site/node_modules/mathjax-full/ts/input/tex/newcommand/NewcommandUtil.ts

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/*************************************************************
*
* Copyright (c) 2009-2022 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 Utility functions for the newcommand package.
*
* @author v.sorge@mathjax.org (Volker Sorge)
*/
import ParseUtil from '../ParseUtil.js';
import TexError from '../TexError.js';
import TexParser from '../TexParser.js';
import {Macro, Symbol} from '../Symbol.js';
import {Args, Attributes, ParseMethod} from '../Types.js';
import * as sm from '../SymbolMap.js';
namespace NewcommandUtil {
/**
* Transforms the attributes of a symbol into the arguments of a macro. E.g.,
* Symbol('ell', 'l', {mathvariant: "italic"}) is turned into Macro arguments:
* ['ell', 'l', 'mathvariant', 'italic'].
*
* @param {string} name The command name for the symbol.
* @param {Symbol} symbol The symbol associated with name.
* @return {Args[]} Arguments for a macro.
*/
export function disassembleSymbol(name: string, symbol: Symbol): Args[] {
let newArgs = [name, symbol.char] as Args[];
// @test Let Relet, Let Let, Let Circular Macro
if (symbol.attributes) {
// @test Let Relet
for (let key in symbol.attributes) {
newArgs.push(key);
newArgs.push(symbol.attributes[key] as Args);
}
}
return newArgs;
}
/**
* Assembles a symbol from a list of macro arguments. This is the inverse
* method of the one above.
*
* @param {Args[]} args The arguments of the macro.
* @return {Symbol} The Symbol generated from the arguments..
*/
export function assembleSymbol(args: Args[]): Symbol {
// @test Let Relet, Let Let, Let Circular Macro
let name = args[0] as string;
let char = args[1] as string;
let attrs: Attributes = {};
for (let i = 2; i < args.length; i = i + 2) {
// @test Let Relet
attrs[args[i] as string] = args[i + 1];
}
return new Symbol(name, char, attrs);
}
/**
* Get the next CS name or give an error.
* @param {TexParser} parser The calling parser.
* @param {string} cmd The string starting with a control sequence.
* @return {string} The control sequence.
*/
export function GetCSname(parser: TexParser, cmd: string): string {
// @test Def ReDef, Let Bar, Let Brace Equal
let c = parser.GetNext();
if (c !== '\\') {
// @test No CS
throw new TexError('MissingCS',
'%1 must be followed by a control sequence', cmd);
}
let cs = ParseUtil.trimSpaces(parser.GetArgument(cmd));
return cs.substr(1);
}
/**
* Get a control sequence name as an argument (doesn't require the backslash)
* @param {TexParser} parser The calling parser.
* @param {string} name The macro that is getting the name.
* @return {string} The control sequence.
*/
export function GetCsNameArgument(parser: TexParser, name: string): string {
let cs = ParseUtil.trimSpaces(parser.GetArgument(name));
if (cs.charAt(0) === '\\') {
// @test Newcommand Simple
cs = cs.substr(1);
}
if (!cs.match(/^(.|[a-z]+)$/i)) {
// @test Illegal CS
throw new TexError('IllegalControlSequenceName',
'Illegal control sequence name for %1', name);
}
return cs;
}
/**
* Get the number of arguments for a macro definition
* @param {TexParser} parser The calling parser.
* @param {string} name The macro that is getting the argument count.
* @return {string} The number of arguments (or blank).
*/
export function GetArgCount(parser: TexParser, name: string): string {
let n = parser.GetBrackets(name);
if (n) {
// @test Newcommand Optional, Newcommand Arg, Newcommand Arg Optional
// @test Newenvironment Optional, Newenvironment Arg Optional
n = ParseUtil.trimSpaces(n);
if (!n.match(/^[0-9]+$/)) {
// @test Illegal Argument Number
throw new TexError('IllegalParamNumber',
'Illegal number of parameters specified in %1', name);
}
}
return n;
}
/**
* Get a \def parameter template.
* @param {TexParser} parser The calling parser.
* @param {string} cmd The string starting with the template.
* @param {string} cs The control sequence of the \def.
* @return {number | string[]} The number of parameters or a string array if
* there is an optional argument.
*/
export function GetTemplate(parser: TexParser, cmd: string, cs: string): number | string[] {
// @test Def Double Let, Def ReDef, Def Let
let c = parser.GetNext();
let params: string[] = [];
let n = 0;
let i = parser.i;
while (parser.i < parser.string.length) {
c = parser.GetNext();
if (c === '#') {
// @test Def ReDef, Def Let, Def Optional Brace
if (i !== parser.i) {
// @test Def Let, Def Optional Brace
params[n] = parser.string.substr(i, parser.i - i);
}
c = parser.string.charAt(++parser.i);
if (!c.match(/^[1-9]$/)) {
// @test Illegal Hash
throw new TexError('CantUseHash2',
'Illegal use of # in template for %1', cs);
}
if (parseInt(c) !== ++n) {
// @test No Sequence
throw new TexError('SequentialParam',
'Parameters for %1 must be numbered sequentially', cs);
}
i = parser.i + 1;
} else if (c === '{') {
// @test Def Double Let, Def ReDef, Def Let
if (i !== parser.i) {
// @test Optional Brace Error
params[n] = parser.string.substr(i, parser.i - i);
}
if (params.length > 0) {
// @test Def Let, Def Optional Brace
return [n.toString()].concat(params);
} else {
// @test Def Double Let, Def ReDef
return n;
}
}
parser.i++;
}
// @test No Replacement
throw new TexError('MissingReplacementString',
'Missing replacement string for definition of %1', cmd);
}
/**
* Find a single parameter delimited by a trailing template.
* @param {TexParser} parser The calling parser.
* @param {string} name The name of the calling command.
* @param {string} param The parameter for the macro.
*/
export function GetParameter(parser: TexParser, name: string, param: string) {
if (param == null) {
// @test Def Let, Def Optional Brace, Def Options CS
return parser.GetArgument(name);
}
let i = parser.i;
let j = 0;
let hasBraces = 0;
while (parser.i < parser.string.length) {
let c = parser.string.charAt(parser.i);
// @test Def Let, Def Optional Brace, Def Options CS
if (c === '{') {
// @test Def Optional Brace, Def Options CS
if (parser.i === i) {
// @test Def Optional Brace
hasBraces = 1;
}
parser.GetArgument(name);
j = parser.i - i;
} else if (MatchParam(parser, param)) {
// @test Def Let, Def Optional Brace, Def Options CS
if (hasBraces) {
// @test Def Optional Brace
i++;
j -= 2;
}
return parser.string.substr(i, j);
} else if (c === '\\') {
// @test Def Options CS
parser.i++;
j++;
hasBraces = 0;
let match = parser.string.substr(parser.i).match(/[a-z]+|./i);
if (match) {
// @test Def Options CS
parser.i += match[0].length;
j = parser.i - i;
}
} else {
// @test Def Let
parser.i++;
j++;
hasBraces = 0;
}
}
// @test Runaway Argument
throw new TexError('RunawayArgument', 'Runaway argument for %1?', name);
}
/**
* Check if a template is at the current location.
* (The match must be exact, with no spacing differences. TeX is
* a little more forgiving than this about spaces after macro names)
* @param {TexParser} parser The calling parser.
* @param {string} param Tries to match an optional parameter.
* @return {number} The number of optional parameters, either 0 or 1.
*/
export function MatchParam(parser: TexParser, param: string): number {
// @test Def Let, Def Optional Brace, Def Options CS
if (parser.string.substr(parser.i, param.length) !== param) {
// @test Def Let, Def Options CS
return 0;
}
if (param.match(/\\[a-z]+$/i) &&
parser.string.charAt(parser.i + param.length).match(/[a-z]/i)) {
// @test (missing)
return 0;
}
// @test Def Let, Def Optional Brace, Def Options CS
parser.i += param.length;
return 1;
}
/**
* Adds a new delimiter as extension to the parser.
* @param {TexParser} parser The current parser.
* @param {string} cs The control sequence of the delimiter.
* @param {string} char The corresponding character.
* @param {Attributes} attr The attributes needed for parsing.
*/
export function addDelimiter(parser: TexParser, cs: string, char: string, attr: Attributes) {
const handlers = parser.configuration.handlers;
const handler = handlers.retrieve(NEW_DELIMITER) as sm.DelimiterMap;
handler.add(cs, new Symbol(cs, char, attr));
}
/**
* Adds a new macro as extension to the parser.
* @param {TexParser} parser The current parser.
* @param {string} cs The control sequence of the delimiter.
* @param {ParseMethod} func The parse method for this macro.
* @param {Args[]} attr The attributes needed for parsing.
* @param {string=} symbol Optionally original symbol for macro, in case it is
* different from the control sequence.
*/
export function addMacro(parser: TexParser, cs: string, func: ParseMethod, attr: Args[],
symbol: string = '') {
const handlers = parser.configuration.handlers;
const handler = handlers.retrieve(NEW_COMMAND) as sm.CommandMap;
handler.add(cs, new Macro(symbol ? symbol : cs, func, attr));
}
/**
* Adds a new environment as extension to the parser.
* @param {TexParser} parser The current parser.
* @param {string} env The environment name.
* @param {ParseMethod} func The parse method for this macro.
* @param {Args[]} attr The attributes needed for parsing.
*/
export function addEnvironment(parser: TexParser, env: string, func: ParseMethod, attr: Args[]) {
const handlers = parser.configuration.handlers;
const handler = handlers.retrieve(NEW_ENVIRONMENT) as sm.EnvironmentMap;
handler.add(env, new Macro(env, func, attr));
}
/**
* Naming constants for the extension mappings.
*/
export const NEW_DELIMITER = 'new-Delimiter';
export const NEW_COMMAND = 'new-Command';
export const NEW_ENVIRONMENT = 'new-Environment';
}
export default NewcommandUtil;