NativeScript/nativescript-core/ui/styling/style-scope.ts

import { Keyframes } from "../animation/keyframe-animation";
import { ViewBase } from "../core/view-base";
import { View } from "../core/view";
import { unsetValue, _evaluateCssVariableExpression, _evaluateCssCalcExpression, isCssVariable, isCssVariableExpression, isCssCalcExpression } from "../core/properties";
import {
    SyntaxTree,
    Keyframes as KeyframesDefinition,
    parse as parseCss,
    Node as CssNode,
} from "../../css";
import {
    CSS3Parser,
    CSSNativeScript
} from "../../css/parser";

import {
    RuleSet,
    SelectorsMap,
    SelectorCore,
    SelectorsMatch,
    ChangeMap,
    fromAstNodes,
    Node,
} from "./css-selector";
import {
    write as traceWrite,
    categories as traceCategories,
    messageType as traceMessageType,
} from "../../trace";
import { File, knownFolders, path } from "../../file-system";
import * as application from "../../application";
import { profile } from "../../profiling";

import * as kam from "../animation/keyframe-animation";
let keyframeAnimationModule: typeof kam;
function ensureKeyframeAnimationModule() {
    if (!keyframeAnimationModule) {
        keyframeAnimationModule = require("../animation/keyframe-animation");
    }
}

import * as capm from "./css-animation-parser";
import { sanitizeModuleName } from "../builder/module-name-sanitizer";
import { resolveModuleName } from "../../module-name-resolver";

let cssAnimationParserModule: typeof capm;
function ensureCssAnimationParserModule() {
    if (!cssAnimationParserModule) {
        cssAnimationParserModule = require("./css-animation-parser");
    }
}

let parser: "rework" | "nativescript" = "rework";
try {
    const appConfig = require("~/package.json");
    if (appConfig && appConfig.cssParser === "nativescript") {
        parser = "nativescript";
    }
} catch (e) {
    //
}

/**
 * Evaluate css-variable and css-calc expressions
 */
function evaluateCssExpressions(view: ViewBase, property: string, value: string) {
    const newValue = _evaluateCssVariableExpression(view, property, value);
    if (newValue === "unset") {
        return unsetValue;
    }

    value = newValue;

    try {
        value = _evaluateCssCalcExpression(value);
    } catch (e) {
        traceWrite(`Failed to evaluate css-calc for property [${property}] for expression [${value}] to ${view}. ${e.stack}`, traceCategories.Error, traceMessageType.error);

        return unsetValue;
    }

    return value;
}

export function mergeCssSelectors(): void {
    applicationCssSelectors = applicationSelectors.slice();
    applicationCssSelectors.push.apply(applicationCssSelectors, applicationAdditionalSelectors);
    applicationCssSelectorVersion++;
}

let applicationCssSelectors: RuleSet[] = [];
let applicationCssSelectorVersion: number = 0;
let applicationSelectors: RuleSet[] = [];
const applicationAdditionalSelectors: RuleSet[] = [];
const applicationKeyframes: any = {};
const animationsSymbol: symbol = Symbol("animations");
const pattern: RegExp = /('|")(.*?)\1/;

class CSSSource {
    private _selectors: RuleSet[] = [];

    private constructor(private _ast: SyntaxTree, private _url: string, private _file: string, private _keyframes: KeyframesMap, private _source: string) {
        this.parse();
    }

    public static fromURI(uri: string, keyframes: KeyframesMap): CSSSource {
        // webpack modules require all file paths to be relative to /app folder
        const appRelativeUri = CSSSource.pathRelativeToApp(uri);
        const sanitizedModuleName = sanitizeModuleName(appRelativeUri);
        const resolvedModuleName = resolveModuleName(sanitizedModuleName, "css");

        try {
            const cssOrAst = global.loadModule(resolvedModuleName, true);
            if (cssOrAst) {
                if (typeof cssOrAst === "string") {
                    // raw-loader
                    return CSSSource.fromSource(cssOrAst, keyframes, resolvedModuleName);
                } else if (typeof cssOrAst === "object" && cssOrAst.type === "stylesheet" && cssOrAst.stylesheet && cssOrAst.stylesheet.rules) {
                    // css-loader
                    return CSSSource.fromAST(cssOrAst, keyframes, resolvedModuleName);
                } else {
                    // css2json-loader
                    return CSSSource.fromSource(cssOrAst.toString(), keyframes, resolvedModuleName);
                }
            }
        } catch (e) {
            traceWrite(`Could not load CSS from ${uri}: ${e}`, traceCategories.Error, traceMessageType.error);
        }

        return CSSSource.fromFile(appRelativeUri, keyframes);
    }

    private static pathRelativeToApp(uri: string): string {
        if (!uri.startsWith("/")) {
            return uri;
        }

        const appPath = knownFolders.currentApp().path;
        if (!uri.startsWith(appPath)) {
            traceWrite(`${uri} does not start with ${appPath}`, traceCategories.Error, traceMessageType.error);

            return uri;
        }

        const relativeUri = `.${uri.substr(appPath.length)}`;

        return relativeUri;
    }

    public static fromFile(url: string, keyframes: KeyframesMap): CSSSource {
        // .scss, .sass, etc. css files in vanilla app are usually compiled to .css so we will try to load a compiled file first.
        let cssFileUrl = url.replace(/\..\w+$/, ".css");
        if (cssFileUrl !== url) {
            const cssFile = CSSSource.resolveCSSPathFromURL(cssFileUrl);
            if (cssFile) {
                return new CSSSource(undefined, url, cssFile, keyframes, undefined);
            }
        }

        const file = CSSSource.resolveCSSPathFromURL(url);

        return new CSSSource(undefined, url, file, keyframes, undefined);
    }

    public static fromFileImport(url: string, keyframes: KeyframesMap, importSource: string): CSSSource {
        const file = CSSSource.resolveCSSPathFromURL(url, importSource);

        return new CSSSource(undefined, url, file, keyframes, undefined);
    }

    @profile
    public static resolveCSSPathFromURL(url: string, importSource?: string): string {
        const app = knownFolders.currentApp().path;
        const file = resolveFileNameFromUrl(url, app, File.exists, importSource);

        return file;
    }

    public static fromSource(source: string, keyframes: KeyframesMap, url?: string): CSSSource {
        return new CSSSource(undefined, url, undefined, keyframes, source);
    }

    public static fromAST(ast: SyntaxTree, keyframes: KeyframesMap, url?: string): CSSSource {
        return new CSSSource(ast, url, undefined, keyframes, undefined);
    }

    get selectors(): RuleSet[] { return this._selectors; }
    get source(): string { return this._source; }

    @profile
    private load(): void {
        const file = File.fromPath(this._file);
        this._source = file.readTextSync();
    }

    @profile
    private parse(): void {
        try {
            if (!this._ast) {
                if (!this._source && this._file) {
                    this.load();
                }
                // [object Object] check guards against empty app.css file
                if (this._source && this.source !== "[object Object]") {
                    this.parseCSSAst();
                }
            }
            if (this._ast) {
                this.createSelectors();
            } else {
                this._selectors = [];
            }
        } catch (e) {
            traceWrite("Css styling failed: " + e, traceCategories.Error, traceMessageType.error);
            this._selectors = [];
        }
    }

    @profile
    private parseCSSAst() {
        if (this._source) {
            switch (parser) {
                case "nativescript":
                    const cssparser = new CSS3Parser(this._source);
                    const stylesheet = cssparser.parseAStylesheet();
                    const cssNS = new CSSNativeScript();
                    this._ast = cssNS.parseStylesheet(stylesheet);

                    return;
                case "rework":
                    this._ast = parseCss(this._source, { source: this._file });

                    return;
            }
        }
    }

    @profile
    private createSelectors() {
        if (this._ast) {
            this._selectors = [
                ...this.createSelectorsFromImports(),
                ...this.createSelectorsFromSyntaxTree()
            ];
        }
    }

    private createSelectorsFromImports(): RuleSet[] {
        const imports = this._ast["stylesheet"]["rules"].filter(r => r.type === "import");

        const urlFromImportObject = importObject => {
            const importItem = importObject["import"] as string;
            const urlMatch = importItem && importItem.match(pattern);

            return urlMatch && urlMatch[2];
        };

        const sourceFromImportObject = importObject =>
            importObject["position"] && importObject["position"]["source"];

        const toUrlSourcePair = importObject => ({
            url: urlFromImportObject(importObject),
            source: sourceFromImportObject(importObject),
        });

        const getCssFile = ({ url, source }) => source ?
            CSSSource.fromFileImport(url, this._keyframes, source) :
            CSSSource.fromURI(url, this._keyframes);

        const cssFiles = imports
            .map(toUrlSourcePair)
            .filter(({ url }) => !!url)
            .map(getCssFile);

        const selectors = cssFiles.map(file => (file && file.selectors) || []);

        return selectors.reduce((acc, val) => acc.concat(val), []);
    }

    private createSelectorsFromSyntaxTree(): RuleSet[] {
        const nodes = this._ast.stylesheet.rules;
        (<KeyframesDefinition[]>nodes.filter(isKeyframe)).forEach(node => this._keyframes[node.name] = node);

        const rulesets = fromAstNodes(nodes);
        if (rulesets && rulesets.length) {
            ensureCssAnimationParserModule();

            rulesets.forEach(rule => {
                rule[animationsSymbol] = cssAnimationParserModule.CssAnimationParser
                    .keyframeAnimationsFromCSSDeclarations(rule.declarations);
            });
        }

        return rulesets;
    }

    toString(): string {
        return this._file || this._url || "(in-memory)";
    }
}

export function removeTaggedAdditionalCSS(tag: String | Number): Boolean {
    let changed = false;
    for (let i = 0; i < applicationAdditionalSelectors.length; i++) {
        if (applicationAdditionalSelectors[i].tag === tag) {
            applicationAdditionalSelectors.splice(i, 1);
            i--;
            changed = true;
        }
    }
    if (changed) { mergeCssSelectors(); }

    return changed;
}

export function addTaggedAdditionalCSS(cssText: string, tag?: string | Number): Boolean {
    const parsed: RuleSet[] = CSSSource.fromSource(cssText, applicationKeyframes, undefined).selectors;
    let changed = false;
    if (parsed && parsed.length) {
        changed = true;
        if (tag != null) {
            for (let i = 0; i < parsed.length; i++) {
                parsed[i].tag = tag;
            }
        }
        applicationAdditionalSelectors.push.apply(applicationAdditionalSelectors, parsed);
        mergeCssSelectors();
    }

    return changed;
}

const onCssChanged = profile("\"style-scope\".onCssChanged", (args: application.CssChangedEventData) => {
    if (args.cssText) {
        const parsed = CSSSource.fromSource(args.cssText, applicationKeyframes, args.cssFile).selectors;
        if (parsed) {
            applicationAdditionalSelectors.push.apply(applicationAdditionalSelectors, parsed);
            mergeCssSelectors();
        }
    } else if (args.cssFile) {
        loadCss(args.cssFile);
    }
});

function onLiveSync(args: application.CssChangedEventData): void {
    loadCss(application.getCssFileName());
}

const loadCss = profile(`"style-scope".loadCss`, (cssModule: string) => {
    if (!cssModule) {
        return undefined;
    }

    // safely remove "./" as global CSS should be resolved relative to app folder
    if (cssModule.startsWith("./")) {
        cssModule = cssModule.substr(2);
    }

    const result = CSSSource.fromURI(cssModule, applicationKeyframes).selectors;
    if (result.length > 0) {
        applicationSelectors = result;
        mergeCssSelectors();
    }
});

application.on("cssChanged", onCssChanged);
application.on("livesync", onLiveSync);

// Call to this method is injected in the application in:
//  - no-snapshot - code injected in app.ts by [bundle-config-loader](https://github.com/NativeScript/nativescript-dev-webpack/blob/9b1e34d8ef838006c9b575285c42d2304f5f02b5/bundle-config-loader.ts#L85-L92)
//  - with-snapshot - code injected in snapshot bundle by [NativeScriptSnapshotPlugin](https://github.com/NativeScript/nativescript-dev-webpack/blob/48b26f412fd70c19dc0b9c7763e08e9505a0ae11/plugins/NativeScriptSnapshotPlugin/index.js#L48-L56)
// Having the app.css loaded in snapshot provides significant boost in startup (when using the ns-theme ~150 ms). However, because app.css is resolved at build-time,
// when the snapshot is created - there is no way to use file qualifiers or change the name of on app.css
export const loadAppCSS = profile("\"style-scope\".loadAppCSS", (args: application.LoadAppCSSEventData) => {
    loadCss(args.cssFile);
    application.off("loadAppCss", loadAppCSS);
});

if (application.hasLaunched()) {
    loadAppCSS({ eventName: "loadAppCss", object: <any>application, cssFile: application.getCssFileName() });
} else {
    application.on("loadAppCss", loadAppCSS);
}

export class CssState {
    static emptyChangeMap: Readonly<ChangeMap<ViewBase>> = Object.freeze(new Map());
    static emptyPropertyBag: Readonly<{}> = Object.freeze({});
    static emptyAnimationArray: ReadonlyArray<kam.KeyframeAnimation> = Object.freeze([]);
    static emptyMatch: Readonly<SelectorsMatch<ViewBase>> = { selectors: [], changeMap: new Map() };

    _onDynamicStateChangeHandler: () => void;
    _appliedChangeMap: Readonly<ChangeMap<ViewBase>>;
    _appliedPropertyValues: Readonly<{}>;
    _appliedAnimations: ReadonlyArray<kam.KeyframeAnimation>;
    _appliedSelectorsVersion: number;

    _match: SelectorsMatch<ViewBase>;
    _matchInvalid: boolean;
    _playsKeyframeAnimations: boolean;

    constructor(private viewRef: WeakRef<ViewBase>) {
        this._onDynamicStateChangeHandler = () => this.updateDynamicState();
    }

    /**
     * Called when a change had occurred that may invalidate the statically matching selectors (class, id, ancestor selectors).
     * As a result, at some point in time, the selectors matched have to be requerried from the style scope and applied to the view.
     */
    public onChange(): void {
        const view = this.viewRef.get();
        if (view && view.isLoaded) {
            this.unsubscribeFromDynamicUpdates();
            this.updateMatch();
            this.subscribeForDynamicUpdates();
            this.updateDynamicState();
        } else {
            this._matchInvalid = true;
        }
    }

    public isSelectorsLatestVersionApplied(): boolean {
        const view = this.viewRef.get();
        if (!view) {
            traceWrite(`isSelectorsLatestVersionApplied returns default value "false" because "this.viewRef" cleared.`, traceCategories.Style, traceMessageType.warn);

            return false;
        }

        return this.viewRef.get()._styleScope._getSelectorsVersion() === this._appliedSelectorsVersion;
    }

    public onLoaded(): void {
        if (this._matchInvalid) {
            this.updateMatch();
        }
        this.subscribeForDynamicUpdates();
        this.updateDynamicState();
    }

    public onUnloaded(): void {
        this.unsubscribeFromDynamicUpdates();
    }

    @profile
    private updateMatch() {
        const view = this.viewRef.get();
        if (view && view._styleScope) {
            this._match = view._styleScope.matchSelectors(view);
            this._appliedSelectorsVersion = view._styleScope._getSelectorsVersion();
        } else {
            this._match = CssState.emptyMatch;
        }

        this._matchInvalid = false;
    }

    @profile
    private updateDynamicState(): void {
        const view = this.viewRef.get();
        if (!view) {
            traceWrite(`updateDynamicState not executed to view because ".viewRef" is cleared`, traceCategories.Style, traceMessageType.warn);

            return;
        }

        const matchingSelectors = this._match.selectors.filter(sel => sel.dynamic ? sel.match(view) : true);
        view._batchUpdate(() => {
            this.stopKeyframeAnimations();
            this.setPropertyValues(matchingSelectors);
            this.playKeyframeAnimations(matchingSelectors);
        });
    }

    private playKeyframeAnimations(matchingSelectors: SelectorCore[]): void {
        const animations: kam.KeyframeAnimation[] = [];

        matchingSelectors.forEach(selector => {
            let ruleAnimations: kam.KeyframeAnimationInfo[] = selector.ruleset[animationsSymbol];
            if (ruleAnimations) {
                ensureKeyframeAnimationModule();
                for (let animationInfo of ruleAnimations) {
                    let animation = keyframeAnimationModule.KeyframeAnimation.keyframeAnimationFromInfo(animationInfo);
                    if (animation) {
                        animations.push(animation);
                    }
                }
            }
        });

        if (this._playsKeyframeAnimations = animations.length > 0) {
            const view = this.viewRef.get();
            if (!view) {
                traceWrite(`KeyframeAnimations cannot play because ".viewRef" is cleared`, traceCategories.Animation, traceMessageType.warn);

                return;
            }

            animations.map(animation => animation.play(<View>view));
            Object.freeze(animations);
            this._appliedAnimations = animations;
        }
    }

    private stopKeyframeAnimations(): void {
        if (!this._playsKeyframeAnimations) {
            return;
        }

        this._appliedAnimations
            .filter(animation => animation.isPlaying)
            .forEach(animation => animation.cancel());
        this._appliedAnimations = CssState.emptyAnimationArray;

        const view = this.viewRef.get();
        if (view) {
            view.style["keyframe:rotate"] = unsetValue;
            view.style["keyframe:scaleX"] = unsetValue;
            view.style["keyframe:scaleY"] = unsetValue;
            view.style["keyframe:translateX"] = unsetValue;
            view.style["keyframe:translateY"] = unsetValue;
            view.style["keyframe:backgroundColor"] = unsetValue;
            view.style["keyframe:opacity"] = unsetValue;
        } else {
            traceWrite(`KeyframeAnimations cannot be stopped because ".viewRef" is cleared`, traceCategories.Animation, traceMessageType.warn);
        }

        this._playsKeyframeAnimations = false;
    }

    /**
     * Calculate the difference between the previously applied property values,
     * and the new set of property values that have to be applied for the provided selectors.
     * Apply the values and ensure each property setter is called at most once to avoid excessive change notifications.
     * @param matchingSelectors
     */
    private setPropertyValues(matchingSelectors: SelectorCore[]): void {
        const view = this.viewRef.get();
        if (!view) {
            traceWrite(`${matchingSelectors} not set to view's property because ".viewRef" is cleared`, traceCategories.Style, traceMessageType.warn);

            return;
        }

        const newPropertyValues = new view.style.PropertyBag();
        matchingSelectors.forEach(selector =>
            selector.ruleset.declarations.forEach(declaration =>
                newPropertyValues[declaration.property] = declaration.value));

        const oldProperties = this._appliedPropertyValues;

        let isCssExpressionInUse = false;

        // Update values for the scope's css-variables
        view.style.resetScopedCssVariables();

        for (const property in newPropertyValues) {
            const value = newPropertyValues[property];
            if (isCssVariable(property)) {
                view.style.setScopedCssVariable(property, value);

                delete newPropertyValues[property];
                continue;
            }

            isCssExpressionInUse = isCssExpressionInUse || isCssVariableExpression(value) || isCssCalcExpression(value);
        }

        if (isCssExpressionInUse) {
            // Evalute css-expressions to get the latest values.
            for (const property in newPropertyValues) {
                const value = evaluateCssExpressions(view, property, newPropertyValues[property]);
                if (value === unsetValue) {
                    delete newPropertyValues[property];
                    continue;
                }

                newPropertyValues[property] = value;
            }
        }

        // Property values are fully updated, freeze the object to be used for next update.
        Object.freeze(newPropertyValues);

        // Unset removed values
        for (const property in oldProperties) {
            if (!(property in newPropertyValues)) {
                if (property in view.style) {
                    view.style[`css:${property}`] = unsetValue;
                } else {
                    // TRICKY: How do we unset local value?
                }
            }
        }

        // Set new values to the style
        for (const property in newPropertyValues) {
            if (oldProperties && property in oldProperties && oldProperties[property] === newPropertyValues[property]) {
                // Skip unchanged values
                continue;
            }

            const value = newPropertyValues[property];
            try {
                if (property in view.style) {
                    view.style[`css:${property}`] = value;
                } else {
                    const camelCasedProperty = property.replace(/-([a-z])/g, function (g) { return g[1].toUpperCase(); });
                    view[camelCasedProperty] = value;
                }
            } catch (e) {
                traceWrite(`Failed to apply property [${property}] with value [${value}] to ${view}. ${e.stack}`, traceCategories.Error, traceMessageType.error);
            }
        }

        this._appliedPropertyValues = newPropertyValues;
    }

    private subscribeForDynamicUpdates(): void {
        const changeMap = this._match.changeMap;
        changeMap.forEach((changes, view) => {
            if (changes.attributes) {
                changes.attributes.forEach(attribute => {
                    view.addEventListener(attribute + "Change", this._onDynamicStateChangeHandler);
                });
            }
            if (changes.pseudoClasses) {
                changes.pseudoClasses.forEach(pseudoClass => {
                    let eventName = ":" + pseudoClass;
                    view.addEventListener(":" + pseudoClass, this._onDynamicStateChangeHandler);
                    if (view[eventName]) {
                        view[eventName](+1);
                    }
                });
            }
        });
        this._appliedChangeMap = changeMap;
    }

    private unsubscribeFromDynamicUpdates(): void {
        this._appliedChangeMap.forEach((changes, view) => {
            if (changes.attributes) {
                changes.attributes.forEach(attribute => {
                    view.removeEventListener(attribute + "Change", this._onDynamicStateChangeHandler);
                });
            }
            if (changes.pseudoClasses) {
                changes.pseudoClasses.forEach(pseudoClass => {
                    let eventName = ":" + pseudoClass;
                    view.removeEventListener(eventName, this._onDynamicStateChangeHandler);
                    if (view[eventName]) {
                        view[eventName](-1);
                    }
                });
            }
        });
        this._appliedChangeMap = CssState.emptyChangeMap;
    }

    toString(): string {
        const view = this.viewRef.get();
        if (!view) {
            traceWrite(`toString() of CssState cannot execute correctly because ".viewRef" is cleared`, traceCategories.Animation, traceMessageType.warn);

            return "";
        }

        return `${view}._cssState`;
    }
}
CssState.prototype._appliedChangeMap = CssState.emptyChangeMap;
CssState.prototype._appliedPropertyValues = CssState.emptyPropertyBag;
CssState.prototype._appliedAnimations = CssState.emptyAnimationArray;
CssState.prototype._matchInvalid = true;

export class StyleScope {

    private _selectors: SelectorsMap;
    private _css: string = "";
    private _mergedCssSelectors: RuleSet[];
    private _localCssSelectors: RuleSet[] = [];
    private _localCssSelectorVersion: number = 0;
    private _localCssSelectorsAppliedVersion: number = 0;
    private _applicationCssSelectorsAppliedVersion: number = 0;
    private _keyframes = new Map<string, Keyframes>();

    get css(): string {
        return this._css;
    }

    set css(value: string) {
        this.setCss(value);
    }

    public addCss(cssString: string, cssFileName?: string): void {
        this.appendCss(cssString, cssFileName);
    }

    public addCssFile(cssFileName: string): void {
        this.appendCss(null, cssFileName);
    }

    public changeCssFile(cssFileName: string): void {
        if (!cssFileName) {
            return;
        }

        const cssSelectors = CSSSource.fromURI(cssFileName, this._keyframes);
        this._css = cssSelectors.source;
        this._localCssSelectors = cssSelectors.selectors;
        this._localCssSelectorVersion++;
        this.ensureSelectors();
    }

    @profile
    private setCss(cssString: string, cssFileName?): void {
        this._css = cssString;

        const cssFile = CSSSource.fromSource(cssString, this._keyframes, cssFileName);
        this._localCssSelectors = cssFile.selectors;
        this._localCssSelectorVersion++;
        this.ensureSelectors();
    }

    @profile
    private appendCss(cssString: string, cssFileName?): void {
        if (!cssString && !cssFileName) {
            return;
        }

        let parsedCssSelectors = cssString ? CSSSource.fromSource(cssString, this._keyframes, cssFileName) : CSSSource.fromURI(cssFileName, this._keyframes);
        this._css = this._css + parsedCssSelectors.source;
        this._localCssSelectors.push.apply(this._localCssSelectors, parsedCssSelectors.selectors);
        this._localCssSelectorVersion++;
        this.ensureSelectors();
    }

    public getKeyframeAnimationWithName(animationName: string): kam.KeyframeAnimationInfo {
        const cssKeyframes = this._keyframes[animationName];
        if (!cssKeyframes) {
            return;
        }

        ensureKeyframeAnimationModule();
        const animation = new keyframeAnimationModule.KeyframeAnimationInfo();
        ensureCssAnimationParserModule();
        animation.keyframes = cssAnimationParserModule
            .CssAnimationParser.keyframesArrayFromCSS(cssKeyframes.keyframes);

        return animation;
    }

    public ensureSelectors(): number {
        if (!this.isApplicationCssSelectorsLatestVersionApplied() ||
            !this.isLocalCssSelectorsLatestVersionApplied() ||
            !this._mergedCssSelectors) {

            this._createSelectors();
        }

        return this._getSelectorsVersion();
    }

    public _increaseApplicationCssSelectorVersion(): void {
        applicationCssSelectorVersion++;
    }

    public isApplicationCssSelectorsLatestVersionApplied(): boolean {
        return this._applicationCssSelectorsAppliedVersion === applicationCssSelectorVersion;
    }

    public isLocalCssSelectorsLatestVersionApplied(): boolean {
        return this._localCssSelectorsAppliedVersion === this._localCssSelectorVersion;
    }

    @profile
    private _createSelectors() {
        let toMerge: RuleSet[][] = [];
        toMerge.push(applicationCssSelectors);
        this._applicationCssSelectorsAppliedVersion = applicationCssSelectorVersion;
        toMerge.push(this._localCssSelectors);
        this._localCssSelectorsAppliedVersion = this._localCssSelectorVersion;
        for (let keyframe in applicationKeyframes) {
            this._keyframes[keyframe] = applicationKeyframes[keyframe];
        }

        if (toMerge.length > 0) {
            this._mergedCssSelectors = toMerge.filter(m => !!m).reduce((merged, next) => merged.concat(next), []);
            this._applyKeyframesOnSelectors();
            this._selectors = new SelectorsMap(this._mergedCssSelectors);
        }
    }

    // HACK: This @profile decorator creates a circular dependency
    // HACK: because the function parameter type is evaluated with 'typeof'
    @profile
    public matchSelectors(view: any): SelectorsMatch<ViewBase> { // should be (view: ViewBase): SelectorsMatch<ViewBase>
        this.ensureSelectors();

        return this._selectors.query(view);
    }

    public query(node: Node): SelectorCore[] {
        this.ensureSelectors();

        return this._selectors.query(node).selectors;
    }

    private _getSelectorsVersion() {
        // The counters can only go up. So we can return just appVersion + localVersion
        // The 100000 * appVersion is just for easier debugging
        return 100000 * this._applicationCssSelectorsAppliedVersion + this._localCssSelectorsAppliedVersion;
    }

    private _applyKeyframesOnSelectors() {
        for (let i = this._mergedCssSelectors.length - 1; i >= 0; i--) {
            let ruleset = this._mergedCssSelectors[i];
            let animations: kam.KeyframeAnimationInfo[] = ruleset[animationsSymbol];
            if (animations !== undefined && animations.length) {
                ensureCssAnimationParserModule();
                for (let animation of animations) {
                    const cssKeyframe = this._keyframes[animation.name];
                    if (cssKeyframe !== undefined) {
                        animation.keyframes = cssAnimationParserModule
                            .CssAnimationParser.keyframesArrayFromCSS(cssKeyframe.keyframes);
                    }
                }
            }
        }
    }

    public getAnimations(ruleset: RuleSet): kam.KeyframeAnimationInfo[] {
        return ruleset[animationsSymbol];
    }
}

type KeyframesMap = Map<string, Keyframes>;

export function resolveFileNameFromUrl(url: string, appDirectory: string, fileExists: (name: string) => boolean, importSource?: string): string {

    let fileName: string = typeof url === "string" ? url.trim() : "";
    if (fileName.indexOf("~/") === 0) {
        fileName = fileName.replace("~/", "");
    }

    const isAbsolutePath = fileName.indexOf("/") === 0;
    const absolutePath = isAbsolutePath ? fileName : path.join(appDirectory, fileName);
    if (fileExists(absolutePath)) {
        return absolutePath;
    }

    if (!isAbsolutePath) {
        if (fileName[0] === "~" && fileName[1] !== "/" && fileName[1] !== "\"") {
            fileName = fileName.substr(1);
        }

        if (importSource) {
            const importFile = resolveFilePathFromImport(importSource, fileName);
            if (fileExists(importFile)) {
                return importFile;
            }
        }

        const external = path.join(appDirectory, "tns_modules", fileName);
        if (fileExists(external)) {
            return external;
        }
    }

    return null;
}

function resolveFilePathFromImport(importSource: string, fileName: string): string {
    const importSourceParts = importSource.split(path.separator);
    const fileNameParts = fileName.split(path.separator)
        // exclude the dot-segment for current directory
        .filter(p => !isCurrentDirectory(p));

    // remove current file name
    importSourceParts.pop();
    // remove element in case of dot-segment for parent directory or add file name
    fileNameParts.forEach(p => isParentDirectory(p) ? importSourceParts.pop() : importSourceParts.push(p));

    return importSourceParts.join(path.separator);
}

export const applyInlineStyle = profile(function applyInlineStyle(view: ViewBase, styleStr: string) {
    let localStyle = `local { ${styleStr} }`;
    let inlineRuleSet = CSSSource.fromSource(localStyle, new Map()).selectors;

    // Reset unscoped css-variables
    view.style.resetUnscopedCssVariables();

    // Set all the css-variables first, so we can be sure they are up-to-date
    inlineRuleSet[0].declarations.forEach(d => {
        // Use the actual property name so that a local value is set.
        let property = d.property;
        if (isCssVariable(property)) {
            view.style.setUnscopedCssVariable(property, d.value);
        }
    });

    inlineRuleSet[0].declarations.forEach(d => {
        // Use the actual property name so that a local value is set.
        let property = d.property;
        try {
            if (isCssVariable(property)) {
                // Skip css-variables, they have been handled
                return;
            }

            const value = evaluateCssExpressions(view, property, d.value);
            if (property in view.style) {
                view.style[property] = value;
            } else {
                view[property] = value;
            }
        } catch (e) {
            traceWrite(`Failed to apply property [${d.property}] with value [${d.value}] to ${view}. ${e}`, traceCategories.Error, traceMessageType.error);
        }
    });

    // This is needed in case of changes to css-variable or css-calc expressions.
    view._onCssStateChange();
});

function isCurrentDirectory(uriPart: string): boolean {
    return uriPart === ".";
}

function isParentDirectory(uriPart: string): boolean {
    return uriPart === "..";
}

function isKeyframe(node: CssNode): node is KeyframesDefinition {
    return node.type === "keyframes";
}