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calendar: expose cal_format; closes #194
[etc/awesome.git] / layout / centerfair.lua
index d3225b40c35152e8b89e719f0532d63566ed03d1..50227264c2994786c022d1db75446ae50b3ae0f3 100644 (file)
@@ -49,16 +49,15 @@ function centerfair.arrange(p)
     local global_border = tonumber(beautiful.global_border_width) or 0
     if global_border < 0 then global_border = 0 end
 
     local global_border = tonumber(beautiful.global_border_width) or 0
     if global_border < 0 then global_border = 0 end
 
-    -- Themes border width requires an offset
-    local bw = tonumber(beautiful.border_width) or 0
-
     -- Screen.
     local wa = p.workarea
     local cls = p.clients
 
     -- Borders are factored in.
     -- Screen.
     local wa = p.workarea
     local cls = p.clients
 
     -- Borders are factored in.
-    wa.height = wa.height - ((global_border * 2) + (bw * 2))
-    wa.width = wa.width - ((global_border * 2) + (bw * 2))
+    wa.height = wa.height - (global_border * 2)
+    wa.width = wa.width - (global_border * 2)
+    wa.x = wa.x + global_border
+    wa.y = wa.y + global_border
 
     -- How many vertical columns? Read from nmaster on the tag.
     local t = tag.selected(p.screen)
 
     -- How many vertical columns? Read from nmaster on the tag.
     local t = tag.selected(p.screen)
@@ -66,36 +65,36 @@ function centerfair.arrange(p)
     local ncol = centerfair.ncol or tag.getncol(t)
     if num_x <= 2 then num_x = 2 end
 
     local ncol = centerfair.ncol or tag.getncol(t)
     if num_x <= 2 then num_x = 2 end
 
-    local width = math.floor((wa.width-(num_x+1)*useless_gap) / num_x)
+    local width = math.floor((wa.width - (num_x + 1)*useless_gap) / num_x)
 
 
-    local offset_y = wa.y + useless_gap
     if #cls < num_x
     then
         -- Less clients than the number of columns, let's center it!
     if #cls < num_x
     then
         -- Less clients than the number of columns, let's center it!
-        local offset_x = wa.x + useless_gap + (wa.width - #cls*width - (#cls+1)*useless_gap) / 2
+        local offset_x = wa.x + (wa.width - #cls*width - (#cls - 1)*useless_gap) / 2
         local g = {}
         local g = {}
-        g.width = width
-        g.height = wa.height - 2*useless_gap - 2
-        g.y = offset_y + global_border
+        g.y = wa.y + useless_gap
         for i = 1, #cls do
         for i = 1, #cls do
-            g.x = offset_x + (#cls - i) * (width + useless_gap + 2) + global_border
-            cls[i]:geometry(g)
+            local c = cls[i]
+            g.width = width - 2*c.border_width
+            g.height = wa.height - 2*useless_gap - 2*c.border_width
+            if g.width < 1 then g.width = 1 end
+            if g.height < 1 then g.height = 1 end
+            g.x = offset_x + (i - 1) * (width + useless_gap)
+            c:geometry(g)
         end
     else
         -- More clients than the number of columns, let's arrange it!
         end
     else
         -- More clients than the number of columns, let's arrange it!
-        local offset_x = wa.x
-        if useless_gap > 0 then
-           offset_x = offset_x
-        end
-
         -- Master client deserves a special treatement
         -- Master client deserves a special treatement
+        local c = cls[1]
         local g = {}
         local g = {}
-        g.width = wa.width - (num_x  - 1) * width - num_x * 2*useless_gap - 2 
-        g.height = wa.height - 2*useless_gap - 2
-        g.x = offset_x + useless_gap + global_border
-        g.y = offset_y + global_border
+        g.width = wa.width - (num_x - 1)*width - (num_x + 1)*useless_gap - 2*c.border_width
+        g.height = wa.height - 2*useless_gap - 2*c.border_width
+        if g.width < 1 then g.width = 1 end
+        if g.height < 1 then g.height = 1 end
+        g.x = wa.x + useless_gap
+        g.y = wa.y + useless_gap
 
 
-        cls[#cls]:geometry(g)
+        c:geometry(g)
 
         -- Treat the other clients
 
 
         -- Treat the other clients
 
@@ -104,7 +103,7 @@ function centerfair.arrange(p)
         do
             local remaining_clients = #cls-1
             local ncol_min = math.ceil(remaining_clients/(num_x-1))
         do
             local remaining_clients = #cls-1
             local ncol_min = math.ceil(remaining_clients/(num_x-1))
-            if ncol >= ncol_min 
+            if ncol >= ncol_min
             then
                 for i = (num_x-1), 1, -1 do
                     if (remaining_clients-i+1) < ncol
             then
                 for i = (num_x-1), 1, -1 do
                     if (remaining_clients-i+1) < ncol
@@ -134,28 +133,30 @@ function centerfair.arrange(p)
         end
 
         -- Compute geometry of the other clients
         end
 
         -- Compute geometry of the other clients
-        local nclient = #cls-1 -- we start with the 2nd client
-        g.x = g.x + g.width+useless_gap + 2
-        g.width = width
-
-        if useless_gap > 0 then
-            g.width = g.width + useless_gap - 2
-        end
+        local nclient = 2 -- we start with the 2nd client
+        g.x = g.x + g.width + useless_gap + 2*c.border_width
 
         for i = 1, (num_x-1) do
 
         for i = 1, (num_x-1) do
-            to_remove = 2
-            g.height = math.floor((wa.height - (num_y[i] * useless_gap)) / num_y[i])
-            g.y = offset_y + global_border
-            for j = 1, (num_y[i]-1) do
-                cls[nclient]:geometry(g)
-                nclient = nclient - 1
-                g.y = g.y + g.height+useless_gap + 2
-                to_remove = to_remove + 2
+            local height = math.floor((wa.height - (num_y[i] + 1)*useless_gap) / num_y[i])
+            g.y = wa.y + useless_gap
+            for j = 0, (num_y[i]-2) do
+                local c = cls[nclient]
+                g.height = height - 2*c.border_width
+                g.width = width - 2*c.border_width
+                if g.width < 1 then g.width = 1 end
+                if g.height < 1 then g.height = 1 end
+                c:geometry(g)
+                nclient = nclient + 1
+                g.y = g.y + height + useless_gap
             end
             end
-            g.height = wa.height - num_y[i]*useless_gap - (num_y[i]-1)*g.height - useless_gap - to_remove
-            cls[nclient]:geometry(g)
-            nclient = nclient - 1
-            g.x = g.x+g.width+useless_gap + 2
+            local c = cls[nclient]
+            g.height = wa.height - (num_y[i] + 1)*useless_gap - (num_y[i] - 1)*height - 2*c.border_width
+            g.width = width - 2*c.border_width
+            if g.width < 1 then g.width = 1 end
+            if g.height < 1 then g.height = 1 end
+            c:geometry(g)
+            nclient = nclient + 1
+            g.x = g.x + width + useless_gap
         end
     end
 end
         end
     end
 end