void
ExpandAnim::applyTransform ()
{
GLMatrix *transform = &mTransform;
float defaultXScale = 0.3f;
float forwardProgress;
float expandProgress;
const float expandPhaseEnd = 0.5f;
forwardProgress = getProgress ();
if ((1 - forwardProgress) < expandPhaseEnd)
expandProgress = (1 - forwardProgress) / expandPhaseEnd;
else
expandProgress = 1.0f;
// animation movement
transform->translate (WIN_X (mWindow) + WIN_W (mWindow) / 2.0f,
WIN_Y (mWindow) + WIN_H (mWindow) / 2.0f,
0.0f);
transform->scale (defaultXScale + (1.0f - defaultXScale) *
expandProgress,
(1 - forwardProgress), 0.0f);
transform->translate (-(WIN_X (mWindow) + WIN_W (mWindow) / 2.0f),
-(WIN_Y (mWindow) + WIN_H (mWindow) / 2.0f),
0.0f);
}
static void
getZoomCenterScaleFull (CompWindow *w,
Point *pCurCenter, Point *pCurScale,
Point *pWinCenter, Point *pIconCenter,
float *pRotateProgress)
{
ANIM_WINDOW(w);
Point winCenter =
{(WIN_X(w) + WIN_W(w) / 2.0),
(WIN_Y(w) + WIN_H(w) / 2.0)};
Point iconCenter =
{aw->com.icon.x + aw->com.icon.width / 2.0,
aw->com.icon.y + aw->com.icon.height / 2.0};
Point winSize =
{WIN_W(w), WIN_H(w)};
winSize.x = (winSize.x == 0 ? 1 : winSize.x);
winSize.y = (winSize.y == 0 ? 1 : winSize.y);
float scaleProgress;
float moveProgress;
float rotateProgress = 0;
if (aw->com.curAnimEffect == AnimEffectSidekick)
{
fxZoomAnimProgress (w, &moveProgress, &scaleProgress, FALSE);
rotateProgress = moveProgress;
}
else if (aw->com.curAnimEffect == AnimEffectZoom)
{
fxZoomAnimProgress (w, &moveProgress, &scaleProgress, FALSE);
}
else
{
// other effects use this for minimization
fxZoomAnimProgress (w, &moveProgress, &scaleProgress, TRUE);
}
Point curCenter =
{(1 - moveProgress) * winCenter.x + moveProgress * iconCenter.x,
(1 - moveProgress) * winCenter.y + moveProgress * iconCenter.y};
Point curScale =
{((1 - scaleProgress) * winSize.x + scaleProgress * aw->com.icon.width) /
winSize.x,
((1 - scaleProgress) * winSize.y + scaleProgress * aw->com.icon.height) /
winSize.y};
// Copy calculated variables
if (pCurCenter)
*pCurCenter = curCenter;
if (pCurScale)
*pCurScale = curScale;
if (pWinCenter)
*pWinCenter = winCenter;
if (pIconCenter)
*pIconCenter = iconCenter;
if (pRotateProgress)
*pRotateProgress = rotateProgress;
}
/* Fiil FB Info. */
static int win_fb_info_setup(struct jz_fb_win_info *win)
{
struct jz_fb_ctrl *ctrl = win->ctrl;
int rv;
strcpy(win->fb.fix.id, DRV_NAME);
win->fb.fix.type = FB_TYPE_PACKED_PIXELS;
win->fb.fix.type_aux = 0;
win->fb.fix.xpanstep = 0;
win->fb.fix.ypanstep = 1;
win->fb.fix.ywrapstep = 0;
win->fb.fix.accel = FB_ACCEL_NONE;
win->fb.fbops = &jz_fb_ops;
win->fb.flags = FBINFO_FLAG_DEFAULT;
win->fb.var.nonstd = 0;
win->fb.var.activate = FB_ACTIVATE_NOW;
win->fb.var.accel_flags = 0;
win->fb.var.vmode = FB_VMODE_NONINTERLACED;
win->fb.var.xres = WIN_W(win);
win->fb.var.yres = WIN_H(win);
win->fb.var.xres_virtual = WIN_W(win);
win->fb.var.yres_virtual = WIN_H(win);
win->fb.var.bits_per_pixel = WIN_BPP(win);
win->fb.var.xoffset = 0;
win->fb.var.yoffset = 0;
win->fb.var.pixclock = ctrl->pixclock;
win->fb.var.left_margin = 0;
win->fb.var.right_margin = 0;
win->fb.var.upper_margin = 0;
win->fb.var.lower_margin = 0;
win->fb.var.hsync_len = 0;
win->fb.var.vsync_len = 0;
win->fb.var.sync = 0;
win->fb.pseudo_palette = (void *)(win + 1);
rv = fb_info_set_color(&win->fb);
if (rv) {
return rv;
}
return rv;
}
/*
* Call the previous function for each of the 4 sides of the window
*/
static void snapMoveCheckEdges(CompWindow * w)
{
snapMoveCheckNearestEdge(w, WIN_X(w),
WIN_Y(w), WIN_Y(w) + WIN_H(w),
TRUE, RightEdge, HorizontalSnap);
snapMoveCheckNearestEdge(w, WIN_X(w) + WIN_W(w),
WIN_Y(w), WIN_Y(w) + WIN_H(w),
FALSE, LeftEdge, HorizontalSnap);
snapMoveCheckNearestEdge(w, WIN_Y(w),
WIN_X(w), WIN_X(w) + WIN_W(w),
TRUE, BottomEdge, VerticalSnap);
snapMoveCheckNearestEdge(w, WIN_Y(w) + WIN_H(w),
WIN_X(w), WIN_X(w) + WIN_W(w),
FALSE, TopEdge, VerticalSnap);
}
Bool
fxSidekickInit (CompWindow *w)
{
ANIM_WINDOW (w);
const BananaValue *
option_sidekick_num_rotations = bananaGetOption (bananaIndex,
"sidekick_num_rotations",
w->screen->screenNum);
// determine number of rotations randomly in [0.9, 1.1] range
aw->numZoomRotations =
option_sidekick_num_rotations->f *
(1.0f + 0.2f * rand () / RAND_MAX - 0.1f);
float winCenterX = WIN_X (w) + WIN_W (w) / 2.0;
float iconCenterX = aw->com.icon.x + aw->com.icon.width / 2.0;
// if window is to the right of icon, rotate clockwise instead
// to make rotation look more pleasant
if (winCenterX > iconCenterX)
aw->numZoomRotations *= -1;
return fxZoomInit (w);
}
static void
fxDodgeProcessSubject (CompWindow *wCur,
Region wRegion,
Region dodgeRegion,
Bool alwaysInclude)
{
XRectangle rect;
rect.x = WIN_X(wCur);
rect.y = WIN_Y(wCur);
rect.width = WIN_W(wCur);
rect.height = WIN_H(wCur);
Region wCurRegion = XCreateRegion();
if (!wCurRegion)
return;
XUnionRectWithRegion(&rect, &emptyRegion, wCurRegion);
if (!alwaysInclude)
{
Region intersectionRegion = XCreateRegion();
if (intersectionRegion)
{
XIntersectRegion(wRegion, wCurRegion,
intersectionRegion);
if (!XEmptyRegion(intersectionRegion))
XUnionRegion(dodgeRegion, wCurRegion, dodgeRegion);
XDestroyRegion (intersectionRegion);
}
}
else
XUnionRegion(dodgeRegion, wCurRegion, dodgeRegion);
XDestroyRegion (wCurRegion);
}
Bool
fxZoomInit (CompWindow * w)
{
ANIM_WINDOW(w);
if ((aw->com.curAnimEffect == AnimEffectSidekick &&
(animGetI (w, ANIM_SCREEN_OPTION_SIDEKICK_ZOOM_FROM_CENTER) ==
ZoomFromCenterOn ||
((aw->com.curWindowEvent == WindowEventMinimize ||
aw->com.curWindowEvent == WindowEventUnminimize) &&
animGetI (w, ANIM_SCREEN_OPTION_SIDEKICK_ZOOM_FROM_CENTER) ==
ZoomFromCenterMin) ||
((aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose) &&
animGetI (w, ANIM_SCREEN_OPTION_SIDEKICK_ZOOM_FROM_CENTER) ==
ZoomFromCenterCreate))) ||
(aw->com.curAnimEffect == AnimEffectZoom &&
(animGetI (w, ANIM_SCREEN_OPTION_ZOOM_FROM_CENTER) ==
ZoomFromCenterOn ||
((aw->com.curWindowEvent == WindowEventMinimize ||
aw->com.curWindowEvent == WindowEventUnminimize) &&
animGetI (w, ANIM_SCREEN_OPTION_ZOOM_FROM_CENTER) ==
ZoomFromCenterMin) ||
((aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose) &&
animGetI (w, ANIM_SCREEN_OPTION_ZOOM_FROM_CENTER) ==
ZoomFromCenterCreate))))
{
aw->com.icon.x =
WIN_X(w) + WIN_W(w) / 2 - aw->com.icon.width / 2;
aw->com.icon.y =
WIN_Y(w) + WIN_H(w) / 2 - aw->com.icon.height / 2;
}
// allow extra time for spring damping / deceleration
if ((aw->com.curWindowEvent == WindowEventUnminimize ||
aw->com.curWindowEvent == WindowEventOpen) &&
fxZoomGetSpringiness (w) > 1e-4)
{
aw->com.animTotalTime /= SPRINGY_ZOOM_PERCEIVED_T;
}
else if ((aw->com.curAnimEffect == AnimEffectZoom ||
aw->com.curAnimEffect == AnimEffectSidekick) &&
(aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose))
{
aw->com.animTotalTime /= NONSPRINGY_ZOOM_PERCEIVED_T;
}
else
{
aw->com.animTotalTime /= ZOOM_PERCEIVED_T;
}
aw->com.animRemainingTime = aw->com.animTotalTime;
aw->com.usingTransform = TRUE;
return defaultAnimInit (w);
}
static void inline
fxRollUpModelStepObject(CompWindow * w,
Model * model,
Object * object,
float forwardProgress, Bool fixedInterior)
{
ANIM_WINDOW(w);
float origx = WIN_X(w) + WIN_W(w) * object->gridPosition.x;
if (aw->com.curWindowEvent == WindowEventShade ||
aw->com.curWindowEvent == WindowEventUnshade) {
// Execute shade mode
// find position in window contents
// (window contents correspond to 0.0-1.0 range)
float relPosInWinContents =
(object->gridPosition.y * WIN_H(w) -
model->topHeight) / w->height;
if (object->gridPosition.y == 0) {
object->position.x = origx;
object->position.y = WIN_Y(w);
} else if (object->gridPosition.y == 1) {
object->position.x = origx;
object->position.y =
(1 - forwardProgress) *
(WIN_Y(w) +
WIN_H(w) * object->gridPosition.y) +
forwardProgress * (WIN_Y(w) +
model->topHeight +
model->bottomHeight);
} else {
object->position.x = origx;
if (relPosInWinContents > forwardProgress) {
object->position.y =
(1 - forwardProgress) *
(WIN_Y(w) +
WIN_H(w) * object->gridPosition.y) +
forwardProgress * (WIN_Y(w) +
model->topHeight);
if (fixedInterior)
object->offsetTexCoordForQuadBefore.y =
-forwardProgress * w->height;
} else {
object->position.y =
WIN_Y(w) + model->topHeight;
if (!fixedInterior)
object->offsetTexCoordForQuadAfter.y =
(forwardProgress -
relPosInWinContents) * w->height;
}
}
}
}
static double
layoutOrganicCalculateOverlap(CompScreen * s, int win, int x, int y)
{
int i;
int x1, y1, x2, y2;
int overlapX, overlapY;
int xMin, xMax, yMin, yMax;
double result = -0.01;
SCALE_SCREEN(s);
ADDON_SCREEN(s);
x1 = x;
y1 = y;
x2 = x1 + WIN_W(ss->windows[win]) * as->scale;
y2 = y1 + WIN_H(ss->windows[win]) * as->scale;
for (i = 0; i < ss->nWindows; i++) {
if (i == win)
continue;
overlapX = overlapY = 0;
xMax = MAX(ss->slots[i].x1, x1);
xMin =
MIN(ss->slots[i].x1 + WIN_W(ss->windows[i]) * as->scale,
x2);
if (xMax <= xMin)
overlapX = xMin - xMax;
yMax = MAX(ss->slots[i].y1, y1);
yMin =
MIN(ss->slots[i].y1 + WIN_H(ss->windows[i]) * as->scale,
y2);
if (yMax <= yMin)
overlapY = yMin - yMax;
result += (double)overlapX *overlapY;
}
return result;
}
static void inline
fxHorizontalFoldsModelStepObject(CompWindow * w,
Model * model,
Object * object,
float forwardProgress,
float sinForProg, float foldMaxAmp, int rowNo)
{
ANIM_WINDOW(w);
float origx = w->attrib.x + (WIN_W(w) * object->gridPosition.x -
w->output.left) * model->scale.x;
float origy = w->attrib.y + (WIN_H(w) * object->gridPosition.y -
w->output.top) * model->scale.y;
object->position.x = origx;
if (aw->com.curWindowEvent == WindowEventShade ||
aw->com.curWindowEvent == WindowEventUnshade) {
// Execute shade mode
float relDistToFoldCenter = (rowNo % 2 == 1 ? 0.5 : 0);
if (object->gridPosition.y == 0) {
object->position.y = WIN_Y(w);
object->position.z = 0;
} else if (object->gridPosition.y == 1) {
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress *
(WIN_Y(w) + model->topHeight + model->bottomHeight);
object->position.z = 0;
} else {
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress * (WIN_Y(w) + model->topHeight);
object->position.z =
getObjectZ(model, forwardProgress, sinForProg,
relDistToFoldCenter, foldMaxAmp);
}
} else {
// Execute normal mode
float relDistToFoldCenter;
relDistToFoldCenter = (rowNo % 2 == 0 ? 0.5 : 0);
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress * (BORDER_Y(w) + BORDER_H(w) / 2.0);
object->position.z =
getObjectZ(model, forwardProgress, sinForProg,
relDistToFoldCenter, foldMaxAmp);
}
}
static void
fxDreamModelStepObject(CompWindow *w,
Model *model, Object *object, float forwardProgress)
{
float waveAmpMax = MIN(WIN_H(w), WIN_W(w)) * 0.125f;
float waveWidth = 10.0f;
float waveSpeed = 7.0f;
float origx = w->attrib.x + (WIN_W(w) * object->gridPosition.x -
w->output.left) * model->scale.x;
float origy = w->attrib.y + (WIN_H(w) * object->gridPosition.y -
w->output.top) * model->scale.y;
object->position.y = origy;
object->position.x =
origx +
forwardProgress *waveAmpMax *model->scale.x *
sin(object->gridPosition.y *M_PI *waveWidth +
waveSpeed *forwardProgress);
}
static void
layoutOrganicRemoveOverlap (CompScreen *s,
int areaWidth,
int areaHeight)
{
int i, spacing;
CompWindow *w;
SCALE_SCREEN (s);
ADDON_SCREEN (s);
spacing = ss->opt[SCALE_SCREEN_OPTION_SPACING].value.i;
while (layoutOrganicLocalSearch (s, areaWidth, areaHeight))
{
for (i = 0; i < ss->nWindows; i++)
{
int centerX, centerY;
int newX, newY, newWidth, newHeight;
w = ss->windows[i];
centerX = ss->slots[i].x1 + WIN_W (w) / 2;
centerY = ss->slots[i].y1 + WIN_H (w) / 2;
newWidth = (int)((1.0 - ORGANIC_STEP) *
(double)WIN_W (w)) - spacing / 2;
newHeight = (int)((1.0 - ORGANIC_STEP) *
(double)WIN_H (w)) - spacing / 2;
newX = centerX - (newWidth / 2);
newY = centerY - (newHeight / 2);
ss->slots[i].x1 = newX;
ss->slots[i].y1 = newY;
ss->slots[i].x2 = newX + WIN_W (w);
ss->slots[i].y2 = newY + WIN_H (w);
}
as->scale -= ORGANIC_STEP;
}
}
static void
applyGlideTransform(CompWindow *w, CompTransform *transform)
{
ANIM_SCREEN(w->screen);
ANIM_WINDOW(w);
float finalDistFac;
float finalRotAng;
float thickness;
fxGlideGetParams(as, aw, &finalDistFac, &finalRotAng, &thickness);
float forwardProgress;
if (fxGlideZoomToTaskBar(as, aw))
{
float dummy;
fxZoomAnimProgress(as, aw, &forwardProgress, &dummy, TRUE);
}
else
forwardProgress = fxGlideAnimProgress(aw);
float finalz = finalDistFac * 0.8 * DEFAULT_Z_CAMERA *
w->screen->width;
Vector3d rotAxis = {1, 0, 0};
Point3d rotAxisOffset =
{WIN_X(w) + WIN_W(w) / 2.0f,
WIN_Y(w) + WIN_H(w) / 2.0f,
0};
Point3d translation = {0, 0, finalz * forwardProgress};
float rotAngle = finalRotAng * forwardProgress;
aw->glideModRotAngle = fmodf(rotAngle + 720, 360.0f);
// put back to window position
matrixTranslate (transform, rotAxisOffset.x, rotAxisOffset.y, 0);
resetAndPerspectiveDistortOnZ (transform, -1.0 / w->screen->width);
// animation movement
matrixTranslate (transform, translation.x, translation.y, translation.z);
// animation rotation
matrixRotate (transform, rotAngle, rotAxis.x, rotAxis.y, rotAxis.z);
// intentional scaling of z by 0 to prevent weird opacity results and
// flashing that happen when z coords are between 0 and 1 (bug in ecomp?)
matrixScale (transform, 1.0f, 1.0f, 0.0f);
// place window rotation axis at origin
matrixTranslate (transform, -rotAxisOffset.x, -rotAxisOffset.y, 0);
}
static void scaleaddonDrawWindowTitle(CompWindow * w)
{
float x, y, width, height;
CompScreen *s = w->screen;
SCALE_WINDOW(w);
ADDON_WINDOW(w);
ADDON_DISPLAY(s->display);
width = aw->textData->width;
height = aw->textData->height;
x = sw->tx + w->attrib.x + ((WIN_W(w) * sw->scale) / 2) - (width / 2);
y = sw->ty + w->attrib.y + ((WIN_H(w) * sw->scale) / 2) - (height / 2);
(ad->textFunc->drawText) (s, aw->textData, floor(x), floor(y), 1.0f);
}
static void
scaleaddonDrawWindowHighlight (CompWindow *w)
{
GLboolean wasBlend;
GLint oldBlendSrc, oldBlendDst;
float x, y, width, height;
CompScreen *s = w->screen;
SCALE_WINDOW (w);
ADDON_WINDOW (w);
if (aw->rescaled)
return;
x = sw->tx + w->attrib.x - (w->input.left * sw->scale);
y = sw->ty + w->attrib.y - (w->input.top * sw->scale);
width = WIN_W (w) * sw->scale;
height = WIN_H (w) * sw->scale;
/* we use a poor replacement for roundf()
* (available in C99 only) here */
x = floor (x + 0.5f);
y = floor (y + 0.5f);
wasBlend = glIsEnabled (GL_BLEND);
glGetIntegerv (GL_BLEND_SRC, &oldBlendSrc);
glGetIntegerv (GL_BLEND_DST, &oldBlendDst);
if (!wasBlend)
glEnable (GL_BLEND);
glBlendFunc (GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColor4us (scaleaddonGetHighlightColorRed (s),
scaleaddonGetHighlightColorGreen (s),
scaleaddonGetHighlightColorBlue (s),
scaleaddonGetHighlightColorAlpha (s));
glRectf (x, y + height, x + width, y);
glColor4usv (defaultColor);
if (!wasBlend)
glDisable (GL_BLEND);
glBlendFunc (oldBlendSrc, oldBlendDst);
}
Bool
fxSidekickInit (CompWindow * w)
{
ANIM_WINDOW(w);
// determine number of rotations randomly in [0.9, 1.1] range
aw->numZoomRotations =
animGetF (w, ANIM_SCREEN_OPTION_SIDEKICK_NUM_ROTATIONS) *
(1.0f + 0.2f * rand() / RAND_MAX - 0.1f);
float winCenterX = WIN_X(w) + WIN_W(w) / 2.0;
float iconCenterX = aw->com.icon.x + aw->com.icon.width / 2.0;
// if window is to the right of icon, rotate clockwise instead
// to make rotation look more pleasant
if (winCenterX > iconCenterX)
aw->numZoomRotations *= -1;
return fxZoomInit (w);
}
Bool
fxCurvedFoldModelStep(CompScreen *s, CompWindow *w, float time)
{
if (!defaultAnimStep(s, w, time))
return FALSE;
ANIM_SCREEN(s);
ANIM_WINDOW(w);
Model *model = aw->model;
float forwardProgress;
if ((aw->curWindowEvent == WindowEventMinimize ||
aw->curWindowEvent == WindowEventUnminimize) &&
animGetB(as, aw, ANIM_SCREEN_OPTION_CURVED_FOLD_Z2TOM))
{
float dummy;
fxZoomAnimProgress(as, aw, &forwardProgress, &dummy, TRUE);
}
else
forwardProgress = defaultAnimProgress(aw);
float curveMaxAmp =
animGetF(as, aw, ANIM_SCREEN_OPTION_CURVED_FOLD_AMP) * WIN_W(w) *
pow(WIN_H(w) / (s->height * 1.2f), 0.7);
int i;
for (i = 0; i < model->numObjects; i++)
fxCurvedFoldModelStepObject
(w,
model,
&model->objects[i],
forwardProgress,
curveMaxAmp);
return TRUE;
}
/*
* Detect visible windows edges
*/
static void snapUpdateWindowsEdges(CompWindow * w)
{
CompWindow *c = NULL;
Edge *e = NULL, *next = NULL;
SNAP_WINDOW(w);
Region edgeRegion, resultRegion;
XRectangle rect;
Bool remove = FALSE;
// First add all the windows
c = w->screen->windows;
while (c)
{
// Just check that we're not trying to snap to current window,
// that the window is not invisible and of a valid type
if (c == w || !isSnapWindow(c))
{
c = c->next;
continue;
}
snapAddEdge(&sw->edges, &sw->reverseEdges, c->id,
WIN_Y(c), WIN_X(c), WIN_X(c) + WIN_W(c), TopEdge, FALSE);
snapAddEdge(&sw->edges, &sw->reverseEdges, c->id,
WIN_Y(c) + WIN_H(c), WIN_X(c), WIN_X(c) + WIN_W(c),
BottomEdge, FALSE);
snapAddEdge(&sw->edges, &sw->reverseEdges, c->id,
WIN_X(c), WIN_Y(c), WIN_Y(c) + WIN_H(c), LeftEdge, FALSE);
snapAddEdge(&sw->edges, &sw->reverseEdges, c->id,
WIN_X(c) + WIN_W(c), WIN_Y(c), WIN_Y(c) + WIN_H(c),
RightEdge, FALSE);
c = c->next;
}
// Now strip invisible edges
// Loop through all the windows stack, and through all the edges
// If an edge has been passed, check if it's in the region window,
// if the edge is fully under the window, drop it, or if it's only
// partly covered, cut it/split it in one/two smaller visible edges
for (c = w->screen->windows; c; c = c->next)
{
if (c == w || !isSnapWindow(c))
continue;
for (e = sw->edges; e; e = next)
{
if (!e->passed)
{
if (e->id == c->id)
e->passed = TRUE;
next = e->next;
continue;
}
switch (e->type)
{
case LeftEdge:
case RightEdge:
rect.x = e->position;
rect.y = e->start;
rect.width = 1;
rect.height = e->end - e->start;
break;
case TopEdge:
case BottomEdge:
default:
rect.x = e->start;
rect.y = e->position;
rect.width = e->end - e->start;
rect.height = 1;
}
// If the edge is in the window region, remove it,
// if it's partly in the region, split it
edgeRegion = XCreateRegion();
resultRegion = XCreateRegion();
XUnionRectWithRegion(&rect, edgeRegion, edgeRegion);
XSubtractRegion(edgeRegion, c->region, resultRegion);
if (XEmptyRegion(resultRegion))
remove = TRUE;
else if (!XEqualRegion(edgeRegion, resultRegion))
{
snapAddRegionEdges(sw, e, resultRegion);
remove = TRUE;
}
next = e->next;
if (remove)
{
if (e->prev == NULL)
sw->edges = e->next;
if (e->next == NULL)
sw->reverseEdges = e->prev;
snapRemoveEdge(e);
remove = FALSE;
}
XDestroyRegion(resultRegion);
XDestroyRegion(edgeRegion);
}
}
}
static Bool layoutOrganicThumbs(CompScreen * s)
{
CompWindow *w;
int i, moMode;
XRectangle workArea;
SCALE_SCREEN(s);
ADDON_SCREEN(s);
moMode = ss->opt[SCALE_SCREEN_OPTION_MULTIOUTPUT_MODE].value.i;
switch (moMode) {
case SCALE_MOMODE_ALL:
workArea = s->workArea;
break;
case SCALE_MOMODE_CURRENT:
default:
workArea = s->outputDev[s->currentOutputDev].workArea;
break;
}
as->scale = 1.0f;
qsort(ss->windows, ss->nWindows, sizeof(CompWindow *),
organicCompareWindows);
for (i = 0; i < ss->nWindows; i++) {
w = ss->windows[i];
SCALE_WINDOW(w);
sw->slot = &ss->slots[i];
ss->slots[i].x1 = WIN_X(w) - workArea.x;
ss->slots[i].y1 = WIN_Y(w) - workArea.y;
ss->slots[i].x2 = WIN_X(w) + WIN_W(w) - workArea.x;
ss->slots[i].y2 = WIN_Y(w) + WIN_H(w) - workArea.y;
if (ss->slots[i].x1 < 0) {
ss->slots[i].x2 += abs(ss->slots[i].x1);
ss->slots[i].x1 = 0;
}
if (ss->slots[i].x2 > workArea.width - workArea.x) {
ss->slots[i].x1 -=
abs(ss->slots[i].x2 - workArea.width);
ss->slots[i].x2 = workArea.width - workArea.x;
}
if (ss->slots[i].y1 < 0) {
ss->slots[i].y2 += abs(ss->slots[i].y1);
ss->slots[i].y1 = 0;
}
if (ss->slots[i].y2 > workArea.height - workArea.y) {
ss->slots[i].y1 -= abs(ss->slots[i].y2 -
workArea.height - workArea.y);
ss->slots[i].y2 = workArea.height - workArea.y;
}
}
ss->nSlots = ss->nWindows;
layoutOrganicRemoveOverlap(s, workArea.width - workArea.x,
workArea.height - workArea.y);
for (i = 0; i < ss->nWindows; i++) {
w = ss->windows[i];
SCALE_WINDOW(w);
if (ss->type == ScaleTypeGroup)
raiseWindow(ss->windows[i]);
ss->slots[i].x1 += w->input.left + workArea.x;
ss->slots[i].x2 += w->input.left + workArea.x;
ss->slots[i].y1 += w->input.top + workArea.y;
ss->slots[i].y2 += w->input.top + workArea.y;
sw->adjust = TRUE;
}
return TRUE;
}
static double
layoutOrganicFindBestVerticalPosition(CompScreen * s,
int win, int *bestY, int areaHeight)
{
int i, x1, x2, h;
double bestOverlap = 1e31, overlap;
SCALE_SCREEN(s);
ADDON_SCREEN(s);
x1 = ss->slots[win].x1;
x2 = ss->slots[win].x1 + WIN_W(ss->windows[win]) * as->scale;
h = WIN_H(ss->windows[win]) * as->scale;
*bestY = ss->slots[win].y1;
for (i = 0; i < ss->nWindows; i++) {
CompWindow *w = ss->windows[i];
if (i == win)
continue;
if (ss->slots[i].x1 < x2 &&
ss->slots[i].x1 + WIN_W(w) * as->scale > x1) {
if (ss->slots[i].y1 - h >= 0
&& ss->slots[i].y1 < areaHeight) {
overlap =
layoutOrganicCalculateOverlap(s, win, x1,
ss->slots[i].
y1 - h);
if (overlap < bestOverlap) {
*bestY = ss->slots[i].y1 - h;
bestOverlap = overlap;
}
}
if (WIN_H(w) * as->scale + ss->slots[i].y1 > 0 &&
WIN_H(w) * as->scale + h + ss->slots[i].y1 <
areaHeight) {
overlap =
layoutOrganicCalculateOverlap(s, win, x1,
WIN_H(w) *
as->scale +
ss->slots[i].
y1);
if (overlap < bestOverlap) {
*bestY =
ss->slots[i].y1 +
WIN_H(w) * as->scale;
bestOverlap = overlap;
}
}
}
}
overlap = layoutOrganicCalculateOverlap(s, win, x1, 0);
if (overlap < bestOverlap) {
*bestY = 0;
bestOverlap = overlap;
}
overlap = layoutOrganicCalculateOverlap(s, win, x1, areaHeight - h);
if (overlap < bestOverlap) {
*bestY = areaHeight - h;
bestOverlap = overlap;
}
return bestOverlap;
}
static double
layoutOrganicFindBestHorizontalPosition(CompScreen * s,
int win, int *bestX, int areaWidth)
{
int i, y1, y2, w;
double bestOverlap = 1e31, overlap;
SCALE_SCREEN(s);
ADDON_SCREEN(s);
y1 = ss->slots[win].y1;
y2 = ss->slots[win].y1 + WIN_H(ss->windows[win]) * as->scale;
w = WIN_W(ss->windows[win]) * as->scale;
*bestX = ss->slots[win].x1;
for (i = 0; i < ss->nWindows; i++) {
CompWindow *lw = ss->windows[i];
if (i == win)
continue;
if (ss->slots[i].y1 < y2 &&
ss->slots[i].y1 + WIN_H(lw) * as->scale > y1) {
if (ss->slots[i].x1 - w >= 0) {
overlap = layoutOrganicCalculateOverlap(s, win,
ss->
slots
[i].x1 -
w, y1);
if (overlap < bestOverlap) {
*bestX = ss->slots[i].x1 - w;
bestOverlap = overlap;
}
}
if (WIN_W(lw) * as->scale + ss->slots[i].x1 + w <
areaWidth) {
overlap =
layoutOrganicCalculateOverlap(s, win,
ss->slots[i].
x1 +
WIN_W(lw) *
as->scale,
y1);
if (overlap < bestOverlap) {
*bestX =
ss->slots[i].x1 +
WIN_W(lw) * as->scale;
bestOverlap = overlap;
}
}
}
}
overlap = layoutOrganicCalculateOverlap(s, win, 0, y1);
if (overlap < bestOverlap) {
*bestX = 0;
bestOverlap = overlap;
}
overlap = layoutOrganicCalculateOverlap(s, win, areaWidth - w, y1);
if (overlap < bestOverlap) {
*bestX = areaWidth - w;
bestOverlap = overlap;
}
return bestOverlap;
}
static Bool
scaleaddonZoomWindow(CompDisplay * d,
CompAction * action,
CompActionState state, CompOption * option, int nOption)
{
CompScreen *s;
Window xid;
xid = getIntOptionNamed(option, nOption, "root", 0);
s = findScreenAtDisplay(d, xid);
if (s) {
CompWindow *w;
SCALE_SCREEN(s);
ADDON_DISPLAY(d);
if (!ss->grabIndex)
return FALSE;
w = findWindowAtDisplay(d, ad->highlightedWindow);
if (w) {
SCALE_WINDOW(w);
ADDON_WINDOW(w);
XRectangle outputRect;
BOX outputBox;
int head;
if (!sw->slot)
return FALSE;
head =
outputDeviceForPoint(s, sw->slot->x1, sw->slot->y1);
outputBox = w->screen->outputDev[head].region.extents;
outputRect.x = outputBox.x1;
outputRect.y = outputBox.y1;
outputRect.width = outputBox.x2 - outputBox.x1;
outputRect.height = outputBox.y2 - outputBox.y1;
/* damage old rect */
addWindowDamage(w);
if (!aw->rescaled) {
aw->oldAbove = w->next;
raiseWindow(w);
/* backup old values */
aw->origSlot = *sw->slot;
aw->rescaled = TRUE;
sw->slot->x1 =
(outputRect.width / 2) - (WIN_W(w) / 2) +
w->input.left + outputRect.x;
sw->slot->y1 =
(outputRect.height / 2) - (WIN_H(w) / 2) +
w->input.top + outputRect.y;
sw->slot->x2 = sw->slot->x1 + WIN_W(w);
sw->slot->y2 = sw->slot->y1 + WIN_H(w);
sw->slot->scale = 1.0f;
} else {
if (aw->oldAbove)
restackWindowBelow(w, aw->oldAbove);
aw->rescaled = FALSE;
*(sw->slot) = aw->origSlot;
}
sw->adjust = TRUE;
ss->state = SCALE_STATE_OUT;
/* slot size may have changed, so
* update window title */
scaleaddonRenderWindowTitle(w);
addWindowDamage(w);
return TRUE;
}
}
return FALSE;
}
static void
fxCurvedFoldModelStepObject(CompWindow *w,
Model *model,
Object *object,
float forwardProgress, float curveMaxAmp)
{
ANIM_WINDOW(w);
float origx = w->attrib.x + (WIN_W(w) * object->gridPosition.x -
w->output.left) * model->scale.x;
float origy = w->attrib.y + (WIN_H(w) * object->gridPosition.y -
w->output.top) * model->scale.y;
if (aw->curWindowEvent == WindowEventShade ||
aw->curWindowEvent == WindowEventUnshade)
{
// Execute shade mode
// find position in window contents
// (window contents correspond to 0.0-1.0 range)
float relPosInWinContents =
(object->gridPosition.y * WIN_H(w) -
model->topHeight) / w->height;
float relDistToCenter = fabs(relPosInWinContents - 0.5);
if (object->gridPosition.y == 0)
{
object->position.x = origx;
object->position.y = WIN_Y(w);
}
else if (object->gridPosition.y == 1)
{
object->position.x = origx;
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress *
(WIN_Y(w) + model->topHeight + model->bottomHeight);
}
else
{
object->position.x =
origx + sin(forwardProgress * M_PI / 2) *
(0.5 - object->gridPosition.x) * 2 * model->scale.x *
curveMaxAmp *
(1 - pow (pow(2 * relDistToCenter, 1.3), 2));
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress * (WIN_Y(w) + model->topHeight);
}
}
else
{
// Execute normal mode
// find position within window borders
// (border contents correspond to 0.0-1.0 range)
float relPosInWinBorders =
(object->gridPosition.y * WIN_H(w) -
(w->output.top - w->input.top)) / BORDER_H(w);
float relDistToCenter = fabs(relPosInWinBorders - 0.5);
// prevent top & bottom shadows from extending too much
if (relDistToCenter > 0.5)
relDistToCenter = 0.5;
object->position.x =
origx + sin(forwardProgress * M_PI / 2) *
(0.5 - object->gridPosition.x) * 2 * model->scale.x *
curveMaxAmp *
(1 - pow (pow(2 * relDistToCenter, 1.3), 2));
object->position.y =
(1 - forwardProgress) * origy +
forwardProgress * (BORDER_Y(w) + BORDER_H(w) / 2.0);
}
}
static void
thumbUpdateThumbnail (CompScreen *s)
{
int igMidPoint[2], tMidPoint[2];
int tPos[2], tmpPos[2];
float distance = 1000000;
int off, oDev, tHeight;
int ox1, oy1, ox2, oy2, ow, oh;
const BananaValue *
option_thumb_size = bananaGetOption (bananaIndex,
"thumb_size",
s->screenNum);
float maxSize = option_thumb_size->i;
double scale = 1.0;
CompWindow *w;
THUMB_SCREEN (s);
if (ts->thumb.win == ts->pointedWin)
return;
if (ts->thumb.opacity > 0.0 && ts->oldThumb.opacity > 0.0)
return;
if (ts->thumb.win)
damageThumbRegion (s, &ts->thumb);
freeThumbText (s, &ts->oldThumb);
ts->oldThumb = ts->thumb;
ts->thumb.textData = NULL;
ts->thumb.win = ts->pointedWin;
ts->thumb.dock = ts->dock;
if (!ts->thumb.win || !ts->dock)
{
ts->thumb.win = NULL;
ts->thumb.dock = NULL;
return;
}
w = ts->thumb.win;
/* do we nee to scale the window down? */
if (WIN_W (w) > maxSize || WIN_H (w) > maxSize)
{
if (WIN_W (w) >= WIN_H (w))
scale = maxSize / WIN_W (w);
else
scale = maxSize / WIN_H (w);
}
ts->thumb.width = WIN_W (w)* scale;
ts->thumb.height = WIN_H (w) * scale;
ts->thumb.scale = scale;
const BananaValue *
option_title_enabled = bananaGetOption (bananaIndex,
"title_enabled",
s->screenNum);
if (option_title_enabled->b)
renderThumbText (s, &ts->thumb, FALSE);
else
freeThumbText (s, &ts->thumb);
igMidPoint[0] = w->iconGeometry.x + (w->iconGeometry.width / 2);
igMidPoint[1] = w->iconGeometry.y + (w->iconGeometry.height / 2);
const BananaValue *
option_border = bananaGetOption (bananaIndex,
"border",
s->screenNum);
off = option_border->i;
oDev = outputDeviceForPoint (s,
w->iconGeometry.x +
(w->iconGeometry.width / 2),
w->iconGeometry.y +
(w->iconGeometry.height / 2));
if (s->nOutputDev == 1 || oDev > s->nOutputDev)
{
ox1 = 0;
oy1 = 0;
ox2 = s->width;
oy2 = s->height;
ow = s->width;
oh = s->height;
}
else
{
ox1 = s->outputDev[oDev].region.extents.x1;
ox2 = s->outputDev[oDev].region.extents.x2;
oy1 = s->outputDev[oDev].region.extents.y1;
oy2 = s->outputDev[oDev].region.extents.y2;
ow = ox2 - ox1;
oh = oy2 - oy1;
}
tHeight = ts->thumb.height;
if (ts->thumb.textData)
tHeight += ts->thumb.textData->height + TEXT_DISTANCE;
// failsave position
tPos[0] = igMidPoint[0] - (ts->thumb.width / 2.0);
if (w->iconGeometry.y - tHeight >= 0)
tPos[1] = w->iconGeometry.y - tHeight;
else
tPos[1] = w->iconGeometry.y + w->iconGeometry.height;
// above
tmpPos[0] = igMidPoint[0] - (ts->thumb.width / 2.0);
if (tmpPos[0] - off < ox1)
tmpPos[0] = ox1 + off;
if (tmpPos[0] + off + ts->thumb.width > ox2)
{
if (ts->thumb.width + (2 * off) <= ow)
tmpPos[0] = ox2 - ts->thumb.width - off;
else
tmpPos[0] = ox1 + off;
}
tMidPoint[0] = tmpPos[0] + (ts->thumb.width / 2.0);
tmpPos[1] = WIN_Y (ts->dock) - tHeight - off;
tMidPoint[1] = tmpPos[1] + (tHeight / 2.0);
if (tmpPos[1] > oy1)
{
tPos[0] = tmpPos[0];
tPos[1] = tmpPos[1];
distance = GET_DISTANCE (igMidPoint, tMidPoint);
}
// below
tmpPos[1] = WIN_Y (ts->dock) + WIN_H (ts->dock) + off;
tMidPoint[1] = tmpPos[1] + (tHeight / 2.0);
if (tmpPos[1] + tHeight + off < oy2 &&
GET_DISTANCE (igMidPoint, tMidPoint) < distance)
{
tPos[0] = tmpPos[0];
tPos[1] = tmpPos[1];
distance = GET_DISTANCE (igMidPoint, tMidPoint);
}
// left
tmpPos[1] = igMidPoint[1] - (tHeight / 2.0);
if (tmpPos[1] - off < oy1)
tmpPos[1] = oy1 + off;
if (tmpPos[1] + off + tHeight > oy2)
{
if (tHeight + (2 * off) <= oh)
tmpPos[1] = oy2 - ts->thumb.height - off;
else
tmpPos[1] = oy1 + off;
}
tMidPoint[1] = tmpPos[1] + (tHeight / 2.0);
tmpPos[0] = WIN_X (ts->dock) - ts->thumb.width - off;
tMidPoint[0] = tmpPos[0] + (ts->thumb.width / 2.0);
if (tmpPos[0] > ox1 && GET_DISTANCE (igMidPoint, tMidPoint) < distance)
{
tPos[0] = tmpPos[0];
tPos[1] = tmpPos[1];
distance = GET_DISTANCE (igMidPoint, tMidPoint);
}
// right
tmpPos[0] = WIN_X (ts->dock) + WIN_W (ts->dock) + off;
tMidPoint[0] = tmpPos[0] + (ts->thumb.width / 2.0);
if (tmpPos[0] + ts->thumb.width + off < ox2 &&
GET_DISTANCE (igMidPoint, tMidPoint) < distance)
{
tPos[0] = tmpPos[0];
tPos[1] = tmpPos[1];
distance = GET_DISTANCE (igMidPoint, tMidPoint);
}
ts->thumb.x = tPos[0];
ts->thumb.y = tPos[1];
ts->thumb.offset = off;
ts->thumb.opacity = 0.0;
damageThumbRegion (s, &ts->thumb);
}
Bool
fxLeafSpreadInit (CompWindow *w)
{
if (!polygonsAnimInit (w))
return FALSE;
CompScreen *s = w->screen;
ANIM_WINDOW (w);
if (!tessellateIntoRectangles (w, 20, 14, 15.0f))
return FALSE;
PolygonSet *pset = aw->eng.polygonSet;
PolygonObject *p = pset->polygons;
float fadeDuration = 0.26;
float life = 0.4;
float spreadFac = 3.5;
float randYMax = 0.07;
float winFacX = WIN_W (w) / 800.0;
float winFacY = WIN_H (w) / 800.0;
float winFacZ = (WIN_H (w) + WIN_W (w)) / 2.0 / 800.0;
int i;
for (i = 0; i < pset->nPolygons; i++, p++)
{
p->rotAxis.x = RAND_FLOAT ();
p->rotAxis.y = RAND_FLOAT ();
p->rotAxis.z = RAND_FLOAT ();
float screenSizeFactor = (0.8 * DEFAULT_Z_CAMERA * s->width);
float speed = screenSizeFactor / 10 * (0.2 + RAND_FLOAT ());
float xx = 2 * (p->centerRelPos.x - 0.5);
float yy = 2 * (p->centerRelPos.y - 0.5);
float x =
speed * winFacX * spreadFac * (xx +
0.5 * (RAND_FLOAT () - 0.5));
float y =
speed * winFacY * spreadFac * (yy +
0.5 * (RAND_FLOAT () - 0.5));
float z = speed * winFacZ * 7 * ((RAND_FLOAT () - 0.5) / 0.5);
p->finalRelPos.x = x;
p->finalRelPos.y = y;
p->finalRelPos.z = z;
p->moveStartTime =
p->centerRelPos.y * (1 - fadeDuration - randYMax) +
randYMax * RAND_FLOAT ();
p->moveDuration = 1;
p->fadeStartTime = p->moveStartTime + life;
if (p->fadeStartTime > 1 - fadeDuration)
p->fadeStartTime = 1 - fadeDuration;
p->fadeDuration = fadeDuration;
p->finalRotAng = 150;
}
pset->doDepthTest = TRUE;
pset->doLighting = TRUE;
pset->correctPerspective = CorrectPerspectivePolygon;
aw->com.animTotalTime /= LEAFSPREAD_PERCEIVED_T;
aw->com.animRemainingTime = aw->com.animTotalTime;
return TRUE;
}
// Returns FALSE if the subject is destroyed or if there was an error when
// calculating the dodge box
static Bool
fxDodgeFindDodgeBox (CompWindow *w, XRectangle *dodgeBox)
{
ANIM_SCREEN(w->screen);
ANIM_WINDOW(w);
if (!aw->dodgeSubjectWin) // if the subject is destroyed
return FALSE;
// Find the box to be dodged, it can contain multiple windows
// when there are dialog/utility windows of subject windows
// (stacked in the moreToBePaintedNext chain)
// Then this would be a bounding box of the subject windows
// intersecting with dodger.
Region wRegion = XCreateRegion();
if (!wRegion)
return FALSE;
Region dodgeRegion = XCreateRegion();
if (!dodgeRegion)
{
XDestroyRegion (wRegion);
return FALSE;
}
XRectangle rect;
rect.x = WIN_X(w);
rect.y = WIN_Y(w);
rect.width = WIN_W(w);
rect.height = WIN_H(w);
int dodgeMaxAmount = (int)aw->dodgeMaxAmount;
// to compute if subject(s) intersect with dodger w,
// enlarge dodger window's box so that it encloses all of the covered
// region during dodge movement. This corrects the animation when
// there are >1 subjects (a window with its dialog/utility windows).
switch (aw->dodgeDirection)
{
case 0:
rect.y += dodgeMaxAmount;
rect.height -= dodgeMaxAmount;
break;
case 1:
rect.height += dodgeMaxAmount;
break;
case 2:
rect.x += dodgeMaxAmount;
rect.width -= dodgeMaxAmount;
break;
case 3:
rect.width += dodgeMaxAmount;
break;
}
XUnionRectWithRegion(&rect, &emptyRegion, wRegion);
AnimWindow *awCur;
CompWindow *wCur = aw->dodgeSubjectWin;
for (; wCur; wCur = awCur->moreToBePaintedNext)
{
fxDodgeProcessSubject(wCur, wRegion, dodgeRegion,
wCur == aw->dodgeSubjectWin);
awCur = GET_ANIM_WINDOW(wCur, as);
if (!awCur)
break;
}
AnimWindow *awSubj = GET_ANIM_WINDOW(aw->dodgeSubjectWin, as);
wCur = awSubj->moreToBePaintedPrev;
for (; wCur; wCur = awCur->moreToBePaintedPrev)
{
fxDodgeProcessSubject(wCur, wRegion, dodgeRegion, FALSE);
awCur = GET_ANIM_WINDOW(wCur, as);
if (!awCur)
break;
}
XClipBox(dodgeRegion, dodgeBox);
XDestroyRegion (wRegion);
XDestroyRegion (dodgeRegion);
return TRUE;
}
Bool
fxZoomInit (CompWindow *w)
{
ANIM_WINDOW (w);
const BananaValue *
option_sidekick_zoom_from_center = bananaGetOption (bananaIndex,
"sidekick_zoom_from_center",
w->screen->screenNum);
if ((aw->com.curAnimEffect == AnimEffectSidekick &&
(option_sidekick_zoom_from_center->i ==
3 ||
((aw->com.curWindowEvent == WindowEventMinimize ||
aw->com.curWindowEvent == WindowEventUnminimize) &&
option_sidekick_zoom_from_center->i ==
1) ||
((aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose) &&
option_sidekick_zoom_from_center->i ==
2))) ||
(aw->com.curAnimEffect == AnimEffectZoom &&
(option_sidekick_zoom_from_center->i ==
3 ||
((aw->com.curWindowEvent == WindowEventMinimize ||
aw->com.curWindowEvent == WindowEventUnminimize) &&
option_sidekick_zoom_from_center->i ==
1) ||
((aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose) &&
option_sidekick_zoom_from_center->i ==
2))))
{
aw->com.icon.x =
WIN_X (w) + WIN_W (w) / 2 - aw->com.icon.width / 2;
aw->com.icon.y =
WIN_Y (w) + WIN_H (w) / 2 - aw->com.icon.height / 2;
}
// allow extra time for spring damping / deceleration
if ((aw->com.curWindowEvent == WindowEventUnminimize ||
aw->com.curWindowEvent == WindowEventOpen) &&
fxZoomGetSpringiness (w) > 1e-4)
{
aw->com.animTotalTime /= SPRINGY_ZOOM_PERCEIVED_T;
}
else if ((aw->com.curAnimEffect == AnimEffectZoom ||
aw->com.curAnimEffect == AnimEffectSidekick) &&
(aw->com.curWindowEvent == WindowEventOpen ||
aw->com.curWindowEvent == WindowEventClose))
{
aw->com.animTotalTime /= NONSPRINGY_ZOOM_PERCEIVED_T;
}
else
{
aw->com.animTotalTime /= ZOOM_PERCEIVED_T;
}
aw->com.animRemainingTime = aw->com.animTotalTime;
aw->com.usingTransform = TRUE;
return defaultAnimInit (w);
}
