// // Rectangle drawing routines for the Fast Light Tool Kit (FLTK). // // Copyright 1998-2022 by Bill Spitzak and others. // // This library is free software. Distribution and use rights are outlined in // the file "COPYING" which should have been included with this file. If this // file is missing or damaged, see the license at: // // https://www.fltk.org/COPYING.php // // Please see the following page on how to report bugs and issues: // // https://www.fltk.org/bugs.php // #include #include "Fl_GDI_Graphics_Driver.H" #include #include #include #include "../../Fl_Screen_Driver.H" #include "Fl_Font.H" #if USE_GDIPLUS Fl_GDIplus_Graphics_Driver::Fl_GDIplus_Graphics_Driver() : Fl_GDI_Graphics_Driver() { if (!fl_current_xmap) color(FL_BLACK); pen_ = new Gdiplus::Pen(gdiplus_color_, 1); pen_->SetLineJoin(Gdiplus::LineJoinRound); pen_->SetStartCap(Gdiplus::LineCapFlat); pen_->SetEndCap(Gdiplus::LineCapFlat); brush_ = new Gdiplus::SolidBrush(gdiplus_color_); active = true; } Fl_GDIplus_Graphics_Driver::~Fl_GDIplus_Graphics_Driver() { delete pen_; delete brush_; } void Fl_GDIplus_Graphics_Driver::antialias(int state) { active = state; } int Fl_GDIplus_Graphics_Driver::antialias() { return active; } void Fl_GDIplus_Graphics_Driver::draw_circle(int x, int y, int d, Fl_Color c) { Fl_Graphics_Driver::draw_circle(x, y, d, c); } int Fl_GDIplus_Graphics_Driver::gdiplus_state_ = Fl_GDIplus_Graphics_Driver::STATE_CLOSED; ULONG_PTR Fl_GDIplus_Graphics_Driver::gdiplus_token_ = 0; void Fl_GDIplus_Graphics_Driver::shutdown() { if (gdiplus_state_ == STATE_OPEN) { gdiplus_state_ = STATE_SHUTDOWN; Gdiplus::GdiplusShutdown(Fl_GDIplus_Graphics_Driver::gdiplus_token_); gdiplus_token_ = 0; gdiplus_state_ = STATE_CLOSED; } else if (gdiplus_state_ == STATE_CLOSED) { // Fl::warning("Fl_GDIplus_Graphics_Driver::shutdown() called, but driver is closed."); } else if (gdiplus_state_ == STATE_SHUTDOWN) { // Fl::warning("Fl_GDIplus_Graphics_Driver::shutdown() called recursively."); } else if (gdiplus_state_ == STATE_STARTUP) { // Fl::warning("Fl_GDIplus_Graphics_Driver::shutdown() called while driver is starting up."); } } #endif // Code used to switch output to an off-screen window. See macros in // win32.H which save the old state in local variables. typedef struct { BYTE a; BYTE b; BYTE c; BYTE d; } FL_BLENDFUNCTION; typedef BOOL (WINAPI* fl_alpha_blend_func) (HDC,int,int,int,int,HDC,int,int,int,int,FL_BLENDFUNCTION); static fl_alpha_blend_func fl_alpha_blend = NULL; static FL_BLENDFUNCTION blendfunc = { 0, 0, 255, 1}; /* Reference to the current device context For back-compatibility only. The preferred procedure to get this reference is Fl_Surface_Device::surface()->driver()->gc(). */ HDC fl_gc = 0; HDC fl_win32_gc() { return fl_gc; } Fl_GDI_Graphics_Driver::Fl_GDI_Graphics_Driver() { mask_bitmap_ = NULL; gc_ = NULL; long_point = NULL; depth = -1; origins = NULL; } Fl_GDI_Graphics_Driver::~Fl_GDI_Graphics_Driver() { if (long_point) free(long_point); delete[] origins; } void Fl_GDI_Graphics_Driver::global_gc() { fl_gc = (HDC)gc(); } /* * This function checks if the version of Windows that we * curently run on supports alpha blending for bitmap transfers * and finds the required function if so. */ char Fl_GDI_Graphics_Driver::can_do_alpha_blending() { static char been_here = 0; static char can_do = 0; // do this test only once if (been_here) return can_do; been_here = 1; // load the library that implements alpha blending HMODULE hMod = LoadLibrary("MSIMG32.DLL"); // give up if that doesn't exist (Win95?) if (!hMod) return 0; // now find the blending function inside that dll fl_alpha_blend = (fl_alpha_blend_func)GetProcAddress(hMod, "AlphaBlend"); // give up if we can't find it (Win95) if (!fl_alpha_blend) return 0; // we have the call, but does our display support alpha blending? // get the desktop's device context HDC dc = GetDC(0L); if (!dc) return 0; // check the device capabilities flags. However GetDeviceCaps // does not return anything useful, so we have to do it manually: HBITMAP bm = CreateCompatibleBitmap(dc, 1, 1); HDC new_gc = CreateCompatibleDC(dc); int save = SaveDC(new_gc); SelectObject(new_gc, bm); /*COLORREF set = */ SetPixel(new_gc, 0, 0, 0x01010101); BOOL alpha_ok = fl_alpha_blend(dc, 0, 0, 1, 1, new_gc, 0, 0, 1, 1, blendfunc); RestoreDC(new_gc, save); DeleteDC(new_gc); DeleteObject(bm); ReleaseDC(0L, dc); if (alpha_ok) can_do = 1; return can_do; } HDC fl_makeDC(HBITMAP bitmap) { HDC new_gc = CreateCompatibleDC((HDC)Fl_Graphics_Driver::default_driver().gc()); SetTextAlign(new_gc, TA_BASELINE|TA_LEFT); SetBkMode(new_gc, TRANSPARENT); #if USE_COLORMAP if (fl_palette) SelectPalette(new_gc, fl_palette, FALSE); #endif SelectObject(new_gc, bitmap); return new_gc; } void Fl_GDI_Graphics_Driver::copy_offscreen(int x, int y, int w, int h, Fl_Offscreen bitmap, int srcx, int srcy) { x = int(x * scale()); y = int(y * scale()); w = int(w * scale()); h = int(h * scale()); srcx = int(srcx * scale()); srcy = int(srcy * scale()); if (srcx < 0) {w += srcx; x -= srcx; srcx = 0;} if (srcy < 0) {h += srcy; y -= srcy; srcy = 0;} int off_width, off_height; Fl::screen_driver()->offscreen_size(bitmap, off_width, off_height); if (srcx + w >= off_width) {w = off_width - srcx;} if (srcy + h >= off_height) {h = off_height - srcy;} if (w <= 0 || h <= 0) return; HDC new_gc = CreateCompatibleDC(gc_); int save = SaveDC(new_gc); SelectObject(new_gc, (HBITMAP)bitmap); BitBlt(gc_, x, y, w, h, new_gc, srcx, srcy, SRCCOPY); RestoreDC(new_gc, save); DeleteDC(new_gc); } void Fl_GDI_Printer_Graphics_Driver::copy_offscreen(int x, int y, int w, int h, Fl_Offscreen bitmap, int srcx, int srcy) { Fl_Graphics_Driver::copy_offscreen(x, y, w, h, bitmap, srcx, srcy); } BOOL Fl_GDI_Graphics_Driver::alpha_blend_(int x, int y, int w, int h, HDC src_gc, int srcx, int srcy, int srcw, int srch) { return fl_alpha_blend(gc_, x, y, w, h, src_gc, srcx, srcy, srcw, srch, blendfunc); } #if ! defined(FL_DOXYGEN) void Fl_GDI_Graphics_Driver::copy_offscreen_with_alpha(int x,int y,int w,int h,HBITMAP bitmap,int srcx,int srcy) { HDC new_gc = CreateCompatibleDC(gc_); int save = SaveDC(new_gc); SelectObject(new_gc, bitmap); BOOL alpha_ok = 0; // first try to alpha blend if ( fl_can_do_alpha_blending() ) { alpha_ok = alpha_blend_(x, y, w, h, new_gc, srcx, srcy, w, h); } // if that failed (it shouldn't), still copy the bitmap over, but now alpha is 1 if (!alpha_ok) { BitBlt(gc_, x, y, w, h, new_gc, srcx, srcy, SRCCOPY); } RestoreDC(new_gc, save); DeleteDC(new_gc); } void Fl_GDI_Graphics_Driver::translate_all(int x, int y) { const int stack_height = 10; if (depth == -1) { origins = new POINT[stack_height]; depth = 0; } if (depth >= stack_height) { Fl::warning("Fl_Copy/Image_Surface: translate stack overflow!"); depth = stack_height - 1; } GetWindowOrgEx((HDC)gc(), origins+depth); SetWindowOrgEx((HDC)gc(), int(origins[depth].x - x*scale()), int(origins[depth].y - y*scale()), NULL); depth++; } void Fl_GDI_Graphics_Driver::untranslate_all() { if (depth > 0) depth--; SetWindowOrgEx((HDC)gc(), origins[depth].x, origins[depth].y, NULL); } #endif void Fl_GDI_Graphics_Driver::add_rectangle_to_region(Fl_Region r, int X, int Y, int W, int H) { HRGN R = (HRGN)XRectangleRegion(X, Y, W, H); CombineRgn((HRGN)r, (HRGN)r, R, RGN_OR); XDestroyRegion(R); } void Fl_GDI_Graphics_Driver::transformed_vertex0(float x, float y) { if (!n || x != long_point[n-1].x || y != long_point[n-1].y) { if (n >= p_size) { p_size = long_point ? 2*p_size : 16; long_point = (POINT*)realloc((void*)long_point, p_size*sizeof(*long_point)); } long_point[n].x = LONG(x); long_point[n].y = LONG(y); n++; } } void Fl_GDI_Graphics_Driver::fixloop() { // remove equal points from closed path while (n>2 && long_point[n-1].x == long_point[0].x && long_point[n-1].y == long_point[0].y) n--; } Fl_Region Fl_GDI_Graphics_Driver::XRectangleRegion(int x, int y, int w, int h) { if (Fl_Surface_Device::surface() == Fl_Display_Device::display_device()) return CreateRectRgn(x,y,x+w,y+h); // because rotation may apply, the rectangle becomes a polygon in device coords POINT pt[4] = { {x, y}, {x + w, y}, {x + w, y + h}, {x, y + h} }; LPtoDP((HDC)fl_graphics_driver->gc(), pt, 4); return CreatePolygonRgn(pt, 4, ALTERNATE); } void Fl_GDI_Graphics_Driver::XDestroyRegion(Fl_Region r) { DeleteObject((HRGN)r); } void Fl_GDI_Graphics_Driver::scale(float f) { if (f != scale()) { size_ = 0; Fl_Graphics_Driver::scale(f); line_style(FL_SOLID); // scale also default line width } } /* Rescale region r with factor f and returns the scaled region. Region r is returned unchanged if r is null or f is 1. */ HRGN Fl_GDI_Graphics_Driver::scale_region(HRGN r, float f, Fl_GDI_Graphics_Driver *dr) { if (r && f != 1) { DWORD size = GetRegionData(r, 0, NULL); RGNDATA *pdata = (RGNDATA*)malloc(size); GetRegionData(r, size, pdata); POINT pt = {0, 0}; if (dr && dr->depth >= 1) { // account for translation GetWindowOrgEx((HDC)dr->gc(), &pt); pt.x = int(pt.x * (f - 1)); pt.y = int(pt.y * (f - 1)); } RECT *rects = (RECT*)&(pdata->Buffer); for (DWORD i = 0; i < pdata->rdh.nCount; i++) { int x = Fl_Scalable_Graphics_Driver::floor(rects[i].left, f) + pt.x; int y = Fl_Scalable_Graphics_Driver::floor(rects[i].top, f) + pt.y; RECT R2; R2.left = x; R2.top = y; R2.right = Fl_Scalable_Graphics_Driver::floor(rects[i].right, f) + pt.x - x + R2.left; R2.bottom = Fl_Scalable_Graphics_Driver::floor(rects[i].bottom, f) + pt.y - y + R2.top; rects[i] = R2; } r = ExtCreateRegion(NULL, size, pdata); free(pdata); } return r; } Fl_Region Fl_GDI_Graphics_Driver::scale_clip(float f) { HRGN r = (HRGN)rstack[rstackptr]; HRGN r2 = scale_region(r, f, this); return (r == r2 ? NULL : (rstack[rstackptr] = r2, r)); } void Fl_GDI_Graphics_Driver::set_current_() { restore_clip(); } void Fl_GDI_Graphics_Driver::cache_size(Fl_Image *img, int &width, int &height) { float s = scale(); width = (s == int(s) ? width * int(s) : floor(width+1)); height = (s == int(s) ? height * int(s) : floor(height+1)); cache_size_finalize(img, width, height); }