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Independent query builders for MySQL, PostgreSQL, SQLite, and Microsoft SQL Server.

License: BSD 2-Clause "Simplified" License

aura.sqlquery's Introduction

Aura.SqlQuery

Provides query builders for MySQL, Postgres, SQLite, and Microsoft SQL Server. These builders are independent of any particular database connection library, although PDO in general is recommended.

Foreword

Installation

This library requires PHP 5.3 or later, and has no userland dependencies.

It is installable and autoloadable via Composer as aura/sqlquery.

Alternatively, download a release or clone this repository, then require or include its autoload.php file.

Quality

Scrutinizer Code Quality Code Coverage Build Status

To run the unit tests at the command line, issue phpunit -c tests/unit/. (This requires PHPUnit to be available as phpunit.)

This library attempts to comply with PSR-1, PSR-2, and PSR-4. If you notice compliance oversights, please send a patch via pull request.

Community

To ask questions, provide feedback, or otherwise communicate with the Aura community, please join our Google Group, follow @auraphp on Twitter, or chat with us on #auraphp on Freenode.

Getting Started

First, instantiate a QueryFactory with a database type:

<?php
use Aura\SqlQuery\QueryFactory;

$query_factory = new QueryFactory('sqlite');
?>

You can then use the factory to create query objects:

<?php
$select = $query_factory->newSelect();
$insert = $query_factory->newInsert();
$update = $query_factory->newUpdate();
$delete = $query_factory->newDelete();
?>

The query objects do not execute queries against a database. When you are done building the query, you will need to pass it to a database connection of your choice. In the examples below, we will use PDO for the database connection, but any database library that uses named placeholders and bound values should work just as well (e.g. the Aura.Sql ExtendedPdo class).

Identifier Quoting

In most cases, the query objects will quote identifiers for you. For example, under the common Select object with double-quotes for identifiers:

<?php
$select->cols(array('foo', 'bar AS barbar'))
       ->from('table1')
       ->from('table2')
       ->where('table2.zim = 99');

echo $select->__toString();
// SELECT
//     "foo",
//     "bar" AS "barbar"
// FROM
//     "table1",
//     "table2"
// WHERE
//     "table2"."zim" = 99

?>

If you discover that a partially-qualified identifier has not been auto-quoted for you, change it to a fully-qualified identifer (e.g., from col_name to table_name.col_name).

Common Query Objects

Although you must specify a database type when instantiating a QueryFactory, you can tell the factory to return "common" query objects instead of database- specific ones. This will make only the common query methods available, which helps with writing database-portable applications. To do so, pass the constant QueryFactory::COMMON as the second constructor parameter.

<?php
use Aura\SqlQuery\QueryFactory;

// return Common, not SQLite-specific, query objects
$query_factory = new QueryFactory('sqlite', QueryFactory::COMMON);
?>

N.b. You still need to pass a database type so that identifiers can be quoted appropriately.

All query objects implement the "Common" methods.

SELECT

Build a Select query using the following methods. They do not need to be called in any particular order, and may be called multiple times.

<?php
$select = $query_factory->newSelect();

$select
    ->distinct()                    // SELECT DISTINCT
    ->cols(array(                   // select these columns
        'id',                       // column name
        'name AS namecol',          // one way of aliasing
        'col_name' => 'col_alias',  // another way of aliasing
        'COUNT(foo) AS foo_count'   // embed calculations directly
    ))
    ->from('foo AS f')              // FROM these tables
    ->fromSubselect(                // FROM sub-select AS my_sub
        'SELECT ...',
        'my_sub'
    )
    ->join(                         // JOIN ...
        'LEFT',                     // left/inner/natural/etc
        'doom AS d'                 // this table name
        'foo.id = d.foo_id'         // ON these conditions
    )
    ->joinSubSelect(                // JOIN to a sub-select
        'INNER',                    // left/inner/natural/etc
        'SELECT ...',               // the subselect to join on
        'subjoin'                   // AS this name
        'sub.id = foo.id'           // ON these conditions
    )
    ->where('bar > :bar')           // AND WHERE these conditions
    ->where('zim = ?', 'zim_val')   // bind 'zim_val' to the ? placeholder
    ->orWhere('baz < :baz')         // OR WHERE these conditions
    ->groupBy(array('dib'))         // GROUP BY these columns
    ->having('foo = :foo')          // AND HAVING these conditions
    ->having('bar > ?', 'bar_val')  // bind 'bar_val' to the ? placeholder
    ->orHaving('baz < :baz')        // OR HAVING these conditions
    ->orderBy(array('baz');             // ORDER BY these columns
    ->limit(10)                     // LIMIT 10
    ->offset(40)                    // OFFSET 40
    ->forUpdate()                   // FOR UPDATE
    ->union()                       // UNION with a followup SELECT
    ->unionAll()                    // UNION ALL with a followup SELECT
    ->bindValue('foo', 'foo_val')   // bind one value to a placeholder
    ->bindValues(array(             // bind these values to named placeholders
        'bar' => 'bar_val',
        'baz' => 'baz_val',
    ));
?>

Once you have built the query, pass it to the database connection of your choice as a string, and send the bound values along with it.

<?php
// a PDO connection
$pdo = new PDO(...);

// prepare the statment
$sth = $pdo->prepare($select->__toString());

// bind the values and execute
$sth->execute($select->getBindValues());

// get the results back as an associative array
$result = $sth->fetch(PDO::FETCH_ASSOC);
?>

INSERT

Build an Insert query using the following methods. They do not need to be called in any particular order, and may be called multiple times. This builds a single insert; you cannot do a multiple insert with this object.

<?php
$insert = $query_factory->newInsert();

$insert
    ->into('foo')                   // INTO this table
    ->cols(array                    // bind values as "(col) VALUES (:col)"
        'bar',
        'baz',
    ))
    ->set('ts', 'NOW()')            // raw value as "(ts) VALUES (NOW())"
    ->bindValue('foo', 'foo_val')   // bind one value to a placeholder
    ->bindValues(array(             // bind these values
        'bar' => 'foo',
        'baz' => 'zim',
    ));
?>

The cols() method allows you to pass an array of key-value pairs where the key is the column name and the value is a bind value (not a raw value):

<?php
$insert = $query_factory->newInsert();

$insert->into('foo')            // insert into this table
    ->cols(array(                // insert these columns and bind these values
        'foo' => 'foo_value',
        'bar' => 'bar_value',
        'baz' => 'baz_value',
    ));
?>

Once you have built the query, pass it to the database connection of your choice as a string, and send the bound values along with it.

<?php
// the PDO connection
$pdo = new PDO(...);

// prepare the statement
$sth = $pdo->prepare($insert->__toString())

// execute with bound values
$sth->execute($insert->getBindValues());

// get the last insert ID
$name = $insert->getLastInsertIdName('id');
$id = $pdo->lastInsertId($name);
?>

UPDATE

Build an UPDATE query using the following methods. They do not need to be called in any particular order, and may be called multiple times.

<?php
$update = $query_factory->newUpdate();

$update
    ->table('foo')                  // update this table
    ->cols(array(                   // bind values as "SET bar = :bar"
        'bar',
        'baz',
    ))
    ->set('ts', 'NOW()')            // raw value as "(ts) VALUES (NOW())"
    ->where('zim = :zim')           // AND WHERE these conditions
    ->where('gir = ?', 'doom')      // bind this value to the condition
    ->orWhere('gir = :gir')         // OR WHERE these conditions
    ->bindValue('bar', 'bar_val')   // bind one value to a placeholder
    ->bindValues(array(             // bind these values to the query
        'baz' => 99,
        'zim' => 'dib',
        'gir' => 'doom',
    ));
?>

The cols() method allows you to pass an array of key-value pairs where the key is the column name and the value is a bind value (not a raw value):

<?php
$update = $query_factory->newUpdate();

$update->table('foo')           // update this table
    ->cols(array(               // update these columns and bind these values
        'foo' => 'foo_value',
        'bar' => 'bar_value',
        'baz' => 'baz_value',
    ));
?>

Once you have built the query, pass it to the database connection of your choice as a string, and send the bound values along with it.

<?php
// the PDO connection
$pdo = new PDO(...);

// prepare the statement
$sth = $pdo->prepare($update->__toString())

// execute with bound values
$sth->execute($update->getBindValues());
?>

DELETE

Build a DELETE query using the following methods. They do not need to be called in any particular order, and may be called multiple times.

<?php
$delete = $query_factory->newDelete();

$delete
    ->from('foo')                   // FROM this table
    ->where('zim = :zim')           // AND WHERE these conditions
    ->where('gir = ?', 'doom')      // bind this value to the condition
    ->orWhere('gir = :gir');        // OR WHERE these conditions
    ->bindValue('bar', 'bar_val',   // bind one value to a placeholder
    ->bindValues(array(             // bind these values to the query
        'baz' => 99,
        'zim' => 'dib',
        'gir' => 'doom',
    ));
?>

Once you have built the query, pass it to the database connection of your choice as a string, and send the bound values along with it.

<?php
// the PDO connection
$pdo = new PDO(...);

// prepare the statement
$sth = $pdo->prepare($delete->__toString())

// execute with bound values
$sth->execute($delete->getBindValues());
?>

MySQL Query Objects ('mysql')

These 'mysql' query objects have additional MySQL-specific methods:

  • SELECT

    • calcFoundRows() to add or remove SQL_CALC_FOUND_ROWS flag
    • cache() to add or remove SQL_CACHE flag
    • noCache() to add or remove SQL_NO_CACHE flag
    • bigResult() to add or remove SQL_BIG_RESULT flag
    • smallResult() to add or remove SQL_SMALL_RESULT flag
    • bufferResult() to add or remove SQL_BUFFER_RESULT flag
    • highPriority() to add or remove HIGH_PRIORITY flag
    • straightJoin() to add or remove STRAIGHT_JOIN flag
  • INSERT

    • highPriority() to add or remove HIGH_PRIORITY flag
    • lowPriority() to add or remove LOW_PRIORITY flag
    • ignore() to add or remove IGNORE flag
    • delayed() to add or remove DELAYED flag
  • UPDATE

    • lowPriority() to add or remove LOW_PRIORITY flag
    • ignore() to add or remove IGNORE flag
    • where() and orWhere() to add WHERE conditions flag
    • orderBy() to add an ORDER BY clause flag
    • limit() to set a LIMIT count
  • DELETE

    • lowPriority() to add or remove LOW_PRIORITY flag
    • ignore() to add or remove IGNORE flag
    • quick() to add or remove QUICK flag
    • orderBy() to add an ORDER BY clause
    • limit() to set a LIMIT count

PostgreSQL Query Objects ('pgsql')

These 'pgsql' query objects have additional PostgreSQL-specific methods:

  • INSERT

    • returning() to add a RETURNING clause
  • UPDATE

    • returning() to add a RETURNING clause
  • DELETE

    • returning() to add a RETURNING clause

Last Insert ID Names in PostgreSQL

PostgreSQL determines the default sequence name for the last inserted ID by concatenating the table name, the column name, and a seq suffix, using underscore separators (e.g. table_col_seq).

However, when inserting into an extended or inherited table, the parent table is used for the sequence name, not the child (insertion) table. This package allows you to override the default last-insert-id name with the method setLastInsertIdNames() on both QueryFactory and the Insert object itself. Pass an array of inserttable.col keys mapped to parenttable_col_seq values, and the Insert object will use the mapped sequence names instead of the default names.

<?php
$query_factory->setLastInsertIdNames(array(
    'child.id' => 'parent_id_seq'
));

$insert = $query_factory->newInsert();
$insert->into('child');
// ...
$seq = $insert->getLastInsertIdName('id');
?>

The $seq name is now parent_id_seq, not child_id_seq as it would have been by default.

SQLite Query Objects ('sqlite')

These 'sqlite' query objects have additional SQLite-specific methods:

  • INSERT

    • orAbort() to add or remove an OR ABORT flag
    • orFail() to add or remove an OR FAIL flag
    • orIgnore() to add or remove an OR IGNORE flag
    • orReplace() to add or remove an OR REPLACE flag
    • orRollback() to add or remove an OR ROLLBACK flag
  • UPDATE

    • orAbort() to add or remove an OR ABORT flag
    • orFail() to add or remove an OR FAIL flag
    • orIgnore() to add or remove an OR IGNORE flag
    • orReplace() to add or remove an OR REPLACE flag
    • orRollback() to add or remove an OR ROLLBACK flag
    • orderBy() to add an ORDER BY clause
    • limit() to set a LIMIT count
    • offset() to set an OFFSET count
  • DELETE

    • orAbort() to add or remove an OR ABORT flag
    • orFail() to add or remove an OR FAIL flag
    • orIgnore() to add or remove an OR IGNORE flag
    • orReplace() to add or remove an OR REPLACE flag
    • orRollback() to add or remove an OR ROLLBACK flag
    • orderBy() to add an ORDER BY clause
    • limit() to set a LIMIT count
    • offset() to set an OFFSET count

Microsoft SQL Query Objects ('sqlsrv')

The 'sqlsrv' query objects have no additional methods specific to Microsoft SQL Server.

In general, limit() and offset() with Microsoft SQL Server are best combined with orderBy(). The limit() and offset() methods on the Microsoft SQL Server query objects will generate sqlsrv-specific variations of LIMIT ... OFFSET:

  • If only a LIMIT is present, it will be translated as a TOP clause.

  • If both LIMIT and OFFSET are present, it will be translated as an OFFSET ... ROWS FETCH NEXT ... ROWS ONLY clause. In this case there must be an ORDER BY clause, as the limiting clause is a sub-clause of ORDER BY.

aura.sqlquery's People

Contributors

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