What’s the difference between compiled and interpreted language?
The difference is not in the language; it is in the implementation.
Having got that out of my system, here's an answer:
In a compiled implementation, the original program is translated into native machine instructions, which are executed directly by the hardware.
In an interpreted implementation, the original program is translated into something else. Another program, called "the interpreter", then examines "something else" and performs whatever actions are called for. Depending on the language and its implementation, there are a variety of forms of "something else". From more popular to less popular, "something else" might be
Binary instructions for a virtual machine, often called bytecode, as is done in Lua, Python, Ruby, Smalltalk, and many other systems (the approach was popularized in the 1970s by the UCSD P-system and UCSD Pascal)
A tree-like representation of the original program, such as an abstract-syntax tree, as is done for many prototype or educational interpreters
A tokenized representation of the source program, similar to Tcl
The characters of the source program, as was done in MINT and TRAC
, because both are interpreted languages. Java (interpreted) and C (or C++) (compiled) might have been a better example.
Why the striked-through text? As this answer correctly points out, interpreted/compiled is about a concrete implementation of a language, not about the language per se. While statements like "C is a compiled language" are generally true, there's nothing to stop someone from writing a C language interpreter. In fact, interpreters for C do exist.
Basically, compiled code can be executed directly by the computer's CPU. That is, the executable code is specified in the CPU's "native" language (assembly language).
The code of interpreted languages however must be translated at run-time from any format to CPU machine instructions. This translation is done by an interpreter.
Another way of putting it is that interpreted
languages are code is translated to machine instructions step-by-step while the program is being executed, while compiled languages have code has been translated before program execution.
Here is the Basic Difference between Compiler vs Interpreter Language.
- Takes entire program as single input and converts it into object code which is stored in the file.
- Intermediate Object code is generated
- e.g: C,C++
- Compiled programs run faster because compilation is done before execution.
- Memory requirement is more due to the creation of object code.
- Error are displayed after the entire program is compiled
- Source code ---Compiler ---Machine Code ---Output
- Takes single instruction as single input and executes instructions.
- Intermediate Object code is NOT generated
- e.g: Perl, Python, Matlab
- Interpreted programs run slower because compilation and execution take place simultaneously.
- Memory requirement is less.
- Error are displayed for every single instruction.
- Source Code ---Interpreter ---Output
A compiler, in general, reads higher level language computer code and converts it to either p-code or native machine code. An interpreter runs directly from p-code or an interpreted code such as Basic or Lisp. Typically, compiled code runs much faster, is more compact, and has already found all of the syntax errors and many of the illegal reference errors. Interpreted code only finds such errors after the application attempts to interpret the affected code. Interpreted code is often good for simple applications that will only be used once or at most a couple times, or maybe even for prototyping. Compiled code is better for serious applications. A compiler first takes in the entire program, checks for errors, compiles it and then executes it. Whereas, an interpreter does this line by line, so it takes one line, checks it for errors, and then executes it.
If you need more information, just Google for "difference between compiler and interpreter".
It is a very murky distinction, and in fact generally not a property of a language itself, but rather of the program you are using to execute code in that language.
To compile source code is to run a program on it that generates a binary, executable file that, when run, has the behavior defined by the source. For instance, javac compiles human-readbale .java files into machine-readable .class files.
Interpreted language is executed at the run time according to the instructions like in shell scripting and compiled language is one which is compiled (changed into Assembly language, which CPU can understand ) and then executed like in c++.
protected by Community♦ Mar 8 '16 at 21:26
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