// Package handler handles incoming Gateway events. It reflects the function's // first argument and caches that for use in each event. // // Performance // // Each call to the event would take 167 ns/op for roughly each handler. Scaling // that up to 100 handlers is roughly the same as multiplying 167 ns by 100, // which gives 16700 ns or 0.0167 ms. // // BenchmarkReflect-8 7260909 167 ns/op // // Usage // // Handler's usage is mostly similar to Discordgo, in that AddHandler expects a // function with only one argument or an event channel. For more information, // refer to AddHandler. package handler import ( "context" "fmt" "reflect" "sync" "github.com/pkg/errors" ) type Handler struct { // Synchronous controls whether to spawn each event handler in its own // goroutine. Default false (meaning goroutines are spawned). Synchronous bool handlers map[uint64]handler horders []uint64 hserial uint64 hmutex sync.RWMutex } func New() *Handler { return &Handler{ handlers: map[uint64]handler{}, } } // Call calls all handlers with the given event. This is an internal method; use // with care. func (h *Handler) Call(ev interface{}) { var evV = reflect.ValueOf(ev) var evT = evV.Type() h.hmutex.RLock() defer h.hmutex.RUnlock() for _, order := range h.horders { handler, ok := h.handlers[order] if !ok { // This shouldn't ever happen, but we're adding this just in case. continue } if handler.not(evT) { continue } if h.Synchronous { handler.call(evV) } else { go handler.call(evV) } } } // CallDirect is the same as Call, but only calls those event handlers that // listen for this specific event, i.e. that aren't interface handlers. func (h *Handler) CallDirect(ev interface{}) { var evV = reflect.ValueOf(ev) var evT = evV.Type() h.hmutex.RLock() defer h.hmutex.RUnlock() for _, order := range h.horders { handler, ok := h.handlers[order] if !ok { // This shouldn't ever happen, but we're adding this just in case. continue } if evT != handler.event { continue } if h.Synchronous { handler.call(evV) } else { go handler.call(evV) } } } // WaitFor blocks until there's an event. It's advised to use ChanFor instead, // as WaitFor may skip some events if it's not ran fast enough after the event // arrived. func (h *Handler) WaitFor(ctx context.Context, fn func(interface{}) bool) interface{} { var result = make(chan interface{}) cancel := h.AddHandler(func(v interface{}) { if fn(v) { result <- v } }) defer cancel() select { case r := <-result: return r case <-ctx.Done(): return nil } } // ChanFor returns a channel that would receive all incoming events that match // the callback given. The cancel() function removes the handler and drops all // hanging goroutines. // // This method is more intended to be used as a filter. For a persistent event // channel, consider adding it directly as a handler with AddHandler. func (h *Handler) ChanFor(fn func(interface{}) bool) (out <-chan interface{}, cancel func()) { result := make(chan interface{}) closer := make(chan struct{}) removeHandler := h.AddHandler(func(v interface{}) { if fn(v) { select { case result <- v: case <-closer: } } }) // Only allow cancel to be called once. var once sync.Once cancel = func() { once.Do(func() { removeHandler() close(closer) }) } out = result return } // AddHandler adds the handler, returning a function that would remove this // handler when called. A handler type is either a single-argument no-return // function or a channel. // // Function // // A handler can be a function with a single argument that is the expected event // type. It must not have any returns or any other number of arguments. // // // An example of a valid function handler. // h.AddHandler(func(*gateway.MessageCreateEvent) {}) // // Channel // // A handler can also be a channel. The underlying type that the channel wraps // around will be the event type. As such, the type rules are the same as // function handlers. // // Keep in mind that the user must NOT close the channel. In fact, the channel // should not be closed at all. The caller function WILL PANIC if the channel is // closed! // // // An example of a valid channel handler. // ch := make(chan *gateway.MessageCreateEvent) // h.AddHandler(ch) // func (h *Handler) AddHandler(handler interface{}) (rm func()) { rm, err := h.addHandler(handler) if err != nil { panic(err) } return rm } // AddHandlerCheck adds the handler, but safe-guards reflect panics with a // recoverer, returning the error. Refer to AddHandler for more information. func (h *Handler) AddHandlerCheck(handler interface{}) (rm func(), err error) { // Reflect would actually panic if anything goes wrong, so this is just in // case. defer func() { if rec := recover(); rec != nil { if recErr, ok := rec.(error); ok { err = recErr } else { err = fmt.Errorf("%v", rec) } } }() return h.addHandler(handler) } func (h *Handler) addHandler(fn interface{}) (rm func(), err error) { // Reflect the handler r, err := newHandler(fn) if err != nil { return nil, errors.Wrap(err, "handler reflect failed") } h.hmutex.Lock() defer h.hmutex.Unlock() // Get the current counter value and increment the counter: serial := h.hserial h.hserial++ // Create a map if there's none: if h.handlers == nil { h.handlers = map[uint64]handler{} } // Use the serial for the map: h.handlers[serial] = *r // Append the serial into the list of keys: h.horders = append(h.horders, serial) return func() { h.hmutex.Lock() defer h.hmutex.Unlock() // Delete the handler from the map: delete(h.handlers, serial) // Delete the key from the orders slice: for i, order := range h.horders { if order == serial { h.horders = append(h.horders[:i], h.horders[i+1:]...) break } } }, nil } type handler struct { event reflect.Type // underlying type; arg0 or chan underlying type callback reflect.Value isChan bool isIface bool } // newHandler reflects either a channel or a function into a handler. A function // must only have a single argument being the event and no return, and a channel // must have the event type as the underlying type. func newHandler(unknown interface{}) (*handler, error) { fnV := reflect.ValueOf(unknown) fnT := fnV.Type() // underlying event type var argT reflect.Type var isch bool switch fnT.Kind() { case reflect.Func: if fnT.NumIn() != 1 { return nil, errors.New("function can only accept 1 event as argument") } if fnT.NumOut() > 0 { return nil, errors.New("function can't accept returns") } argT = fnT.In(0) case reflect.Chan: argT = fnT.Elem() isch = true default: return nil, errors.New("given interface is not a function or channel") } var kind = argT.Kind() // Accept either pointer type or interface{} type if kind != reflect.Ptr && kind != reflect.Interface { return nil, errors.New("first argument is not pointer") } return &handler{ event: argT, callback: fnV, isChan: isch, isIface: kind == reflect.Interface, }, nil } func (h handler) not(event reflect.Type) bool { if h.isIface { return !event.Implements(h.event) } return h.event != event } func (h handler) call(event reflect.Value) { if h.isChan { h.callback.Send(event) } else { h.callback.Call([]reflect.Value{event}) } }