// @flow /** * This file provides support for Unicode range U+1D400 to U+1D7FF, * Mathematical Alphanumeric Symbols. * * Function wideCharacterFont takes a wide character as input and returns * the font information necessary to render it properly. */ import type {Mode} from "./types"; import ParseError from "./ParseError"; /** * Data below is from https://www.unicode.org/charts/PDF/U1D400.pdf * That document sorts characters into groups by font type, say bold or italic. * * In the arrays below, each subarray consists three elements: * * The CSS class of that group when in math mode. * * The CSS class of that group when in text mode. * * The font name, so that KaTeX can get font metrics. */ const wideLatinLetterData: Array<[string, string, string]> = [ ["mathbf", "textbf", "Main-Bold"], // A-Z bold upright ["mathbf", "textbf", "Main-Bold"], // a-z bold upright ["mathdefault", "textit", "Math-Italic"], // A-Z italic ["mathdefault", "textit", "Math-Italic"], // a-z italic ["boldsymbol", "boldsymbol", "Main-BoldItalic"], // A-Z bold italic ["boldsymbol", "boldsymbol", "Main-BoldItalic"], // a-z bold italic // Map fancy A-Z letters to script, not calligraphic. // This aligns with unicode-math and math fonts (except Cambria Math). ["mathscr", "textscr", "Script-Regular"], // A-Z script ["", "", ""], // a-z script. No font ["", "", ""], // A-Z bold script. No font ["", "", ""], // a-z bold script. No font ["mathfrak", "textfrak", "Fraktur-Regular"], // A-Z Fraktur ["mathfrak", "textfrak", "Fraktur-Regular"], // a-z Fraktur ["mathbb", "textbb", "AMS-Regular"], // A-Z double-struck ["mathbb", "textbb", "AMS-Regular"], // k double-struck ["", "", ""], // A-Z bold Fraktur No font metrics ["", "", ""], // a-z bold Fraktur. No font. ["mathsf", "textsf", "SansSerif-Regular"], // A-Z sans-serif ["mathsf", "textsf", "SansSerif-Regular"], // a-z sans-serif ["mathboldsf", "textboldsf", "SansSerif-Bold"], // A-Z bold sans-serif ["mathboldsf", "textboldsf", "SansSerif-Bold"], // a-z bold sans-serif ["mathitsf", "textitsf", "SansSerif-Italic"], // A-Z italic sans-serif ["mathitsf", "textitsf", "SansSerif-Italic"], // a-z italic sans-serif ["", "", ""], // A-Z bold italic sans. No font ["", "", ""], // a-z bold italic sans. No font ["mathtt", "texttt", "Typewriter-Regular"], // A-Z monospace ["mathtt", "texttt", "Typewriter-Regular"], // a-z monospace ]; const wideNumeralData: Array<[string, string, string]> = [ ["mathbf", "textbf", "Main-Bold"], // 0-9 bold ["", "", ""], // 0-9 double-struck. No KaTeX font. ["mathsf", "textsf", "SansSerif-Regular"], // 0-9 sans-serif ["mathboldsf", "textboldsf", "SansSerif-Bold"], // 0-9 bold sans-serif ["mathtt", "texttt", "Typewriter-Regular"], // 0-9 monospace ]; export const wideCharacterFont = function( wideChar: string, mode: Mode, ): [string, string] { // IE doesn't support codePointAt(). So work with the surrogate pair. const H = wideChar.charCodeAt(0); // high surrogate const L = wideChar.charCodeAt(1); // low surrogate const codePoint = ((H - 0xD800) * 0x400) + (L - 0xDC00) + 0x10000; const j = mode === "math" ? 0 : 1; // column index for CSS class. if (0x1D400 <= codePoint && codePoint < 0x1D6A4) { // wideLatinLetterData contains exactly 26 chars on each row. // So we can calculate the relevant row. No traverse necessary. const i = Math.floor((codePoint - 0x1D400) / 26); return [wideLatinLetterData[i][2], wideLatinLetterData[i][j]]; } else if (0x1D7CE <= codePoint && codePoint <= 0x1D7FF) { // Numerals, ten per row. const i = Math.floor((codePoint - 0x1D7CE) / 10); return [wideNumeralData[i][2], wideNumeralData[i][j]]; } else if (codePoint === 0x1D6A5 || codePoint === 0x1D6A6) { // dotless i or j return [wideLatinLetterData[0][2], wideLatinLetterData[0][j]]; } else if (0x1D6A6 < codePoint && codePoint < 0x1D7CE) { // Greek letters. Not supported, yet. return ["", ""]; } else { // We don't support any wide characters outside 1D400–1D7FF. throw new ParseError("Unsupported character: " + wideChar); } };