ref: e447c9fb929e61a40203b0193ee8d4cab8d72f7e
dir: /DoConfig/fltk/test/unittest_images.cxx/
// // "$Id$" // // Unit tests for the Fast Light Tool Kit (FLTK). // // Copyright 1998-2016 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: // // http://www.fltk.org/COPYING.php // // Please report all bugs and problems on the following page: // // http://www.fltk.org/str.php // #include <FL/Fl_Box.H> #include <FL/fl_draw.H> // Note: currently (March 2010) fl_draw_image() supports transparency with // alpha channel only on Apple (Mac OS X), but Fl_RGB_Image->draw() // supports transparency on all platforms ! // //------- test the image drawing capabilities of this implementation ---------- // // Parameters for fine tuning for developers. // Default values: CB=1, DX=0, IMG=1, LX=0, FLIPH=0 #define CB (1) // 1 to show the checker board background for alpha images, // 0 otherwise #define DX (0) // additional (undefined (0)) pixels per line, must be >= 0 // ignored (irrelevant), if LX == 0 (see below) #define IMG (1) // 1 to use Fl_RGB_Image for drawing images with transparency, // 0 to use fl_draw_image() instead. // Note: as of Feb 2016, only 1 (Fl_RGB_Image) works with // alpha channel, 0 (fl_draw_image()) ignores the alpha // channel (FLTK 1.3.x). // There are plans to support transparency (alpha channel) // in fl_draw_image() in FLTK 1.4.0 and/or later. #define LX (0) // 0 for default: ld() = 0, i.e. ld() defaults (internally) to w()*d() // +1: ld() = (w() + DX) * d() // -1 to flip image vertically: ld() = - ((w() + DX) * d()) #define FLIPH (0) // 1 = Flip image horizontally (only if IMG == 0) // 0 = Draw image normal, w/o horizontal flipping // ---------------------------------------------------------------------- // Test scenario for fl_draw_image() with pos. and neg. d and ld args: // ---------------------------------------------------------------------- // (1) set IMG = 0: normal, but w/o transparency: no checker board // (2) set LX = -1: images flipped vertically // (3) set FLIPH = 1: images flipped vertically and horizontally // (4) set LX = 0: images flipped horizontally // (5) set FLIPH = 0, IMG = 1: back to default (with transparency) // ---------------------------------------------------------------------- class ImageTest : public Fl_Box { public: static Fl_Widget *create() { int x, y; uchar *dg, *dga, *drgb, *drgba; dg = img_gray = (uchar*)malloc((128+DX)*128*1); dga = img_gray_a = (uchar*)malloc((128+DX)*128*2); drgb = img_rgb = (uchar*)malloc((128+DX)*128*3); drgba = img_rgba = (uchar*)malloc((128+DX)*128*4); for (y=0; y<128; y++) { for (x=0; x<128; x++) { *drgba++ = *drgb++ = *dga++ = *dg++ = y<<1; *drgba++ = *drgb++ = x<<1; *drgba++ = *drgb++ = (127-x)<<1; *drgba++ = *dga++ = x+y; } if (DX > 0 && LX != 0) { memset(dg, 0,1*DX); dg += 1*DX; memset(dga, 0,2*DX); dga += 2*DX; memset(drgb, 0,3*DX); drgb += 3*DX; memset(drgba,0,4*DX); drgba += 4*DX; } } if (LX<0) { img_gray += 127*(128+DX); img_gray_a += 127*(128+DX)*2; img_rgb += 127*(128+DX)*3; img_rgba += 127*(128+DX)*4; } if (FLIPH && !IMG ) { img_gray += 127; img_gray_a += 127*2; img_rgb += 127*3; img_rgba += 127*4; } i_g = new Fl_RGB_Image (img_gray ,128,128,1,LX*(128+DX)); i_ga = new Fl_RGB_Image (img_gray_a,128,128,2,LX*(128+DX)*2); i_rgb = new Fl_RGB_Image (img_rgb, 128,128,3,LX*(128+DX)*3); i_rgba = new Fl_RGB_Image (img_rgba, 128,128,4,LX*(128+DX)*4); return new ImageTest(TESTAREA_X, TESTAREA_Y, TESTAREA_W, TESTAREA_H); } static uchar *img_gray; static uchar *img_gray_a; static uchar *img_rgb; static uchar *img_rgba; static Fl_RGB_Image *i_g; static Fl_RGB_Image *i_ga; static Fl_RGB_Image *i_rgb; static Fl_RGB_Image *i_rgba; ImageTest(int x, int y, int w, int h) : Fl_Box(x, y, w, h) { label("Testing Image Drawing\n\n" "This test renders four images, two of them with a checker board\n" "visible through the graphics. Color and gray gradients should be\n" "visible. This does not test any image formats such as JPEG."); align(FL_ALIGN_INSIDE|FL_ALIGN_BOTTOM|FL_ALIGN_LEFT|FL_ALIGN_WRAP); box(FL_BORDER_BOX); } void draw() { Fl_Box::draw(); // top left: RGB int xx = x()+10, yy = y()+10; fl_color(FL_BLACK); fl_rect(xx, yy, 130, 130); #if IMG i_rgb->draw(xx+1,yy+1); #else if (!FLIPH) fl_draw_image(img_rgb, xx+1, yy+1, 128, 128, 3, LX*((128+DX)*3)); else fl_draw_image(img_rgb, xx+1, yy+1, 128, 128,-3, LX*((128+DX)*3)); #endif fl_draw("RGB", xx+134, yy+64); // bottom left: RGBA xx = x()+10; yy = y()+10+134; fl_color(FL_BLACK); fl_rect(xx, yy, 130, 130); // black frame fl_color(FL_WHITE); fl_rectf(xx+1, yy+1, 128, 128); // white background #if CB // checker board fl_color(FL_BLACK); fl_rectf(xx+65, yy+1, 64, 64); fl_color(FL_BLACK); fl_rectf(xx+1, yy+65, 64, 64); #endif #if IMG i_rgba->draw(xx+1,yy+1); #else if (!FLIPH) fl_draw_image(img_rgba, xx+1, yy+1, 128, 128, 4, LX*((128+DX)*4)); else fl_draw_image(img_rgba, xx+1, yy+1, 128, 128,-4, LX*((128+DX)*4)); #endif fl_color(FL_BLACK); fl_draw("RGBA", xx+134, yy+64); // top right: Gray xx = x()+10+200; yy = y()+10; fl_color(FL_BLACK); fl_rect(xx, yy, 130, 130); #if IMG i_g->draw(xx+1,yy+1); #else if (!FLIPH) fl_draw_image(img_gray, xx+1, yy+1, 128, 128, 1, LX*((128+DX)*1)); else fl_draw_image(img_gray, xx+1, yy+1, 128, 128,-1, LX*((128+DX)*1)); #endif fl_draw("Gray", xx+134, yy+64); // bottom right: Gray+Alpha xx = x()+10+200; yy = y()+10+134; fl_color(FL_BLACK); fl_rect(xx, yy, 130, 130); // black frame fl_color(FL_WHITE); fl_rectf(xx+1, yy+1, 128, 128); // white background #if CB // checker board fl_color(FL_BLACK); fl_rectf(xx+65, yy+1, 64, 64); fl_color(FL_BLACK); fl_rectf(xx+1, yy+65, 64, 64); #endif #if IMG i_ga->draw(xx+1,yy+1); #else if (!FLIPH) fl_draw_image(img_gray_a, xx+1, yy+1, 128, 128, 2, LX*((128+DX)*2)); else fl_draw_image(img_gray_a, xx+1, yy+1, 128, 128,-2, LX*((128+DX)*2)); #endif fl_color(FL_BLACK); fl_draw("Gray+Alpha", xx+134, yy+64); } }; uchar *ImageTest::img_gray = 0; uchar *ImageTest::img_gray_a = 0; uchar *ImageTest::img_rgb = 0; uchar *ImageTest::img_rgba = 0; Fl_RGB_Image *ImageTest::i_g = 0; Fl_RGB_Image *ImageTest::i_ga = 0; Fl_RGB_Image *ImageTest::i_rgb = 0; Fl_RGB_Image *ImageTest::i_rgba = 0; UnitTest images("drawing images", ImageTest::create); // // End of "$Id$" //