> The capacity for dead matter to behave as though it were alive, as expressed in fictional/mystical representations of the "undead", is not known to science at this time.
Try this, have an algorithm loop that finds an opening bracket, search for its matching closing bracket, if it can't find it fail. Then substring, pass it to the recursive call, then after that, look for another opener, and end success if none found.
@Nils I always think people are a bit harsh on acupuncture. I mean, stuff like homeopathy is obviously just BS, but with acupuncture, there's at least some logical cause and effect. You poke someone with a needle, and it's obviously going to stimulate some nerves if nothing else. It may not be as controllable or beneficial as acupuncturists like to say, but at least you're doing something that has a concrete and measurable effect on the patient
@jalf - There was a brilliant article in our local paper once that had the headline "Acupuncture got me pregnant", they missed a trick though with a tag line of "it was just a little prick"
@RMartinhoFernandes To me it would depend on whether performance was an issue. If you're just doing one or two, then take the easier to read code route, if you're doing 1000s, then use the regex.
@RMartinhoFernandes Except, of course, for the fact that most people want to allow other "stuff" than just the parens, so (for example) a*(b+c) will show as "matched". In most cases to be at all useful, you also need to be able to ignore them under some conditions, so (for example) contents of strings won't count.
Anyone of you wise folks would like to review this? I have not had any real good comments on this just lot of downvotes(on the answer), which makes me feel something is wrong in the answer or missing, comments to make it correct/better are appreciated really.
How should I write ISO C++ standard conformant custom new and delete operators?
This is in continuation of Overloading new and delete in the immensely illuminating C++ FAQ, Operator overloading, and its follow-up, Why should one replace default new and delete operators?
Section 1: Writing a sta...
Currently I'm using a rather simplistic implementation of a singleton. However, I've never seen anything like this suggested on the web, which leads me to believe there might be something wrong with it...
class Singleton:
def __init__():
raise ...
@staticmethod
def some():
...
I'm trying to improve my understanding of how C++ actually works. Is there a way to see how the compiler lowers my code into something simpler? For example, I'd like to see how all the copy constructors are called, how overloaded function calls have been resolved, all the template expansion and...
I found some rather strange code:
class Base {
public:
virtual bool IsDerived() const { return false; }
};
class Derived : public Base {
public:
bool IsDerived() const { return true; }
};
Derived* CastToDerived( Base* base )
{
// private and protected inheritance from Derived is pr...
In computer science, the subset sum problem is an important problem in complexity theory and cryptography. The problem is this: given a set of integers, is there a non-empty subset whose sum is zero? For example, given the set { −7, −3, −2, 5, 8}, the answer is yes because the subset { −3, −2, 5} sums to zero. The problem is NP-complete.
An equivalent problem is this: given a set of integers and an integer s, does any non-empty subset sum to s? Subset sum can also be thought of as a special case of the knapsack problem. One interesting special case of s...
The knapsack problem or rucksack problem is a problem in combinatorial optimization: Given a set of items, each with a weight and a value, determine the count of each item to include in a collection so that the total weight is less than or equal to a given limit and the total value is as large as possible. It derives its name from the problem faced by someone who is constrained by a fixed-size knapsack and must fill it with the most useful items.
The problem often arises in resource allocation with financial constraints. A similar problem also appears in combinatorics, complexity theory...
Okay, here is another solution to the balanced parenthesis problem:
@awoodland Such things had their time and their place, and when that time or place is gone, there's nothing you can do to get them back, and even if you try, it will never be the same. However, that doesn't mean there can't be something else just as good.
@FredOverflow I can't think of any improvement that doesn't consist in making the class not as bloated. That wouldn't be backward compatibility friendly however.