# C++ : sin(M_PI/6) = 0.5?

I am writing a scientific program which uses common values of sines in its main algorithm, namely `sin(M_PI/N)` for `N = 1, 2, 3, 4, 5, 6`.

Since I want my program to be as fast as possible, I thought : let's store these values in a vector instead of having them computed over and over again. It looks like this:

``````sin_pi_over_n_.clear();
sin_pi_over_n_.push_back(0.0);
sin_pi_over_n_.push_back(1.0);
sin_pi_over_n_.push_back(sqrt(3.0)/2.0);
sin_pi_over_n_.push_back(sqrt(2.0)/2.0);
sin_pi_over_n_.push_back(sqrt(2.0)*0.25*sqrt(5.0-sqrt(5.0)));
sin_pi_over_n_.push_back(0.5);
``````

so now in my main algorithm I write `s = sin_pi_over_n_[n-1];` instead of `s = sin(M_PI/n);`.

But to my great surprise, the program turned out to be almost twice as slow! I thought, really, does it take that long to read a value in a vector? But then I realized that wasn't the problem: if I write instead

``````sin_pi_over_n_.push_back(sin(M_PI/1.0));
sin_pi_over_n_.push_back(sin(M_PI/2.0));
sin_pi_over_n_.push_back(sin(M_PI/3.0));
sin_pi_over_n_.push_back(sin(M_PI/4.0));
sin_pi_over_n_.push_back(sin(M_PI/5.0));
sin_pi_over_n_.push_back(sin(M_PI/6.0));
``````

then the program is fast again! I then thought: something's wrong with my values of sines. But the crazy thing is, even if I only replace the last line `sin_pi_over_n_.push_back(sin(M_PI/6.0));` by `sin_pi_over_n_.push_back(0.5);` then the program is slow again! Is it about double precision? I kinda doubt it: if I ask `std::cout << abs(sin(M_PI/6.0) - 0.5) << std::endl;`, I get `0` in my terminal.

Oops : I just realized ; if I ask `std::cout << sin(M_PI/6.0) - 0.5 << std::endl;` (without the `abs`), I then get `-5.55112e-17`. I am still going to go ahead and post that question, because this behavior seems incredible to me. How can I possibly optimize my program's speed if such unpredictable phenomenons have such a great impact on the performance?

Edit : Maybe I haven't made myself clear enough. In my program, I have a class `Algo`. When I execute my program, some function, say `my_function`, is called an enormous amount of times. In this function, one line is: `s = sin(M_PI/n);`. I thought I'd replace this line by `s = sin_pi_over_n_[n-1];`, where `sin_pi_over_n_[n-1]` is a vector that is stored as a member variable of the class `Algo` and that I fill once and for all in the constructor of `Algo`. Hope that makes things clearer.

Edit 2 : Okay, it appears some of you want me to post more code. Here it comes:

Class `Algo`:

``````class Algo : public QThread
{
Q_OBJECT

public:
Algo() {}
void reset_algo(...)

public slots:
void run();

private:
void create_sines();
double super_total_neighbors_angle(const unsigned int &index, double &error);
double super_radius_update(const unsigned int &index, double &error);
// etc

std::vector<double> sin_pi_over_n_;
std::vector<unsigned int> neighbors_lists_sizes_;
// etc
};
``````

Member function `create_sines`:

``````void Algo::create_sines()
{
sin_pi_over_n_.clear();

/*sin_pi_over_n_.push_back(0.0);
sin_pi_over_n_.push_back(1.0);
sin_pi_over_n_.push_back(0.5*sqrt(3.0));
sin_pi_over_n_.push_back(0.5*sqrt(2.0));
sin_pi_over_n_.push_back(0.25*sqrt(2.0)*sqrt(5.0-sqrt(5.0)));
sin_pi_over_n_.push_back(0.5);*/

sin_pi_over_n_.push_back(sin(M_PI/1.0));
sin_pi_over_n_.push_back(sin(M_PI/2.0));
sin_pi_over_n_.push_back(sin(M_PI/3.0));
sin_pi_over_n_.push_back(sin(M_PI/4.0));
sin_pi_over_n_.push_back(sin(M_PI/5.0));
sin_pi_over_n_.push_back(sin(M_PI/6.0));

return;
}
``````

Member function `super_radius_update` (which I renamed `my_function` above):

``````inline double Algo::super_radius_update(const unsigned int &index, double &error)
{
int n = neighbors_lists_sizes_[index];
double s = sin(super_total_neighbors_angle(index, error)*0.5/n);
//s = sin(M_PI/n);
s = sin_pi_over_n_[n-1];
return (1-s)*rv/s;
}
``````

I'm afraid it's hard for me to send a minimal complete example that you could run, because the entire class is a bit long and complicated. I could try, but I would sill have to post a big amount of code, and it would take me quite some time to extract...

I'm using Qt creator 4.8 64 bits on a Linux Ubuntu 12.04 64 bits laptop.

Edit 3 or 4 : I apologize for all the edits. There's an important piece of info I did not tell you : the program is going to run (basically call the function `super_radius_update`) until some error falls under some tolerance. As a consequence, what is making the program slower or faster is not the time of execution of `super_radius_update` but the number of calls of that function, I believe. Using such or such value for `sin(M_PI/N)` is going to have an impact on how quickly the tolerance is reached by the error.

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Are you claiming that running 5 `sqrt`s is making your program noticeably slower? –  Blindy Jul 4 '12 at 15:32
No no. I'm claiming that using the value 0.5 instead of the value sin(M_PI/6) makes my program noticeably slower (!) –  Seub Jul 4 '12 at 15:36
please, provide a minimal complete example. Also, you should tell us: the platform, the compiler and the compiler options –  Alessandro Teruzzi Jul 4 '12 at 15:39
Provide a minimal self-contained compilable example that shows the behaviour you are experiencing. Until that, no spoon exists. –  PlasmaHH Jul 4 '12 at 15:40
You should really post code (a small, complete program) that displays the issue. You can't just describe your program, because you don't know what the issue is and so your description will leave out relevant details. –  bames53 Jul 4 '12 at 15:45

``````double rv = radii_[index]*s/(1-s);
return (1-s)*rv/s;
``````

This code has singularities at `s = 0` and `s = 1`, both of which occur, and will be numerically unstable due to the singularities. You probably triggered the unstabilities with the different computations of `sin_pi_over_n_[0]` and `sin_pi_over_n_[1]`.

While this doesn't explain the different behaviour for different `sin_pi_over_n_[5]` calculations, similar unstabilities are likely.

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Actually, both cases do not occur, s stays far away from 0 and 1. Moreover, cases n=0 and n=1 never occur. –  Seub Jul 4 '12 at 16:33

As was pointed out, it turned out my algorithm was unstable, couldn't blame anything on the computer or C++ ;)

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