/**
 * @fileoverview Abstraction of JavaScript source code.
 * @author Nicholas C. Zakas
 */
"use strict";

//------------------------------------------------------------------------------
// Requirements
//------------------------------------------------------------------------------

const
    { isCommentToken } = require("eslint-utils"),
    TokenStore = require("./token-store"),
    astUtils = require("../shared/ast-utils"),
    Traverser = require("../shared/traverser"),
    lodash = require("lodash");

//------------------------------------------------------------------------------
// Private
//------------------------------------------------------------------------------

/**
 * Validates that the given AST has the required information.
 * @param {ASTNode} ast The Program node of the AST to check.
 * @throws {Error} If the AST doesn't contain the correct information.
 * @returns {void}
 * @private
 */
function validate(ast) {
    if (!ast.tokens) {
        throw new Error("AST is missing the tokens array.");
    }

    if (!ast.comments) {
        throw new Error("AST is missing the comments array.");
    }

    if (!ast.loc) {
        throw new Error("AST is missing location information.");
    }

    if (!ast.range) {
        throw new Error("AST is missing range information");
    }
}

/**
 * Check to see if its a ES6 export declaration.
 * @param {ASTNode} astNode An AST node.
 * @returns {boolean} whether the given node represents an export declaration.
 * @private
 */
function looksLikeExport(astNode) {
    return astNode.type === "ExportDefaultDeclaration" || astNode.type === "ExportNamedDeclaration" ||
        astNode.type === "ExportAllDeclaration" || astNode.type === "ExportSpecifier";
}

/**
 * Merges two sorted lists into a larger sorted list in O(n) time.
 * @param {Token[]} tokens The list of tokens.
 * @param {Token[]} comments The list of comments.
 * @returns {Token[]} A sorted list of tokens and comments.
 * @private
 */
function sortedMerge(tokens, comments) {
    const result = [];
    let tokenIndex = 0;
    let commentIndex = 0;

    while (tokenIndex < tokens.length || commentIndex < comments.length) {
        if (commentIndex >= comments.length || tokenIndex < tokens.length && tokens[tokenIndex].range[0] < comments[commentIndex].range[0]) {
            result.push(tokens[tokenIndex++]);
        } else {
            result.push(comments[commentIndex++]);
        }
    }

    return result;
}

/**
 * Determines if two nodes or tokens overlap.
 * @param {ASTNode|Token} first The first node or token to check.
 * @param {ASTNode|Token} second The second node or token to check.
 * @returns {boolean} True if the two nodes or tokens overlap.
 * @private
 */
function nodesOrTokensOverlap(first, second) {
    return (first.range[0] <= second.range[0] && first.range[1] >= second.range[0]) ||
        (second.range[0] <= first.range[0] && second.range[1] >= first.range[0]);
}

/**
 * Determines if two nodes or tokens have at least one whitespace character
 * between them. Order does not matter. Returns false if the given nodes or
 * tokens overlap.
 * @param {SourceCode} sourceCode The source code object.
 * @param {ASTNode|Token} first The first node or token to check between.
 * @param {ASTNode|Token} second The second node or token to check between.
 * @param {boolean} checkInsideOfJSXText If `true` is present, check inside of JSXText tokens for backward compatibility.
 * @returns {boolean} True if there is a whitespace character between
 * any of the tokens found between the two given nodes or tokens.
 * @public
 */
function isSpaceBetween(sourceCode, first, second, checkInsideOfJSXText) {
    if (nodesOrTokensOverlap(first, second)) {
        return false;
    }

    const [startingNodeOrToken, endingNodeOrToken] = first.range[1] <= second.range[0]
        ? [first, second]
        : [second, first];
    const firstToken = sourceCode.getLastToken(startingNodeOrToken) || startingNodeOrToken;
    const finalToken = sourceCode.getFirstToken(endingNodeOrToken) || endingNodeOrToken;
    let currentToken = firstToken;

    while (currentToken !== finalToken) {
        const nextToken = sourceCode.getTokenAfter(currentToken, { includeComments: true });

        if (
            currentToken.range[1] !== nextToken.range[0] ||

                /*
                 * For backward compatibility, check speces in JSXText.
                 * https://github.com/eslint/eslint/issues/12614
                 */
                (
                    checkInsideOfJSXText &&
                    nextToken !== finalToken &&
                    nextToken.type === "JSXText" &&
                    /\s/u.test(nextToken.value)
                )
        ) {
            return true;
        }

        currentToken = nextToken;
    }

    return false;
}

//------------------------------------------------------------------------------
// Public Interface
//------------------------------------------------------------------------------

class SourceCode extends TokenStore {

    /**
     * Represents parsed source code.
     * @param {string|Object} textOrConfig The source code text or config object.
     * @param {string} textOrConfig.text The source code text.
     * @param {ASTNode} textOrConfig.ast The Program node of the AST representing the code. This AST should be created from the text that BOM was stripped.
     * @param {Object|null} textOrConfig.parserServices The parser services.
     * @param {ScopeManager|null} textOrConfig.scopeManager The scope of this source code.
     * @param {Object|null} textOrConfig.visitorKeys The visitor keys to traverse AST.
     * @param {ASTNode} [astIfNoConfig] The Program node of the AST representing the code. This AST should be created from the text that BOM was stripped.
     */
    constructor(textOrConfig, astIfNoConfig) {
        let text, ast, parserServices, scopeManager, visitorKeys;

        // Process overloading.
        if (typeof textOrConfig === "string") {
            text = textOrConfig;
            ast = astIfNoConfig;
        } else if (typeof textOrConfig === "object" && textOrConfig !== null) {
            text = textOrConfig.text;
            ast = textOrConfig.ast;
            parserServices = textOrConfig.parserServices;
            scopeManager = textOrConfig.scopeManager;
            visitorKeys = textOrConfig.visitorKeys;
        }

        validate(ast);
        super(ast.tokens, ast.comments);

        /**
         * The flag to indicate that the source code has Unicode BOM.
         * @type boolean
         */
        this.hasBOM = (text.charCodeAt(0) === 0xFEFF);

        /**
         * The original text source code.
         * BOM was stripped from this text.
         * @type string
         */
        this.text = (this.hasBOM ? text.slice(1) : text);

        /**
         * The parsed AST for the source code.
         * @type ASTNode
         */
        this.ast = ast;

        /**
         * The parser services of this source code.
         * @type {Object}
         */
        this.parserServices = parserServices || {};

        /**
         * The scope of this source code.
         * @type {ScopeManager|null}
         */
        this.scopeManager = scopeManager || null;

        /**
         * The visitor keys to traverse AST.
         * @type {Object}
         */
        this.visitorKeys = visitorKeys || Traverser.DEFAULT_VISITOR_KEYS;

        // Check the source text for the presence of a shebang since it is parsed as a standard line comment.
        const shebangMatched = this.text.match(astUtils.shebangPattern);
        const hasShebang = shebangMatched && ast.comments.length && ast.comments[0].value === shebangMatched[1];

        if (hasShebang) {
            ast.comments[0].type = "Shebang";
        }

        this.tokensAndComments = sortedMerge(ast.tokens, ast.comments);

        /**
         * The source code split into lines according to ECMA-262 specification.
         * This is done to avoid each rule needing to do so separately.
         * @type string[]
         */
        this.lines = [];
        this.lineStartIndices = [0];

        const lineEndingPattern = astUtils.createGlobalLinebreakMatcher();
        let match;

        /*
         * Previously, this was implemented using a regex that
         * matched a sequence of non-linebreak characters followed by a
         * linebreak, then adding the lengths of the matches. However,
         * this caused a catastrophic backtracking issue when the end
         * of a file contained a large number of non-newline characters.
         * To avoid this, the current implementation just matches newlines
         * and uses match.index to get the correct line start indices.
         */
        while ((match = lineEndingPattern.exec(this.text))) {
            this.lines.push(this.text.slice(this.lineStartIndices[this.lineStartIndices.length - 1], match.index));
            this.lineStartIndices.push(match.index + match[0].length);
        }
        this.lines.push(this.text.slice(this.lineStartIndices[this.lineStartIndices.length - 1]));

        // Cache for comments found using getComments().
        this._commentCache = new WeakMap();

        // don't allow modification of this object
        Object.freeze(this);
        Object.freeze(this.lines);
    }

    /**
     * Split the source code into multiple lines based on the line delimiters.
     * @param {string} text Source code as a string.
     * @returns {string[]} Array of source code lines.
     * @public
     */
    static splitLines(text) {
        return text.split(astUtils.createGlobalLinebreakMatcher());
    }

    /**
     * Gets the source code for the given node.
     * @param {ASTNode} [node] The AST node to get the text for.
     * @param {int} [beforeCount] The number of characters before the node to retrieve.
     * @param {int} [afterCount] The number of characters after the node to retrieve.
     * @returns {string} The text representing the AST node.
     * @public
     */
    getText(node, beforeCount, afterCount) {
        if (node) {
            return this.text.slice(Math.max(node.range[0] - (beforeCount || 0), 0),
                node.range[1] + (afterCount || 0));
        }
        return this.text;
    }

    /**
     * Gets the entire source text split into an array of lines.
     * @returns {Array} The source text as an array of lines.
     * @public
     */
    getLines() {
        return this.lines;
    }

    /**
     * Retrieves an array containing all comments in the source code.
     * @returns {ASTNode[]} An array of comment nodes.
     * @public
     */
    getAllComments() {
        return this.ast.comments;
    }

    /**
     * Gets all comments for the given node.
     * @param {ASTNode} node The AST node to get the comments for.
     * @returns {Object} An object containing a leading and trailing array
     *      of comments indexed by their position.
     * @public
     */
    getComments(node) {
        if (this._commentCache.has(node)) {
            return this._commentCache.get(node);
        }

        const comments = {
            leading: [],
            trailing: []
        };

        /*
         * Return all comments as leading comments of the Program node when
         * there is no executable code.
         */
        if (node.type === "Program") {
            if (node.body.length === 0) {
                comments.leading = node.comments;
            }
        } else {

            /*
             * Return comments as trailing comments of nodes that only contain
             * comments (to mimic the comment attachment behavior present in Espree).
             */
            if ((node.type === "BlockStatement" || node.type === "ClassBody") && node.body.length === 0 ||
                node.type === "ObjectExpression" && node.properties.length === 0 ||
                node.type === "ArrayExpression" && node.elements.length === 0 ||
                node.type === "SwitchStatement" && node.cases.length === 0
            ) {
                comments.trailing = this.getTokens(node, {
                    includeComments: true,
                    filter: isCommentToken
                });
            }

            /*
             * Iterate over tokens before and after node and collect comment tokens.
             * Do not include comments that exist outside of the parent node
             * to avoid duplication.
             */
            let currentToken = this.getTokenBefore(node, { includeComments: true });

            while (currentToken && isCommentToken(currentToken)) {
                if (node.parent && (currentToken.start < node.parent.start)) {
                    break;
                }
                comments.leading.push(currentToken);
                currentToken = this.getTokenBefore(currentToken, { includeComments: true });
            }

            comments.leading.reverse();

            currentToken = this.getTokenAfter(node, { includeComments: true });

            while (currentToken && isCommentToken(currentToken)) {
                if (node.parent && (currentToken.end > node.parent.end)) {
                    break;
                }
                comments.trailing.push(currentToken);
                currentToken = this.getTokenAfter(currentToken, { includeComments: true });
            }
        }

        this._commentCache.set(node, comments);
        return comments;
    }

    /**
     * Retrieves the JSDoc comment for a given node.
     * @param {ASTNode} node The AST node to get the comment for.
     * @returns {Token|null} The Block comment token containing the JSDoc comment
     *      for the given node or null if not found.
     * @public
     * @deprecated
     */
    getJSDocComment(node) {

        /**
         * Checks for the presence of a JSDoc comment for the given node and returns it.
         * @param {ASTNode} astNode The AST node to get the comment for.
         * @returns {Token|null} The Block comment token containing the JSDoc comment
         *      for the given node or null if not found.
         * @private
         */
        const findJSDocComment = astNode => {
            const tokenBefore = this.getTokenBefore(astNode, { includeComments: true });

            if (
                tokenBefore &&
                isCommentToken(tokenBefore) &&
                tokenBefore.type === "Block" &&
                tokenBefore.value.charAt(0) === "*" &&
                astNode.loc.start.line - tokenBefore.loc.end.line <= 1
            ) {
                return tokenBefore;
            }

            return null;
        };
        let parent = node.parent;

        switch (node.type) {
            case "ClassDeclaration":
            case "FunctionDeclaration":
                return findJSDocComment(looksLikeExport(parent) ? parent : node);

            case "ClassExpression":
                return findJSDocComment(parent.parent);

            case "ArrowFunctionExpression":
            case "FunctionExpression":
                if (parent.type !== "CallExpression" && parent.type !== "NewExpression") {
                    while (
                        !this.getCommentsBefore(parent).length &&
                        !/Function/u.test(parent.type) &&
                        parent.type !== "MethodDefinition" &&
                        parent.type !== "Property"
                    ) {
                        parent = parent.parent;

                        if (!parent) {
                            break;
                        }
                    }

                    if (parent && parent.type !== "FunctionDeclaration" && parent.type !== "Program") {
                        return findJSDocComment(parent);
                    }
                }

                return findJSDocComment(node);

            // falls through
            default:
                return null;
        }
    }

    /**
     * Gets the deepest node containing a range index.
     * @param {int} index Range index of the desired node.
     * @returns {ASTNode} The node if found or null if not found.
     * @public
     */
    getNodeByRangeIndex(index) {
        let result = null;

        Traverser.traverse(this.ast, {
            visitorKeys: this.visitorKeys,
            enter(node) {
                if (node.range[0] <= index && index < node.range[1]) {
                    result = node;
                } else {
                    this.skip();
                }
            },
            leave(node) {
                if (node === result) {
                    this.break();
                }
            }
        });

        return result;
    }

    /**
     * Determines if two nodes or tokens have at least one whitespace character
     * between them. Order does not matter. Returns false if the given nodes or
     * tokens overlap.
     * @param {ASTNode|Token} first The first node or token to check between.
     * @param {ASTNode|Token} second The second node or token to check between.
     * @returns {boolean} True if there is a whitespace character between
     * any of the tokens found between the two given nodes or tokens.
     * @public
     */
    isSpaceBetween(first, second) {
        return isSpaceBetween(this, first, second, false);
    }

    /**
     * Determines if two nodes or tokens have at least one whitespace character
     * between them. Order does not matter. Returns false if the given nodes or
     * tokens overlap.
     * For backward compatibility, this method returns true if there are
     * `JSXText` tokens that contain whitespaces between the two.
     * @param {ASTNode|Token} first The first node or token to check between.
     * @param {ASTNode|Token} second The second node or token to check between.
     * @returns {boolean} True if there is a whitespace character between
     * any of the tokens found between the two given nodes or tokens.
     * @deprecated in favor of isSpaceBetween().
     * @public
     */
    isSpaceBetweenTokens(first, second) {
        return isSpaceBetween(this, first, second, true);
    }

    /**
     * Converts a source text index into a (line, column) pair.
     * @param {number} index The index of a character in a file
     * @returns {Object} A {line, column} location object with a 0-indexed column
     * @public
     */
    getLocFromIndex(index) {
        if (typeof index !== "number") {
            throw new TypeError("Expected `index` to be a number.");
        }

        if (index < 0 || index > this.text.length) {
            throw new RangeError(`Index out of range (requested index ${index}, but source text has length ${this.text.length}).`);
        }

        /*
         * For an argument of this.text.length, return the location one "spot" past the last character
         * of the file. If the last character is a linebreak, the location will be column 0 of the next
         * line; otherwise, the location will be in the next column on the same line.
         *
         * See getIndexFromLoc for the motivation for this special case.
         */
        if (index === this.text.length) {
            return { line: this.lines.length, column: this.lines[this.lines.length - 1].length };
        }

        /*
         * To figure out which line rangeIndex is on, determine the last index at which rangeIndex could
         * be inserted into lineIndices to keep the list sorted.
         */
        const lineNumber = lodash.sortedLastIndex(this.lineStartIndices, index);

        return { line: lineNumber, column: index - this.lineStartIndices[lineNumber - 1] };
    }

    /**
     * Converts a (line, column) pair into a range index.
     * @param {Object} loc A line/column location
     * @param {number} loc.line The line number of the location (1-indexed)
     * @param {number} loc.column The column number of the location (0-indexed)
     * @returns {number} The range index of the location in the file.
     * @public
     */
    getIndexFromLoc(loc) {
        if (typeof loc !== "object" || typeof loc.line !== "number" || typeof loc.column !== "number") {
            throw new TypeError("Expected `loc` to be an object with numeric `line` and `column` properties.");
        }

        if (loc.line <= 0) {
            throw new RangeError(`Line number out of range (line ${loc.line} requested). Line numbers should be 1-based.`);
        }

        if (loc.line > this.lineStartIndices.length) {
            throw new RangeError(`Line number out of range (line ${loc.line} requested, but only ${this.lineStartIndices.length} lines present).`);
        }

        const lineStartIndex = this.lineStartIndices[loc.line - 1];
        const lineEndIndex = loc.line === this.lineStartIndices.length ? this.text.length : this.lineStartIndices[loc.line];
        const positionIndex = lineStartIndex + loc.column;

        /*
         * By design, getIndexFromLoc({ line: lineNum, column: 0 }) should return the start index of
         * the given line, provided that the line number is valid element of this.lines. Since the
         * last element of this.lines is an empty string for files with trailing newlines, add a
         * special case where getting the index for the first location after the end of the file
         * will return the length of the file, rather than throwing an error. This allows rules to
         * use getIndexFromLoc consistently without worrying about edge cases at the end of a file.
         */
        if (
            loc.line === this.lineStartIndices.length && positionIndex > lineEndIndex ||
            loc.line < this.lineStartIndices.length && positionIndex >= lineEndIndex
        ) {
            throw new RangeError(`Column number out of range (column ${loc.column} requested, but the length of line ${loc.line} is ${lineEndIndex - lineStartIndex}).`);
        }

        return positionIndex;
    }
}

module.exports = SourceCode;