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|
// WinClient.cc for Fluxbox - an X11 Window manager
// Copyright (c) 2003 - 2006 Henrik Kinnunen (fluxgen at fluxbox dot org)
//
// 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.
// $Id$
#include "WinClient.hh"
#include "Window.hh"
#include "fluxbox.hh"
#include "Screen.hh"
#include "FbAtoms.hh"
#include "Xutil.hh"
#include "EventManager.hh"
#include "FbTk/MultLayers.hh"
#include <iostream>
#include <algorithm>
#include <iterator>
#include <memory>
#ifdef HAVE_CASSERT
#include <cassert>
#else
#include <assert.h>
#endif
using std::string;
using std::list;
using std::mem_fun;
#ifdef DEBUG
using std::cerr;
using std::endl;
using std::hex;
using std::dec;
#endif // DEBUG
WinClient::TransientWaitMap WinClient::s_transient_wait;
WinClient::WinClient(Window win, BScreen &screen, FluxboxWindow *fbwin):
Focusable(screen, fbwin), FbTk::FbWindow(win),
transient_for(0),
window_group(0),
x(0), y(0), old_bw(0),
min_width(1), min_height(1),
max_width(0), max_height(0),
width_inc(1), height_inc(1),
min_aspect_x(0), min_aspect_y(0),
max_aspect_x(0), max_aspect_y(0),
base_width(1), base_height(1),
initial_state(0),
normal_hint_flags(0),
wm_hint_flags(0),
m_modal(0),
send_focus_message(false),
send_close_message(false),
m_win_gravity(0),
m_class_name(""), m_instance_name(""),
m_title_override(false),
m_icon_title_override(false),
m_blackbox_hint(0),
m_mwm_hint(0),
m_focus_mode(F_PASSIVE),
m_diesig(*this), m_focussig(*this),
m_strut(0) {
updateWMProtocols();
updateBlackboxHints();
updateMWMHints();
updateWMHints();
updateWMNormalHints();
updateWMClassHint();
updateTitle();
updateIconTitle();
Fluxbox::instance()->saveWindowSearch(win, this);
if (window_group != None)
Fluxbox::instance()->saveGroupSearch(window_group, this);
// search for this in transient waiting list
if (s_transient_wait.find(win) != s_transient_wait.end()) {
// Found transients that are waiting for this.
// For each transient that waits call updateTransientInfo
for_each(s_transient_wait[win].begin(),
s_transient_wait[win].end(),
mem_fun(&WinClient::updateTransientInfo));
// clear transient waiting list for this window
s_transient_wait.erase(win);
}
}
WinClient::~WinClient() {
#ifdef DEBUG
cerr<<__FILE__<<"(~"<<__FUNCTION__<<")[this="<<this<<"]"<<endl;
#endif // DEBUG
FbTk::EventManager::instance()->remove(window());
clearStrut();
if (fbwindow() != 0)
fbwindow()->removeClient(*this);
// this takes care of any focus issues
m_diesig.notify();
Fluxbox *fluxbox = Fluxbox::instance();
//
// clear transients and transient_for
//
if (transient_for != 0) {
assert(transient_for != this);
transient_for->transientList().remove(this);
transient_for = 0;
}
while (!transients.empty()) {
transients.back()->transient_for = 0;
transients.pop_back();
}
// This fixes issue 1 (see WinClient.hh):
// If transients die before the transient_for is created
removeTransientFromWaitingList();
s_transient_wait.erase(window());
screen().removeNetizen(window());
if (window_group != 0) {
fluxbox->removeGroupSearch(window_group);
window_group = 0;
}
if (m_mwm_hint != 0)
XFree(m_mwm_hint);
if (m_blackbox_hint != 0)
XFree(m_blackbox_hint);
if (window())
fluxbox->removeWindowSearch(window());
}
bool WinClient::acceptsFocus() const {
return (m_focus_mode == F_LOCALLYACTIVE ||
m_focus_mode == F_PASSIVE ||
m_focus_mode == F_GLOBALLYACTIVE && send_focus_message);
}
bool WinClient::sendFocus() {
if (!send_focus_message)
return false;
#ifdef DEBUG
cerr<<"WinClient::"<<__FUNCTION__<<": this = "<<this<<
" window = 0x"<<hex<<window()<<dec<<endl;
#endif // DEBUG
// setup focus msg
XEvent ce;
ce.xclient.type = ClientMessage;
ce.xclient.message_type = FbAtoms::instance()->getWMProtocolsAtom();
ce.xclient.display = display();
ce.xclient.window = window();
ce.xclient.format = 32;
ce.xclient.data.l[0] = FbAtoms::instance()->getWMTakeFocusAtom();
ce.xclient.data.l[1] = Fluxbox::instance()->getLastTime();
ce.xclient.data.l[2] = 0l;
ce.xclient.data.l[3] = 0l;
ce.xclient.data.l[4] = 0l;
// send focus msg
XSendEvent(display(), window(), false, NoEventMask, &ce);
return true;
}
void WinClient::sendClose(bool forceful) {
if (forceful || !send_close_message)
XKillClient(display(), window());
else {
// send WM_DELETE message
// fill in XClientMessage structure for delete message
XEvent ce;
ce.xclient.type = ClientMessage;
ce.xclient.message_type = FbAtoms::instance()->getWMProtocolsAtom();
ce.xclient.display = display();
ce.xclient.window = window();
ce.xclient.format = 32;
ce.xclient.data.l[0] = FbAtoms::instance()->getWMDeleteAtom();
ce.xclient.data.l[1] = CurrentTime;
ce.xclient.data.l[2] = 0l;
ce.xclient.data.l[3] = 0l;
ce.xclient.data.l[4] = 0l;
// send event delete message to client window
XSendEvent(display(), window(), false, NoEventMask, &ce);
}
}
bool WinClient::getAttrib(XWindowAttributes &attr) const {
return XGetWindowAttributes(display(), window(), &attr);
}
bool WinClient::getWMName(XTextProperty &textprop) const {
return XGetWMName(display(), window(), &textprop);
}
bool WinClient::getWMIconName(XTextProperty &textprop) const {
return XGetWMName(display(), window(), &textprop);
}
const string &WinClient::getWMClassName() const {
return m_instance_name;
}
const string &WinClient::getWMClassClass() const {
return m_class_name;
}
const string &WinClient::title() const {
if (!fbwindow() || !fbwindow()->isIconic())
return m_title;
return m_icon_title;
}
void WinClient::updateWMClassHint() {
XClassHint ch;
if (XGetClassHint(display(), window(), &ch) == 0) {
#ifdef DEBUG
cerr<<"WinClient: Failed to read class hint!"<<endl;
#endif //DEBUG
} else {
if (ch.res_name != 0) {
m_instance_name = const_cast<char *>(ch.res_name);
XFree(ch.res_name);
ch.res_name = 0;
} else
m_instance_name = "";
if (ch.res_class != 0) {
m_class_name = const_cast<char *>(ch.res_class);
XFree(ch.res_class);
ch.res_class = 0;
} else
m_class_name = "";
}
}
void WinClient::updateTransientInfo() {
#ifdef DEBUG
cerr<<__FUNCTION__<<": fbwindow() = "<<fbwindow()<<endl;
#endif // DEBUG
if (fbwindow() == 0)
return;
// remove this from parent
if (transientFor() != 0) {
transientFor()->transientList().remove(this);
}
transient_for = 0;
// determine if this is a transient window
Window win = 0;
if (!XGetTransientForHint(display(), window(), &win)) {
#ifdef DEBUG
cerr<<__FUNCTION__<<": window() = 0x"<<hex<<window()<<dec<<"Failed to read transient for hint."<<endl;
#endif // DEBUG
return;
}
// we can't be transient to ourself
if (win == window()) {
#ifdef DEBUG
cerr<<__FUNCTION__<<": transient to ourself"<<endl;
#endif // DEBUG
return;
}
if (win != None && fbwindow()->screen().rootWindow() == win) {
// transient for root window... = transient for group
// I don't think we are group-aware yet
return;
}
transient_for = Fluxbox::instance()->searchWindow(win);
// if we did not find a transient WinClient but still
// have a transient X window, then we have to put the
// X transient_for window in a waiting list and update this clients transient
// list later when the transient_for has a Winclient
if (!transient_for) {
// We might also already waiting for an old transient_for;
//
// this call fixes issue 2:
// If transients changes to new transient_for before the old transient_for is created.
// (see comment in WinClient.hh)
//
removeTransientFromWaitingList();
s_transient_wait[win].push_back(this);
}
#ifdef DEBUG
cerr<<__FUNCTION__<<": transient_for window = 0x"<<hex<<win<<dec<<endl;
cerr<<__FUNCTION__<<": transient_for = "<<transient_for<<endl;
#endif // DEBUG
// make sure we don't have deadlock loop in transient chain
for (WinClient *w = this; w != 0; w = w->transient_for) {
if (w == w->transient_for) {
w->transient_for = 0;
break;
}
}
if (transientFor() != 0) {
// we need to add ourself to the right client in
// the transientFor() window so we search client
transient_for->transientList().push_back(this);
if (transientFor()->fbwindow() && transientFor()->fbwindow()->isStuck())
fbwindow()->stick();
}
}
void WinClient::updateTitle() {
// why 512? very very long wmnames seem to either
// crash fluxbox or to make it have high cpuload
// see also:
// http://www.securityfocus.com/archive/1/382398/2004-11-24/2004-11-30/2
//
// TODO: - find out why this mostly happens when using xft-fonts
// - why other windowmanagers (pekwm/pwm3/openbox etc) are
// also influenced
//
// the limitation to 512 chars only avoids running in that trap
if (m_title_override)
return;
m_title = string(Xutil::getWMName(window()), 0, 512);
titleSig().notify();
if (fbwindow())
fbwindow()->updateTitleFromClient(*this);
}
void WinClient::setTitle(FbTk::FbString &title) {
m_title = title;
m_title_override = true;
titleSig().notify();
if (fbwindow())
fbwindow()->updateTitleFromClient(*this);
}
void WinClient::setIconTitle(FbTk::FbString &icon_title) {
m_icon_title = icon_title;
m_icon_title_override = true;
if (fbwindow() && fbwindow()->isIconic())
fbwindow()->updateTitleFromClient(*this);
}
void WinClient::updateIconTitle() {
if (m_icon_title_override)
return;
XTextProperty text_prop;
char **list = 0;
int num = 0;
if (getWMIconName(text_prop)) {
if (text_prop.value && text_prop.nitems > 0) {
if (text_prop.encoding != XA_STRING) {
text_prop.nitems = strlen((char *) text_prop.value);
if (XmbTextPropertyToTextList(display(), &text_prop,
&list, &num) == Success &&
num > 0 && *list) {
m_icon_title = (char *)*list;
XFreeStringList(list);
} else
m_icon_title = text_prop.value ? (char *)text_prop.value : "";
} else
m_icon_title = text_prop.value ? (char *)text_prop.value : "";
if (text_prop.value)
XFree((char *) text_prop.value);
} else
m_icon_title = title();
} else
m_icon_title = title();
if (fbwindow() && fbwindow()->isIconic())
fbwindow()->updateTitleFromClient(*this);
}
void WinClient::saveBlackboxAttribs(FluxboxWindow::BlackboxAttributes &blackbox_attribs) {
changeProperty(FbAtoms::instance()->getFluxboxAttributesAtom(),
XA_CARDINAL, 32, PropModeReplace,
(unsigned char *)&blackbox_attribs,
FluxboxWindow::PropBlackboxAttributesElements
);
}
void WinClient::setFluxboxWindow(FluxboxWindow *win) {
m_fbwin = win;
}
void WinClient::updateBlackboxHints() {
int format;
Atom atom_return;
unsigned long num, len;
FbAtoms *atoms = FbAtoms::instance();
if (m_blackbox_hint) {
XFree(m_blackbox_hint);
m_blackbox_hint = 0;
}
if (property(atoms->getFluxboxHintsAtom(), 0,
PropBlackboxHintsElements, False,
atoms->getFluxboxHintsAtom(), &atom_return,
&format, &num, &len,
(unsigned char **) &m_blackbox_hint) &&
m_blackbox_hint) {
if (num != (unsigned)PropBlackboxHintsElements) {
XFree(m_blackbox_hint);
m_blackbox_hint = 0;
}
}
}
void WinClient::updateMWMHints() {
int format;
Atom atom_return;
unsigned long num = 0, len = 0;
if (m_mwm_hint) {
XFree(m_mwm_hint);
m_mwm_hint = 0;
}
Atom motif_wm_hints = FbAtoms::instance()->getMWMHintsAtom();
if (!(property(motif_wm_hints, 0,
PropMwmHintsElements, false,
motif_wm_hints, &atom_return,
&format, &num, &len,
(unsigned char **) &m_mwm_hint) &&
m_mwm_hint)) {
if (num != static_cast<unsigned int>(PropMwmHintsElements)) {
XFree(m_mwm_hint);
m_mwm_hint = 0;
return;
}
}
}
void WinClient::updateWMHints() {
XWMHints *wmhint = XGetWMHints(display(), window());
if (! wmhint) {
m_focus_mode = F_PASSIVE;
window_group = None;
initial_state = NormalState;
} else {
wm_hint_flags = wmhint->flags;
/*
* ICCCM 4.1.7
*---------------------------------------------
* Input Model Input Field WM_TAKE_FOCUS
*---------------------------------------------
* No Input False Absent
* Passive True Absent
* Locally Active True Present
* Globally Active False Present
*---------------------------------------------
* Here: WM_TAKE_FOCUS = send_focus_message
* Input Field = wmhint->input
* Input Model = m_focus_mode
*/
if (wmhint->flags & InputHint) {
if (wmhint->input) {
if (send_focus_message)
m_focus_mode = F_LOCALLYACTIVE;
else
m_focus_mode = F_PASSIVE;
} else {
if (send_focus_message)
m_focus_mode = F_GLOBALLYACTIVE;
else
m_focus_mode = F_NOINPUT;
}
} else // InputHint not present: ignoring send_focus_message and assuming F_PASSIVE
m_focus_mode = F_PASSIVE;
if (wmhint->flags & StateHint)
initial_state = wmhint->initial_state;
else
initial_state = NormalState;
if (wmhint->flags & WindowGroupHint) {
if (! window_group)
window_group = wmhint->window_group;
} else
window_group = None;
if ((bool)(wmhint->flags & IconPixmapHint) && wmhint->icon_pixmap != 0)
m_icon.pixmap().copy(wmhint->icon_pixmap, 0, 0);
else
m_icon.pixmap().release();
if ((bool)(wmhint->flags & IconMaskHint) && wmhint->icon_mask != 0)
m_icon.mask().copy(wmhint->icon_mask, 0, 0);
else
m_icon.mask().release();
if (fbwindow()) {
if (wmhint->flags & XUrgencyHint) {
Fluxbox::instance()->attentionHandler().addAttention(*this);
} else {
Fluxbox::instance()->attentionHandler().
update(&m_focussig);
}
}
XFree(wmhint);
}
}
void WinClient::updateWMNormalHints() {
long icccm_mask;
XSizeHints sizehint;
if (! XGetWMNormalHints(display(), window(), &sizehint, &icccm_mask)) {
min_width = min_height =
base_width = base_height =
width_inc = height_inc = 1;
max_width = 0; // unbounded
max_height = 0;
min_aspect_x = min_aspect_y =
max_aspect_x = max_aspect_y = 0;
m_win_gravity = NorthWestGravity;
} else {
normal_hint_flags = sizehint.flags;
if (sizehint.flags & PMinSize) {
min_width = sizehint.min_width;
min_height = sizehint.min_height;
if (!(sizehint.flags & PBaseSize)) {
base_width = min_width;
base_height = min_height;
}
} else {
min_width = min_height = 1;
base_width = base_height = 0;
}
if (sizehint.flags & PBaseSize) {
base_width = sizehint.base_width;
base_height = sizehint.base_height;
if (!(sizehint.flags & PMinSize)) {
min_width = base_width;
min_height = base_height;
}
} // default set in PMinSize
if (sizehint.flags & PMaxSize) {
max_width = sizehint.max_width;
max_height = sizehint.max_height;
} else {
max_width = 0; // unbounded
max_height = 0;
}
if (sizehint.flags & PResizeInc) {
width_inc = sizehint.width_inc;
height_inc = sizehint.height_inc;
} else
width_inc = height_inc = 1;
if (sizehint.flags & PAspect) {
min_aspect_x = sizehint.min_aspect.x;
min_aspect_y = sizehint.min_aspect.y;
max_aspect_x = sizehint.max_aspect.x;
max_aspect_y = sizehint.max_aspect.y;
} else
min_aspect_x = min_aspect_y =
max_aspect_x = max_aspect_y = 0;
if (sizehint.flags & PWinGravity)
m_win_gravity = sizehint.win_gravity;
else
m_win_gravity = NorthWestGravity;
}
}
Window WinClient::getGroupLeftWindow() const {
int format;
Atom atom_return;
unsigned long num = 0, len = 0;
Atom group_left_hint = XInternAtom(display(), "_FLUXBOX_GROUP_LEFT", False);
Window *data = 0;
if (property(group_left_hint, 0,
1, false,
XA_WINDOW, &atom_return,
&format, &num, &len,
(unsigned char **) &data) &&
data) {
if (num != 1) {
XFree(data);
return None;
} else {
Window ret = *data;
XFree(data);
return ret;
}
}
return None;
}
void WinClient::setGroupLeftWindow(Window win) {
if (m_screen.isShuttingdown())
return;
Atom group_left_hint = XInternAtom(display(), "_FLUXBOX_GROUP_LEFT", False);
changeProperty(group_left_hint, XA_WINDOW, 32,
PropModeReplace, (unsigned char *) &win, 1);
}
bool WinClient::hasGroupLeftWindow() const {
// try to find _FLUXBOX_GROUP_LEFT atom in window
// if we have one then we have a group left window
int format;
Atom atom_return;
unsigned long num = 0, len = 0;
Atom group_left_hint = XInternAtom(display(), "_FLUXBOX_GROUP_LEFT", False);
Window *data = 0;
if (property(group_left_hint, 0,
1, false,
XA_WINDOW, &atom_return,
&format, &num, &len,
(unsigned char **) &data) &&
data) {
XFree(data);
if (num != 1)
return false;
else
return true;
}
return false;
}
void WinClient::addModal() {
++m_modal;
if (transient_for)
transient_for->addModal();
}
void WinClient::removeModal() {
--m_modal;
if (transient_for)
transient_for->removeModal();
}
bool WinClient::validateClient() const {
FbTk::App::instance()->sync(false);
XEvent e;
if (( XCheckTypedWindowEvent(display(), window(), DestroyNotify, &e) ||
XCheckTypedWindowEvent(display(), window(), UnmapNotify, &e))
&& XPutBackEvent(display(), &e)) {
Fluxbox::instance()->ungrab();
return false;
}
return true;
}
void WinClient::setStrut(Strut *strut) {
clearStrut();
m_strut = strut;
}
void WinClient::clearStrut() {
if (m_strut != 0) {
screen().clearStrut(m_strut);
screen().updateAvailableWorkspaceArea();
m_strut = 0;
}
}
bool WinClient::focus() {
if (fbwindow() == 0)
return false;
else
return fbwindow()->setCurrentClient(*this, true);
}
void WinClient::updateWMProtocols() {
Atom *proto = 0;
int num_return = 0;
FbAtoms *fbatoms = FbAtoms::instance();
if (XGetWMProtocols(display(), window(), &proto, &num_return)) {
// defaults
send_focus_message = false;
send_close_message = false;
// could be added to netizens twice...
for (int i = 0; i < num_return; ++i) {
if (proto[i] == fbatoms->getWMDeleteAtom())
send_close_message = true;
else if (proto[i] == fbatoms->getWMTakeFocusAtom())
send_focus_message = true;
else if (proto[i] == fbatoms->getFluxboxStructureMessagesAtom())
screen().addNetizen(window());
}
XFree(proto);
if (fbwindow())
fbwindow()->updateFunctions();
#ifdef DEBUG
} else {
cerr<<"Warning: Failed to read WM Protocols. "<<endl;
#endif // DEBUG
}
}
/* For aspect ratios
Note that its slightly simplified in that only the
line gradient is given - this is because for aspect
ratios, we always have the line going through the origin
* Based on this formula:
http://astronomy.swin.edu.au/~pbourke/geometry/pointline/
Note that a gradient from origin goes through ( grad , 1 )
*/
void closestPointToLine(double &ret_x, double &ret_y,
double point_x, double point_y,
double gradient) {
double u = (point_x * gradient + point_y) /
(gradient*gradient + 1);
ret_x = u*gradient;
ret_y = u;
}
/**
* Changes width and height to the nearest (lower) value
* that conforms to it's size hints.
*
* display_* give the values that would be displayed
* to the user when resizing.
* We use pointers for display_* since they are optional.
*
* See ICCCM section 4.1.2.3
*/
void WinClient::applySizeHints(int &width, int &height,
int *display_width, int *display_height,
bool maximizing) {
int i = width, j = height;
// Check minimum size
if (width < 0 || width < static_cast<signed>(min_width))
width = min_width;
if (height < 0 || height < static_cast<signed>(min_height))
height = min_height;
// Check maximum size
if (max_width > 0 && width > static_cast<signed>(max_width))
width = max_width;
if (max_height > 0 && height > static_cast<signed>(max_height))
height = max_height;
// we apply aspect ratios before incrementals
// Too difficult to exactly satisfy both incremental+aspect
// in most situations
// (they really shouldn't happen at the same time anyway).
/* aspect ratios are applied exclusive to the base_width
*
* min_aspect_x width max_aspect_x
* ------------ < ------- < ------------
* min_aspect_y height max_aspect_y
*
* beware of integer maximum (so I'll use doubles instead and divide)
*
* The trick is how to get back to the aspect ratio with minimal
* change - do we modify x, y or both?
* A: we minimise the distance between the current point, and
* the target aspect ratio (consider them as x,y coordinates)
* Consider that the aspect ratio is a line, and the current
* w/h is a point, so we're just using the formula for
* shortest distance from a point to a line!
*
* When maximizing, we must not increase any of the sizes, because we
* would end up with the window partly off a screen, so a simpler formula
* is used in that case.
*/
if (min_aspect_y > 0 && max_aspect_y > 0 &&
(height - base_height) > 0) {
double widthd = static_cast<double>(width - base_width);
double heightd = static_cast<double>(height - base_height);
double min = static_cast<double>(min_aspect_x) /
static_cast<double>(min_aspect_y);
double max = static_cast<double>(max_aspect_x) /
static_cast<double>(max_aspect_y);
double actual = widthd / heightd;
if (max > 0 && min > 0 && actual > 0) { // don't even try otherwise
bool changed = false;
if (actual < min) {
changed = true;
if (maximizing)
heightd = widthd / min;
else
closestPointToLine(widthd, heightd, widthd, heightd, min);
} else if (actual > max) {
changed = true;
if (maximizing)
widthd = heightd * max;
else
closestPointToLine(widthd, heightd, widthd, heightd, max);
}
if (changed) {
width = static_cast<int>(widthd) + base_width;
height = static_cast<int>(heightd) + base_height;
}
}
}
// enforce incremental size limits, wrt base size
// only calculate this if we really need to
i = (width - static_cast<signed>(base_width)) /
static_cast<signed>(width_inc);
width = i*static_cast<signed>(width_inc) +
static_cast<signed>(base_width);
j = (height - static_cast<signed>(base_height)) /
static_cast<signed>(height_inc);
height = j*static_cast<signed>(height_inc) +
static_cast<signed>(base_height);
if (display_width)
*display_width = i;
if (display_height)
*display_height = j;
}
void WinClient::removeTransientFromWaitingList() {
// holds the windows that dont have empty
// transient waiting list
list<Window> remove_list;
// The worst case complexity is huge, but since we usually do not (virtualy never)
// have a large transient waiting list the time spent here is neglectable
TransientWaitMap::iterator t_it = s_transient_wait.begin();
TransientWaitMap::iterator t_it_end = s_transient_wait.end();
for (; t_it != t_it_end; ++t_it) {
(*t_it).second.remove(this);
// if the list is empty, add it to remove list
// so we can erase it later
if ((*t_it).second.empty())
remove_list.push_back((*t_it).first);
}
// erase empty waiting lists
list<Window>::iterator it = remove_list.begin();
list<Window>::iterator it_end = remove_list.end();
for (; it != it_end; ++it)
s_transient_wait.erase(*it);
}
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