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I just wrote a Windows Forms program in C++/CLI which consists of a 600x300 picture box and a few information field.

The program enables you to move the points with your mouse and calculate sides and angles of the triangle, but somehow I got a CPU usage of up to 15% whilst moving the points of the triangle and I can't see where it comes from. I'm using doublebuffering (two bitmaps) to render the triangle and a extra thread rerenders the picture every 50 milisecs. shouldn't be too much.

I would appreciate any ideas.

Short summary of the important code:

static float GetDistance(Point A, Point B)
{
    return sqrtf(powf((A.X-B.X),2) + powf((A.Y-B.Y),2));
}

public ref struct Triangle
{
    Triangle()
    {
        LinePen = gcnew Pen(Color::Black, 3.0f);
        PointA = Point(300, 100);
        PointB = Point(200, 200);
        PointC = Point(400, 200);
        Update();
    }

    void Update()
    {
        SideA = GetDistance(PointB, PointC);
        SideB = GetDistance(PointC, PointA);
        SideC = GetDistance(PointA, PointB);

        AngleA = GetAngle(PointA);
        AngleB = GetAngle(PointB);
        AngleC = GetAngle(PointC);
    }


    float GetAngle(Point X)
    {
        if(X == PointA)
            return acos((powf(SideC, 2) + powf(SideB, 2) - powf(SideA, 2))/(2*SideB*SideC)) * 180 / PI;
        else if(X == PointB)
            return acos((powf(SideA, 2) + powf(SideC, 2) - powf(SideB, 2))/(2*SideA*SideC)) * 180 / PI;
        else if(X == PointC)
            return acos((powf(SideA, 2) + powf(SideB, 2) - powf(SideC, 2))/(2*SideA*SideB)) * 180 / PI;
        else
            return 0.0f;
    }

    void Draw(Graphics^ Graphic)
    {
        Graphic->Clear(Color::White);
        Graphic->DrawLine(LinePen, PointA, PointB);
        Graphic->DrawLine(LinePen, PointB, PointC);
        Graphic->DrawLine(LinePen, PointC, PointA);
    }

private:
    Pen ^LinePen;

public:
    Point PointA, PointB, PointC;
    float AngleA, AngleB, AngleC;
    float SideA, SideB, SideC;
};

public ref class MainWindow : public System::Windows::Forms::Form
{
public:
    MainWindow(void)
    {
        InitializeComponent();
        //
        //TODO: Konstruktorcode hier hinzuf├╝gen.
        //

        RenderingThread = gcnew Threading::Thread( gcnew Threading::ThreadStart( this, &MainWindow::Rendering ) );
        Tri = gcnew Triangle();
        PictureA = gcnew Bitmap(600, 300);
        PictureB = gcnew Bitmap(600, 300);

    }

protected: Threading::Thread^ RenderingThread;
protected: Triangle^ Tri;
protected: char MovePoint;
protected: Bitmap ^PictureA, ^PictureB;

private: System::Void UpdateData(Triangle^ Trig)
         {
             tbSideA->Text = Tri->SideA.ToString();
             tbSideB->Text = Tri->SideB.ToString();
             tbSideC->Text = Tri->SideC.ToString();
             tbAngleA->Text = Tri->AngleA.ToString();
             tbAngleB->Text = Tri->AngleB.ToString();
             tbAngleC->Text = Tri->AngleC.ToString();
             tbPointA->Text = Tri->PointA.ToString();
             tbPointB->Text = Tri->PointB.ToString();
             tbPointC->Text = Tri->PointC.ToString();
         }

private: System::Void Rendering()
         {
             try
             {
                 while(true)
                 {
                    Tri->Update();
                    Tri->Draw(Graphics::FromImage(PictureA));
                    pbDrawing->Image = PictureA;
                    Threading::Thread::Sleep(50);

                    Tri->Update();
                    Tri->Draw(Graphics::FromImage(PictureB));
                    pbDrawing->Image = PictureB;
                    Threading::Thread::Sleep(50);
                 }
             }
             catch(Threading::ThreadAbortException^ e)
             {
             }
         }

private: System::Void MainWindow_Load(System::Object^  sender, System::EventArgs^  e)
         {
             RenderingThread->Start();
         }

private: System::Void MainWindow_FormClosing(System::Object^  sender, System::Windows::Forms::FormClosingEventArgs^  e)
         {
             RenderingThread->Abort();
         }

private: System::Void pbDrawing_MouseDown(System::Object^  sender, System::Windows::Forms::MouseEventArgs^  e)
         {
             if(GetDistance(Point(e->X, e->Y), Tri->PointA) <= 10)
                MovePoint = 'A';
             else if(GetDistance(Point(e->X, e->Y), Tri->PointB) <= 10)
                MovePoint = 'B';
             else if(GetDistance(Point(e->X, e->Y), Tri->PointC) <= 10)
                MovePoint = 'C';
         }
private: System::Void pbDrawing_MouseUp(System::Object^  sender, System::Windows::Forms::MouseEventArgs^  e)
         {
             MovePoint = 'X';
         }

private: System::Void pbDrawing_MouseMove(System::Object^  sender, System::Windows::Forms::MouseEventArgs^  e)
         {
             if(MovePoint == 'A')
                Tri->PointA = Point(e->X, e->Y);
             else if(MovePoint == 'B')
                Tri->PointB = Point(e->X, e->Y);
             else if(MovePoint == 'C')
                Tri->PointC = Point(e->X, e->Y);
             else
                 return;

             UpdateData(Tri);
         }

};
share|improve this question
    
Disable the coord display for testing. I'm sure this will make a difference. The remaining stuff will have its bottleneck in the trigonometric function calls, I guess... – TheBlastOne Feb 14 '11 at 17:04
2  
Have you tried using a profiler? – Adam Rosenfield Feb 14 '11 at 17:08
    
powf() all over to square numbers? Just multiply by itself. – genpfault Feb 14 '11 at 17:12
    
I dont know how to use profilers and powf should be quiet efficient, im sure. Disabling the display of the data indeed lowered the usage by about 3 percent, but this is still not enough, even tetris doesn't need so much performance – XaserIII Feb 14 '11 at 17:17
    
Tetris does not do trigonometry (hopefully). You could use pre-calculated lookup tables for that, and also for the square root stuff. Another idea would be to make the re-rendering timing dependend on the time spent for the rendering, so you would render more often if you have a fat machine (or, doing this dynamically, an idle period of time on the machine). – TheBlastOne Feb 14 '11 at 17:23

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