haiku/src/servers/app/server/Desktop.cpp

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//------------------------------------------------------------------------------
// Copyright (c) 2001-2002, OpenBeOS
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
//
// File Name: Desktop.cpp
// Author: Adi Oanca <adioanca@mymail.ro>
// Description: Class used to encapsulate desktop management
//
//------------------------------------------------------------------------------
#include <stdio.h>
#include <Entry.h>
#include <Region.h>
#include <Message.h>
#include "AccelerantDriver.h"
#include "AppServer.h"
#include "Desktop.h"
#include "DisplayDriver.h"
#include "Globals.h"
#include "Layer.h"
#include "RootLayer.h"
#include "ServerConfig.h"
#include "ServerScreen.h"
#include "ServerWindow.h"
#include "ViewDriver.h"
#include "DirectDriver.h"
#include "WinBorder.h"
#include "Workspace.h"
//#define DEBUG_DESKTOP
#define DEBUG_KEYHANDLING
#ifdef DEBUG_DESKTOP
#define STRACE(a) printf(a)
#else
#define STRACE(a) /* nothing */
#endif
Desktop::Desktop(void)
{
fDragMessage = NULL;
fActiveRootLayer = NULL;
fMouseTarget = NULL;
fActiveScreen = NULL;
fScreenShotIndex = 1;
}
Desktop::~Desktop(void)
{
if (fDragMessage)
delete fDragMessage;
void *ptr;
for(int32 i=0; (ptr=fRootLayerList.ItemAt(i)); i++)
delete (RootLayer*)ptr;
for(int32 i=0; (ptr=fScreenList.ItemAt(i)); i++)
delete (Screen*)ptr;
for(int32 i=0; (ptr=fWinBorderList.ItemAt(i)); i++)
delete (WinBorder*)ptr;
}
void Desktop::Init(void)
{
DisplayDriver *driver = NULL;
int32 driverCount = 0;
bool initDrivers = true;
while(initDrivers)
{
if(DISPLAYDRIVER == HWDRIVER)
{
// If we're using the AccelerantDriver for rendering, eventually we will loop through
// drivers until one can't initialize in order to support multiple monitors. For now,
// we'll just load one and be done with it.
driver = new AccelerantDriver();
}
else if(DISPLAYDRIVER == DIRECTDRIVER)
{
// Eventually, it would be nice to do away with ViewDriver and replace it with
// one which uses a double-buffered BDirectWindow as a rendering context
driver = new DirectDriver();
}
else
{
// Eventually, it would be nice to do away with ViewDriver and replace it with
// one which uses a double-buffered BDirectWindow as a rendering context
driver = new ViewDriver();
}
if(driver->Initialize())
{
driverCount++;
Screen *sc = new Screen(driver, BPoint(640, 480), B_RGB32, driverCount);
// TODO: be careful, of screen initialization - monitor may not support 640x480
fScreenList.AddItem(sc);
if ( (DISPLAYDRIVER != HWDRIVER) && (driverCount == 1) )
initDrivers = false;
}
else
{
driver->Shutdown();
delete driver;
driver = NULL;
initDrivers = false;
}
}
if (driverCount < 1){
delete this;
return;
}
InitMode();
SetActiveRootLayerByIndex(0);
}
void Desktop::InitMode(void)
{
// this is init mode for n-SS.
fActiveScreen = fScreenList.ItemAt(0)? (Screen*)fScreenList.ItemAt(0): NULL;
for (int32 i=0; i<fScreenList.CountItems(); i++)
{
char name[32];
sprintf(name, "RootLayer %ld", i+1);
Screen *screens[1];
screens[0] = (Screen*)fScreenList.ItemAt(i);
RootLayer *rl = new RootLayer(name, 4, this, GetDisplayDriver());
rl->SetScreens(screens, 1, 1);
rl->RebuildFullRegion();
fRootLayerList.AddItem(rl);
}
}
//---------------------------------------------------------------------------
// Methods for multiple monitors.
//---------------------------------------------------------------------------
Screen* Desktop::ScreenAt(int32 index) const
{
Screen *sc= static_cast<Screen*>(fScreenList.ItemAt(index));
return sc;
}
int32 Desktop::ScreenCount(void) const
{
return fScreenList.CountItems();
}
Screen* Desktop::ActiveScreen(void) const
{
return fActiveScreen;
}
void Desktop::SetActiveRootLayerByIndex(int32 listIndex)
{
RootLayer *rl=RootLayerAt(listIndex);
if (rl)
SetActiveRootLayer(rl);
}
void Desktop::SetActiveRootLayer(RootLayer* rl)
{
if (fActiveRootLayer == rl)
return;
fActiveRootLayer = rl;
// TODO: hide mouse in the old ActiveRootLayer & show it in the new ActiveRootLayer
fActiveRootLayer->FullInvalidate(fActiveRootLayer->Bounds());
}
RootLayer* Desktop::ActiveRootLayer(void) const
{
return fActiveRootLayer;
}
int32 Desktop::ActiveRootLayerIndex(void) const
{
int32 rootLayerCount = CountRootLayers();
for(int32 i=0; i<rootLayerCount; i++)
{
if(fActiveRootLayer == (RootLayer*)(fRootLayerList.ItemAt(i)))
return i;
}
return -1;
}
RootLayer* Desktop::RootLayerAt(int32 index)
{
RootLayer *rl=static_cast<RootLayer*>(fRootLayerList.ItemAt(index));
return rl;
}
int32 Desktop::CountRootLayers() const
{
return fRootLayerList.CountItems();
}
DisplayDriver* Desktop::GetDisplayDriver() const
{
return ScreenAt(0)->DDriver();
}
//---------------------------------------------------------------------------
// Methods for layer(WinBorder) manipulation.
//---------------------------------------------------------------------------
void Desktop::AddWinBorder(WinBorder* winBorder)
{
desktop->fGeneralLock.Lock();
if(fWinBorderList.HasItem(winBorder))
return;
// special case for Tracker background window.
if (winBorder->fLevel == B_SYSTEM_LAST)
{
// it's added in all RottLayers
for(int32 i=0; i<fRootLayerList.CountItems(); i++)
((RootLayer*)fRootLayerList.ItemAt(i))->AddWinBorder(winBorder);
}
else
// other windows are added to the current RootLayer only.
ActiveRootLayer()->AddWinBorder(winBorder);
// add that pointer to user winboder list so that we can keep track of them.
fLayerLock.Lock();
fWinBorderList.AddItem(winBorder);
fLayerLock.Unlock();
desktop->fGeneralLock.Unlock();
}
void Desktop::RemoveWinBorder(WinBorder* winBorder)
{
desktop->fGeneralLock.Lock();
if(winBorder->fLevel == B_SYSTEM_LAST)
{
for(int32 i=0; i<fRootLayerList.CountItems(); i++)
((RootLayer*)fRootLayerList.ItemAt(i))->RemoveWinBorder(winBorder);
}
else
winBorder->GetRootLayer()->RemoveWinBorder(winBorder);
fLayerLock.Lock();
fWinBorderList.RemoveItem(winBorder);
fLayerLock.Unlock();
desktop->fGeneralLock.Unlock();
}
bool Desktop::HasWinBorder(WinBorder* winBorder)
{
return fWinBorderList.HasItem(winBorder);
}
//---------------------------------------------------------------------------
// Input related methods
//---------------------------------------------------------------------------
void Desktop::MouseEventHandler(int32 code, BPortLink& msg)
{
// TODO: locking mechanism needs SERIOUS rethought
switch(code)
{
case B_MOUSE_DOWN:
{
// Attached data:
// 1) int64 - time of mouse click
// 2) float - x coordinate of mouse click
// 3) float - y coordinate of mouse click
// 4) int32 - modifier keys down
// 5) int32 - buttons down
// 6) int32 - clicks
PointerEvent evt;
evt.code = B_MOUSE_DOWN;
msg.Read<int64>(&evt.when);
msg.Read<float>(&evt.where.x);
msg.Read<float>(&evt.where.y);
msg.Read<int32>(&evt.modifiers);
msg.Read<int32>(&evt.buttons);
msg.Read<int32>(&evt.clicks);
// printf("MOUSE DOWN: at (%f, %f)\n", evt.where.x, evt.where.y);
WinBorder *target=NULL;
RootLayer *rl=NULL;
Workspace *ws=NULL
;
rl = ActiveRootLayer();
ws = rl->ActiveWorkspace();
target = rl->WinBorderAt(evt.where);
if (target)
{
fGeneralLock.Lock();
rl->fMainLock.Lock();
#if 0
printf("Target: %s\n", target->GetName());
printf("Front: %s\n", ws->FrontLayer()->GetName());
printf("Focus: %s\n", ws->FocusLayer()->GetName());
#endif
if (target != ws->FrontLayer())
{
WinBorder *previousFocus=NULL;
WinBorder *activeFocus=NULL;
BRegion invalidRegion;
ws->BringToFrontANormalWindow(target);
ws->SearchAndSetNewFront(target);
previousFocus = ws->FocusLayer();
ws->SearchAndSetNewFocus(target);
activeFocus = ws->FocusLayer();
activeFocus->Window()->Lock();
if (target == activeFocus && target->Window()->Flags() & B_WILL_ACCEPT_FIRST_CLICK)
target->MouseDown(evt, true);
else
target->MouseDown(evt, false);
// may be or may be empty.
// TODO: B_MOUSE_DOWN: what if modal of floating windows are in front of us?
invalidRegion.Include(&(activeFocus->fFull));
invalidRegion.Include(&(activeFocus->fTopLayer->fFull));
activeFocus->fParent->RebuildAndForceRedraw(invalidRegion, activeFocus);
if (previousFocus != activeFocus && previousFocus)
{
if (previousFocus->fVisible.CountRects() > 0)
{
invalidRegion.MakeEmpty();
invalidRegion.Include(&(previousFocus->fVisible));
activeFocus->fParent->Invalidate(invalidRegion);
}
}
fMouseTarget = target;
#if 0
printf("2Target: %s\n", target->GetName());
printf("2Front: %s\n", ws->FrontLayer()->GetName());
printf("2Focus: %s\n", ws->FocusLayer()->GetName());
#endif
activeFocus->Window()->Unlock();
}
else // target == ws->FrontLayer()
{
// only if target has the focus!
if (target == ws->FocusLayer())
{
target->Window()->Lock();
target->MouseDown(evt, true);
target->Window()->Unlock();
}
}
rl->fMainLock.Unlock();
fGeneralLock.Unlock();
}
else // target == NULL
{
}
break;
}
case B_MOUSE_UP:
{
// Attached data:
// 1) int64 - time of mouse click
// 2) float - x coordinate of mouse click
// 3) float - y coordinate of mouse click
// 4) int32 - modifier keys down
PointerEvent evt;
evt.code = B_MOUSE_UP;
msg.Read<int64>(&evt.when);
msg.Read<float>(&evt.where.x);
msg.Read<float>(&evt.where.y);
msg.Read<int32>(&evt.modifiers);
if (fMouseTarget)
{
fMouseTarget->Window()->Lock();
fMouseTarget->MouseUp(evt);
fMouseTarget->Window()->Unlock();
fMouseTarget = NULL;
}
else
{
WinBorder *target = ActiveRootLayer()->WinBorderAt(evt.where);
if(target){
target->Window()->Lock();
target->MouseUp(evt);
target->Window()->Unlock();
}
}
STRACE(("MOUSE UP: at (%f, %f)\n", evt.where.x, evt.where.y));
break;
}
case B_MOUSE_MOVED:
{
// Attached data:
// 1) int64 - time of mouse click
// 2) float - x coordinate of mouse click
// 3) float - y coordinate of mouse click
// 4) int32 - buttons down
PointerEvent evt;
evt.code = B_MOUSE_MOVED;
msg.Read<int64>(&evt.when);
msg.Read<float>(&evt.where.x);
msg.Read<float>(&evt.where.y);
msg.Read<int32>(&evt.buttons);
if (fMouseTarget)
{
fActiveScreen->DDriver()->HideCursor();
fActiveScreen->DDriver()->MoveCursorTo(evt.where.x, evt.where.y);
fMouseTarget->Window()->Lock();
fMouseTarget->MouseMoved(evt);
fMouseTarget->Window()->Unlock();
fActiveScreen->DDriver()->ShowCursor();
}
else
{
WinBorder *target = ActiveRootLayer()->WinBorderAt(BPoint(evt.where.x, evt.where.y));
if(target){
target->Window()->Lock();
target->MouseMoved(evt);
target->Window()->Unlock();
}
fActiveScreen->DDriver()->MoveCursorTo(evt.where.x, evt.where.y);
}
break;
}
case B_MOUSE_WHEEL_CHANGED:
{
PointerEvent evt;
evt.code = B_MOUSE_WHEEL_CHANGED;
msg.Read<int64>(&evt.when);
msg.Read<float>(&evt.where.x);
msg.Read<float>(&evt.where.y);
msg.Read<float>(&evt.wheel_delta_x);
msg.Read<float>(&evt.wheel_delta_y);
msg.Read<int32>(&evt.modifiers);
// TODO: B_MOUSE_WHEEL_CHANGED - Pass this on to the client ServerWindow
break;
}
default:
{
printf("\nDesktop::MouseEventHandler(): WARNING: unknown message\n\n");
break;
}
}
}
void Desktop::KeyboardEventHandler(int32 code, BPortLink& msg)
{
switch(code)
{
case B_KEY_DOWN:
{
// Attached Data:
// 1) int64 bigtime_t object of when the message was sent
// 2) int32 raw key code (scancode)
// 3) int32 modifier-independent ASCII code for the character
// 4) int32 repeat count
// 5) int32 modifiers
// 6) int8[3] UTF-8 data generated
// 7) int8 number of bytes to follow containing the
// generated string
// 8) Character string generated by the keystroke
// 9) int8[16] state of all keys
bigtime_t time;
int32 scancode, modifiers;
int8 utf[3];
char *string = NULL;
int32 keystate;
msg.Read<bigtime_t>(&time);
msg.Read<int32>(&scancode);
msg.Read<int32>(&modifiers);
msg.Read(utf, sizeof(utf));
msg.ReadString(&string);
msg.Read<int32>(&keystate);
if (string)
free(string);
if(DISPLAYDRIVER==HWDRIVER)
{
// Check for workspace change or safe video mode
if(scancode>0x01 && scancode<0x0e)
{
if(scancode==0x0d)
{
if(modifiers & (B_LEFT_COMMAND_KEY |
B_LEFT_CONTROL_KEY | B_LEFT_SHIFT_KEY))
{
// TODO: Set to Safe Mode in KeyboardEventHandler:B_KEY_DOWN. (DisplayDriver API change)
STRACE(("Safe Video Mode invoked - code unimplemented\n"));
break;
}
}
}
if(modifiers & B_CONTROL_KEY)
{
STRACE(("Set Workspace %ld\n",scancode-1));
//TODO: SetWorkspace in KeyboardEventHandler
//SetWorkspace(scancode-2);
break;
}
// Tab key
if(scancode==0x26 && (modifiers & B_CONTROL_KEY))
{
ServerApp *deskbar=app_server->FindApp("application/x-vnd.Be-TSKB");
if(deskbar)
{
printf("Send Twitcher message key to Deskbar - unimplmemented\n");
break;
}
}
// PrintScreen
if(scancode==0xe)
{
if(GetDisplayDriver())
{
char filename[128];
BEntry entry;
sprintf(filename,"/boot/home/screen%ld.png",fScreenShotIndex);
entry.SetTo(filename);
while(entry.Exists())
{
fScreenShotIndex++;
sprintf(filename,"/boot/home/screen%ld.png",fScreenShotIndex);
}
fScreenShotIndex++;
GetDisplayDriver()->DumpToFile(filename);
break;
}
}
}
else
{
// F12
if(scancode>0x1 && scancode<0xe)
{
if(scancode==0xd)
{
if(modifiers & (B_LEFT_CONTROL_KEY | B_LEFT_SHIFT_KEY | B_LEFT_OPTION_KEY))
{
// TODO: Set to Safe Mode in KeyboardEventHandler:B_KEY_DOWN. (DisplayDriver API change)
STRACE(("Safe Video Mode invoked - code unimplemented\n"));
break;
}
}
if(modifiers & (B_LEFT_SHIFT_KEY | B_LEFT_CONTROL_KEY))
{
STRACE(("Set Workspace %ld\n",scancode-1));
//TODO: SetWorkspace in KeyboardEventHandler
//SetWorkspace(scancode-2);
break;
}
}
//Tab
if(scancode==0x26 && (modifiers & B_SHIFT_KEY))
{
STRACE(("Twitcher\n"));
ServerApp *deskbar=app_server->FindApp("application/x-vnd.Be-TSKB");
if(deskbar)
{
printf("Send Twitcher message key to Deskbar - unimplmemented\n");
break;
}
}
// Pause/Break
if(scancode==0x7f)
{
if(GetDisplayDriver())
{
char filename[128];
BEntry entry;
sprintf(filename,"/boot/home/screen%ld.png",fScreenShotIndex);
entry.SetTo(filename);
while(entry.Exists())
{
fScreenShotIndex++;
sprintf(filename,"/boot/home/screen%ld.png",fScreenShotIndex);
}
fScreenShotIndex++;
GetDisplayDriver()->DumpToFile(filename);
break;
}
}
}
// We got this far, so apparently it's safe to pass to the active
// window.
// TODO: Pass on key down message to client window with the focus
break;
}
case B_KEY_UP:
{
// Attached Data:
// 1) int64 bigtime_t object of when the message was sent
// 2) int32 raw key code (scancode)
// 3) int32 modifier-independent ASCII code for the character
// 4) int32 modifiers
// 5) int8[3] UTF-8 data generated
// 6) int8 number of bytes to follow containing the
// generated string
// 7) Character string generated by the keystroke
// 8) int8[16] state of all keys
bigtime_t time;
int32 scancode;
int32 ascii;
int32 modifiers;
int8 utf[3];
int8 bytes;
char *string;
int8 keystate[16];
msg.Read<bigtime_t>(&time);
msg.Read<int32>(&scancode);
msg.Read<int32>(&ascii);
msg.Read<int32>(&modifiers);
msg.Read(utf, sizeof(utf));
msg.Read<int8>(&bytes);
msg.ReadString(&string);
msg.Read(keystate, sizeof(keystate));
if (string)
free(string);
STRACE(("Key Up: 0x%lx\n",scancode));
if(DISPLAYDRIVER==HWDRIVER)
{
// Tab key
if(scancode==0x26 && (modifiers & B_CONTROL_KEY))
{
ServerApp *deskbar=app_server->FindApp("application/x-vnd.Be-TSKB");
if(deskbar)
{
printf("Send Twitcher message key to Deskbar - unimplmemented\n");
break;
}
}
}
else
{
if(scancode==0x26 && (modifiers & B_LEFT_SHIFT_KEY))
{
ServerApp *deskbar=app_server->FindApp("application/x-vnd.Be-TSKB");
if(deskbar)
{
printf("Send Twitcher message key to Deskbar - unimplmemented\n");
break;
}
}
}
// We got this far, so apparently it's safe to pass to the active
// window.
// TODO: Pass on key up message to client window with the focus
break;
}
case B_UNMAPPED_KEY_DOWN:
{
// Attached Data:
// 1) int64 bigtime_t object of when the message was sent
// 2) int32 raw key code (scancode)
// 3) int32 modifiers
// 4) int32 number of elements in the key state array to follow
// 5) int8 state of all keys
bigtime_t time;
int32 scancode;
int32 modifiers;
int32 elements;
//int8 keystate[16];
msg.Read<bigtime_t>(&time);
msg.Read<int32>(&scancode);
msg.Read<int32>(&modifiers);
msg.Read<int32>(&elements);
//msg.Read(keystate, elements);
#ifdef DEBUG_KEYHANDLING
printf("Unmapped Key Down: 0x%lx\n", scancode);
#endif
// TODO: Pass on unmapped key down message to client window with the focus
break;
}
case B_UNMAPPED_KEY_UP:
{
// Attached Data:
// 1) int64 bigtime_t object of when the message was sent
// 2) int32 raw key code (scancode)
// 3) int32 modifiers
// 4) int32 number of elements in the key state array to follow
// 5) int8 state of all keys
bigtime_t time;
int32 scancode;
int32 modifiers;
int32 elements;
//int8 keystate[16];
msg.Read<bigtime_t>(&time);
msg.Read<int32>(&scancode);
msg.Read<int32>(&modifiers);
msg.Read<int32>(&elements);
//msg.Read(keystate, elements);
#ifdef DEBUG_KEYHANDLING
printf("Unmapped Key Up: 0x%lx\n", scancode);
#endif
// TODO: Pass on unmapped key up message to client window with the focus
break;
}
case B_MODIFIERS_CHANGED:
{
// Attached Data:
// 1) int64 bigtime_t object of when the message was sent
// 2) int32 modifiers
// 3) int32 old modifiers
// 4) int32 number of elements in the key state array to follow
// 5) int8 state of all keys
bigtime_t time;
int32 scancode;
int32 modifiers;
int32 elements;
//int8 keystate[16];
msg.Read<bigtime_t>(&time);
msg.Read<int32>(&scancode);
msg.Read<int32>(&modifiers);
msg.Read<int32>(&elements);
//msg.Read(keystate, elements);
#ifdef DEBUG_KEYHANDLING
printf("Modifiers Changed\n");
#endif
// TODO: Pass on modifier change message to client window with the focus
break;
}
default:
break;
}
}
void Desktop::SetDragMessage(BMessage* msg)
{
if (fDragMessage)
{
delete fDragMessage;
fDragMessage = NULL;
}
if (msg)
fDragMessage = new BMessage(*msg);
}
BMessage* Desktop::DragMessage(void) const
{
return fDragMessage;
}
//---------------------------------------------------------------------------
// Methods for various desktop stuff handled by the server
//---------------------------------------------------------------------------
void Desktop::SetScrollBarInfo(const scroll_bar_info &info)
{
fScrollBarInfo = info;
}
scroll_bar_info Desktop::ScrollBarInfo(void) const
{
return fScrollBarInfo;
}
void Desktop::SetMenuInfo(const menu_info &info)
{
fMenuInfo = info;
}
menu_info Desktop::MenuInfo(void) const
{
return fMenuInfo;
}
void Desktop::UseFFMouse(const bool &useffm)
{
fFFMouseMode = useffm;
}
bool Desktop::FFMouseInUse(void) const
{
return fFFMouseMode;
}
void Desktop::SetFFMouseMode(const mode_mouse &value)
{
fMouseMode = value;
}
mode_mouse Desktop::FFMouseMode(void) const
{
return fMouseMode;
}
void Desktop::RemoveSubsetWindow(WinBorder* wb)
{
WinBorder *winBorder = NULL;
fLayerLock.Lock();
int32 count = fWinBorderList.CountItems();
for(int32 i=0; i < count; i++)
{
winBorder = static_cast<WinBorder*>(fWinBorderList.ItemAt(i));
if (winBorder->fLevel == B_NORMAL_FEEL)
winBorder->Window()->fWinFMWList.RemoveItem(wb);
}
fLayerLock.Unlock();
RootLayer *rl = winBorder->GetRootLayer();
if (!fGeneralLock.IsLocked())
debugger("Desktop::RemoveWinBorder() - fGeneralLock must be locked!\n");
if (!(rl->fMainLock.IsLocked()))
debugger("Desktop::RemoveWinBorder() - fMainLock must be locked!\n");
int32 countWKs = rl->WorkspaceCount();
for (int32 i=0; i < countWKs; i++)
rl->WorkspaceAt(i+1)->RemoveWinBorder(wb);
}
void Desktop::PrintToStream(void)
{
printf("RootLayer List:\n=======\n");
for(int32 i=0; i<fRootLayerList.CountItems(); i++)
{
printf("\t%s\n", ((RootLayer*)fRootLayerList.ItemAt(i))->GetName());
((RootLayer*)fRootLayerList.ItemAt(i))->PrintToStream();
printf("-------\n");
}
printf("=======\nActive RootLayer: %s\n", fActiveRootLayer? fActiveRootLayer->GetName(): "NULL");
// printf("Active WinBorder: %s\n", fActiveWinBorder? fActiveWinBorder->Name(): "NULL");
printf("Screen List:\n");
for(int32 i=0; i<fScreenList.CountItems(); i++)
printf("\t%ld\n", ((Screen*)fScreenList.ItemAt(i))->ScreenNumber());
}
WinBorder* Desktop::FindWinBorderByServerWindowTokenAndTeamID(int32 token, team_id teamID)
{
WinBorder* wb;
fLayerLock.Lock();
for (int32 i = 0; (wb = (WinBorder*)fWinBorderList.ItemAt(i)); i++)
{
if (wb->Window()->ClientToken() == token
&& wb->Window()->ClientTeamID() == teamID)
break;
}
fLayerLock.Unlock();
return wb;
}
void Desktop::PrintVisibleInRootLayerNo(int32 no)
{
if (no<0 || no>=fRootLayerList.CountItems())
return;
printf("Visible windows in RootLayer %ld, Workspace %ld\n",
ActiveRootLayerIndex(), ActiveRootLayer()->ActiveWorkspaceIndex());
WinBorder *wb = NULL;
Workspace *ws = ActiveRootLayer()->ActiveWorkspace();
for(wb = (WinBorder*)ws->GoToTopItem(); wb != NULL; wb = (WinBorder*)ws->GoToLowerItem())
{
if (!wb->IsHidden())
wb->PrintToStream();
}
}