k3s/vendor/k8s.io/gengo/examples/deepcopy-gen/generators/deepcopy.go

906 lines
28 KiB
Go

/*
Copyright 2015 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package generators
import (
"fmt"
"io"
"path/filepath"
"sort"
"strings"
"k8s.io/gengo/args"
"k8s.io/gengo/examples/set-gen/sets"
"k8s.io/gengo/generator"
"k8s.io/gengo/namer"
"k8s.io/gengo/types"
"k8s.io/klog"
)
// CustomArgs is used tby the go2idl framework to pass args specific to this
// generator.
type CustomArgs struct {
BoundingDirs []string // Only deal with types rooted under these dirs.
}
// This is the comment tag that carries parameters for deep-copy generation.
const (
tagName = "k8s:deepcopy-gen"
interfacesTagName = tagName + ":interfaces"
interfacesNonPointerTagName = tagName + ":nonpointer-interfaces" // attach the DeepCopy<Interface> methods to the
)
// Known values for the comment tag.
const tagValuePackage = "package"
// tagValue holds parameters from a tagName tag.
type tagValue struct {
value string
register bool
}
func extractTag(comments []string) *tagValue {
tagVals := types.ExtractCommentTags("+", comments)[tagName]
if tagVals == nil {
// No match for the tag.
return nil
}
// If there are multiple values, abort.
if len(tagVals) > 1 {
klog.Fatalf("Found %d %s tags: %q", len(tagVals), tagName, tagVals)
}
// If we got here we are returning something.
tag := &tagValue{}
// Get the primary value.
parts := strings.Split(tagVals[0], ",")
if len(parts) >= 1 {
tag.value = parts[0]
}
// Parse extra arguments.
parts = parts[1:]
for i := range parts {
kv := strings.SplitN(parts[i], "=", 2)
k := kv[0]
v := ""
if len(kv) == 2 {
v = kv[1]
}
switch k {
case "register":
if v != "false" {
tag.register = true
}
default:
klog.Fatalf("Unsupported %s param: %q", tagName, parts[i])
}
}
return tag
}
// TODO: This is created only to reduce number of changes in a single PR.
// Remove it and use PublicNamer instead.
func deepCopyNamer() *namer.NameStrategy {
return &namer.NameStrategy{
Join: func(pre string, in []string, post string) string {
return strings.Join(in, "_")
},
PrependPackageNames: 1,
}
}
// NameSystems returns the name system used by the generators in this package.
func NameSystems() namer.NameSystems {
return namer.NameSystems{
"public": deepCopyNamer(),
"raw": namer.NewRawNamer("", nil),
}
}
// DefaultNameSystem returns the default name system for ordering the types to be
// processed by the generators in this package.
func DefaultNameSystem() string {
return "public"
}
func Packages(context *generator.Context, arguments *args.GeneratorArgs) generator.Packages {
boilerplate, err := arguments.LoadGoBoilerplate()
if err != nil {
klog.Fatalf("Failed loading boilerplate: %v", err)
}
inputs := sets.NewString(context.Inputs...)
packages := generator.Packages{}
header := append([]byte(fmt.Sprintf("// +build !%s\n\n", arguments.GeneratedBuildTag)), boilerplate...)
boundingDirs := []string{}
if customArgs, ok := arguments.CustomArgs.(*CustomArgs); ok {
if customArgs.BoundingDirs == nil {
customArgs.BoundingDirs = context.Inputs
}
for i := range customArgs.BoundingDirs {
// Strip any trailing slashes - they are not exactly "correct" but
// this is friendlier.
boundingDirs = append(boundingDirs, strings.TrimRight(customArgs.BoundingDirs[i], "/"))
}
}
for i := range inputs {
klog.V(5).Infof("Considering pkg %q", i)
pkg := context.Universe[i]
if pkg == nil {
// If the input had no Go files, for example.
continue
}
ptag := extractTag(pkg.Comments)
ptagValue := ""
ptagRegister := false
if ptag != nil {
ptagValue = ptag.value
if ptagValue != tagValuePackage {
klog.Fatalf("Package %v: unsupported %s value: %q", i, tagName, ptagValue)
}
ptagRegister = ptag.register
klog.V(5).Infof(" tag.value: %q, tag.register: %t", ptagValue, ptagRegister)
} else {
klog.V(5).Infof(" no tag")
}
// If the pkg-scoped tag says to generate, we can skip scanning types.
pkgNeedsGeneration := (ptagValue == tagValuePackage)
if !pkgNeedsGeneration {
// If the pkg-scoped tag did not exist, scan all types for one that
// explicitly wants generation.
for _, t := range pkg.Types {
klog.V(5).Infof(" considering type %q", t.Name.String())
ttag := extractTag(t.CommentLines)
if ttag != nil && ttag.value == "true" {
klog.V(5).Infof(" tag=true")
if !copyableType(t) {
klog.Fatalf("Type %v requests deepcopy generation but is not copyable", t)
}
pkgNeedsGeneration = true
break
}
}
}
if pkgNeedsGeneration {
klog.V(3).Infof("Package %q needs generation", i)
path := pkg.Path
// if the source path is within a /vendor/ directory (for example,
// k8s.io/kubernetes/vendor/k8s.io/apimachinery/pkg/apis/meta/v1), allow
// generation to output to the proper relative path (under vendor).
// Otherwise, the generator will create the file in the wrong location
// in the output directory.
// TODO: build a more fundamental concept in gengo for dealing with modifications
// to vendored packages.
if strings.HasPrefix(pkg.SourcePath, arguments.OutputBase) {
expandedPath := strings.TrimPrefix(pkg.SourcePath, arguments.OutputBase)
if strings.Contains(expandedPath, "/vendor/") {
path = expandedPath
}
}
packages = append(packages,
&generator.DefaultPackage{
PackageName: strings.Split(filepath.Base(pkg.Path), ".")[0],
PackagePath: path,
HeaderText: header,
GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) {
return []generator.Generator{
NewGenDeepCopy(arguments.OutputFileBaseName, pkg.Path, boundingDirs, (ptagValue == tagValuePackage), ptagRegister),
}
},
FilterFunc: func(c *generator.Context, t *types.Type) bool {
return t.Name.Package == pkg.Path
},
})
}
}
return packages
}
// genDeepCopy produces a file with autogenerated deep-copy functions.
type genDeepCopy struct {
generator.DefaultGen
targetPackage string
boundingDirs []string
allTypes bool
registerTypes bool
imports namer.ImportTracker
typesForInit []*types.Type
}
func NewGenDeepCopy(sanitizedName, targetPackage string, boundingDirs []string, allTypes, registerTypes bool) generator.Generator {
return &genDeepCopy{
DefaultGen: generator.DefaultGen{
OptionalName: sanitizedName,
},
targetPackage: targetPackage,
boundingDirs: boundingDirs,
allTypes: allTypes,
registerTypes: registerTypes,
imports: generator.NewImportTracker(),
typesForInit: make([]*types.Type, 0),
}
}
func (g *genDeepCopy) Namers(c *generator.Context) namer.NameSystems {
// Have the raw namer for this file track what it imports.
return namer.NameSystems{
"raw": namer.NewRawNamer(g.targetPackage, g.imports),
}
}
func (g *genDeepCopy) Filter(c *generator.Context, t *types.Type) bool {
// Filter out types not being processed or not copyable within the package.
enabled := g.allTypes
if !enabled {
ttag := extractTag(t.CommentLines)
if ttag != nil && ttag.value == "true" {
enabled = true
}
}
if !enabled {
return false
}
if !copyableType(t) {
klog.V(2).Infof("Type %v is not copyable", t)
return false
}
klog.V(4).Infof("Type %v is copyable", t)
g.typesForInit = append(g.typesForInit, t)
return true
}
func (g *genDeepCopy) copyableAndInBounds(t *types.Type) bool {
if !copyableType(t) {
return false
}
// Only packages within the restricted range can be processed.
if !isRootedUnder(t.Name.Package, g.boundingDirs) {
return false
}
return true
}
// deepCopyMethod returns the signature of a DeepCopy() method, nil or an error
// if the type does not match. This allows more efficient deep copy
// implementations to be defined by the type's author. The correct signature
// for a type T is:
// func (t T) DeepCopy() T
// or:
// func (t *T) DeepCopy() *T
func deepCopyMethod(t *types.Type) (*types.Signature, error) {
f, found := t.Methods["DeepCopy"]
if !found {
return nil, nil
}
if len(f.Signature.Parameters) != 0 {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected no parameters", t)
}
if len(f.Signature.Results) != 1 {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected exactly one result", t)
}
ptrResult := f.Signature.Results[0].Kind == types.Pointer && f.Signature.Results[0].Elem.Name == t.Name
nonPtrResult := f.Signature.Results[0].Name == t.Name
if !ptrResult && !nonPtrResult {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected to return %s or *%s", t, t.Name.Name, t.Name.Name)
}
ptrRcvr := f.Signature.Receiver != nil && f.Signature.Receiver.Kind == types.Pointer && f.Signature.Receiver.Elem.Name == t.Name
nonPtrRcvr := f.Signature.Receiver != nil && f.Signature.Receiver.Name == t.Name
if ptrRcvr && !ptrResult {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected a *%s result for a *%s receiver", t, t.Name.Name, t.Name.Name)
}
if nonPtrRcvr && !nonPtrResult {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected a %s result for a %s receiver", t, t.Name.Name, t.Name.Name)
}
return f.Signature, nil
}
// deepCopyMethodOrDie returns the signatrue of a DeepCopy method, nil or calls klog.Fatalf
// if the type does not match.
func deepCopyMethodOrDie(t *types.Type) *types.Signature {
ret, err := deepCopyMethod(t)
if err != nil {
klog.Fatal(err)
}
return ret
}
// deepCopyIntoMethod returns the signature of a DeepCopyInto() method, nil or an error
// if the type is wrong. DeepCopyInto allows more efficient deep copy
// implementations to be defined by the type's author. The correct signature
// for a type T is:
// func (t T) DeepCopyInto(t *T)
// or:
// func (t *T) DeepCopyInto(t *T)
func deepCopyIntoMethod(t *types.Type) (*types.Signature, error) {
f, found := t.Methods["DeepCopyInto"]
if !found {
return nil, nil
}
if len(f.Signature.Parameters) != 1 {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected exactly one parameter", t)
}
if len(f.Signature.Results) != 0 {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected no result type", t)
}
ptrParam := f.Signature.Parameters[0].Kind == types.Pointer && f.Signature.Parameters[0].Elem.Name == t.Name
if !ptrParam {
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected parameter of type *%s", t, t.Name.Name)
}
ptrRcvr := f.Signature.Receiver != nil && f.Signature.Receiver.Kind == types.Pointer && f.Signature.Receiver.Elem.Name == t.Name
nonPtrRcvr := f.Signature.Receiver != nil && f.Signature.Receiver.Name == t.Name
if !ptrRcvr && !nonPtrRcvr {
// this should never happen
return nil, fmt.Errorf("type %v: invalid DeepCopy signature, expected a receiver of type %s or *%s", t, t.Name.Name, t.Name.Name)
}
return f.Signature, nil
}
// deepCopyIntoMethodOrDie returns the signature of a DeepCopyInto() method, nil or calls klog.Fatalf
// if the type is wrong.
func deepCopyIntoMethodOrDie(t *types.Type) *types.Signature {
ret, err := deepCopyIntoMethod(t)
if err != nil {
klog.Fatal(err)
}
return ret
}
func isRootedUnder(pkg string, roots []string) bool {
// Add trailing / to avoid false matches, e.g. foo/bar vs foo/barn. This
// assumes that bounding dirs do not have trailing slashes.
pkg = pkg + "/"
for _, root := range roots {
if strings.HasPrefix(pkg, root+"/") {
return true
}
}
return false
}
func copyableType(t *types.Type) bool {
// If the type opts out of copy-generation, stop.
ttag := extractTag(t.CommentLines)
if ttag != nil && ttag.value == "false" {
return false
}
// Filter out private types.
if namer.IsPrivateGoName(t.Name.Name) {
return false
}
if t.Kind == types.Alias {
// if the underlying built-in is not deepcopy-able, deepcopy is opt-in through definition of custom methods.
// Note that aliases of builtins, maps, slices can have deepcopy methods.
if deepCopyMethodOrDie(t) != nil || deepCopyIntoMethodOrDie(t) != nil {
return true
} else {
return t.Underlying.Kind != types.Builtin || copyableType(t.Underlying)
}
}
if t.Kind != types.Struct {
return false
}
return true
}
func underlyingType(t *types.Type) *types.Type {
for t.Kind == types.Alias {
t = t.Underlying
}
return t
}
func (g *genDeepCopy) isOtherPackage(pkg string) bool {
if pkg == g.targetPackage {
return false
}
if strings.HasSuffix(pkg, "\""+g.targetPackage+"\"") {
return false
}
return true
}
func (g *genDeepCopy) Imports(c *generator.Context) (imports []string) {
importLines := []string{}
for _, singleImport := range g.imports.ImportLines() {
if g.isOtherPackage(singleImport) {
importLines = append(importLines, singleImport)
}
}
return importLines
}
func argsFromType(ts ...*types.Type) generator.Args {
a := generator.Args{
"type": ts[0],
}
for i, t := range ts {
a[fmt.Sprintf("type%d", i+1)] = t
}
return a
}
func (g *genDeepCopy) Init(c *generator.Context, w io.Writer) error {
return nil
}
func (g *genDeepCopy) needsGeneration(t *types.Type) bool {
tag := extractTag(t.CommentLines)
tv := ""
if tag != nil {
tv = tag.value
if tv != "true" && tv != "false" {
klog.Fatalf("Type %v: unsupported %s value: %q", t, tagName, tag.value)
}
}
if g.allTypes && tv == "false" {
// The whole package is being generated, but this type has opted out.
klog.V(5).Infof("Not generating for type %v because type opted out", t)
return false
}
if !g.allTypes && tv != "true" {
// The whole package is NOT being generated, and this type has NOT opted in.
klog.V(5).Infof("Not generating for type %v because type did not opt in", t)
return false
}
return true
}
func extractInterfacesTag(comments []string) []string {
var result []string
values := types.ExtractCommentTags("+", comments)[interfacesTagName]
for _, v := range values {
if len(v) == 0 {
continue
}
intfs := strings.Split(v, ",")
for _, intf := range intfs {
if intf == "" {
continue
}
result = append(result, intf)
}
}
return result
}
func extractNonPointerInterfaces(comments []string) (bool, error) {
values := types.ExtractCommentTags("+", comments)[interfacesNonPointerTagName]
if len(values) == 0 {
return false, nil
}
result := values[0] == "true"
for _, v := range values {
if v == "true" != result {
return false, fmt.Errorf("contradicting %v value %q found to previous value %v", interfacesNonPointerTagName, v, result)
}
}
return result, nil
}
func (g *genDeepCopy) deepCopyableInterfacesInner(c *generator.Context, t *types.Type) ([]*types.Type, error) {
if t.Kind != types.Struct {
return nil, nil
}
intfs := extractInterfacesTag(append(t.SecondClosestCommentLines, t.CommentLines...))
var ts []*types.Type
for _, intf := range intfs {
t := types.ParseFullyQualifiedName(intf)
c.AddDir(t.Package)
intfT := c.Universe.Type(t)
if intfT == nil {
return nil, fmt.Errorf("unknown type %q in %s tag of type %s", intf, interfacesTagName, intfT)
}
if intfT.Kind != types.Interface {
return nil, fmt.Errorf("type %q in %s tag of type %s is not an interface, but: %q", intf, interfacesTagName, t, intfT.Kind)
}
g.imports.AddType(intfT)
ts = append(ts, intfT)
}
return ts, nil
}
// deepCopyableInterfaces returns the interface types to implement and whether they apply to a non-pointer receiver.
func (g *genDeepCopy) deepCopyableInterfaces(c *generator.Context, t *types.Type) ([]*types.Type, bool, error) {
ts, err := g.deepCopyableInterfacesInner(c, t)
if err != nil {
return nil, false, err
}
set := map[string]*types.Type{}
for _, t := range ts {
set[t.String()] = t
}
result := []*types.Type{}
for _, t := range set {
result = append(result, t)
}
TypeSlice(result).Sort() // we need a stable sorting because it determines the order in generation
nonPointerReceiver, err := extractNonPointerInterfaces(append(t.SecondClosestCommentLines, t.CommentLines...))
if err != nil {
return nil, false, err
}
return result, nonPointerReceiver, nil
}
type TypeSlice []*types.Type
func (s TypeSlice) Len() int { return len(s) }
func (s TypeSlice) Less(i, j int) bool { return s[i].String() < s[j].String() }
func (s TypeSlice) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
func (s TypeSlice) Sort() { sort.Sort(s) }
func (g *genDeepCopy) GenerateType(c *generator.Context, t *types.Type, w io.Writer) error {
if !g.needsGeneration(t) {
return nil
}
klog.V(5).Infof("Generating deepcopy function for type %v", t)
sw := generator.NewSnippetWriter(w, c, "$", "$")
args := argsFromType(t)
if deepCopyIntoMethodOrDie(t) == nil {
sw.Do("// DeepCopyInto is an autogenerated deepcopy function, copying the receiver, writing into out. in must be non-nil.\n", args)
if isReference(t) {
sw.Do("func (in $.type|raw$) DeepCopyInto(out *$.type|raw$) {\n", args)
sw.Do("{in:=&in\n", nil)
} else {
sw.Do("func (in *$.type|raw$) DeepCopyInto(out *$.type|raw$) {\n", args)
}
if deepCopyMethodOrDie(t) != nil {
if t.Methods["DeepCopy"].Signature.Receiver.Kind == types.Pointer {
sw.Do("clone := in.DeepCopy()\n", nil)
sw.Do("*out = *clone\n", nil)
} else {
sw.Do("*out = in.DeepCopy()\n", nil)
}
sw.Do("return\n", nil)
} else {
g.generateFor(t, sw)
sw.Do("return\n", nil)
}
if isReference(t) {
sw.Do("}\n", nil)
}
sw.Do("}\n\n", nil)
}
if deepCopyMethodOrDie(t) == nil {
sw.Do("// DeepCopy is an autogenerated deepcopy function, copying the receiver, creating a new $.type|raw$.\n", args)
if isReference(t) {
sw.Do("func (in $.type|raw$) DeepCopy() $.type|raw$ {\n", args)
} else {
sw.Do("func (in *$.type|raw$) DeepCopy() *$.type|raw$ {\n", args)
}
sw.Do("if in == nil { return nil }\n", nil)
sw.Do("out := new($.type|raw$)\n", args)
sw.Do("in.DeepCopyInto(out)\n", nil)
if isReference(t) {
sw.Do("return *out\n", nil)
} else {
sw.Do("return out\n", nil)
}
sw.Do("}\n\n", nil)
}
intfs, nonPointerReceiver, err := g.deepCopyableInterfaces(c, t)
if err != nil {
return err
}
for _, intf := range intfs {
sw.Do(fmt.Sprintf("// DeepCopy%s is an autogenerated deepcopy function, copying the receiver, creating a new $.type2|raw$.\n", intf.Name.Name), argsFromType(t, intf))
if nonPointerReceiver {
sw.Do(fmt.Sprintf("func (in $.type|raw$) DeepCopy%s() $.type2|raw$ {\n", intf.Name.Name), argsFromType(t, intf))
sw.Do("return *in.DeepCopy()", nil)
sw.Do("}\n\n", nil)
} else {
sw.Do(fmt.Sprintf("func (in *$.type|raw$) DeepCopy%s() $.type2|raw$ {\n", intf.Name.Name), argsFromType(t, intf))
sw.Do("if c := in.DeepCopy(); c != nil {\n", nil)
sw.Do("return c\n", nil)
sw.Do("}\n", nil)
sw.Do("return nil\n", nil)
sw.Do("}\n\n", nil)
}
}
return sw.Error()
}
// isReference return true for pointer, maps, slices and aliases of those.
func isReference(t *types.Type) bool {
if t.Kind == types.Pointer || t.Kind == types.Map || t.Kind == types.Slice {
return true
}
return t.Kind == types.Alias && isReference(underlyingType(t))
}
// we use the system of shadowing 'in' and 'out' so that the same code is valid
// at any nesting level. This makes the autogenerator easy to understand, and
// the compiler shouldn't care.
func (g *genDeepCopy) generateFor(t *types.Type, sw *generator.SnippetWriter) {
// derive inner types if t is an alias. We call the do* methods below with the alias type.
// basic rule: generate according to inner type, but construct objects with the alias type.
ut := underlyingType(t)
var f func(*types.Type, *generator.SnippetWriter)
switch ut.Kind {
case types.Builtin:
f = g.doBuiltin
case types.Map:
f = g.doMap
case types.Slice:
f = g.doSlice
case types.Struct:
f = g.doStruct
case types.Pointer:
f = g.doPointer
case types.Interface:
// interfaces are handled in-line in the other cases
klog.Fatalf("Hit an interface type %v. This should never happen.", t)
case types.Alias:
// can never happen because we branch on the underlying type which is never an alias
klog.Fatalf("Hit an alias type %v. This should never happen.", t)
default:
klog.Fatalf("Hit an unsupported type %v.", t)
}
f(t, sw)
}
// doBuiltin generates code for a builtin or an alias to a builtin. The generated code is
// is the same for both cases, i.e. it's the code for the underlying type.
func (g *genDeepCopy) doBuiltin(t *types.Type, sw *generator.SnippetWriter) {
if deepCopyMethodOrDie(t) != nil || deepCopyIntoMethodOrDie(t) != nil {
sw.Do("*out = in.DeepCopy()\n", nil)
return
}
sw.Do("*out = *in\n", nil)
}
// doMap generates code for a map or an alias to a map. The generated code is
// is the same for both cases, i.e. it's the code for the underlying type.
func (g *genDeepCopy) doMap(t *types.Type, sw *generator.SnippetWriter) {
ut := underlyingType(t)
uet := underlyingType(ut.Elem)
if deepCopyMethodOrDie(t) != nil || deepCopyIntoMethodOrDie(t) != nil {
sw.Do("*out = in.DeepCopy()\n", nil)
return
}
if !ut.Key.IsAssignable() {
klog.Fatalf("Hit an unsupported type %v.", uet)
}
sw.Do("*out = make($.|raw$, len(*in))\n", t)
sw.Do("for key, val := range *in {\n", nil)
dc, dci := deepCopyMethodOrDie(ut.Elem), deepCopyIntoMethodOrDie(ut.Elem)
switch {
case dc != nil || dci != nil:
// Note: a DeepCopy exists because it is added if DeepCopyInto is manually defined
leftPointer := ut.Elem.Kind == types.Pointer
rightPointer := !isReference(ut.Elem)
if dc != nil {
rightPointer = dc.Results[0].Kind == types.Pointer
}
if leftPointer == rightPointer {
sw.Do("(*out)[key] = val.DeepCopy()\n", nil)
} else if leftPointer {
sw.Do("x := val.DeepCopy()\n", nil)
sw.Do("(*out)[key] = &x\n", nil)
} else {
sw.Do("(*out)[key] = *val.DeepCopy()\n", nil)
}
case ut.Elem.IsAnonymousStruct(): // not uet here because it needs type cast
sw.Do("(*out)[key] = val\n", nil)
case uet.IsAssignable():
sw.Do("(*out)[key] = val\n", nil)
case uet.Kind == types.Interface:
sw.Do("if val == nil {(*out)[key]=nil} else {\n", nil)
// Note: if t.Elem has been an alias "J" of an interface "I" in Go, we will see it
// as kind Interface of name "J" here, i.e. generate val.DeepCopyJ(). The golang
// parser does not give us the underlying interface name. So we cannot do any better.
sw.Do(fmt.Sprintf("(*out)[key] = val.DeepCopy%s()\n", uet.Name.Name), nil)
sw.Do("}\n", nil)
case uet.Kind == types.Slice || uet.Kind == types.Map || uet.Kind == types.Pointer:
sw.Do("var outVal $.|raw$\n", uet)
sw.Do("if val == nil { (*out)[key] = nil } else {\n", nil)
sw.Do("in, out := &val, &outVal\n", uet)
g.generateFor(ut.Elem, sw)
sw.Do("}\n", nil)
sw.Do("(*out)[key] = outVal\n", nil)
case uet.Kind == types.Struct:
sw.Do("(*out)[key] = *val.DeepCopy()\n", uet)
default:
klog.Fatalf("Hit an unsupported type %v.", uet)
}
sw.Do("}\n", nil)
}
// doSlice generates code for a slice or an alias to a slice. The generated code is
// is the same for both cases, i.e. it's the code for the underlying type.
func (g *genDeepCopy) doSlice(t *types.Type, sw *generator.SnippetWriter) {
ut := underlyingType(t)
uet := underlyingType(ut.Elem)
if deepCopyMethodOrDie(t) != nil || deepCopyIntoMethodOrDie(t) != nil {
sw.Do("*out = in.DeepCopy()\n", nil)
return
}
sw.Do("*out = make($.|raw$, len(*in))\n", t)
if deepCopyMethodOrDie(ut.Elem) != nil || deepCopyIntoMethodOrDie(ut.Elem) != nil {
sw.Do("for i := range *in {\n", nil)
// Note: a DeepCopyInto exists because it is added if DeepCopy is manually defined
sw.Do("(*in)[i].DeepCopyInto(&(*out)[i])\n", nil)
sw.Do("}\n", nil)
} else if uet.Kind == types.Builtin || uet.IsAssignable() {
sw.Do("copy(*out, *in)\n", nil)
} else {
sw.Do("for i := range *in {\n", nil)
if uet.Kind == types.Slice || uet.Kind == types.Map || uet.Kind == types.Pointer || deepCopyMethodOrDie(ut.Elem) != nil || deepCopyIntoMethodOrDie(ut.Elem) != nil {
sw.Do("if (*in)[i] != nil {\n", nil)
sw.Do("in, out := &(*in)[i], &(*out)[i]\n", nil)
g.generateFor(ut.Elem, sw)
sw.Do("}\n", nil)
} else if uet.Kind == types.Interface {
sw.Do("if (*in)[i] != nil {\n", nil)
// Note: if t.Elem has been an alias "J" of an interface "I" in Go, we will see it
// as kind Interface of name "J" here, i.e. generate val.DeepCopyJ(). The golang
// parser does not give us the underlying interface name. So we cannot do any better.
sw.Do(fmt.Sprintf("(*out)[i] = (*in)[i].DeepCopy%s()\n", uet.Name.Name), nil)
sw.Do("}\n", nil)
} else if uet.Kind == types.Struct {
sw.Do("(*in)[i].DeepCopyInto(&(*out)[i])\n", nil)
} else {
klog.Fatalf("Hit an unsupported type %v.", uet)
}
sw.Do("}\n", nil)
}
}
// doStruct generates code for a struct or an alias to a struct. The generated code is
// is the same for both cases, i.e. it's the code for the underlying type.
func (g *genDeepCopy) doStruct(t *types.Type, sw *generator.SnippetWriter) {
ut := underlyingType(t)
if deepCopyMethodOrDie(t) != nil || deepCopyIntoMethodOrDie(t) != nil {
sw.Do("*out = in.DeepCopy()\n", nil)
return
}
// Simple copy covers a lot of cases.
sw.Do("*out = *in\n", nil)
// Now fix-up fields as needed.
for _, m := range ut.Members {
ft := m.Type
uft := underlyingType(ft)
args := generator.Args{
"type": ft,
"kind": ft.Kind,
"name": m.Name,
}
dc, dci := deepCopyMethodOrDie(ft), deepCopyIntoMethodOrDie(ft)
switch {
case dc != nil || dci != nil:
// Note: a DeepCopyInto exists because it is added if DeepCopy is manually defined
leftPointer := ft.Kind == types.Pointer
rightPointer := !isReference(ft)
if dc != nil {
rightPointer = dc.Results[0].Kind == types.Pointer
}
if leftPointer == rightPointer {
sw.Do("out.$.name$ = in.$.name$.DeepCopy()\n", args)
} else if leftPointer {
sw.Do("x := in.$.name$.DeepCopy()\n", args)
sw.Do("out.$.name$ = = &x\n", args)
} else {
sw.Do("in.$.name$.DeepCopyInto(&out.$.name$)\n", args)
}
case uft.Kind == types.Builtin:
// the initial *out = *in was enough
case uft.Kind == types.Map, uft.Kind == types.Slice, uft.Kind == types.Pointer:
// Fixup non-nil reference-semantic types.
sw.Do("if in.$.name$ != nil {\n", args)
sw.Do("in, out := &in.$.name$, &out.$.name$\n", args)
g.generateFor(ft, sw)
sw.Do("}\n", nil)
case uft.Kind == types.Struct:
if ft.IsAssignable() {
sw.Do("out.$.name$ = in.$.name$\n", args)
} else {
sw.Do("in.$.name$.DeepCopyInto(&out.$.name$)\n", args)
}
case uft.Kind == types.Interface:
sw.Do("if in.$.name$ != nil {\n", args)
// Note: if t.Elem has been an alias "J" of an interface "I" in Go, we will see it
// as kind Interface of name "J" here, i.e. generate val.DeepCopyJ(). The golang
// parser does not give us the underlying interface name. So we cannot do any better.
sw.Do(fmt.Sprintf("out.$.name$ = in.$.name$.DeepCopy%s()\n", uft.Name.Name), args)
sw.Do("}\n", nil)
default:
klog.Fatalf("Hit an unsupported type %v.", uft)
}
}
}
// doPointer generates code for a pointer or an alias to a pointer. The generated code is
// is the same for both cases, i.e. it's the code for the underlying type.
func (g *genDeepCopy) doPointer(t *types.Type, sw *generator.SnippetWriter) {
ut := underlyingType(t)
uet := underlyingType(ut.Elem)
dc, dci := deepCopyMethodOrDie(ut.Elem), deepCopyIntoMethodOrDie(ut.Elem)
switch {
case dc != nil || dci != nil:
rightPointer := !isReference(ut.Elem)
if dc != nil {
rightPointer = dc.Results[0].Kind == types.Pointer
}
if rightPointer {
sw.Do("*out = (*in).DeepCopy()\n", nil)
} else {
sw.Do("x := (*in).DeepCopy()\n", nil)
sw.Do("*out = &x\n", nil)
}
case uet.IsAssignable():
sw.Do("*out = new($.Elem|raw$)\n", ut)
sw.Do("**out = **in", nil)
case uet.Kind == types.Map, uet.Kind == types.Slice, uet.Kind == types.Pointer:
sw.Do("*out = new($.Elem|raw$)\n", ut)
sw.Do("if **in != nil {\n", nil)
sw.Do("in, out := *in, *out\n", nil)
g.generateFor(uet, sw)
sw.Do("}\n", nil)
case uet.Kind == types.Struct:
sw.Do("*out = new($.Elem|raw$)\n", ut)
sw.Do("(*in).DeepCopyInto(*out)\n", nil)
default:
klog.Fatalf("Hit an unsupported type %v.", uet)
}
}