open-vault/vendor/github.com/ugorji/go/codec/gen.go

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// Copyright (c) 2012-2015 Ugorji Nwoke. All rights reserved.
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// Use of this source code is governed by a MIT license found in the LICENSE file.
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package codec
import (
"bytes"
"encoding/base64"
"errors"
"fmt"
"go/format"
"io"
"io/ioutil"
"math/rand"
"reflect"
"regexp"
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"sort"
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"strconv"
"strings"
"sync"
"text/template"
"time"
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"unicode"
"unicode/utf8"
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)
// ---------------------------------------------------
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// codecgen supports the full cycle of reflection-based codec:
// - RawExt
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// - Raw
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// - Builtins
// - Extensions
// - (Binary|Text|JSON)(Unm|M)arshal
// - generic by-kind
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//
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// This means that, for dynamic things, we MUST use reflection to at least get the reflect.Type.
// In those areas, we try to only do reflection or interface-conversion when NECESSARY:
// - Extensions, only if Extensions are configured.
//
// However, codecgen doesn't support the following:
// - Canonical option. (codecgen IGNORES it currently)
// This is just because it has not been implemented.
//
// During encode/decode, Selfer takes precedence.
// A type implementing Selfer will know how to encode/decode itself statically.
//
// The following field types are supported:
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// array: [n]T
// slice: []T
// map: map[K]V
// primitive: [u]int[n], float(32|64), bool, string
// struct
//
// ---------------------------------------------------
// Note that a Selfer cannot call (e|d).(En|De)code on itself,
// as this will cause a circular reference, as (En|De)code will call Selfer methods.
// Any type that implements Selfer must implement completely and not fallback to (En|De)code.
//
// In addition, code in this file manages the generation of fast-path implementations of
// encode/decode of slices/maps of primitive keys/values.
//
// Users MUST re-generate their implementations whenever the code shape changes.
// The generated code will panic if it was generated with a version older than the supporting library.
// ---------------------------------------------------
//
// codec framework is very feature rich.
// When encoding or decoding into an interface, it depends on the runtime type of the interface.
// The type of the interface may be a named type, an extension, etc.
// Consequently, we fallback to runtime codec for encoding/decoding interfaces.
// In addition, we fallback for any value which cannot be guaranteed at runtime.
// This allows us support ANY value, including any named types, specifically those which
// do not implement our interfaces (e.g. Selfer).
//
// This explains some slowness compared to other code generation codecs (e.g. msgp).
// This reduction in speed is only seen when your refers to interfaces,
// e.g. type T struct { A interface{}; B []interface{}; C map[string]interface{} }
//
// codecgen will panic if the file was generated with an old version of the library in use.
//
// Note:
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// It was a conscious decision to have gen.go always explicitly call EncodeNil or TryDecodeAsNil.
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// This way, there isn't a function call overhead just to see that we should not enter a block of code.
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// GenVersion is the current version of codecgen.
//
// NOTE: Increment this value each time codecgen changes fundamentally.
// Fundamental changes are:
// - helper methods change (signature change, new ones added, some removed, etc)
// - codecgen command line changes
//
// v1: Initial Version
// v2:
// v3: Changes for Kubernetes:
// changes in signature of some unpublished helper methods and codecgen cmdline arguments.
// v4: Removed separator support from (en|de)cDriver, and refactored codec(gen)
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// v5: changes to support faster json decoding. Let encoder/decoder maintain state of collections.
const GenVersion = 5
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const (
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genCodecPkg = "codec1978"
genTempVarPfx = "yy"
genTopLevelVarName = "x"
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// ignore canBeNil parameter, and always set to true.
// This is because nil can appear anywhere, so we should always check.
genAnythingCanBeNil = true
// if genUseOneFunctionForDecStructMap, make a single codecDecodeSelferFromMap function;
// else make codecDecodeSelferFromMap{LenPrefix,CheckBreak} so that conditionals
// are not executed a lot.
//
// From testing, it didn't make much difference in runtime, so keep as true (one function only)
genUseOneFunctionForDecStructMap = true
)
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type genStructMapStyle uint8
const (
genStructMapStyleConsolidated genStructMapStyle = iota
genStructMapStyleLenPrefix
genStructMapStyleCheckBreak
)
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var (
genAllTypesSamePkgErr = errors.New("All types must be in the same package")
genExpectArrayOrMapErr = errors.New("unexpected type. Expecting array/map/slice")
genBase64enc = base64.NewEncoding("ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789__")
genQNameRegex = regexp.MustCompile(`[A-Za-z_.]+`)
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genCheckVendor bool
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)
// genRunner holds some state used during a Gen run.
type genRunner struct {
w io.Writer // output
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c uint64 // counter used for generating varsfx
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t []reflect.Type // list of types to run selfer on
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tc reflect.Type // currently running selfer on this type
te map[uintptr]bool // types for which the encoder has been created
td map[uintptr]bool // types for which the decoder has been created
cp string // codec import path
im map[string]reflect.Type // imports to add
imn map[string]string // package names of imports to add
imc uint64 // counter for import numbers
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is map[reflect.Type]struct{} // types seen during import search
bp string // base PkgPath, for which we are generating for
cpfx string // codec package prefix
unsafe bool // is unsafe to be used in generated code?
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tm map[reflect.Type]struct{} // types for which enc/dec must be generated
ts []reflect.Type // types for which enc/dec must be generated
xs string // top level variable/constant suffix
hn string // fn helper type name
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ti *TypeInfos
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// rr *rand.Rand // random generator for file-specific types
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}
// Gen will write a complete go file containing Selfer implementations for each
// type passed. All the types must be in the same package.
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//
// Library users: *DO NOT USE IT DIRECTLY. IT WILL CHANGE CONTINOUSLY WITHOUT NOTICE.*
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func Gen(w io.Writer, buildTags, pkgName, uid string, useUnsafe bool, ti *TypeInfos, typ ...reflect.Type) {
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// trim out all types which already implement Selfer
typ2 := make([]reflect.Type, 0, len(typ))
for _, t := range typ {
if reflect.PtrTo(t).Implements(selferTyp) || t.Implements(selferTyp) {
continue
}
typ2 = append(typ2, t)
}
typ = typ2
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if len(typ) == 0 {
return
}
x := genRunner{
unsafe: useUnsafe,
w: w,
t: typ,
te: make(map[uintptr]bool),
td: make(map[uintptr]bool),
im: make(map[string]reflect.Type),
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imn: make(map[string]string),
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is: make(map[reflect.Type]struct{}),
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tm: make(map[reflect.Type]struct{}),
ts: []reflect.Type{},
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bp: genImportPath(typ[0]),
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xs: uid,
ti: ti,
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}
if x.ti == nil {
x.ti = defTypeInfos
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}
if x.xs == "" {
rr := rand.New(rand.NewSource(time.Now().UnixNano()))
x.xs = strconv.FormatInt(rr.Int63n(9999), 10)
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}
// gather imports first:
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x.cp = genImportPath(reflect.TypeOf(x))
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x.imn[x.cp] = genCodecPkg
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for _, t := range typ {
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// fmt.Printf("###########: PkgPath: '%v', Name: '%s'\n", genImportPath(t), t.Name())
if genImportPath(t) != x.bp {
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panic(genAllTypesSamePkgErr)
}
x.genRefPkgs(t)
}
if buildTags != "" {
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x.line("// +build " + buildTags)
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x.line("")
}
x.line(`
// ************************************************************
// DO NOT EDIT.
// THIS FILE IS AUTO-GENERATED BY codecgen.
// ************************************************************
`)
x.line("package " + pkgName)
x.line("")
x.line("import (")
if x.cp != x.bp {
x.cpfx = genCodecPkg + "."
x.linef("%s \"%s\"", genCodecPkg, x.cp)
}
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// use a sorted set of im keys, so that we can get consistent output
imKeys := make([]string, 0, len(x.im))
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for k, _ := range x.im {
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imKeys = append(imKeys, k)
}
sort.Strings(imKeys)
for _, k := range imKeys { // for k, _ := range x.im {
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x.linef("%s \"%s\"", x.imn[k], k)
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}
// add required packages
for _, k := range [...]string{"reflect", "unsafe", "runtime", "fmt", "errors"} {
if _, ok := x.im[k]; !ok {
if k == "unsafe" && !x.unsafe {
continue
}
x.line("\"" + k + "\"")
}
}
x.line(")")
x.line("")
x.line("const (")
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x.linef("// ----- content types ----")
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x.linef("codecSelferC_UTF8%s = %v", x.xs, int64(c_UTF8))
x.linef("codecSelferC_RAW%s = %v", x.xs, int64(c_RAW))
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x.linef("// ----- value types used ----")
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x.linef("codecSelferValueTypeArray%s = %v", x.xs, int64(valueTypeArray))
x.linef("codecSelferValueTypeMap%s = %v", x.xs, int64(valueTypeMap))
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x.linef("// ----- containerStateValues ----")
x.linef("codecSelfer_containerMapKey%s = %v", x.xs, int64(containerMapKey))
x.linef("codecSelfer_containerMapValue%s = %v", x.xs, int64(containerMapValue))
x.linef("codecSelfer_containerMapEnd%s = %v", x.xs, int64(containerMapEnd))
x.linef("codecSelfer_containerArrayElem%s = %v", x.xs, int64(containerArrayElem))
x.linef("codecSelfer_containerArrayEnd%s = %v", x.xs, int64(containerArrayEnd))
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x.line(")")
x.line("var (")
x.line("codecSelferBitsize" + x.xs + " = uint8(reflect.TypeOf(uint(0)).Bits())")
x.line("codecSelferOnlyMapOrArrayEncodeToStructErr" + x.xs + " = errors.New(`only encoded map or array can be decoded into a struct`)")
x.line(")")
x.line("")
if x.unsafe {
x.line("type codecSelferUnsafeString" + x.xs + " struct { Data uintptr; Len int}")
x.line("")
}
x.hn = "codecSelfer" + x.xs
x.line("type " + x.hn + " struct{}")
x.line("")
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x.varsfxreset()
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x.line("func init() {")
x.linef("if %sGenVersion != %v {", x.cpfx, GenVersion)
x.line("_, file, _, _ := runtime.Caller(0)")
x.line(`err := fmt.Errorf("codecgen version mismatch: current: %v, need %v. Re-generate file: %v", `)
x.linef(`%v, %sGenVersion, file)`, GenVersion, x.cpfx)
x.line("panic(err)")
x.linef("}")
x.line("if false { // reference the types, but skip this branch at build/run time")
var n int
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// for k, t := range x.im {
for _, k := range imKeys {
t := x.im[k]
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x.linef("var v%v %s.%s", n, x.imn[k], t.Name())
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n++
}
if x.unsafe {
x.linef("var v%v unsafe.Pointer", n)
n++
}
if n > 0 {
x.out("_")
for i := 1; i < n; i++ {
x.out(", _")
}
x.out(" = v0")
for i := 1; i < n; i++ {
x.outf(", v%v", i)
}
}
x.line("} ") // close if false
x.line("}") // close init
x.line("")
// generate rest of type info
for _, t := range typ {
x.tc = t
x.selfer(true)
x.selfer(false)
}
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for _, t := range x.ts {
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rtid := reflect.ValueOf(t).Pointer()
// generate enc functions for all these slice/map types.
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x.varsfxreset()
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x.linef("func (x %s) enc%s(v %s%s, e *%sEncoder) {", x.hn, x.genMethodNameT(t), x.arr2str(t, "*"), x.genTypeName(t), x.cpfx)
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x.genRequiredMethodVars(true)
switch t.Kind() {
case reflect.Array, reflect.Slice, reflect.Chan:
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x.encListFallback("v", t)
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case reflect.Map:
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x.encMapFallback("v", t)
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default:
panic(genExpectArrayOrMapErr)
}
x.line("}")
x.line("")
// generate dec functions for all these slice/map types.
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x.varsfxreset()
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x.linef("func (x %s) dec%s(v *%s, d *%sDecoder) {", x.hn, x.genMethodNameT(t), x.genTypeName(t), x.cpfx)
x.genRequiredMethodVars(false)
switch t.Kind() {
case reflect.Array, reflect.Slice, reflect.Chan:
x.decListFallback("v", rtid, t)
case reflect.Map:
x.decMapFallback("v", rtid, t)
default:
panic(genExpectArrayOrMapErr)
}
x.line("}")
x.line("")
}
x.line("")
}
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func (x *genRunner) checkForSelfer(t reflect.Type, varname string) bool {
// return varname != genTopLevelVarName && t != x.tc
// the only time we checkForSelfer is if we are not at the TOP of the generated code.
return varname != genTopLevelVarName
}
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func (x *genRunner) arr2str(t reflect.Type, s string) string {
if t.Kind() == reflect.Array {
return s
}
return ""
}
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func (x *genRunner) genRequiredMethodVars(encode bool) {
x.line("var h " + x.hn)
if encode {
x.line("z, r := " + x.cpfx + "GenHelperEncoder(e)")
} else {
x.line("z, r := " + x.cpfx + "GenHelperDecoder(d)")
}
x.line("_, _, _ = h, z, r")
}
func (x *genRunner) genRefPkgs(t reflect.Type) {
if _, ok := x.is[t]; ok {
return
}
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// fmt.Printf(">>>>>>: PkgPath: '%v', Name: '%s'\n", genImportPath(t), t.Name())
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x.is[t] = struct{}{}
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tpkg, tname := genImportPath(t), t.Name()
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if tpkg != "" && tpkg != x.bp && tpkg != x.cp && tname != "" && tname[0] >= 'A' && tname[0] <= 'Z' {
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if _, ok := x.im[tpkg]; !ok {
x.im[tpkg] = t
if idx := strings.LastIndex(tpkg, "/"); idx < 0 {
x.imn[tpkg] = tpkg
} else {
x.imc++
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x.imn[tpkg] = "pkg" + strconv.FormatUint(x.imc, 10) + "_" + genGoIdentifier(tpkg[idx+1:], false)
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}
}
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}
switch t.Kind() {
case reflect.Array, reflect.Slice, reflect.Ptr, reflect.Chan:
x.genRefPkgs(t.Elem())
case reflect.Map:
x.genRefPkgs(t.Elem())
x.genRefPkgs(t.Key())
case reflect.Struct:
for i := 0; i < t.NumField(); i++ {
if fname := t.Field(i).Name; fname != "" && fname[0] >= 'A' && fname[0] <= 'Z' {
x.genRefPkgs(t.Field(i).Type)
}
}
}
}
func (x *genRunner) line(s string) {
x.out(s)
if len(s) == 0 || s[len(s)-1] != '\n' {
x.out("\n")
}
}
func (x *genRunner) varsfx() string {
x.c++
return strconv.FormatUint(x.c, 10)
}
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func (x *genRunner) varsfxreset() {
x.c = 0
}
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func (x *genRunner) out(s string) {
if _, err := io.WriteString(x.w, s); err != nil {
panic(err)
}
}
func (x *genRunner) linef(s string, params ...interface{}) {
x.line(fmt.Sprintf(s, params...))
}
func (x *genRunner) outf(s string, params ...interface{}) {
x.out(fmt.Sprintf(s, params...))
}
func (x *genRunner) genTypeName(t reflect.Type) (n string) {
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// defer func() { fmt.Printf(">>>> ####: genTypeName: t: %v, name: '%s'\n", t, n) }()
// if the type has a PkgPath, which doesn't match the current package,
// then include it.
// We cannot depend on t.String() because it includes current package,
// or t.PkgPath because it includes full import path,
//
var ptrPfx string
for t.Kind() == reflect.Ptr {
ptrPfx += "*"
t = t.Elem()
}
if tn := t.Name(); tn != "" {
return ptrPfx + x.genTypeNamePrim(t)
}
switch t.Kind() {
case reflect.Map:
return ptrPfx + "map[" + x.genTypeName(t.Key()) + "]" + x.genTypeName(t.Elem())
case reflect.Slice:
return ptrPfx + "[]" + x.genTypeName(t.Elem())
case reflect.Array:
return ptrPfx + "[" + strconv.FormatInt(int64(t.Len()), 10) + "]" + x.genTypeName(t.Elem())
case reflect.Chan:
return ptrPfx + t.ChanDir().String() + " " + x.genTypeName(t.Elem())
default:
if t == intfTyp {
return ptrPfx + "interface{}"
} else {
return ptrPfx + x.genTypeNamePrim(t)
}
}
}
func (x *genRunner) genTypeNamePrim(t reflect.Type) (n string) {
if t.Name() == "" {
return t.String()
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} else if genImportPath(t) == "" || genImportPath(t) == genImportPath(x.tc) {
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return t.Name()
} else {
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return x.imn[genImportPath(t)] + "." + t.Name()
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// return t.String() // best way to get the package name inclusive
}
}
func (x *genRunner) genZeroValueR(t reflect.Type) string {
// if t is a named type, w
switch t.Kind() {
case reflect.Ptr, reflect.Interface, reflect.Chan, reflect.Func,
reflect.Slice, reflect.Map, reflect.Invalid:
return "nil"
case reflect.Bool:
return "false"
case reflect.String:
return `""`
case reflect.Struct, reflect.Array:
return x.genTypeName(t) + "{}"
default: // all numbers
return "0"
}
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}
func (x *genRunner) genMethodNameT(t reflect.Type) (s string) {
return genMethodNameT(t, x.tc)
}
func (x *genRunner) selfer(encode bool) {
t := x.tc
t0 := t
// always make decode use a pointer receiver,
// and structs always use a ptr receiver (encode|decode)
isptr := !encode || t.Kind() == reflect.Struct
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x.varsfxreset()
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fnSigPfx := "func (x "
if isptr {
fnSigPfx += "*"
}
fnSigPfx += x.genTypeName(t)
x.out(fnSigPfx)
if isptr {
t = reflect.PtrTo(t)
}
if encode {
x.line(") CodecEncodeSelf(e *" + x.cpfx + "Encoder) {")
x.genRequiredMethodVars(true)
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// x.enc(genTopLevelVarName, t)
x.encVar(genTopLevelVarName, t)
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} else {
x.line(") CodecDecodeSelf(d *" + x.cpfx + "Decoder) {")
x.genRequiredMethodVars(false)
// do not use decVar, as there is no need to check TryDecodeAsNil
// or way to elegantly handle that, and also setting it to a
// non-nil value doesn't affect the pointer passed.
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// x.decVar(genTopLevelVarName, t, false)
x.dec(genTopLevelVarName, t0)
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}
x.line("}")
x.line("")
if encode || t0.Kind() != reflect.Struct {
return
}
// write is containerMap
if genUseOneFunctionForDecStructMap {
x.out(fnSigPfx)
x.line(") codecDecodeSelfFromMap(l int, d *" + x.cpfx + "Decoder) {")
x.genRequiredMethodVars(false)
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x.decStructMap(genTopLevelVarName, "l", reflect.ValueOf(t0).Pointer(), t0, genStructMapStyleConsolidated)
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x.line("}")
x.line("")
} else {
x.out(fnSigPfx)
x.line(") codecDecodeSelfFromMapLenPrefix(l int, d *" + x.cpfx + "Decoder) {")
x.genRequiredMethodVars(false)
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x.decStructMap(genTopLevelVarName, "l", reflect.ValueOf(t0).Pointer(), t0, genStructMapStyleLenPrefix)
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x.line("}")
x.line("")
x.out(fnSigPfx)
x.line(") codecDecodeSelfFromMapCheckBreak(l int, d *" + x.cpfx + "Decoder) {")
x.genRequiredMethodVars(false)
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x.decStructMap(genTopLevelVarName, "l", reflect.ValueOf(t0).Pointer(), t0, genStructMapStyleCheckBreak)
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x.line("}")
x.line("")
}
// write containerArray
x.out(fnSigPfx)
x.line(") codecDecodeSelfFromArray(l int, d *" + x.cpfx + "Decoder) {")
x.genRequiredMethodVars(false)
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x.decStructArray(genTopLevelVarName, "l", "return", reflect.ValueOf(t0).Pointer(), t0)
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x.line("}")
x.line("")
}
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// used for chan, array, slice, map
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func (x *genRunner) xtraSM(varname string, encode bool, t reflect.Type) {
if encode {
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x.linef("h.enc%s((%s%s)(%s), e)", x.genMethodNameT(t), x.arr2str(t, "*"), x.genTypeName(t), varname)
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} else {
x.linef("h.dec%s((*%s)(%s), d)", x.genMethodNameT(t), x.genTypeName(t), varname)
}
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x.registerXtraT(t)
}
func (x *genRunner) registerXtraT(t reflect.Type) {
// recursively register the types
if _, ok := x.tm[t]; ok {
return
}
var tkey reflect.Type
switch t.Kind() {
case reflect.Chan, reflect.Slice, reflect.Array:
case reflect.Map:
tkey = t.Key()
default:
return
}
x.tm[t] = struct{}{}
x.ts = append(x.ts, t)
// check if this refers to any xtra types eg. a slice of array: add the array
x.registerXtraT(t.Elem())
if tkey != nil {
x.registerXtraT(tkey)
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}
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}
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// encVar will encode a variable.
// The parameter, t, is the reflect.Type of the variable itself
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func (x *genRunner) encVar(varname string, t reflect.Type) {
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// fmt.Printf(">>>>>> varname: %s, t: %v\n", varname, t)
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var checkNil bool
switch t.Kind() {
case reflect.Ptr, reflect.Interface, reflect.Slice, reflect.Map, reflect.Chan:
checkNil = true
}
if checkNil {
x.linef("if %s == nil { r.EncodeNil() } else { ", varname)
}
switch t.Kind() {
case reflect.Ptr:
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switch t.Elem().Kind() {
case reflect.Struct, reflect.Array:
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x.enc(varname, genNonPtr(t))
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default:
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i := x.varsfx()
x.line(genTempVarPfx + i + " := *" + varname)
x.enc(genTempVarPfx+i, genNonPtr(t))
}
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case reflect.Struct, reflect.Array:
i := x.varsfx()
x.line(genTempVarPfx + i + " := &" + varname)
x.enc(genTempVarPfx+i, t)
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default:
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x.enc(varname, t)
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}
if checkNil {
x.line("}")
}
}
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// enc will encode a variable (varname) of type t,
// except t is of kind reflect.Struct or reflect.Array, wherein varname is of type ptrTo(T) (to prevent copying)
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func (x *genRunner) enc(varname string, t reflect.Type) {
rtid := reflect.ValueOf(t).Pointer()
// We call CodecEncodeSelf if one of the following are honored:
// - the type already implements Selfer, call that
// - the type has a Selfer implementation just created, use that
// - the type is in the list of the ones we will generate for, but it is not currently being generated
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mi := x.varsfx()
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tptr := reflect.PtrTo(t)
tk := t.Kind()
if x.checkForSelfer(t, varname) {
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if tk == reflect.Array || tk == reflect.Struct { // varname is of type *T
if tptr.Implements(selferTyp) || t.Implements(selferTyp) {
x.line(varname + ".CodecEncodeSelf(e)")
return
}
} else { // varname is of type T
if t.Implements(selferTyp) {
x.line(varname + ".CodecEncodeSelf(e)")
return
} else if tptr.Implements(selferTyp) {
x.linef("%ssf%s := &%s", genTempVarPfx, mi, varname)
x.linef("%ssf%s.CodecEncodeSelf(e)", genTempVarPfx, mi)
return
}
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}
if _, ok := x.te[rtid]; ok {
x.line(varname + ".CodecEncodeSelf(e)")
return
}
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}
inlist := false
for _, t0 := range x.t {
if t == t0 {
inlist = true
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if x.checkForSelfer(t, varname) {
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x.line(varname + ".CodecEncodeSelf(e)")
return
}
break
}
}
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var rtidAdded bool
if t == x.tc {
x.te[rtid] = true
rtidAdded = true
}
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// check if
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// - type is RawExt, Raw
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// - the type implements (Text|JSON|Binary)(Unm|M)arshal
x.linef("%sm%s := z.EncBinary()", genTempVarPfx, mi)
x.linef("_ = %sm%s", genTempVarPfx, mi)
x.line("if false {") //start if block
defer func() { x.line("}") }() //end if block
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if t == rawTyp {
x.linef("} else { z.EncRaw(%v)", varname)
return
}
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if t == rawExtTyp {
x.linef("} else { r.EncodeRawExt(%v, e)", varname)
return
}
// HACK: Support for Builtins.
// Currently, only Binc supports builtins, and the only builtin type is time.Time.
// Have a method that returns the rtid for time.Time if Handle is Binc.
if t == timeTyp {
vrtid := genTempVarPfx + "m" + x.varsfx()
x.linef("} else if %s := z.TimeRtidIfBinc(); %s != 0 { ", vrtid, vrtid)
x.linef("r.EncodeBuiltin(%s, %s)", vrtid, varname)
}
// only check for extensions if the type is named, and has a packagePath.
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if genImportPath(t) != "" && t.Name() != "" {
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// first check if extensions are configued, before doing the interface conversion
x.linef("} else if z.HasExtensions() && z.EncExt(%s) {", varname)
}
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if tk == reflect.Array || tk == reflect.Struct { // varname is of type *T
if t.Implements(binaryMarshalerTyp) || tptr.Implements(binaryMarshalerTyp) {
x.linef("} else if %sm%s { z.EncBinaryMarshal(%v) ", genTempVarPfx, mi, varname)
}
if t.Implements(jsonMarshalerTyp) || tptr.Implements(jsonMarshalerTyp) {
x.linef("} else if !%sm%s && z.IsJSONHandle() { z.EncJSONMarshal(%v) ", genTempVarPfx, mi, varname)
} else if t.Implements(textMarshalerTyp) || tptr.Implements(textMarshalerTyp) {
x.linef("} else if !%sm%s { z.EncTextMarshal(%v) ", genTempVarPfx, mi, varname)
}
} else { // varname is of type T
if t.Implements(binaryMarshalerTyp) {
x.linef("} else if %sm%s { z.EncBinaryMarshal(%v) ", genTempVarPfx, mi, varname)
} else if tptr.Implements(binaryMarshalerTyp) {
x.linef("} else if %sm%s { z.EncBinaryMarshal(&%v) ", genTempVarPfx, mi, varname)
}
if t.Implements(jsonMarshalerTyp) {
x.linef("} else if !%sm%s && z.IsJSONHandle() { z.EncJSONMarshal(%v) ", genTempVarPfx, mi, varname)
} else if tptr.Implements(jsonMarshalerTyp) {
x.linef("} else if !%sm%s && z.IsJSONHandle() { z.EncJSONMarshal(&%v) ", genTempVarPfx, mi, varname)
} else if t.Implements(textMarshalerTyp) {
x.linef("} else if !%sm%s { z.EncTextMarshal(%v) ", genTempVarPfx, mi, varname)
} else if tptr.Implements(textMarshalerTyp) {
x.linef("} else if !%sm%s { z.EncTextMarshal(&%v) ", genTempVarPfx, mi, varname)
}
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}
x.line("} else {")
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switch t.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
x.line("r.EncodeInt(int64(" + varname + "))")
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
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x.line("r.EncodeUint(uint64(" + varname + "))")
case reflect.Float32:
x.line("r.EncodeFloat32(float32(" + varname + "))")
case reflect.Float64:
x.line("r.EncodeFloat64(float64(" + varname + "))")
case reflect.Bool:
x.line("r.EncodeBool(bool(" + varname + "))")
case reflect.String:
x.line("r.EncodeString(codecSelferC_UTF8" + x.xs + ", string(" + varname + "))")
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case reflect.Chan:
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x.xtraSM(varname, true, t)
// x.encListFallback(varname, rtid, t)
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case reflect.Array:
x.xtraSM(varname, true, t)
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case reflect.Slice:
// if nil, call dedicated function
// if a []uint8, call dedicated function
// if a known fastpath slice, call dedicated function
// else write encode function in-line.
// - if elements are primitives or Selfers, call dedicated function on each member.
// - else call Encoder.encode(XXX) on it.
if rtid == uint8SliceTypId {
x.line("r.EncodeStringBytes(codecSelferC_RAW" + x.xs + ", []byte(" + varname + "))")
} else if fastpathAV.index(rtid) != -1 {
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g := x.newGenV(t)
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x.line("z.F." + g.MethodNamePfx("Enc", false) + "V(" + varname + ", false, e)")
} else {
x.xtraSM(varname, true, t)
// x.encListFallback(varname, rtid, t)
}
case reflect.Map:
// if nil, call dedicated function
// if a known fastpath map, call dedicated function
// else write encode function in-line.
// - if elements are primitives or Selfers, call dedicated function on each member.
// - else call Encoder.encode(XXX) on it.
// x.line("if " + varname + " == nil { \nr.EncodeNil()\n } else { ")
if fastpathAV.index(rtid) != -1 {
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g := x.newGenV(t)
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x.line("z.F." + g.MethodNamePfx("Enc", false) + "V(" + varname + ", false, e)")
} else {
x.xtraSM(varname, true, t)
// x.encMapFallback(varname, rtid, t)
}
case reflect.Struct:
if !inlist {
delete(x.te, rtid)
x.line("z.EncFallback(" + varname + ")")
break
}
x.encStruct(varname, rtid, t)
default:
if rtidAdded {
delete(x.te, rtid)
}
x.line("z.EncFallback(" + varname + ")")
}
}
func (x *genRunner) encZero(t reflect.Type) {
switch t.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
x.line("r.EncodeInt(0)")
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
2015-06-29 21:50:55 +00:00
x.line("r.EncodeUint(0)")
case reflect.Float32:
x.line("r.EncodeFloat32(0)")
case reflect.Float64:
x.line("r.EncodeFloat64(0)")
case reflect.Bool:
x.line("r.EncodeBool(false)")
case reflect.String:
x.line("r.EncodeString(codecSelferC_UTF8" + x.xs + `, "")`)
default:
x.line("r.EncodeNil()")
}
}
func (x *genRunner) encStruct(varname string, rtid uintptr, t reflect.Type) {
// Use knowledge from structfieldinfo (mbs, encodable fields. Ignore omitempty. )
// replicate code in kStruct i.e. for each field, deref type to non-pointer, and call x.enc on it
// if t === type currently running selfer on, do for all
2015-10-12 18:07:12 +00:00
ti := x.ti.get(rtid, t)
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i := x.varsfx()
sepVarname := genTempVarPfx + "sep" + i
numfieldsvar := genTempVarPfx + "q" + i
ti2arrayvar := genTempVarPfx + "r" + i
struct2arrvar := genTempVarPfx + "2arr" + i
x.line(sepVarname + " := !z.EncBinary()")
x.linef("%s := z.EncBasicHandle().StructToArray", struct2arrvar)
tisfi := ti.sfip // always use sequence from file. decStruct expects same thing.
// due to omitEmpty, we need to calculate the
// number of non-empty things we write out first.
// This is required as we need to pre-determine the size of the container,
// to support length-prefixing.
x.linef("var %s [%v]bool", numfieldsvar, len(tisfi))
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x.linef("_, _, _ = %s, %s, %s", sepVarname, numfieldsvar, struct2arrvar)
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x.linef("const %s bool = %v", ti2arrayvar, ti.toArray)
nn := 0
for j, si := range tisfi {
if !si.omitEmpty {
nn++
continue
}
var t2 reflect.StructField
var omitline string
if si.i != -1 {
t2 = t.Field(int(si.i))
} else {
t2typ := t
varname3 := varname
for _, ix := range si.is {
for t2typ.Kind() == reflect.Ptr {
t2typ = t2typ.Elem()
}
t2 = t2typ.Field(ix)
t2typ = t2.Type
varname3 = varname3 + "." + t2.Name
if t2typ.Kind() == reflect.Ptr {
omitline += varname3 + " != nil && "
}
}
}
// never check omitEmpty on a struct type, as it may contain uncomparable map/slice/etc.
// also, for maps/slices/arrays, check if len ! 0 (not if == zero value)
switch t2.Type.Kind() {
case reflect.Struct:
omitline += " true"
case reflect.Map, reflect.Slice, reflect.Array, reflect.Chan:
omitline += "len(" + varname + "." + t2.Name + ") != 0"
default:
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omitline += varname + "." + t2.Name + " != " + x.genZeroValueR(t2.Type)
2015-06-29 21:50:55 +00:00
}
x.linef("%s[%v] = %s", numfieldsvar, j, omitline)
}
2015-10-30 22:07:00 +00:00
x.linef("var %snn%s int", genTempVarPfx, i)
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x.linef("if %s || %s {", ti2arrayvar, struct2arrvar) // if ti.toArray {
x.line("r.EncodeArrayStart(" + strconv.FormatInt(int64(len(tisfi)), 10) + ")")
x.linef("} else {") // if not ti.toArray
2015-10-30 22:07:00 +00:00
x.linef("%snn%s = %v", genTempVarPfx, i, nn)
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x.linef("for _, b := range %s { if b { %snn%s++ } }", numfieldsvar, genTempVarPfx, i)
x.linef("r.EncodeMapStart(%snn%s)", genTempVarPfx, i)
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x.linef("%snn%s = %v", genTempVarPfx, i, 0)
2015-06-29 21:50:55 +00:00
// x.line("r.EncodeMapStart(" + strconv.FormatInt(int64(len(tisfi)), 10) + ")")
x.line("}") // close if not StructToArray
for j, si := range tisfi {
i := x.varsfx()
isNilVarName := genTempVarPfx + "n" + i
var labelUsed bool
var t2 reflect.StructField
if si.i != -1 {
t2 = t.Field(int(si.i))
} else {
t2typ := t
varname3 := varname
for _, ix := range si.is {
// fmt.Printf("%%%% %v, ix: %v\n", t2typ, ix)
for t2typ.Kind() == reflect.Ptr {
t2typ = t2typ.Elem()
}
t2 = t2typ.Field(ix)
t2typ = t2.Type
varname3 = varname3 + "." + t2.Name
if t2typ.Kind() == reflect.Ptr {
if !labelUsed {
x.line("var " + isNilVarName + " bool")
}
x.line("if " + varname3 + " == nil { " + isNilVarName + " = true ")
x.line("goto LABEL" + i)
x.line("}")
labelUsed = true
// "varname3 = new(" + x.genTypeName(t3.Elem()) + ") }")
}
}
// t2 = t.FieldByIndex(si.is)
}
if labelUsed {
x.line("LABEL" + i + ":")
}
// if the type of the field is a Selfer, or one of the ones
x.linef("if %s || %s {", ti2arrayvar, struct2arrvar) // if ti.toArray
if labelUsed {
x.line("if " + isNilVarName + " { r.EncodeNil() } else { ")
}
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerArrayElem%s)", x.xs)
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if si.omitEmpty {
x.linef("if %s[%v] {", numfieldsvar, j)
}
x.encVar(varname+"."+t2.Name, t2.Type)
if si.omitEmpty {
x.linef("} else {")
x.encZero(t2.Type)
x.linef("}")
}
if labelUsed {
x.line("}")
}
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x.linef("} else {") // if not ti.toArray
2015-10-30 22:07:00 +00:00
2015-06-29 21:50:55 +00:00
if si.omitEmpty {
x.linef("if %s[%v] {", numfieldsvar, j)
}
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerMapKey%s)", x.xs)
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x.line("r.EncodeString(codecSelferC_UTF8" + x.xs + ", string(\"" + si.encName + "\"))")
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerMapValue%s)", x.xs)
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if labelUsed {
x.line("if " + isNilVarName + " { r.EncodeNil() } else { ")
x.encVar(varname+"."+t2.Name, t2.Type)
x.line("}")
} else {
x.encVar(varname+"."+t2.Name, t2.Type)
}
if si.omitEmpty {
x.line("}")
}
x.linef("} ") // end if/else ti.toArray
}
2015-10-30 22:07:00 +00:00
x.linef("if %s || %s {", ti2arrayvar, struct2arrvar) // if ti.toArray {
x.linef("z.EncSendContainerState(codecSelfer_containerArrayEnd%s)", x.xs)
x.line("} else {")
x.linef("z.EncSendContainerState(codecSelfer_containerMapEnd%s)", x.xs)
2015-06-29 21:50:55 +00:00
x.line("}")
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2015-06-29 21:50:55 +00:00
}
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func (x *genRunner) encListFallback(varname string, t reflect.Type) {
2016-09-02 22:05:09 +00:00
if t.AssignableTo(uint8SliceTyp) {
x.linef("r.EncodeStringBytes(codecSelferC_RAW%s, []byte(%s))", x.xs, varname)
return
}
if t.Kind() == reflect.Array && t.Elem().Kind() == reflect.Uint8 {
x.linef("r.EncodeStringBytes(codecSelferC_RAW%s, ([%v]byte(%s))[:])", x.xs, t.Len(), varname)
return
}
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i := x.varsfx()
g := genTempVarPfx
x.line("r.EncodeArrayStart(len(" + varname + "))")
if t.Kind() == reflect.Chan {
x.linef("for %si%s, %si2%s := 0, len(%s); %si%s < %si2%s; %si%s++ {", g, i, g, i, varname, g, i, g, i, g, i)
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerArrayElem%s)", x.xs)
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x.linef("%sv%s := <-%s", g, i, varname)
} else {
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// x.linef("for %si%s, %sv%s := range %s {", genTempVarPfx, i, genTempVarPfx, i, varname)
x.linef("for _, %sv%s := range %s {", genTempVarPfx, i, varname)
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerArrayElem%s)", x.xs)
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}
x.encVar(genTempVarPfx+"v"+i, t.Elem())
x.line("}")
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x.linef("z.EncSendContainerState(codecSelfer_containerArrayEnd%s)", x.xs)
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}
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func (x *genRunner) encMapFallback(varname string, t reflect.Type) {
// TODO: expand this to handle canonical.
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i := x.varsfx()
x.line("r.EncodeMapStart(len(" + varname + "))")
x.linef("for %sk%s, %sv%s := range %s {", genTempVarPfx, i, genTempVarPfx, i, varname)
2015-09-22 15:44:21 +00:00
// x.line("for " + genTempVarPfx + "k" + i + ", " + genTempVarPfx + "v" + i + " := range " + varname + " {")
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerMapKey%s)", x.xs)
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x.encVar(genTempVarPfx+"k"+i, t.Key())
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x.linef("z.EncSendContainerState(codecSelfer_containerMapValue%s)", x.xs)
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x.encVar(genTempVarPfx+"v"+i, t.Elem())
x.line("}")
2015-10-30 22:07:00 +00:00
x.linef("z.EncSendContainerState(codecSelfer_containerMapEnd%s)", x.xs)
2015-06-29 21:50:55 +00:00
}
func (x *genRunner) decVar(varname string, t reflect.Type, canBeNil bool) {
// We only encode as nil if a nillable value.
// This removes some of the wasted checks for TryDecodeAsNil.
// We need to think about this more, to see what happens if omitempty, etc
// cause a nil value to be stored when something is expected.
// This could happen when decoding from a struct encoded as an array.
// For that, decVar should be called with canNil=true, to force true as its value.
i := x.varsfx()
if !canBeNil {
canBeNil = genAnythingCanBeNil || !genIsImmutable(t)
}
if canBeNil {
x.line("if r.TryDecodeAsNil() {")
if t.Kind() == reflect.Ptr {
x.line("if " + varname + " != nil { ")
// if varname is a field of a struct (has a dot in it),
// then just set it to nil
if strings.IndexByte(varname, '.') != -1 {
x.line(varname + " = nil")
} else {
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x.line("*" + varname + " = " + x.genZeroValueR(t.Elem()))
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}
x.line("}")
} else {
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x.line(varname + " = " + x.genZeroValueR(t))
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}
x.line("} else {")
} else {
x.line("// cannot be nil")
}
if t.Kind() != reflect.Ptr {
if x.decTryAssignPrimitive(varname, t) {
x.line(genTempVarPfx + "v" + i + " := &" + varname)
x.dec(genTempVarPfx+"v"+i, t)
}
} else {
x.linef("if %s == nil { %s = new(%s) }", varname, varname, x.genTypeName(t.Elem()))
// Ensure we set underlying ptr to a non-nil value (so we can deref to it later).
// There's a chance of a **T in here which is nil.
var ptrPfx string
for t = t.Elem(); t.Kind() == reflect.Ptr; t = t.Elem() {
ptrPfx += "*"
x.linef("if %s%s == nil { %s%s = new(%s)}",
ptrPfx, varname, ptrPfx, varname, x.genTypeName(t))
}
// if varname has [ in it, then create temp variable for this ptr thingie
if strings.Index(varname, "[") >= 0 {
varname2 := genTempVarPfx + "w" + i
x.line(varname2 + " := " + varname)
varname = varname2
}
if ptrPfx == "" {
x.dec(varname, t)
} else {
x.line(genTempVarPfx + "z" + i + " := " + ptrPfx + varname)
x.dec(genTempVarPfx+"z"+i, t)
}
}
if canBeNil {
x.line("} ")
}
}
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// dec will decode a variable (varname) of type ptrTo(t).
// t is always a basetype (i.e. not of kind reflect.Ptr).
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func (x *genRunner) dec(varname string, t reflect.Type) {
// assumptions:
// - the varname is to a pointer already. No need to take address of it
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// - t is always a baseType T (not a *T, etc).
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rtid := reflect.ValueOf(t).Pointer()
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tptr := reflect.PtrTo(t)
if x.checkForSelfer(t, varname) {
if t.Implements(selferTyp) || tptr.Implements(selferTyp) {
x.line(varname + ".CodecDecodeSelf(d)")
return
}
if _, ok := x.td[rtid]; ok {
x.line(varname + ".CodecDecodeSelf(d)")
return
}
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}
inlist := false
for _, t0 := range x.t {
if t == t0 {
inlist = true
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if x.checkForSelfer(t, varname) {
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x.line(varname + ".CodecDecodeSelf(d)")
return
}
break
}
}
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var rtidAdded bool
if t == x.tc {
x.td[rtid] = true
rtidAdded = true
}
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// check if
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// - type is Raw, RawExt
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// - the type implements (Text|JSON|Binary)(Unm|M)arshal
mi := x.varsfx()
x.linef("%sm%s := z.DecBinary()", genTempVarPfx, mi)
x.linef("_ = %sm%s", genTempVarPfx, mi)
x.line("if false {") //start if block
defer func() { x.line("}") }() //end if block
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if t == rawTyp {
x.linef("} else { *%v = z.DecRaw()", varname)
return
}
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if t == rawExtTyp {
x.linef("} else { r.DecodeExt(%v, 0, nil)", varname)
return
}
// HACK: Support for Builtins.
// Currently, only Binc supports builtins, and the only builtin type is time.Time.
// Have a method that returns the rtid for time.Time if Handle is Binc.
if t == timeTyp {
vrtid := genTempVarPfx + "m" + x.varsfx()
x.linef("} else if %s := z.TimeRtidIfBinc(); %s != 0 { ", vrtid, vrtid)
x.linef("r.DecodeBuiltin(%s, %s)", vrtid, varname)
}
// only check for extensions if the type is named, and has a packagePath.
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if genImportPath(t) != "" && t.Name() != "" {
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// first check if extensions are configued, before doing the interface conversion
x.linef("} else if z.HasExtensions() && z.DecExt(%s) {", varname)
}
if t.Implements(binaryUnmarshalerTyp) || tptr.Implements(binaryUnmarshalerTyp) {
x.linef("} else if %sm%s { z.DecBinaryUnmarshal(%v) ", genTempVarPfx, mi, varname)
}
if t.Implements(jsonUnmarshalerTyp) || tptr.Implements(jsonUnmarshalerTyp) {
x.linef("} else if !%sm%s && z.IsJSONHandle() { z.DecJSONUnmarshal(%v)", genTempVarPfx, mi, varname)
} else if t.Implements(textUnmarshalerTyp) || tptr.Implements(textUnmarshalerTyp) {
x.linef("} else if !%sm%s { z.DecTextUnmarshal(%v)", genTempVarPfx, mi, varname)
}
x.line("} else {")
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// Since these are pointers, we cannot share, and have to use them one by one
switch t.Kind() {
case reflect.Int:
x.line("*((*int)(" + varname + ")) = int(r.DecodeInt(codecSelferBitsize" + x.xs + "))")
// x.line("z.DecInt((*int)(" + varname + "))")
case reflect.Int8:
x.line("*((*int8)(" + varname + ")) = int8(r.DecodeInt(8))")
// x.line("z.DecInt8((*int8)(" + varname + "))")
case reflect.Int16:
x.line("*((*int16)(" + varname + ")) = int16(r.DecodeInt(16))")
// x.line("z.DecInt16((*int16)(" + varname + "))")
case reflect.Int32:
x.line("*((*int32)(" + varname + ")) = int32(r.DecodeInt(32))")
// x.line("z.DecInt32((*int32)(" + varname + "))")
case reflect.Int64:
x.line("*((*int64)(" + varname + ")) = int64(r.DecodeInt(64))")
// x.line("z.DecInt64((*int64)(" + varname + "))")
case reflect.Uint:
x.line("*((*uint)(" + varname + ")) = uint(r.DecodeUint(codecSelferBitsize" + x.xs + "))")
// x.line("z.DecUint((*uint)(" + varname + "))")
case reflect.Uint8:
x.line("*((*uint8)(" + varname + ")) = uint8(r.DecodeUint(8))")
// x.line("z.DecUint8((*uint8)(" + varname + "))")
case reflect.Uint16:
x.line("*((*uint16)(" + varname + ")) = uint16(r.DecodeUint(16))")
//x.line("z.DecUint16((*uint16)(" + varname + "))")
case reflect.Uint32:
x.line("*((*uint32)(" + varname + ")) = uint32(r.DecodeUint(32))")
//x.line("z.DecUint32((*uint32)(" + varname + "))")
case reflect.Uint64:
x.line("*((*uint64)(" + varname + ")) = uint64(r.DecodeUint(64))")
//x.line("z.DecUint64((*uint64)(" + varname + "))")
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case reflect.Uintptr:
x.line("*((*uintptr)(" + varname + ")) = uintptr(r.DecodeUint(codecSelferBitsize" + x.xs + "))")
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case reflect.Float32:
x.line("*((*float32)(" + varname + ")) = float32(r.DecodeFloat(true))")
//x.line("z.DecFloat32((*float32)(" + varname + "))")
case reflect.Float64:
x.line("*((*float64)(" + varname + ")) = float64(r.DecodeFloat(false))")
// x.line("z.DecFloat64((*float64)(" + varname + "))")
case reflect.Bool:
x.line("*((*bool)(" + varname + ")) = r.DecodeBool()")
// x.line("z.DecBool((*bool)(" + varname + "))")
case reflect.String:
x.line("*((*string)(" + varname + ")) = r.DecodeString()")
// x.line("z.DecString((*string)(" + varname + "))")
case reflect.Array, reflect.Chan:
x.xtraSM(varname, false, t)
// x.decListFallback(varname, rtid, true, t)
case reflect.Slice:
// if a []uint8, call dedicated function
// if a known fastpath slice, call dedicated function
// else write encode function in-line.
// - if elements are primitives or Selfers, call dedicated function on each member.
// - else call Encoder.encode(XXX) on it.
if rtid == uint8SliceTypId {
x.line("*" + varname + " = r.DecodeBytes(*(*[]byte)(" + varname + "), false, false)")
} else if fastpathAV.index(rtid) != -1 {
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g := x.newGenV(t)
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x.line("z.F." + g.MethodNamePfx("Dec", false) + "X(" + varname + ", false, d)")
} else {
x.xtraSM(varname, false, t)
// x.decListFallback(varname, rtid, false, t)
}
case reflect.Map:
// if a known fastpath map, call dedicated function
// else write encode function in-line.
// - if elements are primitives or Selfers, call dedicated function on each member.
// - else call Encoder.encode(XXX) on it.
if fastpathAV.index(rtid) != -1 {
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g := x.newGenV(t)
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x.line("z.F." + g.MethodNamePfx("Dec", false) + "X(" + varname + ", false, d)")
} else {
x.xtraSM(varname, false, t)
// x.decMapFallback(varname, rtid, t)
}
case reflect.Struct:
if inlist {
x.decStruct(varname, rtid, t)
} else {
// delete(x.td, rtid)
x.line("z.DecFallback(" + varname + ", false)")
}
default:
if rtidAdded {
delete(x.te, rtid)
}
x.line("z.DecFallback(" + varname + ", true)")
}
}
func (x *genRunner) decTryAssignPrimitive(varname string, t reflect.Type) (tryAsPtr bool) {
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// This should only be used for exact primitives (ie un-named types).
// Named types may be implementations of Selfer, Unmarshaler, etc.
// They should be handled by dec(...)
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if t.Name() != "" {
tryAsPtr = true
return
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}
2016-04-26 00:18:04 +00:00
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switch t.Kind() {
case reflect.Int:
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x.linef("%s = r.DecodeInt(codecSelferBitsize%s)", varname, x.xs)
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case reflect.Int8:
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x.linef("%s = r.DecodeInt(8)", varname)
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case reflect.Int16:
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x.linef("%s = r.DecodeInt(16)", varname)
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case reflect.Int32:
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x.linef("%s = r.DecodeInt(32)", varname)
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case reflect.Int64:
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x.linef("%s = r.DecodeInt(64)", varname)
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case reflect.Uint:
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x.linef("%s = r.DecodeUint(codecSelferBitsize%s)", varname, x.xs)
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case reflect.Uint8:
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x.linef("%s = r.DecodeUint(8)", varname)
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case reflect.Uint16:
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x.linef("%s = r.DecodeUint(16)", varname)
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case reflect.Uint32:
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x.linef("%s = r.DecodeUint(32)", varname)
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case reflect.Uint64:
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x.linef("%s = r.DecodeUint(64)", varname)
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case reflect.Uintptr:
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x.linef("%s = r.DecodeUint(codecSelferBitsize%s)", varname, x.xs)
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case reflect.Float32:
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x.linef("%s = r.DecodeFloat(true)", varname)
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case reflect.Float64:
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x.linef("%s = r.DecodeFloat(false)", varname)
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case reflect.Bool:
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x.linef("%s = r.DecodeBool()", varname)
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case reflect.String:
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x.linef("%s = r.DecodeString()", varname)
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default:
tryAsPtr = true
}
return
}
func (x *genRunner) decListFallback(varname string, rtid uintptr, t reflect.Type) {
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if t.AssignableTo(uint8SliceTyp) {
x.line("*" + varname + " = r.DecodeBytes(*((*[]byte)(" + varname + ")), false, false)")
return
}
if t.Kind() == reflect.Array && t.Elem().Kind() == reflect.Uint8 {
x.linef("r.DecodeBytes( ((*[%s]byte)(%s))[:], false, true)", t.Len(), varname)
return
}
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type tstruc struct {
TempVar string
Rand string
Varname string
CTyp string
Typ string
Immutable bool
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Size int
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}
telem := t.Elem()
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ts := tstruc{genTempVarPfx, x.varsfx(), varname, x.genTypeName(t), x.genTypeName(telem), genIsImmutable(telem), int(telem.Size())}
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funcs := make(template.FuncMap)
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funcs["decLineVar"] = func(varname string) string {
x.decVar(varname, telem, false)
return ""
}
funcs["decLine"] = func(pfx string) string {
x.decVar(ts.TempVar+pfx+ts.Rand, reflect.PtrTo(telem), false)
return ""
}
funcs["var"] = func(s string) string {
return ts.TempVar + s + ts.Rand
}
funcs["zero"] = func() string {
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return x.genZeroValueR(telem)
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}
funcs["isArray"] = func() bool {
return t.Kind() == reflect.Array
}
funcs["isSlice"] = func() bool {
return t.Kind() == reflect.Slice
}
funcs["isChan"] = func() bool {
return t.Kind() == reflect.Chan
}
tm, err := template.New("").Funcs(funcs).Parse(genDecListTmpl)
if err != nil {
panic(err)
}
if err = tm.Execute(x.w, &ts); err != nil {
panic(err)
}
}
func (x *genRunner) decMapFallback(varname string, rtid uintptr, t reflect.Type) {
type tstruc struct {
TempVar string
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Sfx string
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Rand string
Varname string
KTyp string
Typ string
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Size int
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}
telem := t.Elem()
tkey := t.Key()
ts := tstruc{
2015-10-30 22:07:00 +00:00
genTempVarPfx, x.xs, x.varsfx(), varname, x.genTypeName(tkey),
x.genTypeName(telem), int(telem.Size() + tkey.Size()),
}
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funcs := make(template.FuncMap)
funcs["decElemZero"] = func() string {
return x.genZeroValueR(telem)
}
funcs["decElemKindImmutable"] = func() bool {
return genIsImmutable(telem)
}
funcs["decElemKindPtr"] = func() bool {
return telem.Kind() == reflect.Ptr
}
funcs["decElemKindIntf"] = func() bool {
return telem.Kind() == reflect.Interface
}
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funcs["decLineVarK"] = func(varname string) string {
x.decVar(varname, tkey, false)
return ""
}
funcs["decLineVar"] = func(varname string) string {
x.decVar(varname, telem, false)
return ""
}
funcs["decLineK"] = func(pfx string) string {
x.decVar(ts.TempVar+pfx+ts.Rand, reflect.PtrTo(tkey), false)
return ""
}
funcs["decLine"] = func(pfx string) string {
x.decVar(ts.TempVar+pfx+ts.Rand, reflect.PtrTo(telem), false)
return ""
}
funcs["var"] = func(s string) string {
return ts.TempVar + s + ts.Rand
}
tm, err := template.New("").Funcs(funcs).Parse(genDecMapTmpl)
if err != nil {
panic(err)
}
if err = tm.Execute(x.w, &ts); err != nil {
panic(err)
}
}
func (x *genRunner) decStructMapSwitch(kName string, varname string, rtid uintptr, t reflect.Type) {
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ti := x.ti.get(rtid, t)
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tisfi := ti.sfip // always use sequence from file. decStruct expects same thing.
x.line("switch (" + kName + ") {")
for _, si := range tisfi {
x.line("case \"" + si.encName + "\":")
var t2 reflect.StructField
if si.i != -1 {
t2 = t.Field(int(si.i))
} else {
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//we must accommodate anonymous fields, where the embedded field is a nil pointer in the value.
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// t2 = t.FieldByIndex(si.is)
t2typ := t
varname3 := varname
for _, ix := range si.is {
for t2typ.Kind() == reflect.Ptr {
t2typ = t2typ.Elem()
}
t2 = t2typ.Field(ix)
t2typ = t2.Type
varname3 = varname3 + "." + t2.Name
if t2typ.Kind() == reflect.Ptr {
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x.linef("if %s == nil { %s = new(%s) }", varname3, varname3, x.genTypeName(t2typ.Elem()))
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}
}
}
x.decVar(varname+"."+t2.Name, t2.Type, false)
}
x.line("default:")
// pass the slice here, so that the string will not escape, and maybe save allocation
x.line("z.DecStructFieldNotFound(-1, " + kName + ")")
x.line("} // end switch " + kName)
}
2015-10-30 22:07:00 +00:00
func (x *genRunner) decStructMap(varname, lenvarname string, rtid uintptr, t reflect.Type, style genStructMapStyle) {
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tpfx := genTempVarPfx
i := x.varsfx()
kName := tpfx + "s" + i
// We thought to use ReadStringAsBytes, as go compiler might optimize the copy out.
// However, using that was more expensive, as it seems that the switch expression
// is evaluated each time.
//
// We could depend on decodeString using a temporary/shared buffer internally.
// However, this model of creating a byte array, and using explicitly is faster,
// and allows optional use of unsafe []byte->string conversion without alloc.
// Also, ensure that the slice array doesn't escape.
// That will help escape analysis prevent allocation when it gets better.
// x.line("var " + kName + "Arr = [32]byte{} // default string to decode into")
// x.line("var " + kName + "Slc = " + kName + "Arr[:] // default slice to decode into")
// use the scratch buffer to avoid allocation (most field names are < 32).
x.line("var " + kName + "Slc = z.DecScratchBuffer() // default slice to decode into")
x.line("_ = " + kName + "Slc")
switch style {
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case genStructMapStyleLenPrefix:
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x.linef("for %sj%s := 0; %sj%s < %s; %sj%s++ {", tpfx, i, tpfx, i, lenvarname, tpfx, i)
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case genStructMapStyleCheckBreak:
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x.linef("for %sj%s := 0; !r.CheckBreak(); %sj%s++ {", tpfx, i, tpfx, i)
default: // 0, otherwise.
x.linef("var %shl%s bool = %s >= 0", tpfx, i, lenvarname) // has length
x.linef("for %sj%s := 0; ; %sj%s++ {", tpfx, i, tpfx, i)
x.linef("if %shl%s { if %sj%s >= %s { break }", tpfx, i, tpfx, i, lenvarname)
2015-09-22 15:44:21 +00:00
x.line("} else { if r.CheckBreak() { break }; }")
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}
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x.linef("z.DecSendContainerState(codecSelfer_containerMapKey%s)", x.xs)
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x.line(kName + "Slc = r.DecodeBytes(" + kName + "Slc, true, true)")
// let string be scoped to this loop alone, so it doesn't escape.
if x.unsafe {
x.line(kName + "SlcHdr := codecSelferUnsafeString" + x.xs + "{uintptr(unsafe.Pointer(&" +
kName + "Slc[0])), len(" + kName + "Slc)}")
x.line(kName + " := *(*string)(unsafe.Pointer(&" + kName + "SlcHdr))")
} else {
x.line(kName + " := string(" + kName + "Slc)")
}
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x.linef("z.DecSendContainerState(codecSelfer_containerMapValue%s)", x.xs)
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x.decStructMapSwitch(kName, varname, rtid, t)
x.line("} // end for " + tpfx + "j" + i)
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x.linef("z.DecSendContainerState(codecSelfer_containerMapEnd%s)", x.xs)
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}
func (x *genRunner) decStructArray(varname, lenvarname, breakString string, rtid uintptr, t reflect.Type) {
tpfx := genTempVarPfx
i := x.varsfx()
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ti := x.ti.get(rtid, t)
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tisfi := ti.sfip // always use sequence from file. decStruct expects same thing.
x.linef("var %sj%s int", tpfx, i)
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x.linef("var %sb%s bool", tpfx, i) // break
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x.linef("var %shl%s bool = %s >= 0", tpfx, i, lenvarname) // has length
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for _, si := range tisfi {
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var t2 reflect.StructField
if si.i != -1 {
t2 = t.Field(int(si.i))
} else {
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//we must accommodate anonymous fields, where the embedded field is a nil pointer in the value.
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// t2 = t.FieldByIndex(si.is)
t2typ := t
varname3 := varname
for _, ix := range si.is {
for t2typ.Kind() == reflect.Ptr {
t2typ = t2typ.Elem()
}
t2 = t2typ.Field(ix)
t2typ = t2.Type
varname3 = varname3 + "." + t2.Name
if t2typ.Kind() == reflect.Ptr {
x.linef("if %s == nil { %s = new(%s) }", varname3, varname3, x.genTypeName(t2typ.Elem()))
}
}
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}
x.linef("%sj%s++; if %shl%s { %sb%s = %sj%s > %s } else { %sb%s = r.CheckBreak() }",
tpfx, i, tpfx, i, tpfx, i,
tpfx, i, lenvarname, tpfx, i)
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x.linef("if %sb%s { z.DecSendContainerState(codecSelfer_containerArrayEnd%s); %s }",
tpfx, i, x.xs, breakString)
x.linef("z.DecSendContainerState(codecSelfer_containerArrayElem%s)", x.xs)
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x.decVar(varname+"."+t2.Name, t2.Type, true)
}
// read remaining values and throw away.
x.line("for {")
x.linef("%sj%s++; if %shl%s { %sb%s = %sj%s > %s } else { %sb%s = r.CheckBreak() }",
tpfx, i, tpfx, i, tpfx, i,
tpfx, i, lenvarname, tpfx, i)
x.linef("if %sb%s { break }", tpfx, i)
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x.linef("z.DecSendContainerState(codecSelfer_containerArrayElem%s)", x.xs)
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x.linef(`z.DecStructFieldNotFound(%sj%s - 1, "")`, tpfx, i)
x.line("}")
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x.linef("z.DecSendContainerState(codecSelfer_containerArrayEnd%s)", x.xs)
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}
func (x *genRunner) decStruct(varname string, rtid uintptr, t reflect.Type) {
// if container is map
i := x.varsfx()
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x.linef("%sct%s := r.ContainerType()", genTempVarPfx, i)
x.linef("if %sct%s == codecSelferValueTypeMap%s {", genTempVarPfx, i, x.xs)
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x.line(genTempVarPfx + "l" + i + " := r.ReadMapStart()")
x.linef("if %sl%s == 0 {", genTempVarPfx, i)
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x.linef("z.DecSendContainerState(codecSelfer_containerMapEnd%s)", x.xs)
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if genUseOneFunctionForDecStructMap {
x.line("} else { ")
x.linef("x.codecDecodeSelfFromMap(%sl%s, d)", genTempVarPfx, i)
} else {
x.line("} else if " + genTempVarPfx + "l" + i + " > 0 { ")
x.line("x.codecDecodeSelfFromMapLenPrefix(" + genTempVarPfx + "l" + i + ", d)")
x.line("} else {")
x.line("x.codecDecodeSelfFromMapCheckBreak(" + genTempVarPfx + "l" + i + ", d)")
}
x.line("}")
// else if container is array
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x.linef("} else if %sct%s == codecSelferValueTypeArray%s {", genTempVarPfx, i, x.xs)
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x.line(genTempVarPfx + "l" + i + " := r.ReadArrayStart()")
x.linef("if %sl%s == 0 {", genTempVarPfx, i)
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x.linef("z.DecSendContainerState(codecSelfer_containerArrayEnd%s)", x.xs)
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x.line("} else { ")
x.linef("x.codecDecodeSelfFromArray(%sl%s, d)", genTempVarPfx, i)
x.line("}")
// else panic
x.line("} else { ")
x.line("panic(codecSelferOnlyMapOrArrayEncodeToStructErr" + x.xs + ")")
x.line("} ")
}
// --------
type genV struct {
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// genV is either a primitive (Primitive != "") or a map (MapKey != "") or a slice
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MapKey string
Elem string
Primitive string
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Size int
}
func (x *genRunner) newGenV(t reflect.Type) (v genV) {
switch t.Kind() {
case reflect.Slice, reflect.Array:
te := t.Elem()
v.Elem = x.genTypeName(te)
v.Size = int(te.Size())
case reflect.Map:
te, tk := t.Elem(), t.Key()
v.Elem = x.genTypeName(te)
v.MapKey = x.genTypeName(tk)
v.Size = int(te.Size() + tk.Size())
default:
panic("unexpected type for newGenV. Requires map or slice type")
}
return
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}
func (x *genV) MethodNamePfx(prefix string, prim bool) string {
var name []byte
if prefix != "" {
name = append(name, prefix...)
}
if prim {
name = append(name, genTitleCaseName(x.Primitive)...)
} else {
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if x.MapKey == "" {
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name = append(name, "Slice"...)
} else {
name = append(name, "Map"...)
name = append(name, genTitleCaseName(x.MapKey)...)
}
name = append(name, genTitleCaseName(x.Elem)...)
}
return string(name)
}
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// genImportPath returns import path of a non-predeclared named typed, or an empty string otherwise.
//
// This handles the misbehaviour that occurs when 1.5-style vendoring is enabled,
// where PkgPath returns the full path, including the vendoring pre-fix that should have been stripped.
// We strip it here.
func genImportPath(t reflect.Type) (s string) {
s = t.PkgPath()
if genCheckVendor {
// HACK: Misbehaviour occurs in go 1.5. May have to re-visit this later.
// if s contains /vendor/ OR startsWith vendor/, then return everything after it.
const vendorStart = "vendor/"
const vendorInline = "/vendor/"
if i := strings.LastIndex(s, vendorInline); i >= 0 {
s = s[i+len(vendorInline):]
} else if strings.HasPrefix(s, vendorStart) {
s = s[len(vendorStart):]
}
}
return
}
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// A go identifier is (letter|_)[letter|number|_]*
func genGoIdentifier(s string, checkFirstChar bool) string {
b := make([]byte, 0, len(s))
t := make([]byte, 4)
var n int
for i, r := range s {
if checkFirstChar && i == 0 && !unicode.IsLetter(r) {
b = append(b, '_')
}
// r must be unicode_letter, unicode_digit or _
if unicode.IsLetter(r) || unicode.IsDigit(r) {
n = utf8.EncodeRune(t, r)
b = append(b, t[:n]...)
} else {
b = append(b, '_')
}
}
return string(b)
}
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func genNonPtr(t reflect.Type) reflect.Type {
for t.Kind() == reflect.Ptr {
t = t.Elem()
}
return t
}
func genTitleCaseName(s string) string {
switch s {
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case "interface{}", "interface {}":
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return "Intf"
default:
return strings.ToUpper(s[0:1]) + s[1:]
}
}
func genMethodNameT(t reflect.Type, tRef reflect.Type) (n string) {
var ptrPfx string
for t.Kind() == reflect.Ptr {
ptrPfx += "Ptrto"
t = t.Elem()
}
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tstr := t.String()
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if tn := t.Name(); tn != "" {
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if tRef != nil && genImportPath(t) == genImportPath(tRef) {
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return ptrPfx + tn
} else {
if genQNameRegex.MatchString(tstr) {
return ptrPfx + strings.Replace(tstr, ".", "_", 1000)
} else {
return ptrPfx + genCustomTypeName(tstr)
}
}
}
switch t.Kind() {
case reflect.Map:
return ptrPfx + "Map" + genMethodNameT(t.Key(), tRef) + genMethodNameT(t.Elem(), tRef)
case reflect.Slice:
return ptrPfx + "Slice" + genMethodNameT(t.Elem(), tRef)
case reflect.Array:
return ptrPfx + "Array" + strconv.FormatInt(int64(t.Len()), 10) + genMethodNameT(t.Elem(), tRef)
case reflect.Chan:
var cx string
switch t.ChanDir() {
case reflect.SendDir:
cx = "ChanSend"
case reflect.RecvDir:
cx = "ChanRecv"
default:
cx = "Chan"
}
return ptrPfx + cx + genMethodNameT(t.Elem(), tRef)
default:
if t == intfTyp {
return ptrPfx + "Interface"
} else {
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if tRef != nil && genImportPath(t) == genImportPath(tRef) {
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if t.Name() != "" {
return ptrPfx + t.Name()
} else {
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return ptrPfx + genCustomTypeName(tstr)
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}
} else {
// best way to get the package name inclusive
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// return ptrPfx + strings.Replace(tstr, ".", "_", 1000)
// return ptrPfx + genBase64enc.EncodeToString([]byte(tstr))
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if t.Name() != "" && genQNameRegex.MatchString(tstr) {
return ptrPfx + strings.Replace(tstr, ".", "_", 1000)
} else {
return ptrPfx + genCustomTypeName(tstr)
}
}
}
}
}
// genCustomNameForType base64encodes the t.String() value in such a way
// that it can be used within a function name.
func genCustomTypeName(tstr string) string {
len2 := genBase64enc.EncodedLen(len(tstr))
bufx := make([]byte, len2)
genBase64enc.Encode(bufx, []byte(tstr))
for i := len2 - 1; i >= 0; i-- {
if bufx[i] == '=' {
len2--
} else {
break
}
}
return string(bufx[:len2])
}
func genIsImmutable(t reflect.Type) (v bool) {
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return isImmutableKind(t.Kind())
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}
type genInternal struct {
Values []genV
Unsafe bool
}
func (x genInternal) FastpathLen() (l int) {
for _, v := range x.Values {
if v.Primitive == "" {
l++
}
}
return
}
func genInternalZeroValue(s string) string {
switch s {
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case "interface{}", "interface {}":
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return "nil"
case "bool":
return "false"
case "string":
return `""`
default:
return "0"
}
}
func genInternalEncCommandAsString(s string, vname string) string {
switch s {
case "uint", "uint8", "uint16", "uint32", "uint64":
return "ee.EncodeUint(uint64(" + vname + "))"
case "int", "int8", "int16", "int32", "int64":
return "ee.EncodeInt(int64(" + vname + "))"
case "string":
return "ee.EncodeString(c_UTF8, " + vname + ")"
case "float32":
return "ee.EncodeFloat32(" + vname + ")"
case "float64":
return "ee.EncodeFloat64(" + vname + ")"
case "bool":
return "ee.EncodeBool(" + vname + ")"
case "symbol":
return "ee.EncodeSymbol(" + vname + ")"
default:
return "e.encode(" + vname + ")"
}
}
func genInternalDecCommandAsString(s string) string {
switch s {
case "uint":
return "uint(dd.DecodeUint(uintBitsize))"
case "uint8":
return "uint8(dd.DecodeUint(8))"
case "uint16":
return "uint16(dd.DecodeUint(16))"
case "uint32":
return "uint32(dd.DecodeUint(32))"
case "uint64":
return "dd.DecodeUint(64)"
case "uintptr":
return "uintptr(dd.DecodeUint(uintBitsize))"
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case "int":
return "int(dd.DecodeInt(intBitsize))"
case "int8":
return "int8(dd.DecodeInt(8))"
case "int16":
return "int16(dd.DecodeInt(16))"
case "int32":
return "int32(dd.DecodeInt(32))"
case "int64":
return "dd.DecodeInt(64)"
case "string":
return "dd.DecodeString()"
case "float32":
return "float32(dd.DecodeFloat(true))"
case "float64":
return "dd.DecodeFloat(false)"
case "bool":
return "dd.DecodeBool()"
default:
panic(errors.New("gen internal: unknown type for decode: " + s))
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}
}
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func genInternalSortType(s string, elem bool) string {
for _, v := range [...]string{"int", "uint", "float", "bool", "string"} {
if strings.HasPrefix(s, v) {
if elem {
if v == "int" || v == "uint" || v == "float" {
return v + "64"
} else {
return v
}
}
return v + "Slice"
}
}
panic("sorttype: unexpected type: " + s)
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}
// var genInternalMu sync.Mutex
var genInternalV genInternal
var genInternalTmplFuncs template.FuncMap
var genInternalOnce sync.Once
func genInternalInit() {
types := [...]string{
"interface{}",
"string",
"float32",
"float64",
"uint",
"uint8",
"uint16",
"uint32",
"uint64",
"uintptr",
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"int",
"int8",
"int16",
"int32",
"int64",
"bool",
}
// keep as slice, so it is in specific iteration order.
// Initial order was uint64, string, interface{}, int, int64
mapvaltypes := [...]string{
"interface{}",
"string",
"uint",
"uint8",
"uint16",
"uint32",
"uint64",
"uintptr",
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"int",
"int8",
"int16",
"int32",
"int64",
"float32",
"float64",
"bool",
}
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wordSizeBytes := int(intBitsize) / 8
mapvaltypes2 := map[string]int{
"interface{}": 2 * wordSizeBytes,
"string": 2 * wordSizeBytes,
"uint": 1 * wordSizeBytes,
"uint8": 1,
"uint16": 2,
"uint32": 4,
"uint64": 8,
"uintptr": 1 * wordSizeBytes,
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"int": 1 * wordSizeBytes,
"int8": 1,
"int16": 2,
"int32": 4,
"int64": 8,
"float32": 4,
"float64": 8,
"bool": 1,
}
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var gt genInternal
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// For each slice or map type, there must be a (symmetrical) Encode and Decode fast-path function
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for _, s := range types {
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gt.Values = append(gt.Values, genV{Primitive: s, Size: mapvaltypes2[s]})
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if s != "uint8" { // do not generate fast path for slice of bytes. Treat specially already.
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gt.Values = append(gt.Values, genV{Elem: s, Size: mapvaltypes2[s]})
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}
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if _, ok := mapvaltypes2[s]; !ok {
gt.Values = append(gt.Values, genV{MapKey: s, Elem: s, Size: 2 * mapvaltypes2[s]})
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}
for _, ms := range mapvaltypes {
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gt.Values = append(gt.Values, genV{MapKey: s, Elem: ms, Size: mapvaltypes2[s] + mapvaltypes2[ms]})
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}
}
funcs := make(template.FuncMap)
// funcs["haspfx"] = strings.HasPrefix
funcs["encmd"] = genInternalEncCommandAsString
funcs["decmd"] = genInternalDecCommandAsString
funcs["zerocmd"] = genInternalZeroValue
funcs["hasprefix"] = strings.HasPrefix
funcs["sorttype"] = genInternalSortType
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genInternalV = gt
genInternalTmplFuncs = funcs
}
// genInternalGoFile is used to generate source files from templates.
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// It is run by the program author alone.
// Unfortunately, it has to be exported so that it can be called from a command line tool.
// *** DO NOT USE ***
func genInternalGoFile(r io.Reader, w io.Writer, safe bool) (err error) {
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genInternalOnce.Do(genInternalInit)
gt := genInternalV
gt.Unsafe = !safe
t := template.New("").Funcs(genInternalTmplFuncs)
tmplstr, err := ioutil.ReadAll(r)
if err != nil {
return
}
if t, err = t.Parse(string(tmplstr)); err != nil {
return
}
var out bytes.Buffer
err = t.Execute(&out, gt)
if err != nil {
return
}
bout, err := format.Source(out.Bytes())
if err != nil {
w.Write(out.Bytes()) // write out if error, so we can still see.
// w.Write(bout) // write out if error, as much as possible, so we can still see.
return
}
w.Write(bout)
return
}