Generic Datatype
   HOME

TheInfoList



OR:

Generic programming is a style of
computer programming Computer programming is the process of performing a particular computation (or more generally, accomplishing a specific computing result), usually by designing and building an executable computer program. Programming involves tasks such as ana ...
in which
algorithm In mathematics and computer science, an algorithm () is a finite sequence of rigorous instructions, typically used to solve a class of specific Computational problem, problems or to perform a computation. Algorithms are used as specificat ...
s are written in terms of types ''to-be-specified-later'' that are then ''instantiated'' when needed for specific types provided as parameters. This approach, pioneered by the ML programming language in 1973, permits writing common functions or types that differ only in the set of types on which they operate when used, thus reducing
duplication Duplication, duplicate, and duplicator may refer to: Biology and genetics * Gene duplication, a process which can result in free mutation * Chromosomal duplication, which can cause Bloom and Rett syndrome * Polyploidy, a phenomenon also known ...
. Such software entities are known as ''generics'' in
Ada Ada may refer to: Places Africa * Ada Foah, a town in Ghana * Ada (Ghana parliament constituency) * Ada, Osun, a town in Nigeria Asia * Ada, Urmia, a village in West Azerbaijan Province, Iran * Ada, Karaman, a village in Karaman Province, Tur ...
, C#,
Delphi Delphi (; ), in legend previously called Pytho (Πυθώ), in ancient times was a sacred precinct that served as the seat of Pythia, the major oracle who was consulted about important decisions throughout the ancient classical world. The oracle ...
,
Eiffel Eiffel may refer to: Places * Eiffel Peak, a summit in Alberta, Canada * Champ de Mars – Tour Eiffel station, Paris, France; a transit station Structures * Eiffel Tower, in Paris, France, designed by Gustave Eiffel * Eiffel Bridge, Ungheni, M ...
, F#,
Java Java (; id, Jawa, ; jv, ꦗꦮ; su, ) is one of the Greater Sunda Islands in Indonesia. It is bordered by the Indian Ocean to the south and the Java Sea to the north. With a population of 151.6 million people, Java is the world's List ...
,
Nim Nim is a mathematical two player game. Nim or NIM may also refer to: * Nim (programming language) * Nim Chimpsky, a signing chimpanzee Acronyms * Network Installation Manager, an IBM framework * Nuclear Instrumentation Module * Negative index met ...
,
Python Python may refer to: Snakes * Pythonidae, a family of nonvenomous snakes found in Africa, Asia, and Australia ** ''Python'' (genus), a genus of Pythonidae found in Africa and Asia * Python (mythology), a mythical serpent Computing * Python (pro ...
, Go,
Rust Rust is an iron oxide, a usually reddish-brown oxide formed by the reaction of iron and oxygen in the catalytic presence of water or air moisture. Rust consists of hydrous iron(III) oxides (Fe2O3·nH2O) and iron(III) oxide-hydroxide (FeO(OH ...
, Swift, TypeScript and Visual Basic .NET. They are known as '' parametric polymorphism'' in ML, Scala, Julia, and Haskell (the Haskell community also uses the term "generic" for a related but somewhat different concept); ''
template Template may refer to: Tools * Die (manufacturing), used to cut or shape material * Mold, in a molding process * Stencil, a pattern or overlay used in graphic arts (drawing, painting, etc.) and sewing to replicate letters, shapes or designs Co ...
s'' in C++ and D; and ''parameterized types'' in the influential 1994 book ''
Design Patterns ''Design Patterns: Elements of Reusable Object-Oriented Software'' (1994) is a software engineering book describing software design patterns. The book was written by Erich Gamma, Richard Helm, Ralph Johnson, and John Vlissides, with a foreword ...
''. The term "generic programming" was originally coined by David Musser and Alexander Stepanov in a more specific sense than the above, to describe a programming paradigm whereby fundamental requirements on types are abstracted from across concrete examples of algorithms and data structures and formalized as
concepts Concepts are defined as abstract ideas. They are understood to be the fundamental building blocks of the concept behind principles, thoughts and beliefs. They play an important role in all aspects of cognition. As such, concepts are studied by sev ...
, with
generic function In computer programming, a generic function is a function defined for polymorphism. In statically typed languages In statically typed languages (such as C++ and Java), the term ''generic functions'' refers to a mechanism for ''compile-time pol ...
s implemented in terms of these concepts, typically using language genericity mechanisms as described above.


Stepanov–Musser and other generic programming paradigms

Generic programming is defined in as follows, The "generic programming" paradigm is an approach to software decomposition whereby fundamental requirements on types are abstracted from across concrete examples of algorithms and data structures and formalized as
concepts Concepts are defined as abstract ideas. They are understood to be the fundamental building blocks of the concept behind principles, thoughts and beliefs. They play an important role in all aspects of cognition. As such, concepts are studied by sev ...
, analogously to the abstraction of algebraic theories in
abstract algebra In mathematics, more specifically algebra, abstract algebra or modern algebra is the study of algebraic structures. Algebraic structures include groups, rings, fields, modules, vector spaces, lattices, and algebras over a field. The term ''a ...
. Early examples of this programming approach were implemented in Scheme and Ada, although the best known example is the Standard Template Library (STL), which developed a theory of iterators that is used to decouple sequence data structures and the algorithms operating on them. For example, given ''N'' sequence data structures, e.g. singly linked list, vector etc., and ''M'' algorithms to operate on them, e.g. find, sort etc., a direct approach would implement each algorithm specifically for each data structure, giving combinations to implement. However, in the generic programming approach, each data structure returns a model of an iterator concept (a simple value type that can be dereferenced to retrieve the current value, or changed to point to another value in the sequence) and each algorithm is instead written generically with arguments of such iterators, e.g. a pair of iterators pointing to the beginning and end of the subsequence or ''range'' to process. Thus, only data structure-algorithm combinations need be implemented. Several iterator concepts are specified in the STL, each a refinement of more restrictive concepts e.g. forward iterators only provide movement to the next value in a sequence (e.g. suitable for a singly linked list or a stream of input data), whereas a random-access iterator also provides direct constant-time access to any element of the sequence (e.g. suitable for a vector). An important point is that a data structure will return a model of the most general concept that can be implemented efficiently—
computational complexity In computer science, the computational complexity or simply complexity of an algorithm is the amount of resources required to run it. Particular focus is given to computation time (generally measured by the number of needed elementary operations) ...
requirements are explicitly part of the concept definition. This limits the data structures a given algorithm can be applied to and such complexity requirements are a major determinant of data structure choice. Generic programming similarly has been applied in other domains, e.g. graph algorithms. Note that although this approach often utilizes language features of compile-time genericity/templates, it is in fact independent of particular language-technical details. Generic programming pioneer Alexander Stepanov wrote, Bjarne Stroustrup noted, Other programming paradigms that have been described as generic programming include ''Datatype generic programming'' as described in "Generic Programming – an Introduction". The approach is a lightweight generic programming approach for Haskell. In this article we distinguish the high-level programming paradigms of ''generic programming'', above, from the lower-level programming language ''genericity mechanisms'' used to implement them (see Programming language support for genericity). For further discussion and comparison of generic programming paradigms, see.


Programming language support for genericity

Genericity facilities have existed in high-level languages since at least the 1970s in languages such as ML, CLU and
Ada Ada may refer to: Places Africa * Ada Foah, a town in Ghana * Ada (Ghana parliament constituency) * Ada, Osun, a town in Nigeria Asia * Ada, Urmia, a village in West Azerbaijan Province, Iran * Ada, Karaman, a village in Karaman Province, Tur ...
, and were subsequently adopted by many object-based and
object-oriented Object-oriented programming (OOP) is a programming paradigm based on the concept of "objects", which can contain data and code. The data is in the form of fields (often known as attributes or ''properties''), and the code is in the form of pro ...
languages, including
BETA Beta (, ; uppercase , lowercase , or cursive ; grc, βῆτα, bē̂ta or ell, βήτα, víta) is the second letter of the Greek alphabet. In the system of Greek numerals, it has a value of 2. In Modern Greek, it represents the voiced labiod ...
, C++, D,
Eiffel Eiffel may refer to: Places * Eiffel Peak, a summit in Alberta, Canada * Champ de Mars – Tour Eiffel station, Paris, France; a transit station Structures * Eiffel Tower, in Paris, France, designed by Gustave Eiffel * Eiffel Bridge, Ungheni, M ...
,
Java Java (; id, Jawa, ; jv, ꦗꦮ; su, ) is one of the Greater Sunda Islands in Indonesia. It is bordered by the Indian Ocean to the south and the Java Sea to the north. With a population of 151.6 million people, Java is the world's List ...
, and DEC's now defunct Trellis-Owl language. Genericity is implemented and supported differently in various programming languages; the term "generic" has also been used differently in various programming contexts. For example, in
Forth Forth or FORTH may refer to: Arts and entertainment * ''forth'' magazine, an Internet magazine * ''Forth'' (album), by The Verve, 2008 * ''Forth'', a 2011 album by Proto-Kaw * Radio Forth, a group of independent local radio stations in Scotla ...
the
compiler In computing, a compiler is a computer program that translates computer code written in one programming language (the ''source'' language) into another language (the ''target'' language). The name "compiler" is primarily used for programs that ...
can execute code while compiling and one can create new ''compiler keywords'' and new implementations for those words on the fly. It has few ''words'' that expose the compiler behaviour and therefore naturally offers ''genericity'' capacities that, however, are not referred to as such in most Forth texts. Similarly, dynamically typed languages, especially interpreted ones, usually offer ''genericity'' by default as both passing values to functions and value assignment are type-indifferent and such behavior is often utilized for abstraction or code terseness, however this is not typically labeled ''genericity'' as it's a direct consequence of the dynamic typing system employed by the language. The term has been used in
functional programming In computer science, functional programming is a programming paradigm where programs are constructed by Function application, applying and Function composition (computer science), composing Function (computer science), functions. It is a declar ...
, specifically in Haskell-like languages, which use a structural type system where types are always parametric and the actual code on those types is generic. These usages still serve a similar purpose of code-saving and the rendering of an abstraction. Arrays and
structs In computer science, a record (also called a structure, struct, or compound data) is a basic data structure. Records in a database or spreadsheet are usually called "rows". A record is a collection of ''fields'', possibly of different data types ...
can be viewed as predefined generic types. Every usage of an array or struct type instantiates a new concrete type, or reuses a previous instantiated type. Array element types and struct element types are parameterized types, which are used to instantiate the corresponding generic type. All this is usually built-in in the
compiler In computing, a compiler is a computer program that translates computer code written in one programming language (the ''source'' language) into another language (the ''target'' language). The name "compiler" is primarily used for programs that ...
and the syntax differs from other generic constructs. Some extensible programming languages try to unify built-in and user defined generic types. A broad survey of genericity mechanisms in programming languages follows. For a specific survey comparing suitability of mechanisms for generic programming, see.


In object-oriented languages

When creating container classes in statically typed languages, it is inconvenient to write specific implementations for each datatype contained, especially if the code for each datatype is virtually identical. For example, in C++, this duplication of code can be circumvented by defining a class template: template class List ; List list_of_animals; List list_of_cars; Above, T is a placeholder for whatever type is specified when the list is created. These "containers-of-type-T", commonly called
templates Template may refer to: Tools * Die (manufacturing), used to cut or shape material * Mold, in a molding process * Stencil, a pattern or overlay used in graphic arts (drawing, painting, etc.) and sewing to replicate letters, shapes or designs Co ...
, allow a class to be reused with different datatypes as long as certain contracts such as
subtype Subtype may refer to: * Viral subtypes, such as Subtypes of HIV * Subtyping In programming language theory, subtyping (also subtype polymorphism or inclusion polymorphism) is a form of type polymorphism in which a subtype is a datatype that is ...
s and
signature A signature (; from la, signare, "to sign") is a handwritten (and often stylized) depiction of someone's name, nickname, or even a simple "X" or other mark that a person writes on documents as a proof of identity and intent. The writer of a ...
are kept. This genericity mechanism should not be confused with '' inclusion polymorphism'', which is the
algorithm In mathematics and computer science, an algorithm () is a finite sequence of rigorous instructions, typically used to solve a class of specific Computational problem, problems or to perform a computation. Algorithms are used as specificat ...
ic usage of exchangeable sub-classes: for instance, a list of objects of type Moving_Object containing objects of type Animal and Car. Templates can also be used for type-independent functions as in the Swap example below: // "&" denotes a reference template void Swap(T& a, T& b) std::string world = "World!"; std::string hello = "Hello, "; Swap(world, hello); std::cout << world << hello << ‘\n’; // Output is "Hello, World!". The C++ template construct used above is widely cited as the genericity construct that popularized the notion among programmers and language designers and supports many generic programming idioms. The D programming language also offers fully generic-capable templates based on the C++ precedent but with a simplified syntax. The Java programming language has provided genericity facilities syntactically based on C++'s since the introduction of
J2SE Java Platform, Standard Edition (Java SE) is a computing platform for development and deployment of portable code for desktop and server environments. Java SE was formerly known as Java 2 Platform, Standard Edition (J2SE). The platform uses Jav ...
5.0. C# 2.0, Oxygene 1.5 (also known as Chrome) and Visual Basic .NET 2005 have constructs that take advantage of the support for generics present in the
Microsoft .NET Framework The .NET Framework (pronounced as "''dot net"'') is a proprietary software framework developed by Microsoft that runs primarily on Microsoft Windows. It was the predominant implementation of the Common Language Infrastructure (CLI) until being ...
since version 2.0.


Generics in Ada

Ada Ada may refer to: Places Africa * Ada Foah, a town in Ghana * Ada (Ghana parliament constituency) * Ada, Osun, a town in Nigeria Asia * Ada, Urmia, a village in West Azerbaijan Province, Iran * Ada, Karaman, a village in Karaman Province, Tur ...
has had generics since it was first designed in 1977–1980. The standard library uses generics to provide many services. Ada 2005 adds a comprehensive generic container library to the standard library, which was inspired by C++'s standard template library. A ''generic unit'' is a package or a subprogram that takes one or more ''generic formal parameters''. A ''generic formal parameter'' is a value, a variable, a constant, a type, a subprogram, or even an instance of another, designated, generic unit. For generic formal types, the syntax distinguishes between discrete, floating-point, fixed-point, access (pointer) types, etc. Some formal parameters can have default values. To ''instantiate'' a generic unit, the programmer passes ''actual'' parameters for each formal. The generic instance then behaves just like any other unit. It is possible to instantiate generic units at run-time, for example inside a loop.


=Example

= The specification of a generic package: generic Max_Size : Natural; -- a generic formal value type Element_Type is private; -- a generic formal type; accepts any nonlimited type package Stacks is type Size_Type is range 0 .. Max_Size; type Stack is limited private; procedure Create (S : out Stack; Initial_Size : in Size_Type := Max_Size); procedure Push (Into : in out Stack; Element : in Element_Type); procedure Pop (From : in out Stack; Element : out Element_Type); Overflow : exception; Underflow : exception; private subtype Index_Type is Size_Type range 1 .. Max_Size; type Vector is array (Index_Type range <>) of Element_Type; type Stack (Allocated_Size : Size_Type := 0) is record Top : Index_Type; Storage : Vector (1 .. Allocated_Size); end record; end Stacks; Instantiating the generic package: type Bookmark_Type is new Natural; -- records a location in the text document we are editing package Bookmark_Stacks is new Stacks (Max_Size => 20, Element_Type => Bookmark_Type); -- Allows the user to jump between recorded locations in a document Using an instance of a generic package: type Document_Type is record Contents : Ada.Strings.Unbounded.Unbounded_String; Bookmarks : Bookmark_Stacks.Stack; end record; procedure Edit (Document_Name : in String) is Document : Document_Type; begin -- Initialise the stack of bookmarks: Bookmark_Stacks.Create (S => Document.Bookmarks, Initial_Size => 10); -- Now, open the file Document_Name and read it in... end Edit;


=Advantages and limitations

= The language syntax allows precise specification of constraints on generic formal parameters. For example, it is possible to specify that a generic formal type will only accept a modular type as the actual. It is also possible to express constraints ''between'' generic formal parameters; for example: generic type Index_Type is (<>); -- must be a discrete type type Element_Type is private; -- can be any nonlimited type type Array_Type is array (Index_Type range <>) of Element_Type; In this example, Array_Type is constrained by both Index_Type and Element_Type. When instantiating the unit, the programmer must pass an actual array type that satisfies these constraints. The disadvantage of this fine-grained control is a complicated syntax, but, because all generic formal parameters are completely defined in the specification, the
compiler In computing, a compiler is a computer program that translates computer code written in one programming language (the ''source'' language) into another language (the ''target'' language). The name "compiler" is primarily used for programs that ...
can instantiate generics without looking at the body of the generic. Unlike C++, Ada does not allow specialised generic instances, and requires that all generics be instantiated explicitly. These rules have several consequences: * the compiler can implement ''shared generics'': the object code for a generic unit can be shared between all instances (unless the programmer requests inlining of subprograms, of course). As further consequences: ** there is no possibility of code bloat (code bloat is common in C++ and requires special care, as explained below). ** it is possible to instantiate generics at run-time, as well as at compile time, since no new object code is required for a new instance. ** actual objects corresponding to a generic formal object are always considered to be non-static inside the generic; see Generic formal objects in the Wikibook for details and consequences. * all instances of a generic being exactly the same, it is easier to review and understand programs written by others; there are no "special cases" to take into account. * all instantiations being explicit, there are no hidden instantiations that might make it difficult to understand the program. * Ada does not permit "template metaprogramming", because it does not allow specialisations.


Templates in C++

C++ uses templates to enable generic programming techniques. The C++ Standard Library includes the Standard Template Library or STL that provides a framework of templates for common data structures and algorithms. Templates in C++ may also be used for template metaprogramming, which is a way of pre-evaluating some of the code at compile-time rather than run-time. Using template specialization, C++ Templates are considered
Turing complete Alan Mathison Turing (; 23 June 1912 – 7 June 1954) was an English mathematician, computer scientist, logician, cryptanalyst, philosopher, and theoretical biologist. Turing was highly influential in the development of theoretical com ...
.


=Technical overview

= There are many kinds of templates, the most common being function templates and class templates. A ''function template'' is a pattern for creating ordinary functions based upon the parameterizing types supplied when instantiated. For example, the C++ Standard Template Library contains the function template max(x, y) that creates functions that return either ''x'' or ''y,'' whichever is larger. max() could be defined like this: template T max(T x, T y) ''Specializations'' of this function template, instantiations with specific types, can be called just like an ordinary function: std::cout << max(3, 7); // Outputs 7. The compiler examines the arguments used to call max and determines that this is a call to max(int, int). It then instantiates a version of the function where the parameterizing type T is int, making the equivalent of the following function: int max(int x, int y) This works whether the arguments x and y are integers, strings, or any other type for which the expression x < y is sensible, or more specifically, for any type for which operator< is defined. Common inheritance is not needed for the set of types that can be used, and so it is very similar to duck typing. A program defining a custom data type can use operator overloading to define the meaning of < for that type, thus allowing its use with the max() function template. While this may seem a minor benefit in this isolated example, in the context of a comprehensive library like the STL it allows the programmer to get extensive functionality for a new data type, just by defining a few operators for it. Merely defining < allows a type to be used with the standard sort(), stable_sort(), and binary_search() algorithms or to be put inside data structures such as sets,
heap Heap or HEAP may refer to: Computing and mathematics * Heap (data structure), a data structure commonly used to implement a priority queue * Heap (mathematics), a generalization of a group * Heap (programming) (or free store), an area of memory f ...
s, and associative arrays. C++ templates are completely
type safe In computer science, type safety and type soundness are the extent to which a programming language discourages or prevents type errors. Type safety is sometimes alternatively considered to be a property of facilities of a computer language; that is ...
at compile time. As a demonstration, the standard type complex does not define the < operator, because there is no strict order on
complex number In mathematics, a complex number is an element of a number system that extends the real numbers with a specific element denoted , called the imaginary unit and satisfying the equation i^= -1; every complex number can be expressed in the form ...
s. Therefore, max(x, y) will fail with a compile error, if ''x'' and ''y'' are complex values. Likewise, other templates that rely on < cannot be applied to complex data unless a comparison (in the form of a functor or function) is provided. E.g.: A complex cannot be used as key for a map unless a comparison is provided. Unfortunately, compilers historically generate somewhat esoteric, long, and unhelpful error messages for this sort of error. Ensuring that a certain object adheres to a method protocol can alleviate this issue. Languages which use compare instead of < can also use complex values as keys. Another kind of template, a ''class template,'' extends the same concept to classes. A class template specialization is a class. Class templates are often used to make generic containers. For example, the STL has a
linked list In computer science, a linked list is a linear collection of data elements whose order is not given by their physical placement in memory. Instead, each element points to the next. It is a data structure consisting of a collection of nodes whic ...
container. To make a linked list of integers, one writes list<int>. A list of strings is denoted list<string>. A list has a set of standard functions associated with it, that work for any compatible parameterizing types.


=Template specialization

= A powerful feature of C++'s templates is ''template specialization''. This allows alternative implementations to be provided based on certain characteristics of the parameterized type that is being instantiated. Template specialization has two purposes: to allow certain forms of optimization, and to reduce code bloat. For example, consider a sort() template function. One of the primary activities that such a function does is to swap or exchange the values in two of the container's positions. If the values are large (in terms of the number of bytes it takes to store each of them), then it is often quicker to first build a separate list of pointers to the objects, sort those pointers, and then build the final sorted sequence. If the values are quite small however it is usually fastest to just swap the values in-place as needed. Furthermore, if the parameterized type is already of some pointer-type, then there is no need to build a separate pointer array. Template specialization allows the template creator to write different implementations and to specify the characteristics that the parameterized type(s) must have for each implementation to be used. Unlike function templates, class templates can be partially specialized. That means that an alternate version of the class template code can be provided when some of the template parameters are known, while leaving other template parameters generic. This can be used, for example, to create a default implementation (the ''primary specialization'') that assumes that copying a parameterizing type is expensive and then create partial specializations for types that are cheap to copy, thus increasing overall efficiency. Clients of such a class template just use specializations of it without needing to know whether the compiler used the primary specialization or some partial specialization in each case. Class templates can also be ''fully specialized,'' which means that an alternate implementation can be provided when all of the parameterizing types are known.


=Advantages and disadvantages

= Some uses of templates, such as the max() function, were previously filled by function-like preprocessor macros (a legacy of the
C programming language ''The C Programming Language'' (sometimes termed ''K&R'', after its authors' initials) is a computer programming book written by Brian Kernighan and Dennis Ritchie, the latter of whom originally designed and implemented the language, as well as ...
). For example, here is a possible implementation of such macro: #define max(a,b) ((a) < (b) ? (b) : (a)) Macros are expanded (copy pasted) by preprocessor, before compilation proper; templates are actual real functions. Macros are always expanded inline; templates can also be inline functions when the compiler deems it appropriate. However, templates are generally considered an improvement over macros for these purposes. Templates are type-safe. Templates avoid some of the common errors found in code that makes heavy use of function-like macros, such as evaluating parameters with side effects twice. Perhaps most importantly, templates were designed to be applicable to much larger problems than macros. There are four primary drawbacks to the use of templates: supported features, compiler support, poor error messages (usually with pre C++20 SFINAE), and
code bloat In computer programming, code bloat is the production of program code (source code or machine code) that is perceived as unnecessarily long, slow, or otherwise wasteful of resources. Code bloat can be caused by inadequacies in the programming lang ...
: # Templates in C++ lack many features, which makes implementing them and using them in a straightforward way often impossible. Instead programmers have to rely on complicated tricks which leads to bloated, hard to understand and hard to maintain code. Current developments in the C++ standards exacerbate this problem by making heavy use of these tricks and building a lot of new features for templates on them or with them in mind. # Many compilers historically had poor support for templates, thus the use of templates could have made code somewhat less portable. Support may also be poor when a C++ compiler is being used with a linker that is not C++-aware, or when attempting to use templates across shared library boundaries. # Compilers can produce confusing, long, and sometimes unhelpful error messages when errors are detected in code that uses SFINAE. This can make templates difficult to develop with. # Finally, the use of templates requires the compiler to generate a separate ''instance'' of the templated class or function for every
permutation In mathematics, a permutation of a set is, loosely speaking, an arrangement of its members into a sequence or linear order, or if the set is already ordered, a rearrangement of its elements. The word "permutation" also refers to the act or proc ...
of type parameters used with it. (This is necessary because types in C++ are not all the same size, and the sizes of data fields are important to how classes work.) So the indiscriminate use of templates can lead to
code bloat In computer programming, code bloat is the production of program code (source code or machine code) that is perceived as unnecessarily long, slow, or otherwise wasteful of resources. Code bloat can be caused by inadequacies in the programming lang ...
, resulting in excessively large executables. However, judicious use of template specialization and derivation can dramatically reduce such code bloat in some cases: The extra instantiations generated by templates can also cause some debuggers to have difficulty working gracefully with templates. For example, setting a debug breakpoint within a template from a source file may either miss setting the breakpoint in the actual instantiation desired or may set a breakpoint in every place the template is instantiated. Also, the implementation source code for the template must be completely available (e.g. included in a header) to the translation unit (source file) using it. Templates, including much of the Standard Library, if not included in header files, cannot be compiled. (This is in contrast to non-templated code, which may be compiled to binary, providing only a declarations header file for code using it.) This may be a disadvantage by exposing the implementing code, which removes some abstractions, and could restrict its use in closed-source projects.


Templates in D

The
D programming language D, also known as dlang, is a multi-paradigm system programming language created by Walter Bright at Digital Mars and released in 2001. Andrei Alexandrescu joined the design and development effort in 2007. Though it originated as a re-engineeri ...
supports templates based in design on C++. Most C++ template idioms will carry over to D without alteration, but D adds some additional functionality: * Template parameters in D are not restricted to just types and primitive values (as it was in C++ before C++20), but also allow arbitrary compile-time values (such as strings and struct literals), and aliases to arbitrary identifiers, including other templates or template instantiations. * Template constraints and the static if statement provide an alternative to respectively C++'s C++ concepts and if constexpr. * The is(...) expression allows speculative instantiation to verify an object's traits at compile time. * The auto keyword and the
typeof typeof, alternately also typeOf, and TypeOf, is an operator provided by several programming languages to determine the data type of a variable. This is useful when constructing programs that must accept multiple types of data without explicitly sp ...
expression allow
type inference Type inference refers to the automatic detection of the type of an expression in a formal language. These include programming languages and mathematical type systems, but also natural languages in some branches of computer science and linguistics ...
for variable declarations and function return values, which in turn allows "Voldemort types" (types that do not have a global name). Templates in D use a different syntax than in C++: whereas in C++ template parameters are wrapped in angular brackets (Template), D uses an exclamation sign and parentheses: Template!(param1, param2). This avoids the C++ parsing difficulties due to ambiguity with comparison operators. If there is only one parameter, the parentheses can be omitted. Conventionally, D combines the above features to provide
compile-time polymorphism In computing, static dispatch is a form of polymorphism fully resolved during compile time. It is a form of ''method dispatch,'' which describes how a language or environment will select which implementation of a method or function to use. Ex ...
using trait-based generic programming. For example, an input
range Range may refer to: Geography * Range (geographic), a chain of hills or mountains; a somewhat linear, complex mountainous or hilly area (cordillera, sierra) ** Mountain range, a group of mountains bordered by lowlands * Range, a term used to i ...
is defined as any type that satisfies the checks performed by isInputRange, which is defined as follows: template isInputRange(R) A function that accepts only input ranges can then use the above template in a template constraint: auto fun(Range)(Range range) if (isInputRange!Range)


=Code generation

= In addition to template metaprogramming, D also provides several features to enable compile-time code generation: * The import expression allows reading a file from disk and using its contents as a string expression. * Compile-time reflection allows enumerating and inspecting declarations and their members during compilation. * User-defined attributes allow users to attach arbitrary identifiers to declarations, which can then be enumerated using compile-time reflection. *
Compile-Time Function Execution In computing, compile-time function execution (or compile time function evaluation, or general constant expressions) is the ability of a compiler, that would normally compile a function to machine code and execute it at run time, to execute the fu ...
(CTFE) allows a subset of D (restricted to safe operations) to be interpreted during compilation. * String mixins allow evaluating and compiling the contents of a string expression as D code that becomes part of the program. Combining the above allows generating code based on existing declarations. For example, D serialization frameworks can enumerate a type's members and generate specialized functions for each serialized type to perform serialization and deserialization. User-defined attributes could further indicate serialization rules. The import expression and compile-time function execution also allow efficiently implementing
domain-specific language A domain-specific language (DSL) is a computer language specialized to a particular application domain. This is in contrast to a general-purpose language (GPL), which is broadly applicable across domains. There are a wide variety of DSLs, ranging f ...
s. For example, given a function that takes a string containing an HTML template and returns equivalent D source code, it is possible to use it in the following way: // Import the contents of example.htt as a string manifest constant. enum htmlTemplate = import("example.htt"); // Transpile the HTML template to D code. enum htmlDCode = htmlTemplateToD(htmlTemplate); // Paste the contents of htmlDCode as D code. mixin(htmlDCode);


Genericity in Eiffel

Generic classes have been a part of
Eiffel Eiffel may refer to: Places * Eiffel Peak, a summit in Alberta, Canada * Champ de Mars – Tour Eiffel station, Paris, France; a transit station Structures * Eiffel Tower, in Paris, France, designed by Gustave Eiffel * Eiffel Bridge, Ungheni, M ...
since the original method and language design. The foundation publications of Eiffel, use the term ''genericity'' to describe the creation and use of generic classes.


=Basic/Unconstrained genericity

= Generic classes are declared with their class name and a list of one or more ''formal generic parameters''. In the following code, class LIST has one formal generic parameter G class LIST ... feature -- Access item: G -- The item currently pointed to by cursor ... feature -- Element change put (new_item: G) -- Add `new_item' at the end of the list ... The formal generic parameters are placeholders for arbitrary class names that will be supplied when a declaration of the generic class is made, as shown in the two ''generic derivations'' below, where ACCOUNT and DEPOSIT are other class names. ACCOUNT and DEPOSIT are considered ''actual generic parameters'' as they provide real class names to substitute for G in actual use. list_of_accounts: LIST CCOUNT -- Account list list_of_deposits: LIST EPOSIT -- Deposit list Within the Eiffel type system, although class LIST /code> is considered a class, it is not considered a type. However, a generic derivation of LIST /code> such as LIST CCOUNT/code> is considered a type.


=Constrained genericity

= For the list class shown above, an actual generic parameter substituting for G can be any other available class. To constrain the set of classes from which valid actual generic parameters can be chosen, a ''generic constraint'' can be specified. In the declaration of class SORTED_LIST below, the generic constraint dictates that any valid actual generic parameter will be a class that inherits from class COMPARABLE. The generic constraint ensures that elements of a SORTED_LIST can in fact be sorted. class SORTED_LIST -> COMPARABLE


Generics in Java

Support for the ''generics'', or "containers-of-type-T" was added to the Java programming language in 2004 as part of J2SE 5.0. In Java, generics are only checked at compile time for type correctness. The generic type information is then removed via a process called type erasure, to maintain compatibility with old JVM implementations, making it unavailable at runtime. For example, a List<String> is converted to the raw type List. The compiler inserts type casts to convert the elements to the String type when they are retrieved from the list, reducing performance compared to other implementations such as C++ templates.


Genericity in .NET #, VB.NET/h3>

Generics were added as part of
.NET Framework 2.0 Microsoft started development on the .NET Framework in the late 1990s originally under the name of Next Generation Windows Services (NGWS). By late 2001 the first beta versions of .NET 1.0 were released. The first version of .NET Framework was ...
in November 2005, based on a research prototype from Microsoft Research started in 1999. Although similar to generics in Java, .NET generics do not apply type erasure, but implement generics as a first class mechanism in the runtime using reification. This design choice provides additional functionality, such as allowing reflection with preservation of generic types, as well as alleviating some of the limitations of erasure (such as being unable to create generic arrays). This also means that there is no performance hit from runtime
casts Cast may refer to: Music * Cast (band), an English alternative rock band * Cast (Mexican band), a progressive Mexican rock band * The Cast, a Scottish musical duo: Mairi Campbell and Dave Francis * ''Cast'', a 2012 album by Trespassers William ...
and normally expensive boxing conversions. When primitive and value types are used as generic arguments, they get specialized implementations, allowing for efficient generic
collections Collection or Collections may refer to: * Cash collection, the function of an accounts receivable department * Collection (church), money donated by the congregation during a church service * Collection agency, agency to collect cash * Collection ...
and methods. As in C++ and Java, nested generic types such as Dictionary> are valid types, however are advised against for member signatures in code analysis design rules. .NET allows six varieties of generic type constraints using the where keyword including restricting generic types to be value types, to be classes, to have constructors, and to implement interfaces. Below is an example with an interface constraint: using System; class Sample The MakeAtLeast() method allows operation on arrays, with elements of generic type T. The method's type constraint indicates that the method is applicable to any type T that implements the generic IComparable<T> interface. This ensures a
compile time In computer science, compile time (or compile-time) describes the time window during which a computer program is compiled. The term is used as an adjective to describe concepts related to the context of program compilation, as opposed to concept ...
error, if the method is called if the type does not support comparison. The interface provides the generic method CompareTo(T). The above method could also be written without generic types, simply using the non-generic Array type. However, since arrays are contravariant, the casting would not be
type safe In computer science, type safety and type soundness are the extent to which a programming language discourages or prevents type errors. Type safety is sometimes alternatively considered to be a property of facilities of a computer language; that is ...
, and the compiler would be unable to find certain possible errors that would otherwise be caught when using generic types. In addition, the method would need to access the array items as objects instead, and would require
casting Casting is a manufacturing process in which a liquid material is usually poured into a mold, which contains a hollow cavity of the desired shape, and then allowed to solidify. The solidified part is also known as a ''casting'', which is ejected ...
to compare two elements. (For value types like types such as int this requires a
boxing Boxing (also known as "Western boxing" or "pugilism") is a combat sport in which two people, usually wearing protective gloves and other protective equipment such as hand wraps and mouthguards, throw punches at each other for a predetermined ...
conversion, although this can be worked around using the Comparer<T> class, as is done in the standard collection classes.) A notable behavior of static members in a generic .NET class is static member instantiation per run-time type (see example below). //A generic class public class GenTest //a class public class CountedInstances //main code entry point //at the end of execution, CountedInstances.Counter = 2 GenTest g1 = new GenTest(1); GenTest g11 = new GenTest(11); GenTest g111 = new GenTest(111); GenTest g2 = new GenTest(1.0);


Genericity in Delphi

Delphi's Object Pascal dialect acquired generics in the Delphi 2007 release, initially only with the (now discontinued) .NET compiler before being added to the native code in the Delphi 2009 release. The semantics and capabilities of Delphi generics are largely modelled on those had by generics in .NET 2.0, though the implementation is by necessity quite different. Here's a more or less direct translation of the first C# example shown above: program Sample; uses Generics.Defaults; //for IComparer<> type TUtils = class class procedure MakeAtLeast(Arr: TArray; const Lowest: T; Comparer: IComparer); overload; class procedure MakeAtLeast(Arr: TArray; const Lowest: T); overload; end; class procedure TUtils.MakeAtLeast(Arr: TArray; const Lowest: T; Comparer: IComparer); var I: Integer; begin if Comparer = nil then Comparer := TComparer.Default; for I := Low(Arr) to High(Arr) do if Comparer.Compare(Arr Lowest) < 0 then Arr := Lowest; end; class procedure TUtils.MakeAtLeast(Arr: TArray; const Lowest: T); begin MakeAtLeast(Arr, Lowest, nil); end; var Ints: TArray; Value: Integer; begin Ints := TArray.Create(0, 1, 2, 3); TUtils.MakeAtLeast(Ints, 2); for Value in Ints do WriteLn(Value); ReadLn; end. As with C#, methods as well as whole types can have one or more type parameters. In the example, TArray is a generic type (defined by the language) and MakeAtLeast a generic method. The available constraints are very similar to the available constraints in C#: any value type, any class, a specific class or interface, and a class with a parameterless constructor. Multiple constraints act as an additive union.


Genericity in Free Pascal

Free Pascal implemented generics before Delphi, and with different syntax and semantics. However, since FPC version 2.6.0, the Delphi-style syntax is available when using the language mode. Thus, Free Pascal programmers are able to use generics in whichever style they prefer. Delphi and Free Pascal example: // Delphi style unit A; interface type TGenericClass = class function Foo(const AValue: T): T; end; implementation function TGenericClass.Foo(const AValue: T): T; begin Result := AValue + AValue; end; end. // Free Pascal's ObjFPC style unit B; interface type generic TGenericClass = class function Foo(const AValue: T): T; end; implementation function TGenericClass.Foo(const AValue: T): T; begin Result := AValue + AValue; end; end. // example usage, Delphi style program TestGenDelphi; uses A,B; var GC1: A.TGenericClass; GC2: B.TGenericClass; begin GC1 := A.TGenericClass.Create; GC2 := B.TGenericClass.Create; WriteLn(GC1.Foo(100)); // 200 WriteLn(GC2.Foo('hello')); // hellohello GC1.Free; GC2.Free; end. // example usage, ObjFPC style program TestGenDelphi; uses A,B; // required in ObjFPC type TAGenericClassInt = specialize A.TGenericClass; TBGenericClassString = specialize B.TGenericClass; var GC1: TAGenericClassInt; GC2: TBGenericClassString; begin GC1 := TAGenericClassInt.Create; GC2 := TBGenericClassString.Create; WriteLn(GC1.Foo(100)); // 200 WriteLn(GC2.Foo('hello')); // hellohello GC1.Free; GC2.Free; end.


Functional languages


Genericity in Haskell

The
type class In computer science, a type class is a type system construct that supports ad hoc polymorphism. This is achieved by adding constraints to type variables in parametrically polymorphic types. Such a constraint typically involves a type class T and ...
mechanism of Haskell supports generic programming. Six of the predefined type classes in Haskell (including Eq, the types that can be compared for equality, and Show, the types whose values can be rendered as strings) have the special property of supporting ''derived instances.'' This means that a programmer defining a new type can state that this type is to be an instance of one of these special type classes, without providing implementations of the class methods as is usually necessary when declaring class instances. All the necessary methods will be "derived" – that is, constructed automatically – based on the structure of the type. For instance, the following declaration of a type of
binary tree In computer science, a binary tree is a k-ary k = 2 tree data structure in which each node has at most two children, which are referred to as the ' and the '. A recursive definition using just set theory notions is that a (non-empty) binary t ...
s states that it is to be an instance of the classes Eq and Show: data BinTree a = Leaf a , Node (BinTree a) a (BinTree a) deriving (Eq, Show) This results in an equality function (

) and a string representation function (show) being automatically defined for any type of the form BinTree T provided that T itself supports those operations. The support for derived instances of Eq and Show makes their methods

and show generic in a qualitatively different way from parametrically polymorphic functions: these "functions" (more accurately, type-indexed families of functions) can be applied to values of various types, and although they behave differently for every argument type, little work is needed to add support for a new type. Ralf Hinze (2004) has shown that a similar effect can be achieved for user-defined type classes by certain programming techniques. Other researchers have proposed approaches to this and other kinds of genericity in the context of Haskell and extensions to Haskell (discussed below).


= PolyP

= PolyP was the first generic programming language extension to Haskell. In PolyP, generic functions are called ''polytypic''. The language introduces a special construct in which such polytypic functions can be defined via structural induction over the structure of the pattern functor of a regular datatype. Regular datatypes in PolyP are a subset of Haskell datatypes. A regular datatype t must be of kind ''* → *'', and if ''a'' is the formal type argument in the definition, then all recursive calls to ''t'' must have the form ''t a''. These restrictions rule out higher-kinded datatypes as well as nested datatypes, where the recursive calls are of a different form. The flatten function in PolyP is here provided as an example: flatten :: Regular d => d a -> flatten = cata fl polytypic fl :: f a -> case f of g+h -> either fl fl g*h -> \(x,y) -> fl x ++ fl y () -> \x -> [] Par -> \x -> [x] Rec -> \x -> x d@g -> concat . flatten . pmap fl Con t -> \x -> [] cata :: Regular d => (FunctorOf d a b -> b) -> d a -> b


=Generic Haskell

= Generic Haskell is another extension to Haskell, developed at
Utrecht University Utrecht University (UU; nl, Universiteit Utrecht, formerly ''Rijksuniversiteit Utrecht'') is a public research university in Utrecht, Netherlands. Established , it is one of the oldest universities in the Netherlands. In 2018, it had an enrollme ...
in the
Netherlands ) , anthem = ( en, "William of Nassau") , image_map = , map_caption = , subdivision_type = Sovereign state , subdivision_name = Kingdom of the Netherlands , established_title = Before independence , established_date = Spanish Netherl ...
. The extensions it provides are: *''Type-indexed values'' are defined as a value indexed over the various Haskell type constructors (unit, primitive types, sums, products, and user-defined type constructors). In addition, we can also specify the behaviour of a type-indexed values for a specific constructor using ''constructor cases'', and reuse one generic definition in another using ''default cases''. The resulting type-indexed value can be specialized to any type. *''Kind-indexed types'' are types indexed over kinds, defined by giving a case for both ''*'' and ''k → k. Instances are obtained by applying the kind-indexed type to a kind. *Generic definitions can be used by applying them to a type or kind. This is called ''generic application''. The result is a type or value, depending on which sort of generic definition is applied. *''Generic abstraction'' enables generic definitions be defined by abstracting a type parameter (of a given kind). *''Type-indexed types'' are types that are indexed over the type constructors. These can be used to give types to more involved generic values. The resulting type-indexed types can be specialized to any type. As an example, the equality function in Generic Haskell: type Eq t1 t2 = t1 -> t2 -> Bool type Eq t1 t2 = forall u1 u2. Eq u1 u2 -> Eq (t1 u1) (t2 u2) eq :: Eq t t eq _ _ = True eq eqA eqB (Inl a1) (Inl a2) = eqA a1 a2 eq eqA eqB (Inr b1) (Inr b2) = eqB b1 b2 eq eqA eqB _ _ = False eq eqA eqB (a1 :*: b1) (a2 :*: b2) = eqA a1 a2 && eqB b1 b2 eq = (

) eq = (

) eq = (

)


Clean

Clean offers generic programming based and the as supported by the GHC ≥ 6.0. It parametrizes by kind as those but offers overloading.


Other languages

Languages in the ML family support generic programming through parametric polymorphism and generic
modules Broadly speaking, modularity is the degree to which a system's components may be separated and recombined, often with the benefit of flexibility and variety in use. The concept of modularity is used primarily to reduce complexity by breaking a sy ...
called ''functors.'' Both
Standard ML Standard ML (SML) is a general-purpose, modular, functional programming language with compile-time type checking and type inference. It is popular among compiler writers and programming language researchers, as well as in the development of the ...
and
OCaml OCaml ( , formerly Objective Caml) is a general-purpose programming language, general-purpose, multi-paradigm programming language which extends the Caml dialect of ML (programming language), ML with object-oriented programming, object-oriented ...
provide functors, which are similar to class templates and to Ada's generic packages.
Scheme A scheme is a systematic plan for the implementation of a certain idea. Scheme or schemer may refer to: Arts and entertainment * ''The Scheme'' (TV series), a BBC Scotland documentary series * The Scheme (band), an English pop band * ''The Schem ...
syntactic abstractions also have a connection to genericity – these are in fact a superset of C++ templates. A Verilog module may take one or more parameters, to which their actual values are assigned upon the instantiation of the module. One example is a generic
register Register or registration may refer to: Arts entertainment, and media Music * Register (music), the relative "height" or range of a note, melody, part, instrument, etc. * ''Register'', a 2017 album by Travis Miller * Registration (organ), the ...
array where the array width is given via a parameter. Such an array, combined with a generic wire vector, can make a generic buffer or memory module with an arbitrary bit width out of a single module implementation. VHDL, being derived from Ada, also has generic capabilities. https://www.ics.uci.edu/~jmoorkan/vhdlref/generics.html VHDL Reference C supports "type-generic expressions" using the keyword:WG14 N1516 Committee Draft — October 4, 2010
/ref> #define cbrt(x) _Generic((x), long double: cbrtl, \ default: cbrt, \ float: cbrtf)(x)


See also

* Concept (generic programming) *
Partial evaluation In computing, partial evaluation is a technique for several different types of program optimization by specialization. The most straightforward application is to produce new programs that run faster than the originals while being guaranteed to ...
* Template metaprogramming * Type polymorphism


References


Sources

* * *


Further reading

* Gabriel Dos Reis and Jaakko Järvi,
What is Generic Programming?
'
LCSD 2005
. * *


External links


generic-programming.org
* Alexander A. Stepanov
Collected Papers of Alexander A. Stepanov
(creator of the
STL STL may refer to: Communications * Standard telegraph level *Studio/transmitter link International law *Special Tribunal for Lebanon The Special Tribunal for Lebanon (STL), also referred to as the Lebanon Tribunal or the Hariri Tribunal, is a ...
) ;C++/D * Walter Bright,
Templates Revisited
'' * David Vandevoorde, Nicolai M Josuttis, ''C++ Templates: The Complete Guide'', 2003 Addison-Wesley. ;C#/.NET * Jason Clark,
Introducing Generics in the Microsoft CLR
" September 2003, ''MSDN Magazine'', Microsoft. * Jason Clark,
More on Generics in the Microsoft CLR
" October 2003, ''MSDN Magazine'', Microsoft. * M. Aamir Maniar
Generics.Net
An open source generics library for C#. ;Delphi/Object Pascal * Nick Hodges,
Delphi 2009 Reviewers Guide
" October 2008, ''Embarcadero Developer Network'', Embarcadero. * Craig Stuntz,
Delphi 2009 Generics and Type Constraints
" October 2008 * Dr. Bob,

* Free Pascal
Free Pascal Reference guide Chapter 8: Generics
Michaël Van Canneyt, 2007 * Delphi for Win32
Generics with Delphi 2009 Win32
Sébastien DOERAENE, 2008 * Delphi for .NET

Felix COLIBRI, 2008 ;Eiffel

;Haskell * Johan Jeuring, Sean Leather, José Pedro Magalhães, and Alexey Rodriguez Yakushev
''Libraries for Generic Programming in Haskell''
Utrecht University. * Dæv Clarke, Johan Jeuring and Andres Löh
The Generic Haskell user's guide
* Ralf Hinze,
Generics for the Masses
" In ''Proceedings of the
ACM ACM or A.C.M. may refer to: Aviation * AGM-129 ACM, 1990–2012 USAF cruise missile * Air chief marshal * Air combat manoeuvring or dogfighting * Air cycle machine * Arica Airport (Colombia) (IATA: ACM), in Arica, Amazonas, Colombia Computing * ...
SIGPLAN
International Conference on Functional Programming The ACM SIGPLAN International Conference on Functional Programming (ICFP) is an annual academic conference in the field of computer science sponsored by the ACM SIGPLAN, in association with IFIP Working Group 2.8 (Functional Programming). The con ...
(ICFP),'' 2004. *
Simon Peyton Jones Simon Peyton Jones (born 18 January 1958) is a British computer scientist who researches the implementation and applications of functional programming languages, particularly lazy functional programming. Education Peyton Jones graduated from ...
, editor,
The Haskell 98 Language Report
'' Revised 2002. *
Ralf Lämmel Ralph (pronounced ; or ,) is a male given name of English, Scottish and Irish origin, derived from the Old English ''Rædwulf'' and Radulf, cognate with the Old Norse ''Raðulfr'' (''rað'' "counsel" and ''ulfr'' "wolf"). The most common forms ...
and
Simon Peyton Jones Simon Peyton Jones (born 18 January 1958) is a British computer scientist who researches the implementation and applications of functional programming languages, particularly lazy functional programming. Education Peyton Jones graduated from ...
, "Scrap Your Boilerplate: A Practical Design Pattern for Generic Programming," In ''Proceedings of the
ACM ACM or A.C.M. may refer to: Aviation * AGM-129 ACM, 1990–2012 USAF cruise missile * Air chief marshal * Air combat manoeuvring or dogfighting * Air cycle machine * Arica Airport (Colombia) (IATA: ACM), in Arica, Amazonas, Colombia Computing * ...
SIGPLAN International Workshop on Types in Language Design and Implementation (TLDI'03),'' 2003. (Also see the websit
devoted to this research
* Andres Löh,
Exploring Generic Haskell
'' PhD thesis, 2004
Utrecht University Utrecht University (UU; nl, Universiteit Utrecht, formerly ''Rijksuniversiteit Utrecht'') is a public research university in Utrecht, Netherlands. Established , it is one of the oldest universities in the Netherlands. In 2018, it had an enrollme ...
.
Generic Haskell: a language for generic programming
;Java * Gilad Bracha,
Generics in the Java Programming Language
'' 2004. * Maurice Naftalin and Philip Wadler, ''Java Generics and Collections,'' 2006, O'Reilly Media, Inc. * Peter Sestoft, ''Java Precisely, Second Edition,'' 2005 MIT Press. * , 2004 Sun Microsystems, Inc. * Angelika Langer

{{Authority control Articles with example C Sharp code