You’ve been dismissive and inconsiderate the whole time, e.g. by suggesting others are somehow ignorant of how parsing or other languages work. I’d rather not relive this.
Indeed not looked hard enough: In 2.3. Character sets, item 3:
In both the source and execution basic character sets, the value of each character after 0 in the
above list of decimal digits shall be one greater than the value of the previous.
And this is above list of decimal digits:
0 1...
I do, but it’s tuples::transform (with the arguments flipped of course). I must have thought that one variant is enough, and I might as well pick the idiomatic one.
My first reflex was to say that I’m keeping _t, but I’m not sure that would be honest—maybe I am re-emphasising result_of as an unconscious reaction, hah!
At first I thought they should belong alongside e.g. variants and optional values, but they’re just too useful. So they do have their dedicated tuple/.
Are standard libraries like stdio, stdlib in C++ statically linked or dynamically linked?
I went through a few links on the main site. I think I now understand the difference between static linking vs dynamic linking but I am not sure how the standard libraries are linked? Sorry for being naive.
For instance, I write a small program and compile it with gcc myprogram.cpp. I use header files cstdio, cstring for my program. Where is the linking part? How did the OS manage it?
In the case of GCC, g++ source.cpp is shorthand for g++ -c source.cpp -o source.o; g++ source.o. The linking happens in the second command—by linking here it is meant a call of the system linker to produce a full executable binary.
Even if the library executable will be provided at the time the program is run (as is the case for dynamic linking), the linker needs the library executable at link-time as well. So you will see those libraries appear on the linker invocation.
I encourage you to write a simple library and a simple executable that uses it. Try linking statically and dynamically. That should familiarise you with the process and tools.
Has it not bothered anyone that despite the STL being "object-oriented", .find() is still not a member function of std::vector, as you'd expect it should be? I wonder if this is somehow a consequence of templating. — boboboboDec 7 '12 at 2:33
I mean, aside from its obligating name (the Standard Template Library)...
C++ initially intended to present OOP concepts into C. That is: you could tell what a specific entity could and couldn't do (regardless of how it does it) based on its class and class hierarchy. Some compositions of abilit...