index.js

/**
 * @author Toru Nagashima <https://github.com/mysticatea>
 * @copyright 2017 Toru Nagashima. All rights reserved.
 * See LICENSE file in root directory for full license.
 */
'use strict'

/**
 * @typedef {import('vue-eslint-parser').AST.ESLintArrayExpression} ArrayExpression
 * @typedef {import('vue-eslint-parser').AST.ESLintExpression} Expression
 * @typedef {import('vue-eslint-parser').AST.ESLintIdentifier} Identifier
 * @typedef {import('vue-eslint-parser').AST.ESLintLiteral} Literal
 * @typedef {import('vue-eslint-parser').AST.ESLintMemberExpression} MemberExpression
 * @typedef {import('vue-eslint-parser').AST.ESLintMethodDefinition} MethodDefinition
 * @typedef {import('vue-eslint-parser').AST.ESLintObjectExpression} ObjectExpression
 * @typedef {import('vue-eslint-parser').AST.ESLintProperty} Property
 * @typedef {import('vue-eslint-parser').AST.ESLintTemplateLiteral} TemplateLiteral
 */

/**
 * @typedef { {key: Literal | null, value: null, node: ArrayExpression['elements'][0], propName: string} } ComponentArrayProp
 * @typedef { {key: Property['key'], value: Property['value'], node: Property, propName: string} } ComponentObjectProp
 */

// ------------------------------------------------------------------------------
// Helpers
// ------------------------------------------------------------------------------

const HTML_ELEMENT_NAMES = new Set(require('./html-elements.json'))
const SVG_ELEMENT_NAMES = new Set(require('./svg-elements.json'))
const VOID_ELEMENT_NAMES = new Set(require('./void-elements.json'))
const assert = require('assert')
const path = require('path')
const vueEslintParser = require('vue-eslint-parser')

/**
 * Wrap the rule context object to override methods which access to tokens (such as getTokenAfter).
 * @param {RuleContext} context The rule context object.
 * @param {TokenStore} tokenStore The token store object for template.
 */
function wrapContextToOverrideTokenMethods (context, tokenStore) {
  const sourceCode = new Proxy(context.getSourceCode(), {
    get (object, key) {
      return key in tokenStore ? tokenStore[key] : object[key]
    }
  })

  return {
    __proto__: context,
    getSourceCode () {
      return sourceCode
    }
  }
}

// ------------------------------------------------------------------------------
// Exports
// ------------------------------------------------------------------------------

module.exports = {
  /**
   * Register the given visitor to parser services.
   * If the parser service of `vue-eslint-parser` was not found,
   * this generates a warning.
   *
   * @param {RuleContext} context The rule context to use parser services.
   * @param {Object} templateBodyVisitor The visitor to traverse the template body.
   * @param {Object} [scriptVisitor] The visitor to traverse the script.
   * @returns {Object} The merged visitor.
   */
  defineTemplateBodyVisitor (context, templateBodyVisitor, scriptVisitor) {
    if (context.parserServices.defineTemplateBodyVisitor == null) {
      context.report({
        loc: { line: 1, column: 0 },
        message: 'Use the latest vue-eslint-parser. See also https://eslint.vuejs.org/user-guide/#what-is-the-use-the-latest-vue-eslint-parser-error'
      })
      return {}
    }
    return context.parserServices.defineTemplateBodyVisitor(templateBodyVisitor, scriptVisitor)
  },

  /**
   * Wrap a given core rule to apply it to Vue.js template.
   * @param {Rule} coreRule The core rule implementation to wrap.
   * @param {Object|undefined} options The option of this rule.
   * @param {string|undefined} options.category The category of this rule.
   * @param {boolean|undefined} options.skipDynamicArguments If `true`, skip validation within dynamic arguments.
   * @returns {Rule} The wrapped rule implementation.
   */
  wrapCoreRule (coreRule, options) {
    const { category, skipDynamicArguments } = options || {}
    return {
      create (context) {
        const tokenStore =
          context.parserServices.getTemplateBodyTokenStore &&
          context.parserServices.getTemplateBodyTokenStore()

        // The `context.getSourceCode()` cannot access the tokens of templates.
        // So override the methods which access to tokens by the `tokenStore`.
        if (tokenStore) {
          context = wrapContextToOverrideTokenMethods(context, tokenStore)
        }

        // Move `Program` handlers to `VElement[parent.type!='VElement']`
        const handlers = coreRule.create(context)
        if (handlers.Program) {
          handlers["VElement[parent.type!='VElement']"] = handlers.Program
          delete handlers.Program
        }
        if (handlers['Program:exit']) {
          handlers["VElement[parent.type!='VElement']:exit"] = handlers['Program:exit']
          delete handlers['Program:exit']
        }

        if (skipDynamicArguments) {
          let withinDynamicArguments = false
          for (const name of Object.keys(handlers)) {
            const original = handlers[name]
            handlers[name] = (...args) => {
              if (withinDynamicArguments) return
              original(...args)
            }
          }
          handlers['VDirectiveKey > VExpressionContainer'] = () => { withinDynamicArguments = true }
          handlers['VDirectiveKey > VExpressionContainer:exit'] = () => { withinDynamicArguments = false }
        }

        // Apply the handlers to templates.
        return module.exports.defineTemplateBodyVisitor(context, handlers)
      },

      meta: Object.assign({}, coreRule.meta, {
        docs: Object.assign({}, coreRule.meta.docs, {
          category,
          url: `https://eslint.vuejs.org/rules/${path.basename(coreRule.meta.docs.url || '')}.html`
        })
      })
    }
  },

  /**
   * Check whether the given node is the root element or not.
   * @param {ASTNode} node The element node to check.
   * @returns {boolean} `true` if the node is the root element.
   */
  isRootElement (node) {
    assert(node && node.type === 'VElement')

    return (
      node.parent.type === 'VDocumentFragment' ||
      node.parent.parent.type === 'VDocumentFragment'
    )
  },

  /**
   * Get the previous sibling element of the given element.
   * @param {ASTNode} node The element node to get the previous sibling element.
   * @returns {ASTNode|null} The previous sibling element.
   */
  prevSibling (node) {
    assert(node && node.type === 'VElement')
    let prevElement = null

    for (const siblingNode of (node.parent && node.parent.children) || []) {
      if (siblingNode === node) {
        return prevElement
      }
      if (siblingNode.type === 'VElement') {
        prevElement = siblingNode
      }
    }

    return null
  },

  /**
   * Check whether the given start tag has specific directive.
   * @param {ASTNode} node The start tag node to check.
   * @param {string} name The attribute name to check.
   * @param {string} [value] The attribute value to check.
   * @returns {boolean} `true` if the start tag has the attribute.
   */
  hasAttribute (node, name, value) {
    assert(node && node.type === 'VElement')
    return Boolean(this.getAttribute(node, name, value))
  },

  /**
   * Check whether the given start tag has specific directive.
   * @param {ASTNode} node The start tag node to check.
   * @param {string} name The directive name to check.
   * @param {string} [argument] The directive argument to check.
   * @returns {boolean} `true` if the start tag has the directive.
   */
  hasDirective (node, name, argument) {
    assert(node && node.type === 'VElement')
    return Boolean(this.getDirective(node, name, argument))
  },

  /**
   * Check whether the given attribute has their attribute value.
   * @param {ASTNode} node The attribute node to check.
   * @returns {boolean} `true` if the attribute has their value.
   */
  hasAttributeValue (node) {
    assert(node && node.type === 'VAttribute')
    return (
      node.value != null &&
      (node.value.expression != null || node.value.syntaxError != null)
    )
  },

  /**
   * Get the attribute which has the given name.
   * @param {ASTNode} node The start tag node to check.
   * @param {string} name The attribute name to check.
   * @param {string} [value] The attribute value to check.
   * @returns {ASTNode} The found attribute.
   */
  getAttribute (node, name, value) {
    assert(node && node.type === 'VElement')
    return node.startTag.attributes.find(a =>
      !a.directive &&
      a.key.name === name &&
      (
        value === undefined ||
        (a.value != null && a.value.value === value)
      )
    )
  },

  /**
   * Get the directive which has the given name.
   * @param {ASTNode} node The start tag node to check.
   * @param {string} name The directive name to check.
   * @param {string} [argument] The directive argument to check.
   * @returns {ASTNode} The found directive.
   */
  getDirective (node, name, argument) {
    assert(node && node.type === 'VElement')
    return node.startTag.attributes.find(a =>
      a.directive &&
      a.key.name.name === name &&
      (argument === undefined || (a.key.argument && a.key.argument.name) === argument)
    )
  },

  /**
   * Returns the list of all registered components
   * @param {ASTNode} componentObject
   * @returns {Array} Array of ASTNodes
   */
  getRegisteredComponents (componentObject) {
    const componentsNode = componentObject.properties
      .find(p =>
        p.type === 'Property' &&
        p.key.type === 'Identifier' &&
        p.key.name === 'components' &&
        p.value.type === 'ObjectExpression'
      )

    if (!componentsNode) { return [] }

    return componentsNode.value.properties
      .filter(p => p.type === 'Property')
      .map(node => {
        const name = this.getStaticPropertyName(node)
        return name ? { node, name } : null
      })
      .filter(comp => comp != null)
  },

  /**
   * Check whether the previous sibling element has `if` or `else-if` directive.
   * @param {ASTNode} node The element node to check.
   * @returns {boolean} `true` if the previous sibling element has `if` or `else-if` directive.
   */
  prevElementHasIf (node) {
    assert(node && node.type === 'VElement')

    const prev = this.prevSibling(node)
    return (
      prev != null &&
      prev.startTag.attributes.some(a =>
        a.directive &&
        (a.key.name.name === 'if' || a.key.name.name === 'else-if')
      )
    )
  },

  /**
   * Check whether the given node is a custom component or not.
   * @param {ASTNode} node The start tag node to check.
   * @returns {boolean} `true` if the node is a custom component.
   */
  isCustomComponent (node) {
    assert(node && node.type === 'VElement')

    return (
      (this.isHtmlElementNode(node) && !this.isHtmlWellKnownElementName(node.rawName)) ||
      this.hasAttribute(node, 'is') ||
      this.hasDirective(node, 'bind', 'is')
    )
  },

  /**
   * Check whether the given node is a HTML element or not.
   * @param {ASTNode} node The node to check.
   * @returns {boolean} `true` if the node is a HTML element.
   */
  isHtmlElementNode (node) {
    assert(node && node.type === 'VElement')

    return node.namespace === vueEslintParser.AST.NS.HTML
  },

  /**
   * Check whether the given node is a SVG element or not.
   * @param {ASTNode} node The node to check.
   * @returns {boolean} `true` if the name is a SVG element.
   */
  isSvgElementNode (node) {
    assert(node && node.type === 'VElement')

    return node.namespace === vueEslintParser.AST.NS.SVG
  },

  /**
   * Check whether the given name is a MathML element or not.
   * @param {ASTNode} node The node to check.
   * @returns {boolean} `true` if the node is a MathML element.
   */
  isMathMLElementNode (node) {
    assert(node && node.type === 'VElement')

    return node.namespace === vueEslintParser.AST.NS.MathML
  },

  /**
   * Check whether the given name is an well-known element or not.
   * @param {string} name The name to check.
   * @returns {boolean} `true` if the name is an well-known element name.
   */
  isHtmlWellKnownElementName (name) {
    assert(typeof name === 'string')

    return HTML_ELEMENT_NAMES.has(name)
  },

  /**
   * Check whether the given name is an well-known SVG element or not.
   * @param {string} name The name to check.
   * @returns {boolean} `true` if the name is an well-known SVG element name.
   */
  isSvgWellKnownElementName (name) {
    assert(typeof name === 'string')
    return SVG_ELEMENT_NAMES.has(name)
  },

  /**
   * Check whether the given name is a void element name or not.
   * @param {string} name The name to check.
   * @returns {boolean} `true` if the name is a void element name.
   */
  isHtmlVoidElementName (name) {
    assert(typeof name === 'string')

    return VOID_ELEMENT_NAMES.has(name)
  },

  /**
   * Parse member expression node to get array with all of its parts
   * @param {ASTNode} node MemberExpression
   * @returns {Array}
   */
  parseMemberExpression (node) {
    const members = []
    let memberExpression

    if (node.type === 'MemberExpression') {
      memberExpression = node

      while (memberExpression.type === 'MemberExpression') {
        if (memberExpression.property.type === 'Identifier') {
          members.push(memberExpression.property.name)
        }
        memberExpression = memberExpression.object
      }

      if (memberExpression.type === 'ThisExpression') {
        members.push('this')
      } else if (memberExpression.type === 'Identifier') {
        members.push(memberExpression.name)
      }
    }

    return members.reverse()
  },

  /**
   * Gets the property name of a given node.
   * @param {Property|MethodDefinition|MemberExpression|Literal|TemplateLiteral|Identifier} node - The node to get.
   * @return {string|null} The property name if static. Otherwise, null.
   */
  getStaticPropertyName (node) {
    let prop
    switch (node && node.type) {
      case 'Property':
      case 'MethodDefinition':
        prop = node.key
        break
      case 'MemberExpression':
        prop = node.property
        break
      case 'Literal':
      case 'TemplateLiteral':
      case 'Identifier':
        prop = node
        break
      // no default
    }

    switch (prop && prop.type) {
      case 'Literal':
        return String(prop.value)
      case 'TemplateLiteral':
        if (prop.expressions.length === 0 && prop.quasis.length === 1) {
          return prop.quasis[0].value.cooked
        }
        break
      case 'Identifier':
        if (!node.computed) {
          return prop.name
        }
        break
      // no default
    }

    return null
  },

  /**
   * Get all props by looking at all component's properties
   * @param {ObjectExpression} componentObject Object with component definition
   * @return {(ComponentArrayProp | ComponentObjectProp)[]} Array of component props in format: [{key?: String, value?: ASTNode, node: ASTNod}]
   */
  getComponentProps (componentObject) {
    const propsNode = componentObject.properties
      .find(p =>
        p.type === 'Property' &&
        p.key.type === 'Identifier' &&
        p.key.name === 'props' &&
        (p.value.type === 'ObjectExpression' || p.value.type === 'ArrayExpression')
      )

    if (!propsNode) {
      return []
    }

    let props

    if (propsNode.value.type === 'ObjectExpression') {
      props = propsNode.value.properties
        .filter(prop => prop.type === 'Property')
        .map(prop => {
          return {
            key: prop.key, value: this.unwrapTypes(prop.value), node: prop,
            propName: this.getStaticPropertyName(prop)
          }
        })
    } else {
      props = propsNode.value.elements
        .filter(prop => prop)
        .map(prop => {
          const key = prop.type === 'Literal' && typeof prop.value === 'string' ? prop : null
          return { key, value: null, node: prop, propName: key != null ? prop.value : null }
        })
    }

    return props
  },

  /**
   * Get all computed properties by looking at all component's properties
   * @param {ObjectExpression} componentObject Object with component definition
   * @return {Array} Array of computed properties in format: [{key: String, value: ASTNode}]
   */
  getComputedProperties (componentObject) {
    const computedPropertiesNode = componentObject.properties
      .find(p =>
        p.type === 'Property' &&
        p.key.type === 'Identifier' &&
        p.key.name === 'computed' &&
        p.value.type === 'ObjectExpression'
      )

    if (!computedPropertiesNode) { return [] }

    return computedPropertiesNode.value.properties
      .filter(cp => cp.type === 'Property')
      .map(cp => {
        const key = cp.key.name
        let value

        if (cp.value.type === 'FunctionExpression') {
          value = cp.value.body
        } else if (cp.value.type === 'ObjectExpression') {
          value = cp.value.properties
            .filter(p =>
              p.type === 'Property' &&
              p.key.type === 'Identifier' &&
              p.key.name === 'get' &&
              p.value.type === 'FunctionExpression'
            )
            .map(p => p.value.body)[0]
        }

        return { key, value }
      })
  },

  isVueFile (path) {
    return path.endsWith('.vue') || path.endsWith('.jsx')
  },

  /**
   * Check whether the given node is a Vue component based
   * on the filename and default export type
   * export default {} in .vue || .jsx
   * @param {ASTNode} node Node to check
   * @param {string} path File name with extension
   * @returns {boolean}
   */
  isVueComponentFile (node, path) {
    return this.isVueFile(path) &&
      node.type === 'ExportDefaultDeclaration' &&
      node.declaration.type === 'ObjectExpression'
  },

  /**
   * Check whether given node is Vue component
   * Vue.component('xxx', {}) || component('xxx', {})
   * @param {ASTNode} node Node to check
   * @returns {boolean}
   */
  isVueComponent (node) {
    if (node.type === 'CallExpression') {
      const callee = node.callee

      if (callee.type === 'MemberExpression') {
        const calleeObject = this.unwrapTypes(callee.object)

        const isFullVueComponent = calleeObject.type === 'Identifier' &&
          calleeObject.name === 'Vue' &&
          callee.property.type === 'Identifier' &&
          ['component', 'mixin', 'extend'].indexOf(callee.property.name) > -1 &&
          node.arguments.length >= 1 &&
          node.arguments.slice(-1)[0].type === 'ObjectExpression'

        return isFullVueComponent
      }

      if (callee.type === 'Identifier') {
        const isDestructedVueComponent = callee.name === 'component' &&
          node.arguments.length >= 1 &&
          node.arguments.slice(-1)[0].type === 'ObjectExpression'

        return isDestructedVueComponent
      }
    }

    return false
  },

  /**
   * Check whether given node is new Vue instance
   * new Vue({})
   * @param {ASTNode} node Node to check
   * @returns {boolean}
   */
  isVueInstance (node) {
    const callee = node.callee
    return node.type === 'NewExpression' &&
      callee.type === 'Identifier' &&
      callee.name === 'Vue' &&
      node.arguments.length &&
      node.arguments[0].type === 'ObjectExpression'
  },

  /**
   * Check if current file is a Vue instance or component and call callback
   * @param {RuleContext} context The ESLint rule context object.
   * @param {Function} cb Callback function
   */
  executeOnVue (context, cb) {
    return Object.assign(
      this.executeOnVueComponent(context, cb),
      this.executeOnVueInstance(context, cb)
    )
  },

  /**
   * Check if current file is a Vue instance (new Vue) and call callback
   * @param {RuleContext} context The ESLint rule context object.
   * @param {Function} cb Callback function
   */
  executeOnVueInstance (context, cb) {
    const _this = this

    return {
      'NewExpression:exit' (node) {
        // new Vue({})
        if (!_this.isVueInstance(node)) return
        cb(node.arguments[0])
      }
    }
  },

  /**
   * Check if current file is a Vue component and call callback
   * @param {RuleContext} context The ESLint rule context object.
   * @param {Function} cb Callback function
   */
  executeOnVueComponent (context, cb) {
    const filePath = context.getFilename()
    const sourceCode = context.getSourceCode()
    const _this = this
    const componentComments = sourceCode.getAllComments().filter(comment => /@vue\/component/g.test(comment.value))
    const foundNodes = []

    const isDuplicateNode = (node) => {
      if (foundNodes.some(el => el.loc.start.line === node.loc.start.line)) return true
      foundNodes.push(node)
      return false
    }

    return {
      'ObjectExpression:exit' (node) {
        if (!componentComments.some(el => el.loc.end.line === node.loc.start.line - 1) || isDuplicateNode(node)) return
        cb(node)
      },
      'ExportDefaultDeclaration:exit' (node) {
        // export default {} in .vue || .jsx
        if (!_this.isVueComponentFile(node, filePath) || isDuplicateNode(node.declaration)) return
        cb(node.declaration)
      },
      'CallExpression:exit' (node) {
        // Vue.component('xxx', {}) || component('xxx', {})
        if (!_this.isVueComponent(node) || isDuplicateNode(node.arguments.slice(-1)[0])) return
        cb(node.arguments.slice(-1)[0])
      }
    }
  },

  /**
   * Check call `Vue.component` and call callback.
   * @param {RuleContext} _context The ESLint rule context object.
   * @param {Function} cb Callback function
   */
  executeOnCallVueComponent (_context, cb) {
    return {
      "CallExpression > MemberExpression > Identifier[name='component']": (node) => {
        const callExpr = node.parent.parent
        const callee = callExpr.callee

        if (callee.type === 'MemberExpression') {
          const calleeObject = this.unwrapTypes(callee.object)

          if (calleeObject.type === 'Identifier' &&
            calleeObject.name === 'Vue' &&
            callee.property === node &&
            callExpr.arguments.length >= 1) {
            cb(callExpr)
          }
        }
      }
    }
  },
  /**
   * Return generator with all properties
   * @param {ASTNode} node Node to check
   * @param {Set} groups Name of parent group
   */
  * iterateProperties (node, groups) {
    const nodes = node.properties.filter(p => p.type === 'Property' && groups.has(this.getStaticPropertyName(p.key)))
    for (const item of nodes) {
      const name = this.getStaticPropertyName(item.key)
      if (!name) continue

      if (item.value.type === 'ArrayExpression') {
        yield * this.iterateArrayExpression(item.value, name)
      } else if (item.value.type === 'ObjectExpression') {
        yield * this.iterateObjectExpression(item.value, name)
      } else if (item.value.type === 'FunctionExpression') {
        yield * this.iterateFunctionExpression(item.value, name)
      } else if (item.value.type === 'ArrowFunctionExpression') {
        yield * this.iterateArrowFunctionExpression(item.value, name)
      }
    }
  },

  /**
   * Return generator with all elements inside ArrayExpression
   * @param {ASTNode} node Node to check
   * @param {string} groupName Name of parent group
   */
  * iterateArrayExpression (node, groupName) {
    assert(node.type === 'ArrayExpression')
    for (const item of node.elements) {
      const name = this.getStaticPropertyName(item)
      if (name) {
        const obj = { name, groupName, node: item }
        yield obj
      }
    }
  },

  /**
   * Return generator with all elements inside ObjectExpression
   * @param {ASTNode} node Node to check
   * @param {string} groupName Name of parent group
   */
  * iterateObjectExpression (node, groupName) {
    assert(node.type === 'ObjectExpression')
    for (const item of node.properties) {
      const name = this.getStaticPropertyName(item)
      if (name) {
        const obj = { name, groupName, node: item.key }
        yield obj
      }
    }
  },

  /**
   * Return generator with all elements inside FunctionExpression
   * @param {ASTNode} node Node to check
   * @param {string} groupName Name of parent group
   */
  * iterateFunctionExpression (node, groupName) {
    assert(node.type === 'FunctionExpression')
    if (node.body.type === 'BlockStatement') {
      for (const item of node.body.body) {
        if (item.type === 'ReturnStatement' && item.argument && item.argument.type === 'ObjectExpression') {
          yield * this.iterateObjectExpression(item.argument, groupName)
        }
      }
    }
  },

  /**
   * Return generator with all elements inside ArrowFunctionExpression
   * @param {ASTNode} node Node to check
   * @param {string} groupName Name of parent group
   */
  * iterateArrowFunctionExpression (node, groupName) {
    assert(node.type === 'ArrowFunctionExpression')
    if (node.body.type === 'BlockStatement') {
      for (const item of node.body.body) {
        if (item.type === 'ReturnStatement' && item.argument && item.argument.type === 'ObjectExpression') {
          yield * this.iterateObjectExpression(item.argument, groupName)
        }
      }
    } else if (node.body.type === 'ObjectExpression') {
      yield * this.iterateObjectExpression(node.body, groupName)
    }
  },

  /**
   * Find all functions which do not always return values
   * @param {boolean} treatUndefinedAsUnspecified
   * @param {Function} cb Callback function
   */
  executeOnFunctionsWithoutReturn (treatUndefinedAsUnspecified, cb) {
    let funcInfo = {
      funcInfo: null,
      codePath: null,
      hasReturn: false,
      hasReturnValue: false,
      node: null
    }

    function isReachable (segment) {
      return segment.reachable
    }

    function isValidReturn () {
      if (funcInfo.codePath.currentSegments.some(isReachable)) {
        return false
      }
      return !treatUndefinedAsUnspecified || funcInfo.hasReturnValue
    }

    return {
      onCodePathStart (codePath, node) {
        funcInfo = {
          codePath,
          funcInfo: funcInfo,
          hasReturn: false,
          hasReturnValue: false,
          node
        }
      },
      onCodePathEnd () {
        funcInfo = funcInfo.funcInfo
      },
      ReturnStatement (node) {
        funcInfo.hasReturn = true
        funcInfo.hasReturnValue = Boolean(node.argument)
      },
      'ArrowFunctionExpression:exit' (node) {
        if (!isValidReturn() && !node.expression) {
          cb(funcInfo.node)
        }
      },
      'FunctionExpression:exit' (node) {
        if (!isValidReturn()) {
          cb(funcInfo.node)
        }
      }
    }
  },

  /**
   * Check whether the component is declared in a single line or not.
   * @param {ASTNode} node
   * @returns {boolean}
   */
  isSingleLine (node) {
    return node.loc.start.line === node.loc.end.line
  },

  /**
   * Check whether the templateBody of the program has invalid EOF or not.
   * @param {Program} node The program node to check.
   * @returns {boolean} `true` if it has invalid EOF.
   */
  hasInvalidEOF (node) {
    const body = node.templateBody
    if (body == null || body.errors == null) {
      return
    }
    return body.errors.some(error => typeof error.code === 'string' && error.code.startsWith('eof-'))
  },

  /**
   * Parse CallExpression or MemberExpression to get simplified version without arguments
   *
   * @param  {ASTNode} node The node to parse (MemberExpression | CallExpression)
   * @return {String} eg. 'this.asd.qwe().map().filter().test.reduce()'
   */
  parseMemberOrCallExpression (node) {
    const parsedCallee = []
    let n = node
    let isFunc

    while (n.type === 'MemberExpression' || n.type === 'CallExpression') {
      if (n.type === 'CallExpression') {
        n = n.callee
        isFunc = true
      } else {
        if (n.computed) {
          parsedCallee.push('[]' + (isFunc ? '()' : ''))
        } else if (n.property.type === 'Identifier') {
          parsedCallee.push(n.property.name + (isFunc ? '()' : ''))
        }
        isFunc = false
        n = n.object
      }
    }

    if (n.type === 'Identifier') {
      parsedCallee.push(n.name)
    }

    if (n.type === 'ThisExpression') {
      parsedCallee.push('this')
    }

    return parsedCallee.reverse().join('.').replace(/\.\[/g, '[')
  },

  /**
   * Unwrap typescript types like "X as F"
   * @template T
   * @param {T} node
   * @return {T}
   */
  unwrapTypes (node) {
    return node.type === 'TSAsExpression' ? node.expression : node
  }
}