117 lines
4.5 KiB
Go
117 lines
4.5 KiB
Go
package plans
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import (
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"github.com/zclconf/go-cty/cty"
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ctymsgpack "github.com/zclconf/go-cty/cty/msgpack"
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)
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// DynamicValue is the representation in the plan of a value whose type cannot
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// be determined at compile time, such as because it comes from a schema
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// defined in a plugin.
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//
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// This type is used as an indirection so that the overall plan structure can
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// be decoded without schema available, and then the dynamic values accessed
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// at a later time once the appropriate schema has been determined.
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//
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// Internally, DynamicValue is a serialized version of a cty.Value created
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// against a particular type constraint. Callers should not access directly
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// the serialized form, whose format may change in future. Values of this
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// type must always be created by calling NewDynamicValue.
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//
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// The zero value of DynamicValue is nil, and represents the absense of a
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// value within the Go type system. This is distinct from a cty.NullVal
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// result, which represents the absense of a value within the cty type system.
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type DynamicValue []byte
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// NewDynamicValue creates a DynamicValue by serializing the given value
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// against the given type constraint. The value must conform to the type
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// constraint, or the result is undefined.
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//
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// If the value to be encoded has no predefined schema (for example, for
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// module output values and input variables), set the type constraint to
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// cty.DynamicPseudoType in order to save type information as part of the
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// value, and then also pass cty.DynamicPseudoType to method Decode to recover
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// the original value.
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//
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// cty.NilVal can be used to represent the absense of a value, but callers
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// must be careful to distinguish values that are absent at the Go layer
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// (cty.NilVal) vs. values that are absent at the cty layer (cty.NullVal
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// results).
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func NewDynamicValue(val cty.Value, ty cty.Type) (DynamicValue, error) {
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// If we're given cty.NilVal (the zero value of cty.Value, which is
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// distinct from a typed null value created by cty.NullVal) then we'll
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// assume the caller is trying to represent the _absense_ of a value,
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// and so we'll return a nil DynamicValue.
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if val == cty.NilVal {
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return DynamicValue(nil), nil
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}
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// Currently our internal encoding is msgpack, via ctymsgpack.
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buf, err := ctymsgpack.Marshal(val, ty)
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if err != nil {
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return nil, err
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}
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return DynamicValue(buf), nil
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}
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// NewDynamicValueMarks returns a new dynamic value along with a
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// associated marking info for the value
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func NewDynamicValueMarks(val cty.Value, ty cty.Type) (DynamicValue, error, *ctymsgpack.MarkInfo) {
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// If we're given cty.NilVal (the zero value of cty.Value, which is
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// distinct from a typed null value created by cty.NullVal) then we'll
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// assume the caller is trying to represent the _absense_ of a value,
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// and so we'll return a nil DynamicValue.
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if val == cty.NilVal {
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return DynamicValue(nil), nil, nil
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}
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// Currently our internal encoding is msgpack, via ctymsgpack.
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buf, err, marks := ctymsgpack.MarshalWithMarks(val, ty)
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if err != nil {
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return nil, err, marks
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}
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return DynamicValue(buf), nil, marks
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}
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// Decode retrieves the effective value from the receiever by interpreting the
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// serialized form against the given type constraint. For correct results,
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// the type constraint must match (or be consistent with) the one that was
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// used to create the receiver.
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//
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// A nil DynamicValue decodes to cty.NilVal, which is not a valid value and
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// instead represents the absense of a value.
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func (v DynamicValue) Decode(ty cty.Type) (cty.Value, error) {
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if v == nil {
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return cty.NilVal, nil
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}
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return ctymsgpack.Unmarshal([]byte(v), ty)
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}
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// ImpliedType returns the type implied by the serialized structure of the
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// receiving value.
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//
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// This will not necessarily be exactly the type that was given when the
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// value was encoded, and in particular must not be used for values that
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// were encoded with their static type given as cty.DynamicPseudoType.
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// It is however safe to use this method for values that were encoded using
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// their runtime type as the conforming type, with the result being
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// semantically equivalent but with all lists and sets represented as tuples,
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// and maps as objects, due to ambiguities of the serialization.
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func (v DynamicValue) ImpliedType() (cty.Type, error) {
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return ctymsgpack.ImpliedType([]byte(v))
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}
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// Copy produces a copy of the receiver with a distinct backing array.
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func (v DynamicValue) Copy() DynamicValue {
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if v == nil {
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return nil
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}
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ret := make(DynamicValue, len(v))
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copy(ret, v)
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return ret
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}
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