/** * This file is generated. Do not modify it manually! * * @generated SignedSource<<5d8e015cb516a2876d35026c3b4d677f>> */ namespace Facebook\HHAST; use namespace Facebook\TypeAssert; use namespace HH\Lib\Dict; /* HHAST_IGNORE_ALL[5607] 5607 is ignored because of false positives when comparing a generic to a typed value */ /* HHAST_IGNORE_ALL[5624] HHAST_IGNORE_ALL[5639] 5624 and 5639 are ignored because they insist on using co(tra)variant generics. Could this break external consumers? */ <<__ConsistentConstruct>> final class ConstantDeclarator extends Node { const string SYNTAX_KIND = 'constant_declarator'; private NameToken $_name; private ?SimpleInitializer $_initializer; public function __construct( NameToken $name, ?SimpleInitializer $initializer, ?__Private\SourceRef $source_ref = null, ) { $this->_name = $name; $this->_initializer = $initializer; parent::__construct($source_ref); } <<__Override>> public static function fromJSON( dict<arraykey, mixed> $json, string $file, int $initial_offset, string $source, string $_type_hint, ): this { $offset = $initial_offset; $name = Node::fromJSON( ($json['constant_declarator_name']) as dict<_, _>, $file, $offset, $source, 'NameToken', ); $name = $name as nonnull; $offset += $name->getWidth(); $initializer = Node::fromJSON( ($json['constant_declarator_initializer'] ?? dict['kind' => 'missing']) as dict<_, _>, $file, $offset, $source, 'SimpleInitializer', ); $offset += $initializer?->getWidth() ?? 0; $source_ref = shape( 'file' => $file, 'source' => $source, 'offset' => $initial_offset, 'width' => $offset - $initial_offset, ); return new static( /* HH_IGNORE_ERROR[4110] */ $name, /* HH_IGNORE_ERROR[4110] */ $initializer, $source_ref, ); } <<__Override>> public function getChildren(): dict<string, Node> { return dict[ 'name' => $this->_name, 'initializer' => $this->_initializer, ] |> Dict\filter_nulls($$); } <<__Override>> public function rewriteChildren<Tret as ?Node>( (function(Node, vec<Node>): Tret) $rewriter, vec<Node> $parents = vec[], ): this { $parents[] = $this; $name = $rewriter($this->_name, $parents); $initializer = $this->_initializer === null ? null : $rewriter($this->_initializer, $parents); if ($name === $this->_name && $initializer === $this->_initializer) { return $this; } return new static($name as NameToken, $initializer as ?SimpleInitializer); } public function getNameUNTYPED(): ?Node { return $this->_name; } public function withName(NameToken $value): this { if ($value === $this->_name) { return $this; } return new static($value, $this->_initializer); } public function hasName(): bool { return true; } /** * @return NameToken */ public function getName(): NameToken { return TypeAssert\instance_of(NameToken::class, $this->_name); } /** * @return NameToken */ public function getNamex(): NameToken { return $this->getName(); } public function getInitializerUNTYPED(): ?Node { return $this->_initializer; } public function withInitializer(?SimpleInitializer $value): this { if ($value === $this->_initializer) { return $this; } return new static($this->_name, $value); } public function hasInitializer(): bool { return $this->_initializer !== null; } /** * @return null | SimpleInitializer */ public function getInitializer(): ?SimpleInitializer { return $this->_initializer; } /** * @return SimpleInitializer */ public function getInitializerx(): SimpleInitializer { return TypeAssert\not_null($this->getInitializer()); } }