3 files changed, 124 insertions, 17 deletions
diff --git a/doc/asciidoc/fluxbox-keys.txt b/doc/asciidoc/fluxbox-keys.txt
index 02fc745..4d92c43 100644
--- a/doc/asciidoc/fluxbox-keys.txt
+++ b/doc/asciidoc/fluxbox-keys.txt
@@ -417,6 +417,23 @@ doing so.
        splits (windows on top of eachother). See *CLIENT PATTERNS* for more about the
        'pattern' arguments.
+*ArrangeWindowsStackLeft* 'pattern' / *ArrangeWindowsStackRight* 'pattern'::
+  Similar to *ArrangeWindows*, these commands arrange windows on the current
+  workspace. The currently focussed window is used as the 'main' window, and
+  will fill half the screen, while the other windows are tiled on the
+  other half of the screen as if they were tiled with ArrangeWindows.
+  *ArrangeWindowsStackLeft* puts the main window on the RIGHT hand side of the
+  screen, and the tiled windows are on the LEFT hand side of the screen.
+  *ArrangeWindowsStackRight* puts the main window on the LEFT hand side of the
+  screen, and the tiled windows are on the RIGHT hand side of the screen.
+*ArrangeWindowsStackTop* 'pattern' / *ArrangeWindowsStackBottom 'pattern'::
+  Behaves just like *ArrangeWindowsStackLeft* and *ArrangeWindowsStackRight*.
+  *ArrangeWindowsStackBottom* places the main window on the TOP half of the
+  screen, and the tiled windows on the bottom half of the screen.
+  *ArrangeWindowsStackTop* places the main window on the BOTTOM half of the
+  screen and the tiled windows on the top half of the screen.
 *ShowDesktop*::
        Minimizes all windows on the current workspace. If they are already all
        minimized, then it restores them.
diff --git a/src/WorkspaceCmd.cc b/src/WorkspaceCmd.cc
index 42cc05e..2d4de03 100644
--- a/src/WorkspaceCmd.cc
+++ b/src/WorkspaceCmd.cc
@@ -186,7 +186,20 @@ FbTk::Command<void> *parseWindowList(const string &command,
    } else if (command == "arrangewindowshorizontal") {
        int method = ArrangeWindowsCmd::HORIZONTAL;
        return new ArrangeWindowsCmd(method,pat);
+     } else if (command == "arrangewindowsstackleft") {
+        int method = ArrangeWindowsCmd::STACKLEFT;
+        return new ArrangeWindowsCmd(method,pat);
+    } else if (command == "arrangewindowsstackright") {
+        int method = ArrangeWindowsCmd::STACKRIGHT;
+        return new ArrangeWindowsCmd(method,pat);
+    } else if (command == "arrangewindowsstacktop") {
+        int method = ArrangeWindowsCmd::STACKTOP;
+        return new ArrangeWindowsCmd(method,pat);
+    } else if (command == "arrangewindowsstackbottom") {
+        int method = ArrangeWindowsCmd::STACKBOTTOM;
+        return new ArrangeWindowsCmd(method,pat);
    }
    return 0;
 }
@@ -198,6 +211,10 @@ REGISTER_COMMAND_PARSER(prevgroup, parseWindowList, void);
 REGISTER_COMMAND_PARSER(arrangewindows, parseWindowList, void);
 REGISTER_COMMAND_PARSER(arrangewindowsvertical, parseWindowList, void);
 REGISTER_COMMAND_PARSER(arrangewindowshorizontal, parseWindowList, void);
+REGISTER_COMMAND_PARSER(arrangewindowsstackleft, parseWindowList, void);
+REGISTER_COMMAND_PARSER(arrangewindowsstackright, parseWindowList, void);
+REGISTER_COMMAND_PARSER(arrangewindowsstacktop, parseWindowList, void);
+REGISTER_COMMAND_PARSER(arrangewindowsstackbottom, parseWindowList, void);
 } // end anonymous namespace
@@ -217,7 +234,7 @@ void AttachCmd::execute() {
                    first->attachClient((*it)->fbwindow()->winClient());
            }
        }
-                
    }
 }
@@ -393,13 +410,33 @@ void ArrangeWindowsCmd::execute() {
    Workspace::Windows normal_windows;
    Workspace::Windows shaded_windows;
+    FluxboxWindow* main_window = NULL; // Main (big) window for stacked modes
    for(win = space->windowList().begin(); win != space->windowList().end(); ++win) {
        int winhead = screen->getHead((*win)->fbWindow());
        if ((winhead == head || winhead == 0) && m_pat.match(**win)) {
-            if ((*win)->isShaded())
+            // If using stacked tiling, and this window is focused, set it as main window
-                shaded_windows.push_back(*win);
+            if (((m_tile_method == STACKLEFT) || (m_tile_method == STACKRIGHT)
-            else
+                || (m_tile_method == STACKBOTTOM) || (m_tile_method == STACKTOP))
-                normal_windows.push_back(*win);
+                 && (*win)->isFocused()){
+                main_window = (*win);
+            }
+            else{
+                if ((*win)->isShaded())
+                    shaded_windows.push_back(*win);
+                else
+                    normal_windows.push_back(*win);
+            }
+        }
+    }
+    // if using stacked-left/right/top/bottom and we don't have a main window yet
+    // (no focused window?), we'll fall back on using the last window in the
+    // window list.
+    if (main_window == NULL)
+    {
+        if ((m_tile_method == STACKLEFT) || (m_tile_method == STACKRIGHT)
+            || (m_tile_method == STACKTOP) || (m_tile_method == STACKBOTTOM)) {
+            main_window = normal_windows.back();
+            normal_windows.pop_back();
        }
    }
@@ -408,8 +445,16 @@ void ArrangeWindowsCmd::execute() {
    if (win_count == 0)
        return;
-    const unsigned int max_width = screen->maxRight(head) - screen->maxLeft(head);
+    unsigned int max_width = screen->maxRight(head) - screen->maxLeft(head);
+    // If stacked left or right, max width is divided in 2
+    if ((m_tile_method == STACKLEFT) || (m_tile_method == STACKRIGHT)){
+        max_width = max_width / 2;
+    }
    unsigned int max_height = screen->maxBottom(head) - screen->maxTop(head);
+    // If stacked top or bottom, max height is divided in 2
+    if ((m_tile_method == STACKTOP) || (m_tile_method == STACKBOTTOM)){
+        max_height = max_height / 2;
+    }
    // try to get the same number of rows as columns.
    unsigned int cols = int(sqrt((float)win_count));  // truncate to lower
@@ -421,7 +466,26 @@ void ArrangeWindowsCmd::execute() {
    unsigned int x_offs = screen->maxLeft(head); // window position offset in x
    unsigned int y_offs = screen->maxTop(head); // window position offset in y
-   // unsigned int window = 0; // current window
+    // Stacked mode only uses half the screen for tiled windows, so adjust offset to half the screen
+    // (horizontal or vertical depending on stacking mode)
+    switch(m_tile_method)
+    {
+        case STACKRIGHT:
+          x_offs = int(abs((screen->maxLeft(head)-screen->maxRight(head)))/2);
+          break;
+        case STACKBOTTOM:
+          y_offs = int(abs(screen->maxBottom(head) - screen->maxTop(head))/2);
+          break;
+        default:
+          // no change needed for STACKLEFT/STACKTOP
+          break;
+    }
+    // Since the placing algorithm loop below modifies the offsets, but we still need them to
+    // position the main window, we save the calculated values.
+    const unsigned int orig_x_offs = x_offs;
+    const unsigned int orig_y_offs = y_offs;
+    // unsigned int window = 0; // current window
    const unsigned int cal_width = max_width/cols; // calculated width ratio (width of every window)
    unsigned int i;
    unsigned int j;
@@ -448,7 +512,7 @@ void ArrangeWindowsCmd::execute() {
    const unsigned int cal_height = max_height/rows; // height ratio (height of every window)
    // Resizes and sets windows positions in columns and rows.
    for (i = 0; i < rows; ++i) {
-        x_offs = screen->maxLeft(head);
+        x_offs = orig_x_offs;
        for (j = 0; j < cols && !normal_windows.empty(); ++j) {
@@ -461,7 +525,7 @@ void ArrangeWindowsCmd::execute() {
                int win_center_x = (*win)->frame().x() + ((*win)->frame().x() + (*win)->frame().width() / 2);
                int win_center_y = (*win)->frame().y() + ((*win)->frame().y() + (*win)->frame().height() / 2);
-                unsigned int dist = (win_center_x - cell_center_x) * (win_center_x - cell_center_x) + 
+                unsigned int dist = (win_center_x - cell_center_x) * (win_center_x - cell_center_x) +
                                    (win_center_y - cell_center_y) * (win_center_y - cell_center_y);
                if (dist < closest_dist) {
@@ -472,14 +536,14 @@ void ArrangeWindowsCmd::execute() {
            if (normal_windows.size() > 1) {
                (*closest)->moveResize(x_offs + (*closest)->xOffset(),
-                        y_offs + (*closest)->yOffset(),
+                                       y_offs + (*closest)->yOffset(),
-                        cal_width - (*closest)->widthOffset(),
+                                       cal_width - (*closest)->widthOffset(),
-                        cal_height - (*closest)->heightOffset());
+                                       cal_height - (*closest)->heightOffset());
            } else { // the last window gets everything that is left.
                (*closest)->moveResize(x_offs + (*closest)->xOffset(),
-                        y_offs + (*closest)->yOffset(),
+                                       y_offs + (*closest)->yOffset(),
-                        screen->maxRight(head) - x_offs - (*closest)->widthOffset(),
+                                       max_width - x_offs - (*closest)->widthOffset(),
-                        cal_height - (*closest)->heightOffset());
+                                       cal_height - (*closest)->heightOffset());
            }
            normal_windows.erase(closest);
@@ -490,6 +554,28 @@ void ArrangeWindowsCmd::execute() {
        // next y offset
        y_offs += cal_height;
    }
+    // If using a stacked mechanism we now need to place the main window.
+    if (main_window != NULL){
+        switch (m_tile_method){
+            case STACKLEFT:
+                main_window->moveResize(max_width,orig_y_offs,max_width,max_height);
+                break;
+            case STACKRIGHT:
+                main_window->moveResize(screen->maxLeft(head),screen->maxTop(head),max_width,max_height);
+                break;
+            case STACKTOP:
+                main_window->moveResize(screen->maxLeft(head),max_height,max_width,max_height);
+                break;
+            case STACKBOTTOM:
+                main_window->moveResize(screen->maxLeft(head),screen->maxTop(head),max_width,max_height);
+                break;
+            default:
+                // Shouldn't happen.
+                break;
+        }
+    }
 }
 REGISTER_COMMAND(showdesktop, ShowDesktopCmd, void);
diff --git a/src/WorkspaceCmd.hh b/src/WorkspaceCmd.hh
index f4f90a6..f4609b6 100644
--- a/src/WorkspaceCmd.hh
+++ b/src/WorkspaceCmd.hh
@@ -86,7 +86,7 @@ private:
 class PrevWindowCmd: public FbTk::Command<void> {
 public:
-    explicit PrevWindowCmd(int option, std::string &pat): 
+    explicit PrevWindowCmd(int option, std::string &pat):
            m_option(option), m_pat(pat.c_str()) { }
    void execute();
 private:
@@ -173,7 +173,11 @@ public:
    enum {
      UNSPECIFIED,
      VERTICAL,
-      HORIZONTAL
+      HORIZONTAL,
+      STACKLEFT,
+      STACKRIGHT,
+      STACKTOP,
+      STACKBOTTOM
    };
    explicit ArrangeWindowsCmd(int tile_method, std::string &pat):
            m_tile_method( tile_method ), m_pat(pat.c_str()) { }

diff --git a/doc/asciidoc/fluxbox-keys.txt b/doc/asciidoc/fluxbox-keys.txt index 02fc745..4d92c43 100644 --- a/doc/asciidoc/fluxbox-keys.txt +++ b/doc/asciidoc/fluxbox-keys.txt
@@ -417,6 +417,23 @@ doing so.
417	splits (windows on top of eachother). See CLIENT PATTERNS for more about the	417	splits (windows on top of eachother). See CLIENT PATTERNS for more about the
418	'pattern' arguments.	418	'pattern' arguments.
419		419
		420	ArrangeWindowsStackLeft 'pattern' / ArrangeWindowsStackRight 'pattern'::
		421	Similar to ArrangeWindows, these commands arrange windows on the current
		422	workspace. The currently focussed window is used as the 'main' window, and
		423	will fill half the screen, while the other windows are tiled on the
		424	other half of the screen as if they were tiled with ArrangeWindows.
		425	ArrangeWindowsStackLeft puts the main window on the RIGHT hand side of the
		426	screen, and the tiled windows are on the LEFT hand side of the screen.
		427	ArrangeWindowsStackRight puts the main window on the LEFT hand side of the
		428	screen, and the tiled windows are on the RIGHT hand side of the screen.
		429
		430	ArrangeWindowsStackTop 'pattern' / *ArrangeWindowsStackBottom 'pattern'::
		431	Behaves just like ArrangeWindowsStackLeft and ArrangeWindowsStackRight.
		432	ArrangeWindowsStackBottom places the main window on the TOP half of the
		433	screen, and the tiled windows on the bottom half of the screen.
		434	ArrangeWindowsStackTop places the main window on the BOTTOM half of the
		435	screen and the tiled windows on the top half of the screen.
		436
420	ShowDesktop::	437	ShowDesktop::
421	Minimizes all windows on the current workspace. If they are already all	438	Minimizes all windows on the current workspace. If they are already all
422	minimized, then it restores them.	439	minimized, then it restores them.


diff --git a/src/WorkspaceCmd.cc b/src/WorkspaceCmd.cc index 42cc05e..2d4de03 100644 --- a/src/WorkspaceCmd.cc +++ b/src/WorkspaceCmd.cc
@@ -186,7 +186,20 @@ FbTk::Command<void> *parseWindowList(const string &command,
186	} else if (command == "arrangewindowshorizontal") {	186	} else if (command == "arrangewindowshorizontal") {
187	int method = ArrangeWindowsCmd::HORIZONTAL;	187	int method = ArrangeWindowsCmd::HORIZONTAL;
188	return new ArrangeWindowsCmd(method,pat);	188	return new ArrangeWindowsCmd(method,pat);
		189	} else if (command == "arrangewindowsstackleft") {
		190	int method = ArrangeWindowsCmd::STACKLEFT;
		191	return new ArrangeWindowsCmd(method,pat);
		192	} else if (command == "arrangewindowsstackright") {
		193	int method = ArrangeWindowsCmd::STACKRIGHT;
		194	return new ArrangeWindowsCmd(method,pat);
		195	} else if (command == "arrangewindowsstacktop") {
		196	int method = ArrangeWindowsCmd::STACKTOP;
		197	return new ArrangeWindowsCmd(method,pat);
		198	} else if (command == "arrangewindowsstackbottom") {
		199	int method = ArrangeWindowsCmd::STACKBOTTOM;
		200	return new ArrangeWindowsCmd(method,pat);
189	}	201	}
		202
190	return 0;	203	return 0;
191	}	204	}
192		205
@@ -198,6 +211,10 @@ REGISTER_COMMAND_PARSER(prevgroup, parseWindowList, void);
198	REGISTER_COMMAND_PARSER(arrangewindows, parseWindowList, void);	211	REGISTER_COMMAND_PARSER(arrangewindows, parseWindowList, void);
199	REGISTER_COMMAND_PARSER(arrangewindowsvertical, parseWindowList, void);	212	REGISTER_COMMAND_PARSER(arrangewindowsvertical, parseWindowList, void);
200	REGISTER_COMMAND_PARSER(arrangewindowshorizontal, parseWindowList, void);	213	REGISTER_COMMAND_PARSER(arrangewindowshorizontal, parseWindowList, void);
		214	REGISTER_COMMAND_PARSER(arrangewindowsstackleft, parseWindowList, void);
		215	REGISTER_COMMAND_PARSER(arrangewindowsstackright, parseWindowList, void);
		216	REGISTER_COMMAND_PARSER(arrangewindowsstacktop, parseWindowList, void);
		217	REGISTER_COMMAND_PARSER(arrangewindowsstackbottom, parseWindowList, void);
201		218
202	} // end anonymous namespace	219	} // end anonymous namespace
203		220
@@ -217,7 +234,7 @@ void AttachCmd::execute() {
217	first->attachClient((*it)->fbwindow()->winClient());	234	first->attachClient((*it)->fbwindow()->winClient());
218	}	235	}
219	}	236	}
220		237
221	}	238	}
222	}	239	}
223		240
@@ -393,13 +410,33 @@ void ArrangeWindowsCmd::execute() {
393		410
394	Workspace::Windows normal_windows;	411	Workspace::Windows normal_windows;
395	Workspace::Windows shaded_windows;	412	Workspace::Windows shaded_windows;
		413	FluxboxWindow* main_window = NULL; // Main (big) window for stacked modes
396	for(win = space->windowList().begin(); win != space->windowList().end(); ++win) {	414	for(win = space->windowList().begin(); win != space->windowList().end(); ++win) {
397	int winhead = screen->getHead((*win)->fbWindow());	415	int winhead = screen->getHead((*win)->fbWindow());
398	if ((winhead == head \|\| winhead == 0) && m_pat.match(**win)) {	416	if ((winhead == head \|\| winhead == 0) && m_pat.match(**win)) {
399	if ((*win)->isShaded())	417	// If using stacked tiling, and this window is focused, set it as main window
400	shaded_windows.push_back(*win);	418	if (((m_tile_method == STACKLEFT) \|\| (m_tile_method == STACKRIGHT)
401	else	419	\|\| (m_tile_method == STACKBOTTOM) \|\| (m_tile_method == STACKTOP))
402	normal_windows.push_back(*win);	420	&& (*win)->isFocused()){
		421	main_window = (*win);
		422	}
		423	else{
		424	if ((*win)->isShaded())
		425	shaded_windows.push_back(*win);
		426	else
		427	normal_windows.push_back(*win);
		428	}
		429	}
		430	}
		431	// if using stacked-left/right/top/bottom and we don't have a main window yet
		432	// (no focused window?), we'll fall back on using the last window in the
		433	// window list.
		434	if (main_window == NULL)
		435	{
		436	if ((m_tile_method == STACKLEFT) \|\| (m_tile_method == STACKRIGHT)
		437	\|\| (m_tile_method == STACKTOP) \|\| (m_tile_method == STACKBOTTOM)) {
		438	main_window = normal_windows.back();
		439	normal_windows.pop_back();
403	}	440	}
404	}	441	}
405		442
@@ -408,8 +445,16 @@ void ArrangeWindowsCmd::execute() {
408	if (win_count == 0)	445	if (win_count == 0)
409	return;	446	return;
410		447
411	const unsigned int max_width = screen->maxRight(head) - screen->maxLeft(head);	448	unsigned int max_width = screen->maxRight(head) - screen->maxLeft(head);
		449	// If stacked left or right, max width is divided in 2
		450	if ((m_tile_method == STACKLEFT) \|\| (m_tile_method == STACKRIGHT)){
		451	max_width = max_width / 2;
		452	}
412	unsigned int max_height = screen->maxBottom(head) - screen->maxTop(head);	453	unsigned int max_height = screen->maxBottom(head) - screen->maxTop(head);
		454	// If stacked top or bottom, max height is divided in 2
		455	if ((m_tile_method == STACKTOP) \|\| (m_tile_method == STACKBOTTOM)){
		456	max_height = max_height / 2;
		457	}
413		458
414	// try to get the same number of rows as columns.	459	// try to get the same number of rows as columns.
415	unsigned int cols = int(sqrt((float)win_count)); // truncate to lower	460	unsigned int cols = int(sqrt((float)win_count)); // truncate to lower
@@ -421,7 +466,26 @@ void ArrangeWindowsCmd::execute() {
421		466
422	unsigned int x_offs = screen->maxLeft(head); // window position offset in x	467	unsigned int x_offs = screen->maxLeft(head); // window position offset in x
423	unsigned int y_offs = screen->maxTop(head); // window position offset in y	468	unsigned int y_offs = screen->maxTop(head); // window position offset in y
424	// unsigned int window = 0; // current window	469	// Stacked mode only uses half the screen for tiled windows, so adjust offset to half the screen
		470	// (horizontal or vertical depending on stacking mode)
		471	switch(m_tile_method)
		472	{
		473	case STACKRIGHT:
		474	x_offs = int(abs((screen->maxLeft(head)-screen->maxRight(head)))/2);
		475	break;
		476	case STACKBOTTOM:
		477	y_offs = int(abs(screen->maxBottom(head) - screen->maxTop(head))/2);
		478	break;
		479	default:
		480	// no change needed for STACKLEFT/STACKTOP
		481	break;
		482	}
		483	// Since the placing algorithm loop below modifies the offsets, but we still need them to
		484	// position the main window, we save the calculated values.
		485	const unsigned int orig_x_offs = x_offs;
		486	const unsigned int orig_y_offs = y_offs;
		487
		488	// unsigned int window = 0; // current window
425	const unsigned int cal_width = max_width/cols; // calculated width ratio (width of every window)	489	const unsigned int cal_width = max_width/cols; // calculated width ratio (width of every window)
426	unsigned int i;	490	unsigned int i;
427	unsigned int j;	491	unsigned int j;
@@ -448,7 +512,7 @@ void ArrangeWindowsCmd::execute() {
448	const unsigned int cal_height = max_height/rows; // height ratio (height of every window)	512	const unsigned int cal_height = max_height/rows; // height ratio (height of every window)
449	// Resizes and sets windows positions in columns and rows.	513	// Resizes and sets windows positions in columns and rows.
450	for (i = 0; i < rows; ++i) {	514	for (i = 0; i < rows; ++i) {
451	x_offs = screen->maxLeft(head);	515	x_offs = orig_x_offs;
452	for (j = 0; j < cols && !normal_windows.empty(); ++j) {	516	for (j = 0; j < cols && !normal_windows.empty(); ++j) {
453		517
454		518
@@ -461,7 +525,7 @@ void ArrangeWindowsCmd::execute() {
461		525
462	int win_center_x = (win)->frame().x() + ((win)->frame().x() + (*win)->frame().width() / 2);	526	int win_center_x = (win)->frame().x() + ((win)->frame().x() + (*win)->frame().width() / 2);
463	int win_center_y = (win)->frame().y() + ((win)->frame().y() + (*win)->frame().height() / 2);	527	int win_center_y = (win)->frame().y() + ((win)->frame().y() + (*win)->frame().height() / 2);
464	unsigned int dist = (win_center_x - cell_center_x) * (win_center_x - cell_center_x) +	528	unsigned int dist = (win_center_x - cell_center_x) * (win_center_x - cell_center_x) +
465	(win_center_y - cell_center_y) * (win_center_y - cell_center_y);	529	(win_center_y - cell_center_y) * (win_center_y - cell_center_y);
466		530
467	if (dist < closest_dist) {	531	if (dist < closest_dist) {
@@ -472,14 +536,14 @@ void ArrangeWindowsCmd::execute() {
472		536
473	if (normal_windows.size() > 1) {	537	if (normal_windows.size() > 1) {
474	(closest)->moveResize(x_offs + (closest)->xOffset(),	538	(closest)->moveResize(x_offs + (closest)->xOffset(),
475	y_offs + (*closest)->yOffset(),	539	y_offs + (*closest)->yOffset(),
476	cal_width - (*closest)->widthOffset(),	540	cal_width - (*closest)->widthOffset(),
477	cal_height - (*closest)->heightOffset());	541	cal_height - (*closest)->heightOffset());
478	} else { // the last window gets everything that is left.	542	} else { // the last window gets everything that is left.
479	(closest)->moveResize(x_offs + (closest)->xOffset(),	543	(closest)->moveResize(x_offs + (closest)->xOffset(),
480	y_offs + (*closest)->yOffset(),	544	y_offs + (*closest)->yOffset(),
481	screen->maxRight(head) - x_offs - (*closest)->widthOffset(),	545	max_width - x_offs - (*closest)->widthOffset(),
482	cal_height - (*closest)->heightOffset());	546	cal_height - (*closest)->heightOffset());
483	}	547	}
484		548
485	normal_windows.erase(closest);	549	normal_windows.erase(closest);
@@ -490,6 +554,28 @@ void ArrangeWindowsCmd::execute() {
490	// next y offset	554	// next y offset
491	y_offs += cal_height;	555	y_offs += cal_height;
492	}	556	}
		557
		558	// If using a stacked mechanism we now need to place the main window.
		559	if (main_window != NULL){
		560	switch (m_tile_method){
		561	case STACKLEFT:
		562	main_window->moveResize(max_width,orig_y_offs,max_width,max_height);
		563	break;
		564	case STACKRIGHT:
		565	main_window->moveResize(screen->maxLeft(head),screen->maxTop(head),max_width,max_height);
		566	break;
		567	case STACKTOP:
		568	main_window->moveResize(screen->maxLeft(head),max_height,max_width,max_height);
		569	break;
		570	case STACKBOTTOM:
		571	main_window->moveResize(screen->maxLeft(head),screen->maxTop(head),max_width,max_height);
		572	break;
		573	default:
		574	// Shouldn't happen.
		575	break;
		576	}
		577	}
		578
493	}	579	}
494		580
495	REGISTER_COMMAND(showdesktop, ShowDesktopCmd, void);	581	REGISTER_COMMAND(showdesktop, ShowDesktopCmd, void);


diff --git a/src/WorkspaceCmd.hh b/src/WorkspaceCmd.hh index f4f90a6..f4609b6 100644 --- a/src/WorkspaceCmd.hh +++ b/src/WorkspaceCmd.hh
@@ -86,7 +86,7 @@ private:
86		86
87	class PrevWindowCmd: public FbTk::Command<void> {	87	class PrevWindowCmd: public FbTk::Command<void> {
88	public:	88	public:
89	explicit PrevWindowCmd(int option, std::string &pat):	89	explicit PrevWindowCmd(int option, std::string &pat):
90	m_option(option), m_pat(pat.c_str()) { }	90	m_option(option), m_pat(pat.c_str()) { }
91	void execute();	91	void execute();
92	private:	92	private:
@@ -173,7 +173,11 @@ public:
173	enum {	173	enum {
174	UNSPECIFIED,	174	UNSPECIFIED,
175	VERTICAL,	175	VERTICAL,
176	HORIZONTAL	176	HORIZONTAL,
		177	STACKLEFT,
		178	STACKRIGHT,
		179	STACKTOP,
		180	STACKBOTTOM
177	};	181	};
178	explicit ArrangeWindowsCmd(int tile_method, std::string &pat):	182	explicit ArrangeWindowsCmd(int tile_method, std::string &pat):
179	m_tile_method( tile_method ), m_pat(pat.c_str()) { }	183	m_tile_method( tile_method ), m_pat(pat.c_str()) { }