for(siter=spaces.begin(); siter!=spaces.end(); ++siter) {
if(win.Intersect(*siter)) {
//Check for space to the left of the window
- if(win.origin().x() > siter->x())
+ if(win.x() > siter->x())
result.push_back(Rect(siter->x(), siter->y(),
- win.origin().x() - siter->x() - 1,
+ win.x() - siter->x() - 1,
siter->h()));
//Check for space above the window
- if(win.origin().y() > siter->y())
+ if(win.y() > siter->y())
result.push_back(Rect(siter->x(), siter->y(),
siter->w(),
- win.origin().y() - siter->y() - 1));
+ win.y() - siter->y() - 1));
//Check for space to the right of the window
- if((win.origin().x()+win.size().w()) <
+ if((win.x()+win.w()) <
(siter->x()+siter->w()))
- result.push_back(Rect(win.origin().x() + win.size().w() + 1,
+ result.push_back(Rect(win.x() + win.w() + 1,
siter->y(),
siter->x() + siter->w() -
- win.origin().x() - win.size().w() - 1,
+ win.x() - win.w() - 1,
siter->h()));
//Check for space below the window
- if((win.origin().y()+win.size().h()) <
+ if((win.y()+win.h()) <
(siter->y()+siter->h()))
result.push_back(Rect(siter->x(),
- win.origin().y() + win.size().h() + 1,
+ win.y() + win.h() + 1,
siter->w(),
siter->y() + siter->h()-
- win.origin().y() - win.size().h() - 1));
+ win.y() - win.h() - 1));
}
else
spaces = calcSpace(cur->area().Inflate(screen.getBorderWidth() * 4),
spaces);
+ //Sort the spaces by placement choice
+ if (screen.rowPlacementDirection() == BScreen::TopBottom)
+ sort(spaces.begin(), spaces.end(), decHeight);
+ else
+ sort(spaces.begin(), spaces.end(), incHeight);
+ if (screen.colPlacementDirection() == BScreen::TopBottom)
+ stable_sort(spaces.begin(), spaces.end(), incHeight);
+ else
+ stable_sort(spaces.begin(), spaces.end(), decHeight);
+
//Find first space that fits the window
best = NULL;
for (siter=spaces.begin(); siter!=spaces.end(); ++siter) {
if ((siter->w() >= win_size.w()) && (siter->h() >= win_size.h())) {
- if (best == NULL)
+ if (best==NULL)
best = siter;
- else if (win_size.w() * win_size.h() - siter->w() * siter->h() <
- best->w() + best->h())
+ else if(siter->w()*siter->h()<best->h()*best->w())
best = siter;
}
}
Point *Workspace::rowSmartPlacement(const Size &win_size, const Rect &space) {
- const Rect *best;
- rectList spaces;
- LinkedListIterator<OpenboxWindow> it(windowList);
- rectList::const_iterator siter;
- spaces.push_back(space); //initially the entire screen is free
- it.reset();
-
- //Find Free Spaces
- for (OpenboxWindow *cur=it.current(); cur!=NULL; it++, cur=it.current())
- spaces = calcSpace(cur->area().Inflate(screen.getBorderWidth() * 4),
- spaces);
-
- //Sort the spaces by placement choice
- if (screen.rowPlacementDirection() == BScreen::TopBottom)
- sort(spaces.begin(),spaces.end(),incHeight);
- else
- sort(spaces.begin(),spaces.end(),decHeight);
-
- //Find first space that fits the window
- best = NULL;
- for (siter=spaces.begin(); siter!=spaces.end(); ++siter)
- if ((siter->w() >= win_size.w()) && (siter->h() >= win_size.h())) {
- best = siter;
- break;
- }
-
- if (best != NULL) {
- Point *pt = new Point(best->origin());
- if (screen.colPlacementDirection() != BScreen::TopBottom)
- pt->setY(pt->y() + (best->h() - win_size.h()));
- if (screen.rowPlacementDirection() != BScreen::LeftRight)
- pt->setX(pt->x() + (best->w() - win_size.w()));
- return pt;
- } else
- return NULL; //fall back to cascade
-}
-
-/*
-inline Point *Workspace::rowSmartPlacement(const Size &win_size,
- const Rect &space){
bool placed=false;
int test_x, test_y, place_x = 0, place_y = 0;
int start_pos = 0;
it.reset();
for (OpenboxWindow *curr = it.current(); placed && curr;
it++, curr = it.current()) {
- int curr_w = curr->size().w() + (screen.getBorderWidth() * 4);
- int curr_h = curr->size().h() + (screen.getBorderWidth() * 4);
+ int curr_w = curr->area().w() + (screen.getBorderWidth() * 4);
+ int curr_h = curr->area().h() + (screen.getBorderWidth() * 4);
- if (curr->origin().x() < test_x + win_size.w() &&
- curr->origin().x() + curr_w > test_x &&
- curr->origin().y() < test_y + win_size.h() &&
- curr->origin().y() + curr_h > test_y) {
+ if (curr->area().x() < test_x + win_size.w() &&
+ curr->area().x() + curr_w > test_x &&
+ curr->area().y() < test_y + win_size.h() &&
+ curr->area().y() + curr_h > test_y) {
placed = false;
}
}
else
return NULL; // fall back to cascade
}
-*/
Point *Workspace::colSmartPlacement(const Size &win_size, const Rect &space) {
- const Rect *best;
- rectList spaces;
- LinkedListIterator<OpenboxWindow> it(windowList);
- rectList::const_iterator siter;
- spaces.push_back(space); //initially the entire screen is free
- it.reset();
-
- //Find Free Spaces
- for (OpenboxWindow *cur=it.current(); cur!=NULL; it++, cur=it.current())
- spaces = calcSpace(cur->area().Inflate(screen.getBorderWidth() * 4),
- spaces);
-
- //Sort the spaces by placement choice
- if (screen.rowPlacementDirection() == BScreen::LeftRight)
- sort(spaces.begin(),spaces.end(),incWidth);
- else
- sort(spaces.begin(),spaces.end(),decWidth);
-
- //Find first space that fits the window
- best = NULL;
- for (siter=spaces.begin(); siter!=spaces.end(); ++siter)
- if ((siter->w() >= win_size.w()) && (siter->h() >= win_size.h())) {
- best = siter;
- break;
- }
-
- if (best != NULL) {
- Point *pt = new Point(best->origin());
- if (screen.colPlacementDirection() != BScreen::TopBottom)
- pt->setY(pt->y() + (best->h() - win_size.h()));
- if (screen.rowPlacementDirection() != BScreen::LeftRight)
- pt->setX(pt->x() + (best->w() - win_size.w()));
- return pt;
- } else
- return NULL; //fall back to cascade
-}
-
-/*
-inline Point * Workspace::colSmartPlacement(const Size &win_size,
- const Rect &space){
Point *pt;
bool placed=false;
int test_x, test_y;
it.reset();
for (OpenboxWindow *curr = it.current(); placed && curr;
it++, curr = it.current()) {
- int curr_w = curr->size().w() + (screen.getBorderWidth() * 4);
- int curr_h = curr->size().h() + (screen.getBorderWidth() * 4);
+ int curr_w = curr->area().w() + (screen.getBorderWidth() * 4);
+ int curr_h = curr->area().h() + (screen.getBorderWidth() * 4);
- if (curr->origin().x() < test_x + win_size.w() &&
- curr->origin().x() + curr_w > test_x &&
- curr->origin().y() < test_y + win_size.h() &&
- curr->origin().y() + curr_h > test_y) {
+ if (curr->area().x() < test_x + win_size.w() &&
+ curr->area().x() + curr_w > test_x &&
+ curr->area().y() < test_y + win_size.h() &&
+ curr->area().y() + curr_h > test_y) {
placed = False;
}
}
else
return NULL;
}
-*/
+
Point *const Workspace::cascadePlacement(const OpenboxWindow *const win){
if (((unsigned) cascade_x > (screen.size().w() / 2)) ||
Rect space(0, 0, screen.size().w(), screen.size().h());
#ifdef SLIT
- Slit *slit = screen.getSlit();
- Toolbar *toolbar = screen.getToolbar();
- int tbarh = screen.hideToolbar() ? 0 :
- toolbar->getExposedHeight() + screen.getBorderWidth() * 2;
- bool tbartop;
- switch (toolbar->placement()) {
- case Toolbar::TopLeft:
- case Toolbar::TopCenter:
- case Toolbar::TopRight:
- tbartop = true;
- break;
- case Toolbar::BottomLeft:
- case Toolbar::BottomCenter:
- case Toolbar::BottomRight:
- tbartop = false;
- break;
- default:
- ASSERT(false); // unhandled placement
- }
- if ((slit->direction() == Slit::Horizontal &&
- (slit->placement() == Slit::TopLeft ||
- slit->placement() == Slit::TopRight)) ||
- slit->placement() == Slit::TopCenter) {
- // exclude top
- if (tbartop) {
- space.setY(slit->area().y());
- space.setH(space.h() - space.y());
- } else
- space.setH(space.h() - tbarh);
- space.setY(space.y() + slit->area().h() + screen.getBorderWidth() * 2);
- space.setH(space.h() - (slit->area().h() + screen.getBorderWidth() * 2));
- } else if ((slit->direction() == Slit::Vertical &&
+ Slit *slit = screen.getSlit();
+ int slit_x = slit->autoHide() ? slit->hiddenOrigin().x() : slit->area().x(),
+ slit_y = slit->autoHide() ? slit->hiddenOrigin().y() : slit->area().y();
+ Toolbar *toolbar = screen.getToolbar();
+ int tbarh = screen.hideToolbar() ? 0 :
+ toolbar->getExposedHeight() + screen.getBorderWidth() * 2;
+ bool tbartop;
+ switch (toolbar->placement()) {
+ case Toolbar::TopLeft:
+ case Toolbar::TopCenter:
+ case Toolbar::TopRight:
+ tbartop = true;
+ break;
+ case Toolbar::BottomLeft:
+ case Toolbar::BottomCenter:
+ case Toolbar::BottomRight:
+ tbartop = false;
+ break;
+ default:
+ ASSERT(false); // unhandled placement
+ }
+ if ((slit->direction() == Slit::Horizontal &&
+ (slit->placement() == Slit::TopLeft ||
+ slit->placement() == Slit::TopRight)) ||
+ slit->placement() == Slit::TopCenter) {
+ // exclude top
+ if (tbartop && slit_y + slit->area().h() < tbarh) {
+ space.setY(space.y() + tbarh);
+ space.setH(space.h() - tbarh);
+ } else {
+ space.setY(space.y() + (slit_y + slit->area().h() +
+ screen.getBorderWidth() * 2));
+ space.setH(space.h() - (slit_y + slit->area().h() +
+ screen.getBorderWidth() * 2));
+ if (!tbartop)
+ space.setH(space.h() - tbarh);
+ }
+ } else if ((slit->direction() == Slit::Vertical &&
(slit->placement() == Slit::TopRight ||
slit->placement() == Slit::BottomRight)) ||
slit->placement() == Slit::CenterRight) {
- // exclude right
- space.setW(space.w() - (slit->area().w() + screen.getBorderWidth() * 2));
- if (tbartop)
- space.setY(space.y() + tbarh);
- space.setH(space.h() - tbarh);
- } else if ((slit->direction() == Slit::Horizontal &&
+ // exclude right
+ space.setW(space.w() - (screen.size().w() - slit_x));
+ if (tbartop)
+ space.setY(space.y() + tbarh);
+ space.setH(space.h() - tbarh);
+ } else if ((slit->direction() == Slit::Horizontal &&
(slit->placement() == Slit::BottomLeft ||
slit->placement() == Slit::BottomRight)) ||
slit->placement() == Slit::BottomCenter) {
- // exclude bottom
- space.setH(space.h() - (screen.size().h() - slit->area().y()));
- } else {// if ((slit->direction() == Slit::Vertical &&
- // (slit->placement() == Slit::TopLeft ||
- // slit->placement() == Slit::BottomLeft)) ||
- // slit->placement() == Slit::CenterLeft)
- // exclude left
- space.setX(slit->area().w() + screen.getBorderWidth() * 2);
- space.setW(space.w() - (slit->area().w() + screen.getBorderWidth() * 2));
- if (tbartop)
- space.setY(space.y() + tbarh);
- space.setH(space.h() - tbarh);
- }
+ // exclude bottom
+ if (!tbartop && (screen.size().h() - slit_y) < tbarh) {
+ space.setH(space.h() - tbarh);
+ } else {
+ space.setH(space.h() - (screen.size().h() - slit_y));
+ if (tbartop) {
+ space.setY(space.y() + tbarh);
+ space.setH(space.h() - tbarh);
+ }
+ }
+ } else {// if ((slit->direction() == Slit::Vertical &&
+ // (slit->placement() == Slit::TopLeft ||
+ // slit->placement() == Slit::BottomLeft)) ||
+ // slit->placement() == Slit::CenterLeft)
+ // exclude left
+ space.setX(slit_x + slit->area().w() +
+ screen.getBorderWidth() * 2);
+ space.setW(space.w() - (slit_x + slit->area().w() +
+ screen.getBorderWidth() * 2));
+ if (tbartop)
+ space.setY(space.y() + tbarh);
+ space.setH(space.h() - tbarh);
+ }
#else // !SLIT
Toolbar *toolbar = screen.getToolbar();
int tbarh = screen.hideToolbar() ? 0 :
}
#endif // SLIT
- const int win_w = win->size().w() + (screen.getBorderWidth() * 4),
- win_h = win->size().h() + (screen.getBorderWidth() * 4),
- start_pos = 0,
- change_y =
- ((screen.colPlacementDirection() == BScreen::TopBottom) ? 1 : -1),
- change_x =
- ((screen.rowPlacementDirection() == BScreen::LeftRight) ? 1 : -1),
- delta_x = 8, delta_y = 8;
-
- LinkedListIterator<OpenboxWindow> it(windowList);
-
- Size window_size(win->size().w()+screen.getBorderWidth() * 4,
- win->size().h()+screen.getBorderWidth() * 4);
+ const Size window_size(win->area().w()+screen.getBorderWidth() * 4,
+ win->area().h()+screen.getBorderWidth() * 4);
Point *place = NULL;
+ LinkedListIterator<OpenboxWindow> it(windowList);
switch (screen.placementPolicy()) {
case BScreen::BestFitPlacement:
place = cascadePlacement(win);
ASSERT(place != NULL);
- if (place->x() + win_w > (signed) screen.size().w())
- place->setX(((signed) screen.size().w() - win_w) / 2);
- if (place->y() + win_h > (signed) screen.size().h())
- place->setY(((signed) screen.size().h() - win_h) / 2);
+ if (place->x() + window_size.w() > (signed) screen.size().w())
+ place->setX(((signed) screen.size().w() - window_size.w()) / 2);
+ if (place->y() + window_size.h() > (signed) screen.size().h())
+ place->setY(((signed) screen.size().h() - window_size.h()) / 2);
- win->configure(place->x(), place->y(), win->size().w(), win->size().h());
+ win->configure(place->x(), place->y(), win->area().w(), win->area().h());
delete place;
}