package field import ( "encoding/binary" "strconv" "unsafe" "github.com/tidwall/tile38/internal/sstring" ) // binary format // (size,entry,[entry...]) // size: uvarint -- size of the full byte slice, excluding itself. // entry: (name,value) -- one field entry // name: shared string num -- field name, string data, uses the shared library // size: uvarint -- number of bytes in data // value: (kind,vdata) -- field value // kind: byte -- value kind // vdata: (size,data) -- value data, string data // useSharedNames will results in smaller memory usage by sharing the names // of fields using the sstring package. Otherwise the names are embeded with // the list. const useSharedNames = true // List of fields, ordered by Name. type List struct { p *byte } type bytes struct { p *byte l int c int } func ptob(p *byte) []byte { if p == nil { return nil } // Get the size of the bytes (excluding the header) x, n := uvarint(*(*[]byte)(unsafe.Pointer(&bytes{p, 10, 10}))) // Return the byte slice (excluding the header) return (*(*[]byte)(unsafe.Pointer(&bytes{p, n + x, n + x})))[n:] } func btoa(b []byte) string { return *(*string)(unsafe.Pointer(&b)) } // uvarint is a slightly modified version of binary.Uvarint, and it's a little // faster. But it lacks overflow checks which are not needed for our use. func uvarint(buf []byte) (int, int) { var x uint64 for i := 0; i < len(buf); i++ { b := buf[i] if b < 0x80 { return int(x | uint64(b)<<(i*7)), i + 1 } x |= uint64(b&0x7f) << (i * 7) } return 0, 0 } func datakind(kind Kind) bool { switch kind { case Number, String, JSON: return true } return false } func bfield(name string, kind Kind, data string) Field { var num float64 switch kind { case Number: num, _ = strconv.ParseFloat(data, 64) case Null: data = "null" case False: data = "false" case True: data = "true" } return Field{ name: name, value: Value{ kind: Kind(kind), data: data, num: num, }, } } // Set a field in the list. // If the input field value is zero `f.Value().IsZero()` then the field is // deleted or removed from the list since lists cannot have Zero values. // Returns a newly allocated list the updated field. // The original (receiver) list is not modified. func (fields List) Set(field Field) List { b := ptob(fields.p) var i int for { s := i // read the name var name string x, n := uvarint(b[i:]) if n == 0 { break } if useSharedNames { name = sstring.Load(x) i += n } else { name = btoa(b[i+n : i+n+x]) i += n + x } kind := Kind(b[i]) i++ var data string if datakind(kind) { x, n = uvarint(b[i:]) data = btoa(b[i+n : i+n+x]) i += n + x } if field.name < name { // insert before i = s break } if name == field.name { if field.Value().IsZero() { // delete return List{delfield(b, s, i)} } prev := bfield(name, kind, data) if prev.Value().Equals(field.Value()) { // no change return fields } // replace return List{putfield(b, field, s, i)} } } if field.Value().IsZero() { return fields } // insert after return List{putfield(b, field, i, i)} } func delfield(b []byte, s, e int) *byte { totallen := s + (len(b) - e) var psz [10]byte pn := binary.PutUvarint(psz[:], uint64(totallen)) plen := pn + totallen p := make([]byte, plen) // copy each component i := 0 // -- header size copy(p[i:], psz[:pn]) i += pn // -- head entries copy(p[i:], b[:s]) i += s // -- tail entries copy(p[i:], b[e:]) return &p[0] } func putfield(b []byte, f Field, s, e int) *byte { name := f.Name() var namesz [10]byte var namen int if useSharedNames { num := sstring.Store(name) namen = binary.PutUvarint(namesz[:], uint64(num)) } else { namen = binary.PutUvarint(namesz[:], uint64(len(name))) } value := f.Value() kind := value.Kind() isdatakind := datakind(kind) var data string var datasz [10]byte var datan int if isdatakind { data = value.Data() datan = binary.PutUvarint(datasz[:], uint64(len(data))) } var totallen int if useSharedNames { totallen = s + namen + 1 + (len(b) - e) } else { totallen = s + namen + len(name) + 1 + +(len(b) - e) } if isdatakind { totallen += datan + len(data) } var psz [10]byte pn := binary.PutUvarint(psz[:], uint64(totallen)) plen := pn + totallen p := make([]byte, plen) // copy each component i := 0 // -- header size copy(p[i:], psz[:pn]) i += pn // -- head entries copy(p[i:], b[:s]) i += s // -- name copy(p[i:], namesz[:namen]) i += namen if !useSharedNames { copy(p[i:], name) i += len(name) } // -- kind p[i] = byte(kind) i++ if isdatakind { // -- data copy(p[i:], datasz[:datan]) i += datan copy(p[i:], data) i += len(data) } // -- tail entries copy(p[i:], b[e:]) return &p[0] } // Get a field from the list. Or returns ZeroField if not found. func (fields List) Get(name string) Field { b := ptob(fields.p) var i int for { // read the fname var fname string x, n := uvarint(b[i:]) if n == 0 { break } if useSharedNames { fname = sstring.Load(x) i += n } else { fname = btoa(b[i+n : i+n+x]) i += n + x } kind := Kind(b[i]) i++ var data string if datakind(kind) { x, n = uvarint(b[i:]) data = btoa(b[i+n : i+n+x]) i += n + x } if name < fname { break } if fname == name { return bfield(fname, kind, data) } } return ZeroField } // Scan each field in list func (fields List) Scan(iter func(field Field) bool) { b := ptob(fields.p) var i int for { // read the fname var fname string x, n := uvarint(b[i:]) if n == 0 { break } if useSharedNames { fname = sstring.Load(x) i += n } else { fname = btoa(b[i+n : i+n+x]) i += n + x } kind := Kind(b[i]) i++ var data string if datakind(kind) { x, n = uvarint(b[i:]) data = btoa(b[i+n : i+n+x]) i += n + x } if !iter(bfield(fname, kind, data)) { return } } } // Len return the number of fields in list. func (fields List) Len() int { var count int b := ptob(fields.p) var i int for { x, n := uvarint(b[i:]) if n == 0 { break } if useSharedNames { i += n } else { i += n + x } isdatakind := datakind(Kind(b[i])) i++ if isdatakind { x, n = uvarint(b[i:]) i += n + x } count++ } return count } // Weight is the number of bytes of the list. func (fields List) Weight() int { if fields.p == nil { return 0 } x, n := uvarint(*(*[]byte)(unsafe.Pointer(&bytes{fields.p, 10, 10}))) return x + n }