Hi, I have a short question probably not suited for an SO post: In a quite old, large code base I found this: ``` Type& foo() { return *_foo; //_foo is defined as: Type* _foo; }
// later in the code if (&foo()) { foo().bar(); // Type has a method bar() } ```
Is this how it is supposed to work? It looks strange to me, but the code does not crash and behaves as expected (compiling with MSVC).
References are not pointers.
8.3.2/1:
A reference shall be initialized to
refer to a valid object or function.
[Note: in particular, a null reference
cannot exist in a well-defined
program, because the only way to
create such a reference would be to
bind it to the “object” obtain...
The declaration of the class is the "contract", it tells the world what the class is. You can then either define the functions directly in the class, after the declaration of the class (like it's done here), or in a cpp file.
If you want to write your class in your main.cpp, you need to write everything in a single file, either like it's done here, or by defining the methods right in the class declaration.
Question: Does anybody know how many bits can be stored in one single address? I just made a string containing numbers and chars, found out that example address 6422208 were containing 2 numbers/letters or combination of these. Why?
@MZ97 It's not "two" letters/numbers it's an hexadecimal representation of a single character. ascii characters go from ~0 to ~127, you can take out your OS's calculator, in "programmer" mode and check the conversions between decimal and hexadecimal values.
@Permian Can't help you with that at the moment, sorry.
@MZ97 The 0x is just a way to tell that they're displayed as hexadecimal. Everything is stored as binary, the programs only displays them as hex, because, well, 2 characters are shorter to read, memorize and interpret than 8.
ah, that makes sense. so if i set A to point to the middle of the array, then kind of "by definition" i just have this free floating pointer that i'm doing arithmetic on
@MZ97 One address stores 8 bits. Your compiler, debugger, etc shows them to you as 2 hexadecimal characters, each hexadecimal character being associated to a string of 4 bits. Bits are stored in addresses, everything else is a convenience for representation to us, humans.
that makes sense. when it comes to storing coordinates in an array, do people generally just avoid negative coordinates, or have a more elaborate structure where the indices of the array don't correlate w/ the coordinate's position?
my initial thought was to use a 2d array where the indices would correspond to the (x, z) coordinates, and the value would correspond to the height
but that'd limit me to only positive coordinates (which isn't like... bad or anything). just wondering what people typically do when they need to (for whatever reason) represent negative coordinates
Hey! I have read a binary file and used fread to insert one byte of this file into 'unsigned char' variable. I want to access all the bits (eg. 0 to 7). Anyone who could help?
@AmagicalFishy You're not allowed to point outside the array except 1 past the end and you are only allowed to do pointer arithmetic when pointing to elements of the same array. If you have std::array<int, 42> a{}; int *p = a.data() + 10; p[-5] = 42; then that is legal. What Mgetz probably remembers is situations like int a[10][10]; int *end = &a[0][0] + 100;. I think that's not legal because that doesn't count as "same array" anymore and is technically UB.
I failed finding the relevant passage in the standard on a quick search to know for sure. Might got it another try later.
I used RtlCompressBuffer to compress a png image.
My problem is when I try to unpack it using RtlDecompressBuffer I get the following output (the image is incomplete).
What is wrong on this side?
Function:
DWORD FinalUncompressedBufferSize;
PBYTE OutputBuffer = PBYTE(LocalAlloc(LPTR, 4096));
...
Hi, Let's imagine that we have a certain object `int x` with a value, for example, 12345 - this value of `x` doesn't fit into the range of representable values for `char`, then the result of dereferencing the expression `*((char*)&x)` - UB?