As someone else mentioned, in C++ you have to consider ownership. That being said, the 3D networked multiplayer FPS I'm currently working on has an official rule called "No new or delete." It uses only shared and unique pointers for designating ownership, and raw pointers retrieved from them (using
.get()) everywhere that we need to interact with C API's. The performance hit is not noticeable. I use this as an example to illustrate the negligible performance hit since games/simulations typically have the strictest performance requirements.
This has also significantly reduced the amount of time spent debugging and hunting down memory leaks. In theory, a well-designed application would never run into these problems. In real life working with deadlines, legacy systems, or existing game engines that were poorly designed, however, they are an inevitability on large projects like games... unless you use smart pointers. If you must dynamically allocate, don't have ample time for designing/rewriting the architecture or debugging problems related to resource management, and you want to get it off the ground as quickly as possible, smart pointers are the way to go and incur no noticeable performance cost even in large-scale games.