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arikawa/utils/handler/handler.go

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// 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.
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package handler
import (
"context"
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"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
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horders []uint64
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hserial uint64
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hmutex sync.RWMutex
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}
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.
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func (h *Handler) Call(ev interface{}) {
var evV = reflect.ValueOf(ev)
var evT = evV.Type()
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h.hmutex.RLock()
defer h.hmutex.RUnlock()
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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
}
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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{})
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removeHandler := h.AddHandler(func(v interface{}) {
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if fn(v) {
select {
case result <- v:
case <-closer:
}
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}
})
// Only allow cancel to be called once.
var once sync.Once
cancel = func() {
once.Do(func() {
removeHandler()
close(closer)
})
}
out = result
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return
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}
// 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!
//
// When the rm callback that is returned is called, it will also guarantee that
// all blocking sends will be cancelled. This helps prevent dangling goroutines.
//
// // An example of a valid channel handler.
// ch := make(chan *gateway.MessageCreateEvent)
// h.AddHandler(ch)
//
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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.
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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)
}
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func (h *Handler) addHandler(fn interface{}) (rm func(), err error) {
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// Reflect the handler
r, err := newHandler(fn)
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if err != nil {
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return nil, errors.Wrap(err, "handler reflect failed")
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}
h.hmutex.Lock()
defer h.hmutex.Unlock()
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// Get the current counter value and increment the counter:
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serial := h.hserial
h.hserial++
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// Create a map if there's none:
if h.handlers == nil {
h.handlers = map[uint64]handler{}
}
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// Use the serial for the map:
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h.handlers[serial] = *r
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// Append the serial into the list of keys:
h.horders = append(h.horders, serial)
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return func() {
h.hmutex.Lock()
defer h.hmutex.Unlock()
// Take and delete the handler from the map, but return if we can't find
// it.
hd, ok := h.handlers[serial]
if !ok {
return
}
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delete(h.handlers, serial)
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// 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
}
}
// Clean up the handler.
hd.cleanup()
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}, nil
}
type handler struct {
event reflect.Type // underlying type; arg0 or chan underlying type
callback reflect.Value
isIface bool
chanclose reflect.Value // IsValid() if chan
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}
// 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)
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fnT := fnV.Type()
// underlying event type
var handler = handler{
callback: fnV,
}
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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")
}
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handler.event = fnT.In(0)
case reflect.Chan:
handler.event = fnT.Elem()
handler.chanclose = reflect.ValueOf(make(chan struct{}))
default:
return nil, errors.New("given interface is not a function or channel")
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}
var kind = handler.event.Kind()
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// Accept either pointer type or interface{} type
if kind != reflect.Ptr && kind != reflect.Interface {
return nil, errors.New("first argument is not pointer")
}
handler.isIface = kind == reflect.Interface
return &handler, nil
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}
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.chanclose.IsValid() {
reflect.Select([]reflect.SelectCase{
{Dir: reflect.SelectSend, Chan: h.callback, Send: event},
{Dir: reflect.SelectRecv, Chan: h.chanclose},
})
} else {
h.callback.Call([]reflect.Value{event})
}
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}
func (h *handler) cleanup() {
if h.chanclose.IsValid() {
// Closing this channel will force all ongoing selects to return
// immediately.
h.chanclose.Close()
}
}