Yii2的DB操作与1有很大的区别。所以下面这段还是值得收藏的 虽然第一句让我很简单,但没关系,大部分内容还是照用的,原文地址来自:https://github.com/yiisoft/yii2/blob/master/docs/guide/db-query-builder.md 为什么就没有cdbcriteria了呢?哎。。。 No
Yii2的DB操作与1有很大的区别。所以下面这段还是值得收藏的
虽然第一句让我很简单,但没关系,大部分内容还是照用的,原文地址来自:https://github.com/yiisoft/yii2/blob/master/docs/guide/db-query-builder.md
为什么就没有cdbcriteria了呢?哎。。。
Note: This section is under development.
Yii provides a basic database access layer as described in the Database basics section. The database access layer provides a low-level way to interact with the database. While useful in some situations, it can be tedious and error-prone to write raw SQLs. An alternative approach is to use the Query Builder. The Query Builder provides an object-oriented vehicle for generating queries to be executed.
A typical usage of the query builder looks like the following:
$rows = (new \yii\db\Query()) ->select('id, name') ->from('user') ->limit(10) ->all(); // which is equivalent to the following code: $query = (new \yii\db\Query()) ->select('id, name') ->from('user') ->limit(10); // Create a command. You can get the actual SQL using $command->sql $command = $query->createCommand(); // Execute the command: $rows = $command->queryAll();
As you can see, [[yii\db\Query]] is the main player that you need to deal with. Behind the scene, Query
is actually only responsible for representing various query information. The actual query building logic is done by [[yii\db\QueryBuilder]] when you call the createCommand()
method, and the query execution is done by [[yii\db\Command]].
For convenience, [[yii\db\Query]] provides a set of commonly used query methods that will build the query, execute it, and return the result. For example,
COUNT
query. Other similar methods include sum($q)
,average($q)
, max($q)
, min($q)
, which support the so-called aggregational data query. $q
parameter is mandatory for these methods and can be either the column name or expression.In the following, we will explain how to build various clauses in a SQL statement. For simplicity, we use $query
to represent a [[yii\db\Query]] object.
SELECT
In order to form a basic SELECT
query, you need to specify what columns to select and from what table:
$query->select('id, name') ->from('user');
Select options can be specified as a comma-separated string, as in the above, or as an array. The array syntax is especially useful when forming the selection dynamically:
$query->select(['id', 'name']) ->from('user');
Info: You should always use the array format if your
SELECT
clause contains SQL expressions. This is because a SQL expression likeCONCAT(first_name, last_name) AS full_name
may contain commas. If you list it together with other columns in a string, the expression may be split into several parts by commas, which is not what you want to see.
When specifying columns, you may include the table prefixes or column aliases, e.g., user.id
, user.id AS user_id
. If you are using array to specify the columns, you may also use the array keys to specify the column aliases, e.g.,['user_id' => 'user.id', 'user_name' => 'user.name']
.
Starting from version 2.0.1, you may also select sub-queries as columns. For example,
$subQuery = (new Query)->select('COUNT(*)')->from('user'); $query = (new Query)->select(['id', 'count' => $subQuery])->from('post'); // $query represents the following SQL: // SELECT `id`, (SELECT COUNT(*) FROM `user`) AS `count` FROM `post`
To select distinct rows, you may call distinct()
, like the following:
$query->select('user_id')->distinct()->from('post');
FROM
To specify which table(s) to select data from, call from()
:
$query->select('*')->from('user');
You may specify multiple tables using a comma-separated string or an array. Table names can contain schema prefixes (e.g. 'public.user'
) and/or table aliases (e.g. 'user u'
). The method will automatically quote the table names unless it contains some parenthesis (which means the table is given as a sub-query or DB expression). For example,
$query->select('u.*, p.*')->from(['user u', 'post p']);
When the tables are specified as an array, you may also use the array keys as the table aliases (if a table does not need alias, do not use a string key). For example,
$query->select('u.*, p.*')->from(['u' => 'user', 'p' => 'post']);
You may specify a sub-query using a Query
object. In this case, the corresponding array key will be used as the alias for the sub-query.
$subQuery = (new Query())->select('id')->from('user')->where('status=1'); $query->select('*')->from(['u' => $subQuery]);
WHERE
Usually data is selected based upon certain criteria. Query Builder has some useful methods to specify these, the most powerful of which being where
. It can be used in multiple ways.
The simplest way to apply a condition is to use a string:
$query->where('status=:status', [':status' => $status]);
When using strings, make sure you're binding the query parameters, not creating a query by string concatenation. The above approach is safe to use, the following is not:
$query->where("status=$status"); // Dangerous!
Instead of binding the status value immediately, you can do so using params
or addParams
:
$query->where('status=:status'); $query->addParams([':status' => $status]);
Multiple conditions can simultaneously be set in where
using the hash format:
$query->where([ 'status' => 10, 'type' => 2, 'id' => [4, 8, 15, 16, 23, 42], ]);
That code will generate the following SQL:
WHERE (`status` = 10) AND (`type` = 2) AND (`id` IN (4, 8, 15, 16, 23, 42))
NULL is a special value in databases, and is handled smartly by the Query Builder. This code:
$query->where(['status' => null]);
results in this WHERE clause:
WHERE (`status` IS NULL)
You can also create sub-queries with Query
objects like the following,
$userQuery = (new Query)->select('id')->from('user'); $query->where(['id' => $userQuery]);
which will generate the following SQL:
WHERE `id` IN (SELECT `id` FROM `user`)
Another way to use the method is the operand format which is [operator, operand1, operand2, ...]
.
Operator can be one of the following (see also [[yii\db\QueryInterface::where()]]):
and
: the operands should be concatenated together using AND
. For example, ['and', 'id=1', 'id=2']
will generate id=1 AND id=2
. If an operand is an array, it will be converted into a string using the rules described here. For example, ['and', 'type=1', ['or', 'id=1', 'id=2']]
will generate type=1 AND (id=1 OR id=2)
. The method will NOT do any quoting or escaping.
or
: similar to the and
operator except that the operands are concatenated using OR
.
between
: operand 1 should be the column name, and operand 2 and 3 should be the starting and ending values of the range that the column is in. For example, ['between', 'id', 1, 10]
will generate id BETWEEN 1 AND 10
.
not between
: similar to between
except the BETWEEN
is replaced with NOT BETWEEN
in the generated condition.
in
: operand 1 should be a column or DB expression. Operand 2 can be either an array or a Query
object. It will generate an IN
condition. If Operand 2 is an array, it will represent the range of the values that the column or DB expression should be; If Operand 2 is a Query
object, a sub-query will be generated and used as the range of the column or DB expression. For example, ['in', 'id', [1, 2, 3]]
will generate id IN (1, 2, 3)
. The method will properly quote the column name and escape values in the range. The in
operator also supports composite columns. In this case, operand 1 should be an array of the columns, while operand 2 should be an array of arrays or a Query
object representing the range of the columns.
not in
: similar to the in
operator except that IN
is replaced with NOT IN
in the generated condition.
like
: operand 1 should be a column or DB expression, and operand 2 be a string or an array representing the values that the column or DB expression should be like. For example, ['like', 'name', 'tester']
will generatename LIKE '%tester%'
. When the value range is given as an array, multiple LIKE
predicates will be generated and concatenated using AND
. For example, ['like', 'name', ['test', 'sample']]
will generate name LIKE '%test%' AND name LIKE '%sample%'
. You may also provide an optional third operand to specify how to escape special characters in the values. The operand should be an array of mappings from the special characters to their escaped counterparts. If this operand is not provided, a default escape mapping will be used. You may use false
or an empty array to indicate the values are already escaped and no escape should be applied. Note that when using an escape mapping (or the third operand is not provided), the values will be automatically enclosed within a pair of percentage characters.
Note: When using PostgreSQL you may also use
ilike
instead oflike
for case-insensitive matching.
or like
: similar to the like
operator except that OR
is used to concatenate the LIKE
predicates when operand 2 is an array.
not like
: similar to the like
operator except that LIKE
is replaced with NOT LIKE
in the generated condition.
or not like
: similar to the not like
operator except that OR
is used to concatenate the NOT LIKE
predicates.
exists
: requires one operand which must be an instance of [[yii\db\Query]] representing the sub-query. It will build a EXISTS (sub-query)
expression.
not exists
: similar to the exists
operator and builds a NOT EXISTS (sub-query)
expression.
Additionally you can specify anything as operator:
$query->select('id') ->from('user') ->where(['>=', 'id', 10]);
It will result in:
SELECT id FROM user WHERE id >= 10;
If you are building parts of condition dynamically it's very convenient to use andWhere()
and orWhere()
:
$status = 10; $search = 'yii'; $query->where(['status' => $status]); if (!empty($search)) { $query->andWhere(['like', 'title', $search]); }
In case $search
isn't empty the following SQL will be generated:
WHERE (`status` = 10) AND (`title` LIKE '%yii%')
When building filter conditions based on user inputs, you usually want to specially handle "empty inputs" by ignoring them in the filters. For example, you have an HTML form that takes username and email inputs. If the user only enters something in the username input, you may want to build a query that only tries to match the entered username. You may use the filterWhere()
method to achieve this goal:
// $username and $email are from user inputs $query->filterWhere([ 'username' => $username, 'email' => $email, ]);
The filterWhere()
method is very similar to where()
. The main difference is that filterWhere()
will remove empty values from the provided condition. So if $email
is "empty", the resulting query will be ...WHERE username=:username
; and if both $username
and $email
are "empty", the query will have no WHERE
part.
A value is empty if it is null, an empty string, a string consisting of whitespaces, or an empty array.
You may also use andFilterWhere()
and orFilterWhere()
to append more filter conditions.
ORDER BY
For ordering results orderBy
and addOrderBy
could be used:
$query->orderBy([ 'id' => SORT_ASC, 'name' => SORT_DESC, ]);
Here we are ordering by id
ascending and then by name
descending.
GROUP BY
and HAVING
In order to add GROUP BY
to generated SQL you can use the following:
$query->groupBy('id, status');
If you want to add another field after using groupBy
:
$query->addGroupBy(['created_at', 'updated_at']);
To add a HAVING
condition the corresponding having
method and its andHaving
and orHaving
can be used. Parameters for these are similar to the ones for where
methods group:
$query->having(['status' => $status]);
LIMIT
and OFFSET
To limit result to 10 rows limit
can be used:
$query->limit(10);
To skip 100 fist rows use:
$query->offset(100);
JOIN
The JOIN
clauses are generated in the Query Builder by using the applicable join method:
innerJoin()
leftJoin()
rightJoin()
This left join selects data from two related tables in one query:
$query->select(['user.name AS author', 'post.title as title']) ->from('user') ->leftJoin('post', 'post.user_id = user.id');
In the code, the leftJoin()
method's first parameter specifies the table to join to. The second parameter defines the join condition.
If your database application supports other join types, you can use those via the generic join
method:
$query->join('FULL OUTER JOIN', 'post', 'post.user_id = user.id');
The first argument is the join type to perform. The second is the table to join to, and the third is the condition.
Like FROM
, you may also join with sub-queries. To do so, specify the sub-query as an array which must contain one element. The array value must be a Query
object representing the sub-query, while the array key is the alias for the sub-query. For example,
$query->leftJoin(['u' => $subQuery], 'u.id=author_id');
UNION
UNION
in SQL adds results of one query to results of another query. Columns returned by both queries should match. In Yii in order to build it you can first form two query objects and then use union
method:
$query = new Query(); $query->select("id, category_id as type, name")->from('post')->limit(10); $anotherQuery = new Query(); $anotherQuery->select('id, type, name')->from('user')->limit(10); $query->union($anotherQuery);
When working with large amount of data, methods such as [[yii\db\Query::all()]] are not suitable because they require loading all data into the memory. To keep the memory requirement low, Yii provides the so-called batch query support. A batch query makes uses of data cursor and fetches data in batches.
Batch query can be used like the following:
use yii\db\Query; $query = (new Query()) ->from('user') ->orderBy('id'); foreach ($query->batch() as $users) { // $users is an array of 100 or fewer rows from the user table } // or if you want to iterate the row one by one foreach ($query->each() as $user) { // $user represents one row of data from the user table }
The method [[yii\db\Query::batch()]] and [[yii\db\Query::each()]] return an [[yii\db\BatchQueryResult]] object which implements the Iterator
interface and thus can be used in the foreach
construct. During the first iteration, a SQL query is made to the database. Data are since then fetched in batches in the iterations. By default, the batch size is 100, meaning 100 rows of data are being fetched in each batch. You can change the batch size by passing the first parameter to the batch()
or each()
method.
Compared to the [[yii\db\Query::all()]], the batch query only loads 100 rows of data at a time into the memory. If you process the data and then discard it right away, the batch query can help keep the memory usage under a limit.
If you specify the query result to be indexed by some column via [[yii\db\Query::indexBy()]], the batch query will still keep the proper index. For example,
use yii\db\Query; $query = (new Query()) ->from('user') ->indexBy('username'); foreach ($query->batch() as $users) { // $users is indexed by the "username" column } foreach ($query->each() as $username => $user) { }
原文地址:值得收藏的yii2的doc中关于db Query的说明, 感谢原作者分享。