func DoWrite(cores int, idx int) {
var db = loge.NewLogeDB(loge.NewLevelDBStore(fmt.Sprintf("data/bench%d", idx)))
defer db.Close()
db.CreateType(loge.NewTypeDef("person", 1, &Person{}))
var startTime = time.Now()
var tokens = make(chan bool, cores)
for i := 0; i < cores; i++ {
tokens <- true
}
for startId := 0; startId < TOTAL; startId += BATCH_SIZE {
<-tokens
var endId = startId + BATCH_SIZE - 1
if endId >= TOTAL {
endId = TOTAL - 1
}
go WritePeopleBatch(db, startId, endId, tokens)
}
for i := 0; i < cores; i++ {
<-tokens
}
fmt.Printf("Done in %v\n", time.Since(startTime))
fmt.Printf("Flushed\n")
}
func Example() {
var db = loge.NewLogeDB(loge.NewLevelDBStore("data/example"))
db.CreateType(loge.NewTypeDef("person", 1, &Person{}))
// ------------------------------------
// Create an object
db.Transact(func(trans *loge.Transaction) {
trans.Set("person", "brendon", &Person{Name: "Brendon", Age: 31})
}, 0)
// ------------------------------------
// Load some objects
db.Transact(func(trans *loge.Transaction) {
if trans.Exists("person", "brendon") {
var brendon = trans.Write("person", "brendon").(*Person)
fmt.Printf("Existing Brendon: %v\n", brendon)
// Update
brendon.Age = 41
}
var defaultObj = trans.Read("person", "someone else").(*Person)
fmt.Printf("Default value: %v\n", defaultObj)
}, 0)
// ------------------------------------
// Check the update
db.Transact(func(trans *loge.Transaction) {
var brendon = trans.Read("person", "brendon").(*Person)
fmt.Printf("Updated Brendon: %v\n", brendon)
}, 0)
// ------------------------------------
// Intermingle transactions
var trans1 = db.CreateTransaction()
var trans2 = db.CreateTransaction()
trans1.Set("person", "nai", &Person{Name: "Nai Yu", Age: 32})
trans2.Set("person", "nai", &Person{Name: "Not Nai Yu", Age: 16})
fmt.Printf("Commit 1: %v\n", trans1.Commit())
fmt.Printf("Commit 2: %v\n", trans2.Commit())
// ------------------------------------
// Check which succeeded
db.Transact(func(trans *loge.Transaction) {
var nai = trans.Read("person", "nai")
fmt.Printf("Nai: %v\n", nai)
}, 0)
}
func LinkBench() {
var db = loge.NewLogeDB(loge.NewLevelDBStore("data/linkbench"))
defer db.Close()
db.CreateType(loge.NewTypeDef("person", 1, &Person{}))
var petDef = loge.NewTypeDef("pet", 1, &Pet{})
petDef.Links = loge.LinkSpec{"owner": "person"}
db.CreateType(petDef)
fmt.Printf("Inserting...\n")
db.Transact(func(t *loge.Transaction) {
t.Set("person", "Brendon", &Person{"Brendon", 31, []uint16{}})
for i := 0; i < 10000; i++ {
var key = fmt.Sprintf("pet-%04d", i)
t.Set("pet", loge.LogeKey(key), &Pet{key, "dog"})
t.AddLink("pet", "owner", loge.LogeKey(key), "Brendon")
}
}, 0)
fmt.Printf("Finding...\n")
var count = 0
db.Transact(func(t *loge.Transaction) {
var pets = t.Find("pet", "owner", "Brendon")
for pets.Valid() {
pets.Next()
count++
}
}, 0)
fmt.Printf("Found %d pets\n", count)
count = 0
var lastPet loge.LogeKey = ""
var loops = 0
for loops < 1000 {
db.Transact(func(t *loge.Transaction) {
var somePets = t.FindSlice("pet", "owner", "Brendon", lastPet, 100)
for somePets.Valid() {
lastPet = somePets.Next()
count++
}
}, 0)
loops++
}
fmt.Printf("Sliced %d pets\n", count)
}
func LinkSandbox() {
var db = loge.NewLogeDB(loge.NewLevelDBStore("data/links"))
defer db.Close()
db.CreateType(loge.NewTypeDef("person", 1, &Person{}))
var petDef = loge.NewTypeDef("pet", 1, &Pet{})
petDef.Links = loge.LinkSpec{"owner": "person"}
db.CreateType(petDef)
db.Transact(func(t *loge.Transaction) {
t.Set("person", "Brendon", &Person{"Brendon", 31, []uint16{}})
t.Set("person", "Mike", &Person{"Mike", 38, []uint16{}})
t.Set("pet", "Ted", &Pet{"Ted", "dog"})
t.Set("pet", "Bones", &Pet{"Bones", "dog"})
t.Set("pet", "BaoBao", &Pet{"BaoBao", "dog"})
t.Set("pet", "Ruby", &Pet{"Ruby", "dog"})
t.Set("pet", "HenYou", &Pet{"HenYou", "dog"})
t.Set("pet", "Garcon", &Pet{"Garcon", "dog"})
t.Set("pet", "Flower", &Pet{"Flower", "cat"})
t.SetLinks("pet", "owner", "Ted", []loge.LogeKey{"Brendon"})
t.SetLinks("pet", "owner", "Bones", []loge.LogeKey{"Brendon"})
t.SetLinks("pet", "owner", "BaoBao", []loge.LogeKey{"Brendon"})
t.SetLinks("pet", "owner", "Ruby", []loge.LogeKey{"Brendon"})
t.SetLinks("pet", "owner", "HenYou", []loge.LogeKey{"Mike"})
t.SetLinks("pet", "owner", "Garcon", []loge.LogeKey{"Mike"})
t.SetLinks("pet", "owner", "Flower", []loge.LogeKey{"Mike"})
}, 0)
db.Transact(func(t *loge.Transaction) {
t.RemoveLink("pet", "owner", "Ruby", "Brendon")
t.AddLink("pet", "owner", "Ruby", "Mike")
}, 0)
db.Transact(func(t *loge.Transaction) {
fmt.Printf("Ruby links: %v\n", t.ReadLinks("pet", "owner", "Ruby"))
}, 0)
for _, pet := range db.Find("pet", "owner", "Brendon") {
fmt.Printf("Found Brendon pet: %s\n", pet)
}
for _, pet := range db.Find("pet", "owner", "Mike") {
fmt.Printf("Found Mike pet: %s\n", pet)
}
for _, pet := range db.Find("pet", "owner", "Nai") {
fmt.Printf("Found Nai pet: %s\n", pet)
}
fmt.Printf("Done\n")
}
func Sandbox() {
var db = loge.NewLogeDB(loge.NewLevelDBStore("data/sandbox"))
db.CreateType(loge.NewTypeDef("person", 1, &Version0{}))
db.SetOne("person", "brendon", &Version0{"Brendon"})
fmt.Printf("Version 0: %v\n", db.ReadOne("person", "brendon"))
var def2 = loge.NewTypeDef("person", 2, &Version1{})
def2.Upgrader = func(v0 interface{}) (interface{}, error) {
var obj = v0.(*Version0)
return &Version1{obj.Name, 18}, nil
}
db.CreateType(def2)
fmt.Printf("Version 1: %v\n", db.ReadOne("person", "brendon"))
fmt.Printf("Version 1: %v\n", db.ReadOne("person", "brendon"))
fmt.Printf("Version 1: %v\n", db.ReadOne("person", "brendon"))
}
func StartService() {
var db = loge.NewLogeDB(loge.NewLevelDBStore("data/links"))
defer db.Close()
db.CreateType(loge.NewTypeDef("person", 1, &Person{}))
var petDef = loge.NewTypeDef("pet", 1, &Pet{})
petDef.Links = loge.LinkSpec{"owner": "person"}
db.CreateType(petDef)
var serviceCollection = goservice.NewServiceCollection()
serviceCollection.AddService(loge.GetService())
var server = &context{
*goservice.NewServer(
serviceCollection,
goservice.BasicSessionCreator),
db,
}
server.AddEndpoint(goservice.NewHttpRpcEndpoint(":6060", server, nil))
server.AddEndpoint(goservice.NewTelnetEndpoint(":6061", server))
server.Log("Server starting...")
var stopper = make(chan os.Signal, 1)
signal.Notify(stopper)
server.Start()
defer server.Stop()
<-stopper
close(stopper)
fmt.Printf("\n")
server.Log("Server stopping...")
}