MindMap/frontend/node_modules/@vscode/markdown-it-katex/dist/index.js

"use strict";
var __importDefault = (this && this.__importDefault) || function (mod) {
    return (mod && mod.__esModule) ? mod : { "default": mod };
};
Object.defineProperty(exports, "__esModule", { value: true });
const katex_1 = __importDefault(require("katex"));
/**
 * Test if potential opening or closing delimiter
 */
function isValidInlineDelim(state, pos) {
    const prevChar = state.src[pos - 1];
    const char = state.src[pos];
    const nextChar = state.src[pos + 1];
    if (char !== '$') {
        return { can_open: false, can_close: false };
    }
    let canOpen = false;
    let canClose = false;
    if (prevChar !== '$' && prevChar !== '\\' && (prevChar === undefined || isWhitespace(prevChar) || !isWordCharacterOrNumber(prevChar))) {
        canOpen = true;
    }
    if (nextChar !== '$' && (nextChar == undefined || isWhitespace(nextChar) || !isWordCharacterOrNumber(nextChar))) {
        canClose = true;
    }
    return { can_open: canOpen, can_close: canClose };
}
function isWhitespace(char) {
    return /^\s$/u.test(char);
}
function isWordCharacterOrNumber(char) {
    return /^[\w\d]$/u.test(char);
}
function isValidBlockDelim(state, pos) {
    const prevChar = state.src[pos - 1];
    const char = state.src[pos];
    const nextChar = state.src[pos + 1];
    const nextCharPlus1 = state.src[pos + 2];
    if (char === '$'
        && prevChar !== '$' && prevChar !== '\\'
        && nextChar === '$'
        && nextCharPlus1 !== '$') {
        return { can_open: true, can_close: true };
    }
    return { can_open: false, can_close: false };
}
function inlineMath(state, silent) {
    if (state.src[state.pos] !== "$") {
        return false;
    }
    const lastToken = state.tokens.at(-1);
    if (lastToken?.type === 'html_inline') {
        // We may be inside of inside of inline html
        if (/^<\w+.+[^/]>$/.test(lastToken.content)) {
            return false;
        }
    }
    let res = isValidInlineDelim(state, state.pos);
    if (!res.can_open) {
        if (!silent) {
            state.pending += "$";
        }
        state.pos += 1;
        return true;
    }
    // First check for and bypass all properly escaped delimieters
    // This loop will assume that the first leading backtick can not
    // be the first character in state.src, which is known since
    // we have found an opening delimieter already.
    let start = state.pos + 1;
    let match = start;
    let pos;
    while ((match = state.src.indexOf("$", match)) !== -1) {
        // Found potential $, look for escapes, pos will point to
        // first non escape when complete
        pos = match - 1;
        while (state.src[pos] === "\\") {
            pos -= 1;
        }
        // Even number of escapes, potential closing delimiter found
        if (((match - pos) % 2) == 1) {
            break;
        }
        match += 1;
    }
    // No closing delimter found.  Consume $ and continue.
    if (match === -1) {
        if (!silent) {
            state.pending += "$";
        }
        state.pos = start;
        return true;
    }
    // Check if we have empty content, ie: $$.  Do not parse.
    if (match - start === 0) {
        if (!silent) {
            state.pending += "$$";
        }
        state.pos = start + 1;
        return true;
    }
    // Check for valid closing delimiter
    res = isValidInlineDelim(state, match);
    if (!res.can_close) {
        if (!silent) {
            state.pending += "$";
        }
        state.pos = start;
        return true;
    }
    if (!silent) {
        const token = state.push('math_inline', 'math', 0);
        token.markup = "$";
        token.content = state.src.slice(start, match);
    }
    state.pos = match + 1;
    return true;
}
function blockMath(state, start, end, silent) {
    let found = false;
    let pos = state.bMarks[start] + state.tShift[start];
    let max = state.eMarks[start];
    if (pos + 2 > max) {
        return false;
    }
    if (state.src.slice(pos, pos + 2) !== '$$') {
        return false;
    }
    pos += 2;
    let firstLine = state.src.slice(pos, max);
    // Check for single line expressions such as `$$x$$`
    const endIndexes = [...firstLine.matchAll(/\$\$/g)];
    if (endIndexes.length === 1 && endIndexes[0].index === firstLine.length - 2) {
        // Fake inline expression such as `$$x$$`
        // We actually want to treat this as a block instead of inline
        firstLine = firstLine.trim().slice(0, -2);
        found = true;
    }
    else if (endIndexes.length > 1) {
        // Multiple $$ in the first line, so this is not a block
        // Should be treated as inline instead
        return false;
    }
    if (silent) {
        return true;
    }
    let lastLine;
    let next;
    let lastPos;
    for (next = start; !found;) {
        next++;
        if (next >= end) {
            break;
        }
        pos = state.bMarks[next] + state.tShift[next];
        max = state.eMarks[next];
        if (pos < max && state.tShift[next] < state.blkIndent) {
            // non-empty line with negative indent should stop the list:
            break;
        }
        if (state.src.slice(pos, max).trim().slice(-2) === '$$') {
            lastPos = state.src.slice(0, max).lastIndexOf('$$');
            lastLine = state.src.slice(pos, lastPos);
            found = true;
        }
        else if (state.src.slice(pos, max).trim().includes('$$')) {
            lastPos = state.src.slice(0, max).trim().indexOf('$$');
            lastLine = state.src.slice(pos, lastPos);
            found = true;
        }
    }
    state.line = next + 1;
    const token = state.push('math_block', 'math', 0);
    token.block = true;
    token.content = (firstLine && firstLine.trim() ? firstLine + '\n' : '')
        + state.getLines(start + 1, next, state.tShift[start], true)
        + (lastLine && lastLine.trim() ? lastLine : '');
    token.map = [start, state.line];
    token.markup = '$$';
    return true;
}
function blockBareMath(state, start, end, silent) {
    const startPos = state.bMarks[start] + state.tShift[start];
    const startMax = state.eMarks[start];
    const firstLine = state.src.slice(startPos, startMax);
    const beginMatch = firstLine.match(/^\s*\\begin\s*\{([^{}]+)\}/);
    if (!beginMatch) {
        return false;
    }
    if (start > 0) {
        // Previous line must be blank for bare blocks. There are instead handled by inlineBareBlock
        const previousStart = state.bMarks[start - 1] + state.tShift[start - 1];
        const previousEnd = state.eMarks[start - 1];
        const previousLine = state.src.slice(previousStart, previousEnd);
        if (!/^\s*$/.test(previousLine)) {
            return false;
        }
    }
    if (silent) {
        return true;
    }
    const beginEndStack = [];
    let next = start;
    let lastLine;
    let found = false;
    outer: for (; !found; next++) {
        if (next >= end) {
            break;
        }
        const pos = state.bMarks[next] + state.tShift[next];
        const max = state.eMarks[next];
        if (pos < max && state.tShift[next] < state.blkIndent) {
            // non-empty line with negative indent should stop the list:
            break;
        }
        const line = state.src.slice(pos, max);
        for (const match of line.matchAll(/(\\begin|\\end)\s*\{([^{}]+)\}/g)) {
            if (match[1] === '\\begin') {
                beginEndStack.push(match[2].trim());
            }
            else if (match[1] === '\\end') {
                beginEndStack.pop();
                if (!beginEndStack.length) {
                    lastLine = state.src.slice(pos, max);
                    found = true;
                    break outer;
                }
            }
        }
    }
    state.line = next + 1;
    const token = state.push('math_block', 'math', 0);
    token.block = true;
    token.content = (state.getLines(start, next, state.tShift[start], true) + (lastLine ?? '')).trim();
    token.map = [start, state.line];
    token.markup = '$$';
    return true;
}
function inlineMathBlock(state, silent) {
    var start, match, token, res, pos;
    if (state.src.slice(state.pos, state.pos + 2) !== "$$") {
        return false;
    }
    res = isValidBlockDelim(state, state.pos);
    if (!res.can_open) {
        if (!silent) {
            state.pending += "$$";
        }
        state.pos += 2;
        return true;
    }
    // First check for and bypass all properly escaped delimieters
    // This loop will assume that the first leading backtick can not
    // be the first character in state.src, which is known since
    // we have found an opening delimieter already.
    start = state.pos + 2;
    match = start;
    while ((match = state.src.indexOf("$$", match)) !== -1) {
        // Found potential $$, look for escapes, pos will point to
        // first non escape when complete
        pos = match - 1;
        while (state.src[pos] === "\\") {
            pos -= 1;
        }
        // Even number of escapes, potential closing delimiter found
        if (((match - pos) % 2) == 1) {
            break;
        }
        match += 2;
    }
    // No closing delimter found.  Consume $$ and continue.
    if (match === -1) {
        if (!silent) {
            state.pending += "$$";
        }
        state.pos = start;
        return true;
    }
    // Check if we have empty content, ie: $$$$.  Do not parse.
    if (match - start === 0) {
        if (!silent) {
            state.pending += "$$$$";
        }
        state.pos = start + 2;
        return true;
    }
    // Check for valid closing delimiter
    res = isValidBlockDelim(state, match);
    if (!res.can_close) {
        if (!silent) {
            state.pending += "$$";
        }
        state.pos = start;
        return true;
    }
    if (!silent) {
        token = state.push('math_block', 'math', 0);
        token.block = true;
        token.markup = "$$";
        token.content = state.src.slice(start, match);
    }
    state.pos = match + 2;
    return true;
}
function inlineBareBlock(state, silent) {
    const text = state.src.slice(state.pos);
    // Make sure this is not a normal bare block
    if (!/^\n\\begin/.test(text)) {
        return false;
    }
    state.pos += 1;
    if (silent) {
        return true;
    }
    const lines = text.split(/\n/g).slice(1);
    let foundLine;
    const beginEndStack = [];
    outer: for (var i = 0; i < lines.length; ++i) {
        const line = lines[i];
        for (const match of line.matchAll(/(\\begin|\\end)\s*\{([^{}]+)\}/g)) {
            if (match[1] === '\\begin') {
                beginEndStack.push(match[2].trim());
            }
            else if (match[1] === '\\end') {
                beginEndStack.pop();
                if (!beginEndStack.length) {
                    foundLine = i;
                    break outer;
                }
            }
        }
    }
    if (typeof foundLine === 'undefined') {
        return false;
    }
    const endIndex = lines.slice(0, foundLine + 1).reduce((p, c) => p + c.length, 0) + foundLine + 1;
    const token = state.push('math_inline_bare_block', 'math', 0);
    token.block = true;
    token.markup = "$$";
    token.content = text.slice(1, endIndex);
    state.pos = state.pos + endIndex;
    return true;
}
// For any html block that contains math, replace the html block token with new tokens that separate out
// the html blocks from the math
function handleMathInHtml(state, mathType, mathMarkup, mathRegex) {
    const tokens = state.tokens;
    for (let index = tokens.length - 1; index >= 0; index--) {
        const currentToken = tokens[index];
        const newTokens = [];
        if (currentToken.type !== "html_block") {
            continue;
        }
        const content = currentToken.content;
        // Process for each math referenced within the html block
        for (const match of content.matchAll(mathRegex)) {
            if (!match.groups) {
                continue;
            }
            const html_before_math = match.groups.html_before_math;
            const math = match.groups.math;
            const html_after_math = match.groups.html_after_math;
            if (html_before_math) {
                newTokens.push({ ...currentToken, type: "html_block", map: null, content: html_before_math });
            }
            if (math) {
                newTokens.push({
                    ...currentToken,
                    type: mathType,
                    map: null,
                    content: math,
                    markup: mathMarkup,
                    block: true,
                    tag: "math",
                });
            }
            if (html_after_math) {
                newTokens.push({ ...currentToken, type: "html_block", map: null, content: html_after_math });
            }
        }
        // Replace the original html_block token with the newly expanded tokens
        if (newTokens.length > 0) {
            tokens.splice(index, 1, ...newTokens);
        }
    }
    return true;
}
function escapeHtml(unsafe) {
    return unsafe
        .replace(/&/g, "&amp;")
        .replace(/</g, "&lt;")
        .replace(/>/g, "&gt;")
        .replace(/"/g, "&quot;")
        .replace(/'/g, "&#039;");
}
function default_1(md, options) {
    const katex = options?.katex ?? katex_1.default;
    const enableBareBlocks = options?.enableBareBlocks;
    const enableMathBlockInHtml = options?.enableMathBlockInHtml;
    const enableMathInlineInHtml = options?.enableMathInlineInHtml;
    const enableFencedBlocks = options?.enableFencedBlocks;
    // #region Parsing
    md.inline.ruler.after('escape', 'math_inline', inlineMath);
    md.inline.ruler.after('escape', 'math_inline_block', inlineMathBlock);
    if (enableBareBlocks) {
        md.inline.ruler.before('text', 'math_inline_bare_block', inlineBareBlock);
    }
    md.block.ruler.after('blockquote', 'math_block', (state, start, end, silent) => {
        if (enableBareBlocks && blockBareMath(state, start, end, silent)) {
            return true;
        }
        return blockMath(state, start, end, silent);
    }, {
        alt: ['paragraph', 'reference', 'blockquote', 'list']
    });
    // Regex to capture any html prior to math block, the math block (single or multi line), and any html after the math block
    const math_block_within_html_regex = /(?<html_before_math>[\s\S]*?)\$\$(?<math>[\s\S]+?)\$\$(?<html_after_math>(?:(?!\$\$[\s\S]+?\$\$)[\s\S])*)/gm;
    // Regex to capture any html prior to math inline, the math inline (single line), and any html after the math inline
    const math_inline_within_html_regex = /(?<html_before_math>[\s\S]*?)\$(?<math>.*?)\$(?<html_after_math>(?:(?!\$.*?\$)[\s\S])*)/gm;
    if (enableMathBlockInHtml) {
        md.core.ruler.push("math_block_in_html_block", (state) => {
            return handleMathInHtml(state, "math_block", "$$", math_block_within_html_regex);
        });
    }
    if (enableMathInlineInHtml) {
        md.core.ruler.push("math_inline_in_html_block", (state) => {
            return handleMathInHtml(state, "math_inline", "$", math_inline_within_html_regex);
        });
    }
    // #endregion
    // #region Rendering
    const katexInline = (latex) => {
        const displayMode = /\\begin\{(align|equation|gather|cd|alignat)\}/ig.test(latex);
        try {
            return katex.renderToString(latex, { ...options, displayMode });
        }
        catch (error) {
            if (options?.throwOnError) {
                console.log(error);
            }
            return `<span class="katex-error" title="${escapeHtml(latex)}">${escapeHtml(error + '')}</span>`;
        }
    };
    const inlineRenderer = (tokens, idx) => {
        const content = tokens[idx].content;
        // To support expression like $`1+1 = 2`$, check if the the expression has leading and trailing "`".
        const hasBacktick = content.length > 2 && content[0] === "`" && content[content.length - 1] === "`";
        const sanitized = hasBacktick ? content.slice(1, -1) : content;
        return katexInline(sanitized);
    };
    const katexBlockRenderer = (latex) => {
        try {
            return `<p class="katex-block">${katex.renderToString(latex, { ...options, displayMode: true })}</p>`;
        }
        catch (error) {
            if (options?.throwOnError) {
                console.log(error);
            }
            return `<p class="katex-block katex-error" title="${escapeHtml(latex)}">${escapeHtml(error + '')}</p>`;
        }
    };
    const blockRenderer = (tokens, idx) => {
        return katexBlockRenderer(tokens[idx].content) + '\n';
    };
    md.renderer.rules.math_inline = inlineRenderer;
    md.renderer.rules.math_inline_block = blockRenderer;
    md.renderer.rules.math_inline_bare_block = blockRenderer;
    md.renderer.rules.math_block = blockRenderer;
    if (enableFencedBlocks) {
        const mathLanguageId = 'math';
        const originalFenceRenderer = md.renderer.rules.fence;
        md.renderer.rules.fence = function (tokens, idx, options, env, self) {
            const token = tokens[idx];
            if (token.info.trim().toLowerCase() === mathLanguageId && enableFencedBlocks) {
                return katexBlockRenderer(token.content) + '\n';
            }
            else {
                return originalFenceRenderer?.call(this, tokens, idx, options, env, self) || '';
            }
        };
    }
    // #endregion
}
exports.default = default_1;
;
//# sourceMappingURL=index.js.map
feat: 修复markdown表格渲染问题 - 正确配置Mind Elixir的markdown渲染器，支持表格渲染为HTML格式 2025-09-10 07:27:37 +00:00			`"use strict";`
			`var __importDefault = (this && this.__importDefault) \|\| function (mod) {`
			`return (mod && mod.__esModule) ? mod : { "default": mod };`
			`};`
			`Object.defineProperty(exports, "__esModule", { value: true });`
			`const katex_1 = __importDefault(require("katex"));`
			`/**`
			`* Test if potential opening or closing delimiter`
			`*/`
			`function isValidInlineDelim(state, pos) {`
			`const prevChar = state.src[pos - 1];`
			`const char = state.src[pos];`
			`const nextChar = state.src[pos + 1];`
			`if (char !== '$') {`
			`return { can_open: false, can_close: false };`
			`}`
			`let canOpen = false;`
			`let canClose = false;`
			`if (prevChar !== '$' && prevChar !== '\\' && (prevChar === undefined \|\| isWhitespace(prevChar) \|\| !isWordCharacterOrNumber(prevChar))) {`
			`canOpen = true;`
			`}`
			`if (nextChar !== '$' && (nextChar == undefined \|\| isWhitespace(nextChar) \|\| !isWordCharacterOrNumber(nextChar))) {`
			`canClose = true;`
			`}`
			`return { can_open: canOpen, can_close: canClose };`
			`}`
			`function isWhitespace(char) {`
			`return /^\s$/u.test(char);`
			`}`
			`function isWordCharacterOrNumber(char) {`
			`return /^[\w\d]$/u.test(char);`
			`}`
			`function isValidBlockDelim(state, pos) {`
			`const prevChar = state.src[pos - 1];`
			`const char = state.src[pos];`
			`const nextChar = state.src[pos + 1];`
			`const nextCharPlus1 = state.src[pos + 2];`
			`if (char === '$'`
			`&& prevChar !== '$' && prevChar !== '\\'`
			`&& nextChar === '$'`
			`&& nextCharPlus1 !== '$') {`
			`return { can_open: true, can_close: true };`
			`}`
			`return { can_open: false, can_close: false };`
			`}`
			`function inlineMath(state, silent) {`
			`if (state.src[state.pos] !== "$") {`
			`return false;`
			`}`
			`const lastToken = state.tokens.at(-1);`
			`if (lastToken?.type === 'html_inline') {`
			`// We may be inside of inside of inline html`
			`if (/^<\w+.+[^/]>$/.test(lastToken.content)) {`
			`return false;`
			`}`
			`}`
			`let res = isValidInlineDelim(state, state.pos);`
			`if (!res.can_open) {`
			`if (!silent) {`
			`state.pending += "$";`
			`}`
			`state.pos += 1;`
			`return true;`
			`}`
			`// First check for and bypass all properly escaped delimieters`
			`// This loop will assume that the first leading backtick can not`
			`// be the first character in state.src, which is known since`
			`// we have found an opening delimieter already.`
			`let start = state.pos + 1;`
			`let match = start;`
			`let pos;`
			`while ((match = state.src.indexOf("$", match)) !== -1) {`
			`// Found potential $, look for escapes, pos will point to`
			`// first non escape when complete`
			`pos = match - 1;`
			`while (state.src[pos] === "\\") {`
			`pos -= 1;`
			`}`
			`// Even number of escapes, potential closing delimiter found`
			`if (((match - pos) % 2) == 1) {`
			`break;`
			`}`
			`match += 1;`
			`}`
			`// No closing delimter found. Consume $ and continue.`
			`if (match === -1) {`
			`if (!silent) {`
			`state.pending += "$";`
			`}`
			`state.pos = start;`
			`return true;`
			`}`
			`// Check if we have empty content, ie: $$. Do not parse.`
			`if (match - start === 0) {`
			`if (!silent) {`
			`state.pending += "$$";`
			`}`
			`state.pos = start + 1;`
			`return true;`
			`}`
			`// Check for valid closing delimiter`
			`res = isValidInlineDelim(state, match);`
			`if (!res.can_close) {`
			`if (!silent) {`
			`state.pending += "$";`
			`}`
			`state.pos = start;`
			`return true;`
			`}`
			`if (!silent) {`
			`const token = state.push('math_inline', 'math', 0);`
			`token.markup = "$";`
			`token.content = state.src.slice(start, match);`
			`}`
			`state.pos = match + 1;`
			`return true;`
			`}`
			`function blockMath(state, start, end, silent) {`
			`let found = false;`
			`let pos = state.bMarks[start] + state.tShift[start];`
			`let max = state.eMarks[start];`
			`if (pos + 2 > max) {`
			`return false;`
			`}`
			`if (state.src.slice(pos, pos + 2) !== '$$') {`
			`return false;`
			`}`
			`pos += 2;`
			`let firstLine = state.src.slice(pos, max);`
			// Check for single line expressions such as `$$x$$`
			`const endIndexes = [...firstLine.matchAll(/\$\$/g)];`
			`if (endIndexes.length === 1 && endIndexes[0].index === firstLine.length - 2) {`
			// Fake inline expression such as `$$x$$`
			`// We actually want to treat this as a block instead of inline`
			`firstLine = firstLine.trim().slice(0, -2);`
			`found = true;`
			`}`
			`else if (endIndexes.length > 1) {`
			`// Multiple $$ in the first line, so this is not a block`
			`// Should be treated as inline instead`
			`return false;`
			`}`
			`if (silent) {`
			`return true;`
			`}`
			`let lastLine;`
			`let next;`
			`let lastPos;`
			`for (next = start; !found;) {`
			`next++;`
			`if (next >= end) {`
			`break;`
			`}`
			`pos = state.bMarks[next] + state.tShift[next];`
			`max = state.eMarks[next];`
			`if (pos < max && state.tShift[next] < state.blkIndent) {`
			`// non-empty line with negative indent should stop the list:`
			`break;`
			`}`
			`if (state.src.slice(pos, max).trim().slice(-2) === '$$') {`
			`lastPos = state.src.slice(0, max).lastIndexOf('$$');`
			`lastLine = state.src.slice(pos, lastPos);`
			`found = true;`
			`}`
			`else if (state.src.slice(pos, max).trim().includes('$$')) {`
			`lastPos = state.src.slice(0, max).trim().indexOf('$$');`
			`lastLine = state.src.slice(pos, lastPos);`
			`found = true;`
			`}`
			`}`
			`state.line = next + 1;`
			`const token = state.push('math_block', 'math', 0);`
			`token.block = true;`
			`token.content = (firstLine && firstLine.trim() ? firstLine + '\n' : '')`
			`+ state.getLines(start + 1, next, state.tShift[start], true)`
			`+ (lastLine && lastLine.trim() ? lastLine : '');`
			`token.map = [start, state.line];`
			`token.markup = '$$';`
			`return true;`
			`}`
			`function blockBareMath(state, start, end, silent) {`
			`const startPos = state.bMarks[start] + state.tShift[start];`
			`const startMax = state.eMarks[start];`
			`const firstLine = state.src.slice(startPos, startMax);`
			`const beginMatch = firstLine.match(/^\s\\begin\s\{([^{}]+)\}/);`
			`if (!beginMatch) {`
			`return false;`
			`}`
			`if (start > 0) {`
			`// Previous line must be blank for bare blocks. There are instead handled by inlineBareBlock`
			`const previousStart = state.bMarks[start - 1] + state.tShift[start - 1];`
			`const previousEnd = state.eMarks[start - 1];`
			`const previousLine = state.src.slice(previousStart, previousEnd);`
			`if (!/^\s*$/.test(previousLine)) {`
			`return false;`
			`}`
			`}`
			`if (silent) {`
			`return true;`
			`}`
			`const beginEndStack = [];`
			`let next = start;`
			`let lastLine;`
			`let found = false;`
			`outer: for (; !found; next++) {`
			`if (next >= end) {`
			`break;`
			`}`
			`const pos = state.bMarks[next] + state.tShift[next];`
			`const max = state.eMarks[next];`
			`if (pos < max && state.tShift[next] < state.blkIndent) {`
			`// non-empty line with negative indent should stop the list:`
			`break;`
			`}`
			`const line = state.src.slice(pos, max);`
			`for (const match of line.matchAll(/(\\begin\|\\end)\s*\{([^{}]+)\}/g)) {`
			`if (match[1] === '\\begin') {`
			`beginEndStack.push(match[2].trim());`
			`}`
			`else if (match[1] === '\\end') {`
			`beginEndStack.pop();`
			`if (!beginEndStack.length) {`
			`lastLine = state.src.slice(pos, max);`
			`found = true;`
			`break outer;`
			`}`
			`}`
			`}`
			`}`
			`state.line = next + 1;`
			`const token = state.push('math_block', 'math', 0);`
			`token.block = true;`
			`token.content = (state.getLines(start, next, state.tShift[start], true) + (lastLine ?? '')).trim();`
			`token.map = [start, state.line];`
			`token.markup = '$$';`
			`return true;`
			`}`
			`function inlineMathBlock(state, silent) {`
			`var start, match, token, res, pos;`
			`if (state.src.slice(state.pos, state.pos + 2) !== "$$") {`
			`return false;`
			`}`
			`res = isValidBlockDelim(state, state.pos);`
			`if (!res.can_open) {`
			`if (!silent) {`
			`state.pending += "$$";`
			`}`
			`state.pos += 2;`
			`return true;`
			`}`
			`// First check for and bypass all properly escaped delimieters`
			`// This loop will assume that the first leading backtick can not`
			`// be the first character in state.src, which is known since`
			`// we have found an opening delimieter already.`
			`start = state.pos + 2;`
			`match = start;`
			`while ((match = state.src.indexOf("$$", match)) !== -1) {`
			`// Found potential $$, look for escapes, pos will point to`
			`// first non escape when complete`
			`pos = match - 1;`
			`while (state.src[pos] === "\\") {`
			`pos -= 1;`
			`}`
			`// Even number of escapes, potential closing delimiter found`
			`if (((match - pos) % 2) == 1) {`
			`break;`
			`}`
			`match += 2;`
			`}`
			`// No closing delimter found. Consume $$ and continue.`
			`if (match === -1) {`
			`if (!silent) {`
			`state.pending += "$$";`
			`}`
			`state.pos = start;`
			`return true;`
			`}`
			`// Check if we have empty content, ie: $$$$. Do not parse.`
			`if (match - start === 0) {`
			`if (!silent) {`
			`state.pending += "$$$$";`
			`}`
			`state.pos = start + 2;`
			`return true;`
			`}`
			`// Check for valid closing delimiter`
			`res = isValidBlockDelim(state, match);`
			`if (!res.can_close) {`
			`if (!silent) {`
			`state.pending += "$$";`
			`}`
			`state.pos = start;`
			`return true;`
			`}`
			`if (!silent) {`
			`token = state.push('math_block', 'math', 0);`
			`token.block = true;`
			`token.markup = "$$";`
			`token.content = state.src.slice(start, match);`
			`}`
			`state.pos = match + 2;`
			`return true;`
			`}`
			`function inlineBareBlock(state, silent) {`
			`const text = state.src.slice(state.pos);`
			`// Make sure this is not a normal bare block`
			`if (!/^\n\\begin/.test(text)) {`
			`return false;`
			`}`
			`state.pos += 1;`
			`if (silent) {`
			`return true;`
			`}`
			`const lines = text.split(/\n/g).slice(1);`
			`let foundLine;`
			`const beginEndStack = [];`
			`outer: for (var i = 0; i < lines.length; ++i) {`
			`const line = lines[i];`
			`for (const match of line.matchAll(/(\\begin\|\\end)\s*\{([^{}]+)\}/g)) {`
			`if (match[1] === '\\begin') {`
			`beginEndStack.push(match[2].trim());`
			`}`
			`else if (match[1] === '\\end') {`
			`beginEndStack.pop();`
			`if (!beginEndStack.length) {`
			`foundLine = i;`
			`break outer;`
			`}`
			`}`
			`}`
			`}`
			`if (typeof foundLine === 'undefined') {`
			`return false;`
			`}`
			`const endIndex = lines.slice(0, foundLine + 1).reduce((p, c) => p + c.length, 0) + foundLine + 1;`
			`const token = state.push('math_inline_bare_block', 'math', 0);`
			`token.block = true;`
			`token.markup = "$$";`
			`token.content = text.slice(1, endIndex);`
			`state.pos = state.pos + endIndex;`
			`return true;`
			`}`
			`// For any html block that contains math, replace the html block token with new tokens that separate out`
			`// the html blocks from the math`
			`function handleMathInHtml(state, mathType, mathMarkup, mathRegex) {`
			`const tokens = state.tokens;`
			`for (let index = tokens.length - 1; index >= 0; index--) {`
			`const currentToken = tokens[index];`
			`const newTokens = [];`
			`if (currentToken.type !== "html_block") {`
			`continue;`
			`}`
			`const content = currentToken.content;`
			`// Process for each math referenced within the html block`
			`for (const match of content.matchAll(mathRegex)) {`
			`if (!match.groups) {`
			`continue;`
			`}`
			`const html_before_math = match.groups.html_before_math;`
			`const math = match.groups.math;`
			`const html_after_math = match.groups.html_after_math;`
			`if (html_before_math) {`
			`newTokens.push({ ...currentToken, type: "html_block", map: null, content: html_before_math });`
			`}`
			`if (math) {`
			`newTokens.push({`
			`...currentToken,`
			`type: mathType,`
			`map: null,`
			`content: math,`
			`markup: mathMarkup,`
			`block: true,`
			`tag: "math",`
			`});`
			`}`
			`if (html_after_math) {`
			`newTokens.push({ ...currentToken, type: "html_block", map: null, content: html_after_math });`
			`}`
			`}`
			`// Replace the original html_block token with the newly expanded tokens`
			`if (newTokens.length > 0) {`
			`tokens.splice(index, 1, ...newTokens);`
			`}`
			`}`
			`return true;`
			`}`
			`function escapeHtml(unsafe) {`
			`return unsafe`
			`.replace(/&/g, "&")`
			`.replace(/</g, "<")`
			`.replace(/>/g, ">")`
			`.replace(/"/g, """)`
			`.replace(/'/g, "'");`
			`}`
			`function default_1(md, options) {`
			`const katex = options?.katex ?? katex_1.default;`
			`const enableBareBlocks = options?.enableBareBlocks;`
			`const enableMathBlockInHtml = options?.enableMathBlockInHtml;`
			`const enableMathInlineInHtml = options?.enableMathInlineInHtml;`
			`const enableFencedBlocks = options?.enableFencedBlocks;`
			`// #region Parsing`
			`md.inline.ruler.after('escape', 'math_inline', inlineMath);`
			`md.inline.ruler.after('escape', 'math_inline_block', inlineMathBlock);`
			`if (enableBareBlocks) {`
			`md.inline.ruler.before('text', 'math_inline_bare_block', inlineBareBlock);`
			`}`
			`md.block.ruler.after('blockquote', 'math_block', (state, start, end, silent) => {`
			`if (enableBareBlocks && blockBareMath(state, start, end, silent)) {`
			`return true;`
			`}`
			`return blockMath(state, start, end, silent);`
			`}, {`
			`alt: ['paragraph', 'reference', 'blockquote', 'list']`
			`});`
			`// Regex to capture any html prior to math block, the math block (single or multi line), and any html after the math block`
			`const math_block_within_html_regex = /(?<html_before_math>[\s\S]?)\$\$(?<math>[\s\S]+?)\$\$(?<html_after_math>(?:(?!\$\$[\s\S]+?\$\$)[\s\S]))/gm;`
			`// Regex to capture any html prior to math inline, the math inline (single line), and any html after the math inline`
			`const math_inline_within_html_regex = /(?<html_before_math>[\s\S]?)\$(?<math>.?)\$(?<html_after_math>(?:(?!\$.?\$)[\s\S]))/gm;`
			`if (enableMathBlockInHtml) {`
			`md.core.ruler.push("math_block_in_html_block", (state) => {`
			`return handleMathInHtml(state, "math_block", "$$", math_block_within_html_regex);`
			`});`
			`}`
			`if (enableMathInlineInHtml) {`
			`md.core.ruler.push("math_inline_in_html_block", (state) => {`
			`return handleMathInHtml(state, "math_inline", "$", math_inline_within_html_regex);`
			`});`
			`}`
			`// #endregion`
			`// #region Rendering`
			`const katexInline = (latex) => {`
			`const displayMode = /\\begin\{(align\|equation\|gather\|cd\|alignat)\}/ig.test(latex);`
			`try {`
			`return katex.renderToString(latex, { ...options, displayMode });`
			`}`
			`catch (error) {`
			`if (options?.throwOnError) {`
			`console.log(error);`
			`}`
			return `<span class="katex-error" title="${escapeHtml(latex)}">${escapeHtml(error + '')}</span>`;
			`}`
			`};`
			`const inlineRenderer = (tokens, idx) => {`
			`const content = tokens[idx].content;`
			// To support expression like $`1+1 = 2`$, check if the the expression has leading and trailing "`".
			const hasBacktick = content.length > 2 && content[0] === "`" && content[content.length - 1] === "`";
			`const sanitized = hasBacktick ? content.slice(1, -1) : content;`
			`return katexInline(sanitized);`
			`};`
			`const katexBlockRenderer = (latex) => {`
			`try {`
			return `<p class="katex-block">${katex.renderToString(latex, { ...options, displayMode: true })}</p>`;
			`}`
			`catch (error) {`
			`if (options?.throwOnError) {`
			`console.log(error);`
			`}`
			return `<p class="katex-block katex-error" title="${escapeHtml(latex)}">${escapeHtml(error + '')}</p>`;
			`}`
			`};`
			`const blockRenderer = (tokens, idx) => {`
			`return katexBlockRenderer(tokens[idx].content) + '\n';`
			`};`
			`md.renderer.rules.math_inline = inlineRenderer;`
			`md.renderer.rules.math_inline_block = blockRenderer;`
			`md.renderer.rules.math_inline_bare_block = blockRenderer;`
			`md.renderer.rules.math_block = blockRenderer;`
			`if (enableFencedBlocks) {`
			`const mathLanguageId = 'math';`
			`const originalFenceRenderer = md.renderer.rules.fence;`
			`md.renderer.rules.fence = function (tokens, idx, options, env, self) {`
			`const token = tokens[idx];`
			`if (token.info.trim().toLowerCase() === mathLanguageId && enableFencedBlocks) {`
			`return katexBlockRenderer(token.content) + '\n';`
			`}`
			`else {`
			`return originalFenceRenderer?.call(this, tokens, idx, options, env, self) \|\| '';`
			`}`
			`};`
			`}`
			`// #endregion`
			`}`
			`exports.default = default_1;`
			`;`
			`//# sourceMappingURL=index.js.map`