hanayo/vendor/github.com/rjeczalik/notify/example_fsevents_test.go
2019-02-23 13:29:15 +00:00

129 lines
4.0 KiB
Go

// Copyright (c) 2014-2015 The Notify Authors. All rights reserved.
// Use of this source code is governed by the MIT license that can be
// found in the LICENSE file.
// +build darwin,!kqueue
package notify_test
import (
"log"
"github.com/rjeczalik/notify"
)
// This example shows how to use FSEvents-specifc event values.
func ExampleWatch_darwin() {
// Make the channel buffered to ensure no event is dropped. Notify will drop
// an event if the receiver is not able to keep up the sending pace.
c := make(chan notify.EventInfo, 1)
// Set up a watchpoint listening for FSEvents-specific events within a
// current working directory. Dispatch each FSEventsChangeOwner and FSEventsMount
// events separately to c.
if err := notify.Watch(".", c, notify.FSEventsChangeOwner, notify.FSEventsMount); err != nil {
log.Fatal(err)
}
defer notify.Stop(c)
// Block until an event is received.
switch ei := <-c; ei.Event() {
case notify.FSEventsChangeOwner:
log.Println("The owner of", ei.Path(), "has changed.")
case notify.FSEventsMount:
log.Println("The path", ei.Path(), "has been mounted.")
}
}
// This example shows how to work with EventInfo's underlying FSEvent struct.
// Investigating notify.(*FSEvent).Flags field we are able to say whether
// the event's path is a file or a directory and many more.
func ExampleWatch_darwinDirFileSymlink() {
var must = func(err error) {
if err != nil {
log.Fatal(err)
}
}
var stop = func(c ...chan<- notify.EventInfo) {
for _, c := range c {
notify.Stop(c)
}
}
// Make the channels buffered to ensure no event is dropped. Notify will drop
// an event if the receiver is not able to keep up the sending pace.
dir := make(chan notify.EventInfo, 1)
file := make(chan notify.EventInfo, 1)
symlink := make(chan notify.EventInfo, 1)
all := make(chan notify.EventInfo, 1)
// Set up a single watchpoint listening for FSEvents-specific events on
// multiple user-provided channels.
must(notify.Watch(".", dir, notify.FSEventsIsDir))
must(notify.Watch(".", file, notify.FSEventsIsFile))
must(notify.Watch(".", symlink, notify.FSEventsIsSymlink))
must(notify.Watch(".", all, notify.All))
defer stop(dir, file, symlink, all)
// Block until an event is received.
select {
case ei := <-dir:
log.Println("The directory", ei.Path(), "has changed")
case ei := <-file:
log.Println("The file", ei.Path(), "has changed")
case ei := <-symlink:
log.Println("The symlink", ei.Path(), "has changed")
case ei := <-all:
var kind string
// Investigate underlying *notify.FSEvent struct to access more
// information about the event.
switch flags := ei.Sys().(*notify.FSEvent).Flags; {
case flags&notify.FSEventsIsFile != 0:
kind = "file"
case flags&notify.FSEventsIsDir != 0:
kind = "dir"
case flags&notify.FSEventsIsSymlink != 0:
kind = "symlink"
}
log.Printf("The %s under path %s has been %sd\n", kind, ei.Path(), ei.Event())
}
}
// FSEvents may report multiple filesystem actions with one, coalesced event.
// Notify unscoalesces such event and dispatches series of single events
// back to the user.
//
// This example shows how to coalesce events by investigating notify.(*FSEvent).ID
// field, for the science.
func ExampleWatch_darwinCoalesce() {
// Make the channels buffered to ensure no event is dropped. Notify will drop
// an event if the receiver is not able to keep up the sending pace.
c := make(chan notify.EventInfo, 4)
// Set up a watchpoint listetning for events within current working directory.
// Dispatch all platform-independent separately to c.
if err := notify.Watch(".", c, notify.All); err != nil {
log.Fatal(err)
}
defer notify.Stop(c)
var id uint64
var coalesced []notify.EventInfo
for ei := range c {
switch n := ei.Sys().(*notify.FSEvent).ID; {
case id == 0:
id = n
coalesced = []notify.EventInfo{ei}
case id == n:
coalesced = append(coalesced, ei)
default:
log.Printf("FSEvents reported a filesystem action with the following"+
" coalesced events %v groupped by %d ID\n", coalesced, id)
return
}
}
}