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643 lines
22 KiB
Plaintext
643 lines
22 KiB
Plaintext
/*
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* tablefunc
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*
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* Sample to demonstrate C functions which return setof scalar
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* and setof composite.
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* Joe Conway <mail@joeconway.com>
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* And contributors:
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* Nabil Sayegh <postgresql@e-trolley.de>
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*
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* Copyright (c) 2002-2006, PostgreSQL Global Development Group
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*
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* Permission to use, copy, modify, and distribute this software and its
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* documentation for any purpose, without fee, and without a written agreement
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* is hereby granted, provided that the above copyright notice and this
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* paragraph and the following two paragraphs appear in all copies.
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*
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* IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY FOR
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* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING
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* LOST PROFITS, ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS
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* DOCUMENTATION, EVEN IF THE AUTHOR OR DISTRIBUTORS HAVE BEEN ADVISED OF THE
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* POSSIBILITY OF SUCH DAMAGE.
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*
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* THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
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* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
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* AND FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS
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* ON AN "AS IS" BASIS, AND THE AUTHOR AND DISTRIBUTORS HAS NO OBLIGATIONS TO
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* PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
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*
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*/
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Version 0.1 (20 July, 2002):
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First release
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Release Notes:
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Version 0.1
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- initial release
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Installation:
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Place these files in a directory called 'tablefunc' under 'contrib' in the
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PostgreSQL source tree. Then run:
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make
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make install
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You can use tablefunc.sql to create the functions in your database of choice, e.g.
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psql -U postgres template1 < tablefunc.sql
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installs following functions into database template1:
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normal_rand(int numvals, float8 mean, float8 stddev)
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- returns a set of normally distributed float8 values
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crosstabN(text sql)
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- returns a set of row_name plus N category value columns
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- crosstab2(), crosstab3(), and crosstab4() are defined for you,
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but you can create additional crosstab functions per the instructions
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in the documentation below.
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crosstab(text sql)
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- returns a set of row_name plus N category value columns
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- requires anonymous composite type syntax in the FROM clause. See
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the instructions in the documentation below.
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crosstab(text sql, N int)
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- obsolete version of crosstab()
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- the argument N is now ignored, since the number of value columns
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is always determined by the calling query
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connectby(text relname, text keyid_fld, text parent_keyid_fld
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[, text orderby_fld], text start_with, int max_depth
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[, text branch_delim])
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- returns keyid, parent_keyid, level, and an optional branch string
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and an optional serial column for ordering siblings
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- requires anonymous composite type syntax in the FROM clause. See
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the instructions in the documentation below.
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Documentation
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==================================================================
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Name
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normal_rand(int, float8, float8) - returns a set of normally
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distributed float8 values
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Synopsis
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normal_rand(int numvals, float8 mean, float8 stddev)
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Inputs
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numvals
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the number of random values to be returned from the function
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mean
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the mean of the normal distribution of values
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stddev
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the standard deviation of the normal distribution of values
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Outputs
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Returns setof float8, where the returned set of random values are normally
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distributed (Gaussian distribution)
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Example usage
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test=# SELECT * FROM
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test=# normal_rand(1000, 5, 3);
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normal_rand
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----------------------
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1.56556322244898
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9.10040991424657
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5.36957140345079
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-0.369151492880995
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0.283600703686639
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.
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.
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.
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4.82992125404908
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9.71308014517282
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2.49639286969028
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(1000 rows)
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Returns 1000 values with a mean of 5 and a standard deviation of 3.
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==================================================================
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Name
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crosstabN(text) - returns a set of row_name plus N category value columns
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Synopsis
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crosstabN(text sql)
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Inputs
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sql
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A SQL statement which produces the source set of data. The SQL statement
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must return one row_name column, one category column, and one value
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column. row_name and value must be of type text.
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e.g. provided sql must produce a set something like:
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row_name cat value
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----------+-------+-------
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row1 cat1 val1
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row1 cat2 val2
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row1 cat3 val3
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row1 cat4 val4
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row2 cat1 val5
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row2 cat2 val6
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row2 cat3 val7
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row2 cat4 val8
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Outputs
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Returns setof tablefunc_crosstab_N, which is defined by:
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CREATE TYPE tablefunc_crosstab_N AS (
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row_name TEXT,
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category_1 TEXT,
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category_2 TEXT,
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.
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.
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.
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category_N TEXT
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);
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for the default installed functions, where N is 2, 3, or 4.
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e.g. the provided crosstab2 function produces a set something like:
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<== values columns ==>
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row_name category_1 category_2
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---------+------------+------------
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row1 val1 val2
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row2 val5 val6
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Notes
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1. The sql result must be ordered by 1,2.
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2. The number of values columns depends on the tuple description
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of the function's declared return type.
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3. Missing values (i.e. not enough adjacent rows of same row_name to
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fill the number of result values columns) are filled in with nulls.
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4. Extra values (i.e. too many adjacent rows of same row_name to fill
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the number of result values columns) are skipped.
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5. Rows with all nulls in the values columns are skipped.
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6. The installed defaults are for illustration purposes. You
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can create your own return types and functions based on the
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crosstab() function of the installed library. See below for
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details.
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Example usage
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create table ct(id serial, rowclass text, rowid text, attribute text, value text);
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att1','val1');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att2','val2');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att3','val3');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att4','val4');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att1','val5');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att2','val6');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att3','val7');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att4','val8');
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select * from crosstab3(
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'select rowid, attribute, value
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from ct
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where rowclass = ''group1''
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and (attribute = ''att2'' or attribute = ''att3'') order by 1,2;');
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row_name | category_1 | category_2 | category_3
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----------+------------+------------+------------
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test1 | val2 | val3 |
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test2 | val6 | val7 |
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(2 rows)
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==================================================================
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Name
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crosstab(text) - returns a set of row_names plus category value columns
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Synopsis
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crosstab(text sql)
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crosstab(text sql, int N)
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Inputs
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sql
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A SQL statement which produces the source set of data. The SQL statement
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must return one row_name column, one category column, and one value
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column.
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e.g. provided sql must produce a set something like:
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row_name cat value
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----------+-------+-------
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row1 cat1 val1
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row1 cat2 val2
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row1 cat3 val3
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row1 cat4 val4
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row2 cat1 val5
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row2 cat2 val6
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row2 cat3 val7
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row2 cat4 val8
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N
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Obsolete argument; ignored if supplied (formerly this had to match
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the number of category columns determined by the calling query)
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Outputs
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Returns setof record, which must be defined with a column definition
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in the FROM clause of the SELECT statement, e.g.:
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SELECT *
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FROM crosstab(sql) AS ct(row_name text, category_1 text, category_2 text);
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the example crosstab function produces a set something like:
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<== values columns ==>
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row_name category_1 category_2
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---------+------------+------------
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row1 val1 val2
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row2 val5 val6
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Notes
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1. The sql result must be ordered by 1,2.
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2. The number of values columns is determined by the column definition
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provided in the FROM clause. The FROM clause must define one
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row_name column (of the same datatype as the first result column
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of the sql query) followed by N category columns (of the same
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datatype as the third result column of the sql query). You can
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set up as many category columns as you wish.
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3. Missing values (i.e. not enough adjacent rows of same row_name to
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fill the number of result values columns) are filled in with nulls.
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4. Extra values (i.e. too many adjacent rows of same row_name to fill
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the number of result values columns) are skipped.
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5. Rows with all nulls in the values columns are skipped.
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6. You can avoid always having to write out a FROM clause that defines the
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output columns by setting up a custom crosstab function that has
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the desired output row type wired into its definition.
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There are two ways you can set up a custom crosstab function:
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A. Create a composite type to define your return type, similar to the
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examples in the installation script. Then define a unique function
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name accepting one text parameter and returning setof your_type_name.
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For example, if your source data produces row_names that are TEXT,
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and values that are FLOAT8, and you want 5 category columns:
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CREATE TYPE my_crosstab_float8_5_cols AS (
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row_name TEXT,
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category_1 FLOAT8,
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category_2 FLOAT8,
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category_3 FLOAT8,
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category_4 FLOAT8,
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category_5 FLOAT8
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);
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CREATE OR REPLACE FUNCTION crosstab_float8_5_cols(text)
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RETURNS setof my_crosstab_float8_5_cols
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AS '$libdir/tablefunc','crosstab' LANGUAGE C STABLE STRICT;
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B. Use OUT parameters to define the return type implicitly.
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The same example could also be done this way:
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CREATE OR REPLACE FUNCTION crosstab_float8_5_cols(IN text,
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OUT row_name TEXT,
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OUT category_1 FLOAT8,
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OUT category_2 FLOAT8,
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OUT category_3 FLOAT8,
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OUT category_4 FLOAT8,
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OUT category_5 FLOAT8)
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RETURNS setof record
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AS '$libdir/tablefunc','crosstab' LANGUAGE C STABLE STRICT;
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Example usage
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create table ct(id serial, rowclass text, rowid text, attribute text, value text);
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att1','val1');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att2','val2');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att3','val3');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test1','att4','val4');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att1','val5');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att2','val6');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att3','val7');
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insert into ct(rowclass, rowid, attribute, value) values('group1','test2','att4','val8');
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SELECT *
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FROM crosstab(
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'select rowid, attribute, value
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from ct
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where rowclass = ''group1''
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and (attribute = ''att2'' or attribute = ''att3'') order by 1,2;', 3)
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AS ct(row_name text, category_1 text, category_2 text, category_3 text);
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row_name | category_1 | category_2 | category_3
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----------+------------+------------+------------
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test1 | val2 | val3 |
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test2 | val6 | val7 |
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(2 rows)
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==================================================================
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Name
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crosstab(text, text) - returns a set of row_name, extra, and
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category value columns
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Synopsis
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crosstab(text source_sql, text category_sql)
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Inputs
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source_sql
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A SQL statement which produces the source set of data. The SQL statement
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must return one row_name column, one category column, and one value
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column. It may also have one or more "extra" columns.
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The row_name column must be first. The category and value columns
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must be the last two columns, in that order. "extra" columns must be
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columns 2 through (N - 2), where N is the total number of columns.
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The "extra" columns are assumed to be the same for all rows with the
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same row_name. The values returned are copied from the first row
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with a given row_name and subsequent values of these columns are ignored
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until row_name changes.
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e.g. source_sql must produce a set something like:
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SELECT row_name, extra_col, cat, value FROM foo;
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row_name extra_col cat value
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----------+------------+-----+---------
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row1 extra1 cat1 val1
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row1 extra1 cat2 val2
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row1 extra1 cat4 val4
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row2 extra2 cat1 val5
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row2 extra2 cat2 val6
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row2 extra2 cat3 val7
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row2 extra2 cat4 val8
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category_sql
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A SQL statement which produces the distinct set of categories. The SQL
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statement must return one category column only. category_sql must produce
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at least one result row or an error will be generated. category_sql
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must not produce duplicate categories or an error will be generated.
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e.g. SELECT DISTINCT cat FROM foo;
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cat
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-------
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cat1
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cat2
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cat3
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cat4
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Outputs
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Returns setof record, which must be defined with a column definition
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in the FROM clause of the SELECT statement, e.g.:
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SELECT * FROM crosstab(source_sql, cat_sql)
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AS ct(row_name text, extra text, cat1 text, cat2 text, cat3 text, cat4 text);
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the example crosstab function produces a set something like:
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<== values columns ==>
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row_name extra cat1 cat2 cat3 cat4
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---------+-------+------+------+------+------
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row1 extra1 val1 val2 val4
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row2 extra2 val5 val6 val7 val8
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Notes
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1. source_sql must be ordered by row_name (column 1).
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2. The number of values columns is determined at run-time. The
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column definition provided in the FROM clause must provide for
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the correct number of columns of the proper data types.
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3. Missing values (i.e. not enough adjacent rows of same row_name to
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fill the number of result values columns) are filled in with nulls.
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4. Extra values (i.e. source rows with category not found in category_sql
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result) are skipped.
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5. Rows with a null row_name column are skipped.
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6. You can create predefined functions to avoid having to write out
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the result column names/types in each query. See the examples
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for crosstab(text).
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Example usage
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create table cth(id serial, rowid text, rowdt timestamp, attribute text, val text);
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insert into cth values(DEFAULT,'test1','01 March 2003','temperature','42');
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insert into cth values(DEFAULT,'test1','01 March 2003','test_result','PASS');
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insert into cth values(DEFAULT,'test1','01 March 2003','volts','2.6987');
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insert into cth values(DEFAULT,'test2','02 March 2003','temperature','53');
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insert into cth values(DEFAULT,'test2','02 March 2003','test_result','FAIL');
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insert into cth values(DEFAULT,'test2','02 March 2003','test_startdate','01 March 2003');
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insert into cth values(DEFAULT,'test2','02 March 2003','volts','3.1234');
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SELECT * FROM crosstab
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(
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'SELECT rowid, rowdt, attribute, val FROM cth ORDER BY 1',
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'SELECT DISTINCT attribute FROM cth ORDER BY 1'
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)
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AS
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(
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rowid text,
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rowdt timestamp,
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temperature int4,
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test_result text,
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test_startdate timestamp,
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volts float8
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);
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rowid | rowdt | temperature | test_result | test_startdate | volts
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-------+--------------------------+-------------+-------------+--------------------------+--------
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test1 | Sat Mar 01 00:00:00 2003 | 42 | PASS | | 2.6987
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test2 | Sun Mar 02 00:00:00 2003 | 53 | FAIL | Sat Mar 01 00:00:00 2003 | 3.1234
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(2 rows)
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==================================================================
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Name
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connectby(text, text, text[, text], text, text, int[, text]) - returns a set
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representing a hierarchy (tree structure)
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Synopsis
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connectby(text relname, text keyid_fld, text parent_keyid_fld
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[, text orderby_fld], text start_with, int max_depth
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[, text branch_delim])
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Inputs
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relname
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Name of the source relation
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keyid_fld
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Name of the key field
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parent_keyid_fld
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Name of the key_parent field
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orderby_fld
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If optional ordering of siblings is desired:
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Name of the field to order siblings
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start_with
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root value of the tree input as a text value regardless of keyid_fld type
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max_depth
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zero (0) for unlimited depth, otherwise restrict level to this depth
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branch_delim
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If optional branch value is desired, this string is used as the delimiter.
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When not provided, a default value of '~' is used for internal
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recursion detection only, and no "branch" field is returned.
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Outputs
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Returns setof record, which must defined with a column definition
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in the FROM clause of the SELECT statement, e.g.:
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'row2', 0, '~')
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AS t(keyid text, parent_keyid text, level int, branch text);
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- or -
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'row2', 0)
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AS t(keyid text, parent_keyid text, level int);
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- or -
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'pos', 'row2', 0, '~')
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AS t(keyid text, parent_keyid text, level int, branch text, pos int);
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- or -
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'pos', 'row2', 0)
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AS t(keyid text, parent_keyid text, level int, pos int);
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Notes
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1. keyid and parent_keyid must be the same data type
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2. The column definition *must* include a third column of type INT4 for
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the level value output
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3. If the branch field is not desired, omit both the branch_delim input
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parameter *and* the branch field in the query column definition. Note
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that when branch_delim is not provided, a default value of '~' is used
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for branch_delim for internal recursion detection, even though the branch
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field is not returned.
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4. If the branch field is desired, it must be the fourth column in the query
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column definition, and it must be type TEXT.
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5. The parameters representing table and field names must include double
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quotes if the names are mixed-case or contain special characters.
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6. If sorting of siblings is desired, the orderby_fld input parameter *and*
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a name for the resulting serial field (type INT32) in the query column
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definition must be given.
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Example usage
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CREATE TABLE connectby_tree(keyid text, parent_keyid text, pos int);
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INSERT INTO connectby_tree VALUES('row1',NULL, 0);
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INSERT INTO connectby_tree VALUES('row2','row1', 0);
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INSERT INTO connectby_tree VALUES('row3','row1', 0);
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INSERT INTO connectby_tree VALUES('row4','row2', 1);
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INSERT INTO connectby_tree VALUES('row5','row2', 0);
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INSERT INTO connectby_tree VALUES('row6','row4', 0);
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INSERT INTO connectby_tree VALUES('row7','row3', 0);
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INSERT INTO connectby_tree VALUES('row8','row6', 0);
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INSERT INTO connectby_tree VALUES('row9','row5', 0);
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-- with branch, without orderby_fld
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'row2', 0, '~')
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AS t(keyid text, parent_keyid text, level int, branch text);
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keyid | parent_keyid | level | branch
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-------+--------------+-------+---------------------
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row2 | | 0 | row2
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row4 | row2 | 1 | row2~row4
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row6 | row4 | 2 | row2~row4~row6
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row8 | row6 | 3 | row2~row4~row6~row8
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row5 | row2 | 1 | row2~row5
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row9 | row5 | 2 | row2~row5~row9
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(6 rows)
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-- without branch, without orderby_fld
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'row2', 0)
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AS t(keyid text, parent_keyid text, level int);
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keyid | parent_keyid | level
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-------+--------------+-------
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row2 | | 0
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row4 | row2 | 1
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row6 | row4 | 2
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row8 | row6 | 3
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row5 | row2 | 1
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row9 | row5 | 2
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(6 rows)
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-- with branch, with orderby_fld (notice that row5 comes before row4)
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'pos', 'row2', 0, '~')
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AS t(keyid text, parent_keyid text, level int, branch text, pos int) ORDER BY t.pos;
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keyid | parent_keyid | level | branch | pos
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-------+--------------+-------+---------------------+-----
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row2 | | 0 | row2 | 1
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row5 | row2 | 1 | row2~row5 | 2
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row9 | row5 | 2 | row2~row5~row9 | 3
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row4 | row2 | 1 | row2~row4 | 4
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row6 | row4 | 2 | row2~row4~row6 | 5
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row8 | row6 | 3 | row2~row4~row6~row8 | 6
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(6 rows)
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-- without branch, with orderby_fld (notice that row5 comes before row4)
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SELECT * FROM connectby('connectby_tree', 'keyid', 'parent_keyid', 'pos', 'row2', 0)
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AS t(keyid text, parent_keyid text, level int, pos int) ORDER BY t.pos;
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keyid | parent_keyid | level | pos
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-------+--------------+-------+-----
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row2 | | 0 | 1
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row5 | row2 | 1 | 2
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row9 | row5 | 2 | 3
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row4 | row2 | 1 | 4
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row6 | row4 | 2 | 5
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row8 | row6 | 3 | 6
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(6 rows)
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==================================================================
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-- Joe Conway
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