django.db.utils.DatabaseError: ORA-12704: character set mismatch - oracle12c

i faced a strange issue, trying to store a list of items (of length ~30) into database via bulk_insert, i get
django.db.utils.DatabaseError: ORA-12704: character set mismatch
but inserting items one by one via save is OK, even putting a few items into bulk_insert works.

I faced the same issue recently. The sql django orm generated for bulk_create() is like this:
Insert into table_name (column_name1, column_name2) select a1,a2 from dual union all select a3, a4 from dual.
Djano orm will convert all values into unicode before executing the statement. In cx_Oralce, None will be treated as VARCHAR2, unicode will be treated as NVARCHAR2, so if we will have ORA-12704 if a1 is None and a2 is not None.
If we insert the items one by one, Django orm will use another sql so we won't have this problem.

Related

Query insists on quoted columns

I have a local copy of Postgres running, and I'm working on a C# .Net Core 2.1 app using nHibernate as an ORM.
It's started throwing an exception: PostgresException: 42703: column this_.datasetname does not exist
When I copy the SQL and run in pgAdmin I get a similar error.
This is a short version of the SQL which gives the same error:
SELECT this_.datasetName FROM orders this_
ERROR: column this_.datasetname does not exist LINE 1: SELECT
this_.datasetName FROM orders this_
^ HINT: Perhaps you meant to reference the column "this_.datasetName". SQL state: 42703 Character: 8
If I add quotes around the column name (but not around _this. as suggested) it works, but obviously I can't tell nHibernate to do that.
SELECT this_."datasetName" FROM orders this_
The following also works fine:
SELECT "datasetName" FROM orders
Why would it insist on adding the quotes? It never used to.
That's because this column was created with the surrounding double quotes in the first place - this makes the identifier case-sensitive, while by default it isn't. Since the identifier contains mixed case, you are stucked: the identifier needs to be quoted everywhere you use it.
If you look at the definition of the table, you will see something like:
create table orders (
...,
"datasetName" text,
...
)
I would strongly suggest fixing your schema. Quoted identifiers add no value in general, while on the other hand they make things unnecessary complicated. Camel case does not fill well for database identifiers, snake case is better, since case is not meaningful:
create table orders (
...,
dataset_name text,
...
)

Trim/whitespace issue when load data from Db2 source to Postgresql DB using Talend Open source

We are seeing issue in table value which are populated from DB2 (source) to Postgres (Target).
I have including here all the job details for each component.
Based on the above approach and once the data has been populated, when we run the below query in the Postgres DB.
SELECT * FROM VMRCTTA1.VMRRCUST_SUMM where cust_gssn_cd='XY03666699' ;
SELECT * FROM VMRCTTA1.VMRRCUST_SUMM where cust_cntry_cd='847' ;
There will be no records were returned however, when we run the same query with Trim as below it works.
SELECT * FROM VMRCTTA1.VMRRCUST_SUMM where trim(cust_gssn_cd)='XY03666699' ;
SELECT * FROM VMRCTTA1.VMRRCUST_SUMM where trim(cust_cntry_cd)='847' ;
Below are the ways we have tried to overcome this but no luck.
Used tmap between source and target component.
Used trim in source component under Advanced setting.
Change the datatype in Postgres DB of cust_cntry_cd from char(5) to Character varying, this will allow value without any length restriction.
Please suggest what is missing as we have this issue in almost all the table where we have character/varchar columns.
We are using TOS.
The data type is probably character(5) in DB2.
That means that the trailing spaces are part of the column and will be migrated. You have to compare with
cust_cntry_cd = '847 '
or cast the right argument to character(5):
cust_cntry_cd = CAST ('847' AS character(5))
Maybe you could delete all spaces in the advanced settings of the tDB2Input component.
Like the screen :

How to add a date column which is 7 days later than an existing column in a Postgres table? [duplicate]

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 Postgres support virtual columns? [duplicate]

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)
);

Getting a Result Set's Column Names via T-SQL

Is there a way to get the column names that an arbitrary query will return using just T-SQL that works with pre-2012 versions of Microsoft SQL Server?
What Doesn't Work:
sys.columns and INFORMATION_SCHEMA.COLUMNS work great for obtaining the column list for tables or views but don't work with arbitrary queries.
sys.dm_exec_describe_first_result would be perfect except that this management function was added in SQL Server 2012. What I'm writing needs to be backwards compatible to SQL Server 2005.
A custom CLR function could easily provide this information but introduces deployment complexities on the server side. I'd rather not go this route.
Any ideas?
So long as the arbitrary query qualifies to be used as a nested query (i.e. no CTEs, unique column names, etc.), this can be achieved by loading the query's metadata into a temp table, then retrieving column details via sys.tables:
SELECT TOP 0 * INTO #t FROM (query goes here) q
SELECT name FROM tempdb.sys.columns WHERE object_id = OBJECT_ID('tempdb..#t')
DROP TABLE #t
Thanks to #MartinSmith's for suggesting this approach!