C++ is just as “safe” as Rust if you use modern language features (std::unique_ptr, for instance). I would argue that anyone who says Rust provides better memory safety than C++ most likely is not familiar with modern C++ and still sees the language as “C with classes.”
As someone whose first language was C, I plan to never use C++ for anything more than programming an Arduino precisely because of the multitude of pointer types. A pointer should just be a pointer. Having five hundred different flavors of pointers is confusing as fuck.
That was my first take as well, coming back to C++ in recent years after a long hiatus. But once I really got into it I realized that those pointer types still exist (conceptually) in C, but they’re undeclared and mostly unmanaged by the compiler. The little bit of automagic management that does happen is hidden from the programmer.
I feel like most of the complex overhead in modern C++ is actually just explaining in extra detail about what you think is happening. Where a C compiler would make your code work in any way possible, which may or may not be what you intended, a C++ compiler will kick out errors and let you know where you got it wrong. I think it may be a bit like JavaScript vs TypeScript: the issues were always there, we just introduced mechanisms to point them out.
You’re also mostly free to use those C-style pointers in C++. It’s just generally considered bad practice.
C++ is just as “safe” as Rust if you use modern language features (std::unique_ptr, for instance). I would argue that anyone who says Rust provides better memory safety than C++ most likely is not familiar with modern C++ and still sees the language as “C with classes.”
I would argue that anyone who says C++ provides a similar level of memory safety as rust hasn’t done serious development work in either language.
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As someone whose first language was C, I plan to never use C++ for anything more than programming an Arduino precisely because of the multitude of pointer types. A pointer should just be a pointer. Having five hundred different flavors of pointers is confusing as fuck.
That was my first take as well, coming back to C++ in recent years after a long hiatus. But once I really got into it I realized that those pointer types still exist (conceptually) in C, but they’re undeclared and mostly unmanaged by the compiler. The little bit of automagic management that does happen is hidden from the programmer.
I feel like most of the complex overhead in modern C++ is actually just explaining in extra detail about what you think is happening. Where a C compiler would make your code work in any way possible, which may or may not be what you intended, a C++ compiler will kick out errors and let you know where you got it wrong. I think it may be a bit like JavaScript vs TypeScript: the issues were always there, we just introduced mechanisms to point them out.
You’re also mostly free to use those C-style pointers in C++. It’s just generally considered bad practice.