============================================
Strings
============================================

"A string with \"double\" and 'single' quotes";
'A string with "double" and \'single\' quotes';
'\\'
"\\"

'A string with new \
line';

----

(program
  (expression_statement
    (string
      (string_fragment) (escape_sequence) (string_fragment)
      (escape_sequence) (string_fragment)))
  (expression_statement
     (string
      (string_fragment) (escape_sequence) (string_fragment)
      (escape_sequence) (string_fragment)))
  (expression_statement (string (escape_sequence)))
  (expression_statement (string (escape_sequence)))
  (expression_statement
    (string (string_fragment) (escape_sequence) (string_fragment))))

============================================
Template strings
============================================

`one line`;
`multi
  line`;

`multi
  ${2 + 2}
  hello
  ${1 + 1, 2 + 2}
  line`;

`$$$$`;
`$$$$${ 1 }`;

`(a|b)$`;

`$`;

`$${'$'}$$${'$'}$$$$`;

`\ `;

`The command \`git ${args.join(' ')}\` exited with an unexpected code: ${exitCode}. The caller should either handle this error, or expect that exit code.`

`\\`;

`//`;

----

(program
  (expression_statement (template_string))
  (expression_statement (template_string))
  (expression_statement (template_string
    (template_substitution
      (binary_expression (number) (number)))
    (template_substitution (sequence_expression
      (binary_expression (number) (number))
      (binary_expression (number) (number))))))
  (expression_statement (template_string))
  (expression_statement (template_string
    (template_substitution (number))))
	(expression_statement (template_string))
	(expression_statement (template_string))
  (expression_statement (template_string
    (template_substitution (string (string_fragment)))
    (template_substitution (string (string_fragment)))))
  (expression_statement (template_string (escape_sequence)))
  (expression_statement (template_string
    (escape_sequence)
    (template_substitution (call_expression
      (member_expression (identifier) (property_identifier))
      (arguments (string (string_fragment)))))
    (escape_sequence)
    (template_substitution (identifier))))
  (expression_statement (template_string (escape_sequence)))
  (expression_statement (template_string)))

============================================
Function calls with template strings
============================================

f `hello`;

---

(program
  (expression_statement (call_expression (identifier) (template_string))))

============================================
Numbers
============================================

101;
3.14;
3.14e+1;
0x1ABCDEFabcdef;
0o7632157312;
0b1010101001;
1e+3;

---

(program
  (expression_statement (number))
  (expression_statement (number))
  (expression_statement (number))
  (expression_statement (number))
  (expression_statement (number))
  (expression_statement (number))
  (expression_statement (number)))

============================================
Variables
============================================

theVar;
theVar2;
$_;
\u0061\u{62}cd;

---

(program
  (expression_statement (identifier))
  (expression_statement (identifier))
  (expression_statement (identifier))
  (expression_statement (identifier)))

============================================
Multi-line variable declarations
============================================

var a = b
  , c = d
  , e = f;

---

(program
  (variable_declaration
    (variable_declarator (identifier) (identifier))
    (variable_declarator (identifier) (identifier))
    (variable_declarator (identifier) (identifier))))

============================================
Booleans
============================================

this;
null;
undefined;
true;
false;

---

(program
  (expression_statement (this))
  (expression_statement (null))
  (expression_statement (undefined))
  (expression_statement (true))
  (expression_statement (false)))

============================================
Regexps
============================================

/one\\/;
/one/g;
/one/i;
/one/gim;
/on\/e/gim;
/on[^/]afe/gim;
/[\]/]/;

---

(program
  (expression_statement (regex (regex_pattern)))
  (expression_statement (regex (regex_pattern) (regex_flags)))
  (expression_statement (regex (regex_pattern) (regex_flags)))
  (expression_statement (regex (regex_pattern) (regex_flags)))
  (expression_statement (regex (regex_pattern) (regex_flags)))
  (expression_statement (regex (regex_pattern) (regex_flags)))
  (expression_statement (regex (regex_pattern))))

============================================
Comments take precedence over regexes
============================================

  foo
    ? /* comment */bar
    : baz

---

(program (expression_statement (ternary_expression (identifier) (comment) (identifier) (identifier))))

============================================
Objects
============================================

{};
{ a: "b" };
{ c: "d", "e": f, 1: 2 };
{
  g: h
}

{
  [methodName]() {
  }
}

---

(program
  (statement_block)
  (empty_statement)
  (expression_statement (object
    (pair (property_identifier) (string (string_fragment)))))
  (expression_statement (object
    (pair (property_identifier) (string (string_fragment)))
    (pair (string (string_fragment)) (identifier))
    (pair (number) (number))))
  (expression_statement (object
    (pair (property_identifier) (identifier))))
  (expression_statement (object
    (method_definition (computed_property_name (identifier)) (formal_parameters) (statement_block)))))

============================================
Objects with shorthand properties
============================================

x = {a, b, get};
y = {a,};

---

(program
  (expression_statement (assignment_expression
    (identifier)
    (object (shorthand_property_identifier) (shorthand_property_identifier) (shorthand_property_identifier))))
  (expression_statement (assignment_expression
    (identifier)
    (object (shorthand_property_identifier)))))

============================================
Objects with method definitions
============================================

{
  foo: true,

  add(a, b) {
    return a + b;
  },

  get bar() { return c; },

  set bar(a) { c = a; },

  *barGenerator() { yield c; },

  get() { return 1; }
};

---

(program
  (expression_statement (object
    (pair (property_identifier) (true))
    (method_definition
      (property_identifier)
      (formal_parameters (identifier) (identifier))
      (statement_block
        (return_statement (binary_expression (identifier) (identifier)))))
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block
        (return_statement (identifier))))
    (method_definition
      (property_identifier)
      (formal_parameters (identifier))
      (statement_block
        (expression_statement (assignment_expression (identifier) (identifier)))))
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block
        (expression_statement (yield_expression (identifier)))))
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block
        (return_statement (number)))))))

============================================
Objects with reserved words for keys
============================================

{
  finally() {},
  catch() {},
  get: function () {},
  set: function () {},
  static: true,
  async: true,
};

---

(program
  (expression_statement (object
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block))
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block))
    (pair
      (property_identifier)
      (function (formal_parameters) (statement_block)))
    (pair
      (property_identifier)
      (function (formal_parameters) (statement_block)))
    (pair (property_identifier) (true))
    (pair (property_identifier) (true)))))

============================================
Classes
============================================

class Foo {
  #e

  static one(a) { return a; };
  two(b) { return b; }
  three(c) { return c; }
  #four(d) { return this.#e; }
}

class Foo extends require('another-class') {
  constructor() {
    super()
  }

  static {
    this.#foo = 'bar';
  }

  bar() {
    super.a()
    this.#baz()
  }

  #baz() {
    super.a()
  }
}

---

(program
  (class_declaration
    (identifier)
    (class_body
      (field_definition (private_property_identifier))
      (method_definition
        (property_identifier)
        (formal_parameters (identifier))
        (statement_block (return_statement (identifier))))
      (method_definition
        (property_identifier)
        (formal_parameters (identifier))
        (statement_block (return_statement (identifier))))
      (method_definition
        (property_identifier)
        (formal_parameters (identifier))
        (statement_block (return_statement (identifier))))
      (method_definition
        (private_property_identifier)
        (formal_parameters (identifier))
        (statement_block (return_statement (member_expression (this) (private_property_identifier)))))))

  (class_declaration
    (identifier)
    (class_heritage (call_expression (identifier) (arguments (string (string_fragment)))))
    (class_body
      (method_definition
        (property_identifier)
        (formal_parameters)
        (statement_block
          (expression_statement (call_expression (super) (arguments)))))
      (class_static_block
        (statement_block
          (expression_statement
            (assignment_expression
              (member_expression
                (this)
                (private_property_identifier))
              (string
                (string_fragment))))))
      (method_definition
        (property_identifier)
        (formal_parameters)
        (statement_block
          (expression_statement (call_expression (member_expression (super) (property_identifier)) (arguments)))
          (expression_statement (call_expression (member_expression (this) (private_property_identifier)) (arguments)))))
      (method_definition
        (private_property_identifier)
        (formal_parameters)
        (statement_block
          (expression_statement (call_expression (member_expression (super) (property_identifier)) (arguments))))))))

============================================
Classes with reserved words as methods
============================================

class Foo {
  catch() {}
  finally() {}
}

---

(program
  (class_declaration
    (identifier)
    (class_body
      (method_definition
        (property_identifier)
        (formal_parameters)
        (statement_block))
      (method_definition
        (property_identifier)
        (formal_parameters)
        (statement_block)))))

============================================
Class Property Fields
============================================

class Foo {
	static foo = 2
}

---

(program
  (class_declaration
    (identifier)
    (class_body
      (field_definition (property_identifier) (number)))))

============================================
Private Class Property Fields
============================================

class Foo {
	static #FOO = 2
}

---

(program
  (class_declaration
    (identifier)
    (class_body
      (field_definition (private_property_identifier) (number)))))

============================================
Class Decorators
============================================

@reload
@eval
class Foo {
	@foo.bar(baz) static foo() {

	}

	@foo bar = 'baz';
}

---

(program
  (class_declaration
    (decorator (identifier))
    (decorator (identifier))
    (identifier)
    (class_body
      (method_definition
        (decorator (call_expression
          (member_expression (identifier) (property_identifier))
          (arguments (identifier))))
        (property_identifier)
        (formal_parameters)
        (statement_block))
      (field_definition
        (decorator
          (identifier))
        (property_identifier)
        (string (string_fragment))))))

============================================
Arrays
============================================

[];
[ "item1" ];
[ "item1", ];
[ "item1", item2 ];
[ , item2 ];
[ item2 = 5 ];

---

(program
  (expression_statement (array))
  (expression_statement (array (string (string_fragment))))
  (expression_statement (array (string (string_fragment))))
  (expression_statement (array (string (string_fragment)) (identifier)))
  (expression_statement (array (identifier)))
  (expression_statement (array (assignment_expression (identifier) (number)))))

============================================
Functions
============================================

[
  function() {},
  function(arg1, ...arg2) {
    arg2;
  },
  function stuff() {},
  function trailing(a,) {},
  function trailing(a,b,) {},
  function reserved(async) {},
  function rest(...[_ = x]) {}
]

---

(program
  (expression_statement (array
    (function
      (formal_parameters)
      (statement_block))
    (function
      (formal_parameters (identifier) (rest_pattern (identifier)))
      (statement_block
        (expression_statement (identifier))))
    (function
      (identifier)
      (formal_parameters)
      (statement_block))
    (function
      (identifier)
      (formal_parameters (identifier))
      (statement_block))
    (function
      (identifier)
      (formal_parameters (identifier) (identifier))
      (statement_block))
    (function
      (identifier)
      (formal_parameters (identifier))
      (statement_block))
    (function
      (identifier)
      (formal_parameters (rest_pattern (array_pattern (assignment_pattern (identifier) (identifier)))))
      (statement_block)))))

===================================================
Arrow functions
===================================================

a => 1;
() => 2;
(d, e) => 3;
(f, g) => {
  return h;
};
(trailing,) => 4;
(h, trailing,) => 5;
(set, kv) => 2;
async => async + 1;

---

(program
  (expression_statement (arrow_function
    (identifier)
    (number)))
  (expression_statement (arrow_function
    (formal_parameters)
    (number)))
  (expression_statement (arrow_function
    (formal_parameters (identifier) (identifier))
    (number)))
  (expression_statement (arrow_function
    (formal_parameters (identifier) (identifier))
    (statement_block
      (return_statement (identifier)))))
  (expression_statement (arrow_function
    (formal_parameters (identifier))
    (number)))
  (expression_statement (arrow_function
    (formal_parameters (identifier) (identifier))
    (number)))
  (expression_statement (arrow_function
    (formal_parameters (identifier) (identifier)) (number)))
  (expression_statement (arrow_function
    (identifier)
    (binary_expression (identifier) (number)))))

============================================
Generator Functions
============================================

[
  function *() {},
  function *generateStuff(arg1, arg2) {
    yield;
    yield arg2;
    yield * foo();
  }
]

---

(program
  (expression_statement (array
    (generator_function
      (formal_parameters)
      (statement_block))
    (generator_function
      (identifier)
      (formal_parameters (identifier) (identifier))
      (statement_block
        (expression_statement (yield_expression))
        (expression_statement (yield_expression (identifier)))
        (expression_statement (yield_expression (call_expression (identifier) (arguments)))))))))

============================================
Function parameters with default values
============================================

function a({b}, c = d, e = f, async = true) {
}

---

(program
  (function_declaration
    (identifier)
    (formal_parameters
      (object_pattern (shorthand_property_identifier_pattern))
      (assignment_pattern (identifier) (identifier))
      (assignment_pattern (identifier) (identifier))
      (assignment_pattern (identifier) (true)))
    (statement_block)))

============================================
Property access
============================================

x.someProperty;
x[someVariable];
x["some-string"];

---

(program
  (expression_statement (member_expression (identifier) (property_identifier)))
  (expression_statement (subscript_expression (identifier) (identifier)))
  (expression_statement (subscript_expression (identifier) (string (string_fragment)))))

============================================
Chained Property access
============================================

return returned.promise()
  .done( newDefer.resolve )
  .fail( newDefer.reject )

---

(program (return_statement
  (call_expression
    (member_expression
      (call_expression
        (member_expression
          (call_expression
            (member_expression (identifier) (property_identifier))
            (arguments))
          (property_identifier))
        (arguments (member_expression (identifier) (property_identifier))))
      (property_identifier))
  (arguments (member_expression (identifier) (property_identifier))))))

============================================
Chained callbacks
============================================

return this.map(function (a) {
  return a.b;
})

// a comment

.filter(function (c) {
  return c.d;
})

---


(program (return_statement
  (call_expression
    (member_expression
      (call_expression
        (member_expression (this) (property_identifier))
        (arguments
          (function (formal_parameters (identifier)) (statement_block
            (return_statement (member_expression (identifier) (property_identifier)))))))
        (comment)
      (property_identifier))
      (arguments (function (formal_parameters (identifier)) (statement_block
        (return_statement (member_expression (identifier) (property_identifier)))))))))

============================================
Function calls
============================================

x.someMethod(arg1, "arg2");
function(x, y) {

}(a, b);

---

(program
  (expression_statement (call_expression
    (member_expression (identifier) (property_identifier))
    (arguments (identifier) (string (string_fragment)))))
  (expression_statement (call_expression
    (function
      (formal_parameters (identifier) (identifier))
      (statement_block))
    (arguments (identifier) (identifier)))))

============================================
Optional chaining property access
============================================

a . b;
a ?. b;

---

(program
  (expression_statement
    (member_expression (identifier) (property_identifier)))
  (expression_statement
    (member_expression (identifier) (optional_chain) (property_identifier))))

============================================
Optional chaining array access
============================================

a [b];
a ?. [b];

---

(program
  (expression_statement
    (subscript_expression (identifier) (identifier)))
  (expression_statement
    (subscript_expression (identifier) (optional_chain) (identifier))))

============================================
Optional function calls
============================================

a?.(b);
a[b]?.(c);
d.e?.(f);

---

(program
  (expression_statement
    (call_expression (identifier) (optional_chain) (arguments (identifier))))
  (expression_statement
    (call_expression
      (subscript_expression (identifier) (identifier))
      (optional_chain)
      (arguments (identifier))))
  (expression_statement
    (call_expression
      (member_expression (identifier) (property_identifier))
      (optional_chain)
      (arguments (identifier)))))

============================================
Constructor calls
============================================

new module.Klass(1, "two");
new Thing;
new new module.Klass(1)("two");
new new Thing;

---

(program
  (expression_statement (new_expression
    (member_expression (identifier) (property_identifier))
    (arguments (number) (string (string_fragment)))))
  (expression_statement (new_expression
    (identifier)))
  (expression_statement (new_expression
    (new_expression
      (member_expression (identifier) (property_identifier))
      (arguments (number)))
    (arguments (string (string_fragment)))))
  (expression_statement (new_expression
    (new_expression (identifier)))))

============================================
Await Expressions
============================================

await asyncFunction();
await asyncPromise;

---

(program
  (expression_statement
    (await_expression
      (call_expression (identifier) (arguments))))
  (expression_statement (await_expression (identifier))))

============================================
Async Functions and Methods
============================================

async function foo() {}

{
  async bar() {
  }
}

class Foo {
  async bar() {}
}

async (a) => { return foo; };

async function* foo() { yield 1; }

---

(program
  (function_declaration
    (identifier)
    (formal_parameters)
    (statement_block))
  (expression_statement
    (object
      (method_definition
        (property_identifier)
        (formal_parameters)
        (statement_block))))
  (class_declaration (identifier) (class_body
    (method_definition
      (property_identifier)
      (formal_parameters)
      (statement_block))))
  (expression_statement
    (arrow_function
      (formal_parameters (identifier))
      (statement_block
        (return_statement (identifier)))))
  (generator_function_declaration
    (identifier)
      (formal_parameters)
      (statement_block (expression_statement (yield_expression (number))))))

============================================
Math operators
============================================

i++;
i--;
i + j * 3 - j % 5;
2 ** i * 3;
2 * i ** 3;
2 ** i ** 3;
+x;
-x;

---

(program
  (expression_statement (update_expression (identifier)))
  (expression_statement (update_expression (identifier)))
  (expression_statement (binary_expression
    (binary_expression
      (identifier)
      (binary_expression (identifier) (number)))
    (binary_expression (identifier) (number))))
  (expression_statement (binary_expression
    (binary_expression (number) (identifier))
    (number)))
  (expression_statement (binary_expression
    (number)
    (binary_expression (identifier) (number))))
  (expression_statement (binary_expression
    (number)
    (binary_expression (identifier) (number))))
  (expression_statement (unary_expression (identifier)))
  (expression_statement (unary_expression (identifier))))

============================================
Boolean operators
============================================

i || j;
i && j;
!a && !b || !c && !d;

---

(program
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression
    (binary_expression
      (unary_expression (identifier))
      (unary_expression (identifier)))
    (binary_expression
      (unary_expression (identifier))
      (unary_expression (identifier))))))

============================================
The null-coalescing operator
============================================

x = b ?? c();

---

(program
  (expression_statement
    (assignment_expression
      (identifier)
      (binary_expression
        (identifier)
        (call_expression (identifier) (arguments))))))

============================================
Bitwise operators
============================================

i >> j;
i >>> j;
i << j;
i & j;
i | j;
~i ^ ~j

---

(program
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression
    (unary_expression (identifier))
    (unary_expression (identifier)))))

============================================
Relational operators
============================================

x < y;
x <= y;
x == y;
x === y;
x != y;
x !== y;
x >= y;
x > y;

---

(program
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier)))
  (expression_statement (binary_expression (identifier) (identifier))))

==============================================
Assignments
==============================================

x = 0;
x.y = 0;
x["y"] = 0;
async = 0;
(x) = 1;
(x) += 1;
x &&= 0;

---

(program
  (expression_statement (assignment_expression
    (identifier)
    (number)))
  (expression_statement (assignment_expression
    (member_expression (identifier) (property_identifier))
    (number)))
  (expression_statement (assignment_expression
    (subscript_expression (identifier) (string (string_fragment)))
    (number)))
  (expression_statement (assignment_expression
    (identifier)
    (number)))
  (expression_statement (assignment_expression
    (parenthesized_expression (identifier))
    (number)))
  (expression_statement (augmented_assignment_expression
    (parenthesized_expression (identifier))
    (number)))
  (expression_statement (augmented_assignment_expression
    (identifier)
    (number))))

==============================================
The comma operator
==============================================

a = 1, b = 2;
c = {d: (3, 4 + 5, 6)};

---

(program
  (expression_statement (sequence_expression
    (assignment_expression (identifier) (number))
    (assignment_expression (identifier) (number))))
  (expression_statement
    (assignment_expression (identifier) (object
      (pair
        (property_identifier)
        (parenthesized_expression (sequence_expression
          (number)
          (sequence_expression
            (binary_expression (number) (number))
            (number)))))))))

==============================================
Ternaries
==============================================

condition ? case1 : case2;

x.y = some.condition ?
  some.case :
  some.other.case;

a?.1:.2

---

(program
  (expression_statement
    (ternary_expression
      (identifier)
      (identifier)
      (identifier)))
  (expression_statement
    (assignment_expression
      (member_expression
        (identifier)
        (property_identifier))
      (ternary_expression
        (member_expression
          (identifier)
          (property_identifier))
        (member_expression
          (identifier)
          (property_identifier))
        (member_expression
          (member_expression
            (identifier)
            (property_identifier))
          (property_identifier)))))
  (expression_statement
    (ternary_expression
      (identifier)
      (number)
      (number))))

==============================================
Type operators
==============================================

typeof x;
x instanceof String;

---

(program
  (expression_statement (unary_expression (identifier)))
  (expression_statement (binary_expression (identifier) (identifier))))

============================================
The delete operator
============================================

delete thing['prop'];
true ? delete thing.prop : null;

---

(program
  (expression_statement
    (unary_expression (subscript_expression (identifier) (string (string_fragment)))))
  (expression_statement
    (ternary_expression (true)
      (unary_expression (member_expression (identifier) (property_identifier)))
      (null))))

============================================
The void operator
============================================

a = void b()

---

(program (expression_statement (assignment_expression
  (identifier)
  (unary_expression (call_expression (identifier) (arguments))))))

==============================================
Augmented assignments
==============================================

s |= 1;
t %= 2;
w ^= 3;
x += 4;
y.z *= 5;
async += 1;
a >>= 1;
b >>>= 1;
c <<= 1;

---

(program
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (member_expression (identifier) (property_identifier)) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number)))
  (expression_statement
    (augmented_assignment_expression (identifier) (number))))

==============================================
Operator precedence
==============================================

a <= b && c >= d;
a.b = c ? d : e;
a && b(c) && d;
a && new b(c) && d;
typeof a == b && c instanceof d
a && b | c;
a - b << c;
a in b != c in d;
await a || b;

---

(program
  (expression_statement (binary_expression
    (binary_expression (identifier) (identifier))
    (binary_expression (identifier) (identifier))))
  (expression_statement (assignment_expression
    (member_expression (identifier) (property_identifier))
    (ternary_expression (identifier) (identifier) (identifier))))
  (expression_statement (binary_expression
    (binary_expression
      (identifier)
      (call_expression (identifier) (arguments (identifier))))
    (identifier)))
  (expression_statement (binary_expression
    (binary_expression
      (identifier)
      (new_expression (identifier) (arguments (identifier))))
    (identifier)))
  (expression_statement (binary_expression
    (binary_expression
      (unary_expression (identifier))
      (identifier))
    (binary_expression (identifier) (identifier))))
  (expression_statement (binary_expression
    (identifier)
    (binary_expression (identifier) (identifier))))
  (expression_statement (binary_expression
    (binary_expression (identifier) (identifier))
    (identifier)))
  (expression_statement (binary_expression
    (binary_expression (identifier) (identifier))
    (binary_expression (identifier) (identifier))))
  (expression_statement (binary_expression
    (await_expression (identifier))
    (identifier))))

==============================================
Simple JSX elements
==============================================

a = <div className='b' tabIndex={1} />;
b = <Foo.Bar>a <span>b</span> c</Foo.Bar>;
b = <Foo.Bar.Baz.Baz></Foo.Bar.Baz.Baz>;

---

(program
  (expression_statement (assignment_expression
    (identifier)
    (jsx_self_closing_element
      (identifier)
      (jsx_attribute (property_identifier) (string (string_fragment)))
      (jsx_attribute (property_identifier) (jsx_expression (number))))))
  (expression_statement (assignment_expression
    (identifier)
    (jsx_element
      (jsx_opening_element (member_expression (identifier) (property_identifier)))
      (jsx_text)
      (jsx_element
        (jsx_opening_element (identifier))
        (jsx_text)
        (jsx_closing_element (identifier)))
      (jsx_text)
      (jsx_closing_element (member_expression (identifier) (property_identifier))))))
  (expression_statement (assignment_expression (identifier) (jsx_element (jsx_opening_element (member_expression (member_expression (member_expression (identifier) (property_identifier)) (property_identifier)) (property_identifier))) (jsx_closing_element (member_expression (member_expression (member_expression (identifier) (property_identifier)) (property_identifier)) (property_identifier)))))))

==============================================
Anonymous JSX element
==============================================

a = <></>;
a = <E><></></E>;

---

(program
  (expression_statement
    (assignment_expression
      (identifier)
      (jsx_element
        (jsx_opening_element)
        (jsx_closing_element))))
  (expression_statement
    (assignment_expression
      (identifier)
      (jsx_element
        (jsx_opening_element (identifier))
        (jsx_element
          (jsx_opening_element)
          (jsx_closing_element))
        (jsx_closing_element (identifier))))))

==============================================
Expressions within JSX elements
==============================================

a = <a b c={d}> e {f} g </a>
h = <i>{...j}</i>
b = <Text {...j} />
b = <Text {...j}></Text>


---

(program
  (expression_statement (assignment_expression
    (identifier)
    (jsx_element
      (jsx_opening_element (identifier)
        (jsx_attribute (property_identifier))
        (jsx_attribute (property_identifier) (jsx_expression (identifier))))
      (jsx_text)
      (jsx_expression (identifier))
      (jsx_text)
      (jsx_closing_element (identifier)))))
  (expression_statement (assignment_expression
    (identifier)
    (jsx_element
      (jsx_opening_element (identifier))
      (jsx_expression (spread_element (identifier)))
      (jsx_closing_element (identifier)))))
  (expression_statement (assignment_expression
    (identifier)
    (jsx_self_closing_element
      (identifier)
      (jsx_expression (spread_element (identifier))))))
  (expression_statement (assignment_expression
    (identifier)
    (jsx_element
      (jsx_opening_element
        (identifier)
        (jsx_expression (spread_element (identifier))))
      (jsx_closing_element (identifier))))))


==============================================
Expressions with rest elements
==============================================

foo(...rest)
foo = [...[bar] = [baz]]

---

(program
  (expression_statement
    (call_expression (identifier) (arguments (spread_element (identifier)))))
  (expression_statement
    (assignment_expression (identifier) (array (spread_element (assignment_expression (array_pattern (identifier)) (array (identifier))))))))

==============================================
Forward slashes after parenthesized expressions
==============================================

(foo - bar) / baz
if (foo - bar) /baz/;
(this.a() / this.b() - 1) / 2

---

(program
  (expression_statement
    (binary_expression
      (parenthesized_expression (binary_expression (identifier) (identifier)))
      (identifier)))
  (if_statement
    (parenthesized_expression (binary_expression (identifier) (identifier)))
    (expression_statement (regex (regex_pattern))))
  (expression_statement
    (binary_expression
      (parenthesized_expression (binary_expression
        (binary_expression
          (call_expression (member_expression (this) (property_identifier)) (arguments))
          (call_expression (member_expression (this) (property_identifier)) (arguments)))
        (number)))
      (number))))

==============================================
Non-breaking spaces as whitespace
==============================================

⁠// Type definitions for Dexie v1.4.1
﻿// Project: https://github.com/dfahlander/Dexie.js
​// Definitions by: David Fahlander <http://github.com/dfahlander>
// Definitions: https://github.com/DefinitelyTyped/DefinitelyTyped

---

(program (comment) (comment) (comment) (comment))

==============================================
Yield expressions
==============================================

yield db.users.where('[endpoint+email]')

---

(program
  (expression_statement
    (yield_expression
      (call_expression
        (member_expression
          (member_expression (identifier) (property_identifier))
          (property_identifier))
        (arguments (string (string_fragment)))))))

============================================
JSX
============================================

var a = <Foo></Foo>
b = <Foo.Bar></Foo.Bar>
c = <> <Foo /> </>
d = <Bar> <Foo /> </Bar>
e = <Foo bar/>
f = <Foo bar="string" baz={2} data-i8n="dialogs.welcome.heading" bam />
g = <Avatar userId={foo.creatorId} />
h = <input checked={this.state.selectedNewStreetType === 'new-street-default' || !this.state.selectedNewStreetType}> </input>
i = <Foo:Bar bar={}>{...children}</Foo:Bar>

---

(program
  (variable_declaration (variable_declarator (identifier)
    (jsx_element (jsx_opening_element (identifier)) (jsx_closing_element (identifier)))))
  (expression_statement (assignment_expression (identifier)
    (jsx_element
      (jsx_opening_element (member_expression (identifier) (property_identifier)))
      (jsx_closing_element (member_expression (identifier) (property_identifier))))))
  (expression_statement (assignment_expression (identifier)
    (jsx_element (jsx_opening_element) (jsx_self_closing_element (identifier)) (jsx_closing_element))))
  (expression_statement (assignment_expression (identifier)
    (jsx_element
      (jsx_opening_element (identifier))
      (jsx_self_closing_element (identifier))
      (jsx_closing_element (identifier)))))
  (expression_statement (assignment_expression (identifier)
    (jsx_self_closing_element (identifier) (jsx_attribute (property_identifier)))))
  (expression_statement (assignment_expression (identifier)
    (jsx_self_closing_element
      (identifier)
      (jsx_attribute (property_identifier) (string (string_fragment)))
      (jsx_attribute (property_identifier) (jsx_expression (number)))
      (jsx_attribute (property_identifier) (string (string_fragment)))
      (jsx_attribute (property_identifier)))))
  (expression_statement (assignment_expression (identifier)
    (jsx_self_closing_element
      (identifier)
      (jsx_attribute
        (property_identifier)
        (jsx_expression (member_expression (identifier) (property_identifier)))))))
  (expression_statement (assignment_expression (identifier)
    (jsx_element
      (jsx_opening_element
        (identifier)
        (jsx_attribute
          (property_identifier)
          (jsx_expression
            (binary_expression
              (binary_expression
                (member_expression
                  (member_expression (this) (property_identifier))
                  (property_identifier))
                (string (string_fragment)))
              (unary_expression
                (member_expression
                  (member_expression (this) (property_identifier))
                  (property_identifier)))))))
          (jsx_closing_element (identifier)))))
  (expression_statement (assignment_expression (identifier)
    (jsx_element
      (jsx_opening_element
        (jsx_namespace_name (identifier) (identifier))
        (jsx_attribute (property_identifier) (jsx_expression)))
      (jsx_expression (spread_element (identifier)))
      (jsx_closing_element (jsx_namespace_name (identifier) (identifier)))))))
