# Tag Info

6

No, this will not slow down the program, unless you are running on an incredibly underpowered 1MHz DSP chip that has to do floating point arithmetic in software as opposed to passing it off to a dedicated FPU. This would mean that any mathematical operations that use floating point data are much slower than just using integer arithmetic. In general, greater ...

5

BigDecimal is immutable so the is no way to change it's value. (In the same way String does) This is why all the methods would operate on a BigDecimal return a new BigDecimal as the result e.g. pi = pi.add(numitor1); The second problem is you are using a double in your calculation, defeating the whole point of using a BigDecimal. The expression ...

4

The number of digits in a macro definition almost certainly will have no effect at all on run-time performance. Macro expansion is textual. That means that if you have: #define PI 3.14159... /* 50 digits */ then any time you refer to PI in code to which that definition is visible, it will be as if you had written out 3.14159.... C has just three ...

4

Meeting C++ has an article on the different options for generating pi: C++ & π they discuss some of the options, from cmath, which is not platform independent: double pi = M_PI; std::cout << pi << std::endl; and from boost: std::cout << boost::math::constants::pi<double>() << std::endl and using atan, with constexpr ...

3

This is a variation of Subset Sum Problem with fixed subset size. (You are facing the optimization problem). The existence solution (Is there a subset that sums exactly to pi) is discussed thoroughly in the thread: Sum-subset with a fixed subset size. In your problem (the optimization problem) - if you can repeat an element more than once - it is easily ...

2

You could sort the list of items, which requires O(n log(n) ) time. Then, given a+b+c, you can find the best d using binary search. You could also (possibly, depending on the data) cut the search tree by checking if the partial sum at any step is too large or too small to have a chance of becoming the correct solution. By taking these two steps you should ...

2

You need to understand some of HTTP You could make your C program a web server using some HTTP server library like e.g. libonion, mongoose (as commented by oysteijo), libmicrohttpd etc... (in C++ consider also Wt). Then your application would provide a web page. You could make your C program a web client using some HTTP client library like libcurl. Then ...

2

The function below calculates pi without relying on any libraries at all. Also, the type of its result is a template parameter. Platform ueber-independence is stifled a bit because it only works with fixed-precision fractional types -- the calculated value needs to converge and remain constant over 2 iterations. So if you specify some kind of ...

1

1 .if you want more bits computed per bpp call then you have to change your equation from 1/(16^k) base to bigger one you can do it by summing 2 iterations (k and k+1) so you have something like (...)/16^k + (...)/16^(k+1) (...)/256^k but in this case you need more precise int operations it is usually faster to use the less precise iterations 2.if you ...

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