RDOHELP72.HLB  —  Value expr
    A symbol or string of symbols that you use to calculate a
    value. When you use a value expression in a statement, Oracle Rdb
    calculates the value associated with the expression and uses that
    value when executing the statement. Any value expression can be
    enclosed in parentheses or preceded by a minus sign.

1  –  arithmetic_expression

    An arithmetic expression combines arithmetic operators with:
    numeric values, numeric host language variables, and/or numeric
    database fields. When you use an arithmetic expression in a
    statement, Oracle Rdb calculates the value associated with the
    expression and uses that value when executing the statement.
    Therefore, an arithmetic expression must be reducible to a value.
    If either operand of an arithmetic expression is a null value,
    the resulting value is also null.

  (B)0arith-expr =

  qwq> numeric-value    qwqqwqq> + qqwqqwq> numeric-value    qwqqq>
   tq> numeric-host-var qu  tqq> - qqu  tq> numeric-host-var qu
   mq> numeric-db-field qj  tqq> * qqu  mq> numeric-db-field qj
                            mqq> / qqj

2  –  concatenated_expression

    A value expression that combines two other value expressions
    by joining the second to the end of the first. Concatenated
    expressions uses the concatenate operator (|). You can combine
    value expressions of any kind, including numeric expressions,
    string expressions, and literals.

    You can use concatenated expressions to simulate group fields and
    edit strings.

    Format

  (B)0concat-expr =

    qqq> value-expr qqq>  |  qqq> value-expr qqq>

2.1  –  Examples

    Example 1

    Use a concatenated expression as a field in a view:

    DEFINE VIEW MAIL OF
     E IN EMPLOYEES.
      NAME COMPUTED BY
        E.FIRST_NAME | ' ' | E.MIDDLE_INITIAL | ' ' | E.LAST_NAME.
      E.ADDRESS_DATA_1.
      E.CITY.
      E.POSTAL_CODE.
    END MAIL VIEW.

    This statement creates a field for the view by combining the
    three name fields from the EMPLOYEES relation.

    Example 2

    Use a concatenated expression to simulate an edit string:

    DEFINE VIEW BUCKS OF S IN SALARY_HISTORY.
       EMPLOYEE_ID.
       SALARY_START.
       SALARY_END.
       SAL COMPUTED BY "$"|S.SALARY_AMOUNT.
    END.

    When you display the fields of BUCKS, a dollar sign appears in
    front of the salary amount.

3  –  database_field

    --> context-var . field-name -->

    The name of a field in the database that consists of a context
    variable and a field name. A context variable is a temporary name
    that you associate with a relation. You define a context variable
    in a record selection expression.

    For example:

    FOR E IN EMPLOYEES PRINT  E.LAST_NAME
        |          |         |           |
        |          |         +-----+-----+
        |          |               |
      context   relation          database
      variable   name               field

4  –  database_key

    A pointer that indicates a specific record in the database.
    You can use the database key to retrieve a record in a FETCH
    statement or in a record selection expression. Database keys are
    intended primarily for use in host language programs.

  (B)0db-key =

    qqq> context-var qq> . qqq> RDB$DB_KEY qqq>

5  –  missing_values

    A missing value for a field in a relation has no value associated with
    it. The missing value is an attribute of a field rather than a value
    stored in a field.

    The null flag refers to the information that Oracle Rdb maintains about a
    field to determine whether or not it is null, or missing. Each field in
    the database has information associated with it using the null flag to
    mark the field as either missing or not missing. Value expressions can
    evaluate to a value or to missing.  Conditional expressions can evaluate
    to true, false, or missing. Missing information also affects the
    evaluation of statistical functions, sorting, and projections.

    If the source of the assignment is a database field and that database
    field has a missing value defined for it, then its missing value is
    used. Otherwise, the missing value is determined by the data type. For
    fixed-length strings, the string is blank filled. For variable-length
    strings, the length is set to zero. All numeric data types are set to
    zero. For the DATE data type, the missing value of the VMS zero date is
    used. This represents the date 17-NOV-1858 00:00:00.00.

    When you assign a value to a database field, the null flag for that
    field is set according to the value in the assignment statement. If the
    value of the assignment is the missing value defined for that field, the
    null flag is set for that field. Otherwise, the null flag is not set.
    If no missing value is defined, the null flag for that field is not set.

    When you define a field, choose a missing value for that field that will
    never occur as an actual value for the field. If you change the
    definition of the missing value for a field, you change the incoming
    value that sets the null flag and you change the value produced when
    reading a field with the null flag set.

    Oracle Rdb evaluates the expression RDB$MISSING to determine the missing
    value for a field. There are two ways to declare that a field is missing:

    o  Omit the field in the STORE statement.

       When you omit the field from the STORE statement, Oracle Rdb VMS
       marks the field as null.

    o  Explicitly store the value associated with RDB$MISSING for the field,
       or use RDB$MISSING to signal the field's value to Oracle Rdb. Oracle
       Rdb does not actually store what you specify; rather, it stores nothing
       and marks the field's value as missing or null.

    If you know the missing value for a field, you can include this value in
    the STORE or MODIFY statement. For example, assume you want to make the
    ADDRESS_DATA field missing for a particular employee. The definition for
    ADDRESS_DATA is as follows:

    DEFINE FIELD  ADDRESS_DATA
            DATA_TYPE IS TEXT SIZE IS 20
            MISSING_VALUE IS 'Not available'.

    To make the field missing, you use a MODIFY statement:

    FOR E IN EMPLOYEES WITH E.EMPLOYEE_ID = "00175"
      MODIFY E USING
        E.ADDRESS_DATA = 'Not available'
      END_MODIFY
    END_FOR

    When this statement executes, Oracle Rdb marks the field as null; and
    when you retrieve the field, Oracle Rdb returns the value "Not
    available", the missing value. Note, however, that to find all the
    records in which the ADDRESS_DATA field is marked as null, use the
    MISSING operator in a conditional expression, as in the following
    example:

    FOR E IN EMPLOYEES WITH E.ADDRESS_DATA MISSING
      PRINT E.*
    END_FOR

    If instead of the MISSING operator, you use the missing value in the
    conditional expression, Oracle Rdb displays nothing. The following query
    does not find records in which the ADDRESS_DATA field is marked as null:

    FOR E IN EMPLOYEES WITH E.ADDRESS_DATA = "Not available"
      PRINT E.*
    END_FOR

    If you want to make a field missing and you do not know the literal
    missing value, you can use the expression RDB$MISSING, which returns the
    missing value. For example, you might want to write general update
    programs that do not depend on a particular missing value. You can use
    RDB$MISSING instead of an explicit value in a STORE or MODIFY statement.

       ________________________Note ________________________

       In order to use RDB$MISSING, you must have defined a
       missing value explicitly for the field in the DEFINE
       FIELD statement. If you have not, RDB$MISSING is
       undefined for that field.

       _____________________________________________________

    You can define a missing value that is longer than the length specified
    for the field in the field definition.  However, when the missing value
    is displayed, it will be truncated to the length specified for the field
    in the field definition. In the following example, the missing value
    "Long" in the field SEX_FIELD is truncated to one character (the length
    specified for the field in the definition of SEX_FIELD).

    RDO> !
    RDO> ! Define field SEX_FIELD:
    RDO> !
    RDO> DEFINE FIELD SEX_FIELD
    cont> DATATYPE IS TEXT 1
    cont> MISSING_VALUE "Long".
    RDO> !
    RDO> ! Define relation TEST_RELATION:
    RDO> !
    RDO> DEFINE RELATION TEST_RELATION.
    cont> SEX_FIELD.
    cont> EMPLOYEE_ID BASED ON ID_NUMBER.
    cont> END RELATION.
    RDO> !
    RDO> ! Store a single record in TEST_RELATION, providing a value
    RDO> ! for EMPLOYEE_ID, but not for SEX_FIELD. This creates a
    RDO> ! missing value for SEX_FIELD in the record:
    RDO> !
    RDO> STORE TR IN TEST_RELATION USING
    cont> TR.EMPLOYEE_ID = "00175";
    cont> END_STORE
    RDO> !
    RDO> ! The missing value in SEX_FIELD appears as one character
    RDO> ! when the record is displayed:
    RDO> !
    RDO> FOR TR IN TEST_RELATION
    cont> PRINT TR.*
    cont> END_FOR
     SEX_FIELD   EMPLOYEE_ID
      L           00175

5.1  –  Format

 (B)0missing-value =

 q> RDB$MISSING q> ( qwq> context-var . field-name qqqqqqqqqqwq ) q>
                      tq> rel-name . field-name qqqqqqqqqqqqqu
                      mq> db_handle . rel-name . field-name qj

5.2  –  Usage Notes

    o  The default value for a field ("Rdb default" in displays by the
       SQL statement SHOW TABLE table-name) is not the same as the missing
       value that you can specify with RDO.  If you do not specify a value
       for a field (column) with a default value, the default value is
       actually stored in the database. This is true whether you are using
       RDO or SQL.

       An RDO missing value is not actually stored in the database. If you
       use RDO to specify a missing value for a field, that missing value
       is displayed by RDO when the field has no value stored and the
       internal null flag is set. SQL does not recognize any missing value
       specified by RDO; if the field has no value stored and the null flag
       is set, then SQL displays "NULL" for the column, regardless of
       whether you specified any missing value with RDO.

       One implication of the way in which Oracle Rdb handles default values
       is that if you change the default value for a column, it has no
       effect on any existing data in the database; that is, rows stored
       with columns containing the "old" default values are not changed.
       By contrast, changing the missing value does change what is displayed
       by RDO-based applications for columns that have no value stored and
       that have the null flag set.

    o  The value of RDB$MISSING is set at compile time.  If the missing
       value for a field is changed, then sources that contain references
       to RDB$MISSING for that field still use the old missing value.  To
       correct this problem, all sources that contain a reference to
       RDB$MISSING on the field must be recompiled.

5.3  –  Examples

    Example 1

    The following example uses RDB$MISSING in a STORE statement:

       .
       .
       .
    *
    *    If the date in the input file contains zeros,
    *    use the GET statement with RDB$MISSING to retrieve
    *    the missing value and assign it to a variable.
    *
            IF END-DATE = '000000' THEN
    &RDB&   GET END-DATE = RDB$MISSING(SALARY_HISTORY.SALARY_END)
    &RDB&   END_GET
            END-IF.
    *

    *    Store the field values in the relation.
    *    If the date in the input file contained zeros,
    *    the missing value is passed to Oracle Rdb, and
    *    the SALARY_END field is marked as missing.
    *
    &RDB&  STORE S IN SALARY_HISTORY USING
    &RDB&        S.EMPLOYEE_ID = EMP-ID;
    &RDB&        S.SALARY_START = START-DATE;
    &RDB&        S.SALARY_END = END-DATE;
    &RDB&        S.SALARY_AMOUNT = SALARY;
    &RDB&      END_STORE

    This program fragment shows how your program might test for a missing
    field in an input file and make the field missing in the database. This
    program assumes that a missing value has been defined for the field. The
    program does not need to know what the missing value is, and the
    program needs only one STORE statement.

6  –  first_from

    The FIRST FROM expression works in two steps:

    o  It forms the record stream as specified by the record
       selection expression.

    o  If at least one record matches the RSE, Oracle Rdb uses the
       values stored in the first record of the record stream to
       evaluate the value expression.

    Format

  (B)0first-from-expr

    qqq> FIRST qqq> value-expr qqq> FROM qqq> rse qqq>

7  –  host_variable

    A host or substitution variable, used to communicate with a
    calling (host) program. A host language program declares a host
    language variable and then assigns database values to it. Host
    language variables are not used in RDO.

    You can also use host language variables as names to represent
    databases and database elements. These names are called handles.

7.1  –  database_handle

    A variable name declared as a longword in a host language
    program. You can use the database handle in several statements
    and clauses to identify a database.

7.2  –  transaction_handle

    A host language variable you associate with a transaction. If
    you do not declare the transaction handle explicitly, Oracle Rdb
    attaches an internal identifier to the transaction.

    The ability to declare a transaction handle is provided for
    compatibility with other database products and future releases
    of Oracle Rdb.

7.3  –  request_handle

    A host language variable you associate with a compiled request.

8  –  literal

    A character string literal, numeric literal, or date literal. You
    can use a literal as a value expression. For example:

    FOR E IN EMPLOYEES WITH E.LAST_NAME = "Toliver"
       PRINT E.EMPLOYEE_ID                 -------
    END_FOR                                   |
                                        string literal

    FOR S IN SALARY_HISTORY WITH S.SALARY_AMOUNT > 40000
       PRINT S.EMPLOYEE_ID                         -----
    END_FOR                                          |
                                              numeric literal

    FOR S IN SALARY_HISTORY WITH S.SALARY_START = "9-APR-1980"
       PRINT S.EMPLOYEE_ID                         ----------
    END_FOR                                             |
                                                  date literal

9  –  statistical_expression

    Calculates a value based on a value expression for every record
    in a record stream. When you use a statistical expression (except
    for COUNT), you specify a value expression and a record selection
    expression (RSE). Oracle Rdb first evaluates the value expression
    for each record in the record stream formed by the RSE. Then it
    calculates a single value based on all the results of the first
    step.  Statistical expressions are also called aggregate
    expressions.

    For more information on value expressions and record selection
    expressions, ask for HELP on Value_expr and RSE.

9.1  –  Format

  (B)0statistical-expr =

    qqqqqqqwqq> MAX qqqqqwqq> value-expr qqwqq> OF qq> rse qq>
           tqq> MIN qqqqqu                 x
           tqq> TOTAL qqqu                 x
           tqq> AVERAGE qj                 x
           mqq> COUNT qqqqqqqqqqqqqqqqqqqqqj

9.1.1  –  MAX

    --> MAX --> value-expr --> OF --> rse -->

    Find the highest paid employee in the company:

    START_TRANSACTION READ_ONLY

    FOR SAL IN CURRENT_SALARY WITH SAL.SALARY_AMOUNT =
        MAX CURR.SALARY_AMOUNT OF
            CURR IN CURRENT_SALARY
    PRINT SAL.EMPLOYEE_ID,
          SAL.LAST_NAME,
          SAL.SALARY_AMOUNT
    END_FOR

    COMMIT

9.1.2  –  MIN

    --> MIN --> value-expr --> OF --> rse -->

    Find the job title with the smallest minimum salary:

    FOR J IN JOBS WITH J.MINIMUM_SALARY =
          MIN JM.MINIMUM_SALARY OF JM IN JOBS
    PRINT J.JOB_TITLE,
          J.MINIMUM_SALARY
    END_FOR

9.1.3  –  TOTAL

    --> TOTAL --> value-expr --> OF --> rse -->

    Assign the total payroll for the company to a host language
    variable:

    &RDB&   START_TRANSACTION READ_ONLY
    &RDB&       GET TOTAL-SALARY = TOTAL CH.SALARY_AMOUNT
    &RDB&            OF CH IN CURRENT_SALARY
    &RDB&   END_GET
    &RDB&   COMMIT

9.1.4  –  AVERAGE

    --> AVERAGE --> value-expr --> OF --> rse -->

    Display the average salary of all the employees whose salaries
    exceed $50,000:

    PRINT  AVERAGE CS.SALARY_AMOUNT OF
            CS IN CURRENT_SALARY WITH
             CS.SALARY_AMOUNT GT 50000

9.1.5  –  COUNT

    --> COUNT --> OF --> rse -->

    The following COBOL code fragment finds out the number of
    employees who live in a particular state, specified by the host
    language variable STATE:

    ACCEPT STATE.
    &RDB&   GET STATE-COUNT = COUNT OF E IN EMPLOYEES
    &RDB&            WITH E.STATE = STATE
    &RDB&   END_GET
            DISPLAY "Number of employees in ", STATE, " is ",
                STATE-COUNT.

9.2  –  More

    If you invoke multiple databases in the RDO interface and declare an
    aggregate expression, Oracle Rdb returns an %RDB-E-INVALID_BLR error.
    For example:

    RDO> INVOKE DATABASE FEE = FILENAME USER1:[STUDENT_FEES]STUDENTDB
    RDO> INVOKE DATABASE STA = FILENAME USER2:[STUDENT_FEES]STATS
    RDO>
    RDO> START_TRANSACTION ON FEE USING
    cont>   (READ_ONLY RESERVING FEE.TRANS FOR SHARED READ) AND
    cont>    ON STA USING (READ_WRITE RESERVING STA.STATDATA FOR
    cont>    EXCLUSIVE WRITE)
    RDO>
    RDO>   FOR TX IN FEE.TRANS SORTED BY TX.SNO, TX.SESS, TX.TYPE
    cont>          REDUCED TO TX.SNO, TX.SESS, TX.TYPE
    cont>        WITH TX.SESS = "91S"
    cont>     STORE SX IN STA.STATDATA USING
    cont>        SX.SNO = TX.SNO;
    cont>        SX.SESS = TX.SESS;
    cont>        SX.TYPE = TX.TYPE;
    cont>        SX.AMOUNT = (TOTAL T1.AMOUNT OF T1 IN FEE.TRANS WITH
    cont>           T1.SNO = TX.SNO AND
    cont>           T1.SESS = TX.SESS AND
    cont>           T1.TYPE = TX.TYPE);
    cont>     END_STORE
    cont>  END_FOR
    %RDB-E-INVALID_BLR, request BLR is incorrect at offset 172
    RDO> ROLLBACK;
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