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Procedural programming is a programming paradigm, classified as imperative programming, that involves implementing the behavior of a computer program as procedures (a.k.a. functions, subroutines) that call each other. The resulting program is a series of steps that forms a hierarchy of calls to its constituent procedures.
Computer processors provide hardware support for procedural programming through a stack register and instructions for calling procedures and returning from them. Hardware support for other types of programming is possible, like Lisp machines or Java processors, but no attempt was commercially successful.[contradictory]
Certain software development practices are often employed with procedural programming in order to enhance quality and lower development and maintenance costs.
Modularity and scoping
Modularity is about organizing the procedures of a program into separate modules -- each of which has a specific and understandable purpose.
A program lacking modularity or wide scoping tends to have procedures that consume many variables that other procedures also consume. The resulting code is relatively hard to understand and to maintain.
Comparison with other programming paradigms
Procedural programming is classified as a imperative programming, because it involves direct command of execution.
Procedural is a sub-class of imperative since procedural includes block and scope concepts, whereas imperative describes a more general concept that does not require such features. Procedural languages generally use reserved words that define blocks, such as
for, to implement control flow, whereas non-structured imperative languages (i.e. assembly language) use goto and branch tables for this purpose.
Also classified as imperative, object-oriented programming (OOP) involves dividing a program implementation into objects that expose behavior (methods) and data (members) via a well-defined interface. In contrast, procedural programming is about dividing the program implementation into variables, data structures, and subroutines. An important distinction is that while procedural involves procedures to operate on data structures, OOP bundles the two together. An object is a data structure and the behavior associated with that data structure.
Some OOP languages support the class concept which allows for creating an object based on a definition.
Nomenclature varies between the two, although they have similar semantics:
- Procedures correspond to functions. Both allow the reuse of the same code in various parts of the programs, and at various points of its execution.
- By the same token, procedure calls correspond to function application.
- Functions and their modularly separated from each other in the same manner, by the use of function arguments, return values and variable scopes.
The main difference between the styles is that functional programming languages remove or at least deemphasize the imperative elements of procedural programming. The feature set of functional languages is therefore designed to support writing programs as much as possible in terms of pure functions:
- Whereas procedural languages model execution of the program as a sequence of imperative commands that may implicitly alter shared state, functional programming languages model execution as the evaluation of complex expressions that only depend on each other in terms of arguments and return values. For this reason, functional programs can have a free order of code execution, and the languages may offer little control over the order in which various parts of the program are executed; for example, the arguments to a procedure invocation in Scheme are evaluated in an arbitrary order.
- Functional programming languages support (and heavily use) first-class functions, anonymous functions and closures, although these concepts have also been included in procedural languages at least since Algol 68.
- Functional programming languages tend to rely on tail call optimization and higher-order functions instead of imperative looping constructs.
Many functional languages, however, are in fact impurely functional and offer imperative/procedural constructs that allow the programmer to write programs in procedural style, or in a combination of both styles. It is common for input/output code in functional languages to be written in a procedural style.
There do exist a few esoteric functional languages (like Unlambda) that eschew structured programming precepts for the sake of being difficult to program in (and therefore challenging). These languages are the exception to the common ground between procedural and functional languages.
In logic programming, a program is a set of premises, and computation is performed by attempting to prove candidate theorems. From this point of view, logic programs are declarative, focusing on what the problem is, rather than on how to solve it.
However, the backward reasoning technique, implemented by SLD resolution, used to solve problems in logic programming languages such as Prolog, treats programs as goal-reduction procedures. Thus clauses of the form:
- H :- B1, …, Bn.
have a dual interpretation, both as procedures
- to show/solve H, show/solve B1 and … and Bn
and as logical implications:
- B1 and … and Bn implies H.
A skilled logic programmer uses the procedural interpretation to write programs that are effective and efficient, and uses the declarative interpretation to help ensure that programs are correct.
- Comparison of programming paradigms
- Declarative programming
- Functional programming (contrast)
- Imperative programming
- Logic programming
- Object-oriented programming
- Programming paradigms
- Programming language
- Structured programming
- SQL procedural extensions
- "Programming Paradigms".
- "Welcome to IEEE Xplore 2.0: Use of procedural programming languages for controlling production systems". Proceedings. The Seventh IEEE Conference on Artificial Intelligence Application. ieeexplore.ieee.org. doi:10.1109/CAIA.1991.120848. S2CID 58175293.
- Stevenson, Joseph (August 2013). "Procedural programming vs object-oriented programming". neonbrand.com. Retrieved 2013-08-19.