//-----------------------------------------------------------------------------
// Name: Render()
// Desc: Draws the scene
//-----------------------------------------------------------------------------
VOID Render()
{
    PROFILE_FUNCTION();

    ONCE( LOG_PRINT( " Entered" ) );

    LPDIRECT3DDEVICE9 pd3dDevice = DIRECT3D9.GetDevice();

    D3DXMATRIX matWorld;
    D3DXMatrixIdentity( &matWorld );
    pd3dDevice->SetTransform( D3DTS_WORLD, &matWorld );

    g_Camera.SetPose( g_CameraController.GetPose() );
    ShaderManagerHub.PushViewAndProjectionMatrices( g_Camera );

    D3DXMATRIX mat;
    g_Camera.GetCameraMatrix( mat );
//	g_pTest->UpdateViewTransform( mat );
    g_Camera.GetProjectionMatrix( mat );
//	g_pTest->UpdateProjectionTransform( mat );


    // clear the backbuffer to a blue color
    pd3dDevice->Clear( 0, NULL, D3DCLEAR_TARGET|D3DCLEAR_ZBUFFER, 0xFF303030, 1.0f, 0 );

    // begin the scene
    pd3dDevice->BeginScene();

    if( g_pTest )
        g_pTest->Render( g_Camera );

    // rendering
    char acStr[256];
    sprintf( acStr, "%f", GlobalTimer().GetFPS() );
    g_pFont->DrawText( acStr, Vector2(20,20), 0xFFFFFFFF );
//	g_pFont->DrawText( to_string(GlobalTimer().GetFPS()), D3DXVECTOR2(20,20), 0xFFFFFFFF );

    int i=0;
    const vector<string>& vecProfileResults = GetProfileText();
    BOOST_FOREACH( const string& text, vecProfileResults )
    {
        g_pFont->DrawText( text.c_str(), Vector2( 20, 40 + i*16 ), 0xF0F0F0FF );
        i++;
    }
Exemplo n.º 2
0
void ribi::DrawCanvas::Test() noexcept
{
  {
    static bool is_tested = false;
    if (is_tested) return;
    is_tested = true;
  }
  TRACE("Starting ribi::DrawCanvas::Test");
  //Drawing text
  {
    const int maxx = 90;
    const int maxy = 18;
    const boost::shared_ptr<DrawCanvas> canvas(new DrawCanvas(maxx,maxy,CanvasColorSystem::invert));
    std::stringstream s_before;
    s_before << (*canvas);
    const std::string str_before {s_before.str() };
    assert(static_cast<int>(str_before.size()) - maxy == maxx * maxy); //-maxy, as newlines are added
    assert(std::count(str_before.begin(),str_before.end(),' ') == maxx * maxy); //Only spaces

    canvas->DrawText(1,1,"Hello world");

    std::stringstream s_after;
    s_after << (*canvas);
    const std::string str_after {s_after.str() };
    assert(std::count(str_after.begin(),str_after.end(),' ') != maxx * maxy); //Line trly drawn
  }
  //Is a line that starts and ends beyond the canvas drawn?
  {
    const int maxx = 3;
    const int maxy = 4;
    const boost::shared_ptr<DrawCanvas> canvas(new DrawCanvas(maxx,maxy,CanvasColorSystem::invert));
    std::stringstream s_before;
    s_before << (*canvas);
    const std::string str_before {s_before.str() };
    assert(static_cast<int>(str_before.size()) - maxy == maxx * maxy); //-maxy, as newlines are added
    assert(std::count(str_before.begin(),str_before.end(),' ') == maxx * maxy); //Only spaces

    canvas->DrawLine(-maxx,-maxy,maxx*2.0,maxy*2.0);

    std::stringstream s_after;
    s_after << (*canvas);
    const std::string str_after {s_after.str() };
    assert(std::count(str_after.begin(),str_after.end(),' ') != maxx * maxy); //Line trly drawn
  }
  //Draw a smiley is all coordinat- and colorsystem combinations, Clear
  for (int i=0; i!=4; ++i)
  {
    const int maxx = 79;
    const int maxy = 23;
    const boost::shared_ptr<DrawCanvas> canvas(new DrawCanvas(maxx,maxy));
    canvas->SetColorSystem(
      i % 2
      ? CanvasColorSystem::normal
      : CanvasColorSystem::invert);
    canvas->SetCoordinatSystem(
      i / 2
      ? CanvasCoordinatSystem::screen
      : CanvasCoordinatSystem::graph);

    //Determine and calculate dimensions and coordinats of smiley
    const double maxxD = static_cast<double>(maxx);
    const double maxyD = static_cast<double>(maxy);
    const double midX        = 0.50 * maxxD;
    const double midY        = 0.50 * maxyD;
    const double headRay     = 0.50 * maxyD;
    const double eyeLeftX    = 0.50 * maxxD - (0.35 * headRay) ;
    const double eyeLeftY    = 0.50 * maxyD - (0.25 * headRay) ;
    const double eyeRightX   = 0.50 * maxxD + (0.35 * headRay) ;
    const double eyeRightY   = 0.50 * maxyD - (0.25 * headRay) ;
    const double eyeRay      = 0.30 * headRay;
    const double mouthLeftX  = 0.50 * maxxD - (0.7 * headRay) ;
    const double mouthMidX   = 0.50 * maxxD;
    const double mouthRightX = 0.50 * maxxD + (0.7 * headRay) ;
    const double mouthLeftY  = 0.50 * maxyD + (0.2 * headRay) ;
    const double mouthMidY   = 0.50 * maxyD + (0.7 * headRay) ;
    const double mouthRightY = 0.50 * maxyD + (0.2 * headRay) ;
    //Draw the image on DrawCanvas
    canvas->DrawCircle(midX, midY, headRay);
    canvas->DrawCircle(eyeLeftX, eyeLeftY, eyeRay);
    canvas->DrawDot(eyeLeftX, eyeLeftY);
    canvas->DrawCircle(eyeRightX, eyeRightY, eyeRay);
    canvas->DrawDot(eyeRightX, eyeRightY);
    canvas->DrawLine(mouthLeftX, mouthLeftY, mouthMidX, mouthMidY);
    canvas->DrawLine(mouthMidX, mouthMidY, mouthRightX, mouthRightY);
    canvas->DrawLine(mouthRightX, mouthRightY, mouthLeftX, mouthLeftY);
    {
      std::stringstream s;
      s << (*canvas);
      assert(!s.str().empty());
    }
    canvas->Clear();
    {
      canvas->SetColorSystem(CanvasColorSystem::invert); //Background = Black
      std::stringstream s;
      s << (*canvas);
      const std::string t { s.str() };
      assert(std::count(t.begin(),t.end(),' ') == canvas->GetWidth() * canvas->GetHeight());

    }
  }
  //Saving and loading
  {
    const int maxx = 2;
    const int maxy = 3;
    const boost::shared_ptr<DrawCanvas> canvas(new DrawCanvas(maxx,maxy,CanvasColorSystem::invert));
    canvas->DrawLine(-maxx,-maxy,maxx*2.0,maxy*2.0);

    const boost::shared_ptr<const DrawCanvas> old_canvas {
      new DrawCanvas(canvas->GetGreynesses(),canvas->GetColorSystem(),canvas->GetCoordinatSystem())
    };
    assert( old_canvas !=  canvas);
    assert(*old_canvas == *canvas);

    const std::string temp_filename { fileio::GetTempFileName() };
    canvas->Save(temp_filename);
    canvas->Clear();

    assert(*old_canvas != *canvas);

    const boost::shared_ptr<const DrawCanvas> new_canvas {
      new DrawCanvas(temp_filename)
    };

    assert(*old_canvas == *new_canvas);

  }
  TRACE("Finished ribi::DrawCanvas::Test successfully");
}