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
Similar Messages
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BI Layout/Template | Table with dynamic number of columns
hi!
i have a problem concerning the creation of a dynamic report with the BI publisher.
in my BI template i need a table with a dynamic number of columns. i have searched the
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
but another time i may have 6 or 10 etc..
my dataset is always different because i am loading my dataset via a http request which is
returning the needed data in XML.
is there a nativ possibility within the publisher to generate the columns dynamically?
i read about <?split-column-header:group element name?> etc. but this is only for cross-tables.
can anybody give me a hint how to approach this problem?
would be very glad for some advice.
thanks a lot in advance!Specific answer is here
http://winrichman.blogspot.com/2008/09/dynamic-column.html
but these link let you know, how to do
http://winrichman.blogspot.com/search/label/Dynamic%20column
http://winrichman.blogspot.com/search/label/Cross-tab
http://winrichman.blogspot.com/search/label/cross%20tab -
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
begin
dbms_xmlschema.registerschema(
schemaurl=>'xxxx',
schemadoc=>bfilename('XMLDIR','xxxxxx.xsd'),
csid=>nls_charset_id('AL32UTF8'));
end;
But the schema file exists 1000 col and it gives me the error msg of
ORA-01792: maximum number of columns in a table or view is 1000
is there anyway to solve the problems without edit the original schema document?
Thanks for your helpFirst 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;
begin
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);
for ATTR in FIND_CHILD_ATTRS loop
-- 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
-- Check for Attributes based on collection types, With Nested Table storage each Collection will cost 2 columns.
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 || '".');
-- Attribute is a Collection Type.
-- 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.
V_ATTR := DBMS_XMLDOM.CREATEATTRIBUTE(V_ATTRIBUTE_DOCUMENT,'SQLCollType');
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;
-- Attribute is based on a non-scalar type. Find the Storage Model for this 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,'SQLTypeOwner');
DBMS_XMLDOM.SETVALUE(V_ATTR,ATTR.ATTR_TYPE_OWNER);
V_ATTR := DBMS_XMLDOM.SETATTRIBUTENODE(V_ATTRIBUTE_ROOT,V_ATTR);
V_TYPE_DEFINITION := findStorageModel(ATTR.ATTR_TYPE_NAME, ATTR.ATTR_TYPE_OWNER, 'YES');
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));
V_TYPE_DEFINITION_ROOT := DBMS_XMLDOM.MAKEELEMENT(DBMS_XMLDOM.APPENDCHILD(DBMS_XMLDOM.MAKENODE(V_ATTRIBUTE_ROOT),DBMS_XMLDOM.MAKENODE(V_TYPE_DEFINITION_ROOT)));
DBMS_XMLDOM.FREEDOCUMENT(V_TYPE_DEFINITION_DOCUMENT);
if (ATTR.ATTR_TYPE_NAME = 'XDB$ENUM_T' and ATTR.ATTR_TYPE_OWNER = 'XDB') then
-- The cost of a XDB$ENUM_T is 2 columns
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);
-- Consider adding Schema URL Attribute
exception
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');
end;
function getStorageModel(P_TYPE_NAME VARCHAR2, P_TYPE_OWNER VARCHAR2, P_INCLUDE_SUBTYPES VARCHAR2 DEFAULT 'YES')
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
Post Author: TinaReifer
CA Forum: Formula
I am trying to create a direct link from Tririga / Oracle database into Crystal XI. The data I am attempting to pull is from the RETransaction (Escalations). The error I keep receiving is shown below. Has anyone run across this problem and found a solution that can be shared?
Very Appreciative for any feedback.
Tina Reifer
"Failed to retrieve data from the database.
Details: HY000:[Oracle][ODBC][Ora]ORA-01792: maximum number of columns in a table or view is 1000
[Database Vendor Code: 1792]"Post Author: synapsevampire
CA Forum: Formula
Try posting your software, its version, and the type of connectivity you're using for oracle.
Older versions of Crystal used a proprietary Oracle ODBC driver that came with Crystal, but you should SWITCH away from using ODBC anyway, not sure why you elected to use it, it's slower and more problematic.
You'll see Oracle Server listed as a data source, that is generally the best connectivity to use.
Also, what version of Oracle is it, and what Oracle client are you using?
You might need your Oracle dbas assistance here.
Anyway, the error is not a Crystal error, it's being raised by the ODBC driver, and Oracle used to have a maximum of 1024 colums I think it was...been a while...
-k -
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..
so i just to know is there some way by which i can know the the total number of columns in a table..
Thnks in advance for any solutions givendid 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.
CheersHi,
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');
What could be problem.
The table exists + name of the table is correct + it resides in my schema itself.
Any guess !!! -
Hi,
I am developing an application using jdbc. Is there any method which returns the number of columns in a table.
Thanks
Malloactually, 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.
if I want to know how many number of colums are present in a specific table then what would be the query
Message was edited by:
user625519Give 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
I want to know the maximum number of columns in a table. Every people say either don't no? or else some are saying some number. Please can any body help me.
Karthikeyan.KesavanEvery 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,
I'm using Toplink 10.1.3.1 . In JDeveloper 10.1.3.1 .
I'm Trying to display the columns of a table which is having the more than 380 columns.
When I'm trying to display the columns in adf table, it is getting hanged. The console of the displaying that "too long".
If Execute the Application with nearly 50 columns, It is working fine.
what is the Maximum number of columns that adf table can support. Is there any other solution for my problem.
could anyone help me out.
Thanks in advance,
regards,
SatishHi,
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).
However, in my opinion a table with 380 columns is a loud cry for denormalization
Frank -
hi
i wnat find the number of columns in a table.
is there any predefine fiunction. pls tell meThanks for correction!
I asked myself that question after posting previous post... started to search in Documentation but you were faster.
Thanks again!
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.
I posted to fast - I didn't realise am I sure what I wrote!
Consequence was that, after posting, I asked myself is it correct my statement about rights on SYS-objects, I started to search for answer, etc.
So what I want to say is: if you don't want to find yourself foolish, like I found myself, don't post before you are sure is it correct what you wrote!
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?
jHi,
The maximum number of columns that can be created in a relational table is 1000. Look at the documentation for more details.
Excerpt from the Oracle9i SQL Reference Release 2 (9.2) documentation:
http://download-west.oracle.com/docs/cd/B10501_01/server.920/a96540/statements_73a.htm#2061431
"The absolute maximum number of columns in a table is 1000. However, when you create an object table (or a relational table with columns of object, nested table, varray, or REF type), Oracle maps the columns of the user-defined types to relational columns, creating in effect "hidden columns" that count toward the 1000-column limit."
Please post database related questions in Database-general forum for quick response.
General Database Discussions
Hope that helps.
Savitha. -
Displaying tables with dynamic number of columns
Hello,
I'm pretty new to JSF. Currently I'm working on a project where I have to select a table from a list, and then make it browsable/editable. The problem I have is that the different tables also have a different number of columns.
I have no problem displaying different tables if the number of coulumns stays the same (using h:datatable) but when it's dynamic, I don't know how I can have my JSP to adjust to support the varying number of columns.
Has anyone got an example of dynamic datatable or maybe someone can point me in the right direction.
BrimborianHi daniel,
1. There is an INDEPENDENT FORM
whose inputs are FIELD LIST
and from those, it consructs dynamic table.
2. Here is the program.
the dynamic table name will be
<DYNTABLE>.
3. U can use this program (FORM in this program)
to generate any kind of internal table
by specifying some inputs (ie. field list)
4.
REPORT abc.
COMPULSORY
FIELD-SYMBOLS: <dyntable> TYPE ANY TABLE.
FIELD-SYMBOLS: <dynline> TYPE ANY.
DATA: lt TYPE lvc_t_fcat.
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.
START-OF-SELECTION.
GET INFO
CONCATENATE 'P' infty INTO iname.
DATA : ddfields LIKE ddfield OCCURS 0 WITH HEADER LINE.
CALL FUNCTION 'DD_NAMETAB_TO_DDFIELDS'
EXPORTING
tabname = iname
TABLES
ddfields = ddfields.
CONSTRUCT FIELD LIST
LOOP AT ddfields.
ls-fieldname = ddfields-fieldname.
APPEND ls TO lt.
ENDLOOP.
PERFORM
PERFORM mydyntable USING lt.
BREAK-POINT.
INDEPENDENT FORM
FORM mydyntable USING lt TYPE lvc_t_fcat .
Create Dyn Table From FC
FIELD-SYMBOLS: <fs_data> TYPE REF TO data.
FIELD-SYMBOLS: <fs_1>.
FIELD-SYMBOLS: <fs_2> TYPE ANY TABLE.
DATA: lt_data TYPE REF TO data.
ASSIGN lt_data TO <fs_data>.
CALL METHOD cl_alv_table_create=>create_dynamic_table
EXPORTING
it_fieldcatalog = lt
IMPORTING
ep_table = <fs_data>
EXCEPTIONS
generate_subpool_dir_full = 1
OTHERS = 2.
IF sy-subrc <> 0.
ENDIF.
Assign Dyn Table To Field Sumbol
ASSIGN <fs_data>->* TO <fs_1>.
ASSIGN <fs_1> TO <fs_2>.
ASSIGN <fs_1> TO <dyntable>.
ENDFORM. "MYDYNTABLE
regards,
amit m. -
How to pipeline a function with a dynamic number of columns?
Hi everyone,
I'm trying to figure out how to write a piplined function that generates a dynamic SQL statement from its inputs, executes the query, and returns the results of the query in the pipeline. The number and names of the columns in the dynamic query is unknown number until the function is invoked.
I suspect that DBMS_SQL is involved, but can't quite figure out how to construct a row using it that I can use PIPE ROW on. I also can't figure out what data type the function should return (ANYDATASET?)
pseudo-PLSQL follows:
create function myfunction ( param1 varchar2)
return anydataset pipelined
as
query_string := <... do stuff with param1 ...>
< -- >
open a cursor for query_string
determine the number of columns
read a row
PIPE ROW it
<--->
Can what I'm trying to do be done?
Thanks,
KeithThe 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,
static function show( p_parm in varchar2, p_rows_req in number := 2 )
return anydataset pipelined using NColPipe
create or replace type body NColPipe as
static function ODCITableDescribe( rtype out anytype, p_parm in varchar2, p_rows_req in number := 2 )
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
, null
, 10
, null
, null
atyp.addattr( p_parm || '2'
, dbms_types.typecode_varchar2
, null
, null
, 10
, null
, null
atyp.addattr( p_parm || '3'
, dbms_types.typecode_number
, 10
, 0
, null
, null
, null
end if;
atyp.endcreate;
anytype.begincreate( dbms_types.typecode_table, rtype );
rtype.SetInfo( null, null, null, null, null, atyp, dbms_types.typecode_object, 0 );
rtype.endcreate();
return odciconst.success;
exception
when others then
return odciconst.error;
end;
static function ODCITablePrepare( sctx out NColPipe, ti in sys.ODCITabFuncInfo, p_parm in varchar2, p_rows_req in number := 2 )
return number
is
elem_typ sys.anytype;
prec pls_integer;
scale pls_integer;
len pls_integer;
csid pls_integer;
csfrm pls_integer;
tc pls_integer;
aname varchar2(30);
begin
tc := ti.RetType.GetAttrElemInfo( 1, prec, scale, len, csid, csfrm, elem_typ, aname );
sctx := NColPipe( p_parm, p_rows_req, elem_typ, 0 );
return odciconst.success;
end;
static function ODCITableStart( sctx in out NColPipe, p_parm in varchar2, p_rows_req in number := 2 )
return number
is
begin
return odciconst.success;
end;
member function ODCITableFetch( self in out NColPipe, nrows in number, outset out anydataset )
return number
is
begin
anydataset.begincreate( dbms_types.typecode_object, self.ret_type, outset );
for i in self.rows_returned + 1 .. self.rows_requested
loop
outset.addinstance;
outset.piecewise();
if self.l_parm = 'one'
then
outset.setvarchar2( to_char( i ) );
elsif self.l_parm = 'two'
then
outset.setvarchar2( to_char( i ) );
outset.setvarchar2( 'row: ' || to_char( i ) );
else
outset.setvarchar2( 'row: ' || to_char( i ) );
outset.setvarchar2( 'row: ' || to_char( i ) );
outset.setnumber( i );
end if;
self.rows_returned := self.rows_returned + 1;
end loop;
outset.endcreate;
return odciconst.success;
end;
member function ODCITableClose( self in NColPipe )
return number
is
begin
return odciconst.success;
end;
end;
/And to use it
SQL> select * from table( NColPipe.show( 'test', 3 ) );
test1 test2 test3
row: 1 row: 1 1
row: 2 row: 2 2
row: 3 row: 3 3
SQL> select * from table( NColPipe.show( 'two', 5 ) );
one two
1 row: 1
2 row: 2
3 row: 3
4 row: 4
5 row: 5
SQL> select * from table( NColPipe.show( 'one' ) );
one
1
2
SQL> Anton -
Generate itab with dynamic number of columns
I have a method that exports a internal table to excel, XML or HTML, which works fine in many cases.
Now I want to export some special data that I want to put into an itab first.
The problem is that both the number of columns and the number of rows are dynamic.
LOOP AT (header_table)
(for each entry, I need one column)
ENDLOOP.
LOOP AT (row_table).
(do some calculations and add a row to the itab)
ENDLOOP.
Is there a way to generate an internal table like this?Hi daniel,
1. There is an INDEPENDENT FORM
whose inputs are FIELD LIST
and from those, it consructs dynamic table.
2. Here is the program.
the dynamic table name will be
<DYNTABLE>.
3. U can use this program (FORM in this program)
to generate any kind of internal table
by specifying some inputs (ie. field list)
4.
REPORT abc.
COMPULSORY
FIELD-SYMBOLS: <dyntable> TYPE ANY TABLE.
FIELD-SYMBOLS: <dynline> TYPE ANY.
DATA: lt TYPE lvc_t_fcat.
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.
START-OF-SELECTION.
GET INFO
CONCATENATE 'P' infty INTO iname.
DATA : ddfields LIKE ddfield OCCURS 0 WITH HEADER LINE.
CALL FUNCTION 'DD_NAMETAB_TO_DDFIELDS'
EXPORTING
tabname = iname
TABLES
ddfields = ddfields.
CONSTRUCT FIELD LIST
LOOP AT ddfields.
ls-fieldname = ddfields-fieldname.
APPEND ls TO lt.
ENDLOOP.
PERFORM
PERFORM mydyntable USING lt.
BREAK-POINT.
INDEPENDENT FORM
FORM mydyntable USING lt TYPE lvc_t_fcat .
Create Dyn Table From FC
FIELD-SYMBOLS: <fs_data> TYPE REF TO data.
FIELD-SYMBOLS: <fs_1>.
FIELD-SYMBOLS: <fs_2> TYPE ANY TABLE.
DATA: lt_data TYPE REF TO data.
ASSIGN lt_data TO <fs_data>.
CALL METHOD cl_alv_table_create=>create_dynamic_table
EXPORTING
it_fieldcatalog = lt
IMPORTING
ep_table = <fs_data>
EXCEPTIONS
generate_subpool_dir_full = 1
OTHERS = 2.
IF sy-subrc <> 0.
ENDIF.
Assign Dyn Table To Field Sumbol
ASSIGN <fs_data>->* TO <fs_1>.
ASSIGN <fs_1> TO <fs_2>.
ASSIGN <fs_1> TO <dyntable>.
ENDFORM. "MYDYNTABLE
regards,
amit m.
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