Generating Single Interface Objects with Parameter Specification

The function Interface Object Generation provides the option to generate single interface objects online on a separate screen. You either type in the parameter definitions required or read them in from an existing subprogram.

This section covers the following topics:


Using the Interface Object Generation Function

Interface objects are generated into the current Natural library in the current system file. Therefore, we strongly recommend that you log on to the application library (or one of its steplibs) used by the client at execution time of the remote CALLNAT.

Important:
The function Interface Object Generation overwrites any data contained in the source work area. When you invoke the function, a corresponding message will warn you not to delete any existing data unintentionally: choose PF12 to cancel or choose ENTER to confirm the action and overwrite the contents of the source work area.

Start of instruction set To generate a single interface object

  1. Before you invoke the SYSRPC utility, log on to the library into which you want to generate the interface object.

  2. In the Code field of the Client Maintenance menu, enter the following command:

    IG
  3. Choose ENTER.

    The Interface Object Generation screen appears.

  4. In the Program Name field, enter the name of the interface object to be generated.

    The name of the interface object must be identical to the name of the remote CALLNAT program. The Library field is preset to the current library and cannot be changed.

    DBID, FNR are non-modifiable fields that display the database ID (DBID), the file number (FNR) and the type of Natural file (FNAT = system, FUSER = user) for the current library.

    In the Compression field, enter compression type 0, 1 or 2 (default is 1); see Using Compression described in Operating a Natural RPC Environment in the Natural RPC (Remote Procedure Call) documentation.

  5. Choose ENTER.

    • If the name entered in the Program Name field corresponds to the name of an object that already exists in the assigned library, a window appears with an appropriate message:

      Enter an N (No) and choose ENTER if you if you want to cancel the operation. You will return to the Client Maintenance menu.

      Or:
      Enter a Y (Yes) and choose ENTER if you want to continue with generating interface objects.

      If the specified name is identical to a cataloged object of the type subprogram, the parameter definitions of the respective subprogram are displayed on the Interface Object Generation screen.

      If the specified name is identical to an interface object for which also a source object exists, all field attributes (see also Specifying Parameters) are retained. Otherwise, all field attributes are set to M (modifiable).

    • If the name entered in the Program Name field, does not correspond to the name of an object that already exists in the assigned library, an empty Interface Object Generation screen is displayed.

  6. On the Interface Object Generation screen, add or modify the parameters to be used in the interface object as described in Specifying Parameters.

    The commands provided on the Interface Object Generation screen are described in Commands for Interface Object Generation below.

  7. Choose ENTER to generate the interface object and to exit. The interface object is generated in the assigned library.

    The SYSRPC - Information window appears which indicates the size the interface object requires for sending data from the client to the server or vice versa. The size includes internal RPC information used for the interface object. The indication of the size helps you configure the middleware layer used; for example, the Broker attribute file when EntireX Broker is used.

    The following message appears in the SYSRPC - Information window when you generate an interface object from the example subprogram TESTS5 (see Example 1 below):

    Interface Object TESTS5 is generated in library SAGTEST (99,49).
       It requires:
            Send length: 2249 bytes
         Receive length: 2221 bytes
    

    If dynamic parameters, X-arrays or X-group arrays are used, this message only indicates the minimum length requirements. The actual length requirements can only be determined during program execution and may be different from call to call. If the Send length or the Receive length exceeds the Entire Net-Work limit of 32000 bytes, a window appears with a corresponding warning:

    Enter a Y (Yes) to continue, or an N (No) to cancel the generation.

    If you enter a Y, this setting is kept for the entire SYSRPC session, that is, you can continue generating interface objects without receiving further warnings.

    If the total data (without internal RPC information) sent or received exceeds the limit of 1073739357 bytes (which is 1 GB minus 2467 bytes of internal RPC information), SYSRPC stops processing and issues a corresponding error message. This error message displays the subtotal of the data in bytes that could be transferred at the field up to which the subtotal was calculated. The corresponding field is then marked. In this case, reduce the amount of data before you continue generating the interface object.

    If the interface object was generated in the Natural system library SYSRPC, you it object to the application library or steplib using the Natural transfer utility SYSMAIN or the Object Handler. Note that you may have to recatalog the source of the interface object in the target environment.

Specifying Parameters

In the input fields provided on the Interface Object Generation screen, you can enter the parameter definitions that are used in the interface object. You can specify a maximum of 5000 parameters. Unless indicated in the table below, input in the fields is mandatory.

Field Description
Level

The level of the field.

A level can be a number in the range from 01 (highest level) to 99 (lowest level). The leading 0 is optional.

See also Defining Groups and Example 2 for an example of a group definition.

Attr

The attribute of the parameter:

M (modifiable - INOUT), O (output - OUT) or I (input - IN).

Parameters assigned a level number of 2 or greater are considered to be a part of a group. Parameters within a group must have the same attribute as the immediately preceding group that is assigned one level higher. For nested groups, this is the attribute of the group with the highest level. For an example of a group definition, see Example 2.

If an interface object has been generated from a subprogram, the attribute is M by default, which may need modification.

If an interface object has been generated from another interface object, the attribute values specified for the original object are retained.

The generated interface object contains a comment that indicates the attribute specified for the parameter: IN, OUT or INOUT.

Type

A Natural data format such as N (numeric) and G (group), or K (Kanji). Natural data formats C (attribute control) and Handle are not allowed.

For a description of Natural data formats, see Format and Length of User-Defined Variables and Special Formats in the section User-Defined Variables in the Programming Guide.

Length

The length of the parameter or DYNAMIC.

This field does not apply to the following Natural data formats: D (date), G (group), L (logical) and T (time).

The Natural data format A is restricted to 1073739357 bytes, the Natural data format B is restricted to 536869678 bytes.

DYNAMIC indicates a dynamic parameter and applies to the Natural data formats A and B.

Prec

Only applies to Natural data formats N (numeric) and P (packed). Optional.

The precision of the parameter, that is, the number of digits after the decimal point.

Dimension 1/2/3 Only applies to arrays. Optional.

The first, second and third dimension of the parameter.

An X-array or an X-group array is specified by entering an asterisk (*) for a dimension.

See also Defining X-Arrays and X-Group Arrays.

This section contains information on:

Defining Groups

You only need to define a group structure for a client Natural object that calls a non-Natural object located on an EntireX RPC server. The group structure must correspond to the IDL definition in EntireX (see Special Considerations for Calling EntireX RPC Servers). A group structure is not required for a client Natural object that calls a subprogram located on a Natural RPC server.

Group arrays and X-group arrays passed from a client Natural object to an interface object must be contiguous. Therefore, we strongly recommend that you always pass a complete array to the object by using asterisk (*) notation for all dimensions. We also strongly recommend that you use identical data definitions in the client Natural program, the interface object and the server program.

Warning:
Any group definitions in a subprogram will be ignored when an interface object is generated from this subprogram. In this case, you have to define the group again on the Interface Object Generation screen and adapt the dimension of the group elements accordingly. (Dimensions defined within a group are propagated to the parameter definitions at a lower level.) If you generate an interface object from another interface object that contains a group, the group definitions will be retained.

See also Example 2 for an example of a group definition.

Defining X-Arrays and X-Group Arrays

If any dimension of a parameter is extensible, all other dimensions of the parameter are also extensible. If you define extensible and fixed dimensions for a parameter in a subprogram, the Interface Object Generation function issues a warning and automatically changes the fixed dimension to an extensible dimension as demonstrated in Example 3. In a group structure, you can define either an extensible or a fixed dimension for each level. There is no automatic change of a fixed dimension to an extensible dimension between levels.

Natural RPC only supports extensible upper bounds. All X-arrays and X-group arrays in the generated DEFINE DATA PARAMETER area of the interface object are therefore defined as (1:*).

Warning:
If you generate an interface object from a subprogram that contains an X-array or X-group array with an extensible lower bound, the extensible lower bound will be converted to an extensible upper bound.

For an example of a group with an extensible dimension, see Example 3.

Special Considerations for Reliable RPC

If you want to use reliable RPC and your parameter definitions do not contain group structures, you have to set COMPAT IDL before generating the interface object.

Special Considerations for Calling EntireX RPC Servers

The attribute definitions on the Interface Object Generation screen reflect the perspective of the client. Conversely, the parameter direction in the IDL definition reflects the perspective of the server. This means:

  • OUT on the Interface Object Generation screen corresponds to IN in the IDL definition.

  • IN on the Interface Object Generation screen corresponds to OUT in the IDL definition.

If you want to call an EntireX RPC server and the parameter definitions on the Interface Object Generation screen contain group structures, group structure and attribute definitions on the Interface Object Generation screen must correspond to the group structure and parameter direction in the IDL definition.

If you want to call an EntireX RPC server and the corresponding IDL file does not contain group structures, it is recommended to set COMPAT IDL before generating the interface object. In this case, the attribute definitions on the Interface Object Generation screen must correspond to the parameter direction in the IDL definition.

Commands for Interface Object Generation

This section contains information on the commands provided on the Interface Object Generation screen:

Line Commands

The line commands provided on the Interface Object Generation screen can be used to copy, move, or delete single or multiple lines that contain field values.

Enter a line command at the beginning of a line, that is, overwrite the sequential number and choose ENTER.

See also To copy or move a block of lines and the direct command RESET.

Line Command Function
A Copies or moves the block of lines marked with CC or MM below the line in which the command was entered.
CC Marks the block of lines to be copied.
D Deletes the marked line.
DD Marks and deletes a block of lines.

Mark a block of lines by entering this command in the first and the last line of the block and choose ENTER to execute the command.

I Inserts five empty lines below the line in which the command was entered. The level is filled with the number of the input field above.
MM Marks the block of lines to be moved.
P Copies or moves the block of lines marked with CC or MM above the line in which the command was entered.

Start of instruction set To copy or move a block of lines

  1. At the beginning of the line where the block starts, overwrite the sequence number with either of the following line commands:

    CC

    to copy the block or

    MM

    to move the block.

  2. At the beginning of the line where the block ends, overwrite the sequence number with either of the following line commands:

    CC

    to copy the block or

    MM

    to move the block.

  3. Choose ENTER.

    The line commands disappear, the sequence numbers are displayed again and the block of lines has been marked.

  4. At the beginning of the line below or above which you want to place the marked block of lines, enter either of the following line commands:

    A

    to copy or move the block below the specified line or

    P

    to copy or move the block above the specified line.

    Note that you can only execute A or P on lines where at least one field is filled.

  5. Choose ENTER.

    The block of lines is copied or moved below or above the specified line.

Local Commands and PF Keys

The following direct commands can be entered in the Command line of the Interface Object Generation screen and/or are provided as PF keys:

Local Command PF Key   Function
COMPAT   IDL Generate an interface object according to IDL requirements.
NONE Generate an interface object according to Natural requirements.
void Show COMPAT setting.
LIMIT   32000 Sets the upper size limit to 32000 bytes.
1GB Sets the upper size limit to 1 GB.
void Removes a size limit set with LIMIT 32000 or LIMIT 1GB.
RESET  

Removes the line marks set with a line command as described in Line Commands.

Note that if lines have been marked incorrectly, an appropriate message occurs and you have to remove the erroneous line command before you enter RESET.

  PF1 Invokes the editor online help.
  PF3 Exit. Prompts you to save modifications and exit the Interface Object Generation screen.
-H PF5 Scrolls half a page backward/forward.
+H PF6
-P PF7 Scrolls one page backward/forward.
+P PF8
TOP PF9 Scrolls to the beginning of the list.
BOT PF10 Scrolls to the end of the list.
CANCEL PF12 Exits the Interface Object Generation screen without saving any modifications.

Examples of Interface Object Generation

This section provides examples of Natural subprograms and the interface objects generated from them.

The parameter definitions indicated below are extracted from example subprograms, which are supplied in the Natural system library SYSRPC.

Example 1

The following DEFINE DATA PARAMETER area (example subprogram TESTS5) shows four modifiable parameters and the corresponding parameter definitions on the Interface Object Generation screen:

DEFINE DATA
PARAMETER
  01 #IDENTIFIER  (A10)
  01 #N-OF-ID     (I4)
  01 #FREQ        (P5.2)
  01 #A100        (A100/5,4)
Interface Object Generation
  Level Attr Type Length Prec Dimension 1 Dimension 2 Dimension 3
1 01 M A 10        
2 01 M I 4        
3 01 M P 5 2      
4 01 M A 100   5 4  

Example 2

The following DEFINE DATA PARAMETER area (example subprogram TESTS6) shows a nested group structure and the corresponding parameter definitions on the Interface Object Generation screen:

DEFINE DATA
PARAMETER
 01 GROUP-1(10)
   02 A (A20)
   02 B (A20)
   02 GROUP-2(20)
     03 C (A10/5)
     03 D (A10)
 01 LINE (A) DYNAMIC
Interface Object Generation
  Level Attr Type Length Prec Dimension 1 Dimension 2 Dimension 3
1 01 M G     10    
2 02 M A 20        
3 02 M A 20        
4 02 M G     20    
5 03 M A 10   5    
6 03 M A 10        
7 01 M A DYNAMIC        

Example 3

The following DEFINE DATA PARAMETER area (example subprogram TESTS7) shows a nested group structure with extensible dimensions and the corresponding parameter definitions on the Interface Object Generation screen.

DEFINE DATA
PARAMETER
 01 GROUP-1(10)
   02 A (A20)
   02 B (A20)
   02 GROUP-2(0:*)
     03 C (A10/5)
     03 D (A10)
 01 LINE (A) DYNAMIC
Interface Object Generation
  Level Attr Type Length Prec Dimension 1 Dimension 2 Dimension 3
1 01 M G     10    
2 02 M A 20        
3 02 M A 20        
4 02 M G     *    
5 03 M A 10   5    
6 03 M A 10        
7 01 M A DYNAMIC