For simplicity, assume all relevant fields are NOT NULL.
You can do:
SELECT
table1.this, table2.that, table2.somethingelse
FROM
table1, table2
WHERE
table1.foreignkey = table2.primarykey
AND (some other conditions)
Or else:
SELECT
table1.this, table2.that, table2.somethingelse
FROM
table1 INNER JOIN table2
ON table1.foreignkey = table2.primarykey
WHERE
(some other conditions)
Do these two work on the same way in MySQL?
INNER JOIN is ANSI syntax that you should use.
It is generally considered more readable, especially when you join lots of tables.
It can also be easily replaced with an OUTER JOIN whenever a need arises.
The WHERE syntax is more relational model oriented.
A result of two tables JOINed is a cartesian product of the tables to which a filter is applied which selects only those rows with joining columns matching.
It's easier to see this with the WHERE syntax.
As for your example, in MySQL (and in SQL generally) these two queries are synonyms.
Also, note that MySQL also has a STRAIGHT_JOIN clause.
Using this clause, you can control the JOIN order: which table is scanned in the outer loop and which one is in the inner loop.
You cannot control this in MySQL using WHERE syntax.
Others have pointed out that INNER JOIN helps human readability, and that's a top priority, I agree.
Let me try to explain why the join syntax is more readable.
A basic SELECT query is this:
SELECT stuff
FROM tables
WHERE conditions
The SELECT clause tells us what we're getting back; the FROM clause tells us where we're getting it from, and the WHERE clause tells us which ones we're getting.
JOIN is a statement about the tables, how they are bound together (conceptually, actually, into a single table).
Any query elements that control the tables - where we're getting stuff from - semantically belong to the FROM clause (and of course, that's where JOIN elements go). Putting joining-elements into the WHERE clause conflates the which and the where-from, that's why the JOIN syntax is preferred.
Applying conditional statements in ON / WHERE
Here I have explained the logical query processing steps.
Reference: Inside Microsoft® SQL Server™ 2005 T-SQL Querying
Publisher: Microsoft Press
Pub Date: March 07, 2006
Print ISBN-10: 0-7356-2313-9
Print ISBN-13: 978-0-7356-2313-2
Pages: 640
Inside Microsoft® SQL Server™ 2005 T-SQL Querying
(8) SELECT (9) DISTINCT (11) TOP <top_specification> <select_list>
(1) FROM <left_table>
(3) <join_type> JOIN <right_table>
(2) ON <join_condition>
(4) WHERE <where_condition>
(5) GROUP BY <group_by_list>
(6) WITH {CUBE | ROLLUP}
(7) HAVING <having_condition>
(10) ORDER BY <order_by_list>
The first noticeable aspect of SQL that is different than other programming languages is the order in which the code is processed. In most programming languages, the code is processed in the order in which it is written. In SQL, the first clause that is processed is the FROM clause, while the SELECT clause, which appears first, is processed almost last.
Each step generates a virtual table that is used as the input to the following step. These virtual tables are not available to the caller (client application or outer query). Only the table generated by the final step is returned to the caller. If a certain clause is not specified in a query, the corresponding step is simply skipped.
Brief Description of Logical Query Processing Phases
Don't worry too much if the description of the steps doesn't seem to make much sense for now. These are provided as a reference. Sections that come after the scenario example will cover the steps in much more detail.
FROM: A Cartesian product (cross join) is performed between the first two tables in the FROM clause, and as a result, virtual table VT1 is generated.
ON: The ON filter is applied to VT1. Only rows for which the <join_condition> is TRUE are inserted to VT2.
OUTER (join): If an OUTER JOIN is specified (as opposed to a CROSS JOIN or an INNER JOIN), rows from the preserved table or tables for which a match was not found are added to the rows from VT2 as outer rows, generating VT3. If more than two tables appear in the FROM clause, steps 1 through 3 are applied repeatedly between the result of the last join and the next table in the FROM clause until all tables are processed.
WHERE: The WHERE filter is applied to VT3. Only rows for which the <where_condition> is TRUE are inserted to VT4.
GROUP BY: The rows from VT4 are arranged in groups based on the column list specified in the GROUP BY clause. VT5 is generated.
CUBE | ROLLUP: Supergroups (groups of groups) are added to the rows from VT5, generating VT6.
HAVING: The HAVING filter is applied to VT6. Only groups for which the <having_condition> is TRUE are inserted to VT7.
SELECT: The SELECT list is processed, generating VT8.
DISTINCT: Duplicate rows are removed from VT8. VT9 is generated.
ORDER BY: The rows from VT9 are sorted according to the column list specified in the ORDER BY clause. A cursor is generated (VC10).
TOP: The specified number or percentage of rows is selected from the beginning of VC10. Table VT11 is generated and returned to the caller.
Therefore, (INNER JOIN) ON will filter the data (the data count of VT will be reduced here itself) before applying the WHERE clause. The subsequent join conditions will be executed with filtered data which improves performance. After that, only the WHERE condition will apply filter conditions.
(Applying conditional statements in ON / WHERE will not make much difference in few cases. This depends on how many tables you have joined and the number of rows available in each join tables)
The implicit join ANSI syntax is older, less obvious, and not recommended.
In addition, the relational algebra allows interchangeability of the predicates in the WHERE clause and the INNER JOIN, so even INNER JOIN queries with WHERE clauses can have the predicates rearranged by the optimizer.
I recommend you write the queries in the most readable way possible.
Sometimes this includes making the INNER JOIN relatively "incomplete" and putting some of the criteria in the WHERE simply to make the lists of filtering criteria more easily maintainable.
For example, instead of:
SELECT *
FROM Customers c
INNER JOIN CustomerAccounts ca
ON ca.CustomerID = c.CustomerID
AND c.State = 'NY'
INNER JOIN Accounts a
ON ca.AccountID = a.AccountID
AND a.Status = 1
Write:
SELECT *
FROM Customers c
INNER JOIN CustomerAccounts ca
ON ca.CustomerID = c.CustomerID
INNER JOIN Accounts a
ON ca.AccountID = a.AccountID
WHERE c.State = 'NY'
AND a.Status = 1
But it depends, of course.
Implicit joins (which is what your first query is known as) become much much more confusing, hard to read, and hard to maintain once you need to start adding more tables to your query. Imagine doing that same query and type of join on four or five different tables ... it's a nightmare.
Using an explicit join (your second example) is much more readable and easy to maintain.
I'll also point out that using the older syntax is more subject to error. If you use inner joins without an ON clause, you will get a syntax error. If you use the older syntax and forget one of the join conditions in the where clause, you will get a cross join. The developers often fix this by adding the distinct keyword (rather than fixing the join because they still don't realize the join itself is broken) which may appear to cure the problem but will slow down the query considerably.
Additionally for maintenance if you have a cross join in the old syntax, how will the maintainer know if you meant to have one (there are situations where cross joins are needed) or if it was an accident that should be fixed?
Let me point you to this question to see why the implicit syntax is bad if you use left joins.
Sybase *= to Ansi Standard with 2 different outer tables for same inner table
Plus (personal rant here), the standard using the explicit joins is over 20 years old, which means implicit join syntax has been outdated for those 20 years. Would you write application code using a syntax that has been outdated for 20 years? Why do you want to write database code that is?
The SQL:2003 standard changed some precedence rules so a JOIN statement takes precedence over a "comma" join. This can actually change the results of your query depending on how it is setup. This cause some problems for some people when MySQL 5.0.12 switched to adhering to the standard.
So in your example, your queries would work the same. But if you added a third table:
SELECT ... FROM table1, table2 JOIN table3 ON ... WHERE ...
Prior to MySQL 5.0.12, table1 and table2 would be joined first, then table3. Now (5.0.12 and on), table2 and table3 are joined first, then table1. It doesn't always change the results, but it can and you may not even realize it.
I never use the "comma" syntax anymore, opting for your second example. It's a lot more readable anyway, the JOIN conditions are with the JOINs, not separated into a separate query section.
They have a different human-readable meaning.
However, depending on the query optimizer, they may have the same meaning to the machine.
You should always code to be readable.
That is to say, if this is a built-in relationship, use the explicit join. if you are matching on weakly related data, use the where clause.
I know you're talking about MySQL, but anyway:
In Oracle 9 explicit joins and implicit joins would generate different execution plans. AFAIK that has been solved in Oracle 10+: there's no such difference anymore.
If you are often programming dynamic stored procedures, you will fall in love with your second example (using where). If you have various input parameters and lots of morph mess, then that is the only way. Otherwise, they both will run the same query plan so there is definitely no obvious difference in classic queries.
ANSI join syntax is definitely more portable.
I'm going through an upgrade of Microsoft SQL Server, and I would also mention that the =* and *= syntax for outer joins in SQL Server is not supported (without compatibility mode) for 2005 SQL server and later.
I have two points for the implicit join (The second example):
Tell the database what you want, not what it should do.
You can write all tables in a clear list that is not cluttered by join conditions. Then you can much easier read what tables are all mentioned. The conditions come all in the WHERE part, where they are also all lined up one below the other. Using the JOIN keyword mixes up tables and conditions.
Related
This question already has answers here:
MySQL Join clause vs WHERE clause
(4 answers)
Closed 7 years ago.
I have 2 tables customer and order1. I want to know which of the following queries is more efficient
select cust_name,ISBN from customer,order1 where customer.cust_no=order1.cust_no;
,
select cust_name,ISBN from customer inner join order1 on customer.cust_no=order1.cust_no;
and
select cust_name,ISBN from customer natural join order1;
I've read that inner join takes cartesian product of two tables and then return only rows that match the 'on' condition. Does natural operates in the same way as inner join? Also how inline queries are efficient than joins?
These three queries should do the same thing. You could verify by checking the execution plan, but any differences between them should be negligible.
According to MySQL 5.7 Reference Manual:
Natural joins and joins with USING, including outer join variants, are processed according to the SQL:2003 standard. The goal was to align the syntax and semantics of MySQL with respect to NATURAL JOIN and JOIN ... USING according to SQL:2003. However, these changes in join processing can result in different output columns for some joins. Also, some queries that appeared to work correctly in older versions (prior to 5.0.12) must be rewritten to comply with the standard.
These changes have five main aspects:
The way that MySQL determines the result columns of NATURAL or USING join operations (and thus the result of the entire FROM clause).
Expansion of SELECT * and SELECT tbl_name.* into a list of selected columns.
Resolution of column names in NATURAL or USING joins.
Transformation of NATURAL or USING joins into JOIN ... ON.
Resolution of column names in the ON condition of a JOIN ... ON.
Also, note that:
The conditional_expr used with ON is any conditional expression of the form that can be used in a WHERE clause. Generally, you should use the ON clause for conditions that specify how to join tables, and the WHERE clause to restrict which rows you want in the result set.
And finally to answer your question regarding sub queries, from Rewriting Subqueries as Joins:
A LEFT [OUTER] JOIN can be faster than an equivalent subquery because the server might be able to optimize it better—a fact that is not specific to MySQL Server alone. Prior to SQL-92, outer joins did not exist, so subqueries were the only way to do certain things. Today, MySQL Server and many other modern database systems offer a wide range of outer join types.
In mysql which inner join sql is most effective and best?
1.
select t01.uname, t02.deptname
from user t01, department t02
where t01.deptid = t02.deptid
and t01.uid = '001'
2.
select t01.uname, t02.deptname
from user t01, department t02
where t01.uid = '001'
and t01.deptid = t02.deptid
3.
select t01.uname, t02.deptname
from user t01 inner join department t02 on t01.deptid = t02.deptid
and t01.uid = '001'
4.
select t01.uname, t02.deptname
from user t01 inner join department t02 on t01.deptid = t02.deptid
where t01.uid = '001'
My mysql is 5.1
All of those are functionally equivalent. Even the separation between WHERE clause and JOIN condition will not change the results when working entirely with INNER joins (it can matter with OUTER joins). Additionally, all of those should work out into the exact same query plan (effectively zero performance difference). The order in which you include items does not matter. The query engine is free to optimize as it sees best fit within the functional specification of the query. Even when you identify specific behavior with regards to order, you shouldn't count on it. The specification allows for tomorrow's patch to change today's behavior in this area. Remember: the whole point of SQL is to be set-based and declarative: you tell the database what you want it to do, not how you want it to do it.
Now that correctness and performance are out of the way, we're down to matters of style: things like programmer productivity and readability/maintainability of the code. In that regard, option #4 in that list is by far the best choice, with #3 the next best, especially as you start to get into more complicated queries. Just don't use the A,B syntax anymore; it's been obsolete since the 1992 version of the SQL standard. Always write out the full INNER JOIN (or LEFT JOIN/RIGHT JOIN/CROSS JOIN etc).
All that said, while order does (or, at least, should) not matter to performance, I do find it helpful when I'm writing SQL to use a convention in my approach that does dictate the order. This helps me identify errors or false assumptions later when debugging and troubleshooting. This general guide that I try to follow is to behave as if the order does matter, and then with that in mind try to keep the working set of memory needed by the database to fulfill the query as small as possible for as long as possible: start with smaller tables first and then join to the larger; when considering table size, take into account conditions in the WHERE clause that match up with an index; prefer the inner joins before outer when you have the choice; list join conditions to favor indexes (especially primary/clustered keys) first, and other conditions on the join second.
I have multiple joins including left joins in mysql. There are two ways to do that.
I can put "ON" conditions right after each join:
select * from A join B ON(A.bid=B.ID) join C ON(B.cid=C.ID) join D ON(c.did=D.ID)
I can put them all in one "ON" clause:
select * from A join B join C join D ON(A.bid=B.ID AND B.cid=C.ID AND c.did=D.ID)
Which way is better?
Is it different if I need Left join or Right join in my query?
For simple uses MySQL will almost inevitably execute them in the same manner, so it is a manner of preference and readability (which is a great subject of debate).
However with more complex queries, particularly aggregate queries with OUTER JOINs that have the potential to become disk and io bound - there may be performance and unseen implications in not using a WHERE clause with OUTER JOIN queries.
The difference between a query that runs for 8 minutes, or .8 seconds may ultimately depend on the WHERE clause, particularly as it relates to indexes (How MySQL uses Indexes): The WHERE clause is a core part of providing the query optimizer the information it needs to do it's job and tell the engine how to execute the query in the most efficient way.
From How MySQL Optimizes Queries using WHERE:
"This section discusses optimizations that can be made for processing
WHERE clauses...The best join combination for joining the tables is
found by trying all possibilities. If all columns in ORDER BY and
GROUP BY clauses come from the same table, that table is preferred
first when joining."
For each table in a join, a simpler WHERE is constructed to get a fast
WHERE evaluation for the table and also to skip rows as soon as
possible
Some examples:
Full table scans (type = ALL) with NO Using where in EXTRA
[SQL] SELECT cr.id,cr2.role FROM CReportsAL cr
LEFT JOIN CReportsCA cr2
ON cr.id = cr2.id AND cr.role = cr2.role AND cr.util = 1000
[Err] Out of memory
Uses where to optimize results, with index (Using where,Using index):
[SQL] SELECT cr.id,cr2.role FROM CReportsAL cr
LEFT JOIN CReportsCA cr2
ON cr.id = cr2.id
WHERE cr.role = cr2.role
AND cr.util = 1000
515661 rows in set (0.124s)
****Combination of ON/WHERE - Same result - Same plan in EXPLAIN*******
[SQL] SELECT cr.id,cr2.role FROM CReportsAL cr
LEFT JOIN CReportsCA cr2
ON cr.id = cr2.id
AND cr.role = cr2.role
WHERE cr.util = 1000
515661 rows in set (0.121s)
MySQL is typically smart enough to figure out simple queries like the above and will execute them similarly but in certain cases it will not.
Outer Join Query Performance:
As both LEFT JOIN and RIGHT JOIN are OUTER JOINS (Great in depth review here) the issue of the Cartesian product arises, the avoidance of Table Scans must be avoided, so that as many rows as possible not needed for the query are eliminated as fast as possible.
WHERE, Indexes and the query optimizer used together may completely eliminate the problems posed by cartesian products when used carefully with aggregate functions like AVERAGE, GROUP BY, SUM, DISTINCT etc. orders of magnitude of decrease in run time is achieved with proper indexing by the user and utilization of the WHERE clause.
Finally
Again, for the majority of queries, the query optimizer will execute these in the same manner - making it a manner of preference but when query optimization becomes important, WHERE is a very important tool. I have seen some performance increase in certain cases with INNER JOIN by specifying an indexed col as an additional ON..AND ON clause but I could not tell you why.
Put the ON clause with the JOIN it applies to.
The reasons are:
readability: others can easily see how the tables are joined
performance: if you leave the conditions later in the query, you'll get way more joins happening than need to - it's like putting the conditions in the where clause
convention: by following normal style, your code will be more portable and less likely to encounter problems that may occur with unusual syntax - do what works
What is the difference between the query
SELECT Persons.LastName, Persons.FirstName, Orders.OrderNo
FROM Persons
INNER JOIN Orders
ON Persons.P_Id=Orders.P_Id
ORDER BY Persons.LastName
and this one
SELECT Persons.LastName, Persons.FirstName, Orders.OrderNo
FROM Persons, Orders
WHERE Persons.P_Id=Orders.P_Id
ORDER BY Persons.LastName
There is a small difference in syntax, but both queries are doing a join on the P_Id fields of the respective tables.
In your second example, this is an implicit join, which you are constraining in your WHERE clause to the P_Id fields of both tables.
The join is explicit in your first example and the join clause contains the constraint instead of in an additional WHERE clause.
They are basically equivalent. In general, the JOIN keywords enables you to be more explicit about direction (LEFT, RIGHT) and type (INNER, OUTER, CROSS) of your join.
This SO posting has a good explanation of the differences in ANSI SQL complaince, and bears similarities to the question asked here.
While (as it has been stated) both queries will produce the same result, I find that it is always a good idea to explicitly state your JOINs. It's much easier to understand, especially when there are non-JOIN-related evaluations in the WHERE clause.
Explicitly stating your JOIN also prevents you from inadvertently querying a Cartesian product. In your 2nd query above, if you (for whatever reason) forgot to include your WHERE clause, your query would run without JOIN conditions and return a result set of every row in Persons matched with every row in Orders...probably not something that you want.
The difference is in syntax, but not in the semantics.
The explicit JOIN syntax:
is considered more readable and
allows you to cleanly and in standard way specify whether you want INNER, LEFT/RIGHT OUTER or a CROSS join. This is in contrast to using DBMS-specific syntax, such as old Oracle's Persons.P_Id = Orders.P_Id(+) syntax for left outer join, for example.
I came across writing the query in differnt ways like shown below
Type-I
SELECT JS.JobseekerID
, JS.FirstName
, JS.LastName
, JS.Currency
, JS.AccountRegDate
, JS.LastUpdated
, JS.NoticePeriod
, JS.Availability
, C.CountryName
, S.SalaryAmount
, DD.DisciplineName
, DT.DegreeLevel
FROM Jobseekers JS
INNER
JOIN Countries C
ON JS.CountryID = C.CountryID
INNER
JOIN SalaryBracket S
ON JS.MinSalaryID = S.SalaryID
INNER
JOIN DegreeDisciplines DD
ON JS.DegreeDisciplineID = DD.DisciplineID
INNER
JOIN DegreeType DT
ON JS.DegreeTypeID = DT.DegreeTypeID
WHERE
JS.ShowCV = 'Yes'
Type-II
SELECT JS.JobseekerID
, JS.FirstName
, JS.LastName
, JS.Currency
, JS.AccountRegDate
, JS.LastUpdated
, JS.NoticePeriod
, JS.Availability
, C.CountryName
, S.SalaryAmount
, DD.DisciplineName
, DT.DegreeLevel
FROM Jobseekers JS, Countries C, SalaryBracket S, DegreeDisciplines DD
, DegreeType DT
WHERE
JS.CountryID = C.CountryID
AND JS.MinSalaryID = S.SalaryID
AND JS.DegreeDisciplineID = DD.DisciplineID
AND JS.DegreeTypeID = DT.DegreeTypeID
AND JS.ShowCV = 'Yes'
I am using Mysql database
Both works really well, But I am wondering
which is best practice to use all time for any situation?
Performance wise which is better one?(Say the database as a millions records)
Any advantages of one over the other?
Is there any tool where I can check which is better query?
Thanks in advance
1- It's a no brainer, use the Type I
2- The type II join are also called 'implicit join', whereas the type I are called 'explicit join'. With modern DBMS, you will not have any performance problem with normal query. But I think with some big complex multi join query, the DBMS could have issue with the implicit join. Using explicit join only could improve your explain plan, so faster result !
3- So performance could be an issue, but most important maybe, the readability is improve for further maintenance. Explicit join explain exactly what you want to join on what field, whereas implicit join doesn't show if you make a join or a filter. The Where clause is for filter, not for join !
And a big big point for explicit join : outer join are really annoying with implicit join. It is so hard to read when you want multiple join with outer join that explicit join are THE solution.
4- Execution plan are what you need (See the doc)
Some duplicates :
Explicit vs implicit SQL joins
SQL join: where clause vs. on clause
INNER JOIN ON vs WHERE clause
in the most code i've seen, those querys are done like your Type-II - but i think Type-I is better because of readability (and more logic - a join is a join, so you should write it as a join (althoug the second one is just another writing style for inner joins)).
in performance, there shouldn't be a difference (if there is one, i think the Type-I would be a bit faster).
Look at "Explain"-syntax
http://dev.mysql.com/doc/refman/5.1/en/explain.html
My suggestion.
Update all your tables with some amount of records. Access the MySQL console and run SQL both command one by one. You can see the time execution time in the console.
For the two queries you mentioned (each with only inner joins) any modern database's query optimizer should produce exactly the same query plan, and thus the same performance.
For MySQL, if you prefix the query with EXPLAIN, it will spit out information about the query plan (instead of running the query). If the information from both queries is the same, them the query plan is the same, and the performance will be identical. From the MySQL Reference Manual:
EXPLAIN returns a row of information
for each table used in the SELECT
statement. The tables are listed in
the output in the order that MySQL
would read them while processing the
query. MySQL resolves all joins using
a nested-loop join method. This means
that MySQL reads a row from the first
table, and then finds a matching row
in the second table, the third table,
and so on. When all tables are
processed, MySQL outputs the selected
columns and backtracks through the
table list until a table is found for
which there are more matching rows.
The next row is read from this table
and the process continues with the
next table.
When the EXTENDED keyword is used,
EXPLAIN produces extra information
that can be viewed by issuing a SHOW
WARNINGS statement following the
EXPLAIN statement. This information
displays how the optimizer qualifies
table and column names in the SELECT
statement, what the SELECT looks like
after the application of rewriting and
optimization rules, and possibly other
notes about the optimization process.
As to which syntax is better? That's up to you, but once you move beyond inner joins to outer joins, you'll need to use the newer syntax, since there's no standard for describing outer joins using the older implicit join syntax.