1. 13-1 COBOL for the 21 st Century Nancy Stern Hofstra University Robert A. Stern Nassau Community College James P. Ley University of Wisconsin-Stout (Emeritus) John Wiley & Sons, Inc. 11th edition

2. 13-2 Sequential File Processing Chapter 13

3. 13-3 Chapter Objectives To familiarize you with Master file processing concepts Sequential update procedures using disk as a master file How sequential disk files may be updated in place with REWRITE statement

4. 13-4 Chapter Contents Overview of Sequential File Processing Sequential File Updating - Creating a New Master File Validity Checking in Update Procedures Update Procedures with Multiple Transaction Records

5. 13-5 Chapter Contents Balanced Line Algorithm for Sequential File Updating Sequential File Updating - Rewriting Records on Disk Matching Files for Checking Purposes Interactive Updating of Sequential File

6. 13-6 Master Files Set of files used to store companies data in areas like payroll, inventory Usually processed by batch processing Typically stored on magnetic disk –Disks can store billions of characters –Disk drives read, write data quickly –Disk records can be any size

7. 13-7 Sequential Files Records always read in sequence Read first record, process it, then read second record, process it and so on –Payroll records in order by employee number may be processed in sequence for updating or printing reports

8. 13-8 Sequential Files May be sorted into any sequence using any field in record –To distribute checks more easily, records may be sorted by department Sequential processing then used to print checks, reading first record, then second, etc.

9. 13-9 Master File Procedures Typical procedures for sequential processing in batch mode are: Designing Master File Creating Master File Creating Transaction File Updating Master File Reporting from Master File

10. 13-10 Designing a Master File Place key fields that uniquely identify record at beginning of record If possible, choose numeric key fields Secondary fields after primary key fields Remaining fields appear in order of importance

11. 13-11 Designing a Master File Choose field size large enough to accommodate data stored in it Use coded fields where possible to save space Be sure all date fields include four-digit year

12. 13-12 Creating a Master File Original master file data entered interactively, stored on disk file Ensure data integrity by using data validation techniques to minimize risk or errors Control listing or audit trail produced to show data stored in new master file and control totals

13. 13-13 Creating a Transaction File Changes to master file made with separate procedure Change records stored in file called transaction file

14. 13-14 Updating a Master File Updating is process of making master file current Update master file by incorporating changes from transaction records

15. 13-15 Reporting from a Master File Scheduled reports prepared on regular basis from data stored in master file –Sales reports, customer bills, checks, etc. –Use detail, exception and group printing techniques On demand reports produced as need arises –May be in report form or displayed on screen

16. 13-16 Creating Master, Transaction Files Data may be read in from another file or entered interactively from keyboard If data entered is valid, move it to master or transaction record fields WRITE new record to file

17. 13-17 Sequential File Updating Two input files Input Master File (Old-Master) –Current through previous updating period –Does not contain changes since previous update Input Transaction File (Trans-File) –Contains changes since previous update to be applied to Old-Master

18. 13-18 Sequential File Updating Two output files Output Master File (New-Master) –Integrates data from Old-Master with all of changes from Trans-File –Will become Old-Master for next update Control Listing or Audit Trail –Print file showing changes made to master file, errors during processing and control totals

19. 13-19 Ordering of Records Records in Old-Master and Trans-File must be in order by same key field Compare key fields to determine if given master record is to be updated

20. 13-20 Sequential Update Example For accounts receivable file, account number may be selected as key field Records in both input files in sequence by account number –Old-Master key field is M-Acct-No –Trans-file key field is T-Acct-No New-Master file also created in account number sequence (Acct-No-Out)

21. 13-21 Sequential Update Procedure One transaction record for each master record to be updated –Contains total amount to be added to amount field in corresponding master record Initially, record read from both Old- Master and Trans-File Comparison of M-Acct-No and T-Acct- No determines next step

22. 13-22 1) T-Acct-No = M-Acct-No Means transaction record exists with same account number as master record Perform regular update, adding Trans- File amount to Old-Master amount, storing result in New-Master field Write record to New-Master file Read next record from both Old-Master and Trans-File

23. 13-23 2) T-Acct-No > M-Acct-No Means master record exists for which there is no corresponding transaction record Write record from Old-Master to New- Master as is, since no changes need to be made to it Read next record from Old-Master

24. 13-24 3) T-Acct-No < M-Acct-No Means transaction record exists for which there is no corresponding master record Two ways to process this transaction –Create record in New-Master file for this transaction –May assume that T-Acct-No is invalid since no match found in Old-Master file and treat as error condition

25. 13-25 Use of HIGH-VALUES Refers to largest value in computer's collating sequence Used so all records from both Old- Master and Trans-File are processed May reach end of Old-Master file before reaching end of Trans-File or vice versa

26. 13-26 Use of HIGH-VALUES When last record read from Old-Master, M-Acct-No set to HIGH-VALUES –For all remaining transaction records T-Acct-No < M-Acct-No –Processed as new accounts and added to New-Master

27. 13-27 Use of HIGH-VALUES When last record read from Trans-File, T-Acct-No set to HIGH-VALUES –For all remaining Old-Master records T-Acct-No > M-Acct-No –Old-Master records added to New-Master without changes

28. 13-28 Use of HIGH-VALUES Loop to process records ends only when both account numbers equal HIGH-VALUES May be used only with fields defined as alphanumeric –Define account number fields with PIC of Xs even though fields contain numbers

29. 13-29 Validity Checking in Updating Code field may be added to each transaction record to indicate whether transaction is –New account to be added –Update to existing account –Deletion of existing account Comparison of keys and transaction code type enable program to detect other update errors

30. 13-30 Multiple Transaction Records To process more than one change for each master record requires different update procedure In accounts receivable file example, transaction record may be created for each purchase or credit by customer Amounts in all transaction records for one customer need to be added to amount in Old-Master file record

31. 13-31 Multiple Transaction Records Add loop to regular update routine to read and process multiple transaction records for same Old-Master record –Continue to read records from Trans-File until T-Acct-No Not = M-Acct-No

32. 13-32 Balanced Line Algorithm Technique to update master file –With any number of transactions –With checks for error conditions Viewed as most efficient and effective sequential file updating method Two new fields used to control updating –WS-Control-Key –WS-Allocated-Switch

33. 13-33 WS-Control-Key Determines type of processing Called control or active key field Set to smaller of M-Acct-No or T-Acct-No Then comparison of M-Acct-No or T-Acct-No to WS-Control-Key used to control further processing

34. 13-34 WS-Allocated-Switch Used for error control –To ensure records processed correctly –To detect erroneous codes in transactions Set to 'YES' when record should be written to New-Master file Set to 'NO' if record should not be written to New-Master file

35. 13-35 1) M-Acct-No < T-Acct-No WS-Control-Key set to M-Acct-No WS-Allocated-Switch set to 'YES' because WS-Control-Key and M-Acct- No are same Since M-Acct-No and T-Acct-No not equal, Old-Master has no transactions –Old-Master record written to New-Master record as is

36. 13-36 2) M-Acct-No = T-Acct-No WS-Control-Key set to M-Acct-No WS-Allocated-Switch set to 'YES' because WS-Control-Key and M-Acct-No are same Transactions with T-Acct-No = M-Acct-No processed

37. 13-37 2) M-Acct-No = T-Acct-No Processing transactions with T-Acct-No = M-Acct-No –Updates posted to New-Master –Additions displayed as errors because WS- Allocated-Switch set to 'YES' (master record with this M-Acct-No already exists) –Deletions move 'NO' to WS-Allocated- Switch to ensure this Old-Master record is not written to New-Master file

38. 13-38 3) M-Acct-No > T-Acct-No WS-Control-Key set to T-Acct-No WS-Allocated-Switch set to 'NO' because WS-Control-Key not equal to M-Acct-No –No master record exists for this transaction

39. 13-39 3) M-Acct-No > T-Acct-No Only additions acceptable –Reset WS-ALLOCATED-SWITCH to 'YES' –New-Master record created from transaction record Update or deletion transaction treated as error

40. 13-40 Updating Master Disk in Place May read a master disk record, make changes directly to same record, and rewrite it or update it in place Only two files needed –Master-FileOPEN as I-O –Trans-FileOPEN as INPUT Use REWRITE statement to replace master disk record, currently in storage, that was accessed by preceding READ

41. 13-41 Updating Master Disk in Place To delete a record, establish each record with an activity code field –For example, Code-X = 1 if record is active, or 2 if record is inactive All master records initially active (1 in Code-X) Master record deactivated by changing activity code to 2

42. 13-42 Updating Master Disk in Place New records cannot be added in sequence when file open for I-O Can add records at end of file by opening file in EXTEND mode OPEN EXTEND file-name Disk automatically positioned at end of file, immediately after last record Sort file after records added to arrange them in sequence

43. 13-43 Chapter Summary Sequential updating by creating new master uses three files –Incoming master file –Transaction file with change records –New output master file that will incorporate all changes

44. 13-44 Chapter Summary Sequential updating technique –All three files must be in sequence by same key field –Record read from each file –Routine performed depends on whether key fields match

45. 13-45 Chapter Summary Sequential updating technique –Transaction record may include coded field to designate update, deletion, addition –Use HIGH-VALUES to ensure all records in both old master and transaction files are processed Balanced line algorithm used for sequential updates

46. 13-46 Chapter Summary Can also update records in sequential file by rewriting them in place –Must open file as I-O Records can be added to end of sequential file –Open in EXTEND mode

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