site/node_modules/mathjax-full/ts/output/chtml/Wrappers/menclose.ts

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/*************************************************************
*
* Copyright (c) 2018-2022 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 Implements the CHTMLmenclose wrapper for the MmlMenclose object
*
* @author dpvc@mathjax.org (Davide Cervone)
*/
import {CHTMLWrapper, CHTMLConstructor} from '../Wrapper.js';
import {CommonMencloseMixin} from '../../common/Wrappers/menclose.js';
import {CHTMLmsqrt} from './msqrt.js';
import * as Notation from '../Notation.js';
import {MmlMenclose} from '../../../core/MmlTree/MmlNodes/menclose.js';
import {OptionList} from '../../../util/Options.js';
import {StyleList} from '../../../util/StyleList.js';
import {em} from '../../../util/lengths.js';
/*****************************************************************/
/**
* The skew angle needed for the arrow head pieces
*/
function Angle(x: number, y: number) {
return Math.atan2(x, y).toFixed(3).replace(/\.?0+$/, '');
}
const ANGLE = Angle(Notation.ARROWDX, Notation.ARROWY);
/*****************************************************************/
/**
* The CHTMLmenclose wrapper for the MmlMenclose object
*
* @template N The HTMLElement node class
* @template T The Text node class
* @template D The Document class
*/
// @ts-ignore
export class CHTMLmenclose<N, T, D> extends
CommonMencloseMixin<
CHTMLWrapper<any, any, any>,
CHTMLmsqrt<any, any, any>,
any,
CHTMLConstructor<any, any, any>
>(CHTMLWrapper) {
/**
* The menclose wrapper
*/
public static kind = MmlMenclose.prototype.kind;
/**
* Styles needed for the various notations
*/
public static styles: StyleList = {
'mjx-menclose': {
position: 'relative'
},
'mjx-menclose > mjx-dstrike': {
display: 'inline-block',
left: 0, top: 0,
position: 'absolute',
'border-top': Notation.SOLID,
'transform-origin': 'top left'
},
'mjx-menclose > mjx-ustrike': {
display: 'inline-block',
left: 0, bottom: 0,
position: 'absolute',
'border-top': Notation.SOLID,
'transform-origin': 'bottom left'
},
'mjx-menclose > mjx-hstrike': {
'border-top': Notation.SOLID,
position: 'absolute',
left: 0, right: 0, bottom: '50%',
transform: 'translateY(' + em(Notation.THICKNESS / 2) + ')'
},
'mjx-menclose > mjx-vstrike': {
'border-left': Notation.SOLID,
position: 'absolute',
top: 0, bottom: 0, right: '50%',
transform: 'translateX(' + em(Notation.THICKNESS / 2) + ')'
},
'mjx-menclose > mjx-rbox': {
position: 'absolute',
top: 0, bottom: 0, right: 0, left: 0,
'border': Notation.SOLID,
'border-radius': em(Notation.THICKNESS + Notation.PADDING)
},
'mjx-menclose > mjx-cbox': {
position: 'absolute',
top: 0, bottom: 0, right: 0, left: 0,
'border': Notation.SOLID,
'border-radius': '50%'
},
'mjx-menclose > mjx-arrow': {
position: 'absolute',
left: 0, bottom: '50%', height: 0, width: 0
},
'mjx-menclose > mjx-arrow > *': {
display: 'block',
position: 'absolute',
'transform-origin': 'bottom',
'border-left': em(Notation.THICKNESS * Notation.ARROWX) + ' solid',
'border-right': 0,
'box-sizing': 'border-box'
},
'mjx-menclose > mjx-arrow > mjx-aline': {
left: 0, top: em(-Notation.THICKNESS / 2),
right: em(Notation.THICKNESS * (Notation.ARROWX - 1)), height: 0,
'border-top': em(Notation.THICKNESS) + ' solid',
'border-left': 0
},
'mjx-menclose > mjx-arrow[double] > mjx-aline': {
left: em(Notation.THICKNESS * (Notation.ARROWX - 1)), height: 0,
},
'mjx-menclose > mjx-arrow > mjx-rthead': {
transform: 'skewX(' + ANGLE + 'rad)',
right: 0, bottom: '-1px',
'border-bottom': '1px solid transparent',
'border-top': em(Notation.THICKNESS * Notation.ARROWY) + ' solid transparent'
},
'mjx-menclose > mjx-arrow > mjx-rbhead': {
transform: 'skewX(-' + ANGLE + 'rad)',
'transform-origin': 'top',
right: 0, top: '-1px',
'border-top': '1px solid transparent',
'border-bottom': em(Notation.THICKNESS * Notation.ARROWY) + ' solid transparent'
},
'mjx-menclose > mjx-arrow > mjx-lthead': {
transform: 'skewX(-' + ANGLE + 'rad)',
left: 0, bottom: '-1px',
'border-left': 0,
'border-right': em(Notation.THICKNESS * Notation.ARROWX) + ' solid',
'border-bottom': '1px solid transparent',
'border-top': em(Notation.THICKNESS * Notation.ARROWY) + ' solid transparent'
},
'mjx-menclose > mjx-arrow > mjx-lbhead': {
transform: 'skewX(' + ANGLE + 'rad)',
'transform-origin': 'top',
left: 0, top: '-1px',
'border-left': 0,
'border-right': em(Notation.THICKNESS * Notation.ARROWX) + ' solid',
'border-top': '1px solid transparent',
'border-bottom': em(Notation.THICKNESS * Notation.ARROWY) + ' solid transparent'
},
'mjx-menclose > dbox': {
position: 'absolute',
top: 0, bottom: 0, left: em(-1.5 * Notation.PADDING),
width: em(3 * Notation.PADDING),
border: em(Notation.THICKNESS) + ' solid',
'border-radius': '50%',
'clip-path': 'inset(0 0 0 ' + em(1.5 * Notation.PADDING) + ')',
'box-sizing': 'border-box'
}
};
/**
* The definitions of the various notations
*/
public static notations: Notation.DefList<CHTMLmenclose<any, any, any>, any> = new Map([
Notation.Border('top'),
Notation.Border('right'),
Notation.Border('bottom'),
Notation.Border('left'),
Notation.Border2('actuarial', 'top', 'right'),
Notation.Border2('madruwb', 'bottom', 'right'),
Notation.DiagonalStrike('up', 1),
Notation.DiagonalStrike('down', -1),
['horizontalstrike', {
renderer: Notation.RenderElement('hstrike', 'Y'),
bbox: (node) => [0, node.padding, 0, node.padding]
}],
['verticalstrike', {
renderer: Notation.RenderElement('vstrike', 'X'),
bbox: (node) => [node.padding, 0, node.padding, 0]
}],
['box', {
renderer: (node, child) => {
node.adaptor.setStyle(child, 'border', node.em(node.thickness) + ' solid');
},
bbox: Notation.fullBBox,
border: Notation.fullBorder,
remove: 'left right top bottom'
}],
['roundedbox', {
renderer: Notation.RenderElement('rbox'),
bbox: Notation.fullBBox
}],
['circle', {
renderer: Notation.RenderElement('cbox'),
bbox: Notation.fullBBox
}],
['phasorangle', {
//
// Use a bottom border and an upward strike properly angled
//
renderer: (node, child) => {
const {h, d} = node.getBBox();
const [a, W] = node.getArgMod(1.75 * node.padding, h + d);
const t = node.thickness * Math.sin(a) * .9;
node.adaptor.setStyle(child, 'border-bottom', node.em(node.thickness) + ' solid');
const strike = node.adjustBorder(node.html('mjx-ustrike', {style: {
width: node.em(W),
transform: 'translateX(' + node.em(t) + ') rotate(' + node.fixed(-a) + 'rad)',
}}));
node.adaptor.append(node.chtml, strike);
},
bbox: (node) => {
const p = node.padding / 2;
const t = node.thickness;
return [2 * p, p, p + t, 3 * p + t];
},
border: (node) => [0, 0, node.thickness, 0],
remove: 'bottom'
}],
Notation.Arrow('up'),
Notation.Arrow('down'),
Notation.Arrow('left'),
Notation.Arrow('right'),
Notation.Arrow('updown'),
Notation.Arrow('leftright'),
Notation.DiagonalArrow('updiagonal'), // backward compatibility
Notation.DiagonalArrow('northeast'),
Notation.DiagonalArrow('southeast'),
Notation.DiagonalArrow('northwest'),
Notation.DiagonalArrow('southwest'),
Notation.DiagonalArrow('northeastsouthwest'),
Notation.DiagonalArrow('northwestsoutheast'),
['longdiv', {
//
// Use a line along the top followed by a half ellipse at the left
//
renderer: (node, child) => {
const adaptor = node.adaptor;
adaptor.setStyle(child, 'border-top', node.em(node.thickness) + ' solid');
const arc = adaptor.append(node.chtml, node.html('dbox'));
const t = node.thickness;
const p = node.padding;
if (t !== Notation.THICKNESS) {
adaptor.setStyle(arc, 'border-width', node.em(t));
}
if (p !== Notation.PADDING) {
adaptor.setStyle(arc, 'left', node.em(-1.5 * p));
adaptor.setStyle(arc, 'width', node.em(3 * p));
adaptor.setStyle(arc, 'clip-path', 'inset(0 0 0 ' + node.em(1.5 * p) + ')');
}
},
bbox: (node) => {
const p = node.padding;
const t = node.thickness;
return [p + t, p, p, 2 * p + t / 2];
}
}],
['radical', {
//
// Use the msqrt rendering, but remove the extra space due to the radical
// (it is added in at the end, so other notations overlap the root)
//
renderer: (node, child) => {
node.msqrt.toCHTML(child);
const TRBL = node.sqrtTRBL();
node.adaptor.setStyle(node.msqrt.chtml, 'margin', TRBL.map(x => node.em(-x)).join(' '));
},
//
// Create the needed msqrt wrapper
//
init: (node) => {
node.msqrt = node.createMsqrt(node.childNodes[0]);
},
//
// Add back in the padding for the square root
//
bbox: (node) => node.sqrtTRBL(),
//
// This notation replaces the child
//
renderChild: true
}]
] as Notation.DefPair<CHTMLmenclose<any, any, any>, any>[]);
/********************************************************/
/**
* @override
*/
public toCHTML(parent: N) {
const adaptor = this.adaptor;
const chtml = this.standardCHTMLnode(parent);
//
// Create a box for the child (that can have padding and borders added by the notations)
// and add the child HTML into it
//
const block = adaptor.append(chtml, this.html('mjx-box')) as N;
if (this.renderChild) {
this.renderChild(this, block);
} else {
this.childNodes[0].toCHTML(block);
}
//
// Render all the notations for this menclose element
//
for (const name of Object.keys(this.notations)) {
const notation = this.notations[name];
!notation.renderChild && notation.renderer(this, block);
}
//
// Add the needed padding, if any
//
const pbox = this.getPadding();
for (const name of Notation.sideNames) {
const i = Notation.sideIndex[name];
pbox[i] > 0 && adaptor.setStyle(block, 'padding-' + name, this.em(pbox[i]));
}
}
/********************************************************/
/**
* Create an arrow using HTML elements
*
* @param {number} w The length of the arrow
* @param {number} a The angle for the arrow
* @param {boolean} double True if this is a double-headed arrow
* @param {string} offset 'X' for vertical arrow, 'Y' for horizontal
* @param {number} dist Distance to translate in the offset direction
* @return {N} The newly created arrow
*/
public arrow(w: number, a: number, double: boolean, offset: string = '', dist: number = 0): N {
const W = this.getBBox().w;
const style = {width: this.em(w)} as OptionList;
if (W !== w) {
style.left = this.em((W - w) / 2);
}
if (a) {
style.transform = 'rotate(' + this.fixed(a) + 'rad)';
}
const arrow = this.html('mjx-arrow', {style: style}, [
this.html('mjx-aline'), this.html('mjx-rthead'), this.html('mjx-rbhead')
]);
if (double) {
this.adaptor.append(arrow, this.html('mjx-lthead'));
this.adaptor.append(arrow, this.html('mjx-lbhead'));
this.adaptor.setAttribute(arrow, 'double', 'true');
}
this.adjustArrow(arrow, double);
this.moveArrow(arrow, offset, dist);
return arrow;
}
/**
* @param {N} arrow The arrow whose thickness and arrow head is to be adjusted
* @param {boolean} double True if the arrow is double-headed
*/
protected adjustArrow(arrow: N, double: boolean) {
const t = this.thickness;
const head = this.arrowhead;
if (head.x === Notation.ARROWX && head.y === Notation.ARROWY &&
head.dx === Notation.ARROWDX && t === Notation.THICKNESS) return;
const [x, y] = [t * head.x, t * head.y].map(x => this.em(x));
const a = Angle(head.dx, head.y);
const [line, rthead, rbhead, lthead, lbhead] = this.adaptor.childNodes(arrow);
this.adjustHead(rthead, [y, '0', '1px', x], a);
this.adjustHead(rbhead, ['1px', '0', y, x], '-' + a);
this.adjustHead(lthead, [y, x, '1px', '0'], '-' + a);
this.adjustHead(lbhead, ['1px', x, y, '0'], a);
this.adjustLine(line, t, head.x, double);
}
/**
* @param {N} head The piece of arrow head to be adjusted
* @param {string[]} border The border sizes [T, R, B, L]
* @param {string} a The skew angle for the piece
*/
protected adjustHead(head: N, border: string[], a: string) {
if (head) {
this.adaptor.setStyle(head, 'border-width', border.join(' '));
this.adaptor.setStyle(head, 'transform', 'skewX(' + a + 'rad)');
}
}
/**
* @param {N} line The arrow shaft to be adjusted
* @param {number} t The arrow shaft thickness
* @param {number} x The arrow head x size
* @param {boolean} double True if the arrow is double-headed
*/
protected adjustLine(line: N, t: number, x: number, double: boolean) {
this.adaptor.setStyle(line, 'borderTop', this.em(t) + ' solid');
this.adaptor.setStyle(line, 'top', this.em(-t / 2));
this.adaptor.setStyle(line, 'right', this.em(t * (x - 1)));
if (double) {
this.adaptor.setStyle(line, 'left', this.em(t * (x - 1)));
}
}
/**
* @param {N} arrow The arrow whose position is to be adjusted
* @param {string} offset The direction to move the arrow
* @param {number} d The distance to translate in that direction
*/
protected moveArrow(arrow: N, offset: string, d: number) {
if (!d) return;
const transform = this.adaptor.getStyle(arrow, 'transform');
this.adaptor.setStyle(
arrow, 'transform', `translate${offset}(${this.em(-d)})${(transform ? ' ' + transform : '')}`
);
}
/********************************************************/
/**
* @param {N} node The HTML element whose border width must be
* adjusted if the thickness isn't the default
* @return {N} The adjusted element
*/
public adjustBorder(node: N): N {
if (this.thickness !== Notation.THICKNESS) {
this.adaptor.setStyle(node, 'borderWidth', this.em(this.thickness));
}
return node;
}
/**
* @param {N} shape The svg element whose stroke-thickness must be
* adjusted if the thickness isn't the default
* @return {N} The adjusted element
*/
public adjustThickness(shape: N): N {
if (this.thickness !== Notation.THICKNESS) {
this.adaptor.setStyle(shape, 'strokeWidth', this.fixed(this.thickness));
}
return shape;
}
/********************************************************/
/**
* @param {number} m A number to be shown with a fixed number of digits
* @param {number=} n The number of digits to use
* @return {string} The formatted number
*/
public fixed(m: number, n: number = 3): string {
if (Math.abs(m) < .0006) {
return '0';
}
return m.toFixed(n).replace(/\.?0+$/, '');
}
/**
* @override
* (make it public so it can be called by the notation functions)
*/
public em(m: number) {
return super.em(m);
}
}