Does it mean that the interpreter cannot work unless whole of the program is in memory?
No. The whole program need not to be in memory. the parts are loaded into memory as and when required.
Means we cannot divide the program into modules and then have the modules interpreted as
and when needed (like we do with compilers)?
You can very well modularize your programs. but the required modules should be availble when required by interpreter.
And the bold line: the source code is always available
It means that it's the source code that runs, i.e. converted to machine specific instruction at run time. line by line without being converted to a different (intermediate) format. (as is done by compiler)
An interpreter may be a program that uses one the following strategies for program execution:
- executes the source code directly
- translates source code into some efficient intermediate representation (code) and immediately executes this
- explicitly executes stored precompiled code1 made by a compiler which is part of the interpreter system
The main disadvantage of interpreters is that when a program is interpreted, it typically runs more slowly than if it had been compiled. The difference in speeds could be tiny or great; often an order of magnitude and sometimes more. It generally takes longer to run a program under an interpreter than to run the compiled code but it can take less time to interpret it than the total time required to compile and run it. This is especially important when prototyping and testing code when an edit-interpret-debug cycle can often be much shorter than an edit-compile-run-debug cycle.