/* Package std provides interface to StdLib native contract. It implements various useful conversion functions. */ package std import ( "github.com/nspcc-dev/neo-go/pkg/interop" "github.com/nspcc-dev/neo-go/pkg/interop/contract" ) // Hash represents StdLib contract hash. const Hash = "\xc0\xef\x39\xce\xe0\xe4\xe9\x25\xc6\xc2\xa0\x6a\x79\xe1\x44\x0d\xd8\x6f\xce\xac" // Serialize calls `serialize` method of StdLib native contract and serializes // any given item into a byte slice. It works for all regular VM types (not ones // from interop package) and allows to save them in storage or pass into Notify // and then Deserialize them on the next run or in the external event receiver. func Serialize(item interface{}) []byte { return contract.Call(interop.Hash160(Hash), "serialize", contract.NoneFlag, item).([]byte) } // Deserialize calls `deserialize` method of StdLib native contract and unpacks // previously serialized value from a byte slice, it's the opposite of Serialize. func Deserialize(b []byte) interface{} { return contract.Call(interop.Hash160(Hash), "deserialize", contract.NoneFlag, b) } // JSONSerialize serializes value to json. It uses `jsonSerialize` method of StdLib native // contract. // Serialization format is the following: // []byte -> base64 string // bool -> json boolean // nil -> Null // string -> base64 encoded sequence of underlying bytes // (u)int* -> integer, only value in -2^53..2^53 are allowed // []interface{} -> json array // map[type1]type2 -> json object with string keys marshaled as strings (not base64). func JSONSerialize(item interface{}) []byte { return contract.Call(interop.Hash160(Hash), "jsonSerialize", contract.NoneFlag, item).([]byte) } // JSONDeserialize deserializes value from json. It uses `jsonDeserialize` method of StdLib // native contract. // It performs deserialization as follows: // strings -> []byte (string) from base64 // integers -> (u)int* types // null -> interface{}(nil) // arrays -> []interface{} // maps -> map[string]interface{} func JSONDeserialize(data []byte) interface{} { return contract.Call(interop.Hash160(Hash), "jsonDeserialize", contract.NoneFlag, data) } // Base64Encode calls `base64Encode` method of StdLib native contract and encodes // given byte slice into a base64 string and returns byte representation of this // string. func Base64Encode(b []byte) string { return contract.Call(interop.Hash160(Hash), "base64Encode", contract.NoneFlag, b).(string) } // Base64Decode calls `base64Decode` method of StdLib native contract and decodes // given base64 string represented as a byte slice into byte slice. func Base64Decode(b []byte) []byte { return contract.Call(interop.Hash160(Hash), "base64Decode", contract.NoneFlag, b).([]byte) } // Base58Encode calls `base58Encode` method of StdLib native contract and encodes // given byte slice into a base58 string and returns byte representation of this // string. func Base58Encode(b []byte) string { return contract.Call(interop.Hash160(Hash), "base58Encode", contract.NoneFlag, b).(string) } // Base58Decode calls `base58Decode` method of StdLib native contract and decodes // given base58 string represented as a byte slice into a new byte slice. func Base58Decode(b []byte) []byte { return contract.Call(interop.Hash160(Hash), "base58Decode", contract.NoneFlag, b).([]byte) } // Itoa converts num in a given base to string. Base should be either 10 or 16. // It uses `itoa` method of StdLib native contract. func Itoa(num int, base int) string { return contract.Call(interop.Hash160(Hash), "itoa", contract.NoneFlag, num, base).(string) } // Itoa10 converts num in a base 10 to string. // It uses `itoa` method of StdLib native contract. func Itoa10(num int) string { return contract.Call(interop.Hash160(Hash), "itoa", contract.NoneFlag, num).(string) } // Atoi converts string to a number in a given base. Base should be either 10 or 16. // It uses `atoi` method of StdLib native contract. func Atoi(s string, base int) int { return contract.Call(interop.Hash160(Hash), "atoi", contract.NoneFlag, s, base).(int) } // Atoi10 converts string to a number in a base 10. // It uses `atoi` method of StdLib native contract. func Atoi10(s string) int { return contract.Call(interop.Hash160(Hash), "atoi", contract.NoneFlag, s).(int) } // MemoryCompare is similar to bytes.Compare: // The result will be 0 if a==b, -1 if a < b, and +1 if a > b. // It uses `memoryCompare` method of StdLib native contract. func MemoryCompare(s1, s2 []byte) int { return contract.Call(interop.Hash160(Hash), "memoryCompare", contract.NoneFlag, s1, s2).(int) } // MemorySearch returns index of the first occurrence of val in mem. // If not found, -1 is returned. It uses `memorySearch` method of StdLib native contract. func MemorySearch(mem, pattern []byte) int { return contract.Call(interop.Hash160(Hash), "memorySearch", contract.NoneFlag, mem, pattern).(int) } // MemorySearchIndex returns index of the first occurrence of val in mem starting from start. // If not found, -1 is returned. It uses `memorySearch` method of StdLib native contract. func MemorySearchIndex(mem, pattern []byte, start int) int { return contract.Call(interop.Hash160(Hash), "memorySearch", contract.NoneFlag, mem, pattern, start).(int) } // MemorySearchLastIndex returns index of the last occurrence of val in mem ending before start. // If not found, -1 is returned. It uses `memorySearch` method of StdLib native contract. func MemorySearchLastIndex(mem, pattern []byte, start int) int { return contract.Call(interop.Hash160(Hash), "memorySearch", contract.NoneFlag, mem, pattern, start, true).(int) } // StringSplit splits s by occurrences of sep. // It uses `stringSplit` method of StdLib native contract. func StringSplit(s, sep string) []string { return contract.Call(interop.Hash160(Hash), "stringSplit", contract.NoneFlag, s, sep).([]string) } // StringSplitNonEmpty splits s by occurrences of sep and returns a list of non-empty items. // It uses `stringSplit` method of StdLib native contract. func StringSplitNonEmpty(s, sep string) []string { return contract.Call(interop.Hash160(Hash), "stringSplit", contract.NoneFlag, s, sep, true).([]string) }