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app/javascript/oldjs/directives/miq_datepicker.js

Summary

Maintainability
A
2 hrs
Test Coverage

Function link has 33 lines of code (exceeds 25 allowed). Consider refactoring.
Open

    link: function(scope, elem, attr, ctrl) {
      ctrl.$formatters.push(function(value) {
        if (value) {
          return moment(value).utc().format('MM/DD/YYYY');
        }
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js - About 1 hr to fix

Expected to return a value at the end of function.
Open

      ctrl.$parsers.push(function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

require return statements to either always or never specify values (consistent-return)

Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.

A confusing aspect of JavaScript is that a function returns undefined if any of the following are true:

  • it does not execute a return statement before it exits
  • it executes return which does not specify a value explicitly
  • it executes return undefined
  • it executes return void followed by an expression (for example, a function call)
  • it executes return followed by any other expression which evaluates to undefined

If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:

  • a code path through the function returns a Boolean value true
  • another code path does not return a value explicitly, therefore returns undefined implicitly
function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return;
    }
}

Rule Details

This rule requires return statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new operator) return the instantiated object implicitly if they do not return another object explicitly.

Examples of incorrect code for this rule:

/*eslint consistent-return: "error"*/

function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return;
    }
}

function doSomething(condition) {
    if (condition) {
        return true;
    }
}

Examples of correct code for this rule:

/*eslint consistent-return: "error"*/

function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return false;
    }
}

function Foo() {
    if (!(this instanceof Foo)) {
        return new Foo();
    }

    this.a = 0;
}

Options

This rule has an object option:

  • "treatUndefinedAsUnspecified": false (default) always either specify values or return undefined implicitly only.
  • "treatUndefinedAsUnspecified": true always either specify values or return undefined explicitly or implicitly.

treatUndefinedAsUnspecified

Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    // no return statement
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    // no return statement
}

Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    return true;
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    return true;
}

Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    // no return statement
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    // no return statement
}

When Not To Use It

If you want to allow functions to have different return behavior depending on code branching, then it is safe to disable this rule. Source: http://eslint.org/docs/rules/

Expected to return a value at the end of function.
Open

      ctrl.$formatters.push(function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

require return statements to either always or never specify values (consistent-return)

Unlike statically-typed languages which enforce that a function returns a specified type of value, JavaScript allows different code paths in a function to return different types of values.

A confusing aspect of JavaScript is that a function returns undefined if any of the following are true:

  • it does not execute a return statement before it exits
  • it executes return which does not specify a value explicitly
  • it executes return undefined
  • it executes return void followed by an expression (for example, a function call)
  • it executes return followed by any other expression which evaluates to undefined

If any code paths in a function return a value explicitly but some code path do not return a value explicitly, it might be a typing mistake, especially in a large function. In the following example:

  • a code path through the function returns a Boolean value true
  • another code path does not return a value explicitly, therefore returns undefined implicitly
function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return;
    }
}

Rule Details

This rule requires return statements to either always or never specify values. This rule ignores function definitions where the name begins with an uppercase letter, because constructors (when invoked with the new operator) return the instantiated object implicitly if they do not return another object explicitly.

Examples of incorrect code for this rule:

/*eslint consistent-return: "error"*/

function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return;
    }
}

function doSomething(condition) {
    if (condition) {
        return true;
    }
}

Examples of correct code for this rule:

/*eslint consistent-return: "error"*/

function doSomething(condition) {
    if (condition) {
        return true;
    } else {
        return false;
    }
}

function Foo() {
    if (!(this instanceof Foo)) {
        return new Foo();
    }

    this.a = 0;
}

Options

This rule has an object option:

  • "treatUndefinedAsUnspecified": false (default) always either specify values or return undefined implicitly only.
  • "treatUndefinedAsUnspecified": true always either specify values or return undefined explicitly or implicitly.

treatUndefinedAsUnspecified

Examples of incorrect code for this rule with the default { "treatUndefinedAsUnspecified": false } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": false }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    // no return statement
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    // no return statement
}

Examples of incorrect code for this rule with the { "treatUndefinedAsUnspecified": true } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    return true;
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    return true;
}

Examples of correct code for this rule with the { "treatUndefinedAsUnspecified": true } option:

/*eslint consistent-return: ["error", { "treatUndefinedAsUnspecified": true }]*/

function foo(callback) {
    if (callback) {
        return void callback();
    }
    // no return statement
}

function bar(condition) {
    if (condition) {
        return undefined;
    }
    // no return statement
}

When Not To Use It

If you want to allow functions to have different return behavior depending on code branching, then it is safe to disable this rule. Source: http://eslint.org/docs/rules/

Unexpected function expression.
Open

      scope.$watch(attr.ngModel, function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Unexpected function expression.
Open

        scope.$watch(attr.miqCalSkipDays, function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Unexpected function expression.
Open

        scope.$watch(attr.miqCalDateFrom, function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Unexpected function expression.
Open

ManageIQ.angular.app.directive('miqDatepicker', function() {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Expected an object to be thrown.
Open

        throw 'Needs data-provide attribute';
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Restrict what can be thrown as an exception (no-throw-literal)

It is considered good practice to only throw the Error object itself or an object using the Error object as base objects for user-defined exceptions. The fundamental benefit of Error objects is that they automatically keep track of where they were built and originated.

This rule restricts what can be thrown as an exception. When it was first created, it only prevented literals from being thrown (hence the name), but it has now been expanded to only allow expressions which have a possibility of being an Error object.

Rule Details

This rule is aimed at maintaining consistency when throwing exception by disallowing to throw literals and other expressions which cannot possibly be an Error object.

Examples of incorrect code for this rule:

/*eslint no-throw-literal: "error"*/
/*eslint-env es6*/

throw "error";

throw 0;

throw undefined;

throw null;

var err = new Error();
throw "an " + err;
// err is recast to a string literal

var err = new Error();
throw `${err}`

Examples of correct code for this rule:

/*eslint no-throw-literal: "error"*/

throw new Error();

throw new Error("error");

var e = new Error("error");
throw e;

try {
    throw new Error("error");
} catch (e) {
    throw e;
}

Known Limitations

Due to the limits of static analysis, this rule cannot guarantee that you will only throw Error objects.

Examples of correct code for this rule, but which do not throw an Error object:

/*eslint no-throw-literal: "error"*/

var err = "error";
throw err;

function foo(bar) {
    console.log(bar);
}
throw foo("error");

throw new String("error");

var foo = {
    bar: "error"
};
throw foo.bar;

Source: http://eslint.org/docs/rules/

Unexpected function expression.
Open

      ctrl.$parsers.push(function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Expected method shorthand.
Open

    link: function(scope, elem, attr, ctrl) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require Object Literal Shorthand Syntax (object-shorthand)

ECMAScript 6 provides a concise form for defining object literal methods and properties. This syntax can make defining complex object literals much cleaner.

Here are a few common examples using the ES5 syntax:

// properties
var foo = {
    x: x,
    y: y,
    z: z,
};

// methods
var foo = {
    a: function() {},
    b: function() {}
};

Now here are ES6 equivalents:

/*eslint-env es6*/

// properties
var foo = {x, y, z};

// methods
var foo = {
    a() {},
    b() {}
};

Rule Details

This rule enforces the use of the shorthand syntax. This applies to all methods (including generators) defined in object literals and any properties defined where the key name matches name of the assigned variable.

Each of the following properties would warn:

/*eslint object-shorthand: "error"*/
/*eslint-env es6*/

var foo = {
    w: function() {},
    x: function *() {},
    [y]: function() {},
    z: z
};

In that case the expected syntax would have been:

/*eslint object-shorthand: "error"*/
/*eslint-env es6*/

var foo = {
    w() {},
    *x() {},
    [y]() {},
    z
};

This rule does not flag arrow functions inside of object literals. The following will not warn:

/*eslint object-shorthand: "error"*/
/*eslint-env es6*/

var foo = {
    x: (y) => y
};

See Also:

  • no-useless-rename which disallows renaming import, export, and destructured assignments to the same name.

Options

The rule takes an option which specifies when it should be applied. It can be set to one of the following values:

  • "always" (default) expects that the shorthand will be used whenever possible.
  • "methods" ensures the method shorthand is used (also applies to generators).
  • "properties" ensures the property shorthand is used (where the key and variable name match).
  • "never" ensures that no property or method shorthand is used in any object literal.
  • "consistent" ensures that either all shorthand or all long-form will be used in an object literal.
  • "consistent-as-needed" ensures that either all shorthand or all long-form will be used in an object literal, but ensures all shorthand whenever possible.

You can set the option in configuration like this:

{
    "object-shorthand": ["error", "always"]
}

Additionally, the rule takes an optional object configuration:

  • "avoidQuotes": true indicates that long-form syntax is preferred whenever the object key is a string literal (default: false). Note that this option can only be enabled when the string option is set to "always", "methods", or "properties".
  • "ignoreConstructors": true can be used to prevent the rule from reporting errors for constructor functions. (By default, the rule treats constructors the same way as other functions.) Note that this option can only be enabled when the string option is set to "always" or "methods".
  • "avoidExplicitReturnArrows": true indicates that methods are preferred over explicit-return arrow functions for function properties. (By default, the rule allows either of these.) Note that this option can only be enabled when the string option is set to "always" or "methods".

avoidQuotes

{
    "object-shorthand": ["error", "always", { "avoidQuotes": true }]
}

Example of incorrect code for this rule with the "always", { "avoidQuotes": true } option:

/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/

var foo = {
    "bar-baz"() {}
};

Example of correct code for this rule with the "always", { "avoidQuotes": true } option:

/*eslint object-shorthand: ["error", "always", { "avoidQuotes": true }]*/
/*eslint-env es6*/

var foo = {
    "bar-baz": function() {},
    "qux": qux
};

ignoreConstructors

{
    "object-shorthand": ["error", "always", { "ignoreConstructors": true }]
}

Example of correct code for this rule with the "always", { "ignoreConstructors": true } option:

/*eslint object-shorthand: ["error", "always", { "ignoreConstructors": true }]*/
/*eslint-env es6*/

var foo = {
    ConstructorFunction: function() {}
};

avoidExplicitReturnArrows

{
    "object-shorthand": ["error", "always", { "avoidExplicitReturnArrows": true }]
}

Example of incorrect code for this rule with the "always", { "avoidExplicitReturnArrows": true } option:

/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/

var foo = {
  foo: (bar, baz) => {
    return bar + baz;
  },

  qux: (foobar) => {
    return foobar * 2;
  }
};

Example of correct code for this rule with the "always", { "avoidExplicitReturnArrows": true } option:

/*eslint object-shorthand: ["error", "always", { "avoidExplicitReturnArrows": true }]*/
/*eslint-env es6*/

var foo = {
  foo(bar, baz) {
    return bar + baz;
  },

  qux: foobar => foobar * 2
};

Example of incorrect code for this rule with the "consistent" option:

/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/

var foo = {
    a,
    b: "foo",
};

Examples of correct code for this rule with the "consistent" option:

/*eslint object-shorthand: [2, "consistent"]*/
/*eslint-env es6*/

var foo = {
    a: a,
    b: "foo"
};

var bar = {
    a,
    b,
};

Example of incorrect code with the "consistent-as-needed" option, which is very similar to "consistent":

/*eslint object-shorthand: [2, "consistent-as-needed"]*/
/*eslint-env es6*/

var foo = {
    a: a,
    b: b,
};

When Not To Use It

Anyone not yet in an ES6 environment would not want to apply this rule. Others may find the terseness of the shorthand syntax harder to read and may not want to encourage it with this rule.

Further Reading

Object initializer - MDN Source: http://eslint.org/docs/rules/

Unexpected function expression.
Open

      ctrl.$formatters.push(function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Unexpected function expression.
Open

        scope.$watch(attr.miqCalDateTo, function(value) {
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js by eslint

Require using arrow functions for callbacks (prefer-arrow-callback)

Arrow functions can be an attractive alternative to function expressions for callbacks or function arguments.

For example, arrow functions are automatically bound to their surrounding scope/context. This provides an alternative to the pre-ES6 standard of explicitly binding function expressions to achieve similar behavior.

Additionally, arrow functions are:

  • less verbose, and easier to reason about.

  • bound lexically regardless of where or when they are invoked.

Rule Details

This rule locates function expressions used as callbacks or function arguments. An error will be produced for any that could be replaced by an arrow function without changing the result.

The following examples will be flagged:

/* eslint prefer-arrow-callback: "error" */

foo(function(a) { return a; }); // ERROR
// prefer: foo(a => a)

foo(function() { return this.a; }.bind(this)); // ERROR
// prefer: foo(() => this.a)

Instances where an arrow function would not produce identical results will be ignored.

The following examples will not be flagged:

/* eslint prefer-arrow-callback: "error" */
/* eslint-env es6 */

// arrow function callback
foo(a => a); // OK

// generator as callback
foo(function*() { yield; }); // OK

// function expression not used as callback or function argument
var foo = function foo(a) { return a; }; // OK

// unbound function expression callback
foo(function() { return this.a; }); // OK

// recursive named function callback
foo(function bar(n) { return n && n + bar(n - 1); }); // OK

Options

Access further control over this rule's behavior via an options object.

Default: { allowNamedFunctions: false, allowUnboundThis: true }

allowNamedFunctions

By default { "allowNamedFunctions": false }, this boolean option prohibits using named functions as callbacks or function arguments.

Changing this value to true will reverse this option's behavior by allowing use of named functions without restriction.

{ "allowNamedFunctions": true } will not flag the following example:

/* eslint prefer-arrow-callback: [ "error", { "allowNamedFunctions": true } ] */

foo(function bar() {});

allowUnboundThis

By default { "allowUnboundThis": true }, this boolean option allows function expressions containing this to be used as callbacks, as long as the function in question has not been explicitly bound.

When set to false this option prohibits the use of function expressions as callbacks or function arguments entirely, without exception.

{ "allowUnboundThis": false } will flag the following examples:

/* eslint prefer-arrow-callback: [ "error", { "allowUnboundThis": false } ] */
/* eslint-env es6 */

foo(function() { this.a; });

foo(function() { (() => this); });

someArray.map(function(itm) { return this.doSomething(itm); }, someObject);

When Not To Use It

  • In environments that have not yet adopted ES6 language features (ES3/5).

  • In ES6+ environments that allow the use of function expressions when describing callbacks or function arguments.

Further Reading

Similar blocks of code found in 3 locations. Consider refactoring.
Open

      if (attr.miqCalSkipDays) {
        scope.$watch(attr.miqCalSkipDays, function(value) {
          elem.datepicker('setDaysOfWeekDisabled', value);
        });
      }
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js and 2 other locations - About 30 mins to fix
app/javascript/oldjs/directives/miq_datepicker.js on lines 39..43
app/javascript/oldjs/directives/miq_datepicker.js on lines 45..49

Duplicated Code

Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:

Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.

When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).

Tuning

This issue has a mass of 45.

We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.

The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.

If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.

See codeclimate-duplication's documentation for more information about tuning the mass threshold in your .codeclimate.yml.

Refactorings

Further Reading

Similar blocks of code found in 3 locations. Consider refactoring.
Open

      if (attr.miqCalDateFrom) {
        scope.$watch(attr.miqCalDateFrom, function(value) {
          elem.datepicker('setStartDate', value);
        });
      }
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js and 2 other locations - About 30 mins to fix
app/javascript/oldjs/directives/miq_datepicker.js on lines 45..49
app/javascript/oldjs/directives/miq_datepicker.js on lines 51..55

Duplicated Code

Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:

Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.

When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).

Tuning

This issue has a mass of 45.

We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.

The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.

If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.

See codeclimate-duplication's documentation for more information about tuning the mass threshold in your .codeclimate.yml.

Refactorings

Further Reading

Similar blocks of code found in 3 locations. Consider refactoring.
Open

      if (attr.miqCalDateTo) {
        scope.$watch(attr.miqCalDateTo, function(value) {
          elem.datepicker('setEndDate', value);
        });
      }
Severity: Minor
Found in app/javascript/oldjs/directives/miq_datepicker.js and 2 other locations - About 30 mins to fix
app/javascript/oldjs/directives/miq_datepicker.js on lines 39..43
app/javascript/oldjs/directives/miq_datepicker.js on lines 51..55

Duplicated Code

Duplicated code can lead to software that is hard to understand and difficult to change. The Don't Repeat Yourself (DRY) principle states:

Every piece of knowledge must have a single, unambiguous, authoritative representation within a system.

When you violate DRY, bugs and maintenance problems are sure to follow. Duplicated code has a tendency to both continue to replicate and also to diverge (leaving bugs as two similar implementations differ in subtle ways).

Tuning

This issue has a mass of 45.

We set useful threshold defaults for the languages we support but you may want to adjust these settings based on your project guidelines.

The threshold configuration represents the minimum mass a code block must have to be analyzed for duplication. The lower the threshold, the more fine-grained the comparison.

If the engine is too easily reporting duplication, try raising the threshold. If you suspect that the engine isn't catching enough duplication, try lowering the threshold. The best setting tends to differ from language to language.

See codeclimate-duplication's documentation for more information about tuning the mass threshold in your .codeclimate.yml.

Refactorings

Further Reading

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