfc-men01 = itb_z03_bw_cmp1-plnmg.
WHEN w_date2+0(6).
str_prev_pfc-men02 = itb_z03_bw_cmp1-plnmg.
WHEN w_date3+0(6).
str_prev_pfc-men03 = itb_z03_bw_cmp1-plnmg.
WHEN w_date4+0(6).
str_prev_pfc-men04 = itb_z03_bw_cmp1-plnmg.
WHEN w_date5+0(6).
str_prev_pfc-men05 = itb_z03_bw_cmp1-plnmg.
WHEN w_date6+0(6).
str_prev_pfc-men06 = itb_z03_bw_cmp1-plnmg.
WHEN OTHERS.
ENDCASE.
ELSEIF str_index7 > str_index6.
w_index_z03_bw_cmp1 = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
*Begin change BNI
Si des prévisions trouvées dans Z03_BW_CMP1 pour l'article
IF w_trouve_pfc = 'X'.
Recalcul prev mois M en fct du nb de jours ouvrés du mois
IF NOT str_prev_pfc-men00 IS INITIAL.
on ne tient plus compte du jour en cours
w_lendemain = w_date0 + 1.
CLEAR:w_nb_j,w_nb_j_tot. "DE3K938206+
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = w_lendemain
date_fin = w_fin_mois
IMPORTING
jours = w_nb_j.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_MONTH'
EXPORTING
date = w_lendemain
IMPORTING
jours = w_nb_j_tot.
str_prev_pfc-men00 = str_prev_pfc-men00 * w_nb_j / w_nb_j_tot.
*CLA DE3K925301 FAE27197
*arrondir a l'entier supèrieur
str_prev_pfc-men00 = ceil( str_prev_pfc-men00 ).
ENDIF.
Equilibrage PFC : commande/prévision du mois
Recherche COMMANDES cumulées pour M à M+6
CLEAR str_pca_pfc.
LOOP AT itb_pca
FROM w_index_pca.
MOVE-CORRESPONDING itb_pca TO str_index5.
IF str_index5 = str_index3_eord.
IF NOT itb_pca-menge IS INITIAL.
CASE itb_pca-eindt+0(6).
WHEN w_date0+0(6).
IF itb_pca-eindt >= w_date0.
str_pca_pfc-men00 = str_pca_pfc-men00 + itb_pca-menge.
ENDIF.
WHEN w_date1+0(6).
str_pca_pfc-men01 = str_pca_pfc-men01 + itb_pca-menge.
WHEN w_date2+0(6).
str_pca_pfc-men02 = str_pca_pfc-men02 + itb_pca-menge.
WHEN w_date3+0(6).
str_pca_pfc-men03 = str_pca_pfc-men03 + itb_pca-menge.
WHEN w_date4+0(6).
str_pca_pfc-men04 = str_pca_pfc-men04 + itb_pca-menge.
WHEN w_date5+0(6).
str_pca_pfc-men05 = str_pca_pfc-men05 + itb_pca-menge.
WHEN w_date6+0(6).
str_pca_pfc-men06 = str_pca_pfc-men06 + itb_pca-menge.
ENDCASE.
ENDIF."NOT itb_pca-menge IS INITIAL
ELSEIF str_index5 > str_index3_eord.
w_index_pca = sy-tabix.
EXIT.
ENDIF.
ENDLOOP."itb_pca
*. Equilibrer commande / prévision des mois : diminuer la quantité de
prévision de chaque mois par le portefeuille de commande client du
mois*. Si ce solde est négatif alors lui donner la valeur 0.
w_i = 0.
Ajustement commandes/prévisions pour les mois M à M+6
WHILE w_i .
Pour un mois, SI Prévisions > Commandes en cours
IF .
Prévisions = Prévisions - Commandes en cours
= 0.
ENDIF.
On passe au mois suivant
w_i = w_i + 1.
ENDWHILE.
MOVE str_prev_pfc-men00 TO itb_prev_cde-men00.
MOVE str_prev_pfc-men01 TO itb_prev_cde-men01.
MOVE str_prev_pfc-men02 TO itb_prev_cde-men02.
MOVE str_prev_pfc-men03 TO itb_prev_cde-men03.
MOVE str_prev_pfc-men04 TO itb_prev_cde-men04.
MOVE str_prev_pfc-men05 TO itb_prev_cde-men05.
MOVE str_prev_pfc-men06 TO itb_prev_cde-men06.
ENDIF. "w_trouve_pfc = 'X'.
ENDIF.
*recherche du libellé articleHi,
see this link, useful tips, links and transactions for best performance, by Anji.
https://forums.sdn.sap.com/click.jspa?searchID=5967263&messageID=4260111
Regards -
How to improve performence of the procedure using regular expressions
Hi all,
I have used substr, instr functions in this procedure .
Kindly tell me how use regular_expressions in this procedure .
/* Formatted on 2011/07/20 17:18 (Formatter Plus v4.8.8) */
PROCEDURE pr_insrt_prcdr_rvne_edit ( --ver 4.4
p_pa_rqst_sid IN NUMBER,
p_err_code OUT NUMBER,
p_err_msg OUT VARCHAR2
IS
v_count NUMBER;
CURSOR error_dtls
IS
SELECT parent_target_table_sid, inbnd_target_table_cid,
target_table_sid
FROM inbnd_278_error
WHERE parent_target_table_sid = p_pa_rqst_sid
AND SUBSTR (error_data_value, INSTR (error_data_value, ':') + 1) IN
('5056', '5031');
CURSOR error_values (
p_target_table_sid inbnd_278_error.target_table_sid%TYPE
IS
SELECT MAX (DECODE (SUBSTR (error_data_value,
INSTR (error_data_value, ':', 1) + 1
'5056', SUBSTR (error_data_value,
1,
INSTR (error_data_value, ':', 1) - 1
) AS e5056,
MAX (DECODE (SUBSTR (error_data_value,
INSTR (error_data_value, ':', 1) + 1
'5031', SUBSTR (error_data_value,
1,
INSTR (error_data_value, ':', 1) - 1
) AS e5031
FROM inbnd_278_error
WHERE target_table_sid = p_target_table_sid
AND SUBSTR (error_data_value, INSTR (error_data_value, ':', 1) + 1) IN
('5056', '5031');
v_error_values error_values%ROWTYPE;
BEGIN
p_err_code := 0;
p_err_msg := 'Success';
FOR curr_error_dtls_rec IN error_dtls
LOOP
OPEN error_values (curr_error_dtls_rec.target_table_sid);
FETCH error_values
INTO v_error_values;
IF (v_error_values.e5056 IS NOT NULL
AND v_error_values.e5031 IS NOT NULL
THEN
DELETE FROM inbnd_278_error
WHERE SUBSTR (error_data_value,
INSTR (error_data_value, ':') + 1
) IN ('5056', '5031')
AND target_table_sid = curr_error_dtls_rec.target_table_sid
AND inbnd_target_table_cid = 109;
INSERT INTO inbnd_278_error
(inbnd_278_error_sid,
parent_target_table_sid, inbnd_target_table_cid,
target_table_sid, meta_data_cid,
error_data_value,
created_by, created_date
VALUES (inbnd_278_error_seq.NEXTVAL,
curr_error_dtls_rec.parent_target_table_sid, 109,
curr_error_dtls_rec.target_table_sid, 161,
v_error_values.e5056
|| ','
|| v_error_values.e5031
|| ':'
|| '5059',
1, SYSDATE
END IF;
CLOSE error_values;
END LOOP;
EXCEPTION
WHEN OTHERS
THEN
p_err_code := SQLCODE;
p_err_msg :=
'Error occured in pr_insrt_prcdr_rvne_edit procedure '
|| SUBSTR (SQLERRM, 1, 100);
END pr_insrt_prcdr_rvne_edit;
Thanks,
P Prakash
Edited by: prakash on Jul 20, 2011 4:48 AMYes as explained in the forum FAQ which you should read
http://forums.oracle.com/forums/ann.jspa?annID=1535
*2. How do I ask a question on the forums?*
SQL and PL/SQL FAQ
And the section beginning.
*9) Formatting with {noformat}{noformat} Tags* -
How to improve function & procedure performence
Hi,
How to improve performence of function and procedure .
When i have to use parallel_enable,deterministic features .
thank you
Edited by: 808542 on Dec 22, 2010 2:25 AM
Edited by: 808542 on Dec 22, 2010 2:26 AMHow to improve performence of function and procedure .Start with tracing the session that executes the functions/procedures and tkprof the trc. file (with wait events).
The tkprof output will give you pointers where you could make some improvement.
You can find many examples on http://asktom.oracle.com, do a search on 'tuning'
For example:
http://asktom.oracle.com/pls/asktom/f?p=100:11:0::::P11_QUESTION_ID:6904032233295
If you have no clue what all this means then ask your DBA to help you.
See also the Performance Tuning Guide @ http://download.oracle.com/docs/cd/B19306_01/server.102/b14211/toc.htm -
Hi very urgent How to improve the performence of the program
Hi all please tell me how to improve the performence of this program......
REPORT z03_gil010 NO STANDARD PAGE HEADING LINE-SIZE 130.
INCLUDE *
INCLUDE: z00_bci010. " Gestion des anomalies.
Déclaration des données *
Tables de la bases de données *
TABLES:
ekpo, " Poste document d'achat.
lfa1, " Base fournisseurs (généralités).
marc, " Données division de l'article.
z03_bw_cmp1,
eord, "Répertoire des sources appro. Achats
eina, "Fiche infos-achats - données générales
t024, "Groupes d'acheteurs
tvarv. "FAE17345+
Déclaration des données internes *
Déclaration de la table interne qui permet de recuperer les mois.
DATA: BEGIN OF itb_months OCCURS 12.
INCLUDE STRUCTURE t247.
DATA: END OF itb_months.
Table pour récupération d'infos sur les divisions
DATA: BEGIN OF itb_t001w OCCURS 0,
werks LIKE t001w-werks,
fabkl LIKE t001w-fabkl," Clé du calendrier d'entreprise
END OF itb_t001w.
Déclaration de la table interne contenant les infos sur l'adresse du
fournisseur.
DATA: BEGIN OF itb_adresse OCCURS 0,
lifnr LIKE lfa1-lifnr, " Numéro de compte fournisseur.
name1 LIKE lfa1-name1, " Nom 1.
name2 LIKE lfa1-name2, " Nom 2.
name3 LIKE lfa1-name3, " Nom 3.
name4 LIKE lfa1-name4, " Nom 4.
stras LIKE lfa1-stras, " N° de rue et nom de la rue.
pstlz LIKE lfa1-pstlz, " Code postal.
ort01 LIKE lfa1-ort01, " Localité.
pfach LIKE lfa1-pfach, " Boîte postale.
pstl2 LIKE lfa1-pstl2, " Code de la boîte postale.
land1 LIKE lfa1-land1, " Clé de pays.
landx LIKE t005t-landx, " Pays.
spras LIKE lfa1-spras, " Code langue
END OF itb_adresse.
Déclaration d'une table interne pour les informations sur les
prévisions de commande.
DATA: BEGIN OF itb_prev_cde OCCURS 0,
werks LIKE marc-werks, " Division
idnlf LIKE eina-idnlf, " ADDsde ref article frn
lifnr LIKE eord-lifnr, " N° fournisseur.
ekgrp LIKE marc-ekgrp, " Groupe d'acheteurs
dispo LIKE marc-dispo, " Code gestionnaire MRP
matnr LIKE eord-matnr, " Article.
maktx LIKE makt-maktx, " Désignation article.
bstmi LIKE marc-bstmi, " Quantité de commande.
men00 LIKE plaf-gsmng, " Quantité du mois en cours M.
men01 LIKE plaf-gsmng, " Quantité pour le mois M+1.
men02 LIKE plaf-gsmng, " Quantité pour le mois M+2.
men03 LIKE plaf-gsmng, " Quantité pour le mois M+3.
men04 LIKE plaf-gsmng, " Quantité pour le mois M+4.
men05 LIKE plaf-gsmng, " Quantité pour le mois M+5.
men06 LIKE plaf-gsmng. " Quantité pour le mois M+6.
DATA: END OF itb_prev_cde.
Structure de travail pour les commandes convernant les PFC
DATA str_pca_pfc LIKE itb_prev_cde.
*add sde
DATA str_eord_pfc LIKE itb_prev_cde.
Structure de travail pour les prévisons PFC
DATA str_prev_pfc LIKE itb_prev_cde.
Déclaration d'une table interne pour les informations sur le
portefeuille des commandes d'achat.
DATA: BEGIN OF itb_pca OCCURS 0,
werks LIKE ekpo-werks, " Division
idnlf LIKE eina-idnlf, " ADDsde ref article frn
lifnr LIKE eord-lifnr, " N° fournisseur.
ekgrp LIKE marc-ekgrp, " Groupe d'acheteurs
dispo LIKE marc-dispo, " Code gestionnaire MRP
matnr LIKE eord-matnr, " Article.
maktx LIKE makt-maktx, " Désignation article.
ebeln LIKE ekes-ebeln, " Numéro du document d'achat.
ebelp LIKE ekes-ebelp, " Numéro de poste du document d'achat.
slfdt LIKE eket-slfdt, " Date de livraison statistique
eindt LIKE ekes-eindt, " Date de livraison indiquée dans la
" confirmation de la cde.
menge LIKE ekes-menge, " Quantité indiquée dans la confirma-
" tion de la commande.
attdu LIKE eket-wemng, " Portefeuille fournisseur.
netpr LIKE ekpo-brtwr, " Prix net du document d'achat dans
" la devise du document.
rtard TYPE i, " Retard en jours ouvres.
wemng LIKE eket-wemng, " Quantité de l'entrée de marchandise.
bldat LIKE mkpf-bldat, " Date inscrite sur la pièce/sur le
" document.
qtran LIKE ekes-menge, " Quantité en transit.
dtran LIKE ekes-eindt. " Date du dernier avis de transit.
DATA: END OF itb_pca.
DATA: w_i TYPE i, "Compteur
w_i_char(1) TYPE c, "Texte pour récupérer compteur
w_nm_zone(20) TYPE c, "Nom zone pour assign au field-symbols
w_nb_j TYPE i, "Nb de jours ouvrés jusqu'à fin mois
w_nb_j_tot TYPE i. "Nb de jours ouvrés du mois
FIELD-SYMBOLS: TYPE ANY.
Déclaration d'une table contenant les fiches info achat.
DATA: BEGIN OF itb_eina OCCURS 0,
matnr LIKE eina-matnr,
lifnr LIKE eina-lifnr,
idfnl LIKE eina-idnlf.
DATA: END OF itb_eina.
Déclaration d'une table contenant les infos groupe acheteur.
*DATA: BEGIN OF itb_t024 OCCURS 0,
ekgrp LIKE t024-ekgrp,
eknam LIKE t024-eknam,
ektel LIKE t024-ektel,
telfx LIKE t024-telfx.
*DATA: END OF itb_t024.
Déclaration d'une table pour le transfert du fichier.
DATA: BEGIN OF itb_transfert OCCURS 0,
col00(8), "division
col00bis(20), "Reference article
col01(18), "No article
col02(45), "libelle article
col021(17), "Groupe acheteur
col022(13), "gestionnaire
col03(17), "qte commandée ou No de commande
col04(13), "Mois 1 ou No poste cde
col05(20), "Mois 2 ou délai initial
col06(33), "Mois 3 ou délai négocié
col07(13), "Mois 4 ou qté cdée
col08(13), "Mois 5 ou qté attendue
col09(13), "Mois 6 ou Montant attendu
col10(13), "Mois 7 ou retard
col11(13), "qte partielle livree
col12(13), "date livraison partielle
col13(13), "qté en transit
col14(13). "date
DATA: END OF itb_transfert.
Déclaration d'une table contenant la liste des fournisseurs.
DATA: BEGIN OF itb_lifnr OCCURS 0,
werks LIKE marc-werks,
idfnl LIKE eina-idnlf,
lifnr LIKE eord-lifnr,
ekgrp LIKE marc-ekgrp,
spras LIKE lfa1-spras,
eknam LIKE t024-eknam,
ektel LIKE t024-ektel,
telfx LIKE t024-telfx.
DATA: END OF itb_lifnr.
Déclaration d'une structure pour la selection dans la table MSEG.
DATA : BEGIN OF itb_mseg OCCURS 0,
mblnr LIKE mseg-mblnr,
mjahr LIKE mseg-mjahr,
ebeln LIKE mseg-ebeln,
ebelp LIKE mseg-ebelp,
END OF itb_mseg.
déclaration d'une structure pour la selection dans EKPO.
DATA : BEGIN OF itb_ekpo OCCURS 0,
lifnr LIKE ekko-lifnr,
ebeln LIKE ekpo-ebeln,
ebelp LIKE ekpo-ebelp,
menge LIKE ekpo-menge,
bpumz LIKE ekpo-bpumz,
bpumn LIKE ekpo-bpumn,
matnr LIKE ekpo-matnr,
werks LIKE ekpo-werks,
netpr LIKE ekpo-netpr,
peinh LIKE ekpo-peinh, "Base de prix FAE17345+
ekgrp LIKE ekko-ekgrp, "AFT++
dispo LIKE marc-dispo, "AFT++
END OF itb_ekpo.
déclaration d'une structure pour la selection dans EKPO.
DATA : BEGIN OF itb_ekko OCCURS 0,
ebeln LIKE ekko-ebeln,
lifnr LIKE ekko-lifnr,
spras LIKE ekko-spras,
END OF itb_ekko.
déclaration d'une structure pour la selection dans EKES.
DATA : BEGIN OF itb_ekes OCCURS 0,
ebeln LIKE eket-ebeln,
ebelp LIKE eket-ebelp,
ebtyp LIKE ekes-ebtyp,
eindt LIKE ekes-eindt,
menge LIKE ekes-menge,
dabmg LIKE ekes-dabmg,
etens LIKE ekes-etens,
END OF itb_ekes.
déclaration d'une structure pour la selection dans EKET
DATA : BEGIN OF itb_eket OCCURS 0,
ebeln LIKE eket-ebeln,
ebelp LIKE eket-ebelp,
menge LIKE eket-menge,
wemng LIKE eket-wemng,
eindt LIKE eket-eindt,
slfdt LIKE eket-slfdt,
END OF itb_eket.
déclaration d'une structure pour la selection dans MKPF.
DATA : BEGIN OF itb_mkpf OCCURS 0,
mblnr LIKE mkpf-mblnr,
mjahr LIKE mkpf-mjahr,
bldat LIKE mkpf-bldat,
END OF itb_mkpf.
Déclaration d'une structure pour la sélection dans EORD.
DATA : BEGIN OF itb_eord OCCURS 0,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
lifnr LIKE eord-lifnr,
ekgrp LIKE marc-ekgrp,
dispo LIKE marc-dispo, "DE3K924352
disls LIKE marc-disls,
bstfe LIKE marc-bstfe,
bstrf LIKE marc-bstrf,
bstmi LIKE marc-bstmi,
bstma LIKE marc-bstma,
END OF itb_eord.
DATA : BEGIN OF itb_eordw OCCURS 0.
INCLUDE STRUCTURE itb_eord.
DATA : END OF itb_eordw.
Déclaration d'une structure pour la sélection dans MAKT.
DATA : BEGIN OF itb_makt OCCURS 0,
matnr LIKE makt-matnr,
spras LIKE makt-spras,
maktx LIKE makt-maktx,
END OF itb_makt.
Déclaration d'une structure pour la sélection dans EBAN.
DATA : BEGIN OF itb_eban OCCURS 0,
matnr LIKE eban-matnr,
werks LIKE eban-werks,
flief LIKE eban-flief,
lfdat LIKE eban-lfdat,
menge LIKE eban-menge,
bsmng LIKE eban-bsmng,
webaz LIKE eban-webaz,
ekgrp LIKE eban-ekgrp,
ebeln LIKE eban-ebeln,
banfn LIKE eban-banfn,
bnfpo LIKE eban-bnfpo, "DB3K900702+
END OF itb_eban.
Déclaration d'une structure pour la sélection dans PLAF.
DATA : BEGIN OF itb_plaf OCCURS 0,
plnum LIKE plaf-plnum, "DB3K900702+
matnr LIKE plaf-matnr,
plwrk LIKE plaf-plwrk,
flief LIKE plaf-flief,
pedtr LIKE plaf-pedtr,
gsmng LIKE plaf-gsmng,
webaz LIKE plaf-webaz,
END OF itb_plaf.
Déclaration d'une structure pour la sélection dans MARC.
DATA : BEGIN OF itb_marc OCCURS 0,
matnr LIKE marc-matnr,
werks LIKE marc-werks,
disls LIKE marc-disls,
bstrf LIKE marc-bstrf,
bstmi LIKE marc-bstmi,
bstma LIKE marc-bstma,
bstfe LIKE marc-bstfe,
ekgrp LIKE marc-ekgrp,
dispo LIKE marc-dispo,
END OF itb_marc.
DATA : BEGIN OF itb_marc_eord OCCURS 0,
matnr LIKE marc-matnr,
werks LIKE marc-werks,
strgr LIKE marc-strgr, "groupe de stratégie planif
END OF itb_marc_eord.
DATA : BEGIN OF itb_z03_bw_cmp1 OCCURS 0,
matnr LIKE z03_bw_cmp1-matnr,
werks LIKE z03_bw_cmp1-werks,
pdatu LIKE z03_bw_cmp1-pdatu,
plnmg LIKE z03_bw_cmp1-plnmg,
END OF itb_z03_bw_cmp1.
Begin change BNI <DE3K937051>
DATA : BEGIN OF itb_z03_bw_cmp2 OCCURS 0,
matnr LIKE z03_bw_cmp2-matnr,
werks LIKE z03_bw_cmp2-werks,
pdatu LIKE z03_bw_cmp2-pdatu,
plnmg LIKE z03_bw_cmp2-plnmg,
END OF itb_z03_bw_cmp2.
*End change BNI
DATA : BEGIN OF str_index1,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index1.
DATA : BEGIN OF str_index2,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index2.
DATA : BEGIN OF str_index3_eord,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index3_eord.
DATA : BEGIN OF str_index4,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index4.
DATA : BEGIN OF str_index5,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index5.
DATA : BEGIN OF str_index6,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index6.
DATA : BEGIN OF str_index7,
matnr LIKE eord-matnr,
werks LIKE eord-werks,
END OF str_index7.
Déclaration des variables de debut et de fin de mois.
DATA: w_debut_mois LIKE sy-datum,
w_debut_periode LIKE sy-datum,
w_fin_mois LIKE sy-datum,
w_fin_periode LIKE sy-datum.
Déclaration des variables pour les dates.
DATA: w_date0 LIKE sy-datum,
w_date1 LIKE sy-datum,
w_date2 LIKE sy-datum,
w_date3 LIKE sy-datum,
w_date4 LIKE sy-datum,
w_date5 LIKE sy-datum,
w_date6 LIKE sy-datum,
w_datejour LIKE sy-datum, "FAE15269
w_dat_da LIKE eban-lfdat,
w_dat_op LIKE plaf-pedtr,
w_mois0 LIKE t247-ltx,
w_mois1 LIKE t247-ltx,
w_mois2 LIKE t247-ltx,
w_mois3 LIKE t247-ltx,
w_mois4 LIKE t247-ltx,
w_mois5 LIKE t247-ltx,
w_mois6 LIKE t247-ltx,
w_lendemain LIKE sy-datum. "FAE17345+
Temoin d'un AR dans la commande d'achat.
DATA: w_temoin_ar.
Numéro de la confirmation de la commande
DATA : w_etens LIKE ekes-etens.
Déclaration des variables pour le nom des fichiers.
DATA: w_nom_fichier LIKE rlgrap-filename,
w_fichier LIKE rlgrap-filename,
w_racine LIKE rlgrap-filename,
w_file LIKE rlgrap-filename.
Déclaration d'une table interne pour le transfert.
DATA: BEGIN OF itb_trans OCCURS 0,
w_ligne(320).
DATA: END OF itb_trans.
Déclaration d'une variable pour rechercher les enregistrements vides.
DATA: w_compteur TYPE i,
w_compteur1 TYPE i,
w_compteur2 TYPE i,
w_retard TYPE i, " Retard en jours ouvres.
w_trouve_pfc TYPE c, "addsde
w_trouve_pfs TYPE c, "+DE3K937051
w_trouve TYPE c.
*Index pour les LOOP
DATA : w_index_ekpo LIKE sy-tabix,
w_index_ekes LIKE sy-tabix,
w_index_eket LIKE sy-tabix,
w_index_mseg LIKE sy-tabix,
w_index_eban LIKE sy-tabix,
w_index_plaf LIKE sy-tabix,
w_index_pca LIKE sy-tabix,
w_index_z03_bw_cmp1 LIKE sy-tabix,
w_index_z03_bw_cmp2 LIKE sy-tabix."+DE3K937051
RANGES : r_type_pfs FOR marc-strgr.
*fichier sur serveur +EDR231003
DATA : w_chemin LIKE filename-fileintern, "nom du fichier
w_date_fichier(12) TYPE c, "Date format DD_MM_AA
w_csv(307) TYPE c. "ligne du fichier format CSV
CONSTANTS: k_imputation_m LIKE eban-knttp VALUE 'M'. "FAE19001+
Description de l écran de sélection *
Paramètres "UTILISATION" *
Ouverture d'un block de sélection pour le(s) fournisseur(s).
SELECTION-SCREEN BEGIN OF BLOCK block1 WITH FRAME TITLE text-bl1.
Sélection division(s)
SELECT-OPTIONS: s_werks FOR ekpo-werks.
Sélection fournisseur(s).
SELECT-OPTIONS: s_lifnr FOR lfa1-lifnr OBLIGATORY.
Sélection du Groupe d'acheteur
*SELECT-OPTIONS: s_ekgrp FOR marc-ekgrp. "-FAE26446
*SELECT-OPTIONS: s_dispo FOR marc-dispo. "-FAE26446
SELECTION-SCREEN END OF BLOCK block1.
FAE 26446 : ajout
SELECTION-SCREEN BEGIN OF BLOCK block3 WITH FRAME TITLE text-bl3.
SELECTION-SCREEN BEGIN OF LINE.
PARAMETER p_ekgrp RADIOBUTTON GROUP g3.
SELECTION-SCREEN COMMENT 5(24) text-001 FOR FIELD p_ekgrp.
SELECT-OPTIONS: s_ekgrp FOR marc-ekgrp.
SELECTION-SCREEN END OF LINE.
SELECTION-SCREEN BEGIN OF LINE.
PARAMETER p_dispo RADIOBUTTON GROUP g3.
SELECTION-SCREEN COMMENT 5(24) text-002 FOR FIELD p_dispo.
SELECT-OPTIONS: s_dispo FOR marc-dispo.
SELECTION-SCREEN END OF LINE.
SELECTION-SCREEN END OF BLOCK block3.
FAE 26446 : fin ajout
Paramètres "SYSTEME" *
Saut de 2 lignes.
SELECTION-SCREEN: SKIP 2.
Ouverture d'un block de sélection pour l'adresse physique du fichier.
SELECTION-SCREEN BEGIN OF BLOCK block2 WITH FRAME TITLE text-bl2.
PARAMETERS: p_pc RADIOBUTTON GROUP rad1 DEFAULT 'X', "+EDR231003
p_fic_pc LIKE rlgrap-filename. "+EDR231003
SELECTION-SCREEN SKIP. "+EDR231003
PARAMETERS : p_serve RADIOBUTTON GROUP rad1, "+EDR231003
p_fic_se LIKE filename-fileintern "+EDR231003
DEFAULT 'Z03_PREV_COMMANDES'. "+EDR231003
SELECTION-SCREEN END OF BLOCK block2.
Logique de traitement *
INITIALIZATION *
INITIALIZATION.
Date du jour
MOVE sy-datum TO w_datejour. "FAE15269
Gestion des anomalies.
MOVE text-lb1 TO w_lb_traitement.
PERFORM f930_init USING sy-cprog '30'.
Fin de la gestions des anomalies.
Récuperation des mois dans la table interne 'ITB_MONTHS'.
CALL FUNCTION 'MONTH_NAMES_GET'
EXPORTING
language = sy-langu
TABLES
month_names = itb_months
EXCEPTIONS
month_names_not_found = 1
OTHERS = 2.
IF sy-subrc <> 0.
MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
ENDIF.
Récupération des differentes periodes.
PERFORM f100_recuperation_date TABLES itb_months.
Récupération du debut du mois.
CONCATENATE sy-datlo(6) '01' INTO w_debut_mois.
MOVE: w_debut_mois TO w_debut_periode.
Récupération du dernier jour du mois.
CALL FUNCTION 'LAST_DAY_OF_MONTHS'
EXPORTING
day_in = sy-datlo
IMPORTING
last_day_of_month = w_fin_mois
EXCEPTIONS
day_in_no_date = 1
OTHERS = 2.
IF sy-subrc <> 0.
MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
ENDIF.
TOP-OF-PAGE *
TOP-OF-PAGE.
CALL FUNCTION 'Z_00_BC_TOP_OF_PAGE'
EXPORTING
p_linsz = k_ligne
p_pagno = sy-pagno
p_prog = sy-cprog
p_projet = k_projet
p_societe = k_societe
p_sujet = sy-title.
END-OF-PAGE *
END-OF-PAGE.
AT SELECTION-SCREEN *
FAE 26446 : ajout
AT SELECTION-SCREEN ON BLOCK block3.
IF NOT ( s_ekgrp IS INITIAL )
AND NOT ( s_dispo IS INITIAL ).
MESSAGE e394(z03_mm).
ENDIF.
IF p_ekgrp = 'X'.
IF s_ekgrp IS INITIAL.
MESSAGE e395(z03_mm).
ENDIF.
ELSE.
IF s_dispo IS INITIAL.
MESSAGE e396(z03_mm).
ENDIF.
ENDIF.
fae26446 fin ajout
AT SELECTION-SCREEN ON BLOCK block2.
IF p_pc = 'X'.
IF p_fic_pc IS INITIAL.
*Attention, il n'y a aucune adresse de sauvegarde pour le(s) fichier(s)
MESSAGE e021(z03_mm).
ENDIF.
ELSE.
IF p_fic_se IS INITIAL.
*Attention, il n'y a aucune adresse de sauvegarde pour le(s) fichier(s)
MESSAGE e021(z03_mm).
ENDIF.
ENDIF.
Création du matchcode pour la selection du fichier local.
AT SELECTION-SCREEN ON VALUE-REQUEST FOR p_fic_pc.
CALL FUNCTION 'WS_FILENAME_GET'
EXPORTING
def_filename = p_fic_pc
def_path = 'C:'
mask = text-ma1
mode = 'S'
title = text-sel
IMPORTING
filename = p_fic_pc
EXCEPTIONS
inv_winsys = 1
no_batch = 2
selection_cancel = 3
selection_error = 4
OTHERS = 5.
IF sy-subrc NE 0 AND sy-subrc NE 3.
MESSAGE e032(z03_mm).
ENDIF.
START-OF-SELECTION *
START-OF-SELECTION.
PERFORM select_donnees.
=================================================
Liste des ARTICLES impactés pour les prévisions *
=================================================
===================================
PORTEFEUILLE DE COMMANDES D'ACHAT *
===================================
Construction itb_pca à partir de EKKO/EKPO.
w_index_ekpo = 1.
w_index_ekes = 1.
w_index_eket = 1.
w_index_mseg = 1.
SORT itb_ekko BY ebeln. "-FAE26446
SORT itb_ekpo BY ebeln ebelp.
SORT itb_makt BY matnr spras.
SORT itb_eket BY ebeln ebelp.
SORT itb_ekes BY ebeln ebelp.
SORT itb_mseg BY ebeln ebelp.
SORT itb_mkpf BY mblnr mjahr.
SORT itb_marc BY matnr werks. "+FAE26446
FAE 26446 remplacement
LOOP AT itb_ekko.
LOOP AT itb_ekpo.
FROM w_index_ekpo.
IF itb_ekko-ebeln = itb_ekpo-ebeln.
LOOP AT itb_ekpo.
READ TABLE itb_marc WITH KEY
matnr = itb_ekpo-matnr
werks = itb_ekpo-werks BINARY SEARCH.
CHECK sy-subrc = 0.
FAE 26446 fin remplacement
itb_pca-ebeln = itb_ekpo-ebeln.
itb_pca-ebelp = itb_ekpo-ebelp.
itb_pca-lifnr = itb_ekko-lifnr. "-FAE26446
itb_pca-lifnr = itb_ekpo-lifnr. "+FAE26446
itb_pca-ekgrp = itb_ekpo-ekgrp. "+FAE26446
itb_pca-dispo = itb_ekpo-dispo. "+FAE26446
itb_pca-matnr = itb_ekpo-matnr.
itb_pca-werks = itb_ekpo-werks.
Recherche du libellé article
READ TABLE itb_makt
WITH KEY matnr = itb_ekpo-matnr
spras = text-fra
BINARY SEARCH.
IF sy-subrc = 0.
itb_pca-maktx = itb_makt-maktx.
ELSE.
READ TABLE itb_makt
WITH KEY matnr = itb_ekpo-matnr
spras = text-ang
BINARY SEARCH.
IF sy-subrc = 0.
itb_pca-maktx = itb_makt-maktx.
ENDIF.
ENDIF.
IF NOT itb_ekpo-bpumn IS INITIAL.
itb_pca-menge = itb_ekpo-menge * itb_ekpo-bpumz /
itb_ekpo-bpumn.
ENDIF.
Sélect° ds la table EKES des dates de livraisons et des qtés
en transit
CLEAR w_temoin_ar.
CLEAR w_etens.
LOOP AT itb_ekes
FROM w_index_ekes.
IF itb_ekes-ebeln = itb_ekpo-ebeln
AND itb_ekes-ebelp = itb_ekpo-ebelp.
IF itb_ekes-ebtyp = text-arn.
itb_pca-eindt = itb_ekes-eindt.
w_temoin_ar = 'X'.
ELSE.
Si c'est une qté en transit alors on recupere
la quantité et la date.
IF itb_ekes-dabmg < itb_ekes-menge.
itb_pca-qtran = itb_pca-qtran + itb_ekes-menge -
itb_ekes-dabmg.
ENDIF.
IF itb_ekes-etens > w_etens.
w_etens = itb_ekes-etens.
itb_pca-dtran = itb_ekes-eindt.
ENDIF.
ENDIF.
ELSEIF itb_ekes-ebeln > itb_ekpo-ebeln
OR ( itb_ekes-ebeln = itb_ekpo-ebeln
AND itb_ekes-ebelp > itb_ekpo-ebelp ).
w_index_ekes = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
S'il n'y a pas d'AR alors récupérat° de la date livraison dans EKET.
LOOP AT itb_eket
FROM w_index_eket.
IF itb_eket-ebeln = itb_ekpo-ebeln
AND itb_eket-ebelp = itb_ekpo-ebelp.
IF w_temoin_ar IS INITIAL.
itb_pca-eindt = itb_eket-eindt.
ENDIF.
itb_pca-slfdt = itb_eket-slfdt.
Calcul du portefeuille fournisseur à partir de la
qté commandée et la qté reçue
itb_pca-attdu = itb_pca-attdu + itb_eket-menge -
itb_eket-wemng.
Calcul du montant du poste
itb_pca-netpr = itb_ekpo-netpr * itb_pca-attdu.
IF itb_ekpo-peinh NE 0.
itb_pca-netpr = itb_pca-netpr / itb_ekpo-peinh.
ENDIF.
Calcul quantité réceptionnée.
itb_pca-wemng = itb_pca-wemng + itb_eket-wemng.
Calcul du retard en nombre de jours calendaires
Le calcul du retard ne doit pas prendre en compte
le jour de livraison
ADD 1 TO itb_eket-eindt.
IF NOT itb_pca-attdu IS INITIAL
AND itb_eket-eindt LT sy-datum.
Calcul du retard en nombre de jours ouvrés
CLEAR w_retard.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = itb_eket-eindt
date_fin = sy-datum
IMPORTING
jours = w_retard.
itb_pca-rtard = itb_pca-rtard + w_retard .
ENDIF.
ELSEIF itb_eket-ebeln > itb_ekpo-ebeln
OR ( itb_eket-ebeln = itb_ekpo-ebeln
AND itb_eket-ebelp > itb_ekpo-ebelp ).
w_index_eket = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
Recherche de la derniere date de livraison.
LOOP AT itb_mseg
FROM w_index_mseg.
IF itb_mseg-ebeln = itb_ekpo-ebeln
AND itb_mseg-ebelp = itb_ekpo-ebelp.
READ TABLE itb_mkpf
WITH KEY mblnr = itb_mseg-mblnr
mjahr = itb_mseg-mjahr
BINARY SEARCH.
IF sy-subrc = 0.
IF itb_mkpf-bldat > itb_pca-bldat.
itb_pca-bldat = itb_mkpf-bldat.
ENDIF.
ENDIF.
ELSEIF itb_mseg-ebeln > itb_ekpo-ebeln
OR ( itb_mseg-ebeln = itb_ekpo-ebeln
AND itb_mseg-ebelp > itb_ekpo-ebelp ).
w_index_mseg = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
APPEND itb_pca.
CLEAR itb_pca.
FAE26446 suppression parag. suivant
ELSEIF itb_ekpo-ebeln > itb_ekko-ebeln.
w_index_ekpo = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
Fin FAE26446
ENDLOOP.
=========================
PREVISIONS DE COMMANDES *
=========================
SORT itb_eord BY matnr werks lifnr ekgrp.
SORT itb_eban BY matnr werks flief ekgrp.
SORT itb_plaf BY matnr plwrk flief.
SORT itb_z03_bw_cmp1 BY matnr werks.
SORT itb_z03_bw_cmp2 BY matnr werks."+DE3K937051
SORT itb_pca BY matnr werks lifnr.
w_index_eban = 1.
w_index_plaf = 1.
w_index_z03_bw_cmp1 = 1.
w_index_pca = 1.
w_index_z03_bw_cmp2 = 1."+DE3K937051
Remplissage de la table des prévisions de commande.
LOOP AT itb_eord.
CLEAR: str_prev_pfc,
w_trouve.
MOVE-CORRESPONDING itb_eord TO str_index1.
MOVE-CORRESPONDING itb_eord TO str_index3_eord.
MOVE-CORRESPONDING itb_eord TO itb_prev_cde.
Recherche dans table division/article (MARC) afin de déterminer si
article PFS (prod fabriqué à stock) ou PFC (Prod fabriqué sur cde)
AT NEW werks.
READ TABLE itb_marc_eord
WITH KEY matnr = itb_eord-matnr
werks = itb_eord-werks
BINARY SEARCH.
IF sy-subrc NE 0.
CLEAR itb_marc_eord.
ENDIF.
ENDAT.
a - Prévisions pour les PFS : DA + OP *
*Calcul des quantités de commande.
IF itb_eord-disls = text-tl1.
itb_prev_cde-bstmi = itb_eord-bstfe.
ELSEIF itb_eord-disls = text-tl2
OR itb_eord-disls = text-tl3.
IF itb_eord-bstrf NE 0
AND itb_eord-bstmi = 0
AND itb_eord-bstma = 0.
itb_prev_cde-bstmi = itb_eord-bstrf.
ELSEIF itb_eord-bstrf NE 0
AND itb_eord-bstmi NE 0.
itb_prev_cde-bstmi = itb_eord-bstmi.
ELSEIF itb_eord-bstrf = itb_eord-bstma
AND itb_eord-bstrf NE 0
AND itb_eord-bstmi = 0.
itb_prev_cde-bstmi = itb_eord-bstma.
ENDIF.
ENDIF.
si article PFS (Prod fabriqué à stock) recherche des
demandes d'achat ou ordres planfiés
IF itb_marc_eord-strgr IN r_type_pfs.
Récupérat° calendrier de la division pour calcul correct lors de
l'ajout de eban-webaz ou plaf-webaz jours ouvrés
CLEAR w_trouve_pfs ."+DE3K937051
READ TABLE itb_t001w
WITH KEY werks = itb_eord-werks
BINARY SEARCH.
IF sy-subrc = 0.
LOOP AT itb_eban
FROM w_index_eban.
MOVE-CORRESPONDING itb_eban TO str_index2.
IF str_index1 = str_index2.
w_trouve_pfs = 'X'."+DE3K937051
si qte commandées pour la DA < quantité de la DA
IF itb_eban-bsmng < itb_eban-menge.
ajout de quantité de la DA - qte commandée pour la DA
PERFORM affect_da.
ENDIF.
ELSEIF str_index2 > str_index1.
w_index_eban = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
ENDIF.
ajout des quantité des OP (ordres planifiés)
LOOP AT itb_plaf
FROM w_index_plaf.
MOVE-CORRESPONDING itb_plaf TO str_index4.
str_index4-werks = itb_plaf-plwrk.
str_index4-lifnr = itb_plaf-flief.
IF str_index4 = str_index3_eord.
Ajout de webaz jours ouvrés à pedtr
CALL FUNCTION 'Z_03_MM_ADD_TO_FACTORYDATE'
EXPORTING
i_date = itb_plaf-pedtr
i_calendar_id = itb_t001w-fabkl
i_nb_days = itb_plaf-webaz
IMPORTING
o_date = w_dat_op
EXCEPTIONS
conv_error = 1
OTHERS = 2.
IF sy-subrc
If forecasts found in Z03_BW_CMP2 for the article
IF w_trouve_pfs = 'X'."-DE3K937602
Recalculation prev month M in fct of Nb of wrought days of the month
IF NOT itb_prev_cde-men00 IS INITIAL.
one does not hold any more account of the day in progress
w_lendemain = w_date0 + 1.
CLEAR:w_nb_j,w_nb_j_tot. "DE3K938206+
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = w_lendemain
date_fin = w_fin_mois
IMPORTING
jours = w_nb_j.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_MONTH'
EXPORTING
date = w_lendemain
IMPORTING
jours = w_nb_j_tot.
itb_prev_cde-men00 = itb_prev_cde-men00 * w_nb_j / w_nb_j_tot
*CLA DE3K925301 FAE27197
*to round has the higher entirety
itb_prev_cde-men00 = ceil( itb_prev_cde-men00 ). "DE3K938206-
ENDIF.
ENDIF."-DE3K937602
*End change BNI
b - Prévisions pour les PFC (Z03_BW_CMP1 puis rééquilibrage) *
Recherche des previsions dans Z03_BW_CMP1
si article PFC (Prod fabriqué sur cde) recherche des prévisions
IF NOT itb_marc_eord-strgr IN r_type_pfs.
CLEAR str_prev_pfc.
MOVE-CORRESPONDING itb_eord TO str_prev_pfc.
CLEAR w_trouve_pfc .
LOOP AT itb_z03_bw_cmp1
FROM w_index_z03_bw_cmp1.
MOVE-CORRESPONDING itb_z03_bw_cmp1 TO str_index7.
MOVE-CORRESPONDING itb_eord TO str_index6.
IF str_index6 = str_index7.
si on trouve des prévisions dans z03_bw_cmp1 pour la source
d'appro eord alors c'est un article PFC
w_trouve_pfc = 'X'.
CASE itb_z03_bw_cmp1-pdatu+0(6).
WHEN w_date0+0(6).
str_prev_pfc-men00 = itb_z03_bw_cmp1-plnmg.
WHEN w_date1+0(6).
str_prev_pfc-men01 = itb_z03_bw_cmp1-plnmg.
WHEN w_date2+0(6).
str_prev_pfc-men02 = itb_z03_bw_cmp1-plnmg.
WHEN w_date3+0(6).
str_prev_pfc-men03 = itb_z03_bw_cmp1-plnmg.
WHEN w_date4+0(6).
str_prev_pfc-men04 = itb_z03_bw_cmp1-plnmg.
WHEN w_date5+0(6).
str_prev_pfc-men05 = itb_z03_bw_cmp1-plnmg.
WHEN w_date6+0(6).
str_prev_pfc-men06 = itb_z03_bw_cmp1-plnmg.
WHEN OTHERS.
ENDCASE.
ELSEIF str_index7 > str_index6.
w_index_z03_bw_cmp1 = sy-tabix.
EXIT.
ENDIF.
ENDLOOP.
*Begin change BNI
Si des prévisions trouvées dans Z03_BW_CMP1 pour l'article
IF w_trouve_pfc = 'X'.
Recalcul prev mois M en fct du nb de jours ouvrés du mois
IF NOT str_prev_pfc-men00 IS INITIAL.
on ne tient plus compte du jour en cours
w_lendemain = w_date0 + 1.
CLEAR:w_nb_j,w_nb_j_tot. "DE3K938206+
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_PERIOD'
EXPORTING
date_deb = w_lendemain
date_fin = w_fin_mois
IMPORTING
jours = w_nb_j.
CALL FUNCTION 'Z_00_BC_WORKDAYS_PER_MONTH'
EXPORTING
date = w_lendemain
IMPORTING
jours = w_nb_j_tot.
str_prev_pfc-men00 = str_prev_pfc-men00 * w_nb_j / w_nb_j_tot.
*CLA DE3K925301 FAE27197
*arrondir a l'entier supèrieur
str_prev_pfc-men00 = ceil( str_prev_pfc-men00 ).
ENDIF.
Equilibrage PFC : commande/prévision du mois
Recherche COMMANDES cumulées pour M à M+6
CLEAR str_pca_pfc.
LOOP AT itb_pca
FROM w_index_pca.
MOVE-CORRESPONDING itb_pca TO str_index5.
IF str_index5 = str_index3_eord.
IF NOT itb_pca-menge IS INITIAL.
CASE itb_pca-eindt+0(6).
WHEN w_date0+0(6).
IF itb_pca-eindt >= w_date0.
str_pca_pfc-men00 = str_pca_pfc-men00 + itb_pca-menge.
ENDIF.
WHEN w_date1+0(6).
str_pca_pfc-men01 = str_pca_pfc-men01 + itb_pca-menge.
WHEN w_date2+0(6).
str_pca_pfc-men02 = str_pca_pfc-men02 + itb_pca-menge.
WHEN w_date3+0(6).
str_pca_pfc-men03 = str_pca_pfc-men03 + itb_pca-menge.
WHEN w_date4+0(6).
str_pca_pfc-men04 = str_pca_pfc-men04 + itb_pca-menge.
WHEN w_date5+0(6).
str_pca_pfc-men05 = str_pca_pfc-men05 + itb_pca-menge.
WHEN w_date6+0(6).
str_pca_pfc-men06 = str_pca_pfc-men06 + itb_pca-menge.
ENDCASE.
ENDIF."NOT itb_pca-menge IS INITIAL
ELSEIF str_index5 > str_index3_eord.
w_index_pca = sy-tabix.
EXIT.
ENDIF.
ENDLOOP."itb_pca
*. Equilibrer commande / prévision des mois : diminuer la quantité de
prévision de chaque mois par le portefeuille de commande client du
mois*. Si ce solde est négatif alors lui donner la valeur 0.
w_i = 0.
Ajustement commandes/prévisions pour les mois M à M+6
WHILE w_i .
Pour un mois, SI Prévisions > Commandes en cours
IF .
Prévisions = Prévisions - Commandes en cours
= 0.
ENDIF.
On passe au mois suivant
w_i = w_i + 1.
ENDWHILE.
MOVE str_prev_pfc-men00 TO itb_prev_cde-men00.
MOVE str_prev_pfc-men01 TO itb_prev_cde-men01.
MOVE str_prev_pfc-men02 TO itb_prev_cde-men02.
MOVE str_prev_pfc-men03 TO itb_prev_cde-men03.
MOVE str_prev_pfc-men04 TO itb_prev_cde-men04.
MOVE str_prev_pfc-men05 TO itb_prev_cde-men05.
MOVE str_prev_pfc-men06 TO itb_prev_cde-men06.
Hi
You check in SM50 by executing the programing, You will come to know which select is taking more time and accordingly you modify that select.
You can do SQL trace and Run time analysis and analyse and see.
check this and use
1) Dont use nested select statements
2) If possible use for all entries in addition
3) In the where addition make sure you give all the primary key
4) Use Index for the selection criteria.
5) You can also use inner joins
6) You can try to put the data from the first select statement into an Itab and then in order to select the data from the second table use for all entries in.
7) Use the runtime analysis SE30 and SQL Trace (ST05) to identify the performance and also to identify where the load is heavy, so that you can change the code accordingly
https://www.sdn.sap.com/irj/servlet/prt/portal/prtroot/docs/library/uuid/5d0db4c9-0e01-0010-b68f-9b1408d5f234
ABAP performance depends upon various factors and in devicded in three parts:
1. Database
2. ABAP
3. System
Run Any program using SE30 (performance analys) to improve performance refer to tips and trics section of SE30, Always remember that ABAP perfirmance is improved when there is least load on Database.
u can get an interactive grap in SE30 regarding this with a file.
also if u find runtime of parts of codes then use :
Switch on RTA Dynamically within ABAP Code
*To turn runtim analysis on within ABAP code insert the following code
SET RUN TIME ANALYZER ON.
*To turn runtim analysis off within ABAP code insert the following code
SET RUN TIME ANALYZER OFF.
Always check the driver internal tables is not empty, while using FOR ALL ENTRIES
Avoid for all entries in JOINS
Try to avoid joins and use FOR ALL ENTRIES.
Try to restrict the joins to 1 level only ie only for tables
Avoid using Select *.
Avoid having multiple Selects from the same table in the same object.
Try to minimize the number of variables to save memory.
The sequence of fields in 'where clause' must be as per primary/secondary index ( if any)
Avoid creation of index as far as possible
Avoid operators like <>, > , < & like % in where clause conditions
Avoid select/select single statements in loops.
Try to use 'binary search' in READ internal table. Ensure table is sorted before using BINARY SEARCH.
Avoid using aggregate functions (SUM, MAX etc) in selects ( GROUP BY , HAVING,)
Avoid using ORDER BY in selects
Avoid Nested Selects
Avoid Nested Loops of Internal Tables
Try to use FIELD SYMBOLS.
Try to avoid into Corresponding Fields of
Avoid using Select Distinct, Use DELETE ADJACENT
Check the following Links
Re: performance tuning
Re: Performance tuning of program
http://www.sapgenie.com/abap/performance.htm
http://www.thespot4sap.com/Articles/SAPABAPPerformanceTuning_PerformanceAnalysisTools.asp
check the below link
http://www.sap-img.com/abap/performance-tuning-for-data-selection-statement.htm
See the following link if it's any help:
http://www.thespot4sap.com/Articles/SAPABAPPerformanceTuning_PerformanceAnalysisTools.asp
Check also http://service.sap.com/performance
and
books like
http://www.sap-press.com/product.cfm?account=&product=H951
http://www.sap-press.com/product.cfm?account=&product=H973
http://www.sap-img.com/abap/more-than-100-abap-interview-faqs.htm
http://www.thespot4sap.com/Articles/SAPABAPPerformanceTuning_PerformanceAnalysisTools.asp
Performance tuning for Data Selection Statement
http://www.sap-img.com/abap/performance-tuning-for-data-selection-statement.htm
Debugger
http://help.sap.com/saphelp_47x200/helpdata/en/c6/617ca9e68c11d2b2ab080009b43351/content.htm
http://www.cba.nau.edu/haney-j/CIS497/Assignments/Debugging.doc
http://help.sap.com/saphelp_erp2005/helpdata/en/b3/d322540c3beb4ba53795784eebb680/frameset.htm
Run Time Analyser
http://help.sap.com/saphelp_47x200/helpdata/en/c6/617cafe68c11d2b2ab080009b43351/content.htm
SQL trace
http://help.sap.com/saphelp_47x200/helpdata/en/d1/801f7c454211d189710000e8322d00/content.htm
CATT - Computer Aided Testing Too
http://help.sap.com/saphelp_47x200/helpdata/en/b3/410b37233f7c6fe10000009b38f936/frameset.htm
Test Workbench
http://help.sap.com/saphelp_47x200/helpdata/en/a8/157235d0fa8742e10000009b38f889/frameset.htm
Coverage Analyser
http://help.sap.com/saphelp_47x200/helpdata/en/c7/af9a79061a11d4b3d4080009b43351/content.htm
Runtime Monitor
http://help.sap.com/saphelp_47x200/helpdata/en/b5/fa121cc15911d5993d00508b6b8b11/content.htm
Memory Inspector
http://help.sap.com/saphelp_47x200/helpdata/en/a2/e5fc84cc87964cb2c29f584152d74e/content.htm
ECATT - Extended Computer Aided testing tool.
http://help.sap.com/saphelp_47x200/helpdata/en/20/e81c3b84e65e7be10000000a11402f/frameset.htm
Just refer to these links...
performance
Performance
Performance Guide
performance issues...
Performance Tuning
Performance issues
performance tuning
performance tuning
You can go to the transaction SE30 to have the runtime analysis of your program.Also try the transaction SCI , which is SAP Code Inspector.
1 Always check the driver internal tables is not empty, while using FOR ALL ENTRIES
2 Avoid for all entries in JOINS
3 Try to avoid joins and use FOR ALL ENTRIES.
4 Try to restrict the joins to 1 level only ie only for 2 tables
5 Avoid using Select *.
6 Avoid having multiple Selects from the same table in the same object.
7 Try to minimize the number of variables to save memory.
8 The sequence of fields in 'where clause' must be as per primary/secondary index ( if any)
9 Avoid creation of index as far as possible
10 Avoid operators like <>, > , < & like % in where clause conditions
11 Avoid select/select single statements in loops.
12 Try to use 'binary search' in READ internal table. Ensure table is sorted before using BINARY SEARCH.
13 Avoid using aggregate functions (SUM, MAX etc) in selects ( GROUP BY , HAVING,)
14 Avoid using ORDER BY in selects
15 Avoid Nested Selects
16 Avoid Nested Loops of Internal Tables
17 Try to use FIELD SYMBOLS.
18 Try to avoid into Corresponding Fields of
19 Avoid using Select Distinct, Use DELETE ADJACENT.
Regards
Anji -
How to improve the performance of the application
Hi,
We have customized the standard SRM BSP application and integrated to portal.
Now it has got some performence issues. It is taking time to load the page and also while navigating between the views.
We have done the performence tuning for the application to the maximum extent. But the problem is while loading the application, its taking time.
Can anyone suggest how to improve the performence of the Application.
Thanks & Regards
WarunThe system configuration is more than enough to run java applications.
You are probalbly doing time-consuming operations in the event thread. Which blocks the event thread and the gui seems not to be responding. If you you have a very bad design.
Use a thread for time consuming operations. -
Learn how to improve your PC 's performance on June 1st from 3:30 -4:30 pm PDT. We'll have a team of experts available to answer your questions.
When it comes to performance, your PC is similar to your car. Both need to be cared for to keep them running run well. But unlike your car, you don’t need to bring your PC into a shop for a tune up. You can easily do it yourself if you know the right steps to take. Our experts will answer your questions and provide tips on how to make your PC run better. Topics that may be covered in this real-time chat event include the following:
How to customize your PC to increase performance;
How to prolong your notebook’s battery life;
How to choose the right video card, power supply, or add the right amount of memory; or
How to use the tools built into your PC that can make it run better and fix common problems.
While you can attend this real-time chat event without signing up in advance, you must be a member of the HP Support Forums to ask questions. Signing up is easy and only takes a few moments, plus it will allow you to post questions or give answers on the Forums.
And it is all free!
So, come and learn how to get the most out of your PC. Please be sure to come on time as space is limited!
Message Edited by timhsu on 05-12-2009 05:33 PM
I work for HP, supporting the HP Experts who volunteer their time and technical knowledge to help others.
This question was solved.
View Solution.Here is the transcript of the chat event on improving PC performance.
Please note that I have altered the transcript so that follow up questions are included in the logical order.
I am in the process of planning the next chat event. I would love to hear what topics would interest you, what day of the week and time is best for you, and if you think an hour is too long.
So, if you get a minute, please let me know.
I work for HP, supporting the HP Experts who volunteer their time and technical knowledge to help others. -
How to improve the query performance in to report level and designer level
How to improve the query performance in to report level and designer level......?
Plz let me know the detail view......first its all based on the design of the database, universe and the report.
at the universe Level, you have to check your Contexts very well to get the optimal performance of the universe and also your joins, keep your joins with key fields, will give you the best performance.
at the report level, try to make the reports dynamic as much as you can, (Parameters) and so on.
and when you create a paremeter try to get it match with the key fields in the database.
good luck
Amr -
How to improve battery backup in iphone 3gs
I bought my iphone 3gs a month back. Its performance is very good. However, the battery back up hardly lasts for a day only or even less. My earlier Nokia E52 used to last for 2 to 3 days. I do not use 3G, wi-fi. Push mail is on of course. Please suggest as how to improve the battery back up. Thank you.
Take a look at this article.
Apple - Batteries - iPhone -
How to improve the performance of adobe forms
Hi,
Please give me some suggestions as to how to improve the performance of adobe form?
Right now when I' am doing user events it is working fine for first 6 or 7 user events. From the next
one it is hanging.
I read about Wizard form design approach, how to use the same here.
Thanks,
AravindHi Otto,
The form is created using HCM forms and processes. I' am performing user events in the form.
User events will doa round trip, in which form data will be sent to backend SAP system. Processing will
happen on the ABAP side and result will appear on the form. First 6 or 7 user events works correctly,
the result is appearing on the form. Around 8 or 9th one, the wait symbol appears and the form is not
re-rendered. The form is of size 6 pages. The issue is not coming with form of size 1 page.
I was reading ways to improve performance during re-rendering given below.
http://www.adobe.com/devnet/livecycle/articles/DynamicInteractiveFormPerformance.pdf
It talks about wizard form design approach. But in SFP transaction, I am not seeing any kind of wizard.
Let me know if you need further details.
Thanks,
Aravind -
Performance blocker on cFP-2020: file-I/O! How to improve?
Hi all,
after resolving my serial-communication problems I still have a performance problem. The code is way too slow which causes e.g. the ftp-server on the fieldpoint to not respond anymore to requests from my PC. I always get timeouts. I also frequently get loop-finished-late events within my two state-machines. I have now used the timing and performance monitor to sse which vi is taking so much time. The result: A file-I/O vi that writes data and log-entries into three different log-files. With a former verion I simply used one vi that appends a string to an existing file. However, since this function disappeared with LV8.2 I had to rewrite the code to use the following sequence of LV-functions:
- file open
- set pointer to the end
- write string
- file close
My vi shich calls this sequence is horribly slow - execution time per run is about 200ms and the top of the list in the performance monitor. Are there any suggestions on how to improve this code? I simply want to add a string to the end of the log-file......
The vi is attached. There are two features in the code which are not self-explanatory: The first sub-vi generates a new file if is used for longer than a preset time (15 minutes in my case). So the create-time of the file is stored in the filename and whenever the current time exceeds create-time plus 15 min. A new file name is created. For simplicity, the name is stored only for the first of the three log-files. The other two are created by string operations from the first filename. Second, whenever a file is "created", that means is does not exist yet, a data-header is written to the file, before data is appended.
Can you see simple improvements here that will accelerate this code? Maybe open the file only once and then append data subsequently and only close it when a new file is created? But I do not need all three files all the times, there may be situations where only one file is needed, and the others need not be created at all.
Thanks,
Olaf
Attachments:
makedatalogfiles.vi 42 KBRavens Fan wrote:
I think moving the open file, move to end of file, and close file out of the loop would certainly help. These functions could be associated with or built into your "determine new file" VI. Since the file paths get passed into the loops, you could pass them through with shift registers so that you can close them after the loops end.
One other thing to look at is your initialize array and insert into array functions. I believe insert into array is one of the costlier functions. Build array would be better. And initializing a much larger array and using replace array subset is better yet. But if you wind up with more elements than you had originally initialized for, you will have to use build array to enlarge it. I would recommend searching the Labview forum for insert into array, build array, and replace array subset for threads that do a better job explaining the differences and advantages of each.
Thanks, that improved the performance of this vi by about two orders of magnitude. The application is now much more stable.
However, I cannot connect to the cFP-2020 anymore by ftp. I even swithed the fieldpoint to boot without vi.
To be specific, I can access the cFP and cd into all directories except for the directory with the data. I assume that there is a large
amount of files in it now, but used to work before even with lots of files. The only thing that might be not so nice is that there is a space
in the folder name, but that has been like that for years now and used to work.
Is there any reason (corrupted file or something like that) that can cause the ftp to fail on this specific directory?
Thanks,
Olaf
...at least I am very close now to a satisfying and running system.... :-) -
How to improve performance of MediaPlayer?
I tried to use the MediaPlayer with a On2 VP6 flv movie.
Showing a video with a resolution of 1024x768 works.
Showing a video with a resolution of 1280x720 and a average bitrate of 1700 kb/s leads to a delay of the video signal behind the audio signal of a couple of seconds. VLC, Media Player Classic and a couple of other players have no problem with the video. Only the FX MediaPlayer shows a poor performance.
Additionally mouse events in a second stage (the first stage is used for the video) are not processed in 2 of 3 cases. If the MediaPlayer is switched off, the mouse events work reliable.
Does somebody know a solution for this problems?
Cheers
masimduplicate thread..
How to improve performance of attached query -
How to improve performance of a game in samsung mobile
hi,
I have developed a game which i am trying to port to various handsets, its works fine for nokia, sony,motorola. But it is giving problems when i run with samsung emulator.
the game became very slow when i tried running it in samsung emulator and it is taking the ket events very late.
can any one plz help in how to improve the speed of the game on samsung mobile. it kind of urgent.
ThanksHi Raj,
How is your direct access datasource built ? Is this a standard datasource or generic datasource on any view/table/function module. This strengthens my second point.
Suppose you built a virtual cube on direct access datasource built on AUFK table with Order as primary key (Order master data). when you use Order as selection on query built on this virtual cube then it retrievies the data faster than firing the query on other selections.
If your selections are different. You can possibly create a secondary index on the table with selections used in query.
Regards
vamsi -
How to Improve performance issue when we are using BRM LDB
HI All,
I am facing a performanc eissue when i am retriving the data from BKPF and respective BSEG table....I see that for fiscal period there are around 60lakhs records. and to populate the data value from the table to final internal table its taking so much of time.
when i tried to make use of the BRM LDB with the SAP Query/Quickviewer, its the same issue.
Please suggest me how to improve the performance issue.
Thanks in advance
ChakradharModerator message - Please see Please Read before Posting in the Performance and Tuning Forum before posting - post locked
Rob -
How to improve speed of data acquisition? Help needed urgently.
I want to convert analog signals to digital signals and simultaneously perform some search on the data acquired and this whole process has to be done continuously for few hours.
So I tried writing two programs in Matlab, one acquires the analog data and converts it to digital and saves the data in small chunks on hard disk (like file1, file2, file3,...) continuously. The other program performs the search operation in those chunks of data continuously. I run both the programs at a time by opening two mat lab windows.
But the problem Iam facing is that the data acquisition is slow. As a result I get an error message in the second program saying that
"??? Error using ==> load
Unable to read file file4.mat: No such file or directory."
Iam unable to synchronize the two programs. I cannot use timers in search program because I cannot add any delays.
Iam using a NI PCI-6036E ,16 Bit Resolution ,200 KS/s Sampling Rate A/D board.
Should I switch to some other series such as M series having sampling rate of the order MS/s?
Can anyone please tell me how to improve the speed of data acquisition?
Thanks.Gayathri wrote:
I want to convert analog signals to digital signals and simultaneously perform some search on the data acquired and this whole process has to be done continuously for few hours.
So I tried writing two programs in Matlab, one acquires the analog data and converts it to digital and saves the data in small chunks on hard disk (like file1, file2, file3,...) continuously. The other program performs the search operation in those chunks of data continuously. I run both the programs at a time by opening two mat lab windows.
But the problem Iam facing is that the data acquisition is slow. As a result I get an error message in the second program saying that
"??? Error using ==> load
Unable to read file file4.mat: No such file or directory."
Iam unable to synchronize the two programs. I cannot use timers in search program because I cannot add any delays.
Iam using a NI PCI-6036E ,16 Bit Resolution ,200 KS/s Sampling Rate A/D board.
Should I switch to some other series such as M series having sampling rate of the order MS/s?
Can anyone please tell me how to improve the speed of data acquisition?
Thanks.
Hi gayathri,
well my email is [email protected]
if ur from india mail me back.
Regards
labview boy
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