@DeadMG what I meant is that a neural network can do understanding, and since ANNs are so advanced (the link) that they're able to do it, then understanding can be automated
@JohannesSchaublitb well, grep -c POSIX /dev/urandom could be construed 'infinite match loop'. But in reality, it will always finish. So, 'promising' infinite match is lying, in essence
@JohannesSchaublitb slightly more interesting is to optimize grep -c POSIX /dev/zero. Cause it is a little easier to 'promise' "i'm not going to return something else than \0" than to promise "i'm never going to stop returning \0"
Understanding basically includes pushing oneself to understand X by investigating its constituents and all other factors, following it up to the axiomatic level or a level sufficient for a certain operation or set of operations.
It is a perfect mix of human theory and first hand experience.
I was just thinking about all the shit I know. Although I always deem that there is ever so more to learn... But fuck, that's some impressive shit. Even for my self-doubting standards.
Also, I thought about sleeping, I dismissed that pretentious idea.
In C++03, an expression is either an rvalue or an lvalue.
In C++11, an expression can be an:
rvalue
lvalue
xvalue
glvalue
prvalue
Two categories have become five categories.
What are these new categories of expressions?
How do these new categories relate to the existing rvalue and lva...
more to the point, what's wrong with this code:
#include <assert.h>
#include <functional>
using namespace std;
template< class BaseObjectId >
class Check
{
protected:
Check( function<bool()> const f ) { assert( f() ); }
};
template< in...
I was wondering if anyone could tell or explain some real life examples of xvalues, glvalues, and prvalues?. I have read a similar question :
What are rvalues, lvalues, xvalues, glvalues, and prvalues?
but I did not understand what everyone meant. Can anyone explain in what cases these values a...
Because a pointer by defining is a reference to the address where a variable resides, when a function is defined as returning a pointer, you can also return a reference to the appropriate type. Here is an example:
double * GetSalary()
{
double salary = 26.48;
return &salary;
}
Say i have ClassA which has a member ClassB with a member ClassC. now i want to call callback functions in ClassA from ClassC , is the only way to do this to pass a reference of ClassA to ClassC or is there a cleaner and more anonymous way in C++ ?
Sure i thought as much, trying to essentially write platform specific callbacks where by ClassA wont even be the same language on some platforms. Thanks though ive never used std::bind ill read up on that
A cellular automaton (pl. cellular automata, abbrev. CA) is a discrete model studied in computability theory, mathematics, physics, complexity science, theoretical biology and microstructure modeling. It consists of a regular grid of cells, each in one of a finite number of states, such as "On" and "Off" (in contrast to a coupled map lattice). The grid can be in any finite number of dimensions. For each cell, a set of cells called its neighborhood (usually including the cell itself) is defined relative to the specified cell. For example, the neighborhood of a cell might be defined as the ...
Bystrá is the highest mountain in the Western Tatras in Slovakia, near the Polish border. It is 2,248 meters high and surrounded by the valleys of Kamenistá, Račkova and Bystrá.
See also
*Tatra Mountains
References
*[http://www.go-zakopane.com/en/turystyka.php?gd=1.17 go-zakopane.com]
How can I prevent GCC from eliminating the code inside if(0) block?
When I use Visual Studio, one of my debugging techniques is to put code like this in my program:
if (0)
do_some_debug_printing_and_checking();
Then, when a breakpoint is hit, I click at the do_some_debug_printing_and_chec...