gnome-shell/js/ui/boxpointer.js

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// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*-
const Clutter = imports.gi.Clutter;
const Lang = imports.lang;
const Meta = imports.gi.Meta;
const Shell = imports.gi.Shell;
const Signals = imports.signals;
const St = imports.gi.St;
const Main = imports.ui.main;
const Tweener = imports.ui.tweener;
var PopupAnimation = {
NONE: 0,
SLIDE: 1 << 0,
FADE: 1 << 1,
FULL: ~0,
};
var POPUP_ANIMATION_TIME = 0.15;
/**
* BoxPointer:
* @side: side to draw the arrow on
* @binProperties: Properties to set on contained bin
*
* An actor which displays a triangle "arrow" pointing to a given
* side. The .bin property is a container in which content can be
* placed. The arrow position may be controlled via
* setArrowOrigin(). The arrow side might be temporarily flipped
* depending on the box size and source position to keep the box
* totally inside the monitor if possible.
*
*/
var BoxPointer = new Lang.Class({
Name: 'BoxPointer',
_init(arrowSide, binProperties) {
this._arrowSide = arrowSide;
this._userArrowSide = arrowSide;
this._arrowOrigin = 0;
this._arrowActor = null;
this.actor = new St.Bin({ x_fill: true,
y_fill: true });
this._container = new Shell.GenericContainer();
this.actor.set_child(this._container);
js/ui: Choose some actors to cache on the GPU Flag some actors that are good candidates for caching in texture memory (what Clutter calls "offscreen redirect"), thereby mostly eliminating their repaint overhead. This isn't exactly groundbreaking, it's how you're meant to use OpenGL in the first place. But the difficulty is in the design of Clutter which has some peculiarities making universal caching inefficient at the moment: * Repainting an offscreen actor is measurably slower than repainting the same actor if it was uncached. But only by less than 100%, so if an actor can avoid changing every frame then caching is usually more efficient over that timeframe. * The cached painting from a container typically includes its children, so you can't cache containers whose children are usually animating at full frame rate. That results in a performance loss. This could be remedied in future by Clutter explicitly separating a container's background painting from its child painting and always caching the background (as StWidget tries to in some cases already). So this commit selects just a few areas where caching has been verified to be beneficial, and many use cases now see their CPU usage halved: One small window active...... 10% -> 7% (-30%) ...under a panel menu........ 23% -> 9% (-61%) One maximized window active.. 12% -> 9% (-25%) ...under a panel menu........ 23% -> 11% (-52%) ...under a shell dialog...... 22% -> 12% (-45%) ...in activities overview.... 32% -> 17% (-47%) (on an i7-7700) Also a couple of bugs are fixed by this: https://bugzilla.gnome.org/show_bug.cgi?id=792634 https://bugzilla.gnome.org/show_bug.cgi?id=792633
2018-04-06 06:26:58 -04:00
this.actor.set_offscreen_redirect(Clutter.OffscreenRedirect.ALWAYS);
this._container.connect('get-preferred-width', this._getPreferredWidth.bind(this));
this._container.connect('get-preferred-height', this._getPreferredHeight.bind(this));
this._container.connect('allocate', this._allocate.bind(this));
this.bin = new St.Bin(binProperties);
this._container.add_actor(this.bin);
this._border = new St.DrawingArea();
this._border.connect('repaint', this._drawBorder.bind(this));
this._container.add_actor(this._border);
this.bin.raise(this._border);
this._xOffset = 0;
this._yOffset = 0;
this._xPosition = 0;
this._yPosition = 0;
this._sourceAlignment = 0.5;
this._capturedEventId = 0;
this._muteInput();
},
get arrowSide() {
return this._arrowSide;
},
_muteInput() {
if (this._capturedEventId == 0)
this._capturedEventId = this.actor.connect('captured-event',
() => Clutter.EVENT_STOP);
},
_unmuteInput() {
if (this._capturedEventId != 0) {
this.actor.disconnect(this._capturedEventId);
this._capturedEventId = 0;
}
},
show(animate, onComplete) {
let themeNode = this.actor.get_theme_node();
let rise = themeNode.get_length('-arrow-rise');
let animationTime = (animate & PopupAnimation.FULL) ? POPUP_ANIMATION_TIME : 0;
if (animate & PopupAnimation.FADE)
this.opacity = 0;
else
this.opacity = 255;
this.actor.show();
if (animate & PopupAnimation.SLIDE) {
switch (this._arrowSide) {
case St.Side.TOP:
this.yOffset = -rise;
break;
case St.Side.BOTTOM:
this.yOffset = rise;
break;
case St.Side.LEFT:
this.xOffset = -rise;
break;
case St.Side.RIGHT:
this.xOffset = rise;
break;
}
}
Tweener.addTween(this, { opacity: 255,
xOffset: 0,
yOffset: 0,
transition: 'linear',
onComplete: () => {
this._unmuteInput();
if (onComplete)
onComplete();
},
time: animationTime });
},
hide(animate, onComplete) {
if (!this.actor.visible)
return;
let xOffset = 0;
let yOffset = 0;
let themeNode = this.actor.get_theme_node();
let rise = themeNode.get_length('-arrow-rise');
let fade = (animate & PopupAnimation.FADE);
let animationTime = (animate & PopupAnimation.FULL) ? POPUP_ANIMATION_TIME : 0;
if (animate & PopupAnimation.SLIDE) {
switch (this._arrowSide) {
case St.Side.TOP:
yOffset = rise;
break;
case St.Side.BOTTOM:
yOffset = -rise;
break;
case St.Side.LEFT:
xOffset = rise;
break;
case St.Side.RIGHT:
xOffset = -rise;
break;
}
}
this._muteInput();
Tweener.removeTweens(this);
Tweener.addTween(this, { opacity: fade ? 0 : 255,
xOffset: xOffset,
yOffset: yOffset,
transition: 'linear',
time: animationTime,
onComplete: () => {
this.actor.hide();
this.opacity = 0;
this.xOffset = 0;
this.yOffset = 0;
if (onComplete)
onComplete();
}
});
},
_adjustAllocationForArrow(isWidth, alloc) {
let themeNode = this.actor.get_theme_node();
let borderWidth = themeNode.get_length('-arrow-border-width');
alloc.min_size += borderWidth * 2;
alloc.natural_size += borderWidth * 2;
if ((!isWidth && (this._arrowSide == St.Side.TOP || this._arrowSide == St.Side.BOTTOM))
|| (isWidth && (this._arrowSide == St.Side.LEFT || this._arrowSide == St.Side.RIGHT))) {
let rise = themeNode.get_length('-arrow-rise');
alloc.min_size += rise;
alloc.natural_size += rise;
}
},
_getPreferredWidth(actor, forHeight, alloc) {
let [minInternalSize, natInternalSize] = this.bin.get_preferred_width(forHeight);
alloc.min_size = minInternalSize;
alloc.natural_size = natInternalSize;
this._adjustAllocationForArrow(true, alloc);
},
_getPreferredHeight(actor, forWidth, alloc) {
let themeNode = this.actor.get_theme_node();
let borderWidth = themeNode.get_length('-arrow-border-width');
let [minSize, naturalSize] = this.bin.get_preferred_height(forWidth - 2 * borderWidth);
alloc.min_size = minSize;
alloc.natural_size = naturalSize;
this._adjustAllocationForArrow(false, alloc);
},
_allocate(actor, box, flags) {
let themeNode = this.actor.get_theme_node();
let borderWidth = themeNode.get_length('-arrow-border-width');
let rise = themeNode.get_length('-arrow-rise');
let childBox = new Clutter.ActorBox();
let availWidth = box.x2 - box.x1;
let availHeight = box.y2 - box.y1;
childBox.x1 = 0;
childBox.y1 = 0;
childBox.x2 = availWidth;
childBox.y2 = availHeight;
this._border.allocate(childBox, flags);
childBox.x1 = borderWidth;
childBox.y1 = borderWidth;
childBox.x2 = availWidth - borderWidth;
childBox.y2 = availHeight - borderWidth;
switch (this._arrowSide) {
case St.Side.TOP:
childBox.y1 += rise;
break;
case St.Side.BOTTOM:
childBox.y2 -= rise;
break;
case St.Side.LEFT:
childBox.x1 += rise;
break;
case St.Side.RIGHT:
childBox.x2 -= rise;
break;
}
this.bin.allocate(childBox, flags);
if (this._sourceActor && this._sourceActor.mapped) {
this._reposition();
this._updateFlip();
}
},
_drawBorder(area) {
let themeNode = this.actor.get_theme_node();
if (this._arrowActor) {
let [sourceX, sourceY] = this._arrowActor.get_transformed_position();
let [sourceWidth, sourceHeight] = this._arrowActor.get_transformed_size();
let [absX, absY] = this.actor.get_transformed_position();
if (this._arrowSide == St.Side.TOP ||
this._arrowSide == St.Side.BOTTOM) {
this._arrowOrigin = sourceX - absX + sourceWidth / 2;
} else {
this._arrowOrigin = sourceY - absY + sourceHeight / 2;
}
}
let borderWidth = themeNode.get_length('-arrow-border-width');
let base = themeNode.get_length('-arrow-base');
let rise = themeNode.get_length('-arrow-rise');
let borderRadius = themeNode.get_length('-arrow-border-radius');
let halfBorder = borderWidth / 2;
let halfBase = Math.floor(base/2);
let backgroundColor = themeNode.get_color('-arrow-background-color');
let [width, height] = area.get_surface_size();
let [boxWidth, boxHeight] = [width, height];
if (this._arrowSide == St.Side.TOP || this._arrowSide == St.Side.BOTTOM) {
boxHeight -= rise;
} else {
boxWidth -= rise;
}
let cr = area.get_context();
// Translate so that box goes from 0,0 to boxWidth,boxHeight,
// with the arrow poking out of that
if (this._arrowSide == St.Side.TOP) {
cr.translate(0, rise);
} else if (this._arrowSide == St.Side.LEFT) {
cr.translate(rise, 0);
}
let [x1, y1] = [halfBorder, halfBorder];
let [x2, y2] = [boxWidth - halfBorder, boxHeight - halfBorder];
let skipTopLeft = false;
let skipTopRight = false;
let skipBottomLeft = false;
let skipBottomRight = false;
if (rise) {
switch (this._arrowSide) {
case St.Side.TOP:
if (this._arrowOrigin == x1)
skipTopLeft = true;
else if (this._arrowOrigin == x2)
skipTopRight = true;
break;
case St.Side.RIGHT:
if (this._arrowOrigin == y1)
skipTopRight = true;
else if (this._arrowOrigin == y2)
skipBottomRight = true;
break;
case St.Side.BOTTOM:
if (this._arrowOrigin == x1)
skipBottomLeft = true;
else if (this._arrowOrigin == x2)
skipBottomRight = true;
break;
case St.Side.LEFT:
if (this._arrowOrigin == y1)
skipTopLeft = true;
else if (this._arrowOrigin == y2)
skipBottomLeft = true;
break;
}
}
cr.moveTo(x1 + borderRadius, y1);
if (this._arrowSide == St.Side.TOP && rise) {
if (skipTopLeft) {
cr.moveTo(x1, y2 - borderRadius);
cr.lineTo(x1, y1 - rise);
cr.lineTo(x1 + halfBase, y1);
} else if (skipTopRight) {
cr.lineTo(x2 - halfBase, y1);
cr.lineTo(x2, y1 - rise);
cr.lineTo(x2, y1 + borderRadius);
} else {
cr.lineTo(this._arrowOrigin - halfBase, y1);
cr.lineTo(this._arrowOrigin, y1 - rise);
cr.lineTo(this._arrowOrigin + halfBase, y1);
}
}
if (!skipTopRight) {
cr.lineTo(x2 - borderRadius, y1);
cr.arc(x2 - borderRadius, y1 + borderRadius, borderRadius,
3*Math.PI/2, Math.PI*2);
}
if (this._arrowSide == St.Side.RIGHT && rise) {
if (skipTopRight) {
cr.lineTo(x2 + rise, y1);
cr.lineTo(x2 + rise, y1 + halfBase);
} else if (skipBottomRight) {
cr.lineTo(x2, y2 - halfBase);
cr.lineTo(x2 + rise, y2);
cr.lineTo(x2 - borderRadius, y2);
} else {
cr.lineTo(x2, this._arrowOrigin - halfBase);
cr.lineTo(x2 + rise, this._arrowOrigin);
cr.lineTo(x2, this._arrowOrigin + halfBase);
}
}
if (!skipBottomRight) {
cr.lineTo(x2, y2 - borderRadius);
cr.arc(x2 - borderRadius, y2 - borderRadius, borderRadius,
0, Math.PI/2);
}
if (this._arrowSide == St.Side.BOTTOM && rise) {
if (skipBottomLeft) {
cr.lineTo(x1 + halfBase, y2);
cr.lineTo(x1, y2 + rise);
cr.lineTo(x1, y2 - borderRadius);
} else if (skipBottomRight) {
cr.lineTo(x2, y2 + rise);
cr.lineTo(x2 - halfBase, y2);
} else {
cr.lineTo(this._arrowOrigin + halfBase, y2);
cr.lineTo(this._arrowOrigin, y2 + rise);
cr.lineTo(this._arrowOrigin - halfBase, y2);
}
}
if (!skipBottomLeft) {
cr.lineTo(x1 + borderRadius, y2);
cr.arc(x1 + borderRadius, y2 - borderRadius, borderRadius,
Math.PI/2, Math.PI);
}
if (this._arrowSide == St.Side.LEFT && rise) {
if (skipTopLeft) {
cr.lineTo(x1, y1 + halfBase);
cr.lineTo(x1 - rise, y1);
cr.lineTo(x1 + borderRadius, y1);
} else if (skipBottomLeft) {
cr.lineTo(x1 - rise, y2)
cr.lineTo(x1 - rise, y2 - halfBase);
} else {
cr.lineTo(x1, this._arrowOrigin + halfBase);
cr.lineTo(x1 - rise, this._arrowOrigin);
cr.lineTo(x1, this._arrowOrigin - halfBase);
}
}
if (!skipTopLeft) {
cr.lineTo(x1, y1 + borderRadius);
cr.arc(x1 + borderRadius, y1 + borderRadius, borderRadius,
Math.PI, 3*Math.PI/2);
}
Clutter.cairo_set_source_color(cr, backgroundColor);
cr.fillPreserve();
if (borderWidth > 0) {
let borderColor = themeNode.get_color('-arrow-border-color');
Clutter.cairo_set_source_color(cr, borderColor);
cr.setLineWidth(borderWidth);
cr.stroke();
}
cr.$dispose();
},
setPosition(sourceActor, alignment) {
// We need to show it now to force an allocation,
// so that we can query the correct size.
this.actor.show();
this._sourceActor = sourceActor;
this._arrowAlignment = alignment;
this._reposition();
this._updateFlip();
},
setSourceAlignment(alignment) {
this._sourceAlignment = alignment;
if (!this._sourceActor)
return;
this.setPosition(this._sourceActor, this._arrowAlignment);
},
_reposition() {
let sourceActor = this._sourceActor;
let alignment = this._arrowAlignment;
// Position correctly relative to the sourceActor
let sourceNode = sourceActor.get_theme_node();
let sourceContentBox = sourceNode.get_content_box(sourceActor.get_allocation_box());
let sourceAllocation = Shell.util_get_transformed_allocation(sourceActor);
let sourceCenterX = sourceAllocation.x1 + sourceContentBox.x1 + (sourceContentBox.x2 - sourceContentBox.x1) * this._sourceAlignment;
let sourceCenterY = sourceAllocation.y1 + sourceContentBox.y1 + (sourceContentBox.y2 - sourceContentBox.y1) * this._sourceAlignment;
let [minWidth, minHeight, natWidth, natHeight] = this.actor.get_preferred_size();
// We also want to keep it onscreen, and separated from the
// edge by the same distance as the main part of the box is
// separated from its sourceActor
let monitor = Main.layoutManager.findMonitorForActor(sourceActor);
let themeNode = this.actor.get_theme_node();
let borderWidth = themeNode.get_length('-arrow-border-width');
let arrowBase = themeNode.get_length('-arrow-base');
let borderRadius = themeNode.get_length('-arrow-border-radius');
let margin = (4 * borderRadius + borderWidth + arrowBase);
let gap = themeNode.get_length('-boxpointer-gap');
let padding = themeNode.get_length('-arrow-rise');
let resX, resY;
switch (this._arrowSide) {
case St.Side.TOP:
resY = sourceAllocation.y2 + gap;
break;
case St.Side.BOTTOM:
resY = sourceAllocation.y1 - natHeight - gap;
break;
case St.Side.LEFT:
resX = sourceAllocation.x2 + gap;
break;
case St.Side.RIGHT:
resX = sourceAllocation.x1 - natWidth - gap;
break;
}
// Now align and position the pointing axis, making sure it fits on
// screen. If the arrowOrigin is so close to the edge that the arrow
// will not be isosceles, we try to compensate as follows:
// - We skip the rounded corner and settle for a right angled arrow
// as shown below. See _drawBorder for further details.
// |\_____
// |
// |
// - If the arrow was going to be acute angled, we move the position
// of the box to maintain the arrow's accuracy.
let arrowOrigin;
let halfBase = Math.floor(arrowBase/2);
let halfBorder = borderWidth / 2;
let halfMargin = margin / 2;
let [x1, y1] = [halfBorder, halfBorder];
let [x2, y2] = [natWidth - halfBorder, natHeight - halfBorder];
switch (this._arrowSide) {
case St.Side.TOP:
case St.Side.BOTTOM:
resX = sourceCenterX - (halfMargin + (natWidth - margin) * alignment);
resX = Math.max(resX, monitor.x + padding);
resX = Math.min(resX, monitor.x + monitor.width - (padding + natWidth));
arrowOrigin = sourceCenterX - resX;
if (arrowOrigin <= (x1 + (borderRadius + halfBase))) {
if (arrowOrigin > x1)
resX += (arrowOrigin - x1);
arrowOrigin = x1;
} else if (arrowOrigin >= (x2 - (borderRadius + halfBase))) {
if (arrowOrigin < x2)
resX -= (x2 - arrowOrigin);
arrowOrigin = x2;
}
break;
case St.Side.LEFT:
case St.Side.RIGHT:
resY = sourceCenterY - (halfMargin + (natHeight - margin) * alignment);
resY = Math.max(resY, monitor.y + padding);
resY = Math.min(resY, monitor.y + monitor.height - (padding + natHeight));
arrowOrigin = sourceCenterY - resY;
if (arrowOrigin <= (y1 + (borderRadius + halfBase))) {
if (arrowOrigin > y1)
resY += (arrowOrigin - y1);
arrowOrigin = y1;
} else if (arrowOrigin >= (y2 - (borderRadius + halfBase))) {
if (arrowOrigin < y2)
resX -= (y2 - arrowOrigin);
arrowOrigin = y2;
}
break;
}
this.setArrowOrigin(arrowOrigin);
let parent = this.actor.get_parent();
let success, x, y;
while (!success) {
[success, x, y] = parent.transform_stage_point(resX, resY);
parent = parent.get_parent();
}
this._xPosition = Math.floor(x);
this._yPosition = Math.floor(y);
this._shiftActor();
},
// @origin: Coordinate specifying middle of the arrow, along
// the Y axis for St.Side.LEFT, St.Side.RIGHT from the top and X axis from
// the left for St.Side.TOP and St.Side.BOTTOM.
setArrowOrigin(origin) {
if (this._arrowOrigin != origin) {
this._arrowOrigin = origin;
this._border.queue_repaint();
}
},
// @actor: an actor relative to which the arrow is positioned.
// Differently from setPosition, this will not move the boxpointer itself,
// on the arrow
setArrowActor(actor) {
if (this._arrowActor != actor) {
this._arrowActor = actor;
this._border.queue_repaint();
}
},
_shiftActor() {
// Since the position of the BoxPointer depends on the allocated size
// of the BoxPointer and the position of the source actor, trying
// to position the BoxPointer via the x/y properties will result in
// allocation loops and warnings. Instead we do the positioning via
// the anchor point, which is independent of allocation, and leave
// x == y == 0.
this.actor.set_anchor_point(-(this._xPosition + this._xOffset),
-(this._yPosition + this._yOffset));
},
_calculateArrowSide(arrowSide) {
let sourceAllocation = Shell.util_get_transformed_allocation(this._sourceActor);
let [minWidth, minHeight, boxWidth, boxHeight] = this._container.get_preferred_size();
let monitorActor = this.sourceActor;
if (!monitorActor)
monitorActor = this.actor;
let monitor = Main.layoutManager.findMonitorForActor(monitorActor);
switch (arrowSide) {
case St.Side.TOP:
if (sourceAllocation.y2 + boxHeight > monitor.y + monitor.height &&
boxHeight < sourceAllocation.y1 - monitor.y)
return St.Side.BOTTOM;
break;
case St.Side.BOTTOM:
if (sourceAllocation.y1 - boxHeight < monitor.y &&
boxHeight < monitor.y + monitor.height - sourceAllocation.y2)
return St.Side.TOP;
break;
case St.Side.LEFT:
if (sourceAllocation.x2 + boxWidth > monitor.x + monitor.width &&
boxWidth < sourceAllocation.x1 - monitor.x)
return St.Side.RIGHT;
break;
case St.Side.RIGHT:
if (sourceAllocation.x1 - boxWidth < monitor.x &&
boxWidth < monitor.x + monitor.width - sourceAllocation.x2)
return St.Side.LEFT;
break;
}
return arrowSide;
},
_updateFlip() {
let arrowSide = this._calculateArrowSide(this._userArrowSide);
if (this._arrowSide != arrowSide) {
this._arrowSide = arrowSide;
this._reposition();
Meta.later_add(Meta.LaterType.BEFORE_REDRAW, () => {
this._container.queue_relayout();
return false;
});
this.emit('arrow-side-changed');
}
},
set xOffset(offset) {
this._xOffset = offset;
this._shiftActor();
},
get xOffset() {
return this._xOffset;
},
set yOffset(offset) {
this._yOffset = offset;
this._shiftActor();
},
get yOffset() {
return this._yOffset;
},
set opacity(opacity) {
this.actor.opacity = opacity;
},
get opacity() {
return this.actor.opacity;
},
updateArrowSide(side) {
this._arrowSide = side;
this._border.queue_repaint();
this.emit('arrow-side-changed');
},
getPadding(side) {
return this.bin.get_theme_node().get_padding(side);
},
getArrowHeight() {
return this.actor.get_theme_node().get_length('-arrow-rise');
}
});
Signals.addSignalMethods(BoxPointer.prototype);