pywaves-with-base58

Object-oriented library for the Waves blockchain platform


Keywords
waves, blockchain, analytics
License
MIT
Install
pip install pywaves-with-base58==0.8.25-03

Documentation

PyWaves

PyWaves is an object-oriented Python interface to the Waves blockchain platform.

Getting Started

You can install PyWaves using:

pip install pywaves

Documentation

The library utilizes classes to represent various Waves data structures:

  • pywaves.Address
  • pywaves.Asset
  • pywaves.AssetPair
  • pywaves.Order

Code Example

import pywaves as pw

myAddress = pw.Address(privateKey='CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S')
otherAddress = pw.Address('3PNTcNiUzppQXDL9RZrK3BcftbujiFqrAfM')
myAddress.sendWaves(otherAddress, 10000000)
myToken = myAddress.issueAsset('Token1', 'My Token', 1000, 0)
while not myToken.status():
	pass
myAddress.sendAsset(otherAddress, myToken, 50)

Address Class

pywaves.Address(address, publicKey, privateKey, seed) Creates a new Address object

attributes:

  • address
  • publicKey
  • privateKey
  • seed

methods:

balance(assetId='', confirmations=0) returns balance of Waves or other assets

assets() returns a list of assets owned by the address

issueAsset(name, description, quantity, decimals=0, reissuable=False, txFee=DEFAULT_ASSET_FEE, timestamp=0) issue a new asset

reissueAsset(Asset, quantity, reissuable=False, txFee=DEFAULT_ASSET_FEE, timestamp=0) reissue an asset

burnAsset(Asset, quantity, txFee=DEFAULT_ASSET_FEE, timestamp=0) burn the specified quantity of an asset

sendWaves(recipient, amount, attachment='', txFee=DEFAULT_TX_FEE, timestamp=0) send specified amount of Waves to recipient

massTransferWaves(transfers, attachment='', timestamp=0) sending Waves tokens via a mass transfer

sendAsset(recipient, asset, amount, attachment='', txFee=DEFAULT_TX_FEE, timestamp=0) send specified amount of an asset to recipient

massTransferWaves(self, transfers, attachment='', timestamp=0) sending an asset via mass transfer

cancelOrder(assetPair, order) cancel an order

buy(assetPair, amount price, maxLifetime=30*86400, matcherFee=DEFAULT_MATCHER_FEE, timestamp=0) post a buy order

tradableBalance(assetPair) get tradable balance for the specified asset pair

sell(assetPair, amount, price, maxLifetime=30*86400, matcherFee=DEFAULT_MATCHER_FEE, timestamp=0) post a sell order

lease(recipient, amount, txFee=DEFAULT_LEASE_FEE, timestamp=0) post a lease transaction

leaseCancel(leaseId, txFee=DEFAULT_LEASE_FEE, timestamp=0) cancel a lease

getOrderHistory(assetPair) get order history for the specified asset pair

cancelOpenOrders(assetPair) cancel all open orders for the specified asset pair

deleteOrderHistory(assetPair) delete order history for the specified asset pair

createAlias(alias, txFee=DEFAULT_ALIAS_FEE, timestamp=0) create alias

sponsorAsset(assetId, minimalFeeInAssets, txFee=pywaves.DEFAULT_SPONSOR_FEE, timestamp=0) sponsoring assets

setScript(script, txFee=pywaves.DEFAULT_SCRIPT_FEE, timestamp=0) sets a script for this address

dataTransaction(data, timestamp=0) sets data for the account. data should be a json array with entries including type (bool, binary, int, string), key and value

deleteDataEntry(key) deletes a given data entry, identified by key, from the data storage of the account

setScript(scriptSource, txFee=pywaves.DEFAULT_SCRIPT_FEE, timestamp=0) issue a smart asset

setAssetScript(asset, scriptSource, txFee=pywaves.DEFAULT_ASSET_SCRIPT_FEE, timestamp=0) set a new script for a smart asset

invokeScript(dappAddress, functionName, params, payments, feeAsset = None, txFee=pywaves.DEFAULT_INVOKE_SCRIPT_FEE) invoke a script on a given dapp address

Asset Class

pywaves.Asset(assetId) Creates a new Asset object

attributes:

  • status
  • assetId
  • issuer
  • name
  • description
  • quantity
  • decimals = 0
  • reissuable = False

methods:

status() returns 'Issued' if the asset exists

AssetPair Class

pywaves.AssetPair(asset1, asset2) Creates a new AssetPair object with 2 Asset objects

attributes:

  • asset1
  • asset2

methods:

orderbook() get order book

ticker() get ticker with 24h ohlcv data

last() get traded price

open() get 24h open price

high() get 24h high price

low() get 24h low price

close() get 24h close price (same as last())

vwap() get 24h vwap price

volume() get 24h volume

priceVolume() get 24h price volume

trades(n) get the last n trades

trades(from, to) get the trades in from/to interval

candles(timeframe, n) get the last n candles in the specified timeframe

candles(timeframe, from, to) get the candles in from/to interval in the specified timeframe

Order Class

pywaves.Order(orderId, assetPair, address='') Creates a new Order object

attributes:

  • status
  • orderId
  • assetPair
  • address
  • matcher
  • matcherPublicKey

methods:

status() returns current order status cancel() cancel the order

WXFeeCalculator Class

This class is meant to provide the necessary functionality to calculate fees according to the new WX fee structure

All values here for price and amounts of tokens are always in the smallest unit of the token ("satoshis").

Methods:

calculateDynamicFee() calculates the dynamic fee for a trade

calculateDynamicDiscountFee() calculates the dynamic discounted fee for a trade

calculatePercentSellingFee(priceAssetId, amountAssetId, amountToSell) calculates the percentage selling fee for a trade

calculatePercentDiscountedSellingFee(priceAssetId, amountAssetId, amountToSell) calculates the discounted percentage selling fee for a trade

calculatePercentBuyingFee(priceAssetId, price, amountToBuy) calculates the percentage buying fee for a trade

calculatePercentDiscountedBuyingFee(priceAssetId, price, amountToBuy) calculates the discounted percentage buying fee for a trade

Example:

import pywaves as pw

config = {
    'amountAsset': 'WAVES',
    'priceAsset': '25FEqEjRkqK6yCkiT7Lz6SAYz7gUFCtxfCChnrVFD5AT',
    'privateKey': 'xxx'
}

pw.setNode('https://nodes-testnet.wavesnodes.com/', chain='testnet')
pw.setMatcher('http://matcher-testnet.waves.exchange')

wxFeeCalculator = pw.WXFeeCalculator()
address = pw.Address(privateKey=config['privateKey'])
tradingPair = pw.AssetPair(pw.Asset(config['amountAsset']), pw.Asset(config['priceAsset']))
price = 5
amountToBuy = 1000000000
matcherFee = wxFeeCalculator.calculatePercentDiscountedBuyingFee(config['priceAsset'], price, amountToBuy)
tx = address.buy(tradingPair, amountToBuy, price, matcherFee = matcherFee, matcherFeeAssetId = 'EMAMLxDnv3xiz8RXg8Btj33jcEw3wLczL3JKYYmuubpc')
print (tx)

Other functions

pywaves.setNode(node, chain, chain_id) set node URL ('http://ip-address:port') and chain (either 'mainnet' or 'testnet', or any other chain, if you also define the chain id)

pywaves.setChain(chain, chain_id) set chain (either 'mainnet' or 'testnet', or any other chain if you also supply the chain id)

pywaves.setOffline() switch to offline mode; sign tx locally without broadcasting to network

pywaves.setOnline() switch to online mode; sign tx locally a broadcast to network

pywaves.validateAddress(address) checks if the provided address is a valid Waves address

pywaves.setMatcher(node) set matcher URL ('http://ip-address:port')

pywaves.setDatafeed(node) set datafeed URL ('http://ip-address:port')

pywaves.height() get blockchain height

pywaves.lastblock() get last block

pywaves.block(n) get block at specified height

pywaves.tx(id) get transaction details

pywaves.stateChangeForTx(id): get the state changes for the given tx by id

pywaves.stateChangesForAddress(address, limit = 1000): get the last (with a default of 1000) state changes for the given address

pywaves.symbols() get list of symbol-asset mapping

pywaves.markets() get all traded markets with tickers

pywaves.{SYMBOL_NAME} get predefined asset for the specified symbol (pywaves.WAVES, pywaves.BTC, pywaves.USD,...)

Default Fees

The fees for waves/asset transfers, asset issue/reissue/burn and matcher transactions are set by default as follows:

  • DEFAULT_TX_FEE = 100000
  • DEFAULT_ASSET_FEE = 100000000
  • DEFAULT_MATCHER_FEE = 1000000
  • DEFAULT_LEASE_FEE = 100000
  • DEFAULT_ALIAS_FEE = 100000
  • DEFAULT_SPONSOR_FEE = 100000000
  • DEFAULT_SCRIPT_FEE = 100000

More Examples

Playing with addresses:

import pywaves as pw

# generate a new address
myAddress = pw.Address("<some address>")
myAddress._generate()

# set an address with an address
myAddress = pw.Address('3P6WfA4qYtkgwVAsWiiB6yaea2X8zyXncJh')

# get an existing address from seed
myAddress = pw.Address(seed='seven wrist bargain hope pattern banner plastic maple student chaos grit next space visa answer')

# get an existing address from privateKey
myAddress = pw.Address(privateKey='CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S')

# get an existing address from a publicKey
address = pw.Address(publicKey=EYNuSmW4Adtcc6AMCZyxkiHMPmF2BZ2XxvjpBip3UFZL”)

# get an address from a seed with a different nonce (This is especially useful for accessing addresses generated by nodes)
myAddress = pw.Address(seed='seven wrist bargain hope pattern banner plastic maple student chaos grit next space visa answer', nonce=1)

Balances:

import pywaves as pw

myAddress = pw.Address('3P6WfA4qYtkgwVAsWiiB6yaea2X8zyXncJh')

# get Waves balance
print("Your balance is %18d" % myAddress.balance())

# get Waves balance after 20 confirmations 
print("Your balance is %18d" % myAddress.balance(confirmations = 20))

# get an asset balance
print("Your asset balance is %18d" % myAddress.balance('DHgwrRvVyqJsepd32YbBqUeDH4GJ1N984X8QoekjgH8J'))

Waves and asset transfers:

import pywaves as pw

myAddress = pw.Address(privateKey='CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S')

# send Waves to another address
myAddress.sendWaves(recipient = pw.Address('3PNTcNiUzppQXDL9RZrK3BcftbujiFqrAfM'),
                    amount = 100000000)

# send asset to another address
myToken = pw.Asset('4ZzED8WJXsvuo2MEm2BmZ87Azw8Sx7TVC6ufSUA5LyTV')
myAddress.sendAsset(recipient = pw.Address('3PNTcNiUzppQXDL9RZrK3BcftbujiFqrAfM'),
                    asset = myToken,
                    amount = 1000)

Issuing an asset:

import pywaves as pw

myToken = myAddress.issueAsset( name = "MyToken",
                                description = "This is my first token",
                                quantity = 1000000,
                                decimals = 2 )

Create an alias:

import pywaves as pw

pw.setNode(node = 'http://127.0.0.1:6869', chain = 'testnet')

myAddress = pw.Address(privateKey='CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S')
myAddress.createAlias("MYALIAS1")

Mass payment:

import pywaves as pw

recipients =   ['3PBbp6bg2YEnHfdJtYM7jzzXYQeb7sx5oFg',
                '3P4A27aCd3skNja46pcgrLYEnK36TkSzgUp',
                '3P81U3ujotNUwZMWALdcJQLzBVbrAuUQMfs',
                '3PGcKEMwQcEbmeL8Jhe9nZQRBNCNdcHCoZP',
                '3PKjtzZ4FhKrJUikbQ1hRk5xbwVKDyTyvkn']

myAddress = pw.Address(privateKey = "CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S")

for address in recipients:
	myAddress.sendWaves(pw.Address(address), 1000000)

Mass transfer of Waves (feature 11)

import pywaves as pw

transfers = [
	{ 'recipient': '3N1xca2DY8AEwqRDAJpzUgY99eq8J9h4rB3', 'amount': 1 },
	{ 'recipient': '3N3YWbQ27NnK7tek6ASFh38Bj93guLxxSi1', 'amount': 2 },
	{ 'recipient': '3MwiB5UkWxt4X1qJ8DQpP2LpM3m48V1z5rC', 'amount': 3 }
]

address = pw.Address(privateKey = "CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S")
address.massTransferWaves(transfers)

Mass transfer of Assets (feature 11)

import pywaves as pw

transfers = [
	{ 'recipient': '3N1xca2DY8AEwqRDAJpzUgY99eq8J9h4rB3', 'amount': 1 },
	{ 'recipient': '3N3YWbQ27NnK7tek6ASFh38Bj93guLxxSi1', 'amount': 2 },
	{ 'recipient': '3MwiB5UkWxt4X1qJ8DQpP2LpM3m48V1z5rC', 'amount': 3 }
]

address = pw.Address(privateKey = "CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S")
address.massTransferAssets(transfers, pw.Asset('9DtBNdyBCyViLZHptyF1HbQk73F6s7nQ5dXhNHubtBhd'))

Data Transaction:

import pywaves as py

myAddress = py.Address(privateKey='CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S')

data = [{
        'type':'string', 
        'key': 'test', 
        'value':'testval'
        }]

myAddress.dataTransaction(data)

Token airdrop:

import pywaves as pw

myAddress = pw.Address(privateKey = '`')
myToken = pw.Asset('4ZzED8WJXsvuo2MEm2BmZ87Azw8Sx7TVC6ufSUA5LyTV')
amount = 1000

with open('recipients.txt') as f:
	lines = f.readlines()
for address in lines:
	myAddress.sendAsset(pw.Address(address.strip()), myToken, amount)

Add a script to an account:

import pywaves as pw
import base64

pw.setNode(node='<node>', chain='testnet')

script = 'match tx { \n' + \
'  case _ => true\n' + \
'}'
address = pw.Address(privateKey = "<private key>")
tx = address.setScript(script, txFee=1000000)

Issue a Smart Asset

imort pywaves as pw
import base64

pw.setNode(node='<node>', chain='testnet')

script = 'match tx { \n' + \
'  case _ => true\n' + \
'}'
address = pw.Address(privateKey = '<private key>')
tx = address.issueSmartAsset('smartTestAsset', 'an asset for testingsmart assets', 1000, script, 2)

Set a new script for a Smart Asset

import pywaves as pw
import base64

pw.setNode(node='<node>', chain='testnet')

script = 'match tx { \n' + \
'  case _ => true\n' + \
'}'
address = pw.Address(privateKey = '<private key>')
tx = address.setAssetScript(pw.Asset('<asset id>'), script)

Invoking a script on a dapp address

import pywaves as pw

pw.setNode(node='<node>', chain='testnet')

address = pw.Address(privateKey = '<private key>')
tx = address.invokeScript('3N5Wq22bLSf3gt5VwHTCRbRnETeSwpuT8kK', 'fundRecipient', [{"type": "integer", "value": 100, }, { "type": "string", "value": "test" }, { "type": "boolean", "value": True }], [ { "amount": 100, "assetId": "BGNVLgPKLwiBiZ7vWLcy3r92MzpPCU2DuUb4tv9W6gMi" } ])

Working with contracts

import pywaves as pw

pw.setNode(node = '<node>', 'T')

contract = pw.Contract('3N7XfieeJ8dHyMJfs7amukzxKB1PfMXzHzi', '<seed>')
contract.faucet()

Working with oracles

Querrying oracles:

import pywaves as pw

oracle = pw.Oracle(oracleAddress = '3P4PCxsJqMzQBALo8zANHtBDZRRquobHQp7')
# getting all data entries for an oracle
print(oracle.getData())
# getting data for a specific key of an oracle
print(oracle.getData('order_total_EeH5DRjdMnoYDhNbtkLsRNZq95etJUqWtvMDBCXojBoy'))
# getting all data entries of an oracle filtered by a regular expression
print(oracle.getData(regex = '^order_total_.*$'))

Storing data in an oracle:

import pywaves as pw

pw.setNode('https://testnode1.wavesnodes.com', 'T')

oracle = pw.Oracle(seed='<your seed here>')
print(oracle.storeData('oracle_test', 'string', 'test entry from oracle class'))

Working with more than one network

import pywaves as pw

config = pw.ParallelPyWaves()
config.setNode('https://testnode1.wavesnodes.com', 'testnet')

tAddress = pw.Address(seed = "test test test", pywaves = config)

address = pw.Address(seed = "test test test")
print(tAddress.address)
print(address.address)
print(tAddress.address)

Playing with Waves Matcher node (DEX):

import pywaves as pw

# set Matcher node to use
pw.setMatcher(node = 'http://127.0.0.1:6886')

# post a buy order
BTC = pw.Asset('4ZzED8WJXsvuo2MEm2BmZ87Azw8Sx7TVC6ufSUA5LyTV')
USD = pw.Asset('6wuo2hTaDyPQVceETj1fc5p4WoMVCGMYNASN8ym4BGiL')
BTC_USD = pw.AssetPair(BTC, USD)
myOrder = myAddress.buy(assetPair = BTC_USD, amount = 15e8, price = 95075)

# post a sell order
WCT = pw.Asset('6wuo2hTaDyPQVceETj1fc5p4WoMVCGMYNASN8ym4BGiL')
Incent = pw.Asset('FLbGXzrpqkvucZqsHDcNxePTkh2ChmEi4GdBfDRRJVof')
WCT_Incent = pw.AssetPair(WCT, Incent)
myOrder = myAddress.sell(assetPair = WCT_Incent, amount = 100e8, price = 25e8)

# post a buy order using Waves as price asset
BTC = pw.Asset('4ZzED8WJXsvuo2MEm2BmZ87Azw8Sx7TVC6ufSUA5LyTV')
BTC_WAVES = pw.AssetPair(BTC, pw.WAVES)
myOrder = myAddress.buy(assetPair = BTC_WAVES, amount = 1e8, price = 50e8)

# cancel an order
myOrder.cancel()
# or
myAddress.cancelOrder(assetPair, myOrder)

Getting Market Data from Waves Data Feed (WDF):

import pywaves as pw

# set the asset pair
WAVES_BTC = pw.AssetPair(pw.WAVES, pw.BTC)

# get last price and volume
print("%s %s" % (WAVES_BTC.last(), WAVES_BTC.volume()))

# get ticker
ticker = WAVES_BTC.ticker()
print(ticker['24h_open'])
print(ticker['24h_vwap'])

# get last 10 trades
trades = WAVES_BTC.trades(10)
for t in trades:
	print("%s %s %s %s" % (t['buyer'], t['seller'], t['price'], t['amount']))
	
# get last 10 daily OHLCV candles
ohlcv = WAVES_BTC.candles(1440, 10)
for t in ohlcv:
	print("%s %s %s %s %s" % (t['open'], t['high'], t['low'], t['close'], t['volume']))

LPOS

import pywaves as pw

# connect to a local testnet node
pw.setNode(node = 'http://127.0.0.1:6869', chain = 'testnet')

myAddress = pw.Address(privateKey = 'CsBpQpNE3Z1THNMS9vJPaXqYwN9Hgmhd9AsAPrM3tiuJ')
minerAddress = pw.Address('3NBThmVJmcexzJ9itP9KiiC2K6qnGQwpqMq')

# lease 1000 Waves to minerAddress
leaseId = myAddress.lease(minerAddress, 100000000000)

# revoke the lease
myAddress.leaseCancel(leaseId)

Doing simple multisig

Thanks to the new functionality of the TxSigner and TxGenerator classes, new functionality like multisig is possible:

pw.setNode('https://nodes-testnet.wavesnodes.com', 'T')
firstAddress = address.Address(seed = 'this is just a simple test seed one')
secondAddress = address.Address(seed = 'this is just a simple test seed two')

generator = txGenerator.TxGenerator()
signer = txSigner.TxSigner()
tx = generator.generateSendWaves(secondAddress, 1, firstAddress.publicKey, txFee=500000)
signer.signTx(tx, firstAddress.privateKey)
signer.signTx(tx, secondAddress.privateKey)

res = firstAddress.broadcastTx(tx)

Using PyWaves in a Python shell

Check an address balance:

>>> import pywaves as pw
>>> pw.Address('3P31zvGdh6ai6JK6zZ18TjYzJsa1B83YPoj')
address = 3P31zvGdh6ai6JK6zZ18TjYzJsa1B83YPoj
publicKey = 
privateKey = 
seed = 
balances:
  Waves = 1186077288304570
  BDMRyZsmDZpgKhdM7fUTknKcUbVVkDpMcqEj31PUzjMy (Tokes) = 43570656915
  RRBqh2XxcwAdLYEdSickM589Vb4RCemBCPH5mJaWhU9 (Ripto Bux) = 4938300000000
  4rmhfoscYcjz1imNDvtz45doouvrQqDpbX7xdfLB4guF (incentCoffee) = 7
  Ftim86CXM6hANxArJXZs2Fq7XLs3nJvgBzzEwQWwQn6N (Waves) = 2117290600000000
  E4ip4jzTc4PCvebYn1818T4LNoYBVL3Y4Y4dMPatGwa9 (BitCoin) = 500000000000
  FLbGXzrpqkvucZqsHDcNxePTkh2ChmEi4GdBfDRRJVof (Incent) = 12302659925430
  GQr2fpkfmWjMaZCbqMxefbiwgvpcNgYdev7xpuX6xqcE (KISS) = 1000
  DxG3PLganyNzajHGzvWLjc4P3T2CpkBGxY4J9eJAAUPw (UltraCoin) = 200000000000000
  4eWBPyY4XNPsFLoQK3iuVUfamqKLDu5o6zQCYyp9d8Ae (LIKE) = 1000
>>> 

Generate a new address:

>>> import pywaves as pw
>>> newAddress = pw.Address('<some address>')
>>> newAddress._generate()
address = 3P6WfA4qYtkgwVAsWiiB6yaea2X8zyXncJh
publicKey = EYNuSmW4Adtcc6AMCZyxkiHMPmF2BZ2XxvjpBip3UFZL
privateKey = CtMQWJZqfc7PRzSWiMKaGmWFm4q2VN5fMcYyKDBPDx6S
seed = seven wrist bargain hope pattern banner plastic maple student chaos grit next space visa answer
balances:
  Waves = 0
>>> 

Check an asset:

>>> import pywaves as pw
>>> pw.Asset('DHgwrRvVyqJsepd32YbBqUeDH4GJ1N984X8QoekjgH8J')
status = Issued
assetId = DHgwrRvVyqJsepd32YbBqUeDH4GJ1N984X8QoekjgH8J
issuer = 3PPKF2pH4KMYgsDixjrhnWrPycVHr1Ye37V
name = WavesCommunity
description = Waves community token.
quantity = 1000000000
decimals = 2
reissuable = False

Post an order and check its status:

>>> myOrder = myAddress.buy(pw.AssetPair(token1, token2), 1, 25)
>>> myOrder
status = Accepted
id = ARZdYgfXz3ksRMvhnGeLLJnn3CQnz7RCa7U6dVw3zert
asset1 = AFzL992FQbhcgSZGKDKAiRWcjtthM55yVCE99hwbHf88
asset2 = 49Aha2RR2eunR3KZFwedfdi7K9v5MLQbLYcmVdp2QkZT
sender.address = 3P6WfA4qYtkgwVAsWiiB6yaea2X8zyXncJh
sender.publicKey = EYNuSmW4Adtcc6AMCZyxkiHMPmF2BZ2XxvjpBip3UFZL
matcher = http://127.0.0.1:6886

Cancel the order

>>> myOrder.cancel()
>>> myOrder
status = Cancelled
id = ARZdYgfXz3ksRMvhnGeLLJnn3CQnz7RCa7U6dVw3zert
asset1 = AFzL992FQbhcgSZGKDKAiRWcjtthM55yVCE99hwbHf88
asset2 = 49Aha2RR2eunR3KZFwedfdi7K9v5MLQbLYcmVdp2QkZT
sender.address = 3P6WfA4qYtkgwVAsWiiB6yaea2X8zyXncJh
sender.publicKey = EYNuSmW4Adtcc6AMCZyxkiHMPmF2BZ2XxvjpBip3UFZL
matcher = http://127.0.0.1:6886

Offline signing and custom timestamps

Offline signing a future transaction:

>>> import pywaves as pw
>>> pw.setOffline()
>>> myAddress=pw.Address(privateKey="F2jVbjrKzjUsZ1AQRdnd8MmxFc85NQz5jwvZX4BXswXv")
>>> recipient=pw.Address("3P8Ya6Ary5gzwnzbBXDp3xjeNG97JEiPcdA")
# sign a future tx to transfer 100 WAVES to recipient
# the tx is valid on Jan 1st, 2020 12:00pm
>>> myAddress.sendWaves(recipient, amount=100e8, timestamp=1577880000000)
{'api-endpoint': '/assets/broadcast/transfer',
 'api-type': 'POST',
 'api-data': '{"fee": 100000,
			   "timestamp": 1577880000000,
			   "senderPublicKey": "27zdzBa1q46RCMamZ8gw2xrTGypZnbzXs5J1Y2HbUmEv",
			   "amount": 10000000000,
			   "attachment": "",
			   "recipient": "3P8Ya6Ary5gzwnzbBXDp3xjeNG97JEiPcdA"
			   "signature": "YetPopTJWC4WBPXbneWv9g6YEp6J9g9rquZWjewjdQnFbmaxtXjrRsUu69NZzHebVzUGLrhQiFFoguXJwdUn8BH"}'}

Offline signing time lock/unlock transactions:

>>> import pywaves as pw
>>> pw.setOffline()
>>> myAddress=pw.Address(privateKey="F2jVbjrKzjUsZ1AQRdnd8MmxFc85NQz5jwvZX4BXswXv")
# generate a lockbox address
>>> lockAddress=pw.Address('<some address>')
>>> lockAddress._generate()
# sign the 'lock' tx to send 100e8 to the lockbox (valid on Nov 1st, 2017)
>>> myAddress.sendWaves(lockAddress, 100e8, timestamp=1509537600000)
{'api-endpoint': '/assets/broadcast/transfer',
 'api-type': 'POST',
 'api-data': '{"fee": 100000,
               "timestamp": 1509537600000,
               "senderPublicKey": "27zdzBa1q46RCMamZ8gw2xrTGypZnbzXs5J1Y2HbUmEv",
               "amount": 10000000000,
               "attachment": "",
               "recipient": "3P3UbyQM9W7WzTgjYkLuBrPZZeWsiUtCcpv",
               "signature": "5VgT6qWxJwxEyrxFNfsi67QqbyUiGq9Ka7HVzgovRTTDT8nLRyuQv2wBAJQhRiXDkTTV6zsQmHnBkh8keCaFPoNT"}'}
# sign the 'unlock' tx to send funds back to myAddress (valid on Jan 1st, 2020)
>>> lockAddress.sendWaves(myAddress, 100e8-200000, txFee=200000, timestamp=1577880000000)
{'api-endpoint': '/assets/broadcast/transfer',
 'api-type': 'POST',
 'api-data': '{"fee": 200000,
               "timestamp": 1577880000000,
			   "senderPublicKey": "52XnBGnAVZmw1CHo9aJPiMsVMiTWeNGSNN9aYJ7cDtx4",
			   "amount": 9999800000,
			   "attachment": "",
			   "recipient": "3P7tfdCaTyYCfg5ojxNahEJDSS4MZ7ybXBY",
			   "signature": "3beyz1sqKefP96LaXWT3CxdPRW86DAxcj6wgWPyyKq3SgdotVqnKyWXDyeHnBzCq1nC7JA9CChTmo1c1iVAv6C4T"}'}
# delete lockbox address and private key
>>> del lockAddress

Connecting to a different node or chain

PyWaves supports both mainnet and testnet chains. By default, PyWaves connects to the mainnet RPC server at https://nodes.wavesnodes.com. It's possible to specify a different server and chain with the setNode() function

import pywaves as pw

# connects to a local testnet node
pw.setNode(node = 'http://127.0.0.1:6869', chain = 'testnet')

# connects to a local mainnet node
pw.setNode(node = 'http://127.0.0.1:6869', chain = 'mainnet')

License

Code released under the MIT License.