1d6c01ab0b
This change adds a code generator tool for creating EncodeRLP method implementations. The generated methods will behave identically to the reflect-based encoder, but run faster because there is no reflection overhead. Package rlp now provides the EncoderBuffer type for incremental encoding. This is used by generated code, but the new methods can also be useful for hand-written encoders. There is also experimental support for generating DecodeRLP, and some new methods have been added to the existing Stream type to support this. Creating decoders with rlpgen is not recommended at this time because the generated methods create very poor error reporting. More detail about package rlp changes: * rlp: externalize struct field processing / validation This adds a new package, rlp/internal/rlpstruct, in preparation for the RLP encoder generator. I think the struct field rules are subtle enough to warrant extracting this into their own package, even though it means that a bunch of adapter code is needed for converting to/from rlpstruct.Type. * rlp: add more decoder methods (for rlpgen) This adds new methods on rlp.Stream: - Uint64, Uint32, Uint16, Uint8, BigInt - ReadBytes for decoding into []byte - MoreDataInList - useful for optional list elements * rlp: expose encoder buffer (for rlpgen) This exposes the internal encoder buffer type for use in EncodeRLP implementations. The new EncoderBuffer type is a sort-of 'opaque handle' for a pointer to encBuffer. It is implemented this way to ensure the global encBuffer pool is handled correctly.
241 lines
5.9 KiB
Go
241 lines
5.9 KiB
Go
// Copyright 2014 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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package rlp
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import (
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"fmt"
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"reflect"
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"sync"
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"sync/atomic"
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"github.com/ethereum/go-ethereum/rlp/internal/rlpstruct"
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)
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// typeinfo is an entry in the type cache.
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type typeinfo struct {
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decoder decoder
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decoderErr error // error from makeDecoder
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writer writer
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writerErr error // error from makeWriter
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}
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// typekey is the key of a type in typeCache. It includes the struct tags because
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// they might generate a different decoder.
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type typekey struct {
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reflect.Type
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rlpstruct.Tags
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}
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type decoder func(*Stream, reflect.Value) error
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type writer func(reflect.Value, *encBuffer) error
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var theTC = newTypeCache()
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type typeCache struct {
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cur atomic.Value
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// This lock synchronizes writers.
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mu sync.Mutex
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next map[typekey]*typeinfo
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}
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func newTypeCache() *typeCache {
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c := new(typeCache)
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c.cur.Store(make(map[typekey]*typeinfo))
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return c
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}
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func cachedDecoder(typ reflect.Type) (decoder, error) {
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info := theTC.info(typ)
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return info.decoder, info.decoderErr
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}
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func cachedWriter(typ reflect.Type) (writer, error) {
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info := theTC.info(typ)
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return info.writer, info.writerErr
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}
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func (c *typeCache) info(typ reflect.Type) *typeinfo {
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key := typekey{Type: typ}
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if info := c.cur.Load().(map[typekey]*typeinfo)[key]; info != nil {
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return info
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}
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// Not in the cache, need to generate info for this type.
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return c.generate(typ, rlpstruct.Tags{})
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}
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func (c *typeCache) generate(typ reflect.Type, tags rlpstruct.Tags) *typeinfo {
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c.mu.Lock()
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defer c.mu.Unlock()
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cur := c.cur.Load().(map[typekey]*typeinfo)
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if info := cur[typekey{typ, tags}]; info != nil {
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return info
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}
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// Copy cur to next.
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c.next = make(map[typekey]*typeinfo, len(cur)+1)
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for k, v := range cur {
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c.next[k] = v
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}
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// Generate.
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info := c.infoWhileGenerating(typ, tags)
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// next -> cur
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c.cur.Store(c.next)
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c.next = nil
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return info
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}
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func (c *typeCache) infoWhileGenerating(typ reflect.Type, tags rlpstruct.Tags) *typeinfo {
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key := typekey{typ, tags}
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if info := c.next[key]; info != nil {
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return info
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}
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// Put a dummy value into the cache before generating.
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// If the generator tries to lookup itself, it will get
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// the dummy value and won't call itself recursively.
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info := new(typeinfo)
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c.next[key] = info
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info.generate(typ, tags)
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return info
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}
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type field struct {
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index int
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info *typeinfo
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optional bool
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}
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// structFields resolves the typeinfo of all public fields in a struct type.
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func structFields(typ reflect.Type) (fields []field, err error) {
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// Convert fields to rlpstruct.Field.
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var allStructFields []rlpstruct.Field
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for i := 0; i < typ.NumField(); i++ {
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rf := typ.Field(i)
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allStructFields = append(allStructFields, rlpstruct.Field{
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Name: rf.Name,
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Index: i,
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Exported: rf.PkgPath == "",
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Tag: string(rf.Tag),
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Type: *rtypeToStructType(rf.Type, nil),
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})
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}
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// Filter/validate fields.
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structFields, structTags, err := rlpstruct.ProcessFields(allStructFields)
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if err != nil {
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if tagErr, ok := err.(rlpstruct.TagError); ok {
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tagErr.StructType = typ.String()
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return nil, tagErr
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}
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return nil, err
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}
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// Resolve typeinfo.
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for i, sf := range structFields {
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typ := typ.Field(sf.Index).Type
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tags := structTags[i]
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info := theTC.infoWhileGenerating(typ, tags)
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fields = append(fields, field{sf.Index, info, tags.Optional})
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}
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return fields, nil
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}
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// firstOptionalField returns the index of the first field with "optional" tag.
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func firstOptionalField(fields []field) int {
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for i, f := range fields {
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if f.optional {
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return i
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}
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}
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return len(fields)
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}
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type structFieldError struct {
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typ reflect.Type
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field int
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err error
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}
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func (e structFieldError) Error() string {
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return fmt.Sprintf("%v (struct field %v.%s)", e.err, e.typ, e.typ.Field(e.field).Name)
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}
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func (i *typeinfo) generate(typ reflect.Type, tags rlpstruct.Tags) {
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i.decoder, i.decoderErr = makeDecoder(typ, tags)
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i.writer, i.writerErr = makeWriter(typ, tags)
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}
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// rtypeToStructType converts typ to rlpstruct.Type.
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func rtypeToStructType(typ reflect.Type, rec map[reflect.Type]*rlpstruct.Type) *rlpstruct.Type {
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k := typ.Kind()
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if k == reflect.Invalid {
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panic("invalid kind")
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}
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if prev := rec[typ]; prev != nil {
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return prev // short-circuit for recursive types
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}
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if rec == nil {
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rec = make(map[reflect.Type]*rlpstruct.Type)
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}
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t := &rlpstruct.Type{
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Name: typ.String(),
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Kind: k,
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IsEncoder: typ.Implements(encoderInterface),
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IsDecoder: typ.Implements(decoderInterface),
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}
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rec[typ] = t
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if k == reflect.Array || k == reflect.Slice || k == reflect.Ptr {
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t.Elem = rtypeToStructType(typ.Elem(), rec)
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}
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return t
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}
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// typeNilKind gives the RLP value kind for nil pointers to 'typ'.
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func typeNilKind(typ reflect.Type, tags rlpstruct.Tags) Kind {
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styp := rtypeToStructType(typ, nil)
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var nk rlpstruct.NilKind
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if tags.NilOK {
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nk = tags.NilKind
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} else {
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nk = styp.DefaultNilValue()
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}
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switch nk {
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case rlpstruct.NilKindString:
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return String
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case rlpstruct.NilKindList:
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return List
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default:
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panic("invalid nil kind value")
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}
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}
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func isUint(k reflect.Kind) bool {
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return k >= reflect.Uint && k <= reflect.Uintptr
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}
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func isByte(typ reflect.Type) bool {
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return typ.Kind() == reflect.Uint8 && !typ.Implements(encoderInterface)
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}
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