Hello, I've written a little particle system for my 2d-application. Here is raining code:
// HPP -----------------------------------
struct Data
{
float x, y, x_speed, y_speed;
int timeout;
Data();
};
std::vector<Data> mData;
bool mFirstTime;
void processDrops(float windPower, int i);
// CPP -----------------------------------
Data::Data()
: x(rand()%ScreenResolutionX), y(0)
, x_speed(0), y_speed(0), timeout(rand()%130)
{ }
void Rain::processDrops(float windPower, int i)
{
int posX = rand() % mWindowWidth;
mData[i].x = posX;
mData[i].x_speed = WindPower*0.1; // WindPower is float
mData[i].y_speed = Gravity*0.1; // Gravity is 9.8 * 19.2
// If that is first time, process drops randomly with window height
if (mFirstTime)
{
mData[i].timeout = 0;
mData[i].y = rand() % mWindowHeight;
}
else
{
mData[i].timeout = rand() % 130;
mData[i].y = 0;
}
}
void update(float windPower, float elapsed)
{
// If this is first time - create array with new Data structure objects
if (mFirstTime)
{
for (int i=0; i < mMaxObjects; ++i)
{
mData.push_back(Data());
processDrops(windPower, i);
}
mFirstTime = false;
}
for (int i=0; i < mMaxObjects; i++)
{
// Sleep until uptime > 0 (To make drops fall with randomly timeout)
if (mData[i].timeout > 0)
{
mData[i].timeout--;
}
else
{
// Find new x/y positions
mData[i].x += mData[i].x_speed * elapsed;
mData[i].y += mData[i].y_speed * elapsed;
// Find new speeds
mData[i].x_speed += windPower * elapsed;
mData[i].y_speed += Gravity * elapsed;
// Drawing here ...
// If drop has been falled out of the screen
if (mData[i].y > mWindowHeight) processDrops(windPower, i);
}
}
}
So the main idea is: I have some structure which consist of drop position, speed. I have a function for processing drops at some index in the vector-array. Now if that's first time of running I'm making array with max size and process it in cycle.
But this code works slower that all another I have. Please, help me to optimize it.
I tried to replace all int with uint16_t but I think it doesn't matter.
