@samjoe unless you really want to store initial order then sort (i.e. without using lots of additional memory) and then restore the order - you have little to next choice other than make a sorted copy.
@samjoe it is easy to tell if described approach will save you memory (you need to compare pointer size with object size) but if it saves you CPU cycles or not depends on compiler.
@samjoe I was debugging for loop whith semicolon inserted between the loop body and for() once, spent a good hour on it. I never said that you are stupid.
Considering that there is 99,9999% chance that compiler is more precise and has less bugs than you you should think twice before ignoring what it sais.
Anyways, this is not the problem with the code which you posted which is clearly outside main because there are no local functions except class methods.
And unless you post the whole code (or just the minimal code causing same problem) we can't help you.
Two questions. 1. the question is more about C. Is there any analogue to following snippet in C (i.e. is that possible to have an object on allocated char array).? Due to C's concept of lifetime (starts on decalration/allocation function's return) I have doubts. alignas(T) char store[sizeof(T)]; new (store) T; 2. Is this a good idea to copy uint8_t array with memcpy (what if CHAR_BIT != 8, is there any protection from standard for me on this case).?
@GreenTree "Is there any analogue to following snippet in C (i.e. is that possible to have an object on allocated char array).? " - yes but you will have to either call destructor manually or use smart pointer for that.
"2. Is this a good idea to copy uint8_t array with memcpy (what if CHAR_BIT != 8, is there any protection from standard for me on this case).?" `char` can't be less than 8 bits long. If implementation has more than 8 bit chars it should take care of extra bits if it supports UTF8.
i meant is there any analogue in C. (the snippet provided is in C++). @milleniumbug _Alignas(struct T) char[sizeof(struct T)]; and then single option is just perform type punning.
uint8_t is not guaranteed to exist: http://en.cppreference.com/w/cpp/types/integer and there is nothing preventing you from using just 8 bits of aby greater number of bits.
There is no problem in using existing implementation with bigger bytes except those relying on overflows and signed conversion unportably.
also, memcpy copies in terms of unsigned char units so it literally doesn't matter, for standard purposes, char are bytes and char occupies a single byte
I can't see how knowing eof ahead of failed read requires any overhead. Like, when istream is pipe input eof() can just block until pipe signals eof and when istream is file the implementation can check the file size against consumed data size. So, really, it is just the question about whether eof() will be blocking or not.
@sehe now that you asked me I got enlightened. I have a method which consumes input and I was checking for eof() prior to calling it. Instead I need not to check for eof(), I need to check the result of method.