.. _examples_determ: examples/determ.cpp ################### :: #include using namespace bc; int main() { deterministic_wallet wallet; // Set seed. if (!wallet.set_seed("a219213f9b12422aa206d988e3e49607")) log_error() << "Error setting seed."; // Get an address from wallet... data_chunk pubkey = wallet.generate_public_key(2); payment_address addr; if (!set_public_key(addr, pubkey)) log_error() << "Error setting public key."; assert(addr.encoded() == "1E4vM9q25xsyDwWwdqHUWnwshdWC9PykmL"); // ... Get the corresponding private key. // Extract the secret parameter. secret_parameter secret = wallet.generate_secret(2); assert(encode_hex(secret) == "33cc7e35fbb78d17d207e53d0fe950d1db571be889b3ff87aec653e501759264"); // The secret parameter is used to compute the private key // by the elliptic curve formula. elliptic_curve_key privkey; if (!privkey.set_secret(secret)) log_error() << "Error set private key."; // Wallet generated public key should match corresponding public key // in the private key. assert(privkey.public_key() == pubkey); // Master public key data_chunk mpk = wallet.master_public_key(); assert(encode_hex(mpk) == "d996c1a50ca4a57a9dface614338a1d837cb339e08361cfaf66ffd7da8e21786a7142a014056439d579654d7bb58dd5724b93372b5efae62e76783300f2b6cb5"); // A master key can only generate public keys and not the private keys. deterministic_wallet wallet2; wallet2.set_master_public_key(mpk); assert(wallet2.generate_public_key(2) == pubkey); // Trying to generate the secret parameter will always return null_hash. assert(wallet2.generate_secret(2) == null_hash); return 0; }