Example: 0b100000000000000000000000000000000 can be expressed as 1 << 32, instead

or if you want to confuse people ~0 << 16

we need new numeric literals, hexadecimal gets a little unreadable too with things like SIMD registers. Base64 is too unreadable with its upper and lowercase letters, so I propose Base32 :P

written as 32bVV00

oh wait that would mean 5-bit packets per symbol instead of nibblets, nah get that decimal seeming stuff out of here

Lol

Didn't Alan Turing calculate everything in base 32 (or is that an "old wives' tales" thing)?

#include <map>
#include <set>
#include <list>
#include <cmath>
#include <ctime>
#include <deque>
#include <queue>
#include <stack>
#include <bitset>
#include <cstdio>
#include <limits>
#include <vector>
#include <cstdlib>
#include <numeric>
#include <sstream>
#include <iostream>
#include <algorithm>
using namespace std;

is there not a more concise way of using things like map and set?

That's a lotta #include's

exactly

@PeterT not i mean is there not an include which includes map,set,....

geeksforgeeks.org/bloomberg-interview-set-1-phone-interview

its from theree ^^

none that is standards compliant

omg

You also seem to be mixing C++ and C style functions

@Mikhail its not mine, its from the link

if you keep finding yourself including so many headers you can just use precompiled headers for you project

Definitely ^

^ Nope

Why not? 🤔

Those functions are template heavy

Also that isn't really that many headers

better strategy is to split the cpp files into functions that only use separate headers, but once again those headers are pretty common. and probably don't slow stuff down too much. You may find yourself really struggling to avoid them (for example map or vector).

@Mikhail Oh

@Mikhail "split the cpp files into functions that only use separate headers", how so?

So for example, the headers associated with std::cout<< might only apply to a few logging, printing functions, so make a separate cpp with that functionality.

No, so if you have a function called cow.cpp you can have your printing headers in cow_say.cpp, that way cow.cpp doesn't have iostream, for example.

Oh I see, and then all the .cpp files are linked up by the compiler?

i just wanted to know whether there is a libary which is a superset of some of these #include's

ill assume no

@Mikhail Something along the lines of gcc cow_say.cpp cow.cpp -o cow

@Permian I don't think there is, no

thanks

Some header files do include other header files but there's no single header file for <map> and <set> AFAIK

@Permian In that specific case you're mixing C style functions and C++ functions. For example, #include <cstdio> is C style.

where?

Instead of ctime maybe chrono

bunch of cmath stuff is now in <numbers> or something like that

ive got a good question

#include <stdio.h>
#include <string.h>
#include <time.h>

char *get_date()
{
    char    buf[80];
    time_t  now = time(0);
    strcpy(buf, ctime(&now));
    return buf;
}

int main(int argc, char *argv[])
{
    char *date = get_date();
    printf("date=%s\n", date);
    return 0;
}

whats wrong with this code? apparently its to do with the printf

Your compiler should simply tell you what's wrong with the code.

char buf[80] is a local variable in the char* get_date() function so it gets destroyed when you return it from the function

To preserve the buffer (so it doesn't get destroyed) char buf [80] you can either make it static or dynamically allocate it via malloc() or new

"The problem was that when printf is called, it needs a part of the stack, and this may affect the stack-reserved array of characters buf."

which i dont understand

It's wrong. It's written by someone who doesn't understand C.

geeksforgeeks.org/bloomberg-interview-set-2-video-conference/…

@Permian I don't think that's the problem. I'd assume it's the fact that buf is getting destroyed when its returned because it's not reserved in memory

The correct answer is that the error is in get_date returning an invalid pointer which you then pass on to printf. Not printfs fault.

but the buf is defined outside the function strcpy

so would be in that scope

The incorrect answer which is what they are trying to say is that it's fine to access invalid memory under certain conditions. In this case they imagine buf to be on the stack and the pointer to still be valid because the stack still exists, even if C says the memory is inaccessible and doing it anyways is UB. Then you run printf which overwrites the stack and exposes the error. But again, that's not printf's fault.

char* strcpy(char* destination, const char* source); is the def of strcpy

so should return a pointer to destination

@Permian Yes it is defined outside strcpy(...) but it's defined within the get_date() function which destroys (corrupts) the buf variable after it is returned

That's why printf() prints out garbled text probably, because buf has been destroyed

why?

that makes no sense to me

buf is local to the get_date function and this function would return buf

@Permian True. When strcpy is called everything is fine and buf is valid and filled. But after get_date ends all its local variables stop existing, so now and buf are now gone.

@nwp whats the point of anything returning then?

There is none. It's a programming error.

i dont understand this at all

you return something to leave something after you have finished the function

Maybe the core of the issue is that you cannot return C arrays by value.

buf is a pointer though

If you want to get the value(s) you've stored in buf, you need to allocate it in memory

buf is not a pointer. It's an array.

oh i see

good problem

An array that gets destroyed when get_date() returns

@PeterT im really bad though

but no

char* get_date() {
    static char buf[80];
    time_t now = time(0);
    strcpy(buf, ctime(&now));
    return buf;
}

or

char* get_date() {
    char *buf = (char*) malloc(80 * sizeof(char)); // pray it doesn't evaluate as `NULL`
    time_t now = time(0);
    strcpy(buf, ctime(&now));
    return buf;
}

@Lapys what about in c++11 + ?

Either code snippet should work as you intend. Although I'd recommend checking up on arrays & pointers in C

You'd just return a string by value probably

char * array = new buf[80] ??

@Permian That would work for C++

yeah i want c++

char *buf = new char[80] {0}

But you might as well use std::string if it's C++

which would be how?

It would be as @PeterT's example

omg i didnt know there were two ways

ive used the more c like version of c++ in the past

C-style coding in C++?

yeah

didnt use the stl at all

c++ 03 it probably was

im trying to get fresh again

Ah, then good luck re-discovering C++ (or C) 👍

my biggest problem my mind is a mish mash of languages

that i have largely self taught

lol, don't do the ~0 thing for calculations, I said "if you want to confuse people" which is pretty much never

reddit.com/r/learnprogramming/comments/2gnqkc/…

not to mention that it should probably be ~0U

-1 then? :)

    do not use raw pointers.
    do not use C style strings.
    do not use raw arrays.
    do not use macros.
    do not manually manage memory.

no3) and no5) haha

and no2) and no1)

breh, I'm not gonna help you get your pseudo-obfuscatet bit-math to work

@Permian You may wanna post this in Lounge<C++>: chat.stackoverflow.com/rooms/10/loungec instead

sorry

Lol, it's alright :)

@PeterT Lol, back to Googling then XD

Hey guys, I was wondering about this answer : stackoverflow.com/a/52037432/3753446. Why would the code throw if the lambda has automatic storage duration and doesn't go out of scope ?

A temporary std::function is created to which an invalid reference is kept. Also the temporary lambda's life ends at the next ;, but that's not a problem, because std::function makes a copy (using a move) of it.

Why is the reference invalid ? I thought the temporary lambda's life ends at }

> F f([]{ std::cout << "Hello World!" << std::endl;});

In this line the lambda dies at the ;.

But that's fine.

> F(const std::function<void()>& f) : myF(f) {}

In this line the temporary std::function to which f is bound dies at the }. But myF is a reference which outlives that std::function. That's the problem.

C++ says this is UB. It can call the lambda, throw an exception, crash or do something entirely different.

@nwp Can you source this ? cppreference says the opposite if I'm not mistaken (en.cppreference.com/w/cpp/language/storage_duration, "automatic storage duration. The storage for the object is allocated at the beginning of the enclosing code block and deallocated at the end. All local objects have this storage duration, except those declared static, extern or thread_local. ")

@nwp and why is there a difference in lifetime between the lambda and the temporary bound to f ?

@Magix The lambda is of type lambda (unspeakable unique type) and the thing passed to F's constructor is an std::function. It's kinda like void f(const double &dr); int i = 3; f(i);. The compiler will create a temporary double to bind dr to because a double & cannot bind to an int. That temporary can die even if i is still alive.

> All temporary objects are destroyed as the last step in evaluating the full-expression that (lexically) contains the point where they were created.

I'm not entirely sure how that doesn't contradict your quote, but my guess is that your quote talks about allocation while mine talks about object lifetimes. So if you had the code

void f() {
    blargh(i);
    int i = 0;
}

then your quote says the memory for i is allocated at the { and deallocated at the }.

However, the lifetime of i only starts after the int i despite the memory for it having been allocated before hand, thus you cannot access i like I tried to.

So if I guessed correctly the memory for the lambda is still around after the ; until the } but the lambda itself is gone. Though ... I don't know if that interpretation is actually correct. Probably not.

Interesting !