Can anyone explain the difference between Scripting Language and Programming Language please?
Also can you state some examples for each. I have Googled a lot but I always find the best answers from Stack Overflow.
Scripting languages are programming languages that don't require an explicit compilation step.
Some examples of "scripting" languages (e.g., languages that are traditionally used without an explicit compilation step):
- VBScript and VBA
And a small smattering of ones traditionally used with an explicit compilation step:
- Java (but note that Java is compiled to bytecode, which is then interpreted and/or recompiled at runtime)
...and then you have things like Python that sit in both camps: Python is widely used without a compilation step, but the main implementation (CPython) does that by compiling to bytecode on-the-fly and then running the bytecode in a VM, and it can write that bytecode out to files (
.pyo) for use without recompiling.
That's just a very few, if you do some research you can find a lot more.
To understand the difference between a scripting language and a programming language, one has to understand why scripting languages were born.
Initially, there were programming languages that was written to build programs like excel, word, browsers, games and etc. These programs were built with languages like c and java. Overtime, these programs needed a way for users to create new functionality, so they had to provide an interface to their bytecode and hence scripting languages were born.
Lastly, scripting languages are also considered programming languages (although some people refuse to accept this) - the term we should be using here is scripting languages vs compiled languages.
The differences are becoming fewer and less important. Traditionally, scripting languages extend existing programs... I think that's the main definition of "scripting" is that it refers to writing a set of instructions for an existing entity to perform. However, where scripting languages started with proprietary and colloquial syntax, most of the prevalent ones these days owe some relationship to C.
I think the "interpreted vs compiled" distinction is really a symptom of extending an existing program (with a built in interpreter), rather than an intrinsic difference. What programmers and laymen are more concerned about is, "what is the programmer doing?" The fact that one program is interpreted and another is compiled means very little in determining the difference in activity by the creator. You don't judge a playwright on whether his plays are more commonly read aloud or performed on stage, do you?
Programming Language : Is compiled to machine code and run on the hardware of the underlying Operating System.
*** But there are situation where a programming language is converted to interpreter and vice-verse like use have a C interpreter where you can 'C' Script. Scripts are generally written to control an application behaviour where as Programming Language is use to build applications. But beware that the demarcation is blurring day - by - day as an example of Python it depends on how one uses the language.
Scripting languages are a subset of programming languages.
- Scripting languages are not compiled to machine code by the user (python, perl, shell, etc.). Rather, another program (called the interpreter, runs the program and simulates its behavior)
- Some programming languages that are not scripting (C, C++, Haskell, and other 'compiled' languages), are compiled to machine code, and is subsequently run.
I think that what you are stating as the "difference" is actually a consequence of the real difference.
The actual difference is the target of the code written. Who is going to run this code.
A scripting language is used to write code that is going to target a software system. It's going to automate operations on that software system. The script is going to be a sequence of instructions to the target software system.
A programming language targets the computing system, which can be a real or virtual machine. The instructions are executed by the machine.
Of course, a real machine understands only binary code so you need to compile the code of a programming language. But this is a consequence of targeting a machine instead of a program.
In the other hand, the target software system of an script may compile the code or interpret it. Is up to the software system.
It gets more confusing since scripting languages have evolved to become very powerful. So they are not limited to create small scripts to automate operations on another software system, you can create any rich applications with them.
Python code targets an interpreter so we can say that it "scripts" operations on that interpreter. But when you write Python code you don't see it as scripting an interpreter, you see it as creating an application. The interpreter is just there to code at a higher level among other things. So for me Python is more a programming language than an scripting language.
Back when the world was young and in the PC world you chose from .exe or .bat, the delineation was simple. Unix systems have always had shell scripts (/bin/sh, /bin/csh, /bin/ksh, etc) and Compiled languages (C/C++/Fortran).
To differentiate roles and responsibilities, the compiled languages (often referred to as 3rd Generation Languages) were seen a 'programming' languages and 'scripting' languages were seen as those that invoked an interpreter (often referred to as 4th Generation Languages). Scripting languages were often used as 'glue' to connect between multiple commands/compiled programs so that the user didn't have to worry about a set of steps in order to carry out their task - they developed a single file, that delineated what steps they wanted to accomplish, and this became a 'script' for anyone to follow.
Various people/groups wrote new interpreters to solve a specific problem domain. awk is one of the better-known ones, and it was used mostly for pattern matching and applying a series of data transforms on input. It worked well, but had a limited problem domain. The expansion of that domain was all but impossible because the source code was unavailable. Perl (Larry Wall, principle author/architect) tool scripting to the next level - and developed an interpreter that not only allowed the user to run system commands, manipulate input and output data, supported typeless variables, but also to access Unix system level APIs as functions from within the scripts themselves. It was probably one of the first widely used high-level scripting languages. It is with Perl (IMHO) that scripting languages crossed the arbitrary line and added the capabilities of programming languages.
Your question was specifically about Python. Because the python interpreter runs against a text file containing the python code, and that the python code can run anywhere that there is a python interpreter, I would say that it is a scripting language (in the same vein as Perl). You do not need to recompile the user python command file for each different OS/CPU Architecture (as you would with C/C++/Fortran), making it significantly more portable and easier to use.
Credit for this answer goes to Jerrold (Jerry) Heyman. Original thread: https://www.researchgate.net/post/Is_Python_a_Programming_language_or_Scripting_Language
I'm in a discord with the fact that languages using interpreters are scripting languages and the one gets compiled are programming languages. We can develop an interpreter or compiler for any language. Interpreted environment suits web scripting better and makes it easier that's why we have it.
Well, I feel like there isn't any difference between scripting language and programming language. It's all about getting the job done. When it comes to web related tasks we call them Web scripts considering small task and that way we may also call the system related tasks as system or OS level scripts and the programming language we use to accomplish those tasks as system scripting languages.
Also it's not so that one cannot write system level code in Python and Web scripts in C language (definitely one can do if we can establish the required platform and environment). But all it takes is too much of effort which may affect the time constraint for the rapid development and the small bit of latency reduced is not going to benefit us much in web scripts. But the wise versa is not true if we perform system level tasks in Python.
Bottom line: language selection depends upon the nature of the task to be performed and discriminating a language as scripting language is a myth.
Examples of scripting languages
Advantages of Scripting languages:
Simple – Scripting languages are easier to write than programming language.
Fewer Lines of Code (LOC)
Programming languages like Java are compiled and not interpreted by another application in the same way.
Examples programming languages
- C++ and
Lets take an example in
Basically in Scripting languages we write a code in a sequence which execute existing methods in a sequence to complete our job. Entering numbers and formula in a digital calculator to do a operation is also a very example of scripting language.We should note that the compiler/run-time-environment of every scripting language is always written in programming language in which we can add more features and methods and can write new libraries.
PHP This is language which is somewhat b/w programming and scripting. We can add new methods by adding compiled extensions written in another High Level Language. We can't add high level features of networking or creating image processing libraries directly in PHP.
Apart from the difference that Scripting language is Interpreted and Programming language is Compiled, there is another difference as below, which I guess has been missed..
A scripting language is a programming language that is used to manipulate, customize, and automate the facilities of an existing system. In such systems, useful functionality is already available through a user interface, and the scripting language is a mechanism for exposing that functionality to program control.
Whereas a Programming Language generally is used to code the system from Scratch.
Thanks Nitish K. Jha
Scripting languages are programming languages that people consider as scripting languages. It's an artificial category with no clear boundary, and where every proposed rule has an exception.
The classical rules used to say that a language is a scripting language are characterizing, not defining. If a language satisfies a number of the rules, there is a good chance it's considered a scripting language. If not, there's a good chance it's not. The rules usually include:
- It's intended for small "scripts", not large programs.
- It's embedded in another application, used for small modifications of that application.
- It's interpreted rather than compiled.
- It's intended for novice programmers, not professionals.
- It's name ends in "script".
I would add:
- A scripting language is a programming language where almost all errors are detected at runtime.
That is, it could be an interpreted language.
If a programming language has significant "compile-time" behavior where it analyses the code and reports errors without running the program, like type errors from C, Java or C#, then it's most likely not considered a scripting language.
Traditionally a lot of scripting languages have been interpreted directly from source, but the more popular of them have gotten more performant implementations that precompile the code, like Python's
If the language could be implemented by an interpreter, which only looks at the source code as it is running it, then it's likely considered a scripting language. Whether it actually is implemented that way is not important, but if it can be, then it also can't require extensive compile-time error checking of the code.
If the language provides a useful static semantics which helps detect errors (other than syntax errors) without needing to run the program, it's probably not a scripting language.
There are always exceptions, usually based on tradition around a language more than any actual rule. BASIC is not usually considered a "scripting language", even though it satisfies pretty much all the criteria that anyone has ever used for being one. That's why Visual Basic Script had to add the "script" to the name, to distinguish itself from Visual Basic, a "real" programming language intended for larger programs.
BASIC is also an old programming language, like COBOL and Fortran, from before people expected static analysis from a language, and basically before "scripting languages" were even a thing.