SQL$HELP_OLD72.HLB  —  INTEGRATE
    Makes definitions in a database and in a repository correspond by
    changing definitions in either the database or the repository.

    The INTEGRATE statement can also create database definitions in
    the repository by copying from a database file to a specified
    repository.

1  –  Environment

    You can issue the INTEGRATE statement only in interactive SQL.

2  –  Format

  INTEGRATE ---+
  +------------+
  ++-> DATABASE --+
   | +------------+
   | ++--> FILENAME -> <file-name> -> CREATE PATHNAME -> <path-name-2> +->
   |  +--> PATHNAME -> <path-name-1> +-+-> ALTER FILES ------+---------+
   |                                 | +-> ALTER DICTIONARY -+
   +-> DOMAIN --> <domain-name> -----+
   +-> TABLE ---> <table-name> ------+

  domain-name =

  -+---------------------------+-> <name-of-domain> --->
   +-+-> <schema-name> -+-> . -+
     +-> <alias> -------+

  table-name =

  -+-------------------------+-> <name-of-table> +->
   +-+-> <schema-name> +> . -+                   |
   | +-> <alias> ------+                         |
   +---> " <alias.name-of-table> " --------------+

3  –  Arguments

3.1  –  DATABASE_FILENAME_CREATE_PATHNAME

    Stores existing database system file definitions in the
    repository for the first time. Use the INTEGRATE DATABASE
    FILENAME clause if you did not specify PATHNAME or the repository
    was not installed when you created the database.

    If you use the INTEGRATE DATABASE FILENAME clause, the repository
    database node specified in the path name must not exist. If
    older repository definitions do exist with the path name you
    are specifying, specify a different repository path name, placing
    the new database definitions elsewhere.

    The file-name clause is the full or partial file specification
    that specifies the source of the database definitions. You do
    not need to specify the file extension. The database system
    automatically uses the database root file ending with the .rdb
    file extension.

    Path-name-2 is the repository path name for the repository where
    the INTEGRATE statement creates the database definitions (using
    the database system files as the source). You can specify either
    a full repository path name or a relative repository path name.
    This must be the path name, not the name of the database itself.

3.2  –  DATABASE_PATHNAME_ALTER_FILES

    Alters any table and domain definitions created with the CREATE
    TABLE FROM statement or the CREATE DOMAIN FROM statement so they
    match their sources in the repository. The INTEGRATE . . . ALTER
    FILES statement has no effect on definitions not created with the
    FROM clause. This is useful if the database file definitions no
    longer match the definitions in the repository.

    Path-name-1 is the repository path name for the repository
    database that is the source for altering the definitions in the
    database. You can specify either a full repository path name or a
    relative repository path name.

                                 CAUTION

       Using the ALTER FILES clause may destroy data associated
       with definitions in your database file if those definitions
       are not defined in your repository. In this situation, you
       will lose real data. For this reason, use the ALTER FILES
       clause with caution.

3.3  –  DATABASE_PATHNAME_ALTER_DICTIONARY

    Alters the database definitions in the dictionary so they are
    the same as those in the database. This is useful if repository
    definitions no longer match the definitions in the database
    file. Note, though, that altering database definitions in the
    repository may affect other applications that refer to these
    definitions.

    The repository must already exist and may contain definitions.

    Path-name-1 is the repository path name for the repository
    database that SQL alters using the definitions in the database
    file as a source. You can specify either a full repository path
    name or a relative path name.

3.4  –  DOMAIN_ALTER_FILES

    Alters the domain definitions in the database to match the field
    definitions in the repository. Collating sequences referenced
    by the domain and columns that are based on the domain and the
    tables that contain them may also be altered if they have changed
    in the repository.

3.5  –  DOMAIN_ALTER_DICTIONARY

    Alters the field definitions in the repository to match the
    domain definitions in the database. Collating sequences
    referenced by the domain and columns that are based on the domain
    and the tables that contain them may also be altered if they have
    changed in the database.

3.6  –  TABLE_ALTER_FILES

    Alters the table definitions in the database to match the record
    definitions in the repository. Other objects referencing the
    table or that are referenced by it and have changed definition in
    the repository may be altered. These other objects are:

    o  Domains

    o  Collating sequences

    o  Other referenced tables and columns

    o  Foreign key constraints and check constraints

    o  Indexes

    o  Views that reference the table

    o  Storage maps and storage areas referenced by an index

3.7  –  TABLE_ALTER_DICTIONARY

    Alters the record definitions in the repository to match the
    table definitions in the database. Other objects referencing the
    table or that are referenced by it and have changed definitions
    in the database may be altered. These other objects are:

    o  Fields

    o  Collating sequences

    o  Other referenced records and fields

    o  Foreign key constraints and check constraints

    o  Indexes

4  –  Examples

    The following example shows how to use the INTEGRATE statement
    with the ALTER FILES clause. In this example, fields (domains)
    are defined in the repository. Then, using SQL, a table is
    created based on the repository definitions. Subsequently, the
    repository definitions are changed so the definitions in the
    database file and the repository no longer match. The INTEGRATE
    statement resolves this situation by altering the database
    definitions using the repository definitions as the source.

    $ !
    $ ! Define CDD$DEFAULT
    $ !
    $ DEFINE CDD$DEFAULT SYS$COMMON:[REPOSITORY]CATALOG
    $ !
    $ ! Enter the CDO to create new field and record definitions:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Create two field (domain) definitions in the repository:
    CDO> !
    CDO> DEFINE FIELD PART_NUMBER DATATYPE IS WORD.
    CDO> DEFINE FIELD PRICE DATATYPE IS WORD.
    CDO> !
    CDO> ! Define a record called INVENTORY using the two
    CDO> ! fields previously defined:
    CDO> !
    CDO> DEFINE RECORD INVENTORY.
    CDO> PART_NUMBER.
    CDO> PRICE.
    CDO> END RECORD INVENTORY.
    CDO> !
    CDO> EXIT
    $ !
    $ ! Enter SQL:
    $ !
    $ SQL
    SQL> !
    SQL> ! In SQL, create the database ORDERS:
    SQL> !
    SQL> CREATE DATABASE ALIAS ORDERS PATHNAME ORDERS;
    SQL> !
    SQL> ! Create a table in the database ORDERS using the
    SQL> ! INVENTORY record (table) just created in the repository:
    SQL> !
    SQL> CREATE TABLE FROM SYS$COMMON:[REPOSITORY]CATALOG.INVENTORY
    cont> ALIAS ORDERS;
    SQL> !
    SQL> ! Use the SHOW TABLE statement to see information about
    SQL> ! INVENTORY the table:
    SQL> !
    SQL> SHOW TABLE ORDERS.INVENTORY
    Information for table ORDERS.INVENTORY

    CDD Pathname:   SYS$COMMON:[REPOSITORY]CATALOG.INVENTORY;1

    Columns for table ORDERS.INVENTORY:
    Column Name                     Data Type        Domain
    -----------                     ---------        ------
    PART_NUMBER                     SMALLINT         ORDERS.PART_NUMBER
    PRICE                           SMALLINT         ORDERS.PRICE
       .
       .
       .
    SQL> COMMIT;
    SQL> EXIT
    $ !
    $ ! Enter CDO again:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Verify that the fields PART_NUMBER and PRICE are
    cdo> ! in the record INVENTORY:
    CDO> !
    CDO> SHOW RECORD INVENTORY
    Definition of record INVENTORY
    |   Contains field           PART_NUMBER
    |   Contains field           PRICE
    CDO> !
    CDO> ! Define the fields VENDOR_NAME and QUANTITY. Add them to
    CDO> ! the record INVENTORY using the CDO CHANGE RECORD command. Now, the
    CDO> ! definitions used by the database no longer match the definitions
    CDO> ! in the respository, as the CDO message indicates:
    CDO> !
    CDO> DEFINE FIELD VENDOR_NAME DATATYPE IS TEXT 20.
    CDO> DEFINE FIELD QUANTITY DATATYPE IS WORD.
    CDO> !
    CDO> CHANGE RECORD INVENTORY.
    CDO> DEFINE VENDOR_NAME.
    CDO> END.
    CDO> DEFINE QUANTITY.
    CDO> END.
    CDO> END INVENTORY RECORD.
    %CDO-I-DBMBR, database SQL_USER:[PRODUCTION]CATALOG.ORDERS(1) may need
    to be INTEGRATED
    CDO> !
    CDO> ! Use the SHOW RECORD command to see if the fields VENDOR_NAME
    CDO> ! and QUANTITY are part of the INVENTORY record:
    CDO> !
    CDO> SHOW RECORD INVENTORY
    Definition of record INVENTORY
    |   Contains field           PART_NUMBER
    |   Contains field           PRICE
    |   Contains field           VENDOR_NAME
    |   Contains field           QUANTITY
    CDO> !
    CDO> EXIT
    $ !
    $ ! Enter SQL again:
    $ !
    $ SQL
    SQL> !
    SQL> ! Use the INTEGRATE  . . .  ALTER FILES statement to update
    SQL> ! the definitions in the database file, using the repository definitions
    SQL> ! as the source. Note the INTEGRATE statement implicitly attaches to
    SQL> ! the database.
    SQL> !
    SQL> INTEGRATE DATABASE PATHNAME SYS$COMMON:[REPOSITORY]CATALOG.ORDERS
    cont> ALTER FILES;
    SQL> !
    SQL> ! Use the SHOW TABLE statement to see if the table INVENTORY has
    SQL> ! changed.  SQL has added the VENDOR_NAME and QUANTITY domains
    SQL> ! to the database file:
    SQL> !
    SQL> SHOW TABLE INVENTORY
    Information for table INVENTORY

    CDD Pathname:   SYS$COMMON:[REPOSITORY]CATALOG.INVENTORY;1

    Columns for table INVENTORY:
    Column Name                     Data Type        Domain
    -----------                     ---------        ------
    PART_NUMBER                     SMALLINT         PART_NUMBER
    PRICE                           SMALLINT         PRICE
    VENDOR_NAME                     CHAR(20)         VENDOR_NAME
    QUANTITY                        SMALLINT         QUANTITY
       .
       .
       .
    SQL> COMMIT;
    SQL> EXIT

    The following example shows how to update the repository using
    the database files as the source by issuing the INTEGRATE
    statement with the ALTER DICTIONARY clause. The example starts
    with the definitions in the repository matching the definitions
    in the database file. There is a table in the database and a
    record in the repository, both called CUSTOMER_ORDERS. The
    CUSTOMER_ORDERS table has four columns based on four domains
    of the same name: FIRST_ORDER, SECOND_ORDER, THIRD_ORDER, and
    FOURTH_ORDER.

    This example adds to the database file a domain called FIFTH_DOM,
    on which the local column called FIFTH_ORDER is based. At this
    point, the database file and the repository definitions no longer
    match. The INTEGRATE . . . ALTER DICTIONARY statement resolves
    this situation by altering the repository using the database file
    definitions as the source.

    SQL> ! Create the database using the PATHNAME clause:
    SQL> !
    SQL> CREATE DATABASE FILENAME TEST1
    cont>              PATHNAME SYS$COMMON:[REPOSITORY]TEST1;
    SQL> !
    SQL> ! Create domains for the TEST1 database:
    SQL> !
    SQL> CREATE DOMAIN FIRST_ORDER CHAR(4);
    SQL> CREATE DOMAIN SECOND_ORDER CHAR(4);
    SQL> CREATE DOMAIN THIRD_ORDER CHAR(4);
    SQL> CREATE DOMAIN FOURTH_ORDER CHAR(4);
    SQL> CREATE TABLE CUSTOMER_ORDERS
    cont>     (FIRST_ORDER FIRST_ORDER,
    cont>      SECOND_ORDER SECOND_ORDER,
    cont>      THIRD_ORDER THIRD_ORDER,
    cont>      FOURTH_ORDER FOURTH_ORDER);
    SQL> COMMIT;
    SQL> DISCONNECT DEFAULT;
    SQL> !
    SQL> ! Attach to the database with the FILENAME clause so the
    SQL> ! repository is not updated:
    SQL> !
    SQL> ATTACH  'ALIAS TEST1 FILENAME TEST1';
    SQL> !
    SQL> ! Use the SHOW TABLE statement to see what columns and domains
    SQL> ! are part of the table CUSTOMER_ORDERS:
    SQL> !
    SQL> SHOW TABLE (COLUMNS) TEST1.CUSTOMER_ORDERS;
    Information on table TEST1.CUSTOMER_ORDERS

    Columns for table TEST1.CUSTOMER_ORDERS:

    Column Name                     Data Type        Domain
    -----------                     ---------        ------
    FIRST_ORDER                     CHAR(4)          FIRST_ORDER
    SECOND_ORDER                    CHAR(4)          SECOND_ORDER
    THIRD_ORDER                     CHAR(4)          THIRD_ORDER
    FOURTH_ORDER                    CHAR(4)          FOURTH_ORDER

    SQL> !
    SQL> ! Create a new domain called FIFTH_DOM.  Add a new
    SQL> ! column to the CUSTOMER_ORDERS table called FIFTH_ORDER
    SQL> ! and base it on the domain FIFTH_DOM:
    SQL> !
    SQL> CREATE DOMAIN TEST1.FIFTH_DOM CHAR(4);
    SQL> ALTER TABLE TEST1.CUSTOMER_ORDERS ADD FIFTH_ORDER TEST1.FIFTH_DOM;
    SQL> !
    SQL> ! Check the CUSTOMER_ORDERS table to verify that the column FIFTH_ORDER
    SQL> ! was created:
    SQL> !
    SQL> SHOW TABLE (COLUMNS) TEST1.CUSTOMER_ORDERS;

    Information on table TEST1.CUSTOMER_ORDERS

    Column Name                     Data Type        Domain
    -----------                     ---------        ------
    FIRST_ORDER                     CHAR(4)          TEST1.FIRST_ORDER
    SECOND_ORDER                    CHAR(4)          TEST1.SECOND_ORDER
    THIRD_ORDER                     CHAR(4)          TEST1.THIRD_ORDER
    FOURTH_ORDER                    CHAR(4)          TEST1.FOURTH_ORDER
    FIFTH_ORDER                     CHAR(4)          TEST1.FIFTH_DOM
    SQL> COMMIT;
    SQL> EXIT
    $ !
    $ ! Invoke CDO:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Note that only the database definition for TEST1 appears in the
    CDO> ! repository directory:
    CDO> !
      DIRECTORY
    Directory SYS$COMMON:[REPOSITORY]
    TEST1(1)                                   CDD$DATABASE
    CDO> !
    CDO> ! Check the record CUSTOMER_ORDERS.  The field FIFTH_ORDER is not part of
    CDO> ! the record CUSTOMER_ORDERS.  This means that the definitions in the
    CDO> ! database file do not match the definitions in the repository.
    CDO> !
    CDO> !
    CDO> SHOW RECORD CUSTOMER_ORDERS FROM DATABASE TEST1
    Definition of the record CUSTOMER_ORDERS
    |   Contains field              FIRST_ORDER
    |   Contains field              SECOND_ORDER
    |   Contains field              THIRD_ORDER
    |   Contains field              FOURTH_ORDER
    CDO> EXIT
    $ !
    $ ! Enter SQL again:
    $ !
    $ SQL
    SQL> !
    SQL> ! To make the definitions in the repository match those in the database
    SQL> ! file, use the INTEGRATE statement with the ALTER DICTIONARY clause.
    SQL> ! Note that the INTEGRATE statement implicitly attaches to the
    SQL> ! database.
    SQL> !
    SQL> INTEGRATE DATABASE PATHNAME TEST1 ALTER DICTIONARY;
    SQL> COMMIT;
    SQL> EXIT
    $ !
    $ ! Enter CDO again:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Use the SHOW RECORD command to verify that the field FIFTH_ORDER is now
    CDO> ! part of the record CUSTOMER_ORDERS.  Now, the definitions in both the
    CDO> ! repository and the database file are the same.
    CDO> !
    CDO> SHOW RECORD CUSTOMER_ORDERS FROM DATABASE TEST1
    Definition of record CUSTOMER_ORDERS
    |   Contains field           FIRST_ORDER
    |   Contains field           SECOND_ORDER
    |   Contains field           THIRD_ORDER
    |   Contains field           FOURTH_ORDER
    |   Contains field           FIFTH_ORDER
    CDO> !
    CDO> ! Use the ENTER command to make the record (table) CUSTOMER_ORDERS and
    CDO> ! its fields (domains) appear in the repository.  The ENTER command
    CDO> ! assigns a repository directory name to an element.
    CDO> !
    CDO> ENTER FIELD FIRST_ORDER FROM DATABASE TEST1
    CDO> !
    CDO> ! Verify that a repository path name was assigned to the field
    CDO> ! FIRST_ORDER:
    CDO> !
    CDO> DIRECTORY
     Directory SYS$COMMON:[REPOSITORY]
    FIRST_ORDER(1)                             FIELD
    TEST1(1)                                   CDD$DATABASE
    CDO> ENTER FIELD SECOND_ORDER FROM DATABASE TEST1
       .
       .
       .
    CDO> ENTER FIELD FIFTH_DOM FROM DATABASE TEST1
    CDO> !
    CDO> ! Now all the domains and tables in TEST1 have been assigned a
    CDO> ! repository directory name:
    CDO> DIRECTORY
    Directory SYS$COMMON:[REPOSITORY]
    CUSTOMER_ORDERS(1)                         RECORD
    FIFTH_DOM(1)                               FIELD
    FIRST_ORDER(1)                             FIELD
    FOURTH_ORDER(1)                            FIELD
    SECOND_ORDER(1)                            FIELD
    TEST1(1)                                   CDD$DATABASE
    THIRD_ORDER(1)                             FIELD

    To store existing database file definitions in the repository
    for the first time, use the INTEGRATE statement with the CREATE
    PATHNAME clause. This statement builds repository definitions
    using the database file as the source.

    The following example shows how to store existing database system
    file definitions in the repository for the first time. This
    example first creates a database only in a database file, not
    in the repository. Next, the INTEGRATE statement with the CREATE
    PATHNAME clause updates the repository with the data definitions
    from the database system file.

    SQL> !
    SQL> ! Create a database without requiring the repository (the default)
    SQL> ! or specifying a path name:
    SQL> !
    SQL> CREATE DATABASE ALIAS DOGS;
    SQL> !
    SQL> ! Now create a table for the breed of dog, poodles.  The
    SQL> ! columns in the table are types of poodles:
    SQL> !
    SQL> CREATE TABLE DOGS.POODLES
    cont> ( STANDARD  CHAR(10),
    cont>   MINIATURE CHAR(10),
    cont>   TOY       CHAR(10) );
    SQL> !
    SQL> ! Use the SHOW TABLE statement to see the table POODLES:
    SQL> !
    SQL> SHOW TABLE (COLUMNS) DOGS.POODLES
    Information on table DOGS.POODLES

    Columns for table DOGS.POODLES:
    Column Name                     Data Type        Domain
    -----------                     ---------        ------
    STANDARD                        CHAR(10)
    MINIATURE                       CHAR(10)
    TOY                             CHAR(10)

    SQL> COMMIT;
    SQL> EXIT
    $ !
    $ ! Enter CDO:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Use the DIRECTORY command to check if the database definition DOGS is
    CDO> ! in the repository:
    CDO> !
    CDO> DIRECTORY
    Directory SYS$COMMON:[REPOSITORY]
    %CDO-E-NOTFOUND, entity  not found in dictionary
    CDO> !
    CDO> ! DOGS is not in the repository.
    CDO> !
    CDO> EXIT
    $ !
    $ ! Enter SQL again:
    $ !
    $ SQL
    SQL> !
    SQL> ! Use the INTEGRATE statement using the CREATE PATHNAME clause to
    SQL> ! update the repository using the DOGS database file:
    SQL> !
    SQL> INTEGRATE DATABASE FILENAME SQL_USER:[PRODUCTION.ANIMALS]DOGS
    cont> CREATE PATHNAME SYS$COMMON:[REPOSITORY]DOGS;
    SQL> COMMIT;
    SQL> EXIT
    $ !
    $ ! Enter CDO again:
    $ !
    $ REPOSITORY
    CDO> !
    CDO> ! Use the DIRECTORY command to check if the database definition DOGS
    CDO> ! has been integrated into the repository:
    CDO> !
    CDO> DIRECTORY
     Directory SYS$COMMON:[REPOSITORY]
    DOGS(1)                                    CDD$DATABASE
    CDO> !
    CDO> ! You can also use the SHOW USED_BY command to see
    CDO> ! if the record (table) POODLES and the fields (columns)
    CDO> ! STANDARD, MINIATURE, and TOY are part of the database
    CDO> ! definition DOGS.
    CDO> !
    CDO> SHOW USED_BY/FULL DOGS
    Members of SYS$COMMON:[REPOSITORY]DOGS(1)
    |   DOGS                            (Type : CDD$RDB_DATABASE)
    |   |   via CDD$DATABASE_SCHEMA
       .
       .
       .
    |   SYS$COMMON:[REPOSITORY]CDD$RDB_SYSTEM_METADATA.RDB$CDD_NAME;1(Type : FIELD)
    |   |   |   |   via CDD$DATA_AGGREGATE_CONTAINS
    |   |   POODLES                         (Type : RECORD)
    |   |   |   via CDD$RDB_DATA_AGGREGATE
    |   |   |   STANDARD                        (Type : FIELD)
    |   |   |   |   via CDD$DATA_AGGREGATE_CONTAINS
    |   |   |   |   SQL$10CHR                       (Type : FIELD)
    |   |   |   |   |   via CDD$DATA_ELEMENT_BASED_ON
    |   |   |   MINIATURE                       (Type : FIELD)
    |   |   |   |   via CDD$DATA_AGGREGATE_CONTAINS
    |   |   |   |   SQL$10CHR                       (Type : FIELD)
    |   |   |   |   |   via CDD$DATA_ELEMENT_BASED_ON
    |   |   |   TOY                             (Type : FIELD)
    |   |   |   |   via CDD$DATA_AGGREGATE_CONTAINS
    |   |   |   |   SQL$10CHR                       (Type : FIELD)
    |   |   |   |   |   via CDD$DATA_ELEMENT_BASED_ON
       .
       .
       .
    CDO> EXIT

    The following example shows how to update a repository field
    using the database files as the source by issuing the INTEGRATE
    DOMAIN statement with the ALTER DICTIONARY clause. The example
    starts with the definitions in the repository matching the
    definitions in the database file. There is a domain in the
    database and a field in the repository, both called DOMTEST.

    This example alters the domain in the database file name TESTDB.
    At this point, the database file and the repository definitions
    no longer match. The INTEGRATE DOMAIN . . . ALTER DICTIONARY
    statement resolves this situation by altering the repository
    using the database file definitions as the source.

    SQL> -- Create a database, domain, and table.
    SQL> --
    SQL> CREATE DATABASE FILENAME TESTDB PATHNAME TESTDB;
    SQL> CREATE COLLATING SEQUENCE FRENCH FRENCH;
    SQL> CREATE DOMAIN DOMTEST
    cont>    CHAR(5)
    cont>    COLLATING SEQUENCE IS FRENCH;
    SQL> CREATE DOMAIN TEST_DOM_1
    cont>    CHAR(1);
    SQL> CREATE TABLE TEMP_TAB
    cont>    (ROW1 CHAR(5),
    cont>     ROW2 DOMTEST,
    cont>     ROW3 TEST_DOM_1,
    cont>     ROW4 INT);
    SQL> COMMIT;
    SQL> SHOW DOMAIN DOMTEST
    DOMTEST                         CHAR(5)
     Collating sequence: FRENCH
    SQL> --
    SQL> -- Disconnect from the database and invoke Oracle CDD/Repository
    SQL> -- user interface and show the field DOMTEST from the TESTDB
    SQL> -- database.
    SQL> --
    SQL> DISCONNECT ALL;
    SQL> EXIT
    $ CDO
    CDO> SHOW FIELD DOMTEST FROM DATABASE TESTDB
    Definition of field DOMTEST
    |   Datatype                 text size is 5 characters
    |   Collating sequence       'FRENCH'

    CDO> !
    CDO> ! Exit from Oracle CDD/Repository and attach to the database by file name
    CDO> ! only.
    CDO> !
    CDO> EXIT
    SQL> ATTACH 'FILENAME TESTDB';
    SQL> --
    SQL> -- Alter the domain DOMTEST.
    SQL> --
    SQL> ALTER DOMAIN DOMTEST
    cont>    CHAR(10)
    cont>    COLLATING SEQUENCE IS FRENCH;
    SQL> COMMIT;
    SQL> SHOW DOMAIN DOMTEST
    DOMTEST                         CHAR(10)
     Collating sequence: FRENCH
    SQL> --
    SQL> -- Disconnect from the database and attach by path name only to issue
    SQL> -- the INTEGRATE DOMAIN statement.
    SQL> --
    SQL> DISCONNECT ALL;
    SQL> ATTACH 'PATHNAME TESTDB';
    SQL> INTEGRATE DOMAIN DOMTEST ALTER DICTIONARY;
    SQL> COMMIT;
    SQL> --
    SQL> -- Disconnect from the database and invoke Oracle CDD/Repository V6.1
    SQL> -- user interface and show the altered field DOMTEST from the TESTDB
    SQL> -- database.
    SQL> --
    SQL> DISCONNECT ALL;
    SQL> EXIT
    $ CDO
    CDO> SHOW FIELD DOMTEST FROM DATABASE TESTDB
    Definition of field DOMTEST
    |   Datatype                 text size is 10 characters
    |   Collating sequence       'FRENCH'
    |   Generic CDD$DATA_ELEMENT_CHARSET is         '0'
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