databricks-cli/libs/dyn/convert/normalize.go

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package convert
import (
"fmt"
"reflect"
"slices"
"strconv"
"github.com/databricks/cli/libs/diag"
"github.com/databricks/cli/libs/dyn"
"github.com/databricks/cli/libs/dyn/dynvar"
)
// NormalizeOption is the type for options that can be passed to Normalize.
type NormalizeOption int
const (
// IncludeMissingFields causes the normalization to include fields that defined on the given
// type but are missing in the source value. They are included with their zero values.
IncludeMissingFields NormalizeOption = iota
)
type normalizeOptions struct {
includeMissingFields bool
}
func Normalize(dst any, src dyn.Value, opts ...NormalizeOption) (dyn.Value, diag.Diagnostics) {
var n normalizeOptions
for _, opt := range opts {
switch opt {
case IncludeMissingFields:
n.includeMissingFields = true
}
}
return n.normalizeType(reflect.TypeOf(dst), src, []reflect.Type{}, dyn.EmptyPath)
}
func (n normalizeOptions) normalizeType(typ reflect.Type, src dyn.Value, seen []reflect.Type, path dyn.Path) (dyn.Value, diag.Diagnostics) {
for typ.Kind() == reflect.Pointer {
typ = typ.Elem()
}
switch typ.Kind() {
case reflect.Struct:
return n.normalizeStruct(typ, src, append(seen, typ), path)
case reflect.Map:
return n.normalizeMap(typ, src, append(seen, typ), path)
case reflect.Slice:
return n.normalizeSlice(typ, src, append(seen, typ), path)
case reflect.String:
return n.normalizeString(typ, src, path)
case reflect.Bool:
return n.normalizeBool(typ, src, path)
case reflect.Int, reflect.Int32, reflect.Int64:
return n.normalizeInt(typ, src, path)
case reflect.Float32, reflect.Float64:
return n.normalizeFloat(typ, src, path)
}
return dyn.InvalidValue, diag.Errorf("unsupported type: %s", typ.Kind())
}
func nullWarning(expected dyn.Kind, src dyn.Value, path dyn.Path) diag.Diagnostic {
return diag.Diagnostic{
Severity: diag.Warning,
Summary: fmt.Sprintf("expected a %s value, found null", expected),
Location: src.Location(),
Path: path,
}
}
func typeMismatch(expected dyn.Kind, src dyn.Value, path dyn.Path) diag.Diagnostic {
return diag.Diagnostic{
Severity: diag.Warning,
Summary: fmt.Sprintf("expected %s, found %s", expected, src.Kind()),
Location: src.Location(),
Path: path,
}
}
func (n normalizeOptions) normalizeStruct(typ reflect.Type, src dyn.Value, seen []reflect.Type, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
switch src.Kind() {
case dyn.KindMap:
out := dyn.NewMapping()
info := getStructInfo(typ)
for _, pair := range src.MustMap().Pairs() {
pk := pair.Key
pv := pair.Value
index, ok := info.Fields[pk.MustString()]
if !ok {
if !pv.IsAnchor() {
diags = diags.Append(diag.Diagnostic{
Severity: diag.Warning,
Summary: fmt.Sprintf("unknown field: %s", pk.MustString()),
Location: pk.Location(),
Path: path,
})
}
continue
}
// Normalize the value according to the field type.
nv, err := n.normalizeType(typ.FieldByIndex(index).Type, pv, seen, path.Append(dyn.Key(pk.MustString())))
if err != nil {
diags = diags.Extend(err)
// Skip the element if it cannot be normalized.
if !nv.IsValid() {
continue
}
}
out.Set(pk, nv)
}
// Return the normalized value if missing fields are not included.
if !n.includeMissingFields {
return dyn.NewValue(out, src.Location()), diags
}
// Populate missing fields with their zero values.
for k, index := range info.Fields {
if _, ok := out.GetByString(k); ok {
continue
}
// Optionally dereference pointers to get the underlying field type.
ftyp := typ.FieldByIndex(index).Type
for ftyp.Kind() == reflect.Pointer {
ftyp = ftyp.Elem()
}
// Skip field if we have already seen its type to avoid infinite recursion
// when filling in the zero value of a recursive type.
if slices.Contains(seen, ftyp) {
continue
}
var v dyn.Value
switch ftyp.Kind() {
case reflect.Struct, reflect.Map:
v, _ = n.normalizeType(ftyp, dyn.V(map[string]dyn.Value{}), seen, path.Append(dyn.Key(k)))
case reflect.Slice:
v, _ = n.normalizeType(ftyp, dyn.V([]dyn.Value{}), seen, path.Append(dyn.Key(k)))
case reflect.String:
v, _ = n.normalizeType(ftyp, dyn.V(""), seen, path.Append(dyn.Key(k)))
case reflect.Bool:
v, _ = n.normalizeType(ftyp, dyn.V(false), seen, path.Append(dyn.Key(k)))
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
v, _ = n.normalizeType(ftyp, dyn.V(int64(0)), seen, path.Append(dyn.Key(k)))
case reflect.Float32, reflect.Float64:
v, _ = n.normalizeType(ftyp, dyn.V(float64(0)), seen, path.Append(dyn.Key(k)))
default:
// Skip fields for which we do not have a natural [dyn.Value] equivalent.
// For example, we don't handle reflect.Complex* and reflect.Uint* types.
continue
}
if v.IsValid() {
out.Set(dyn.V(k), v)
}
}
return dyn.NewValue(out, src.Location()), diags
case dyn.KindNil:
return src, diags
}
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindMap, src, path))
}
func (n normalizeOptions) normalizeMap(typ reflect.Type, src dyn.Value, seen []reflect.Type, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
switch src.Kind() {
case dyn.KindMap:
out := dyn.NewMapping()
for _, pair := range src.MustMap().Pairs() {
pk := pair.Key
pv := pair.Value
// Normalize the value according to the map element type.
nv, err := n.normalizeType(typ.Elem(), pv, seen, path.Append(dyn.Key(pk.MustString())))
if err != nil {
diags = diags.Extend(err)
// Skip the element if it cannot be normalized.
if !nv.IsValid() {
continue
}
}
out.Set(pk, nv)
}
return dyn.NewValue(out, src.Location()), diags
case dyn.KindNil:
return src, diags
}
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindMap, src, path))
}
func (n normalizeOptions) normalizeSlice(typ reflect.Type, src dyn.Value, seen []reflect.Type, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
switch src.Kind() {
case dyn.KindSequence:
out := make([]dyn.Value, 0, len(src.MustSequence()))
for _, v := range src.MustSequence() {
// Normalize the value according to the slice element type.
v, err := n.normalizeType(typ.Elem(), v, seen, path.Append(dyn.Index(len(out))))
if err != nil {
diags = diags.Extend(err)
// Skip the element if it cannot be normalized.
if !v.IsValid() {
continue
}
}
out = append(out, v)
}
return dyn.NewValue(out, src.Location()), diags
case dyn.KindNil:
return src, diags
}
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindSequence, src, path))
}
func (n normalizeOptions) normalizeString(typ reflect.Type, src dyn.Value, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
var out string
switch src.Kind() {
case dyn.KindString:
out = src.MustString()
case dyn.KindBool:
out = strconv.FormatBool(src.MustBool())
case dyn.KindInt:
out = strconv.FormatInt(src.MustInt(), 10)
case dyn.KindFloat:
out = strconv.FormatFloat(src.MustFloat(), 'f', -1, 64)
case dyn.KindNil:
// Return a warning if the field is present but has a null value.
return dyn.InvalidValue, diags.Append(nullWarning(dyn.KindString, src, path))
default:
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindString, src, path))
}
return dyn.NewValue(out, src.Location()), diags
}
func (n normalizeOptions) normalizeBool(typ reflect.Type, src dyn.Value, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
var out bool
switch src.Kind() {
case dyn.KindBool:
out = src.MustBool()
case dyn.KindString:
// See https://github.com/go-yaml/yaml/blob/f6f7691b1fdeb513f56608cd2c32c51f8194bf51/decode.go#L684-L693.
switch src.MustString() {
case "true", "y", "Y", "yes", "Yes", "YES", "on", "On", "ON":
out = true
case "false", "n", "N", "no", "No", "NO", "off", "Off", "OFF":
out = false
default:
// Return verbatim if it's a pure variable reference.
if dynvar.IsPureVariableReference(src.MustString()) {
return src, nil
}
// Cannot interpret as a boolean.
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindBool, src, path))
}
case dyn.KindNil:
// Return a warning if the field is present but has a null value.
return dyn.InvalidValue, diags.Append(nullWarning(dyn.KindBool, src, path))
default:
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindBool, src, path))
}
return dyn.NewValue(out, src.Location()), diags
}
func (n normalizeOptions) normalizeInt(typ reflect.Type, src dyn.Value, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
var out int64
switch src.Kind() {
case dyn.KindInt:
out = src.MustInt()
case dyn.KindString:
var err error
out, err = strconv.ParseInt(src.MustString(), 10, 64)
if err != nil {
// Return verbatim if it's a pure variable reference.
if dynvar.IsPureVariableReference(src.MustString()) {
return src, nil
}
return dyn.InvalidValue, diags.Append(diag.Diagnostic{
Severity: diag.Warning,
Summary: fmt.Sprintf("cannot parse %q as an integer", src.MustString()),
Location: src.Location(),
Path: path,
})
}
case dyn.KindNil:
// Return a warning if the field is present but has a null value.
return dyn.InvalidValue, diags.Append(nullWarning(dyn.KindInt, src, path))
default:
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindInt, src, path))
}
return dyn.NewValue(out, src.Location()), diags
}
func (n normalizeOptions) normalizeFloat(typ reflect.Type, src dyn.Value, path dyn.Path) (dyn.Value, diag.Diagnostics) {
var diags diag.Diagnostics
var out float64
switch src.Kind() {
case dyn.KindFloat:
out = src.MustFloat()
case dyn.KindString:
var err error
out, err = strconv.ParseFloat(src.MustString(), 64)
if err != nil {
// Return verbatim if it's a pure variable reference.
if dynvar.IsPureVariableReference(src.MustString()) {
return src, nil
}
return dyn.InvalidValue, diags.Append(diag.Diagnostic{
Severity: diag.Warning,
Summary: fmt.Sprintf("cannot parse %q as a floating point number", src.MustString()),
Location: src.Location(),
Path: path,
})
}
case dyn.KindNil:
// Return a warning if the field is present but has a null value.
return dyn.InvalidValue, diags.Append(nullWarning(dyn.KindFloat, src, path))
default:
return dyn.InvalidValue, diags.Append(typeMismatch(dyn.KindFloat, src, path))
}
return dyn.NewValue(out, src.Location()), diags
}