Tizen Native API
4.0
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In this example, we add two images to a canvas, each one having a quarter of the canvas' size, positioned on the top left and bottom right corners, respectively:
d.img1 = evas_object_image_add(d.evas); evas_object_image_file_set(d.img1, valid_path, NULL); err = evas_object_image_load_error_get(d.img1); if (err != EVAS_LOAD_ERROR_NONE) { fprintf(stderr, "could not load image '%s'. error string is \"%s\"\n", valid_path, evas_load_error_str(err)); } else { fprintf(stdout, "loaded image '%s' with succes! error string is \"%s\"\n", valid_path, evas_load_error_str(err)); evas_object_move(d.img1, 3, 3); evas_object_image_fill_set(d.img1, 0, 0, WIDTH / 2, HEIGHT / 2); evas_object_resize(d.img1, WIDTH / 2, HEIGHT / 2); evas_object_show(d.img1); evas_object_focus_set(d.bg, EINA_TRUE); evas_object_event_callback_add( d.bg, EVAS_CALLBACK_KEY_DOWN, _on_keydown, NULL); } /* this is a border around the image above, here just to emphasize * its geometry */ d.border = evas_object_image_filled_add(d.evas); evas_object_image_file_set(d.border, border_img_path, NULL); evas_object_image_border_set(d.border, 3, 3, 3, 3); evas_object_image_border_center_fill_set(d.border, EVAS_BORDER_FILL_NONE); evas_object_move(d.border, 0, 0); evas_object_resize(d.border, (WIDTH / 2) + 6, (HEIGHT / 2) + 6); evas_object_show(d.border); /* image loading will fail for this one -- unless one cheats and * puts a valid image on that path */ d.img2 = evas_object_image_add(d.evas); evas_object_image_file_set(d.img2, bogus_path, NULL); err = evas_object_image_load_error_get(d.img2); if (err != EVAS_LOAD_ERROR_NONE) { fprintf(stderr, "could not load image '%s': error string is \"%s\"\n", bogus_path, evas_load_error_str(err)); } else { evas_object_move(d.img2, WIDTH / 2, HEIGHT / 2); evas_object_image_fill_set(d.img2, 0, 0, WIDTH / 2, HEIGHT / 2); evas_object_resize(d.img2, WIDTH / 2, HEIGHT / 2); evas_object_show(d.img2); } puts(commands); ecore_main_loop_begin();
static const char *valid_path = PACKAGE_EXAMPLES_DIR EVAS_IMAGE_FOLDER "/enlightenment.png"; static const char *bogus_path = "/tmp/non-existent-220986.png";
To interact with the program, there's a command line interface. A help string can be asked for with the 'h' key:
static const char *commands = \ "commands are:\n" "\tx - change image's x fill coordinate\n" "\ty - change image's y fill coordinate\n" "\tw - change image's w fill size\n" "\te - change image's h fill size\n" "\tf - toggle image filled property (overrides fill)\n" "\ta - toggle image's alpha channel usage\n" "\tm - toggle border's smooth scaling\n" "\tt - change border's thickness\n" "\tb - change border's center region aspect\n" "\tc - change border's scaling factor\n" "\ts - print image's fill property status\n" "\th - print help\n";
The 'f' command will toggle that image's "filled" property, which is whether it should track its size and set the fill one to fit the object's boundaries perfectly (stretching). Note that this command and the four above it will conflict: in real usage one would use one or other ways of setting an image object's viewport with regard to its image source.
There are four commands which deal with the border image. This red frame is there to illustrate image borders. The image source for the border is a solid red rectangle, with a transparent rectangular area in its middle. See how we use it to get a 3 pixel wide frame with evas_object_image_border_set(d.border, 3, 3, 3, 3)
. To finish the effect of showing it as a border, we issue evas_object_image_border_center_fill_set(d.border, EVAS_BORDER_FILL_NONE)
.
Use 't' to change the border's thickness. 'b' will change the border image's center region rendering schema: either a hole (no rendering), blending (see the original transparent area, in this case) or solid (the transparent area gets filled). Finally, 'c' will change the border's scaling factor.
While you have the border in 'blending mode', test the command 'm': it will set whether to use or not smooth scaling on the border's source image. Since the image is small originally (30 x 30), we're obviously up-scaling it (except the border pixels, do you remember?). With this last switch, you'll either see the transparent shape in the middle flat (no smoothing) or blurry (smoothed).
The full example follows.
#ifdef HAVE_CONFIG_H #include "config.h" #else #define PACKAGE_EXAMPLES_DIR "." #endif #include <Ecore.h> #include <Ecore_Evas.h> #include <stdio.h> #include <errno.h> #include "evas-common.h" #define WIDTH (320) #define HEIGHT (240) static const char *border_img_path = PACKAGE_EXAMPLES_DIR EVAS_IMAGE_FOLDER "/red.png"; static const char *valid_path = PACKAGE_EXAMPLES_DIR EVAS_IMAGE_FOLDER "/enlightenment.png"; static const char *bogus_path = "/tmp/non-existent-220986.png"; static const char *commands = \ "commands are:\n" "\tx - change image's x fill coordinate\n" "\ty - change image's y fill coordinate\n" "\tw - change image's w fill size\n" "\te - change image's h fill size\n" "\tf - toggle image filled property (overrides fill)\n" "\ta - toggle image's alpha channel usage\n" "\tm - toggle border's smooth scaling\n" "\tt - change border's thickness\n" "\tb - change border's center region aspect\n" "\tc - change border's scaling factor\n" "\ts - print image's fill property status\n" "\th - print help\n"; struct test_data { Ecore_Evas *ee; Evas *evas; Evas_Object *img1, *img2, *bg, *border; }; static struct test_data d = {0}; static void _on_destroy(Ecore_Evas *ee EINA_UNUSED) { ecore_main_loop_quit(); } /* here just to keep our example's window size and background image's * size in synchrony */ static void _canvas_resize_cb(Ecore_Evas *ee) { int w, h; ecore_evas_geometry_get(ee, NULL, NULL, &w, &h); evas_object_resize(d.bg, w, h); } static const char * _border_fill_mode_to_str(Evas_Border_Fill_Mode mode) { switch (mode) { case EVAS_BORDER_FILL_NONE: return "none"; case EVAS_BORDER_FILL_DEFAULT: return "default"; case EVAS_BORDER_FILL_SOLID: return "solid"; default: return "invalid"; } } static void _on_keydown(void *data EINA_UNUSED, Evas *evas EINA_UNUSED, Evas_Object *o EINA_UNUSED, void *einfo) { Evas_Event_Key_Down *ev = einfo; if (strcmp(ev->key, "h") == 0) /* print help */ { puts(commands); return; } if (strcmp(ev->key, "m") == 0) /* toggle border image's smooth scaling */ { Eina_Bool smooth_scale = evas_object_image_smooth_scale_get(d.border); evas_object_image_smooth_scale_set(d.border, !smooth_scale); fprintf(stdout, "Image's border is now %s smooth scaling\n", smooth_scale ? "without" : "with"); return; } if (strcmp(ev->key, "t") == 0) /* change border's thickness */ { int l, r, t, b; evas_object_image_border_get(d.border, &l, &r, &t, &b); l = (l + 3) % 9; r = (r + 3) % 9; t = (t + 3) % 9; b = (b + 3) % 9; evas_object_image_border_set(d.border, l, r, t, b); fprintf(stdout, "Image's border thickness is now %d\n", l); return; } if (strcmp(ev->key, "c") == 0) /* change border's scaling factor */ { double scale = evas_object_image_border_scale_get(d.border); scale *= 2; if (scale > 4.0) scale = 1.0; evas_object_image_border_scale_set(d.border, scale); fprintf(stdout, "Image's border scaling factor is now %f\n", scale); return; } if (strcmp(ev->key, "b") == 0) /* change border's center * region's aspect */ { Eina_Bool fill = \ evas_object_image_border_center_fill_get(d.border); fill = (fill + 1) % 3; evas_object_image_border_center_fill_set(d.border, fill); fprintf(stdout, "Image's border center region aspect is now \"%s\"\n", _border_fill_mode_to_str(fill)); return; } if (strcmp(ev->key, "a") == 0) /* toggle alpha channel usage */ { Eina_Bool alpha = evas_object_image_alpha_get(d.img1); evas_object_image_alpha_set(d.img1, !alpha); fprintf(stdout, "Image's alpha channel is now %s\n", alpha ? "off" : "on"); return; } if (strcmp(ev->key, "f") == 0) /* toggle filled property */ { Eina_Bool filled = evas_object_image_filled_get(d.img1); evas_object_image_filled_set(d.img1, !filled); fprintf(stdout, "Image's x filled property is now %s\n", filled ? "off" : "on"); return; } if (strcmp(ev->key, "x") == 0) /* change x fill coordinate */ { Evas_Coord x, y, w, h; evas_object_image_fill_get(d.img1, &x, &y, &w, &h); x = (x + 20) % (WIDTH / 2); evas_object_image_fill_set(d.img1, x, y, w, h); fprintf(stdout, "Image's x fill coordinate changed to %d\n", x); return; } if (strcmp(ev->key, "y") == 0) /* change y fill coordinate */ { Evas_Coord x, y, w, h; evas_object_image_fill_get(d.img1, &x, &y, &w, &h); y = (y + 20) % (HEIGHT / 2); evas_object_image_fill_set(d.img1, x, y, w, h); fprintf(stdout, "Image's y fill coordinate changed to %d\n", y); return; } if (strcmp(ev->key, "w") == 0) /* change w fill size */ { Evas_Coord x, y, w, h; evas_object_image_fill_get(d.img1, &x, &y, &w, &h); if (w == (WIDTH / 4)) w = (WIDTH / 2); else if (w == WIDTH / 2) w = WIDTH; else w = (WIDTH / 4); evas_object_image_fill_set(d.img1, x, y, w, h); fprintf(stdout, "Image's w fill size changed to %d\n", w); return; } if (strcmp(ev->key, "e") == 0) /* change h fill size */ { Evas_Coord x, y, w, h; evas_object_image_fill_get(d.img1, &x, &y, &w, &h); if (h == (HEIGHT / 4)) h = (HEIGHT / 2); else if (h == HEIGHT / 2) h = HEIGHT; else h = (HEIGHT / 4); evas_object_image_fill_set(d.img1, x, y, w, h); fprintf(stdout, "Image's h fill size changed to %d\n", h); return; } if (strcmp(ev->key, "s") == 0) /* status */ { Evas_Coord x, y, w, h; evas_object_image_fill_get(d.img1, &x, &y, &w, &h); fprintf(stdout, "Image has fill properties set to: %d, %d, %d, %d\n", x, y, w, h); return; } } int main(void) { int err; if (!ecore_evas_init()) return EXIT_FAILURE; /* this will give you a window with an Evas canvas under the first * engine available */ d.ee = ecore_evas_new(NULL, 10, 10, WIDTH, HEIGHT, NULL); if (!d.ee) goto error; ecore_evas_callback_destroy_set(d.ee, _on_destroy); ecore_evas_callback_resize_set(d.ee, _canvas_resize_cb); ecore_evas_show(d.ee); /* the canvas pointer, de facto */ d.evas = ecore_evas_get(d.ee); d.bg = evas_object_rectangle_add(d.evas); evas_object_color_set(d.bg, 255, 255, 255, 255); /* white bg */ evas_object_move(d.bg, 0, 0); /* at canvas' origin */ evas_object_resize(d.bg, WIDTH, HEIGHT); /* covers full canvas */ evas_object_show(d.bg); d.img1 = evas_object_image_add(d.evas); evas_object_image_file_set(d.img1, valid_path, NULL); err = evas_object_image_load_error_get(d.img1); if (err != EVAS_LOAD_ERROR_NONE) { fprintf(stderr, "could not load image '%s'. error string is \"%s\"\n", valid_path, evas_load_error_str(err)); } else { fprintf(stdout, "loaded image '%s' with succes! error string is \"%s\"\n", valid_path, evas_load_error_str(err)); evas_object_move(d.img1, 3, 3); evas_object_image_fill_set(d.img1, 0, 0, WIDTH / 2, HEIGHT / 2); evas_object_resize(d.img1, WIDTH / 2, HEIGHT / 2); evas_object_show(d.img1); evas_object_focus_set(d.bg, EINA_TRUE); evas_object_event_callback_add( d.bg, EVAS_CALLBACK_KEY_DOWN, _on_keydown, NULL); } /* this is a border around the image above, here just to emphasize * its geometry */ d.border = evas_object_image_filled_add(d.evas); evas_object_image_file_set(d.border, border_img_path, NULL); evas_object_image_border_set(d.border, 3, 3, 3, 3); evas_object_image_border_center_fill_set(d.border, EVAS_BORDER_FILL_NONE); evas_object_move(d.border, 0, 0); evas_object_resize(d.border, (WIDTH / 2) + 6, (HEIGHT / 2) + 6); evas_object_show(d.border); /* image loading will fail for this one -- unless one cheats and * puts a valid image on that path */ d.img2 = evas_object_image_add(d.evas); evas_object_image_file_set(d.img2, bogus_path, NULL); err = evas_object_image_load_error_get(d.img2); if (err != EVAS_LOAD_ERROR_NONE) { fprintf(stderr, "could not load image '%s': error string is \"%s\"\n", bogus_path, evas_load_error_str(err)); } else { evas_object_move(d.img2, WIDTH / 2, HEIGHT / 2); evas_object_image_fill_set(d.img2, 0, 0, WIDTH / 2, HEIGHT / 2); evas_object_resize(d.img2, WIDTH / 2, HEIGHT / 2); evas_object_show(d.img2); } puts(commands); ecore_main_loop_begin(); ecore_evas_free(d.ee); ecore_evas_shutdown(); return 0; error: fprintf(stderr, "you got to have at least one evas engine built and linked" " up to ecore-evas for this example to run properly.\n"); ecore_evas_shutdown(); return -1; }