doctrine2/manual/docs/en/basic-schema-mapping/constraints-and-validators.txt

+++ Introduction

//From [http://www.postgresql.org/docs/8.2/static/ddl-constraints.html PostgreSQL Documentation]://

> Data types are a way to limit the kind of data that can be stored in a table. For many applications, however, the constraint they provide is too coarse. For example, a column containing a product price should probably only accept positive values. But there is no standard data type that accepts only positive numbers. Another issue is that you might want to constrain column data with respect to other columns or rows. For example, in a table containing product information, there should be only one row for each product number.

Doctrine allows you to define *portable* constraints on columns and tables. Constraints give you as much control over the data in your tables as you wish. If a user attempts to store data in a column that would violate a constraint, an error is raised. This applies even if the value came from the default value definition.

Doctrine constraints act as database level constraints as well as application level validators. This means double security: the database doesn't allow wrong kind of values and neither does the application.

Here is a full list of available validators within Doctrine:

|| validator(arguments) || constraints           || description ||
|| notnull              || NOT NULL              || Ensures the 'not null' constraint in both application and database level ||
|| email                ||                       || Checks if value is valid email. ||
|| notblank             || NOT NULL              || Checks if value is not blank. ||
|| notnull              ||                       || Checks if value is not null. ||
|| nospace              ||                       || Checks if value has no space chars. ||
|| past                 || CHECK constraint      || Checks if value is a date in the past. ||
|| future               ||                       || Checks if value is a date in the future. ||
|| minlength(length)    ||                       || Checks if value satisfies the minimum length. ||
|| country              ||                       || Checks if value is a valid country code. ||
|| ip                   ||                       || Checks if value is valid IP (internet protocol) address. ||
|| htmlcolor            ||                       || Checks if value is valid html color. ||
|| range(min, max)      || CHECK constraint      || Checks if value is in range specified by arguments. ||
|| unique               || UNIQUE constraint     || Checks if value is unique in its database table. ||
|| regexp(expression)   ||                       || Checks if value matches a given regexp. ||
|| creditcard           ||                       || Checks whether the string is a well formated credit card number ||
|| digits(int, frac)    || Precision and scale   || Checks if given value has //int// number of integer digits and //frac// number of fractional digits ||

+++ Notnull

A not-null constraint simply specifies that a column must not assume the null value. A not-null constraint is always written as a column constraint.

The following definition uses a notnull constraint for column {{name}}. This means that the specified column doesn't accept null values.

<code type="php">
class User extends Doctrine_Record
{
    public function setTableDefinition()
    {
        $this->hasColumn('name', 'string', 200, array('notnull' => true,
                                                      'primary' => true));
    }
}
</code>

When this class gets exported to database the following SQL statement would get executed (in MySQL):

<code type="sql">
CREATE TABLE user (name VARCHAR(200) NOT NULL, PRIMARY KEY(name))
</code>

The notnull constraint also acts as an application level validator. This means that if Doctrine validators are turned on, Doctrine will automatically check that specified columns do not contain null values when saved.

If those columns happen to contain null values {{Doctrine_Validator_Exception}} is raised.


+++ Unique

Unique constraints ensure that the data contained in a column or a group of columns is unique with respect to all the rows in the table.

In general, a unique constraint is violated when there are two or more rows in the table where the values of all of the columns included in the constraint are equal. However, two null values are not considered equal in this comparison. That means even in the presence of a unique constraint it is possible to store duplicate rows that contain a null value in at least one of the constrained columns. This behavior conforms to the SQL standard, but some databases do not follow this rule. So be careful when developing applications that are intended to be portable.

The following definition uses a unique constraint for column {{name}}.

<code type="php">
class User extends Doctrine_Record
{
    public function setTableDefinition()
    {
        $this->hasColumn('name', 'string', 200, array('unique' => true));
    }
}
</code>

>> Note: You should only use unique constraints for other than primary key columns. Primary key columns are always unique.

+++ Check

Some of the Doctrine validators also act as database level check constraints. When a record with these validators is exported additional CHECK constraints are being added to CREATE TABLE statement.

Consider the following example which uses 'min' validator:

<code type="php">
class Product extends Doctrine_Record
{
    public function setTableDefinition()
    {
        $this->hasColumn('id', 'integer', 4, 'primary');
        $this->hasColumn('price', 'decimal', 18, array('min' => 0));
    }
}
</code>

When exported the given class definition would execute the following statement (in pgsql):

<code type="sql">
CREATE TABLE product (
    id INTEGER,
    price NUMERIC,
    PRIMARY KEY(id),
    CHECK (price >= 0))
</code>

So Doctrine optionally ensures even at the database level that the price of any product cannot be below zero.

You can also set the maximum value of a column by using the 'max' validator. This also creates the equivalent CHECK constraint.

<code type="php">
class Product extends Doctrine_Record
{
    public function setTableDefinition()
    {
        $this->hasColumn('id', 'integer', 4, 'primary');
        $this->hasColumn('price', 'decimal', 18, array('min' => 0, 'max' => 1000000));
    }
}
</code>

Generates (in pgsql):

<code type="sql">
CREATE TABLE product (
    id INTEGER,
    price NUMERIC,
    PRIMARY KEY(id),
    CHECK (price >= 0),
    CHECK (price <= 1000000))
</code>

Lastly you can create any kind of CHECK constraints by using the check() method of the Doctrine_Record. In the last example we add constraint to ensure that price is always higher than the discounted price.

<code type="php">
class Product extends Doctrine_Record
{
    public function setTableDefinition()
    {
        $this->hasColumn('id', 'integer', 4, 'primary');
        $this->hasColumn('price', 'decimal', 18, array('min' => 0, 'max' => 1000000));
        $this->hasColumn('discounted_price', 'decimal', 18, array('min' => 0, 'max' => 1000000));
        
        $this->check('price > discounted_price');
    }
}
</code>

Generates (in pgsql):

<code type="sql">
CREATE TABLE product (
    id INTEGER,
    price NUMERIC,
    PRIMARY KEY(id),
    CHECK (price >= 0),
    CHECK (price <= 1000000),
    CHECK (price > discounted_price))
</code>


> NOTE: some databases don't support CHECK constraints. When this is the case Doctrine simple skips the creation of check constraints.

If the Doctrine validators are turned on the given definition would also ensure that when a record is being saved its price is always greater than zero.

If some of the prices of the saved products within a transaction is below zero, Doctrine throws Doctrine_Validator_Exception and automatically rolls back the transaction.