Exemple #1
0
    // Calculates tab's elements, based on its width and height.
    // Generates a GraphicsPath, which is used for painting the tab, etc.
    bool Reshape(int dx, int dy) {
        dx--;
        if (width == dx && height == dy)
            return false;
        width = dx; height = dy;

        GraphicsPath shape;
        // define tab's body
        int c = int((float)height * 0.6f + 0.5f); // size of bounding square for the arc
        shape.AddArc(0, 0, c, c, 180.0f, 90.0f);
        shape.AddArc(width - c, 0, c, c, 270.0f, 90.0f);
        shape.AddLine(width, height, 0, height);
        shape.CloseFigure();
        shape.SetMarker();
        // define "x"'s circle
        c = height > 17 ? 14 : int((float)height * 0.78f + 0.5f); // size of bounding square for the circle
        Point p(width - c - 3, (height - c) / 2); // circle's position
        shape.AddEllipse(p.X, p.Y, c, c);
        shape.SetMarker();
        // define "x"
        int o = int((float)c * 0.286f + 0.5f); // "x"'s offset
        shape.AddLine(p.X+o, p.Y+o, p.X+c-o, p.Y+c-o);
        shape.StartFigure();
        shape.AddLine(p.X+c-o, p.Y+o, p.X+o, p.Y+c-o);
        shape.SetMarker();

        delete data;
        data = new PathData();
        shape.GetPathData(data);
        return true;
    }
Exemple #2
0
    // Calculates tab's elements, based on its width and height.
    // Generates a GraphicsPath, which is used for painting the tab, etc.
    bool Reshape(int dx, int dy) {
        dx--;
        if (width == dx && height == dy)
            return false;
        width = dx;
        height = dy;

        GraphicsPath shape;
        // define tab's body
        shape.AddRectangle(Rect(0, 0, width, height));
        shape.SetMarker();

        // define "x"'s circle
        int c = int((float)height * 0.78f + 0.5f); // size of bounding square for the circle
        int maxC = DpiScaleX(hwnd, 17);
        if (height > maxC) {
            c = DpiScaleX(hwnd, 17);
        }
        Point p(width - c - DpiScaleX(hwnd, 3), (height - c) / 2); // circle's position
        shape.AddEllipse(p.X, p.Y, c, c);
        shape.SetMarker();
        // define "x"
        int o = int((float)c * 0.286f + 0.5f); // "x"'s offset
        shape.AddLine(p.X + o, p.Y + o, p.X + c - o, p.Y + c - o);
        shape.StartFigure();
        shape.AddLine(p.X + c - o, p.Y + o, p.X + o, p.Y + c - o);
        shape.SetMarker();

        delete data;
        data = new PathData();
        shape.GetPathData(data);
        return true;
    }
Exemple #3
0
void IGTabBar::drawTab (HDC hdc, UINT nSize, bool bSelected, bool bOver, const wchar_t *pcwTitle)
{
	Graphics graphics (hdc);
	Color colBackground (Color (GetRValue (m_cBackGround), GetGValue (m_cBackGround), GetBValue (m_cBackGround)));
	SolidBrush solBrushBackground (colBackground);
	graphics.FillRectangle (&solBrushBackground, Rect (0, 0, nSize, BUTTON_HEIGHT - 1));

	SolidBrush solBrushTab (bSelected ? IGTAB_COLORBACKGND : IGTAB_COLOR_UNSELECTED);
	GraphicsPath pathBorder;
	pathBorder.StartFigure();
	pathBorder.AddArc (Rect (0, 0, IGTAB_CORNERDIAM, IGTAB_CORNERDIAM), 180.0f, 90.0f);
	pathBorder.AddArc (Rect (nSize - IGTAB_CORNERDIAM, 0, IGTAB_CORNERDIAM, IGTAB_CORNERDIAM), -90.0f, 90.0f);
	pathBorder.AddLine (Point (nSize, BUTTON_HEIGHT + (bSelected ? 1 : 0)), Point (0, BUTTON_HEIGHT + (bSelected ? 1 : 0)));
	graphics.FillPath (&solBrushTab, &pathBorder);

	if (bOver)
	{
		PathGradientBrush pthGrBrush (&pathBorder);
		pthGrBrush.SetCenterPoint (PointF (0.7f * (float)nSize,
										  0.3f * (float)BUTTON_HEIGHT));
		pthGrBrush.SetCenterColor (IGTAB_COLOR_FRAMEIN);
		Color colors[] = {IGTAB_COLOR_FRAMEOUT};
		int count = 1;
		pthGrBrush.SetSurroundColors (colors, &count);
		graphics.FillPath (&pthGrBrush, &pathBorder);
	}

	FontFamily fontFamily(L"Times New Roman");
	Font font(&fontFamily, 16, FontStyleRegular, UnitPixel);
	PointF      pointF(20.0f, 5.0f);
	SolidBrush  solidFontBrush (bSelected ? IGTAB_COLOR_FONTENABLED : IGTAB_COLOR_FONTDISABLED);
	StringFormat	format(StringFormat::GenericDefault());
	format.SetAlignment (StringAlignmentCenter);
	graphics.DrawString (pcwTitle, -1, &font, RectF (0.0f, 0.0f, (float)nSize, (float)BUTTON_HEIGHT),
							&format, &solidFontBrush);

	Pen penBorder (IGTAB_COLORBORDER, 1);
	GraphicsPath pathBorderOut;
	pathBorderOut.StartFigure();
	pathBorderOut.AddArc (Rect (0, 0, IGTAB_CORNERDIAM + 1, IGTAB_CORNERDIAM + 1), 180.0f, 90.0f);
	pathBorderOut.AddArc (Rect (nSize - IGTAB_CORNERDIAM - 2, 0, IGTAB_CORNERDIAM + 1, IGTAB_CORNERDIAM + 1), -90.0f, 90.0f);
	pathBorderOut.AddLine (Point (nSize - 1, BUTTON_HEIGHT + (bSelected ? 1 : 0)), Point (0, BUTTON_HEIGHT + (bSelected ? 1 : 0)));
	pathBorderOut.CloseFigure();
	graphics.DrawPath (&penBorder, &pathBorderOut);
}
Exemple #4
0
void DrawItemShape::setRegion(const std::list<IDataLine*>& lines)
{
	GraphicsPath path;
	path.StartFigure();
	for(auto itter = m_lines.begin();itter != m_lines.end() ; itter++ )
	{
		(*itter)->getPath(path);
	}
	path.CloseFigure();
	m_region = std::shared_ptr<Region>(new Region(&path));
}
Exemple #5
0
GraphicsPath *GraphicsPathFromPathData(const char *s)
{
    VecSegmented<SvgPathInstr> instr;
    if (!ParseSvgPathData(s, instr))
        return nullptr;
    GraphicsPath *gp = ::new GraphicsPath();
    PointF prevEnd(0.f, 0.f);
    for (SvgPathInstr& i : instr) {
        PathInstrType type = i.type;

        // convert relative coordinates to absolute based on end position of
        // previous element
        // TODO: support the rest of instructions
        if (MoveRel == type) {
            RelPointToAbs(prevEnd, i.v);
            type = MoveAbs;
        } else if (LineToRel == type) {
            RelPointToAbs(prevEnd, i.v);
            type = LineToAbs;
        } else if (HLineRel == type) {
            RelXToAbs(prevEnd, i.v);
            type = HLineAbs;
        } else if (VLineRel == type) {
            RelYToAbs(prevEnd, i.v);
            type = VLineAbs;
        }

        if (MoveAbs == type) {
            PointF p(i.v[0], i.v[1]);
            prevEnd = p;
            gp->StartFigure();
        } else if (LineToAbs == type) {
            PointF p(i.v[0], i.v[1]);
            gp->AddLine(prevEnd, p);
            prevEnd = p;
        } else if (HLineAbs == type) {
            PointF p(prevEnd);
            p.X = i.v[0];
            gp->AddLine(prevEnd, p);
            prevEnd = p;
        } else if (VLineAbs == type) {
            PointF p(prevEnd);
            p.Y = i.v[0];
            gp->AddLine(prevEnd, p);
            prevEnd = p;
        } else if ((Close == type) || (Close2 == type)) {
            gp->CloseFigure();
        } else {
            CrashIf(true);
        }
    }
    return gp;
}
Exemple #6
0
void DrawItemShape::OnPaint( Graphics &g )
{
	if(isChangeRegion())
	{
		ResetRegion();
	}
	auto region = getRegion();
	SolidBrush brush(DrawTools::ColorNormal);
	if (m_isFillPath)
	{
		if (StateNormal == m_state)
		{
			g.FillRegion(&brush, region.get());
		}
		else if (StateHovered == m_state)
		{
			g.FillRegion(&SolidBrush(DrawTools::ColorHovered), region.get());
		}
		else if (StateDisable == m_state)
		{
			g.FillRegion(&SolidBrush(DrawTools::ColorDisable), region.get());
		}
		else if (StateDown == m_state)
		{
			g.FillRegion(&SolidBrush(DrawTools::ColorDown), region.get());
		}
		else if (StateError == m_state)
		{
			g.FillRegion(&SolidBrush(DrawTools::ColorError), region.get());
		}
		else
		{
			g.FillRegion(&SolidBrush(m_fillColor), region.get());
		}
	}
	if (m_isDrawPath)
	{
		GraphicsPath path;
		path.StartFigure();
		for(auto itter = m_lines.begin();itter != m_lines.end() ; itter++ )
		{
			(*itter)->getPath(path);
		}
		path.CloseFigure();

		g.DrawPath(&Pen(m_drawColor),&path);
	}
}
/*
 * Converts specified int array into GraphicsPath object
 */
static inline GraphicsPath *createGraphicsPath(JNIEnv *env, jfloatArray jpath, jint len, jint winding) 
{
    jfloat *path = (jfloat *)malloc(sizeof(jfloat)*len);
    env->GetFloatArrayRegion(jpath, 0, len, path);

    
    GraphicsPath *res = new GraphicsPath((winding == java_awt_geom_PathIterator_WIND_EVEN_ODD)?FillModeAlternate:FillModeWinding);
    float x1 = 0;
    float y1 = 0;
    float mx = 0;
    float my = 0;
    for (int i = 0; i < len; i++) {
        int seg = (int)path[i];
        switch (seg) {
            case java_awt_geom_PathIterator_SEG_MOVETO:
                res->StartFigure();
                x1 = path[i+1];
                y1 = path[i+2];
                mx = path[i+1];
                my = path[i+2];
                i += 2;
                break;
            case java_awt_geom_PathIterator_SEG_LINETO:
                res->AddLine(x1, y1, path[i+1], path[i+2]);
                x1 = path[i+1];
                y1 = path[i+2];
                i += 2;
                break;
            case java_awt_geom_PathIterator_SEG_CLOSE:
                res->AddLine(x1, y1, mx, my);
                x1 = mx;
                y1 = my;
                res->CloseFigure();
                break;
        }
    }
    
    free(path);
    
    return res;
}    
Exemple #8
0
    virtual void onDraw(HDC hdc)
    {
        Graphics graphics(hdc);
        
         USmartDC dc(hdc);
         huys::URectL rect;
         this->getClientRect(rect);
  
         //
         LinearGradientBrush lgb(Point(0, 0), Point(rect.right(), rect.bottom()), Color::Blue, Color::Green);
         //
         graphics.FillRectangle(&lgb, 0, 0, rect.right(), rect.bottom());

        //
        Pen      pen(Color(255, 255, 255, 255));
        graphics.DrawLine(&pen, 0, 0, 200, 100);

        //
        Pen blackPen(Color(255, 255, 0, 0), 5);
        graphics.DrawRectangle(&blackPen, 290, 100, 100, 50);

        //
        Pen blackPen2(Color(255, 0, 0, 0), 1);
        Pen greenPen(Color(255, 0, 255, 0), 10);
        greenPen.SetAlignment(PenAlignmentCenter);

        // Draw the line with the wide green pen.
        graphics.DrawLine(&greenPen, 310, 100, 400, 50);

        // Draw the same line with the thin black pen.
        graphics.DrawLine(&blackPen2, 310, 100, 400, 50);


        greenPen.SetAlignment(PenAlignmentInset);
        // Draw the rectangle with the wide green pen.
        graphics.DrawRectangle(&greenPen, 510, 100, 50, 50);

        // Draw the same rectangle with the thin black pen.
        graphics.DrawRectangle(&blackPen2, 510, 100, 50, 50);

        //
        SolidBrush solidBrush(Color(255, 255, 0, 0));
        graphics.FillEllipse(&solidBrush, 0, 0, 100, 60);

        //
        SolidBrush  brush(Color(255, 0, 0, 255));
        FontFamily  fontFamily(L"Times New Roman");
        Font        font(&fontFamily, 24, FontStyleRegular, UnitPixel);
        PointF      pointF(10.0f, 20.0f);

        graphics.DrawString(L"Hello World!", -1, &font, pointF, &brush);

        GraphicsPath path;
        Pen penJoin(Color(255, 0, 0, 255), 8);

        path.StartFigure();
        path.AddLine(Point(50, 200), Point(100, 200));
        path.AddLine(Point(100, 200), Point(100, 250));

        penJoin.SetLineJoin(LineJoinBevel);
        graphics.DrawPath(&penJoin, &path);

        pen.SetStartCap(LineCapArrowAnchor);
        pen.SetEndCap(LineCapRoundAnchor);
        graphics.DrawLine(&pen, 20, 175, 300, 175);

        REAL dashValues[4] = {5, 2, 15, 4};
        Pen blackPen3(Color(255, 0, 0, 0), 2);
        blackPen3.SetDashPattern(dashValues, 4);
        graphics.DrawLine(&blackPen3, Point(5, 225), Point(405, 225));

        Image         image(L"Texture.jpg");
        TextureBrush  tBrush(&image);
        Pen           texturedPen(&tBrush, 30);

        graphics.DrawImage(&image, 499, 366, image.GetWidth(), image.GetHeight());
        graphics.DrawEllipse(&texturedPen, 600, 220, 200, 100);

        Pen opaquePen(Color(255, 0, 0, 255), 15);
        Pen semiTransPen(Color(128, 0, 0, 255), 15);
        graphics.DrawLine(&opaquePen, 480, 380, 640, 380);
        graphics.DrawLine(&semiTransPen, 480, 400, 640, 400);
        graphics.SetCompositingQuality(CompositingQualityGammaCorrected);
        graphics.DrawLine(&semiTransPen, 480, 420, 640, 420);

        LinearGradientBrush linGrBrush(
            Point(0, 10),
            Point(200, 10),
            Color(255, 255, 0, 0),   // opaque red
            Color(255, 0, 0, 255));  // opaque blue

        Pen penx(&linGrBrush);

        graphics.DrawLine(&penx, 0, 410, 200, 410);
        graphics.FillEllipse(&linGrBrush, 20, 360, 200, 400);
        graphics.FillRectangle(&linGrBrush, 30, 355, 200, 400);
        
        Point points[] =
        {
          Point(0, 0), Point(100, 200), Point(200, 0), Point(300, 200), Point(400, 00)
        };
        //
        for (int i = 0; i < 4; i++)
        {
            graphics.DrawLine(&Pen(Color::White, 3), points[i], points[i + 1]);
        }
        //
        graphics.DrawCurve(&Pen(Color::Red, 3), points, 5);
    }
/*
** Draws the meter on the double buffer
**
*/
bool MeterSegmentedLine::Draw(Gfx::Canvas& canvas)
{
	int maxSize = m_DataWidth;
	if (!Meter::Draw(canvas) || maxSize <= 0) return false;
	
	Gdiplus::Graphics& graphics = canvas.BeginGdiplusContext();

	double maxValue = 0.0;
	int counter = 0;

	// Find the maximum value
	if (m_Autoscale)
	{
		double newValue = 0;
		counter = 0;
		for (auto i = m_AllValues.cbegin(); i != m_AllValues.cend(); ++i)
		{
			double scale = m_ScaleValues[counter];
			for (auto j = (*i).cbegin(); j != (*i).cend(); ++j)
			{
				double val = (*j) * scale;
				newValue = max(newValue, val);
			}
			++counter;
		}

		// Scale the value up to nearest power of 2
		if (newValue > DBL_MAX / 2.0)
		{
			maxValue = DBL_MAX;
		}
		else
		{
			maxValue = 2.0;
			while (maxValue < newValue)
			{
				maxValue *= 2.0;
			}
		}
	}
	else
	{
		for (auto i = m_Measures.cbegin(); i != m_Measures.cend(); ++i)
		{
			double val = (*i)->GetMaxValue();
			maxValue = max(maxValue, val);
		}

		if (maxValue == 0.0)
		{
			maxValue = 1.0;
		}
	}

	Gdiplus::Rect meterRect = GetMeterRectPadding();

	// Draw all the lines
	const REAL H = meterRect.Height - 1.0f;
	counter = 0;
	auto pointsBuffer = m_Points.cbegin();
	for (auto i = m_AllValues.cbegin(); i != m_AllValues.cend(); ++i)
	{
		// Draw a line
		REAL Y, oldY;

		const double scale = m_ScaleValues[counter] * H / maxValue;

		int pos = m_CurrentPos;

		auto calcY = [&](REAL& _y, REAL stepSize, int currPos)		//TODO: move this lambda elsewhere
		{
			_y = 0;
			switch (m_CurveFitMethod)
			{
				//first value
				case 0:	_y = (REAL)((*i)[currPos]);
						break;

				//maximum value
				case 1: for (int ind = 0; ind < stepSize; ind++)
							_y = max(_y, (REAL)((*i)[(currPos + ind) % m_DataWidth]));
						break;

				//arithmetic mean
				case 2: for (int ind = 0; ind < stepSize; ind++)
							_y += (REAL)((*i)[(currPos + ind) % m_DataWidth]);
						_y /= stepSize;
						break;

				default: _y = (REAL)((*i)[currPos]);
			}
			
			_y *= scale;
			_y = min(_y, H);
			_y = max(_y, 0.0f);
			_y = meterRect.Y + (H - _y);
		};

		// Cache all lines
		GraphicsPath path;
		int segmentInd = 0,
			step,
			divider;

		//compute y values
		step = m_SegmentDividers[m_SegmentDividers.size() - 1];
		divider = m_Segments.size() > 0 ? m_W - m_Segments[m_Segments.size() - 1] : m_W;
		for (int j = 0; j < m_W; ++j)
		{
			calcY(Y, step, pos - pos % step);
			(*pointsBuffer)[j] = Y;

			if (segmentInd < m_Segments.size() && j >= divider)
			{
				segmentInd++;

				step = m_SegmentDividers[m_SegmentDividers.size() - segmentInd - 1];
				divider = segmentInd != m_Segments.size() ? m_W - m_Segments[m_Segments.size() - segmentInd - 1] : m_W;
			}

			pos += step;
			pos %= m_DataWidth;
		}
		
		//draw y values
		segmentInd = 0;
		divider = m_Segments.size() > 0 ? m_W - m_Segments[m_Segments.size() - segmentInd - 1] : m_W;
		if (!m_GraphStartLeft)
		{
			for (int j = 1; j < m_W; ++j)
			{
				if (segmentInd < m_Segments.size() && j >= divider)
				{
					segmentInd++;
					path.SetMarker();
					path.StartFigure();

					divider = segmentInd != m_Segments.size() ? m_W - m_Segments[m_Segments.size() - segmentInd - 1] : m_W;
				}

				path.AddLine((REAL)(meterRect.X + j - 1), (*pointsBuffer)[j - 1], (REAL)(meterRect.X + j), (*pointsBuffer)[j]);
			}
		}
		else
		{
			for (int j = 1; j < m_W; ++j)
			{
				if (segmentInd < m_Segments.size() && j >= divider)
				{
					segmentInd++;
					path.SetMarker();
					path.StartFigure();
					divider = segmentInd != m_Segments.size() ? m_W - m_Segments[m_Segments.size() - segmentInd - 1] : m_W;
				}

				path.AddLine((REAL)(meterRect.X + meterRect.Width - j), (*pointsBuffer)[j - 1], (REAL)(meterRect.X + meterRect.Width - j - 1), (*pointsBuffer)[j]);
			}
		}

		// Draw cached lines
		GraphicsPathIterator pathIter(&path);
		GraphicsPath subPath;
		for (auto color = m_Colors[counter].rbegin(); color != m_Colors[counter].rend(); ++color)
		{
			pathIter.NextMarker(&subPath);

			Pen pen(*color, (REAL)m_LineWidth);
			pen.SetLineJoin(LineJoinRound);
			graphics.DrawPath(&pen, &subPath);
		}

		++counter;
		++pointsBuffer;
	}

	canvas.EndGdiplusContext();

	return true;
}