Regarding QUAN data type and Parameter id

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• Difference b/w DATA TYPE and DATA OBJECT & differences b/w TYPE and LIKE

  hai
  can any one say the differences between Data type and Data Object.
  And also differences between TYPE and LIKE
  thanks
  Gani

  hi,
  _Data Types and Data Objects_
        Programs work with local program data – that is, with byte sequences in the working memory. Byte sequences that belong together are called fields and are characterized by a length, an identity (name), and – as a further attribute – by a data type. All programming languages have a concept that describes how the contents of a field are interpreted according to the data type.
        In the ABAP type concept, fields are called data objects. Each data object is thus an instance of an abstract data type. There are separate name spaces for data objects and data types. This means that a name can be the name of a data object as well as the name of a data type simultaneously.
  Data Types
     As well as occurring as attributes of a data object, data types can also be defined independently. You can then use them later on in conjunction with a data object. The definition of a user-defined data type is based on a set of predefined elementary data types. You can define data types either locally in the declaration part of a program using the TYPESstatement) or globally in the ABAP Dictionary. You can use your own data types to declare data objects or to check the types of parameters in generic operations.
       All programming languages distinguish between various types of data with various uses, such as ….. type data for storing or displaying values and numerical data for calculations. The attributes in question are described using data types. You can define, for example, how data is stored in the repository, and how the ABAP statements work with the data.
  Data types can be divided into elementary, reference, and complex types.
  a. Elementary Types
  These are data types of fixed or variable length that are not made up of other types.
  The difference between variable length data types and fixed length data types is that the length and the memory space required by data objects of variable length data types can change dynamically during runtime, and that these data types cannot be defined irreversibly while the data object is being declared.
  Predefined and User-Defined Elementary Data Types
  You can also define your own elementary data types in ABAP using the TYPES statement. You base these on the predefined data types. This determines all of the technical attributes of the new data type. For example, you could define a data type P_2 with two decimal places, based on the predefined data type P. You could then use this new type in your data declarations.
  b.  Reference Types
  Reference types are deep data types that describe reference variables, that is, data objects that contain references. A reference variable can be defined as a component of a complex data object such as a structure or internal table as well as a single field.
  c. Complex Data Types
  Complex data types are made up of other data types. A distinction is made here between structured types and table types.
  Data Objects
        Data objects are the physical units with which ABAP statements work at runtime. The contents of a data object occupy memory space in the program. ABAP statements access these contents by addressing the name of the data object and interpret them according to the data type.. For example, statements can write the contents of data objects in lists or in the database, they can pass them to and receive them from routines, they can change them by assigning new values, and they can compare them in logical expressions.
         Each ABAP data object has a set of technical attributes, which are fully defined at all times when an ABAP program is running (field length, number of decimal places, and data type). You declare data objects either statically in the declaration part of an ABAP program (the most important statement for this is DATA), or dynamically at runtime (for example, when you call procedures). As well as fields in the memory area of the program, the program also treats literals like data objects.
          A data object is a part of the repository whose content can be addressed and interpreted by the program. All data objects must be declared in the ABAP program and are not persistent, meaning that they only exist while the program is being executed. Before you can process persistent data (such as data from a database table or from a sequential file), you must read it into data objects first. Conversely, if you want to retain the contents of a data object beyond the end of the program, you must save it in a persistent form.
  Declaring Data Objects
        Apart from the interface parameters of procedures, you declare all of the data objects in an ABAP program or procedure in its declaration part. These declarative statements establish the data type of the object, along with any missing technical attributes. This takes place before the program is actually executed. The technical attributes can then be queried while the program is running.
       The interface parameters of procedures are generated as local data objects, but only when the procedure is actually called. You can define the technical attributes of the interface parameters in the procedure itself. If you do not, they adopt the attributes of the parameters from which they receive their values.
  ABAP contains the following kinds of data objects:
  a.  Literals
  Literals are not created by declarative statements. Instead, they exist in the program source code. Like all data objects, they have fixed technical attributes (field length, number of decimal places, data type), but no name. They are therefore referred to as unnamed data objects.
  b.  Named Data Objects
  Data objects that have a name that you can use to address the ABAP program are known as named objects. These can be objects of various types, including text symbols, variables and constants.
  Text symbols are pointers to texts in the text pool of the ABAP program. When the program starts, the corresponding data objects are generated from the texts stored in the text pool. They can be addressed using the name of the text symbol.
  Variables are data objects whose contents can be changed using ABAP statements. You declare variables using the DATA, CLASS-DATA, STATICS, PARAMETERS, SELECT-OPTIONS, and RANGESstatements.
  Constants are data objects whose contents cannot be changed. You declare constants using the CONSTANTSstatement.
  c.  Anonymous Data  Objects
  Data objects that cannot be addressed using a name are known as anonymous data objects. They are created using the CREATE DATAstatement and can be addressed using reference variables.
  d.  System-Defined Data Objects
  System-defined data objects do not have to be declared explicitly - they are always available at runtime.
  e.  Interface Work Areas
  Interface work areas are special variables that serve as interfaces between programs, screens, and logical databases. You declare interface work areas using the TABLES and NODESstatements.
  What is the difference between Type and Like?
  Answer1:
  TYPE, you assign datatype directly to the data object while declaring.
  LIKE,you assign the datatype of another object to the declaring data object. The datatype is referenced indirectly.
  Answer2:
  Type is a keyword used to refer to a data type whereas Like is a keyword used to copy the existing properties of already existing data object.
  Answer3:
  type refers the existing data type
  like refers the existing data object
  reward if useful
  thanks and regards
  suma sailaja pvn

• Data types and Data object

  Can Any one give me Clear definition of Data type and Data objects.
  Concept i know clearly.. but unable to explain it..
  Regards,
  Prasanna

  Data consists of strings of bytes in the memory area of the program. A string of related bytes is called a field. Each field has an identity (a name) and a data type. All programming languages have a concept that describes how the contents of a field are interpreted according to the data type.
           In the ABAP type concept, fields are called data objects. Each data object is an instance of an abstract data type. Data types in ABAP are not just attributes of fields, but can be defined in their own right. There are separate name spaces for data objects and data types. This means that a name can at the same time be the name of a data   object as well as the name of a data type.
  <b>Data Types:</b>
                   As well as occurring as attributes of a data object, data types can also be defined independently. The definition of a user-defined data type is based on a set of predefined elementary data types. You can define data types either locally in the declaration part of a program (using the TYPES statement) or globally in the ABAP Dictionary. You can use your own data types to declare data objects or to check the types of parameters in generic operations.
           Data types can be divided into elementary, reference, and complex types
  <b>Data objects:</b>
                    Data objects are the physical units with which ABAP statements work at runtime. Each ABAP data object has a set of technical attributes, which are fully defined at all times when an ABAP program is running. The technical attributes of a data object are its length, number of decimal places, and data type. ABAP statements work with the contents of data objects and interpret them according to their data type. You declare data objects either statically in the declaration part of an ABAP program (the most important statement for this is DATA), or dynamically at runtime (for example, when you call procedures). As well as fields in the memory area of the program, the program also treats literals like data objects.
  ABAP contains the following kinds of data objects
    Literals
     Named Data Objects
    Predefined Data Objects
    Dynamic Data Objects

• Data type and Data object

  Hi Friends,
          What is the difference between Data type and Data object?
  Best Regards,
  VRV Singh

  hi
  good
  Each ABAP program define its own data types using the statement.
  TYPES dtype TYPE type ...
  and declare its own variables or instance attributes of classes using the statement
  DATA var {TYPE type} ...
  Within the program or a class, you can also define local data types and variables within procedures. Local variables in procedures obscure identically-named variables in the main program or class.
  When creating data types and data objects, there are a number of naming convention that also apply for other local program definitions, such as procedures. These are described in detail in the keyword documentation.
  The Additions TYPE and LIKE
  The additions TYPE type and LIKE dobj are used in various ABAP statements. The additions can have various meanings, depending on the syntax and context.
  ·        Definition of local types in a program
  ·        Declaration of data objects
  ·        Dynamic creation of data objects
  ·        Specification of the type of formal parameters in subroutines
  ·        Specification of the type of formal parameters in methods
  ·        Specification of the type of field symbols
  Constructing New Data Types
  The TYPE addition allows you to construct new data types in the TYPES, DATA; CONSTANTS; and STATICSstatements. In the TYPES statement, these are local data types in the program. In the other statements, they are attributes of new data objects, meaning that the newly defined data types are not free-standing. Rather, they are linked to database objects.This means that you can refer to them using the LIKEaddition, but not using TYPE.
  To construct new data types, the addition TYPE can be used with the following type constructors:
  ·        Construction of reference types
  REF TO type|dobj
  ·        Construction of structured data types
  BEGIN OF struc_type.
  END OF struc_type.
  ·        Construction of table types
  tabkind OF linetype
  These data types only exist during the runtime of the ABAP program.
  Referring to Known Data Types or Data Objects
  Using the additions TYPE or LIKE in the TYPESstatement, local data types in a program can be referred to known data types or data objects. This is mainly the case with user-defined elementary data types. If you declare variables using the additions TYPE type or LIKE dobj with statement DATA, the data type of var is already fully defined before the declaration is made.
  The known types or data that are referred to must be visible at the point where the data type or variable is declared.
  A known data type can be any of the following:
  ·        A predefined ABAP type to which you refer using the TYPE addition
  ·        An existing local data type in the program to which you refer using the TYPE addition
  ·        The data type of a local data object in the program to which you refer using the LIKE addition
  ·        A data type in the ABAP Dictionary to which you refer using the TYPE addition. To ensure compatibility with earlier releases, it is still possible to use the LIKE addition to refer to database tables and flat structures in the ABAP Dictionary. However, you should use the TYPE addition in new programs.
  The LIKE addition takes its technical attributes from a visible data object. As a rule, you can use LIKE to refer to any object that has been declared using DATA or a similar statement, and is visible in the current context.  The data object only has to have been declared. It is irrelevant whether the data object already exists in memory when you make the LIKE reference.
  ·        In principle, the local data objects in the same program are visible. As with local data types, there is a difference between local data objects in procedures and global data objects. Data objects defined in a procedure obscure other objects with the same name that are declared in the global declarations of the program.
  ·        You can also refer to the data objects of other visible ABAP programs. These might be, for example, the visible attributes of global classes in class pools. If a global class cl_lobal has a public instance attribute or static attribute attr, you can refer to it as follows in any ABAP program:
  DATA dref TYPE REF TO cl_global.
  DATA:  f1 LIKE cl_global=>attr,
         f2 LIKE dref->attr.
  You can access the technical properties of an instance attribute using the class name and a reference variable without first having to create an object. The properties of the attributes of a class are not instance-specific and belong to the static properties of the class.
  http://help.sap.com/saphelp_nw2004s/helpdata/en/fc/eb2ff3358411d1829f0000e829fbfe/content.htm
  thanks
  mrutyun^

• Data types and data objects

  diff b/w data types and data objects

  hi prasanth,
  Data Types and Data Objects
  Programs work with local program data – that is, with byte sequences in the working memory. Byte sequences that belong together are called fields and are characterized by a length, an identity (name), and – as a further attribute – by a data type. All programming languages have a concept that describes how the contents of a field are interpreted according to the data type.
  In the ABAP type concept, fields are called data objects. Each data object is thus an instance of an abstract data type. There are separate name spaces for data objects and data types. This means that a name can be the name of a data object as well as the name of a data type simultaneously.
  Data Types
  Data types are templates for creating data objects. Data types can be defined independently in the ABAP program or in the ABAP Dictionary. As attributes of a data object, data types can also exist in a non-independent state. Data types do not use any memory space for work data, but may require memory for administration information.
  As well as occurring as attributes of a data object, data types can also be defined independently. You can then use them later on in conjunction with a data object. The definition of a user-defined data type is based on a set of predefined elementary data types. You can define data types either locally in the declaration part of a program using the TYPESstatement) or globally in the ABAP Dictionary. You can use your own data types to declare data objects or to check the types of parameters in generic operations.
  All programming languages distinguish between various types of data with various uses, such as ….. type data for storing or displaying values and numerical data for calculations. The attributes in question are described using data types. You can define, for example, how data is stored in the repository, and how the ABAP statements work with the data.
  Data types can be divided into elementary, reference, and complex types.
  a. Elementary Types
  These are data types of fixed or variable length that are not made up of other types.
  The difference between variable length data types and fixed length data types is that the length and the memory space required by data objects of variable length data types can change dynamically during runtime, and that these data types cannot be defined irreversibly while the data object is being declared.
  Predefined and User-Defined Elementary Data Types
  You can also define your own elementary data types in ABAP using the TYPES statement. You base these on the predefined data types. This determines all of the technical attributes of the new data type. For example, you could define a data type P_2 with two decimal places, based on the predefined data type P. You could then use this new type in your data declarations.
  b. Reference Types
  Reference types are deep data types that describe reference variables, that is, data objects that contain references. A reference variable can be defined as a component of a complex data object such as a structure or internal table as well as a single field.
  c. Complex Data Types
  Complex data types are made up of other data types. A distinction is made here between structured types and table types.
  Data Objects
  A data object is an instance of a data type and occupies as much memory space as its type specifies. An ABAP program only works with data that is available as content of data objects. Data objects are either created implicitly as named data objects, or exanonymous data objects using CREATEDATA.
  Data objects are the physical units with which ABAP statements work at runtime. The contents of a data object occupy memory space in the program. ABAP statements access these contents by addressing the name of the data object and interpret them according to the data type.. For example, statements can write the contents of data objects in lists or in the database, they can pass them to and receive them from routines, they can change them by assigning new values, and they can compare them in logical expressions.
  Each ABAP data object has a set of technical attributes, which are fully defined at all times when an ABAP program is running (field length, number of decimal places, and data type). You declare data objects either statically in the declaration part of an ABAP program (the most important statement for this is DATA), or dynamically at runtime (for example, when you call procedures). As well as fields in the memory area of the program, the program also treats literals like data objects.
  A data object is a part of the repository whose content can be addressed and interpreted by the program. All data objects must be declared in the ABAP program and are not persistent, meaning that they only exist while the program is being executed. Before you can process persistent data (such as data from a database table or from a sequential file), you must read it into data objects first. Conversely, if you want to retain the contents of a data object beyond the end of the program, you must save it in a persistent form.
  Declaring Data Objects
  Apart from the interface parameters of procedures, you declare all of the data objects in an ABAP program or procedure in its declaration part. These declarative statements establish the data type of the object, along with any missing technical attributes. This takes place before the program is actually executed. The technical attributes can then be queried while the program is running.
  The interface parameters of procedures are generated as local data objects, but only when the procedure is actually called. You can define the technical attributes of the interface parameters in the procedure itself. If you do not, they adopt the attributes of the parameters from which they receive their values.
  ABAP contains the following kinds of data objects:
  a. Literals
  Literals are not created by declarative statements. Instead, they exist in the program source code. Like all data objects, they have fixed technical attributes (field length, number of decimal places, data type), but no name. They are therefore referred to as unnamed data objects.
  b. Named Data Objects
  Data objects that have a name that you can use to address the ABAP program are known as named objects. These can be objects of various types, including text symbols, variables and constants.
  Text symbols are pointers to texts in the text pool of the ABAP program. When the program starts, the corresponding data objects are generated from the texts stored in the text pool. They can be addressed using the name of the text symbol.
  Variables are data objects whose contents can be changed using ABAP statements. You declare variables using the DATA, CLASS-DATA, STATICS, PARAMETERS, SELECT-OPTIONS, and RANGESstatements.
  Constants are data objects whose contents cannot be changed. You declare constants using the CONSTANTSstatement.
  c. Anonymous Data Objects
  Data objects that cannot be addressed using a name are known as anonymous data objects. They are created using the CREATE DATAstatement and can be addressed using reference variables.
  d. System-Defined Data Objects
  System-defined data objects do not have to be declared explicitly - they are always available at runtime.
  e. Interface Work Areas
  Interface work areas are special variables that serve as interfaces between programs, screens, and logical databases. You declare interface work areas using the TABLES and NODESstatements.
  regards,
  sravanthi

• How to use same Data Type and Length for two fields

  How to use same data type and length for two fields when using 'FOR ALL ENTRIES IN' in a select statement? For instance the select queries are :
  SELECT bukrs gjahr belnr lifnr budat bldat zlspr dmbtr waers shkzg
  FROM bsik
  INTO TABLE it_bsik
  WHERE bukrs = p_bukrs
  AND lifnr IN s_lifnr.
  IF it_bsik IS NOT INITIAL.
  SELECT belnr gjahr awkey awtyp
  FROM bkpf
  INTO TABLE it_bkpf
  FOR ALL ENTRIES IN it_bsik
  WHERE belnr = it_bsik-belnr
  AND gjahr = it_bsik-gjahr.
  IF it_bkpf IS NOT INITIAL.
  SELECT belnr gjahr lifnr xblnr
  FROM rbkp
  INTO TABLE it_rbkp
  FOR ALL ENTRIES IN it_bkpf
  WHERE belnr = it_bkpf-awkey+0(10)
  AND gjahr = it_bkpf-awkey+10(4).
  ENDIF.
  ENDIF.
  Here it gives an error in the 3rd select query that 'When you use the addition "FOR ALL ENTRIES IN itab", the fields "GJAHR" and "IT_BKPF2-AWKEY+10(4)" must have the same type and the same length.'
  Kindly clarify.

  Hi Saurabh,
  Please see the example code that I have developed for you. It will help you solve the problem.
  REPORT ZTEST_3 .
  tables : BKPF.
  data : begin of it_bkpf occurs 1,
           belnr type RE_BELNR,
           awkey type awkey,
           awtyp type awtyp,
           gjahr type GJAHR,
         end of it_bkpf.
  data : begin of it_bkpf1 occurs 1,
           belnr type RE_BELNR,
           awkey type gjahr,              " change the data type
           awtyp type awtyp,
           gjahr type GJAHR,
         end of it_bkpf1.
  data : begin of it_rbkp occurs 1,
           belnr type BELNR_D,
           gjahr type gjahr,
           lifnr type LIFRE,
           xblnr type XBLNR,
         end of it_rbkp.
  select belnr
         awkey
         awtyp
         gjahr
         from bkpf
         into table it_bkpf
         where BUKRS = 'TELH'.
  loop at it_bkpf.
  it_bkpf1-belnr = it_bkpf-belnr.
  it_bkpf1-awkey = it_bkpf-awkey+10(4).           "Here only append the required length.
  it_bkpf1-awtyp = it_bkpf-awtyp.
  it_bkpf1-gjahr = it_bkpf-gjahr.
  append it_bkpf1.
  clear it_bkpf1.
  endloop.
  select  belnr
          gjahr
          lifnr
          xblnr
          from RBKP
          into table it_rbkp
          for all entries in it_bkpf1
          where belnr = it_bkpf1-belnr
  This is just an example. Change the fields according to your requirement.
  Regards
  Abhii
  Edited by: Abhii on Mar 9, 2011 9:08 AM

• Difference between fully-specified data types. and generic types

  Hi,
  Can anyone tell me the difference between fully-specified data types and generic types.
  Thanks in advance.
  Regards,
  P.S.

  HI
  Generic table types
  INDEX TABLE
  For creating a generic table type with index access.
  ANY TABLE
  For creating a fully-generic table type.
  Data types defined using generic types can currently only be used for field symbols and for interface parameters in procedures . The generic type INDEX TABLEincludes standard tables and sorted tables. These are the two table types for which index access is allowed. You cannot pass hashed tables to field symbols or interface parameters defined in this way. The generic type ANY TABLE can represent any table. You can pass tables of all three types to field symbols and interface parameters defined in this way. However, these field symbols and parameters will then only allow operations that are possible for all tables, that is, index operations are not allowed.
  Fully-Specified Table Types
  STANDARD TABLE or TABLE
  For creating standard tables.
  SORTED TABLE
  For creating sorted tables.
  HASHED TABLE
  For creating hashed tables.
  Fully-specified table types determine how the system will access the entries in the table in key operations. It uses a linear search for standard tables, a binary search for sorted tables, and a search using a hash algorithm for hashed tables.
  Fully-specified table types determine how the system will access the entries in the table in key operations. It uses a linear search for standard tables, a binary search for sorted tables, and a search using a hash algorithm for hashed tables.
  see this link
  http://help.sap.com/saphelp_nw04/helpdata/en/fc/eb366d358411d1829f0000e829fbfe/content.htm
  <b>Reward if usefull</b>

• Differences between DATA TYPE and DATA OBJECTS

  I am new to ABAP,I want to know the differences between DATA TYPE and DATA OBJECTS with some examples.
  please help me regarding this.

  Hi Ashish,
  Data Types:       Are pure descriptions.
                 No memory is associated with data types.
                 Describes the technical properties of data objects.
  EX.
  1.     C-CHARACTER
  2.     D-DATE
  3.     F-FLOAT
  4.     I-INTEGER
  5.     N-NUMERIC TEXT
  6.     T-TIME
  7.     P-PACKED NUMBER
  8.     X-HEXADECIMAL
  9.     STRING-Variable length string.
  10.     XSTRING-Variable length byte string.
  Data Objects: Are created during runtime.
                  They cannot exist without the data Types.
                  Occupies memory space.
  EX:
  1.     INTERNAL DATA OBJECT- Internal Data objects
       LITEERAL- A literal has a fixed value.Ex: WRITE:u201DWORK HARDu201D.
       VARIABLES: Data statement is used to create variables.
  EX.DATA: NUM TYPE I.
  NUM: VARIABLE defined by data statement.
  EX: DATA: PRICE LIKE NUM.
       CONSTANT-It is a data object, which contains a constant value throughout the program.
  Can be declared in program by using CONSTANT statement.
  EX:CONSTANT: INT TYPE I VALUE 15.
  2.     EXTERNAL DATA OBJECT: Are defined in tables i.e In ABAP/4 dictionary you can access this data from table.
           EX: TABLES: SFLIGHT
            DATA: SEATS LIKE SFLIGHT-SEATSMAX.
  3.     SYSTEM DEFINED DATA OBJECTS:Space & system variables like SY-UNAME,SY-DATUM, SY-REPID.
  4.     SPECIAL DATA  OBJECTS:
       PARAMETERS: Are Variables ,which can accept value from user.
        SELECTION SCREEN : Are special internal tables to accept value ranges from user.
  3 APPROACHES TO DEFINE DATA OBJECTS.
  1.     ELEMENTARY TYPES
  DATA: Customer _Name (25) TYPE C,
                 Vendor_Name (25) TYPE C.
  2.     REFRENCE TO AN EXISTING FIELD:
  DATA: Customer _Name2 (25) TYPE C,
                Vendor_Name2 (25) LIKE Customer_Name2
  3.     REFRENCE TO NON-ELEMENTARY TYPE:
  TYPES: T_NAME (25) TYPE C
  DATA: CUSTOMER_NAME TYPE T_NAME
                 VENDOR_NAME  TYPE T_NAME
  4.     RECORD-Information in rows & columns.
  DATA: BEGIN OF BOOKING,
                                  ID (4) TYPE C,
                                  FLIGHT_DATE TYPE D,
                                  NAME LIKE CUSTOMER_NAME,
                                  END OF BOOKING.
  You can also look into SAP help for more information.
  Regards,
  Indu.

• BDoc: Related Data Type and Message Structure

  Related Data Type and Message Structure are two attributes of a BDoc. Can anyone tell what they are used for?
  Thanks in advance.
  Regards,
  Hui
  BTW: Mush reward for good answers.

  A message type comprises a data type that describes the structure of a message. At the following points in SAP Exchange Infrastructure you can refer to the message to be exchanged at runtime by using the message type:
  · More than one message interface can use the same message type. For example, an asynchronous outbound message interface and an asynchronous inbound message interface can reference the same message type because the request message does not need to be mapped.
  · When defining a message mapping you can directly reference message types to map messages from an outbound interface to messages from a receiver interface.
  For technical reasons, a data type is not sufficient to describe the instance of a message. In XML schema, data types are defined as abstract types that are not yet fixed to an element. You can only describe an instance of a message when you have specified a data type as an element type. Therefore, a message type defines the root element of a message.
  A message type does not define the direction of the message exchange, in other words, whether it is a request or a response. In exceptional cases you can use the same message type for both the request and the response message.

• Resources for designing data types and message types

  Hi
  I wanted to know if anyone can recommend me some good resources which can explain the design considerations for designing data types and message types in XI which can help promote reusability.
  Thanks.
  Best Regards,
  Kiran

  hi,
  there no rare rule whe you define your data type, why i tell you this, because you define a data type since the documentation that sender sistem team gives to you. so you only have to copy this structure to PI.
  now about Message Type less problems, because, you a Data type is assign to a Message Type, whats it means.
  when you define a DATA type you are defining the structure of you XML, que you assing the data type to a message type this structure pass to be an xml document.
  Thanks you
  Rodrigo

• Query regarding the data type for fetcing records from multiple ODS tables

  hey guys;
  i have a query regarding the data type for fetcing records from multiple ODS tables.
  if i have 2 table with a same column name then in the datatype under parent row node i cant add 2 nodes with the same name.
  can any one help with some suggestion.

  Hi Mudit,
  One option would be to go as mentioned by Padamja , prefxing the table name to the column name or another would be to use the AS keyoword in your SQL statement.
  AS is used to rename the column name when data is being selected from your DB.
  So, the query  Select ename as empname from emptable will return the data with column name as empname.
  Regards,
  Bhavesh

• XI settings, change of Data Types and XI still maps old structures

  Hi,
  I have defined XI scenario, where synchronous WebService is being called, and XI calls RFC function module, which returns data. It was working perfectly, until
  I have changed the order of few fields in Data Type and added a few new (exactly as the changes in RFC function module).
  And now the WebService returns exception, on the first field added to the interface:
  <Trace level="1" type="T">com.sap.aii.utilxi.misc.api.BaseRuntimeException: RuntimeException in Message-Mapping transformation: Cannot produce target element /ns1:MT_BMS_Response/CUSTOMERS_PERSON/TITLE. Check xml instance is valid for source xsd and target-field mapping fulfills requirements of target xsd at
  TITLE is added field.
  I have reactivated everything one by one again, clear cache from Integration Builder and Integration Directory, but it does not help and still old structures are being used in XI.
  I have tested the Interface Mapping and all fields are transformed correctly.
  Please help as it comes a little urgent and I have run out of ideas what to do to refresh the customizing of data types?
  Thank you in advance!

  Hi Peter,
  Yes, I am calling RFC function module from XI.
  After I changed the interface of RFC in SAP, I have imported this RFC once more to XI in Integration Builder and new structures appeared.
  And exception returned is that first new field added to the RFC and Data Type and so on, returns an exception.
  And returned XML structures (in message monitoring) appears to be still old structures.

• Mapping between oracle data types and ms sql server data types

  hello
  i need mapping between oracle data types and ms sql server data types
  where can i find them ?

  read this
  http://download.oracle.com/docs/cd/E10405_01/doc/appdev.120/e10379/ss_oracle_compared.htm

• [svn] 1455: add sql date types and custom serialization tests

  Revision: 1455
  Author: [email protected]
  Date: 2008-04-29 11:56:59 -0700 (Tue, 29 Apr 2008)
  Log Message:
  add sql date types and custom serialization tests
  Modified Paths:
  blazeds/trunk/qa/apps/qa-regress/testsuites/mxunit/tests/remotingService/dataTypes/DateTy pesTest.mxml
  Added Paths:
  blazeds/trunk/qa/apps/qa-regress/testsuites/mxunit/tests/remotingService/dataTypes/MyFile Ref.as
  blazeds/trunk/qa/apps/qa-regress/testsuites/mxunit/tests/remotingService/dataTypes/Proper tyProxyTest.mxml
  blazeds/trunk/qa/apps/qa-regress/testsuites/mxunit/tests/remotingService/dataTypes/SQLDat eTypesTest.mxml

  Congrats to Shanky and Durval!
   SQL Server General and Database Engine Technical Guru - June 2014  
  Shanky
  SQL Server: What does Column Compressed Page Count Value Signify
  in DMV Sys.dm_db_index_physical_stats ?
  DB: "Interesting and detailed"
  DRC: "• This is a good article and provides details of each and every step and the output with explanation. Very well formed and great information. • We can modify the create table query with “DEFAULT VALUES". CREATE TABLE [dbo].[INDEXCOMPRESSION](
  [C1] [int] IDENTITY(1,1) NOT NULL, [C2] [char](50) NULL DEFAULT 'DEFAULT TEST DATA' ) ON [PRIMARY]"
  GO: "Very informative and well formed article as Said says.. Thanks for that great ressource. "
  Durval Ramos
  How to get row counts for all Tables
  GO: "As usual Durva has one of the best articles about SQL Server General and Database Engine articles! Thanks, buddy!" "
  Jinchun Chen: "Another great tip!"
  PT: "Nice tip" 
  Ed Price: "Good topic, formatting, and use of images. This would be far better if the examples didn't require the black bars in the images. So it would be better to scrub the data before taking the screenshots. Still a good article. Thank you!"
  Ed Price, Azure & Power BI Customer Program Manager (Blog,
  Small Basic,
  Wiki Ninjas,
  Wiki)
  Answer an interesting question?
  Create a wiki article about it!

• I like to know the table name where all the Interface name ( Data Type and

  Dear Friends,
  I like to know the table name where all the Interface name ( Data Type and Message Type in IR ) is stored.
  Thanks.

  Hi,
  Please find the repository API’s in the SE24 class builder that can be used for accessing repository objects from the ABAP stack of SAP XI. Check CL_SRAPI* in the SE24 transactions for digging further.
  location of interface objects
  CL_SRAPI_DATA_TYPE---data type
  CL_SRAPI_DATA_TYPE_ENH---data type enhancement
  CL_SRAPI_FAULT_MESSAEG_TYPE--fault message type
  CL_SRAPI_MESSAGE_TYPE--message type
  CL_SRAPI_INTEGRATION_SCENARIO--integration scenario
  have a look at the table SXMSPMAST, SXMSCLUP & SXMSCLUR
  https://www.sdn.sap.com/irj/servlet/prt/portal/prtroot/docs/library/uuid/4fbe7b8e-0a01-0010-b69b-b7e717378f22#search=%22SXMSPMAST%20%2B%20XI%22
  That document has references to lot of tables maybe it can be of use to u.
  Look at the below thread for SXMB_MONI tables and Function module:
  In Which Database Table the Messages are Stored in XI
  Message Monitoring  --> corresponding tables?
  Edited by: Dharamveer Gaur on Oct 8, 2008 10:40 AM