#include "stdafx.h" #include #include "PaintUtils.h" #include "gdiplus_helpers.h" // #include // #include #include "GDIUtils.h" #include "win32_op.h" #include "wtl-pp.h" namespace PaintUtils { static t_uint16 extractChannel16(t_uint32 p_color,int p_which) throw() { return (t_uint16)( ((p_color >> (p_which * 8)) & 0xFF) << 8 ); } static t_uint8 extractbyte(t_uint32 p_val,t_size p_which) throw() { return (t_uint8) ( (p_val >> (p_which * 8)) & 0xFF ); } t_uint32 BlendColorEx(t_uint32 p_color1, t_uint32 p_color2, double mix) throw() { PFC_ASSERT(mix >= 0 && mix <= 1); t_uint32 ret = 0; for(t_size walk = 0; walk < 3; ++walk) { int val1 = extractbyte(p_color1,walk), val2 = extractbyte(p_color2,walk); int val = val1 + pfc::rint32((val2 - val1) * mix); ret |= (t_uint32)val << (walk * 8); } return ret; } t_uint32 BlendColor(t_uint32 p_color1, t_uint32 p_color2, int p_percentage) throw() { PFC_ASSERT(p_percentage <= 100); t_uint32 ret = 0; for(t_size walk = 0; walk < 3; ++walk) { int val1 = extractbyte(p_color1,walk), val2 = extractbyte(p_color2,walk); int val = val1 + MulDiv(val2 - val1,p_percentage,100); ret |= (t_uint32)val << (walk * 8); } return ret; } t_uint32 DriftColor(t_uint32 p_color,unsigned p_delta,bool p_direction) throw() { t_uint32 ret = 0; for(t_size walk = 0; walk < 3; ++walk) { unsigned val = extractbyte(p_color,walk); if (p_direction) val = 0xFF - val; if (val < p_delta) val = p_delta; val += p_delta; if (val > 0xFF) val = 0xFF; if (p_direction) val = 0xFF - val; ret |= (t_uint32)val << (walk * 8); } return ret; } void FillVertexColor(TRIVERTEX & p_vertex,t_uint32 p_color,t_uint16 p_alpha) throw() { p_vertex.Red = extractChannel16(p_color,0); p_vertex.Green = extractChannel16(p_color,1); p_vertex.Blue = extractChannel16(p_color,2); p_vertex.Alpha = p_alpha; } void FillRectSimple(CDCHandle p_dc,const CRect & p_rect,t_uint32 p_color) throw() { p_dc.FillSolidRect(p_rect, p_color); } void GradientFillRect(CDCHandle p_dc,const CRect & p_rect,t_uint32 p_color1, t_uint32 p_color2, bool p_horizontal) throw() { TRIVERTEX verticies[2]; GRADIENT_RECT element = {0,1}; FillVertexColor(verticies[0],p_color1); FillVertexColor(verticies[1],p_color2); verticies[0].x = p_rect.left; verticies[0].y = p_rect.top; verticies[1].x = p_rect.right; verticies[1].y = p_rect.bottom; WIN32_OP_D( p_dc.GradientFill(verticies,tabsize(verticies),&element,1,p_horizontal ? GRADIENT_FILL_RECT_H : GRADIENT_FILL_RECT_V) ); } void GradientSplitRect(CDCHandle p_dc,const CRect & p_rect,t_uint32 p_bkColor, t_uint32 p_gradientColor,int p_splitPercent) throw() { const long split = p_rect.top + MulDiv(p_rect.Height(),p_splitPercent,100); CRect rcTemp; rcTemp = p_rect; rcTemp.bottom = split; GradientFillRect(p_dc,rcTemp,p_bkColor,p_gradientColor,false); rcTemp = p_rect; rcTemp.top = split; GradientFillRect(p_dc,rcTemp,p_gradientColor,p_bkColor,false); } void GradientBar(CDCHandle p_dc,const CRect & p_rect,t_uint32 p_exterior, t_uint32 p_interior, int p_percentage) throw() { const int gradientPix = MulDiv(p_rect.Height(),p_percentage,100); CRect rcTemp; rcTemp = p_rect; rcTemp.bottom = rcTemp.top + gradientPix; GradientFillRect(p_dc,rcTemp,p_exterior,p_interior,false); rcTemp = p_rect; rcTemp.top += gradientPix; rcTemp.bottom -= gradientPix; FillRectSimple(p_dc,rcTemp,p_interior); rcTemp = p_rect; rcTemp.top = rcTemp.bottom - gradientPix; GradientFillRect(p_dc,rcTemp,p_interior,p_exterior,false); } void RenderItemBackground(CDCHandle p_dc,const CRect & p_itemRect,t_size p_item,t_uint32 p_color) throw() { const DWORD bkColor_base = p_color; const DWORD bkColor = DriftColor(bkColor_base,3, (p_item&1) != 0); //GradientSplitRect(p_dc,p_itemRect,bkColor,BlendColor(bkColor,textColor,7),80); GradientBar(p_dc,p_itemRect,bkColor_base,bkColor,10); } double Luminance(t_uint32 color) throw() { double r = extractbyte(color,0), g = extractbyte(color,1), b = extractbyte(color,2); return (0.2126 * r + 0.7152 * g + 0.0722 * b) / 255.0; //return (r * 0.3 + g * 0.59 + b * 0.11) / 255.0; } t_uint32 DetermineTextColor(t_uint32 bk) throw() { double l = Luminance(bk); if ( l > 0.6 ) { return 0; // black } else { return 0xFFFFFF; // white } } void AddRectToRgn(HRGN p_rgn,CRect const & p_rect) throw() { CRgn temp; WIN32_OP_D( temp.CreateRectRgnIndirect(p_rect) != NULL ); CRgnHandle(p_rgn).CombineRgn(temp,RGN_OR); } void FocusRect2(CDCHandle dc, CRect const & rect, COLORREF bkColor) throw() { COLORREF txColor = DetermineTextColor( bkColor ); COLORREF useColor = BlendColor(bkColor, txColor, 50); CDCBrush brush(dc, useColor); WIN32_OP_D( dc.FrameRect(rect,brush) ); } void FocusRect(CDCHandle dc, CRect const & rect) throw() { CDCBrush brush(dc, 0x7F7F7F); WIN32_OP_D( dc.FrameRect(rect,brush) ); //dc.DrawFocusRect(rect); } namespace TrackBar { void DrawThumb(HTHEME theme,HDC dc,int state,const RECT * rcThumb, const RECT * rcUpdate) { if (theme == NULL) { RECT blah = *rcThumb; int flags = DFCS_BUTTONPUSH; switch(state) { case TUS_NORMAL: break; case TUS_DISABLED: flags |= DFCS_INACTIVE; break; case TUS_PRESSED: flags |= DFCS_PUSHED; break; } DrawFrameControl(dc,&blah,DFC_BUTTON,flags); } else { DrawThemeBackground(theme,dc,TKP_THUMB,state,rcThumb,rcUpdate); } } void DrawTrack(HTHEME theme,HDC dc,const RECT * rcTrack, const RECT * rcUpdate) { if (theme == NULL) { RECT blah = *rcTrack; DrawFrameControl(dc,&blah,DFC_BUTTON,DFCS_BUTTONPUSH|DFCS_PUSHED); } else { DrawThemeBackground(theme,dc,TKP_TRACK,TKS_NORMAL,rcTrack,rcUpdate); } } void DrawTrackVolume(HTHEME theme,HDC p_dc,const RECT * rcTrack, const RECT * rcUpdate) { CMemoryDC dc(p_dc,CRect(rcUpdate)); CRect rc(*rcTrack); CRect update(*rcUpdate); WIN32_OP_D( dc.BitBlt(update.left,update.top,update.Width(),update.Height(),p_dc,update.left,update.top,SRCCOPY) ); /*CDCHandle dc(p_dc); CPen pen; pen.CreatePen(PS_SOLID,1, GetSysColor(COLOR_GRAYTEXT)); SelectObjectScope scope(dc, pen); dc.MoveTo(rc.left,rc.bottom); dc.LineTo(rc.right,rc.bottom); dc.LineTo(rc.right,rc.top); dc.LineTo(rc.left,rc.bottom);*/ //DrawTrack(theme,dc,rcTrack,rcUpdate); try { Gdiplus::Point points[] = { Gdiplus::Point(rc.left, rc.bottom), Gdiplus::Point(rc.right, rc.bottom), Gdiplus::Point(rc.right, rc.top) } ; GdiplusErrorHandler eh; Gdiplus::Graphics graphics(dc); eh << graphics.GetLastStatus(); Gdiplus::Color c; c.SetFromCOLORREF( GetSysColor(COLOR_BTNHIGHLIGHT) ); Gdiplus::Pen penHL(c); c.SetFromCOLORREF( GetSysColor(COLOR_BTNSHADOW) ); Gdiplus::Pen penSH(c); eh << graphics.SetSmoothingMode(Gdiplus::SmoothingModeHighQuality); //graphics.DrawPolygon(&pen,points,tabsize(points)); eh << graphics.DrawLine(&penSH, points[0], points[0] + Gdiplus::Point(0,-1)); eh << graphics.DrawLine(&penHL, points[0], points[1]); eh << graphics.DrawLine(&penHL, points[1], points[2]); eh << graphics.DrawLine(&penSH, points[2], points[0] + Gdiplus::Point(0,-1)); } catch(std::exception const & e) { (void) e; // console::print(e.what()); } } } void DrawSmoothedLine(HDC dc, CPoint pt1, CPoint pt2, COLORREF col, double width) { try { Gdiplus::Point points[] = { Gdiplus::Point(pt1.x,pt1.y), Gdiplus::Point(pt2.x,pt2.y) }; GdiplusErrorHandler eh; Gdiplus::Graphics graphics(dc); eh << graphics.GetLastStatus(); Gdiplus::Color c; c.SetFromCOLORREF( col ); Gdiplus::Pen pen(c, (Gdiplus::REAL)( width )); eh << graphics.SetSmoothingMode(Gdiplus::SmoothingModeHighQuality); //graphics.DrawPolygon(&pen,points,tabsize(points)); eh << graphics.DrawLine(&pen, points[0], points[1]); } catch(std::exception const & e) { (void) e; // console::print(e.what()); } } static int get_text_width(HDC dc,const TCHAR * src,int len) { if (len<=0) return 0; else { SIZE goatse; GetTextExtentPoint32(dc,src,len,&goatse); return goatse.cx; } } static t_uint32 TextOutColors_TranslateColor(const t_uint32 colors[3], int offset) { const double v = (double)offset / 3.0; if (v <= -1) return colors[0]; else if (v < 0) return BlendColorEx(colors[0], colors[1], v + 1); else if (v == 0) return colors[1]; else if (v < 1) return BlendColorEx(colors[1], colors[2], v); else return colors[2]; } void TextOutColors_StripCodesAppend(pfc::string_formatter & out, const char * in) { t_size done = 0, walk = 0; for(;;) { if (in[walk] == 0) { if (walk > done) out.add_string_nc(in + done, walk - done); return; } if ((unsigned)in[walk] < 32) { if (walk > done) {out.add_string_nc(in + done, walk - done);} done = walk + 1; } ++walk; } } void TextOutColors_StripCodes(pfc::string_formatter & out, const char * in) { out.reset(); TextOutColors_StripCodesAppend(out, in); } static bool IsControlChar(TCHAR c) { return (unsigned)c < 32; } static int MatchTruncat(HDC dc, int & pixels, const TCHAR * text, int textLen) { int min = 0, max = textLen; int minWidth = 0; while(min + 1 < max) { const int probe = (min + max) / 2; CSize size; WIN32_OP( GetTextExtentPoint32(dc, text, probe, &size) ); if (size.cx <= pixels) {min = probe; minWidth = size.cx;} else max = probe; } pixels = minWidth; return min; } static int TruncatHeadroom(HDC dc) { CSize size; WIN32_OP( GetTextExtentPoint32(dc, _T("\x2026"), 1, &size) ); return size.cx; } static void ExtTextOut_Truncat(HDC dc, int x, int y, CRect const & clip, const TCHAR * text, int textLen) { int width = pfc::max_t(0, clip.right - x - TruncatHeadroom(dc)); int truncat = MatchTruncat(dc, width, text, textLen); WIN32_OP( ExtTextOut(dc, x, y, ETO_CLIPPED, &clip, text, truncat, NULL) ); WIN32_OP( ExtTextOut(dc, x + width, y, ETO_CLIPPED, &clip, _T("\x2026"), 1, NULL) ); } bool TextContainsCodes(const TCHAR * src) { for(;;) { if (*src == 0) return false; if ((unsigned)*src < 32) return true; ++src; } } void TextOutColorsEx(HDC dc,const TCHAR * src,const CRect & target,DWORD flags,const t_uint32 colors[3]) { if (!TextContainsCodes(src)) { SetTextColorScope cs(dc, colors[1]); CRect rc(target); CDCHandle(dc).DrawText(src,(int)_tcslen(src),rc,DT_NOPREFIX | DT_END_ELLIPSIS | DT_SINGLELINE | DT_VCENTER | flags); } else { const CSize textSize = PaintUtils::TextOutColors_CalcSize(dc, src); CPoint origin = target.TopLeft(); origin.y = (target.top + target.bottom - textSize.cy) / 2; switch(flags & (DT_LEFT | DT_RIGHT | DT_CENTER)) { case DT_LEFT: break; case DT_RIGHT: if (textSize.cx < target.Width()) origin.x = target.right - textSize.cx; break; case DT_CENTER: if (textSize.cx < target.Width()) origin.x = (target.right + target.left - textSize.cx) / 2; break; } TextOutColors(dc, src, (int)_tcslen(src), origin, target, colors); } } void TextOutColors(HDC dc,const TCHAR * src,int len,CPoint offset,const CRect & clip,const t_uint32 colors[3], int tabWidthTotal, int tabWidthDiv) { SetTextAlign(dc,TA_LEFT); SetBkMode(dc,TRANSPARENT); int walk = 0; int position = offset.x; int colorOffset = 0; int tabs = 0; int positionTabDelta = 0; for(;;) { int base = walk; while(walk < len && !IsControlChar(src[walk])) ++walk; if (walk>base) { SetTextColor(dc,TextOutColors_TranslateColor(colors, colorOffset)); int width = get_text_width(dc,src+base,walk-base); if (position + width > clip.right) { ExtTextOut_Truncat(dc, position, offset.y, clip, src + base, walk - base); return; } WIN32_OP( ExtTextOut(dc,position,offset.y,ETO_CLIPPED,&clip,src+base,walk-base,0) ); position += width; } if (walk>=len) break; while(walk < len && IsControlChar(src[walk])) { if (src[walk] == TextOutColors_Dim) --colorOffset; else if (src[walk] == TextOutColors_Highlight) ++colorOffset; else if (src[walk] == '\t') { int newDelta = MulDiv(++tabs, tabWidthTotal, tabWidthDiv); position += newDelta - positionTabDelta; positionTabDelta = newDelta; } walk++; } } } CSize TextOutColors_CalcSize(HDC dc, const TCHAR * src) { CSize acc(0,0); for(int walk = 0;;) { const int done = walk; while(!IsControlChar(src[walk])) ++walk; if (walk > done) { CSize temp; WIN32_OP( GetTextExtentPoint32(dc,src + done, walk - done, &temp) ); acc.cx += temp.cx; pfc::max_acc(acc.cy, temp.cy); } if (src[walk] == 0) return acc; while(src[walk] != 0 && IsControlChar(src[walk])) ++walk; } } t_uint32 TextOutColors_CalcWidth(HDC dc, const TCHAR * src) { t_uint32 acc = 0; for(int walk = 0;;) { const int done = walk; while(!IsControlChar(src[walk])) ++walk; acc += get_text_width(dc, src + done, walk - done); if (src[walk] == 0) return acc; while(src[walk] != 0 && IsControlChar(src[walk])) ++walk; } } static const unsigned Marker_Dim = '<', Marker_Highlight = '>'; pfc::string TextOutColors_ImportScript(pfc::string script) { pfc::string_formatter temp; TextOutColors_ImportScript(temp, script.ptr()); return temp.get_ptr(); } void TextOutColors_ImportScript(pfc::string_base & out, const char * in) { out.reset(); for(;;) { t_size delta; t_uint32 c; delta = pfc::utf8_decode_char(in, c); if (delta == 0) break; switch(c) { case '>': c = PaintUtils::TextOutColors_Highlight; break; case '<': c = PaintUtils::TextOutColors_Dim; break; } out.add_char(c); in += delta; } } t_uint32 DrawText_TranslateHeaderAlignment(t_uint32 val) { switch(val & HDF_JUSTIFYMASK) { case HDF_LEFT: default: return DT_LEFT; case HDF_RIGHT: return DT_RIGHT; case HDF_CENTER: return DT_CENTER; } } void RenderButton(HWND wnd_, HDC dc_, CRect rcUpdate, bool bPressed) { CDCHandle dc(dc_); CWindow wnd(wnd_); CTheme theme; theme.OpenThemeData(wnd, L"BUTTON"); RelayEraseBkgnd(wnd, wnd.GetParent(), dc); const int part = BP_PUSHBUTTON; enum { stNormal = PBS_NORMAL, stHot = PBS_HOT, stDisabled = PBS_DISABLED, stPressed = PBS_PRESSED, }; int state = 0; if (!wnd.IsWindowEnabled()) state = stDisabled; else if (bPressed) state = stPressed; else state = stNormal; CRect rcClient; WIN32_OP_D( wnd.GetClientRect(rcClient) ); if (theme != NULL && IsThemePartDefined(theme, part, 0)) { DrawThemeBackground(theme, dc, part, state, rcClient, &rcUpdate); } else { int stateEx = DFCS_BUTTONPUSH; switch(state) { case stPressed: stateEx |= DFCS_PUSHED; break; case stDisabled: stateEx |= DFCS_INACTIVE; break; } DrawFrameControl(dc, rcClient, DFC_BUTTON, stateEx); } } void PaintSeparatorControl(HWND wnd_) { CWindow wnd(wnd_); CPaintDC dc(wnd); TCHAR buffer[512] = {}; wnd.GetWindowText(buffer, _countof(buffer)); const int txLen = (int) pfc::strlen_max_t(buffer, _countof(buffer)); CRect contentRect; WIN32_OP_D(wnd.GetClientRect(contentRect)); dc.SetTextColor(GetSysColor(COLOR_WINDOWTEXT)); dc.SetBkMode(TRANSPARENT); { CBrushHandle brush = (HBRUSH)wnd.GetParent().SendMessage(WM_CTLCOLORSTATIC, (WPARAM)(HDC)dc, (LPARAM)wnd.m_hWnd); if (brush != NULL) dc.FillRect(contentRect, brush); } SelectObjectScope scopeFont(dc, wnd.GetFont()); if (txLen > 0) { CRect rcText(contentRect); if (!wnd.IsWindowEnabled()) { dc.SetTextColor(GetSysColor(COLOR_GRAYTEXT)); } WIN32_OP_D(dc.DrawText(buffer, txLen, rcText, DT_NOPREFIX | DT_END_ELLIPSIS | DT_SINGLELINE | DT_VCENTER | DT_LEFT) > 0); // WIN32_OP_D( dc.GrayString(NULL, NULL, (LPARAM) buffer, txLen, rcText.left, rcText.top, rcText.Width(), rcText.Height() ) ); } SIZE txSize, probeSize; const TCHAR probe[] = _T("#"); if (dc.GetTextExtent(buffer, txLen, &txSize) && dc.GetTextExtent(probe, _countof(probe), &probeSize)) { int spacing = txSize.cx > 0 ? (probeSize.cx / 4) : 0; if (txSize.cx + spacing < contentRect.Width()) { const CPoint center = contentRect.CenterPoint(); CRect rcEdge(contentRect.left + txSize.cx + spacing, center.y, contentRect.right, contentRect.bottom); WIN32_OP_D(dc.DrawEdge(rcEdge, EDGE_ETCHED, BF_TOP)); } } } }