func ExampleRangeIterator() {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
tr, e := db.CreateTransaction()
if e != nil {
fmt.Printf("Unable to create transaction: %v\n", e)
return
}
// Clear and initialize data in this transaction. In examples we do not
// commit transactions to avoid mutating a real database.
tr.ClearRange(fdb.KeyRange{fdb.Key(""), fdb.Key{0xFF}})
tr.Set(fdb.Key("apple"), []byte("foo"))
tr.Set(fdb.Key("cherry"), []byte("baz"))
tr.Set(fdb.Key("banana"), []byte("bar"))
rr := tr.GetRange(fdb.KeyRange{fdb.Key(""), fdb.Key{0xFF}}, fdb.RangeOptions{})
ri := rr.Iterator()
// Advance will return true until the iterator is exhausted
for ri.Advance() {
kv, e := ri.Get()
if e != nil {
fmt.Printf("Unable to read next value: %v\n", e)
return
}
fmt.Printf("%s is %s\n", kv.Key, kv.Value)
}
// Output:
// apple is foo
// banana is bar
// cherry is baz
}
func init() {
consoleBackend := logging.NewLogBackend(os.Stderr, "", stdlog.LstdFlags|stdlog.Lshortfile)
consoleBackend.Color = true
logging.SetBackend(consoleBackend)
log = logging.MustGetLogger("terminator")
fdb.MustAPIVersion(200)
db = fdb.MustOpenDefault()
}
func (s *given_event_store_with_2_records) SetUpTest(c *C) {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
s.store = NewFdbStore(db, "es")
r1 := New("Test", []byte("One"))
r2 := New("Test", []byte("Two"))
s.store.AppendToAggregate("test", ExpectedVersionAny, []Envelope{r1, r2})
}
func ExampleReadTransactor() {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
getOne := func(rt fdb.ReadTransactor, key fdb.Key) ([]byte, error) {
fmt.Printf("getOne called with: %T\n", rt)
ret, e := rt.ReadTransact(func(rtr fdb.ReadTransaction) (interface{}, error) {
return rtr.Get(key).MustGet(), nil
})
if e != nil {
return nil, e
}
return ret.([]byte), nil
}
getTwo := func(rt fdb.ReadTransactor, key1, key2 fdb.Key) ([][]byte, error) {
fmt.Printf("getTwo called with: %T\n", rt)
ret, e := rt.ReadTransact(func(rtr fdb.ReadTransaction) (interface{}, error) {
r1, _ := getOne(rtr, key1)
r2, _ := getOne(rtr.Snapshot(), key2)
return [][]byte{r1, r2}, nil
})
if e != nil {
return nil, e
}
return ret.([][]byte), nil
}
var e error
fmt.Println("Calling getOne with a database:")
_, e = getOne(db, fdb.Key("foo"))
if e != nil {
fmt.Println(e)
return
}
fmt.Println("\nCalling getTwo with a database:")
_, e = getTwo(db, fdb.Key("foo"), fdb.Key("bar"))
if e != nil {
fmt.Println(e)
return
}
// Output:
// Calling getOne with a database:
// getOne called with: fdb.Database
//
// Calling getTwo with a database:
// getTwo called with: fdb.Database
// getOne called with: fdb.Transaction
// getOne called with: fdb.Snapshot
}
func ExampleTransactor() {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
setOne := func(t fdb.Transactor, key fdb.Key, value []byte) error {
fmt.Printf("setOne called with: %T\n", t)
_, e := t.Transact(func(tr fdb.Transaction) (interface{}, error) {
// We don't actually call tr.Set here to avoid mutating a real database.
// tr.Set(key, value)
return nil, nil
})
return e
}
setMany := func(t fdb.Transactor, value []byte, keys ...fdb.Key) error {
fmt.Printf("setMany called with: %T\n", t)
_, e := t.Transact(func(tr fdb.Transaction) (interface{}, error) {
for _, key := range keys {
setOne(tr, key, value)
}
return nil, nil
})
return e
}
var e error
fmt.Println("Calling setOne with a database:")
e = setOne(db, []byte("foo"), []byte("bar"))
if e != nil {
fmt.Println(e)
return
}
fmt.Println("\nCalling setMany with a database:")
e = setMany(db, []byte("bar"), fdb.Key("foo1"), fdb.Key("foo2"), fdb.Key("foo3"))
if e != nil {
fmt.Println(e)
return
}
// Output:
// Calling setOne with a database:
// setOne called with: fdb.Database
//
// Calling setMany with a database:
// setMany called with: fdb.Database
// setOne called with: fdb.Transaction
// setOne called with: fdb.Transaction
// setOne called with: fdb.Transaction
}
func ExamplePrefixRange() {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
tr, e := db.CreateTransaction()
if e != nil {
fmt.Printf("Unable to create transaction: %v\n", e)
return
}
// Clear and initialize data in this transaction. In examples we do not
// commit transactions to avoid mutating a real database.
tr.ClearRange(fdb.KeyRange{fdb.Key(""), fdb.Key{0xFF}})
tr.Set(fdb.Key("alpha"), []byte("1"))
tr.Set(fdb.Key("alphabetA"), []byte("2"))
tr.Set(fdb.Key("alphabetB"), []byte("3"))
tr.Set(fdb.Key("alphabetize"), []byte("4"))
tr.Set(fdb.Key("beta"), []byte("5"))
// Construct the range of all keys beginning with "alphabet". It is safe to
// ignore the error return from PrefixRange unless the provided prefix might
// consist entirely of zero or more 0xFF bytes.
pr, _ := fdb.PrefixRange([]byte("alphabet"))
// Read and process the range
kvs, e := tr.GetRange(pr, fdb.RangeOptions{}).GetSliceWithError()
if e != nil {
fmt.Printf("Unable to read range: %v\n", e)
}
for _, kv := range kvs {
fmt.Printf("%s: %s\n", string(kv.Key), string(kv.Value))
}
// Output:
// alphabetA: 2
// alphabetB: 3
// alphabetize: 4
}
func (s *given_empty_event_store) SetUpTest(c *C) {
fdb.MustAPIVersion(200)
db := fdb.MustOpenDefault()
s.store = NewFdbStore(db, "es")
}
