I have been searching the web looking for a definition for declarative and imperative programming that would shed some light for me. However the language used at some of the resources that I have found is daunting - for instance at Wikipedia. Does any one have a real world example that they could show me that might bring some perspective to this subject... perhaps in C#.
A great C# example of declarative vs. imperative programming is LINQ.
With imperative programming, you tell the compiler what you want to happen, step by step.
For example, let's start with this collection, and choose the odd numbers:
With imperative programming, we'd step through this, and decide what we want:
Here, we're saying:
With declarative programming, on the other hand, you write code that describes what you want, but not necessarily how to get it (declare your desired results, but not the step-by-step):
Here, we're saying "Give us everything where it's odd", not "Step through the collection. Check this item, if it's odd, add it to a result collection."
In many cases, code will be a mixture of both designs, too, so it's not always black-and-white.
Declarative programming is when you say what you want, and imperative language is when you say how to get what you want.
A simple example in Python:
The first example is declarative because we do not specify any "implementation details" of building the list.
To tie in a C# example, generally, using LINQ results in a declarative style, because you aren't saying how to obtain what you want; you are only saying what you want. You could say the same about SQL.
One benefit of declarative programming is that it allows the compiler to make decisions that might result in better code than what you might make by hand. Running with the SQL example, if you had a query like
the SQL "compiler" can "optimize" this query because it knows that
I'll add another example that rarely pops up in declarative/imperative programming discussion: the User Interface!
In C#, you can build an UI using various technologies.
On the imperative end, you could use DirectX or OpenGL to very imperatively draw your buttons, checkboxes, etc... line-by-line (or really, triangle by triangle). It is up to you to say how to draw the user interface.
At the declarative end, you have WPF. You basically write some XML (yeah, yeah, "XAML" technically) and the framework does the work for you. You say what the user interface looks like. It is up to the system to figure out how to do it.
Anyway, just another thing to think about. Just because one language is declarative or imperative does not mean that it doesn't have certain features of the other.
Also, one benefit of declarative programming is that purpose is usually more easily understood from reading the code whereas imperative gives you finer control over execution.
The gist of it all:
Declarative vs. Imperative
A programming paradigm is a fundamental style of computer programming. There are four main paradigms: imperative, declarative, functional (which is considered a subset of the declarative paradigm) and object-oriented.
Declarative programming : is a programming paradigm that expresses the logic of a computation(What do) without describing its control flow(How do). Some well-known examples of declarative domain specific languages (DSLs) include CSS, regular expressions, and a subset of SQL (SELECT queries, for example) Many markup languages such as HTML, MXML, XAML, XSLT... are often declarative. The declarative programming try to blur the distinction between a program as a set of instructions and a program as an assertion about the desired answer.
Imperative programming : is a programming paradigm that describes computation in terms of statements that change a program state. The declarative programs can be dually viewed as programming commands or mathematical assertions.
Functional programming : is a programming paradigm that treats computation as the evaluation of mathematical functions and avoids state and mutable data. It emphasizes the application of functions, in contrast to the imperative programming style, which emphasizes changes in state. In a pure functional language, such as Haskell, all functions are without side effects, and state changes are only represented as functions that transform the state.
The following example of imperative programming in MSDN, loops through the numbers 1 through 10, and finds the even numbers.
Both examples yield the same result, and one is neither better nor worse than the other. The first example requires more code, but the code is testable, and the imperative approach gives you full control over the implementation details. In the second example, the code is arguably more readable; however, LINQ does not give you control over what happens behind the scenes. You must trust that LINQ will provide the requested result.
Calvert,C Kulkarni,D (2009). Essential LINQ. Addison Wesley. 48.
Imperative programming is telling the computer explicitly what to do, and how to do it, like specifying order and such
Declarative is when you tell the computer what to do, but not really how to do it. Datalog / Prolog is the first language that comes to mind in this regard. Basically everything is declarative. You can't really guarantee order.
C# is a much more imperative programming language, but certain C# features are more declarative, like Linq
The same thing could be written imperatively:
(example from wikipedia Linq)
in a nutshell the declarative language is simpler because it lacks the complexity of control flow ( loops, if statements, etc. )
A good comparison is the ASP.Net 'code-behind' model. You have declarative '.ASPX' files and then the imperative 'ASPX.CS' code files. I often find that if I can do all I need in the declarative half of the script a lot more people can follow what's being done.
Stealing from Philip Roberts here:
1. Doubling all numbers in an array
2. Summing all items in a list
Note how the imperative examples involve creating a new variable, mutating it, and returning that new value (i.e., how to make something happen), whereas the declarative examples execute on a given input and return the new value based on the initial input (i.e., what we want to happen).
I liked an explanation from a Cambridge course + their examples:
Just to add another example in terms of mobile app development. In iOS and Android we have Interface Builders, where we can define UI of the apps.
The UI drawn using these Builders are declarative in nature, where we drag and drop the components. The actual draeing happens underneath and performed by the framework and system.
But we can also draw the whole components in code, and that is imperative in nature.
Also, some new languages like Angular JS is focussing on designing UIs declaratively and we may see a lot of other languages offering the same support. Like JAVA doesnot have any good declarative way to draw native desktop apps in JAVA swing or JAVA FX but in near future they just might.
Declarative programming examples are CSS, HTML, XML, XSLT, RegX.
declarative program is just a data for its some more-or-less "universal" imperative implementation/vm.
pluses: specifying just a data, in some hardcoded (and checked) format, is simpler and less error-prone than specifying variant of some imperative algorithm directly. some complex specifications just cant be written directly, only in some DSL form. best and freq used in DSLs data structures is sets and tables. because you not have dependencies between elements/rows. and when you havent dependencies you have freedom to modify and ease of support. (compare for example modules with classes - with modules you happy and with classes you have fragile base class problem) all goods of declarativeness and DSL follows immediately from benefits of that data structures (tables and sets). another plus - you can change implementation of declarative language vm, if DSL is more-or-less abstract (well designed). make parallel implementation, for example. or port it to other os etc. all good specifed modular isolating interfaces or protocols gives you such freedom and easyness of support.
minuses: you guess right. generic (and parameterized by DSL) imperative algorithm/vm implementation may be slower and/or memory hungry than specific one. in some cases. if that cases is rare - just forget about it, let it be slow. if it's frequient - you always can extend your DSL/vm for that case. somewhere slowing down all other cases, sure...
P.S. Frameworks is half-way between DSL and imperative. and as all halfway solutions ... they combines deficiences, not benefits. they not so safe AND not so fast :) look at jack-of-all-trades haskell - it's halfway between strong simple ML and flexible metaprog Prolog and... what a monster it is. you can look at Prolog as a Haskell with boolean-only functions/predicates. and how simple its flexibility is against Haskell...
From my understanding, both terms have roots in philosophy, there are declarative and imperative kinds of knowledge. Declarative knowledge are assertions of truth, statements of fact like math axioms. It tells you something. Imperative, or procedural knowledge, tells you step by step how to arrive at something. That's what the definition of an algorithm essentially is. If you would, compare a computer programming language with the English language. Declarative sentences state something. A boring example, but here's a declarative way of displaying whether two numbers are equal to each other, in Java:
Imperative sentences in English, on the other hand, give a command or make some sort of request. Imperative programming, then, is just a list of commands (do this, do that). Here's an imperative way of displaying whether two numbers are equal to each other or not while accepting user input, in Java:
Essentially, declarative knowledge skips over certain elements to form a layer of abstraction over those elements. Declarative programming does the same.