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Thu, Dec 26, 20:12
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text/x-php
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LiskDAO.php
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<?php
/*
* Copyright 2012 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* Simple object-authoritative data access object that makes it easy to build
* stuff that you need to save to a database. Basically, it means that the
* amount of boilerplate code (and, particularly, boilerplate SQL) you need
* to write is greatly reduced.
*
* Lisk makes it fairly easy to build something quickly and end up with
* reasonably high-quality code when you're done (e.g., getters and setters,
* objects, transactions, reasonably structured OO code). It's also very thin:
* you can break past it and use MySQL and other lower-level tools when you
* need to in those couple of cases where it doesn't handle your workflow
* gracefully.
*
* However, Lisk won't scale past one database and lacks many of the features
* of modern DAOs like Hibernate: for instance, it does not support joins or
* polymorphic storage.
*
* This means that Lisk is well-suited for tools like Differential, but often a
* poor choice elsewhere. And it is strictly unsuitable for many projects.
*
* Lisk's model is object-authoritative: the PHP class definition is the
* master authority for what the object looks like.
*
* =Building New Objects=
*
* To create new Lisk objects, extend @{class:LiskDAO} and implement
* @{method:establishLiveConnection}. It should return an
* @{class:AphrontDatabaseConnection}; this will tell Lisk where to save your
* objects.
*
* class Dog extends LiskDAO {
*
* protected $name;
* protected $breed;
*
* public function establishLiveConnection() {
* return $some_connection_object;
* }
* }
*
* Now, you should create your table:
*
* lang=sql
* CREATE TABLE dog (
* id int unsigned not null auto_increment primary key,
* name varchar(32) not null,
* breed varchar(32) not null,
* dateCreated int unsigned not null,
* dateModified int unsigned not null
* );
*
* For each property in your class, add a column with the same name to the table
* (see @{method:getConfiguration} for information about changing this mapping).
* Additionally, you should create the three columns `id`, `dateCreated` and
* `dateModified`. Lisk will automatically manage these, using them to implement
* autoincrement IDs and timestamps. If you do not want to use these features,
* see @{method:getConfiguration} for information on disabling them. At a bare
* minimum, you must normally have an `id` column which is a primary or unique
* key with a numeric type, although you can change its name by overriding
* @{method:getIDKey} or disable it entirely by overriding @{method:getIDKey} to
* return null. Note that many methods rely on a single-part primary key and
* will no longer work (they will throw) if you disable it.
*
* As you add more properties to your class in the future, remember to add them
* to the database table as well.
*
* Lisk will now automatically handle these operations: getting and setting
* properties, saving objects, loading individual objects, loading groups
* of objects, updating objects, managing IDs, updating timestamps whenever
* an object is created or modified, and some additional specialized
* operations.
*
* = Creating, Retrieving, Updating, and Deleting =
*
* To create and persist a Lisk object, use @{method:save}:
*
* $dog = id(new Dog())
* ->setName('Sawyer')
* ->setBreed('Pug')
* ->save();
*
* Note that **Lisk automatically builds getters and setters for all of your
* object's protected properties** via @{method:__call}. If you want to add
* custom behavior to your getters or setters, you can do so by overriding the
* @{method:readField} and @{method:writeField} methods.
*
* Calling @{method:save} will persist the object to the database. After calling
* @{method:save}, you can call @{method:getID} to retrieve the object's ID.
*
* To load objects by ID, use the @{method:load} method:
*
* $dog = id(new Dog())->load($id);
*
* This will load the Dog record with ID $id into $dog, or ##null## if no such
* record exists (@{method:load} is an instance method rather than a static
* method because PHP does not support late static binding, at least until PHP
* 5.3).
*
* To update an object, change its properties and save it:
*
* $dog->setBreed('Lab')->save();
*
* To delete an object, call @{method:delete}:
*
* $dog->delete();
*
* That's Lisk CRUD in a nutshell.
*
* = Queries =
*
* Often, you want to load a bunch of objects, or execute a more specialized
* query. Use @{method:loadAllWhere} or @{method:loadOneWhere} to do this:
*
* $pugs = $dog->loadAllWhere('breed = %s', 'Pug');
* $sawyer = $dog->loadOneWhere('name = %s', 'Sawyer');
*
* These methods work like @{function:queryfx}, but only take half of a query
* (the part after the WHERE keyword). Lisk will handle the connection, columns,
* and object construction; you are responsible for the rest of it.
* @{method:loadAllWhere} returns a list of objects, while
* @{method:loadOneWhere} returns a single object (or `null`).
*
* There's also a @{method:loadRelatives} method which helps to prevent the 1+N
* queries problem.
*
* = Managing Transactions =
*
* Lisk uses a transaction stack, so code does not generally need to be aware
* of the transactional state of objects to implement correct transaction
* semantics:
*
* $obj->openTransaction();
* $obj->save();
* $other->save();
* // ...
* $other->openTransaction();
* $other->save();
* $another->save();
* if ($some_condition) {
* $other->saveTransaction();
* } else {
* $other->killTransaction();
* }
* // ...
* $obj->saveTransaction();
*
* Assuming ##$obj##, ##$other## and ##$another## live on the same database,
* this code will work correctly by establishing savepoints.
*
* Selects whose data are used later in the transaction should be included in
* @{method:beginReadLocking} or @{method:beginWriteLocking} block.
*
* @task conn Managing Connections
* @task config Configuring Lisk
* @task load Loading Objects
* @task info Examining Objects
* @task save Writing Objects
* @task hook Hooks and Callbacks
* @task util Utilities
* @task xaction Managing Transactions
* @task isolate Isolation for Unit Testing
*
* @group storage
*/
abstract
class
LiskDAO
{
const
CONFIG_OPTIMISTIC_LOCKS
=
'enable-locks'
;
const
CONFIG_IDS
=
'id-mechanism'
;
const
CONFIG_TIMESTAMPS
=
'timestamps'
;
const
CONFIG_AUX_PHID
=
'auxiliary-phid'
;
const
CONFIG_SERIALIZATION
=
'col-serialization'
;
const
CONFIG_PARTIAL_OBJECTS
=
'partial-objects'
;
const
SERIALIZATION_NONE
=
'id'
;
const
SERIALIZATION_JSON
=
'json'
;
const
SERIALIZATION_PHP
=
'php'
;
const
IDS_AUTOINCREMENT
=
'ids-auto'
;
const
IDS_PHID
=
'ids-phid'
;
const
IDS_MANUAL
=
'ids-manual'
;
private
$__dirtyFields
=
array
();
private
$__missingFields
=
array
();
private
static
$processIsolationLevel
=
0
;
private
static
$transactionIsolationLevel
=
0
;
private
static
$__checkedClasses
=
array
();
private
$__ephemeral
=
false
;
private
static
$connections
=
array
();
private
$inSet
=
null
;
/**
* Build an empty object.
*
* @return obj Empty object.
*/
public
function
__construct
()
{
$id_key
=
$this
->
getIDKey
();
if
(
$id_key
)
{
$this
->
$id_key
=
null
;
}
if
(
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
))
{
$this
->
resetDirtyFields
();
$this_class
=
get_class
(
$this
);
if
(
empty
(
self
::
$__checkedClasses
[
$this_class
]))
{
self
::
$__checkedClasses
=
true
;
if
(
PhabricatorEnv
::
getEnvConfig
(
'lisk.check_property_methods'
))
{
$class
=
new
ReflectionClass
(
get_class
(
$this
));
$methods
=
$class
->
getMethods
();
$properties
=
$this
->
getProperties
();
foreach
(
$methods
as
$method
)
{
$name
=
strtolower
(
$method
->
getName
());
if
(!(
strncmp
(
$name
,
'get'
,
3
)
&&
strncmp
(
$name
,
'set'
,
3
)))
{
$name
=
substr
(
$name
,
3
);
$declaring_class_name
=
$method
->
getDeclaringClass
()->
getName
();
if
(
isset
(
$properties
[
$name
])
&&
$declaring_class_name
!==
'LiskDAO'
)
{
throw
new
Exception
(
"Cannot implement method {$method->getName()} in "
.
"{$declaring_class_name}."
);
}
}
}
}
}
}
}
/* -( Managing Connections )----------------------------------------------- */
/**
* Establish a live connection to a database service. This method should
* return a new connection. Lisk handles connection caching and management;
* do not perform caching deeper in the stack.
*
* @param string Mode, either 'r' (reading) or 'w' (reading and writing).
* @return AphrontDatabaseConnection New database connection.
* @task conn
*/
abstract
protected
function
establishLiveConnection
(
$mode
);
/**
* Return a namespace for this object's connections in the connection cache.
* Generally, the database name is appropriate. Two connections are considered
* equivalent if they have the same connection namespace and mode.
*
* @return string Connection namespace for cache
* @task conn
*/
abstract
protected
function
getConnectionNamespace
();
/**
* Get an existing, cached connection for this object.
*
* @param mode Connection mode.
* @return AprontDatabaseConnection|null Connection, if it exists in cache.
* @task conn
*/
protected
function
getEstablishedConnection
(
$mode
)
{
$key
=
$this
->
getConnectionNamespace
().
':'
.
$mode
;
if
(
isset
(
self
::
$connections
[
$key
]))
{
return
self
::
$connections
[
$key
];
}
return
null
;
}
/**
* Store a connection in the connection cache.
*
* @param mode Connection mode.
* @param AphrontDatabaseConnection Connection to cache.
* @return this
* @task conn
*/
protected
function
setEstablishedConnection
(
$mode
,
AphrontDatabaseConnection
$connection
)
{
$key
=
$this
->
getConnectionNamespace
().
':'
.
$mode
;
self
::
$connections
[
$key
]
=
$connection
;
return
$this
;
}
/* -( Configuring Lisk )--------------------------------------------------- */
/**
* Change Lisk behaviors, like optimistic locks and timestamps. If you want
* to change these behaviors, you should override this method in your child
* class and change the options you're interested in. For example:
*
* public function getConfiguration() {
* return array(
* Lisk_DataAccessObject::CONFIG_EXAMPLE => true,
* ) + parent::getConfiguration();
* }
*
* The available options are:
*
* CONFIG_OPTIMISTIC_LOCKS
* Lisk automatically performs optimistic locking on objects, which protects
* you from read-modify-write concurrency problems. Lock failures are
* detected at write time and arise when two users read an object, then both
* save it. In theory, you should detect these failures and accommodate them
* in some sensible way (for instance, by showing the user differences
* between the original record and the copy they are trying to update, and
* prompting them to merge them). In practice, most Lisk tools are quick
* and dirty and don't get to that level of sophistication, but optimistic
* locks can still protect you from yourself sometimes. If you don't want
* to use optimistic locks, you can disable them. The performance cost of
* doing this locking is very very small (optimistic locks were chosen
* because they're simple and cheap, and highly optimized for the case where
* collisions are rare). By default, this option is OFF.
*
* CONFIG_IDS
* Lisk objects need to have a unique identifying ID. The three mechanisms
* available for generating this ID are IDS_AUTOINCREMENT (default, assumes
* the ID column is an autoincrement primary key), IDS_PHID (to generate a
* unique PHID for each object) or IDS_MANUAL (you are taking full
* responsibility for ID management).
*
* CONFIG_TIMESTAMPS
* Lisk can automatically handle keeping track of a `dateCreated' and
* `dateModified' column, which it will update when it creates or modifies
* an object. If you don't want to do this, you may disable this option.
* By default, this option is ON.
*
* CONFIG_AUX_PHID
* This option can be enabled by being set to some truthy value. The meaning
* of this value is defined by your PHID generation mechanism. If this option
* is enabled, a `phid' property will be populated with a unique PHID when an
* object is created (or if it is saved and does not currently have one). You
* need to override generatePHID() and hook it into your PHID generation
* mechanism for this to work. By default, this option is OFF.
*
* CONFIG_SERIALIZATION
* You can optionally provide a column serialization map that will be applied
* to values when they are written to the database. For example:
*
* self::CONFIG_SERIALIZATION => array(
* 'complex' => self::SERIALIZATION_JSON,
* )
*
* This will cause Lisk to JSON-serialize the 'complex' field before it is
* written, and unserialize it when it is read.
*
* CONFIG_PARTIAL_OBJECTS
* Sometimes, it is useful to load only some fields of an object (such as
* when you are loading all objects of a class, but only care about a few
* fields). Turning on this option (by setting it to a truthy value) allows
* users of the class to create/use partial objects, but it comes with some
* side effects: your class cannot override the setters and getters provided
* by Lisk (use readField and writeField instead), and you should not
* directly access or assign protected members of your class (use the getters
* and setters).
*
*
* @return dictionary Map of configuration options to values.
*
* @task config
*/
protected
function
getConfiguration
()
{
return
array
(
self
::
CONFIG_OPTIMISTIC_LOCKS
=>
false
,
self
::
CONFIG_IDS
=>
self
::
IDS_AUTOINCREMENT
,
self
::
CONFIG_TIMESTAMPS
=>
true
,
self
::
CONFIG_PARTIAL_OBJECTS
=>
false
,
);
}
/**
* Determine the setting of a configuration option for this class of objects.
*
* @param const Option name, one of the CONFIG_* constants.
* @return mixed Option value, if configured (null if unavailable).
*
* @task config
*/
public
function
getConfigOption
(
$option_name
)
{
static
$options
=
null
;
if
(!
isset
(
$options
))
{
$options
=
$this
->
getConfiguration
();
}
return
idx
(
$options
,
$option_name
);
}
/* -( Loading Objects )---------------------------------------------------- */
/**
* Load an object by ID. You need to invoke this as an instance method, not
* a class method, because PHP doesn't have late static binding (until
* PHP 5.3.0). For example:
*
* $dog = id(new Dog())->load($dog_id);
*
* @param int Numeric ID identifying the object to load.
* @return obj|null Identified object, or null if it does not exist.
*
* @task load
*/
public
function
load
(
$id
)
{
if
(!(
$id
=
(
int
)
$id
))
{
throw
new
Exception
(
"Bogus ID provided to load()."
);
}
return
$this
->
loadOneWhere
(
'%C = %d'
,
$this
->
getIDKeyForUse
(),
$id
);
}
/**
* Loads all of the objects, unconditionally.
*
* @return dict Dictionary of all persisted objects of this type, keyed
* on object ID.
*
* @task load
*/
public
function
loadAll
()
{
return
$this
->
loadAllWhere
(
'1 = 1'
);
}
/**
* Loads all objects, but only fetches the specified columns.
*
* @param array Array of canonical column names as strings
* @return dict Dictionary of all objects, keyed by ID.
*
* @task load
*/
public
function
loadColumns
(
array
$columns
)
{
return
$this
->
loadColumnsWhere
(
$columns
,
'1 = 1'
);
}
/**
* Load all objects which match a WHERE clause. You provide everything after
* the 'WHERE'; Lisk handles everything up to it. For example:
*
* $old_dogs = id(new Dog())->loadAllWhere('age > %d', 7);
*
* The pattern and arguments are as per queryfx().
*
* @param string queryfx()-style SQL WHERE clause.
* @param ... Zero or more conversions.
* @return dict Dictionary of matching objects, keyed on ID.
*
* @task load
*/
public
function
loadAllWhere
(
$pattern
/*, $arg, $arg, $arg ... */
)
{
$args
=
func_get_args
();
array_unshift
(
$args
,
null
);
$data
=
call_user_func_array
(
array
(
$this
,
'loadRawDataWhere'
),
$args
);
return
$this
->
loadAllFromArray
(
$data
);
}
/**
* Loads selected columns from objects that match a WHERE clause. You must
* provide everything after the WHERE. See loadAllWhere().
*
* @param array List of column names.
* @param string queryfx()-style SQL WHERE clause.
* @param ... Zero or more conversions.
* @return dict Dictionary of matching objecks, keyed by ID.
*
* @task load
*/
public
function
loadColumnsWhere
(
array
$columns
,
$pattern
/*, $args... */
)
{
if
(!
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
))
{
throw
new
BadMethodCallException
(
"This class does not support partial objects."
);
}
$args
=
func_get_args
();
$data
=
call_user_func_array
(
array
(
$this
,
'loadRawDataWhere'
),
$args
);
return
$this
->
loadAllFromArray
(
$data
);
}
/**
* Load a single object identified by a 'WHERE' clause. You provide
* everything after the 'WHERE', and Lisk builds the first half of the
* query. See loadAllWhere(). This method is similar, but returns a single
* result instead of a list.
*
* @param string queryfx()-style SQL WHERE clause.
* @param ... Zero or more conversions.
* @return obj|null Matching object, or null if no object matches.
*
* @task load
*/
public
function
loadOneWhere
(
$pattern
/*, $arg, $arg, $arg ... */
)
{
$args
=
func_get_args
();
array_unshift
(
$args
,
null
);
$data
=
call_user_func_array
(
array
(
$this
,
'loadRawDataWhere'
),
$args
);
if
(
count
(
$data
)
>
1
)
{
throw
new
AphrontQueryCountException
(
"More than 1 result from loadOneWhere()!"
);
}
$data
=
reset
(
$data
);
if
(!
$data
)
{
return
null
;
}
return
$this
->
loadFromArray
(
$data
);
}
protected
function
loadRawDataWhere
(
$columns
,
$pattern
/*, $args... */
)
{
$connection
=
$this
->
establishConnection
(
'r'
);
$lock_clause
=
''
;
if
(
$connection
->
isReadLocking
())
{
$lock_clause
=
'FOR UPDATE'
;
}
else
if
(
$connection
->
isWriteLocking
())
{
$lock_clause
=
'LOCK IN SHARE MODE'
;
}
$args
=
func_get_args
();
$args
=
array_slice
(
$args
,
2
);
if
(!
$columns
)
{
$column
=
'*'
;
}
else
{
$column
=
'%LC'
;
$columns
[]
=
$this
->
getIDKey
();
$properties
=
$this
->
getProperties
();
$this
->
__missingFields
=
array_diff_key
(
array_flip
(
$properties
),
array_flip
(
$columns
));
}
$pattern
=
'SELECT '
.
$column
.
' FROM %T WHERE '
.
$pattern
.
' %Q'
;
array_unshift
(
$args
,
$this
->
getTableName
());
if
(
$columns
)
{
array_unshift
(
$args
,
$columns
);
}
array_push
(
$args
,
$lock_clause
);
array_unshift
(
$args
,
$pattern
);
return
call_user_func_array
(
array
(
$connection
,
'queryData'
),
$args
);
}
/**
* Reload an object from the database, discarding any changes to persistent
* properties. If the object uses optimistic locks and you are in a locking
* mode while transactional, this will effectively synchronize the locks.
* This is pretty heady. It is unlikely you need to use this method.
*
* @return this
*
* @task load
*/
public
function
reload
()
{
if
(!
$this
->
getID
())
{
throw
new
Exception
(
"Unable to reload object that hasn't been loaded!"
);
}
$use_locks
=
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
);
if
(!
$use_locks
)
{
$result
=
$this
->
loadOneWhere
(
'%C = %d'
,
$this
->
getIDKeyForUse
(),
$this
->
getID
());
}
else
{
$result
=
$this
->
loadOneWhere
(
'%C = %d AND %C = %d'
,
$this
->
getIDKeyForUse
(),
$this
->
getID
(),
'version'
,
$this
->
getVersion
());
}
if
(!
$result
)
{
throw
new
AphrontQueryObjectMissingException
(
$use_locks
);
}
return
$this
;
}
/**
* Initialize this object's properties from a dictionary. Generally, you
* load single objects with loadOneWhere(), but sometimes it may be more
* convenient to pull data from elsewhere directly (e.g., a complicated
* join via queryData()) and then load from an array representation.
*
* @param dict Dictionary of properties, which should be equivalent to
* selecting a row from the table or calling getProperties().
* @return this
*
* @task load
*/
public
function
loadFromArray
(
array
$row
)
{
// TODO: We should load only valid properties.
$map
=
array
();
foreach
(
$row
as
$k
=>
$v
)
{
$map
[
$k
]
=
$v
;
}
$this
->
willReadData
(
$map
);
foreach
(
$map
as
$prop
=>
$value
)
{
$this
->
$prop
=
$value
;
}
$this
->
didReadData
();
return
$this
;
}
/**
* Initialize a list of objects from a list of dictionaries. Usually you
* load lists of objects with loadAllWhere(), but sometimes that isn't
* flexible enough. One case is if you need to do joins to select the right
* objects:
*
* function loadAllWithOwner($owner) {
* $data = $this->queryData(
* 'SELECT d.*
* FROM owner o
* JOIN owner_has_dog od ON o.id = od.ownerID
* JOIN dog d ON od.dogID = d.id
* WHERE o.id = %d',
* $owner);
* return $this->loadAllFromArray($data);
* }
*
* This is a lot messier than loadAllWhere(), but more flexible.
*
* @param list List of property dictionaries.
* @return dict List of constructed objects, keyed on ID.
*
* @task load
*/
public
function
loadAllFromArray
(
array
$rows
)
{
$result
=
array
();
$id_key
=
$this
->
getIDKey
();
foreach
(
$rows
as
$row
)
{
$obj
=
clone
$this
;
if
(
$id_key
&&
isset
(
$row
[
$id_key
]))
{
$result
[
$row
[
$id_key
]]
=
$obj
->
loadFromArray
(
$row
);
}
else
{
$result
[]
=
$obj
->
loadFromArray
(
$row
);
}
if
(
$this
->
inSet
)
{
$this
->
inSet
->
addToSet
(
$obj
);
}
}
return
$result
;
}
/**
* This method helps to prevent the 1+N queries problem. It happens when you
* execute a query for each row in a result set. Like in this code:
*
* COUNTEREXAMPLE, name=Easy to write but expensive to execute
* $diffs = id(new DifferentialDiff())->loadAllWhere(
* 'revisionID = %d',
* $revision->getID());
* foreach ($diffs as $diff) {
* $changesets = id(new DifferentialChangeset())->loadAllWhere(
* 'diffID = %d',
* $diff->getID());
* // Do something with $changesets.
* }
*
* One can solve this problem by reading all the dependent objects at once and
* assigning them later:
*
* COUNTEREXAMPLE, name=Cheaper to execute but harder to write and maintain
* $diffs = id(new DifferentialDiff())->loadAllWhere(
* 'revisionID = %d',
* $revision->getID());
* $all_changesets = id(new DifferentialChangeset())->loadAllWhere(
* 'diffID IN (%Ld)',
* mpull($diffs, 'getID'));
* $all_changesets = mgroup($all_changesets, 'getDiffID');
* foreach ($diffs as $diff) {
* $changesets = idx($all_changesets, $diff->getID(), array());
* // Do something with $changesets.
* }
*
* The method @{method:loadRelatives} abstracts this approach which allows
* writing a code which is simple and efficient at the same time:
*
* name=Easy to write and cheap to execute
* $diffs = $revision->loadRelatives(new DifferentialDiff(), 'revisionID');
* foreach ($diffs as $diff) {
* $changesets = $diff->loadRelatives(
* new DifferentialChangeset(),
* 'diffID');
* // Do something with $changesets.
* }
*
* This will load dependent objects for all diffs in the first call of
* @{method:loadRelatives} and use this result for all following calls.
*
* The method supports working with set of sets, like in this code:
*
* $diffs = $revision->loadRelatives(new DifferentialDiff(), 'revisionID');
* foreach ($diffs as $diff) {
* $changesets = $diff->loadRelatives(
* new DifferentialChangeset(),
* 'diffID');
* foreach ($changesets as $changeset) {
* $hunks = $changeset->loadRelatives(
* new DifferentialHunk(),
* 'changesetID');
* // Do something with hunks.
* }
* }
*
* This code will execute just three queries - one to load all diffs, one to
* load all their related changesets and one to load all their related hunks.
* You can try to write an equivalent code without using this method as
* a homework.
*
* The method also supports retrieving referenced objects, for example authors
* of all diffs:
*
* foreach ($diffs as $diff) {
* $author = head($diff->loadRelatives(
* new PhabricatorUser(),
* 'phid',
* 'getAuthorPHID'));
* // Do something with author.
* }
*
* It is also possible to specify additional conditions for the `WHERE`
* clause. Similarly to @{method:loadAllWhere}, you can specify everything
* after `WHERE` (except `LIMIT`). Contrary to @{method:loadAllWhere}, it is
* allowed to pass only a constant string (`%` doesn't have a special
* meaning). This is intentional to avoid mistakes with using data from one
* row in retrieving other rows. Example of a correct usage:
*
* $status = head($author->loadRelatives(
* new PhabricatorUserStatus(),
* 'userPHID',
* 'getPHID',
* '(UNIX_TIMESTAMP() BETWEEN dateFrom AND dateTo)'));
*
* @param LiskDAO Type of objects to load.
* @param string Name of the column in target table.
* @param string Method name in this table.
* @param string Additional constraints on returned rows. It supports no
* placeholders and requires putting the WHERE part into
* parentheses. It's not possible to use LIMIT.
* @return list Objects of type $object.
*
* @task load
*/
public
function
loadRelatives
(
LiskDAO
$object
,
$foreign_column
,
$key_method
=
'getID'
,
$where
=
''
)
{
if
(!
$this
->
inSet
)
{
id
(
new
LiskDAOSet
())->
addToSet
(
$this
);
}
$relatives
=
$this
->
inSet
->
loadRelatives
(
$object
,
$foreign_column
,
$key_method
,
$where
);
return
idx
(
$relatives
,
$this
->
$key_method
(),
array
());
}
final
public
function
putInSet
(
LiskDAOSet
$set
)
{
$this
->
inSet
=
$set
;
return
$this
;
}
/* -( Examining Objects )-------------------------------------------------- */
/**
* Retrieve the unique, numerical ID identifying this object. This value
* will be null if the object hasn't been persisted.
*
* @return int Unique numerical ID.
*
* @task info
*/
public
function
getID
()
{
static
$id_key
=
null
;
if
(
$id_key
===
null
)
{
$id_key
=
$this
->
getIDKeyForUse
();
}
return
$this
->
$id_key
;
}
/**
* Retrieve a list of all object properties. This list only includes
* properties that are declared as protected, and it is expected that
* all properties returned by this function should be persisted to the
* database.
* Properties that should not be persisted must be declared as private.
*
* @return dict Dictionary of normalized (lowercase) to canonical (original
* case) property names.
*
* @task info
*/
protected
function
getProperties
()
{
static
$properties
=
null
;
if
(!
isset
(
$properties
))
{
$class
=
new
ReflectionClass
(
get_class
(
$this
));
$properties
=
array
();
foreach
(
$class
->
getProperties
(
ReflectionProperty
::
IS_PROTECTED
)
as
$p
)
{
$properties
[
strtolower
(
$p
->
getName
())]
=
$p
->
getName
();
}
$id_key
=
$this
->
getIDKey
();
if
(
$id_key
)
{
if
(!
isset
(
$properties
[
strtolower
(
$id_key
)]))
{
$properties
[
strtolower
(
$id_key
)]
=
$id_key
;
}
}
if
(
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
))
{
$properties
[
'version'
]
=
'version'
;
}
if
(
$this
->
getConfigOption
(
self
::
CONFIG_TIMESTAMPS
))
{
$properties
[
'datecreated'
]
=
'dateCreated'
;
$properties
[
'datemodified'
]
=
'dateModified'
;
}
if
(!
$this
->
isPHIDPrimaryID
()
&&
$this
->
getConfigOption
(
self
::
CONFIG_AUX_PHID
))
{
$properties
[
'phid'
]
=
'phid'
;
}
}
return
$properties
;
}
/**
* Check if a property exists on this object.
*
* @return string|null Canonical property name, or null if the property
* does not exist.
*
* @task info
*/
protected
function
checkProperty
(
$property
)
{
static
$properties
=
null
;
if
(
$properties
===
null
)
{
$properties
=
$this
->
getProperties
();
}
$property
=
strtolower
(
$property
);
if
(
empty
(
$properties
[
$property
]))
{
return
null
;
}
return
$properties
[
$property
];
}
/**
* Get or build the database connection for this object.
*
* @return LiskDatabaseConnection Lisk connection object.
*
* @task info
*/
public
function
establishConnection
(
$mode
)
{
if
(
$mode
!=
'r'
&&
$mode
!=
'w'
)
{
throw
new
Exception
(
"Unknown mode '{$mode}', should be 'r' or 'w'."
);
}
if
(
self
::
shouldIsolateAllLiskEffectsToCurrentProcess
())
{
$mode
=
'isolate-'
.
$mode
;
$connection
=
$this
->
getEstablishedConnection
(
$mode
);
if
(!
$connection
)
{
$connection
=
$this
->
establishIsolatedConnection
(
$mode
);
$this
->
setEstablishedConnection
(
$mode
,
$connection
);
}
return
$connection
;
}
if
(
self
::
shouldIsolateAllLiskEffectsToTransactions
())
{
// If we're doing fixture transaction isolation, force the mode to 'w'
// so we always get the same connection for reads and writes, and thus
// can see the writes inside the transaction.
$mode
=
'w'
;
}
// TODO: There is currently no protection on 'r' queries against writing.
$connection
=
null
;
if
(
$mode
==
'r'
)
{
// If we're requesting a read connection but already have a write
// connection, reuse the write connection so that reads can take place
// inside transactions.
$connection
=
$this
->
getEstablishedConnection
(
'w'
);
}
if
(!
$connection
)
{
$connection
=
$this
->
getEstablishedConnection
(
$mode
);
}
if
(!
$connection
)
{
$connection
=
$this
->
establishLiveConnection
(
$mode
);
if
(
self
::
shouldIsolateAllLiskEffectsToTransactions
())
{
$connection
->
openTransaction
();
}
$this
->
setEstablishedConnection
(
$mode
,
$connection
);
}
return
$connection
;
}
/**
* Convert this object into a property dictionary. This dictionary can be
* restored into an object by using loadFromArray() (unless you're using
* legacy features with CONFIG_CONVERT_CAMELCASE, but in that case you should
* just go ahead and die in a fire).
*
* @return dict Dictionary of object properties.
*
* @task info
*/
protected
function
getPropertyValues
()
{
$map
=
array
();
foreach
(
$this
->
getProperties
()
as
$p
)
{
// We may receive a warning here for properties we've implicitly added
// through configuration; squelch it.
$map
[
$p
]
=
@
$this
->
$p
;
}
return
$map
;
}
/* -( Writing Objects )---------------------------------------------------- */
/**
* Make an object read-only.
*
* Making an object ephemeral indicates that you will be changing state in
* such a way that you would never ever want it to be written back to the
* storage.
*/
public
function
makeEphemeral
()
{
$this
->
__ephemeral
=
true
;
return
$this
;
}
private
function
isEphemeralCheck
()
{
if
(
$this
->
__ephemeral
)
{
throw
new
LiskEphemeralObjectException
();
}
}
/**
* Persist this object to the database. In most cases, this is the only
* method you need to call to do writes. If the object has not yet been
* inserted this will do an insert; if it has, it will do an update.
*
* @return this
*
* @task save
*/
public
function
save
()
{
if
(
$this
->
shouldInsertWhenSaved
())
{
return
$this
->
insert
();
}
else
{
return
$this
->
update
();
}
}
/**
* Save this object, forcing the query to use REPLACE regardless of object
* state.
*
* @return this
*
* @task save
*/
public
function
replace
()
{
$this
->
isEphemeralCheck
();
return
$this
->
insertRecordIntoDatabase
(
'REPLACE'
);
}
/**
* Save this object, forcing the query to use INSERT regardless of object
* state.
*
* @return this
*
* @task save
*/
public
function
insert
()
{
$this
->
isEphemeralCheck
();
return
$this
->
insertRecordIntoDatabase
(
'INSERT'
);
}
/**
* Save this object, forcing the query to use UPDATE regardless of object
* state.
*
* @return this
*
* @task save
*/
public
function
update
()
{
$this
->
isEphemeralCheck
();
$use_locks
=
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
);
$this
->
willSaveObject
();
$data
=
$this
->
getPropertyValues
();
if
(
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
))
{
$data
=
array_intersect_key
(
$data
,
$this
->
__dirtyFields
);
}
$this
->
willWriteData
(
$data
);
$map
=
array
();
foreach
(
$data
as
$k
=>
$v
)
{
if
(
$use_locks
&&
$k
==
'version'
)
{
continue
;
}
$map
[
$k
]
=
$v
;
}
$conn
=
$this
->
establishConnection
(
'w'
);
foreach
(
$map
as
$key
=>
$value
)
{
$map
[
$key
]
=
qsprintf
(
$conn
,
'%C = %ns'
,
$key
,
$value
);
}
$map
=
implode
(
', '
,
$map
);
if
(
$use_locks
)
{
$conn
->
query
(
'UPDATE %T SET %Q, version = version + 1 WHERE %C = %d AND %C = %d'
,
$this
->
getTableName
(),
$map
,
$this
->
getIDKeyForUse
(),
$this
->
getID
(),
'version'
,
$this
->
getVersion
());
if
(
$conn
->
getAffectedRows
()
!==
1
)
{
throw
new
AphrontQueryObjectMissingException
(
$use_locks
);
}
$this
->
setVersion
(
$this
->
getVersion
()
+
1
);
}
else
{
$id
=
$this
->
getID
();
$conn
->
query
(
'UPDATE %T SET %Q WHERE %C = '
.(
is_int
(
$id
)
?
'%d'
:
'%s'
),
$this
->
getTableName
(),
$map
,
$this
->
getIDKeyForUse
(),
$id
);
// We can't detect a missing object because updating an object without
// changing any values doesn't affect rows. We could jiggle timestamps
// to catch this for objects which track them if we wanted.
}
$this
->
didWriteData
();
if
(
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
))
{
$this
->
resetDirtyFields
();
}
return
$this
;
}
/**
* Delete this object, permanently.
*
* @return this
*
* @task save
*/
public
function
delete
()
{
$this
->
isEphemeralCheck
();
$this
->
willDelete
();
$conn
=
$this
->
establishConnection
(
'w'
);
$conn
->
query
(
'DELETE FROM %T WHERE %C = %d'
,
$this
->
getTableName
(),
$this
->
getIDKeyForUse
(),
$this
->
getID
());
$this
->
didDelete
();
return
$this
;
}
/**
* Internal implementation of INSERT and REPLACE.
*
* @param const Either "INSERT" or "REPLACE", to force the desired mode.
*
* @task save
*/
protected
function
insertRecordIntoDatabase
(
$mode
)
{
$this
->
willSaveObject
();
$data
=
$this
->
getPropertyValues
();
$id_mechanism
=
$this
->
getConfigOption
(
self
::
CONFIG_IDS
);
switch
(
$id_mechanism
)
{
case
self
::
IDS_AUTOINCREMENT
:
// If we are using autoincrement IDs, let MySQL assign the value for the
// ID column, if it is empty. If the caller has explicitly provided a
// value, use it.
$id_key
=
$this
->
getIDKeyForUse
();
if
(
empty
(
$data
[
$id_key
]))
{
unset
(
$data
[
$id_key
]);
}
break
;
case
self
::
IDS_PHID
:
if
(
empty
(
$data
[
$this
->
getIDKeyForUse
()]))
{
$phid
=
$this
->
generatePHID
();
$this
->
setID
(
$phid
);
$data
[
$this
->
getIDKeyForUse
()]
=
$phid
;
}
break
;
case
self
::
IDS_MANUAL
:
break
;
default
:
throw
new
Exception
(
'Unknown CONFIG_IDs mechanism!'
);
}
if
(
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
))
{
$data
[
'version'
]
=
0
;
}
$this
->
willWriteData
(
$data
);
$conn
=
$this
->
establishConnection
(
'w'
);
$columns
=
array_keys
(
$data
);
foreach
(
$data
as
$key
=>
$value
)
{
$data
[
$key
]
=
qsprintf
(
$conn
,
'%ns'
,
$value
);
}
$data
=
implode
(
', '
,
$data
);
$conn
->
query
(
'%Q INTO %T (%LC) VALUES (%Q)'
,
$mode
,
$this
->
getTableName
(),
$columns
,
$data
);
// Update the object with the initial Version value
if
(
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
))
{
$this
->
setVersion
(
0
);
}
// Only use the insert id if this table is using auto-increment ids
if
(
$id_mechanism
===
self
::
IDS_AUTOINCREMENT
)
{
$this
->
setID
(
$conn
->
getInsertID
());
}
$this
->
didWriteData
();
if
(
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
))
{
$this
->
resetDirtyFields
();
}
return
$this
;
}
/**
* Method used to determine whether to insert or update when saving.
*
* @return bool true if the record should be inserted
*/
protected
function
shouldInsertWhenSaved
()
{
$key_type
=
$this
->
getConfigOption
(
self
::
CONFIG_IDS
);
$use_locks
=
$this
->
getConfigOption
(
self
::
CONFIG_OPTIMISTIC_LOCKS
);
if
(
$key_type
==
self
::
IDS_MANUAL
)
{
if
(
$use_locks
)
{
// If we are manually keyed and the object has a version (which means
// that it has been saved to the DB before), do an update, otherwise
// perform an insert.
if
(
$this
->
getID
()
&&
$this
->
getVersion
()
!==
null
)
{
return
false
;
}
else
{
return
true
;
}
}
else
{
throw
new
Exception
(
'You are not using optimistic locks, but are using manual IDs. You '
.
'must override the shouldInsertWhenSaved() method to properly '
.
'detect when to insert a new record.'
);
}
}
else
{
return
!
$this
->
getID
();
}
}
/* -( Hooks and Callbacks )------------------------------------------------ */
/**
* Retrieve the database table name. By default, this is the class name.
*
* @return string Table name for object storage.
*
* @task hook
*/
public
function
getTableName
()
{
return
get_class
(
$this
);
}
/**
* Helper: Whether this class is configured to use PHIDs as the primary ID.
* @task internal
*/
private
function
isPHIDPrimaryID
()
{
return
(
$this
->
getConfigOption
(
self
::
CONFIG_IDS
)
===
self
::
IDS_PHID
);
}
/**
* Retrieve the primary key column, "id" by default. If you can not
* reasonably name your ID column "id", override this method.
*
* @return string Name of the ID column.
*
* @task hook
*/
public
function
getIDKey
()
{
return
$this
->
isPHIDPrimaryID
()
?
'phid'
:
'id'
;
}
protected
function
getIDKeyForUse
()
{
$id_key
=
$this
->
getIDKey
();
if
(!
$id_key
)
{
throw
new
Exception
(
"This DAO does not have a single-part primary key. The method you "
.
"called requires a single-part primary key."
);
}
return
$id_key
;
}
/**
* Generate a new PHID, used by CONFIG_AUX_PHID and IDS_PHID.
*
* @return phid Unique, newly allocated PHID.
*
* @task hook
*/
protected
function
generatePHID
()
{
throw
new
Exception
(
"To use CONFIG_AUX_PHID or IDS_PHID, you need to overload "
.
"generatePHID() to perform PHID generation."
);
}
/**
* Hook to apply serialization or validation to data before it is written to
* the database. See also willReadData().
*
* @task hook
*/
protected
function
willWriteData
(
array
&
$data
)
{
$this
->
applyLiskDataSerialization
(
$data
,
false
);
}
/**
* Hook to perform actions after data has been written to the database.
*
* @task hook
*/
protected
function
didWriteData
()
{}
/**
* Hook to make internal object state changes prior to INSERT, REPLACE or
* UPDATE.
*
* @task hook
*/
protected
function
willSaveObject
()
{
$use_timestamps
=
$this
->
getConfigOption
(
self
::
CONFIG_TIMESTAMPS
);
if
(
$use_timestamps
)
{
if
(!
$this
->
getDateCreated
())
{
$this
->
setDateCreated
(
time
());
}
$this
->
setDateModified
(
time
());
}
if
((
$this
->
isPHIDPrimaryID
()
&&
!
$this
->
getID
()))
{
// If PHIDs are the primary ID, the subclass could have overridden the
// name of the ID column.
$this
->
setID
(
$this
->
generatePHID
());
}
else
if
(
$this
->
getConfigOption
(
self
::
CONFIG_AUX_PHID
)
&&
!
$this
->
getPHID
())
{
// The subclass could still want PHIDs.
$this
->
setPHID
(
$this
->
generatePHID
());
}
}
/**
* Hook to apply serialization or validation to data as it is read from the
* database. See also willWriteData().
*
* @task hook
*/
protected
function
willReadData
(
array
&
$data
)
{
$this
->
applyLiskDataSerialization
(
$data
,
$deserialize
=
true
);
}
/**
* Hook to perform an action on data after it is read from the database.
*
* @task hook
*/
protected
function
didReadData
()
{}
/**
* Hook to perform an action before the deletion of an object.
*
* @task hook
*/
protected
function
willDelete
()
{}
/**
* Hook to perform an action after the deletion of an object.
*
* @task hook
*/
protected
function
didDelete
()
{}
/**
* Reads the value from a field. Override this method for custom behavior
* of getField() instead of overriding getField directly.
*
* @param string Canonical field name
* @return mixed Value of the field
*
* @task hook
*/
protected
function
readField
(
$field
)
{
if
(
isset
(
$this
->
$field
))
{
return
$this
->
$field
;
}
return
null
;
}
/**
* Writes a value to a field. Override this method for custom behavior of
* setField($value) instead of overriding setField directly.
*
* @param string Canonical field name
* @param mixed Value to write
*
* @task hook
*/
protected
function
writeField
(
$field
,
$value
)
{
$this
->
$field
=
$value
;
}
/* -( Manging Transactions )----------------------------------------------- */
/**
* Increase transaction stack depth.
*
* @return this
*/
public
function
openTransaction
()
{
$this
->
establishConnection
(
'w'
)->
openTransaction
();
return
$this
;
}
/**
* Decrease transaction stack depth, saving work.
*
* @return this
*/
public
function
saveTransaction
()
{
$this
->
establishConnection
(
'w'
)->
saveTransaction
();
return
$this
;
}
/**
* Decrease transaction stack depth, discarding work.
*
* @return this
*/
public
function
killTransaction
()
{
$this
->
establishConnection
(
'w'
)->
killTransaction
();
return
$this
;
}
/**
* Begins read-locking selected rows with SELECT ... FOR UPDATE, so that
* other connections can not read them (this is an enormous oversimplification
* of FOR UPDATE semantics; consult the MySQL documentation for details). To
* end read locking, call @{method:endReadLocking}. For example:
*
* $beach->openTransaction();
* $beach->beginReadLocking();
*
* $beach->reload();
* $beach->setGrainsOfSand($beach->getGrainsOfSand() + 1);
* $beach->save();
*
* $beach->endReadLocking();
* $beach->saveTransaction();
*
* @return this
* @task xaction
*/
public
function
beginReadLocking
()
{
$this
->
establishConnection
(
'w'
)->
beginReadLocking
();
return
$this
;
}
/**
* Ends read-locking that began at an earlier @{method:beginReadLocking} call.
*
* @return this
* @task xaction
*/
public
function
endReadLocking
()
{
$this
->
establishConnection
(
'w'
)->
endReadLocking
();
return
$this
;
}
/**
* Begins write-locking selected rows with SELECT ... LOCK IN SHARE MODE, so
* that other connections can not update or delete them (this is an
* oversimplification of LOCK IN SHARE MODE semantics; consult the
* MySQL documentation for details). To end write locking, call
* @{method:endWriteLocking}.
*
* @return this
* @task xaction
*/
public
function
beginWriteLocking
()
{
$this
->
establishConnection
(
'w'
)->
beginWriteLocking
();
return
$this
;
}
/**
* Ends write-locking that began at an earlier @{method:beginWriteLocking}
* call.
*
* @return this
* @task xaction
*/
public
function
endWriteLocking
()
{
$this
->
establishConnection
(
'w'
)->
endWriteLocking
();
return
$this
;
}
/* -( Isolation )---------------------------------------------------------- */
/**
* @task isolate
*/
public
static
function
beginIsolateAllLiskEffectsToCurrentProcess
()
{
self
::
$processIsolationLevel
++;
}
/**
* @task isolate
*/
public
static
function
endIsolateAllLiskEffectsToCurrentProcess
()
{
self
::
$processIsolationLevel
--;
if
(
self
::
$processIsolationLevel
<
0
)
{
throw
new
Exception
(
"Lisk process isolation level was reduced below 0."
);
}
}
/**
* @task isolate
*/
public
static
function
shouldIsolateAllLiskEffectsToCurrentProcess
()
{
return
(
bool
)
self
::
$processIsolationLevel
;
}
/**
* @task isolate
*/
private
function
establishIsolatedConnection
(
$mode
)
{
$config
=
array
();
return
new
AphrontIsolatedDatabaseConnection
(
$config
);
}
/**
* @task isolate
*/
public
static
function
beginIsolateAllLiskEffectsToTransactions
()
{
if
(
self
::
$transactionIsolationLevel
===
0
)
{
self
::
closeAllConnections
();
}
self
::
$transactionIsolationLevel
++;
}
/**
* @task isolate
*/
public
static
function
endIsolateAllLiskEffectsToTransactions
()
{
self
::
$transactionIsolationLevel
--;
if
(
self
::
$transactionIsolationLevel
<
0
)
{
throw
new
Exception
(
"Lisk transaction isolation level was reduced below 0."
);
}
else
if
(
self
::
$transactionIsolationLevel
==
0
)
{
foreach
(
self
::
$connections
as
$key
=>
$conn
)
{
if
(
$conn
)
{
$conn
->
killTransaction
();
}
}
self
::
closeAllConnections
();
}
}
/**
* @task isolate
*/
public
static
function
shouldIsolateAllLiskEffectsToTransactions
()
{
return
(
bool
)
self
::
$transactionIsolationLevel
;
}
public
static
function
closeAllConnections
()
{
self
::
$connections
=
array
();
}
/* -( Utilities )---------------------------------------------------------- */
/**
* Applies configured serialization to a dictionary of values.
*
* @task util
*/
protected
function
applyLiskDataSerialization
(
array
&
$data
,
$deserialize
)
{
$serialization
=
$this
->
getConfigOption
(
self
::
CONFIG_SERIALIZATION
);
if
(
$serialization
)
{
foreach
(
array_intersect_key
(
$serialization
,
$data
)
as
$col
=>
$format
)
{
switch
(
$format
)
{
case
self
::
SERIALIZATION_NONE
:
break
;
case
self
::
SERIALIZATION_PHP
:
if
(
$deserialize
)
{
$data
[
$col
]
=
unserialize
(
$data
[
$col
]);
}
else
{
$data
[
$col
]
=
serialize
(
$data
[
$col
]);
}
break
;
case
self
::
SERIALIZATION_JSON
:
if
(
$deserialize
)
{
$data
[
$col
]
=
json_decode
(
$data
[
$col
],
true
);
}
else
{
$data
[
$col
]
=
json_encode
(
$data
[
$col
]);
}
break
;
default
:
throw
new
Exception
(
"Unknown serialization format '{$format}'."
);
}
}
}
}
/**
* Resets the dirty fields (fields which need to be written on next save/
* update/insert/replace). If this DAO has timestamps, the modified time
* is always a dirty field.
*
* @task util
*/
private
function
resetDirtyFields
()
{
$this
->
__dirtyFields
=
array
();
if
(
$this
->
getConfigOption
(
self
::
CONFIG_TIMESTAMPS
))
{
$this
->
__dirtyFields
[
'dateModified'
]
=
true
;
}
}
/**
* Black magic. Builds implied get*() and set*() for all properties.
*
* @param string Method name.
* @param list Argument vector.
* @return mixed get*() methods return the property value. set*() methods
* return $this.
* @task util
*/
public
function
__call
(
$method
,
$args
)
{
// NOTE: This method is very performance-sensitive (many thousands of calls
// per page on some pages), and thus has some silliness in the name of
// optimizations.
static
$dispatch_map
=
array
();
static
$partial
=
null
;
if
(
$partial
===
null
)
{
$partial
=
$this
->
getConfigOption
(
self
::
CONFIG_PARTIAL_OBJECTS
);
}
if
(
$method
[
0
]
===
'g'
)
{
if
(
isset
(
$dispatch_map
[
$method
]))
{
$property
=
$dispatch_map
[
$method
];
}
else
{
if
(
substr
(
$method
,
0
,
3
)
!==
'get'
)
{
throw
new
Exception
(
"Unable to resolve method '{$method}'!"
);
}
$property
=
substr
(
$method
,
3
);
if
(!(
$property
=
$this
->
checkProperty
(
$property
)))
{
throw
new
Exception
(
"Bad getter call: {$method}"
);
}
$dispatch_map
[
$method
]
=
$property
;
}
if
(
$partial
&&
isset
(
$this
->
__missingFields
[
$property
]))
{
throw
new
Exception
(
"Cannot get field that wasn't loaded: {$property}"
);
}
return
$this
->
readField
(
$property
);
}
if
(
$method
[
0
]
===
's'
)
{
if
(
isset
(
$dispatch_map
[
$method
]))
{
$property
=
$dispatch_map
[
$method
];
}
else
{
if
(
substr
(
$method
,
0
,
3
)
!==
'set'
)
{
throw
new
Exception
(
"Unable to resolve method '{$method}'!"
);
}
$property
=
substr
(
$method
,
3
);
$property
=
$this
->
checkProperty
(
$property
);
if
(!
$property
)
{
throw
new
Exception
(
"Bad setter call: {$method}"
);
}
if
(
$property
==
'ID'
)
{
$property
=
$this
->
getIDKeyForUse
();
}
$dispatch_map
[
$method
]
=
$property
;
}
if
(
$partial
)
{
// Accept writes to fields that weren't initially loaded
unset
(
$this
->
__missingFields
[
$property
]);
$this
->
__dirtyFields
[
$property
]
=
true
;
}
$this
->
writeField
(
$property
,
$args
[
0
]);
return
$this
;
}
throw
new
Exception
(
"Unable to resolve method '{$method}'."
);
}
}
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