gtk2/tests/rendernode-create-tests.c

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#include <gtk/gtk.h>
#include <math.h>
#include <stdlib.h>
static void
hsv_to_rgb (GdkRGBA *rgba,
gdouble h,
gdouble s,
gdouble v)
{
gdouble hue, saturation, value;
gdouble f, p, q, t;
rgba->alpha = 1.0;
if ( s == 0.0)
{
rgba->red = v;
rgba->green = v;
rgba->blue = v; /* heh */
}
else
{
hue = h * 6.0;
saturation = s;
value = v;
if (hue == 6.0)
hue = 0.0;
f = hue - (int) hue;
p = value * (1.0 - saturation);
q = value * (1.0 - saturation * f);
t = value * (1.0 - saturation * (1.0 - f));
switch ((int) hue)
{
case 0:
rgba->red = value;
rgba->green = t;
rgba->blue = p;
break;
case 1:
rgba->red = q;
rgba->green = value;
rgba->blue = p;
break;
case 2:
rgba->red = p;
rgba->green = value;
rgba->blue = t;
break;
case 3:
rgba->red = p;
rgba->green = q;
rgba->blue = value;
break;
case 4:
rgba->red = t;
rgba->green = p;
rgba->blue = value;
break;
case 5:
rgba->red = value;
rgba->green = p;
rgba->blue = q;
break;
default:
g_assert_not_reached ();
}
}
}
GskRenderNode *
rounded_borders (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
GskRenderNode *container;
GskRoundedRect outline;
float widths[4];
GdkRGBA colors[4];
guint i;
for (i = 0; i < n; i++)
{
outline.bounds.size.width = g_random_int_range (20, 1000);
outline.bounds.origin.x = g_random_int_range (0, 1000 - outline.bounds.size.width);
outline.bounds.size.height = g_random_int_range (20, 1000);
outline.bounds.origin.y = g_random_int_range (0, 1000 - outline.bounds.size.height);
outline.corner[0].width = outline.corner[0].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[1].width = outline.corner[1].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[2].width = outline.corner[2].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[3].width = outline.corner[3].height = 10 - (int) sqrt (g_random_int_range (0, 100));
widths[0] = widths[1] = widths[2] = widths[3] = g_random_int_range (0, 5);
hsv_to_rgb (&colors[0], g_random_double (), 1.0, 1.0);
colors[3] = colors[2] = colors[1] = colors[0];
nodes[i] = gsk_border_node_new (&outline, widths, colors);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
GskRenderNode *
rounded_backgrounds (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
GskRenderNode *container, *texture;
GskRoundedRect outline;
GdkRGBA color;
guint i;
for (i = 0; i < n; i++)
{
outline.bounds.size.width = g_random_int_range (20, 100);
outline.bounds.origin.x = g_random_int_range (0, 1000 - outline.bounds.size.width);
outline.bounds.size.height = g_random_int_range (20, 100);
outline.bounds.origin.y = g_random_int_range (0, 1000 - outline.bounds.size.height);
outline.corner[0].width = outline.corner[0].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[1].width = outline.corner[1].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[2].width = outline.corner[2].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[3].width = outline.corner[3].height = 10 - (int) sqrt (g_random_int_range (0, 100));
hsv_to_rgb (&color, g_random_double (), g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
color.alpha = g_random_double_range (0.5, 0.75);
texture = gsk_color_node_new (&color, &outline.bounds);
nodes[i] = gsk_rounded_clip_node_new (texture, &outline);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
GskRenderNode *
colors (guint n)
{
GskRenderNode **nodes = g_new (GskRenderNode *, 10 * n);
GskRenderNode *container;
graphene_rect_t bounds;
GdkRGBA color;
guint i;
for (i = 0; i < 10 * n; i++)
{
bounds.size.width = g_random_int_range (20, 100);
bounds.origin.x = g_random_int_range (0, 1000 - bounds.size.width);
bounds.size.height = g_random_int_range (20, 100);
bounds.origin.y = g_random_int_range (0, 1000 - bounds.size.height);
hsv_to_rgb (&color, g_random_double (), g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
color.alpha = g_random_double_range (0.5, 0.75);
nodes[i] = gsk_color_node_new (&color, &bounds);
}
container = gsk_container_node_new (nodes, 10 * n);
for (i = 0; i < 10 * n; i++)
gsk_render_node_unref (nodes[i]);
g_free (nodes);
return container;
}
GskRenderNode *
clipped_colors (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *,n);
GskRenderNode *container;
graphene_rect_t bounds;
GdkRGBA color;
guint i;
for (i = 0; i < n; i++)
{
bounds.size.width = g_random_int_range (20, 100);
bounds.origin.x = g_random_int_range (0, 1000 - bounds.size.width);
bounds.size.height = g_random_int_range (20, 100);
bounds.origin.y = g_random_int_range (0, 1000 - bounds.size.height);
hsv_to_rgb (&color, g_random_double (), g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
color.alpha = g_random_double_range (0.5, 0.75);
nodes[i] = gsk_color_node_new (&color, &bounds);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
#define GRID_SIZE 4
for (i = 0; i < GRID_SIZE * GRID_SIZE; i++)
{
guint x = i % GRID_SIZE;
guint y = i / GRID_SIZE;
if ((x + y) % 2)
continue;
nodes[i / 2] = gsk_clip_node_new (container,
&GRAPHENE_RECT_INIT(
x * 1000 / GRID_SIZE, y * 1000 / GRID_SIZE,
1000 / GRID_SIZE, 1000 / GRID_SIZE
));
}
gsk_render_node_unref (container);
container = gsk_container_node_new (nodes, GRID_SIZE * GRID_SIZE / 2);
for (i = 0; i < GRID_SIZE * GRID_SIZE / 2; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
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static int
compare_color_stops (gconstpointer a,
gconstpointer b,
gpointer user_data)
{
const GskColorStop *stopa = a;
const GskColorStop *stopb = b;
if (stopa->offset < stopb->offset)
return -1;
else if (stopa->offset > stopb->offset)
return 1;
else
return 0;
}
GskRenderNode *
linear_gradient (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
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GskRenderNode *container;
graphene_rect_t bounds;
GskColorStop stops[5];
graphene_point_t start, end;
guint i, j, n_stops;
for (i = 0; i < n; i++)
{
bounds.size.width = g_random_int_range (20, 100);
bounds.origin.x = g_random_int_range (0, 1000 - bounds.size.width);
bounds.size.height = g_random_int_range (20, 100);
bounds.origin.y = g_random_int_range (0, 1000 - bounds.size.height);
do {
start.x = g_random_double_range (- bounds.size.width / 4, bounds.size.width / 4);
if (start.x >= 0)
start.x += bounds.origin.x;
else
start.x += bounds.origin.x + bounds.size.width;
start.y = g_random_double_range (- bounds.size.height / 4, bounds.size.height / 4);
if (start.y >= 0)
start.y += bounds.origin.y;
else
start.y += bounds.origin.y + bounds.size.height;
end.x = g_random_double_range (- bounds.size.width / 4, bounds.size.width / 4);
if (end.x >= 0)
end.x += bounds.origin.x;
else
end.x += bounds.origin.x + bounds.size.width;
end.y = g_random_double_range (- bounds.size.height / 4, bounds.size.height / 4);
if (end.y >= 0)
end.y += bounds.origin.y;
else
end.y += bounds.origin.y + bounds.size.height;
} while (graphene_point_equal (&start, &end));
n_stops = g_random_int_range (2, 5);
for (j = 0; j < n_stops; j++)
{
if (j == 0)
stops[j].offset = 0;
else if (j == n_stops - 1)
stops[j].offset = 1;
else
stops[j].offset = g_random_double_range (0, 1);
hsv_to_rgb (&stops[j].color, g_random_double (), g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
stops[j].color.alpha = g_random_double_range (0, 1);
}
g_qsort_with_data (stops, n_stops, sizeof (stops[0]), compare_color_stops, 0);
if (g_random_boolean ())
nodes[i] = gsk_linear_gradient_node_new (&bounds, &start, &end, stops, n_stops);
else
nodes[i] = gsk_repeating_linear_gradient_node_new (&bounds, &start, &end, stops, n_stops);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
GskRenderNode *
borders (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
GskRenderNode *container;
GskRoundedRect outline;
GdkRGBA colors[4];
float widths[4];
guint i, j;
for (i = 0; i < n; i++)
{
outline.bounds.size.width = g_random_int_range (20, 100);
outline.bounds.origin.x = g_random_int_range (0, 1000 - outline.bounds.size.width);
outline.bounds.size.height = g_random_int_range (20, 100);
outline.bounds.origin.y = g_random_int_range (0, 1000 - outline.bounds.size.height);
outline.corner[1].width = outline.corner[1].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[2].width = outline.corner[2].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[3].width = outline.corner[3].height = 10 - (int) sqrt (g_random_int_range (0, 100));
for (j = 0; j < 4; j++)
{
outline.corner[0].width = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[0].height = 10 - (int) sqrt (g_random_int_range (0, 100));
hsv_to_rgb (&colors[j], g_random_double (), 1.0, 0.5); //g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
colors[j].alpha = 1.0; //g_random_double_range (0.8, 1.0);
widths[j] = g_random_int_range (1, 6);
}
nodes[i] = gsk_border_node_new (&outline, widths, colors);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
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const char *example =
"'Twas brillig, and the slithy toves\n"
"Did gyre and gimble in the wabe;\n"
"All mimsy were the borogoves,\n"
"And the mome raths outgrabe.\n"
"\n"
"'Beware the Jabberwock, my son!\n"
"The jaws that bite, the claws that catch!\n"
"Beware the Jubjub bird, and shun\n"
"The frumious Bandersnatch!'";
GskRenderNode *
text (guint n)
{
GPtrArray *nodes;
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GskRenderNode *container;
PangoFontDescription *desc;
PangoContext *context;
PangoLayout *layout;
GtkSettings *settings;
char *usr_dict_words;
char **words;
gsize n_words;
int dpi_int;
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int i;
if (g_file_get_contents ("/usr/share/dict/words", &usr_dict_words, NULL, NULL))
{
words = g_strsplit (usr_dict_words, "\n", -1);
g_free (usr_dict_words);
}
else
{
words = g_strsplit ("the quick brown fox jumps over the lazy dog", " ", -1);
}
n_words = g_strv_length (words);
context = pango_font_map_create_context (pango_cairo_font_map_get_default ());
nodes = g_ptr_array_new_with_free_func ((GDestroyNotify) gsk_render_node_unref);
settings = gtk_settings_get_default ();
g_object_get (settings, "gtk-xft-dpi", &dpi_int, NULL);
if (dpi_int > 0)
pango_cairo_context_set_resolution (context, dpi_int / 1024.);
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desc = pango_font_description_new ();
pango_font_description_set_family (desc, "Cantarell");
layout = pango_layout_new (context);
for (i = 0; i < n; i++)
{
PangoFont *font;
PangoLayoutIter *iter;
PangoLayoutRun *run;
GdkRGBA color;
int x, y, width, height;
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pango_layout_set_text (layout, words[g_random_int_range (0, n_words)], -1);
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if (g_random_boolean ())
pango_font_description_set_style (desc, PANGO_STYLE_ITALIC);
else
pango_font_description_set_style (desc, PANGO_STYLE_NORMAL);
pango_font_description_set_weight (desc, 100 * g_random_int_range (1, 10));
pango_font_description_set_size (desc, PANGO_SCALE * g_random_int_range (8,32));
font = pango_context_load_font (context, desc);
pango_layout_set_font_description (layout, desc);
pango_layout_get_pixel_size (layout, &width, &height);
x = width >= 1000 ? 0 : g_random_int_range (0, 1000 - width);
y = height >= 1000 ? 0 : g_random_int_range (0, 1000 - height);
hsv_to_rgb (&color, g_random_double (), g_random_double_range (0.5, 1.0), g_random_double_range (0.15, 0.75));
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iter = pango_layout_get_iter (layout);
do
{
run = pango_layout_iter_get_run (iter);
if (run != NULL)
{
GskRenderNode *node;
node = gsk_text_node_new (font, run->glyphs, &color, x, y);
if (node)
g_ptr_array_add (nodes, node);
}
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}
while (pango_layout_iter_next_run (iter));
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pango_layout_iter_free (iter);
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g_object_unref (font);
}
pango_font_description_free (desc);
g_object_unref (layout);
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container = gsk_container_node_new ((GskRenderNode **) nodes->pdata, nodes->len);
g_ptr_array_unref (nodes);
g_strfreev (words);
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return container;
}
GskRenderNode *
cairo_node (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
GskRenderNode *container;
graphene_rect_t bounds;
guint i;
for (i = 0; i < n; i++)
{
bounds.size.width = g_random_int_range (20, 100);
bounds.origin.x = g_random_int_range (0, 1000 - bounds.size.width);
bounds.size.height = g_random_int_range (20, 100);
bounds.origin.y = g_random_int_range (0, 1000 - bounds.size.height);
nodes [i] = gsk_cairo_node_new (&bounds);
}
container = gsk_container_node_new (nodes, n);
for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
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GskRenderNode *
box_shadows (guint n)
{
GskRenderNode **nodes = g_newa (GskRenderNode *, n);
GskRenderNode *container;
int i, j;
GskRoundedRect outline;
GdkRGBA color;
float dx, dy;
float spread;
float blur;
for (i = 0; i < n; i++)
{
outline.bounds.size.width = g_random_int_range (20, 100);
outline.bounds.origin.x = g_random_int_range (0, 1000 - outline.bounds.size.width);
outline.bounds.size.height = g_random_int_range (20, 100);
outline.bounds.origin.y = g_random_int_range (0, 1000 - outline.bounds.size.height);
outline.corner[1].width = outline.corner[1].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[2].width = outline.corner[2].height = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[3].width = outline.corner[3].height = 10 - (int) sqrt (g_random_int_range (0, 100));
for (j = 0; j < 4; j++)
{
outline.corner[0].width = 10 - (int) sqrt (g_random_int_range (0, 100));
outline.corner[0].height = 10 - (int) sqrt (g_random_int_range (0, 100));
}
hsv_to_rgb (&color, g_random_double (), g_random_double_range (0.15, 0.4), g_random_double_range (0.6, 0.85));
dx = g_random_double_range (0.0, 5.0);
dy = g_random_double_range (0.0, 5.0);
spread = g_random_double_range (0.0, 10.0);
blur = g_random_double_range (0.0, 10.0);
if (g_random_boolean ())
nodes[i] = gsk_inset_shadow_node_new (&outline, &color, dx, dy, spread, blur);
else
nodes[i] = gsk_outset_shadow_node_new (&outline, &color, dx, dy, spread, blur);
}
container = gsk_container_node_new (nodes, n);
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for (i = 0; i < n; i++)
gsk_render_node_unref (nodes[i]);
return container;
}
int
main (int argc, char **argv)
{
static const struct {
const char *name;
GskRenderNode * (* func) (guint n);
} functions[] = {
{ "cairo.node", cairo_node },
{ "colors.node", colors },
{ "clipped-colors.node", clipped_colors },
{ "rounded-borders.node", rounded_borders },
{ "rounded-backgrounds.node", rounded_backgrounds },
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{ "linear-gradient.node", linear_gradient },
{ "borders.node", borders },
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{ "text.node", text },
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{ "box-shadows.node", box_shadows },
};
GError *error = NULL;
GskRenderNode *node;
GPatternSpec *matcher;
char *pattern;
guint i, n;
gtk_init ();
n = 100000;
pattern = "*";
if (argc > 1)
{
if (argc > 2)
pattern = argv[2];
n = atoi (argv[1]);
}
matcher = g_pattern_spec_new (pattern);
for (i = 0; i < G_N_ELEMENTS (functions); i++)
{
if (!g_pattern_match_string (matcher, functions[i].name))
continue;
node = functions[i].func (n);
if (!gsk_render_node_write_to_file (node, functions[i].name, &error))
{
g_print ("Error writing \"%s\": %s\n", functions[i].name, error->message);
g_clear_error (&error);
return 1;
}
gsk_render_node_unref (node);
g_print ("Created test file \"%s\".\n", functions[i].name);
}
g_pattern_spec_free (matcher);
return 0;
}