site/node_modules/mathjax-full/ts/input/tex/base/BaseMethods.ts

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/*************************************************************
*
* Copyright (c) 2017-2022 The MathJax Consortium
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @fileoverview The Basic Parse methods.
*
* @author v.sorge@mathjax.org (Volker Sorge)
*/
import * as sitem from './BaseItems.js';
import {StackItem, EnvList} from '../StackItem.js';
import {Macro} from '../Symbol.js';
import {ParseMethod} from '../Types.js';
import NodeUtil from '../NodeUtil.js';
import TexError from '../TexError.js';
import TexParser from '../TexParser.js';
import {TexConstant} from '../TexConstants.js';
import ParseUtil from '../ParseUtil.js';
import {MmlNode, TEXCLASS} from '../../../core/MmlTree/MmlNode.js';
import {MmlMsubsup} from '../../../core/MmlTree/MmlNodes/msubsup.js';
import {MmlMunderover} from '../../../core/MmlTree/MmlNodes/munderover.js';
import {Label} from '../Tags.js';
import {em} from '../../../util/lengths.js';
import {entities} from '../../../util/Entities.js';
import {lookup} from '../../../util/Options.js';
// Namespace
let BaseMethods: Record<string, ParseMethod> = {};
const P_HEIGHT = 1.2 / .85; // cmex10 height plus depth over .85
const MmlTokenAllow: {[key: string]: number} = {
fontfamily: 1, fontsize: 1, fontweight: 1, fontstyle: 1,
color: 1, background: 1,
id: 1, 'class': 1, href: 1, style: 1
};
/**
* Handle LaTeX tokens.
*/
/**
* Handle {
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Open = function(parser: TexParser, _c: string) {
// @test Identifier Font, Prime, Prime with subscript
parser.Push(parser.itemFactory.create('open'));
};
/**
* Handle }
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Close = function(parser: TexParser, _c: string) {
// @test Identifier Font, Prime, Prime with subscript
parser.Push(parser.itemFactory.create('close'));
};
/**
* Handle tilde and spaces.
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Tilde = function(parser: TexParser, _c: string) {
// @test Tilde, Tilde2
parser.Push(parser.create('token', 'mtext', {}, entities.nbsp));
};
/**
* Handling space, by doing nothing.
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Space = function(_parser: TexParser, _c: string) {};
/**
* Handle ^
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Superscript = function(parser: TexParser, _c: string) {
if (parser.GetNext().match(/\d/)) {
// don't treat numbers as a unit
parser.string = parser.string.substr(0, parser.i + 1) +
' ' + parser.string.substr(parser.i + 1);
}
let primes: MmlNode;
let base: MmlNode | void;
const top = parser.stack.Top();
if (top.isKind('prime')) {
// @test Prime on Prime
[base, primes] = top.Peek(2);
parser.stack.Pop();
} else {
// @test Empty base2, Square, Cube
base = parser.stack.Prev();
if (!base) {
// @test Empty base
base = parser.create('token', 'mi', {}, '');
}
}
const movesupsub = NodeUtil.getProperty(base, 'movesupsub');
let position = NodeUtil.isType(base, 'msubsup') ? (base as MmlMsubsup).sup :
(base as MmlMunderover).over;
if ((NodeUtil.isType(base, 'msubsup') && !NodeUtil.isType(base, 'msup') &&
NodeUtil.getChildAt(base, (base as MmlMsubsup).sup)) ||
(NodeUtil.isType(base, 'munderover') && !NodeUtil.isType(base, 'mover') &&
NodeUtil.getChildAt(base, (base as MmlMunderover).over) &&
!NodeUtil.getProperty(base, 'subsupOK'))) {
// @test Double-super-error, Double-over-error
throw new TexError('DoubleExponent', 'Double exponent: use braces to clarify');
}
if (!NodeUtil.isType(base, 'msubsup') || NodeUtil.isType(base, 'msup')) {
if (movesupsub) {
// @test Move Superscript, Large Operator
if (!NodeUtil.isType(base, 'munderover') || NodeUtil.isType(base, 'mover') ||
NodeUtil.getChildAt(base, (base as MmlMunderover).over)) {
// @test Large Operator
base = parser.create('node', 'munderover', [base], {movesupsub: true});
}
position = (base as MmlMunderover).over;
} else {
// @test Empty base, Empty base2, Square, Cube
base = parser.create('node', 'msubsup', [base]);
position = (base as MmlMsubsup).sup;
}
}
parser.Push(
parser.itemFactory.create('subsup', base).setProperties({
position: position, primes: primes, movesupsub: movesupsub
}) );
};
/**
* Handle _
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Subscript = function(parser: TexParser, _c: string) {
if (parser.GetNext().match(/\d/)) {
// don't treat numbers as a unit
parser.string =
parser.string.substr(0, parser.i + 1) + ' ' +
parser.string.substr(parser.i + 1);
}
let primes, base;
const top = parser.stack.Top();
if (top.isKind('prime')) {
// @test Prime on Sub
[base, primes] = top.Peek(2);
parser.stack.Pop();
} else {
base = parser.stack.Prev();
if (!base) {
// @test Empty Base Index
base = parser.create('token', 'mi', {}, '');
}
}
const movesupsub = NodeUtil.getProperty(base, 'movesupsub');
let position = NodeUtil.isType(base, 'msubsup') ?
(base as MmlMsubsup).sub : (base as MmlMunderover).under;
if ((NodeUtil.isType(base, 'msubsup') && !NodeUtil.isType(base, 'msup') &&
NodeUtil.getChildAt(base, (base as MmlMsubsup).sub)) ||
(NodeUtil.isType(base, 'munderover') && !NodeUtil.isType(base, 'mover') &&
NodeUtil.getChildAt(base, (base as MmlMunderover).under) &&
!NodeUtil.getProperty(base, 'subsupOK'))) {
// @test Double-sub-error, Double-under-error
throw new TexError('DoubleSubscripts', 'Double subscripts: use braces to clarify');
}
if (!NodeUtil.isType(base, 'msubsup') || NodeUtil.isType(base, 'msup')) {
if (movesupsub) {
// @test Large Operator, Move Superscript
if (!NodeUtil.isType(base, 'munderover') || NodeUtil.isType(base, 'mover') ||
NodeUtil.getChildAt(base, (base as MmlMunderover).under)) {
// @test Move Superscript
base = parser.create('node', 'munderover', [base], {movesupsub: true});
}
position = (base as MmlMunderover).under;
} else {
// @test Empty Base Index, Empty Base Index2, Index
base = parser.create('node', 'msubsup', [base]);
position = (base as MmlMsubsup).sub;
}
}
parser.Push(
parser.itemFactory.create('subsup', base).setProperties({
position: position, primes: primes, movesupsub: movesupsub
}) );
};
/**
* Handle '
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Prime = function(parser: TexParser, c: string) {
// @test Prime
let base = parser.stack.Prev();
if (!base) {
// @test PrimeSup, PrePrime, Prime on Sup
base = parser.create('node', 'mi');
}
if (NodeUtil.isType(base, 'msubsup') && !NodeUtil.isType(base, 'msup') &&
NodeUtil.getChildAt(base, (base as MmlMsubsup).sup)) {
// @test Double Prime Error
throw new TexError('DoubleExponentPrime',
'Prime causes double exponent: use braces to clarify');
}
let sup = '';
parser.i--;
do {
// @test Prime, PrimeSup, Double Prime, PrePrime
sup += entities.prime; parser.i++, c = parser.GetNext();
} while (c === '\'' || c === entities.rsquo);
sup = ['', '\u2032', '\u2033', '\u2034', '\u2057'][sup.length] || sup;
const node = parser.create('token', 'mo', {variantForm: true}, sup);
parser.Push(
parser.itemFactory.create('prime', base, node) );
};
/**
* Handle comments
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Comment = function(parser: TexParser, _c: string) {
while (parser.i < parser.string.length && parser.string.charAt(parser.i) !== '\n') {
parser.i++;
}
};
/**
* Handle hash marks outside of definitions
* @param {TexParser} parser The calling parser.
* @param {string} c The parsed character.
*/
BaseMethods.Hash = function(_parser: TexParser, _c: string) {
// @test Hash Error
throw new TexError('CantUseHash1',
'You can\'t use \'macro parameter character #\' in math mode');
};
/**
*
* Handle LaTeX Macros
*
*/
/**
* Handle \mathrm, \mathbf, etc, allowing for multi-letter runs to be one <mi>.
*/
BaseMethods.MathFont = function(parser: TexParser, name: string, variant: string) {
const text = parser.GetArgument(name);
let mml = new TexParser(text, {
...parser.stack.env,
font: variant,
multiLetterIdentifiers: /^[a-zA-Z]+/ as any,
noAutoOP: true
}, parser.configuration).mml();
parser.Push(parser.create('node', 'TeXAtom', [mml]));
};
/**
* Setting font, e.g., via \\rm, \\bf etc.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} font The font name.
*/
BaseMethods.SetFont = function(parser: TexParser, _name: string, font: string) {
parser.stack.env['font'] = font;
};
/**
* Setting style, e.g., via \\displaystyle, \\textstyle, etc.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} texStyle The tex style name: D, T, S, SS
* @param {boolean} style True if we are in displaystyle.
* @param {string} level The nesting level for scripts.
*/
BaseMethods.SetStyle = function(parser: TexParser, _name: string,
texStyle: string, style: boolean,
level: string) {
parser.stack.env['style'] = texStyle;
parser.stack.env['level'] = level;
parser.Push(
parser.itemFactory.create('style').setProperty(
'styles', {displaystyle: style, scriptlevel: level}));
};
/**
* Setting size of an expression, e.g., \\small, \\huge.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {number} size The size value.
*/
BaseMethods.SetSize = function(parser: TexParser, _name: string, size: number) {
parser.stack.env['size'] = size;
parser.Push(
parser.itemFactory.create('style').setProperty('styles', {mathsize: em(size)}));
};
/**
* Setting explicit spaces, e.g., via commata or colons.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} space The space value.
*/
BaseMethods.Spacer = function(parser: TexParser, _name: string, space: number) {
// @test Positive Spacing, Negative Spacing
const node = parser.create('node', 'mspace', [], {width: em(space)});
const style = parser.create('node', 'mstyle', [node], {scriptlevel: 0});
parser.Push(style);
};
/**
* Parses left/right fenced expressions.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.LeftRight = function(parser: TexParser, name: string) {
// @test Fenced, Fenced3
const first = name.substr(1);
parser.Push(parser.itemFactory.create(first, parser.GetDelimiter(name), parser.stack.env.color));
};
/**
* Handle a named math function, e.g., \\sin, \\cos
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} id Alternative string representation of the function.
*/
BaseMethods.NamedFn = function(parser: TexParser, name: string, id: string) {
// @test Named Function
if (!id) {
id = name.substr(1);
}
const mml = parser.create('token', 'mi', {texClass: TEXCLASS.OP}, id);
parser.Push(parser.itemFactory.create('fn', mml));
};
/**
* Handle a named math operator, e.g., \\min, \\lim
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} id Alternative string representation of the operator.
*/
BaseMethods.NamedOp = function(parser: TexParser, name: string, id: string) {
// @test Limit
if (!id) {
id = name.substr(1);
}
id = id.replace(/&thinsp;/, '\u2006');
const mml = parser.create('token', 'mo', {
movablelimits: true,
movesupsub: true,
form: TexConstant.Form.PREFIX,
texClass: TEXCLASS.OP
}, id);
parser.Push(mml);
};
/**
* Handle a limits command for math operators.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} limits The limits arguments.
*/
BaseMethods.Limits = function(parser: TexParser, _name: string, limits: string) {
// @test Limits
let op = parser.stack.Prev(true);
// Get the texclass for the core operator.
if (!op || (NodeUtil.getTexClass(NodeUtil.getCoreMO(op)) !== TEXCLASS.OP &&
NodeUtil.getProperty(op, 'movesupsub') == null)) {
// @test Limits Error
throw new TexError('MisplacedLimits', '%1 is allowed only on operators', parser.currentCS);
}
const top = parser.stack.Top();
let node;
if (NodeUtil.isType(op, 'munderover') && !limits) {
// @test Limits UnderOver
node = parser.create('node', 'msubsup');
NodeUtil.copyChildren(op, node);
op = top.Last = node;
} else if (NodeUtil.isType(op, 'msubsup') && limits) {
// @test Limits SubSup
// node = parser.create('node', 'munderover', NodeUtil.getChildren(op), {});
// Needs to be copied, otherwise we get an error in MmlNode.appendChild!
node = parser.create('node', 'munderover');
NodeUtil.copyChildren(op, node);
op = top.Last = node;
}
NodeUtil.setProperty(op, 'movesupsub', limits ? true : false);
NodeUtil.setProperties(NodeUtil.getCoreMO(op), {'movablelimits': false});
if (NodeUtil.getAttribute(op, 'movablelimits') ||
NodeUtil.getProperty(op, 'movablelimits')) {
NodeUtil.setProperties(op, {'movablelimits': false});
}
};
/**
* Handle over commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} open The open delimiter in case of a "withdelim" version.
* @param {string} close The close delimiter.
*/
BaseMethods.Over = function(parser: TexParser, name: string, open: string, close: string) {
// @test Over
const mml = parser.itemFactory.create('over').setProperty('name', parser.currentCS) ;
if (open || close) {
// @test Choose
mml.setProperty('open', open);
mml.setProperty('close', close);
} else if (name.match(/withdelims$/)) {
// @test Over With Delims, Above With Delims
mml.setProperty('open', parser.GetDelimiter(name));
mml.setProperty('close', parser.GetDelimiter(name));
}
if (name.match(/^\\above/)) {
// @test Above, Above With Delims
mml.setProperty('thickness', parser.GetDimen(name));
}
else if (name.match(/^\\atop/) || open || close) {
// @test Choose
mml.setProperty('thickness', 0);
}
parser.Push(mml);
};
/**
* Parses a fraction.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Frac = function(parser: TexParser, name: string) {
// @test Frac
const num = parser.ParseArg(name);
const den = parser.ParseArg(name);
const node = parser.create('node', 'mfrac', [num, den]);
parser.Push(node);
};
/**
* Parses a square root element.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Sqrt = function(parser: TexParser, name: string) {
const n = parser.GetBrackets(name);
let arg = parser.GetArgument(name);
if (arg === '\\frac') {
arg += '{' + parser.GetArgument(arg) + '}{' + parser.GetArgument(arg) + '}';
}
let mml = new TexParser(arg, parser.stack.env, parser.configuration).mml();
if (!n) {
// @test Square Root
mml = parser.create('node', 'msqrt', [mml]);
} else {
// @test General Root
mml = parser.create('node', 'mroot', [mml, parseRoot(parser, n)]);
}
parser.Push(mml);
};
// Utility
/**
* Parse a general root.
* @param {TexParser} parser The calling parser.
* @param {string} n The index of the root.
*/
function parseRoot(parser: TexParser, n: string) {
// @test General Root, Explicit Root
const env = parser.stack.env;
const inRoot = env['inRoot'];
env['inRoot'] = true;
const newParser = new TexParser(n, env, parser.configuration);
let node = newParser.mml();
const global = newParser.stack.global;
if (global['leftRoot'] || global['upRoot']) {
// @test Tweaked Root
const def: EnvList = {};
if (global['leftRoot']) {
def['width'] = global['leftRoot'];
}
if (global['upRoot']) {
def['voffset'] = global['upRoot'];
def['height'] = global['upRoot'];
}
node = parser.create('node', 'mpadded', [node], def);
}
env['inRoot'] = inRoot;
return node;
}
/**
* Parse a general root.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Root = function(parser: TexParser, name: string) {
const n = parser.GetUpTo(name, '\\of');
const arg = parser.ParseArg(name);
const node = parser.create('node', 'mroot', [arg, parseRoot(parser, n)]);
parser.Push(node);
};
/**
* Parses a movable index element in a root, e.g. \\uproot, \\leftroot
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} id Argument which should be a string representation of an integer.
*/
BaseMethods.MoveRoot = function(parser: TexParser, name: string, id: string) {
// @test Tweaked Root
if (!parser.stack.env['inRoot']) {
// @test Misplaced Move Root
throw new TexError('MisplacedMoveRoot', '%1 can appear only within a root', parser.currentCS);
}
if (parser.stack.global[id]) {
// @test Multiple Move Root
throw new TexError('MultipleMoveRoot', 'Multiple use of %1', parser.currentCS);
}
let n = parser.GetArgument(name);
if (!n.match(/-?[0-9]+/)) {
// @test Incorrect Move Root
throw new TexError('IntegerArg', 'The argument to %1 must be an integer', parser.currentCS);
}
n = (parseInt(n, 10) / 15) + 'em';
if (n.substr(0, 1) !== '-') {
n = '+' + n;
}
parser.stack.global[id] = n;
};
/**
* Handle accents.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} accent The accent.
* @param {boolean} stretchy True if accent is stretchy.
*/
BaseMethods.Accent = function(parser: TexParser, name: string, accent: string, stretchy: boolean) {
// @test Vector
const c = parser.ParseArg(name);
// @test Vector Font
const def = {...ParseUtil.getFontDef(parser), accent: true, mathaccent: true};
const entity = NodeUtil.createEntity(accent);
const moNode = parser.create('token', 'mo', def, entity);
const mml = moNode;
NodeUtil.setAttribute(mml, 'stretchy', stretchy ? true : false);
// @test Vector Op, Vector
const mo = (NodeUtil.isEmbellished(c) ? NodeUtil.getCoreMO(c) : c);
if (NodeUtil.isType(mo, 'mo') || NodeUtil.getProperty(mo, 'movablelimits')) {
// @test Vector Op
NodeUtil.setProperties(mo, {'movablelimits': false});
}
const muoNode = parser.create('node', 'munderover');
// This is necessary to get the empty element into the children.
NodeUtil.setChild(muoNode, 0, c);
NodeUtil.setChild(muoNode, 1, null);
NodeUtil.setChild(muoNode, 2, mml);
let texAtom = parser.create('node', 'TeXAtom', [muoNode]);
parser.Push(texAtom);
};
/**
* Handles stacked elements.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} c Character to stack.
* @param {boolean} stack True if stacked operator.
*/
BaseMethods.UnderOver = function(parser: TexParser, name: string, c: string, stack: boolean) {
const entity = NodeUtil.createEntity(c);
const mo = parser.create('token', 'mo', {stretchy: true, accent: true}, entity);
const pos = (name.charAt(1) === 'o' ? 'over' : 'under');
const base = parser.ParseArg(name);
parser.Push(ParseUtil.underOver(parser, base, mo, pos, stack));
};
/**
* Handles overset.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Overset = function(parser: TexParser, name: string) {
// @test Overset
const top = parser.ParseArg(name);
const base = parser.ParseArg(name);
ParseUtil.checkMovableLimits(base);
if (top.isKind('mo')) {
NodeUtil.setAttribute(top, 'accent', false);
}
const node = parser.create('node', 'mover', [base, top]);
parser.Push(node);
};
/**
* Handles underset.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Underset = function(parser: TexParser, name: string) {
// @test Underset
const bot = parser.ParseArg(name);
const base = parser.ParseArg(name);
ParseUtil.checkMovableLimits(base);
if (bot.isKind('mo')) {
NodeUtil.setAttribute(bot, 'accent', false);
}
const node = parser.create('node', 'munder', [base, bot], {accentunder: false});
parser.Push(node);
};
/**
* Handles overunderset.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Overunderset = function(parser: TexParser, name: string) {
const top = parser.ParseArg(name);
const bot = parser.ParseArg(name);
const base = parser.ParseArg(name);
ParseUtil.checkMovableLimits(base);
if (top.isKind('mo')) {
NodeUtil.setAttribute(top, 'accent', false);
}
if (bot.isKind('mo')) {
NodeUtil.setAttribute(bot, 'accent', false);
}
const node = parser.create('node', 'munderover', [base, bot, top], {accent: false, accentunder: false});
parser.Push(node);
};
/**
* Creates TeXAtom, when class of element is changed explicitly.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {number} mclass The new TeX class.
*/
BaseMethods.TeXAtom = function(parser: TexParser, name: string, mclass: number) {
let def: EnvList = {texClass: mclass};
let mml: StackItem | MmlNode;
let node: MmlNode;
let parsed: MmlNode;
if (mclass === TEXCLASS.OP) {
def['movesupsub'] = def['movablelimits'] = true;
const arg = parser.GetArgument(name);
const match = arg.match(/^\s*\\rm\s+([a-zA-Z0-9 ]+)$/);
if (match) {
// @test Mathop
def['mathvariant'] = TexConstant.Variant.NORMAL;
node = parser.create('token', 'mi', def, match[1]);
} else {
// @test Mathop Cal
parsed = new TexParser(arg, parser.stack.env, parser.configuration).mml();
node = parser.create('node', 'TeXAtom', [parsed], def);
}
mml = parser.itemFactory.create('fn', node);
} else {
// @test Mathrel
parsed = parser.ParseArg(name);
mml = parser.create('node', 'TeXAtom', [parsed], def);
}
parser.Push(mml);
};
/**
* Creates mmltoken elements. Used in Macro substitutions.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.MmlToken = function(parser: TexParser, name: string) {
// @test Modulo
const kind = parser.GetArgument(name);
let attr = parser.GetBrackets(name, '').replace(/^\s+/, '');
const text = parser.GetArgument(name);
const def: EnvList = {};
const keep: string[] = [];
let node: MmlNode;
try {
node = parser.create('node', kind);
} catch (e) {
node = null;
}
if (!node || !node.isToken) {
// @test Token Illegal Type, Token Wrong Type
throw new TexError('NotMathMLToken', '%1 is not a token element', kind);
}
while (attr !== '') {
const match = attr.match(/^([a-z]+)\s*=\s*('[^']*'|"[^"]*"|[^ ,]*)\s*,?\s*/i);
if (!match) {
// @test Token Invalid Attribute
throw new TexError('InvalidMathMLAttr', 'Invalid MathML attribute: %1', attr);
}
if (!node.attributes.hasDefault(match[1]) && !MmlTokenAllow[match[1]]) {
// @test Token Unknown Attribute, Token Wrong Attribute
throw new TexError('UnknownAttrForElement',
'%1 is not a recognized attribute for %2',
match[1], kind);
}
let value: string | boolean = ParseUtil.MmlFilterAttribute(
parser, match[1], match[2].replace(/^(['"])(.*)\1$/, '$2'));
if (value) {
if (value.toLowerCase() === 'true') {
value = true;
}
else if (value.toLowerCase() === 'false') {
value = false;
}
def[match[1]] = value;
keep.push(match[1]);
}
attr = attr.substr(match[0].length);
}
if (keep.length) {
def['mjx-keep-attrs'] = keep.join(' ');
}
const textNode = parser.create('text', text);
node.appendChild(textNode);
NodeUtil.setProperties(node, def);
parser.Push(node);
};
/**
* Handle strut.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Strut = function(parser: TexParser, _name: string) {
// @test Strut
const row = parser.create('node', 'mrow');
const padded = parser.create('node', 'mpadded', [row],
{height: '8.6pt', depth: '3pt', width: 0});
parser.Push(padded);
};
/**
* Handle phantom commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} v Vertical size.
* @param {string} h Horizontal size.
*/
BaseMethods.Phantom = function(parser: TexParser, name: string, v: string, h: string) {
// @test Phantom
let box = parser.create('node', 'mphantom', [parser.ParseArg(name)]);
if (v || h) {
// TEMP: Changes here
box = parser.create('node', 'mpadded', [box]);
if (h) {
// @test Horizontal Phantom
NodeUtil.setAttribute(box, 'height', 0);
NodeUtil.setAttribute(box, 'depth', 0);
}
if (v) {
// @test Vertical Phantom
NodeUtil.setAttribute(box, 'width', 0);
}
}
const atom = parser.create('node', 'TeXAtom', [box]);
parser.Push(atom);
};
/**
* Handle smash.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Smash = function(parser: TexParser, name: string) {
// @test Smash, Smash Top, Smash Bottom
const bt = ParseUtil.trimSpaces(parser.GetBrackets(name, ''));
const smash = parser.create('node', 'mpadded', [parser.ParseArg(name)]);
// TEMP: Changes here:
switch (bt) {
case 'b': NodeUtil.setAttribute(smash, 'depth', 0); break;
case 't': NodeUtil.setAttribute(smash, 'height', 0); break;
default:
NodeUtil.setAttribute(smash, 'height', 0);
NodeUtil.setAttribute(smash, 'depth', 0);
}
const atom = parser.create('node', 'TeXAtom', [smash]);
parser.Push(atom);
};
/**
* Handle rlap and llap commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Lap = function(parser: TexParser, name: string) {
// @test Llap, Rlap
const mml = parser.create('node', 'mpadded', [parser.ParseArg(name)], {width: 0});
if (name === '\\llap') {
// @test Llap
NodeUtil.setAttribute(mml, 'lspace', '-1width');
}
const atom = parser.create('node', 'TeXAtom', [mml]);
parser.Push(atom);
};
/**
* Handle raise and lower commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.RaiseLower = function(parser: TexParser, name: string) {
// @test Raise, Lower, Raise Negative, Lower Negative
let h = parser.GetDimen(name);
let item =
parser.itemFactory.create('position').setProperties({name: parser.currentCS, move: 'vertical'}) ;
// TEMP: Changes here:
if (h.charAt(0) === '-') {
// @test Raise Negative, Lower Negative
h = h.slice(1);
name = name.substr(1) === 'raise' ? '\\lower' : '\\raise';
}
if (name === '\\lower') {
// @test Raise, Raise Negative
item.setProperty('dh', '-' + h);
item.setProperty('dd', '+' + h);
} else {
// @test Lower, Lower Negative
item.setProperty('dh', '+' + h);
item.setProperty('dd', '-' + h);
}
parser.Push(item);
};
/**
* Handle moveleft, moveright commands
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.MoveLeftRight = function(parser: TexParser, name: string) {
// @test Move Left, Move Right, Move Left Negative, Move Right Negative
let h = parser.GetDimen(name);
let nh = (h.charAt(0) === '-' ? h.slice(1) : '-' + h);
if (name === '\\moveleft') {
let tmp = h;
h = nh;
nh = tmp;
}
parser.Push(
parser.itemFactory.create('position').setProperties({
name: parser.currentCS, move: 'horizontal',
left: parser.create('node', 'mspace', [], {width: h}),
right: parser.create('node', 'mspace', [], {width: nh})}) );
};
/**
* Handle horizontal spacing commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Hskip = function(parser: TexParser, name: string) {
// @test Modulo
const node = parser.create('node', 'mspace', [],
{width: parser.GetDimen(name)});
parser.Push(node);
};
/**
* Handle removal of spaces in script modes
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Nonscript = function(parser: TexParser, _name: string) {
parser.Push(parser.itemFactory.create('nonscript'));
};
/**
* Handle Rule and Space command
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} style The style of the rule spacer.
*/
BaseMethods.Rule = function(parser: TexParser, name: string, style: string) {
// @test Rule 3D, Space 3D
const w = parser.GetDimen(name),
h = parser.GetDimen(name),
d = parser.GetDimen(name);
let def: EnvList = {width: w, height: h, depth: d};
if (style !== 'blank') {
def['mathbackground'] = (parser.stack.env['color'] || 'black');
}
const node = parser.create('node', 'mspace', [], def);
parser.Push(node);
};
/**
* Handle rule command.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.rule = function(parser: TexParser, name: string) {
// @test Rule 2D
const v = parser.GetBrackets(name),
w = parser.GetDimen(name),
h = parser.GetDimen(name);
let mml = parser.create('node', 'mspace', [], {
width: w, height: h,
mathbackground: (parser.stack.env['color'] || 'black') });
if (v) {
mml = parser.create('node', 'mpadded', [mml], {voffset: v});
if (v.match(/^\-/)) {
NodeUtil.setAttribute(mml, 'height', v);
NodeUtil.setAttribute(mml, 'depth', '+' + v.substr(1));
} else {
NodeUtil.setAttribute(mml, 'height', '+' + v);
}
}
parser.Push(mml);
};
/**
* Handle big command sequences, e.g., \\big, \\Bigg.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {number} mclass The TeX class of the element.
* @param {number} size The em size.
*/
BaseMethods.MakeBig = function(parser: TexParser, name: string, mclass: number, size: number) {
// @test Choose, Over With Delims, Above With Delims
size *= P_HEIGHT;
let sizeStr = String(size).replace(/(\.\d\d\d).+/, '$1') + 'em';
const delim = parser.GetDelimiter(name, true);
const mo = parser.create('token', 'mo', {
minsize: sizeStr, maxsize: sizeStr,
fence: true, stretchy: true, symmetric: true
}, delim);
const node = parser.create('node', 'TeXAtom', [mo], {texClass: mclass});
parser.Push(node);
};
/**
* Handle buildrel command.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.BuildRel = function(parser: TexParser, name: string) {
// @test BuildRel, BuildRel Expression
const top = parser.ParseUpTo(name, '\\over');
const bot = parser.ParseArg(name);
const node = parser.create('node', 'munderover');
// This is necessary to get the empty element into the children.
NodeUtil.setChild(node, 0, bot);
NodeUtil.setChild(node, 1, null);
NodeUtil.setChild(node, 2, top);
const atom = parser.create('node', 'TeXAtom', [node], {texClass: TEXCLASS.REL});
parser.Push(atom);
};
/**
* Handle horizontal boxes.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} style Box style.
* @param {string} font The mathvariant to use
*/
BaseMethods.HBox = function(parser: TexParser, name: string, style: string, font?: string) {
// @test Hbox
parser.PushAll(ParseUtil.internalMath(parser, parser.GetArgument(name), style, font));
};
/**
* Handle framed boxes.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.FBox = function(parser: TexParser, name: string) {
// @test Fbox
const internal = ParseUtil.internalMath(parser, parser.GetArgument(name));
const node = parser.create('node', 'menclose', internal, {notation: 'box'});
parser.Push(node);
};
/**
* Handle framed boxes with options.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.FrameBox = function(parser: TexParser, name: string) {
const width = parser.GetBrackets(name);
const pos = parser.GetBrackets(name) || 'c';
let mml = ParseUtil.internalMath(parser, parser.GetArgument(name));
if (width) {
mml = [parser.create('node', 'mpadded', mml, {
width,
'data-align': lookup(pos, {l: 'left', r: 'right'}, 'center')
})];
}
const node = parser.create('node', 'TeXAtom',
[parser.create('node', 'menclose', mml, {notation: 'box'})],
{texClass: TEXCLASS.ORD});
parser.Push(node);
};
/**
* Handle \\not.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Not = function(parser: TexParser, _name: string) {
// @test Negation Simple, Negation Complex, Negation Explicit,
// Negation Large
parser.Push(parser.itemFactory.create('not'));
};
/**
* Handle dots.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Dots = function(parser: TexParser, _name: string) {
// @test Operator Dots
const ldotsEntity = NodeUtil.createEntity('2026');
const cdotsEntity = NodeUtil.createEntity('22EF');
const ldots = parser.create('token', 'mo', {stretchy: false}, ldotsEntity);
const cdots = parser.create('token', 'mo', {stretchy: false}, cdotsEntity);
parser.Push(
parser.itemFactory.create('dots').setProperties({
ldots: ldots,
cdots: cdots
}) );
};
/**
* Handle small matrix environments.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} open Opening fence.
* @param {string} close Closing fence.
* @param {string} align Column alignment.
* @param {string} spacing Column spacing.
* @param {string} vspacing Row spacing.
* @param {string} style Display or text style.
* @param {boolean} cases Is it a cases environment.
* @param {boolean} numbered Is it a numbered environment.
*/
BaseMethods.Matrix = function(parser: TexParser, _name: string,
open: string, close: string, align: string,
spacing: string, vspacing: string, style: string,
cases: boolean, numbered: boolean) {
const c = parser.GetNext();
if (c === '') {
// @test Matrix Error
throw new TexError('MissingArgFor', 'Missing argument for %1', parser.currentCS);
}
if (c === '{') {
// @test Matrix Braces, Matrix Columns, Matrix Rows.
parser.i++;
} else {
// @test Matrix Arg
parser.string = c + '}' + parser.string.slice(parser.i + 1);
parser.i = 0;
}
// @test Matrix Braces, Matrix Columns, Matrix Rows.
const array = parser.itemFactory.create('array').setProperty('requireClose', true) as sitem.ArrayItem;
array.arraydef = {
rowspacing: (vspacing || '4pt'),
columnspacing: (spacing || '1em')
};
if (cases) {
// @test Matrix Cases
array.setProperty('isCases', true);
}
if (numbered) {
// @test Matrix Numbered
array.setProperty('isNumbered', true);
array.arraydef.side = numbered;
}
if (open || close) {
// @test Matrix Parens, Matrix Parens Subscript, Matrix Cases
array.setProperty('open', open);
array.setProperty('close', close);
}
if (style === 'D') {
// @test Matrix Numbered
array.arraydef.displaystyle = true;
}
if (align != null) {
// @test Matrix Cases, Matrix Numbered
array.arraydef.columnalign = align;
}
parser.Push(array);
};
/**
* Handle array entry.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Entry = function(parser: TexParser, name: string) {
// @test Label, Array, Cross Product Formula
parser.Push(parser.itemFactory.create('cell').setProperties({isEntry: true, name: name}));
const top = parser.stack.Top();
const env = top.getProperty('casesEnv') as string;
const cases = top.getProperty('isCases');
if (!cases && !env) return;
//
// Make second column be in \text{...} (unless it is already
// in a \text{...}, for backward compatibility).
//
const str = parser.string;
let braces = 0, close = -1, i = parser.i, m = str.length;
const end = (env ? new RegExp(`^\\\\end\\s*\\{${env.replace(/\*/, '\\*')}\\}`) : null);
//
// Look through the string character by character...
//
while (i < m) {
const c = str.charAt(i);
if (c === '{') {
//
// Increase the nested brace count and go on
//
braces++;
i++;
} else if (c === '}') {
//
// If there are too many close braces, just end (we will get an
// error message later when the rest of the string is parsed)
// Otherwise
// decrease the nested brace count,
// if it is now zero and we haven't already marked the end of the
// first brace group, record the position (use to check for \text{} later)
// go on to the next character.
//
if (braces === 0) {
m = 0;
} else {
braces--;
if (braces === 0 && close < 0) {
close = i - parser.i;
}
i++;
}
} else if (c === '&' && braces === 0) {
//
// Extra alignment tabs are not allowed in cases
//
// @test ExtraAlignTab
throw new TexError('ExtraAlignTab', 'Extra alignment tab in \\cases text');
} else if (c === '\\') {
//
// If the macro is \cr or \\, end the search, otherwise skip the macro
// (multi-letter names don't matter, as we will skip the rest of the
// characters in the main loop)
//
const rest = str.substr(i);
if (rest.match(/^((\\cr)[^a-zA-Z]|\\\\)/) || (end && rest.match(end))) {
m = 0;
} else {
i += 2;
}
} else {
//
// Go on to the next character
//
i++;
}
}
//
// Check if the second column text is already in \text{};
// If not, process the second column as text and continue parsing from there,
// (otherwise process the second column as normal, since it is in \text{}
//
const text = str.substr(parser.i, i - parser.i);
if (!text.match(/^\s*\\text[^a-zA-Z]/) || close !== text.replace(/\s+$/, '').length - 1) {
const internal = ParseUtil.internalMath(parser, ParseUtil.trimSpaces(text), 0);
parser.PushAll(internal);
parser.i = i;
}
};
/**
* Handle newline in array.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.Cr = function(parser: TexParser, name: string) {
// @test Cr Linebreak, Misplaced Cr
parser.Push(
parser.itemFactory.create('cell').setProperties({isCR: true, name: name}));
};
/**
* Handle newline outside array.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {boolean} nobrackets Flag indicating if newline is followed by
* brackets.
*/
BaseMethods.CrLaTeX = function(parser: TexParser, name: string, nobrackets: boolean = false) {
let n: string;
if (!nobrackets) {
// TODO: spaces before * and [ are not allowed in AMS environments like align, but
// should be allowed in array and eqnarray. This distinction should be honored here.
if (parser.string.charAt(parser.i) === '*') { // The * controls page breaking, so ignore it
parser.i++;
}
if (parser.string.charAt(parser.i) === '[') {
let dim = parser.GetBrackets(name, '');
let [value, unit, ] = ParseUtil.matchDimen(dim);
// @test Custom Linebreak
if (dim && !value) {
// @test Dimension Error
throw new TexError('BracketMustBeDimension',
'Bracket argument to %1 must be a dimension', parser.currentCS);
}
n = value + unit;
}
}
parser.Push(
parser.itemFactory.create('cell').setProperties({isCR: true, name: name, linebreak: true})
);
const top = parser.stack.Top();
let node: MmlNode;
if (top instanceof sitem.ArrayItem) {
// @test Array
if (n) {
top.addRowSpacing(n);
}
} else {
if (n) {
// @test Custom Linebreak
node = parser.create('node', 'mspace', [], {depth: n});
parser.Push(node);
}
// @test Linebreak
node = parser.create('node', 'mspace', [], {linebreak: TexConstant.LineBreak.NEWLINE});
parser.Push(node);
}
};
/**
* Handle horizontal lines in arrays.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {string} style Style of the line. E.g., dashed.
*/
BaseMethods.HLine = function(parser: TexParser, _name: string, style: string) {
if (style == null) {
style = 'solid';
}
const top = parser.stack.Top();
if (!(top instanceof sitem.ArrayItem) || top.Size()) {
// @test Misplaced hline
throw new TexError('Misplaced', 'Misplaced %1', parser.currentCS);
}
if (!top.table.length) {
// @test Enclosed top, Enclosed top bottom
top.frame.push('top');
} else {
// @test Enclosed bottom, Enclosed top bottom
const lines = (top.arraydef['rowlines'] ? (top.arraydef['rowlines'] as string).split(/ /) : []);
while (lines.length < top.table.length) {
lines.push('none');
}
lines[top.table.length - 1] = style;
top.arraydef['rowlines'] = lines.join(' ');
}
};
/**
* Handle hfill commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.HFill = function(parser: TexParser, _name: string) {
const top = parser.stack.Top();
if (top instanceof sitem.ArrayItem) {
// @test Hfill
top.hfill.push(top.Size());
} else {
// @test UnsupportedHFill
throw new TexError('UnsupportedHFill', 'Unsupported use of %1', parser.currentCS);
}
};
/**
* LaTeX environments
*/
/**
* Handle begin and end environments. This is a macro method.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.BeginEnd = function(parser: TexParser, name: string) {
// @test Array1, Array2, Array Test
let env = parser.GetArgument(name);
if (env.match(/\\/i)) {
// @test InvalidEnv
throw new TexError('InvalidEnv', 'Invalid environment name \'%1\'', env);
}
let macro = parser.configuration.handlers.get('environment').lookup(env) as Macro;
if (macro && name === '\\end') {
// If the first argument is true, we have some sort of user defined
// environment. Otherwise we have a standard LaTeX environment that is
// handled with begin and end items.
if (!macro.args[0]) {
const mml = parser.itemFactory.create('end').setProperty('name', env);
parser.Push(mml);
return;
}
// Remember the user defined environment we are closing.
parser.stack.env['closing'] = env;
}
ParseUtil.checkMaxMacros(parser, false);
parser.parse('environment', [parser, env]);
};
/**
* Handle array environment.
* @param {TexParser} parser The calling parser.
* @param {StackItem} begin The opening stackitem.
* @param {string} open Opening fence.
* @param {string} close Closing fence.
* @param {string} align Column alignment.
* @param {string} spacing Column spacing.
* @param {string} vspacing Row spacing.
* @param {string} style Display or text style.
* @param {boolean} raggedHeight Does the height need to be adjusted?
*/
BaseMethods.Array = function(parser: TexParser, begin: StackItem,
open: string, close: string, align: string,
spacing: string, vspacing: string, style: string,
raggedHeight: boolean) {
if (!align) {
// @test Array Single
align = parser.GetArgument('\\begin{' + begin.getName() + '}');
}
let lines = ('c' + align).replace(/[^clr|:]/g, '').replace(/[^|:]([|:])+/g, '$1');
align = align.replace(/[^clr]/g, '').split('').join(' ');
align = align.replace(/l/g, 'left').replace(/r/g, 'right').replace(/c/g, 'center');
const array = parser.itemFactory.create('array') as sitem.ArrayItem;
array.arraydef = {
columnalign: align,
columnspacing: (spacing || '1em'),
rowspacing: (vspacing || '4pt')
};
if (lines.match(/[|:]/)) {
// @test Enclosed left right
if (lines.charAt(0).match(/[|:]/)) {
// @test Enclosed left right, Enclosed left
array.frame.push('left');
array.dashed = lines.charAt(0) === ':';
}
if (lines.charAt(lines.length - 1).match(/[|:]/)) {
// @test Enclosed left right, Enclosed right
array.frame.push('right');
}
// @test Enclosed left right
lines = lines.substr(1, lines.length - 2);
array.arraydef.columnlines =
lines.split('').join(' ').replace(/[^|: ]/g, 'none').replace(/\|/g, 'solid').replace(/:/g, 'dashed');
}
if (open) {
// @test Cross Product
array.setProperty('open', parser.convertDelimiter(open));
}
if (close) {
// @test Cross Product
array.setProperty('close', parser.convertDelimiter(close));
}
if ((style || '').charAt(1) === '\'') {
array.arraydef['data-cramped'] = true;
style = style.charAt(0);
}
if (style === 'D') {
// TODO: This case never seems to occur! No test.
array.arraydef['displaystyle'] = true;
}
else if (style) {
// @test Subarray, Small Matrix
array.arraydef['displaystyle'] = false;
}
if (style === 'S') {
// @test Subarray, Small Matrix
array.arraydef['scriptlevel'] = 1;
}
if (raggedHeight) {
// @test Subarray, Small Matrix
array.arraydef['useHeight'] = false;
}
parser.Push(begin);
return array;
};
/**
* Handle aligned arrays.
* @param {TexParser} parser The calling parser.
* @param {StackItem} begin The opening stackitem.
*/
BaseMethods.AlignedArray = function(parser: TexParser, begin: StackItem) {
// @test Array1, Array2, Array Test
const align = parser.GetBrackets('\\begin{' + begin.getName() + '}');
let item = BaseMethods.Array(parser, begin);
return ParseUtil.setArrayAlign(item as sitem.ArrayItem, align);
};
/**
* Handle equation environment.
* @param {TexParser} parser The calling parser.
* @param {StackItem} begin The opening stackitem.
* @param {boolean} numbered True if environment is numbered.
*/
BaseMethods.Equation = function (parser: TexParser, begin: StackItem, numbered: boolean) {
parser.Push(begin);
ParseUtil.checkEqnEnv(parser);
return parser.itemFactory.create('equation', numbered).
setProperty('name', begin.getName());
};
/**
* Handle eqnarray.
* @param {TexParser} parser The calling parser.
* @param {StackItem} begin The opening stackitem.
* @param {boolean} numbered True if environment is numbered.
* @param {boolean} taggable True if taggable.
* @param {string} align Alignment string.
* @param {string} spacing Spacing between columns.
*/
BaseMethods.EqnArray = function(parser: TexParser, begin: StackItem,
numbered: boolean, taggable: boolean,
align: string, spacing: string) {
// @test The Lorenz Equations, Maxwell's Equations, Cubic Binomial
parser.Push(begin);
if (taggable) {
ParseUtil.checkEqnEnv(parser);
}
align = align.replace(/[^clr]/g, '').split('').join(' ');
align = align.replace(/l/g, 'left').replace(/r/g, 'right').replace(/c/g, 'center');
let newItem = parser.itemFactory.create('eqnarray', begin.getName(),
numbered, taggable, parser.stack.global) as sitem.ArrayItem;
newItem.arraydef = {
displaystyle: true,
columnalign: align,
columnspacing: (spacing || '1em'),
rowspacing: '3pt',
side: parser.options['tagSide'],
minlabelspacing: parser.options['tagIndent']
};
return newItem;
};
/**
* Handles no tag commands.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.HandleNoTag = function(parser: TexParser, _name: string) {
parser.tags.notag();
};
/**
* Record a label name for a tag
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.HandleLabel = function(parser: TexParser, name: string) {
// @test Label, Label Empty
let label = parser.GetArgument(name);
if (label === '') {
// @test Label Empty
return;
}
if (!parser.tags.refUpdate) {
// @test Label, Ref, Ref Unknown
if (parser.tags.label) {
// @test Double Label Error
throw new TexError('MultipleCommand', 'Multiple %1', parser.currentCS);
}
parser.tags.label = label;
if ((parser.tags.allLabels[label] || parser.tags.labels[label]) && !parser.options['ignoreDuplicateLabels']) {
// @ Duplicate Label Error
throw new TexError('MultipleLabel', 'Label \'%1\' multiply defined', label);
}
// TODO: This should be set in the tags structure!
parser.tags.labels[label] = new Label(); // will be replaced by tag value later
}
};
/**
* Handle a label reference.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
* @param {boolean} eqref True if formatted as eqref.
*/
BaseMethods.HandleRef = function(parser: TexParser, name: string, eqref: boolean) {
// @test Ref, Ref Unknown, Eqref, Ref Default, Ref Named
let label = parser.GetArgument(name);
let ref = parser.tags.allLabels[label] || parser.tags.labels[label];
if (!ref) {
// @test Ref Unknown
if (!parser.tags.refUpdate) {
parser.tags.redo = true;
}
ref = new Label();
}
let tag = ref.tag;
if (eqref) {
// @test Eqref
tag = parser.tags.formatTag(tag);
}
let node = parser.create('node', 'mrow', ParseUtil.internalMath(parser, tag), {
href: parser.tags.formatUrl(ref.id, parser.options.baseURL), 'class': 'MathJax_ref'
});
parser.Push(node);
};
/**
* Macros
*/
BaseMethods.Macro = function(parser: TexParser, name: string,
macro: string, argcount: number,
def?: string) {
if (argcount) {
const args: string[] = [];
if (def != null) {
const optional = parser.GetBrackets(name);
args.push(optional == null ? def : optional);
}
for (let i = args.length; i < argcount; i++) {
args.push(parser.GetArgument(name));
}
macro = ParseUtil.substituteArgs(parser, args, macro);
}
parser.string = ParseUtil.addArgs(parser, macro, parser.string.slice(parser.i));
parser.i = 0;
ParseUtil.checkMaxMacros(parser);
};
/**
* Handle MathChoice for elements whose exact size/style properties can only be
* determined after the expression has been parsed.
* @param {TexParser} parser The calling parser.
* @param {string} name The macro name.
*/
BaseMethods.MathChoice = function(parser: TexParser, name: string) {
const D = parser.ParseArg(name);
const T = parser.ParseArg(name);
const S = parser.ParseArg(name);
const SS = parser.ParseArg(name);
parser.Push(parser.create('node', 'MathChoice', [D, T, S, SS]));
};
export default BaseMethods;