Intermediate C++ Game Programming Tutorial 21
Smart pointers. I know pointers, I have the smartest pointers. In this video we learn about std::unique_ptr<>
, which is by far the most frequently-used and important smart pointer. std::shared_ptr<>
can go suck on an egg.
Topics Covered
-
std::unique_ptr<>
- How to pass (and not to pass) smart pointers
- Custom deleters
Video Timestamp Index
- Risks of memory leaking when using pointers and (dynamically allocated) heap memory 0:30
- Because you forget to delete memory
- After copy constructing objects that contain pointers to ("that own") dynamically allocated memory: upon leaving scope, your program will try to delete the same memory twice, leading to an Access Violation exception
- Calling a function the returns a pointer to dynamically allocated memory without assigning it, "dropping" that pointer (it is not being owned anymore)
- WORK-IN-PROGRESS
Bonus Video
The addition of smart pointers to Surface
has allowed us to reduce the amount of code we need to write for Surface
, making it simpler and correct by default. But we still need to write logic for those pesky copy operations... What if we used a container like std::vector
! Then all that copying bullshit will be taken care of for us.
This is what we do in the bonus video. The only problem is, although adding std::vector
will not make our release build any slower (the compiler optimizes out all of the extra abstraction for us), it does make the debug build slow. Usually, we don't worry about performance under debug, but for stuff like PutPixel
, since we're calling it potentially millions of times per second, if our debug build is too slow it will become unusable for development and testing.
So the second goal of this bonus video is to optimize the debug build so that PutPixel
-related operation run very fast, regardless of the fact that we are using std::vector
to manage the array of pixels. The end result is that we can achieve rendering speeds which are over 100x faster than without the optimized debug configuration.
Notes
Although Chili uses std::unique_ptr<>
in Surface
, which allows us to = default
the move members and leave the destructor undeclared, the astute student will realize that Surface
should actually be setting the width
and height
of the donor surface to 0
when pilfering, so we actually still need to declare move members in this case. This is done in the Bonus Video where we perfect Surface
.
Also note one major mistake: when we convert MemeFighter
to use std::unique_ptr
for owning its Weapon
, we remove the destructor (because we no longer need to manually delete
the heap Weapon
object). However, we still need to mark the destructor as virtual
so that the proper derived destructor gets called in polymorphic situations. The correct course should have been to change the destructor to virtual ~MemeFighter() = default;
(a commit has been pushed after the fact that fixes this issue).