ipld-eth-server/vendor/github.com/tinylib/msgp/gen/size.go

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2018-09-04 16:35:38 +00:00
package gen
import (
"fmt"
"github.com/tinylib/msgp/msgp"
"io"
"strconv"
)
type sizeState uint8
const (
// need to write "s = ..."
assign sizeState = iota
// need to write "s += ..."
add
// can just append "+ ..."
expr
)
func sizes(w io.Writer) *sizeGen {
return &sizeGen{
p: printer{w: w},
state: assign,
}
}
type sizeGen struct {
passes
p printer
state sizeState
}
func (s *sizeGen) Method() Method { return Size }
func (s *sizeGen) Apply(dirs []string) error {
return nil
}
func builtinSize(typ string) string {
return "msgp." + typ + "Size"
}
// this lets us chain together addition
// operations where possible
func (s *sizeGen) addConstant(sz string) {
if !s.p.ok() {
return
}
switch s.state {
case assign:
s.p.print("\ns = " + sz)
s.state = expr
return
case add:
s.p.print("\ns += " + sz)
s.state = expr
return
case expr:
s.p.print(" + " + sz)
return
}
panic("unknown size state")
}
func (s *sizeGen) Execute(p Elem) error {
if !s.p.ok() {
return s.p.err
}
p = s.applyall(p)
if p == nil {
return nil
}
if !IsPrintable(p) {
return nil
}
s.p.comment("Msgsize returns an upper bound estimate of the number of bytes occupied by the serialized message")
s.p.printf("\nfunc (%s %s) Msgsize() (s int) {", p.Varname(), imutMethodReceiver(p))
s.state = assign
next(s, p)
s.p.nakedReturn()
return s.p.err
}
func (s *sizeGen) gStruct(st *Struct) {
if !s.p.ok() {
return
}
nfields := uint32(len(st.Fields))
if st.AsTuple {
data := msgp.AppendArrayHeader(nil, nfields)
s.addConstant(strconv.Itoa(len(data)))
for i := range st.Fields {
if !s.p.ok() {
return
}
next(s, st.Fields[i].FieldElem)
}
} else {
data := msgp.AppendMapHeader(nil, nfields)
s.addConstant(strconv.Itoa(len(data)))
for i := range st.Fields {
data = data[:0]
data = msgp.AppendString(data, st.Fields[i].FieldTag)
s.addConstant(strconv.Itoa(len(data)))
next(s, st.Fields[i].FieldElem)
}
}
}
func (s *sizeGen) gPtr(p *Ptr) {
s.state = add // inner must use add
s.p.printf("\nif %s == nil {\ns += msgp.NilSize\n} else {", p.Varname())
next(s, p.Value)
s.state = add // closing block; reset to add
s.p.closeblock()
}
func (s *sizeGen) gSlice(sl *Slice) {
if !s.p.ok() {
return
}
s.addConstant(builtinSize(arrayHeader))
// if the slice's element is a fixed size
// (e.g. float64, [32]int, etc.), then
// print the length times the element size directly
if str, ok := fixedsizeExpr(sl.Els); ok {
s.addConstant(fmt.Sprintf("(%s * (%s))", lenExpr(sl), str))
return
}
// add inside the range block, and immediately after
s.state = add
s.p.rangeBlock(sl.Index, sl.Varname(), s, sl.Els)
s.state = add
}
func (s *sizeGen) gArray(a *Array) {
if !s.p.ok() {
return
}
s.addConstant(builtinSize(arrayHeader))
// if the array's children are a fixed
// size, we can compile an expression
// that always represents the array's wire size
if str, ok := fixedsizeExpr(a); ok {
s.addConstant(str)
return
}
s.state = add
s.p.rangeBlock(a.Index, a.Varname(), s, a.Els)
s.state = add
}
func (s *sizeGen) gMap(m *Map) {
s.addConstant(builtinSize(mapHeader))
vn := m.Varname()
s.p.printf("\nif %s != nil {", vn)
s.p.printf("\nfor %s, %s := range %s {", m.Keyidx, m.Validx, vn)
s.p.printf("\n_ = %s", m.Validx) // we may not use the value
s.p.printf("\ns += msgp.StringPrefixSize + len(%s)", m.Keyidx)
s.state = expr
next(s, m.Value)
s.p.closeblock()
s.p.closeblock()
s.state = add
}
func (s *sizeGen) gBase(b *BaseElem) {
if !s.p.ok() {
return
}
s.addConstant(basesizeExpr(b))
}
// returns "len(slice)"
func lenExpr(sl *Slice) string {
return "len(" + sl.Varname() + ")"
}
// is a given primitive always the same (max)
// size on the wire?
func fixedSize(p Primitive) bool {
switch p {
case Intf, Ext, IDENT, Bytes, String:
return false
default:
return true
}
}
// strip reference from string
func stripRef(s string) string {
if s[0] == '&' {
return s[1:]
}
return s
}
// return a fixed-size expression, if possible.
// only possible for *BaseElem and *Array.
// returns (expr, ok)
func fixedsizeExpr(e Elem) (string, bool) {
switch e := e.(type) {
case *Array:
if str, ok := fixedsizeExpr(e.Els); ok {
return fmt.Sprintf("(%s * (%s))", e.Size, str), true
}
case *BaseElem:
if fixedSize(e.Value) {
return builtinSize(e.BaseName()), true
}
case *Struct:
var str string
for _, f := range e.Fields {
if fs, ok := fixedsizeExpr(f.FieldElem); ok {
if str == "" {
str = fs
} else {
str += "+" + fs
}
} else {
return "", false
}
}
var hdrlen int
mhdr := msgp.AppendMapHeader(nil, uint32(len(e.Fields)))
hdrlen += len(mhdr)
var strbody []byte
for _, f := range e.Fields {
strbody = msgp.AppendString(strbody[:0], f.FieldTag)
hdrlen += len(strbody)
}
return fmt.Sprintf("%d + %s", hdrlen, str), true
}
return "", false
}
// print size expression of a variable name
func basesizeExpr(b *BaseElem) string {
vname := b.Varname()
if b.Convert {
vname = tobaseConvert(b)
}
switch b.Value {
case Ext:
return "msgp.ExtensionPrefixSize + " + stripRef(vname) + ".Len()"
case Intf:
return "msgp.GuessSize(" + vname + ")"
case IDENT:
return vname + ".Msgsize()"
case Bytes:
return "msgp.BytesPrefixSize + len(" + vname + ")"
case String:
return "msgp.StringPrefixSize + len(" + vname + ")"
default:
return builtinSize(b.BaseName())
}
}