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Is a garbage collector needed? Is it a good or a bad thing?

How does it compare to the other programming languages?

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I would like to tackle this problem space with the evolution of programming languages.

When people just started doing programming, they expressed every single step the program does on the processor - e.g. to do some manipulation with the data in memory, you needed to load this data into a processor register, perform the operation and store it back into memory for future reference (very low-level way to do programming - developers were writing machine instructions basically using Assembly, and there were no special constructions like if or for/while loops).

The next evolution step was, I would say, C programming language (there were more experiments before C shaped out, but C is well-known these days), where you don’t need to worry about specific platform Assembly language and have more concepts at your disposal, but still, when you want to have an array of elements, you have to use quite low-level operating system functions to allocate some memory for your array (malloc), and when you don’t need it, you have to explicitly let this memory back to the operating system (free).

Developing bigger projects people were constantly forgetting to do free (causing memory leaks) or were calling it multiple times (this crashes the app). Thus, the clever idea raised to implement a system (garbage collector), which registers all the allocated memory and calls free when it is not used (garbage collector sits in background and checks regularly what memory can be cleaned up). The well-known languages with garbage collectors are Java, C#, Python, JavaScript, Ruby, PHP, Haskell. You don’t need to care about memory management in these languages, you just create new objects, and they will get automatically cleaned up from memory when you already don’t use them anywhere else.

C, C++, Rust do not have this garbage collector job cleaning up in background the memory you allocated which you don't need anymore, but the memory needs to be cleaned up. In C++ and Rust (in contrast to C), you don’t need to do this explicitly calling free function; the execution scope is used to determine the end of life and the compiler automatically inserts the "free" function for you (read more about destructors and RAII in C++ and drop methods in Rust).

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    Why is this valid answer downvoted? Did they make any invalid claims? Everything seems correct to me. – baseman101 Oct 30 '20 at 2:42

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