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conversion.go
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conversion.go
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/*
Copyright 2016 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 (
"bytes"
"fmt"
"io"
"path/filepath"
"sort"
"strings"
"k8s.io/gengo/args"
"k8s.io/gengo/generator"
"k8s.io/gengo/namer"
"k8s.io/gengo/types"
"k8s.io/kubernetes/pkg/util/sets"
"github.com/golang/glog"
)
// CustomArgs is used tby the go2idl framework to pass args specific to this
// generator.
type CustomArgs struct {
ExtraPeerDirs []string // Always consider these as last-ditch possibilities for conversions.
// Skipunsafe indicates whether to generate unsafe conversions to improve the efficiency
// of these operations. The unsafe operation is a direct pointer assignment via unsafe
// (within the allowed uses of unsafe) and is equivalent to a proposed Golang change to
// allow structs that are identical to be assigned to each other.
SkipUnsafe bool
}
// This is the comment tag that carries parameters for conversion generation.
const tagName = "k8s:conversion-gen"
func extractTag(comments []string) []string {
return types.ExtractCommentTags("+", comments)[tagName]
}
func isCopyOnly(comments []string) bool {
values := types.ExtractCommentTags("+", comments)["k8s:conversion-fn"]
return len(values) == 1 && values[0] == "copy-only"
}
func isDrop(comments []string) bool {
values := types.ExtractCommentTags("+", comments)["k8s:conversion-fn"]
return len(values) == 1 && values[0] == "drop"
}
// TODO: This is created only to reduce number of changes in a single PR.
// Remove it and use PublicNamer instead.
func conversionNamer() *namer.NameStrategy {
return &namer.NameStrategy{
Join: func(pre string, in []string, post string) string {
return strings.Join(in, "_")
},
PrependPackageNames: 1,
}
}
func defaultFnNamer() *namer.NameStrategy {
return &namer.NameStrategy{
Prefix: "SetDefaults_",
Join: func(pre string, in []string, post string) string {
return pre + strings.Join(in, "_") + post
},
}
}
// NameSystems returns the name system used by the generators in this package.
func NameSystems() namer.NameSystems {
return namer.NameSystems{
"public": conversionNamer(),
"raw": namer.NewRawNamer("", nil),
"defaultfn": defaultFnNamer(),
}
}
// 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 getPeerTypeFor(context *generator.Context, t *types.Type, potenialPeerPkgs []string) *types.Type {
for _, ppp := range potenialPeerPkgs {
p := context.Universe.Package(ppp)
if p == nil {
continue
}
if p.Has(t.Name.Name) {
return p.Type(t.Name.Name)
}
}
return nil
}
type conversionPair struct {
inType *types.Type
outType *types.Type
}
// All of the types in conversions map are of type "DeclarationOf" with
// the underlying type being "Func".
type conversionFuncMap map[conversionPair]*types.Type
// Returns all manually-defined conversion functions in the package.
func getManualConversionFunctions(context *generator.Context, pkg *types.Package, manualMap conversionFuncMap) {
scopeName := types.Ref(conversionPackagePath, "Scope").Name
errorName := types.Ref("", "error").Name
buffer := &bytes.Buffer{}
sw := generator.NewSnippetWriter(buffer, context, "$", "$")
for _, f := range pkg.Functions {
if f.Underlying == nil || f.Underlying.Kind != types.Func {
glog.Errorf("Malformed function: %#v", f)
continue
}
if f.Underlying.Signature == nil {
glog.Errorf("Function without signature: %#v", f)
continue
}
signature := f.Underlying.Signature
// Check whether the function is conversion function.
// Note that all of them have signature:
// func Convert_inType_To_outType(inType, outType, conversion.Scope) error
if signature.Receiver != nil {
continue
}
if len(signature.Parameters) != 3 || signature.Parameters[2].Name != scopeName {
continue
}
if len(signature.Results) != 1 || signature.Results[0].Name != errorName {
continue
}
inType := signature.Parameters[0]
outType := signature.Parameters[1]
if inType.Kind != types.Pointer || outType.Kind != types.Pointer {
continue
}
// Now check if the name satisfies the convention.
// TODO: This should call the Namer directly.
args := argsFromType(inType.Elem, outType.Elem)
sw.Do("Convert_$.inType|public$_To_$.outType|public$", args)
if f.Name.Name == buffer.String() {
key := conversionPair{inType.Elem, outType.Elem}
// We might scan the same package twice, and that's OK.
if v, ok := manualMap[key]; ok && v != nil && v.Name.Package != pkg.Path {
panic(fmt.Sprintf("duplicate static conversion defined: %#v", key))
}
manualMap[key] = f
}
buffer.Reset()
}
}
func Packages(context *generator.Context, arguments *args.GeneratorArgs) generator.Packages {
boilerplate, err := arguments.LoadGoBoilerplate()
if err != nil {
glog.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...)
header = append(header, []byte("\n// This file was autogenerated by conversion-gen. Do not edit it manually!\n\n")...)
// Accumulate pre-existing conversion functions.
// TODO: This is too ad-hoc. We need a better way.
manualConversions := conversionFuncMap{}
// Record types that are memory equivalent. A type is memory equivalent
// if it has the same memory layout and no nested manual conversion is
// defined.
// TODO: in the future, relax the nested manual conversion requirement
// if we can show that a large enough types are memory identical but
// have non-trivial conversion
memoryEquivalentTypes := equalMemoryTypes{}
// We are generating conversions only for packages that are explicitly
// passed as InputDir.
for i := range inputs {
glog.V(5).Infof("considering pkg %q", i)
pkg := context.Universe[i]
if pkg == nil {
// If the input had no Go files, for example.
continue
}
// Add conversion and defaulting functions.
getManualConversionFunctions(context, pkg, manualConversions)
// Only generate conversions for packages which explicitly request it
// by specifying one or more "+k8s:conversion-gen=<peer-pkg>"
// in their doc.go file.
peerPkgs := extractTag(pkg.Comments)
if peerPkgs != nil {
glog.V(5).Infof(" tags: %q", peerPkgs)
} else {
glog.V(5).Infof(" no tag")
continue
}
skipUnsafe := false
if customArgs, ok := arguments.CustomArgs.(*CustomArgs); ok {
if len(customArgs.ExtraPeerDirs) > 0 {
peerPkgs = append(peerPkgs, customArgs.ExtraPeerDirs...)
}
skipUnsafe = customArgs.SkipUnsafe
}
// Make sure our peer-packages are added and fully parsed.
for _, pp := range peerPkgs {
context.AddDir(pp)
getManualConversionFunctions(context, context.Universe[pp], manualConversions)
}
unsafeEquality := TypesEqual(memoryEquivalentTypes)
if skipUnsafe {
unsafeEquality = noEquality{}
}
packages = append(packages,
&generator.DefaultPackage{
PackageName: filepath.Base(pkg.Path),
PackagePath: pkg.Path,
HeaderText: header,
GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) {
return []generator.Generator{
NewGenConversion(arguments.OutputFileBaseName, pkg.Path, manualConversions, peerPkgs, unsafeEquality),
}
},
FilterFunc: func(c *generator.Context, t *types.Type) bool {
return t.Name.Package == pkg.Path
},
})
}
// If there is a manual conversion defined between two types, exclude it
// from being a candidate for unsafe conversion
for k, v := range manualConversions {
if isCopyOnly(v.CommentLines) {
glog.V(5).Infof("Conversion function %s will not block memory copy because it is copy-only", v.Name)
continue
}
// this type should be excluded from all equivalence, because the converter must be called.
memoryEquivalentTypes.Skip(k.inType, k.outType)
}
return packages
}
type equalMemoryTypes map[conversionPair]bool
func (e equalMemoryTypes) Skip(a, b *types.Type) {
e[conversionPair{a, b}] = false
e[conversionPair{b, a}] = false
}
func (e equalMemoryTypes) Equal(a, b *types.Type) bool {
if a == b {
return true
}
if equal, ok := e[conversionPair{a, b}]; ok {
return equal
}
if equal, ok := e[conversionPair{b, a}]; ok {
return equal
}
result := e.equal(a, b)
e[conversionPair{a, b}] = result
e[conversionPair{b, a}] = result
return result
}
func (e equalMemoryTypes) equal(a, b *types.Type) bool {
in, out := unwrapAlias(a), unwrapAlias(b)
switch {
case in == out:
return true
case in.Kind == out.Kind:
switch in.Kind {
case types.Struct:
if len(in.Members) != len(out.Members) {
return false
}
for i, inMember := range in.Members {
outMember := out.Members[i]
if !e.Equal(inMember.Type, outMember.Type) {
return false
}
}
return true
case types.Pointer:
return e.Equal(in.Elem, out.Elem)
case types.Map:
return e.Equal(in.Key, out.Key) && e.Equal(in.Elem, out.Elem)
case types.Slice:
return e.Equal(in.Elem, out.Elem)
case types.Interface:
// TODO: determine whether the interfaces are actually equivalent - for now, they must have the
// same type.
return false
case types.Builtin:
return in.Name.Name == out.Name.Name
}
}
return false
}
func findMember(t *types.Type, name string) (types.Member, bool) {
if t.Kind != types.Struct {
return types.Member{}, false
}
for _, member := range t.Members {
if member.Name == name {
return member, true
}
}
return types.Member{}, false
}
// unwrapAlias recurses down aliased types to find the bedrock type.
func unwrapAlias(in *types.Type) *types.Type {
for in.Kind == types.Alias {
in = in.Underlying
}
return in
}
const (
runtimePackagePath = "k8s.io/kubernetes/pkg/runtime"
conversionPackagePath = "k8s.io/kubernetes/pkg/conversion"
)
type noEquality struct{}
func (noEquality) Equal(_, _ *types.Type) bool { return false }
type TypesEqual interface {
Equal(a, b *types.Type) bool
}
// genConversion produces a file with a autogenerated conversions.
type genConversion struct {
generator.DefaultGen
targetPackage string
peerPackages []string
manualConversions conversionFuncMap
imports namer.ImportTracker
types []*types.Type
skippedFields map[*types.Type][]string
useUnsafe TypesEqual
}
func NewGenConversion(sanitizedName, targetPackage string, manualConversions conversionFuncMap, peerPkgs []string, useUnsafe TypesEqual) generator.Generator {
return &genConversion{
DefaultGen: generator.DefaultGen{
OptionalName: sanitizedName,
},
targetPackage: targetPackage,
peerPackages: peerPkgs,
manualConversions: manualConversions,
imports: generator.NewImportTracker(),
types: []*types.Type{},
skippedFields: map[*types.Type][]string{},
useUnsafe: useUnsafe,
}
}
func (g *genConversion) 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),
"publicIT": &namerPlusImportTracking{
delegate: conversionNamer(),
tracker: g.imports,
},
}
}
type namerPlusImportTracking struct {
delegate namer.Namer
tracker namer.ImportTracker
}
func (n *namerPlusImportTracking) Name(t *types.Type) string {
n.tracker.AddType(t)
return n.delegate.Name(t)
}
func (g *genConversion) convertibleOnlyWithinPackage(inType, outType *types.Type) bool {
var t *types.Type
var other *types.Type
if inType.Name.Package == g.targetPackage {
t, other = inType, outType
} else {
t, other = outType, inType
}
if t.Name.Package != g.targetPackage {
return false
}
// If the type has opted out, skip it.
tagvals := extractTag(t.CommentLines)
if tagvals != nil {
if tagvals[0] != "false" {
glog.Fatalf("Type %v: unsupported %s value: %q", t, tagName, tagvals[0])
}
glog.V(5).Infof("type %v requests no conversion generation, skipping", t)
return false
}
// TODO: Consider generating functions for other kinds too.
if t.Kind != types.Struct {
return false
}
// Also, filter out private types.
if namer.IsPrivateGoName(other.Name.Name) {
return false
}
return true
}
func (g *genConversion) Filter(c *generator.Context, t *types.Type) bool {
peerType := getPeerTypeFor(c, t, g.peerPackages)
if peerType == nil {
return false
}
if !g.convertibleOnlyWithinPackage(t, peerType) {
return false
}
g.types = append(g.types, t)
return true
}
func (g *genConversion) isOtherPackage(pkg string) bool {
if pkg == g.targetPackage {
return false
}
if strings.HasSuffix(pkg, `"`+g.targetPackage+`"`) {
return false
}
return true
}
func (g *genConversion) Imports(c *generator.Context) (imports []string) {
var importLines []string
for _, singleImport := range g.imports.ImportLines() {
if g.isOtherPackage(singleImport) {
importLines = append(importLines, singleImport)
}
}
return importLines
}
func argsFromType(inType, outType *types.Type) generator.Args {
return generator.Args{
"inType": inType,
"outType": outType,
}
}
func defaultingArgsFromType(inType *types.Type) generator.Args {
return generator.Args{
"inType": inType,
}
}
const nameTmpl = "Convert_$.inType|publicIT$_To_$.outType|publicIT$"
func (g *genConversion) preexists(inType, outType *types.Type) (*types.Type, bool) {
function, ok := g.manualConversions[conversionPair{inType, outType}]
return function, ok
}
func (g *genConversion) Init(c *generator.Context, w io.Writer) error {
if glog.V(5) {
if m, ok := g.useUnsafe.(equalMemoryTypes); ok {
var result []string
glog.Infof("All objects without identical memory layout:")
for k, v := range m {
if v {
continue
}
result = append(result, fmt.Sprintf(" %s -> %s = %t", k.inType, k.outType, v))
}
sort.Strings(result)
for _, s := range result {
glog.Infof(s)
}
}
}
sw := generator.NewSnippetWriter(w, c, "$", "$")
sw.Do("func init() {\n", nil)
sw.Do("SchemeBuilder.Register(RegisterConversions)\n", nil)
sw.Do("}\n", nil)
scheme := c.Universe.Type(types.Name{Package: runtimePackagePath, Name: "Scheme"})
schemePtr := &types.Type{
Kind: types.Pointer,
Elem: scheme,
}
sw.Do("// RegisterConversions adds conversion functions to the given scheme.\n", nil)
sw.Do("// Public to allow building arbitrary schemes.\n", nil)
sw.Do("func RegisterConversions(scheme $.|raw$) error {\n", schemePtr)
sw.Do("return scheme.AddGeneratedConversionFuncs(\n", nil)
for _, t := range g.types {
peerType := getPeerTypeFor(c, t, g.peerPackages)
sw.Do(nameTmpl+",\n", argsFromType(t, peerType))
sw.Do(nameTmpl+",\n", argsFromType(peerType, t))
}
sw.Do(")\n", nil)
sw.Do("}\n\n", nil)
return sw.Error()
}
func (g *genConversion) GenerateType(c *generator.Context, t *types.Type, w io.Writer) error {
glog.V(5).Infof("generating for type %v", t)
peerType := getPeerTypeFor(c, t, g.peerPackages)
sw := generator.NewSnippetWriter(w, c, "$", "$")
g.generateConversion(t, peerType, sw)
g.generateConversion(peerType, t, sw)
return sw.Error()
}
func (g *genConversion) generateConversion(inType, outType *types.Type, sw *generator.SnippetWriter) {
args := argsFromType(inType, outType).
With("Scope", types.Ref(conversionPackagePath, "Scope"))
sw.Do("func auto"+nameTmpl+"(in *$.inType|raw$, out *$.outType|raw$, s $.Scope|raw$) error {\n", args)
g.generateFor(inType, outType, sw)
sw.Do("return nil\n", nil)
sw.Do("}\n\n", nil)
if _, found := g.preexists(inType, outType); found {
// There is a public manual Conversion method: use it.
} else if skipped := g.skippedFields[inType]; len(skipped) != 0 {
// The inType had some fields we could not generate.
glog.Errorf("Warning: could not find nor generate a final Conversion function for %v -> %v", inType, outType)
glog.Errorf(" the following fields need manual conversion:")
for _, f := range skipped {
glog.Errorf(" - %v", f)
}
} else {
// Emit a public conversion function.
sw.Do("func "+nameTmpl+"(in *$.inType|raw$, out *$.outType|raw$, s $.Scope|raw$) error {\n", args)
sw.Do("return auto"+nameTmpl+"(in, out, s)\n", args)
sw.Do("}\n\n", nil)
}
}
// 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 *genConversion) generateFor(inType, outType *types.Type, sw *generator.SnippetWriter) {
glog.V(5).Infof("generating %v -> %v", inType, outType)
var f func(*types.Type, *types.Type, *generator.SnippetWriter)
switch inType.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.Alias:
f = g.doAlias
default:
f = g.doUnknown
}
f(inType, outType, sw)
}
func (g *genConversion) doBuiltin(inType, outType *types.Type, sw *generator.SnippetWriter) {
if inType == outType {
sw.Do("*out = *in\n", nil)
} else {
sw.Do("*out = $.|raw$(*in)\n", outType)
}
}
func (g *genConversion) doMap(inType, outType *types.Type, sw *generator.SnippetWriter) {
sw.Do("*out = make($.|raw$, len(*in))\n", outType)
if isDirectlyAssignable(inType.Key, outType.Key) {
sw.Do("for key, val := range *in {\n", nil)
if isDirectlyAssignable(inType.Elem, outType.Elem) {
if inType.Key == outType.Key {
sw.Do("(*out)[key] = ", nil)
} else {
sw.Do("(*out)[$.|raw$(key)] = ", outType.Key)
}
if inType.Elem == outType.Elem {
sw.Do("val\n", nil)
} else {
sw.Do("$.|raw$(val)\n", outType.Elem)
}
} else {
sw.Do("newVal := new($.|raw$)\n", outType.Elem)
if function, ok := g.preexists(inType.Elem, outType.Elem); ok {
sw.Do("if err := $.|raw$(&val, newVal, s); err != nil {\n", function)
} else if g.convertibleOnlyWithinPackage(inType.Elem, outType.Elem) {
sw.Do("if err := "+nameTmpl+"(&val, newVal, s); err != nil {\n", argsFromType(inType.Elem, outType.Elem))
} else {
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(&val, newVal, 0); err != nil {\n", nil)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
if inType.Key == outType.Key {
sw.Do("(*out)[key] = *newVal\n", nil)
} else {
sw.Do("(*out)[$.|raw$(key)] = *newVal\n", outType.Key)
}
}
} else {
// TODO: Implement it when necessary.
sw.Do("for range *in {\n", nil)
sw.Do("// FIXME: Converting unassignable keys unsupported $.|raw$\n", inType.Key)
}
sw.Do("}\n", nil)
}
func (g *genConversion) doSlice(inType, outType *types.Type, sw *generator.SnippetWriter) {
sw.Do("*out = make($.|raw$, len(*in))\n", outType)
if inType.Elem == outType.Elem && inType.Elem.Kind == types.Builtin {
sw.Do("copy(*out, *in)\n", nil)
} else {
sw.Do("for i := range *in {\n", nil)
if isDirectlyAssignable(inType.Elem, outType.Elem) {
if inType.Elem == outType.Elem {
sw.Do("(*out)[i] = (*in)[i]\n", nil)
} else {
sw.Do("(*out)[i] = $.|raw$((*in)[i])\n", outType.Elem)
}
} else {
if function, ok := g.preexists(inType.Elem, outType.Elem); ok {
sw.Do("if err := $.|raw$(&(*in)[i], &(*out)[i], s); err != nil {\n", function)
} else if g.convertibleOnlyWithinPackage(inType.Elem, outType.Elem) {
sw.Do("if err := "+nameTmpl+"(&(*in)[i], &(*out)[i], s); err != nil {\n", argsFromType(inType.Elem, outType.Elem))
} else {
// TODO: This triggers on v1.ObjectMeta <-> api.ObjectMeta and
// similar because neither package is the target package, and
// we really don't know which package will have the conversion
// function defined. This fires on basically every object
// conversion outside of pkg/api/v1.
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(&(*in)[i], &(*out)[i], 0); err != nil {\n", nil)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
}
sw.Do("}\n", nil)
}
}
func (g *genConversion) doStruct(inType, outType *types.Type, sw *generator.SnippetWriter) {
for _, inMember := range inType.Members {
if tagvals := extractTag(inMember.CommentLines); tagvals != nil && tagvals[0] == "false" {
// This field is excluded from conversion.
sw.Do("// INFO: in."+inMember.Name+" opted out of conversion generation\n", nil)
continue
}
outMember, found := findMember(outType, inMember.Name)
if !found {
// This field doesn't exist in the peer.
sw.Do("// WARNING: in."+inMember.Name+" requires manual conversion: does not exist in peer-type\n", nil)
g.skippedFields[inType] = append(g.skippedFields[inType], inMember.Name)
continue
}
inMemberType, outMemberType := inMember.Type, outMember.Type
// create a copy of both underlying types but give them the top level alias name (since aliases
// are assignable)
if underlying := unwrapAlias(inMemberType); underlying != inMemberType {
copied := *underlying
copied.Name = inMemberType.Name
inMemberType = &copied
}
if underlying := unwrapAlias(outMemberType); underlying != outMemberType {
copied := *underlying
copied.Name = outMemberType.Name
outMemberType = &copied
}
args := argsFromType(inMemberType, outMemberType).With("name", inMember.Name)
// try a direct memory copy for any type that has exactly equivalent values
if g.useUnsafe.Equal(inMemberType, outMemberType) {
args = args.
With("Pointer", types.Ref("unsafe", "Pointer")).
With("SliceHeader", types.Ref("reflect", "SliceHeader"))
switch inMemberType.Kind {
case types.Pointer:
sw.Do("out.$.name$ = ($.outType|raw$)($.Pointer|raw$(in.$.name$))\n", args)
continue
case types.Map:
sw.Do("out.$.name$ = *(*$.outType|raw$)($.Pointer|raw$(&in.$.name$))\n", args)
continue
case types.Slice:
sw.Do("out.$.name$ = *(*$.outType|raw$)($.Pointer|raw$(&in.$.name$))\n", args)
continue
}
}
// check based on the top level name, not the underlying names
if function, ok := g.preexists(inMember.Type, outMember.Type); ok {
if isDrop(function.CommentLines) {
continue
}
// copy-only functions that are directly assignable can be inlined instead of invoked.
// As an example, conversion functions exist that allow types with private fields to be
// correctly copied between types. These functions are equivalent to a memory assignment,
// and are necessary for the reflection path, but should not block memory conversion.
// Convert_unversioned_Time_to_unversioned_Time is an example of this logic.
if !isCopyOnly(function.CommentLines) || !g.isFastConversion(inMemberType, outMemberType) {
args["function"] = function
sw.Do("if err := $.function|raw$(&in.$.name$, &out.$.name$, s); err != nil {\n", args)
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
continue
}
glog.V(5).Infof("Skipped function %s because it is copy-only and we can use direct assignment", function.Name)
}
// If we can't auto-convert, punt before we emit any code.
if inMemberType.Kind != outMemberType.Kind {
sw.Do("// WARNING: in."+inMember.Name+" requires manual conversion: inconvertible types ("+
inMemberType.String()+" vs "+outMemberType.String()+")\n", nil)
g.skippedFields[inType] = append(g.skippedFields[inType], inMember.Name)
continue
}
switch inMemberType.Kind {
case types.Builtin:
if inMemberType == outMemberType {
sw.Do("out.$.name$ = in.$.name$\n", args)
} else {
sw.Do("out.$.name$ = $.outType|raw$(in.$.name$)\n", args)
}
case types.Map, types.Slice, types.Pointer:
if g.isDirectlyAssignable(inMemberType, outMemberType) {
sw.Do("out.$.name$ = in.$.name$\n", args)
continue
}
sw.Do("if in.$.name$ != nil {\n", args)
sw.Do("in, out := &in.$.name$, &out.$.name$\n", args)
g.generateFor(inMemberType, outMemberType, sw)
sw.Do("} else {\n", nil)
sw.Do("out.$.name$ = nil\n", args)
sw.Do("}\n", nil)
case types.Struct:
if g.isDirectlyAssignable(inMemberType, outMemberType) {
sw.Do("out.$.name$ = in.$.name$\n", args)
continue
}
if g.convertibleOnlyWithinPackage(inMemberType, outMemberType) {
sw.Do("if err := "+nameTmpl+"(&in.$.name$, &out.$.name$, s); err != nil {\n", args)
} else {
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(&in.$.name$, &out.$.name$, 0); err != nil {\n", args)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
case types.Alias:
if isDirectlyAssignable(inMemberType, outMemberType) {
if inMemberType == outMemberType {
sw.Do("out.$.name$ = in.$.name$\n", args)
} else {
sw.Do("out.$.name$ = $.outType|raw$(in.$.name$)\n", args)
}
} else {
if g.convertibleOnlyWithinPackage(inMemberType, outMemberType) {
sw.Do("if err := "+nameTmpl+"(&in.$.name$, &out.$.name$, s); err != nil {\n", args)
} else {
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(&in.$.name$, &out.$.name$, 0); err != nil {\n", args)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
}
default:
if g.convertibleOnlyWithinPackage(inMemberType, outMemberType) {
sw.Do("if err := "+nameTmpl+"(&in.$.name$, &out.$.name$, s); err != nil {\n", args)
} else {
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(&in.$.name$, &out.$.name$, 0); err != nil {\n", args)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
}
}
}
func (g *genConversion) isFastConversion(inType, outType *types.Type) bool {
switch inType.Kind {
case types.Builtin:
return true
case types.Map, types.Slice, types.Pointer, types.Struct, types.Alias:
return g.isDirectlyAssignable(inType, outType)
default:
return false
}
}
func (g *genConversion) isDirectlyAssignable(inType, outType *types.Type) bool {
return unwrapAlias(inType) == unwrapAlias(outType)
}
func (g *genConversion) doPointer(inType, outType *types.Type, sw *generator.SnippetWriter) {
sw.Do("*out = new($.Elem|raw$)\n", outType)
if isDirectlyAssignable(inType.Elem, outType.Elem) {
if inType.Elem == outType.Elem {
sw.Do("**out = **in\n", nil)
} else {
sw.Do("**out = $.|raw$(**in)\n", outType.Elem)
}
} else {
if function, ok := g.preexists(inType.Elem, outType.Elem); ok {
sw.Do("if err := $.|raw$(*in, *out, s); err != nil {\n", function)
} else if g.convertibleOnlyWithinPackage(inType.Elem, outType.Elem) {
sw.Do("if err := "+nameTmpl+"(*in, *out, s); err != nil {\n", argsFromType(inType.Elem, outType.Elem))
} else {
sw.Do("// TODO: Inefficient conversion - can we improve it?\n", nil)
sw.Do("if err := s.Convert(*in, *out, 0); err != nil {\n", nil)
}
sw.Do("return err\n", nil)
sw.Do("}\n", nil)
}
}
func (g *genConversion) doAlias(inType, outType *types.Type, sw *generator.SnippetWriter) {
// TODO: Add support for aliases.
g.doUnknown(inType, outType, sw)
}
func (g *genConversion) doUnknown(inType, outType *types.Type, sw *generator.SnippetWriter) {
sw.Do("// FIXME: Type $.|raw$ is unsupported.\n", inType)
}
func isDirectlyAssignable(inType, outType *types.Type) bool {
// TODO: This should maybe check for actual assignability between the two
// types, rather than superficial traits that happen to indicate it is
// assignable in the ways we currently use this code.
return inType.IsAssignable() && (inType.IsPrimitive() || isSamePackage(inType, outType))
}
func isSamePackage(inType, outType *types.Type) bool {
return inType.Name.Package == outType.Name.Package
}