READ

READ
BROWSE

ALL
(operand1)

[MULTI-FETCH-clause] [RECORDS] [IN] [FILE] view-name  
  [PASSWORD=operand2]
  [CIPHER=operand3]
  [WITH REPOSITION]
  [sequence/range-specification]
  [STARTING WITH ISN=operand4]
  [[IN] SHARED HOLD [MODE=option]]
  [SKIP [RECORDS] IN HOLD]
  [WHERE logical-condition]
   statement
END-READ (structured mode only)
LOOP (reporting mode only)

This document covers the following topics:

For an explanation of the symbols used in the syntax diagram, see Syntax Symbols.

Related Statements: ACCEPT/REJECT | AT BREAK | AT START OF DATA | AT END OF DATA | BACKOUT TRANSACTION | BEFORE BREAK PROCESSING | GET TRANSACTION DATA | DELETE | END TRANSACTION | FIND | HISTOGRAM | GET | GET SAME | LIMIT | PASSW | PERFORM BREAK PROCESSING | READLOB | RETRY | STORE | UPDATE | UPDATELOB

Belongs to Function Group: Database Access and Update


Function

The READ statement is used to read records from a database. The records can be retrieved in physical sequence, in Adabas ISN sequence, or in the value sequence of a descriptor (key) field. The READ statement causes a processing loop to be initiated.

See also the following sections in the Programming Guide:

Syntax Description

Operand Definition Table:

Operand Possible Structure Possible Formats Referencing Permitted Dynamic Definition
operand1 C S           N P I   B *             yes no
operand2 C S       A                         yes no
operand3 C S           N                     yes no
operand4 C S           N P I   B *             yes no

* Format B of operand1 and operand4 may be used with a length of less than or equal to 4.

Syntax Element Description:

Syntax Element Description
operand1
Number of Records to be Read:

The number of records to be read may be limited by specifying operand1 (enclosed in parentheses, immediately after the keyword READ) - either as a numeric constant (in the range from 0 to 4294967295) or as the name of a numeric variable.

Example:

READ (5) IN EMPLOYEES ...
  
MOVE 10 TO CNT(N2)
READ (CNT) EMPLOYEES  ...

For this statement, the specified limit has priority over a limit set with a LIMIT statement.

If a smaller limit is set with the profile or session parameter LT, the LT limit applies.

Notes:

  1. If you wish to read a 4-digit number of records, specify it with a leading zero: (0nnnn); because Natural interprets every 4-digit number enclosed in parentheses as a line-number reference to a statement.
  2. operand1 is evaluated when the READ loop is entered. If the value of operand1 is modified within the READ loop, this does not affect the number of records read.
ALL
ALL Option:

To emphasize that all records are to be read, you can optionally specify the keyword ALL.

The ALL option is used by default if operand1 and ALL are omitted.

MULTI-FETCH-clause
MULTI-FETCH Clause:

See MULTI-FETCH Clause below.

view-name
View Name:

As view-name, you specify the name of a view, which must have been defined either within a DEFINE DATA statement or outside the program in a global or local data area.

In reporting mode, view-name is the name of a DDM if no DEFINE DATA LOCAL statement is used.

PASSWORD=operand2

CIPHER=operand3

PASSWORD and CIPHER Clauses:

These clauses are applicable only to Adabas or VSAM databases. They cannot be used with Entire System Server.

The PASSWORD clause is used to provide a password when retrieving data from a file which is password-protected.

The CIPHER clause is used to provide a cipher key when retrieving data from a file which is enciphered.

See the statements FIND and PASSW for further information.

WITH REPOSITION
WITH REPOSITION Option:

This option is used to make the READ statement sensitive for repositioning events. See WITH REPOSITION Option.

sequence/range-specification
Sequence/Range Specification:

This option specifies the sequence and/or the range of retrieval. See Sequence/Range Specification.

STARTING WITH ISN=operand4
STARTING WITH ISN Clause:

This clause applies only to Adabas and VSAM databases.

Access to Adabas

This clause can be used in conjunction with a READ statement in physical or in logical (ascending/descending) sequence. The value supplied (operand4, range from 0 to 4294967295) represents an Adabas ISN (internal sequence number) and is used to specify a definite record where to start the READ loop.

  • Logical Sequence
    Even if documented with an equal character (=), the READ statement does not return only those records with exactly the start value in the corresponding descriptor field, but starts a logical browse in ascending or descending order, beginning with the start value supplied. If some records have the same contents in the descriptor field, they will be returned in an ISN-sorted sequence.

    The STARTING WITH ISN clause is some kind of a "second level" selection criterion that applies only if the start value matches the descriptor value for the first record. All records with a descriptor value that is the same as the start value and an ISN that is "less equal"("greater equal" for a descending READ) than the start ISN are ignored by Adabas. The first record returned in the READ loop is either

    • the first record with descriptor = start value and an ISN "greater" ("less" for a descending READ) than the start ISN,

    • or if such a record does not exist, the first record with a descriptor "greater" ("less" for a descending READ) than the start value.

  • Physical Sequence
    The records are returned in the order in which they are physically stored. If a STARTING WITH ISN clause is specified, Adabas ignores all records until the record with the ISN that is the same as the start ISN is reached. The first record returned is the next record following the ISN=start ISN record.

Access to VSAM

This clause can only be used in physical sequence. The value supplied (operand4) represents a VSAM RBA (relative byte address of ESDS) or RRN (relative record number of RRDS), which is to be used as a start value for the read operation.

Examples

This clause may be used for repositioning within a READ loop whose processing has been interrupted, to easily determine the next record with which processing is to continue. This is particularly useful if the next record cannot be identified uniquely by any of its descriptor values. It can also be useful in a distributed client/server application where the reading of the records is performed by a server program while further processing of the records is performed by a client program, and the records are not processed all in one go, but in batches.

For an example, see the program REASISND below.

[[IN] SHARED HOLD [MODE=option]]
SHARED HOLD Clause:

Note:
This clause can be used only for access to Adabas.

This clause can be used to place records being read in a "shared hold" state. A record can be put in shared hold by many users at the same time. As long as a record is in a shared hold state, it is protected from being updated, because it cannot be set into an exclusive hold by parallel users. This ensures data consistency for the record data, as no one can update the record while it is being processed.

Especially if the same record is fetched with multiple statements to read different MU/PE occurrences (GET SAME statement) or to browse over a LOB field in a piecemeal technique (READLOB statement), the shared hold state can guarantee data stability over this transaction without blocking the record for other users.

Although such a hold state is an efficient way to protect read sequences, it is a basic and important matter when to release the record again from this "soft lock". Since this question depends on individual application aspects, different options can be selected with the MODE subclause.

MODE Option
Hold Period
Explanation
C Only at the moment of reading the record. Ensures only that the record version being read has been committed by the last user who updated the record. This option does not really set a lock in hold state, but checks only that the record is not in exclusive hold by another user at time of read.
Q Until the next record in a sequence is read. Releases the record from shared hold when
S Until the logical transaction is terminated. Releases the record from shared hold when a logical transaction is terminated with an END TRANSACTION or BACKOUT TRANSACTION statement.
MODE=Q and MODE=S ensure that the record being read cannot be updated concurrently by other users until it has been released from hold again.

If the MODE subclause is not specified, MODE=C is the default.

See also Example 8 - SHARED HOLD Clause below.

SKIP RECORDS IN HOLD
SKIP RECORDS Clause:

Note:
This clause can be used only for access to Adabas.

Whenever a record is going to be read with hold, a Natural error NAT3145 (Adabas response code 145) might happen if the record is in hold by another user at this time. This occurs if a shared hold is requested and the record is in exclusive hold or if an exclusive hold is requested and the record is in either exclusive or shared hold.

Although error NAT3145 is surely the right reaction to assure a "clean data processing", sometimes it might be useful if a record in hold could be skipped. If it is alright that such a record will not be processed and the loop processing should continue, the SKIP RECORDS clause should be used.

If the SKIP RECORDS clause is applied, Natural first tries to read the record with hold.

If the record is already in hold and the Natural error NAT3145 would occur,

  • no error processing is initiated;

  • the record (currently in hold by another user) is instantly re-fetched without hold, but not processed in terms of the program logic;

  • the record which comes next after the skipped record is read with hold and the processing continues.

See also Example 9 - SKIP RECORDS Clause.

WHERE logical-condition
WHERE Clause:

The WHERE clause may be used to specify an additional selection criterion (logical-condition) which is evaluated after a value has been read and before any processing is performed on the value (including the AT BREAK evaluation).

The syntax for a logical-condition is described in the section Logical Condition Criteria in the Programming Guide.

If a LIMIT statement or a processing limit is specified in a READ statement containing a WHERE clause, records which are rejected as a result of the WHERE clause are not counted against the limit.

END-READ
End of READ Statement:

In structured mode, the Natural reserved keyword END-READ must be used to end the READ statement.

In reporting mode, the Natural statement LOOP is used to end the READ statement.

LOOP

MULTI-FETCH Clause

Note:
This clause can only be used for Adabas or DB2 databases.

MULTI-FETCH

ON
OFF
[OF] multi-fetch-factor

For more information, see the section MULTI-FETCH Clause (Adabas) in the Programming Guide or Multiple Row Processing (SQL) in the Natural for DB2 part of the Database Management System Interfaces documentation.

WITH REPOSITION Option

Note:
This option can only be applied if the underlying database is Adabas, VSAM or DL/I.

With a WITH REPOSITION option, you can make a READ statement sensitive for repositioning events. This allows you to reposition to another start value within an active READ loop. Processing of the READ statement then continues with the new start value.

A repositioning event is triggered by one of two ways when you use a READ statement with the WITH REPOSITION option:

  1. When an ESCAPE TOP REPOSITION statement is executed. At execution of an ESCAPE TOP REPOSITION statement, Natural makes an instant branch to the loop begin and performs a restart; that is, the database repositions to a new record in the file according to the current content of the search value variable. At the same time, the loop-counter *COUNTER is reset to zero.

  2. When a READ loop tries to fetch the next record from the database and the value of the system variable *COUNTER is 0.

    Note:
    If *COUNTER is set to 0 within the active READ loop, processing of the current record is continued; no instant branch to the loop begin is performed.

Functional Considerations

  • If the READ statement has a loop-limit (e.g. READ (10) EMPLOYEES WITH REPOSITION ..) and a restart event was triggered, the loop gets another 10 new records, no matter how many records where already processed until the repositioning takes place.

  • If an ESCAPE TOP REPOSITION statement is executed, but the innermost loop is not capable of repositioning (since the WITH REPOSITION keyword is not set in the READ statement or the posted loop statement is anything else but a READ), a corresponding runtime error is issued.

  • Since the ESCAPE TOP statement does not allow a reference, you can only initiate a reposition event if the innermost processing loop is a READ ..WITH REPOSITION statement.

  • A reposition event does not trigger the execution of the AT START OF DATA section, nor does it trigger the re-evaluation of the loop-limit operand (if it is a variable).

  • If the search value was not altered, the loop repositions to the same record like at initial loop start.

Sequence/Range Specification

Three syntax options are available to specify the sequence and/or the range of retrieval.

Syntax Option 1:

[IN] [PHYSICAL]

ASCENDING
DESCENDING
VARIABLE operand5
DYNAMIC operand5

[SEQUENCE]

Syntax Option 2:

 

 

=
EQ
EQUAL TO
[STARTINGFROM

 

               

BY
WITH

ISN operand6

THRU
ENDING AT

operand7

                     

Syntax Option 3:

[IN] [LOGICAL]    

ASCENDING
DESCENDING
VARIABLE operand5
DYNAMIC  operand5

[SEQUENCE]    

BY
WITH

descriptor    
 

=
EQ
EQUAL TO
[STARTINGFROM

operand6

THRU
ENDING AT

operand7

   

=
EQ
EQUAL TO
[STARTINGFROM

operand6 TO operand7  
   

<
LT
LESS THAN
>
GT
GREATER THAN
<=
LE
LESS EQUAL
>=
GE
GREATER EQUAL

operand6              

Notes:

  1. The syntax options [2] and [3] are not available with Entire System Server.
  2. If the comparators of Diagram 3 are used, the options ENDING AT, THRU and TO may not be used. These comparators are also valid for the HISTOGRAM statement.

Operand Definition Table:

Operand Possible Structure Possible Formats Referencing Permitted Dynamic Definition
operand5   S       A                         yes no
operand6 C S       A   N P I F B * D T L       yes no
operand7 C S       A   N P I F B * D T L       yes no

* Format B of operand6 and operand7 may be used only with a length of less than or equal to 4.

Syntax Element Description:

Syntax Element Description
READ IN PHYSICAL SEQUENCE
Read in Physical Sequence:

This option is used to read records in the order in which they are physically stored in a database.

Note:
For VSAM databases: READ PHYSICAL can only be applied to ESDS and RRDS.

PHYSICAL is the default sequence.

READ BY ISN
Read by ISN:

This option is used to read records in the order of Adabas ISNs (internal sequence numbers) or VSAM RBAs (relative byte addresses of ESDS) or RRNs (relative record numbers of RRDS) respectively. Instead of using the keyword BY, you may specify the keyword WITH, which has the same effect.

For READ BY ISN, operand6 and operand7 must be provided as a numeric constant or user-defined variable in the range from 0 to 4294967295.

READ BY ISN can only be used for Adabas and VSAM databases; for VSAM databases, it is only valid for ESDS and RRDS.

Note:
For XML databases: READ BY ISN is used to read XML objects according to the order of Tamino object IDs.

READ IN LOGICAL SEQUENCE
Read in Logical Sequence:

This option is used to read records in the order of the values of a descriptor (key) field.

If you specify a descriptor, the records will be read in the value sequence of the descriptor. A descriptor, subdescriptor, superdescriptor or hyperdescriptor may be used for sequence control. A phonetic descriptor, a descriptor within a periodic group, or a superdescriptor which contains a periodic-group field cannot be used.

If you do not specify a descriptor, the default descriptor as specified in the DDM (field Default Sequence) will be used.

Notes:

  1. For DL/I databases: The descriptor used must be either the sequence field of a root segment, or a secondary index field. If a secondary index field is specified, it must also be specified in the PROCSEQ parameter of a PCB. Natural uses this PCB and the corresponding hierarchical structure to process the database. As HDAM databases use a randomizing routine to locate root segments, no sensible results will be returned when using READ LOGICAL for HDAM databases; therefore you should use READ PHYSICAL for HDAM databases.
  2. For VSAM databases: LOGICAL is only valid for KSDS with primary and alternate keys defined and for ESDS with alternate keys defined.

If the descriptor used for sequence control is defined with null-value suppression (Adabas only), any record which contains a null value for the descriptor will not be read.

If the descriptor is a multiple-value field (Adabas only), the same record will be read multiple times depending on the number of values present.

Note:
READ IN LOGICAL SEQUENCE is also discussed in the Programming Guide; see Statements for Database Access, READ Statement.

ASCENDING | DESCENDING | VARIABLE | DYNAMIC SEQUENCE
Ascending/Descending Order:

This clause only applies to Adabas, XML databases, VSAM and SQL databases. In a READ PHYSICAL statement, it can only be applied to VSAM and DB2 databases.

With this clause, you can determine whether the records are to be read in ascending sequence or in descending sequence.

  • The default sequence is ascending (which may, but need not, be explicitly specified by using the keyword ASCENDING).

  • If the records are to be read in descending sequence, you specify the keyword DESCENDING.

  • If, instead of determining it in advance, you want to have the option of determining at runtime whether the records are to be read in ascending or descending sequence, you either specify the keyword VARIABLE or DYNAMIC, followed by a variable (operand5). operand5 has to be of format/length A1 and can contain the value A (for "ascending") or D (for "descending").

    • If keyword VARIABLE is used, the reading direction (value of operand5) is evaluated at start of the READ processing loop and remains the same until the loop is terminated, regardless if the operand5 field is altered in the READ loop or not.

    • If keyword DYNAMIC is used, the reading direction (value of operand5) is evaluated before every record fetch in the READ processing loop and may be changed from record to record. This allows to change the scroll sequence from ascending to descending (and vice versa) at any place in the READ loop.

STARTING FROM ... ENDING AT/TO
STARTING FROM/ENDING AT Clauses:

The STARTING FROM and ENDING AT clauses are used to limit reading to a set of records based on a user-specified range of values.

The STARTING FROM clause (= or EQ or EQUAL TO or [STARTING] FROM) determines the starting value for the read operation. If a starting value is specified, reading will begin with the value specified. If the starting value does not exist in the file, the next higher (or lower for a DESCENDING read) value will be used. If no higher (or lower for DESCENDING) value exists, the loop will not be entered.

In order to limit the records to an end-value, you may specify an ENDING AT clause with the terms THRU, ENDING AT or TO, that imply an inclusive range. Whenever the read descriptor field exceeds the end-value specified, an automatic loop termination is performed. Although the basic functionality of the TO, THRU and ENDING AT keywords looks quite similar, internally they differ in how they work.

THRU/ENDING AT
THRU/ENDING AT Option:

If THRU or ENDING AT is used, only the start-value is supplied to the database, but the end-value check is performed by the Natural runtime system, after the record is returned by the database. If the read direction is ASCENDING, you have to supply the lower value as the start-value and the higher-value as the end-value, since the start-value represents the value (and record) returned first in the READ loop. However, if you invoke a backwards read (DESCENDING), the higher value has to appear in the start-value and the lower-value in the end-value.

Internally, to determine the end of the range to be read, Natural reads one record beyond the end-value. If you have left the READ loop because the end-value has been reached, be aware that this last record is in fact not the last record within the demanded range, but the first record beyond that range (except if the file does not contain a further record after the last result record).

The THRU and ENDING AT clauses can be used for all databases which support the READ or HISTOGRAM statements.

TO
TO Option:

If the keyword TO is used, both the start-value and the end-value are sent to the database, and Natural does not perform checks for value ranges. If the end-value is exceeded, the database reacts the same as when "end-of-file" is reached, and the database loop is exited. Since the complete range checking is done by the database, the lower-value (of the range) is always supplied in the start-value and the higher-value filled into the end-value, regardless if you are browsing in ASCENDING or DESCENDING order.

Notes on Functional Differences between THRU/ENDING AT and TO

The following list describes the functional differences between the usage of the THRU/ENDING AT and TO options.

THRU/ENDING AT TO
When the READ loop terminates because the end-value has been reached, the view contains the first record "out-of-range". When the READ loop terminates because the end-value has been reached, the view contains the last record of the specified range.
If a end-value variable is modified during the READ loop, the new value will be used for end-value check on next record being read. The end-value variable will only be evaluated at READ loop start. All further modifications during the READ loop have no effect.
An incorrect range (for example, READ .. = 'B' THRU 'A') does not cause a database error, but just returns no record. An incorrect range results in a database error (for example, Adabas RC=61), because a value range must not be supplied in descending order.
If a READ .. DESCENDING is used with start- and end-value, the start value is used to position in the file, whereas the end-value is used by Natural to check for "end-of-range". Therefore the start-value is higher than (or equal to) the end-value. Since both values are passed to the database, they have to appear in ascending order. In other words, the start-value is lower than (or equal to) the end-value, no matter if you are reading in ascending or descending order.
In order to check for range overflow, the descriptor value has to appear in the underlying database view; that is, it must be returned in the record buffer. The descriptor is not required in the record fields returned.
The end-value check for an Adabas multi-value field (MU-field) or a sub-/super-/hyper-descriptor is not possible and leads to syntax error NAT0160 at program compilation. You may specify an end-value for MU-fields and sub-/super-/hyper-descriptors.
Can be used for all databases. Can be used for all databases.

Note:
The result of READ/HISTOGRAM THRU/ENDING AT might differ from the result of READ/HISTOGRAM TO if Natural and the accessed database reside on different platforms with different collating sequences.

System Variables Available with READ

The Natural system variables *ISN and *COUNTER are available with the READ statement.

The format/length of these system variables is P10. This format/length cannot be changed.

The usage of the system variables is illustrated below.

System Variable Explanation
*ISN

The system variable *ISN contains the Adabas ISN of the record currently being processed.

Notes:

  1. For VSAM databases, *ISN contains either the RRN (for RRDS) or the RBA (for ESDS) of the current record.
  2. For Tamino, *ISN contains the XML object ID.
  3. For DL/I and SQL databases and with Entire System Server, *ISN is not available.
*COUNTER The system variable *COUNTER contains the number of times the processing loop has been entered.

Examples

Example 1 - READ Statement

** Example 'REAEX1S': READ (structured mode)                            
************************************************************************
DEFINE DATA LOCAL                                                       
1 EMPLOY-VIEW VIEW OF EMPLOYEES                                         
  2 PERSONNEL-ID                                                        
  2 NAME                                                                
1 VEHIC-VIEW VIEW OF VEHICLES                                           
  2 PERSONNEL-ID                                                        
  2 MAKE                                                                
END-DEFINE                                                              
*                                                                       
LIMIT 3                                                                 
*                                                                       
WRITE 'READ IN PHYSICAL SEQUENCE'                                       
READ EMPLOY-VIEW IN PHYSICAL SEQUENCE                         
  DISPLAY NOTITLE PERSONNEL-ID NAME *ISN *COUNTER                       
END-READ                                                            
*                                                                       
WRITE / 'READ IN ISN SEQUENCE'                                          
READ EMPLOY-VIEW BY ISN STARTING FROM 1 ENDING AT 3
  DISPLAY         PERSONNEL-ID NAME *ISN *COUNTER  
END-READ                                       
*                                                  
WRITE / 'READ IN NAME SEQUENCE'                    
READ EMPLOY-VIEW BY NAME                     
  DISPLAY         PERSONNEL-ID NAME *ISN *COUNTER  
END-READ                                   
*                                                  
WRITE / 'READ IN NAME SEQUENCE STARTING FROM ''M'''
READ EMPLOY-VIEW BY NAME STARTING FROM 'M'   
  DISPLAY         PERSONNEL-ID NAME *ISN *COUNTER  
END-READ                                      
*                                                  
END

Output of Program REAEX1S:

PERSONNEL         NAME            ISN         CNT     
   ID                                                 
--------- -------------------- ----------- -----------
                                                      
READ IN PHYSICAL SEQUENCE                             
50005800  ADAM                           1           1
50005600  MORENO                         2           2
50005500  BLOND                          3           3
                                                      
READ IN ISN SEQUENCE                                  
50005800  ADAM                           1           1
50005600  MORENO                         2           2
50005500  BLOND                          3           3
                                                      
READ IN NAME SEQUENCE                                 
60008339  ABELLAN                      478           1
30000231  ACHIESON                     878           2
50005800  ADAM                           1           3
                                                      
READ IN NAME SEQUENCE STARTING FROM 'M'               
30008125  MACDONALD                    923           1
20028700  MACKARNESS                   765           2
40000045  MADSEN                       508           3

Equivalent reporting-mode example: REAEX1R.

Example 2 - READ WITH REPOSITION

DEFINE DATA LOCAL
1 MYVIEW VIEW OF ...
  2 NAME
1 #STARTVAL (A20) INIT <'A'>
1 #ATTR     (C)
END-DEFINE
...
SET KEY PF3
...
READ MYVIEW WITH REPOSITION BY NAME = #STARTVAL
INPUT (IP=OFF AD=O) 'NAME:' NAME /
    'Enter new start value for repositioning:' #STARTVAL (AD=MT CV=#ATTR) /
    'Press PF3 to stop'
  IF *PF-KEY = 'PF3'
    THEN STOP
  END-IF
  IF #ATTR MODIFIED
    THEN ESCAPE TOP REPOSITION
  END-IF
END-READ
...
DEFINE DATA LOCAL
1 MYVIEW VIEW OF ...
  2 NAME
1 #STARTVAL (A20) INIT <'A'>
1 #ATTR     (C)
END-DEFINE
...
SET KEY PF3
...
READ MYVIEW WITH REPOSITION BY NAME = #STARTVAL
  INPUT (IP=OFF AD=O) 'NAME:' NAME /
    'Enter new start value for repositioning:' #STARTVAL (AD=MT CV=#ATTR) /
    'Press PF3 to stop'
  IF *PF-KEY = 'PF3'
    THEN STOP
  END-IF
  IF #ATTR MODIFIED
    THEN RESET *COUNTER
  END-IF
END-READ
...

Example 3 - Combining READ and FIND Statements

The following program reads records from the EMPLOYEES file in logical sequential order based on the values of the descriptor NAME. A FIND statement is then issued to the VEHICLES file using the personnel number from the EMPLOYEES file as search criterion. The resulting report shows the name (read from the EMPLOYEES file) of each person read and the model of automobile (read from the VEHICLES file) owned by this person. Multiple lines with the same name are produced if the person owns more than one automobile.

** Example 'REAEX2': READ and FIND combination                          
************************************************************************
DEFINE DATA LOCAL                                                       
1 EMPLOY-VIEW VIEW OF EMPLOYEES                                         
  2 PERSONNEL-ID                                                        
  2 FIRST-NAME                                                          
  2 NAME                                                                
  2 CITY                                                                
1 VEH-VIEW VIEW OF VEHICLES                                             
  2 PERSONNEL-ID                                                        
  2 MAKE                                                                
END-DEFINE                                                              
*                                                                       
LIMIT 10                                                                
*                                                                       
RD. READ EMPLOY-VIEW BY NAME STARTING FROM 'JONES'                    
  SUSPEND IDENTICAL SUPPRESS                                            
  FD. FIND VEH-VIEW WITH PERSONNEL-ID = PERSONNEL-ID (RD.)       
    IF NO RECORDS FOUND                                                 
      ENTER                                   
    END-NOREC                                 
    DISPLAY NOTITLE (ES=OFF IS=ON ZP=ON AL=15)
            PERSONNEL-ID (RD.)                
            FIRST-NAME (RD.)                  
            MAKE (FD.) (IS=OFF)               
  
  END-FIND
END-READ                          
END

Output of Program REAEX2:

PERSONNEL      FIRST-NAME         MAKE      
      ID                                       
--------------- --------------- ---------------
                                               
20007500        VIRGINIA        CHRYSLER       
20008400        MARSHA          CHRYSLER       
                                CHRYSLER       
20021100        ROBERT          GENERAL MOTORS 
20000800        LILLY           FORD           
                                MG             
20001100        EDWARD          GENERAL MOTORS 
20002000        MARTHA          GENERAL MOTORS 
20003400        LAUREL          GENERAL MOTORS 
30034045        KEVIN           DATSUN         
30034233        GREGORY         FORD           
11400319        MANFRED

Example 4 - DESCENDING Option

** Example 'READSCND': READ (with DESCENDING SEQUENCE)                  
************************************************************************
DEFINE DATA LOCAL                                                       
1 EMPL VIEW OF EMPLOYEES                                                
  2 NAME                                                                
  2 FIRST-NAME                                                          
  2 BIRTH                                                               
END-DEFINE                                                              
*                                                                       
READ (10) EMPL IN DESCENDING SEQUENCE BY NAME FROM 'ZZZ'          
  DISPLAY *ISN NAME FIRST-NAME BIRTH (EM=YYYY-MM-DD)                    
END-READ                                                           
END

Example 5 - VARIABLE Option

** Example 'REAVSEQ':  READ  (with VARIABLE SEQUENCE)                   
************************************************************************
DEFINE DATA LOCAL                                                       
1 EMPL VIEW OF EMPLOYEES                                                
  2 NAME                                                                
  2 FIRST-NAME                                                          
  2 BIRTH                                                               
*                                                                       
1 #DIR        (A1)                                                      
1 #STARTVALUE (A20)                                                     
END-DEFINE                                                              
*                                                                       
SET KEY PF7 PF8                                                         
*                                                                       
INPUT 'Select READ direction'                                           
   // 'Press' 08T 'PF7' (I)                  21T 'to read backward'     
    /         08T 'PF8' (I) 'or' 'ENTER' (I) 21T 'to read forward'      
*                                                                       
IF *PF-KEY = 'PF7'                                                      
  MOVE 'D'   TO #DIR                                
  MOVE 'ZZZ' TO #STARTVALUE                         
ELSE                                                
  MOVE 'A' TO #DIR                                  
  MOVE 'A' TO #STARTVALUE                           
END-IF                                              
*                                                   
READ (10) EMPL IN VARIABLE #DIR SEQUENCE
               BY NAME FROM #STARTVALUE
  DISPLAY *ISN NAME FIRST-NAME BIRTH (EM=YYYY-MM-DD)
END-READ                                      
END

Example 6 - DYNAMIC Option

DEFINE DATA LOCAL
1 #DIRECTION (A1) INIT <'A'>   /* 'A' = ASCENDING
1 #EMPVIEW VIEW OF EMPLOYEES
2 NAME
...
END-DEFINE
...
READ #EMPVIEW IN DYNAMIC #DIRECTION SEQUENCE BY NAME = 'SMITH'
   INPUT (AD=O) NAME
       / 'Press PF7 to scroll in DESCENDING sequence'
       / 'Press PF8 to scroll in ASCENDING  sequence'
   ..
   IF *PF-KEY = 'PF7' THEN MOVE 'D' TO #DIRECTION END-IF
   IF *PF-KEY = 'PF8' THEN MOVE 'A' TO #DIRECTION END-IF
END-READ
...

Example 7 - STARTING WITH ISN Clause

** Example 'REASISND': READ  (with STARTING WITH ISN)                   
************************************************************************
DEFINE DATA LOCAL                                                       
1 EMPL VIEW OF EMPLOYEES                                                
  2 NAME                                                                
  2 FIRST-NAME                                                          
  2 BIRTH                                                               
*                                                                       
1 #DIR      (A1)                                                        
1 #STARTVAL (A20)                                                       
1 #STARTISN (N8)                                                        
END-DEFINE                                                              
*                                                                       
SET KEY PF3 PF7 PF8                                                     
*                                                                       
MOVE 'ADKINSON' TO #STARTVAL                                            
*                                                                       
READ (9) EMPL BY NAME = #STARTVAL                                  
  WRITE *ISN NAME FIRST-NAME BIRTH (EM=YYYY-MM-DD) *COUNTER             
  IF *COUNTER = 5 THEN                                      
    MOVE NAME TO #STARTVAL                                  
    MOVE *ISN TO #STARTISN                                  
  END-IF                                                    
END-READ                                                  
*                                                           
#DIR := 'A'                                                 
*                                                           
REPEAT                                                      
 READ EMPL IN VARIABLE #DIR  BY NAME = #STARTVAL           
            STARTING WITH ISN = #STARTISN            
    MOVE NAME TO #STARTVAL                                  
    MOVE *ISN TO #STARTISN                                  
    INPUT NO ERASE  (IP=OFF AD=O)                           
         15/01 *ISN  NAME  FIRST-NAME  BIRTH (EM=YYYY-MM-DD)
           //  'Direction:' #DIR                            
           //  'Press PF3 to stop'                          
           /   '      PF7 to go step back'                  
           /   '      PF8 to go step forward'               
           /   '      ENTER to continue in that direction'
    /*                                                    
    IF *PF-KEY = 'PF7' AND #DIR = 'A'                     
      MOVE 'D' TO #DIR                                    
      ESCAPE BOTTOM                                       
    END-IF                                                
    IF *PF-KEY = 'PF8' AND #DIR = 'D'                     
      MOVE 'A' TO #DIR                                    
      ESCAPE BOTTOM                                       
    END-IF                                                
    IF *PF-KEY = 'PF3'                                    
      STOP                                                
    END-IF                                                
  END-READ                                          
  /*                                                      
  IF *COUNTER(0290) = 0                                   
    STOP                                                  
  END-IF                                                  
END-REPEAT                                                
END

Example 8 - SHARED HOLD Clause

READ EMPL-VIEW WITH NAME = ...         
     IN SHARED HOLD MODE=Q  /* Record in shared hold until next record is read.
   ...  
   GET EMPL-VIEW  *ISN      /* The record remains unchanged!
   ...                                        
END-READ

Example 9 - SKIP RECORDS Clause

READ EMPL-VIEW WITH NAME = ...  /* Records found are put in hold while reading.
     SKIP RECORDS IN HOLD       /* Records already held by other users are skipped
  ...                           /* to prevent error NAT3145.
  UPDATE
  END TRANSACTION
END-READ