forked from cerc-io/ipld-eth-server
293dd2e848
* Add vendor dir so builds dont require dep * Pin specific version go-eth version
423 lines
12 KiB
Go
423 lines
12 KiB
Go
// Package reflectx implements extensions to the standard reflect lib suitable
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// for implementing marshalling and unmarshalling packages. The main Mapper type
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// allows for Go-compatible named attribute access, including accessing embedded
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// struct attributes and the ability to use functions and struct tags to
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// customize field names.
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//
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package reflectx
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import (
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"reflect"
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"runtime"
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"strings"
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"sync"
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)
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// A FieldInfo is metadata for a struct field.
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type FieldInfo struct {
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Index []int
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Path string
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Field reflect.StructField
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Zero reflect.Value
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Name string
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Options map[string]string
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Embedded bool
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Children []*FieldInfo
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Parent *FieldInfo
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}
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// A StructMap is an index of field metadata for a struct.
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type StructMap struct {
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Tree *FieldInfo
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Index []*FieldInfo
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Paths map[string]*FieldInfo
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Names map[string]*FieldInfo
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}
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// GetByPath returns a *FieldInfo for a given string path.
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func (f StructMap) GetByPath(path string) *FieldInfo {
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return f.Paths[path]
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}
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// GetByTraversal returns a *FieldInfo for a given integer path. It is
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// analogous to reflect.FieldByIndex, but using the cached traversal
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// rather than re-executing the reflect machinery each time.
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func (f StructMap) GetByTraversal(index []int) *FieldInfo {
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if len(index) == 0 {
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return nil
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}
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tree := f.Tree
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for _, i := range index {
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if i >= len(tree.Children) || tree.Children[i] == nil {
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return nil
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}
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tree = tree.Children[i]
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}
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return tree
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}
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// Mapper is a general purpose mapper of names to struct fields. A Mapper
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// behaves like most marshallers in the standard library, obeying a field tag
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// for name mapping but also providing a basic transform function.
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type Mapper struct {
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cache map[reflect.Type]*StructMap
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tagName string
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tagMapFunc func(string) string
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mapFunc func(string) string
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mutex sync.Mutex
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}
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// NewMapper returns a new mapper using the tagName as its struct field tag.
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// If tagName is the empty string, it is ignored.
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func NewMapper(tagName string) *Mapper {
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return &Mapper{
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cache: make(map[reflect.Type]*StructMap),
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tagName: tagName,
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}
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}
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// NewMapperTagFunc returns a new mapper which contains a mapper for field names
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// AND a mapper for tag values. This is useful for tags like json which can
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// have values like "name,omitempty".
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func NewMapperTagFunc(tagName string, mapFunc, tagMapFunc func(string) string) *Mapper {
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return &Mapper{
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cache: make(map[reflect.Type]*StructMap),
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tagName: tagName,
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mapFunc: mapFunc,
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tagMapFunc: tagMapFunc,
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}
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}
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// NewMapperFunc returns a new mapper which optionally obeys a field tag and
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// a struct field name mapper func given by f. Tags will take precedence, but
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// for any other field, the mapped name will be f(field.Name)
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func NewMapperFunc(tagName string, f func(string) string) *Mapper {
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return &Mapper{
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cache: make(map[reflect.Type]*StructMap),
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tagName: tagName,
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mapFunc: f,
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}
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}
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// TypeMap returns a mapping of field strings to int slices representing
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// the traversal down the struct to reach the field.
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func (m *Mapper) TypeMap(t reflect.Type) *StructMap {
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m.mutex.Lock()
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mapping, ok := m.cache[t]
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if !ok {
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mapping = getMapping(t, m.tagName, m.mapFunc, m.tagMapFunc)
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m.cache[t] = mapping
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}
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m.mutex.Unlock()
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return mapping
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}
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// FieldMap returns the mapper's mapping of field names to reflect values. Panics
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// if v's Kind is not Struct, or v is not Indirectable to a struct kind.
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func (m *Mapper) FieldMap(v reflect.Value) map[string]reflect.Value {
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v = reflect.Indirect(v)
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mustBe(v, reflect.Struct)
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r := map[string]reflect.Value{}
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tm := m.TypeMap(v.Type())
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for tagName, fi := range tm.Names {
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r[tagName] = FieldByIndexes(v, fi.Index)
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}
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return r
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}
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// FieldByName returns a field by its mapped name as a reflect.Value.
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// Panics if v's Kind is not Struct or v is not Indirectable to a struct Kind.
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// Returns zero Value if the name is not found.
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func (m *Mapper) FieldByName(v reflect.Value, name string) reflect.Value {
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v = reflect.Indirect(v)
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mustBe(v, reflect.Struct)
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tm := m.TypeMap(v.Type())
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fi, ok := tm.Names[name]
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if !ok {
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return v
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}
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return FieldByIndexes(v, fi.Index)
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}
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// FieldsByName returns a slice of values corresponding to the slice of names
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// for the value. Panics if v's Kind is not Struct or v is not Indirectable
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// to a struct Kind. Returns zero Value for each name not found.
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func (m *Mapper) FieldsByName(v reflect.Value, names []string) []reflect.Value {
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v = reflect.Indirect(v)
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mustBe(v, reflect.Struct)
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tm := m.TypeMap(v.Type())
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vals := make([]reflect.Value, 0, len(names))
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for _, name := range names {
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fi, ok := tm.Names[name]
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if !ok {
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vals = append(vals, *new(reflect.Value))
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} else {
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vals = append(vals, FieldByIndexes(v, fi.Index))
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}
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}
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return vals
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}
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// TraversalsByName returns a slice of int slices which represent the struct
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// traversals for each mapped name. Panics if t is not a struct or Indirectable
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// to a struct. Returns empty int slice for each name not found.
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func (m *Mapper) TraversalsByName(t reflect.Type, names []string) [][]int {
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t = Deref(t)
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mustBe(t, reflect.Struct)
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tm := m.TypeMap(t)
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r := make([][]int, 0, len(names))
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for _, name := range names {
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fi, ok := tm.Names[name]
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if !ok {
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r = append(r, []int{})
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} else {
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r = append(r, fi.Index)
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}
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}
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return r
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}
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// FieldByIndexes returns a value for the field given by the struct traversal
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// for the given value.
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func FieldByIndexes(v reflect.Value, indexes []int) reflect.Value {
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for _, i := range indexes {
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v = reflect.Indirect(v).Field(i)
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// if this is a pointer and it's nil, allocate a new value and set it
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if v.Kind() == reflect.Ptr && v.IsNil() {
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alloc := reflect.New(Deref(v.Type()))
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v.Set(alloc)
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}
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if v.Kind() == reflect.Map && v.IsNil() {
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v.Set(reflect.MakeMap(v.Type()))
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}
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}
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return v
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}
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// FieldByIndexesReadOnly returns a value for a particular struct traversal,
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// but is not concerned with allocating nil pointers because the value is
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// going to be used for reading and not setting.
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func FieldByIndexesReadOnly(v reflect.Value, indexes []int) reflect.Value {
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for _, i := range indexes {
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v = reflect.Indirect(v).Field(i)
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}
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return v
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}
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// Deref is Indirect for reflect.Types
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func Deref(t reflect.Type) reflect.Type {
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if t.Kind() == reflect.Ptr {
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t = t.Elem()
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}
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return t
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}
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// -- helpers & utilities --
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type kinder interface {
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Kind() reflect.Kind
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}
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// mustBe checks a value against a kind, panicing with a reflect.ValueError
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// if the kind isn't that which is required.
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func mustBe(v kinder, expected reflect.Kind) {
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if k := v.Kind(); k != expected {
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panic(&reflect.ValueError{Method: methodName(), Kind: k})
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}
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}
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// methodName returns the caller of the function calling methodName
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func methodName() string {
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pc, _, _, _ := runtime.Caller(2)
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f := runtime.FuncForPC(pc)
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if f == nil {
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return "unknown method"
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}
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return f.Name()
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}
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type typeQueue struct {
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t reflect.Type
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fi *FieldInfo
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pp string // Parent path
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}
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// A copying append that creates a new slice each time.
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func apnd(is []int, i int) []int {
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x := make([]int, len(is)+1)
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for p, n := range is {
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x[p] = n
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}
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x[len(x)-1] = i
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return x
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}
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type mapf func(string) string
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// parseName parses the tag and the target name for the given field using
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// the tagName (eg 'json' for `json:"foo"` tags), mapFunc for mapping the
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// field's name to a target name, and tagMapFunc for mapping the tag to
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// a target name.
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func parseName(field reflect.StructField, tagName string, mapFunc, tagMapFunc mapf) (tag, fieldName string) {
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// first, set the fieldName to the field's name
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fieldName = field.Name
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// if a mapFunc is set, use that to override the fieldName
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if mapFunc != nil {
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fieldName = mapFunc(fieldName)
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}
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// if there's no tag to look for, return the field name
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if tagName == "" {
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return "", fieldName
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}
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// if this tag is not set using the normal convention in the tag,
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// then return the fieldname.. this check is done because according
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// to the reflect documentation:
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// If the tag does not have the conventional format,
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// the value returned by Get is unspecified.
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// which doesn't sound great.
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if !strings.Contains(string(field.Tag), tagName+":") {
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return "", fieldName
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}
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// at this point we're fairly sure that we have a tag, so lets pull it out
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tag = field.Tag.Get(tagName)
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// if we have a mapper function, call it on the whole tag
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// XXX: this is a change from the old version, which pulled out the name
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// before the tagMapFunc could be run, but I think this is the right way
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if tagMapFunc != nil {
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tag = tagMapFunc(tag)
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}
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// finally, split the options from the name
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parts := strings.Split(tag, ",")
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fieldName = parts[0]
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return tag, fieldName
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}
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// parseOptions parses options out of a tag string, skipping the name
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func parseOptions(tag string) map[string]string {
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parts := strings.Split(tag, ",")
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options := make(map[string]string, len(parts))
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if len(parts) > 1 {
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for _, opt := range parts[1:] {
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// short circuit potentially expensive split op
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if strings.Contains(opt, "=") {
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kv := strings.Split(opt, "=")
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options[kv[0]] = kv[1]
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continue
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}
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options[opt] = ""
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}
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}
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return options
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}
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// getMapping returns a mapping for the t type, using the tagName, mapFunc and
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// tagMapFunc to determine the canonical names of fields.
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func getMapping(t reflect.Type, tagName string, mapFunc, tagMapFunc mapf) *StructMap {
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m := []*FieldInfo{}
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root := &FieldInfo{}
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queue := []typeQueue{}
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queue = append(queue, typeQueue{Deref(t), root, ""})
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QueueLoop:
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for len(queue) != 0 {
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// pop the first item off of the queue
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tq := queue[0]
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queue = queue[1:]
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// ignore recursive field
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for p := tq.fi.Parent; p != nil; p = p.Parent {
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if tq.fi.Field.Type == p.Field.Type {
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continue QueueLoop
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}
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}
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nChildren := 0
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if tq.t.Kind() == reflect.Struct {
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nChildren = tq.t.NumField()
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}
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tq.fi.Children = make([]*FieldInfo, nChildren)
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// iterate through all of its fields
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for fieldPos := 0; fieldPos < nChildren; fieldPos++ {
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f := tq.t.Field(fieldPos)
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// parse the tag and the target name using the mapping options for this field
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tag, name := parseName(f, tagName, mapFunc, tagMapFunc)
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// if the name is "-", disabled via a tag, skip it
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if name == "-" {
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continue
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}
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fi := FieldInfo{
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Field: f,
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Name: name,
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Zero: reflect.New(f.Type).Elem(),
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Options: parseOptions(tag),
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}
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// if the path is empty this path is just the name
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if tq.pp == "" {
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fi.Path = fi.Name
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} else {
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fi.Path = tq.pp + "." + fi.Name
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}
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// skip unexported fields
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if len(f.PkgPath) != 0 && !f.Anonymous {
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continue
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}
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// bfs search of anonymous embedded structs
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if f.Anonymous {
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pp := tq.pp
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if tag != "" {
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pp = fi.Path
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}
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fi.Embedded = true
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fi.Index = apnd(tq.fi.Index, fieldPos)
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nChildren := 0
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ft := Deref(f.Type)
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if ft.Kind() == reflect.Struct {
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nChildren = ft.NumField()
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}
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fi.Children = make([]*FieldInfo, nChildren)
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queue = append(queue, typeQueue{Deref(f.Type), &fi, pp})
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} else if fi.Zero.Kind() == reflect.Struct || (fi.Zero.Kind() == reflect.Ptr && fi.Zero.Type().Elem().Kind() == reflect.Struct) {
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fi.Index = apnd(tq.fi.Index, fieldPos)
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fi.Children = make([]*FieldInfo, Deref(f.Type).NumField())
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queue = append(queue, typeQueue{Deref(f.Type), &fi, fi.Path})
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}
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fi.Index = apnd(tq.fi.Index, fieldPos)
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fi.Parent = tq.fi
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tq.fi.Children[fieldPos] = &fi
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m = append(m, &fi)
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}
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}
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flds := &StructMap{Index: m, Tree: root, Paths: map[string]*FieldInfo{}, Names: map[string]*FieldInfo{}}
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for _, fi := range flds.Index {
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flds.Paths[fi.Path] = fi
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if fi.Name != "" && !fi.Embedded {
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flds.Names[fi.Path] = fi
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}
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}
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return flds
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}
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