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Revision as of 15:21, 25 October 2011 by Nilsollers (talk | contribs) (Usage)


Templates is a simple mechanism to solve the problem of writing duplicate code to implement a general class for specific types in a strongly typed language. It is used mainly for base (non-object) types; for objects, inheritance from the single base class TObject is usually used to build general classes. In advanced languages, templates are replaced by a native-language implementation of so-called “generics.” Native implementation of generics in FPC 2.4.0 is neither complete nor practically usable yet. Until that is so, templates can be used.


  • Type safe – eliminates the annoyance of typecasting and the errors it often causes
  • Better maintainability – generic class code is written only once and used for all specialized classes
  • Better code reuse – It is possible to create a good set of reusable generic classes
  • Better efficiency, scalability – generic class types can be better adjusted for particular needs. E.g., on a 16-bit machine, a specialized TList with a 16-bit SmallInt index type could be used.


  • More complex
  • Bigger code – every specialized class is compiled separately and produces additional code


The classic example of a basic generic class is a list of items. Free Pascal currently offers three ways of using lists:

  • array of – classical dynamic array structure which can hold dynamic items of the same type. Items are accessible by direct addressing: SomeArray[Index]. SetLength and Length functions are used to handle size.
  • TList – objective way in which the class handles all list operations. Implementation in LCL keeps compatibility with VCL, where TList holds a list of Pointers. If a list of a different item type is desired, a complete new class has to be copied and rewritten or typecasting has to be used in every place where a list item is referenced. Typecasting is not effective—e.g., Pointer(Byte)—and not type safe: Pointer(Int64). A TList index is of type Integer. If Int64 or SmallInt index is needed, then the class has to be copied and rewritten.
  • TCollection – is a more generic and type safe but heavier solution for storing a list of items. In this approach the programmer has to create an item class which inherits from TCollectionItem and set this newly created class type to TCollection constructor parameter.
  • native generics – no complete implementation yet. Lacks support of generic type reference, inheritance, constraints.
  • templates – use code inclusion to work around lack of native support. Can use inheritance and generic type references. Constraints are given by operators and other functions in the generic class.

Templates tries to solve the problem using the concept of parametrized include files. A generic unit is written only once, as a template with the use of generic (not specified) types in both interface and implementation sections. Then in the process of specialization, a class template is used and general template parameters are replaced by specific types to create a new specialized class.

GenericList.inc: <delphi>{$IFDEF INTERFACE}

 // TGList<T> = class
 TGList = class
   Items: array of T;
   procedure Add(Item: T);


{$IFDEF IMPLEMENTATION} procedure TGList.Add(Item: T); begin

 SetLength(Items, Length(Items) + 1);  
 Items[Length(Items) - 1] := Item;


In process of specialization early created template files are included to new unit.

ListInteger.pas: <delphi>unit ListInteger;





 T = Integer; // T is specified to some exact type

{$DEFINE INTERFACE} {$INCLUDE 'GenericList.inc'}


 // TListInteger<Integer> = class
 TListInteger = class(TGList)
   // Additional fields and methods can be added here




Finally we have new specialized unit called ListInteger and we can use our new specialized type in some code.

<delphi>program GenericTest; uses



 List: TListInteger;


   List := TListInteger.Create;



Generic classes could inherit from each other in way of non-generic classes do. Implementation is little difficult as only one specialized type of particular class can be defined per unit. To be able to specify generic class which inherits from other generic class some naming scheme should be kept.

Assume that we want to create advanced generic list TAdvancedList which have Capacity field in addition.

Base generic class definition: GenericList.inc: <delphi>{$IFDEF INTERFACE}

 // TGList<TListIndex, TListItem> = class
 TGList = class
   Items: array[TListIndex] of TListItem;
   procedure Add(Item: TListItem);


{$IFDEF IMPLEMENTATION} procedure TGList.Add(Item: TListItem); begin

 SetLength(Items, Length(Items) + 1);  
 Items[Length(Items) - 1] := Item;


Definition for enhanced generic class: GenericAdvancedList.inc: <delphi>{$IFDEF INTERFACE}

 TListIndex = TAdvancedListIndex;
 TListItem = TAdvancedListItem;

{$DEFINE INTERFACE} {$INCLUDE 'GenericList.inc'}

 // TGAdvancedList<TAdvancedListIndex, TAdvancedListItem> = class(TGList)
 TGAdvancedList = class
   Capacity: TAdvancedListIndex;



No some specialization example: AdvancedListInteger.pas: <delphi>unit AdvancedListInteger;





 TAdvancedListIndex = Integer; // specified to some exact type
 TAdvancedListItem = Integer; // specified to some exact type

{$DEFINE INTERFACE} {$INCLUDE 'GenericAdvancedList.inc'}


 // TAdvancedListInteger<Integer, Integer> = class
 TAdvancedListInteger = class(TGAdvancedList)
   // Additional fields and methods can be added here


{$DEFINE IMPLEMENTATION} {$INCLUDE 'GenericAdvancedList.inc'}


Now we have specialized class from generic class which inherits form other generic class.


It is good to have class which e.g. works as containers for any other type. Container class doesn't need to know anything about contained class. But some classes could benefits from knowledge of what can be done with contained class. In native generics implementation there is possibility to restrict group of types which can be used as type parameters of generic class. In templates there aren't such feature but constraints are done simply by usage of generic type in generic class. If generic type is used for addition and subtraction than only types which supports that operations can be used. String can be concatenated using plus operator too. But if multiplication is used than only numeric types are allowed. If generic type is used as array index, than only ordinal types can be used. If some e.g. Free method is used over generic type than constraint include all classes. So in templates operations performed with generic type limits set of usable types for specialization.

Theoretical constraint groups:

  • ordinal types
  • float types
  • records
  • arrays
  • sets
  • interface
  • procedure, function, constructor
  • classes with all descendants

Generic classes

There are many classes which can benefit form being generic:

  • TList - list of items, Add, Delete, Insert, Move, Exchange, Clear, Sort,
  • TDictionary - list of pairs key and value,
  • TStack - LIFO structure, Push and Pop
  • TQueue - FIFO structure, Enqueue and Dequeue
  • TRange or TInterval - two values structure, Distance
  • TSet - set of items, Add, Remove, Intersection, Complement, Union, Product
  • TStream - divided to TInputStream and TOutputStream
  • TTree - hiearchical structure with nodes
  • TMatrix - multidimensional list
  • TGraph
  • TPoint - could be 1D, 2D, 3D or multidimensional
  • TVector
  • TComplexNumber

There are some interesting specialized types which can replace non-generic types:

  • TList<Char> is similar to string
  • TList<Byte> is similar to simple memory area
  • TList<string> is similar to TStringList
  • TList<Pointer> is similar to classical TList
  • TList<TObject> is similar to TObjectList
  • TQueue<Byte> is similar to one direction byte stream
  • TDictionary<string,string> is cleaner implementation of TStringList Key-Value functionality
  • TList<TMethod> is similar to LCLProc.TMethodList

Existed generic libraries

Every programmer can build own library of generic classes.

Some ready to use classes:

  • TemplateGenerics - Lazarus package of some experimental generic classes. In addition to parametrized list value type it also offer parametrized index type. Latest package can be downloaded from svn repository using svn client.
svn co http://svn.zdechov.net/svn/PascalClassLibrary/Generics/TemplateGenerics/ TemplateGenerics

See also

External links