package gen
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import (
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"io"
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"strconv"
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)
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func unmarshal(w io.Writer) *unmarshalGen {
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return &unmarshalGen{
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p: printer{w: w},
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}
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}
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type unmarshalGen struct {
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passes
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p printer
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hasfield bool
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}
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func (u *unmarshalGen) Method() Method { return Unmarshal }
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func (u *unmarshalGen) needsField() {
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if u.hasfield {
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return
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}
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u.p.print("\nvar field []byte; _ = field")
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u.hasfield = true
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}
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func (u *unmarshalGen) Execute(p Elem) error {
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u.hasfield = false
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if !u.p.ok() {
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return u.p.err
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}
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p = u.applyall(p)
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if p == nil {
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return nil
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}
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if !IsPrintable(p) {
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return nil
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}
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u.p.comment("UnmarshalMsg implements msgp.Unmarshaler")
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u.p.printf("\nfunc (%s %s) UnmarshalMsg(bts []byte) (o []byte, err error) {", p.Varname(), methodReceiver(p))
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next(u, p)
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u.p.print("\no = bts")
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u.p.nakedReturn()
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unsetReceiver(p)
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return u.p.err
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}
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// does assignment to the variable "name" with the type "base"
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func (u *unmarshalGen) assignAndCheck(name string, base string) {
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if !u.p.ok() {
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return
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}
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u.p.printf("\n%s, bts, err = msgp.Read%sBytes(bts)", name, base)
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u.p.print(errcheck)
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}
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func (u *unmarshalGen) gStruct(s *Struct) {
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if !u.p.ok() {
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return
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}
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if s.AsTuple {
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u.tuple(s)
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} else {
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u.mapstruct(s)
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}
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return
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}
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func (u *unmarshalGen) tuple(s *Struct) {
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// open block
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sz := randIdent()
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u.p.declare(sz, u32)
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u.assignAndCheck(sz, arrayHeader)
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u.p.arrayCheck(strconv.Itoa(len(s.Fields)), sz)
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for i := range s.Fields {
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if !u.p.ok() {
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return
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}
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next(u, s.Fields[i].FieldElem)
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}
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}
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func (u *unmarshalGen) mapstruct(s *Struct) {
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u.needsField()
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sz := randIdent()
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u.p.declare(sz, u32)
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u.assignAndCheck(sz, mapHeader)
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u.p.printf("\nfor %s > 0 {", sz)
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u.p.printf("\n%s--; field, bts, err = msgp.ReadMapKeyZC(bts)", sz)
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u.p.print(errcheck)
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u.p.print("\nswitch msgp.UnsafeString(field) {")
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for i := range s.Fields {
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if !u.p.ok() {
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return
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}
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u.p.printf("\ncase \"%s\":", s.Fields[i].FieldTag)
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next(u, s.Fields[i].FieldElem)
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}
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u.p.print("\ndefault:\nbts, err = msgp.Skip(bts)")
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u.p.print(errcheck)
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u.p.print("\n}\n}") // close switch and for loop
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}
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func (u *unmarshalGen) gBase(b *BaseElem) {
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if !u.p.ok() {
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return
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}
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refname := b.Varname() // assigned to
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lowered := b.Varname() // passed as argument
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if b.Convert {
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// begin 'tmp' block
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refname = randIdent()
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lowered = b.ToBase() + "(" + lowered + ")"
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u.p.printf("\n{\nvar %s %s", refname, b.BaseType())
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}
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switch b.Value {
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case Bytes:
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u.p.printf("\n%s, bts, err = msgp.ReadBytesBytes(bts, %s)", refname, lowered)
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case Ext:
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u.p.printf("\nbts, err = msgp.ReadExtensionBytes(bts, %s)", lowered)
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case IDENT:
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u.p.printf("\nbts, err = %s.UnmarshalMsg(bts)", lowered)
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default:
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u.p.printf("\n%s, bts, err = msgp.Read%sBytes(bts)", refname, b.BaseName())
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}
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u.p.print(errcheck)
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if b.Convert {
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// close 'tmp' block
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if b.ShimMode == Cast {
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u.p.printf("\n%s = %s(%s)\n", b.Varname(), b.FromBase(), refname)
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} else {
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u.p.printf("\n%s, err = %s(%s)", b.Varname(), b.FromBase(), refname)
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u.p.print(errcheck)
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}
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u.p.printf("}")
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}
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}
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func (u *unmarshalGen) gArray(a *Array) {
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if !u.p.ok() {
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return
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}
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// special case for [const]byte objects
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// see decode.go for symmetry
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if be, ok := a.Els.(*BaseElem); ok && be.Value == Byte {
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u.p.printf("\nbts, err = msgp.ReadExactBytes(bts, (%s)[:])", a.Varname())
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u.p.print(errcheck)
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return
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}
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sz := randIdent()
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u.p.declare(sz, u32)
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u.assignAndCheck(sz, arrayHeader)
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u.p.arrayCheck(coerceArraySize(a.Size), sz)
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u.p.rangeBlock(a.Index, a.Varname(), u, a.Els)
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}
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func (u *unmarshalGen) gSlice(s *Slice) {
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if !u.p.ok() {
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return
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}
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sz := randIdent()
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u.p.declare(sz, u32)
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u.assignAndCheck(sz, arrayHeader)
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u.p.resizeSlice(sz, s)
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u.p.rangeBlock(s.Index, s.Varname(), u, s.Els)
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}
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func (u *unmarshalGen) gMap(m *Map) {
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if !u.p.ok() {
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return
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}
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sz := randIdent()
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u.p.declare(sz, u32)
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u.assignAndCheck(sz, mapHeader)
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// allocate or clear map
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u.p.resizeMap(sz, m)
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// loop and get key,value
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u.p.printf("\nfor %s > 0 {", sz)
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u.p.printf("\nvar %s string; var %s %s; %s--", m.Keyidx, m.Validx, m.Value.TypeName(), sz)
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u.assignAndCheck(m.Keyidx, stringTyp)
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next(u, m.Value)
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u.p.mapAssign(m)
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u.p.closeblock()
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}
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func (u *unmarshalGen) gPtr(p *Ptr) {
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u.p.printf("\nif msgp.IsNil(bts) { bts, err = msgp.ReadNilBytes(bts); if err != nil { return }; %s = nil; } else { ", p.Varname())
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u.p.initPtr(p)
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next(u, p.Value)
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u.p.closeblock()
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}
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