protected void UpdateColors() { if (Created && _rebar != null) { COLORSCHEME CSInfo = new COLORSCHEME(); CSInfo.dwSize = (uint)Marshal.SizeOf(CSInfo); CSInfo.clrBtnHighlight = new COLORREF(_embossHighlight); CSInfo.clrBtnShadow = new COLORREF(_embossShadow); win32.SendMessage(_rebar.Handle, (int)win32.RB_SETCOLORSCHEME, 0, ref CSInfo); COLORREF color = new COLORREF(this.ForeColor); win32.SendMessage(_rebar.Handle, (int)win32.RB_SETTEXTCOLOR, 0, color); color = new COLORREF(this.BackColor); win32.SendMessage(_rebar.Handle, (int)win32.RB_SETBKCOLOR, 0, color); } }
/// <summary> /// The ColorMapper constructor. /// </summary> /// <param name="dfMin">Specifies the minimum value in the number range.</param> /// <param name="dfMax">Specifies the maximum value in the number range.</param> /// <param name="clrDefault">Specifies the default color to use.</param> /// <param name="clrError">Specifies the color to use when an error is detected.</param> /// <param name="clrScheme">Specifies the color scheme to use (default = COLORSCHEME.NORMAL).</param> /// <param name="nResolution">Specifies the number of colors to generate (default = 160).</param> public ColorMapper(double dfMin, double dfMax, Color clrDefault, Color clrError, COLORSCHEME clrScheme = COLORSCHEME.NORMAL, int nResolution = 160) { m_clrDefault = clrDefault; m_clrError = clrError; m_nResolution = nResolution; m_dfMin = dfMin; m_dfMax = dfMax; if (clrScheme == COLORSCHEME.GBR) { m_rgrgColors.Add(new List <double>() { 1, 0, 0 }); // red m_rgrgColors.Add(new List <double>() { 0, 0, 0.5 }); // blue m_rgrgColors.Add(new List <double>() { 0, 1, 0 }); // green } else { m_rgrgColors.Add(new List <double>() { 0, 0, 0 }); // black m_rgrgColors.Add(new List <double>() { 0, 0, 1 }); // blue m_rgrgColors.Add(new List <double>() { 0, 1, 0 }); // green m_rgrgColors.Add(new List <double>() { 1, 0, 0 }); // red m_rgrgColors.Add(new List <double>() { 1, 1, 0 }); // yellow } double dfRange = dfMax - dfMin; double dfInc = dfRange / m_nResolution; dfMax = dfMin + dfInc; while (dfMax < m_dfMax) { Color clr = calculate(dfMin); m_rgColorMappings.Add(new KeyValuePair <Color, SizeF>(clr, new SizeF((float)dfMin, (float)dfMax))); dfMin = dfMax; dfMax += dfInc; } }
/// <summary> /// The ColorMapper constructor. /// </summary> /// <param name="dfMin">Specifies the minimum value in the number range.</param> /// <param name="dfMax">Specifies the maximum value in the number range.</param> /// <param name="clrDefault">Specifies the default color to use.</param> /// <param name="clrError">Specifies the color to use when an error is detected.</param> /// <param name="clrScheme">Specifies the color scheme to use (default = COLORSCHEME.NORMAL).</param> /// <param name="nResolution">Specifies the number of colors to generate (default = 160).</param> public ColorMapper(double dfMin, double dfMax, Color clrDefault, Color clrError, COLORSCHEME clrScheme = COLORSCHEME.NORMAL, int nResolution = 160) { m_clrDefault = clrDefault; m_clrError = clrError; m_nResolution = nResolution; m_dfMin = dfMin; m_dfMax = dfMax; if (clrScheme == COLORSCHEME.GBR) { m_rgrgColors.Add(new List <double>() { 1, 0, 0 }); // red m_rgrgColors.Add(new List <double>() { 0, 0, 0.5 }); // blue m_rgrgColors.Add(new List <double>() { 0, 1, 0 }); // green } else { m_rgrgColors.Add(new List <double>() { 0, 0, 0 }); // black m_rgrgColors.Add(new List <double>() { 0, 0, 1 }); // blue m_rgrgColors.Add(new List <double>() { 0, 1, 0 }); // green m_rgrgColors.Add(new List <double>() { 1, 0, 0 }); // red m_rgrgColors.Add(new List <double>() { 1, 1, 0 }); // yellow } double dfMin1 = dfMin; double dfMax1 = dfMax; double dfRange = dfMax - dfMin; double dfInc = dfRange / m_nResolution; dfMax = dfMin + dfInc; while (dfMax < m_dfMax) { Color clr = calculate(dfMin); m_rgColorMappings.Add(new KeyValuePair <Color, SizeF>(clr, new SizeF((float)dfMin, (float)dfMax))); dfMin = dfMax; dfMax += dfInc; } if (m_rgColorMappings.Count == 0) { m_rgColorMappings.Add(new KeyValuePair <Color, SizeF>(Color.Black, new SizeF((float)dfMin1, (float)dfMax1))); } m_dfMid = dfRange / 2; m_nMidIdx = m_rgColorMappings.Count / 2; m_rgQuads0 = createSearchQuads(0, 0, m_rgColorMappings.Count, dfRange); m_rgQuads1 = createSearchQuads(m_dfMid, m_nMidIdx, m_rgColorMappings.Count, dfRange); }
protected void UpdateColors() { if ( Created && _rebar != null ) { COLORSCHEME CSInfo = new COLORSCHEME(); CSInfo.dwSize = (uint)Marshal.SizeOf( CSInfo ); CSInfo.clrBtnHighlight = new COLORREF( _embossHighlight ); CSInfo.clrBtnShadow = new COLORREF( _embossShadow ); win32.SendMessage( _rebar.Handle, (int)win32.RB_SETCOLORSCHEME, 0, ref CSInfo ); COLORREF color = new COLORREF( this.ForeColor ); win32.SendMessage( _rebar.Handle, (int)win32.RB_SETTEXTCOLOR, 0, color ); color = new COLORREF( this.BackColor ); win32.SendMessage( _rebar.Handle, (int)win32.RB_SETBKCOLOR, 0, color ); } }