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

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#include <stdio.h>
#include <Window.h>
#include <List.h>
#include "Globals.h"
#include "RootLayer.h"
#include "Layer.h"
#include "Workspace.h"
#include "ServerScreen.h"
#include "WinBorder.h"
#include "ServerWindow.h"
#include "ServerApp.h"
#include "Desktop.h"
#include "FMWList.h"
#include "DisplayDriver.h"
//#define DISPLAYDRIVER_TEST_HACK
//---------------------------------------------------------------------------
RootLayer::RootLayer(const char *layername, int32 workspaceCount, Desktop *desktop)
: Layer(BRect(0,0,0,0), layername, 0, B_NORMAL_WINDOW_FEEL, 0, NULL)
{
fDesktop = desktop;
fActiveWorkspace = NULL;
fRows = 0;
fColumns = 0;
// TODO: read these 3 from a configuration file.
fScreenXResolution = 0;
fScreenYResolution = 0;
fColorSpace = B_RGB32;
_view_token = 0; // is this used for WinBorders?
_hidden = false;
SetWorkspaceCount(workspaceCount);
}
//---------------------------------------------------------------------------
RootLayer::~RootLayer(){
// RootLayer object just uses Screen objects, it is not allowed to delete them.
}
//---------------------------------------------------------------------------
void RootLayer::Draw(const BRect &r){
/* THIS method is here because of DisplayDriver testing!
* It SHOULD BE REMOVED as soon as testing is done!!!!
*/
printf("*RootLayer(%s)::Draw(r)\n", GetName());
// NOTE: (!!!) fMainLock MUST be locked when this method is called!!!
if (!fMainLock.IsLocked())
printf("\n\n\tWARNING: fMainLock MUST be locked!!!\n\n");
// NOTE: (!!!) desktop->fGeneralLock MUST be locked when this method is called!!!
if (!desktop->fGeneralLock.IsLocked())
printf("\n\n\tWARNING: desktop->fGeneralLock MUST be locked!!!\n\n");
// NOTE: in case you have problems - ActiveWorkspace()->opLock was acquired in Workspace::Invalidate()!!!
RGBColor c(51,102,152);
fDriver->FillRect(Bounds(), c);
Workspace *as = ActiveWorkspace();
WinBorder *wb = NULL;
for (wb = as->GoToTopItem(); wb; wb = as->GoToLowerItem()){
printf("requesting draw? %s from %s\n", wb->IsHidden()?"NO":"YES", wb->GetName());
if (!(wb->IsHidden()))
wb->Draw(wb->Bounds());
}
printf("#RootLayer(%s)::Draw(r) END\n", GetName());
//--------REMOVE ABOVE--------------
#ifdef DISPLAYDRIVER_TEST_HACK
DisplayDriver *_driver = fDriver;
int8 pattern[8];
int8 pattern2[8];
memset(pattern,255,8);
memset(pattern2,128+64+32+16,8);
BRect r1(100,100,1500,1100);
BPoint pts[4];
pts[0].x = 200;
pts[0].y = 200;
pts[1].x = 400;
pts[1].y = 1000;
pts[2].x = 600;
pts[2].y = 400;
pts[3].x = 1200;
pts[3].y = 800;
BPoint triangle[3];
BRect triangleRect(100,100,400,300);
triangle[0].x = 100;
triangle[0].y = 100;
triangle[1].x = 100;
triangle[1].y = 300;
triangle[2].x = 400;
triangle[2].y = 300;
BPoint polygon[6];
BRect polygonRect(100,100,300,400);
polygon[0].x = 100;
polygon[0].y = 100;
polygon[1].x = 100;
polygon[1].y = 400;
polygon[2].x = 200;
polygon[2].y = 300;
polygon[3].x = 300;
polygon[3].y = 400;
polygon[4].x = 300;
polygon[4].y = 100;
polygon[5].x = 200;
polygon[5].y = 200;
_layerdata->highcolor.SetColor(255,0,0,255);
_layerdata->lowcolor.SetColor(255,255,255,255);
_driver->FillRect(r1,_layerdata,pattern);
_layerdata->highcolor.SetColor(255,255,0,255);
_driver->StrokeLine(BPoint(100,100),BPoint(1500,1100),_layerdata,pattern);
_layerdata->highcolor.SetColor(0,0,255,255);
_driver->StrokeBezier(pts,_layerdata,pattern);
_driver->StrokeArc(BRect(200,300,400,600),30,270,_layerdata,pattern);
_driver->StrokeEllipse(BRect(200,700,400,900),_layerdata,pattern);
_driver->StrokeRect(BRect(650,1000,750,1090),_layerdata,pattern);
_driver->StrokeRoundRect(BRect(200,1000,600,1090),30,40,_layerdata,pattern);
// _driver->StrokePolygon(polygon,6,polygonRect,_layerdata,pattern);
// _driver->StrokeTriangle(triangle,triangleRect,_layerdata,pattern);
_layerdata->highcolor.SetColor(255,0,255,255);
_driver->FillArc(BRect(1250,300,1450,600),30,270,_layerdata,pattern);
// _driver->FillBezier(pts,_layerdata,pattern);
_driver->FillEllipse(BRect(800,300,1200,600),_layerdata,pattern);
_driver->FillRoundRect(BRect(800,1000,1200,1090),30,40,_layerdata,pattern2);
_driver->FillPolygon(polygon,6,polygonRect,_layerdata,pattern);
// _driver->FillTriangle(triangle,triangleRect,_layerdata,pattern);
#endif
}
//---------------------------------------------------------------------------
void RootLayer::MoveBy(float x, float y){
}
//---------------------------------------------------------------------------
void RootLayer::ResizeBy(float x, float y){
}
//---------------------------------------------------------------------------
Layer* RootLayer::VirtualTopChild() const{
return fActiveWorkspace->GoToTopItem();
}
//---------------------------------------------------------------------------
Layer* RootLayer::VirtualLowerSibling() const{
return fActiveWorkspace->GoToLowerItem();
}
//---------------------------------------------------------------------------
Layer* RootLayer::VirtualUpperSibling() const{
return fActiveWorkspace->GoToUpperItem();
}
//---------------------------------------------------------------------------
Layer* RootLayer::VirtualBottomChild() const{
return fActiveWorkspace->GoToBottomItem();
}
//---------------------------------------------------------------------------
void RootLayer::AddWinBorderToWorkspaces(WinBorder* winBorder, uint32 wks){
if (!(fMainLock.IsLocked()))
debugger("RootLayer::AddWinBorderToWorkspaces - fMainLock has to be locked!\n");
if (wks == B_CURRENT_WORKSPACE){
ActiveWorkspace()->AddLayerPtr(winBorder);
return;
}
for( int32 i=0; i < 32; i++){
if( wks & (0x00000001 << i) && i < WorkspaceCount()){
WorkspaceAt(i+1)->AddLayerPtr(winBorder);
}
}
}
/* The main job, beside adding winBorder as a child, is to determine
* in witch workspaces to add this window.
*/
//---------------------------------------------------------------------------
void RootLayer::AddWinBorder(WinBorder* winBorder){
printf("*RootLayer::AddWinBorder(%s)\n", winBorder->GetName());
desktop->fGeneralLock.Lock();
printf("*RootLayer::AddWinBorder(%s) - General lock acquired\n", winBorder->GetName());
fMainLock.Lock();
printf("*RootLayer::AddWinBorder(%s) - Main lock acquired\n", winBorder->GetName());
// add winBorder to the known list of WinBorders so we can keep track of it.
AddChild(winBorder, this);
// add winBorder to the desired workspaces
switch(winBorder->Window()->Feel()){
case B_MODAL_SUBSET_WINDOW_FEEL:{
/* this kind of window isn't added anywhere. It *will* be added
to main window's subset when winBorder::AddToSubsetOf(main)
will be called.*/
break;
}
case B_MODAL_APP_WINDOW_FEEL:{
// add to ***app's*** list of Floating/Modal Windows.
winBorder->Window()->App()->fAppFMWList.AddItem(winBorder);
// determine in witch workspaces to add this winBorder.
uint32 wks = 0;
// TODO: change later when you put this code into the server
for (int32 i=0; i<WorkspaceCount(); i++){
Workspace *ws = WorkspaceAt(i+1);
for (WinBorder *wb = ws->GoToBottomItem(); wb!=NULL; wb = ws->GoToUpperItem()){
if ( !(wb->IsHidden()) &&
winBorder->Window()->ClientTeamID() == wb->Window()->ClientTeamID())
{
wks = wks | winBorder->Window()->Workspaces();
break;
}
}
}
// by using _bottomchild and _uppersibling.
AddWinBorderToWorkspaces(winBorder, wks);
break;
}
case B_MODAL_ALL_WINDOW_FEEL:{
// add to ***system's*** list of Floating/Modal Windows.
fMainFMWList.AddItem(winBorder);
// add this winBorder to all workspaces
AddWinBorderToWorkspaces(winBorder, 0xffffffffUL);
break;
}
case B_FLOATING_SUBSET_WINDOW_FEEL:{
/* this kind of window isn't added anywhere. It *will* be added to WS's list
when its main window will become the front one.
Also, it will be added to MainWinBorder's list when
winBorder::AddToSubset(main) is called.*/
break;
}
case B_FLOATING_APP_WINDOW_FEEL:{
// add to ***app's*** list of Floating/Modal Windows.
winBorder->Window()->App()->fAppFMWList.AddItem(winBorder);
for (int32 i=0; i<WorkspaceCount(); i++){
Workspace *ws = WorkspaceAt(i+1);
WinBorder *wb = ws->FrontLayer();
if(wb && wb->Window()->ClientTeamID() == winBorder->Window()->ClientTeamID()
&& wb->Window()->Feel() == B_NORMAL_WINDOW_FEEL)
{
ws->AddLayerPtr(winBorder);
}
}
break;
}
case B_FLOATING_ALL_WINDOW_FEEL:{
// add to ***system's*** list of Floating/Modal Windows.
fMainFMWList.AddItem(winBorder);
// add this winBorder to all workspaces
AddWinBorderToWorkspaces(winBorder, 0xffffffffUL);
break;
}
case B_NORMAL_WINDOW_FEEL:{
// add this winBorder to the specified workspaces
AddWinBorderToWorkspaces(winBorder, winBorder->Window()->Workspaces());
break;
}
case B_SYSTEM_LAST:
case B_SYSTEM_FIRST:{
// add this winBorder to all workspaces
AddWinBorderToWorkspaces(winBorder, 0xffffffffUL);
break;
}
default:
break;
}
fMainLock.Unlock();
printf("*RootLayer::AddWinBorder(%s) - Main lock released\n", winBorder->GetName());
desktop->fGeneralLock.Unlock();
printf("*RootLayer::AddWinBorder(%s) - General lock released\n", winBorder->GetName());
printf("#RootLayer::AddWinBorder(%s)\n", winBorder->GetName());
}
/* This method does 3 things:
* 1) Removes MODAL/SUBSET windows from system/app/window subset list.
* 2) Removes this window from any workspace it appears in.
* 3) Removes this window from RootLayer's list of chilren.
*/
//---------------------------------------------------------------------------
void RootLayer::RemoveWinBorder(WinBorder* winBorder){
desktop->fGeneralLock.Lock();
fMainLock.Lock();
int32 feel = winBorder->Window()->Feel();
if(feel == B_MODAL_SUBSET_WINDOW_FEEL || feel == B_FLOATING_SUBSET_WINDOW_FEEL){
desktop->RemoveSubsetWindow(winBorder);
}
else if (feel == B_MODAL_APP_WINDOW_FEEL || feel == B_FLOATING_APP_WINDOW_FEEL){
RemoveAppWindow(winBorder);
}
else if(feel == B_MODAL_ALL_WINDOW_FEEL || feel == B_FLOATING_ALL_WINDOW_FEEL
|| feel == B_SYSTEM_FIRST || feel == B_SYSTEM_LAST)
{
if(feel == B_MODAL_ALL_WINDOW_FEEL || feel == B_FLOATING_ALL_WINDOW_FEEL)
fMainFMWList.RemoveItem(winBorder);
int32 count = WorkspaceCount();
for(int32 i=0; i < count; i++)
WorkspaceAt(i+1)->RemoveLayerPtr(winBorder);
}
else{ // for B_NORMAL_WINDOW_FEEL
uint32 workspaces = winBorder->Window()->Workspaces();
int32 count = WorkspaceCount();
for( int32 i=0; i < 32 && i < count; i++)
if( workspaces & (0x00000001UL << i)){
WorkspaceAt(i+1)->RemoveLayerPtr(winBorder);
}
}
RemoveChild(winBorder);
fMainLock.Unlock();
desktop->fGeneralLock.Unlock();
}
//---------------------------------------------------------------------------
void RootLayer::ChangeWorkspacesFor(WinBorder* winBorder, uint32 newWorkspaces){
// only NORMAL windows are affected by this change
if(!winBorder->_level != B_NORMAL_FEEL)
return;
uint32 oldWorkspaces = winBorder->Window()->Workspaces();
for(int32 i=0; i < WorkspaceCount(); i++){
if ((oldWorkspaces & (0x00000001 << i)) && (newWorkspaces & (0x00000001 << i))){
// do nothing.
}
else if(oldWorkspaces & (0x00000001 << i)){
WorkspaceAt(i+1)->RemoveLayerPtr(winBorder);
}
else if (newWorkspaces & (0x00000001 << i)){
WorkspaceAt(i+1)->AddLayerPtr(winBorder);
}
}
}
//---------------------------------------------------------------------------
bool RootLayer::SetFrontWinBorder(WinBorder* winBorder){
// TODO: watch out for a NULL value
printf("*RootLayer::SetFrontWinBorder(%s)\n", winBorder? winBorder->GetName():"NULL");
fMainLock.Lock();
printf("*RootLayer::SetFrontWinBorder(%s) - main lock acquired\n", winBorder? winBorder->GetName():"NULL");
if (!winBorder){
ActiveWorkspace()->SetFrontLayer(NULL);
return true;
}
uint32 workspaces = winBorder->Window()->Workspaces();
int32 count = WorkspaceCount();
int32 newWorkspace= 0;
if (workspaces & (0x00000001UL << (ActiveWorkspaceIndex()-1)) ){
newWorkspace = ActiveWorkspaceIndex();
}
else{
int32 i;
for( i = 0; i < 32 && i < count; i++)
if( workspaces & (0x00000001UL << i)){
newWorkspace = i+1;
break;
}
if (i == count || i == 32)
newWorkspace = ActiveWorkspaceIndex();
}
if(newWorkspace != ActiveWorkspaceIndex()){
WorkspaceAt(newWorkspace)->SetFrontLayer(winBorder);
SetActiveWorkspaceByIndex(newWorkspace);
}
else{
ActiveWorkspace()->SetFrontLayer(winBorder);
}
fMainLock.Unlock();
printf("*RootLayer::SetFrontWinBorder(%s) - main lock released\n", winBorder? winBorder->GetName():"NULL");
printf("#RootLayer::SetFrontWinBorder(%s)\n", winBorder? winBorder->GetName():"NULL");
return true;
}
//---------------------------------------------------------------------------
void RootLayer::SetScreens(Screen *screen[], int32 rows, int32 columns){
// NOTE: *All* Screens *MUST* have the same resolution.
fScreenPtrList.MakeEmpty();
BRect newFrame(0, 0, 0, 0);
for (int32 i=0; i < rows; i++){
if (i==0)
for(int32 j=0; j < columns; j++){
fScreenPtrList.AddItem(screen[i*rows + j]);
newFrame.right += screen[i*rows + j]->Resolution().x;
}
newFrame.bottom += screen[i*rows]->Resolution().y;
}
newFrame.right -= 1;
newFrame.bottom -= 1;
_frame = newFrame;
fRows = rows;
fColumns = columns;
fScreenXResolution = (int32)(screen[0]->Resolution().x);
fScreenYResolution = (int32)(screen[0]->Resolution().y);
// RebuildRegions(Frame());
// Invalidate(Frame());
}
//---------------------------------------------------------------------------
Screen** RootLayer::Screens(){
return (Screen**)fScreenPtrList.Items();
}
//---------------------------------------------------------------------------
bool RootLayer::SetScreenResolution(int32 width, int32 height, uint32 colorspace){
// if there is no need to change resolution... exit
if (fScreenXResolution == width && fScreenYResolution == height &&
fColorSpace == colorspace)
return false;
bool accepted = true;
for (int i=0; i < fScreenPtrList.CountItems(); i++){
Screen *screen;
screen = static_cast<Screen*>(fScreenPtrList.ItemAt(i));
if ( !(screen->SupportsResolution(BPoint(width, height), colorspace)) )
accepted = false;
}
if (accepted){
for (int i=0; i < fScreenPtrList.CountItems(); i++){
Screen *screen;
screen = static_cast<Screen*>(fScreenPtrList.ItemAt(i));
screen->SetResolution(BPoint(width, height), colorspace);
}
Screen **screens = (Screen**)fScreenPtrList.Items();
SetScreens(screens, fRows, fColumns);
return true;
}
return false;
}
//---------------------------------------------------------------------------
void RootLayer::SetWorkspaceCount(const int32 count){
printf("*RootLayer::SetWorkspaceCount(%ld)\n", count);
if ((count < 1 && count > 32) || count == WorkspaceCount())
return;
int32 exActiveWorkspaceIndex = ActiveWorkspaceIndex();
BList newWSPtrList;
void *workspacePtr;
fMainLock.Lock();
printf("*RootLayer::SetWorkspaceCount(%ld) - main lock acquired\n", count);
for(int i=0; i < count; i++){
workspacePtr = fWSPtrList.ItemAt(i);
if (workspacePtr){
newWSPtrList.AddItem(workspacePtr);
}
else{
Workspace *ws;
ws = new Workspace(fColorSpace, i+1, BGColor(), this);
newWSPtrList.AddItem(ws);
}
}
// delete other Workspace objects if WS count is smaller than current one.
for (int j=count; j < fWSPtrList.CountItems(); j++){
Workspace *ws = NULL;
ws = static_cast<Workspace*>(fWSPtrList.ItemAt(j));
if (ws){
delete ws;
}
else{
printf("\nSERVER: PANIC: in RootLayer::SetWorkspaceCount()\n\n");
return;
}
}
fWSPtrList = newWSPtrList;
fMainLock.Unlock();
printf("*RootLayer::SetWorkspaceCount(%ld) - main lock released\n", count);
if (exActiveWorkspaceIndex > count)
SetActiveWorkspaceByIndex(count);
// if true, this is the first time this method is called.
if (exActiveWorkspaceIndex == -1)
SetActiveWorkspaceByIndex(1);
printf("#RootLayer::SetWorkspaceCount(%ld)\n", count);
}
//---------------------------------------------------------------------------
int32 RootLayer::WorkspaceCount() const{
return fWSPtrList.CountItems();
}
//---------------------------------------------------------------------------
Workspace* RootLayer::WorkspaceAt(const int32 index) const{
Workspace *ws = NULL;
ws = static_cast<Workspace*>(fWSPtrList.ItemAt(index-1));
return ws;
}
//---------------------------------------------------------------------------
void RootLayer::SetActiveWorkspaceByIndex(const int32 index){
Workspace *ws = NULL;
ws = static_cast<Workspace*>(fWSPtrList.ItemAt(index-1));
if (ws)
SetActiveWorkspace(ws);
}
//---------------------------------------------------------------------------
void RootLayer::SetActiveWorkspace(Workspace *ws){
if (fActiveWorkspace == ws || !ws)
return;
fActiveWorkspace = ws;
// RebuildRegions(Frame());
// Invalidate(Frame());
}
//---------------------------------------------------------------------------
int32 RootLayer::ActiveWorkspaceIndex() const{
if (fActiveWorkspace)
return fActiveWorkspace->ID();
else
return -1;
}
//---------------------------------------------------------------------------
Workspace* RootLayer::ActiveWorkspace() const{
return fActiveWorkspace;
}
//---------------------------------------------------------------------------
void RootLayer::SetBGColor(const RGBColor &col){
ActiveWorkspace()->SetBGColor(col);
_layerdata->viewcolor = col;
// Invalidate(Frame());
}
//---------------------------------------------------------------------------
RGBColor RootLayer::BGColor(void) const{
return _layerdata->viewcolor;
}
//---------------------------------------------------------------------------
void RootLayer::RemoveAppWindow(WinBorder *wb){
wb->Window()->App()->fAppFMWList.RemoveItem(wb);
int32 count = WorkspaceCount();
for(int32 i=0; i < count; i++){
WorkspaceAt(i+1)->RemoveLayerPtr(wb);
}
}
//---------------------------------------------------------------------------
void RootLayer::PrintToStream(){
printf("\nRootLayer '%s' internals:\n", GetName());
printf("Screen list:\n");
for(int32 i=0; i<fScreenPtrList.CountItems(); i++){
printf("\t%ld\n", ((Screen*)fScreenPtrList.ItemAt(i))->ScreenNumber());
}
printf("Screen rows: %ld\nScreen columns: %ld\n", fRows, fColumns);
printf("Resolution for all Screens: %ldx%ldx%ld\n", fScreenXResolution, fScreenYResolution, fColorSpace);
printf("Workspace list:\n");
for(int32 i=0; i<fWSPtrList.CountItems(); i++){
printf("\t~~~Workspace: %ld\n", ((Workspace*)fWSPtrList.ItemAt(i))->ID());
((Workspace*)fWSPtrList.ItemAt(i))->PrintToStream();
printf("~~~~~~~~\n");
}
printf("Active Workspace: %ld\n", fActiveWorkspace? fActiveWorkspace->ID(): -1);
}