@johannes: that's what the entropy argument tells you, although not in terms of time, but complexity. however, if you have to communicate the solution with serial transmission of bits, you also have that time constraint.
Ok, I found some more up to date numbers for a Core 2 Duo: 9.2 cycles per byte. I'll assume a Core i7 can't do much better than that. That's already a very low number.
There is a total of 2^256 possible keys, so it still would take about 3.5*10^56 times the age of the universe to break the entirety of the human knowledge encrypted with AES-256.
Spaghetti sort is a linear-time, analog algorithm for sorting a sequence of items, introduced by Alexander Dewdney in his Scientific American column.
Algorithm
For simplicity, assume you're sorting a list of natural numbers. The sorting method is illustrated using uncooked rods of spaghetti:
# For each number x in the list, obtain a rod of length x. (One practical way of choosing the unit is to let the largest number m in your list correspond to one full rod of spaghetti. In this case, the full rod equals m spaghetti units. To get a rod of length x, simply break a rod in two so that one pi...
Considering a 1MB message. We can do less than 5*10^15 runs per second. It would take 8*10^53 years to try all keys on this. That is 6*10^43 times the age of the universe.
So, even if we turned all our energetic consumption to computation, brute forcing 256-bit keys is not feasible.
I hope I didn't make any mistake in my calculations :)
I'd like to thank Google, Wikipedia, and WolframAlpha :)
@AlfPSteinbach I think that is not a real sort though
it just probes for all numbers from inf -> lowest(the numbers to sort) and stops if it found the highest(the numbers to sort) by hitting the highest spagetthi with your hand
@JohannesSchaublitb he he. it not an assumption-free sort. anyways, if you like that sort of thing, the good Andrew Koenig once sent me reference to a paper by I think it was Doug McIlroy (speling?), where he showed how to dynamically beat any Quicksort implementation to yield O(n^2) time.
@johannes: i wrote it backwards, so to speak, it should be n! < n^n < (n!)^2
now when you take logs you get (log n!) < n log n < 2*(log n!)
and so O( log n! ) => O( n log n ), in the asymmetric equality notation of big O
translated to selection of permutation, you have to make O(n log n) binary choices to select the sorted one from n! possible
for a large collection of n items you may sort them in O(n) time if basic operations are considered constant time, but the size of numbers, addresses etc. is log n, so when you consider also that you get into O(n log n)
So, I have a base class that has setters and getters, and i have three derived classes, each of which uses the variables in the base class. Should i use the base classes setters and getters to modify its member variables, or should i set them as protected?
stephen, could u please click here abtronicx2.localsmartseo.com and tell me how does the form look like? if its messed up the position? and ur screen res
make your browser window smaller, and then larger and watch how it moves
if you want it on the right side you need to use javascript to determine the width of the users window, then subtract the width of your div (contact div), and that should be on the right side of the window no matter what
however, if they're using a really small resolution, its going to overlap your content
I have a main class that is inherited by numerous subclasses. The inherited main class has to be at least protected in inheritance to prevent non-derivative classes from using or altering it via the subclasses.
Is there a way to permit the various subclasses to alter each other's inherited main ...
Disclaimer: This is quite unrelated to this particular question, but more on the general problem that lead you to this and the other questions from today.
I think that you are barking at the wrong tree here. I get the feeling that you provide access to your list's internal nodes, and then expect...
a class with functionality (operations) should generally not expose public variables. so you need protected or private. but i do not fully understand what you mean
currently, all my base class variables are private
I can access them (INSIDE of my subclasses) with getters
Would it be better convention to set the variables in my base class as protected, and not use the getters of the base class INSIE of the derived classes
i guess to be more clear: im asking what is the best way to access baseclass member variables in derived classes
i think that's a judgment call. it's about how much you "trust" derived classes to not screw up things. but generally you avoid negative surprises by restricting access.
there is no best way. you'd have to define best. :-)
(base class has 5 member variables, and 2 derived classes have 5 member functions)
instead of making them structs, i could just pass the input stream to the derived classes and let them read the file. im just brain storming because im half drunk
@StephenGranet I just read your question and have an input. I came across this 'choice' several times. A few times however, I later found out I needed to do something extra. Be it as simple as putting an assert() just to make sure the pointer is valid (when being set for example) or something more complex. Since the derived classes were accessing the variable directly, this meant changing a lot of code. So now I make it a point to access all member variables with setters/getters.
@StephenGranet Worst case, all the getters/setters are redundant (compiler will optimize them out). Best case, I add functionality to the getter/setter and it is applied across the board without much additional work.
@JavierIEH Experience is a broad term... care to elaborate?
@JavierIEH Are you using the % or & operators on the result of the hash function? If so, then you are turning it into a different hash function with fewer bits.
If the actual hash function, in fact, produces fewer possible distinct results than slots in the new table, then you do have a problem. That's unlikely, though.
although it may be different wordings... I will try to find it. The gist of it was that someone asked something along the lines of "Why have getters and setters if all they are doing is setting the variables directly"
@Samaursa The visible members of a class define its interface. The interface defines effects of operations on an object. Usually you know when designing a class whether changing a member variable produces any other effects.
@StephenGranet It's your call... if it is a small project (school/personal) then access them directly... but if it is a bigger/long-term project, getters/setters may save you a lot of code rewrite later on
@JavierIEH Isn't that overloading operator= for a and something?
it is for college, but before i came to college i did quite a bit of programming in the real world (not with c++), and i realize that what they teach us in school may... not be how things work in the real world
@Potatoswatter Sure it does... if it is the end of the semester project, and I am pressed for time, last thing I want to do is write getters/setters...
the code is most likely closed (i.e. only I am coding it) and will be in use for 2 weeks after which it will be marked... in which case... free for all! (unless there are restrictions by the professor)
A setter with a side effect means that some work needs to be done/redone when one property of an object changes. Would it be better to re-register the entire object? Perhaps the object should only contain state, and you want a method that updates all those kinds of state within a given context. This is better than a class which is too smart about who else cares about the data.
@Potatoswatter Ah, I see what you mean now... that was just an example btw, many times I required an assertion to be put just before setting the variable only to find out everyone is setting it directly...
C++11 introduces semantics for moving data from one object to another, and std::move to apply those semantics when otherwise a copy would occur. However, there are also some cases where move is the default, but there is no function to instead use a copy.
Consider this naive implementation of rev...
std::forward is relevant because it maintains 'referenceness' (while being value-category preserving), while std::move is still the same operation as outside perfect forwarding contexts.
