Note: This is a fork of the
go-cty/cty/json
package with a drop-in replacement of the stdlib'sjson
forgoccy/go-json
. All links and docs below relate to the original package which is intended to behave identically.
The json
package
allows cty
values to be serialized as JSON and decoded back into cty
values.
Since the cty
type system is a superset of the JSON type system, two modes
of operation are possible:
The recommended approach is to define the intended cty
data structure as
a cty.Type
-- possibly involving cty.DynamicPseudoType
placeholders --
which then allows full recovery of the original values with correct type
information, assuming that the same type description can be provided at
decoding time.
Alternatively, this package can decode an arbitrary JSON data structure into
the corresponding cty
types, which means that it is possible to serialize
a cty
value without type information and then decode into a value that
contains the same data but possibly uses different types to represent
that data. This allows direct integration with the standard library
encoding/json
package, at the expense of type-lossy deserialization.
The Marshal
and Unmarshal
functions together provide for type-preserving
serialization and deserialization (respectively) of cty
values.
The pattern for using these functions is to define the intended cty
type
as a cty.Type
instance and then pass an identical type as the second argument
to both Marshal
and Unmarshal
. Assuming an identical type is used for both
functions, it is guaranteed that values will round-trip through JSON
serialization to produce a value of the same type.
The cty.Type
passed to Unmarshal
is used as a hint to resolve ambiguities
in the mapping to JSON. For example, cty
list, set and tuple types all
lower to JSON arrays, so additional type information is needed to decide
which type to use when unmarshaling.
The cty.Type
passed to Marshal
serves a more subtle purpose. Any
cty.DynamicPseudoType
placeholders in the type will cause extra type
information to be saved in the JSON data structure, which is then used
by Unmarshal
to recover the original type.
Type-preserving JSON serialization is able to serialize and deserialize
capsule-typed values whose encapsulated Go types are JSON-serializable, except
when those values are conformed to a cty.DynamicPseudoType
. However, since
capsule values compare by pointer equality, a decoded value will not be
equal (as cty
defines it) with the value that produced it.
If a given application does not need to exactly preserve the type of a value,
the SimpleJSONValue
type provides a simpler method for JSON serialization
that works with the encoding/json
package in Go's standard library.
SimpleJSONValue
is a wrapper struct around cty.Value
, which can be
embedded into another struct used with the standard library Marshal
and
Unmarshal
functions:
type Example struct {
Name string `json:"name"`
Value SimpleJSONValue `json:"value"`
}
var example Example
example.Name = "Ermintrude"
example.Value = SimpleJSONValue{cty.NumberIntVal(43)}
Since no specific cty
type is available when unmarshalling into
SimpleJSONValue
, a straightforward mapping is used:
- JSON strings become
cty.String
values. - JSON numbers become
cty.Number
values. - JSON booleans become
cty.Bool
values. - JSON arrays become
cty.Tuple
-typed values whose element types are selected via this mapping. - JSON objects become
cty.Object
-typed values whose attribute types are selected via this mapping. - Any JSON
null
is mapped tocty.NullVal(cty.DynamicPseudoType)
.
The above mapping is unambiguous and lossless, so any valid JSON buffer can be
decoded into an equally-expressive cty
value, but the type may not exactly
match that of the value used to produce the JSON buffer in the first place.