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bound($abstract); } /** * Determine if the given abstract type has been bound. * * @param string $abstract * @return bool */ public function bound($abstract) { return isset($this->bindings[$abstract]) || isset($this->instances[$abstract]) || $this->isAlias($abstract); } /** * Determine if the given abstract type has been resolved. * * @param string $abstract * @return bool */ public function resolved($abstract) { return isset($this->resolved[$abstract]) || isset($this->instances[$abstract]); } /** * Determine if a given string is an alias. * * @param string $name * @return bool */ public function isAlias($name) { return isset($this->aliases[$name]); } /** * Register a binding with the container. * * @param string|array $abstract * @param Closure|string|null $concrete * @param bool $shared * @return void */ public function bind($abstract, $concrete = null, $shared = \false) { // If the given types are actually an array, we will assume an alias is being // defined and will grab this "real" abstract class name and register this // alias with the container so that it can be used as a shortcut for it. if (is_array($abstract)) { list($abstract, $alias) = $this->extractAlias($abstract); $this->alias($abstract, $alias); } // If no concrete type was given, we will simply set the concrete type to the // abstract type. This will allow concrete type to be registered as shared // without being forced to state their classes in both of the parameter. $this->dropStaleInstances($abstract); if (is_null($concrete)) { $concrete = $abstract; } // If the factory is not a Closure, it means it is just a class name which is // is bound into this container to the abstract type and we will just wrap // it up inside a Closure to make things more convenient when extending. if (!$concrete instanceof Closure) { $concrete = $this->getClosure($abstract, $concrete); } $this->bindings[$abstract] = compact('concrete', 'shared'); // If the abstract type was already resolved in this container we'll fire the // rebound listener so that any objects which have already gotten resolved // can have their copy of the object updated via the listener callbacks. if ($this->resolved($abstract)) { $this->rebound($abstract); } } /** * Get the Closure to be used when building a type. * * @param string $abstract * @param string $concrete * @return Closure */ protected function getClosure($abstract, $concrete) { return function ($c, $parameters = []) use($abstract, $concrete) { $method = $abstract == $concrete ? 'build' : 'make'; return $c->{$method}($concrete, $parameters); }; } /** * Add a contextual binding to the container. * * @param string $concrete * @param string $abstract * @param Closure|string $implementation */ public function addContextualBinding($concrete, $abstract, $implementation) { $this->contextual[$concrete][$abstract] = $implementation; } /** * Register a binding if it hasn't already been registered. * * @param string $abstract * @param Closure|string|null $concrete * @param bool $shared * @return void */ public function bindIf($abstract, $concrete = null, $shared = false) { if (!$this->bound($abstract)) { $this->bind($abstract, $concrete, $shared); } } /** * Register a shared binding in the container. * * @param string $abstract * @param Closure|string|null $concrete * @return void */ public function singleton($abstract, $concrete = null) { $this->bind($abstract, $concrete, true); } /** * Wrap a Closure such that it is shared. * * @param Closure $closure * @return Closure */ public function share(Closure $closure) { return function ($container) use($closure) { // We'll simply declare a static variable within the Closures and if it has // not been set we will execute the given Closures to resolve this value // and return it back to these consumers of the method as an instance. static $object; if (is_null($object)) { $object = $closure($container); } return $object; }; } /** * Bind a shared Closure into the container. * * @param string $abstract * @param Closure $closure * @return void */ public function bindShared($abstract, Closure $closure) { $this->bind($abstract, $this->share($closure), true); } /** * "Extend" an abstract type in the container. * * @param string $abstract * @param Closure $closure * @return void * * @throws \InvalidArgumentException */ public function extend($abstract, Closure $closure) { if (isset($this->instances[$abstract])) { $this->instances[$abstract] = $closure($this->instances[$abstract], $this); $this->rebound($abstract); } else { $this->extenders[$abstract][] = $closure; } } /** * Register an existing instance as shared in the container. * * @param string $abstract * @param mixed $instance * @return void */ public function instance($abstract, $instance) { // First, we will extract the alias from the abstract if it is an array so we // are using the correct name when binding the type. If we get an alias it // will be registered with the container so we can resolve it out later. if (is_array($abstract)) { list($abstract, $alias) = $this->extractAlias($abstract); $this->alias($abstract, $alias); } unset($this->aliases[$abstract]); // We'll check to determine if this type has been bound before, and if it has // we will fire the rebound callbacks registered with the container and it // can be updated with consuming classes that have gotten resolved here. $bound = $this->bound($abstract); $this->instances[$abstract] = $instance; if ($bound) { $this->rebound($abstract); } } /** * Assign a set of tags to a given binding. * * @param array|string $abstracts * @param array|mixed ...$tags * @return void */ public function tag($abstracts, $tags) { $tags = is_array($tags) ? $tags : array_slice(func_get_args(), 1); foreach ($tags as $tag) { if (!isset($this->tags[$tag])) { $this->tags[$tag] = []; } foreach ((array) $abstracts as $abstract) { $this->tags[$tag][] = $abstract; } } } /** * Resolve all of the bindings for a given tag. * * @param string $tag * @return array */ public function tagged($tag) { $results = []; if (isset($this->tags[$tag])) { foreach ($this->tags[$tag] as $abstract) { $results[] = $this->make($abstract); } } return $results; } /** * Alias a type to a different name. * * @param string $abstract * @param string $alias * @return void */ public function alias($abstract, $alias) { $this->aliases[$alias] = $abstract; } /** * Extract the type and alias from a given definition. * * @param array $definition * @return array */ protected function extractAlias(array $definition) { return [key($definition), current($definition)]; } /** * Bind a new callback to an abstract's rebind event. * * @param string $abstract * @param Closure $callback * @return mixed */ public function rebinding($abstract, Closure $callback) { $this->reboundCallbacks[$abstract][] = $callback; if ($this->bound($abstract)) { return $this->make($abstract); } } /** * Refresh an instance on the given target and method. * * @param string $abstract * @param mixed $target * @param string $method * @return mixed */ public function refresh($abstract, $target, $method) { return $this->rebinding($abstract, function ($app, $instance) use($target, $method) { $target->{$method}($instance); }); } /** * Fire the "rebound" callbacks for the given abstract type. * * @param string $abstract * @return void */ protected function rebound($abstract) { $instance = $this->make($abstract); foreach ($this->getReboundCallbacks($abstract) as $callback) { call_user_func($callback, $this, $instance); } } /** * Get the rebound callbacks for a given type. * * @param string $abstract * @return array */ protected function getReboundCallbacks($abstract) { if (isset($this->reboundCallbacks[$abstract])) { return $this->reboundCallbacks[$abstract]; } return []; } /** * Wrap the given closure such that its dependencies will be injected when executed. * * @param Closure $callback * @param array $parameters * @return Closure */ public function wrap(Closure $callback, array $parameters = []) { return function () use($callback, $parameters) { return $this->call($callback, $parameters); }; } /** * Call the given Closure / class@method and inject its dependencies. * * @param callable|string $callback * @param array $parameters * @param string|null $defaultMethod * @return mixed */ public function call($callback, array $parameters = [], $defaultMethod = null) { if ($this->isCallableWithAtSign($callback) || $defaultMethod) { return $this->callClass($callback, $parameters, $defaultMethod); } $dependencies = $this->getMethodDependencies($callback, $parameters); return call_user_func_array($callback, $dependencies); } /** * Determine if the given string is in Class@method syntax. * * @param mixed $callback * @return bool */ protected function isCallableWithAtSign($callback) { if (!is_string($callback)) { return false; } return strpos($callback, '@') !== false; } /** * Get all dependencies for a given method. * * @param callable|string $callback * @param array $parameters * @return array */ protected function getMethodDependencies($callback, $parameters = []) { $dependencies = []; foreach ($this->getCallReflector($callback)->getParameters() as $key => $parameter) { $this->addDependencyForCallParameter($parameter, $parameters, $dependencies); } return array_merge($dependencies, $parameters); } /** * Get the proper reflection instance for the given callback. * * @param callable|string $callback * @return ReflectionFunction | ReflectionMethod */ protected function getCallReflector($callback) { if (is_string($callback) && strpos($callback, '::') !== false) { $callback = \explode('::', $callback); } if (is_array($callback)) { return new ReflectionMethod($callback[0], $callback[1]); } return new ReflectionFunction($callback); } /** * Get the dependency for the given call parameter. * * @param ReflectionParameter $parameter * @param array $parameters * @param array $dependencies * @return mixed */ protected function addDependencyForCallParameter(ReflectionParameter $parameter, array &$parameters, &$dependencies) { if (array_key_exists($parameter->name, $parameters)) { $dependencies[] = $parameters[$parameter->name]; unset($parameters[$parameter->name]); } elseif ($this->getParameterType($parameter)) { $dependencies[] = $this->make($this->getParameterName($parameter)); } elseif ($parameter->isDefaultValueAvailable()) { $dependencies[] = $parameter->getDefaultValue(); } } /** * Get the parameter type for the given parameter. * * @return object ReflectionClass|ReflectionNamedType */ protected function getParameterType($parameter) { if (method_exists($parameter, 'getType')) { return $parameter->getType(); } return $parameter->getClass(); } /** * Get the parameter name for the given parameter. * * @return string */ protected function getParameterName($parameter) { $parameterType = $this->getParameterType($parameter); if (property_exists($parameterType, 'name')) { return $parameterType->name; } return $parameterType->getName(); } /** * Call a string reference to a class using Class@method syntax. * * @param string $target * @param array $parameters * @param string|null $defaultMethod * @return mixed */ protected function callClass($target, array $parameters = [], $defaultMethod = null) { $segments = explode('@', $target); // If the listener has an @ sign, we will assume it is being used to delimit // the class name from the handle method name. This allows for handlers // to run multiple handler methods in a single class for convenience. $method = count($segments) == 2 ? $segments[1] : $defaultMethod; if (is_null($method)) { throw new InvalidArgumentException("Method not provided."); } return $this->call([$this->make($segments[0]), $method], $parameters); } /** * Resolve the given type from the container. * * @param string $abstract * @param array $parameters * @return mixed */ public function make($abstract, $parameters = []) { $abstract = $this->getAlias($abstract); // If an instance of the type is currently being managed as a singleton we'll // just return an existing instance instead of instantiating new instances // so the developer can keep using the same objects instance every time. if (isset($this->instances[$abstract])) { return $this->instances[$abstract]; } $concrete = $this->getConcrete($abstract); // We're ready to instantiate an instance of the concrete type registered for // the binding. This will instantiate the types, as well as resolve any of // its "nested" dependencies recursively until all have gotten resolved. if ($this->isBuildable($concrete, $abstract)) { $object = $this->build($concrete, $parameters); } else { $object = $this->make($concrete, $parameters); } // If we defined any extenders for this type, we'll need to spin through them // and apply them to the object being built. This allows for the extension // of services, such as changing configuration or decorating the object. foreach ($this->getExtenders($abstract) as $extender) { $object = $extender($object, $this); } // If the requested type is registered as a singleton we'll want to cache off // the instances in "memory" so we can return it later without creating an // entirely new instance of an object on each subsequent request for it. if ($this->isShared($abstract)) { $this->instances[$abstract] = $object; } $this->fireResolvingCallbacks($abstract, $object); $this->resolved[$abstract] = true; return $object; } /** * Get the concrete type for a given abstract. * * @param string $abstract * @return mixed $concrete */ protected function getConcrete($abstract) { if (!is_null($concrete = $this->getContextualConcrete($abstract))) { return $concrete; } // If we don't have a registered resolver or concrete for the type, we'll just // assume each type is a concrete name and will attempt to resolve it as is // since the container should be able to resolve concretes automatically. if (!isset($this->bindings[$abstract])) { if ($this->missingLeadingSlash($abstract) && isset($this->bindings['\\' . $abstract])) { $abstract = '\\' . $abstract; } return $abstract; } return $this->bindings[$abstract]['concrete']; } /** * Get the contextual concrete binding for the given abstract. * * @param string $abstract * @return string */ protected function getContextualConcrete($abstract) { if (isset($this->contextual[end($this->buildStack)][$abstract])) { return $this->contextual[end($this->buildStack)][$abstract]; } } /** * Determine if the given abstract has a leading slash. * * @param string $abstract * @return bool */ protected function missingLeadingSlash($abstract) { return is_string($abstract) && strpos($abstract, '\\') !== 0; } /** * Get the extender callbacks for a given type. * * @param string $abstract * @return array */ protected function getExtenders($abstract) { if (isset($this->extenders[$abstract])) { return $this->extenders[$abstract]; } return []; } /** * Instantiate a concrete instance of the given type. * * @param string $concrete * @param array $parameters * @return mixed * * @throws BindingResolutionException */ public function build($concrete, $parameters = []) { // If the concrete type is actually a Closure, we will just execute it and // hand back the results of the functions, which allows functions to be // used as resolvers for more fine-tuned resolution of these objects. if ($concrete instanceof Closure) { return $concrete($this, $parameters); } $reflector = new ReflectionClass($concrete); // If the type is not instantiable, the developer is attempting to resolve // an abstract type such as an Interface of Abstract Class and there is // no binding registered for the abstractions so we need to bail out. if (!$reflector->isInstantiable()) { $message = "Target [{$concrete}] is not instantiable."; throw new BindingResolutionException($message); // phpcs:ignore WordPress.Security.EscapeOutput.ExceptionNotEscaped } $this->buildStack[] = $concrete; $constructor = $reflector->getConstructor(); // If there are no constructors, that means there are no dependencies then // we can just resolve the instances of the objects right away, without // resolving any other types or dependencies out of these containers. if (is_null($constructor)) { array_pop($this->buildStack); return new $concrete(); } $dependencies = $constructor->getParameters(); // Once we have all the constructor's parameters we can create each of the // dependency instances and then use the reflection instances to make a // new instance of this class, injecting the created dependencies in. $parameters = $this->keyParametersByArgument($dependencies, $parameters); $instances = $this->getDependencies($dependencies, $parameters); array_pop($this->buildStack); return $reflector->newInstanceArgs($instances); } /** * Resolve all of the dependencies from the ReflectionParameters. * * @param array $parameters * @param array $primitives * @return array */ protected function getDependencies($parameters, array $primitives = []) { $dependencies = []; $types = ['bool', 'int', 'float', 'string', 'array', 'resource']; foreach ($parameters as $parameter) { if ($dependency = $this->getParameterType($parameter)) { $dependency = $dependency->getName(); if ($dependency && in_array($dependency, $types)) { $dependency = null; } } // If the class is null, it means the dependency is a string or some other // primitive type which we can not resolve since it is not a class and // we will just bomb out with an error since we have no-where to go. if (array_key_exists($parameter->name, $primitives)) { $dependencies[] = $primitives[$parameter->name]; } elseif (is_null($dependency)) { $dependencies[] = $this->resolveNonClass($parameter); } else { $dependencies[] = $this->resolveClass($parameter); } } return (array) $dependencies; } /** * Resolve a non-class hinted dependency. * * @param ReflectionParameter $parameter * @return mixed * * @throws BindingResolutionException */ protected function resolveNonClass(ReflectionParameter $parameter) { if ($parameter->isDefaultValueAvailable()) { return $parameter->getDefaultValue(); } $message = "Unresolvable dependency resolving [{$parameter}] in class {$parameter->getDeclaringClass()->getName()}"; throw new BindingResolutionException($message); // phpcs:ignore WordPress.Security.EscapeOutput.ExceptionNotEscaped } /** * Resolve a class based dependency from the container. * * @param ReflectionParameter $parameter * @return mixed * * @throws BindingResolutionException */ protected function resolveClass(ReflectionParameter $parameter) { try { return $this->make($this->getParameterName($parameter)); } catch (BindingResolutionException $e) { if ($parameter->isOptional()) { return $parameter->getDefaultValue(); } throw $e; } } /** * If extra parameters are passed by numeric ID, rekey them by argument name. * * @param array $dependencies * @param array $parameters * @return array */ protected function keyParametersByArgument(array $dependencies, array $parameters) { foreach ($parameters as $key => $value) { if (is_numeric($key)) { unset($parameters[$key]); $parameters[$dependencies[$key]->name] = $value; } } return $parameters; } /** * Register a new resolving callback. * * @param string $abstract * @param Closure $callback * @return void */ public function resolving($abstract, Closure $callback = null) { if ($callback === null && $abstract instanceof Closure) { $this->resolvingCallback($abstract); } else { $this->resolvingCallbacks[$abstract][] = $callback; } } /** * Register a new after resolving callback for all types. * * @param string $abstract * @param Closure $callback * @return void */ public function afterResolving($abstract, Closure $callback = null) { if ($abstract instanceof Closure && $callback === null) { $this->afterResolvingCallback($abstract); } else { $this->afterResolvingCallbacks[$abstract][] = $callback; } } /** * Register a new resolving callback by type of its first argument. * * @param Closure $callback * @return void */ protected function resolvingCallback(Closure $callback) { $abstract = $this->getFunctionHint($callback); if ($abstract) { $this->resolvingCallbacks[$abstract][] = $callback; } else { $this->globalResolvingCallbacks[] = $callback; } } /** * Register a new after resolving callback by type of its first argument. * * @param Closure $callback * @return void */ protected function afterResolvingCallback(Closure $callback) { $abstract = $this->getFunctionHint($callback); if ($abstract) { $this->afterResolvingCallbacks[$abstract][] = $callback; } else { $this->globalAfterResolvingCallbacks[] = $callback; } } /** * Get the type hint for this closure's first argument. * * @param Closure $callback * @return mixed */ protected function getFunctionHint(Closure $callback) { $function = new ReflectionFunction($callback); if ($function->getNumberOfParameters() == 0) { return; } $expected = $function->getParameters()[0]; if (!$expected->getClass()) { return; } return $expected->getClass()->name; } /** * Fire all of the resolving callbacks. * * @param string $abstract * @param mixed $object * @return void */ protected function fireResolvingCallbacks($abstract, $object) { $this->fireCallbackArray($object, $this->globalResolvingCallbacks); $this->fireCallbackArray($object, $this->getCallbacksForType($abstract, $object, $this->resolvingCallbacks)); $this->fireCallbackArray($object, $this->globalAfterResolvingCallbacks); $this->fireCallbackArray($object, $this->getCallbacksForType($abstract, $object, $this->afterResolvingCallbacks)); } /** * Get all callbacks for a given type. * * @param string $abstract * @param object $object * @param array $callbacksPerType * * @return array */ protected function getCallbacksForType($abstract, $object, array $callbacksPerType) { $results = []; foreach ($callbacksPerType as $type => $callbacks) { if ($type === $abstract || $object instanceof $type) { $results = array_merge($results, $callbacks); } } return $results; } /** * Fire an array of callbacks with an object. * * @param mixed $object * @param array $callbacks */ protected function fireCallbackArray($object, array $callbacks) { foreach ($callbacks as $callback) { $callback($object, $this); } } /** * Determine if a given type is shared. * * @param string $abstract * @return bool */ public function isShared($abstract) { if (isset($this->bindings[$abstract]['shared'])) { $shared = $this->bindings[$abstract]['shared']; } else { $shared = false; } return isset($this->instances[$abstract]) || $shared === true; } /** * Determine if the given concrete is buildable. * * @param mixed $concrete * @param string $abstract * @return bool */ protected function isBuildable($concrete, $abstract) { return $concrete === $abstract || $concrete instanceof Closure; } /** * Get the alias for an abstract if available. * * @param string $abstract * @return string */ protected function getAlias($abstract) { return isset($this->aliases[$abstract]) ? $this->aliases[$abstract] : $abstract; } /** * Get the container's bindings. * * @return array */ public function getBindings() { return $this->bindings; } /** * Drop all of the stale instances and aliases. * * @param string $abstract * @return void */ protected function dropStaleInstances($abstract) { unset($this->instances[$abstract], $this->aliases[$abstract]); } /** * Remove a resolved instance from the instance cache. * * @param string $abstract * @return void */ public function forgetInstance($abstract) { unset($this->instances[$abstract]); } /** * Clear all of the instances from the container. * * @return void */ public function forgetInstances() { $this->instances = []; } /** * Flush the container of all bindings and resolved instances. * * @return void */ public function flush() { $this->aliases = []; $this->resolved = []; $this->bindings = []; $this->instances = []; } /** * Set the globally available instance of the container. * * @return static */ public static function getInstance() { return static::$instance; } /** * Set the shared instance of the container. * * @param FluentSupport\Framework\Foundation\Container $container * @return void */ public static function setInstance(ContainerContract $container) { static::$instance = $container; } /** * Determine if a given offset exists. * * @param string $key * @return bool */ #[\ReturnTypeWillChange] public function offsetExists($key) { return isset($this->bindings[$key]); } /** * Get the value at a given offset. * * @param string $key * @return mixed */ #[\ReturnTypeWillChange] public function offsetGet($key) { return $this->make($key); } /** * Set the value at a given offset. * * @param string $key * @param mixed $value * @return void */ #[\ReturnTypeWillChange] public function offsetSet($key, $value) { // If the value is not a Closure, we will make it one. This simply gives // more "drop-in" replacement functionality for the Pimple which this // container's simplest functions are base modeled and built after. if (!$value instanceof Closure) { $value = function () use($value) { return $value; }; } $this->bind($key, $value); } /** * Unset the value at a given offset. * * @param string $key * @return void */ #[\ReturnTypeWillChange] public function offsetUnset($key) { unset($this->bindings[$key], $this->instances[$key], $this->resolved[$key]); } /** * Dynamically access container services. * * @param string $key * @return mixed */ public function __get($key) { return $this[$key]; } /** * Dynamically set container services. * * @param string $key * @param mixed $value * @return void */ public function __set($key, $value) { $this[$key] = $value; } }