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[chaz/openbox] / src / workspace.cc

// -*- mode: C++; indent-tabs-mode: nil; c-basic-offset: 2; -*-

#ifdef    HAVE_CONFIG_H
#  include "../config.h"
#endif // HAVE_CONFIG_H

extern "C" {
#include <X11/Xlib.h>
#include <X11/Xatom.h>

#ifdef    HAVE_STDIO_H
#  include <stdio.h>
#endif // HAVE_STDIO_H

#ifdef HAVE_STRING_H
#  include <string.h>
#endif // HAVE_STRING_H
}

#include <assert.h>

#include <functional>
#include <string>

using std::string;

#include "blackbox.hh"
#include "otk/font.hh"
#include "otk/display.hh"
#include "bbscreen.hh"
#include "otk/util.hh"
#include "bbwindow.hh"
#include "workspace.hh"

namespace ob {

Workspace::Workspace(BScreen *scrn, unsigned int i) {
  screen = scrn;
  xatom = screen->getBlackbox()->getXAtom();

  cascade_x = cascade_y = 0;
#ifdef    XINERAMA
  cascade_region = 0;
#endif // XINERAMA

  id = i;

  lastfocus = (BlackboxWindow *) 0;

  readName();
}


void Workspace::addWindow(BlackboxWindow *w, bool place, bool sticky) {
  assert(w != 0);

  if (place) placeWindow(w);

  stackingList.push_front(w);

  if (! sticky)
    w->setWorkspace(id);
  
  if (! w->isNormal()) {
    if (! sticky) {
      // just give it some number, else bad things happen as it is assumed to
      // not be on a workspace
      w->setWindowNumber(0);
    }
  } else {
    if (! sticky)
      w->setWindowNumber(windowList.size());

    windowList.push_back(w);

    if (screen->doFocusNew() || (w->isTransient() && w->getTransientFor() &&
                                 w->getTransientFor()->isFocused())) {
      if (id != screen->getCurrentWorkspaceID()) {
        /*
           not on the focused workspace, so the window is not going to get focus
           but if the user wants new windows focused, then it should get focus
           when this workspace does become focused.
        */
        lastfocus = w;
      }
    }
  }

  if (! w->isDesktop())
    raiseWindow(w);
  else
    lowerWindow(w);
}


void Workspace::removeWindow(BlackboxWindow *w, bool sticky) {
  assert(w != 0);

  stackingList.remove(w);

  // pass focus to the next appropriate window
  if ((w->isFocused() || w == lastfocus) &&
      screen->getBlackbox()->state() != Openbox::State_Exiting) {
    focusFallback(w);
  }
    
  if (! w->isNormal()) return;

  BlackboxWindowList::iterator it, end = windowList.end();
  int i;
  for (i = 0, it = windowList.begin(); it != end; ++it, ++i)
    if (*it == w)
      break;
  assert(it != end);
  
  windowList.erase(it);
  if (! sticky) {
    BlackboxWindowList::iterator it = windowList.begin();
    const BlackboxWindowList::iterator end = windowList.end();
    unsigned int i = 0;
    for (; it != end; ++it, ++i)
      (*it)->setWindowNumber(i);
  }

  if (i == 0) {
    cascade_x = cascade_y = 0;
#ifdef    XINERAMA
    cascade_region = 0;
#endif // XINERAMA
  }
}


void Workspace::focusFallback(const BlackboxWindow *old_window) {
  BlackboxWindow *newfocus = 0;

  if (id == screen->getCurrentWorkspaceID()) {
    // The window is on the visible workspace.

    // if it's a transient, then try to focus its parent
    if (old_window && old_window->isTransient()) {
      newfocus = old_window->getTransientFor();

      if (! newfocus ||
          newfocus->isIconic() ||                  // do not focus icons
          newfocus->getWorkspaceNumber() != id ||  // or other workspaces
          ! newfocus->setInputFocus())
        newfocus = 0;
    }

    if (! newfocus) {
      BlackboxWindowList::iterator it = stackingList.begin(),
                                  end = stackingList.end();
      for (; it != end; ++it) {
        BlackboxWindow *tmp = *it;
        if (tmp && tmp->isNormal() && tmp->setInputFocus()) {
          // we found our new focus target
          newfocus = tmp;
          break;
        }
      }
    }

    screen->getBlackbox()->setFocusedWindow(newfocus);
  } else {
    // The window is not on the visible workspace.

    if (old_window && lastfocus == old_window) {
      // The window was the last-focus target, so we need to replace it.
      BlackboxWindow *win = (BlackboxWindow*) 0;
      if (! stackingList.empty())
        win = stackingList.front();
      setLastFocusedWindow(win);
    }
  }
}


void Workspace::removeAll(void) {
  while (! windowList.empty())
    windowList.front()->iconify();
}

void Workspace::showAll(void) {
  BlackboxWindowList::iterator it = stackingList.begin();
  const BlackboxWindowList::iterator end = stackingList.end();
  for (; it != end; ++it) {
    BlackboxWindow *bw = *it;
    // sticky windows arent unmapped on a workspace change so we don't have ot
    // map them, but sometimes on a restart, another app can unmap our sticky
    // windows, so we map on startup always
    if (! bw->isStuck() ||
        screen->getBlackbox()->state() == Openbox::State_Starting)
      bw->show();
  }
}


void Workspace::hideAll(void) {
  // withdraw in reverse order to minimize the number of Expose events

  BlackboxWindowList lst(stackingList.rbegin(), stackingList.rend());

  BlackboxWindowList::iterator it = lst.begin();
  const BlackboxWindowList::iterator end = lst.end();
  for (; it != end; ++it) {
    BlackboxWindow *bw = *it;
    // don't hide sticky windows, or they'll end up flickering on a workspace
    // change
    if (! bw->isStuck())
      bw->withdraw();
  }
}



/*
 * returns the number of transients for win, plus the number of transients
 * associated with each transient of win
 */
static unsigned int countTransients(const BlackboxWindow * const win) {
  BlackboxWindowList transients = win->getTransients();
  if (transients.empty()) return 0;

  unsigned int ret = transients.size();
  BlackboxWindowList::const_iterator it = transients.begin(),
    end = transients.end();
  for (; it != end; ++it)
    ret += countTransients(*it);

  return ret;
}


/*
 * puts the transients of win into the stack. windows are stacked above
 * the window before it in the stackvector being iterated, meaning
 * stack[0] is on bottom, stack[1] is above stack[0], stack[2] is above
 * stack[1], etc...
 */
void Workspace::raiseTransients(const BlackboxWindow * const win,
                                StackVector::iterator &stack) {
  if (win->getTransients().empty()) return; // nothing to do

  // put win's transients in the stack
  BlackboxWindowList::const_iterator it, end = win->getTransients().end();
  for (it = win->getTransients().begin(); it != end; ++it) {
    BlackboxWindow *w = *it;
    *stack++ = w->getFrameWindow();

    if (! w->isIconic()) {
      Workspace *wkspc = screen->getWorkspace(w->getWorkspaceNumber());
      wkspc->stackingList.remove(w);
      wkspc->stackingList.push_front(w);
    }
  }

  // put transients of win's transients in the stack
  for (it = win->getTransients().begin(); it != end; ++it)
    raiseTransients(*it, stack);
}


void Workspace::lowerTransients(const BlackboxWindow * const win,
                                StackVector::iterator &stack) {
  if (win->getTransients().empty()) return; // nothing to do

  // put transients of win's transients in the stack
  BlackboxWindowList::const_reverse_iterator it,
    end = win->getTransients().rend();
  for (it = win->getTransients().rbegin(); it != end; ++it)
    lowerTransients(*it, stack);

  // put win's transients in the stack
  for (it = win->getTransients().rbegin(); it != end; ++it) {
    BlackboxWindow *w = *it;
    *stack++ = w->getFrameWindow();

    if (! w->isIconic()) {
      Workspace *wkspc = screen->getWorkspace(w->getWorkspaceNumber());
      wkspc->stackingList.remove(w);
      wkspc->stackingList.push_back(w);
    }
  }
}


void Workspace::raiseWindow(BlackboxWindow *w) {
  BlackboxWindow *win = w;

  if (win->isDesktop()) return;

  // walk up the transient_for's to the window that is not a transient
  while (win->isTransient() && win->getTransientFor())
    win = win->getTransientFor();

  // get the total window count (win and all transients)
  unsigned int i = 1 + countTransients(win);

  // stack the window with all transients above
  StackVector stack_vector(i);
  StackVector::iterator stack = stack_vector.begin();

  *(stack++) = win->getFrameWindow();
  if (! (win->isIconic() || win->isDesktop())) {
    Workspace *wkspc = screen->getWorkspace(win->getWorkspaceNumber());
    wkspc->stackingList.remove(win);
    wkspc->stackingList.push_front(win);
  }

  raiseTransients(win, stack);

  screen->raiseWindows(&stack_vector[0], stack_vector.size());
}


void Workspace::lowerWindow(BlackboxWindow *w) {
  BlackboxWindow *win = w;

  // walk up the transient_for's to the window that is not a transient
  while (win->isTransient() && win->getTransientFor())
    win = win->getTransientFor();

  // get the total window count (win and all transients)
  unsigned int i = 1 + countTransients(win);

  // stack the window with all transients above
  StackVector stack_vector(i);
  StackVector::iterator stack = stack_vector.begin();

  lowerTransients(win, stack);

  *(stack++) = win->getFrameWindow();
  if (! (win->isIconic() || win->isDesktop())) {
    Workspace *wkspc = screen->getWorkspace(win->getWorkspaceNumber());
    wkspc->stackingList.remove(win);
    wkspc->stackingList.push_back(win);
  }

  screen->lowerWindows(&stack_vector[0], stack_vector.size());
}


void Workspace::reconfigure(void) {
  std::for_each(windowList.begin(), windowList.end(),
                std::mem_fun(&BlackboxWindow::reconfigure));
}


BlackboxWindow *Workspace::getWindow(unsigned int index) {
  if (index < windowList.size()) {
    BlackboxWindowList::iterator it = windowList.begin();
    while (index-- > 0) // increment to index
      ++it;
    return *it;
  }

  return 0;
}


BlackboxWindow*
Workspace::getNextWindowInList(BlackboxWindow *w) {
  BlackboxWindowList::iterator it = std::find(windowList.begin(),
                                              windowList.end(),
                                              w);
  assert(it != windowList.end());   // window must be in list
  ++it;                             // next window
  if (it == windowList.end())
    return windowList.front();      // if we walked off the end, wrap around

  return *it;
}


BlackboxWindow* Workspace::getPrevWindowInList(BlackboxWindow *w) {
  BlackboxWindowList::iterator it = std::find(windowList.begin(),
                                              windowList.end(),
                                              w);
  assert(it != windowList.end()); // window must be in list
  if (it == windowList.begin())
    return windowList.back();     // if we walked of the front, wrap around

  return *(--it);
}


BlackboxWindow* Workspace::getTopWindowOnStack(void) const {
  assert(! stackingList.empty());
  return stackingList.front();
}


unsigned int Workspace::getCount(void) const {
  return windowList.size();
}


void Workspace::appendStackOrder(BlackboxWindowList &stack_order) const {
  BlackboxWindowList::const_reverse_iterator it = stackingList.rbegin();
  const BlackboxWindowList::const_reverse_iterator end = stackingList.rend();
  for (; it != end; ++it)
    // don't add desktop wnidows, or sticky windows more than once
    if (! ( (*it)->isDesktop() ||
            ((*it)->isStuck() && id != screen->getCurrentWorkspaceID())))
      stack_order.push_back(*it);
}


bool Workspace::isCurrent(void) const {
  return (id == screen->getCurrentWorkspaceID());
}


bool Workspace::isLastWindow(const BlackboxWindow *w) const {
  return (w == windowList.back());
}


void Workspace::setCurrent(void) {
  screen->changeWorkspaceID(id);
}


void Workspace::readName(void) {
  otk::OBProperty::StringVect namesList;
  unsigned long numnames = id + 1;
    
  // attempt to get from the _NET_WM_DESKTOP_NAMES property
  if (xatom->get(screen->getRootWindow(), otk::OBProperty::net_desktop_names,
                 otk::OBProperty::utf8, &numnames, &namesList) &&
      namesList.size() > id) {
    name = namesList[id];
  
  } else {
    /*
       Use a default name. This doesn't actually change the class. That will
       happen after the setName changes the root property, and that change
       makes its way back to this function.
    */
    string tmp = "Workspace %d";
    assert(tmp.length() < 32);
    char default_name[32];
    sprintf(default_name, tmp.c_str(), id + 1);
    
    setName(default_name);  // save this into the _NET_WM_DESKTOP_NAMES property
  }
}


void Workspace::setName(const string& new_name) {
  // set the _NET_WM_DESKTOP_NAMES property with the new name
  otk::OBProperty::StringVect namesList;
  unsigned long numnames = (unsigned) -1;
  if (xatom->get(screen->getRootWindow(),
                 otk::OBProperty::net_desktop_names,
                 otk::OBProperty::utf8, &numnames, &namesList) &&
      namesList.size() > id)
    namesList[id] = new_name;
  else
    namesList.push_back(new_name);

  xatom->set(screen->getRootWindow(), otk::OBProperty::net_desktop_names,
             otk::OBProperty::utf8, namesList);
}


/*
 * Calculate free space available for window placement.
 */
Workspace::rectList Workspace::calcSpace(const otk::Rect &win,
                                         const rectList &spaces) const {
  otk::Rect isect, extra;
  rectList result;
  rectList::const_iterator siter, end = spaces.end();
  for (siter = spaces.begin(); siter != end; ++siter) {
    const otk::Rect &curr = *siter;

    if(! win.intersects(curr)) {
      result.push_back(curr);
      continue;
    }

    /* Use an intersection of win and curr to determine the space around
     * curr that we can use.
     *
     * NOTE: the spaces calculated can overlap.
     */
    isect = curr & win;

    // left
    extra.setCoords(curr.left(), curr.top(),
                    isect.left() - screen->getSnapOffset(), curr.bottom());
    if (extra.valid()) result.push_back(extra);

    // top
    extra.setCoords(curr.left(), curr.top(),
                    curr.right(), isect.top() - screen->getSnapOffset());
    if (extra.valid()) result.push_back(extra);

    // right
    extra.setCoords(isect.right() + screen->getSnapOffset(), curr.top(),
                    curr.right(), curr.bottom());
    if (extra.valid()) result.push_back(extra);

    // bottom
    extra.setCoords(curr.left(), isect.bottom() + screen->getSnapOffset(),
                    curr.right(), curr.bottom());
    if (extra.valid()) result.push_back(extra);
  }
  return result;
}


static bool rowRLBT(const otk::Rect &first, const otk::Rect &second) {
  if (first.bottom() == second.bottom())
    return first.right() > second.right();
  return first.bottom() > second.bottom();
}

static bool rowRLTB(const otk::Rect &first, const otk::Rect &second) {
  if (first.y() == second.y())
    return first.right() > second.right();
  return first.y() < second.y();
}

static bool rowLRBT(const otk::Rect &first, const otk::Rect &second) {
  if (first.bottom() == second.bottom())
    return first.x() < second.x();
  return first.bottom() > second.bottom();
}

static bool rowLRTB(const otk::Rect &first, const otk::Rect &second) {
  if (first.y() == second.y())
    return first.x() < second.x();
  return first.y() < second.y();
}

static bool colLRTB(const otk::Rect &first, const otk::Rect &second) {
  if (first.x() == second.x())
    return first.y() < second.y();
  return first.x() < second.x();
}

static bool colLRBT(const otk::Rect &first, const otk::Rect &second) {
  if (first.x() == second.x())
    return first.bottom() > second.bottom();
  return first.x() < second.x();
}

static bool colRLTB(const otk::Rect &first, const otk::Rect &second) {
  if (first.right() == second.right())
    return first.y() < second.y();
  return first.right() > second.right();
}

static bool colRLBT(const otk::Rect &first, const otk::Rect &second) {
  if (first.right() == second.right())
    return first.bottom() > second.bottom();
  return first.right() > second.right();
}


bool Workspace::smartPlacement(otk::Rect& win) {
  rectList spaces;
 
  //initially the entire screen is free
#ifdef    XINERAMA
  if (screen->isXineramaActive() &&
      screen->getBlackbox()->doXineramaPlacement()) {
    RectList availableAreas = screen->allAvailableAreas();
    RectList::iterator it, end = availableAreas.end();

    for (it = availableAreas.begin(); it != end; ++it) {
      Rect r = *it;
      r.setRect(r.x() + screen->getSnapOffset(),
                r.y() + screen->getSnapOffset(),
                r.width() - screen->getSnapOffset(),
                r.height() - screen->getSnapOffset());
      spaces.push_back(*it);
    }
  } else
#endif // XINERAMA
  {
    otk::Rect r = screen->availableArea();
    r.setRect(r.x() + screen->getSnapOffset(),
              r.y() + screen->getSnapOffset(),
              r.width() - screen->getSnapOffset(),
              r.height() - screen->getSnapOffset());
    spaces.push_back(r);
  }

  //Find Free Spaces
  BlackboxWindowList::const_iterator wit = windowList.begin(),
    end = windowList.end();
  otk::Rect tmp;
  for (; wit != end; ++wit) {
    const BlackboxWindow* const curr = *wit;

    // watch for shaded windows and full-maxed windows
    if (curr->isShaded()) {
      if (screen->getPlaceIgnoreShaded()) continue;
    } else if (curr->isMaximizedFull()) {
      if (screen->getPlaceIgnoreMaximized()) continue;
    }

    tmp.setRect(curr->frameRect().x(), curr->frameRect().y(),
                curr->frameRect().width() + screen->getWindowStyle()->getBorderWidth(),
                curr->frameRect().height() + screen->getWindowStyle()->getBorderWidth());

    spaces = calcSpace(tmp, spaces);
  }

  if (screen->getPlacementPolicy() == BScreen::RowSmartPlacement) {
    if(screen->getRowPlacementDirection() == BScreen::LeftRight) {
      if(screen->getColPlacementDirection() == BScreen::TopBottom)
        std::sort(spaces.begin(), spaces.end(), rowLRTB);
      else
        std::sort(spaces.begin(), spaces.end(), rowLRBT);
    } else {
      if(screen->getColPlacementDirection() == BScreen::TopBottom)
        std::sort(spaces.begin(), spaces.end(), rowRLTB);
      else
        std::sort(spaces.begin(), spaces.end(), rowRLBT);
    }
  } else {
    if(screen->getColPlacementDirection() == BScreen::TopBottom) {
      if(screen->getRowPlacementDirection() == BScreen::LeftRight)
        std::sort(spaces.begin(), spaces.end(), colLRTB);
      else
        std::sort(spaces.begin(), spaces.end(), colRLTB);
    } else {
      if(screen->getRowPlacementDirection() == BScreen::LeftRight)
        std::sort(spaces.begin(), spaces.end(), colLRBT);
      else
        std::sort(spaces.begin(), spaces.end(), colRLBT);
    }
  }

  rectList::const_iterator sit = spaces.begin(), spaces_end = spaces.end();
  for(; sit != spaces_end; ++sit) {
    if (sit->width() >= win.width() && sit->height() >= win.height())
      break;
  }

  if (sit == spaces_end)
    return False;

  //set new position based on the empty space found
  const otk::Rect& where = *sit;
  win.setX(where.x());
  win.setY(where.y());

  // adjust the location() based on left/right and top/bottom placement
  if (screen->getPlacementPolicy() == BScreen::RowSmartPlacement) {
    if (screen->getRowPlacementDirection() == BScreen::RightLeft)
      win.setX(where.right() - win.width());
    if (screen->getColPlacementDirection() == BScreen::BottomTop)
      win.setY(where.bottom() - win.height());
  } else {
    if (screen->getColPlacementDirection() == BScreen::BottomTop)
      win.setY(win.y() + where.height() - win.height());
    if (screen->getRowPlacementDirection() == BScreen::RightLeft)
      win.setX(win.x() + where.width() - win.width());
  }
  return True;
}


bool Workspace::underMousePlacement(otk::Rect &win) {
  int x, y, rx, ry;
  Window c, r;
  unsigned int m;
  XQueryPointer(otk::OBDisplay::display, screen->getRootWindow(),
                &r, &c, &rx, &ry, &x, &y, &m);

  otk::Rect area;
#ifdef    XINERAMA
  if (screen->isXineramaActive() &&
      screen->getBlackbox()->doXineramaPlacement()) {
    RectList availableAreas = screen->allAvailableAreas();
    RectList::iterator it, end = availableAreas.end();

    for (it = availableAreas.begin(); it != end; ++it)
      if (it->contains(rx, ry)) break;
    assert(it != end);  // the mouse isn't inside an area?
    area = *it;
  } else
#endif // XINERAMA
    area = screen->availableArea();
  
  x = rx - win.width() / 2;
  y = ry - win.height() / 2;

  if (x < area.x())
    x = area.x();
  if (y < area.y())
    y = area.y();
  if (x + win.width() > area.x() + area.width())
    x = area.x() + area.width() - win.width();
  if (y + win.height() > area.y() + area.height())
    y = area.y() + area.height() - win.height();

  win.setX(x);
  win.setY(y);

  return True;
}


bool Workspace::cascadePlacement(otk::Rect &win, const int offset) {
  otk::Rect area;
  
#ifdef    XINERAMA
  if (screen->isXineramaActive() &&
      screen->getBlackbox()->doXineramaPlacement()) {
    area = screen->allAvailableAreas()[cascade_region];
  } else
#endif // XINERAMA
    area = screen->availableArea();

  if ((static_cast<signed>(cascade_x + win.width()) > area.right() + 1) ||
      (static_cast<signed>(cascade_y + win.height()) > area.bottom() + 1)) {
    cascade_x = cascade_y = 0;
#ifdef    XINERAMA
    if (screen->isXineramaActive() &&
        screen->getBlackbox()->doXineramaPlacement()) {
      // go to the next xinerama region, and use its area
      if (++cascade_region >= screen->allAvailableAreas().size())
        cascade_region = 0;
      area = screen->allAvailableAreas()[cascade_region];
    }
#endif // XINERAMA
  }

  if (cascade_x == 0) {
    cascade_x = area.x() + offset;
    cascade_y = area.y() + offset;
  }

  win.setPos(cascade_x, cascade_y);

  cascade_x += offset;
  cascade_y += offset;

  return True;
}


void Workspace::placeWindow(BlackboxWindow *win) {
  otk::Rect new_win(0, 0, win->frameRect().width(), win->frameRect().height());
  bool placed = False;

  switch (screen->getPlacementPolicy()) {
  case BScreen::RowSmartPlacement:
  case BScreen::ColSmartPlacement:
    placed = smartPlacement(new_win);
    break;
  case BScreen::UnderMousePlacement:
  case BScreen::ClickMousePlacement:
    placed = underMousePlacement(new_win);
  default:
    break; // handled below
  } // switch

  if (placed == False)
    cascadePlacement(new_win, (win->getTitleHeight() +
                               screen->getWindowStyle()->getBorderWidth() * 2));

  if (new_win.right() > screen->availableArea().right())
    new_win.setX(screen->availableArea().left());
  if (new_win.bottom() > screen->availableArea().bottom())
    new_win.setY(screen->availableArea().top());

  win->configure(new_win.x(), new_win.y(), new_win.width(), new_win.height());
}

}