kwin/effects/wobblywindows/wobblywindows.cpp
2011-01-31 20:07:03 +01:00

1195 lines
39 KiB
C++

/*****************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2008 Cédric Borgese <cedric.borgese@gmail.com>
You can Freely distribute this program under the GNU General Public
License. See the file "COPYING" for the exact licensing terms.
******************************************************************/
#include "wobblywindows.h"
#include <kdebug.h>
#include <kconfiggroup.h>
#include <math.h>
#define USE_ASSERT
#ifdef USE_ASSERT
#define ASSERT1 assert
#else
#define ASSERT1
#endif
//#define COMPUTE_STATS
// if you enable it and run kwin in a terminal from the session it manages,
// be sure to redirect the output of kwin in a file or
// you'll propably get deadlocks.
//#define VERBOSE_MODE
#if defined COMPUTE_STATS && !defined VERBOSE_MODE
# ifdef __GNUC__
# warning "You enable COMPUTE_STATS without VERBOSE_MODE, computed stats will not be printed."
# endif
#endif
namespace KWin
{
static const qreal STIFFNESS = 0.15;
static const qreal DRAG = 0.80;
static const qreal MOVEFACTOR = 0.10;
static const int XTESSELATION = 20;
static const int YTESSELATION = 20;
static const qreal MINVELOCITY = 0.0;
static const qreal MAXVELOCITY = 1000.0;
static const qreal STOPVELOCITY = 0.5;
static const qreal MINACCELERATION = 0.0;
static const qreal MAXACCELERATION = 1000.0;
static const qreal STOPACCELERATION = 5.0;
struct ParameterSet {
qreal stiffness;
qreal drag;
qreal move_factor;
qreal xTesselation;
qreal yTesselation;
qreal minVelocity;
qreal maxVelocity;
qreal stopVelocity;
qreal minAcceleration;
qreal maxAcceleration;
qreal stopAcceleration;
bool moveEffectEnabled;
bool openEffectEnabled;
bool closeEffectEnabled;
};
static const ParameterSet set_0 = {
0.15,
0.80,
0.10,
20.0,
20.0,
0.0,
1000.0,
0.5,
0.0,
1000.0,
0.5,
true,
false,
false
};
static const ParameterSet set_1 = {
0.10,
0.85,
0.10,
20.0,
20.0,
0.0,
1000.0,
0.5,
0.0,
1000.0,
0.5,
true,
false,
false
};
static const ParameterSet set_2 = {
0.06,
0.90,
0.10,
20.0,
20.0,
0.0,
1000.0,
0.5,
0.0,
1000.0,
0.5,
true,
false,
false
};
static const ParameterSet set_3 = {
0.03,
0.92,
0.20,
20.0,
20.0,
0.0,
1000.0,
0.5,
0.0,
1000.0,
0.5,
true,
false,
false
};
static const ParameterSet set_4 = {
0.01,
0.97,
0.25,
20.0,
20.0,
0.0,
1000.0,
0.5,
0.0,
1000.0,
0.5,
true,
false,
false
};
static const ParameterSet pset[5] = { set_0, set_1, set_2, set_3, set_4 };
KWIN_EFFECT(wobblywindows, WobblyWindowsEffect)
KWIN_EFFECT_SUPPORTED(wobblywindows, WobblyWindowsEffect::supported())
WobblyWindowsEffect::WobblyWindowsEffect()
{
reconfigure(ReconfigureAll);
}
WobblyWindowsEffect::~WobblyWindowsEffect()
{
if (!windows.empty()) {
// we should be empty at this point...
// emit a warning and clean the list.
kDebug(1212) << "Windows list not empty. Left items : " << windows.count();
QHash< const EffectWindow*, WindowWobblyInfos >::iterator i;
for (i = windows.begin(); i != windows.end(); ++i) {
freeWobblyInfo(i.value());
}
}
}
void WobblyWindowsEffect::reconfigure(ReconfigureFlags)
{
KConfigGroup conf = effects->effectConfig("Wobbly");
QString settingsMode = conf.readEntry("Settings", "Auto");
if (settingsMode != "Custom") {
unsigned int wobblynessLevel = conf.readEntry("WobblynessLevel", 0);
if (wobblynessLevel > 4) {
kDebug(1212) << "Wrong value for \"WobblynessLevel\" : " << wobblynessLevel;
wobblynessLevel = 4;
}
setParameterSet(pset[wobblynessLevel]);
if (conf.readEntry("AdvancedMode", false)) {
m_stiffness = conf.readEntry("Stiffness", STIFFNESS * 100.0) / 100.0;
m_drag = conf.readEntry("Drag", DRAG * 100.0) / 100.0;
m_move_factor = conf.readEntry("MoveFactor", MOVEFACTOR * 100.0) / 100.0;
}
} else { // Custom method, read all values from config file.
m_stiffness = conf.readEntry("Stiffness", STIFFNESS);
m_drag = conf.readEntry("Drag", DRAG);
m_move_factor = conf.readEntry("MoveFactor", MOVEFACTOR);
m_xTesselation = conf.readEntry("XTesselation", XTESSELATION);
m_yTesselation = conf.readEntry("YTesselation", YTESSELATION);
m_minVelocity = conf.readEntry("MinVelocity", MINVELOCITY);
m_maxVelocity = conf.readEntry("MaxVelocity", MAXVELOCITY);
m_stopVelocity = conf.readEntry("StopVelocity", STOPVELOCITY);
m_minAcceleration = conf.readEntry("MinAcceleration", MINACCELERATION);
m_maxAcceleration = conf.readEntry("MaxAcceleration", MAXACCELERATION);
m_stopAcceleration = conf.readEntry("StopAcceleration", STOPACCELERATION);
m_moveEffectEnabled = conf.readEntry("MoveEffect", true);
m_openEffectEnabled = conf.readEntry("OpenEffect", false);
// disable close effect by default for now as it doesn't do what I want.
m_closeEffectEnabled = conf.readEntry("CloseEffect", false);
}
m_moveWobble = conf.readEntry("MoveWobble", true);
m_resizeWobble = conf.readEntry("ResizeWobble", true);
#if defined VERBOSE_MODE
kDebug(1212) << "Parameters :\n" <<
"move : " << m_moveEffectEnabled << ", open : " << m_openEffectEnabled << ", close : " << m_closeEffectEnabled << "\n"
"grid(" << m_stiffness << ", " << m_drag << ", " << m_move_factor << ")\n" <<
"velocity(" << m_minVelocity << ", " << m_maxVelocity << ", " << m_stopVelocity << ")\n" <<
"acceleration(" << m_minAcceleration << ", " << m_maxAcceleration << ", " << m_stopAcceleration << ")\n" <<
"tesselation(" << m_xTesselation << ", " << m_yTesselation << ")";
#endif
}
bool WobblyWindowsEffect::supported()
{
return effects->compositingType() == OpenGLCompositing;
}
void WobblyWindowsEffect::setParameterSet(const ParameterSet& pset)
{
m_stiffness = pset.stiffness;
m_drag = pset.drag;
m_move_factor = pset.move_factor;
m_xTesselation = pset.xTesselation;
m_yTesselation = pset.yTesselation;
m_minVelocity = pset.minVelocity;
m_maxVelocity = pset.maxVelocity;
m_stopVelocity = pset.stopVelocity;
m_minAcceleration = pset.minAcceleration;
m_maxAcceleration = pset.maxAcceleration;
m_stopAcceleration = pset.stopAcceleration;
m_moveEffectEnabled = pset.moveEffectEnabled;
m_openEffectEnabled = pset.openEffectEnabled;
m_closeEffectEnabled = pset.closeEffectEnabled;
}
void WobblyWindowsEffect::setVelocityThreshold(qreal m_minVelocity)
{
this->m_minVelocity = m_minVelocity;
}
void WobblyWindowsEffect::setMoveFactor(qreal factor)
{
m_move_factor = factor;
}
void WobblyWindowsEffect::setStiffness(qreal stiffness)
{
m_stiffness = stiffness;
}
void WobblyWindowsEffect::setDrag(qreal drag)
{
m_drag = drag;
}
void WobblyWindowsEffect::prePaintScreen(ScreenPrePaintData& data, int time)
{
// We need to mark the screen windows as transformed. Otherwise the whole
// screen won't be repainted, resulting in artefacts.
// Could we just set a subset of the screen to be repainted ?
if (windows.count() != 0) {
data.mask |= PAINT_SCREEN_WITH_TRANSFORMED_WINDOWS_WITHOUT_FULL_REPAINTS;
m_updateRegion = QRegion();
}
effects->prePaintScreen(data, time);
}
const qreal maxTime = 10.0;
void WobblyWindowsEffect::prePaintWindow(EffectWindow* w, WindowPrePaintData& data, int time)
{
if (windows.contains(w)) {
data.setTransformed();
data.quads = data.quads.makeRegularGrid(m_xTesselation, m_yTesselation);
bool stop = false;
qreal updateTime = time;
while (!stop && (updateTime > maxTime)) {
#if defined VERBOSE_MODE
kDebug(1212) << "loop time " << updateTime << " / " << time;
#endif
stop = !updateWindowWobblyDatas(w, maxTime);
updateTime -= maxTime;
}
if (!stop && updateTime > 0) {
updateWindowWobblyDatas(w, updateTime);
}
}
effects->prePaintWindow(w, data, time);
}
void WobblyWindowsEffect::paintWindow(EffectWindow* w, int mask, QRegion region, WindowPaintData& data)
{
if (windows.contains(w)) {
WindowWobblyInfos& wwi = windows[w];
int tx = w->geometry().x();
int ty = w->geometry().y();
double left = 0.0;
double top = 0.0;
double right = w->width();
double bottom = w->height();
for (int i = 0; i < data.quads.count(); ++i) {
for (int j = 0; j < 4; ++j) {
WindowVertex& v = data.quads[i][j];
Pair oldPos = {tx + v.x(), ty + v.y()};
Pair newPos = computeBezierPoint(wwi, oldPos);
v.move(newPos.x - tx, newPos.y - ty);
}
left = qMin(left, data.quads[i].left());
top = qMin(top, data.quads[i].top());
right = qMax(right, data.quads[i].right());
bottom = qMax(bottom, data.quads[i].bottom());
}
m_updateRegion = m_updateRegion.united(QRect(w->x() + left, w->y() + top,
right - left, bottom - top));
}
// Call the next effect.
effects->paintWindow(w, mask, region, data);
}
void WobblyWindowsEffect::postPaintScreen()
{
if (!windows.isEmpty()) {
effects->addRepaint(m_updateRegion);
}
// Call the next effect.
effects->postPaintScreen();
}
void WobblyWindowsEffect::windowUserMovedResized(EffectWindow* w, bool first, bool last)
{
if (!m_moveEffectEnabled || w->isSpecialWindow())
return;
if (first) {
if (last && m_moveWobble && m_resizeWobble) {
// both first and last - a step change like Maximize
stepMovedResized(w);
} else if ((w->isUserMove() && m_moveWobble) || (w->isUserResize() && m_resizeWobble)) {
startMovedResized(w);
}
}
if (last) {
if (windows.contains(w)) {
WindowWobblyInfos& wwi = windows[w];
wwi.status = Free;
}
}
if (windows.contains(w)) {
WindowWobblyInfos& wwi = windows[w];
QRect rect = w->geometry();
if (rect.y() != wwi.resize_original_rect.y()) wwi.can_wobble_top = true;
if (rect.x() != wwi.resize_original_rect.x()) wwi.can_wobble_left = true;
if (rect.right() != wwi.resize_original_rect.right()) wwi.can_wobble_right = true;
if (rect.bottom() != wwi.resize_original_rect.bottom()) wwi.can_wobble_bottom = true;
}
}
void WobblyWindowsEffect::startMovedResized(EffectWindow* w)
{
if (!windows.contains(w)) {
WindowWobblyInfos new_wwi;
initWobblyInfo(new_wwi, w->geometry());
windows[w] = new_wwi;
}
WindowWobblyInfos& wwi = windows[w];
wwi.status = Moving;
const QRectF& rect = w->geometry();
qreal x_increment = rect.width() / (wwi.width - 1.0);
qreal y_increment = rect.height() / (wwi.height - 1.0);
Pair picked = {cursorPos().x(), cursorPos().y()};
int indx = (picked.x - rect.x()) / x_increment + 0.5;
int indy = (picked.y - rect.y()) / y_increment + 0.5;
int pickedPointIndex = indy * wwi.width + indx;
if (pickedPointIndex < 0) {
kDebug(1212) << "Picked index == " << pickedPointIndex << " with (" << cursorPos().x() << "," << cursorPos().y() << ")";
pickedPointIndex = 0;
} else if (static_cast<unsigned int>(pickedPointIndex) > wwi.count - 1) {
kDebug(1212) << "Picked index == " << pickedPointIndex << " with (" << cursorPos().x() << "," << cursorPos().y() << ")";
pickedPointIndex = wwi.count - 1;
}
#if defined VERBOSE_MODE
kDebug(1212) << "Original Picked point -- x : " << picked.x << " - y : " << picked.y;
#endif
wwi.constraint[pickedPointIndex] = true;
if (w->isUserResize()) {
// on a resize, do not allow any edges to wobble until it has been moved from
// its original location
wwi.can_wobble_top = wwi.can_wobble_left = wwi.can_wobble_right = wwi.can_wobble_bottom = false;
wwi.resize_original_rect = w->geometry();
} else {
wwi.can_wobble_top = wwi.can_wobble_left = wwi.can_wobble_right = wwi.can_wobble_bottom = true;
}
}
void WobblyWindowsEffect::stepMovedResized(EffectWindow* w)
{
QRect new_geometry = w->geometry();
if (!windows.contains(w)) {
WindowWobblyInfos new_wwi;
initWobblyInfo(new_wwi, new_geometry);
windows[w] = new_wwi;
}
WindowWobblyInfos& wwi = windows[w];
wwi.status = Free;
QRect maximized_area = effects->clientArea(MaximizeArea, w);
bool throb_direction_out = (new_geometry.top() == maximized_area.top() && new_geometry.bottom() == maximized_area.bottom()) ||
(new_geometry.left() == maximized_area.left() && new_geometry.right() == maximized_area.right());
qreal magnitude = throb_direction_out ? 10 : -30; // a small throb out when maximized, a larger throb inwards when restored
for (unsigned int j = 0; j < wwi.height; ++j) {
for (unsigned int i = 0; i < wwi.width; ++i) {
Pair v = { magnitude*(i / qreal(wwi.width - 1) - 0.5), magnitude*(j / qreal(wwi.height - 1) - 0.5) };
wwi.velocity[j*wwi.width+i] = v;
}
}
// constrain the middle of the window, so that any asymetry wont cause it to drift off-center
for (unsigned int j = 1; j < wwi.height - 1; ++j) {
for (unsigned int i = 1; i < wwi.width - 1; ++i) {
wwi.constraint[j*wwi.width+i] = true;
}
}
}
void WobblyWindowsEffect::windowAdded(EffectWindow* w)
{
if (m_openEffectEnabled && w->data(WindowAddedGrabRole).value<void*>() != this) {
if (windows.contains(w)) {
// could this happen ??
WindowWobblyInfos& wwi = windows[w];
wobblyOpenInit(wwi);
} else {
WindowWobblyInfos new_wwi;
initWobblyInfo(new_wwi, w->geometry());
wobblyOpenInit(new_wwi);
windows[w] = new_wwi;
}
}
}
void WobblyWindowsEffect::windowClosed(EffectWindow* w)
{
if (windows.contains(w)) {
WindowWobblyInfos& wwi = windows[w];
if (m_closeEffectEnabled) {
wobblyCloseInit(wwi, w);
w->refWindow();
} else {
freeWobblyInfo(wwi);
windows.remove(w);
if (windows.isEmpty())
effects->addRepaintFull();
}
} else if (m_closeEffectEnabled && w->data(WindowAddedGrabRole).value<void*>() != this) {
WindowWobblyInfos new_wwi;
initWobblyInfo(new_wwi, w->geometry());
wobblyCloseInit(new_wwi, w);
windows[w] = new_wwi;
w->refWindow();
}
}
void WobblyWindowsEffect::wobblyOpenInit(WindowWobblyInfos& wwi) const
{
Pair middle = { (wwi.origin[0].x + wwi.origin[15].x) / 2, (wwi.origin[0].y + wwi.origin[15].y) / 2 };
for (unsigned int j = 0; j < 4; ++j) {
for (unsigned int i = 0; i < 4; ++i) {
unsigned int idx = j * 4 + i;
wwi.constraint[idx] = false;
wwi.position[idx].x = (wwi.position[idx].x + 3 * middle.x) / 4;
wwi.position[idx].y = (wwi.position[idx].y + 3 * middle.y) / 4;
}
}
wwi.status = Openning;
wwi.can_wobble_top = wwi.can_wobble_left = wwi.can_wobble_right = wwi.can_wobble_bottom = true;
}
void WobblyWindowsEffect::wobblyCloseInit(WindowWobblyInfos& wwi, EffectWindow* w) const
{
const QRectF& rect = w->geometry();
QPointF center = rect.center();
int x1 = (rect.x() + 3 * center.x()) / 4;
int x2 = (rect.x() + rect.width() + 3 * center.x()) / 4;
int y1 = (rect.y() + 3 * center.y()) / 4;
int y2 = (rect.y() + rect.height() + 3 * center.y()) / 4;
wwi.closeRect.setCoords(x1, y1, x2, y2);
// for closing, not yet used...
for (unsigned int j = 0; j < 4; ++j) {
for (unsigned int i = 0; i < 4; ++i) {
unsigned int idx = j * 4 + i;
wwi.constraint[idx] = false;
}
}
wwi.status = Closing;
}
void WobblyWindowsEffect::initWobblyInfo(WindowWobblyInfos& wwi, QRect geometry) const
{
wwi.count = 4 * 4;
wwi.width = 4;
wwi.height = 4;
wwi.bezierWidth = m_xTesselation;
wwi.bezierHeight = m_yTesselation;
wwi.bezierCount = m_xTesselation * m_yTesselation;
wwi.origin = new Pair[wwi.count];
wwi.position = new Pair[wwi.count];
wwi.velocity = new Pair[wwi.count];
wwi.acceleration = new Pair[wwi.count];
wwi.buffer = new Pair[wwi.count];
wwi.constraint = new bool[wwi.count];
wwi.bezierSurface = new Pair[wwi.bezierCount];
wwi.status = Moving;
qreal x = geometry.x(), y = geometry.y();
qreal width = geometry.width(), height = geometry.height();
Pair initValue = {x, y};
static const Pair nullPair = {0.0, 0.0};
qreal x_increment = width / (wwi.width - 1.0);
qreal y_increment = height / (wwi.height - 1.0);
for (unsigned int j = 0; j < 4; ++j) {
for (unsigned int i = 0; i < 4; ++i) {
unsigned int idx = j * 4 + i;
wwi.origin[idx] = initValue;
wwi.position[idx] = initValue;
wwi.velocity[idx] = nullPair;
wwi.constraint[idx] = false;
if (i != 4 - 2) { // x grid count - 2, i.e. not the last point
initValue.x += x_increment;
} else {
initValue.x = width + x;
}
initValue.x = initValue.x;
}
initValue.x = x;
initValue.x = initValue.x;
if (j != 4 - 2) { // y grid count - 2, i.e. not the last point
initValue.y += y_increment;
} else {
initValue.y = height + y;
}
initValue.y = initValue.y;
}
}
void WobblyWindowsEffect::freeWobblyInfo(WindowWobblyInfos& wwi) const
{
delete[] wwi.origin;
delete[] wwi.position;
delete[] wwi.velocity;
delete[] wwi.acceleration;
delete[] wwi.buffer;
delete[] wwi.constraint;
delete[] wwi.bezierSurface;
}
WobblyWindowsEffect::Pair WobblyWindowsEffect::computeBezierPoint(const WindowWobblyInfos& wwi, Pair point) const
{
// compute the input value
Pair topleft = wwi.origin[0];
Pair bottomright = wwi.origin[wwi.count-1];
// ASSERT1(point.x >= topleft.x);
// ASSERT1(point.y >= topleft.y);
// ASSERT1(point.x <= bottomright.x);
// ASSERT1(point.y <= bottomright.y);
qreal tx = (point.x - topleft.x) / (bottomright.x - topleft.x);
qreal ty = (point.y - topleft.y) / (bottomright.y - topleft.y);
// ASSERT1(tx >= 0);
// ASSERT1(tx <= 1);
// ASSERT1(ty >= 0);
// ASSERT1(ty <= 1);
// compute polynomial coeff
qreal px[4];
px[0] = (1 - tx) * (1 - tx) * (1 - tx);
px[1] = 3 * (1 - tx) * (1 - tx) * tx;
px[2] = 3 * (1 - tx) * tx * tx;
px[3] = tx * tx * tx;
qreal py[4];
py[0] = (1 - ty) * (1 - ty) * (1 - ty);
py[1] = 3 * (1 - ty) * (1 - ty) * ty;
py[2] = 3 * (1 - ty) * ty * ty;
py[3] = ty * ty * ty;
Pair res = {0.0, 0.0};
for (unsigned int j = 0; j < 4; ++j) {
for (unsigned int i = 0; i < 4; ++i) {
// this assume the grid is 4*4
res.x += px[i] * py[j] * wwi.position[i + j * wwi.width].x;
res.y += px[i] * py[j] * wwi.position[i + j * wwi.width].y;
}
}
return res;
}
namespace
{
static inline void fixVectorBounds(WobblyWindowsEffect::Pair& vec, qreal min, qreal max)
{
if (fabs(vec.x) < min) {
vec.x = 0.0;
} else if (fabs(vec.x) > max) {
if (vec.x > 0.0) {
vec.x = max;
} else {
vec.x = -max;
}
}
if (fabs(vec.y) < min) {
vec.y = 0.0;
} else if (fabs(vec.y) > max) {
if (vec.y > 0.0) {
vec.y = max;
} else {
vec.y = -max;
}
}
}
static inline void computeVectorBounds(WobblyWindowsEffect::Pair& vec, WobblyWindowsEffect::Pair& bound)
{
if (fabs(vec.x) < bound.x) {
bound.x = fabs(vec.x);
} else if (fabs(vec.x) > bound.y) {
bound.y = fabs(vec.x);
}
if (fabs(vec.y) < bound.x) {
bound.x = fabs(vec.y);
} else if (fabs(vec.y) > bound.y) {
bound.y = fabs(vec.y);
}
}
} // close the anonymous namespace
bool WobblyWindowsEffect::updateWindowWobblyDatas(EffectWindow* w, qreal time)
{
QRectF rect = w->geometry();
WindowWobblyInfos& wwi = windows[w];
if (wwi.status == Closing) {
rect = wwi.closeRect;
}
qreal x_length = rect.width() / (wwi.width - 1.0);
qreal y_length = rect.height() / (wwi.height - 1.0);
#if defined VERBOSE_MODE
kDebug(1212) << "time " << time;
kDebug(1212) << "increment x " << x_length << " // y" << y_length;
#endif
Pair origine = {rect.x(), rect.y()};
for (unsigned int j = 0; j < wwi.height; ++j) {
for (unsigned int i = 0; i < wwi.width; ++i) {
wwi.origin[wwi.width*j + i] = origine;
if (i != wwi.width - 2) {
origine.x += x_length;
} else {
origine.x = rect.width() + rect.x();
}
}
origine.x = rect.x();
if (j != wwi.height - 2) {
origine.y += y_length;
} else {
origine.y = rect.height() + rect.y();
}
}
Pair neibourgs[4];
Pair acceleration;
qreal acc_sum = 0.0;
qreal vel_sum = 0.0;
// compute acceleration, velocity and position for each point
// for corners
// top-left
if (wwi.constraint[0]) {
Pair window_pos = wwi.origin[0];
Pair current_pos = wwi.position[0];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[0] = accel;
} else {
Pair& pos = wwi.position[0];
neibourgs[0] = wwi.position[1];
neibourgs[1] = wwi.position[wwi.width];
acceleration.x = ((neibourgs[0].x - pos.x) - x_length) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness;
acceleration.y = ((neibourgs[1].y - pos.y) - y_length) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 2;
acceleration.y /= 2;
wwi.acceleration[0] = acceleration;
}
// top-right
if (wwi.constraint[wwi.width-1]) {
Pair window_pos = wwi.origin[wwi.width-1];
Pair current_pos = wwi.position[wwi.width-1];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[wwi.width-1] = accel;
} else {
Pair& pos = wwi.position[wwi.width-1];
neibourgs[0] = wwi.position[wwi.width-2];
neibourgs[1] = wwi.position[2*wwi.width-1];
acceleration.x = (x_length - (pos.x - neibourgs[0].x)) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness;
acceleration.y = ((neibourgs[1].y - pos.y) - y_length) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 2;
acceleration.y /= 2;
wwi.acceleration[wwi.width-1] = acceleration;
}
// bottom-left
if (wwi.constraint[wwi.width*(wwi.height-1)]) {
Pair window_pos = wwi.origin[wwi.width*(wwi.height-1)];
Pair current_pos = wwi.position[wwi.width*(wwi.height-1)];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[wwi.width*(wwi.height-1)] = accel;
} else {
Pair& pos = wwi.position[wwi.width*(wwi.height-1)];
neibourgs[0] = wwi.position[wwi.width*(wwi.height-1)+1];
neibourgs[1] = wwi.position[wwi.width*(wwi.height-2)];
acceleration.x = ((neibourgs[0].x - pos.x) - x_length) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[1].y)) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 2;
acceleration.y /= 2;
wwi.acceleration[wwi.width*(wwi.height-1)] = acceleration;
}
// bottom-right
if (wwi.constraint[wwi.count-1]) {
Pair window_pos = wwi.origin[wwi.count-1];
Pair current_pos = wwi.position[wwi.count-1];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[wwi.count-1] = accel;
} else {
Pair& pos = wwi.position[wwi.count-1];
neibourgs[0] = wwi.position[wwi.count-2];
neibourgs[1] = wwi.position[wwi.width*(wwi.height-1)-1];
acceleration.x = (x_length - (pos.x - neibourgs[0].x)) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[1].y)) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 2;
acceleration.y /= 2;
wwi.acceleration[wwi.count-1] = acceleration;
}
// for borders
// top border
for (unsigned int i = 1; i < wwi.width - 1; ++i) {
if (wwi.constraint[i]) {
Pair window_pos = wwi.origin[i];
Pair current_pos = wwi.position[i];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[i] = accel;
} else {
Pair& pos = wwi.position[i];
neibourgs[0] = wwi.position[i-1];
neibourgs[1] = wwi.position[i+1];
neibourgs[2] = wwi.position[i+wwi.width];
acceleration.x = (x_length - (pos.x - neibourgs[0].x)) * m_stiffness + ((neibourgs[1].x - pos.x) - x_length) * m_stiffness + (neibourgs[2].x - pos.x) * m_stiffness;
acceleration.y = ((neibourgs[2].y - pos.y) - y_length) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness + (neibourgs[1].y - pos.y) * m_stiffness;
acceleration.x /= 3;
acceleration.y /= 3;
wwi.acceleration[i] = acceleration;
}
}
// bottom border
for (unsigned int i = wwi.width * (wwi.height - 1) + 1; i < wwi.count - 1; ++i) {
if (wwi.constraint[i]) {
Pair window_pos = wwi.origin[i];
Pair current_pos = wwi.position[i];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[i] = accel;
} else {
Pair& pos = wwi.position[i];
neibourgs[0] = wwi.position[i-1];
neibourgs[1] = wwi.position[i+1];
neibourgs[2] = wwi.position[i-wwi.width];
acceleration.x = (x_length - (pos.x - neibourgs[0].x)) * m_stiffness + ((neibourgs[1].x - pos.x) - x_length) * m_stiffness + (neibourgs[2].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[2].y)) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness + (neibourgs[1].y - pos.y) * m_stiffness;
acceleration.x /= 3;
acceleration.y /= 3;
wwi.acceleration[i] = acceleration;
}
}
// left border
for (unsigned int i = wwi.width; i < wwi.width*(wwi.height - 1); i += wwi.width) {
if (wwi.constraint[i]) {
Pair window_pos = wwi.origin[i];
Pair current_pos = wwi.position[i];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[i] = accel;
} else {
Pair& pos = wwi.position[i];
neibourgs[0] = wwi.position[i+1];
neibourgs[1] = wwi.position[i-wwi.width];
neibourgs[2] = wwi.position[i+wwi.width];
acceleration.x = ((neibourgs[0].x - pos.x) - x_length) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness + (neibourgs[2].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[1].y)) * m_stiffness + ((neibourgs[2].y - pos.y) - y_length) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 3;
acceleration.y /= 3;
wwi.acceleration[i] = acceleration;
}
}
// right border
for (unsigned int i = 2 * wwi.width - 1; i < wwi.count - 1; i += wwi.width) {
if (wwi.constraint[i]) {
Pair window_pos = wwi.origin[i];
Pair current_pos = wwi.position[i];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[i] = accel;
} else {
Pair& pos = wwi.position[i];
neibourgs[0] = wwi.position[i-1];
neibourgs[1] = wwi.position[i-wwi.width];
neibourgs[2] = wwi.position[i+wwi.width];
acceleration.x = (x_length - (pos.x - neibourgs[0].x)) * m_stiffness + (neibourgs[1].x - pos.x) * m_stiffness + (neibourgs[2].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[1].y)) * m_stiffness + ((neibourgs[2].y - pos.y) - y_length) * m_stiffness + (neibourgs[0].y - pos.y) * m_stiffness;
acceleration.x /= 3;
acceleration.y /= 3;
wwi.acceleration[i] = acceleration;
}
}
// for the inner points
for (unsigned int j = 1; j < wwi.height - 1; ++j) {
for (unsigned int i = 1; i < wwi.width - 1; ++i) {
unsigned int index = i + j * wwi.width;
if (wwi.constraint[index]) {
Pair window_pos = wwi.origin[index];
Pair current_pos = wwi.position[index];
Pair move = {window_pos.x - current_pos.x, window_pos.y - current_pos.y};
Pair accel = {move.x*m_stiffness, move.y*m_stiffness};
wwi.acceleration[index] = accel;
} else {
Pair& pos = wwi.position[index];
neibourgs[0] = wwi.position[index-1];
neibourgs[1] = wwi.position[index+1];
neibourgs[2] = wwi.position[index-wwi.width];
neibourgs[3] = wwi.position[index+wwi.width];
acceleration.x = ((neibourgs[0].x - pos.x) - x_length) * m_stiffness +
(x_length - (pos.x - neibourgs[1].x)) * m_stiffness +
(neibourgs[2].x - pos.x) * m_stiffness +
(neibourgs[3].x - pos.x) * m_stiffness;
acceleration.y = (y_length - (pos.y - neibourgs[2].y)) * m_stiffness +
((neibourgs[3].y - pos.y) - y_length) * m_stiffness +
(neibourgs[0].y - pos.y) * m_stiffness +
(neibourgs[1].y - pos.y) * m_stiffness;
acceleration.x /= 4;
acceleration.y /= 4;
wwi.acceleration[index] = acceleration;
}
}
}
heightRingLinearMean(&wwi.acceleration, wwi);
#if defined COMPUTE_STATS
Pair accBound = {m_maxAcceleration, m_minAcceleration};
Pair velBound = {m_maxVelocity, m_minVelocity};
#endif
// compute the new velocity of each vertex.
for (unsigned int i = 0; i < wwi.count; ++i) {
Pair acc = wwi.acceleration[i];
fixVectorBounds(acc, m_minAcceleration, m_maxAcceleration);
#if defined COMPUTE_STATS
computeVectorBounds(acc, accBound);
#endif
Pair& vel = wwi.velocity[i];
vel.x = acc.x * time + vel.x * m_drag;
vel.y = acc.y * time + vel.y * m_drag;
acc_sum += fabs(acc.x) + fabs(acc.y);
}
heightRingLinearMean(&wwi.velocity, wwi);
// compute the new pos of each vertex.
for (unsigned int i = 0; i < wwi.count; ++i) {
Pair& pos = wwi.position[i];
Pair& vel = wwi.velocity[i];
fixVectorBounds(vel, m_minVelocity, m_maxVelocity);
#if defined COMPUTE_STATS
computeVectorBounds(vel, velBound);
#endif
pos.x += vel.x * time * m_move_factor;
pos.y += vel.y * time * m_move_factor;
vel_sum += fabs(vel.x) + fabs(vel.y);
#if defined VERBOSE_MODE
if (wwi.constraint[i]) {
kDebug(1212) << "Constraint point ** vel : " << vel.x << "," << vel.y << " ** move : " << vel.x*time << "," << vel.y*time;
}
#endif
}
if (!wwi.can_wobble_top) {
for (unsigned int i = 0; i < wwi.width; ++i)
for (unsigned j = 0; j < wwi.width - 1; ++j)
wwi.position[i+wwi.width*j].y = wwi.origin[i+wwi.width*j].y;
}
if (!wwi.can_wobble_bottom) {
for (unsigned int i = wwi.width * (wwi.height - 1); i < wwi.count; ++i)
for (unsigned j = 0; j < wwi.width - 1; ++j)
wwi.position[i-wwi.width*j].y = wwi.origin[i-wwi.width*j].y;
}
if (!wwi.can_wobble_left) {
for (unsigned int i = 0; i < wwi.count; i += wwi.width)
for (unsigned j = 0; j < wwi.width - 1; ++j)
wwi.position[i+j].x = wwi.origin[i+j].x;
}
if (!wwi.can_wobble_right) {
for (unsigned int i = wwi.width - 1; i < wwi.count; i += wwi.width)
for (unsigned j = 0; j < wwi.width - 1; ++j)
wwi.position[i-j].x = wwi.origin[i-j].x;
}
#if defined VERBOSE_MODE
# if defined COMPUTE_STATS
kDebug(1212) << "Acceleration bounds (" << accBound.x << ", " << accBound.y << ")";
kDebug(1212) << "Velocity bounds (" << velBound.x << ", " << velBound.y << ")";
# endif
kDebug(1212) << "sum_acc : " << acc_sum << " *** sum_vel :" << vel_sum;
#endif
if (wwi.status != Moving && acc_sum < m_stopAcceleration && vel_sum < m_stopVelocity) {
if (wwi.status == Closing) {
w->unrefWindow();
}
freeWobblyInfo(wwi);
windows.remove(w);
if (windows.isEmpty())
effects->addRepaintFull();
return false;
}
return true;
}
void WobblyWindowsEffect::heightRingLinearMean(Pair** data_pointer, WindowWobblyInfos& wwi)
{
Pair* data = *data_pointer;
Pair neibourgs[8];
// for corners
// top-left
{
Pair& res = wwi.buffer[0];
Pair vit = data[0];
neibourgs[0] = data[1];
neibourgs[1] = data[wwi.width];
neibourgs[2] = data[wwi.width+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + 3.0 * vit.x) / 6.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + 3.0 * vit.y) / 6.0;
}
// top-right
{
Pair& res = wwi.buffer[wwi.width-1];
Pair vit = data[wwi.width-1];
neibourgs[0] = data[wwi.width-2];
neibourgs[1] = data[2*wwi.width-1];
neibourgs[2] = data[2*wwi.width-2];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + 3.0 * vit.x) / 6.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + 3.0 * vit.y) / 6.0;
}
// bottom-left
{
Pair& res = wwi.buffer[wwi.width*(wwi.height-1)];
Pair vit = data[wwi.width*(wwi.height-1)];
neibourgs[0] = data[wwi.width*(wwi.height-1)+1];
neibourgs[1] = data[wwi.width*(wwi.height-2)];
neibourgs[2] = data[wwi.width*(wwi.height-2)+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + 3.0 * vit.x) / 6.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + 3.0 * vit.y) / 6.0;
}
// bottom-right
{
Pair& res = wwi.buffer[wwi.count-1];
Pair vit = data[wwi.count-1];
neibourgs[0] = data[wwi.count-2];
neibourgs[1] = data[wwi.width*(wwi.height-1)-1];
neibourgs[2] = data[wwi.width*(wwi.height-1)-2];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + 3.0 * vit.x) / 6.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + 3.0 * vit.y) / 6.0;
}
// for borders
// top border
for (unsigned int i = 1; i < wwi.width - 1; ++i) {
Pair& res = wwi.buffer[i];
Pair vit = data[i];
neibourgs[0] = data[i-1];
neibourgs[1] = data[i+1];
neibourgs[2] = data[i+wwi.width];
neibourgs[3] = data[i+wwi.width-1];
neibourgs[4] = data[i+wwi.width+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + neibourgs[3].x + neibourgs[4].x + 5.0 * vit.x) / 10.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + neibourgs[3].y + neibourgs[4].y + 5.0 * vit.y) / 10.0;
}
// bottom border
for (unsigned int i = wwi.width * (wwi.height - 1) + 1; i < wwi.count - 1; ++i) {
Pair& res = wwi.buffer[i];
Pair vit = data[i];
neibourgs[0] = data[i-1];
neibourgs[1] = data[i+1];
neibourgs[2] = data[i-wwi.width];
neibourgs[3] = data[i-wwi.width-1];
neibourgs[4] = data[i-wwi.width+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + neibourgs[3].x + neibourgs[4].x + 5.0 * vit.x) / 10.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + neibourgs[3].y + neibourgs[4].y + 5.0 * vit.y) / 10.0;
}
// left border
for (unsigned int i = wwi.width; i < wwi.width*(wwi.height - 1); i += wwi.width) {
Pair& res = wwi.buffer[i];
Pair vit = data[i];
neibourgs[0] = data[i+1];
neibourgs[1] = data[i-wwi.width];
neibourgs[2] = data[i+wwi.width];
neibourgs[3] = data[i-wwi.width+1];
neibourgs[4] = data[i+wwi.width+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + neibourgs[3].x + neibourgs[4].x + 5.0 * vit.x) / 10.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + neibourgs[3].y + neibourgs[4].y + 5.0 * vit.y) / 10.0;
}
// right border
for (unsigned int i = 2 * wwi.width - 1; i < wwi.count - 1; i += wwi.width) {
Pair& res = wwi.buffer[i];
Pair vit = data[i];
neibourgs[0] = data[i-1];
neibourgs[1] = data[i-wwi.width];
neibourgs[2] = data[i+wwi.width];
neibourgs[3] = data[i-wwi.width-1];
neibourgs[4] = data[i+wwi.width-1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + neibourgs[3].x + neibourgs[4].x + 5.0 * vit.x) / 10.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + neibourgs[3].y + neibourgs[4].y + 5.0 * vit.y) / 10.0;
}
// for the inner points
for (unsigned int j = 1; j < wwi.height - 1; ++j) {
for (unsigned int i = 1; i < wwi.width - 1; ++i) {
unsigned int index = i + j * wwi.width;
Pair& res = wwi.buffer[index];
Pair& vit = data[index];
neibourgs[0] = data[index-1];
neibourgs[1] = data[index+1];
neibourgs[2] = data[index-wwi.width];
neibourgs[3] = data[index+wwi.width];
neibourgs[4] = data[index-wwi.width-1];
neibourgs[5] = data[index-wwi.width+1];
neibourgs[6] = data[index+wwi.width-1];
neibourgs[7] = data[index+wwi.width+1];
res.x = (neibourgs[0].x + neibourgs[1].x + neibourgs[2].x + neibourgs[3].x + neibourgs[4].x + neibourgs[5].x + neibourgs[6].x + neibourgs[7].x + 8.0 * vit.x) / 16.0;
res.y = (neibourgs[0].y + neibourgs[1].y + neibourgs[2].y + neibourgs[3].y + neibourgs[4].y + neibourgs[5].y + neibourgs[6].y + neibourgs[7].y + 8.0 * vit.y) / 16.0;
}
}
Pair* tmp = data;
*data_pointer = wwi.buffer;
wwi.buffer = tmp;
}
} // namespace KWin