package document import ( "fmt" "math/big" "strconv" ) // Marshaler is an interface for a type that marshals a document to its protocol-specific byte representation and // returns the resulting bytes. A non-nil error will be returned if an error is encountered during marshaling. // // Marshal supports basic scalars (int,uint,float,bool,string), big.Int, and big.Float, maps, slices, and structs. // Anonymous nested types are flattened based on Go anonymous type visibility. // // When defining struct types. the `document` struct tag can be used to control how the value will be // marshaled into the resulting protocol document. // // // Field is ignored // Field int `document:"-"` // // // Field object of key "myName" // Field int `document:"myName"` // // // Field object key of key "myName", and // // Field is omitted if the field is a zero value for the type. // Field int `document:"myName,omitempty"` // // // Field object key of "Field", and // // Field is omitted if the field is a zero value for the type. // Field int `document:",omitempty"` // // All struct fields, including anonymous fields, are marshaled unless the // any of the following conditions are meet. // // - the field is not exported // - document field tag is "-" // - document field tag specifies "omitempty", and is a zero value. // // Pointer and interfaces values are encoded as the value pointed to or // contained in the interface. A nil value encodes as a null // value unless `omitempty` struct tag is provided. // // Channel, complex, and function values are not encoded and will be skipped // when walking the value to be marshaled. // // time.Time is not supported and will cause the Marshaler to return an error. These values should be represented // by your application as a string or numerical representation. // // Errors that occur when marshaling will stop the marshaller, and return the error. // // Marshal cannot represent cyclic data structures and will not handle them. // Passing cyclic structures to Marshal will result in an infinite recursion. type Marshaler interface { MarshalSmithyDocument() ([]byte, error) } // Unmarshaler is an interface for a type that unmarshalls a document from its protocol-specific representation, and // stores the result into the value pointed by v. If v is nil or not a pointer then InvalidUnmarshalError will be // returned. // // Unmarshaler supports the same encodings produced by a document Marshaler. This includes support for the `document` // struct field tag for controlling how struct fields are unmarshalled. // // Both generic interface{} and concrete types are valid unmarshal destination types. When unmarshalling a document // into an empty interface the Unmarshaler will store one of these values: // bool, for boolean values // document.Number, for arbitrary-precision numbers (int64, float64, big.Int, big.Float) // string, for string values // []interface{}, for array values // map[string]interface{}, for objects // nil, for null values // // When unmarshalling, any error that occurs will halt the unmarshal and return the error. type Unmarshaler interface { UnmarshalSmithyDocument(v interface{}) error } type noSerde interface { noSmithyDocumentSerde() } // NoSerde is a sentinel value to indicate that a given type should not be marshaled or unmarshalled // into a protocol document. type NoSerde struct{} func (n NoSerde) noSmithyDocumentSerde() {} var _ noSerde = (*NoSerde)(nil) // IsNoSerde returns whether the given type implements the no smithy document serde interface. func IsNoSerde(x interface{}) bool { _, ok := x.(noSerde) return ok } // Number is a arbitrary precision numerical value type Number string // Int64 returns the number as a string. func (n Number) String() string { return string(n) } // Int64 returns the number as an int64. func (n Number) Int64() (int64, error) { return n.intOfBitSize(64) } func (n Number) intOfBitSize(bitSize int) (int64, error) { return strconv.ParseInt(string(n), 10, bitSize) } // Uint64 returns the number as an uint64. func (n Number) Uint64() (uint64, error) { return n.uintOfBitSize(64) } func (n Number) uintOfBitSize(bitSize int) (uint64, error) { return strconv.ParseUint(string(n), 10, bitSize) } // Float32 returns the number parsed as a 32-bit float, returns a float64. func (n Number) Float32() (float64, error) { return n.floatOfBitSize(32) } // Float64 returns the number as a float64. func (n Number) Float64() (float64, error) { return n.floatOfBitSize(64) } // Float64 returns the number as a float64. func (n Number) floatOfBitSize(bitSize int) (float64, error) { return strconv.ParseFloat(string(n), bitSize) } // BigFloat attempts to convert the number to a big.Float, returns an error if the operation fails. func (n Number) BigFloat() (*big.Float, error) { f, ok := (&big.Float{}).SetString(string(n)) if !ok { return nil, fmt.Errorf("failed to convert to big.Float") } return f, nil } // BigInt attempts to convert the number to a big.Int, returns an error if the operation fails. func (n Number) BigInt() (*big.Int, error) { f, ok := (&big.Int{}).SetString(string(n), 10) if !ok { return nil, fmt.Errorf("failed to convert to big.Float") } return f, nil }