fastify-riotjs-and-lowdb/node_modules/recast/lib/comments.js

"use strict";
var __importDefault = (this && this.__importDefault) || function (mod) {
    return (mod && mod.__esModule) ? mod : { "default": mod };
};
var __importStar = (this && this.__importStar) || function (mod) {
    if (mod && mod.__esModule) return mod;
    var result = {};
    if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];
    result["default"] = mod;
    return result;
};
Object.defineProperty(exports, "__esModule", { value: true });
var assert_1 = __importDefault(require("assert"));
var types = __importStar(require("ast-types"));
var n = types.namedTypes;
var isArray = types.builtInTypes.array;
var isObject = types.builtInTypes.object;
var lines_1 = require("./lines");
var util_1 = require("./util");
var private_1 = require("private");
var childNodesCacheKey = private_1.makeUniqueKey();
// TODO Move a non-caching implementation of this function into ast-types,
// and implement a caching wrapper function here.
function getSortedChildNodes(node, lines, resultArray) {
    if (!node) {
        return;
    }
    // The .loc checks below are sensitive to some of the problems that
    // are fixed by this utility function. Specifically, if it decides to
    // set node.loc to null, indicating that the node's .loc information
    // is unreliable, then we don't want to add node to the resultArray.
    util_1.fixFaultyLocations(node, lines);
    if (resultArray) {
        if (n.Node.check(node) &&
            n.SourceLocation.check(node.loc)) {
            // This reverse insertion sort almost always takes constant
            // time because we almost always (maybe always?) append the
            // nodes in order anyway.
            for (var i = resultArray.length - 1; i >= 0; --i) {
                if (util_1.comparePos(resultArray[i].loc.end, node.loc.start) <= 0) {
                    break;
                }
            }
            resultArray.splice(i + 1, 0, node);
            return;
        }
    }
    else if (node[childNodesCacheKey]) {
        return node[childNodesCacheKey];
    }
    var names;
    if (isArray.check(node)) {
        names = Object.keys(node);
    }
    else if (isObject.check(node)) {
        names = types.getFieldNames(node);
    }
    else {
        return;
    }
    if (!resultArray) {
        Object.defineProperty(node, childNodesCacheKey, {
            value: resultArray = [],
            enumerable: false
        });
    }
    for (var i = 0, nameCount = names.length; i < nameCount; ++i) {
        getSortedChildNodes(node[names[i]], lines, resultArray);
    }
    return resultArray;
}
// As efficiently as possible, decorate the comment object with
// .precedingNode, .enclosingNode, and/or .followingNode properties, at
// least one of which is guaranteed to be defined.
function decorateComment(node, comment, lines) {
    var childNodes = getSortedChildNodes(node, lines);
    // Time to dust off the old binary search robes and wizard hat.
    var left = 0, right = childNodes.length;
    while (left < right) {
        var middle = (left + right) >> 1;
        var child = childNodes[middle];
        if (util_1.comparePos(child.loc.start, comment.loc.start) <= 0 &&
            util_1.comparePos(comment.loc.end, child.loc.end) <= 0) {
            // The comment is completely contained by this child node.
            decorateComment(comment.enclosingNode = child, comment, lines);
            return; // Abandon the binary search at this level.
        }
        if (util_1.comparePos(child.loc.end, comment.loc.start) <= 0) {
            // This child node falls completely before the comment.
            // Because we will never consider this node or any nodes
            // before it again, this node must be the closest preceding
            // node we have encountered so far.
            var precedingNode = child;
            left = middle + 1;
            continue;
        }
        if (util_1.comparePos(comment.loc.end, child.loc.start) <= 0) {
            // This child node falls completely after the comment.
            // Because we will never consider this node or any nodes after
            // it again, this node must be the closest following node we
            // have encountered so far.
            var followingNode = child;
            right = middle;
            continue;
        }
        throw new Error("Comment location overlaps with node location");
    }
    if (precedingNode) {
        comment.precedingNode = precedingNode;
    }
    if (followingNode) {
        comment.followingNode = followingNode;
    }
}
function attach(comments, ast, lines) {
    if (!isArray.check(comments)) {
        return;
    }
    var tiesToBreak = [];
    comments.forEach(function (comment) {
        comment.loc.lines = lines;
        decorateComment(ast, comment, lines);
        var pn = comment.precedingNode;
        var en = comment.enclosingNode;
        var fn = comment.followingNode;
        if (pn && fn) {
            var tieCount = tiesToBreak.length;
            if (tieCount > 0) {
                var lastTie = tiesToBreak[tieCount - 1];
                assert_1.default.strictEqual(lastTie.precedingNode === comment.precedingNode, lastTie.followingNode === comment.followingNode);
                if (lastTie.followingNode !== comment.followingNode) {
                    breakTies(tiesToBreak, lines);
                }
            }
            tiesToBreak.push(comment);
        }
        else if (pn) {
            // No contest: we have a trailing comment.
            breakTies(tiesToBreak, lines);
            addTrailingComment(pn, comment);
        }
        else if (fn) {
            // No contest: we have a leading comment.
            breakTies(tiesToBreak, lines);
            addLeadingComment(fn, comment);
        }
        else if (en) {
            // The enclosing node has no child nodes at all, so what we
            // have here is a dangling comment, e.g. [/* crickets */].
            breakTies(tiesToBreak, lines);
            addDanglingComment(en, comment);
        }
        else {
            throw new Error("AST contains no nodes at all?");
        }
    });
    breakTies(tiesToBreak, lines);
    comments.forEach(function (comment) {
        // These node references were useful for breaking ties, but we
        // don't need them anymore, and they create cycles in the AST that
        // may lead to infinite recursion if we don't delete them here.
        delete comment.precedingNode;
        delete comment.enclosingNode;
        delete comment.followingNode;
    });
}
exports.attach = attach;
;
function breakTies(tiesToBreak, lines) {
    var tieCount = tiesToBreak.length;
    if (tieCount === 0) {
        return;
    }
    var pn = tiesToBreak[0].precedingNode;
    var fn = tiesToBreak[0].followingNode;
    var gapEndPos = fn.loc.start;
    // Iterate backwards through tiesToBreak, examining the gaps
    // between the tied comments. In order to qualify as leading, a
    // comment must be separated from fn by an unbroken series of
    // whitespace-only gaps (or other comments).
    for (var indexOfFirstLeadingComment = tieCount; indexOfFirstLeadingComment > 0; --indexOfFirstLeadingComment) {
        var comment = tiesToBreak[indexOfFirstLeadingComment - 1];
        assert_1.default.strictEqual(comment.precedingNode, pn);
        assert_1.default.strictEqual(comment.followingNode, fn);
        var gap = lines.sliceString(comment.loc.end, gapEndPos);
        if (/\S/.test(gap)) {
            // The gap string contained something other than whitespace.
            break;
        }
        gapEndPos = comment.loc.start;
    }
    while (indexOfFirstLeadingComment <= tieCount &&
        (comment = tiesToBreak[indexOfFirstLeadingComment]) &&
        // If the comment is a //-style comment and indented more
        // deeply than the node itself, reconsider it as trailing.
        (comment.type === "Line" || comment.type === "CommentLine") &&
        comment.loc.start.column > fn.loc.start.column) {
        ++indexOfFirstLeadingComment;
    }
    tiesToBreak.forEach(function (comment, i) {
        if (i < indexOfFirstLeadingComment) {
            addTrailingComment(pn, comment);
        }
        else {
            addLeadingComment(fn, comment);
        }
    });
    tiesToBreak.length = 0;
}
function addCommentHelper(node, comment) {
    var comments = node.comments || (node.comments = []);
    comments.push(comment);
}
function addLeadingComment(node, comment) {
    comment.leading = true;
    comment.trailing = false;
    addCommentHelper(node, comment);
}
function addDanglingComment(node, comment) {
    comment.leading = false;
    comment.trailing = false;
    addCommentHelper(node, comment);
}
function addTrailingComment(node, comment) {
    comment.leading = false;
    comment.trailing = true;
    addCommentHelper(node, comment);
}
function printLeadingComment(commentPath, print) {
    var comment = commentPath.getValue();
    n.Comment.assert(comment);
    var loc = comment.loc;
    var lines = loc && loc.lines;
    var parts = [print(commentPath)];
    if (comment.trailing) {
        // When we print trailing comments as leading comments, we don't
        // want to bring any trailing spaces along.
        parts.push("\n");
    }
    else if (lines instanceof lines_1.Lines) {
        var trailingSpace = lines.slice(loc.end, lines.skipSpaces(loc.end) || lines.lastPos());
        if (trailingSpace.length === 1) {
            // If the trailing space contains no newlines, then we want to
            // preserve it exactly as we found it.
            parts.push(trailingSpace);
        }
        else {
            // If the trailing space contains newlines, then replace it
            // with just that many newlines, with all other spaces removed.
            parts.push(new Array(trailingSpace.length).join("\n"));
        }
    }
    else {
        parts.push("\n");
    }
    return lines_1.concat(parts);
}
function printTrailingComment(commentPath, print) {
    var comment = commentPath.getValue(commentPath);
    n.Comment.assert(comment);
    var loc = comment.loc;
    var lines = loc && loc.lines;
    var parts = [];
    if (lines instanceof lines_1.Lines) {
        var fromPos = lines.skipSpaces(loc.start, true) || lines.firstPos();
        var leadingSpace = lines.slice(fromPos, loc.start);
        if (leadingSpace.length === 1) {
            // If the leading space contains no newlines, then we want to
            // preserve it exactly as we found it.
            parts.push(leadingSpace);
        }
        else {
            // If the leading space contains newlines, then replace it
            // with just that many newlines, sans all other spaces.
            parts.push(new Array(leadingSpace.length).join("\n"));
        }
    }
    parts.push(print(commentPath));
    return lines_1.concat(parts);
}
function printComments(path, print) {
    var value = path.getValue();
    var innerLines = print(path);
    var comments = n.Node.check(value) &&
        types.getFieldValue(value, "comments");
    if (!comments || comments.length === 0) {
        return innerLines;
    }
    var leadingParts = [];
    var trailingParts = [innerLines];
    path.each(function (commentPath) {
        var comment = commentPath.getValue();
        var leading = types.getFieldValue(comment, "leading");
        var trailing = types.getFieldValue(comment, "trailing");
        if (leading || (trailing && !(n.Statement.check(value) ||
            comment.type === "Block" ||
            comment.type === "CommentBlock"))) {
            leadingParts.push(printLeadingComment(commentPath, print));
        }
        else if (trailing) {
            trailingParts.push(printTrailingComment(commentPath, print));
        }
    }, "comments");
    leadingParts.push.apply(leadingParts, trailingParts);
    return lines_1.concat(leadingParts);
}
exports.printComments = printComments;
;
init 4 years ago			`"use strict";`
			`var __importDefault = (this && this.__importDefault) \|\| function (mod) {`
			`return (mod && mod.__esModule) ? mod : { "default": mod };`
			`};`
			`var __importStar = (this && this.__importStar) \|\| function (mod) {`
			`if (mod && mod.__esModule) return mod;`
			`var result = {};`
			`if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k];`
			`result["default"] = mod;`
			`return result;`
			`};`
			`Object.defineProperty(exports, "__esModule", { value: true });`
			`var assert_1 = __importDefault(require("assert"));`
			`var types = __importStar(require("ast-types"));`
			`var n = types.namedTypes;`
			`var isArray = types.builtInTypes.array;`
			`var isObject = types.builtInTypes.object;`
			`var lines_1 = require("./lines");`
			`var util_1 = require("./util");`
			`var private_1 = require("private");`
			`var childNodesCacheKey = private_1.makeUniqueKey();`
			`// TODO Move a non-caching implementation of this function into ast-types,`
			`// and implement a caching wrapper function here.`
			`function getSortedChildNodes(node, lines, resultArray) {`
			`if (!node) {`
			`return;`
			`}`
			`// The .loc checks below are sensitive to some of the problems that`
			`// are fixed by this utility function. Specifically, if it decides to`
			`// set node.loc to null, indicating that the node's .loc information`
			`// is unreliable, then we don't want to add node to the resultArray.`
			`util_1.fixFaultyLocations(node, lines);`
			`if (resultArray) {`
			`if (n.Node.check(node) &&`
			`n.SourceLocation.check(node.loc)) {`
			`// This reverse insertion sort almost always takes constant`
			`// time because we almost always (maybe always?) append the`
			`// nodes in order anyway.`
			`for (var i = resultArray.length - 1; i >= 0; --i) {`
			`if (util_1.comparePos(resultArray[i].loc.end, node.loc.start) <= 0) {`
			`break;`
			`}`
			`}`
			`resultArray.splice(i + 1, 0, node);`
			`return;`
			`}`
			`}`
			`else if (node[childNodesCacheKey]) {`
			`return node[childNodesCacheKey];`
			`}`
			`var names;`
			`if (isArray.check(node)) {`
			`names = Object.keys(node);`
			`}`
			`else if (isObject.check(node)) {`
			`names = types.getFieldNames(node);`
			`}`
			`else {`
			`return;`
			`}`
			`if (!resultArray) {`
			`Object.defineProperty(node, childNodesCacheKey, {`
			`value: resultArray = [],`
			`enumerable: false`
			`});`
			`}`
			`for (var i = 0, nameCount = names.length; i < nameCount; ++i) {`
			`getSortedChildNodes(node[names[i]], lines, resultArray);`
			`}`
			`return resultArray;`
			`}`
			`// As efficiently as possible, decorate the comment object with`
			`// .precedingNode, .enclosingNode, and/or .followingNode properties, at`
			`// least one of which is guaranteed to be defined.`
			`function decorateComment(node, comment, lines) {`
			`var childNodes = getSortedChildNodes(node, lines);`
			`// Time to dust off the old binary search robes and wizard hat.`
			`var left = 0, right = childNodes.length;`
			`while (left < right) {`
			`var middle = (left + right) >> 1;`
			`var child = childNodes[middle];`
			`if (util_1.comparePos(child.loc.start, comment.loc.start) <= 0 &&`
			`util_1.comparePos(comment.loc.end, child.loc.end) <= 0) {`
			`// The comment is completely contained by this child node.`
			`decorateComment(comment.enclosingNode = child, comment, lines);`
			`return; // Abandon the binary search at this level.`
			`}`
			`if (util_1.comparePos(child.loc.end, comment.loc.start) <= 0) {`
			`// This child node falls completely before the comment.`
			`// Because we will never consider this node or any nodes`
			`// before it again, this node must be the closest preceding`
			`// node we have encountered so far.`
			`var precedingNode = child;`
			`left = middle + 1;`
			`continue;`
			`}`
			`if (util_1.comparePos(comment.loc.end, child.loc.start) <= 0) {`
			`// This child node falls completely after the comment.`
			`// Because we will never consider this node or any nodes after`
			`// it again, this node must be the closest following node we`
			`// have encountered so far.`
			`var followingNode = child;`
			`right = middle;`
			`continue;`
			`}`
			`throw new Error("Comment location overlaps with node location");`
			`}`
			`if (precedingNode) {`
			`comment.precedingNode = precedingNode;`
			`}`
			`if (followingNode) {`
			`comment.followingNode = followingNode;`
			`}`
			`}`
			`function attach(comments, ast, lines) {`
			`if (!isArray.check(comments)) {`
			`return;`
			`}`
			`var tiesToBreak = [];`
			`comments.forEach(function (comment) {`
			`comment.loc.lines = lines;`
			`decorateComment(ast, comment, lines);`
			`var pn = comment.precedingNode;`
			`var en = comment.enclosingNode;`
			`var fn = comment.followingNode;`
			`if (pn && fn) {`
			`var tieCount = tiesToBreak.length;`
			`if (tieCount > 0) {`
			`var lastTie = tiesToBreak[tieCount - 1];`
			`assert_1.default.strictEqual(lastTie.precedingNode === comment.precedingNode, lastTie.followingNode === comment.followingNode);`
			`if (lastTie.followingNode !== comment.followingNode) {`
			`breakTies(tiesToBreak, lines);`
			`}`
			`}`
			`tiesToBreak.push(comment);`
			`}`
			`else if (pn) {`
			`// No contest: we have a trailing comment.`
			`breakTies(tiesToBreak, lines);`
			`addTrailingComment(pn, comment);`
			`}`
			`else if (fn) {`
			`// No contest: we have a leading comment.`
			`breakTies(tiesToBreak, lines);`
			`addLeadingComment(fn, comment);`
			`}`
			`else if (en) {`
			`// The enclosing node has no child nodes at all, so what we`
			`// have here is a dangling comment, e.g. [/* crickets */].`
			`breakTies(tiesToBreak, lines);`
			`addDanglingComment(en, comment);`
			`}`
			`else {`
			`throw new Error("AST contains no nodes at all?");`
			`}`
			`});`
			`breakTies(tiesToBreak, lines);`
			`comments.forEach(function (comment) {`
			`// These node references were useful for breaking ties, but we`
			`// don't need them anymore, and they create cycles in the AST that`
			`// may lead to infinite recursion if we don't delete them here.`
			`delete comment.precedingNode;`
			`delete comment.enclosingNode;`
			`delete comment.followingNode;`
			`});`
			`}`
			`exports.attach = attach;`
			`;`
			`function breakTies(tiesToBreak, lines) {`
			`var tieCount = tiesToBreak.length;`
			`if (tieCount === 0) {`
			`return;`
			`}`
			`var pn = tiesToBreak[0].precedingNode;`
			`var fn = tiesToBreak[0].followingNode;`
			`var gapEndPos = fn.loc.start;`
			`// Iterate backwards through tiesToBreak, examining the gaps`
			`// between the tied comments. In order to qualify as leading, a`
			`// comment must be separated from fn by an unbroken series of`
			`// whitespace-only gaps (or other comments).`
			`for (var indexOfFirstLeadingComment = tieCount; indexOfFirstLeadingComment > 0; --indexOfFirstLeadingComment) {`
			`var comment = tiesToBreak[indexOfFirstLeadingComment - 1];`
			`assert_1.default.strictEqual(comment.precedingNode, pn);`
			`assert_1.default.strictEqual(comment.followingNode, fn);`
			`var gap = lines.sliceString(comment.loc.end, gapEndPos);`
			`if (/\S/.test(gap)) {`
			`// The gap string contained something other than whitespace.`
			`break;`
			`}`
			`gapEndPos = comment.loc.start;`
			`}`
			`while (indexOfFirstLeadingComment <= tieCount &&`
			`(comment = tiesToBreak[indexOfFirstLeadingComment]) &&`
			`// If the comment is a //-style comment and indented more`
			`// deeply than the node itself, reconsider it as trailing.`
			`(comment.type === "Line" \|\| comment.type === "CommentLine") &&`
			`comment.loc.start.column > fn.loc.start.column) {`
			`++indexOfFirstLeadingComment;`
			`}`
			`tiesToBreak.forEach(function (comment, i) {`
			`if (i < indexOfFirstLeadingComment) {`
			`addTrailingComment(pn, comment);`
			`}`
			`else {`
			`addLeadingComment(fn, comment);`
			`}`
			`});`
			`tiesToBreak.length = 0;`
			`}`
			`function addCommentHelper(node, comment) {`
			`var comments = node.comments \|\| (node.comments = []);`
			`comments.push(comment);`
			`}`
			`function addLeadingComment(node, comment) {`
			`comment.leading = true;`
			`comment.trailing = false;`
			`addCommentHelper(node, comment);`
			`}`
			`function addDanglingComment(node, comment) {`
			`comment.leading = false;`
			`comment.trailing = false;`
			`addCommentHelper(node, comment);`
			`}`
			`function addTrailingComment(node, comment) {`
			`comment.leading = false;`
			`comment.trailing = true;`
			`addCommentHelper(node, comment);`
			`}`
			`function printLeadingComment(commentPath, print) {`
			`var comment = commentPath.getValue();`
			`n.Comment.assert(comment);`
			`var loc = comment.loc;`
			`var lines = loc && loc.lines;`
			`var parts = [print(commentPath)];`
			`if (comment.trailing) {`
			`// When we print trailing comments as leading comments, we don't`
			`// want to bring any trailing spaces along.`
			`parts.push("\n");`
			`}`
			`else if (lines instanceof lines_1.Lines) {`
			`var trailingSpace = lines.slice(loc.end, lines.skipSpaces(loc.end) \|\| lines.lastPos());`
			`if (trailingSpace.length === 1) {`
			`// If the trailing space contains no newlines, then we want to`
			`// preserve it exactly as we found it.`
			`parts.push(trailingSpace);`
			`}`
			`else {`
			`// If the trailing space contains newlines, then replace it`
			`// with just that many newlines, with all other spaces removed.`
			`parts.push(new Array(trailingSpace.length).join("\n"));`
			`}`
			`}`
			`else {`
			`parts.push("\n");`
			`}`
			`return lines_1.concat(parts);`
			`}`
			`function printTrailingComment(commentPath, print) {`
			`var comment = commentPath.getValue(commentPath);`
			`n.Comment.assert(comment);`
			`var loc = comment.loc;`
			`var lines = loc && loc.lines;`
			`var parts = [];`
			`if (lines instanceof lines_1.Lines) {`
			`var fromPos = lines.skipSpaces(loc.start, true) \|\| lines.firstPos();`
			`var leadingSpace = lines.slice(fromPos, loc.start);`
			`if (leadingSpace.length === 1) {`
			`// If the leading space contains no newlines, then we want to`
			`// preserve it exactly as we found it.`
			`parts.push(leadingSpace);`
			`}`
			`else {`
			`// If the leading space contains newlines, then replace it`
			`// with just that many newlines, sans all other spaces.`
			`parts.push(new Array(leadingSpace.length).join("\n"));`
			`}`
			`}`
			`parts.push(print(commentPath));`
			`return lines_1.concat(parts);`
			`}`
			`function printComments(path, print) {`
			`var value = path.getValue();`
			`var innerLines = print(path);`
			`var comments = n.Node.check(value) &&`
			`types.getFieldValue(value, "comments");`
			`if (!comments \|\| comments.length === 0) {`
			`return innerLines;`
			`}`
			`var leadingParts = [];`
			`var trailingParts = [innerLines];`
			`path.each(function (commentPath) {`
			`var comment = commentPath.getValue();`
			`var leading = types.getFieldValue(comment, "leading");`
			`var trailing = types.getFieldValue(comment, "trailing");`
			`if (leading \|\| (trailing && !(n.Statement.check(value) \|\|`
			`comment.type === "Block" \|\|`
			`comment.type === "CommentBlock"))) {`
			`leadingParts.push(printLeadingComment(commentPath, print));`
			`}`
			`else if (trailing) {`
			`trailingParts.push(printTrailingComment(commentPath, print));`
			`}`
			`}, "comments");`
			`leadingParts.push.apply(leadingParts, trailingParts);`
			`return lines_1.concat(leadingParts);`
			`}`
			`exports.printComments = printComments;`
			`;`