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object.go
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object.go
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package values
import (
"regexp"
"strings"
"github.com/influxdata/flux/codes"
"github.com/influxdata/flux/internal/errors"
"github.com/influxdata/flux/semantic"
)
type Object interface {
Value
Get(name string) (Value, bool)
// Set will set the object value for the given key.
// The key must be part of the object property's type and the
// value that is set must match that type. It is undefined
// behavior to set a non-existant value or to set a value
// with the wrong type.
Set(name string, v Value)
Len() int
Range(func(name string, v Value))
}
// labelSet is a set of string labels.
type labelSet []string
// allLabels is a sentinal values indicating the set is the infinite set of all possible string labels.
const allLabels = "-all-"
// AllLabels returns a label set that represents the infinite set of all possible string labels.
func AllLabels() labelSet {
return labelSet{allLabels}
}
func (s labelSet) String() string {
if s.isAllLabels() {
return "L"
}
if len(s) == 0 {
return "∅"
}
var builder strings.Builder
builder.WriteString("(")
for i, l := range s {
if i != 0 {
builder.WriteString(", ")
}
builder.WriteString(l)
}
builder.WriteString(")")
return builder.String()
}
func (s labelSet) isAllLabels() bool {
return len(s) == 1 && s[0] == allLabels
}
type object struct {
labels labelSet
values []Value
typ semantic.MonoType
}
// NewObject will create a new object with the given type.
// The type must be of kind Row.
// The new object will be uninitialized and must be constructed
// with Set on each of the property keys before it is used.
func NewObject(typ semantic.MonoType) Object {
n, err := typ.NumProperties()
if err != nil {
panic(err)
}
labels := make(labelSet, n)
for i := 0; i < len(labels); i++ {
rp, err := typ.RecordProperty(i)
if err != nil {
panic(err)
}
labels[i] = rp.Name()
}
return &object{
labels: labels,
values: make([]Value, n),
typ: typ,
}
}
// ObjectSetter will set the value for the key.
// If the key already exists, it will be overwritten with the new value.
type ObjectSetter func(k string, v Value)
// BuildObject will build an object by setting key/value pairs.
// The records in the object get constructed in the order they
// are set and resetting a key will overwrite a previous value,
// but will retain the existing position.
func BuildObject(fn func(set ObjectSetter) error) (Object, error) {
return BuildObjectWithSize(0, fn)
}
// BuildObjectWithSize will build an object with an initial size.
func BuildObjectWithSize(sz int, fn func(set ObjectSetter) error) (Object, error) {
var (
keys []string
values []Value
)
if sz > 0 {
keys = make([]string, 0, sz)
values = make([]Value, 0, sz)
}
if err := fn(func(k string, v Value) {
for i := 0; i < len(keys); i++ {
if keys[i] == k {
values[i] = v
return
}
}
keys = append(keys, k)
values = append(values, v)
}); err != nil {
return nil, err
}
properties := make([]semantic.PropertyType, len(keys))
for i, k := range keys {
properties[i] = semantic.PropertyType{
Key: []byte(k),
Value: values[i].Type(),
}
}
typ := semantic.NewObjectType(properties)
object := NewObject(typ)
for i, k := range keys {
object.Set(k, values[i])
}
return object, nil
}
func NewObjectWithValues(vals map[string]Value) Object {
properties := make([]semantic.PropertyType, 0, len(vals))
for key, value := range vals {
properties = append(properties, semantic.PropertyType{
Key: []byte(key),
Value: value.Type(),
})
}
object := NewObject(semantic.NewObjectType(properties))
object.Range(func(name string, _ Value) {
object.Set(name, vals[name])
})
return object
}
func (o *object) IsNull() bool {
return false
}
func (o *object) Type() semantic.MonoType {
return o.typ
}
func (o *object) Set(k string, v Value) {
// Find the index of the object.
for i, l := range o.labels {
if k == l {
o.values[i] = v
return
}
}
panic(errors.Newf(codes.Internal, "key %q not defined in object", k))
}
func (o *object) Get(name string) (Value, bool) {
for i, l := range o.labels {
if name == l {
return o.values[i], true
}
}
return Null, false
}
func (o *object) Len() int {
return len(o.values)
}
func (o *object) Range(f func(name string, v Value)) {
for i, l := range o.labels {
f(l, o.values[i])
}
}
func (o *object) Str() string {
panic(UnexpectedKind(semantic.Object, semantic.String))
}
func (o *object) Bytes() []byte {
panic(UnexpectedKind(semantic.Object, semantic.Bytes))
}
func (o *object) Int() int64 {
panic(UnexpectedKind(semantic.Object, semantic.Int))
}
func (o *object) UInt() uint64 {
panic(UnexpectedKind(semantic.Object, semantic.UInt))
}
func (o *object) Float() float64 {
panic(UnexpectedKind(semantic.Object, semantic.Float))
}
func (o *object) Bool() bool {
panic(UnexpectedKind(semantic.Object, semantic.Bool))
}
func (o *object) Time() Time {
panic(UnexpectedKind(semantic.Object, semantic.Time))
}
func (o *object) Duration() Duration {
panic(UnexpectedKind(semantic.Object, semantic.Duration))
}
func (o *object) Regexp() *regexp.Regexp {
panic(UnexpectedKind(semantic.Object, semantic.Regexp))
}
func (o *object) Array() Array {
panic(UnexpectedKind(semantic.Object, semantic.Array))
}
func (o *object) Object() Object {
return o
}
func (o *object) Function() Function {
panic(UnexpectedKind(semantic.Object, semantic.Function))
}
func (o *object) Dict() Dictionary {
panic(UnexpectedKind(semantic.Object, semantic.Dictionary))
}
func (o *object) Equal(rhs Value) bool {
if rhs.Type().Nature() != semantic.Object {
return false
}
r := rhs.Object()
if o.Len() != r.Len() {
return false
}
for i, l := range o.labels {
val, ok := r.Get(l)
if !ok || !o.values[i].Equal(val) {
return false
}
}
return true
}