Difference between revisions of "Custom Attributes"

From Lazarus wiki
Jump to navigationJump to search
Line 143: Line 143:
 
{
 
{
 
   This is a simple example on how to use custom attributes.
 
   This is a simple example on how to use custom attributes.
   The class uses a custom attribute to retrieve a date at
+
   The class uses a custom attribute to retrieve a static date  
   program start-up. This is just for the purpose of demo.
+
   at program start-up. This is just for the purpose of demo.
 
   This demo's:
 
   This demo's:
 
   - Creation
 
   - Creation
Line 236: Line 236:
 
   end;
 
   end;
 
end.</source>
 
end.</source>
 +
 
==See Also==
 
==See Also==
 
* [[FPC New Features Trunk]]
 
* [[FPC New Features Trunk]]

Revision as of 07:54, 3 August 2019

Custom Attributes currently allow you to decorate type definitions and published properties of classes with additional metadata that can be queried using RTTI (runtime type information).

Currently the feature is available only in FPC trunk

What can attributes be used for?

An attribute is used to associate specific metadata with a class. For example you can use an attribute to mark a class with the name of its corresponding database table, or to annotate a web service class with a string identifying its base path.

How are attributes declared?

Attributes are simply classes that descend from the new System type TCustomAttribute. The constructors of such TCustomAttribute descendants are the most important feature to implement since they are used to pass additional parameters to the attribute (such as the associated database table name, or the base path in the above examples).

Important: If you want to use your attribute type without any arguments then you must declare a parameterless constructor yourself as the one of TCustomAttribute is private.

How are attributes used?

Attributes are bound to a type or property by specifying at least one attribute clause ahead of the type or property. For a type the attribute is specified in the type definition (such as a class, record, or enum declaration) or in a unique type redeclaration (e.g. "TLongInt = type LongInt"). Mere type renames (e.g. "TLongInt = LongInt") are not allowed.

Attribute clauses are only available if the new modeswitch PREFIXEDATTRIBUTES is set, which is the default in mode Delphi and DelphiUnicode.

The syntax of an attribute clause is as follows:

ATTRIBUTECLAUSE::='[' ATTRIBUTELIST ']'
ATTRIBUTELIST::=ATTRIBUTE [, ATTRIBUTELIST ]
ATTRIBUTE::=IDENTIFIER [ ( PARAMLIST ) ]
PARAMLIST::=CONSTEXPR [, PARAMLIST ]

The IDENTIFIER is the name of the attribute class. If you name the attribute class to end with "Attribute" (the case of the "attribute" suffix is immaterial) then the name may be used subsequently without the "Attribute" suffix. So TMyAttribute and TMy are equivalent alternatives in the following example:

program tcustomattr;

{$mode objfpc}{$H+}
{$modeswitch prefixedattributes}

type
   TMyAttribute = class(TCustomAttribute)
     constructor Create;
     constructor Create(aArg: String);
     constructor Create(aArg: TGUID);
     constructor Create(aArg: LongInt);
   end;

   {$M+}
   [TMyAttribute]
   TTestClass = class
   private
     fTest: LongInt;
   published
     [TMyAttribute('Test')]
     property Test: LongInt read fTest;
   end;
   {$M-}

   [TMyAttribute(1234)]
   [TMy('Hello World')]
   TTestEnum = (
     teOne,
     teTwo
   );

   [TMyAttribute(IInterface), TMy(42)]
   TLongInt = type LongInt;

constructor TMyAttribute.Create;
begin
end;

constructor TMyAttribute.Create(aArg: String);
begin
end;

constructor TMyAttribute.Create(aArg: LongInt);
begin
end;

constructor TMyAttribute.Create(aArg: TGUID);
begin
end;

begin

end.

Querying attributes

Attributes can be accessed by both the TypInfo and Rtti units.

For the TypInfo unit the ways to access attributes are as follows:

For types:

  • use the AttributesTable field in TTypeData
  • use GetAttributeTable on a PTypeInfo
  • use GetAttribute on the attribute table together with an index to get a TCustomAttribute instance

For properties:

  • use the AttributesTable of TPropInfo
  • use GetAttribute on the attribute table together with an index to get a TCustomAttribute instance
  • use GetPropAttribute on the PPropInfo together with an index to get a TCustomAttribute instance

For the Rtti unit the ways to access attributes are as follows:

For types:

  • use GetAttributes on the TRttiType of the type in question

For properties:

  • use GetAttributes on the TRttiProperty of the property in question

The attributes feature's compatibility with Delphi

The feature itself is Delphi compatible with the proviso that FPC is much more unforgiving regarding unbound properties. If the attribute class is not known or the attribute clauses are not bound to a valid type or property the compiler will generate an error.

FPC's RTTI is not considered Delphi compatible. However it covers the same functionality. In contrast to Delphi (which uses Invoke to create the attribute instance) FPC uses a constructor function. FPC's implementation has the advantage of working on systems that don't have full Invoke support.

Additionally using the PREFIXEDATTRIBUTES modeswitch disables the directive clauses for functions, methods and procedure/method types. The following is not allowed any more with the PREFIXEDATTRIBUTES modeswitch enabled:

procedure Test; [cdecl];
begin
end;

Complete example

program testattributes;
{
  This is a simple example on how to use custom attributes.
  The class uses a custom attribute to retrieve a static date 
  at program start-up. This is just for the purpose of demo.
  This demo's:
  - Creation
  - Decoration
  - Retrieval
}
   
{$mode delphi}{$H+}{$M+}
{$warn 5079 off} { turn warning experimental off }
uses
  sysutils, typinfo, rtti, classes;
 
type
   {A custom attribute to decorate a class with a certain date }
   ADateTimeAttribute = class(TCustomAttribute)
   private
     FArg:TDateTime;
   public
   { Just to show a Custom Attribute can have mutiple constructors }
     constructor Create(const aArg: TDateTime);overload;
     { We can use the predefined %DATE% compiler include
       In the context of a custom attribute we need a
       constant expression for the default parameter }
     constructor Create(const aArg: String = {$I %DATE%});overload;
    published
     property Date:TDateTime read Farg;
   end;
 
   { A datetime class that is decorated with our custom attribute     }
   { Note you can leave out 'Attribute', the compiler resolves it     }
   { [ADateTime(21237.0)] uses first constructor,displays some date in 1958 }
 
   {This calls the second constructor }
   [ADateTime]
   TMyDateTimeClass = class
   private
     FDateTime:TDateTime;
   public
     constructor create;
   published
     [ADateTime]
     property Day:TDateTime read FDatetime write FdateTime;
   end;
 
   constructor ADateTimeAttribute.Create(const aArg: TDateTime);
   begin
     FArg := aArg;
   end;
 
   constructor ADateTimeAttribute.Create(const aArg: string );
   var
     MySettings:Tformatsettings;
   begin
     { set up the date format according to how
       the compiler formats %DATE% include }
     MySettings :=DefaultFormatSettings;
     MySettings.ShortDateFormat:='yyyymmdd';
     MySettings.DateSeparator :='/';
     { Now convert }
     FArg := StrToDateTime(aArg, MySettings);
   end;
   
   { We query the rtti to set the value }
   constructor TMyDateTimeClass.Create;
   var
    Context : TRttiContext;
    AType : TRttiType;
    Attribute : TCustomAttribute;
   begin
     inherited;  
     Context := TRttiContext.Create;
     try
       AType := Context.GetType(typeinfo(TMyDateTimeClass));
       for Attribute in  AType.GetAttributes do
         if Attribute is ADateTimeAttribute then
           FDateTime := ADateTimeAttribute(Attribute).Date;
     finally
       Context.Free
     end;    
   end;
 
 
var
 Test:TMyDateTimeClass;      
begin
   Test := TMyDateTimeClass.Create;
   try
     writeln('Date is :',DateTimeToStr(Test.Day));
  finally
    test.free;
  end;
end.

See Also