element-mixin.js

/**
 * @fileoverview
 * @suppress {checkPrototypalTypes}
 * @license Copyright (c) 2017 The Polymer Project Authors. All rights reserved.
 * This code may only be used under the BSD style license found at
 * http://polymer.github.io/LICENSE.txt The complete set of authors may be found
 * at http://polymer.github.io/AUTHORS.txt The complete set of contributors may
 * be found at http://polymer.github.io/CONTRIBUTORS.txt Code distributed by
 * Google as part of the polymer project is also subject to an additional IP
 * rights grant found at http://polymer.github.io/PATENTS.txt
 */
import '../utils/boot.js';

import { rootPath, strictTemplatePolicy, allowTemplateFromDomModule, legacyOptimizations, legacyWarnings, syncInitialRender, supportsAdoptingStyleSheets, useAdoptedStyleSheetsWithBuiltCSS } from '../utils/settings.js';
import { dedupingMixin } from '../utils/mixin.js';
import { stylesFromTemplate, stylesFromModuleImports } from '../utils/style-gather.js';
import { pathFromUrl, resolveCss, resolveUrl } from '../utils/resolve-url.js';
import { DomModule } from '../elements/dom-module.js';
import { PropertyEffects } from './property-effects.js';
import { PropertiesMixin } from './properties-mixin.js';
import { wrap } from '../utils/wrap.js';

/**
 * Current Polymer version in Semver notation.
 * @type {string} Semver notation of the current version of Polymer.
 */
export const version = '3.5.2';

export const builtCSS = window.ShadyCSS && window.ShadyCSS['cssBuild'];

/**
 * Element class mixin that provides the core API for Polymer's meta-programming
 * features including template stamping, data-binding, attribute deserialization,
 * and property change observation.
 *
 * Subclassers may provide the following static getters to return metadata
 * used to configure Polymer's features for the class:
 *
 * - `static get is()`: When the template is provided via a `dom-module`,
 *   users should return the `dom-module` id from a static `is` getter.  If
 *   no template is needed or the template is provided directly via the
 *   `template` getter, there is no need to define `is` for the element.
 *
 * - `static get template()`: Users may provide the template directly (as
 *   opposed to via `dom-module`) by implementing a static `template` getter.
 *   The getter must return an `HTMLTemplateElement`.
 *
 * - `static get properties()`: Should return an object describing
 *   property-related metadata used by Polymer features (key: property name
 *   value: object containing property metadata). Valid keys in per-property
 *   metadata include:
 *   - `type` (String|Number|Object|Array|...): Used by
 *     `attributeChangedCallback` to determine how string-based attributes
 *     are deserialized to JavaScript property values.
 *   - `notify` (boolean): Causes a change in the property to fire a
 *     non-bubbling event called `<property>-changed`. Elements that have
 *     enabled two-way binding to the property use this event to observe changes.
 *   - `readOnly` (boolean): Creates a getter for the property, but no setter.
 *     To set a read-only property, use the private setter method
 *     `_setProperty(property, value)`.
 *   - `observer` (string): Observer method name that will be called when
 *     the property changes. The arguments of the method are
 *     `(value, previousValue)`.
 *   - `computed` (string): String describing method and dependent properties
 *     for computing the value of this property (e.g. `'computeFoo(bar, zot)'`).
 *     Computed properties are read-only by default and can only be changed
 *     via the return value of the computing method.
 *
 * - `static get observers()`: Array of strings describing multi-property
 *   observer methods and their dependent properties (e.g.
 *   `'observeABC(a, b, c)'`).
 *
 * The base class provides default implementations for the following standard
 * custom element lifecycle callbacks; users may override these, but should
 * call the super method to ensure
 * - `constructor`: Run when the element is created or upgraded
 * - `connectedCallback`: Run each time the element is connected to the
 *   document
 * - `disconnectedCallback`: Run each time the element is disconnected from
 *   the document
 * - `attributeChangedCallback`: Run each time an attribute in
 *   `observedAttributes` is set or removed (note: this element's default
 *   `observedAttributes` implementation will automatically return an array
 *   of dash-cased attributes based on `properties`)
 *
 * @mixinFunction
 * @polymer
 * @appliesMixin PropertyEffects
 * @appliesMixin PropertiesMixin
 * @property rootPath {string} Set to the value of `rootPath`,
 *   which defaults to the main document path
 * @property importPath {string} Set to the value of the class's static
 *   `importPath` property, which defaults to the path of this element's
 *   `dom-module` (when `is` is used), but can be overridden for other
 *   import strategies.
 * @summary Element class mixin that provides the core API for Polymer's
 * meta-programming features.
 * @template T
 * @param {function(new:T)} superClass Class to apply mixin to.
 * @return {function(new:T)} superClass with mixin applied.
 */
export const ElementMixin = dedupingMixin(base => {
  /**
   * @constructor
   * @implements {Polymer_PropertyEffects}
   * @implements {Polymer_PropertiesMixin}
   * @extends {HTMLElement}
   * @private
   */
  const polymerElementBase = PropertiesMixin(PropertyEffects(base));

  /**
   * Returns a list of properties with default values.
   * This list is created as an optimization since it is a subset of
   * the list returned from `_properties`.
   * This list is used in `_initializeProperties` to set property defaults.
   *
   * @param {PolymerElementConstructor} constructor Element class
   * @return {PolymerElementProperties} Flattened properties for this class
   *   that have default values
   * @private
   */
  function propertyDefaults(constructor) {
    if (!constructor.hasOwnProperty(
      JSCompiler_renameProperty('__propertyDefaults', constructor))) {
      constructor.__propertyDefaults = null;
      let props = constructor._properties;
      for (let p in props) {
        let info = props[p];
        if ('value' in info) {
          constructor.__propertyDefaults = constructor.__propertyDefaults || {};
          constructor.__propertyDefaults[p] = info;
        }
      }
    }
    return constructor.__propertyDefaults;
  }

  /**
   * Returns a memoized version of the `observers` array.
   * @param {PolymerElementConstructor} constructor Element class
   * @return {Array} Array containing own observers for the given class
   * @protected
   */
  function ownObservers(constructor) {
    if (!constructor.hasOwnProperty(
      JSCompiler_renameProperty('__ownObservers', constructor))) {
      constructor.__ownObservers =
          constructor.hasOwnProperty(
              JSCompiler_renameProperty('observers', constructor)) ?
          /** @type {PolymerElementConstructor} */ (constructor).observers :
          null;
    }
    return constructor.__ownObservers;
  }

  /**
   * Creates effects for a property.
   *
   * Note, once a property has been set to
   * `readOnly`, `computed`, `reflectToAttribute`, or `notify`
   * these values may not be changed. For example, a subclass cannot
   * alter these settings. However, additional `observers` may be added
   * by subclasses.
   *
   * The info object should contain property metadata as follows:
   *
   * * `type`: {function} type to which an attribute matching the property
   * is deserialized. Note the property is camel-cased from a dash-cased
   * attribute. For example, 'foo-bar' attribute is deserialized to a
   * property named 'fooBar'.
   *
   * * `readOnly`: {boolean} creates a readOnly property and
   * makes a private setter for the private of the form '_setFoo' for a
   * property 'foo',
   *
   * * `computed`: {string} creates a computed property. A computed property
   * is also automatically set to `readOnly: true`. The value is calculated
   * by running a method and arguments parsed from the given string. For
   * example 'compute(foo)' will compute a given property when the
   * 'foo' property changes by executing the 'compute' method. This method
   * must return the computed value.
   *
   * * `reflectToAttribute`: {boolean} If true, the property value is reflected
   * to an attribute of the same name. Note, the attribute is dash-cased
   * so a property named 'fooBar' is reflected as 'foo-bar'.
   *
   * * `notify`: {boolean} sends a non-bubbling notification event when
   * the property changes. For example, a property named 'foo' sends an
   * event named 'foo-changed' with `event.detail` set to the value of
   * the property.
   *
   * * observer: {string} name of a method that runs when the property
   * changes. The arguments of the method are (value, previousValue).
   *
   * Note: Users may want control over modifying property
   * effects via subclassing. For example, a user might want to make a
   * reflectToAttribute property not do so in a subclass. We've chosen to
   * disable this because it leads to additional complication.
   * For example, a readOnly effect generates a special setter. If a subclass
   * disables the effect, the setter would fail unexpectedly.
   * Based on feedback, we may want to try to make effects more malleable
   * and/or provide an advanced api for manipulating them.
   *
   * @param {!PolymerElement} proto Element class prototype to add accessors
   *   and effects to
   * @param {string} name Name of the property.
   * @param {Object} info Info object from which to create property effects.
   * Supported keys:
   * @param {Object} allProps Flattened map of all properties defined in this
   *   element (including inherited properties)
   * @return {void}
   * @private
   */
  function createPropertyFromConfig(proto, name, info, allProps) {
    // computed forces readOnly...
    if (info.computed) {
      info.readOnly = true;
    }
    // Note, since all computed properties are readOnly, this prevents
    // adding additional computed property effects (which leads to a confusing
    // setup where multiple triggers for setting a property)
    // While we do have `hasComputedEffect` this is set on the property's
    // dependencies rather than itself.
    if (info.computed) {
      if (proto._hasReadOnlyEffect(name)) {
        console.warn(`Cannot redefine computed property '${name}'.`);
      } else {
        proto._createComputedProperty(name, info.computed, allProps);
      }
    }
    if (info.readOnly && !proto._hasReadOnlyEffect(name)) {
      proto._createReadOnlyProperty(name, !info.computed);
    } else if (info.readOnly === false && proto._hasReadOnlyEffect(name)) {
      console.warn(`Cannot make readOnly property '${name}' non-readOnly.`);
    }
    if (info.reflectToAttribute && !proto._hasReflectEffect(name)) {
      proto._createReflectedProperty(name);
    } else if (info.reflectToAttribute === false && proto._hasReflectEffect(name)) {
      console.warn(`Cannot make reflected property '${name}' non-reflected.`);
    }
    if (info.notify && !proto._hasNotifyEffect(name)) {
      proto._createNotifyingProperty(name);
    } else if (info.notify === false && proto._hasNotifyEffect(name)) {
      console.warn(`Cannot make notify property '${name}' non-notify.`);
    }
    // always add observer
    if (info.observer) {
      proto._createPropertyObserver(name, info.observer, allProps[info.observer]);
    }
    // always create the mapping from attribute back to property for deserialization.
    proto._addPropertyToAttributeMap(name);
  }

  /**
   * Process all style elements in the element template. Styles with the
   * `include` attribute are processed such that any styles in
   * the associated "style modules" are included in the element template.
   * @param {PolymerElementConstructor} klass Element class
   * @param {!HTMLTemplateElement} template Template to process
   * @param {string} is Name of element
   * @param {string} baseURI Base URI for element
   * @private
   */
  function processElementStyles(klass, template, is, baseURI) {
    if (!builtCSS) {
      const templateStyles = template.content.querySelectorAll('style');
      const stylesWithImports = stylesFromTemplate(template);
      // insert styles from <link rel="import" type="css"> at the top of the template
      const linkedStyles = stylesFromModuleImports(is);
      const firstTemplateChild = template.content.firstElementChild;
      for (let idx = 0; idx < linkedStyles.length; idx++) {
        let s = linkedStyles[idx];
        s.textContent = klass._processStyleText(s.textContent, baseURI);
        template.content.insertBefore(s, firstTemplateChild);
      }
      // keep track of the last "concrete" style in the template we have encountered
      let templateStyleIndex = 0;
      // ensure all gathered styles are actually in this template.
      for (let i = 0; i < stylesWithImports.length; i++) {
        let s = stylesWithImports[i];
        let templateStyle = templateStyles[templateStyleIndex];
        // if the style is not in this template, it's been "included" and
        // we put a clone of it in the template before the style that included it
        if (templateStyle !== s) {
          s = s.cloneNode(true);
          templateStyle.parentNode.insertBefore(s, templateStyle);
        } else {
          templateStyleIndex++;
        }
        s.textContent = klass._processStyleText(s.textContent, baseURI);
      }
    }
    if (window.ShadyCSS) {
      window.ShadyCSS.prepareTemplate(template, is);
    }
    // Support for `adoptedStylesheets` relies on using native Shadow DOM
    // and built CSS. Built CSS is required because runtime transformation of
    // `@apply` is not supported. This is because ShadyCSS relies on being able
    // to update a `style` element in the element template and this is
    // removed when using `adoptedStyleSheets`.
    // Note, it would be more efficient to allow style includes to become
    // separate stylesheets; however, because of `@apply` these are
    // potentially not shareable and sharing the ones that could be shared
    // would require some coordination. To keep it simple, all the includes
    // and styles are collapsed into a single shareable stylesheet.
    if (useAdoptedStyleSheetsWithBuiltCSS && builtCSS &&
        supportsAdoptingStyleSheets) {
      // Remove styles in template and make a shareable stylesheet
      const styles = template.content.querySelectorAll('style');
      if (styles) {
        let css = '';
        Array.from(styles).forEach(s => {
          css += s.textContent;
          s.parentNode.removeChild(s);
        });
        klass._styleSheet = new CSSStyleSheet();
        klass._styleSheet.replaceSync(css);
      }
    }
  }

  /**
   * Look up template from dom-module for element
   *
   * @param {string} is Element name to look up
   * @return {?HTMLTemplateElement|undefined} Template found in dom module, or
   *   undefined if not found
   * @protected
   */
  function getTemplateFromDomModule(is) {
    let template = null;
    // Under strictTemplatePolicy in 3.x+, dom-module lookup is only allowed
    // when opted-in via allowTemplateFromDomModule
    if (is && (!strictTemplatePolicy || allowTemplateFromDomModule)) {
      template = /** @type {?HTMLTemplateElement} */ (
          DomModule.import(is, 'template'));
      // Under strictTemplatePolicy, require any element with an `is`
      // specified to have a dom-module
      if (strictTemplatePolicy && !template) {
        throw new Error(`strictTemplatePolicy: expecting dom-module or null template for ${is}`);
      }
    }
    return template;
  }

  /**
   * @polymer
   * @mixinClass
   * @unrestricted
   * @implements {Polymer_ElementMixin}
   * @extends {polymerElementBase}
   */
  class PolymerElement extends polymerElementBase {

    /**
     * Current Polymer version in Semver notation.
     * @type {string} Semver notation of the current version of Polymer.
     * @nocollapse
     */
    static get polymerElementVersion() {
      return version;
    }

    /**
     * Override of PropertiesMixin _finalizeClass to create observers and
     * find the template.
     * @return {void}
     * @protected
     * @suppress {missingProperties} Interfaces in closure do not inherit statics, but classes do
     * @nocollapse
     */
    static _finalizeClass() {
      // TODO(https://github.com/google/closure-compiler/issues/3240):
      //     Change back to just super.methodCall()
      polymerElementBase._finalizeClass.call(this);
      const observers = ownObservers(this);
      if (observers) {
        this.createObservers(observers, this._properties);
      }
      this._prepareTemplate();
    }

    /** @nocollapse */
    static _prepareTemplate() {
      // note: create "working" template that is finalized at instance time
      let template = /** @type {PolymerElementConstructor} */ (this).template;
      if (template) {
        if (typeof template === 'string') {
          console.error('template getter must return HTMLTemplateElement');
          template = null;
        } else if (!legacyOptimizations) {
          template = template.cloneNode(true);
        }
      }

      /** @override */
      this.prototype._template = template;
    }

    /**
     * Override of PropertiesChanged createProperties to create accessors
     * and property effects for all of the properties.
     * @param {!Object} props .
     * @return {void}
     * @protected
     * @nocollapse
     */
    static createProperties(props) {
      for (let p in props) {
        createPropertyFromConfig(
            /** @type {?} */ (this.prototype), p, props[p], props);
      }
    }

    /**
     * Creates observers for the given `observers` array.
     * Leverages `PropertyEffects` to create observers.
     * @param {Object} observers Array of observer descriptors for
     *   this class
     * @param {Object} dynamicFns Object containing keys for any properties
     *   that are functions and should trigger the effect when the function
     *   reference is changed
     * @return {void}
     * @protected
     * @nocollapse
     */
    static createObservers(observers, dynamicFns) {
      const proto = this.prototype;
      for (let i=0; i < observers.length; i++) {
        proto._createMethodObserver(observers[i], dynamicFns);
      }
    }

    /**
     * Returns the template that will be stamped into this element's shadow root.
     *
     * If a `static get is()` getter is defined, the default implementation will
     * return the first `<template>` in a `dom-module` whose `id` matches this
     * element's `is` (note that a `_template` property on the class prototype
     * takes precedence over the `dom-module` template, to maintain legacy
     * element semantics; a subclass will subsequently fall back to its super
     * class template if neither a `prototype._template` or a `dom-module` for
     * the class's `is` was found).
     *
     * Users may override this getter to return an arbitrary template
     * (in which case the `is` getter is unnecessary). The template returned
     * must be an `HTMLTemplateElement`.
     *
     * Note that when subclassing, if the super class overrode the default
     * implementation and the subclass would like to provide an alternate
     * template via a `dom-module`, it should override this getter and
     * return `DomModule.import(this.is, 'template')`.
     *
     * If a subclass would like to modify the super class template, it should
     * clone it rather than modify it in place.  If the getter does expensive
     * work such as cloning/modifying a template, it should memoize the
     * template for maximum performance:
     *
     *   let memoizedTemplate;
     *   class MySubClass extends MySuperClass {
     *     static get template() {
     *       if (!memoizedTemplate) {
     *         memoizedTemplate = super.template.cloneNode(true);
     *         let subContent = document.createElement('div');
     *         subContent.textContent = 'This came from MySubClass';
     *         memoizedTemplate.content.appendChild(subContent);
     *       }
     *       return memoizedTemplate;
     *     }
     *   }
     *
     * @return {!HTMLTemplateElement|string} Template to be stamped
     * @nocollapse
     */
    static get template() {
      // Explanation of template-related properties:
      // - constructor.template (this getter): the template for the class.
      //     This can come from the prototype (for legacy elements), from a
      //     dom-module, or from the super class's template (or can be overridden
      //     altogether by the user)
      // - constructor._template: memoized version of constructor.template
      // - prototype._template: working template for the element, which will be
      //     parsed and modified in place. It is a cloned version of
      //     constructor.template, saved in _finalizeClass(). Note that before
      //     this getter is called, for legacy elements this could be from a
      //     _template field on the info object passed to Polymer(), a behavior,
      //     or set in registered(); once the static getter runs, a clone of it
      //     will overwrite it on the prototype as the working template.
      if (!this.hasOwnProperty(JSCompiler_renameProperty('_template', this))) {
        let protoTemplate = this.prototype.hasOwnProperty(
          JSCompiler_renameProperty('_template', this.prototype)) ?
          this.prototype._template : undefined;
        // Accept a function for the legacy Polymer({_template:...}) field for
        // lazy parsing
        if (typeof protoTemplate === 'function') {
          protoTemplate = protoTemplate();
        }
        this._template =
          // If user has put template on prototype (e.g. in legacy via registered
          // callback or info object), prefer that first. Note that `null` is
          // used as a sentinel to indicate "no template" and can be used to
          // override a super template, whereas `undefined` is used as a
          // sentinel to mean "fall-back to default template lookup" via
          // dom-module and/or super.template.
          protoTemplate !== undefined ? protoTemplate :
          // Look in dom-module associated with this element's is
          ((this.hasOwnProperty(JSCompiler_renameProperty('is', this)) &&
          (getTemplateFromDomModule(/** @type {PolymerElementConstructor}*/ (this).is))) ||
          // Next look for superclass template (call the super impl this
          // way so that `this` points to the superclass)
          Object.getPrototypeOf(/** @type {PolymerElementConstructor}*/ (this).prototype).constructor.template);
      }
      return this._template;
    }

    /**
     * Set the template.
     *
     * @param {!HTMLTemplateElement|string} value Template to set.
     * @nocollapse
     */
    static set template(value) {
      this._template = value;
    }

    /**
     * Path matching the url from which the element was imported.
     *
     * This path is used to resolve url's in template style cssText.
     * The `importPath` property is also set on element instances and can be
     * used to create bindings relative to the import path.
     *
     * For elements defined in ES modules, users should implement
     * `static get importMeta() { return import.meta; }`, and the default
     * implementation of `importPath` will  return `import.meta.url`'s path.
     * For elements defined in HTML imports, this getter will return the path
     * to the document containing a `dom-module` element matching this
     * element's static `is` property.
     *
     * Note, this path should contain a trailing `/`.
     *
     * @return {string} The import path for this element class
     * @suppress {missingProperties}
     * @nocollapse
     */
    static get importPath() {
      if (!this.hasOwnProperty(JSCompiler_renameProperty('_importPath', this))) {
        const meta = this.importMeta;
        if (meta) {
          this._importPath = pathFromUrl(meta.url);
        } else {
          const module = DomModule.import(/** @type {PolymerElementConstructor} */ (this).is);
          this._importPath = (module && module.assetpath) ||
            Object.getPrototypeOf(/** @type {PolymerElementConstructor}*/ (this).prototype).constructor.importPath;
        }
      }
      return this._importPath;
    }

    constructor() {
      super();
      /** @type {HTMLTemplateElement} */
      this._template;
      /** @type {string} */
      this._importPath;
      /** @type {string} */
      this.rootPath;
      /** @type {string} */
      this.importPath;
      /** @type {StampedTemplate | HTMLElement | ShadowRoot} */
      this.root;
      /** @type {!Object<string, !Element>} */
      this.$;
    }

    /**
     * Overrides the default `PropertyAccessors` to ensure class
     * metaprogramming related to property accessors and effects has
     * completed (calls `finalize`).
     *
     * It also initializes any property defaults provided via `value` in
     * `properties` metadata.
     *
     * @return {void}
     * @override
     * @suppress {invalidCasts,missingProperties} go/missingfnprops
     */
    _initializeProperties() {
      this.constructor.finalize();
      // note: finalize template when we have access to `localName` to
      // avoid dependence on `is` for polyfilling styling.
      this.constructor._finalizeTemplate(/** @type {!HTMLElement} */(this).localName);
      super._initializeProperties();
      // set path defaults
      this.rootPath = rootPath;
      this.importPath = this.constructor.importPath;
      // apply property defaults...
      let p$ = propertyDefaults(this.constructor);
      if (!p$) {
        return;
      }
      for (let p in p$) {
        let info = p$[p];
        if (this._canApplyPropertyDefault(p)) {
          let value = typeof info.value == 'function' ?
            info.value.call(this) :
            info.value;
          // Set via `_setProperty` if there is an accessor, to enable
          // initializing readOnly property defaults
          if (this._hasAccessor(p)) {
            this._setPendingProperty(p, value, true);
          } else {
            this[p] = value;
          }
        }
      }
    }

    /**
     * Determines if a property dfeault can be applied. For example, this
     * prevents a default from being applied when a property that has no
     * accessor is overridden by its host before upgrade (e.g. via a binding).
     * @override
     * @param {string} property Name of the property
     * @return {boolean} Returns true if the property default can be applied.
     */
    _canApplyPropertyDefault(property) {
      return !this.hasOwnProperty(property);
    }

    /**
     * Gather style text for a style element in the template.
     *
     * @param {string} cssText Text containing styling to process
     * @param {string} baseURI Base URI to rebase CSS paths against
     * @return {string} The processed CSS text
     * @protected
     * @nocollapse
     */
    static _processStyleText(cssText, baseURI) {
      return resolveCss(cssText, baseURI);
    }

    /**
    * Configures an element `proto` to function with a given `template`.
    * The element name `is` and extends `ext` must be specified for ShadyCSS
    * style scoping.
    *
    * @param {string} is Tag name (or type extension name) for this element
    * @return {void}
    * @protected
    * @nocollapse
    */
    static _finalizeTemplate(is) {
      /** @const {HTMLTemplateElement} */
      const template = this.prototype._template;
      if (template && !template.__polymerFinalized) {
        template.__polymerFinalized = true;
        const importPath = this.importPath;
        const baseURI = importPath ? resolveUrl(importPath) : '';
        // e.g. support `include="module-name"`, and ShadyCSS
        processElementStyles(this, template, is, baseURI);
        this.prototype._bindTemplate(template);
      }
    }

    /**
     * Provides a default implementation of the standard Custom Elements
     * `connectedCallback`.
     *
     * The default implementation enables the property effects system and
     * flushes any pending properties, and updates shimmed CSS properties
     * when using the ShadyCSS scoping/custom properties polyfill.
     *
     * @override
     * @suppress {missingProperties, invalidCasts} Super may or may not
     *     implement the callback
     * @return {void}
     */
    connectedCallback() {
      if (window.ShadyCSS && this._template) {
        window.ShadyCSS.styleElement(/** @type {!HTMLElement} */(this));
      }
      super.connectedCallback();
    }

    /**
     * Stamps the element template.
     *
     * @return {void}
     * @override
     */
    ready() {
      if (this._template) {
        this.root = this._stampTemplate(this._template);
        this.$ = this.root.$;
      }
      super.ready();
    }

    /**
     * Implements `PropertyEffects`'s `_readyClients` call. Attaches
     * element dom by calling `_attachDom` with the dom stamped from the
     * element's template via `_stampTemplate`. Note that this allows
     * client dom to be attached to the element prior to any observers
     * running.
     *
     * @return {void}
     * @override
     */
    _readyClients() {
      if (this._template) {
        this.root = this._attachDom(/** @type {StampedTemplate} */(this.root));
      }
      // The super._readyClients here sets the clients initialized flag.
      // We must wait to do this until after client dom is created/attached
      // so that this flag can be checked to prevent notifications fired
      // during this process from being handled before clients are ready.
      super._readyClients();
    }


    /**
     * Attaches an element's stamped dom to itself. By default,
     * this method creates a `shadowRoot` and adds the dom to it.
     * However, this method may be overridden to allow an element
     * to put its dom in another location.
     *
     * @override
     * @throws {Error}
     * @suppress {missingReturn}
     * @param {StampedTemplate} dom to attach to the element.
     * @return {ShadowRoot} node to which the dom has been attached.
     */
    _attachDom(dom) {
      const n = wrap(this);
      if (n.attachShadow) {
        if (dom) {
          if (!n.shadowRoot) {
            n.attachShadow({mode: 'open', shadyUpgradeFragment: dom});
            n.shadowRoot.appendChild(dom);
            // When `adoptedStyleSheets` is supported a stylesheet is made
            // available on the element constructor.
            if (this.constructor._styleSheet) {
              n.shadowRoot.adoptedStyleSheets = [this.constructor._styleSheet];
            }
          }
          if (syncInitialRender && window.ShadyDOM) {
            window.ShadyDOM.flushInitial(n.shadowRoot);
          }
          return n.shadowRoot;
        }
        return null;
      } else {
        throw new Error('ShadowDOM not available. ' +
          // TODO(sorvell): move to compile-time conditional when supported
        'PolymerElement can create dom as children instead of in ' +
        'ShadowDOM by setting `this.root = this;\` before \`ready\`.');
      }
    }

    /**
     * When using the ShadyCSS scoping and custom property shim, causes all
     * shimmed styles in this element (and its subtree) to be updated
     * based on current custom property values.
     *
     * The optional parameter overrides inline custom property styles with an
     * object of properties where the keys are CSS properties, and the values
     * are strings.
     *
     * Example: `this.updateStyles({'--color': 'blue'})`
     *
     * These properties are retained unless a value of `null` is set.
     *
     * Note: This function does not support updating CSS mixins.
     * You can not dynamically change the value of an `@apply`.
     *
     * @override
     * @param {Object=} properties Bag of custom property key/values to
     *   apply to this element.
     * @return {void}
     * @suppress {invalidCasts}
     */
    updateStyles(properties) {
      if (window.ShadyCSS) {
        window.ShadyCSS.styleSubtree(/** @type {!HTMLElement} */(this), properties);
      }
    }

    /**
     * Rewrites a given URL relative to a base URL. The base URL defaults to
     * the original location of the document containing the `dom-module` for
     * this element. This method will return the same URL before and after
     * bundling.
     *
     * Note that this function performs no resolution for URLs that start
     * with `/` (absolute URLs) or `#` (hash identifiers).  For general purpose
     * URL resolution, use `window.URL`.
     *
     * @override
     * @param {string} url URL to resolve.
     * @param {string=} base Optional base URL to resolve against, defaults
     * to the element's `importPath`
     * @return {string} Rewritten URL relative to base
     */
    resolveUrl(url, base) {
      if (!base && this.importPath) {
        base = resolveUrl(this.importPath);
      }
      return resolveUrl(url, base);
    }

    /**
     * Overrides `PropertyEffects` to add map of dynamic functions on
     * template info, for consumption by `PropertyEffects` template binding
     * code. This map determines which method templates should have accessors
     * created for them.
     *
     * @param {!HTMLTemplateElement} template Template
     * @param {!TemplateInfo} templateInfo Template metadata for current template
     * @param {!NodeInfo} nodeInfo Node metadata for current template.
     * @return {boolean} .
     * @suppress {missingProperties} Interfaces in closure do not inherit statics, but classes do
     * @nocollapse
     */
    static _parseTemplateContent(template, templateInfo, nodeInfo) {
      templateInfo.dynamicFns = templateInfo.dynamicFns || this._properties;
      // TODO(https://github.com/google/closure-compiler/issues/3240):
      //     Change back to just super.methodCall()
      return polymerElementBase._parseTemplateContent.call(
        this, template, templateInfo, nodeInfo);
    }

    /**
     * Overrides `PropertyEffects` to warn on use of undeclared properties in
     * template.
     *
     * @param {Object} templateInfo Template metadata to add effect to
     * @param {string} prop Property that should trigger the effect
     * @param {Object=} effect Effect metadata object
     * @return {void}
     * @protected
     * @suppress {missingProperties} Interfaces in closure do not inherit statics, but classes do
     * @nocollapse
     */
    static _addTemplatePropertyEffect(templateInfo, prop, effect) {
      // Warn if properties are used in template without being declared.
      // Properties must be listed in `properties` to be included in
      // `observedAttributes` since CE V1 reads that at registration time, and
      // since we want to keep template parsing lazy, we can't automatically
      // add undeclared properties used in templates to `observedAttributes`.
      // The warning is only enabled in `legacyOptimizations` mode, since
      // we don't want to spam existing users who might have adopted the
      // shorthand when attribute deserialization is not important.
      if (legacyWarnings && !(prop in this._properties) &&
          // Methods used in templates with no dependencies (or only literal
          // dependencies) become accessors with template effects; ignore these
          !(effect.info.part.signature && effect.info.part.signature.static) &&
          // Warnings for bindings added to nested templates are handled by
          // templatizer so ignore both the host-to-template bindings
          // (`hostProp`) and TemplateInstance-to-child bindings
          // (`nestedTemplate`)
          !effect.info.part.hostProp && !templateInfo.nestedTemplate) {
        console.warn(`Property '${prop}' used in template but not declared in 'properties'; ` +
          `attribute will not be observed.`);
      }
      // TODO(https://github.com/google/closure-compiler/issues/3240):
      //     Change back to just super.methodCall()
      return polymerElementBase._addTemplatePropertyEffect.call(
        this, templateInfo, prop, effect);
    }

  }

  return PolymerElement;
});

/**
 * When using the ShadyCSS scoping and custom property shim, causes all
 * shimmed `styles` (via `custom-style`) in the document (and its subtree)
 * to be updated based on current custom property values.
 *
 * The optional parameter overrides inline custom property styles with an
 * object of properties where the keys are CSS properties, and the values
 * are strings.
 *
 * Example: `updateStyles({'--color': 'blue'})`
 *
 * These properties are retained unless a value of `null` is set.
 *
 * @param {Object=} props Bag of custom property key/values to
 *   apply to the document.
 * @return {void}
 */
export const updateStyles = function(props) {
  if (window.ShadyCSS) {
    window.ShadyCSS.styleDocument(props);
  }
};