open-nomad/jobspec2/parse_map.go

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package jobspec2
import (
"fmt"
"math"
"math/big"
"reflect"
"github.com/hashicorp/hcl/v2"
"github.com/mitchellh/reflectwalk"
"github.com/zclconf/go-cty/cty"
)
// decodeMapInterfaceType decodes hcl instances of `map[string]interface{}` fields
// of v.
//
// The HCL parser stores the hcl AST as the map values, and decodeMapInterfaceType
// evaluates the AST and converts them to the native golang types.
func decodeMapInterfaceType(v interface{}, ctx *hcl.EvalContext) hcl.Diagnostics {
w := &walker{ctx: ctx}
err := reflectwalk.Walk(v, w)
if err != nil {
w.diags = append(w.diags, &hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "unexpected internal error",
Detail: err.Error(),
})
}
return w.diags
}
type walker struct {
ctx *hcl.EvalContext
diags hcl.Diagnostics
}
var mapStringInterfaceType = reflect.TypeOf(map[string]interface{}{})
func (w *walker) Map(m reflect.Value) error {
if !m.Type().AssignableTo(mapStringInterfaceType) {
return nil
}
for _, k := range m.MapKeys() {
v := m.MapIndex(k)
if attr, ok := v.Interface().(*hcl.Attribute); ok {
c, diags := decodeInterface(attr.Expr, w.ctx)
w.diags = append(w.diags, diags...)
m.SetMapIndex(k, reflect.ValueOf(c))
}
}
return nil
}
func (w *walker) MapElem(m, k, v reflect.Value) error {
return nil
}
func decodeInterface(expr hcl.Expression, ctx *hcl.EvalContext) (interface{}, hcl.Diagnostics) {
srvVal, diags := expr.Value(ctx)
dst, err := interfaceFromCtyValue(srvVal)
if err != nil {
diags = append(diags, &hcl.Diagnostic{
Severity: hcl.DiagError,
Summary: "unsuitable value type",
Detail: fmt.Sprintf("Unsuitable value: %s", err.Error()),
Subject: expr.StartRange().Ptr(),
Context: expr.Range().Ptr(),
})
}
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return dst, diags
}
func interfaceFromCtyValue(val cty.Value) (interface{}, error) {
t := val.Type()
if val.IsNull() {
return nil, nil
}
if !val.IsKnown() {
return nil, fmt.Errorf("value is not known")
}
// The caller should've guaranteed that the given val is conformant with
// the given type t, so we'll proceed under that assumption here.
switch {
case t.IsPrimitiveType():
switch t {
case cty.String:
return val.AsString(), nil
case cty.Number:
if val.RawEquals(cty.PositiveInfinity) {
return math.Inf(1), nil
} else if val.RawEquals(cty.NegativeInfinity) {
return math.Inf(-1), nil
} else {
return smallestNumber(val.AsBigFloat()), nil
}
case cty.Bool:
return val.True(), nil
default:
panic("unsupported primitive type")
}
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case isCollectionOfMaps(t):
result := []map[string]interface{}{}
it := val.ElementIterator()
for it.Next() {
_, ev := it.Element()
evi, err := interfaceFromCtyValue(ev)
if err != nil {
return nil, err
}
result = append(result, evi.(map[string]interface{}))
}
return result, nil
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case t.IsListType(), t.IsSetType(), t.IsTupleType():
result := []interface{}{}
it := val.ElementIterator()
for it.Next() {
_, ev := it.Element()
evi, err := interfaceFromCtyValue(ev)
if err != nil {
return nil, err
}
result = append(result, evi)
}
return result, nil
case t.IsMapType():
result := map[string]interface{}{}
it := val.ElementIterator()
for it.Next() {
ek, ev := it.Element()
ekv := ek.AsString()
evv, err := interfaceFromCtyValue(ev)
if err != nil {
return nil, err
}
result[ekv] = evv
}
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return result, nil
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case t.IsObjectType():
result := map[string]interface{}{}
for k := range t.AttributeTypes() {
av := val.GetAttr(k)
avv, err := interfaceFromCtyValue(av)
if err != nil {
return nil, err
}
result[k] = avv
}
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return result, nil
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case t.IsCapsuleType():
rawVal := val.EncapsulatedValue()
return rawVal, nil
default:
// should never happen
return nil, fmt.Errorf("cannot serialize %s", t.FriendlyName())
}
}
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func isCollectionOfMaps(t cty.Type) bool {
switch {
case t.IsCollectionType():
et := t.ElementType()
return et.IsMapType() || et.IsObjectType()
case t.IsTupleType():
ets := t.TupleElementTypes()
for _, et := range ets {
if !et.IsMapType() && !et.IsObjectType() {
return false
}
}
return len(ets) > 0
default:
return false
}
}
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func smallestNumber(b *big.Float) interface{} {
if v, acc := b.Int64(); acc == big.Exact {
// check if it fits in int
if int64(int(v)) == v {
return int(v)
}
return v
}
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v, _ := b.Float64()
return v
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}