mutter/src/core/testboxes.c
2014-06-12 15:28:46 +02:00

1411 lines
49 KiB
C

/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
/* Mutter box operation testing program */
/*
* Copyright (C) 2005 Elijah Newren
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
#include "boxes-private.h"
#include <glib.h>
#include <stdlib.h>
#include <stdio.h>
#include <X11/Xutil.h> /* Just for the definition of the various gravities */
#include <time.h> /* To initialize random seed */
#include <math.h>
#define NUM_RANDOM_RUNS 10000
static void
init_random_ness ()
{
srand(time(NULL));
}
static void
get_random_rect (MetaRectangle *rect)
{
rect->x = rand () % 1600;
rect->y = rand () % 1200;
rect->width = rand () % 1600 + 1;
rect->height = rand () % 1200 + 1;
}
static MetaRectangle*
new_meta_rect (int x, int y, int width, int height)
{
MetaRectangle* temporary;
temporary = g_new (MetaRectangle, 1);
temporary->x = x;
temporary->y = y;
temporary->width = width;
temporary->height = height;
return temporary;
}
static MetaStrut*
new_meta_strut (int x, int y, int width, int height, int side)
{
MetaStrut* temporary;
temporary = g_new (MetaStrut, 1);
temporary->rect = meta_rect(x, y, width, height);
temporary->side = side;
return temporary;
}
static MetaEdge*
new_screen_edge (int x, int y, int width, int height, int side_type)
{
MetaEdge* temporary;
temporary = g_new (MetaEdge, 1);
temporary->rect.x = x;
temporary->rect.y = y;
temporary->rect.width = width;
temporary->rect.height = height;
temporary->side_type = side_type;
temporary->edge_type = META_EDGE_SCREEN;
return temporary;
}
static MetaEdge*
new_monitor_edge (int x, int y, int width, int height, int side_type)
{
MetaEdge* temporary;
temporary = g_new (MetaEdge, 1);
temporary->rect.x = x;
temporary->rect.y = y;
temporary->rect.width = width;
temporary->rect.height = height;
temporary->side_type = side_type;
temporary->edge_type = META_EDGE_MONITOR;
return temporary;
}
static void
test_area ()
{
MetaRectangle temp;
int i;
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&temp);
g_assert (meta_rectangle_area (&temp) == temp.width * temp.height);
}
temp = meta_rect (0, 0, 5, 7);
g_assert (meta_rectangle_area (&temp) == 35);
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_intersect ()
{
MetaRectangle a = {100, 200, 50, 40};
MetaRectangle b = { 0, 50, 110, 152};
MetaRectangle c = { 0, 0, 10, 10};
MetaRectangle d = {100, 100, 50, 50};
MetaRectangle b_intersect_d = {100, 100, 10, 50};
MetaRectangle temp;
MetaRectangle temp2;
meta_rectangle_intersect (&a, &b, &temp);
temp2 = meta_rect (100, 200, 10, 2);
g_assert (meta_rectangle_equal (&temp, &temp2));
g_assert (meta_rectangle_area (&temp) == 20);
meta_rectangle_intersect (&a, &c, &temp);
g_assert (meta_rectangle_area (&temp) == 0);
meta_rectangle_intersect (&a, &d, &temp);
g_assert (meta_rectangle_area (&temp) == 0);
meta_rectangle_intersect (&b, &d, &b);
g_assert (meta_rectangle_equal (&b, &b_intersect_d));
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_equal ()
{
MetaRectangle a = {10, 12, 4, 18};
MetaRectangle b = a;
MetaRectangle c = {10, 12, 4, 19};
MetaRectangle d = {10, 12, 7, 18};
MetaRectangle e = {10, 62, 4, 18};
MetaRectangle f = {27, 12, 4, 18};
g_assert ( meta_rectangle_equal (&a, &b));
g_assert (!meta_rectangle_equal (&a, &c));
g_assert (!meta_rectangle_equal (&a, &d));
g_assert (!meta_rectangle_equal (&a, &e));
g_assert (!meta_rectangle_equal (&a, &f));
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_overlap_funcs ()
{
MetaRectangle temp1, temp2;
int i;
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&temp1);
get_random_rect (&temp2);
g_assert (meta_rectangle_overlap (&temp1, &temp2) ==
(meta_rectangle_horiz_overlap (&temp1, &temp2) &&
meta_rectangle_vert_overlap (&temp1, &temp2)));
}
temp1 = meta_rect ( 0, 0, 10, 10);
temp2 = meta_rect (20, 0, 10, 5);
g_assert (!meta_rectangle_overlap (&temp1, &temp2));
g_assert (!meta_rectangle_horiz_overlap (&temp1, &temp2));
g_assert ( meta_rectangle_vert_overlap (&temp1, &temp2));
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_basic_fitting ()
{
MetaRectangle temp1, temp2, temp3;
int i;
/* Four cases:
* case temp1 fits temp2 temp1 could fit temp2
* 1 Y Y
* 2 N Y
* 3 Y N
* 4 N N
* Of the four cases, case 3 is impossible. An alternate way of looking
* at this table is that either the middle column must be no, or the last
* column must be yes. So we test that. Also, we can repeat the test
* reversing temp1 and temp2.
*/
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&temp1);
get_random_rect (&temp2);
g_assert (meta_rectangle_contains_rect (&temp1, &temp2) == FALSE ||
meta_rectangle_could_fit_rect (&temp1, &temp2) == TRUE);
g_assert (meta_rectangle_contains_rect (&temp2, &temp1) == FALSE ||
meta_rectangle_could_fit_rect (&temp2, &temp1) == TRUE);
}
temp1 = meta_rect ( 0, 0, 10, 10);
temp2 = meta_rect ( 5, 5, 5, 5);
temp3 = meta_rect ( 8, 2, 3, 7);
g_assert ( meta_rectangle_contains_rect (&temp1, &temp2));
g_assert (!meta_rectangle_contains_rect (&temp2, &temp1));
g_assert (!meta_rectangle_contains_rect (&temp1, &temp3));
g_assert ( meta_rectangle_could_fit_rect (&temp1, &temp3));
g_assert (!meta_rectangle_could_fit_rect (&temp3, &temp2));
printf ("%s passed.\n", G_STRFUNC);
}
static void
free_strut_list (GSList *struts)
{
GSList *tmp = struts;
while (tmp)
{
g_free (tmp->data);
tmp = tmp->next;
}
g_slist_free (struts);
}
static GSList*
get_strut_list (int which)
{
GSList *ans;
MetaSide wc = 0; /* wc == who cares? ;-) */
ans = NULL;
g_assert (which >=0 && which <= 6);
switch (which)
{
case 0:
break;
case 1:
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 1600, 20, META_SIDE_TOP));
ans = g_slist_prepend (ans, new_meta_strut ( 400, 1160, 1600, 40, META_SIDE_BOTTOM));
break;
case 2:
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 1600, 20, META_SIDE_TOP));
ans = g_slist_prepend (ans, new_meta_strut ( 800, 1100, 400, 100, META_SIDE_BOTTOM));
ans = g_slist_prepend (ans, new_meta_strut ( 300, 1150, 150, 50, META_SIDE_BOTTOM));
break;
case 3:
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 1600, 20, META_SIDE_TOP));
ans = g_slist_prepend (ans, new_meta_strut ( 800, 1100, 400, 100, META_SIDE_LEFT));
ans = g_slist_prepend (ans, new_meta_strut ( 300, 1150, 80, 50, META_SIDE_BOTTOM));
ans = g_slist_prepend (ans, new_meta_strut ( 700, 525, 200, 150, wc));
break;
case 4:
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 800, 1200, META_SIDE_LEFT));
ans = g_slist_prepend (ans, new_meta_strut ( 800, 0, 1600, 20, META_SIDE_TOP));
break;
case 5:
ans = g_slist_prepend (ans, new_meta_strut ( 800, 0, 1600, 20, META_SIDE_TOP));
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 800, 1200, META_SIDE_LEFT));
ans = g_slist_prepend (ans, new_meta_strut ( 800, 10, 800, 1200, META_SIDE_RIGHT));
break;
case 6:
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 1600, 40, META_SIDE_TOP));
ans = g_slist_prepend (ans, new_meta_strut ( 0, 0, 1600, 20, META_SIDE_TOP));
break;
}
return ans;
}
static GList*
get_screen_region (int which)
{
GList *ret;
GSList *struts;
MetaRectangle basic_rect;
basic_rect = meta_rect (0, 0, 1600, 1200);
ret = NULL;
struts = get_strut_list (which);
ret = meta_rectangle_get_minimal_spanning_set_for_region (&basic_rect, struts);
free_strut_list (struts);
return ret;
}
static GList*
get_screen_edges (int which)
{
GList *ret;
GSList *struts;
MetaRectangle basic_rect;
basic_rect = meta_rect (0, 0, 1600, 1200);
ret = NULL;
struts = get_strut_list (which);
ret = meta_rectangle_find_onscreen_edges (&basic_rect, struts);
free_strut_list (struts);
return ret;
}
static GList*
get_monitor_edges (int which_monitor_set, int which_strut_set)
{
GList *ret;
GSList *struts;
GList *xins;
xins = NULL;
g_assert (which_monitor_set >=0 && which_monitor_set <= 3);
switch (which_monitor_set)
{
case 0:
xins = g_list_prepend (xins, new_meta_rect ( 0, 0, 1600, 1200));
break;
case 1:
xins = g_list_prepend (xins, new_meta_rect ( 0, 0, 800, 1200));
xins = g_list_prepend (xins, new_meta_rect (800, 0, 800, 1200));
break;
case 2:
xins = g_list_prepend (xins, new_meta_rect ( 0, 0, 1600, 600));
xins = g_list_prepend (xins, new_meta_rect ( 0, 600, 1600, 600));
break;
case 3:
xins = g_list_prepend (xins, new_meta_rect ( 0, 0, 1600, 600));
xins = g_list_prepend (xins, new_meta_rect ( 0, 600, 800, 600));
xins = g_list_prepend (xins, new_meta_rect (800, 600, 800, 600));
break;
}
ret = NULL;
struts = get_strut_list (which_strut_set);
ret = meta_rectangle_find_nonintersected_monitor_edges (xins, struts);
free_strut_list (struts);
meta_rectangle_free_list_and_elements (xins);
return ret;
}
#if 0
static void
test_merge_regions ()
{
/* logarithmically distributed random number of struts (range?)
* logarithmically distributed random size of struts (up to screen size???)
* uniformly distributed location of center of struts (within screen)
* merge all regions that are possible
* print stats on problem setup
* number of (non-completely-occluded?) struts
* percentage of screen covered
* length of resulting non-minimal spanning set
* length of resulting minimal spanning set
* print stats on merged regions:
* number boxes merged
* number of those merges that were of the form A contains B
* number of those merges that were of the form A partially contains B
* number of those merges that were of the form A is adjacent to B
*/
GList* region;
GList* compare;
int num_contains, num_merged, num_part_contains, num_adjacent;
num_contains = num_merged = num_part_contains = num_adjacent = 0;
compare = region = get_screen_region (2);
g_assert (region);
printf ("Merging stats:\n");
printf (" Length of initial list: %d\n", g_list_length (region));
#ifdef PRINT_DEBUG
char rect1[RECT_LENGTH], rect2[RECT_LENGTH];
char region_list[(RECT_LENGTH + 2) * g_list_length (region)];
meta_rectangle_region_to_string (region, ", ", region_list);
printf (" Initial rectangles: %s\n", region_list);
#endif
while (compare && compare->next)
{
MetaRectangle *a = compare->data;
GList *other = compare->next;
g_assert (a->width > 0 && a->height > 0);
while (other)
{
MetaRectangle *b = other->data;
GList *delete_me = NULL;
g_assert (b->width > 0 && b->height > 0);
#ifdef PRINT_DEBUG
printf (" -- Comparing %s to %s --\n",
meta_rectangle_to_string (a, rect1),
meta_rectangle_to_string (b, rect2));
#endif
/* If a contains b, just remove b */
if (meta_rectangle_contains_rect (a, b))
{
delete_me = other;
num_contains++;
num_merged++;
}
/* If b contains a, just remove a */
else if (meta_rectangle_contains_rect (a, b))
{
delete_me = compare;
num_contains++;
num_merged++;
}
/* If a and b might be mergeable horizontally */
else if (a->y == b->y && a->height == b->height)
{
/* If a and b overlap */
if (meta_rectangle_overlap (a, b))
{
int new_x = MIN (a->x, b->x);
a->width = MAX (a->x + a->width, b->x + b->width) - new_x;
a->x = new_x;
delete_me = other;
num_part_contains++;
num_merged++;
}
/* If a and b are adjacent */
else if (a->x + a->width == b->x || a->x == b->x + b->width)
{
int new_x = MIN (a->x, b->x);
a->width = MAX (a->x + a->width, b->x + b->width) - new_x;
a->x = new_x;
delete_me = other;
num_adjacent++;
num_merged++;
}
}
/* If a and b might be mergeable vertically */
else if (a->x == b->x && a->width == b->width)
{
/* If a and b overlap */
if (meta_rectangle_overlap (a, b))
{
int new_y = MIN (a->y, b->y);
a->height = MAX (a->y + a->height, b->y + b->height) - new_y;
a->y = new_y;
delete_me = other;
num_part_contains++;
num_merged++;
}
/* If a and b are adjacent */
else if (a->y + a->height == b->y || a->y == b->y + b->height)
{
int new_y = MIN (a->y, b->y);
a->height = MAX (a->y + a->height, b->y + b->height) - new_y;
a->y = new_y;
delete_me = other;
num_adjacent++;
num_merged++;
}
}
other = other->next;
/* Delete any rectangle in the list that is no longer wanted */
if (delete_me != NULL)
{
#ifdef PRINT_DEBUG
MetaRectangle *bla = delete_me->data;
printf (" Deleting rect %s\n",
meta_rectangle_to_string (bla, rect1));
#endif
/* Deleting the rect we're compare others to is a little tricker */
if (compare == delete_me)
{
compare = compare->next;
other = compare->next;
a = compare->data;
}
/* Okay, we can free it now */
g_free (delete_me->data);
region = g_list_delete_link (region, delete_me);
}
#ifdef PRINT_DEBUG
char region_list[(RECT_LENGTH + 2) * g_list_length (region)];
meta_rectangle_region_to_string (region, ", ", region_list);
printf (" After comparison, new list is: %s\n", region_list);
#endif
}
compare = compare->next;
}
printf (" Num rectangles contained in others : %d\n",
num_contains);
printf (" Num rectangles partially contained in others: %d\n",
num_part_contains);
printf (" Num rectangles adjacent to others : %d\n",
num_adjacent);
printf (" Num rectangles merged with others : %d\n",
num_merged);
#ifdef PRINT_DEBUG
char region_list2[(RECT_LENGTH + 2) * g_list_length (region)];
meta_rectangle_region_to_string (region, ", ", region_list2);
printf (" Final rectangles: %s\n", region_list2);
#endif
meta_rectangle_free_spanning_set (region);
region = NULL;
printf ("%s passed.\n", G_STRFUNC);
}
#endif
static void
verify_lists_are_equal (GList *code, GList *answer)
{
int which = 0;
while (code && answer)
{
MetaRectangle *a = code->data;
MetaRectangle *b = answer->data;
if (a->x != b->x ||
a->y != b->y ||
a->width != b->width ||
a->height != b->height)
{
g_error ("%dth item in code answer answer lists do not match; "
"code rect: %d,%d + %d,%d; answer rect: %d,%d + %d,%d\n",
which,
a->x, a->y, a->width, a->height,
b->x, b->y, b->width, b->height);
}
code = code->next;
answer = answer->next;
which++;
}
/* Ought to be at the end of both lists; check if we aren't */
if (code)
{
MetaRectangle *tmp = code->data;
g_error ("code list longer than answer list by %d items; "
"first extra item: %d,%d +%d,%d\n",
g_list_length (code),
tmp->x, tmp->y, tmp->width, tmp->height);
}
if (answer)
{
MetaRectangle *tmp = answer->data;
g_error ("answer list longer than code list by %d items; "
"first extra item: %d,%d +%d,%d\n",
g_list_length (answer),
tmp->x, tmp->y, tmp->width, tmp->height);
}
}
static void
test_regions_okay ()
{
GList* region;
GList* tmp;
/*************************************************************/
/* Make sure test region 0 has the right spanning rectangles */
/*************************************************************/
region = get_screen_region (0);
tmp = NULL;
tmp = g_list_prepend (tmp, new_meta_rect (0, 0, 1600, 1200));
verify_lists_are_equal (region, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (region);
/*************************************************************/
/* Make sure test region 1 has the right spanning rectangles */
/*************************************************************/
region = get_screen_region (1);
tmp = NULL;
tmp = g_list_prepend (tmp, new_meta_rect (0, 20, 400, 1180));
tmp = g_list_prepend (tmp, new_meta_rect (0, 20, 1600, 1140));
verify_lists_are_equal (region, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (region);
/*************************************************************/
/* Make sure test region 2 has the right spanning rectangles */
/*************************************************************/
region = get_screen_region (2);
tmp = NULL;
tmp = g_list_prepend (tmp, new_meta_rect ( 0, 20, 300, 1180));
tmp = g_list_prepend (tmp, new_meta_rect ( 450, 20, 350, 1180));
tmp = g_list_prepend (tmp, new_meta_rect (1200, 20, 400, 1180));
tmp = g_list_prepend (tmp, new_meta_rect ( 0, 20, 800, 1130));
tmp = g_list_prepend (tmp, new_meta_rect ( 0, 20, 1600, 1080));
verify_lists_are_equal (region, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (region);
/*************************************************************/
/* Make sure test region 3 has the right spanning rectangles */
/*************************************************************/
region = get_screen_region (3);
tmp = NULL;
tmp = g_list_prepend (tmp, new_meta_rect ( 0, 20, 300, 1180)); /* 354000 */
tmp = g_list_prepend (tmp, new_meta_rect ( 380, 20, 1220, 1180)); /* 377600 */
tmp = g_list_prepend (tmp, new_meta_rect ( 0, 20, 1600, 1130)); /* 791000 */
#if 0
printf ("Got to here...\n");
char region_list[(RECT_LENGTH+2) * g_list_length (region)];
char tmp_list[ (RECT_LENGTH+2) * g_list_length (tmp)];
meta_rectangle_region_to_string (region, ", ", region_list);
meta_rectangle_region_to_string (region, ", ", tmp_list);
printf ("%s vs. %s\n", region_list, tmp_list);
#endif
verify_lists_are_equal (region, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (region);
/*************************************************************/
/* Make sure test region 4 has the right spanning rectangles */
/*************************************************************/
region = get_screen_region (4);
tmp = NULL;
tmp = g_list_prepend (tmp, new_meta_rect ( 800, 20, 800, 1180));
verify_lists_are_equal (region, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (region);
/*************************************************************/
/* Make sure test region 5 has the right spanning rectangles */
/*************************************************************/
printf ("The next test intentionally causes a warning, "
"but it can be ignored.\n");
region = get_screen_region (5);
verify_lists_are_equal (region, NULL);
/* FIXME: Still to do:
* - Create random struts and check the regions somehow
*/
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_region_fitting ()
{
GList* region;
MetaRectangle rect;
/* See test_basic_fitting() for how/why these automated random tests work */
int i;
region = get_screen_region (3);
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&rect);
g_assert (meta_rectangle_contained_in_region (region, &rect) == FALSE ||
meta_rectangle_could_fit_in_region (region, &rect) == TRUE);
}
meta_rectangle_free_list_and_elements (region);
/* Do some manual tests too */
region = get_screen_region (1);
rect = meta_rect (50, 50, 400, 400);
g_assert (meta_rectangle_could_fit_in_region (region, &rect));
g_assert (meta_rectangle_contained_in_region (region, &rect));
rect = meta_rect (250, 0, 500, 1150);
g_assert (!meta_rectangle_could_fit_in_region (region, &rect));
g_assert (!meta_rectangle_contained_in_region (region, &rect));
rect = meta_rect (250, 0, 400, 400);
g_assert (meta_rectangle_could_fit_in_region (region, &rect));
g_assert (!meta_rectangle_contained_in_region (region, &rect));
meta_rectangle_free_list_and_elements (region);
region = get_screen_region (2);
rect = meta_rect (1000, 50, 600, 1100);
g_assert (meta_rectangle_could_fit_in_region (region, &rect));
g_assert (!meta_rectangle_contained_in_region (region, &rect));
meta_rectangle_free_list_and_elements (region);
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_clamping_to_region ()
{
GList* region;
MetaRectangle rect;
MetaRectangle min_size;
FixedDirections fixed_directions;
int i;
min_size.height = min_size.width = 1;
fixed_directions = 0;
region = get_screen_region (3);
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
MetaRectangle temp;
get_random_rect (&rect);
temp = rect;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (meta_rectangle_could_fit_in_region (region, &rect) == TRUE);
g_assert (rect.x == temp.x && rect.y == temp.y);
}
meta_rectangle_free_list_and_elements (region);
/* Do some manual tests too */
region = get_screen_region (1);
rect = meta_rect (50, 50, 10000, 10000);
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 1600 && rect.height == 1140);
rect = meta_rect (275, -50, 410, 10000);
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 400 && rect.height == 1180);
rect = meta_rect (50, 50, 10000, 10000);
min_size.height = 1170;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 400 && rect.height == 1180);
printf ("The next test intentionally causes a warning, "
"but it can be ignored.\n");
rect = meta_rect (50, 50, 10000, 10000);
min_size.width = 600; min_size.height = 1170;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 600 && rect.height == 1170);
rect = meta_rect (350, 50, 100, 1100);
min_size.width = 1; min_size.height = 1;
fixed_directions = FIXED_DIRECTION_X;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 100 && rect.height == 1100);
rect = meta_rect (300, 70, 500, 1100);
min_size.width = 1; min_size.height = 1;
fixed_directions = FIXED_DIRECTION_Y;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 400 && rect.height == 1100);
printf ("The next test intentionally causes a warning, "
"but it can be ignored.\n");
rect = meta_rect (300, 70, 999999, 999999);
min_size.width = 100; min_size.height = 200;
fixed_directions = FIXED_DIRECTION_Y;
meta_rectangle_clamp_to_fit_into_region (region,
fixed_directions,
&rect,
&min_size);
g_assert (rect.width == 100 && rect.height == 999999);
meta_rectangle_free_list_and_elements (region);
printf ("%s passed.\n", G_STRFUNC);
}
static gboolean
rect_overlaps_region (const GList *spanning_rects,
const MetaRectangle *rect)
{
/* FIXME: Should I move this to boxes.[ch]? */
const GList *temp;
gboolean overlaps;
temp = spanning_rects;
overlaps = FALSE;
while (!overlaps && temp != NULL)
{
overlaps = overlaps || meta_rectangle_overlap (temp->data, rect);
temp = temp->next;
}
return overlaps;
}
gboolean time_to_print = FALSE;
static void
test_clipping_to_region ()
{
GList* region;
MetaRectangle rect, temp;
FixedDirections fixed_directions = 0;
int i;
region = get_screen_region (3);
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&rect);
if (rect_overlaps_region (region, &rect))
{
meta_rectangle_clip_to_region (region, 0, &rect);
g_assert (meta_rectangle_contained_in_region (region, &rect) == TRUE);
}
}
meta_rectangle_free_list_and_elements (region);
/* Do some manual tests too */
region = get_screen_region (2);
rect = meta_rect (-50, -10, 10000, 10000);
meta_rectangle_clip_to_region (region,
fixed_directions,
&rect);
g_assert (meta_rectangle_equal (region->data, &rect));
rect = meta_rect (300, 1000, 400, 200);
temp = meta_rect (300, 1000, 400, 150);
meta_rectangle_clip_to_region (region,
fixed_directions,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (400, 1000, 300, 200);
temp = meta_rect (450, 1000, 250, 200);
meta_rectangle_clip_to_region (region,
fixed_directions,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (400, 1000, 300, 200);
temp = meta_rect (400, 1000, 300, 150);
meta_rectangle_clip_to_region (region,
FIXED_DIRECTION_X,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (400, 1000, 300, 200);
temp = meta_rect (400, 1000, 300, 150);
meta_rectangle_clip_to_region (region,
FIXED_DIRECTION_X,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
meta_rectangle_free_list_and_elements (region);
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_shoving_into_region ()
{
GList* region;
MetaRectangle rect, temp;
FixedDirections fixed_directions = 0;
int i;
region = get_screen_region (3);
for (i = 0; i < NUM_RANDOM_RUNS; i++)
{
get_random_rect (&rect);
if (meta_rectangle_could_fit_in_region (region, &rect))
{
meta_rectangle_shove_into_region (region, 0, &rect);
g_assert (meta_rectangle_contained_in_region (region, &rect));
}
}
meta_rectangle_free_list_and_elements (region);
/* Do some manual tests too */
region = get_screen_region (2);
rect = meta_rect (300, 1000, 400, 200);
temp = meta_rect (300, 950, 400, 200);
meta_rectangle_shove_into_region (region,
fixed_directions,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (425, 1000, 300, 200);
temp = meta_rect (450, 1000, 300, 200);
meta_rectangle_shove_into_region (region,
fixed_directions,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (425, 1000, 300, 200);
temp = meta_rect (425, 950, 300, 200);
meta_rectangle_shove_into_region (region,
FIXED_DIRECTION_X,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 300, 1000, 400, 200);
temp = meta_rect (1200, 1000, 400, 200);
meta_rectangle_shove_into_region (region,
FIXED_DIRECTION_Y,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 800, 1150, 400, 50); /* Completely "offscreen" :) */
temp = meta_rect ( 800, 1050, 400, 50);
meta_rectangle_shove_into_region (region,
0,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (-1000, 0, 400, 150); /* Offscreen in 2 directions */
temp = meta_rect ( 0, 20, 400, 150);
meta_rectangle_shove_into_region (region,
0,
&rect);
g_assert (meta_rectangle_equal (&rect, &temp));
meta_rectangle_free_list_and_elements (region);
printf ("%s passed.\n", G_STRFUNC);
}
static void
verify_edge_lists_are_equal (GList *code, GList *answer)
{
int which = 0;
while (code && answer)
{
MetaEdge *a = code->data;
MetaEdge *b = answer->data;
if (!meta_rectangle_equal (&a->rect, &b->rect) ||
a->side_type != b->side_type ||
a->edge_type != b->edge_type)
{
g_error ("%dth item in code answer answer lists do not match; "
"code rect: %d,%d + %d,%d; answer rect: %d,%d + %d,%d\n",
which,
a->rect.x, a->rect.y, a->rect.width, a->rect.height,
b->rect.x, b->rect.y, b->rect.width, b->rect.height);
}
code = code->next;
answer = answer->next;
which++;
}
/* Ought to be at the end of both lists; check if we aren't */
if (code)
{
MetaEdge *tmp = code->data;
g_error ("code list longer than answer list by %d items; "
"first extra item rect: %d,%d +%d,%d\n",
g_list_length (code),
tmp->rect.x, tmp->rect.y, tmp->rect.width, tmp->rect.height);
}
if (answer)
{
MetaEdge *tmp = answer->data;
g_error ("answer list longer than code list by %d items; "
"first extra item rect: %d,%d +%d,%d\n",
g_list_length (answer),
tmp->rect.x, tmp->rect.y, tmp->rect.width, tmp->rect.height);
}
}
static void
test_find_onscreen_edges ()
{
GList* edges;
GList* tmp;
int left = META_DIRECTION_LEFT;
int right = META_DIRECTION_RIGHT;
int top = META_DIRECTION_TOP;
int bottom = META_DIRECTION_BOTTOM;
/*************************************************/
/* Make sure test region 0 has the correct edges */
/*************************************************/
edges = get_screen_edges (0);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 1200, 1600, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 0, 1600, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 0, 0, 1200, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 0, 0, 1200, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 1 has the correct edges */
/*************************************************/
edges = get_screen_edges (1);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 1200, 400, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 400, 1160, 1200, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 1600, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 20, 0, 1140, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 400, 1160, 0, 40, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 0, 1180, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 2 has the correct edges */
/*************************************************/
edges = get_screen_edges (2);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge (1200, 1200, 400, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 450, 1200, 350, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 1200, 300, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 300, 1150, 150, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 1100, 400, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 1600, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 20, 0, 1180, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 1100, 0, 100, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 300, 1150, 0, 50, right));
tmp = g_list_prepend (tmp, new_screen_edge (1200, 1100, 0, 100, left));
tmp = g_list_prepend (tmp, new_screen_edge ( 450, 1150, 0, 50, left));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 0, 1180, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 3 has the correct edges */
/*************************************************/
edges = get_screen_edges (3);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge (1200, 1200, 400, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 380, 1200, 420, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 1200, 300, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 300, 1150, 80, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 1100, 400, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 700, 525, 200, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 700, 675, 200, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 1600, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 20, 0, 1180, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 1100, 0, 100, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 700, 525, 0, 150, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 300, 1150, 0, 50, right));
tmp = g_list_prepend (tmp, new_screen_edge (1200, 1100, 0, 100, left));
tmp = g_list_prepend (tmp, new_screen_edge ( 900, 525, 0, 150, left));
tmp = g_list_prepend (tmp, new_screen_edge ( 380, 1150, 0, 50, left));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 20, 0, 1180, left));
#if 0
#define FUDGE 50 /* number of edges */
char big_buffer1[(EDGE_LENGTH+2)*FUDGE], big_buffer2[(EDGE_LENGTH+2)*FUDGE];
meta_rectangle_edge_list_to_string (edges, "\n ", big_buffer1);
meta_rectangle_edge_list_to_string (tmp, "\n ", big_buffer2);
printf("Generated edge list:\n %s\nComparison edges list:\n %s\n",
big_buffer1, big_buffer2);
#endif
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 4 has the correct edges */
/*************************************************/
edges = get_screen_edges (4);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 1200, 800, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 20, 800, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 20, 0, 1180, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 800, 20, 0, 1180, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 5 has the correct edges */
/*************************************************/
edges = get_screen_edges (5);
tmp = NULL;
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************/
/* Make sure test region 6 has the correct edges */
/*************************************************/
edges = get_screen_edges (6);
tmp = NULL;
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 1200, 1600, 0, bottom));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 40, 1600, 0, top));
tmp = g_list_prepend (tmp, new_screen_edge (1600, 40, 0, 1160, right));
tmp = g_list_prepend (tmp, new_screen_edge ( 0, 40, 0, 1160, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_find_nonintersected_monitor_edges ()
{
GList* edges;
GList* tmp;
int left = META_DIRECTION_LEFT;
int right = META_DIRECTION_RIGHT;
int top = META_DIRECTION_TOP;
int bottom = META_DIRECTION_BOTTOM;
/*************************************************************************/
/* Make sure test monitor set 0 for with region 0 has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (0, 0);
tmp = NULL;
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************************************/
/* Make sure test monitor set 2 for with region 1 has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (2, 1);
tmp = NULL;
tmp = g_list_prepend (tmp, new_monitor_edge ( 0, 600, 1600, 0, bottom));
tmp = g_list_prepend (tmp, new_monitor_edge ( 0, 600, 1600, 0, top));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************************************/
/* Make sure test monitor set 1 for with region 2 has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (1, 2);
tmp = NULL;
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 20, 0, 1080, right));
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 20, 0, 1180, left));
#if 0
#define FUDGE 50
char big_buffer1[(EDGE_LENGTH+2)*FUDGE], big_buffer2[(EDGE_LENGTH+2)*FUDGE];
meta_rectangle_edge_list_to_string (edges, "\n ", big_buffer1);
meta_rectangle_edge_list_to_string (tmp, "\n ", big_buffer2);
printf("Generated edge list:\n %s\nComparison edges list:\n %s\n",
big_buffer1, big_buffer2);
#endif
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************************************/
/* Make sure test monitor set 3 for with region 3 has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (3, 3);
tmp = NULL;
tmp = g_list_prepend (tmp, new_monitor_edge ( 900, 600, 700, 0, bottom));
tmp = g_list_prepend (tmp, new_monitor_edge ( 0, 600, 700, 0, bottom));
tmp = g_list_prepend (tmp, new_monitor_edge ( 900, 600, 700, 0, top));
tmp = g_list_prepend (tmp, new_monitor_edge ( 0, 600, 700, 0, top));
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 675, 0, 425, right));
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 675, 0, 525, left));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************************************/
/* Make sure test monitor set 3 for with region 4 has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (3, 4);
tmp = NULL;
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 600, 800, 0, bottom));
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 600, 800, 0, top));
tmp = g_list_prepend (tmp, new_monitor_edge ( 800, 600, 0, 600, right));
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
/*************************************************************************/
/* Make sure test monitor set 3 for with region 5has the correct edges */
/*************************************************************************/
edges = get_monitor_edges (3, 5);
tmp = NULL;
verify_edge_lists_are_equal (edges, tmp);
meta_rectangle_free_list_and_elements (tmp);
meta_rectangle_free_list_and_elements (edges);
printf ("%s passed.\n", G_STRFUNC);
}
static void
test_gravity_resize ()
{
MetaRectangle oldrect, rect, temp;
rect.x = -500; /* Some random amount not equal to oldrect.x to ensure that
* the resize is done with respect to oldrect instead of rect
*/
oldrect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect ( 50, 300, 20, 5);
meta_rectangle_resize_with_gravity (&oldrect,
&rect,
NorthWestGravity,
20,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect (165, 300, 20, 5);
meta_rectangle_resize_with_gravity (&rect,
&rect,
NorthGravity,
20,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect (280, 300, 20, 5);
meta_rectangle_resize_with_gravity (&rect,
&rect,
NorthEastGravity,
20,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect ( 50, 695, 50, 5);
meta_rectangle_resize_with_gravity (&rect,
&rect,
SouthWestGravity,
50,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect (150, 695, 50, 5);
meta_rectangle_resize_with_gravity (&rect,
&rect,
SouthGravity,
50,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 50, 300, 250, 400);
temp = meta_rect (250, 695, 50, 5);
meta_rectangle_resize_with_gravity (&rect,
&rect,
SouthEastGravity,
50,
5);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (167, 738, 237, 843);
temp = meta_rect (167, 1113, 832, 93);
meta_rectangle_resize_with_gravity (&rect,
&rect,
WestGravity,
832,
93);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect ( 167, 738, 237, 843);
temp = meta_rect (-131, 1113, 833, 93);
meta_rectangle_resize_with_gravity (&rect,
&rect,
CenterGravity,
832,
93);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (300, 1000, 400, 200);
temp = meta_rect (270, 994, 430, 212);
meta_rectangle_resize_with_gravity (&rect,
&rect,
EastGravity,
430,
211);
g_assert (meta_rectangle_equal (&rect, &temp));
rect = meta_rect (300, 1000, 400, 200);
temp = meta_rect (300, 1000, 430, 211);
meta_rectangle_resize_with_gravity (&rect,
&rect,
StaticGravity,
430,
211);
g_assert (meta_rectangle_equal (&rect, &temp));
printf ("%s passed.\n", G_STRFUNC);
}
#define EPSILON 0.000000001
static void
test_find_closest_point_to_line ()
{
double x1, y1, x2, y2, px, py, rx, ry;
double answer_x, answer_y;
x1 = 3.0; y1 = 49.0;
x2 = 2.0; y2 = - 1.0;
px = -2.6; py = 19.1;
answer_x = 2.4; answer_y = 19;
meta_rectangle_find_linepoint_closest_to_point (x1, y1,
x2, y2,
px, py,
&rx, &ry);
g_assert (fabs (rx - answer_x) < EPSILON && fabs (ry - answer_y) < EPSILON);
/* Special test for x1 == x2, so that slop of line is infinite */
x1 = 3.0; y1 = 49.0;
x2 = 3.0; y2 = - 1.0;
px = -2.6; py = 19.1;
answer_x = 3.0; answer_y = 19.1;
meta_rectangle_find_linepoint_closest_to_point (x1, y1,
x2, y2,
px, py,
&rx, &ry);
g_assert (fabs (rx - answer_x) < EPSILON && fabs (ry - answer_y) < EPSILON);
/* Special test for y1 == y2, so perp line has slope of infinity */
x1 = 3.14; y1 = 7.0;
x2 = 2.718; y2 = 7.0;
px = -2.6; py = 19.1;
answer_x = -2.6; answer_y = 7;
meta_rectangle_find_linepoint_closest_to_point (x1, y1,
x2, y2,
px, py,
&rx, &ry);
g_assert (fabs (rx - answer_x) < EPSILON && fabs (ry - answer_y) < EPSILON);
/* Test when we the point we want to be closest to is actually on the line */
x1 = 3.0; y1 = 49.0;
x2 = 2.0; y2 = - 1.0;
px = 2.4; py = 19.0;
answer_x = 2.4; answer_y = 19;
meta_rectangle_find_linepoint_closest_to_point (x1, y1,
x2, y2,
px, py,
&rx, &ry);
g_assert (fabs (rx - answer_x) < EPSILON && fabs (ry - answer_y) < EPSILON);
printf ("%s passed.\n", G_STRFUNC);
}
int
main()
{
init_random_ness ();
test_area ();
test_intersect ();
test_equal ();
test_overlap_funcs ();
test_basic_fitting ();
test_regions_okay ();
test_region_fitting ();
test_clamping_to_region ();
test_clipping_to_region ();
test_shoving_into_region ();
/* And now the functions dealing with edges more than boxes */
test_find_onscreen_edges ();
test_find_nonintersected_monitor_edges ();
/* And now the misfit functions that don't quite fit in anywhere else... */
test_gravity_resize ();
test_find_closest_point_to_line ();
printf ("All tests passed.\n");
return 0;
}