Dynamic Number of Column in a table

Hi guys,
I have a requirement that needs dynamic number of column in a tale.
It is possible to do this in Adobe forms.
Thanks,
Chirantan

Hello. It of course is possible in Adobe.
You need to write a simple script using JavaScript or FormCalc to hide or show columns according to some special value. You will work with the presence attribute of the object. E.g. MYFIELD.presence = "visible" or "hidden" or "invisible". You will need to change your subforms content to flowed.
Use these guides:
http://www.adobe.com/devnet/livecycle/articles/lc_designer_scripting_basics/lc_designer_scripting_basics.pdf
help.adobe.com/en_US/livecycle/es/FormCalc.pdf
Hope this helps, good luck, Otto

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  • BI  Layout/Template | Table with dynamic number of columns

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    i have a problem concerning the creation of a dynamic report with the BI publisher.
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    forums but havent really found a solution for this type of problem.
    first of all this is A dummy-structure of my dataset:
    <ROWSET>
         <ROW>
              <FIELD1>1</FIELD2>
              <FIELD2>2</FIELD2>
              <FIELD3>3</FIELD3>
              <FIELD4>4</FIELD4>
         </ROW>
         <ROW>
              <FIELD1>a</FIELD2>
              <FIELD2>b</FIELD2>
              <FIELD3>c</FIELD3>
              <FIELD4>d</FIELD4>
         </ROW>
    </ROWSET>
    in the report the fields represent the columns i need in the table.
    the problem is, that the number of the fields vary. in this example i have 4 fields/columns
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    my dataset is always different because i am loading my dataset via a http request which is
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    Specific answer is here
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    http://winrichman.blogspot.com/search/label/Dynamic%20column
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  • ORA 01792 maximum number of columns in a table or view is 1000

    Hello every1, I wish to register a large xmlschema doc, I am using the command
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    end;
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    First create this package
    create or replace package XDB_ANALYZE_XMLSCHEMA_10200
    authid CURRENT_USER
    as
      function analyzeStorageModel(P_COMPLEX_TYPE_NAME VARCHAR2) return XMLTYPE;
      function analyzeComplexType(COMPLEX_TYPE VARCHAR2) return XMLTYPE;
      procedure renameCollectionTable (XMLTABLE varchar2, XPATH varchar2, COLLECTION_TABLE_PREFIX varchar2);
      function printNestedTables(XML_TABLE varchar2) return XMLType;
      function getComplexTypeElementList(P_SQLTYPE VARCHAR2, P_SQLSCHEMA VARCHAR2) return XDB.XDB$XMLTYPE_REF_LIST_T;
      procedure scopeXMLReferences;
      procedure indexXMLReferences(INDEX_NAME VARCHAR2);
      function generateSchemaFromTable(P_TABLE_NAME varchar2, P_OWNER varchar2 default USER) return XMLTYPE;
      function showSQLTypes(schemaFolder varchar2) return XMLType;
      function generateCreateTableStatement(XML_TABLE_NAME varchar2, NEW_TABLE_NAME varchar2) return CLOB;
    end XDB_ANALYZE_XMLSCHEMA_10200;
    show errors
    create or replace package body XDB_ANALYZE_XMLSCHEMA_10200
    as
    G_DEPTH_COUNT NUMBER(2) := 0;
    TYPE BASETYPE_T is RECORD  
      SUBTYPE               varchar2(128),
      SUBTYPE_OWNER         varchar2(32),
      BASETYPE              varchar2(128),
      BASETYPE_OWNER        varchar2(32)
    TYPE BASETYPE_LIST_T IS TABLE OF BASETYPE_T;
    BASETYPE_LIST            BASETYPE_LIST_T := BASETYPE_LIST_T();
    function findStorageModel(P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2,  P_INCLUDE_SUBTYPES VARCHAR2 DEFAULT 'YES') return XMLType;
    function getLocalAttributes(P_TYPE_NAME varchar2, P_TYPE_OWNER VARCHAR2) return XMLType;
    function makeElement(P_NAME varchar2)
    return xmltype
    as
      V_NAME varchar2(4000) := P_NAME;
    begin
      -- -- dbms_output.put_line('Processing : ' || P_NAME);
      if (P_NAME LIKE '%$') then
        V_NAME := SUBSTR(V_NAME,1,LENGTH(V_NAME) - 1);
      end if;
      if (P_NAME LIKE '%$%') then
        V_NAME := REPLACE(V_NAME,'$','_0x22_');
      end if;
      return XMLTYPE( '<' || V_NAME || '/>');
    end;
    function getPathToRoot(SUBTYPE VARCHAR2, SUBTYPE_OWNER VARCHAR2)
    return varchar2
    as
      TYPE_HIERARCHY varchar2(4000);
    begin
       SELECT sys_connect_by_path( OWNER || '.' || TYPE_NAME , '/')
         INTO TYPE_HIERARCHY
         FROM ALL_TYPES
        WHERE TYPE_NAME = SUBTYPE
          AND OWNER = SUBTYPE_OWNER
              CONNECT BY SUPERTYPE_NAME = PRIOR TYPE_NAME
                     AND SUPERTYPE_OWNER = PRIOR OWNER
              START WITH SUPERTYPE_NAME IS NULL
                     AND SUPERTYPE_OWNER IS NULL;
       return TYPE_HIERARCHY;
    end;
    function expandSQLType(ATTR_NAME VARCHAR2, SUBTYPE VARCHAR2, SUBTYPE_OWNER VARCHAR2)
    return XMLType
    as
      STORAGE_MODEL       XMLTYPE;
      ATTRIBUTES          XMLTYPE;
      EXTENDED_TYPE       XMLTYPE;
      ATTR_COUNT          NUMBER := 0;
      CURSOR FIND_EXTENDED_TYPES
      is
      select TYPE_NAME, OWNER
        from ALL_TYPES
       where SUPERTYPE_NAME  = SUBTYPE
         and SUPERTYPE_OWNER = SUBTYPE_OWNER;
    begin
      -- dbms_output.put_line('Processing SQLType  : "' || SUBTYPE_OWNER || '.' || SUBTYPE || '".' );
      STORAGE_MODEL := makeElement(ATTR_NAME);
      select insertChildXML(STORAGE_MODEL,'/' || STORAGE_MODEL.getRootElement(),'@type',SUBTYPE)
        into STORAGE_MODEL
        from dual;
      select insertChildXML(STORAGE_MODEL,'/' || STORAGE_MODEL.getRootElement(),'@typeOwner',SUBTYPE_OWNER)
        into STORAGE_MODEL
        from dual;
      ATTRIBUTES := getLocalAttributes(SUBTYPE, SUBTYPE_OWNER);         
      ATTR_COUNT := ATTR_COUNT + ATTRIBUTES.extract('/' || ATTRIBUTES.getRootElement() || '/@columns').getNumberVal();
      select appendChildXML(STORAGE_MODEL,'/' || STORAGE_MODEL.getRootElement(),ATTRIBUTES)
        into STORAGE_MODEL        
        from DUAL;
      for t in FIND_EXTENDED_TYPES loop
         EXTENDED_TYPE := expandSQLType('ExtendedType',T.TYPE_NAME,T.OWNER);
         ATTR_COUNT := ATTR_COUNT + EXTENDED_TYPE.extract('/' || EXTENDED_TYPE.getRootElement() || '/@columns').getNumberVal();
         select appendChildXML(STORAGE_MODEL,'/' || STORAGE_MODEL.getRootElement(),EXTENDED_TYPE)
           into STORAGE_MODEL
           from DUAL;   
      end loop;
      select insertChildXML(STORAGE_MODEL,'/' || STORAGE_MODEL.getRootElement(),'@columns',ATTR_COUNT)
        into STORAGE_MODEL
        from dual;
      return STORAGE_MODEL;
    end;
    function getLocalAttributes(P_TYPE_NAME varchar2, P_TYPE_OWNER VARCHAR2)
    return XMLType
    as
      V_ATTRIBUTE_COUNT     NUMBER := 0;
      V_TOTAL_ATTRIBUTES    NUMBER := 0;
      V_TEMP_RESULT         NUMBER;
      V_COLLECTION_TYPE     varchar2(32);
      V_COLLECTION_OWNER    varchar2(32);
      CURSOR FIND_CHILD_ATTRS
      is
      select ATTR_NAME, ATTR_TYPE_OWNER, ATTR_TYPE_NAME, INHERITED
        from ALL_TYPE_ATTRS
       where TYPE_NAME = P_TYPE_NAME
         and OWNER = P_TYPE_OWNER
         and INHERITED = 'NO'
       order by ATTR_NO;       
      V_ATTR                    DBMS_XMLDOM.DOMATTR;
      V_ATTRIBUTE_LIST      XMLTYPE;
      V_ATTRIBUTE_LIST_DOCUMENT DBMS_XMLDOM.DOMDOCUMENT;
      V_ATTRIBUTE_LIST_ROOT     DBMS_XMLDOM.DOMELEMENT;
      V_ATTRIBUTE           XMLTYPE;
      V_ATTRIBUTE_DOCUMENT                DBMS_XMLDOM.DOMDOCUMENT;
      V_ATTRIBUTE_ROOT                    DBMS_XMLDOM.DOMELEMENT;
      V_TYPE_DEFINITION     XMLTYPE;
      V_TYPE_DEFINITION_DOCUMENT  DBMS_XMLDOM.DOMDOCUMENT;
      V_TYPE_DEFINITION_ROOT      DBMS_XMLDOM.DOMELEMENT;
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      V_ATTRIBUTE_LIST          := makeElement('Attributes');
      V_ATTRIBUTE_LIST_DOCUMENT := DBMS_XMLDOM.NEWDOMDOCUMENT(V_ATTRIBUTE_LIST);
      V_ATTRIBUTE_LIST_ROOT     := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_ATTRIBUTE_LIST_DOCUMENT);
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        -- Finding Element / Attribute Name could be tricky. Use SQLName
        V_ATTRIBUTE          := makeElement(ATTR.ATTR_NAME);
        V_ATTRIBUTE_DOCUMENT := DBMS_XMLDOM.NEWDOMDOCUMENT(V_ATTRIBUTE);
        V_ATTRIBUTE_ROOT     := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_ATTRIBUTE_DOCUMENT);
        begin
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          select ELEM_TYPE_NAME, ELEM_TYPE_OWNER
            into V_COLLECTION_TYPE, V_COLLECTION_OWNER
            from ALL_COLL_TYPES
           where TYPE_NAME = ATTR.ATTR_TYPE_NAME
             and OWNER = ATTR.ATTR_TYPE_OWNER;
          -- -- dbms_output.put_line('Adding "' || ATTR.ATTR_NAME || '". Collection of "' || ATTR.ATTR_TYPE_OWNER || '"."' || ATTR.ATTR_TYPE_NAME || '".');
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          -- Collection will be managed as a NESTED TABLE
          -- Each Collection cost 2 columns.
          -- May want to count the number of columns in the NESTED_TABLE at a later date.
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                         DBMS_XMLDOM.SETVALUE(V_ATTR,ATTR.ATTR_TYPE_NAME);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
          V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLCollTypeOwner');
                         DBMS_XMLDOM.SETVALUE(V_ATTR,ATTR.ATTR_TYPE_OWNER);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
          V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLType');
                         DBMS_XMLDOM.SETVALUE(V_ATTR,V_COLLECTION_TYPE);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
          V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLTypeOwner');
                         DBMS_XMLDOM.SETVALUE(V_ATTR,V_COLLECTION_OWNER);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
          V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'columns');
                         DBMS_XMLDOM.SETVALUE(V_ATTR,2);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
        exception
          when no_data_found then
            -- Attribute is not a collection type.
            begin
              -- Check for Attributes based on non-scalar types.
              select 1
                into V_TEMP_RESULT
                from ALL_TYPES
               where TYPE_NAME = ATTR.ATTR_TYPE_NAME
                 and OWNER = ATTR.ATTR_TYPE_OWNER;
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              V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLType');
                             DBMS_XMLDOM.SETVALUE(V_ATTR,ATTR.ATTR_TYPE_NAME);
              V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
              V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLTypeOwner');
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              V_TYPE_DEFINITION_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_TYPE_DEFINITION);
              V_TYPE_DEFINITION_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_TYPE_DEFINITION_DOCUMENT);
              V_ATTRIBUTE_COUNT            := DBMS_XMLDOM.GETATTRIBUTE(V_TYPE_DEFINITION_ROOT,'columns');
              V_TYPE_DEFINITION_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_ATTRIBUTE_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT),TRUE));
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                V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'columns');
                               DBMS_XMLDOM.SETVALUE(V_ATTR,2);
                V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
              else
                -- The cost of a non scalar Type is the number of attributes plus one for Type and one for the TYPEID.
                V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'columns');
                               DBMS_XMLDOM.SETVALUE(V_ATTR,V_ATTRIBUTE_COUNT + 2);
                V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
              end if;
            exception
              when no_data_found then
                 -- Attribute is based on a scalar type
                 V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLType');
                                DBMS_XMLDOM.SETVALUE(V_ATTR,ATTR.ATTR_TYPE_NAME);
                 V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
                 V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'columns');
                                DBMS_XMLDOM.SETVALUE(V_ATTR,1);
                 V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
            end;
        end;
        V_TOTAL_ATTRIBUTES     := V_TOTAL_ATTRIBUTES + DBMS_XMLDOM.GETATTRIBUTE(V_ATTRIBUTE_ROOT,'columns');
        V_ATTRIBUTE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_ATTRIBUTE_LIST_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_ROOT),TRUE));
        V_ATTRIBUTE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_LIST_ROOT),DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_ROOT)));
        DBMS_XMLDOM.FREEDOCUMENT(V_ATTRIBUTE_DOCUMENT);
        if (V_TOTAL_ATTRIBUTES > 25000) then
          exit;
        end if;
      end loop;
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_LIST_DOCUMENT,'columns');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,V_TOTAL_ATTRIBUTES);
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_LIST_ROOT,V_ATTR);
      return V_ATTRIBUTE_LIST;
    end;
    function getSubTypes(P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2)
    return XMLType
    as
      CURSOR FIND_SUBTYPES
      is
      select TYPE_NAME, OWNER
        from ALL_TYPES
       where SUPERTYPE_NAME  = P_TYPE_NAME
         and SUPERTYPE_OWNER = P_TYPE_OWNER; 
      CURSOR FIND_SUBTYPE_HEIRARCHY
      is
      select LEVEL, TYPE_NAME, OWNER
        from ALL_TYPES
       where TYPE_NAME <> P_TYPE_NAME
         and OWNER <> P_TYPE_OWNER
             connect by SUPERTYPE_NAME = PRIOR TYPE_NAME
                    and SUPERTYPE_OWNER = PRIOR OWNER
             start with TYPE_NAME = P_TYPE_NAME
                    and OWNER = P_TYPE_OWNER;
      V_SUBTYPE_LIST                 XMLType;
      V_SUBTYPE_LIST_DOCUMENT        DBMS_XMLDOM.DOMDOCUMENT;
      V_SUBTYPE_LIST_ROOT            DBMS_XMLDOM.DOMELEMENT;
      V_TYPE_DEFINITION              XMLType;
      V_TYPE_DEFINITION_DOCUMENT     DBMS_XMLDOM.DOMDOCUMENT;
      V_TYPE_DEFINITION_ROOT         DBMS_XMLDOM.DOMELEMENT;
      V_SUBTYPE_DEFINITIONS          XMLType;
      V_SUBTYPE_DEFINITIONS_DOCUMENT DBMS_XMLDOM.DOMDOCUMENT;
      V_SUBTYPE_DEFINITIONS_ROOT     DBMS_XMLDOM.DOMELEMENT;
      V_ATTRIBUTE_LIST               XMLType;
      V_ATTRIBUTE_LIST_DOCUMENT      DBMS_XMLDOM.DOMDOCUMENT;
      V_ATTRIBUTE_LIST_ROOT          DBMS_XMLDOM.DOMELEMENT;
      V_SUBTYPES_EXIST               BOOLEAN := FALSE;
      V_TOTAL_columns                number;
      V_ATTRIBUTE_COUNT              number;
      V_ATTR                         DBMS_XMLDOM.DOMATTR;
      V_COMPLEX_TYPE                 VARCHAR2(256);
    begin
      V_SUBTYPE_LIST          := makeElement('SubTypeDefinitions');
      V_SUBTYPE_LIST_DOCUMENT := DBMS_XMLDOM.NEWDOMDOCUMENT(V_SUBTYPE_LIST);
      V_SUBTYPE_LIST_ROOT     := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_SUBTYPE_LIST_DOCUMENT);
      V_TOTAL_columns := 0;
      for t in FIND_SUBTYPES() loop
        V_SUBTYPES_EXIST  := TRUE;
        V_TYPE_DEFINITION            := makeElement(t.TYPE_NAME);
        V_TYPE_DEFINITION_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_TYPE_DEFINITION);
        V_TYPE_DEFINITION_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_TYPE_DEFINITION_DOCUMENT);
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_TYPE_DEFINITION_DOCUMENT,'SQLTypeOwner');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,t.OWNER);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_TYPE_DEFINITION_ROOT,V_ATTR);
        begin
          select x.XMLDATA.NAME
            into V_COMPLEX_TYPE
            from XDB.XDB$COMPLEX_TYPE x
           where x.XMLDATA.SQLTYPE = t.TYPE_NAME
             and x.XMLDATA.SQLSCHEMA = t.OWNER;
          V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_TYPE_DEFINITION_DOCUMENT,'type');
                         DBMS_XMLDOM.SETVALUE(V_ATTR,V_COMPLEX_TYPE);
          V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_TYPE_DEFINITION_ROOT,V_ATTR);
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          when no_data_found then
            null;
          when others then
            raise;
        end;
        V_ATTRIBUTE_LIST            := getLocalAttributes(t.TYPE_NAME, t.OWNER);  
        V_ATTRIBUTE_LIST_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_ATTRIBUTE_LIST);
        V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_ATTRIBUTE_LIST_DOCUMENT);
        V_ATTRIBUTE_COUNT           := DBMS_XMLDOM.GETATTRIBUTE(V_ATTRIBUTE_LIST_ROOT,'columns');
        V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_TYPE_DEFINITION_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_LIST_ROOT),TRUE));
        V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT),DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_LIST_ROOT)));
        DBMS_XMLDOM.FREEDOCUMENT(V_ATTRIBUTE_LIST_DOCUMENT);
        V_SUBTYPE_DEFINITIONS       := getSubTypes(t.TYPE_NAME,t.OWNER);
        if (V_SUBTYPE_DEFINITIONS is not NULL) then
          V_SUBTYPE_DEFINITIONS_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_SUBTYPE_DEFINITIONS);
          V_SUBTYPE_DEFINITIONS_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_SUBTYPE_DEFINITIONS_DOCUMENT);
          V_ATTRIBUTE_COUNT                := V_ATTRIBUTE_COUNT + DBMS_XMLDOM.GETATTRIBUTE(V_SUBTYPE_DEFINITIONS_ROOT,'columns');
          V_SUBTYPE_DEFINITIONS_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_TYPE_DEFINITION_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_SUBTYPE_DEFINITIONS_ROOT),TRUE));
          V_SUBTYPE_DEFINITIONS_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT),DBMS_XMLDOM.MAKENODE(V_SUBTYPE_DEFINITIONS_ROOT)));
        end if;
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_TYPE_DEFINITION_DOCUMENT,'columns');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,V_ATTRIBUTE_COUNT);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_TYPE_DEFINITION_ROOT,V_ATTR);
        V_TYPE_DEFINITION_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_SUBTYPE_LIST_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT),TRUE));
        V_TYPE_DEFINITION_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_SUBTYPE_LIST_ROOT),DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT)));
        V_TOTAL_columns := V_TOTAL_columns + V_ATTRIBUTE_COUNT;
      end loop;
      if (V_SUBTYPES_EXIST) then
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_SUBTYPE_LIST_DOCUMENT,'columns');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,V_TOTAL_columns);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_SUBTYPE_LIST_ROOT,V_ATTR);
        return V_SUBTYPE_LIST;
      else
        return NULL;
      end if;
    end;
    function findSuperTypeModel(P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2)
    return XMLType
    as
    begin
      -- dbms_output.put_line('Processing Super Type : "' || P_TYPE_OWNER || '"."' || P_TYPE_NAME || '"');
      return findStorageModel(P_TYPE_NAME, P_TYPE_OWNER,'NO');
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    return XMLType
    as
      V_TYPE_DEFINITION      XMLTYPE;
      V_ATTRIBUTE_COUNT      NUMBER := 0;
      SUBTYPE_STORAGE_MODEL  XMLTYPE;
      V_SUPERTYPE_DEFINITION XMLTYPE;
      V_SUPERTYPE_DOCUMENT   DBMS_XMLDOM.DOMDOCUMENT;
      V_SUPERTYPE_ROOT       DBMS_XMLDOM.DOMELEMENT;
      V_SUBTYPE_DEFINITION XMLTYPE;
      V_SUBTYPE_DOCUMENT   DBMS_XMLDOM.DOMDOCUMENT;
      V_SUBTYPE_ROOT       DBMS_XMLDOM.DOMELEMENT;
      V_ATTRIBUTE_LIST          XMLTYPE;
      V_ATTRIBUTE_LIST_DOCUMENT DBMS_XMLDOM.DOMDOCUMENT;
      V_ATTRIBUTE_LIST_ROOT     DBMS_XMLDOM.DOMELEMENT;
      cursor FIND_SUPERTYPE_HEIRARCHY
      is
      select TYPE_NAME, OWNER
        from ALL_TYPES
       where TYPE_NAME <> P_TYPE_NAME
         and OWNER <> P_TYPE_OWNER
             connect by TYPE_NAME = PRIOR SUPERTYPE_NAME
                    and OWNER = PRIOR SUPERTYPE_OWNER
             start with TYPE_NAME = P_TYPE_NAME
                    and OWNER = P_TYPE_OWNER
       order by LEVEL;
      V_COMPLEX_TYPE        varchar2(256);
      V_SUPERTYPE_NAME      varchar2(256);
      v_SUPERTYPE_OWNER     varchar2(256);
      V_DOCUMENT            DBMS_XMLDOM.DOMDOCUMENT;
      V_ROOT                DBMS_XMLDOM.DOMELEMENT;
      V_ATTR                DBMS_XMLDOM.DOMATTR;
    begin
      -- dbms_output.put_line('Generating Storage Model for : "' || P_TYPE_OWNER || '"."' || P_TYPE_NAME || '"');
      V_TYPE_DEFINITION := makeElement(P_TYPE_NAME);
      V_DOCUMENT  := DBMS_XMLDOM.NEWDOMDOCUMENT(V_TYPE_DEFINITION);
      V_ROOT      := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_DOCUMENT);
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'SQLTypeOwner');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,P_TYPE_OWNER);
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
      begin
        select x.XMLDATA.NAME
          into V_COMPLEX_TYPE
          from XDB.XDB$COMPLEX_TYPE x
         where x.XMLDATA.SQLTYPE = P_TYPE_NAME
           and x.XMLDATA.SQLSCHEMA = P_TYPE_OWNER;
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'type');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,V_COMPLEX_TYPE);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
        -- Consider adding Schema URL Attribute
      exception
        when no_data_found then
          null;
        when others then
          raise;
      end;
      select SUPERTYPE_NAME, SUPERTYPE_OWNER
        into V_SUPERTYPE_NAME, V_SUPERTYPE_OWNER
        from ALL_TYPES
       where TYPE_NAME = P_TYPE_NAME
         and OWNER = P_TYPE_OWNER;
      -- Process SuperType. 
      if (V_SUPERTYPE_NAME is not null) then
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'SQLParentType');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,V_SUPERTYPE_NAME);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
        V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'SQLParentTypeOwner');
                       DBMS_XMLDOM.SETVALUE(V_ATTR,V_SUPERTYPE_OWNER);
        V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
        -- Find the Definition for the super type. Do not include the definition of it's subtypes.
        V_SUPERTYPE_DEFINITION := findSuperTypeModel(V_SUPERTYPE_NAME, V_SUPERTYPE_OWNER);
        -- -- dbms_output.put_line(dbms_lob.substr(V_SUPERTYPE_DEFINITION.getClobVal(),1000,1));
        V_SUPERTYPE_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_SUPERTYPE_DEFINITION);
        V_SUPERTYPE_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_SUPERTYPE_DOCUMENT);
        V_ATTRIBUTE_COUNT      := V_ATTRIBUTE_COUNT + DBMS_XMLDOM.GETATTRIBUTE(V_SUPERTYPE_ROOT,'columns');
        V_SUPERTYPE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_SUPERTYPE_ROOT),TRUE));
        V_SUPERTYPE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ROOT),DBMS_XMLDOM.MAKENODE(V_SUPERTYPE_ROOT)));
        DBMS_XMLDOM.FREEDOCUMENT(V_SUPERTYPE_DOCUMENT);
      end if;
      -- Process Attributes defined directly by the Type.
      V_ATTRIBUTE_LIST            := getLocalAttributes(P_TYPE_NAME, P_TYPE_OWNER);  
      V_ATTRIBUTE_LIST_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_ATTRIBUTE_LIST);
      V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_ATTRIBUTE_LIST_DOCUMENT);
      V_ATTRIBUTE_COUNT           := V_ATTRIBUTE_COUNT + DBMS_XMLDOM.GETATTRIBUTE(V_ATTRIBUTE_LIST_ROOT,'columns');
      V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_LIST_ROOT),TRUE));
      V_ATTRIBUTE_LIST_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ROOT),DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_LIST_ROOT)));
      DBMS_XMLDOM.FREEDOCUMENT(V_ATTRIBUTE_LIST_DOCUMENT);
      if (P_INCLUDE_SUBTYPES = 'YES') then
        -- Process any Sub-Types...
        V_SUBTYPE_DEFINITION := getSubTypes(P_TYPE_NAME, P_TYPE_OWNER);
        if (V_SUBTYPE_DEFINITION is not null) then
          V_SUBTYPE_DOCUMENT   := DBMS_XMLDOM.NEWDOMDOCUMENT(V_SUBTYPE_DEFINITION);
          V_SUBTYPE_ROOT       := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_SUBTYPE_DOCUMENT);
          V_ATTRIBUTE_COUNT    := V_ATTRIBUTE_COUNT + DBMS_XMLDOM.GETATTRIBUTE(V_SUBTYPE_ROOT,'columns');
          V_SUBTYPE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_SUBTYPE_ROOT),TRUE));
          V_SUBTYPE_ROOT       := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ROOT),DBMS_XMLDOM.MAKENODE(V_SUBTYPE_ROOT)));   
          DBMS_XMLDOM.FREEDOCUMENT(V_SUBTYPE_DOCUMENT);
        end if;
      end if;
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'columns');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,V_ATTRIBUTE_COUNT);
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
      -- Cache the type definition.
      -- dbms_output.put_line('Cached Storage Model for "' || P_TYPE_OWNER || '.' || P_TYPE_NAME || '".');
      insert into XDBPM.XDBPM_STORAGE_MODEL_CACHE (TYPE_NAME, TYPE_OWNER, EXTENDED_DEFINITION, STORAGE_MODEL) VALUES (P_TYPE_NAME, P_TYPE_OWNER, P_INCLUDE_SUBTYPES, V_TYPE_DEFINITION);
      return V_TYPE_DEFINITION;
    end;
    function findStorageModel(P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2, P_INCLUDE_SUBTYPES VARCHAR2 DEFAULT 'YES')
    -- Find the Storage Model for the Base Type.
    -- If the type is derived from another type we need the storage model of the Base Type
    -- As storage models are calculated they are cached in the global temporary table XDBPM_STORAGE_MODEL_CACHE. This makes
    -- the process much more efficient. A global temporary table is used to minimize memory usage.
    return XMLType
    as
      V_STORAGE_MODEL          XMLType;
      V_STORAGE_MODEL_DOCUMENT DBMS_XMLDOM.DOMDOCUMENT;
      V_STORAGE_MODEL_ROOT     DBMS_XMLDOM.DOMELEMENT;
      V_ATTRIBUTE_COUNT        VARCHAR2(10);
    begin
      dbms_output.put_line('findStorageModel(' || G_DEPTH_COUNT || ') : Processing "' || P_TYPE_OWNER || '"."' || P_TYPE_NAME || '".' );
      begin
        SELECT STORAGE_MODEL
          into V_STORAGE_MODEL
          from XDBPM.XDBPM_STORAGE_MODEL_CACHE
         where TYPE_NAME = P_TYPE_NAME
           and TYPE_OWNER = P_TYPE_OWNER
           and EXTENDED_DEFINITION = P_INCLUDE_SUBTYPES;
         -- dbms_output.put_line('Resolved Storage Model from cache.');
      exception
        when no_data_found then
          G_DEPTH_COUNT := G_DEPTH_COUNT + 1;
          V_STORAGE_MODEL := getStorageModel(P_TYPE_NAME,P_TYPE_OWNER, P_INCLUDE_SUBTYPES);
          G_DEPTH_COUNT := G_DEPTH_COUNT - 1; 
        when others then
          raise;
      end;
      V_STORAGE_MODEL_DOCUMENT := DBMS_XMLDOM.NEWDOMDOCUMENT(V_STORAGE_MODEL);
      V_STORAGE_MODEL_ROOT     := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_STORAGE_MODEL_DOCUMENT);
      V_ATTRIBUTE_COUNT          := DBMS_XMLDOM.GETATTRIBUTE(V_STORAGE_MODEL_ROOT,'columns');
      dbms_output.put_line('findStorageModel : Attribute Count for "' || P_TYPE_OWNER || '"."' || P_TYPE_NAME || '" = ' || V_ATTRIBUTE_COUNT || '.' );
      return V_STORAGE_MODEL;
    end;
    function analyzeStorageModel(P_COMPLEX_TYPE_NAME VARCHAR2, P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2)
    -- Generate a map showing the number of columns required to persist an instance of the SQL type.
    return XMLType
    as
      V_STORAGE_MODEL       XMLTYPE;
      V_COUNT               NUMBER := 0;
      V_DOCUMENT            DBMS_XMLDOM.DOMDOCUMENT;
      V_ROOT                DBMS_XMLDOM.DOMELEMENT;
      V_ATTR                DBMS_XMLDOM.DOMATTR;
      V_MODEL               DBMS_XMLDOM.DOMELEMENT;
      V_TYPE_DEFINITION     DBMS_XMLDOM.DOMELEMENT;
    begin
      V_STORAGE_MODEL := makeElement(P_COMPLEX_TYPE_NAME);
      V_DOCUMENT  := DBMS_XMLDOM.NEWDOMDOCUMENT(V_STORAGE_MODEL);
      V_ROOT      := DBMS_XMLDOM.GETDOCUMENTELEMENT(V_DOCUMENT);
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'SQLType');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,P_TYPE_NAME);
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'SQLTypeOwner');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,P_TYPE_OWNER);
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
      V_TYPE_DEFINITION   := DBMS_XMLDOM.GETDOCUMENTELEMENT(DBMS_XMLDOM.NEWDOMDOCUMENT(findStorageModel(P_TYPE_NAME, P_TYPE_OWNER, 'YES')));
      V_TYPE_DEFINITION   := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.IMPORTNODE(V_DOCUMENT,DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION),TRUE));
      V_TYPE_DEFINITION   := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ROOT),DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION)));
      V_ATTR      := DBMS_XMLDOM.CREATEATTRIBUTE(V_DOCUMENT,'columns');
                     DBMS_XMLDOM.SETVALUE(V_ATTR,DBMS_XMLDOM.GETATTRIBUTE(V_TYPE_DEFINITION,'columns'));
      V_ATTR      := DBMS_XMLDOM.SETATTRIBUTENODE(V_ROOT,V_ATTR);
      return  V_STORAGE_MODEL;
    end;
    function analyzeStorageModel(P_COMPLEX_TYPE_NAME VARCHAR2)
    return XMLTYPE
    -- Generate a map showing the number of columns required to persist an instance of the complex type.
    as
      pragma autonomous_transaction;
      V_SQLTYPE           VARCHAR2(128);
      V_SQLSCHEMA         VARCHAR2(32);
      V_RESULT            XMLType;
    begin
    G_DEPTH_COUNT := 0;
    select ct.XMLDATA.SQLTYPE, ct.XMLDATA.SQLSCHEMA
        into V_SQLTYPE, V_SQLSCHEMA
        from XDB.XDB$COMPLEX_TYPE ct, XDB.XDB$SCHEMA s
       where ct.XMLDATA.NAME = P_COMPLEX_TYPE_NAME
         and ref(s) = ct.XMLDATA.PARENT_SCHEMA
         and s.XMLDATA.SCHEMA_OWNER = USER;
      delete from XDBPM.XDBPM_STORAGE_MODEL_CACHE;
      -- delete from XDBPM.XDBPM_STORAGE_MODEL;
      V_RESULT := analyzeStorageModel(P_COMPLEX_TYPE_NAME,V_SQLTYPE,V_SQLSCHEMA);
      COMMIT;
      return V_RESULT;
    exception
      when no_data_found then
        -- dbms_output.put_line('Unable to find SQLType mapping for complexType : "' || USER || '"."' || P_COMPLEX_TYPE_NAME || '".' );
        return null;
      when others then
        raise;
    end;
    function analyzeSQLType(ATTR_NAME VARCHAR2, TARGET_TYPE_NAME VARCHAR2, TARGET_TYPE_OWNER VARCHAR2)
    return XMLType
    as
       ROOT_NODE_NAME   VARCHAR2(128);
       ATTR_DETAIL      XMLTYPE;
       XPATH_EXPRESSION VARCHAR2(129);
       CURSOR FIND_CHILD_ATTRS is
         select ATTR_NAME, ATTR_TYPE_OWNER, ATTR_TYPE_NAME, INHERITED
           from ALL_TYPE_ATTRS
          where OWNER = TARGET_TYPE_OWNER
            and TYPE_NAME = TARGET_TYPE_NAME
          order by ATTR_NO;       
       CHILD_ATTR  XMLTYPE;
       ATTR_COUNT NUMBER := 0;
       TEMP number;
       COLLECTION_TYPE_NAME  varchar2(256);
       COLLECTION_TYPE_OWNER varchar2(256);
    begin
      -- -- dbms_output.put_line('Processing Attribute ' || ATTR_NAME || ' of ' || TARGET_TYPE_OWNER || '.' || TARGET_TYPE_NAME );
      ATTR_DETAIL := makeElement(ATTR_NAME);
      XPATH_EXPRESSION := '/' || ATTR_DETAIL.GETROOTELEMENT();
      for ATTR in FIND_CHILD_ATTRS loop
        begin
          select ELEM_TYPE_NAME, ELEM_TYPE_OWNER
            into COLLECTION_TYPE_NAME, COLLECTION_TYPE_OWNER
            from ALL_COLL_TYPES
           where TYPE_NAME = ATTR.ATTR_TYPE_NAME
             and OWNER = ATTR.ATTR_TYPE_OWNER;
          CHILD_ATTR := analyzeSQLType(ATTR.ATTR_NAME, COLLECTION_TYPE_NAME, COLLECTION_TYPE_OWNER );
          ATTR_COUNT := ATTR_COUNT + CHILD_ATTR.extract('/' || CHILD_ATTR.GETROOTELEMENT()  || '/@sqlAttrs').getNumberVal();
          select appendChildXML(ATTR_DETAIL,XPATH_EXPRESSION,CHILD_ATTR)
            into ATTR_DETAIL
            from DUAL;
        exception
          when no_data_found then
            begin
              select 1
                into TEMP
                from ALL_TYPES
               where TYPE_NAME = ATTR.ATTR_TYPE_NAME
                and OWNER = ATTR.ATTR_TYPE_OWNER;
              CHILD_ATTR := analyzeSQLType(ATTR.ATTR_NAME, ATTR.ATTR_TYPE_NAME, ATTR.ATTR_TYPE_OWNER );
              ATTR_COUNT := ATTR_COUNT + CHILD_ATTR.extract('/' || CHILD_ATTR.GETROOTELEMENT() || '/@sqlAttrs').getNumberVal();
              select appendChildXML(ATTR_DETAIL,XPATH_EXPRESSION,CHILD_ATTR)
                into ATTR_DETAIL
                from DUAL;
            exception
             when no_data_found then
               ATTR_COUNT := ATTR_COUNT + 1;
            end;
        end;
      end loop;
      select insertChildXML(ATTR_DETAIL,XPATH_EXPRESSION,'@sqlAttrs',ATTR_COUNT)
        into ATTR_DETAIL
        from dual;
      return ATTR_DETAIL;
    end;
    function analyzeComplexType(COMPLEX_TYPE VARCHAR2)
    return XMLType
    as
      RESULT           xmltype;
      SQLTYPE          varchar2(128);
      SQLTYPE_OWNER    varchar2(32);
    begin
      select SQLTYPE, SQLTYPE_OWNER
        into SQLTYPE, SQLTYPE_OWNER
        from USER_XML_SCHEMAS,
             xmlTable
                xmlnamespaces
                  'http://www.w3.org/2001/XMLSchema' as "xsd",
                  'http://xmlns.oracle.com/xdb' as "xdb"
                '/xsd:schema/xsd:complexType'
                passing Schema
                columns
                COMPLEX_TYPE_NAME varchar2(4000) path '@name',
                SQLTYPE           varchar2(128)  path '@xdb:SQLType',
                SQLTYPE_OWNER     varchar2(32)   path '@xdb:SQLSchema'
       where COMPLEX_TYPE_NAME = COMPLEX_TYPE;
      result := analyzeSQLType(COMPLEX_TYPE,SQLTYPE,SQLTYPE_OWNER);
      select insertChildXML(RESULT,'/' || COMPLEX_TYPE,'@SQLType',SQLTYPE)
        into result
        from dual;
      return result;
    end;
    function showSQLTypes(schemaFolder varchar2) return XMLType
    is
      xmlSchema XMLTYPE;
    begin
      select xmlElement                                 
               "TypeList",                              
               xmlAgg                                   
                  xmlElement                             
                    "Schema",                            
                    xmlElement
                      "ResourceName",
                      extractValue(res,'/Resource/DisplayName')
                    xmlElement                         
                      "complexTypes",                  
                        select xmlAgg                               
                                 xmlElement              
                                   "complexType",        
                                   xmlElement           
                                     "name",             
                                     extractValue(value(XML),'/xsd:complexType/@name',XDB_NAMESPACES.XDBSCHEMA_PREFIXES)                          
                                   xmlElement            
                                     "SQLType",          
                                     extractValue(value(XML),'/xsd:complexType/@xdb:SQLType',XDB_NAMESPACES.XDBSCHEMA_PREFIXES)                            
                          from table                   
                                 xmlsequence           
                                   extract             
                                     xdburitype(p.path).getXML(),
                                     '/xsd:schema/xsd:complexType',
                                     XDB_NAMESPACES.XDBSCHEMA_PREFIXES
                               ) xml
                          -- order by extractValue(value(XML),'/xsd:complexType/@name',XDB_NAMESPACES.XDBSCHEMA_PREFIXES)
              ).extract('/*')                            
         into xmlSchema
         from path_view p                                
        where under_path(res,schemaFolder) = 1      
        order by extractValue(res,'/Resource/DisplayName');
      return xmlSchema;
    end;
    procedure renameCollectionTable (XMLTABLE varchar2, XPATH varchar2, COLLECTION_TABLE_PREFIX varchar2)
    as
       SYSTEM_GENERATED_NAME varchar2(256);
       COLLECTION_TABLE_NAME varchar2(256);
       CLUSTERED_INDEX_NAME  varchar2(256);
       PARENT_INDEX_NAME     varchar2(256);
       RENAME_STATEMENT varchar2(4000);
    begin
       COLLECTION_TABLE_NAME := COLLECTION_TABLE_PREFIX || '_TABLE';
       CLUSTERED_INDEX_NAME := COLLECTION_TABLE_PREFIX || '_DATA';
       PARENT_INDEX_NAME := COLLECTION_TABLE_PREFIX || '_LIST';
       select TABLE_NAME
         into SYSTEM_GENERATED_NAME
         from ALL_NESTED_TABLES
        where PARENT_TABLE_NAME = XMLTABLE
          and PARENT_TABLE_COLUMN = XPATH
          and OWNER = USER;
       RENAME_STATEMENT := 'alter table ' || USER || '."' || SYSTEM_GENERATED_NAME || '" rename to "' ||COLLECTION_TABLE_NAME || '"';
       -- -- dbms_output.put_line(RENAME_STATEMENT);
       execute immediate RENAME_STATEMENT;
       begin
         select INDEX_NAME
           into SYSTEM_GENERATED_NAME
           from ALL_INDEXES
          where TABLE_NAME = COLLECTION_TABLE_NAME
            and INDEX_TYPE = 'IOT - TOP'
            and OWNER = USER;
         RENAME_STATEMENT := 'alter index ' || USER || '."' || SYSTEM_GENERATED_NAME || '" rename to "' || CLUSTERED_INDEX_NAME || '"';
         -- -- dbms_output.put_line(RENAME_STATEMENT);
         execute immediate RENAME_STATEMENT;
       exception
         when NO_DATA_FOUND then
           null;
       end;
       begin
         select INDEX_NAME
           into SYSTEM_GENERATED_NAME
           from ALL_IND_columns
          where COLUMN_NAME = XPATH
            and TABLE_NAME =  XMLTABLE
            and TABLE_OWNER = USER;
         RENAME_STATEMENT := 'alter index ' || USER || '."' || SYSTEM_GENERATED_NAME || '" rename to "' || PARENT_INDEX_NAME || '"';
         -- -- dbms_output.put_line(RENAME_STATEMENT);
         execute immediate RENAME_STATEMENT;
       exception
         when NO_DATA_FOUND then
           null;
       end;
    end;
    function processNestedTable(currentLevel in out number, currentNode in out XMLType, query SYS_REFCURSOR)
    return XMLType
    is
      thisLevel  number;
      thisNode   xmlType;
      result xmlType;
    begin
      thisLevel := currentLevel;
      thisNode := currentNode;
      fetch query into currentLevel, currentNode;
      if (query%NOTFOUND) then
        currentLevel := -1;
      end if;
      while (currentLevel >= thisLevel) loop
        -- Next Node is a decendant of sibling of this Node.
        if (currentLevel > thisLevel) then
          -- Next Node is a decendant of this Node.
          result := processNestedTable(currentLevel, currentNode, query);
          select xmlElement
                    "Collection",
                    extract(thisNode,'/Collection/*'),
                    xmlElement
                      "NestedCollections",
                      result
             into thisNode
             from dual;
        else
          -- Next node is a sibling of this Node.
          result := processNestedTable(currentLevel, currentNode, query);
          select xmlconcat(thisNode,result) into thisNode from dual;
        end if;
      end loop;
      -- Next Node is a sibling of some ancestor of this node.
      return thisNode;
    end;
    function printNestedTables(XML_TABLE varchar2)
    return XMLType
    is
       query SYS_REFCURSOR;
       result XMLType;
       rootLevel number := 0;
       rootNode xmlType;
    begin
       open query for
            select level, xmlElement
                            "Collection",
                            xmlElement
                              "CollectionId",
                              PARENT_TABLE_COLUMN
                          ) as XML
              from USER_NESTED_TABLES
           connect by PRIOR TABLE_NAME = PARENT_TABLE_NAME
                   start with PARENT_TABLE_NAME = XML_TABLE;
        fetch query into rootLevel, rootNode;
        result := processNestedTable(rootLevel, rootNode, query);
        select xmlElement
                  "NestedTableStructure",
                  result
          into result
          from dual;
        return result;
    end;
    function generateSchemaFromTable(P_TABLE_NAME varchar2, P_OWNER varchar2 default USER)
    return XMLTYPE
    as
      xmlSchema XMLTYPE;
    begin
      select xmlElement
               "xsd:schema",
               xmlAttributes
                 'http://www.w3.org/2001/XMLSchema' as "xmlns:xsd",
                 'http://xmlns.oracle.com/xdb' as "xmlns:xdb"
               xmlElement
                 "xsd:element",
                 xmlAttributes
                   'ROWSET' as "name",
                   'rowset' as "type"
               xmlElement
                 "xsd:complexType",
                 xmlAttributes
                   'rowset' as "name"
                 xmlElement
                   "xsd:sequence",
                   xmlElement
                      "xsd:element",
                      xmlAttributes
                        'ROW' as "name",
                        table_name || '_T' as "type",
                        'unbounded' as "maxOccurs"
               xmlElement
                 "xsd:complexType",
                 xmlAttributes
                   table_name || '_T' as "name"
                 xmlElement
                   "xsd:sequence",
                     xmlAgg(ELEMENT order by INTERNAL_COLUMN_ID)
        into xmlSchema
        from (select TABLE_NAME, INTERNAL_COLUMN_ID,
                     case
                       when DATA_TYPE in ('VARCHAR2','CHAR') then
                         xmlElement
                           "xsd:element",
                           xmlattributes
                             column_name as "name",
                             decode(NULLABLE, 'Y', 0, 1) as "minOccurs",
                             column_name as "xdb:SQLName",
                             DATA_TYPE as "xdb:SQLType"
                           xmlElement
                             "xsd:simpleType",
                             xmlElement
                               "xsd:restriction",
                               xmlAttributes
                                 'xsd:string' as "base"
                               xmlElement
                                 "xsd:maxLength",
                                 xmlAttributes
                                   DATA_LENGTH  as "value"
                       when DATA_TYPE = 'NUMBER' then
                         xmlElement
                           "xsd:element",
                           xmlattributes
                             column_name as "name",
                             decode(NULLABLE, 'Y', 0, 1) as "minOccurs",
                             column_name as "xdb:SQLName",
                             DATA_TYPE as "xdb:SQLType"
                           xmlElement
                             "xsd:simpleType",
                             xmlElement
                               "xsd:restriction",
                               xmlAttributes
                                  decode(DATA_SCALE, 0, 'xsd:integer', 'xsd:double') as "base"
                               xmlElement
                                 "xsd:totalDigits",
                                 xmlAttributes
                                   DATA_PRECISION  as "value"
                       when DATA_TYPE = 'DATE' then
                         xmlElement
                           "xsd:element",
                           xmlattributes
                             column_name as "name",
                             decode(NULLABLE, 'Y', 0, 1) as "minOccurs",
                             'xsd:date' as "type",
                             column_name as "xdb:SQLName",
                             DATA_TYPE as "xdb:SQLType"
                       when DATA_TYPE like 'TIMESTAMP%WITH TIME ZONE' then
                         xmlElement
                           "xsd:element",
                           xmlattributes
                             column_name as "name",
                             decode(NULLABLE, 'Y', 0, 1) as "minOccurs",
                             'xsd:dateTime' as "type",
                             column_name as "xdb:SQLName",
                             DATA_TYPE as "xdb:SQLType"
                       else
                         xmlElement
                           "xsd:element",
                           xmlattributes
                             column_name as "name",
                             decode(NULLABLE, 'Y', 0, 1) as "minOccurs",
                             'xsd:anySimpleType' as "type",
                             column_name as "xdb:SQLName",
                             DATA_TYPE as "xdb:SQLType"
                     end ELEMENT
                from all_tab_cols c
               where c.TABLE_NAME = P_TABLE_NAME
                 and c.OWNER = P_OWNER
        group by TABLE_NAME;
      return xmlSchema;
    end;
    function appendElementList(V_ELEMENT_LIST IN OUT XDB.XDB$XMLTYPE_REF_LIST_T, V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T) return XDB.XDB$XMLTYPE_REF_LIST_T;
    function expandModel(P_MODEL XDB.XDB$MODEL_T) return XDB.XDB$XMLTYPE_REF_LIST_T;
    function expandChoiceList(P_CHOICE_LIST XDB.XDB$XMLTYPE_REF_LIST_T) return XDB.XDB$XMLTYPE_REF_LIST_T;
    function expandSequenceList(P_SEQUENCE_LIST XDB.XDB$XMLTYPE_REF_LIST_T) return XDB.XDB$XMLTYPE_REF_LIST_T;
    function expandGroupList(P_GROUP_LIST XDB.XDB$XMLTYPE_REF_LIST_T) return XDB.XDB$XMLTYPE_REF_LIST_T;
    function appendElementList(V_ELEMENT_LIST IN OUT XDB.XDB$XMLTYPE_REF_LIST_T, V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
    begin
      SELECT CAST
               SET
                 CAST(V_ELEMENT_LIST as XDBPM.XMLTYPE_REF_TABLE_T)
                 MULTISET UNION
                 CAST(V_CHILD_ELEMENT_LIST as XDBPM.XMLTYPE_REF_TABLE_T)
               as XDB.XDB$XMLTYPE_REF_LIST_T
        into V_ELEMENT_LIST
        from DUAL;
        return V_ELEMENT_LIST;     
    end;
    function expandModel(P_MODEL XDB.XDB$MODEL_T)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
      V_ELEMENT_LIST       XDB.XDB$XMLTYPE_REF_LIST_T;
      V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T;
    begin
      V_ELEMENT_LIST := XDB.XDB$XMLTYPE_REF_LIST_T();
      if P_MODEL.ELEMENTS is not null then
        V_ELEMENT_LIST := P_MODEL.ELEMENTS;
      end if;
      if (P_MODEL.CHOICE_KIDS is not NULL) then
        V_CHILD_ELEMENT_LIST := expandChoiceList(P_MODEL.CHOICE_KIDS);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end if;
      if (P_MODEL.SEQUENCE_KIDS is not NULL) then
        V_CHILD_ELEMENT_LIST := expandSequenceList(P_MODEL.SEQUENCE_KIDS);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end if;
      -- Process ANYS
      if (P_MODEL.GROUPS is not NULL) then
        V_CHILD_ELEMENT_LIST := expandGroupList(P_MODEL.GROUPS);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end if;
      return V_ELEMENT_LIST;
    end;
    function expandChoiceList(P_CHOICE_LIST XDB.XDB$XMLTYPE_REF_LIST_T)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
      V_ELEMENT_LIST       XDB.XDB$XMLTYPE_REF_LIST_T;
      V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T;
      cursor getChoices is
      select c.XMLDATA MODEL
        from XDB.XDB$CHOICE_MODEL c, TABLE(P_CHOICE_LIST) cl
       where ref(c) = value(cl);
    begin
      V_ELEMENT_LIST := XDB.XDB$XMLTYPE_REF_LIST_T();
      for c in getChoices loop
        V_CHILD_ELEMENT_LIST := expandModel(c.MODEL);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end loop;
      return V_ELEMENT_LIST;
    end;
    function expandSequenceList(P_SEQUENCE_LIST XDB.XDB$XMLTYPE_REF_LIST_T)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
      V_ELEMENT_LIST       XDB.XDB$XMLTYPE_REF_LIST_T;
      V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T;
      cursor getSequences is
      select s.XMLDATA MODEL
        from XDB.XDB$SEQUENCE_MODEL s, TABLE(P_SEQUENCE_LIST) sl
       where ref(s) = value(sl);
    begin
      V_ELEMENT_LIST := XDB.XDB$XMLTYPE_REF_LIST_T();
      for s in getSequences loop
        V_CHILD_ELEMENT_LIST := expandModel(s.MODEL);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end loop;
      return V_ELEMENT_LIST;
    end;
    function expandGroupList(P_GROUP_LIST XDB.XDB$XMLTYPE_REF_LIST_T)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
      V_ELEMENT_LIST       XDB.XDB$XMLTYPE_REF_LIST_T;
      V_CHILD_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T;  V_MODEL  XDB.XDB$MODEL_T;
      cursor getGroups is
      SELECT CASE
               -- Return The MODEL Definition for the CHOICE, ALL or SEQUENCE
               WHEN gd.XMLDATA.ALL_KID is not NULL
                 THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = gd.XMLDATA.ALL_KID)
               WHEN gd.XMLDATA.SEQUENCE_KID is not NULL
                 THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = gd.XMLDATA.SEQUENCE_KID)
               WHEN gd.XMLDATA.CHOICE_KID is not NULL
                 THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = gd.XMLDATA.CHOICE_KID)
              END MODEL
         FROM XDB.XDB$GROUP_DEF gd, XDB.XDB$GROUP_REF gr, TABLE(P_GROUP_LIST) gl
        WHERE ref(gd) = gr.XMLDATA.GROUPREF_REF
          and ref(gr) = value(gl);
    begin
      V_ELEMENT_LIST := XDB.XDB$XMLTYPE_REF_LIST_T();
      for g in getGroups loop
        V_CHILD_ELEMENT_LIST := expandModel(g.MODEL);
        V_ELEMENT_LIST := appendElementList(V_ELEMENT_LIST,V_CHILD_ELEMENT_LIST);
      end loop;
      return V_ELEMENT_LIST;
    end;
    function getComplexTypeElementList(P_COMPLEX_TYPE_REF REF XMLTYPE)
    return XDB.XDB$XMLTYPE_REF_LIST_T
    as
      V_MODEL        XDB.XDB$MODEL_T;
      V_BASE_TYPE    REF XMLTYPE;
      V_ELEMENT_LIST XDB.XDB$XMLTYPE_REF_LIST_T := XDB.XDB$XMLTYPE_REF_LIST_T();
    begin
      SELECT ct.XMLDATA.BASE_TYPE,
             CASE
               -- Return The MODEL Definition for the CHOICE, ALL or SEQUENCE
               WHEN ct.XMLDATA.ALL_KID is not NULL
                 THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = ct.XMLDATA.ALL_KID)
               WHEN ct.XMLDATA.SEQUENCE_KID is not NULL
                 THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = ct.XMLDATA.SEQUENCE_KID)
               WHEN ct.XMLDATA.CHOICE_KID is not NULL
                 THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = ct.XMLDATA.CHOICE_KID)
               WHEN ct.XMLDATA.GROUP_KID is not NULL
                 -- COMPLEXTYPE is based on a GROUP.
                 THEN (
                         -- RETURN The CHOICE, ALL or SEQUENCE for GROUP
                         SELECT CASE
                                  WHEN gd.XMLDATA.ALL_KID is not NULL
                                    THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = gd.XMLDATA.ALL_KID)
                                  WHEN gd.XMLDATA.SEQUENCE_KID is not NULL
                                    THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = gd.XMLDATA.SEQUENCE_KID)
                                  WHEN gd.XMLDATA.CHOICE_KID is not NULL
                                    THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = gd.XMLDATA.CHOICE_KID)
                                  END
                             FROM XDB.XDB$GROUP_DEF gd, xdb.xdb$GROUP_REF gr
                            WHERE ref(gd) = gr.XMLDATA.GROUPREF_REF
                              and ref(gr) = ct.XMLDATA.GROUP_KID
    --           WHEN ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.ALL_KID is not NULL
    --             THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.ALL_KID)
    --           WHEN ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.SEQUENCE_KID is not NULL
    --            THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.SEQUENCE_KID)
    --           WHEN ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.CHOICE_KID is not NULL
    --             THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.CHOICE_KID)
    --           WHEN ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.GROUP_KID is not NULL
    --             -- COMPLEXTYPE is based on a GROUP.
    --             THEN (
    --                     -- RETURN The CHOICE, ALL or SEQUENCE for GROUP
    --                     SELECT CASE
    --                              WHEN gd.XMLDATA.ALL_KID is not NULL
    --                                THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = gd.XMLDATA.ALL_KID)
    --                              WHEN gd.XMLDATA.SEQUENCE_KID is not NULL
    --                                THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = gd.XMLDATA.SEQUENCE_KID)
    --                              WHEN gd.XMLDATA.CHOICE_KID is not NULL
    --                                THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = gd.XMLDATA.CHOICE_KID)
    --                              END
    --                         FROM XDB.XDB$GROUP_DEF gd, xdb.xdb$GROUP_REF gr
    --                       WHERE ref(gd) = gr.XMLDATA.GROUPREF_REF
    --                          and ref(gr) = ct.XMLDATA.COMPLEXCONTENT.RESTRICTION.GROUP_KID
               WHEN ct.XMLDATA.COMPLEXCONTENT.EXTENSION.ALL_KID is not NULL
                 THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = ct.XMLDATA.COMPLEXCONTENT.EXTENSION.ALL_KID)
               WHEN ct.XMLDATA.COMPLEXCONTENT.EXTENSION.SEQUENCE_KID is not NULL
                 THEN ( SELECT s.XMLDATA  from XDB.XDB$SEQUENCE_MODEL s where ref(s) = ct.XMLDATA.COMPLEXCONTENT.EXTENSION.SEQUENCE_KID)
               WHEN ct.XMLDATA.COMPLEXCONTENT.EXTENSION.CHOICE_KID is not NULL
                 THEN ( SELECT c.XMLDATA  from XDB.XDB$CHOICE_MODEL c where ref(c) = ct.XMLDATA.COMPLEXCONTENT.EXTENSION.CHOICE_KID)
               WHEN ct.XMLDATA.COMPLEXCONTENT.EXTENSION.GROUP_KID is not NULL
                 -- COMPLEXTYPE is based on a GROUP.
                 THEN (
                         -- RETURN The CHOICE, ALL or SEQUENCE for GROUP
                         SELECT CASE
                                  WHEN gd.XMLDATA.ALL_KID is not NULL
                                    THEN ( SELECT a.XMLDATA  from XDB.XDB$ALL_MODEL a where ref(a) = gd.XMLDATA.ALL_KID)
                    

  • Maximum number of columns  in a table or view is 1000

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    Post Author: synapsevampire
    CA Forum: Formula
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  • How do i know the number of columns in a table??

    dont think the question is too odd for me to post here..
    i am a new bee to oracle..
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    Thnks in advance for any solutions given

    did you try it whaterver is suggested?
    SQL> desc dept;
    Name                                                                          
    DEPTNO                                                                        
    DNAME                                                                         
    LOC                                                                           
    SQL> SELECT c.TABLE_NAME,c.COLUMN_NAME,c.COLUMN_ID FROM user_tab_columns c
      2  WHERE table_name='DEPT';
    TABLE_NAME                     COLUMN_NAME                     COLUMN_ID
    DEPT                           DEPTNO                                  1
    DEPT                           DNAME                                   2
    DEPT                           LOC                                     3
    SQL> SELECT COUNT(c.COLUMN_NAME) FROM user_tab_columns c
      2  WHERE table_name='DEPT';
    COUNT(C.COLUMN_NAME)
                       3

  • How can I find number of columns in a table using a query

    Hi
    I want to find the number of columns in a table using a query.
    Any help in this regard is much appreciated.
    Cheers

    Hi,
    This is the output i get when i executed ur query
    OWNER     OBJECT_NAME     OBJECT_TYPE
    SMLDBO     T2311_SURVEY_QUESTIONS     TABLE
    select OWNER,OBJECT_NAME,OBJECT_TYPE
    from all_objects
    where OBJECT_NAME = 'T2311_SURVEY_QUESTIONS';
    works Fine.
    But if i use the below query it returns : 0
    SELECT count(*) FROM user_tab_columns
    WHERE table_name =upper( 'T2311_SURVEY_QUESTIONS');
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    The table exists + name of the table is correct + it resides in my schema itself.
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  • Number of columns in a table

    Hi,
    I am developing an application using jdbc. Is there any method which returns the number of columns in a table.
    Thanks
    Mallo

    actually, this exact code is posted in the docs that I gave the link to:
    ResultSet rs = stmt.executeQuery("SELECT a, b, c FROM TABLE2");
    ResultSetMetaData rsmd = rs.getMetaData();
    int numberOfColumns = rsmd.getColumnCount();Jamie

  • Query to know number of columns in a table

    please can anyone suggest me a query to know number of columns in a table i.e.
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    Message was edited by:
    user625519

    Give this a shot:
    SELECT table_name,count(*) as "# of Columns"
    FROM dba_tab_cols
    WHERE table_name = <table name>
    GROUP BY table_name
    ORDER BY table_name;There are other views as well such as USER_TAB_COLS and ALL_TAB_COLS.
    HTH!

  • Maximum number of columns in a table

    Hi all
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    Karthikeyan.Kesavan

    Every people say either don't no?
    or else some are saying some numberThen why not read the documentation ?

  • Maximum Number of Columns that adf table can support in JDeveloper 10.1.3.1

    Hi All,
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    Hi,
    I am not sure there exist a limitation in columns and if the application hangs then this probably is a bug either in the business service or the view (which can also be due to that the server runs out of memory because of the created object instances).
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    Frank

  • How can i find number of columns in a table ....... it's higer priority

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    Thanks for correction!
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    Message was edited by:
    Faust
    Edit:
    Dear thread users!
    You have here (in my post in this thread - see above) good example for inappropriate post in one thread.
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    Cheers!

  • Limitation for number of columns in a table

    What is the maximum number for the number of columns in a table or a view?
    j

    Hi,
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    Savitha.

  • Displaying tables with dynamic number of columns

    Hello,
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    Hi daniel,
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      whose inputs are FIELD LIST
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    COMPULSORY
    FIELD-SYMBOLS: <dyntable> TYPE ANY TABLE.
    FIELD-SYMBOLS: <dynline> TYPE ANY.
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    DATA: ls TYPE lvc_s_fcat.
    FIELD-SYMBOLS: <fld> TYPE ANY.
    DATA : fldname(50) TYPE c.
    PARAMETERS : infty(4) TYPE c OBLIGATORY.
    DATA : iname LIKE dd02l-tabname.
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    DATA : ddfields LIKE ddfield OCCURS 0 WITH HEADER LINE.
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    TABLES
    ddfields = ddfields.
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    regards,
    amit m.

  • How to pipeline a function with a dynamic number of columns?

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    pseudo-PLSQL follows:
    create function myfunction ( param1 varchar2)
    return anydataset pipelined
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    < -- >
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    determine the number of columns
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    PIPE ROW it
    <--->
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    Thanks,
    Keith

    The following works on 10R2
    create or replace type NColPipe as object
      l_parm varchar2(10),   -- The parameter given to the table function
      rows_requested number, -- The parameter given to the table function
      ret_type anytype,      -- The return type of the table function
      rows_returned number,  -- The number of rows currently returned by the table function
      static function ODCITableDescribe( rtype out anytype, p_parm in varchar2, p_rows_req in number := 2 )
      return number,
      static function ODCITablePrepare( sctx out NColPipe, ti in sys.ODCITabFuncInfo, p_parm in varchar2, p_rows_req in number := 2 )
      return number,
      static function ODCITableStart( sctx in out NColPipe, p_parm in varchar2, p_rows_req in number := 2 )
      return number,
      member function ODCITableFetch( self in out NColPipe, nrows in number, outset out anydataset )
      return number,
      member function ODCITableClose( self in NColPipe )
      return number,
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      return number
      is
        atyp anytype;
      begin
        anytype.begincreate( dbms_types.typecode_object, atyp );
        if p_parm = 'one'
        then
          atyp.addattr( 'one'
                      , dbms_types.typecode_varchar2
                      , null
                      , null
                      , 10
                      , null
                      , null
        elsif p_parm = 'two'
        then
          atyp.addattr( 'one'
                      , dbms_types.typecode_varchar2
                      , null
                      , null
                      , 10
                      , null
                      , null
          atyp.addattr( 'two'
                      , dbms_types.typecode_varchar2
                      , null
                      , null
                      , 10
                      , null
                      , null
        else
          atyp.addattr( p_parm || '1'
                      , dbms_types.typecode_varchar2
                      , null
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