The default seed is such that " The 10000th consecutive invocation of a default-constructed object of type mt19937 shall produce the value 4123659995."
@AlfPSteinbach, thanks, i found actually sth. related to (boost)[stackoverflow.com/questions/612097/…, but would like to avoid using it. i would like to have sth. without any dependencies
so far, i was reading a .txt file and processing line by line, i just wanted to do sth. more automatically. it seems though that C# offers such a functionality, right? for instance, i found sth. related to DirectoryInfo
@AlfPSteinbach, do you mind in checking briefly a const copy constructor for a class with std::unique_ptr as smart pointer? I'm getting some compiler errors. I would not like to copy construct the object pointed, but to move it. here the code pastebin.com/SjjD2pD9
@Tin not sure what you're asking. you have both a copy constructor and a move constructor. but in general (1) only post working code (in this case you have a mixture of names like Matrix and Foo), (2) inside the Foo template you generally don't have to write Foo<T> but can just write Foo, (3) don't force unnecessary qualification like the Bar_ prefix for the smart pointer name
I think you are looking for typename C::reference, see 23.2.1 [container.requirements.general] §4.
Oh wait, the above doesn't work if C is already const. But wait, decltype to the rescue!
template <typename C>
auto get_nth( C&& c, int i ) -> decltype(*c.begin())
{
//......
@Tin it's Unholy because a move tends to modify the moved-from object. that's not a copy, and it's not permitted when the source object is const. your compiler should protest at that.
therefore, i thought, i could std::move and that should work
but now i see your point
i'm still having some difficulties to understand when to use a shared_ptr and when to use a unique_ptr, given your experience do you have a suggestion?
Ok, so the last time I wrote C++ for a living, std::auto_ptr was all the std lib had available, and boost::shared_ptr was all the rage. I never really looked into the other smart pointer types boost provided. I understand that C++11 now provides some of the types boost came up with, but not all o...
@Tin Because a std::vector has a pointer member, and just copying the pointer does the wrong thing, so you need a copy constructor that does a deep copy. And a move constructor is a nice optimization that makes moving vectors more efficient than copying.
@rubenvb No, the move constructor won't accept lvalues.
@Tin If you only provide a move constructor, no copy constructor will be implicitly provided for you, and code that would normally invoke the copy constructor will fail to compile.
I depends on what you want. Do you want another unique_ptr that points to a copy of the thing pointed to by the first, or do you want to transfer ownership?
I wish that there was a Reader's Digest version of Stephen Baxter's Xelee series. Because I found my reading speed increased exponentially. At the end I don't think I used more than 0.1 second per page, there was so little actually going on, just empty talk all the way. :-(
The Heechee are a fictional alien race from the science fiction works of Frederik Pohl. The Heechee are portrayed as an exceedingly advanced star-travelling race that explored Earth's solar system millennia ago and then disappeared without a trace before humankind began space exploration.
The Heechee first appeared in "The Merchants of Venus" (1972), a novella in the collection The Gold at the Starbow's End, sometimes called "The Merchants of Venus Underground". They also are referenced or appear in many of Pohl's novels and short stories published between 1977 and 2004.
Pohl's novels fe...
The Xeelee are a fictional hyperadvanced species from Stephen Baxter's Xeelee Sequence. They were first remotely mentioned in the 1994 novel Timelike Infinity and were later central actors of several novels and a substantial number of short stories. Within the Xeelee Sequence, they are considered to be the most advanced of all Baryonic life-forms and possess technology and abilities far beyond other spacefaring civilization. They have demonstrated the ability to routinely construct Closed Timelike Curves and have exploited time travel to engineer their own evolution and history as far back...
The muumuu or muumuu () is a loose dress of Hawaiian origin that hangs from the shoulder. Like the Aloha shirt, muumuu exports are often brilliantly colored with floral patterns of generic Polynesian motifs. Muumuu for local Hawaiian residents are more subdued in tone. Muumuu are no longer as widely worn at work as the aloha shirt, but continue to be the preferred formal dress for weddings and festivals such as the Merrie Monarch hula competition. They are also frequently worn as a uniform by women working in the hotel industry. Muumuu are also popular as maternity wear because they do...
I'm having trouble printing a member of a struct that is returned from a function:
#include <stdio.h>
struct hex_string
{
char a[9];
};
struct hex_string to_hex_string_(unsigned x)
{
static const char hex_digits[] = "0123456789ABCDEF";
struct hex_string result;
char * p =...
C11 (formerly C1X) is an informal name for ISO/IEC 9899:2011, the current standard for the C programming language. It replaces the previous C standard, informally known as C99. This new version mainly standardizes features that have already been supported by common contemporary compilers, and includes a detailed memory model to better support multiple threads of execution. Due to delayed availability of conforming C99 implementations, C11 makes more features optional, to make it easier to comply with the core language standard.
The final draft, N1570, was published in April 2011. The new s...
user406009
Technically we have all probably used some C99. stdint.h is wonderful and should have been in the standard from the start.
A std::array<T> is essentially a C-style array wrapped in a struct. The initialization of structs requires braces, and the initialization of arrays requires braces as well. So I need two pairs of braces:
std::array<int, 5> a = {{1, 2, 3, 4, 5}};
But most of the example code I have ...