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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
"use strict";
const Rule = require("resource://devtools/client/inspector/rules/models/rule.js");
const UserProperties = require("resource://devtools/client/inspector/rules/models/user-properties.js");
const {
style: { ELEMENT_STYLE },
} = require("resource://devtools/shared/constants.js");
loader.lazyRequireGetter(
this,
"promiseWarn",
"resource://devtools/client/inspector/shared/utils.js",
true
);
loader.lazyRequireGetter(
this,
["parseDeclarations", "parseNamedDeclarations", "parseSingleValue"],
"resource://devtools/shared/css/parsing-utils.js",
true
);
loader.lazyRequireGetter(
this,
"isCssVariable",
"resource://devtools/shared/inspector/css-logic.js",
true
);
const PREF_INACTIVE_CSS_ENABLED = "devtools.inspector.inactive.css.enabled";
/**
* ElementStyle is responsible for the following:
* Keeps track of which properties are overridden.
* Maintains a list of Rule objects for a given element.
*/
class ElementStyle {
/**
* @param {Element} element
* The element whose style we are viewing.
* @param {CssRuleView} ruleView
* The instance of the rule-view panel.
* @param {Object} store
* The ElementStyle can use this object to store metadata
* that might outlast the rule view, particularly the current
* set of disabled properties.
* @param {PageStyleFront} pageStyle
* Front for the page style actor that will be providing
* the style information.
* @param {Boolean} showUserAgentStyles
* Should user agent styles be inspected?
*/
constructor(element, ruleView, store, pageStyle, showUserAgentStyles) {
this.element = element;
this.ruleView = ruleView;
this.store = store || {};
this.pageStyle = pageStyle;
this.pseudoElementTypes = new Set();
this.showUserAgentStyles = showUserAgentStyles;
this.rules = [];
this.cssProperties = this.ruleView.cssProperties;
this.variablesMap = new Map();
this.startingStyleVariablesMap = new Map();
// We don't want to overwrite this.store.userProperties so we only create it
// if it doesn't already exist.
if (!("userProperties" in this.store)) {
this.store.userProperties = new UserProperties();
}
if (!("disabled" in this.store)) {
this.store.disabled = new WeakMap();
}
}
get unusedCssEnabled() {
if (!this._unusedCssEnabled) {
this._unusedCssEnabled = Services.prefs.getBoolPref(
PREF_INACTIVE_CSS_ENABLED,
false
);
}
return this._unusedCssEnabled;
}
destroy() {
if (this.destroyed) {
return;
}
this.destroyed = true;
this.pseudoElementTypes.clear();
for (const rule of this.rules) {
if (rule.editor) {
rule.editor.destroy();
}
rule.destroy();
}
}
/**
* Called by the Rule object when it has been changed through the
* setProperty* methods.
*/
_changed() {
if (this.onChanged) {
this.onChanged();
}
}
/**
* Refresh the list of rules to be displayed for the active element.
* Upon completion, this.rules[] will hold a list of Rule objects.
*
* Returns a promise that will be resolved when the elementStyle is
* ready.
*/
populate() {
const populated = this.pageStyle
.getApplied(this.element, {
inherited: true,
matchedSelectors: true,
filter: this.showUserAgentStyles ? "ua" : undefined,
})
.then(entries => {
if (this.destroyed || this.populated !== populated) {
return Promise.resolve(undefined);
}
// Store the current list of rules (if any) during the population
// process. They will be reused if possible.
const existingRules = this.rules;
this.rules = [];
for (const entry of entries) {
this._maybeAddRule(entry, existingRules);
}
// Store a list of all pseudo-element types found in the matching rules.
this.pseudoElementTypes = new Set();
for (const rule of this.rules) {
if (rule.pseudoElement) {
this.pseudoElementTypes.add(rule.pseudoElement);
}
}
// Mark overridden computed styles.
this.onRuleUpdated();
this._sortRulesForPseudoElement();
// We're done with the previous list of rules.
for (const r of existingRules) {
if (r?.editor) {
r.editor.destroy();
}
r.destroy();
}
return undefined;
})
.catch(e => {
// populate is often called after a setTimeout,
// the connection may already be closed.
if (this.destroyed) {
return Promise.resolve(undefined);
}
return promiseWarn(e);
});
this.populated = populated;
return this.populated;
}
/**
* Returns the Rule object of the given rule id.
*
* @param {String|null} id
* The id of the Rule object.
* @return {Rule|undefined} of the given rule id or undefined if it cannot be found.
*/
getRule(id) {
return id
? this.rules.find(rule => rule.domRule.actorID === id)
: undefined;
}
/**
* Get the font families in use by the element.
*
* Returns a promise that will be resolved to a list of CSS family
* names. The list might have duplicates.
*/
getUsedFontFamilies() {
return new Promise((resolve, reject) => {
this.ruleView.styleWindow.requestIdleCallback(async () => {
if (this.element.isDestroyed()) {
resolve([]);
return;
}
try {
const fonts = await this.pageStyle.getUsedFontFaces(this.element, {
includePreviews: false,
});
resolve(fonts.map(font => font.CSSFamilyName));
} catch (e) {
reject(e);
}
});
});
}
/**
* Put pseudo elements in front of others.
*/
_sortRulesForPseudoElement() {
this.rules = this.rules.sort((a, b) => {
return (a.pseudoElement || "z") > (b.pseudoElement || "z");
});
}
/**
* Add a rule if it's one we care about. Filters out duplicates and
* inherited styles with no inherited properties.
*
* @param {Object} options
* Options for creating the Rule, see the Rule constructor.
* @param {Array} existingRules
* Rules to reuse if possible. If a rule is reused, then it
* it will be deleted from this array.
* @return {Boolean} true if we added the rule.
*/
_maybeAddRule(options, existingRules) {
// If we've already included this domRule (for example, when a
// common selector is inherited), ignore it.
if (
options.system ||
(options.rule && this.rules.some(rule => rule.domRule === options.rule))
) {
return false;
}
let rule = null;
// If we're refreshing and the rule previously existed, reuse the
// Rule object.
if (existingRules) {
const ruleIndex = existingRules.findIndex(r => r.matches(options));
if (ruleIndex >= 0) {
rule = existingRules[ruleIndex];
rule.refresh(options);
existingRules.splice(ruleIndex, 1);
}
}
// If this is a new rule, create its Rule object.
if (!rule) {
rule = new Rule(this, options);
}
// Ignore inherited rules with no visible properties.
if (options.inherited && !rule.hasAnyVisibleProperties()) {
return false;
}
this.rules.push(rule);
return true;
}
/**
* Calls updateDeclarations with all supported pseudo elements
*/
onRuleUpdated() {
this.updateDeclarations();
// Update declarations for matching rules for pseudo-elements.
for (const pseudo of this.pseudoElementTypes) {
this.updateDeclarations(pseudo);
}
}
/**
* Go over all CSS rules matching the selected element and mark the CSS declarations
* (aka TextProperty instances) with an `overridden` Boolean flag if an earlier or
* higher priority declaration overrides it. Rules are already ordered by specificity.
*
* If a pseudo-element type is passed (ex: ::before, ::first-line, etc),
* restrict the operation only to declarations in rules matching that pseudo-element.
*
* At the end, update the declaration's view (TextPropertyEditor instance) so it relects
* the latest state. Use this opportunity to also trigger checks for the "inactive"
* state of the declaration (whether it has effect or not).
*
* @param {String} pseudo
* Optional pseudo-element for which to restrict marking CSS declarations as
* overridden.
*/
// eslint-disable-next-line complexity
updateDeclarations(pseudo = "") {
// Gather all text properties applicable to the selected element or pseudo-element.
const textProps = this._getDeclarations(pseudo);
// CSS Variables inherits from the normal element in case of pseudo element.
const variables = new Map(pseudo ? this.variablesMap.get("") : null);
const startingStyleVariables = new Map(
pseudo ? this.startingStyleVariablesMap.get("") : null
);
// Walk over the computed properties. As we see a property name
// for the first time, mark that property's name as taken by this
// property.
//
// If we come across a property whose name is already taken, check
// its priority against the property that was found first:
//
// If the new property is a higher priority, mark the old
// property overridden and mark the property name as taken by
// the new property.
//
// If the new property is a lower or equal priority, mark it as
// overridden.
//
// Note that this is different if layers are involved: if both
// old and new properties have a high priority, and if the new
// property is in a rule belonging to a layer that is different
// from the the one the old property rule might be in,
// mark the old property overridden and mark the property name as
// taken by the new property.
//
// _overriddenDirty will be set on each prop, indicating whether its
// dirty status changed during this pass.
const taken = new Map();
const takenInStartingStyle = new Map();
for (const textProp of textProps) {
for (const computedProp of textProp.computed) {
const earlier = taken.get(computedProp.name);
const earlierInStartingStyle = takenInStartingStyle.get(
computedProp.name
);
// Prevent -webkit-gradient from being selected after unchecking
// linear-gradient in this case:
// -moz-linear-gradient: ...;
// -webkit-linear-gradient: ...;
// linear-gradient: ...;
if (!computedProp.textProp.isValid()) {
computedProp.overridden = true;
continue;
}
const isPropInStartingStyle =
computedProp.textProp.rule?.isInStartingStyle();
const hasHigherPriority = this._hasHigherPriorityThanEarlierProp(
computedProp,
earlier
);
const startingStyleHasHigherPriority =
this._hasHigherPriorityThanEarlierProp(
computedProp,
earlierInStartingStyle
);
// earlier prop is overridden if the new property has higher priority and is not
// in a starting style rule.
if (hasHigherPriority && !isPropInStartingStyle) {
// New property is higher priority. Mark the earlier property
// overridden (which will reverse its dirty state).
earlier._overriddenDirty = !earlier._overriddenDirty;
earlier.overridden = true;
}
// earlier starting-style prop are always going to be overriden if the new property
// has higher priority
if (startingStyleHasHigherPriority) {
earlierInStartingStyle._overriddenDirty =
!earlierInStartingStyle._overriddenDirty;
earlierInStartingStyle.overridden = true;
// which means we also need to remove the variable from startingStyleVariables
if (isCssVariable(computedProp.name)) {
startingStyleVariables.delete(computedProp.name);
}
}
// This computed property is overridden if:
// - there was an earlier prop and this one does not have higher priority
// - or if this is a starting-style prop, and there was an earlier starting-style
// prop, and this one hasn't higher priority.
const overridden =
(!!earlier && !hasHigherPriority) ||
(isPropInStartingStyle &&
!!earlierInStartingStyle &&
!startingStyleHasHigherPriority);
computedProp._overriddenDirty =
!!computedProp.overridden !== overridden;
computedProp.overridden = overridden;
if (!computedProp.overridden && computedProp.textProp.enabled) {
if (isPropInStartingStyle) {
takenInStartingStyle.set(computedProp.name, computedProp);
} else {
taken.set(computedProp.name, computedProp);
}
// At this point, we can get CSS variable from "inherited" rules.
// When this is a registered custom property with `inherits` set to false,
// the text prop is "invisible" (i.e. not shown in the rule view).
// In such case, we don't want to get the value in the Map, and we'll rather
// get the initial value from the registered property definition.
if (
isCssVariable(computedProp.name) &&
!computedProp.textProp.invisible
) {
if (!isPropInStartingStyle) {
variables.set(computedProp.name, {
declarationValue: computedProp.value,
computedValue: computedProp.textProp.getVariableComputedValue(),
});
} else {
startingStyleVariables.set(computedProp.name, computedProp.value);
}
}
}
}
}
// Find the CSS variables that have been updated.
const previousVariablesMap = new Map(this.variablesMap.get(pseudo));
const changedVariableNamesSet = new Set(
[...variables.keys(), ...previousVariablesMap.keys()].filter(
k => variables.get(k) !== previousVariablesMap.get(k)
)
);
const previousStartingStyleVariablesMap = new Map(
this.startingStyleVariablesMap.get(pseudo)
);
const changedStartingStyleVariableNamesSet = new Set(
[...variables.keys(), ...previousStartingStyleVariablesMap.keys()].filter(
k => variables.get(k) !== previousStartingStyleVariablesMap.get(k)
)
);
this.variablesMap.set(pseudo, variables);
this.startingStyleVariablesMap.set(pseudo, startingStyleVariables);
// For each TextProperty, mark it overridden if all of its computed
// properties are marked overridden. Update the text property's associated
// editor, if any. This will clear the _overriddenDirty state on all
// computed properties. For each editor we also show or hide the inactive
// CSS icon as needed.
for (const textProp of textProps) {
// _updatePropertyOverridden will return true if the
// overridden state has changed for the text property.
// _hasUpdatedCSSVariable will return true if the declaration contains any
// of the updated CSS variable names.
if (
this._updatePropertyOverridden(textProp) ||
this._hasUpdatedCSSVariable(textProp, changedVariableNamesSet) ||
this._hasUpdatedCSSVariable(
textProp,
changedStartingStyleVariableNamesSet
)
) {
textProp.updateEditor();
}
// For each editor show or hide the inactive CSS icon as needed.
if (textProp.editor && this.unusedCssEnabled) {
textProp.editor.updatePropertyState();
}
}
}
/**
* Return whether or not the passed computed property has a higher priority than
* a computed property seen "earlier" (e.g. whose rule had higher priority, or that
* was declared in the same rule, but earlier).
*
* @param {Object} computedProp: A computed prop object, as stored in TextProp#computed
* @param {Object} earlierProp: The computed prop to compare against
* @returns Boolean
*/
_hasHigherPriorityThanEarlierProp(computedProp, earlierProp) {
return (
earlierProp &&
computedProp.priority === "important" &&
(earlierProp.priority !== "important" ||
// Even if the earlier property was important, if the current rule is in a layer
// it will take precedence, unless the earlier property rule was in the same layer.
(computedProp.textProp.rule?.isInLayer() &&
computedProp.textProp.rule.isInDifferentLayer(
earlierProp.textProp.rule
))) &&
// For !important only consider rules applying to the same parent node.
computedProp.textProp.rule.inherited ==
earlierProp.textProp.rule.inherited
);
}
/**
* Update CSS variable tooltip information on textProp editor when registered property
* are added/modified/removed.
*
* @param {Set<String>} registeredPropertyNamesSet: A Set containing the name of the
* registered properties which were added/modified/removed.
*/
onRegisteredPropertiesChange(registeredPropertyNamesSet) {
for (const rule of this.rules) {
for (const textProp of rule.textProps) {
if (this._hasUpdatedCSSVariable(textProp, registeredPropertyNamesSet)) {
textProp.updateEditor();
}
}
}
}
/**
* Returns true if the given declaration's property value contains a CSS variable
* matching any of the updated CSS variable names.
*
* @param {TextProperty} declaration
* A TextProperty of a rule.
* @param {Set<>String} variableNamesSet
* A Set of CSS variable names that have been updated.
*/
_hasUpdatedCSSVariable(declaration, variableNamesSet) {
for (const variableName of variableNamesSet) {
if (declaration.hasCSSVariable(variableName)) {
return true;
}
}
return false;
}
/**
* Helper for |this.updateDeclarations()| to mark CSS declarations as overridden.
*
* Returns an array of CSS declarations (aka TextProperty instances) from all rules
* applicable to the selected element ordered from more- to less-specific.
*
* If a pseudo-element type is given, restrict the result only to declarations
* applicable to that pseudo-element.
*
* NOTE: this method skips CSS declarations in @keyframes rules because a number of
* criteria such as time and animation delay need to be checked in order to determine
* if the property is overridden at runtime.
*
* @param {String} pseudo
* Optional pseudo-element for which to restrict marking CSS declarations as
* overridden. If omitted, only declarations for regular style rules are
* returned (no pseudo-element style rules).
*
* @return {Array}
* Array of TextProperty instances.
*/
_getDeclarations(pseudo = "") {
const textProps = [];
for (const rule of this.rules) {
// Skip @keyframes rules
if (rule.keyframes) {
continue;
}
const isNestedDeclarations = rule.domRule.isNestedDeclarations;
// Style rules must be considered only when they have selectors that match the node.
// When renaming a selector, the unmatched rule lingers in the Rule view, but it no
// longer matches the node. This strict check avoids accidentally causing
// declarations to be overridden in the remaining matching rules.
const isStyleRule =
rule.pseudoElement === "" && rule.matchedSelectorIndexes.length;
// Style rules for pseudo-elements must always be considered, regardless if their
// selector matches the node. As a convenience, declarations in rules for
// pseudo-elements show up in a separate Pseudo-elements accordion when selecting
// the host node (instead of the pseudo-element node directly, which is sometimes
// impossible, for example with ::selection or ::first-line).
// Loosening the strict check on matched selectors ensures these declarations
// participate in the algorithm below to mark them as overridden.
const isPseudoElementRule =
rule.pseudoElement !== "" && rule.pseudoElement === pseudo;
const isElementStyle = rule.domRule.type === ELEMENT_STYLE;
const filterCondition =
isNestedDeclarations ||
(pseudo === "" ? isStyleRule || isElementStyle : isPseudoElementRule);
// Collect all relevant CSS declarations (aka TextProperty instances).
if (filterCondition) {
for (const textProp of rule.textProps.slice(0).reverse()) {
if (textProp.enabled) {
textProps.push(textProp);
}
}
}
}
return textProps;
}
/**
* Adds a new declaration to the rule.
*
* @param {String} ruleId
* The id of the Rule to be modified.
* @param {String} value
* The new declaration value.
*/
addNewDeclaration(ruleId, value) {
const rule = this.getRule(ruleId);
if (!rule) {
return;
}
const declarationsToAdd = parseNamedDeclarations(
this.cssProperties.isKnown,
value,
true
);
if (!declarationsToAdd.length) {
return;
}
this._addMultipleDeclarations(rule, declarationsToAdd);
}
/**
* Adds a new rule. The rules view is updated from a "stylesheet-updated" event
* emitted the PageStyleActor as a result of the rule being inserted into the
* the stylesheet.
*/
async addNewRule() {
await this.pageStyle.addNewRule(
this.element,
this.element.pseudoClassLocks
);
}
/**
* Given the id of the rule and the new declaration name, modifies the existing
* declaration name to the new given value.
*
* @param {String} ruleId
* The Rule id of the given CSS declaration.
* @param {String} declarationId
* The TextProperty id for the CSS declaration.
* @param {String} name
* The new declaration name.
*/
async modifyDeclarationName(ruleId, declarationId, name) {
const rule = this.getRule(ruleId);
if (!rule) {
return;
}
const declaration = rule.getDeclaration(declarationId);
if (!declaration || declaration.name === name) {
return;
}
// Adding multiple rules inside of name field overwrites the current
// property with the first, then adds any more onto the property list.
const declarations = parseDeclarations(this.cssProperties.isKnown, name);
if (!declarations.length) {
return;
}
await declaration.setName(declarations[0].name);
if (!declaration.enabled) {
await declaration.setEnabled(true);
}
}
/**
* Helper function to addNewDeclaration() and modifyDeclarationValue() for
* adding multiple declarations to a rule.
*
* @param {Rule} rule
* The Rule object to write new declarations to.
* @param {Array<Object>} declarationsToAdd
* An array of object containg the parsed declaration data to be added.
* @param {TextProperty|null} siblingDeclaration
* Optional declaration next to which the new declaration will be added.
*/
_addMultipleDeclarations(rule, declarationsToAdd, siblingDeclaration = null) {
for (const { commentOffsets, name, value, priority } of declarationsToAdd) {
const isCommented = Boolean(commentOffsets);
const enabled = !isCommented;
siblingDeclaration = rule.createProperty(
name,
value,
priority,
enabled,
siblingDeclaration
);
}
}
/**
* Parse a value string and break it into pieces, starting with the
* first value, and into an array of additional declarations (if any).
*
* Example: Calling with "red; width: 100px" would return
* { firstValue: "red", propertiesToAdd: [{ name: "width", value: "100px" }] }
*
* @param {String} value
* The string to parse.
* @return {Object} An object with the following properties:
* firstValue: A string containing a simple value, like
* "red" or "100px!important"
* declarationsToAdd: An array with additional declarations, following the
* parseDeclarations format of { name, value, priority }
*/
_getValueAndExtraProperties(value) {
// The inplace editor will prevent manual typing of multiple declarations,
// but we need to deal with the case during a paste event.
// Adding multiple declarations inside of value editor sets value with the
// first, then adds any more onto the declaration list (below this declarations).
let firstValue = value;
let declarationsToAdd = [];
const declarations = parseDeclarations(this.cssProperties.isKnown, value);
// Check to see if the input string can be parsed as multiple declarations
if (declarations.length) {
// Get the first property value (if any), and any remaining
// declarations (if any)
if (!declarations[0].name && declarations[0].value) {
firstValue = declarations[0].value;
declarationsToAdd = declarations.slice(1);
} else if (declarations[0].name && declarations[0].value) {
// In some cases, the value could be a property:value pair
// itself. Join them as one value string and append
// potentially following declarations
firstValue = declarations[0].name + ": " + declarations[0].value;
declarationsToAdd = declarations.slice(1);
}
}
return {
declarationsToAdd,
firstValue,
};
}
/**
* Given the id of the rule and the new declaration value, modifies the existing
* declaration value to the new given value.
*
* @param {String} ruleId
* The Rule id of the given CSS declaration.
* @param {String} declarationId
* The TextProperty id for the CSS declaration.
* @param {String} value
* The new declaration value.
*/
async modifyDeclarationValue(ruleId, declarationId, value) {
const rule = this.getRule(ruleId);
if (!rule) {
return;
}
const declaration = rule.getDeclaration(declarationId);
if (!declaration) {
return;
}
const { declarationsToAdd, firstValue } =
this._getValueAndExtraProperties(value);
const parsedValue = parseSingleValue(
this.cssProperties.isKnown,
firstValue
);
if (
!declarationsToAdd.length &&
declaration.value === parsedValue.value &&
declaration.priority === parsedValue.priority
) {
return;
}
// First, set this declaration value (common case, only modified a property)
await declaration.setValue(parsedValue.value, parsedValue.priority);
if (!declaration.enabled) {
await declaration.setEnabled(true);
}
this._addMultipleDeclarations(rule, declarationsToAdd, declaration);
}
/**
* Modifies the existing rule's selector to the new given value.
*
* @param {String} ruleId
* The id of the Rule to be modified.
* @param {String} selector
* The new selector value.
*/
async modifySelector(ruleId, selector) {
try {
const rule = this.getRule(ruleId);
if (!rule) {
return;
}
const response = await rule.domRule.modifySelector(
this.element,
selector
);
const { ruleProps, isMatching } = response;
if (!ruleProps) {
// Notify for changes, even when nothing changes, just to allow tests
// being able to track end of this request.
this.ruleView.emit("ruleview-invalid-selector");
return;
}
const newRule = new Rule(this, {
...ruleProps,
isUnmatched: !isMatching,
});
// Recompute the list of applied styles because editing a
// selector might cause this rule's position to change.
const appliedStyles = await this.pageStyle.getApplied(this.element, {
inherited: true,
matchedSelectors: true,
filter: this.showUserAgentStyles ? "ua" : undefined,
});
const newIndex = appliedStyles.findIndex(r => r.rule == ruleProps.rule);
const oldIndex = this.rules.indexOf(rule);
// Remove the old rule and insert the new rule according to where it appears
// in the list of applied styles.
this.rules.splice(oldIndex, 1);
// If the selector no longer matches, then we leave the rule in
// the same relative position.
this.rules.splice(newIndex === -1 ? oldIndex : newIndex, 0, newRule);
// Recompute, mark and update the UI for any properties that are
// overridden or contain inactive CSS according to the new list of rules.
this.onRuleUpdated();
// In order to keep the new rule in place of the old in the rules view, we need
// to remove the rule again if the rule was inserted to its new index according
// to the list of applied styles.
// Note: you might think we would replicate the list-modification logic above,
// but that is complicated due to the way the UI installs pseudo-element rules
// and the like.
if (newIndex !== -1) {
this.rules.splice(newIndex, 1);
this.rules.splice(oldIndex, 0, newRule);
}
this._changed();
} catch (e) {
console.error(e);
}
}
/**
* Toggles the enabled state of the given CSS declaration.
*
* @param {String} ruleId
* The Rule id of the given CSS declaration.
* @param {String} declarationId
* The TextProperty id for the CSS declaration.
*/
toggleDeclaration(ruleId, declarationId) {
const rule = this.getRule(ruleId);
if (!rule) {
return;
}
const declaration = rule.getDeclaration(declarationId);
if (!declaration) {
return;
}
declaration.setEnabled(!declaration.enabled);
}
/**
* Mark a given TextProperty as overridden or not depending on the
* state of its computed properties. Clears the _overriddenDirty state
* on all computed properties.
*
* @param {TextProperty} prop
* The text property to update.
* @return {Boolean} true if the TextProperty's overridden state (or any of
* its computed properties overridden state) changed.
*/
_updatePropertyOverridden(prop) {
let overridden = true;
let dirty = false;
for (const computedProp of prop.computed) {
if (!computedProp.overridden) {
overridden = false;
}
dirty = computedProp._overriddenDirty || dirty;
delete computedProp._overriddenDirty;
}
dirty = !!prop.overridden !== overridden || dirty;
prop.overridden = overridden;
return dirty;
}
/**
* Returns data about a CSS variable.
*
* @param {String} name
* The name of the variable.
* @param {String} pseudo
* The pseudo-element name of the rule.
* @return {Object} An object with the following properties:
* - {String|undefined} value: The variable's value. Undefined if variable is not set.
* - {RegisteredPropertyResource|undefined} registeredProperty: The registered
* property data (syntax, initial value, inherits). Undefined if the variable
* is not a registered property.
*/
getVariableData(name, pseudo = "") {
const variables = this.variablesMap.get(pseudo);
const startingStyleVariables = this.startingStyleVariablesMap.get(pseudo);
const registeredPropertiesMap =
this.ruleView.getRegisteredPropertiesForSelectedNodeTarget();
const data = {};
if (variables?.has(name)) {
// XXX Check what to do in case the value doesn't match the registered property syntax.
const { declarationValue, computedValue } = variables.get(name);
data.value = declarationValue;
data.computedValue = computedValue;
}
if (startingStyleVariables?.has(name)) {
data.startingStyle = startingStyleVariables.get(name);
}
if (registeredPropertiesMap?.has(name)) {
data.registeredProperty = registeredPropertiesMap.get(name);
}
return data;
}
/**
* Get all custom properties.
*
* @param {String} pseudo
* The pseudo-element name of the rule.
* @returns Map<String, String> A map whose key is the custom property name and value is
* the custom property value (or registered property initial
* value if the property is not defined)
*/
getAllCustomProperties(pseudo = "") {
const customProperties = new Map();
for (const [
key,
{ computedValue, declarationValue },
] of this.variablesMap.get(pseudo)) {
customProperties.set(key, computedValue ?? declarationValue);
}
const startingStyleCustomProperties =
this.startingStyleVariablesMap.get(pseudo);
const registeredPropertiesMap =
this.ruleView.getRegisteredPropertiesForSelectedNodeTarget();
// If there's no registered properties nor starting style ones, we can return the Map as is
if (
(!registeredPropertiesMap || registeredPropertiesMap.size === 0) &&
(!startingStyleCustomProperties ||
startingStyleCustomProperties.size === 0)
) {
return customProperties;
}
if (startingStyleCustomProperties) {
for (const [name, value] of startingStyleCustomProperties) {
// Only set the starting style property if it's not defined (i.e. not in the "main"
// variable map)
if (!customProperties.has(name)) {
customProperties.set(name, value);
}
}
}
if (registeredPropertiesMap) {
for (const [name, propertyDefinition] of registeredPropertiesMap) {
// Only set the registered property if it's not defined (i.e. not in the variable map)
if (!customProperties.has(name)) {
customProperties.set(name, propertyDefinition.initialValue);
}
}
}
return customProperties;
}
}
module.exports = ElementStyle;