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10g Release 1 (10.1)

Part Number B10730-01
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7 CTX_DDL Package

This chapter provides reference information for using the CTX_DDL PL/SQL package to create and manage the preferences, section groups, and stoplists required for Text indexes.

CTX_DDL contains the following stored procedures and functions:

Name Description
ADD_ATTR_SECTION
Adds an attribute section to a section group.
ADD_FIELD_SECTION
Creates a filed section and assigns it to the specified section group
ADD_INDEX
Adds an index to a catalog index preference.
ADD_MDATA
Changes the MDATA value of a document
ADD_MDATA_SECTION
Adds an MDATA metadata section to a document
ADD_SPECIAL_SECTION
Adds a special section to a section group.
ADD_STOPCLASS
Adds a stopclass to a stoplist.
ADD_STOP_SECTION
Adds a stop section to an automatic section group.
ADD_STOPTHEME
Adds a stoptheme to a stoplist.
ADD_STOPWORD
Adds a stopword to a stoplist.
ADD_SUB_LEXER
Adds a sub-lexer to a multi-lexer preference.
ADD_ZONE_SECTION
Creates a zone section and adds it to the specified section group.
CREATE_INDEX_SET
Creates an index set for CTXCAT index types.
CREATE_POLICY
Create a policy to use with ORA:CONTAINS().
CREATE_PREFERENCE
Creates a preference in the Text data dictionary
CREATE_SECTION_GROUP
Creates a section group in the Text data dictionary
CREATE_STOPLIST
Creates a stoplist.
DROP_INDEX_SET
Drops an index set.
DROP_POLICY
Drops a policy.
DROP_PREFERENCE
Deletes a preference from the Text data dictionary
DROP_SECTION_GROUP
Deletes a section group from the Text data dictionary
DROP_STOPLIST
Drops a stoplist.
OPTIMIZE_INDEX
Optimize the index.
REMOVE_INDEX
Removes an index from a CTXCAT index preference.
REMOVE_MDATA
Removes MDATA values from a document
REMOVE_SECTION
Deletes a section from a section group
REMOVE_STOPCLASS
Deletes a stopclass from a section group.
REMOVE_STOPTHEME
Deletes a stoptheme from a stoplist.
REMOVE_STOPWORD
Deletes a stopword from a section group.
REPLACE_INDEX_METADATA
Replaces metadata for local domain indexes
SET_ATTRIBUTE
Sets a preference attribute.
SYNC_INDEX
Synchronize index.
UNSET_ATTRIBUTE
Removes a set attribute from a preference.
UPDATE_POLICY
Updates a policy.


ADD_ATTR_SECTION

Adds an attribute section to an XML section group. This procedure is useful for defining attributes in XML documents as sections. This enables you to search XML attribute text with the WITHIN operator.


Note:

When you use AUTO_SECTION_GROUP, attribute sections are created automatically. Attribute sections created automatically are named in the form tag@attribute.

Syntax

CTX_DDL.ADD_ATTR_SECTION(
  group_name     in    varchar2,
  section_name   in    varchar2,
  tag            in    varchar2);
group_name

Specify the name of the XML section group. You can add attribute sections only to XML section groups.

section_name

Specify the name of the attribute section. This is the name used for WITHIN queries on the attribute text.

The section name you specify cannot contain the colon (:), comma (,), or dot (.) characters. The section name must also be unique within group_name. Section names are case-insensitive.

Attribute section names can be no more than 64 bytes long.

tag

Specify the name of the attribute in tag@attr form. This parameter is case-sensitive.

Examples

Consider an XML file that defines the BOOK tag with a TITLE attribute as follows:

<BOOK TITLE="Tale of Two Cities"> 
  It was the best of times. 
</BOOK> 

To define the title attribute as an attribute section, create an XML_SECTION_GROUP and define the attribute section as follows:

begin
ctx_ddl.create_section_group('myxmlgroup', 'XML_SECTION_GROUP');
ctx_ddl.add_attr_section('myxmlgroup', 'booktitle', 'BOOK@TITLE');
end;

When you define the TITLE attribute section as such and index the document set, you can query the XML attribute text as follows:

'Cities within booktitle'

ADD_FIELD_SECTION

Creates a field section and adds the section to an existing section group. This enables field section searching with the WITHIN operator.

Field sections are delimited by start and end tags. By default, the text within field sections are indexed as a sub-document separate from the rest of the document.

Unlike zone sections, field sections cannot nest or overlap. As such, field sections are best suited for non-repeating, non-overlapping sections such as TITLE and AUTHOR markup in email- or news-type documents.

Because of how field sections are indexed, WITHIN queries on field sections are usually faster than WITHIN queries on zone sections.

Syntax

CTX_DDL.ADD_FIELD_SECTION(
  group_name     in    varchar2,
  section_name   in    varchar2,
  tag            in    varchar2,
  visible        in    boolean default FALSE
);
group_name

Specify the name of the section group to which section_name is added. You can add up to 64 field sections to a single section group. Within the same group, section zone names and section field names cannot be the same.

section_name

Specify the name of the section to add to the group_name. You use this name to identify the section in queries. Avoid using names that contain non-alphanumeric characters such as _, since these characters must be escaped in queries. Section names are case-insensitive.

Within the same group, zone section names and field section names cannot be the same. The terms Paragraph and Sentence are reserved for special sections.

Section names need not be unique across tags. You can assign the same section name to more than one tag, making details transparent to searches.

tag

Specify the tag which marks the start of a section. For example, if the tag is <H1>, specify H1. The start tag you specify must be unique within a section group.

If group_name is an HTML_SECTION_GROUP, you can create field sections for the META tag's NAME/CONTENT attribute pairs. To do so, specify tag as meta@namevalue where namevalue is the value of the NAME attribute whose CONTENT attribute is to be indexed as a section. Refer to the example.

Oracle Text knows what the end tags look like from the group_type parameter you specify when you create the section group.

visible

Specify TRUE to make the text visible within rest of document.

By default the visible flag is FALSE. This means that Oracle Text indexes the text within field sections as a sub-document separate from the rest of the document. However, you can set the visible flag to TRUE if you want text within the field section to be indexed as part of the enclosing document.

Examples


Visible and Invisible Field Sections

The following code defines a section group basicgroup of the BASIC_SECTION_GROUP type. It then creates a field section in basicgroup called Author for the <A> tag. It also sets the visible flag to FALSE:

begin
ctx_ddl.create_section_group('basicgroup', 'BASIC_SECTION_GROUP');
ctx_ddl.add_field_section('basicgroup', 'Author', 'A', FALSE);
end;

Because the Author field section is not visible, to find text within the Author section, you must use the WITHIN operator as follows:

'(Martin Luther King) WITHIN Author'

A query of Martin Luther King without the WITHIN operator does not return instances of this term in field sections. If you want to query text within field sections without specifying WITHIN, you must set the visible flag to TRUE when you create the section as follows:

begin
ctx_ddl.add_field_section('basicgroup', 'Author', 'A', TRUE);
end;

Creating Sections for <META> Tags

When you use the HTML_SECTION _GROUP, you can create sections for META tags.

Consider an HTML document that has a META tag as follows:

<META NAME="author" CONTENT="ken">

To create a field section that indexes the CONTENT attribute for the <META NAME="author"> tag:

begin
ctx_ddl.create_section_group('myhtmlgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_field_section('myhtmlgroup', 'author', 'META@AUTHOR');
end

After indexing with section group mygroup, you can query the document as follows:

'ken WITHIN author'

Limitations


Nested Sections

Field sections cannot be nested. For example, if you define a field section to start with <TITLE> and define another field section to start with <FOO>, the two sections cannot be nested as follows:

<TITLE> dog <FOO> cat </FOO> </TITLE>

To work with nested section define them as zone sections.


Repeated Sections

Repeated field sections are allowed, but WITHIN queries treat them as a single section. The following is an example of repeated field section in a document:

<TITLE> cat </TITLE>
<TITLE> dog </TITLE>

The query (dog and cat) within title returns the document, even though these words occur in different sections.

To have WITHIN queries distinguish repeated sections, define them as zone sections.

Related Topics

WITHIN operator in Chapter 3, "CONTAINS Query Operators".

"Section Group Types" in Chapter 2, " Oracle Text Indexing Elements".

CREATE_SECTION_GROUP

ADD_ZONE_SECTION

ADD_SPECIAL_SECTION

REMOVE_SECTION

DROP_SECTION_GROUP


ADD_INDEX

Use this procedure to add a sub-index to a catalog index preference. You create this preference by naming one or more columns in the base table.

Since you create sub-indexes to improve the response time of structured queries, the column you add should be used in the structured_query clause of the CATSEARCH operator at query-time.

Syntax

CTX_DDL.ADD_INDEX(set_name in varchar2,
column_list varchar2,
storage_clause varchar2);
set_name

Specify the name of the index set.

column_list

Specify a comma separated list of columns to index. At index time, any column listed here cannot have a NULL value in any row in the base table. If any row is NULL during indexing and error is raised.

You must always ensure that your columns have non-NULL values before and after indexing.

storage_clause

Specify a storage clause.

Example

Consider a table called AUCTION with the following schema:

create table auction(
item_id number,
title varchar2(100),
category_id number,
price number,
bid_close date);

Assume that queries on the table involve a mandatory text query clause and optional structured conditions on category_id. Results must be sorted based on bid_close.

You can create a catalog index to support the different types of structured queries a user might enter.

To create the indexes, first create the index set preference then add the required indexes to it:

begin
  ctx_ddl.create_index_set('auction_iset');
  ctx_ddl.add_index('auction_iset','bid_close');
  ctx_ddl.add_index('auction_iset','category_id, bid_close');
end;

Create the combined catalog index with CREATE INDEX as follows:

create index auction_titlex on AUCTION(title) indextype is CTXCAT parameters ('index set auction_iset');

Querying

To query the title column for the word pokemon, you can issue regular and mixed queries as follows:

select * from AUCTION where CATSEARCH(title, 'pokemon',NULL)> 0;
select * from AUCTION where CATSEARCH(title, 'pokemon', 'category_id=99 order by bid_close desc')> 0;

ADD_MDATA

Use this procedure to change the metadata of a document that has been specified as an MDATA section. After this call, MDATA queries involving the named MDATA value will find documents with the given MDATA value.

There are two versions of CTX_DDL.ADD_MDATA: one for adding a single metadata value to a single rowid, and one for handing multiple values, multiple rowids, or both.

CTX_DDL.ADD_MDATA is transactional; it takes effect immediately in the calling session, can be seen only in the calling session, can be reversed with a ROLLBACK command, and must be committed to take permanent effect.

Use CTX_DDL.REMOVE_MDATA to remove metadata values from already-indexed documents. Only the owner of the index is allowed to call ADD_MDATA and REMOVE_MDATA.

Syntax

This is the syntax for adding a single value to a single rowid:

CTX_DDL.ADD_MDATA(
     idx_name           IN VARCHAR2, 
     section_name       IN VARCHAR2, 
     mdata_value        IN VARCHAR2,
     mdata_rowid        IN VARCHAR2,
     [part_name]        IN VARCHAR2]
);
idx_name

Name of the text index that contains the named rowid.

section_name

Name of the MDATA section.

mdata_value

The metadata value to add to the document.

mdata_rowid

The rowid to which to add the metadata value.

[part_name]

Name of the index partition, if any. Must be provided for local partitioned indexes and must be NULL for global indexes.

This is the syntax for handling multiple values, multiple rowids, or both. This version is more efficient for large numbers of new values or rowids.

CTX_DDL.ADD_MDATA(
     idx_name           IN VARCHAR2, 
     section_name       IN VARCHAR2, 
     mdata_values       SYS.ODCIVARCHAR2LIST,
     mdata_rowids       SYS.ODCIRIDLIST,
     [part_name]        IN VARCHAR2]
);
idx_name

Name of the text index that contains the named rowids.

section_name

Name of the MDATA section.

mdata_values

List of metadata values. If a metadata value contains a comma, the comma must be escaped with a backslash.

mdata_rowids

rowids to which to add the metadata values.

[part_name]

Name of the index partition, if any. Must be provided for local partitioned indexes and must be NULL for global indexes.

Example

This example updates a single value:

SQL> select rowid from mytab where contains(text, 'MDATA(sec, value')>0;
No rows returned
SQL> exec ctx_ddl.add_mdata('my_index', 'sec', 'value', 'ABC');
SQL> select rowid from mytab where contains(text, 'MDATA(sec, value')>0;
ROWID
-----
ABC

This example updates multiple values:

begin
ctx_ddl.add_mdata('my_index', 'sec',
     sys.odcivarchar2list('value1','value2','value3'),
     sys.odciridlist('ABC','DEF'));
end;

This is equivalent to:

begin
ctx_ddl.add_mdata('my_index', 'sec', 'value1', 'ABC');
ctx_ddl.add_mdata('my_index', 'sec', 'value1', 'DEF');
ctx_ddl.add_mdata('my_index', 'sec', 'value2', 'ABC');
ctx_ddl.add_mdata('my_index', 'sec', 'value2', 'DEF');
ctx_ddl.add_mdata('my_index', 'sec', 'value3', 'ABC');
ctx_ddl.add_mdata('my_index', 'sec', 'value3', 'DEF');
end;

Notes

If a rowid is not yet indexed, CTX_DDL.ADD.MDATA completes without error, but an error is logged in CTX_USER_INDEX_ERRORS.

Related Topics

See also "ADD_MDATA_SECTION"; "REMOVE_MDATA"; "MDATA"; as well as the Section Searching chapter of the Oracle Text Application Developer's Guide.


ADD_MDATA_SECTION

Use this procedure to add an MDATA section, with an accompanying value, to an existing section group. MDATA sections cannot be added to Null Section groups, Path Section groups, or Auto Section groups.

Section values undergo a simplified normalization:

Use CTX_DDL.REMOVE_SECTION to remove sections.

Syntax

CTX_DDL.ADD_MDATA_SECTION(
     group_name    IN VARCHAR2,
     section_name  IN VARCHAR2, 
     tag           IN VARCHAR2, 
);

group_name

Name of the section group that will contain the MDATA section.

section_name

Name of the MDATA section.

tag

The value of the MDATA section. For example, if the section is <AUTHOR>, the value could be Cynthia Kadohata (author of the novel The Floating World). More than one tag can be assigned to a given MDATA section.

Example

This example creates an MDATA section called AUTHOR and gives it the value Gordon Burn (author of the novel Alma).

ctx_ddl.create.section.group('htmgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_mdata_section('htmgroup', 'author', 'Gordon Burn');

Related Topics

See also "ADD_MDATA"; "REMOVE_MDATA"; "MDATA"; "CREATE_SECTION_GROUP ", as well as the Section Searching chapter of the Oracle Text Application Developer's Guide.


ADD_SPECIAL_SECTION

Adds a special section, either SENTENCE or PARAGRAPH, to a section group. This enables searching within sentences or paragraphs in documents with the WITHIN operator.

A special section in a document is a section which is not explicitly tagged like zone and field sections. The start and end of special sections are detected when the index is created. Oracle Text supports two such sections: paragraph and sentence.

The sentence and paragraph boundaries are determined by the lexer. For example, the lexer recognizes sentence and paragraph section boundaries as follows:

Table 7-1 Paragraph and Sentence Section Boundaries

Special Section Boundary
SENTENCE WORD/PUNCT/WHITESPACE

WORD/PUNCT/NEWLINE
PARAGRAPH WORD/PUNCT/NEWLINE/WHITESPACE (indented paragraph)

WORD/PUNCT/NEWLINE/NEWLINE (block paragraph)

The punctuation, whitespace, and newline characters are determined by your lexer settings and can be changed.

If the lexer cannot recognize the boundaries, no sentence or paragraph sections are indexed.

Syntax

CTX_DDL.ADD_SPECIAL_SECTION(
                 group_name    IN VARCHAR2, 
                 section_name  IN VARCHAR2);
group_name

Specify the name of the section group.

section_name

Specify SENTENCE or PARAGRAPH.

Example

The following code enables searching within sentences within HTML documents:

begin
ctx_ddl.create_section_group('htmgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_special_section('htmgroup', 'SENTENCE');
end;

You can also add zone sections to the group to enable zone searching in addition to sentence searching. The following example adds the zone section Headline to the section group htmgroup:

begin
ctx_ddl.create_section_group('htmgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_special_section('htmgroup', 'SENTENCE');
ctx_ddl.add_zone_section('htmgroup', 'Headline', 'H1');
end;

If you are only interested in sentence or paragraph searching within documents and not interested in defining zone or field sections, you can use the NULL_SECTION_GROUP as follows:

begin
ctx_ddl.create_section_group('nullgroup', 'NULL_SECTION_GROUP');
ctx_ddl.add_special_section('nullgroup', 'SENTENCE');
end;

Related Topics

WITHIN operator in Chapter 3, "CONTAINS Query Operators".

"Section Group Types" in Chapter 2, " Oracle Text Indexing Elements".

CREATE_SECTION_GROUP

ADD_ZONE_SECTION

ADD_FIELD_SECTION

REMOVE_SECTION

DROP_SECTION_GROUP


ADD_STOPCLASS

Adds a stopclass to a stoplist. A stopclass is a class of tokens that is not to be indexed.

Syntax

CTX_DDL.ADD_STOPCLASS(
  stoplist_name  in   varchar2,
  stopclass      in   varchar2
);
stoplist_name

Specify the name of the stoplist.

stopclass

Specify the stopclass to be added to stoplist_name. Currently, only the NUMBERS class is supported.

The maximum number of stopwords, stopthemes, and stopclasses you can add to a stoplist is 4095.

Example

The following code adds a stopclass of NUMBERS to the stoplist mystop:

begin
ctx_ddl.add_stopclass('mystop', 'NUMBERS');
end;

Related Topics

CREATE_STOPLIST

REMOVE_STOPCLASS

DROP_STOPLIST


ADD_STOP_SECTION

Adds a stop section to an automatic section group. Adding a stop section causes the automatic section indexing operation to ignore the specified section in XML documents.


Note:

Adding a stop section causes no section information to be created in the index. However, the text within a stop section is always searchable.

Adding a stop section is useful when your documents contain many low information tags. Adding stop sections also improves indexing performance with the automatic section group.

The number of stop sections you can add is unlimited.

Stop sections do not have section names and hence are not recorded in the section views.

Syntax

CTX_DDL.ADD_STOP_SECTION(
                 section_group IN VARCHAR2, 
                 tag  IN VARCHAR2);
section_group

Specify the name of the automatic section group. If you do not specify an automatic section group, this procedure returns an error.

tag

Specify the tag to ignore during indexing. This parameter is case-sensitive. Defining a stop tag as such also stops the tag's attribute sections, if any.

You can qualify the tag with document type in the form (doctype)tag. For example, if you wanted to make the <fluff> tag a stop section only within the mydoc document type, specify (mydoc)fluff for tag.

Example


Defining Stop Sections

The following code adds a stop section identified by the tag <fluff> to the automatic section group myauto:

begin
ctx_ddl.add_stop_section('myauto', 'fluff');
end;

This code also stops any attribute sections contained within <fluff>. For example, if a document contained:

<fluff type="computer">

Then the preceding code also stops the attribute section fluff@type.


Doctype Sensitive Stop Sections

The following code creates a stop section for the tag <fluff> only in documents that have a root element of mydoc:

begin
ctx_ddl.add_stop_section('myauto', '(mydoc)fluff');
end;

Related Topics

ALTER INDEX in Chapter 1, " SQL Statements and Operators".

CREATE_SECTION_GROUP


ADD_STOPTHEME

Adds a single stoptheme to a stoplist. A stoptheme is a theme that is not to be indexed.

In English, you query on indexed themes using the ABOUT operator.

Syntax

CTX_DDL.ADD_STOPTHEME(
  stoplist_name  in   varchar2,
  stoptheme      in   varchar2
);
stoplist_name

Specify the name of the stoplist.

stoptheme

Specify the stoptheme to be added to stoplist_name. The system normalizes the stoptheme you enter using the knowledge base. If the normalized theme is more than one theme, the system does not process your stoptheme. For this reason, Oracle recommends that you submit single stopthemes.

The maximum number of stopwords, stopthemes, and stopclasses you can add to a stoplist is 4095.

Example

The following example adds the stoptheme banking to the stoplist mystop:

begin
ctx_ddl.add_stoptheme('mystop', 'banking');
end;

Related Topics

CREATE_STOPLIST

REMOVE_STOPTHEME

DROP_STOPLIST

ABOUT operator in Chapter 3, "CONTAINS Query Operators".


ADD_STOPWORD

Use this procedure to add a single stopword to a stoplist.

To create a list of stopwords, you must call this procedure once for each word.

Syntax

CTX_DDL.ADD_STOPWORD(
stoplist_name  in   varchar2,
stopword       in   varchar2,
language       in varchar2 default NULL
);

stoplist_name

Specify the name of the stoplist.

stopword

Specify the stopword to be added.

Language-specific stopwords must be unique across the other stopwords specific to the language. For example, it is valid to have a German die and an English die in the same stoplist.

The maximum number of stopwords, stopthemes, and stopclasses you can add to a stoplist is 4095.

language

Specify the language of stopword when the stoplist you specify with stoplist_name is of type MULTI_STOPLIST. You must specify the Globalization Support name or abbreviation of an Oracle Text-supported language.

To make a stopword active in multiple languages, specify ALL for this parameter. For example, defining ALL stopwords is useful when you have international documents that contain English fragments that need to be stopped in any language.

An ALL stopword is active in all languages. If you use the multi-lexer, the language-specific lexing of the stopword occurs, just as if it had been added multiple times in multiple specific languages.

Otherwise, specify NULL.

Example


Single Language Stoplist

The following example adds the stopwords because, notwithstanding, nonetheless, and therefore to the stoplist mystop:

begin
ctx_ddl.add_stopword('mystop', 'because');
ctx_ddl.add_stopword('mystop', 'notwithstanding');
ctx_ddl.add_stopword('mystop', 'nonetheless');
ctx_ddl.add_stopword('mystop', 'therefore');
end;

Multi-Language Stoplist

The following example adds the German word die to a multi-language stoplist:

begin
ctx_ddl.add_stopword('mystop', 'Die','german');
end;


Note:

You can add stopwords after you create the index with ALTER INDEX.


Adding An ALL Stopword

The following adds the word the as an ALL stopword to the multi-language stoplist globallist:

begin
ctx_ddl.add_stopword('globallist','the','ALL');
end;

Related Topics

CREATE_STOPLIST

REMOVE_STOPWORD

DROP_STOPLIST

ALTER INDEX in Chapter 1, " SQL Statements and Operators".

Appendix E, " Supplied Stoplists"


ADD_SUB_LEXER

Add a sub-lexer to a multi-lexer preference. A sub-lexer identifies a language in a multi-lexer (multi-language) preference. Use a multi-lexer preference when you want to index more than one language.

Restrictions

The following restrictions apply to using CTX_DDL.ADD_SUB_LEXER:

Syntax

CTX_DDL.ADD_SUB_LEXER(
             lexer_name in varchar2,
             language  in varchar2,
             sub_lexer in varchar2,
             alt_value in varchar2 default null
);
lexer_name

Specify the name of the multi-lexer preference.

language

Specify the Globalization Support language name or abbreviation of the sub-lexer. For example, you can specify ENGLISH or EN for English.

The sub-lexer you specify with sub_lexer is used when the language column has a value case-insensitive equal to the Globalization Support name of abbreviation of language.

Specify DEFAULT to assign a default sub-lexer to use when the value of the language column in the base table is null, invalid, or unmapped to a sub-lexer. The DEFAULT lexer is also used to parse stopwords.

If a sub-lexer definition for language already exists, then it is replaced by this call.

sub_lexer

Specify the name of the sub-lexer to use for this language.

alt_value

Optionally specify an alternate value for language.

If you specify DEFAULT for language, you cannot specify an alt_value.

The alt_value is limited to 30 bytes and cannot be an Globalization Support language name, abbreviation, or DEFAULT.

Example

This example shows how to create a multi-language text table and how to set up the multi-lexer to index the table.

Create the multi-language table with a primary key, a text column, and a language column as follows:

create table globaldoc (
   doc_id number primary key,
   lang varchar2(3),
   text clob
);

Assume that the table holds mostly English documents, with the occasional German or Japanese document. To handle the three languages, you must create three sub-lexers, one for English, one for German, and one for Japanese:

ctx_ddl.create_preference('english_lexer','basic_lexer');
ctx_ddl.set_attribute('english_lexer','index_themes','yes');
ctx_ddl.set_attribtue('english_lexer','theme_language','english');

ctx_ddl.create_preference('german_lexer','basic_lexer');
ctx_ddl.set_attribute('german_lexer','composite','german');
ctx_ddl.set_attribute('german_lexer','mixed_case','yes');
ctx_ddl.set_attribute('german_lexer','alternate_spelling','german');

ctx_ddl.create_preference('japanese_lexer','japanese_vgram_lexer');

Create the multi-lexer preference:

ctx_ddl.create_preference('global_lexer', 'multi_lexer');

Since the stored documents are mostly English, make the English lexer the default:

ctx_ddl.add_sub_lexer('global_lexer','default','english_lexer');

Add the German and Japanese lexers in their respective languages. Also assume that the language column is expressed in ISO 639-2, so we add those as alternate values.

ctx_ddl.add_sub_lexer('global_lexer','german','german_lexer','ger');
ctx_ddl.add_sub_lexer('global_lexer','japanese','japanese_lexer','jpn');

Create the index globalx, specifying the multi-lexer preference and the language column in the parameters string as follows:

create index globalx on globaldoc(text) indextype is ctxsys.context
parameters ('lexer global_lexer language column lang');

ADD_ZONE_SECTION

Creates a zone section and adds the section to an existing section group. This enables zone section searching with the WITHIN operator.

Zone sections are sections delimited by start and end tags. The <B> and </B> tags in HTML, for instance, marks a range of words which are to be rendered in boldface.

Zone sections can be nested within one another, can overlap, and can occur more than once in a document.

Syntax

CTX_DDL.ADD_ZONE_SECTION(
  group_name     in    varchar2,
  section_name   in    varchar2,
  tag            in    varchar2
);
group_name

Specify the name of the section group to which section_name is added.

section_name

Specify the name of the section to add to the group_name. You use this name to identify the section in WITHIN queries. Avoid using names that contain non-alphanumeric characters such as _, since most of these characters are special must be escaped in queries. Section names are case-insensitive.

Within the same group, zone section names and field section names cannot be the same. The terms Paragraph and Sentence are reserved for special sections.

Section names need not be unique across tags. You can assign the same section name to more than one tag, making details transparent to searches.

tag

Specify the pattern which marks the start of a section. For example, if <H1> is the HTML tag, specify H1 for tag. The start tag you specify must be unique within a section group.

Oracle Text knows what the end tags look like from the group_type parameter you specify when you create the section group.

If group_name is an HTML_SECTION_GROUP, you can create zone sections for the META tag's NAME/CONTENT attribute pairs. To do so, specify tag as meta@namevalue where namevalue is the value of the NAME attribute whose CONTENT attributes are to be indexed as a section. Refer to the example.

If group_name is an XML_SECTION_GROUP, you can optionally qualify tag with a document type (root element) in the form (doctype)tag. Doing so makes section_name sensitive to the XML document type declaration. Refer to the example.

Examples


Creating HTML Sections

The following code defines a section group called htmgroup of type HTML_SECTION_GROUP. It then creates a zone section in htmgroup called headline identified by the <H1> tag:

begin
ctx_ddl.create_section_group('htmgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_zone_section('htmgroup', 'heading', 'H1');
end;

After indexing with section group htmgroup, you can query within the heading section by issuing a query as follows:

'Oracle WITHIN heading'

Creating Sections for <META NAME> Tags

You can create zone sections for HTML META tags when you use the HTML_SECTION_GROUP.

Consider an HTML document that has a META tag as follows:

<META NAME="author" CONTENT="ken">

To create a zone section that indexes all CONTENT attributes for the META tag whose NAME value is author:

begin
ctx_ddl.create_section_group('htmgroup', 'HTML_SECTION_GROUP');
ctx_ddl.add_zone_section('htmgroup', 'author', 'meta@author');
end

After indexing with section group htmgroup, you can query the document as follows:

'ken WITHIN author'

Creating Document Type Sensitive Sections (XML Documents Only)

You have an XML document set that contains the <book> tag declared for different document types (DTDs). You want to create a distinct book section for each document type.

Assume that myDTDname is declared as an XML document type as follows:

<!DOCTYPE myDTDname>
<myDTDname>
 ...

(Note: the DOCTYPE must match the top-level tag.)

Within myDTDname, the element <book> is declared. For this tag, you can create a section named mybooksec that is sensitive to the tag's document type as follows:

begin
ctx_ddl.create_section_group('myxmlgroup', 'XML_SECTION_GROUP');
ctx_ddl.add_zone_section('myxmlgroup', 'mybooksec', '(myDTDname)book');
end;

Notes


Repeated Sections

Zone sections can repeat. Each occurrence is treated as a separate section. For example, if <H1> denotes a heading section, they can repeat in the same documents as follows:

<H1> The Brown Fox </H1>

<H1> The Gray Wolf </H1>

Assuming that these zone sections are named Heading, the query Brown WITHIN Heading returns this document. However, a query of (Brown and Gray) WITHIN Heading does not.


Overlapping Sections

Zone sections can overlap each other. For example, if <B> and <I> denote two different zone sections, they can overlap in document as follows:

plain <B> bold <I> bold and italic </B> only italic </I>  plain

Nested Sections

Zone sections can nest, including themselves as follows:

<TD> <TABLE><TD>nested cell</TD></TABLE></TD>

Using the WITHIN operator, you can write queries to search for text in sections within sections. For example, assume the BOOK1, BOOK2, and AUTHOR zone sections occur as follows in documents doc1 and doc2:

doc1:

<book1> <author>Scott Tiger</author> This is a cool book to read.</book1>

doc2:

<book2> <author>Scott Tiger</author> This is a great book to read.</book2>

Consider the nested query:

'(Scott within author) within book1'

This query returns only doc1.

Related Topics

WITHIN operator in Chapter 3, "CONTAINS Query Operators".

"Section Group Types" in Chapter 2, " Oracle Text Indexing Elements".

CREATE_SECTION_GROUP

ADD_FIELD_SECTION

ADD_SPECIAL_SECTION

REMOVE_SECTION

DROP_SECTION_GROUP


CREATE_INDEX_SET

Creates an index set for CTXCAT index types. You name this index set in the parameter clause of CREATE INDEX when you create a CTXCAT index.

Syntax

CTX_DDL.CREATE_INDEX_SET(set_name in    varchar2);
set_name

Specify the name of the index set. You name this index set in the parameter clause of CREATE INDEX when you create a CTXCAT index.


CREATE_POLICY

Creates a policy to use with the CTX_DOC.POLICY_* procedures and the ORA:CONTAINS function. ORA:CONTAINS is a function you use within an XPATH query expression with existsNode().

Syntax

CTX_DDL.CREATE_POLICY(
         policy_name     IN VARCHAR2 DEFAULT NULL,
         filter          IN VARCHAR2 DEFAULT NULL,
         section_group   IN VARCHAR2 DEFAULT NULL,
         lexer           IN VARCHAR2 DEFAULT NULL,
         stoplist        IN VARCHAR2 DEFAULT NULL,
         wordlist        IN VARCHAR2 DEFAULT NULL);
policy_name

Specify the name for the new policy.

filter

Specify the filter preference to use.


Note:

In this release, this parameter is not supported.

section_group

Specify the section group to use. You can specify only NULL_SECTION_GROUP. Only special (sentence and paragraph) sections are supported.

lexer

Specify the lexer preference to use. Your INDEX_THEMES attribute must be disabled.

stoplist

Specify the stoplist to use.

wordlist

Specify the wordlist to use.

Example

Create mylex lexer preference named mylex.

begin 
   ctx_ddl.create_preference('mylex', 'BASIC_LEXER'); 
   ctx_ddl.set_attribute('mylex', 'printjoins', '_-'); 
   ctx_ddl.set_attribute ( 'mylex', 'index_themes', 'NO');  
   ctx_ddl.set_attribute ( 'mylex', 'index_text', 'YES'); 
end; 

Create a stoplist preference named mystop.

begin 
  ctx_ddl.create_stoplist('mystop', 'BASIC_STOPLIST'); 
  ctx_ddl.add_stopword('mystop', 'because');
  ctx_ddl.add_stopword('mystop', 'nonetheless');
  ctx_ddl.add_stopword('mystop', 'therefore');
end;

Create a wordlist preference named 'mywordlist'.

begin 
 ctx_ddl.create_preference('mywordlist', 'BASIC_WORDLIST');
 ctx_ddl.set_attribute('mywordlist','FUZZY_MATCH','ENGLISH'); 
 ctx_ddl.set_attribute('mywordlist','FUZZY_SCORE','0'); 
 ctx_ddl.set_attribute('mywordlist','FUZZY_NUMRESULTS','5000'); 
 ctx_ddl.set_attribute('mywordlist','SUBSTRING_INDEX','TRUE'); 
 ctx_ddl.set_attribute('mywordlist','STEMMER','ENGLISH'); 
end; 
exec ctx_ddl.create_policy('my_policy', NULL, NULL, 'mylex', 'mystop', 
'mywordlist');

or

exec ctx_ddl.create_policy(policy_name => 'my_policy', 
                           lexer => 'mylex',
                           stoplist => 'mystop',
                           wordlist => 'mywordlist');

Then you can issue the following existsNode() query with your own defined policy:

select id from xmltab 
  where existsNode(doc, '/book/chapter[ ora:contains(summary,"dog or cat", "my_policy") >0 ]', 'xmlns:ora="http://xmlns.oracle.com/xdb" ')=1;

You can update your policy by doing:

exec ctx_ddl.update_policy(policy_name => 'my_policy', lexer => 'my_new_lex');

You can drop your policy by doing:

exec ctx_ddl.drop_policy(policy_name => 'my_policy');

CREATE_PREFERENCE

Creates a preference in the Text data dictionary. You specify preferences in the parameter string of CREATE INDEX or ALTER INDEX.

Syntax

CTX_DDL.CREATE_PREFERENCE(preference_name  in varchar2, 
                          object_name      in varchar2); 
preference_name

Specify the name of the preference to be created.

object_name

Specify the name of the preference type.


See Also:

For a complete list of preference types and their associated attributes, see Chapter 2, " Oracle Text Indexing Elements".

Examples


Creating Text-only Index

The following example creates a lexer preference that specifies a text-only index. It does so by creating a BASIC_LEXER preference called my_lexer with CTX_DDL.CREATE_PREFERENCE. It then calls CTX_DDL.SET_ATTRIBUTE twice, first specifying YES for the INDEX_TEXT attribute, then specifying NO for the INDEX_THEMES attribute.

begin
ctx_ddl.create_preference('my_lexer', 'BASIC_LEXER');
ctx_ddl.set_attribute('my_lexer', 'INDEX_TEXT', 'YES');
ctx_ddl.set_attribute('my_lexer', 'INDEX_THEMES', 'NO');
end;

Specifying File Data Storage

The following example creates a data storage preference called mypref that tells the system that the files to be indexed are stored in the operating system. The example then uses CTX_DDL.SET_ATTRIBUTE to set the PATH attribute of to the directory /docs.

begin
ctx_ddl.create_preference('mypref', 'FILE_DATASTORE');
ctx_ddl.set_attribute('mypref', 'PATH', '/docs'); 
end;

See Also:

For more information about data storage, see "Datastore Types" in Chapter 2, " Oracle Text Indexing Elements".


Creating Master/Detail Relationship

You can use CTX_DDL.CREATE_PREFERENCE to create a preference with DETAIL_DATASTORE. You use CTX_DDL.SET_ATTRIBUTE to set the attributes for this preference. The following example shows how this is done:

begin
ctx_ddl.create_preference('my_detail_pref', 'DETAIL_DATASTORE');
ctx_ddl.set_attribute('my_detail_pref', 'binary', 'true');
ctx_ddl.set_attribute('my_detail_pref', 'detail_table', 'my_detail');
ctx_ddl.set_attribute('my_detail_pref', 'detail_key', 'article_id');
ctx_ddl.set_attribute('my_detail_pref', 'detail_lineno', 'seq');
ctx_ddl.set_attribute('my_detail_pref', 'detail_text', 'text');
end;

See Also:

For more information about master/detail, see "DETAIL_DATASTORE " in Chapter 2, " Oracle Text Indexing Elements".


Specifying Storage Attributes

The following examples specify that the index tables are to be created in the foo tablespace with an initial extent of 1K:

begin
ctx_ddl.create_preference('mystore', 'BASIC_STORAGE');
ctx_ddl.set_attribute('mystore', 'I_TABLE_CLAUSE',
                        'tablespace foo storage (initial 1K)'); 
ctx_ddl.set_attribute('mystore', 'K_TABLE_CLAUSE',
                        'tablespace foo storage (initial 1K)'); 
ctx_ddl.set_attribute('mystore', 'R_TABLE_CLAUSE',
                        'tablespace foo storage (initial 1K)'); 
ctx_ddl.set_attribute('mystore', 'N_TABLE_CLAUSE',
                        'tablespace foo storage (initial 1K)'); 
ctx_ddl.set_attribute('mystore', 'I_INDEX_CLAUSE',
                        'tablespace foo storage (initial 1K)'); 
end;

Creating Preferences with No Attributes

When you create preferences with types that have no attributes, you need only create the preference, as in the following example which sets the filter to the NULL_FILTER:

begin
ctx_ddl.create_preference('my_null_filter', 'NULL_FILTER');
end;

Related Topics

SET_ATTRIBUTE

DROP_PREFERENCE

CREATE INDEX in Chapter 1, " SQL Statements and Operators".

ALTER INDEX in Chapter 1, " SQL Statements and Operators".

Chapter 2, " Oracle Text Indexing Elements"


CREATE_SECTION_GROUP

Creates a section group for defining sections in a text column.

When you create a section group, you can add to it zone, field, or special sections with ADD_ZONE_SECTION, ADD_FIELD_SECTION, ADD_MDATA_SECTION, or ADD_SPECIAL_SECTION .

When you index, you name the section group in the parameter string of CREATE INDEX or ALTER INDEX.

After indexing, you can query within your defined sections with the WITHIN operator.

Syntax

CTX_DDL.CREATE_SECTION_GROUP(
  group_name     in    varchar2,
  group_type     in    varchar2
);
group_name

Specify the section group name to create as [user.]section_group_name. This parameter must be unique within an owner.

group_type

Specify section group type. The group_type parameter can be one of:

Section Group Preference Description
NULL_SECTION_GROUP Use this group type when you define no sections or when you define only SENTENCE or PARAGRAPH sections. This is the default.
BASIC_SECTION_GROUP Use this group type for defining sections where the start and end tags are of the form <A> and </A>.

Note: This group type dopes not support input such as unbalanced parentheses, comments tags, and attributes. Use HTML_SECTION_GROUP for this type of input.

HTML_SECTION_GROUP Use this group type for indexing HTML documents and for defining sections in HTML documents.
XML_SECTION_GROUP Use this group type for indexing XML documents and for defining sections in XML documents.
AUTO_SECTION_GROUP Use this group type to automatically create a zone section for each start-tag/end-tag pair in an XML document. The section names derived from XML tags are case sensitive as in XML.

Attribute sections are created automatically for XML tags that have attributes. Attribute sections are named in the form attribute@tag.

Stop sections, empty tags, processing instructions, and comments are not indexed.

The following limitations apply to automatic section groups:

  • You cannot add zone, field, or special sections to an automatic section group.

  • Automatic sectioning does not index XML document types (root elements.) However, you can define stop sections with document type.

  • The length of the indexed tags, including prefix and namespace, cannot exceed 64 characters. Tags longer than this are not indexed.

PATH_SECTION_GROUP Use this group type to index XML documents. Behaves like the AUTO_SECTION_GROUP.

The difference is that with this section group you can do path searching with the INPATH and HASPATH operators. Queries are also case-sensitive for tag and attribute names.

NEWS_SECTION_GROUP Use this group for defining sections in newsgroup formatted documents according to RFC 1036.

Example

The following command creates a section group called htmgroup with the HTML group type.

begin
ctx_ddl.create_section_group('htmgroup', 'HTML_SECTION_GROUP');
end;

The following command creates a section group called auto with the AUTO_SECTION_GROUP group type to be used to automatically index tags in XML documents.

begin
ctx_ddl.create_section_group('auto', 'AUTO_SECTION_GROUP');
end;

Related Topics

WITHIN operator in Chapter 3, "CONTAINS Query Operators".

"Section Group Types" in Chapter 2, " Oracle Text Indexing Elements".

ADD_ZONE_SECTION

ADD_FIELD_SECTION

ADD_MDATA_SECTION

ADD_SPECIAL_SECTION

REMOVE_SECTION

DROP_SECTION_GROUP


CREATE_STOPLIST

Use this procedure to create a new, empty stoplist. Stoplists can contain words or themes that are not to be indexed.

You can also create multi-language stoplists to hold language-specific stopwords. A multi-language stoplist is useful when you index a table that contains documents in different languages, such as English, German, and Japanese. When you do so, you text table must contain a language column.

You can add either stopwords, stopclasses, or stopthemes to a stoplist using ADD_STOPWORD , ADD_STOPCLASS , or ADD_STOPTHEME.

You can specify a stoplist in the parameter string of CREATE INDEX or ALTER INDEX to override the default stoplist CTXSYS.DEFAULT_STOPLIST.

Syntax

CTX_DDL.CREATE_STOPLIST(
stoplist_name IN VARCHAR2,
stoplist_type IN VARCHAR2 DEFAULT 'BASIC_STOPLIST');
stoplist_name

Specify the name of the stoplist to be created.

stoplist_type

Specify BASIC_STOPLIST to create a stoplist for a single language. This is the default.

Specify MULTI_STOPLIST to create a stoplist with language-specific stopwords.

At indexing time, the language column of each document is examined, and only the stopwords for that language are eliminated. At query time, the session language setting determines the active stopwords, like it determines the active lexer when using the multi-lexer.


Note:

When indexing a multi-language table with a multi-language stoplist, your table must have a language column.

Example


Single Language Stoplist

The following code creates a stoplist called mystop:

begin
ctx_ddl.create_stoplist('mystop', 'BASIC_STOPLIST');
end;

Multi-Language Stoplist

The following code creates a multi-language stoplist called multistop and then adds tow language-specific stopwords:

begin
ctx_ddl.create_stoplist('multistop', 'MULTI_STOPLIST');
ctx_ddl.add_stopword('mystop', 'Die','german');
ctx_ddl.add_stopword('mystop', 'Or','english');
end;

Related Topics

ADD_STOPWORD

ADD_STOPCLASS

ADD_STOPTHEME

DROP_STOPLIST

CREATE INDEX in Chapter 1, " SQL Statements and Operators".

ALTER INDEX in Chapter 1, " SQL Statements and Operators".

Appendix E, " Supplied Stoplists"


DROP_INDEX_SET

Drops a CTXCAT index set created with CTX_DDL.CREATE_INDEX_SET.

Syntax

CTX_DDL.DROP_INDEX_SET(set_name in varchar2);
set_name

Specify the name of the index set to drop.

Dropping an index set drops all of the sub-indexes it contains.


DROP_POLICY

Drops a policy created with CTX_DDL.CREATE_POLICY.

Syntax

CTX_DDL.DROP_POLICY(policy_name IN VARCHAR2);
policy_name

Specify the name of the policy to drop.


DROP_PREFERENCE

The DROP_PREFERENCE procedure deletes the specified preference from the Text data dictionary. Dropping a preference does not affect indexes that have already been created using that preference.

Syntax

CTX_DDL.DROP_PREFERENCE(preference_name IN VARCHAR2);
preference_name

Specify the name of the preference to be dropped.

Example

The following code drops the preference my_lexer.

begin
ctx_ddl.drop_preference('my_lexer');
end;

Related Topics

See also CTX_DDL.CREATE_PREFERENCE .


DROP_SECTION_GROUP

The DROP_SECTION_GROUP procedure deletes the specified section group, as well as all the sections in the group, from the Text data dictionary.

Syntax

CTX_DDL.DROP_SECTION_GROUP(group_name IN VARCHAR2);
group_name

Specify the name of the section group to delete.

Examples

The following code drops the section group htmgroup and all its sections:

begin
ctx_ddl.drop_section_group('htmgroup');
end;

Related Topics

See also CTX_DDL.CREATE_SECTION_GROUP .


DROP_STOPLIST

Drops a stoplist from the Text data dictionary. When you drop a stoplist, you must re-create or rebuild the index for the change to take effect.

Syntax

CTX_DDL.DROP_STOPLIST(stoplist_name in varchar2);
stoplist_name

Specify the name of the stoplist.

Example

The following code drops the stoplist mystop:

begin
ctx_ddl.drop_stoplist('mystop');
end;

Related Topics

See also CTX_DDL.CREATE_STOPLIST .


OPTIMIZE_INDEX

Use this procedure to optimize the index. You optimize your index after you synchronize it. Optimizing an index removes old data and minimizes index fragmentation, which can improve query response time. Querying and DDL may proceed while optimization takes place.

You can optimize in fast, full, rebuild, token, or token-type mode.

A common strategy for optimizing indexes is to perform regular token optimizations on frequently referenced terms, and to perform rebuild optimizations less frequently. (Use CTX_REPORT.QUERY_LOG_SUMMARY to find out which queries are made most frequently.) You can perform full, fast, or token-type optimizations instead of token optimizations.

Some users choose to perform frequent time-limited full optimizations along with occasional rebuild optimizations.


Note:

Optimizing an index can result in better response time only if you insert, delete, or update documents in your base table after your initial indexing operation.

Using this procedure to optimize your index is recommended over using the ALTER INDEX statement.

Optimization of a large index may take a long time. To monitor the progress of a lengthy optimization, log the optimization with CTX_OUTPUT.START_LOG and check the resultant logfile from time to time.

Syntax

CTX_DDL.OPTIMIZE_INDEX( 
idx_name   IN  VARCHAR2, 
optlevel   IN  VARCHAR2, 
maxtime    IN  NUMBER DEFAULT NULL, 
token      IN VARCHAR2 DEFAULT NULL,
part_name  IN VARCHAR2 DEFAULT NULL,
token_type IN NUMBER DEFAULT NULL,
parallel_degree IN VARCHAR2); 
); 
idx_name

Specify the name of the index. If you do not specify an index name, Oracle Text chooses a single index to optimize.

optlevel

Specify optimization level as a string. You can specify one of the following methods for optimization:

Value Description
FAST or CTX_DDL.OPTLEVEL_FAST This method compacts fragmented rows. However, old data is not removed.
FULL or CTX_DDL.OPTLEVEL_FULL In this mode you can optimize the entire index or a portion of the index. This method compacts rows and removes old data (deleted rows). Optimizing in full mode runs even when there are no deleted rows.
REBUILD or CTX_DDL.OPTLEVEL_REBUILD This optlevel rebuilds the $I table (the inverted list table) to produce more compact token info rows. Like FULL optimize, this mode also deletes information pertaining to deleted rows of the base table.

REBUILD is not supported for CTCAT, CTXRULE, or CTXXPATH indexes. REBUILD optimization is also not supported for CONTEXT indexes that have substring indexing enabled.

REBUILD is not supported when the $I table is partitioned.

PARALLEL REBUILD optimization is permitted.

TOKEN or CTX_DDL.OPTLEVEL_TOKEN This method lets you specify a specific token to be optimized. Oracle Text does a FULL optimization on the token you specify with token.

Use this method to optimize those tokens that are searched frequently.

Token optimization is not supported for CTXRULE indexes.

TOKEN_TYPE or CTX_DDL.OPTLEVEL_TOKEN_TYPE This optlevel optimizes on demand all tokens in the index matching the input token type.

When optlevel is TOKEN_TYPE, token_type must be provided.TOKEN_TYPE performs FULL optimize on any token of the input token_type. Like a TOKEN optimize, TOKEN_TYPE optimize does not change the FULL optimize state, and runs to completion on each invocation.


maxtime

Specify maximum optimization time, in minutes, for FULL optimize.

When you specify the symbol CTX_DDL.MAXTIME_UNLIMITED (or pass in NULL), the entire index is optimized. This is the default.

token

Specify the token to be optimized.

part_name

If your index is a local index, you must specify the name of the index partition to synchronize otherwise an error is returned.

If your index is a global index, specify NULL, which is the default.

token_type

Specify the token_type to be optimized.

parallel_degree

Specify the parallel degree as a number for parallel optimization. The actual parallel degree depends on your resources.

Examples

The following two examples are equivalent ways of optimizing an index using fast optimization:

begin 
  ctx_ddl.optimize_index('myidx','FAST'); 
end;

begin
  ctx_ddl.optimize_index('myidx',CTX_DDL.OPTLEVEL_FAST);
end;

The following example optimizes the index token Oracle:

begin
  ctx_ddl.optimize_index('myidx','token', TOKEN=>'Oracle');
end;

To optimize all tokens of field section MYSEC in index MYINDEX:

begin
  ctx_ddl.optimize_index('myindex', ctx_ddl.optlevel_token_type,
     token_type=> ctx_report.token_type('myindex','field mysec text'));end;

Related Topics

See also CTX_DDL.SYNC_INDEX and ALTER INDEX in Chapter 1, " SQL Statements and Operators".


REMOVE_INDEX

Removes the index with the specified column list from a CTXCAT index set preference.


Note:

This procedure does not remove a CTXCAT sub-index from the existing index. To do so, you must drop your index and re-index with the modified index set preference.

Syntax

CTX_DDL.REMOVE_INDEX(
set_name in varchar2,
column_list in varchar2
language in varchar2 default NULL
);
set_name

Specify the name of the index set

column_list

Specify the name of the column list to remove.


REMOVE_MDATA

Use this procedure to remove metadata values, which are associated with an MDATA section, from a document. Only the owner of the index is allowed to call ADD_MDATA and REMOVE_MDATA.

Syntax

CTX_DDL.REMOVE_MDATA(
     idx_name           IN VARCHAR2, 
     section_name       IN VARCHAR2, 
     values             SYS.ODCIVARCHAR2LIST,
     rowids             SYS.ODCIRIDLIST,
     [part_name]        IN VARCHAR2]
);
idx_name

Name of the text index that contains the named rowids.

section_name

Name of the MDATA section.

values

List of metadata values. If a metadata value contains a comma, the comma must be escaped with a backslash.

rowids

rowids from which to remove the metadata values.

[part_name]

Name of the index partition, if any. Must be provided for local partitioned indexes and must be NULL for global indexes.

Example

This example removes the MDATA value blue from the MDATA section BGCOLOR.

ctx_ddl.remove_mdata('idx_docs', 'bgcolor', 'blue', 'rows'); 

Related Topics

See also "ADD_MDATA"; "ADD_MDATA_SECTION"; "MDATA"; as well as the Section Searching chapter of the Oracle Text Application Developer's Guide.


REMOVE_SECTION

The REMOVE_SECTION procedure removes the specified section from the specified section group. You can specify the section by name or by id. You can view section id with the CTX_USER_SECTIONS view.

Syntax 1

Use the following syntax to remove a section by section name:

CTX_DDL.REMOVE_SECTION(
  group_name       in    varchar2, 
  section_name     in    varchar2
);
group_name

Specify the name of the section group from which to delete section_name.

section_name

Specify the name of the section to delete from group_name.

Syntax 2

Use the following syntax to remove a section by section id:

CTX_DDL.REMOVE_SECTION(
  group_name     in    varchar2,
  section_id     in    number
);
group_name

Specify the name of the section group from which to delete section_id.

section_id

Specify the section id of the section to delete from group_name.

Examples

The following code drops a section called Title from the htmgroup:

begin
ctx_ddl.remove_section('htmgroup', 'Title');
end;

Related Topics

ADD_FIELD_SECTION

ADD_SPECIAL_SECTION

ADD_ZONE_SECTION


REMOVE_STOPCLASS

Removes a stopclass from a stoplist.

Syntax

CTX_DDL.REMOVE_STOPCLASS(
  stoplist_name  in   varchar2,
  stopclass      in   varchar2
);
stoplist_name

Specify the name of the stoplist.

stopclass

Specify the name of the stopclass to be removed.

Example

The following code removes the stopclass NUMBERS from the stoplist mystop.

begin
ctx_ddl.remove_stopclass('mystop', 'NUMBERS');
end;

Related Topics

ADD_STOPCLASS


REMOVE_STOPTHEME

Removes a stoptheme from a stoplist.

Syntax

CTX_DDL.REMOVE_STOPTHEME(
  stoplist_name   in   varchar2,
  stoptheme       in   varchar2
);
stoplist_name

Specify the name of the stoplist.

stoptheme

Specify the stoptheme to be removed from stoplist_name.

Example

The following code removes the stoptheme banking from the stoplist mystop:

begin
ctx_ddl.remove_stoptheme('mystop', 'banking');
end;

Related Topics

ADD_STOPTHEME


REMOVE_STOPWORD

Removes a stopword from a stoplist. To have the removal of a stopword be reflected in the index, you must rebuild your index.

Syntax

CTX_DDL.REMOVE_STOPWORD(
stoplist_name  in   varchar2,
stopword       in   varchar2,
language       in   varchar2 default NULL
);
stoplist_name

Specify the name of the stoplist.

stopword

Specify the stopword to be removed from stoplist_name.

language

Specify the language of stopword to remove when the stoplist you specify with stoplist_name is of type MULTI_STOPLIST. You must specify the Globalization Support name or abbreviation of an Oracle Text-supported language. You can also remove ALL stopwords.

Example

The following code removes a stopword because from the stoplist mystop:

begin
ctx_ddl.remove_stopword('mystop','because');
end;

Related Topics

ADD_STOPWORD


REPLACE_INDEX_METADATA

Use this procedure to replace metadata in local domain indexes at the global level.

Syntax

CTX_DDL.REPLACE_INDEX_METADATA(idx_name IN VARCHAR2,  
                      parameter_string IN VARCHAR2); 
idx_name

Specify the name of the index whose metadata you want to replace.

parameter_string

Specify the parameter string to be passed to ALTER INDEX. This must begin with 'REPLACE METADATA'.

Notes

ALTER INDEX REBUILD PARAMETER ('REPLACE METADATA') does not work for a local partitioned index at the index (global) level; you cannot, for example, use that ALTER INDEX syntax to change a global preference, such as filter or lexer type, without rebuilding the index. Therefore, CTX_DDL.REPLACE_INDEX_METADATA is provided as a method of overcoming this limitation of ALTER INDEX.

Though it is meant as a way to replace metadata for a local partitioned index, CTX_DDL.REPLACE_INDEX_METADATA can be used on a global index, as well.

REPLACE_INDEX_METADATA cannot be used to change the sync type at the partition level; that is, parameter_string cannot be 'REPLACE METADATA SYNC'. For that purpose, use ALTER INDEX REBUILD PARTITION to change the sync type at the partition level.

Related Topics

"ALTER INDEX REBUILD Syntax"


SET_ATTRIBUTE

Sets a preference attribute. You use this procedure after you have created a preference with CTX_DDL.CREATE_PREFERENCE .

Syntax

CTX_DDL.SET_ATTRIBUTE(preference_name IN VARCHAR2,  
                      attribute_name  IN VARCHAR2,  
                      attribute_value IN VARCHAR2); 
preference_name

Specify the name of the preference.

attribute_name

Specify the name of the attribute.

attribute_value

Specify the attribute value. You can specify boolean values as TRUE or FALSE, T or F, YES or NO, Y or N, ON or OFF, or 1 or 0.

Example


Specifying File Data Storage

The following example creates a data storage preference called filepref that tells the system that the files to be indexed are stored in the operating system. The example then uses CTX_DDL.SET_ATTRIBUTE to set the PATH attribute to the directory /docs.

begin
ctx_ddl.create_preference('filepref', 'FILE_DATASTORE');
ctx_ddl.set_attribute('filepref', 'PATH', '/docs'); 
end;

See Also:

For more information about data storage, see "Datastore Types" in Chapter 2, " Oracle Text Indexing Elements".

For more examples of using SET_ATTRIBUTE, see CREATE_PREFERENCE .



SYNC_INDEX

Synchronizes the index to process inserts, updates, and deletes to the base table.

Syntax

CTX_DDL.SYNC_INDEX(
idx_name    IN  VARCHAR2 DEFAULT NULL
memory      IN VARCHAR2 DEFAULT NULL,
part_name   IN VARCHAR2 DEFAULT NULL,
parallel_degree IN NUMBER DEFAULT 1); 
idx_name

Specify the name of the index.

memory

Specify the runtime memory to use for synchronization. This value overrides the DEFAULT_INDEX_MEMORY system parameter.

The memory parameter specifies the amount of memory Oracle Text uses for the synchronization operation before flushing the index to disk. Specifying a large amount of memory:

Specifying smaller amounts of memory increases disk I/O and index fragmentation, but might be useful when runtime memory is scarce.

part_name

If your index is a local index, you must specify the name of the index partition to synchronize otherwise an error is returned.

If your index is a global index, specify NULL, which is the default.

parallel_degree

Specify the degree to run parallel synchronize. A number greater than 1 turns on parallel synchronize. The actual degree of parallelism might be smaller depending on your resources.

Example

The following example synchronizes the index myindex with 2 megabytes of memory:

begin
ctx_ddl.sync_index('myindex', '2M');
end;

The following example synchronizes the part1 index partition with 2 megabytes of memory:

begin
ctx_ddl.sync_index('myindex', '2M', 'part1');
end;

Related Topics

ALTER INDEX in Chapter 1, " SQL Statements and Operators"


UNSET_ATTRIBUTE

Removes a set attribute from a preference.

Syntax

CTX_DDL.UNSET_ATTRIBUTE(preference_name varchar2,
                        attribute_name  varchar2);
preference_name

Specify the name of the preference.

attribute_name

Specify the name of the attribute.

Example


Enabling/Disabling Alternate Spelling

The following example shows how you can enable alternate spelling for German and disable alternate spelling with CTX_DDL.UNSET_ATTRIBUTE:

begin
ctx_ddl.create_preference('GERMAN_LEX', 'BASIC_LEXER');
ctx_ddl.set_attribute('GERMAN_LEX', 'ALTERNATE_SPELLING', 'GERMAN');
end;

To disable alternate spelling, use the CTX_DDL.UNSET_ATTRIBUTE procedure as follows:

begin
ctx_ddl.unset_attribute('GERMAN_LEX', 'ALTERNATE_SPELLING');
end;

Related Topics

SET_ATTRIBUTE


UPDATE_POLICY

Updates a policy created with CREATE_POLICY. Replaces the preferences of the policy. Null arguments are not replaced.

Syntax

CTX_DDL.UPDATE_POLICY(
         policy_name     IN VARCHAR2 DEFAULT NULL,
         filter          IN VARCHAR2 DEFAULT NULL,
         section_group   IN VARCHAR2 DEFAULT NULL,
         lexer           IN VARCHAR2 DEFAULT NULL,
         stoplist        IN VARCHAR2 DEFAULT NULL,
         wordlist        IN VARCHAR2 DEFAULT NULL);
policy_name

Specify the name of the policy to update.

filter

Specify the filter preference to use.

section_group

Specify the section group to use.

lexer

Specify the lexer preference to use.

stoplist

specify the stoplist to use.

wordlist

Specify the wordlist to use.