template metaprogramming is a foreign beast to me...somebody told me like 15 years ago that c++ templates were turing complete but I couldn't guess at the time how to make it work.
@user411102 I should have maybe started with simple examples. If I went back and worked through the problems I'd probably grasp it a lot better.
i found recursion pretty easy too -- and i started out with old-school basic (with the line numbers and all global variables etc etc). according to some sources, i should've been forever damaged by that...lol
you shouldn't lose all your partitions unless the bad sector was sector 0 (the mbr)
and in that event, you're kinda hosed. sure, you could get the data off with some tools, but that drive is no longer bootable, and sector 0 holds the partition table (unless your drive is set up for gpt)
yeah, you'd have to know where each partition starts and ends
which isn't terribly difficult to guess at...any sector that ends in 0x55 0xAA (or is it 0xAA 0x55?) has a chance of being a boot sector, which would be the first sector in a partition
@user411102 a buddy once told me to try sticking the drive in the freezer (inside a ziplock bag) for a while, then hook it up and try to get stuff off. I have no idea if it would work or not, but could be a fun experiment :)
his point was that heat causes distortion on the platters, and can mess with the heads, and that could temporarily help you get data off the drive...I am just curious if it would ever actually work
@CatPlusPlus Hm, yeah... well, we don't now the full story. Maybe he's reading many files, and for each file he has a separate criterion to tell whether something is a float or an int...
Way back in the day I was looking at the XFree86 source, and parsing the protocol relied heavily on heavily nested unions and structs. It made me want to puke.
@CatPlusPlus I can deal with that, but is there any reason they're still around other than C compatibility?
@cpx I'd say instance instead of copy there - copy seems to imply copy constructors or same origin or something, but they're two totally separate instances
I'm reading about the libstdc++ extensions -- there's some great stuff! Debug iterators, debug containers, automatic parallelisation, unintrusive profiling and suggestions ("change vector to list")...
Why doesn't C++ contain a runtime function to get the array size from a pointer obtained from new T[N]? It'd be cheap and easy. Then unique_ptr<T[]> could have a size() member.
The microwave heats stuff selectively, so only the food itself gets hot. So, you just have the scenario of "hot food on a plate", which any self-respecting plate should support.
@cpx When you define non-static data members inside a class, those definitions don't actually reserve any memory. So yes, I would say no linkage, but I'm not a linkage expert.
@KerrekSB were the gnu extensions you were talking about all documented in the "extensions" section? It looks like there's other useful stuff sprinkled about.
@TonyTheLion std::map has a member function find that is much more efficient.
@KerrekSB If you say new int[3], it's totally possible that the runtime system will actually allocate (and later release) space for 8 integers instead.
@CatPlusPlus Some people seem to believe that if a class offers some functionality, it must be less efficient than a simpler class that doesn't offer that functionality, even if you never use it.
if you limit yourself to 32bit sizes and capacity on a 64bit system and to 16bit sizes and capacity on a 32bit system then you too can end up using only two pointer spaces
have this weird problem...have a base class A and a class B inheriting A whose members are private. Friend function of B cant seem to access protected members of class A
@CatPlusPlus Well, the argument was about "default dynamic array". One could discuss whether contiguity or cheap reallocation is the preferable default trait
@CatPlusPlus Vectors certainly have their place when contiguity is required, but the question is whether that's the "typical" requirement for a dynamic array.
Deques never need to move elements, which might be a plus
If I'm writing a C++ library, and I pretend to want to easily add a C interface later (I have never done such a thing so I don't know what issues I'll run into), is it better to use member functions or free-standing functions with a ref parameter to the class it would otherwise be defined in? I would guess the freestanding function can easily be adapted to accept a void* to the hidden raw C object thing that simulates a class for the C layer.