SQL statement takes huge amount of time, is it possible optimize it? - java

This is my SQL query with which I get all the duplicates, but one(the newest one):
SELECT d.C_ContactID, d.C_EmailAddress, d.C_DataSourceID, d.C_DateCreated
FROM duplicates as d
WHERE d.C_DateCreated !=(select max(d2.C_DateCreated)
FROM duplicates d2
WHERE d2.C_DataSourceId = d.C_DataSourceId)
Is it possible to optimize it somehow? Unfortunately in 300 000 records it takes +- 40minutes.
Method where the query is:
public ArrayList<Record> get() throws SQLException,
ClassNotFoundException {
Statement st = DBConnect.DBC.con.createStatement();
String sql = ("select d.C_ContactID, d.C_EmailAddress, d.C_DataSourceID,
d.C_DateCreated "
+ "from duplicates as d "
+ "where d.C_DateCreated !=(select max(d2.C_DateCreated) "
+ "from duplicates d2 where d2.C_DataSourceId = d.C_DataSourceId)");
ResultSet rs = st.executeQuery(sql);
DBConnect.DBC.con.commit();
while (rs.next()) {
int contactID = rs.getInt("C_ContactID");
String email = rs.getString("C_EmailAddress");
String dataSourceID = rs.getString("C_DataSourceID");
String dateCreated = rs.getString("C_DateCreated");
duplicate = new Record(contactID, email, dataSourceID, dateCreated);
duplicates.add(duplicate);
}
rs.close();
st.close();
return duplicates;
}

You would start by creating an index on duplicates(C_DataSourceId, C_DateCreated):
create index duplicates_DataSourceId_DateCreated on duplicates(C_DataSourceId, C_DateCreated);
If you are using a database that supports window functions, then I would rephrase this as:
SELECT d.C_ContactID, d.C_EmailAddress, d.C_DataSourceID, d.C_DateCreated
FROM (select d.*, max(C_DateCreated) over (partition by C_DataSourceId) as maxdc
from duplicates d
) d
WHERE d.C_DateCreated <> maxdc;
It is worth doing the comparison, because sometimes window functions have efficient implementations.
And, if you have the index, a slightly more efficient version of your query is:
SELECT d.C_ContactID, d.C_EmailAddress, d.C_DataSourceID, d.C_DateCreated
FROM duplicates d
WHERE EXISTS (select 1
from duplicates 2
where d2.C_DataSourceId = d.C_DataSourceId and
d2.C_DateCreated > d.C_DateCreated
);
This says to get all rows from duplicates where there is another row (with the same source) that has a bigger date created. The slight advantage is that this doesn't have to look at all the values to get the max(). It only has to find the first one. The major performance improvement will be the composite index.

Create index for the columns C_DateCreated and C_DataSourceId. This will reduce the time to execute the query. Refer this link to know how to create indices.
http://www.tutorialspoint.com/mysql/mysql-indexes.htm

In T-SQL the answer would look like this, but I don't think SQLite supports window functions (leaving the answer intact for posterity though):
You can use a window function to label each row with it's position in the group of common C_DataSourceIDs, then with a CTE select the rows that aren't in position 1 like this.
with ordered as (
select
d.C_ContactID,
d.C_EmailAddress,
d.C_DataSourceID,
d.C_DateCreated,
row_number() over (
partition by
d.C_DataSourceID
order by
d.C_DateCreated
) as rownum
from
duplicates
) select
C_ContactID,
C_EmailAddress,
C_DataSourceID,
C_DateCreated
from
ordered
where
rownum != 1;
With an index on (C_DataSourceID, C_DateCreated) this will only need a single pass over the table instead of a self join that you have in your query.

Related

How to generate and fill IN clause? [duplicate]

What are the best workarounds for using a SQL IN clause with instances of java.sql.PreparedStatement, which is not supported for multiple values due to SQL injection attack security issues: One ? placeholder represents one value, rather than a list of values.
Consider the following SQL statement:
SELECT my_column FROM my_table where search_column IN (?)
Using preparedStatement.setString( 1, "'A', 'B', 'C'" ); is essentially a non-working attempt at a workaround of the reasons for using ? in the first place.
What workarounds are available?
An analysis of the various options available, and the pros and cons of each is available in Jeanne Boyarsky's Batching Select Statements in JDBC entry on JavaRanch Journal.
The suggested options are:
Prepare SELECT my_column FROM my_table WHERE search_column = ?, execute it for each value and UNION the results client-side. Requires only one prepared statement. Slow and painful.
Prepare SELECT my_column FROM my_table WHERE search_column IN (?,?,?) and execute it. Requires one prepared statement per size-of-IN-list. Fast and obvious.
Prepare SELECT my_column FROM my_table WHERE search_column = ? ; SELECT my_column FROM my_table WHERE search_column = ? ; ... and execute it. [Or use UNION ALL in place of those semicolons. --ed] Requires one prepared statement per size-of-IN-list. Stupidly slow, strictly worse than WHERE search_column IN (?,?,?), so I don't know why the blogger even suggested it.
Use a stored procedure to construct the result set.
Prepare N different size-of-IN-list queries; say, with 2, 10, and 50 values. To search for an IN-list with 6 different values, populate the size-10 query so that it looks like SELECT my_column FROM my_table WHERE search_column IN (1,2,3,4,5,6,6,6,6,6). Any decent server will optimize out the duplicate values before running the query.
None of these options are ideal.
The best option if you are using JDBC4 and a server that supports x = ANY(y), is to use PreparedStatement.setArray as described in Boris's anwser.
There doesn't seem to be any way to make setArray work with IN-lists, though.
Sometimes SQL statements are loaded at runtime (e.g., from a properties file) but require a variable number of parameters. In such cases, first define the query:
query=SELECT * FROM table t WHERE t.column IN (?)
Next, load the query. Then determine the number of parameters prior to running it. Once the parameter count is known, run:
sql = any( sql, count );
For example:
/**
* Converts a SQL statement containing exactly one IN clause to an IN clause
* using multiple comma-delimited parameters.
*
* #param sql The SQL statement string with one IN clause.
* #param params The number of parameters the SQL statement requires.
* #return The SQL statement with (?) replaced with multiple parameter
* placeholders.
*/
public static String any(String sql, final int params) {
// Create a comma-delimited list based on the number of parameters.
final StringBuilder sb = new StringBuilder(
String.join(", ", Collections.nCopies(possibleValue.size(), "?")));
// For more than 1 parameter, replace the single parameter with
// multiple parameter placeholders.
if (sb.length() > 1) {
sql = sql.replace("(?)", "(" + sb + ")");
}
// Return the modified comma-delimited list of parameters.
return sql;
}
For certain databases where passing an array via the JDBC 4 specification is unsupported, this method can facilitate transforming the slow = ? into the faster IN (?) clause condition, which can then be expanded by calling the any method.
Solution for PostgreSQL:
final PreparedStatement statement = connection.prepareStatement(
"SELECT my_column FROM my_table where search_column = ANY (?)"
);
final String[] values = getValues();
statement.setArray(1, connection.createArrayOf("text", values));
try (ResultSet rs = statement.executeQuery()) {
while(rs.next()) {
// do some...
}
}
or
final PreparedStatement statement = connection.prepareStatement(
"SELECT my_column FROM my_table " +
"where search_column IN (SELECT * FROM unnest(?))"
);
final String[] values = getValues();
statement.setArray(1, connection.createArrayOf("text", values));
try (ResultSet rs = statement.executeQuery()) {
while(rs.next()) {
// do some...
}
}
No simple way AFAIK.
If the target is to keep statement cache ratio high (i.e to not create a statement per every parameter count), you may do the following:
create a statement with a few (e.g. 10) parameters:
... WHERE A IN (?,?,?,?,?,?,?,?,?,?) ...
Bind all actuall parameters
setString(1,"foo");
setString(2,"bar");
Bind the rest as NULL
setNull(3,Types.VARCHAR)
...
setNull(10,Types.VARCHAR)
NULL never matches anything, so it gets optimized out by the SQL plan builder.
The logic is easy to automate when you pass a List into a DAO function:
while( i < param.size() ) {
ps.setString(i+1,param.get(i));
i++;
}
while( i < MAX_PARAMS ) {
ps.setNull(i+1,Types.VARCHAR);
i++;
}
You can use Collections.nCopies to generate a collection of placeholders and join them using String.join:
List<String> params = getParams();
String placeHolders = String.join(",", Collections.nCopies(params.size(), "?"));
String sql = "select * from your_table where some_column in (" + placeHolders + ")";
try ( Connection connection = getConnection();
PreparedStatement ps = connection.prepareStatement(sql)) {
int i = 1;
for (String param : params) {
ps.setString(i++, param);
}
/*
* Execute query/do stuff
*/
}
An unpleasant work-around, but certainly feasible is to use a nested query. Create a temporary table MYVALUES with a column in it. Insert your list of values into the MYVALUES table. Then execute
select my_column from my_table where search_column in ( SELECT value FROM MYVALUES )
Ugly, but a viable alternative if your list of values is very large.
This technique has the added advantage of potentially better query plans from the optimizer (check a page for multiple values, tablescan only once instead once per value, etc) may save on overhead if your database doesn't cache prepared statements. Your "INSERTS" would need to be done in batch and the MYVALUES table may need to be tweaked to have minimal locking or other high-overhead protections.
Limitations of the in() operator is the root of all evil.
It works for trivial cases, and you can extend it with "automatic generation of the prepared statement" however it is always having its limits.
if you're creating a statement with variable number of parameters, that will make an sql parse overhead at each call
on many platforms, the number of parameters of in() operator are limited
on all platforms, total SQL text size is limited, making impossible for sending down 2000 placeholders for the in params
sending down bind variables of 1000-10k is not possible, as the JDBC driver is having its limitations
The in() approach can be good enough for some cases, but not rocket proof :)
The rocket-proof solution is to pass the arbitrary number of parameters in a separate call (by passing a clob of params, for example), and then have a view (or any other way) to represent them in SQL and use in your where criteria.
A brute-force variant is here http://tkyte.blogspot.hu/2006/06/varying-in-lists.html
However if you can use PL/SQL, this mess can become pretty neat.
function getCustomers(in_customerIdList clob) return sys_refcursor is
begin
aux_in_list.parse(in_customerIdList);
open res for
select *
from customer c,
in_list v
where c.customer_id=v.token;
return res;
end;
Then you can pass arbitrary number of comma separated customer ids in the parameter, and:
will get no parse delay, as the SQL for select is stable
no pipelined functions complexity - it is just one query
the SQL is using a simple join, instead of an IN operator, which is quite fast
after all, it is a good rule of thumb of not hitting the database with any plain select or DML, since it is Oracle, which offers lightyears of more than MySQL or similar simple database engines. PL/SQL allows you to hide the storage model from your application domain model in an effective way.
The trick here is:
we need a call which accepts the long string, and store somewhere where the db session can access to it (e.g. simple package variable, or dbms_session.set_context)
then we need a view which can parse this to rows
and then you have a view which contains the ids you're querying, so all you need is a simple join to the table queried.
The view looks like:
create or replace view in_list
as
select
trim( substr (txt,
instr (txt, ',', 1, level ) + 1,
instr (txt, ',', 1, level+1)
- instr (txt, ',', 1, level) -1 ) ) as token
from (select ','||aux_in_list.getpayload||',' txt from dual)
connect by level <= length(aux_in_list.getpayload)-length(replace(aux_in_list.getpayload,',',''))+1
where aux_in_list.getpayload refers to the original input string.
A possible approach would be to pass pl/sql arrays (supported by Oracle only), however you can't use those in pure SQL, therefore a conversion step is always needed. The conversion can not be done in SQL, so after all, passing a clob with all parameters in string and converting it witin a view is the most efficient solution.
Here's how I solved it in my own application. Ideally, you should use a StringBuilder instead of using + for Strings.
String inParenthesis = "(?";
for(int i = 1;i < myList.size();i++) {
inParenthesis += ", ?";
}
inParenthesis += ")";
try(PreparedStatement statement = SQLite.connection.prepareStatement(
String.format("UPDATE table SET value='WINNER' WHERE startTime=? AND name=? AND traderIdx=? AND someValue IN %s", inParenthesis))) {
int x = 1;
statement.setLong(x++, race.startTime);
statement.setString(x++, race.name);
statement.setInt(x++, traderIdx);
for(String str : race.betFair.winners) {
statement.setString(x++, str);
}
int effected = statement.executeUpdate();
}
Using a variable like x above instead of concrete numbers helps a lot if you decide to change the query at a later time.
I've never tried it, but would .setArray() do what you're looking for?
Update: Evidently not. setArray only seems to work with a java.sql.Array that comes from an ARRAY column that you've retrieved from a previous query, or a subquery with an ARRAY column.
My workaround is:
create or replace type split_tbl as table of varchar(32767);
/
create or replace function split
(
p_list varchar2,
p_del varchar2 := ','
) return split_tbl pipelined
is
l_idx pls_integer;
l_list varchar2(32767) := p_list;
l_value varchar2(32767);
begin
loop
l_idx := instr(l_list,p_del);
if l_idx > 0 then
pipe row(substr(l_list,1,l_idx-1));
l_list := substr(l_list,l_idx+length(p_del));
else
pipe row(l_list);
exit;
end if;
end loop;
return;
end split;
/
Now you can use one variable to obtain some values in a table:
select * from table(split('one,two,three'))
one
two
three
select * from TABLE1 where COL1 in (select * from table(split('value1,value2')))
value1 AAA
value2 BBB
So, the prepared statement could be:
"select * from TABLE where COL in (select * from table(split(?)))"
Regards,
Javier Ibanez
I suppose you could (using basic string manipulation) generate the query string in the PreparedStatement to have a number of ?'s matching the number of items in your list.
Of course if you're doing that you're just a step away from generating a giant chained OR in your query, but without having the right number of ? in the query string, I don't see how else you can work around this.
You could use setArray method as mentioned in this javadoc:
PreparedStatement statement = connection.prepareStatement("Select * from emp where field in (?)");
Array array = statement.getConnection().createArrayOf("VARCHAR", new Object[]{"E1", "E2","E3"});
statement.setArray(1, array);
ResultSet rs = statement.executeQuery();
Here's a complete solution in Java to create the prepared statement for you:
/*usage:
Util u = new Util(500); //500 items per bracket.
String sqlBefore = "select * from myTable where (";
List<Integer> values = new ArrayList<Integer>(Arrays.asList(1,2,4,5));
string sqlAfter = ") and foo = 'bar'";
PreparedStatement ps = u.prepareStatements(sqlBefore, values, sqlAfter, connection, "someId");
*/
import java.sql.Connection;
import java.sql.PreparedStatement;
import java.sql.SQLException;
import java.util.ArrayList;
import java.util.List;
public class Util {
private int numValuesInClause;
public Util(int numValuesInClause) {
super();
this.numValuesInClause = numValuesInClause;
}
public int getNumValuesInClause() {
return numValuesInClause;
}
public void setNumValuesInClause(int numValuesInClause) {
this.numValuesInClause = numValuesInClause;
}
/** Split a given list into a list of lists for the given size of numValuesInClause*/
public List<List<Integer>> splitList(
List<Integer> values) {
List<List<Integer>> newList = new ArrayList<List<Integer>>();
while (values.size() > numValuesInClause) {
List<Integer> sublist = values.subList(0,numValuesInClause);
List<Integer> values2 = values.subList(numValuesInClause, values.size());
values = values2;
newList.add( sublist);
}
newList.add(values);
return newList;
}
/**
* Generates a series of split out in clause statements.
* #param sqlBefore ""select * from dual where ("
* #param values [1,2,3,4,5,6,7,8,9,10]
* #param "sqlAfter ) and id = 5"
* #return "select * from dual where (id in (1,2,3) or id in (4,5,6) or id in (7,8,9) or id in (10)"
*/
public String genInClauseSql(String sqlBefore, List<Integer> values,
String sqlAfter, String identifier)
{
List<List<Integer>> newLists = splitList(values);
String stmt = sqlBefore;
/* now generate the in clause for each list */
int j = 0; /* keep track of list:newLists index */
for (List<Integer> list : newLists) {
stmt = stmt + identifier +" in (";
StringBuilder innerBuilder = new StringBuilder();
for (int i = 0; i < list.size(); i++) {
innerBuilder.append("?,");
}
String inClause = innerBuilder.deleteCharAt(
innerBuilder.length() - 1).toString();
stmt = stmt + inClause;
stmt = stmt + ")";
if (++j < newLists.size()) {
stmt = stmt + " OR ";
}
}
stmt = stmt + sqlAfter;
return stmt;
}
/**
* Method to convert your SQL and a list of ID into a safe prepared
* statements
*
* #throws SQLException
*/
public PreparedStatement prepareStatements(String sqlBefore,
ArrayList<Integer> values, String sqlAfter, Connection c, String identifier)
throws SQLException {
/* First split our potentially big list into lots of lists */
String stmt = genInClauseSql(sqlBefore, values, sqlAfter, identifier);
PreparedStatement ps = c.prepareStatement(stmt);
int i = 1;
for (int val : values)
{
ps.setInt(i++, val);
}
return ps;
}
}
Spring allows passing java.util.Lists to NamedParameterJdbcTemplate , which automates the generation of (?, ?, ?, ..., ?), as appropriate for the number of arguments.
For Oracle, this blog posting discusses the use of oracle.sql.ARRAY (Connection.createArrayOf doesn't work with Oracle). For this you have to modify your SQL statement:
SELECT my_column FROM my_table where search_column IN (select COLUMN_VALUE from table(?))
The oracle table function transforms the passed array into a table like value usable in the IN statement.
try using the instr function?
select my_column from my_table where instr(?, ','||search_column||',') > 0
then
ps.setString(1, ",A,B,C,");
Admittedly this is a bit of a dirty hack, but it does reduce the opportunities for sql injection. Works in oracle anyway.
Sormula supports SQL IN operator by allowing you to supply a java.util.Collection object as a parameter. It creates a prepared statement with a ? for each of the elements the collection. See Example 4 (SQL in example is a comment to clarify what is created but is not used by Sormula).
Generate the query string in the PreparedStatement to have a number of ?'s matching the number of items in your list. Here's an example:
public void myQuery(List<String> items, int other) {
...
String q4in = generateQsForIn(items.size());
String sql = "select * from stuff where foo in ( " + q4in + " ) and bar = ?";
PreparedStatement ps = connection.prepareStatement(sql);
int i = 1;
for (String item : items) {
ps.setString(i++, item);
}
ps.setInt(i++, other);
ResultSet rs = ps.executeQuery();
...
}
private String generateQsForIn(int numQs) {
String items = "";
for (int i = 0; i < numQs; i++) {
if (i != 0) items += ", ";
items += "?";
}
return items;
}
instead of using
SELECT my_column FROM my_table where search_column IN (?)
use the Sql Statement as
select id, name from users where id in (?, ?, ?)
and
preparedStatement.setString( 1, 'A');
preparedStatement.setString( 2,'B');
preparedStatement.setString( 3, 'C');
or use a stored procedure this would be the best solution, since the sql statements will be compiled and stored in DataBase server
I came across a number of limitations related to prepared statement:
The prepared statements are cached only inside the same session (Postgres), so it will really work only with connection pooling
A lot of different prepared statements as proposed by #BalusC may cause the cache to overfill and previously cached statements will be dropped
The query has to be optimized and use indices. Sounds obvious, however e.g. the ANY(ARRAY...) statement proposed by #Boris in one of the top answers cannot use indices and query will be slow despite caching
The prepared statement caches the query plan as well and the actual values of any parameters specified in the statement are unavailable.
Among the proposed solutions I would choose the one that doesn't decrease the query performance and makes the less number of queries. This will be the #4 (batching few queries) from the #Don link or specifying NULL values for unneeded '?' marks as proposed by #Vladimir Dyuzhev
SetArray is the best solution but its not available for many older drivers. The following workaround can be used in java8
String baseQuery ="SELECT my_column FROM my_table where search_column IN (%s)"
String markersString = inputArray.stream().map(e -> "?").collect(joining(","));
String sqlQuery = String.format(baseSQL, markersString);
//Now create Prepared Statement and use loop to Set entries
int index=1;
for (String input : inputArray) {
preparedStatement.setString(index++, input);
}
This solution is better than other ugly while loop solutions where the query string is built by manual iterations
I just worked out a PostgreSQL-specific option for this. It's a bit of a hack, and comes with its own pros and cons and limitations, but it seems to work and isn't limited to a specific development language, platform, or PG driver.
The trick of course is to find a way to pass an arbitrary length collection of values as a single parameter, and have the db recognize it as multiple values. The solution I have working is to construct a delimited string from the values in the collection, pass that string as a single parameter, and use string_to_array() with the requisite casting for PostgreSQL to properly make use of it.
So if you want to search for "foo", "blah", and "abc", you might concatenate them together into a single string as: 'foo,blah,abc'. Here's the straight SQL:
select column from table
where search_column = any (string_to_array('foo,blah,abc', ',')::text[]);
You would obviously change the explicit cast to whatever you wanted your resulting value array to be -- int, text, uuid, etc. And because the function is taking a single string value (or two I suppose, if you want to customize the delimiter as well), you can pass it as a parameter in a prepared statement:
select column from table
where search_column = any (string_to_array($1, ',')::text[]);
This is even flexible enough to support things like LIKE comparisons:
select column from table
where search_column like any (string_to_array('foo%,blah%,abc%', ',')::text[]);
Again, no question it's a hack, but it works and allows you to still use pre-compiled prepared statements that take *ahem* discrete parameters, with the accompanying security and (maybe) performance benefits. Is it advisable and actually performant? Naturally, it depends, as you've got string parsing and possibly casting going on before your query even runs. If you're expecting to send three, five, a few dozen values, sure, it's probably fine. A few thousand? Yeah, maybe not so much. YMMV, limitations and exclusions apply, no warranty express or implied.
But it works.
No one else seems to have suggested using an off-the-shelf query builder yet, like jOOQ or QueryDSL or even Criteria Query that manage dynamic IN lists out of the box, possibly including the management of all edge cases that may arise, such as:
Running into Oracle's maximum of 1000 elements per IN list (irrespective of the number of bind values)
Running into any driver's maximum number of bind values, which I've documented in this answer
Running into cursor cache contention problems because too many distinct SQL strings are "hard parsed" and execution plans cannot be cached anymore (jOOQ and since recently also Hibernate work around this by offering IN list padding)
(Disclaimer: I work for the company behind jOOQ)
Just for completeness: So long as the set of values is not too large, you could also simply string-construct a statement like
... WHERE tab.col = ? OR tab.col = ? OR tab.col = ?
which you could then pass to prepare(), and then use setXXX() in a loop to set all the values. This looks yucky, but many "big" commercial systems routinely do this kind of thing until they hit DB-specific limits, such as 32 KB (I think it is) for statements in Oracle.
Of course you need to ensure that the set will never be unreasonably large, or do error trapping in the event that it is.
Following Adam's idea. Make your prepared statement sort of select my_column from my_table where search_column in (#)
Create a String x and fill it with a number of "?,?,?" depending on your list of values
Then just change the # in the query for your new String x an populate
There are different alternative approaches that we can use for IN clause in PreparedStatement.
Using Single Queries - slowest performance and resource intensive
Using StoredProcedure - Fastest but database specific
Creating dynamic query for PreparedStatement - Good Performance but doesn't get benefit of caching and PreparedStatement is recompiled every time.
Use NULL in PreparedStatement queries - Optimal performance, works great when you know the limit of IN clause arguments. If there is no limit, then you can execute queries in batch.
Sample code snippet is;
int i = 1;
for(; i <=ids.length; i++){
ps.setInt(i, ids[i-1]);
}
//set null for remaining ones
for(; i<=PARAM_SIZE;i++){
ps.setNull(i, java.sql.Types.INTEGER);
}
You can check more details about these alternative approaches here.
For some situations regexp might help.
Here is an example I've checked on Oracle, and it works.
select * from my_table where REGEXP_LIKE (search_column, 'value1|value2')
But there is a number of drawbacks with it:
Any column it applied should be converted to varchar/char, at least implicitly.
Need to be careful with special characters.
It can slow down performance - in my case IN version uses index and range scan, and REGEXP version do full scan.
After examining various solutions in different forums and not finding a good solution, I feel the below hack I came up with, is the easiest to follow and code:
Example: Suppose you have multiple parameters to pass in the 'IN' clause. Just put a dummy String inside the 'IN' clause, say, "PARAM" do denote the list of parameters that will be coming in the place of this dummy String.
select * from TABLE_A where ATTR IN (PARAM);
You can collect all the parameters into a single String variable in your Java code. This can be done as follows:
String param1 = "X";
String param2 = "Y";
String param1 = param1.append(",").append(param2);
You can append all your parameters separated by commas into a single String variable, 'param1', in our case.
After collecting all the parameters into a single String you can just replace the dummy text in your query, i.e., "PARAM" in this case, with the parameter String, i.e., param1. Here is what you need to do:
String query = query.replaceFirst("PARAM",param1); where we have the value of query as
query = "select * from TABLE_A where ATTR IN (PARAM)";
You can now execute your query using the executeQuery() method. Just make sure that you don't have the word "PARAM" in your query anywhere. You can use a combination of special characters and alphabets instead of the word "PARAM" in order to make sure that there is no possibility of such a word coming in the query. Hope you got the solution.
Note: Though this is not a prepared query, it does the work that I wanted my code to do.
Just for completeness and because I did not see anyone else suggest it:
Before implementing any of the complicated suggestions above consider if SQL injection is indeed a problem in your scenario.
In many cases the value provided to IN (...) is a list of ids that have been generated in a way that you can be sure that no injection is possible... (e.g. the results of a previous select some_id from some_table where some_condition.)
If that is the case you might just concatenate this value and not use the services or the prepared statement for it or use them for other parameters of this query.
query="select f1,f2 from t1 where f3=? and f2 in (" + sListOfIds + ");";
PreparedStatement doesn't provide any good way to deal with SQL IN clause. Per http://www.javaranch.com/journal/200510/Journal200510.jsp#a2 "You can't substitute things that are meant to become part of the SQL statement. This is necessary because if the SQL itself can change, the driver can't precompile the statement. It also has the nice side effect of preventing SQL injection attacks." I ended up using following approach:
String query = "SELECT my_column FROM my_table where search_column IN ($searchColumns)";
query = query.replace("$searchColumns", "'A', 'B', 'C'");
Statement stmt = connection.createStatement();
boolean hasResults = stmt.execute(query);
do {
if (hasResults)
return stmt.getResultSet();
hasResults = stmt.getMoreResults();
} while (hasResults || stmt.getUpdateCount() != -1);
OK, so I couldn't remember exactly how (or where) I did this before so I came to stack overflow to quickly find the answer. I was surprised I couldn't.
So, how I got around the IN problem a long time ago was with a statement like this:
where myColumn in ( select regexp_substr(:myList,'[^,]+', 1, level) from dual connect by regexp_substr(:myList, '[^,]+', 1, level) is not null)
set the myList parameter as a comma delimited string: A,B,C,D...
Note: You have to set the parameter twice!
This is not the ideal practice, yet it's simple and works well for me most of the time.
where ? like concat( "%|", TABLE_ID , "|%" )
Then you pass through ? the IDs in this way: |1|,|2|,|3|,...|

SQL query use to return latest ID from mysql database, not it returns 99999

My server would retrieve the latest ID from the database, now it is stuck and keeps returning the id 99999, even though the latest id is now 100040
My code is:
String insertTable = "SELECT * FROM dutyofcare ORDER BY Id DESC LIMIT 1";
ps = conn.prepareStatement(insertTable);
rs = ps.executeQuery();
String ResultS = "";
if (rs.next()) {
ResultS += rs.getString("Id");
}
The issue is that the ORDER BY in your query is doing a lexical (character-by-character) sort where 9 always comes after 1, and not numeric sort which handles the digit positions. This is because of the column type of ID. What you need is to ensure ID is a number before the sort is done.
Either change your ID to a numeric column type and run below query:
SELECT MAX(ID) from dutyofcare;
Or if you want to retain your column type (less efficient than above option):
select MAX(cast(ID AS UNSIGNED)) from dutyofcare;
Or if you want to retain your column type AND just fix your existing query (least efficient of all the options)
select * from dutyofcare order by CAST(ID AS UNSIGNED) desc limit 1;
All these methods basically treat the ID as number and choose the biggest value.

Foreign Key Not Outputting Query Data

try {
Statement s = conn.createStatement();
ResultSet result2 = s.executeQuery("Select Distinct * From Poem p,Recording r Where r.PoemTitle = p.PoemTitle AND r.poemTitle = 'poem1'");
System.out.print("Result (Select with Join): ");
while (result2.next()) {
System.out.println(result2.getString(1)+ " " + result2.getString(2)+ result2.getString(3));
}
} catch(Exception e) {
System.out.print(e.getMessage());
}
I am trying to output the poemtitle and the date it was recorded. When this runs it outputs the poemtitle and then gives the date the poem was created instead of recorded? Is this because of the relationship?
Most likely it's because of the * in the SELECT list.
Specify the columns that you want returned, in the order you want them returned.
We're just guessing at the name of the column that contains "date recorded" and which table it's in:
SELECT p.PoemTitle
, r.dateRecorded
, r.readBy
FROM Poem p
JOIN Recording r
ON r.PoemTitle = p.PoemTitle
WHERE r.poemTitle = 'poem1'
GROUP
BY p.PoemTitle
, r.dateRecorded
, r.readBy
ORDER
BY p.PoemTitle
, r.dateRecorded DESC
, r.readBy
Notes:
Ditch the old-school comma syntax for the join operation and use the JOIN keyword instead, and relocate the join predicates from the WHERE clause to an ON clause.
Avoid using * in the SELECT list. Explicitly list the columns/expressions to be returned. When we read the code, and that SQL statement, we don't know how many columns are being returned, what order the columns are in, or what the datatypes are. (We'd have to go look at the table definitions.)
Explicitly listing the columns/expressions being returned only takes a little bit of work. If code was only ever written, then it would be fine, save the time writing. But code is READ ten times more than it is written. (And the SQL statement with the * makes the SQL statement virtually indecipherable in terms of which column is being referenced by getString(1).
Listing the columns columns can also make it more efficient on the database, to prepare a resultset with a few columns vs a resultset of dozens of columns, and we also transfer a smaller resultset from the database to the client. With a subset of columns, its more likely we can use a covering index for the query.

Limit the number of rows in a room database

How can I limit the number of rows in an Android room database by removing the oldest item in the row and inserting the newest one?
I am guessing its a standard query when adding an item to the database?
EDIT: I want to limit a database table to have a max row count of say 20. If that limit is reached, we remove the oldest item and insert the new one by keeping the current row count to 20.
I think you can insert the data into your table then remove all the rows except last 20 (limit)
To delete you can use the following query
DELETE FROM tableName where id NOT IN (SELECT id from tableName ORDER BY id DESC LIMIT 20)
In this case, id is the primary key which is set to auto increment. You can use date as key as well if you are storing them by date
Here is sample solution:
Query is :
#Query("SELECT * FROM user LIMIT :limit OFFSET :offset")
User[] loadAllUsersByPage(int limit,int offset);
Here, it will give a list of user based on limit and offset.
if loadAllUsersByPage(2,0) it will return first 2 rows from table.
if loadAllUsersByPage(2,1) it will return 2nd and 3rd rows from table.
but if loadAllUsersByPage(-1,10) then it will serve first 10 rows from table.
Assuming:
Your table is
create table example_table (
ts timestamp,
uid number(19),
some_other_field varchar(64)
);
And you don't want to care about running some query manually.
Use database triggers:
create trigger
if not exists -- I don't actually know if you DB will support this line.
-- Might want to remove it if it's not.
example_table_limiter
on example_table
after insert
begin
delete
from example_table
where ts in (
select ts
from example_table
order by ts
limit -1 -- we don't want to limit how many rows we want to delete
offset 25 -- but we want to offset query result so it leaves 25 rows in table
);
end;
"Offset without limit" syntax is inspired by this answer.
To enable your trigger in java:
Simple Android, where you can override SQLiteOpenHelper:
public class DataBaseSchemaHelper extends SQLiteOpenHelper {
#Override
public void onCreate(SQLiteDatabase db) {
db.execSQL(<trigger string from above>);
}
}
Android Room version:
public class MyDatabase extends RoomDatabase {
#Override
public void init(DatabaseConfiguration _config) {
super.init(_config);
getOpenHelper().getWritableDatabase().execSQL(<trigger string from above>);
}
}
You can limit columns/rows by doing this: this query will return the new data and remove old data when its reach its limit.
Explanation:
First query is select all data order by descending
Second query is remove data from columns/rows id > 20
If you want your table only have 20 row then set the OFFSET to 20, the LIMIT is represent how many rows inserted & deleted at once.
In my example I remove 1 row (the oldest/last row) when the user inputs 1 new data
#Query("SELECT * FROM my_table ORDER BY timeStamp DESC")
fun getAllData(): List<MyEntityClass>
#Query("DELETE FROM my_table WHERE id IN (SELECT id FROM my_table ORDER BY timeStamp DESC LIMIT 1 OFFSET 20)")
fun removeOldData()
Follow this steps :
1> get count of rows of that table
your_count = SELECT count( * ) FROM table_name;
2> if count is >(greater than) 20 than to get oldest record
SELECT *
FROM table_name
ORDER BY entry_Date ASC
LIMIT 1;
3> now delete these selected records
4> insert new datas
NOTE : if you are inserting multiple entries than put this in loop

How to resolve ORA-01795 in Java code

I am getting ORA-01795 error in my Java code while executing more than 1000 records in IN clause.
I am thinking to break it in the batch of 1000 entries using multiple IN clause separated by OR clause like below:
select * from table_name
where
column_name in (V1,V2,V3,...V1000)
or
column_name in (V1001,V1002,V1003,...V2000)
I have a string id's like -18435,16690,1719,1082,1026,100759... which gets generated dynamically based on user selection. How to write a logic for condition like 1-1000 records ,1001 to 2000 records etc in Java. Can anyone help me here?
There are three potential ways around this limit:
1) As you have already mentioned: split up the statement in batches of 1000
2) Create a derived table using the values and then join them:
with id_list (id) as (
select 'V1' from dual union all
select 'V2' from dual union all
select 'V3' from dual
)
select *
from the_table
where column_name in (select id from id_list);
alternatively you could also join those values - might even be faster:
with id_list (id) as (
select 'V1' from dual union all
select 'V2' from dual union all
select 'V3' from dual
)
select t.*
from the_table t
join id_list l on t.column_name = l.id;
This still generates a really, really huge statement, but doesn't have the limit of 1000 ids. I'm not sure how fast Oracle will parse this though.
3) Insert the values into a (global) temporary table and then use an IN clause (or a JOIN). This is probably going to be the fastest solution.
With so many values I'd avoid both in and or, and the hard-parse penalty of embedded values, in the query if at all possible. You can pass an SQL collection of values and use the table() collection expression as a table you can join your real table to.
This uses a hard-coded array of integers as an example, but you can populate that array from your user input instead. I'm using the built-in collection type definitions, like sys.odcinumberlist, which us a varray of numbers and is limited to 32k values, but you can define your own table type if you prefer or might need to handle more than that.
int[] ids = { -18435,16690,1719,1082,1026,100759 };
ArrayDescriptor aDesc = ArrayDescriptor.createDescriptor("SYS.ODCINUMBERLIST", conn );
oracle.sql.ARRAY ora_ids = new oracle.sql.ARRAY(aDesc, conn, ids);
sql = "select t.* "
+ "from table(?) a "
+ "left join table_name t "
+ "on t.column_name = a.column_value "
+ "order by id";
pStmt = (OraclePreparedStatement) conn.prepareStatement(sql);
pStmt.setArray(1, ora_ids);
rSet = (OracleResultSet) pStmt.executeQuery();
...
Your array can have as many values as you like (well, as many as the collection type you use and your JVM's memory can handle) and isn't subject to the in list's 1000-member limit.
Essentially table(?) ends up looking like a table containing all your values, and this is going to be easier and faster than populating a real or temporary table with all the values and joining to that.
Of course, don't really use t.*, list the columns you need; I'm assuming you used * to simolify the question...
(Here is a more complete example, but for a slightly different scenario.)
I very recently hit this wall myself:
Oracle has an architectural limit of a maximum number of 1000 terms inside an IN()
There are two workarounds:
Refactor the query to become a join
Leave the query as it is, but call it multiple times in a loop, each call using less than 1000 terms
Option 1 depends on the situation. If your list of values comes from a query, you can refactor to a join
Option 2 is also easy, but less performant:
List<String> terms;
for (int i = 0; i <= terms.size() / 1000; i++) {
List<String> next1000 = terms.subList(i * 1000, Math.min((i + 1) * 1000, terms.size());
// build and execute query using next1000 instead of terms
}
In such situations, when I have ids in a List in Java, I use a utility class like this to split the list to partitions and generate the statement from those partitions:
public class ListUtils {
public static <T> List<List<T>> partition(List<T> orig, int size) {
if (orig == null) {
throw new NullPointerException("The list to partition must not be null");
}
if (size < 1) {
throw new IllegalArgumentException("The target partition size must be 1 or greater");
}
int origSize = orig.size();
List<List<T>> result = new ArrayList<>(origSize / size + 1);
for (int i = 0; i < origSize; i += size) {
result.add(orig.subList(i, Math.min(i + size, origSize)));
}
return result;
}
}
Let's say your ids are in a list called ids, you could get sublists of size at most 1000 with:
ListUtils.partition(ids, 1000)
Then you could iterate over the results to construct the final query string.

Categories

Resources