I had this already....is it more common to combine standard ctor and direct initalisation with by using default values for the parameters ? coliru.stacked-crooked.com/a/ddfb9a49c8895b41

The nameing for getter methods getXXX() const; refers that only to get a copy of an member or is that method indentifier also possible for maybe something that I local construct, calculate and then as result return ?

Trying to print out contents of a variable to debug it(can't use the debugger because I have to compile and run it manually outside of Visual Studio because of the parser I'm using), but the cout doesn't do anything after I start an ostringstream. Any cout before the stringstream does what it should though.

I tried to break out the problem to make a minimal example, but the problem disappeared when I isolated the function.

Which is weird, because the input is always the same, so I was able to hardcode the input into the isolated version to test it.

Nope, that wasn't recreating it. Also I did notice I didn't populate the vector. Didn't recreate the problem even when I populated it.

Ah, the problem was I was trying to take "length - 4" out of strings which were shorter than 4-5 characters long.

Hi

I don't know if this is the right place to ask, but anyway. Isn't divide and conquer linear? Because at the end of the day you still have to go through every element in the first half then second

it depends on the problem in context

clearly in some cases D&C won't give you any benefit

@VioAriton You usually use D&C in cases where it improves complexity. For the obvious example, consider a binary search in a sorted collection. If I'm looking for 1000, and the value of the middle element is 500, then no, I don't have to look at the whole first half (or any part of the first half) to verify that it doesn't contain 1000--that's guaranteed by the fact that it's sorted and the middle element is only 500.

Yes, thank you. I just have these exercises to add all the numbers, even, odd using D&C. I've done them using recursion, but I thought what's the point since It's linear anyway. Well, the addition one is a bit faster than linear, since I check if the start position +1 equals the end, this way I calculate 2 numbers. But yeah, I guess it works just for some specific problems, not all

I'm simulating assembler x86 in C++, trying to recreate the return jumps back to the last line under a certain label, but I'm not sure how I'll "save labels" to jump back to them without using the GCC solution of void pointers.

The wider task is to make function calls work. Functions have their own label, and then a goto statement is used to jump to them(first pushing arguments to a stack, then placing a label beneath the function call to be used later to jump back below the call etc.).

Is there any other way to do this "return to a label"? How does C++ itself do this when using the return-statement?

the ret opcode will pop the instruction address from the stack and jump to it

return compiles to that (plus some housekeeping)