From: Dana Jansens Date: Mon, 1 Oct 2012 00:29:45 +0000 (-0400) Subject: Use the nearest monitor when the search query rect does not intersect any monitor... X-Git-Url: https://git.dogcows.com/gitweb?a=commitdiff_plain;h=01f62ded2fe289fe245f4f05b5825f4bdcbe1dc3;p=chaz%2Fopenbox Use the nearest monitor when the search query rect does not intersect any monitor (Fix bug 5500) Previously we would try to find the primary monitor and use that when the search was outside any monitor. However, if the primary monitor is chosen by the mouse position and the mouse is not inside any monitor, we enter infinite recursion trying to find the primary monitor. The nearest monitor is a better metric anyhow, and this ensures screen_find_monitor() is never recursive as it always returns a value without depending on other screen.c methods. --- diff --git a/openbox/geom.h b/openbox/geom.h index 8ac0e550..8e50834b 100644 --- a/openbox/geom.h +++ b/openbox/geom.h @@ -104,6 +104,25 @@ typedef struct _Rect { (r).height = MIN((a).y + (a).height - 1, \ (b).y + (b).height - 1) - (r).y + 1) +/* Returns the shortest manhatten distance between two rects, or 0 if they + intersect. */ +static inline gint rect_manhatten_distance(Rect r, Rect o) +{ + if (RECT_INTERSECTS_RECT(r, o)) + return 0; + + gint min_distance = G_MAXINT; + if (RECT_RIGHT(o) < RECT_LEFT(r)) + min_distance = MIN(min_distance, RECT_LEFT(r) - RECT_RIGHT(o)); + if (RECT_LEFT(o) > RECT_RIGHT(r)) + min_distance = MIN(min_distance, RECT_LEFT(o) - RECT_RIGHT(r)); + if (RECT_BOTTOM(o) < RECT_TOP(r)) + min_distance = MIN(min_distance, RECT_TOP(r) - RECT_BOTTOM(o)); + if (RECT_TOP(o) > RECT_BOTTOM(r)) + min_distance = MIN(min_distance, RECT_TOP(o) - RECT_BOTTOM(r)); + return min_distance; +} + typedef struct _Strut { int left; int top; diff --git a/openbox/screen.c b/openbox/screen.c index 35366beb..f4031f59 100644 --- a/openbox/screen.c +++ b/openbox/screen.c @@ -1644,8 +1644,10 @@ typedef struct { guint screen_find_monitor(const Rect *search) { guint i; - guint most = screen_num_monitors; + guint mostpx_index = screen_num_monitors; guint mostpx = 0; + guint closest_distance_index = screen_num_monitors; + guint closest_distance = G_MAXUINT; GSList *counted = NULL; /* we want to count the number of pixels search has on each monitor, but not @@ -1686,7 +1688,7 @@ guint screen_find_monitor(const Rect *search) if (area > mostpx) { mostpx = area; - most = config_primary_monitor_index; + mostpx_index = config_primary_monitor_index; } /* add the intersection rect on the current monitor to the @@ -1709,10 +1711,21 @@ guint screen_find_monitor(const Rect *search) monitor = screen_physical_area_monitor(i); + if (!RECT_INTERSECTS_RECT(*monitor, *search)) { + /* If we don't intersect then find the distance between the search + rect and the monitor. We'll use the closest monitor from this + metric if none of the monitors intersect. */ + guint distance = rect_manhatten_distance(*monitor, *search); + + if (distance < closest_distance) { + closest_distance = distance; + closest_distance_index = i; + } + continue; + } + if (i == config_primary_monitor_index) continue; /* already did this one */ - if (!RECT_INTERSECTS_RECT(*monitor, *search)) - continue; /* nothing to see here */ RECT_SET_INTERSECTION(on_current_monitor, *monitor, *search); area = RECT_AREA(on_current_monitor); @@ -1729,7 +1742,7 @@ guint screen_find_monitor(const Rect *search) if (area > mostpx) { mostpx = area; - most = i; + mostpx_index = i; } /* add the intersection rect on the current monitor I to the counted @@ -1765,7 +1778,11 @@ guint screen_find_monitor(const Rect *search) counted = g_slist_delete_link(counted, counted); } - return most < screen_num_monitors ? most : screen_monitor_primary(FALSE); + if (mostpx_index < screen_num_monitors) + return mostpx_index; + + g_assert(closest_distance_index < screen_num_monitors); + return closest_distance_index; } const Rect* screen_physical_area_all_monitors(void)