Ah, my own headers are shorter than the Boost ones but the final preprocessed source for the test program ends up with double the number of lines with my stuff as compared to Boost.
Is there a tool to tell (and sort) where those lines comes from?
@DeadMG Erm.. You're too slow? The guy actually had an answer and conducted an orderly, polite conversation.
@DeadMG You may want to pick your battles/review your stance? AFAIR it is not forbidden for certain individuals to enter this room (unless banned, I guess)
@sehe Preprocessed source is 80k+ lines for the final program. I'm trying to get an idea of the cost of the includes, not where it's from (my library is somewhat sane on that front I think).
Ah, my own headers are shorter than the Boost ones but the final preprocessed source for the test program ends up with double the number of lines with my stuff as compared to Boost.
I thought you were saying that all those lines magically came from something other than boost? It should be pretty easily grepped (no need to read the whole lot)?
@sehe Indeedy. A no-op programs ends up with 80k+ lines and takes 3.4s to compile with just variant.hpp compared to 40k+ lines and 1.5s with the (somewhat) equivalent Boost.Variant headers.
What are the :g/foo/bar/ incantations and the like called in Vim? That I may google/look for help.
@shiplumokaddim I don't think we do closevote requests in this room. Never seen one. We will moderate all questions related to C++ (sometimes Haskell, C, C# too)
@LucDanton Yes
(@shiplumokaddim well, we do request assistance, but on relevant questions)
@LucDanton well, just type_traits.hpp on boost 1_49 takes 36234 lines for a noop program here
@LucDanton Are you sure the difference is not mainly that Boost is staying C++03 compatible, and as such doesn't include the stdlib <type_traits>, etc?
@StackedCrooked (With in reason) humans can't be programmed to do things completely unconditionally. Even with the must inhuman mental conditioning, a person is still has the (possibly apparent, but lets no go there) free will to break with the 'training'
@StackedCrooked not sure how that relates, or perhaps I am not remembering causality correctly. The notion that every thing you do will results in you having to do something else?
@StackedCrooked yeah, not sure how that relates though. Though it is odd that we have this perception of free will. I like think we really do have free will, that are actions are not predetermined, but as long as I can continue with out any real reason to doubt this, I see no reason to worry about it
@sehe ahhh PHP, my first steps in programming, if your going with the notion that HTML is not programming
damn, I need sort out all these reminders. For each meeting, I get reminded by Outlook, SameTime, my phone and Google Calender joins in half time as well
@user1131997 probably a reference to that fact you ask a question and then seem to run away for a while, it's no a problem to me. I don't expect people to report there every move
> Private class variables should have underscore suffix.
The thing is, it is a good idea to be consistent. Underscores are just fine except on global or namespace level names (there they are reserved for the standard library implementations)
I can see the logic in having some sort of suffix or prefix to indicate private variables, but I personally try to avoid needing to. so I would aim for something like setLength(int value){length = value;}
thats the thing actually, I still can't decide wether to use getters/setters
I know its bad to use getters/setters when its just going to change the private member, I just hate the inconsistency when I need a getter/setter to do something#
@Ell Why would the lowercase first character suggest it is special? Rather, it makes it unspecial, since it confirms that there is no need to mark the word boundary since it isn't inside an identifier. That leaves you more room to encode information (such as: UpperCase for public members, lowerCase for privates etc.)
I used to use someMember for a long time, but if it's a name like size, you find a lot of local variables, argument names and other stuff, so m_size allows to filter'em out
@Ell technically, no. 101+101=202. Though I get the feeling you mean binary, I forget the conventional prefix for that, but as a binary add you are correct
@thecoshman Imho, it depends, when bitmasking or when working with byte-aligned numbers hexadecimal is much easier. But for general arithmetic, yeah, go with what you're used to
normally, you would right a numbers from the biggest digit to the smallest, such as Hundreds, Tens, Units. It ends in the smallest 'unit' so is little endian
big endian is sort of the opposite
if we have a (binary) numbers 1101 0010 and converted it from little to big endian we would get 0010 1101, at least that is what I understand to be the normal convention
@Ell Historical mostly. If you look at big-endianness it makes sense because all bits are in the right order. When you want to add them all at once you have no problems. Hwever if you want to add byte by byte, you have to start with the last one, remember the carry, go one byte back, repeat. In little endian they're in the right order for this.
On modern hw I don't think there's any practical advantage for the one or the other. Everything will be mapped as efficiently as possible in the registers anyway.
In networking there might be preferences to get the least significant or most significant part first (e.g. to start routing as soon as the first byte is in). Usually it comes down to big endianness there, but exceptions exist
ehm, when it comes down to bit numbering most people use a little-endian scheme yes (we usually call the least significant bit "bit 0"). This is little endian because the bit is at the lowest "address". However this has not necessarily anything to do with internal representation.
next to that, in most architectures the left most position is usually the one with the lowest address, so your example is big endian, not little endian
And no, there's no problem. In general there's no ambiguity where a type is expected as opposed to an expression (which will make use of the name of the variable). For those cases where there is an ambiguity, then struct word distinguishes the type from the variable. You know, like in C.
Yeah, we have something similar (only the title is linked to MSc). I used my title exactly once up until now and it didn't even have to do anything with my profession. For interviews they just looked at what I studied and did beyond that, not which letters are in front of my name
@CatPlusPlus Important for what? I know in some industries (mostly chemics) a phd is a prerequisite for certain jobs/career paths. But as far as I know that are more or less the exceptions.
@thecoshman in this case you need a cast. C++'s strong typing kicks in here.
in the switch, there's an implicit conversion. That's why I said try what you want to do and stick with that. I don't try to get my head around all the rules here.