This has been asked multiple times here and here, but none of the answers are suitable in my case because I do not want to execute my update statement in a PL/PgSQL function and use GET DIAGNOSTICS integer_var = ROW_COUNT.
I have to do this in raw SQL.
For instance, in MS SQL SERVER we have ##ROWCOUNT which could be used like the following :
UPDATE <target_table>
SET Proprerty0 = Value0
WHERE <predicate>;
SELECT <computed_value_columns>
FROM <target>
WHERE ##ROWCOUNT > 0;
In one roundtrip to the database I know if the update was successfull and get the calculated values back.
What could be used instead of '##ROWCOUNT' ?
Can someone confirm that this is in fact impossible at this time ?
Thanks in advance.
EDIT 1 : I confirm that I need to use raw SQL (I wrote "raw plpgsql" in the original description).
In an attempt to make my question clearer please consider that the update statement affects only one row and think about optimistic concurrency:
The client did a SELECT Statement at first.
He builds the UPDATE and knows which database computed columns are to be included in the SELECT clause. Among other things, the predicate includes a timestamp that is computed each time the rows is updated.
So, if we have 1 row returned then everything is OK. If no row is returned then we know that there was a previous update and the client may need to refresh the data before trying to update clause again. This is why we need to know how many rows where affected by the update statement before returning computed columns. No row should be returned if the update fails.
What you want is not currently possible in the form that you describe, but I think you can do what you want with UPDATE ... RETURNING. See UPDATE ... RETURNING in the manual.
UPDATE <target_table>
SET Proprerty0 = Value0
WHERE <predicate>
RETURNING Property0;
It's hard to be sure, since the example you've provided is so abstract as to be somewhat meaningless.
You can also use a wCTE, which allows more complex cases:
WITH updated_rows AS (
UPDATE <target_table>
SET Proprerty0 = Value0
WHERE <predicate>
RETURNING row_id, Property0
)
SELECT row_id, some_computed_value_from_property
FROM updated_rows;
See common table expressions (WITH queries) and depesz's article on wCTEs.
UPDATE based on some added detail in the question, here's a demo using UPDATE ... RETURNING:
CREATE TABLE upret_demo(
id serial primary key,
somecol text not null,
last_updated timestamptz
);
INSERT INTO upret_demo (somecol, last_updated) VALUES ('blah',current_timestamp);
UPDATE upret_demo
SET
somecol = 'newvalue',
last_updated = current_timestamp
WHERE last_updated = '2012-12-03 19:36:15.045159+08' -- Change to your timestamp
RETURNING
somecol || '_computed' AS a,
'totally_new_computed_column' AS b;
Output when run the 1st time:
a | b
-------------------+-----------------------------
newvalue_computed | totally_new_computed_column
(1 row)
When run again, it'll have no effect and return no rows.
If you have more complex calculations to do in the result set, you can use a wCTE so you can JOIN on the results of the update and do other complex things.
WITH upd_row AS (
UPDATE upret_demo SET
somecol = 'newvalue',
last_updated = current_timestamp
WHERE last_updated = '2012-12-03 19:36:15.045159+08'
RETURNING id, somecol, last_updated
)
SELECT
'row_'||id||'_'||somecol||', updated '||last_updated AS calc1,
repeat('x',4) AS calc2
FROM upd_row;
In other words: Use UPDATE ... RETURNING, either directly to produce the calculated rows, or in a writeable CTE for more complex cases.
Generally the answer to this question depends on the type of the driver used.
PQcmdTuples() function does what is needed, if the application uses libpq. Other libraries on top of libpq need to have some wrapper on top of this function.
For JDBC the Statement.executeUpdate() method seems to the job.
ODBC provides SQLRowCount() function for the similar purpose.
Related
Does PostgreSQL support computed / calculated columns, like MS SQL Server? I can't find anything in the docs, but as this feature is included in many other DBMSs I thought I might be missing something.
Eg: http://msdn.microsoft.com/en-us/library/ms191250.aspx
Postgres 12 or newer
STORED generated columns are introduced with Postgres 12 - as defined in the SQL standard and implemented by some RDBMS including DB2, MySQL, and Oracle. Or the similar "computed columns" of SQL Server.
Trivial example:
CREATE TABLE tbl (
int1 int
, int2 int
, product bigint GENERATED ALWAYS AS (int1 * int2) STORED
);
fiddle
VIRTUAL generated columns may come with one of the next iterations. (Not in Postgres 15, yet).
Related:
Attribute notation for function call gives error
Postgres 11 or older
Up to Postgres 11 "generated columns" are not supported.
You can emulate VIRTUAL generated columns with a function using attribute notation (tbl.col) that looks and works much like a virtual generated column. That's a bit of a syntax oddity which exists in Postgres for historic reasons and happens to fit the case. This related answer has code examples:
Store common query as column?
The expression (looking like a column) is not included in a SELECT * FROM tbl, though. You always have to list it explicitly.
Can also be supported with a matching expression index - provided the function is IMMUTABLE. Like:
CREATE FUNCTION col(tbl) ... AS ... -- your computed expression here
CREATE INDEX ON tbl(col(tbl));
Alternatives
Alternatively, you can implement similar functionality with a VIEW, optionally coupled with expression indexes. Then SELECT * can include the generated column.
"Persisted" (STORED) computed columns can be implemented with triggers in a functionally equivalent way.
Materialized views are a related concept, implemented since Postgres 9.3.
In earlier versions one can manage MVs manually.
YES you can!! The solution should be easy, safe, and performant...
I'm new to postgresql, but it seems you can create computed columns by using an expression index, paired with a view (the view is optional, but makes makes life a bit easier).
Suppose my computation is md5(some_string_field), then I create the index as:
CREATE INDEX some_string_field_md5_index ON some_table(MD5(some_string_field));
Now, any queries that act on MD5(some_string_field) will use the index rather than computing it from scratch. For example:
SELECT MAX(some_field) FROM some_table GROUP BY MD5(some_string_field);
You can check this with explain.
However at this point you are relying on users of the table knowing exactly how to construct the column. To make life easier, you can create a VIEW onto an augmented version of the original table, adding in the computed value as a new column:
CREATE VIEW some_table_augmented AS
SELECT *, MD5(some_string_field) as some_string_field_md5 from some_table;
Now any queries using some_table_augmented will be able to use some_string_field_md5 without worrying about how it works..they just get good performance. The view doesn't copy any data from the original table, so it is good memory-wise as well as performance-wise. Note however that you can't update/insert into a view, only into the source table, but if you really want, I believe you can redirect inserts and updates to the source table using rules (I could be wrong on that last point as I've never tried it myself).
Edit: it seems if the query involves competing indices, the planner engine may sometimes not use the expression-index at all. The choice seems to be data dependant.
One way to do this is with a trigger!
CREATE TABLE computed(
one SERIAL,
two INT NOT NULL
);
CREATE OR REPLACE FUNCTION computed_two_trg()
RETURNS trigger
LANGUAGE plpgsql
SECURITY DEFINER
AS $BODY$
BEGIN
NEW.two = NEW.one * 2;
RETURN NEW;
END
$BODY$;
CREATE TRIGGER computed_500
BEFORE INSERT OR UPDATE
ON computed
FOR EACH ROW
EXECUTE PROCEDURE computed_two_trg();
The trigger is fired before the row is updated or inserted. It changes the field that we want to compute of NEW record and then it returns that record.
PostgreSQL 12 supports generated columns:
PostgreSQL 12 Beta 1 Released!
Generated Columns
PostgreSQL 12 allows the creation of generated columns that compute their values with an expression using the contents of other columns. This feature provides stored generated columns, which are computed on inserts and updates and are saved on disk. Virtual generated columns, which are computed only when a column is read as part of a query, are not implemented yet.
Generated Columns
A generated column is a special column that is always computed from other columns. Thus, it is for columns what a view is for tables.
CREATE TABLE people (
...,
height_cm numeric,
height_in numeric GENERATED ALWAYS AS (height_cm * 2.54) STORED
);
db<>fiddle demo
Well, not sure if this is what You mean but Posgres normally support "dummy" ETL syntax.
I created one empty column in table and then needed to fill it by calculated records depending on values in row.
UPDATE table01
SET column03 = column01*column02; /*e.g. for multiplication of 2 values*/
It is so dummy I suspect it is not what You are looking for.
Obviously it is not dynamic, you run it once. But no obstacle to get it into trigger.
Example on creating an empty virtual column
,(SELECT *
From (values (''))
A("virtual_col"))
Example on creating two virtual columns with values
SELECT *
From (values (45,'Completed')
, (1,'In Progress')
, (1,'Waiting')
, (1,'Loading')
) A("Count","Status")
order by "Count" desc
I have a code that works and use the term calculated, I'm not on postgresSQL pure tho we run on PADB
here is how it's used
create table some_table as
select category,
txn_type,
indiv_id,
accum_trip_flag,
max(first_true_origin) as true_origin,
max(first_true_dest ) as true_destination,
max(id) as id,
count(id) as tkts_cnt,
(case when calculated tkts_cnt=1 then 1 else 0 end) as one_way
from some_rando_table
group by 1,2,3,4 ;
A lightweight solution with Check constraint:
CREATE TABLE example (
discriminator INTEGER DEFAULT 0 NOT NULL CHECK (discriminator = 0)
);
Does PostgreSQL support computed / calculated columns, like MS SQL Server? I can't find anything in the docs, but as this feature is included in many other DBMSs I thought I might be missing something.
Eg: http://msdn.microsoft.com/en-us/library/ms191250.aspx
Postgres 12 or newer
STORED generated columns are introduced with Postgres 12 - as defined in the SQL standard and implemented by some RDBMS including DB2, MySQL, and Oracle. Or the similar "computed columns" of SQL Server.
Trivial example:
CREATE TABLE tbl (
int1 int
, int2 int
, product bigint GENERATED ALWAYS AS (int1 * int2) STORED
);
fiddle
VIRTUAL generated columns may come with one of the next iterations. (Not in Postgres 15, yet).
Related:
Attribute notation for function call gives error
Postgres 11 or older
Up to Postgres 11 "generated columns" are not supported.
You can emulate VIRTUAL generated columns with a function using attribute notation (tbl.col) that looks and works much like a virtual generated column. That's a bit of a syntax oddity which exists in Postgres for historic reasons and happens to fit the case. This related answer has code examples:
Store common query as column?
The expression (looking like a column) is not included in a SELECT * FROM tbl, though. You always have to list it explicitly.
Can also be supported with a matching expression index - provided the function is IMMUTABLE. Like:
CREATE FUNCTION col(tbl) ... AS ... -- your computed expression here
CREATE INDEX ON tbl(col(tbl));
Alternatives
Alternatively, you can implement similar functionality with a VIEW, optionally coupled with expression indexes. Then SELECT * can include the generated column.
"Persisted" (STORED) computed columns can be implemented with triggers in a functionally equivalent way.
Materialized views are a related concept, implemented since Postgres 9.3.
In earlier versions one can manage MVs manually.
YES you can!! The solution should be easy, safe, and performant...
I'm new to postgresql, but it seems you can create computed columns by using an expression index, paired with a view (the view is optional, but makes makes life a bit easier).
Suppose my computation is md5(some_string_field), then I create the index as:
CREATE INDEX some_string_field_md5_index ON some_table(MD5(some_string_field));
Now, any queries that act on MD5(some_string_field) will use the index rather than computing it from scratch. For example:
SELECT MAX(some_field) FROM some_table GROUP BY MD5(some_string_field);
You can check this with explain.
However at this point you are relying on users of the table knowing exactly how to construct the column. To make life easier, you can create a VIEW onto an augmented version of the original table, adding in the computed value as a new column:
CREATE VIEW some_table_augmented AS
SELECT *, MD5(some_string_field) as some_string_field_md5 from some_table;
Now any queries using some_table_augmented will be able to use some_string_field_md5 without worrying about how it works..they just get good performance. The view doesn't copy any data from the original table, so it is good memory-wise as well as performance-wise. Note however that you can't update/insert into a view, only into the source table, but if you really want, I believe you can redirect inserts and updates to the source table using rules (I could be wrong on that last point as I've never tried it myself).
Edit: it seems if the query involves competing indices, the planner engine may sometimes not use the expression-index at all. The choice seems to be data dependant.
One way to do this is with a trigger!
CREATE TABLE computed(
one SERIAL,
two INT NOT NULL
);
CREATE OR REPLACE FUNCTION computed_two_trg()
RETURNS trigger
LANGUAGE plpgsql
SECURITY DEFINER
AS $BODY$
BEGIN
NEW.two = NEW.one * 2;
RETURN NEW;
END
$BODY$;
CREATE TRIGGER computed_500
BEFORE INSERT OR UPDATE
ON computed
FOR EACH ROW
EXECUTE PROCEDURE computed_two_trg();
The trigger is fired before the row is updated or inserted. It changes the field that we want to compute of NEW record and then it returns that record.
PostgreSQL 12 supports generated columns:
PostgreSQL 12 Beta 1 Released!
Generated Columns
PostgreSQL 12 allows the creation of generated columns that compute their values with an expression using the contents of other columns. This feature provides stored generated columns, which are computed on inserts and updates and are saved on disk. Virtual generated columns, which are computed only when a column is read as part of a query, are not implemented yet.
Generated Columns
A generated column is a special column that is always computed from other columns. Thus, it is for columns what a view is for tables.
CREATE TABLE people (
...,
height_cm numeric,
height_in numeric GENERATED ALWAYS AS (height_cm * 2.54) STORED
);
db<>fiddle demo
Well, not sure if this is what You mean but Posgres normally support "dummy" ETL syntax.
I created one empty column in table and then needed to fill it by calculated records depending on values in row.
UPDATE table01
SET column03 = column01*column02; /*e.g. for multiplication of 2 values*/
It is so dummy I suspect it is not what You are looking for.
Obviously it is not dynamic, you run it once. But no obstacle to get it into trigger.
Example on creating an empty virtual column
,(SELECT *
From (values (''))
A("virtual_col"))
Example on creating two virtual columns with values
SELECT *
From (values (45,'Completed')
, (1,'In Progress')
, (1,'Waiting')
, (1,'Loading')
) A("Count","Status")
order by "Count" desc
I have a code that works and use the term calculated, I'm not on postgresSQL pure tho we run on PADB
here is how it's used
create table some_table as
select category,
txn_type,
indiv_id,
accum_trip_flag,
max(first_true_origin) as true_origin,
max(first_true_dest ) as true_destination,
max(id) as id,
count(id) as tkts_cnt,
(case when calculated tkts_cnt=1 then 1 else 0 end) as one_way
from some_rando_table
group by 1,2,3,4 ;
A lightweight solution with Check constraint:
CREATE TABLE example (
discriminator INTEGER DEFAULT 0 NOT NULL CHECK (discriminator = 0)
);
Just interested, why below ( simplified ) example works this way.
CREATE TABLE test (id SERIAL, val INT NOT NULL, PRIMARY KEY(id));
INSERT INTO test (val) VALUES (1);
WITH t AS ( UPDATE test SET val = 1 RETURNING id )
DELETE FROM test WHERE id IN ( SELECT id FROM t);
Result:
DELETE 0
Question:
Why DELETE did not find any rows to delete?
PostgreSql version 9.2.1
Transaction isolation = read commited
Thanks!
I suspect it has something to do with this line in the docs -
The primary query and the WITH queries are all (notionally) executed
at the same time. This implies that the effects of a data-modifying
statement in WITH cannot be seen from other parts of the query, other
than by reading its RETURNING output. If two such data-modifying
statements attempt to modify the same row, the results are
unspecified.
While I would think the ID would be available since it isn't changing in the WITH subquery, there could be something going on with row visibility. The term "unspecified" is pretty vague, this may really be a question for the postgres list so that one of the gurus can have a crack at it...
EDIT: To provide slightly more information, I also tried replacing DELETE with SELECT *, and this returned the expected rows. My immediate reaction was that if it can find the rows to return them, it should be able to find them to delete them. But if I think about it more, this test supports the quote, in that a data-modifying statement paired with a non-data-modifying statement produces the expected results, whereas two data-modifying statements produce unexpected results.
Some SQL servers have a feature where INSERT is skipped if it would violate a primary/unique key constraint. For instance, MySQL has INSERT IGNORE.
What's the best way to emulate INSERT IGNORE and ON DUPLICATE KEY UPDATE with PostgreSQL?
With PostgreSQL 9.5, this is now native functionality (like MySQL has had for several years):
INSERT ... ON CONFLICT DO NOTHING/UPDATE ("UPSERT")
9.5 brings support for "UPSERT" operations.
INSERT is extended to accept an ON CONFLICT DO UPDATE/IGNORE clause. This clause specifies an alternative action to take in the event of a would-be duplicate violation.
...
Further example of new syntax:
INSERT INTO user_logins (username, logins)
VALUES ('Naomi',1),('James',1)
ON CONFLICT (username)
DO UPDATE SET logins = user_logins.logins + EXCLUDED.logins;
Edit: in case you missed warren's answer, PG9.5 now has this natively; time to upgrade!
Building on Bill Karwin's answer, to spell out what a rule based approach would look like (transferring from another schema in the same DB, and with a multi-column primary key):
CREATE RULE "my_table_on_duplicate_ignore" AS ON INSERT TO "my_table"
WHERE EXISTS(SELECT 1 FROM my_table
WHERE (pk_col_1, pk_col_2)=(NEW.pk_col_1, NEW.pk_col_2))
DO INSTEAD NOTHING;
INSERT INTO my_table SELECT * FROM another_schema.my_table WHERE some_cond;
DROP RULE "my_table_on_duplicate_ignore" ON "my_table";
Note: The rule applies to all INSERT operations until the rule is dropped, so not quite ad hoc.
For those of you that have Postgres 9.5 or higher, the new ON CONFLICT DO NOTHING syntax should work:
INSERT INTO target_table (field_one, field_two, field_three )
SELECT field_one, field_two, field_three
FROM source_table
ON CONFLICT (field_one) DO NOTHING;
For those of us who have an earlier version, this right join will work instead:
INSERT INTO target_table (field_one, field_two, field_three )
SELECT source_table.field_one, source_table.field_two, source_table.field_three
FROM source_table
LEFT JOIN target_table ON source_table.field_one = target_table.field_one
WHERE target_table.field_one IS NULL;
Try to do an UPDATE. If it doesn't modify any row that means it didn't exist, so do an insert. Obviously, you do this inside a transaction.
You can of course wrap this in a function if you don't want to put the extra code on the client side. You also need a loop for the very rare race condition in that thinking.
There's an example of this in the documentation: http://www.postgresql.org/docs/9.3/static/plpgsql-control-structures.html, example 40-2 right at the bottom.
That's usually the easiest way. You can do some magic with rules, but it's likely going to be a lot messier. I'd recommend the wrap-in-function approach over that any day.
This works for single row, or few row, values. If you're dealing with large amounts of rows for example from a subquery, you're best of splitting it into two queries, one for INSERT and one for UPDATE (as an appropriate join/subselect of course - no need to write your main filter twice)
To get the insert ignore logic you can do something like below. I found simply inserting from a select statement of literal values worked best, then you can mask out the duplicate keys with a NOT EXISTS clause. To get the update on duplicate logic I suspect a pl/pgsql loop would be necessary.
INSERT INTO manager.vin_manufacturer
(SELECT * FROM( VALUES
('935',' Citroën Brazil','Citroën'),
('ABC', 'Toyota', 'Toyota'),
('ZOM',' OM','OM')
) as tmp (vin_manufacturer_id, manufacturer_desc, make_desc)
WHERE NOT EXISTS (
--ignore anything that has already been inserted
SELECT 1 FROM manager.vin_manufacturer m where m.vin_manufacturer_id = tmp.vin_manufacturer_id)
)
INSERT INTO mytable(col1,col2)
SELECT 'val1','val2'
WHERE NOT EXISTS (SELECT 1 FROM mytable WHERE col1='val1')
As #hanmari mentioned in his comment. when inserting into a postgres tables, the on conflict (..) do nothing is the best code to use for not inserting duplicate data.:
query = "INSERT INTO db_table_name(column_name)
VALUES(%s) ON CONFLICT (column_name) DO NOTHING;"
The ON CONFLICT line of code will allow the insert statement to still insert rows of data. The query and values code is an example of inserted date from a Excel into a postgres db table.
I have constraints added to a postgres table I use to make sure the ID field is unique. Instead of running a delete on rows of data that is the same, I add a line of sql code that renumbers the ID column starting at 1.
Example:
q = 'ALTER id_column serial RESTART WITH 1'
If my data has an ID field, I do not use this as the primary ID/serial ID, I create a ID column and I set it to serial.
I hope this information is helpful to everyone.
*I have no college degree in software development/coding. Everything I know in coding, I study on my own.
Looks like PostgreSQL supports a schema object called a rule.
http://www.postgresql.org/docs/current/static/rules-update.html
You could create a rule ON INSERT for a given table, making it do NOTHING if a row exists with the given primary key value, or else making it do an UPDATE instead of the INSERT if a row exists with the given primary key value.
I haven't tried this myself, so I can't speak from experience or offer an example.
This solution avoids using rules:
BEGIN
INSERT INTO tableA (unique_column,c2,c3) VALUES (1,2,3);
EXCEPTION
WHEN unique_violation THEN
UPDATE tableA SET c2 = 2, c3 = 3 WHERE unique_column = 1;
END;
but it has a performance drawback (see PostgreSQL.org):
A block containing an EXCEPTION clause is significantly more expensive
to enter and exit than a block without one. Therefore, don't use
EXCEPTION without need.
On bulk, you can always delete the row before the insert. A deletion of a row that doesn't exist doesn't cause an error, so its safely skipped.
For data import scripts, to replace "IF NOT EXISTS", in a way, there's a slightly awkward formulation that nevertheless works:
DO
$do$
BEGIN
PERFORM id
FROM whatever_table;
IF NOT FOUND THEN
-- INSERT stuff
END IF;
END
$do$;
We have an Oracle application that uses a standard pattern to populate surrogate keys. We have a series of extrinsic rows (that have specific values for the surrogate keys) and other rows that have intrinsic values.
We use the following Oracle trigger snippet to determine what to do with the Surrogate key on insert:
IF :NEW.SurrogateKey IS NULL THEN
SELECT SurrogateKey_SEQ.NEXTVAL INTO :NEW.SurrogateKey FROM DUAL;
END IF;
If the supplied surrogate key is null then get a value from the nominated sequence, else pass the supplied surrogate key through to the row.
I can't seem to find an easy way to do this is T-SQL. There are all sorts of approaches, but none of which use the notion of a sequence generator like Oracle and other SQL-92 compliant DBs do.
Anybody know of a really efficient way to do this in SQL Server T-SQL? By the way, we're using SQL Server 2008 if that's any help.
You may want to look at IDENTITY. This gives you a column for which the value will be determined when you insert the row.
This may mean that you have to insert the row, and determine the value afterwards, using SCOPE_IDENTITY().
There is also an article on simulating Oracle Sequences in SQL Server here: http://www.sqlmag.com/Articles/ArticleID/46900/46900.html?Ad=1
Identity is one approach, although it will generate unique identifiers at a per table level.
Another approach is to use unique identifiers, in particualr using NewSequantialID() that ensues the generated id is always bigger than the last. The problem with this approach is you are no longer dealing with integers.
The closest way to emulate the oracle method is to have a separate table with a counter field, and then write a user defined function that queries this field, increments it, and returns the value.
Here is a way to do it using a table to store your last sequence number. The stored proc is very simple, most of the stuff in there is because I'm lazy and don't like surprises should I forget something so...here it is:
----- Create the sequence value table.
SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE TABLE [dbo].[SequenceTbl]
(
[CurrentValue] [bigint]
) ON [PRIMARY]
GO
-----------------Create the stored procedure
SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
CREATE procedure [dbo].[sp_NextInSequence](#SkipCount BigInt = 1)
AS
BEGIN
BEGIN TRANSACTION
DECLARE #NextInSequence BigInt;
IF NOT EXISTS
(
SELECT
CurrentValue
FROM
SequenceTbl
)
INSERT INTO SequenceTbl (CurrentValue) VALUES (0);
SELECT TOP 1
#NextInSequence = ISNULL(CurrentValue, 0) + 1
FROM
SequenceTbl WITH (HoldLock);
UPDATE SequenceTbl WITH (UPDLOCK)
SET CurrentValue = #NextInSequence + (#SkipCount - 1);
COMMIT TRANSACTION
RETURN #NextInSequence
END;
GO
--------Use the stored procedure in Sql Manager to retrive a test value.
declare #NextInSequence BigInt
exec #NextInSequence = sp_NextInSequence;
--exec #NextInSequence = sp_NextInSequence <skipcount>;
select NextInSequence = #NextInSequence;
-----Show the current table value.
select * from SequenceTbl;
The astute will notice that there is a parameter (optional) for the stored proc. This is to allow the caller to reserve a block of ID's in the instance that the caller has more than one record that needs a unique id - using the SkipCount, the caller need make only a single call for however many IDs are needed.
The entire "IF EXISTS...INSERT INTO..." block can be removed if you remember to insert a record when the table is created. If you also remember to insert that record with a value (your seed value - a number which will never be used as an ID), you can also remove the ISNULL(...) portion of the select and just use CurrentValue + 1.
Now, before anyone makes a comment, please note that I am a software engineer, not a dba! So, any constructive criticism concerning the use of "Top 1", "With (HoldLock)" and "With (UPDLock)" is welcome. I don't know how well this will scale but this works OK for me so far...