File: /var/www/blog.affstore/node_modules/sass/types/compile.d.ts
import {RawSourceMap} from 'source-map-js';
import {Options, StringOptions} from './options';
/**
* The result of compiling Sass to CSS. Returned by {@link compile}, {@link
* compileAsync}, {@link compileString}, and {@link compileStringAsync}.
*
* @category Compile
*/
export interface CompileResult {
/**
* The generated CSS.
*
* Note that this *never* includes a `sourceMapUrl` comment—it's up to the
* caller to determine where to save the source map and how to link to it from
* the stylesheet.
*/
css: string;
/**
* The canonical URLs of all the stylesheets that were loaded during the
* Sass compilation. The order of these URLs is not guaranteed.
*/
loadedUrls: URL[];
/**
* The object representation of the source map that maps locations in the
* generated CSS back to locations in the Sass source code.
*
* This typically uses absolute `file:` URLs to refer to Sass files, although
* this can be controlled by having a custom {@link Importer} return {@link
* ImporterResult.sourceMapUrl}.
*
* This is set if and only if {@link Options.sourceMap} is `true`.
*/
sourceMap?: RawSourceMap;
}
/**
* Synchronously compiles the Sass file at `path` to CSS. If it succeeds it
* returns a {@link CompileResult}, and if it fails it throws an {@link
* Exception}.
*
* This only allows synchronous {@link Importer}s and {@link CustomFunction}s.
*
* @example
*
* ```js
* const sass = require('sass');
*
* const result = sass.compile("style.scss");
* console.log(result.css);
* ```
*
* @category Compile
* @compatibility dart: "1.45.0", node: false
*/
export function compile(path: string, options?: Options<'sync'>): CompileResult;
/**
* Asynchronously compiles the Sass file at `path` to CSS. Returns a promise
* that resolves with a {@link CompileResult} if it succeeds and rejects with an
* {@link Exception} if it fails.
*
* This only allows synchronous or asynchronous {@link Importer}s and
* {@link CustomFunction}s.
*
* **Heads up!** When using Dart Sass, **{@link compile} is almost twice as fast
* as {@link compileAsync}**, due to the overhead of making the entire
* evaluation process asynchronous.
*
* @example
*
* ```js
* const sass = require('sass');
*
* const result = await sass.compileAsync("style.scss");
* console.log(result.css);
* ```
*
* @category Compile
* @compatibility dart: "1.45.0", node: false
*/
export function compileAsync(
path: string,
options?: Options<'async'>
): Promise<CompileResult>;
/**
* Synchronously compiles a stylesheet whose contents is `source` to CSS. If it
* succeeds it returns a {@link CompileResult}, and if it fails it throws an
* {@link Exception}.
*
* This only allows synchronous {@link Importer}s and {@link CustomFunction}s.
*
* @example
*
* ```js
* const sass = require('sass');
*
* const result = sass.compileString(`
* h1 {
* font-size: 40px;
* code {
* font-face: Roboto Mono;
* }
* }`);
* console.log(result.css);
* ```
*
* @category Compile
* @compatibility dart: "1.45.0", node: false
*/
export function compileString(
source: string,
options?: StringOptions<'sync'>
): CompileResult;
/**
* Asynchronously compiles a stylesheet whose contents is `source` to CSS.
* Returns a promise that resolves with a {@link CompileResult} if it succeeds
* and rejects with an {@link Exception} if it fails.
*
* This only allows synchronous or asynchronous {@link Importer}s and {@link
* CustomFunction}s.
*
* **Heads up!** When using Dart Sass, **{@link compile} is almost twice as fast
* as {@link compileAsync}**, due to the overhead of making the entire
* evaluation process asynchronous.
*
* @example
*
* ```js
* const sass = require('sass');
*
* const result = await sass.compileStringAsync(`
* h1 {
* font-size: 40px;
* code {
* font-face: Roboto Mono;
* }
* }`);
* console.log(result.css);
* ```
*
* @category Compile
* @compatibility dart: "1.45.0", node: false
*/
export function compileStringAsync(
source: string,
options?: StringOptions<'async'>
): Promise<CompileResult>;