How to select the data

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• How to select the data from a Maintainance View into an internal table

  Hi All,
  Can anybody tell me how to select the data from a Maintainance View into an internal table.
  Thanks,
  srinivas.

  HI,
  You can not retrieve data from A mentenance view.
  For detail check this link,
  http://help.sap.com/saphelp_nw2004s/helpdata/en/cf/21ed2d446011d189700000e8322d00/content.htm
  Regards,
  Anirban

• IT0041 - how to select the date?

  Hi,
     Is there any functinal module for getting the date from (DATXX) Where DARXX = 'ZD'. Overall by giving the personal number and DARXX as 'ZD' can we get date(DATXX). or is there any other way to select the date.
  Thanks,
  SAPSAR.
  Edited by: Julius Bussche on Aug 19, 2009 9:43 PM
  Please use a meaningfull subject title

  data:  begin of s0041,
               DARXX type pa0041-dar01,
               DATXX type pa0041-dat01,
            end of s0041.
  data: p0041type p0041.
  select * from p0041 into table p0041 where pernr = "your desired PERNR
  Loop at p0041.
       DO 12 TIMES VARYING s0041-darxx FROM p0041-dar01 NEXT p0041-dar02
                             VARYING s0041-datxx FROM p0041-dat01 NEXT p0041-dat02.
          if s0041-darxx = 'ZD'.
             write : s0041-datxx.  "here you have date you want
             exit.
          endif.
       ENDDO.
  endloop.
  Regarding the topic. Indeed it could be more meanigfull, next time please pay attention to it and stick to forum rules please.
  Regards
  Marcin

• How to select the data efficiently from the table

  hi every one,
    i need some help in selecting data from FAGLFLEXA table.i have to select many amounts from different group of G/L accounts
  (groups are predefined here  which contains a set of g/L account no.).
  if i select every time for each group then it will be a performance issue, in order to avoid it what should i do, can any one suggest me a method or a smaple query so that i can perform the task efficiently.

  Hi ,
  1.select and keep the data in internal table
  2.avoid select inside loop ..endloop.
  3.try to use for all entries
  check the below details
  Hi Praveen,
  Performance Notes
  1.Keep the Result Set Small
  You should aim to keep the result set small. This reduces both the amount of memory used in the database system and the network load when transferring data to the application server. To reduce the size of your result sets, use the WHERE and HAVING clauses.
  Using the WHERE Clause
  Whenever you access a database table, you should use a WHERE clause in the corresponding Open SQL statement. Even if a program containing a SELECT statement with no WHERE clause performs well in tests, it may slow down rapidly in your production system, where the data volume increases daily. You should only dispense with the WHERE clause in exceptional cases where you really need the entire contents of the database table every time the statement is executed.
  When you use the WHERE clause, the database system optimizes the access and only transfers the required data. You should never transfer unwanted data to the application server and then filter it using ABAP statements.
  Using the HAVING Clause
  After selecting the required lines in the WHERE clause, the system then processes the GROUP BY clause, if one exists, and summarizes the database lines selected. The HAVING clause allows you to restrict the grouped lines, and in particular, the aggregate expressions, by applying further conditions.
  Effect
  If you use the WHERE and HAVING clauses correctly:
  • There are no more physical I/Os in the database than necessary
  • No unwanted data is stored in the database cache (it could otherwise displace data that is actually required)
  • The CPU usage of the database host is minimize
  • The network load is reduced, since only the data that is required by the application is transferred to the application server.
  Minimize the Amount of Data Transferred
  Data is transferred between the database system and the application server in blocks. Each block is up to 32 KB in size (the precise size depends on your network communication hardware). Administration information is transported in the blocks as well as the data.
  To minimize the network load, you should transfer as few blocks as possible. Open SQL allows you to do this as follows:
  Restrict the Number of Lines
  If you only want to read a certain number of lines in a SELECT statement, use the UP TO <n> ROWS addition in the FROM clause. This tells the database system only to transfer <n> lines back to the application server. This is more efficient than transferring more lines than necessary back to the application server and then discarding them in your ABAP program.
  If you expect your WHERE clause to return a large number of duplicate entries, you can use the DISTINCT addition in the SELECT clause.
  Restrict the Number of Columns
  You should only read the columns from a database table that you actually need in the program. To do this, list the columns in the SELECT clause. Note here that the INTO CORRESPONDING FIELDS addition in the INTO clause is only efficient with large volumes of data, otherwise the runtime required to compare the names is too great. For small amounts of data, use a list of variables in the INTO clause.
  Do not use * to select all columns unless you really need them. However, if you list individual columns, you may have to adjust the program if the structure of the database table is changed in the ABAP Dictionary. If you specify the database table dynamically, you must always read all of its columns.
  Use Aggregate Functions
  If you only want to use data for calculations, it is often more efficient to use the aggregate functions of the SELECT clause than to read the individual entries from the database and perform the calculations in the ABAP program.
  Aggregate functions allow you to find out the number of values and find the sum, average, minimum, and maximum values.
  Following an aggregate expression, only its result is transferred from the database.
  Data Transfer when Changing Table Lines
  When you use the UPDATE statement to change lines in the table, you should use the WHERE clause to specify the relevant lines, and then SET statements to change only the required columns.
  When you use a work area to overwrite table lines, too much data is often transferred. Furthermore, this method requires an extra SELECT statement to fill the work area. Minimize the Number of Data Transfers
  In every Open SQL statement, data is transferred between the application server and the database system. Furthermore, the database system has to construct or reopen the appropriate administration data for each database access. You can therefore minimize the load on the network and the database system by minimizing the number of times you access the database.
  Multiple Operations Instead of Single Operations
  When you change data using INSERT, UPDATE, and DELETE, use internal tables instead of single entries. If you read data using SELECT, it is worth using multiple operations if you want to process the data more than once, other wise, a simple select loop is more efficient.
  Avoid Repeated Access
  As a rule you should read a given set of data once only in your program, and using a single access. Avoid accessing the same data more than once (for example, SELECT before an UPDATE).
  Avoid Nested SELECT Loops
  A simple SELECT loop is a single database access whose result is passed to the ABAP program line by line. Nested SELECT loops mean that the number of accesses in the inner loop is multiplied by the number of accesses in the outer loop. You should therefore only use nested SELECT loops if the selection in the outer loop contains very few lines.
  However, using combinations of data from different database tables is more the rule than the exception in the relational data model. You can use the following techniques to avoid nested SELECT statements:
  ABAP Dictionary Views
  You can define joins between database tables statically and systemwide as views in the ABAP Dictionary. ABAP Dictionary views can be used by all ABAP programs. One of their advantages is that fields that are common to both tables (join fields) are only transferred once from the database to the application server.
  Views in the ABAP Dictionary are implemented as inner joins. If the inner table contains no lines that correspond to lines in the outer table, no data is transferred. This is not always the desired result. For example, when you read data from a text table, you want to include lines in the selection even if the corresponding text does not exist in the required language. If you want to include all of the data from the outer table, you can program a left outer join in ABAP.
  The links between the tables in the view are created and optimized by the database system. Like database tables, you can buffer views on the application server. The same buffering rules apply to views as to tables. In other words, it is most appropriate for views that you use mostly to read data. This reduces the network load and the amount of physical I/O in the database.
  Joins in the FROM Clause
  You can read data from more than one database table in a single SELECT statement by using inner or left outer joins in the FROM clause.
  The disadvantage of using joins is that redundant data is read from the hierarchically-superior table if there is a 1:N relationship between the outer and inner tables. This can considerably increase the amount of data transferred from the database to the application server. Therefore, when you program a join, you should ensure that the SELECT clause contains a list of only the columns that you really need. Furthermore, joins bypass the table buffer and read directly from the database. For this reason, you should use an ABAP Dictionary view instead of a join if you only want to read the data.
  The runtime of a join statement is heavily dependent on the database optimizer, especially when it contains more than two database tables. However, joins are nearly always quicker than using nested SELECT statements.
  Subqueries in the WHERE and HAVING Clauses
  Another way of accessing more than one database table in the same Open SQL statement is to use subqueries in the WHERE or HAVING clause. The data from a subquery is not transferred to the application server. Instead, it is used to evaluate conditions in the database system. This is a simple and effective way of programming complex database operations.
  Using Internal Tables
  It is also possible to avoid nested SELECT loops by placing the selection from the outer loop in an internal table and then running the inner selection once only using the FOR ALL ENTRIES addition. This technique stems from the time before joins were allowed in the FROM clause. On the other hand, it does prevent redundant data from being transferred from the database.
  Using a Cursor to Read Data
  A further method is to decouple the INTO clause from the SELECT statement by opening a cursor using OPEN CURSOR and reading data line by line using FETCH NEXT CURSOR. You must open a new cursor for each nested loop. In this case, you must ensure yourself that the correct lines are read from the database tables in the correct order. This usually requires a foreign key relationship between the database tables, and that they are sorted by the foreign key. Minimize the Search Overhead
  You minimize the size of the result set by using the WHERE and HAVING clauses. To increase the efficiency of these clauses, you should formulate them to fit with the database table indexes.
  Database Indexes
  Indexes speed up data selection from the database. They consist of selected fields of a table, of which a copy is then made in sorted order. If you specify the index fields correctly in a condition in the WHERE or HAVING clause, the system only searches part of the index (index range scan).
  The primary index is always created automatically in the R/3 System. It consists of the primary key fields of the database table. This means that for each combination of fields in the index, there is a maximum of one line in the table. This kind of index is also known as UNIQUE.
  If you cannot use the primary index to determine the result set because, for example, none of the primary index fields occur in the WHERE or HAVING clause, the system searches through the entire table (full table scan). For this case, you can create secondary indexes, which can restrict the number of table entries searched to form the result set.
  You specify the fields of secondary indexes using the ABAP Dictionary. You can also determine whether the index is unique or not. However, you should not create secondary indexes to cover all possible combinations of fields.
  Only create one if you select data by fields that are not contained in another index, and the performance is very poor. Furthermore, you should only create secondary indexes for database tables from which you mainly read, since indexes have to be updated each time the database table is changed. As a rule, secondary indexes should not contain more than four fields, and you should not have more than five indexes for a single database table.
  If a table has more than five indexes, you run the risk of the optimizer choosing the wrong one for a particular operation. For this reason, you should avoid indexes with overlapping contents.
  Secondary indexes should contain columns that you use frequently in a selection, and that are as highly selective as possible. The fewer table entries that can be selected by a certain column, the higher that column’s selectivity. Place the most selective fields at the beginning of the index. Your secondary index should be so selective that each index entry corresponds to at most five percent of the table entries. If this is not the case, it is not worth creating the index. You should also avoid creating indexes for fields that are not always filled, where their value is initial for most entries in the table.
  If all of the columns in the SELECT clause are contained in the index, the system does not have to search the actual table data after reading from the index. If you have a SELECT clause with very few columns, you can improve performance dramatically by including these columns in a secondary index.
  Formulating Conditions for Indexes
  You should bear in mind the following when formulating conditions for the WHERE and HAVING clauses so that the system can use a database index and does not have to use a full table scan.
  Check for Equality and Link Using AND
  The database index search is particularly efficient if you check all index fields for equality (= or EQ) and link the expressions using AND.
  Use Positive Conditions
  The database system only supports queries that describe the result in positive terms, for example, EQ or LIKE. It does not support negative expressions like NE or NOT LIKE.
  If possible, avoid using the NOT operator in the WHERE clause, because it is not supported by database indexes; invert the logical expression instead.
  Using OR
  The optimizer usually stops working when an OR expression occurs in the condition. This means that the columns checked using OR are not included in the index search. An exception to this are OR expressions at the outside of conditions. You should try to reformulate conditions that apply OR expressions to columns relevant to the index, for example, into an IN condition.
  Using Part of the Index
  If you construct an index from several columns, the system can still use it even if you only specify a few of the columns in a condition. However, in this case, the sequence of the columns in the index is important. A column can only be used in the index search if all of the columns before it in the index definition have also been specified in the condition.
  Checking for Null Values
  The IS NULL condition can cause problems with indexes. Some database systems do not store null values in the index structure. Consequently, this field cannot be used in the index.
  Avoid Complex Conditions
  Avoid complex conditions, since the statements have to be broken down into their individual components by the database system.
  Reduce the Database Load
  Unlike application servers and presentation servers, there is only one database server in your system. You should therefore aim to reduce the database load as much as possible. You can use the following methods:
  Buffer Tables on the Application Server
  You can considerably reduce the time required to access data by buffering it in the application server table buffer. Reading a single entry from table T001 can take between 8 and 600 milliseconds, while reading it from the table buffer takes 0.2 - 1 milliseconds.
  Whether a table can be buffered or not depends its technical attributes in the ABAP Dictionary. There are three buffering types:
  • Resident buffering (100%) The first time the table is accessed, its entire contents are loaded in the table buffer.
  • Generic buffering In this case, you need to specify a generic key (some of the key fields) in the technical settings of the table in the ABAP Dictionary. The table contents are then divided into generic areas. When you access data with one of the generic keys, the whole generic area is loaded into the table buffer. Client-specific tables are often buffered generically by client.
  • Partial buffering (single entry) Only single entries are read from the database and stored in the table buffer.
  When you read from buffered tables, the following happens:
  1. An ABAP program requests data from a buffered table.
  2. The ABAP processor interprets the Open SQL statement. If the table is defined as a buffered table in the ABAP Dictionary, the ABAP processor checks in the local buffer on the application server to see if the table (or part of it) has already been buffered.
  3. If the table has not yet been buffered, the request is passed on to the database. If the data exists in the buffer, it is sent to the program.
  4. The database server passes the data to the application server, which places it in the table buffer.
  5. The data is passed to the program.
  When you change a buffered table, the following happens:
  1. The database table is changed and the buffer on the application server is updated. The database interface logs the update statement in the table DDLOG. If the system has more than one application server, the buffer on the other servers is not updated at once.
  2. All application servers periodically read the contents of table DDLOG, and delete the corresponding contents from their buffers where necessary. The granularity depends on the buffering type. The table buffers in a distributed system are generally synchronized every 60 seconds (parameter: rsdisp/bufreftime).
  3. Within this period, users on non-synchronized application servers will read old data. The data is not recognized as obsolete until the next buffer synchronization. The next time it is accessed, it is re-read from the database.
  You should buffer the following types of tables:
  • Tables that are read very frequently
  • Tables that are changed very infrequently
  • Relatively small tables (few lines, few columns, or short columns)
  • Tables where delayed update is acceptable.
  Once you have buffered a table, take care not to use any Open SQL statements that bypass the buffer.
  The SELECT statement bypasses the buffer when you use any of the following:
  • The BYPASSING BUFFER addition in the FROM clause
  • The DISTINCT addition in the SELECT clause
  • Aggregate expressions in the SELECT clause
  • Joins in the FROM clause
  • The IS NULL condition in the WHERE clause
  • Subqueries in the WHERE clause
  • The ORDER BY clause
  • The GROUP BY clause
  • The FOR UPDATE addition
  Furthermore, all Native SQL statements bypass the buffer.
  Avoid Reading Data Repeatedly
  If you avoid reading the same data repeatedly, you both reduce the number of database accesses and reduce the load on the database. Furthermore, a "dirty read" may occur with database tables other than Oracle. This means that the second time you read data from a database table, it may be different from the data read the first time. To ensure that the data in your program is consistent, you should read it once only and then store it in an internal table.
  Sort Data in Your ABAP Programs
  The ORDER BY clause in the SELECT statement is not necessarily optimized by the database system or executed with the correct index. This can result in increased runtime costs. You should only use ORDER BY if the database sort uses the same index with which the table is read. To find out which index the system uses, use SQL Trace in the ABAP Workbench Performance Trace. If the indexes are not the same, it is more efficient to read the data into an internal table or extract and sort it in the ABAP program using the SORT statement.
  Use Logical Databases
  SAP supplies logical databases for all applications. A logical database is an ABAP program that decouples Open SQL statements from application programs. They are optimized for the best possible database performance. However, it is important that you use the right logical database. The hierarchy of the data you want to read must reflect the structure of the logical database, otherwise, they can have a negative effect on performance. For example, if you want to read data from a table right at the bottom of the hierarchy of the logical database, it has to read at least the key fields of all tables above it in the hierarchy. In this case, it is more efficient to use a SELECT statement.
  Work Processes
  Work processes execute the individual dialog steps in R/3 applications. The next two sections describe firstly the structure of a work process, and secondly the different types of work process in the R/3 System.
  Structure of a Work Process
  Work processes execute the dialog steps of application programs. They are components of an application server. The following diagram shows the components of a work process:
  Each work process contains two software processors and a database interface.
  Screen Processor
  In R/3 application programming, there is a difference between user interaction and processing logic. From a programming point of view, user interaction is controlled by screens. As well as the actual input mask, a screen also consists of flow logic. The screen flow logic controls a large part of the user interaction. The R/3 Basis system contains a special language for programming screen flow logic. The screen processor executes the screen flow logic. Via the dispatcher, it takes over the responsibility for communication between the work process and the SAPgui, calls modules in the flow logic, and ensures that the field contents are transferred from the screen to the flow logic.
  ABAP Processor
  The actual processing logic of an application program is written in ABAP - SAP’s own programming language. The ABAP processor executes the processing logic of the application program, and communicates with the database interface. The screen processor tells the ABAP processor which module of the screen flow logic should be processed next. The following screen illustrates the interaction between the screen and the ABAP processors when an application program is running.
  Database Interface
  The database interface provides the following services:
  • Establishing and terminating connections between the work process and the database.
  • Access to database tables
  • Access to R/3 Repository objects (ABAP programs, screens and so on)
  • Access to catalog information (ABAP Dictionary)
  • Controlling transactions (commit and rollback handling)
  • Table buffer administration on the application server.
  The following diagram shows the individual components of the database interface:
  The diagram shows that there are two different ways of accessing databases: Open SQL and Native SQL.
  Open SQL statements are a subset of Standard SQL that is fully integrated in ABAP. They allow you to access data irrespective of the database system that the R/3 installation is using. Open SQL consists of the Data Manipulation Language (DML) part of Standard SQL; in other words, it allows you to read (SELECT) and change (INSERT, UPDATE, DELETE) data. The tasks of the Data Definition Language (DDL) and Data Control Language (DCL) parts of Standard SQL are performed in the R/3 System by the ABAP Dictionary and the authorization system. These provide a unified range of functions, irrespective of database, and also contain functions beyond those offered by the various database systems.
  Open SQL also goes beyond Standard SQL to provide statements that, in conjunction with other ABAP constructions, can simplify or speed up database access. It also allows you to buffer certain tables on the application server, saving excessive database access. In this case, the database interface is responsible for comparing the buffer with the database. Buffers are partly stored in the working memory of the current work process, and partly in the shared memory for all work processes on an application server. Where an R/3 System is distributed across more than one application server, the data in the various buffers is synchronized at set intervals by the buffer management. When buffering the database, you must remember that data in the buffer is not always up to date. For this reason, you should only use the buffer for data which does not often change.
  Native SQL is only loosely integrated into ABAP, and allows access to all of the functions contained in the programming interface of the respective database system. Unlike Open SQL statements, Native SQL statements are not checked and converted, but instead are sent directly to the database system. Programs that use Native SQL are specific to the database system for which they were written. R/3 applications contain as little Native SQL as possible. In fact, it is only used in a few Basis components (for example, to create or change table definitions in the ABAP Dictionary).
  The database-dependent layer in the diagram serves to hide the differences between database systems from the rest of the database interface. You choose the appropriate layer when you install the Basis system. Thanks to the standardization of SQL, the differences in the syntax of statements are very slight. However, the semantics and behavior of the statements have not been fully standardized, and the differences in these areas can be greater. When you use Native SQL, the function of the database-dependent layer is minimal.
  Types of Work Process
  Although all work processes contain the components described above, they can still be divided into different types. The type of a work process determines the kind of task for which it is responsible in the application server. It does not specify a particular set of technical attributes. The individual tasks are distributed to the work processes by the dispatcher.
  Before you start your R/3 System, you determine how many work processes it will have, and what their types will be. The dispatcher starts the work processes and only assigns them tasks that correspond to their type. This means that you can distribute work process types to optimize the use of the resources on your application servers.
  The following diagram shows again the structure of an application server, but this time, includes the various possible work process types:
  The various work processes are described briefly below. Other parts of this documentation describe the individual components of the application server and the R/3 System in more detail.
  Dialog Work Process
  Dialog work processes deal with requests from an active user to execute dialog steps.
  Update Work Process
  Update work processes execute database update requests. Update requests are part of an SAP LUW that bundle the database operations resulting from the dialog in a database LUW for processing in the background.
  Background Work Process
  Background work processes process programs that can be executed without user interaction (background jobs).
  Enqueue Work Process
  The enqueue work process administers a lock table in the shared memory area. The lock table contains the logical database locks for the R/3 System and is an important part of the SAP LUW concept. In an R/3 System, you may only have one lock table. You may therefore also only have one application server with enqueue work processes.
  Spool Work Process
  The spool work process passes sequential datasets to a printer or to optical archiving. Each application server may contain several spool work process.
  The services offered by an application server are determined by the types of its work processes. One application server may, of course, have more than one function. For example, it may be both a dialog server and the enqueue server, if it has several dialog work processes and an enqueue work process.
  You can use the system administration functions to switch a work process between dialog and background modes while the system is still running. This allows you, for example, to switch an R/3 System between day and night operation, where you have more dialog than background work processes during the day, and the other way around during the night.
  ABAP Application Server
  R/3 programs run on application servers. They are an important component of the R/3 System. The following sections describe application servers in more detail.
  Structure of an ABAP Application Server
  The application layer of an R/3 System is made up of the application servers and the message server. Application programs in an R/3 System are run on application servers. The application servers communicate with the presentation components, the database, and also with each other, using the message server.
  The following diagram shows the structure of an application server:
  The individual components are:
  Work Processes
  An application server contains work processes, which are components that can run an application. Work processes are components that are able to execute an application (that is, one dialog step each). Each work process is linked to a memory area containing the context of the application being run. The context contains the current data for the application program. This needs to be available in each dialog step. Further information about the different types of work process is contained later on in this documentation.
  Dispatcher
  Each application server contains a dispatcher. The dispatcher is the link between the work processes and the users logged onto the application server. Its task is to receive requests for dialog steps from the SAP GUI and direct them to a free work process. In the same way, it directs screen output resulting from the dialog step back to the appropriate user.
  Gateway
  Each application server contains a gateway. This is the interface for the R/3 communication protocols (RFC, CPI/C). It can communicate with other application servers in the same R/3 System, with other R/3 Systems, with R/2 Systems, or with non-SAP systems.
  The application server structure as described here aids the performance and scalability of the entire R/3 System. The fixed number of work processes and dispatching of dialog steps leads to optimal memory use, since it means that certain components and the memory areas of a work process are application-independent and reusable. The fact that the individual work processes work independently makes them suitable for a multi-processor architecture. The methods used in the dispatcher to distribute tasks to work processes are discussed more closely in the section Dispatching Dialog Steps.
  Shared Memory
  All of the work processes on an application server use a common main memory area called shared memory to save contexts or to buffer constant data locally.
  The resources that all work processes use (such as programs and table contents) are contained in shared memory. Memory management in the R/3 System ensures that the work processes always address the correct context, that is the data relevant to the current state of the program that is running. A mapping process projects the required context for a dialog step from shared memory into the address of the relevant work process. This reduces the actual copying to a minimum.
  Local buffering of data in the shared memory of the application server reduces the number of database reads required. This reduces access times for application programs considerably. For optimal use of the buffer, you can concentrate individual applications (financial accounting, logistics, human resources) into separate application server groups.
  Database Connection
  When you start up an R/3 System, each application server registers its work processes with the database layer, and receives a single dedicated channel for each. While the system is running, each work process is a user (client) of the database system (server). You cannot change the work process registration while the system is running. Neither can you reassign a database channel from one work process to another. For this reason, a work process can only make database changes within a single database logical unit of work (LUW). A database LUW is an inseparable sequence of database operations. This has important consequences for the programming model explained below.
  Dispatching Dialog Steps
  The number of users logged onto an application server is often many times greater than the number of available work processes. Furthermore, it is not restricted by the R/3 system architecture. Furthermore, each user can run several applications at once. The dispatcher has the important task of distributing all dialog steps among the work processes on the application server.
  The following diagram is an example of how this might happen:
  1. The dispatcher receives the request to execute a dialog step from user 1 and directs it to work process 1, which happens to be free. The work process addresses the context of the application program (in shared memory) and executes the dialog step. It then becomes free again.
  2. The dispatcher receives the request to execute a dialog step from user 2 and directs it to work process 1, which is now free again. The work process executes the dialog step as in step 1.
  3. While work process 1 is still working, the dispatcher receives a further request from user 1 and directs it to work process 2, which is free.
  4. After work processes 1 and 2 have finished processing their dialog steps, the dispatcher receives another request from user 1 and directs it to work process 1, which is free again.
  5. While work process 1 is still working, the dispatcher receives a further request from user 2 and directs it to work process 2, which is free.
  From this example, we can see that:
  • A dialog step from a program is assigned to a single work process for execution.
  • The individual dialog steps of a program can be executed on different work processes, and the program context must be addressed for each new work process.
  • A work process can execute dialog steps of different programs from different users.
  The example does not show that the dispatcher tries to distribute the requests to the work processes such that the same work process is used as often as possible for the successive dialog steps in an application. This is useful, since it saves the program context having to be addressed each time a dialog step is executed.
  Dispatching and the Programming Model
  The separation of application and presentation layer made it necessary to split up application programs into dialog steps. This, and the fact that dialog steps are dispatched to individual work processes, has had important consequences for the programming model.
  As mentioned above, a work process can only make database changes within a single database logical unit of work (LUW). A database LUW is an inseparable sequence of database operations. The contents of the database must be consistent at its beginning and end. The beginning and end of a database LUW are defined by a commit command to the database system (database commit). During a database LUW, that is, between two database commits, the database system itself ensures consistency within the database. In other words, it takes over tasks such as locking database entries while they are being edited, or restoring the old data (rollback) if a step terminates in an error.
  A typical SAP application program extends over several screens and the corresponding dialog steps. The user requests database changes on the individual screens that should lead to the database being consistent once the screens have all been processed. However, the individual dialog steps run on different work processes, and a single work process can process dialog steps from other applications. It is clear that two or more independent applications whose dialog steps happen to be processed on the same work process cannot be allowed to work with the same database LUW.
  Consequently, a work process must open a separate database LUW for each dialog step. The work process sends a commit command (database commit) to the database at the end of each dialog step in which it makes database changes. These commit commands are called implicit database commits, since they are not explicitly written into the application program.
  These implicit database commits mean that a database LUW can be kept open for a maximum of one dialog step. This leads to a considerable reduction in database load, serialization, and deadlocks, and enables a large number of users to use the same system.
  However, the question now arises of how this method (1 dialog step = 1 database LUW) can be reconciled with the demand to make commits and rollbacks dependent on the logical flow of the application program instead of the technical distribution of dialog steps. Database update requests that depend on one another form logical units in the program that extend over more than one dialog step. The database changes associated with these logical units must be executed together and must also be able to be undone together.
  The SAP programming model contains a series of bundling techniques that allow you to group database updates together in logical units. The section of an R/3 application program that bundles a set of logically-associated database operations is called an SAP LUW. Unlike a database LUW, a SAP LUW includes all of the dialog steps in a logical unit, including the database update.
  Happy Reading...
  shibu

• How to select the data from DB and write into File?

  Hi Experts,
  Can any one please help me,
  I want to write the data from a table "T1" from Data Base to one file in windows.
  This functionality i need to achive in SSIS package through script component and Execute SQL task if it's passible.
  If any other way is there please help me.

  through script component and Execute SQL task if it's passible
  The easier way is to use a "Data Flow" Task with a "OleDB Data Source" pointing the the SQL Server table / query and a "Flat File Destination" to export to a file.
  Olaf Helper
  [ Blog] [ Xing] [ MVP]

• How to select multiple data without select options?

  Dear experts,
  I have a rquirement that i have a one selection screen and in that selection screen on date field is there which is parameter type. we using this parameter date field in the program for selecting data..after that i am using the logic to multiple value..now my requirement is how to select the data for multiple value..
  PARAMETERS :  SO_DATE TYPE SY-DATUM OBLIGATORY.
  CALL FUNCTION 'RP_CALC_DATE_IN_INTERVAL'
     EXPORTING
       DATE            = so_date
       DAYS            = 1
       MONTHS          = 0
       SIGNUM          = '-'
       YEARS           = 0
     IMPORTING
       CALC_DATE       = so_date
        l_cm_first+0(6) = so_date+0(6). " month & year
        l_cm_first+6(2) = '01'. " date
        l_cm_end = so_date.
  my requirement is that how to use l_cm_first and  l_cm_end multiple selection in select query ??
  eg- i want to fetch the data from 1/8/2014 to 11/08/2014 using this field l_cm_first and  l_cm_end

      l_cm_first+0(6) = so_date+0(6). " month & year
        l_cm_first+6(2) = '01'. " date
        l_cm_end = so_date.
  after executing this line l_cm_first = 1/8/2014 and  l_cm_end = 11/08/2014
  now i have to select in this range how to do it?

• HOW TO PASS THE DATA FROM SELECTION SCREEN TO STANDARD TRANSACTION?

  HI,
  HOW TO PASS THE DATA FROM SELECTION SCREEN TO STANDARD TRANSACTION?
  thanks,
  samba.

  By selection screen, what do you mean?   There is no selection screen in WDA as there was in classic dynpro. Do you mean you are using the Select-Options reusable component?  Are you wanting to call a standard transaction via ITS - SAPGUI for HTML?  Please provide more details to your question.

• How to make users to select the date from calendar control my making the date field read only in date time control in external list in sharepoint 2010

  How to make users to select the date from calendar control only, by my making the date text field read only (don't want to let users type the date) in date time control in external list in sharepoint 2010. I am looking for a solution which can
  be done through sharepoint desginer / out of the box.
  thanks.

  Congratulate you got the solution by yourself. I am new to a
  WinForms calendar component, I feel so helpless on many problems even I'd read many tutorials. This question on the
  calendar date selection did me a great favor. Cheers.

• How to control the data  in data selection

  Hi,
  how to control the data  .
  in the transfer structure I am having 10 fields and and the file which is to be loaded contains 7 fields only.where can I control  the other 3 fields and how .
  thanks in advance
  karna

  If your source file is flat file, add extra three fields with blank (just add field separator say comma for each extra field) and then load. It should be ok.
  Hope it helps..

• How to pass the data from a input table to RFC data service?

  Hi,
  I am doing a prototype with VC, I'm wondering how VC pass the data from a table view to a backend data service? For example, I have one RFC in the backend system with a tabel type importing parameter, now I want to pass all the data from an input table view to the RFC, I guess it's possible but I don't know how to do it.
  I try to create some events between the input table and data service, but seems there is no a system event can export the whole table to the backend data service.
  Thanks for your answer.

  Thanks for your answer, I tried the solution 2, I create "Submit" button, and ser the mapping scope to  be "All data rows", it only works when I select at least one row, otherwise the data would not be passed.
  Another question is I have serveral imported table parameter, for each table I have one "submit" event, I want these tables to be submitted at the same time, but if I click the submit button in one table toolbar, I can only submit the table data which has a submit button clicked, for other tables, the data is not passed, how can I achieve it?
  Thanks.

• How to bring the data from application server to presentation server

  hi,
  i have one problem,i have written the program which will open the files in the application server when we run the program in the background(sm37),the same data from application server i want to bring into presentation server in the format of (.csv),how to bring the data from application to presentation server can any body help me on this  topic.folowing is the code .
  *& Report  ZPFA_HIER_LOAD
  REPORT  ZFPA_HIER_LOAD.
  *---- Declaration of Oracle connectioN
  DATA con_name LIKE dbcon-con_name VALUE 'COMSHARE'.
  DATA: MFL1(9),MFL2(5),MFL3(9),MFL4(2),MFL5(8) TYPE c.
  DATA : mfilename type string.
  data: begin of matab1 occurs 0,
        MFL1(9) TYPE C,
        MFL2(5) TYPE C,
        MFL3(9) TYPE C,
        MFL4(2) TYPE C,
        MFL5(8) TYPE C  ,
       end of matab1 .
  data: setid(8) type c.
  data: begin of source occurs 0,
        setid(8) type c,
        end of source.
  *PARAMETERS : p_pfile LIKE filename-FILEEXTERN.
  *PARAMETERS : m_bsenty(8). " type c obligatory.
  *mfilename = P_PFILE.
  EXEC SQL.
    SET CONNECTION :con_name
  ENDEXEC.
  EXEC SQL.
    CONNECT TO :con_name
  ENDEXEC.
  EXEC SQL PERFORMING get_source.
    SELECT set_id FROM UNIT_SET INTO
    :setid
    ORDER BY SET_ID
  ENDEXEC.
  start-of-selection.
  LOOP AT SOURCE.
    REFRESH matab1. CLEAR matab1.
    EXEC SQL PERFORMING evaluate.
  SELECT TO_CHAR(MEM_ID),TRIM(TO_CHAR(MEM_PID)) FROM UNIT_TREE INTO :MFL1,
  :MFL5
  where set_id = :SOURCE-SETID ORDER BY MEM_ID
    ENDEXEC.
    if SOURCE-SETID = '80000000'.
     mfilename = '/tmp/aesorg'.
    elseif SOURCE-SETID = '80000006'.
     mfilename = '/tmp/Consolidation_Manager'.
    elseif SOURCE-SETID = '80000010'.
     mfilename = '/tmp/10org'.
    elseif SOURCE-SETID = '80000012'.
     mfilename = '/tmp/20org'.
    elseif SOURCE-SETID = '80000018'.
     mfilename = '/tmp/30org'.
    elseif SOURCE-SETID = '80000025'.
     mfilename = '/tmp/40org'.
    Endif.
    mfilename = '/usr/test.dat'.
  ************************This was i tried***********************
    open dataset mfilename for output in text mode encoding default." IN
  *TEXT MODE ENCODING DEFAULT.
  if sy-subrc <> 0.
  exit.
  endif.
  close dataset mfilename.
  CALL FUNCTION 'GUI_DOWNLOAD'
     EXPORTING
       FILENAME         = MFILENAME
       FILETYPE         = 'ASC'
     TABLES
       data_tab         = matab1
     EXCEPTIONS
       file_write_error = 1
       invalid_type     = 2
       no_authority     = 3
       unknown_error    = 4
       OTHERS           = 10.
  loop at matab1 .
  transfer matab1 to mfilename.
  endloop.
    clear matab1.
  ENDLOOP.
  loop at matab1 .
  transfer matab1 to mfilename.
  endloop.
  close dataset mfilename.
       MFL5 = '0'.
     CLEAR MFL5.
  FORM evaluate.
    if MFL5 = -1.
      MFL5 = ''.
    ENDIF.
    concatenate MFL1 ','   into MFL1.
    concatenate MFL1 ','   into MFL3.
    matab1-MFL1 = MFL1.
    matab1-MFL2 = 'ZBUE,'.
    matab1-MFL3 = MFL3.
    matab1-MFL4 = ' ,'.
    matab1-MFL5 = MFL5.
    append matab1 .
    CLEAR MFL1.
    CLEAR MFL2.
    CLEAR MFL3.
    CLEAR MFL4.
    CLEAR MFL5.
  ENDFORM.
                   "evaluate
  *&      Form  GET_SOURCE
        text
  FORM GET_SOURCE.
    source-setid = setid.
    append source.
    clear source.
  ENDFORM.                    "GET_SOURCE

  Hi Rammohan,
  You cannot use OPEN DATASET to transfer data from application server to presentation server.
  You can do the following :
  <b>Do 1st point in BACKGROUND</b>
  1. Read the data file from application server into an internal table using OPEN DATASET
  <b>Do 2nd point in Foreground</b>
  2. Once you get the data into an internal table, then use FM GUI_DOWNLOAD to download it on presentation server
  You cannot use the above 2 point together in Background because its not possible. Hence you need program it partially in background and partially in foreground.
  Best regards,
  Prashant

• How to delete the data in the compressed  infocube

  hi, bi gurus
  we are facing a problem in inventory management the info cube in BW production
  normally every time inventory cube gets compressed that means the data will be moving to F fact table to E fact table
  now the problem is we are having some bad data for latest five requests in this cube as we all know compressed data
  can't be delete by deleting request in the request tab the only way is go for selective deletion but i don't find any selective
  option in the cube we are PSA data for that five request which having correctdata please help how to delete the bad data in the
  info cube and load the correct data which we are having in PSA
  Thanks
  Joe

  Hi André
  Thanks you for ur answer
  what i am telling is their is an option for selective deletion for inventory cube
  but i don't find any specific option to delete the data that means like calendar day like that
  i hope you got my question.
  hi Saveen Kumar,
  Thank you again
  we are using 3.xx flow if we do the request reverse posting for all the 5 requests which has updated incorrect data
  next we need to do compression also or not
  and how to reload the data from PSA to Infocube becuse if request still avaliable in info cube it will not allow me to do that
  can you please tell me detail how to proceed in step by step this is first time i am doing request reverse post and i have to do it production please tell me
  Thanks in adavance
  Thanks,joe

• How to hide the data in particular table in oracle 10g

  How to hide the data in particular table in oracle 10g
  i want steps

  If its on Report u can  always hide the column - Keyfigure or Selection - Display - Hide......y do u want to have it on the report if it is to be hided in the first place?

• How to check the data in a temporary table

  Hi,
  A procedure inserting data into a temporary table , data exists in the table now. so, how to see the data from the temporary table. Is it possible to see from the sqlplus by selecting, right now i'm not getting any data. .thanks Bcj.

  If you are referring to Global Temporary Tables, then the only way to see the contents of the table are to select from the table while connected to the same session that inserted the data into the GTT.
  Please note however that there is not a 1 to 1 correspondence between sessions and users (shcemas). A user may be connected to 1 or more sessions, but it is only the session that inserted the records that will be able to view the records.

• How to filter the data in different sections (e.g. Report Footers)?

  Hi,
  I am using Crystal Reports 11 to generate cross-tables.
  I plan to generate 3 cross-tabs, and each cross-table will be put in a section. For example, cross-tab1 in Report Footer a; cross-tab2 in Report Footer b; cross-tab3 in Report Footer c.
  I know use "Select Expert" to filter data. But, it seems that "Select Expert" filters data for the whole report.
  I want to filter the data for each cross-table separately. For example, filter cross-tab1 based on condition1; filter cross-tab2 based on condition2; filter cross-tab3 based on condition3.
  How to filter the data in different sections (e.g. Report Footers)?
  Thank you in advance.

  Hi,
  Now that you've inserted the subreport just right-click the sub-report and click Edit. The Design page for sub-report should open up.
  You can now insert the cross-tab on the Report Header and insert a record selection formula of your choice.
  Also, suppress all the other sections of the subreport so the Main report only shows the crosstab without any spaces.
  Do the same for all the subreports.
  -Abhilash