# Functional Programming Vs Declarative Programming Vs Imperative Programming

I have been too used to Imperative Programming which is the usual way of telling the computer to perform step by step the procedure to get the final result. On the other hand, declarative programming just passes the input and expects the output without stating the procedure how it is done. The one I am confused about is Functional Programming. I know Functional Programming is a programming paradigm that treats computation as the evaluation of mathematical functions and avoids state and mutable data and is not a type of declarative language. However, I cannot still comprehend how it can work.

Let's take an example of executing the Fibonacci numbers.

Imperative Programming:

``````#include<stdio.h>
#include<conio.h>
main()
{
int n,i,c,a=0,b=1;
printf("Enter Fibonacci series of nth term : ");
scanf("%d",&n);
printf("%d %d ",a,b);
for(i=0;i<=(n-3);i++)
{
c=a+b;
a=b;
b=c;
}
printf("%d ",c);
getch();
}
``````

Declarative Programming:

``````Give the nth number and it will return the value of the nth number
``````

How does the Functional Program work?

Plus do correct me if my definitions are wrong. Please feel free to comment..

Your example of declarative programming above is not an actual program, so it's not a good example.

The main difference is between imperative and declarative. Functional is a particular kind of declarative.

C, C++, Java, Javascript, BASIC, Python, Ruby, and most other programming languages are imperative. As a rule, if it has explicit loops (for, while, repeat) that change variables with explicit assignment operations at each loop, then it's imperative.

SQL and XSLT are two well-known examples of declarative programming. Markup languages such as HTML and CSS are declarative too, although they are usually not powerful enough to describe arbitrary algorithms.

Here is an example computation (summing the income by gender, from a suitable data source) first written in an imperative language (Javascript) and then in a declarative language (SQL).

## Imperative programming

``````var income_m = 0, income_f = 0;
for (var i = 0; i < income_list.length; i++) {
if (income_list[i].gender == 'M')
income_m += income_list[i].income;
else
income_f += income_list[i].income;
}
``````

Notice:

• explicit initialization of variables that will contain the running totals;
• explicit loop over the data, modifying the control variable (`i`) and the running totals at each iteration;
• conditionals (`if`s) are only used to choose the code path at each iteration.

## Declarative programming

``````select gender, sum(income)
from income_list
group by gender;
``````

Notice:

• memory cells to contain running totals are implied by the output you declare you want;
• any loop the CPU will need to perform (eg. over the income_list table) is implied by the output you declare you want and by the structure of the source data;
• conditionals (eg. `case` in SQL) are used in a functional way to specify the output value you want based on the input values, not to choose a code path.

## Functional programming

As I mentioned above, SQL's `case` is a great example of the functional way of programming, which is a restricted subset of Declarative programming in which the desired computation is specified by composing functions.

Functions are things that accept inputs and return outputs (eg. `case`, `sum()`…)

Composition means chaining two or more together by specifying how the output of one is fed as the input to the next (typically by writing one inside the other.) Finally the whole composition, which is still itself a big function, is applied to the available inputs to get the desired output.

In this snippet I am declaring the output I want by composing the functions `sum()` and `case`. This is called functional programming:

``````select
sum(case when some_flag = 'X' then some_column
else some_other_column end)
from
...
``````

If the composition of two or more functions and their application to the input data are the only constructs available in a given laguage, that language is said to be purely functional. In those languages you will notice the complete absence of loops, variable assignment and other typically imperative statements.

Edit: I recommend watching some of Anjana Vakil's talks on functional programming in Javascript, to get a better idea of what it's about.

It is an erroneous oversimplification to claim that imperative programming is distinguished from declarative programming by erroneously assuming a lack of ordering in the latter.

Pure functional programming is not prevented from expressing order and implementation, rather it is less able to express random accidental order at the operational semantics level. Also it has the advantage of "Don't repeat yourself" (DRY), which is a form of declarative style (see below).

However, pure functional programming does not guarantee declarative high-level semantics. For this, you need to apply the correct definition of declarative vs. imperative.

• Update: please refer also to the more exhaustive explanation at my other answer on the definition of declarative programming. – Shelby Moore III Nov 25 '15 at 22:10

Think of c filters. Where you read from stdin and write to stdout. The code may be imperative but thr program is used like a a function. Say you have a program 'function, then piping to it:

`cat foo  |function |tee bar`

Will filter the contents of foo through function then through the filter tee to both write to stdout and create bar . Think also of grep and awk the iterator in both is implied and they are used like functions.

Another useful explanation I found in the Pro XAML with C#:

## On Declarative

In declarative programming, the source code is written in a way that expresses the desired outcome of the code with little or no emphasis on the actual implementation.

## On Imperative

Imperative programming is the opposite of declarative programming. If declarative programming can be thought of as declaring what the desired outcome is, imperative programming can be viewed as writing lines of code that represent the instructions of how to achieve the desired outcome.

Processes transform inputs into outputs. Computer programs are lists of hardware operations that when executed, will perform those processes on whatever inputs they are fed. Not all computer languages can be used to write programs that generate processes. Some computer languages just describe relationships between data, and your question is well-worded to specifically ask about programming languages that define processes.

Original imperative languages like Assembly are written in terms of machine operations. The primitives are `move-data-into-register-x, add-register-x-to-y-store-in-y`… Imperative languages describe processes in terms of how they are fulfilled by some specific data machine.

Declarative languages (*functional languages are a subset of them) are written in terms of non-machine primitives. Math is a declarative language, with number axioms as a few of its primitives. Declarative languages describe processes more clearly, because they express transformations in terms of the original problem domain.

eg 1. `Fib(0), Fib(1)=1, Fib(n) = n-1 + n-2`

eg 2. `x = [x in 1..100 if x mod 3 != 0]`

*The term functional language was coined when computer programmers mostly wrote machine instructions. Now functional language concepts like side-effect-free-procedures and list expressions, have become part of mainstream imperative languages. So functional language doesn’t distinguish much beyond declarative language.

Declarative programs don’t obviously map to machine instructions. Good examples of pure declarative languages are math, Lisp, Prolog and Wolfram Alpha. HTML, SQL, XSLT, SDLang are languages that define data relationships, they are not programming languages of the type you are asking about. You don't create computer processes with HTML, SQL, XSLT or SDLang.

These days, modern high level languages are really a mix of imperative and declarative paradigms as the terms were initially coined. Good high-level class designs, almost describe what happens to the data through the method names. So the terms are little anachronistic IMO.