// -*- mode: js; js-indent-level: 4; indent-tabs-mode: nil -*- import Clutter from 'gi://Clutter'; import GObject from 'gi://GObject'; import Shell from 'gi://Shell'; import St from 'gi://St'; import * as Params from '../misc/params.js'; export const DEFAULT_FADE_FACTOR = 0.4; export const VIGNETTE_BRIGHTNESS = 0.5; export const VIGNETTE_SHARPNESS = 0.7; const VIGNETTE_DECLARATIONS = ' \ uniform float brightness; \n\ uniform float vignette_sharpness; \n\ float rand(vec2 p) { \n\ return fract(sin(dot(p, vec2(12.9898, 78.233))) * 43758.5453123); \n\ } \n'; const VIGNETTE_CODE = ' \ cogl_color_out.a = cogl_color_in.a; \n\ cogl_color_out.rgb = vec3(0.0, 0.0, 0.0); \n\ vec2 position = cogl_tex_coord_in[0].xy - 0.5; \n\ float t = clamp(length(1.41421 * position), 0.0, 1.0); \n\ float pixel_brightness = mix(1.0, 1.0 - vignette_sharpness, t); \n\ cogl_color_out.a *= 1.0 - pixel_brightness * brightness; \n\ cogl_color_out.a += (rand(position) - 0.5) / 100.0; \n'; const RadialShaderEffect = GObject.registerClass({ Properties: { 'brightness': GObject.ParamSpec.float( 'brightness', 'brightness', 'brightness', GObject.ParamFlags.READWRITE, 0, 1, 1), 'sharpness': GObject.ParamSpec.float( 'sharpness', 'sharpness', 'sharpness', GObject.ParamFlags.READWRITE, 0, 1, 0), }, }, class RadialShaderEffect extends Shell.GLSLEffect { _init(params) { this._brightness = undefined; this._sharpness = undefined; super._init(params); this._brightnessLocation = this.get_uniform_location('brightness'); this._sharpnessLocation = this.get_uniform_location('vignette_sharpness'); this.brightness = 1.0; this.sharpness = 0.0; } vfunc_build_pipeline() { this.add_glsl_snippet(Shell.SnippetHook.FRAGMENT, VIGNETTE_DECLARATIONS, VIGNETTE_CODE, true); } get brightness() { return this._brightness; } set brightness(v) { if (this._brightness === v) return; this._brightness = v; this.set_uniform_float(this._brightnessLocation, 1, [this._brightness]); this.notify('brightness'); } get sharpness() { return this._sharpness; } set sharpness(v) { if (this._sharpness === v) return; this._sharpness = v; this.set_uniform_float(this._sharpnessLocation, 1, [this._sharpness]); this.notify('sharpness'); } }); /** * Lightbox: */ export const Lightbox = GObject.registerClass({ Properties: { 'active': GObject.ParamSpec.boolean( 'active', 'active', 'active', GObject.ParamFlags.READABLE, false), }, }, class Lightbox extends St.Bin { /** * Lightbox creates a dark translucent "shade" actor to hide the * contents of `container`, and allows you to specify particular actors * in `container` to highlight by bringing them above the shade. It * tracks added and removed actors in `container` while the lightboxing * is active, and ensures that all actors are returned to their * original stacking order when the lightboxing is removed. (However, * if actors are restacked by outside code while the lightboxing is * active, the lightbox may later revert them back to their original * order.) * * By default, the shade window will have the height and width of * `container` and will track any changes in its size. You can override * this by passing an explicit width and height in `params`. * * @param {Clutter.Container} container parent Clutter.Container * @param {object} [params] additional parameters: * @param {boolean=} params.inhibitEvents: whether to inhibit events for `container` * @param {number=} params.width: shade actor width * @param {number=} params.height: shade actor height * @param {number=} params.fadeFactor: fading opacity factor * @param {boolean=} params.radialEffect: whether to enable the GLSL radial effect */ _init(container, params) { params = Params.parse(params, { inhibitEvents: false, width: null, height: null, fadeFactor: DEFAULT_FADE_FACTOR, radialEffect: false, }); super._init({ reactive: params.inhibitEvents, width: params.width, height: params.height, visible: false, }); this._active = false; this._container = container; this._children = container.get_children(); this._fadeFactor = params.fadeFactor; this._radialEffect = params.radialEffect; if (this._radialEffect) this.add_effect(new RadialShaderEffect({ name: 'radial' })); else this.set({ opacity: 0, style_class: 'lightbox' }); container.add_actor(this); container.set_child_above_sibling(this, null); this.connect('destroy', this._onDestroy.bind(this)); if (!params.width || !params.height) { this.add_constraint(new Clutter.BindConstraint({ source: container, coordinate: Clutter.BindCoordinate.ALL, })); } container.connectObject( 'actor-added', this._actorAdded.bind(this), 'actor-removed', this._actorRemoved.bind(this), this); this._highlighted = null; } get active() { return this._active; } _actorAdded(container, newChild) { let children = this._container.get_children(); let myIndex = children.indexOf(this); let newChildIndex = children.indexOf(newChild); if (newChildIndex > myIndex) { // The child was added above the shade (presumably it was // made the new top-most child). Move it below the shade, // and add it to this._children as the new topmost actor. this._container.set_child_above_sibling(this, newChild); this._children.push(newChild); } else if (newChildIndex == 0) { // Bottom of stack this._children.unshift(newChild); } else { // Somewhere else; insert it into the correct spot let prevChild = this._children.indexOf(children[newChildIndex - 1]); if (prevChild != -1) // paranoia this._children.splice(prevChild + 1, 0, newChild); } } lightOn(fadeInTime) { this.remove_all_transitions(); let easeProps = { duration: fadeInTime || 0, mode: Clutter.AnimationMode.EASE_OUT_QUAD, }; let onComplete = () => { this._active = true; this.notify('active'); }; this.show(); if (this._radialEffect) { this.ease_property( '@effects.radial.brightness', VIGNETTE_BRIGHTNESS, easeProps); this.ease_property( '@effects.radial.sharpness', VIGNETTE_SHARPNESS, Object.assign({ onComplete }, easeProps)); } else { this.ease(Object.assign(easeProps, { opacity: 255 * this._fadeFactor, onComplete, })); } } lightOff(fadeOutTime) { this.remove_all_transitions(); this._active = false; this.notify('active'); let easeProps = { duration: fadeOutTime || 0, mode: Clutter.AnimationMode.EASE_OUT_QUAD, }; let onComplete = () => this.hide(); if (this._radialEffect) { this.ease_property( '@effects.radial.brightness', 1.0, easeProps); this.ease_property( '@effects.radial.sharpness', 0.0, Object.assign({ onComplete }, easeProps)); } else { this.ease(Object.assign(easeProps, { opacity: 0, onComplete })); } } _actorRemoved(container, child) { let index = this._children.indexOf(child); if (index != -1) // paranoia this._children.splice(index, 1); if (child == this._highlighted) this._highlighted = null; } /** * highlight: * * Highlights the indicated actor and unhighlights any other * currently-highlighted actor. With no arguments or a false/null * argument, all actors will be unhighlighted. * * @param {Clutter.Actor=} window actor to highlight */ highlight(window) { if (this._highlighted == window) return; // Walk this._children raising and lowering actors as needed. // Things get a little tricky if the to-be-raised and // to-be-lowered actors were originally adjacent, in which // case we may need to indicate some *other* actor as the new // sibling of the to-be-lowered one. let below = this; for (let i = this._children.length - 1; i >= 0; i--) { if (this._children[i] == window) this._container.set_child_above_sibling(this._children[i], null); else if (this._children[i] == this._highlighted) this._container.set_child_below_sibling(this._children[i], below); else below = this._children[i]; } this._highlighted = window; } /** * _onDestroy: * * This is called when the lightbox' actor is destroyed, either * by destroying its container or by explicitly calling this.destroy(). */ _onDestroy() { this.highlight(null); } });