Many initiatives are raising capital with initial coin offerings (ICOs). The Ethereum (ETH) project raised 18 million dollars and the DAO project raised 150 million dollars! Furthermore, the entire blockchain space is worth 90 billion dollars! I will describe ICOs and their custom cryptocurrencies on Ethereum Classic (ETC).

ICO Basics

An ICO is a method of raising funds with the sale of a new cryptocurrency. These cryptocurrencies are often required to purchase goods and services from the issuing organizations. For example, the ETH cryptocurrency (ether) is used to rent ETH system resources. Upcoming ICOs are typically announced on Bitcointalk.org forums and heavily marketed beforehand. Buyers often purchase the new cryptocurrencies by sending bitcoins or ether to escrow accounts. The initial prices are set, then supply and demand determines the future prices. If the organizations are well managed, and their cryptocurrencies prove useful, they should both increase in value. If prices skyrocket, miniscule cryptocurrency subdivisions can typically be used. For example, ETC cryptocurrency tokens can be subdivided into as many as 1018 pieces.

Caution is required with ICOs as they are effectively unregulated. Participants do not purchase ownership in companies, nor, many privileges protected by established case law. There is great potential for innovation as well as scams. Smith & Crown and ICOrating are two resources that can assist with ICO research.

ICO Cryptocurrencies

Cryptocurrencies are implemented with smart contracts. ETC provides an excellent smart contract platform. It has all of the functionality of ETH at a fraction of the cost.

Many exchanges and other users prefer crytocurrencies to adhere to the Ethereum Token Standard. This standard specifies the following interfaces for cryptocurrency smart contracts:

INTERFACE DESCRIPTION transfer(receiving_address, transfer_amount) Transfers funds between accounts. balanceOf(account_address) Returns account balances. totalSupply() Returns the total supply.

The standard also specifies the following interfaces for when a user wants another account to also manage their funds:

INTERFACE DESCRIPTION approve(approved_address, approved_amount) Allows other accounts to also transfer funds. transferFrom(sending_address, receiving_address, transfer_amount) Transfers funds between accounts. allowance(shared_address, approved_address) Returns approved amounts.

It is also common to include the following named constants:

NAMED CONSTANT DESCRIPTION name cryptocurrency name symbol exchange ticker symbol decimals maximum number of subdivision decimal places

For example, the ETC cryptocurrency exchange ticker symbol is ETC. Since ETC cryptocurrency tokens can be divided into as many as 1018 pieces, the maximum number of subdivision decimal places is 18.

Sample Code

There are many Ethereum Token Standard compliant Solidity smart contract examples available. Here is an example of an Ethereum Token Standard compliant Serpent smart contract:

# # Implements a cryptocurrency. # # Contains the Ethereum Token Standard interfaces. # data NAME data SYMBOL data DECIMALS data TOTAL_SUPPLY data balance[] data approved[][] def init(): # # Sets the named constants and the initial balance(s). # self.NAME = "Example" self.SYMBOL = "EXPL" self.DECIMALS = 18 self.TOTAL_SUPPLY = 1000000 self.balance[msg.sender] = self.TOTAL_SUPPLY def name(): # # Returns the cryptocurrency name. # return self.NAME def symbol(): # # Returns the exchange ticker symbol. # return self.SYMBOL def decimals(): # # Returns the maximum number of subdivision decimal places. # return self.DECIMALS def totalSupply(): # # Returns the total supply. # return self.TOTAL_SUPPLY def balanceOf(account_add): # # Returns account balances. # return self.balance[account_add] def valid_transfer(sending_add, receiving_add, transfer_amount): # # Determines the validity of transfers. # positive_amount = transfer_amount > 0 sufficient_funds = self.balance[sending_add] >= transfer_amount same_add = sending_add == msg.sender approved_amount = self.approved[sending_add][msg.sender] approved = same_add or (approved_amount >= transfer_amount) new_receiving_bal = self.balance[receiving_add] + transfer_amount no_overflow = new_receiving_bal > self.balance[receiving_add] return positive_amount and sufficient_funds and approved and no_overflow def update_approved(sending_add, transfer_amount): # # Updates the approved array. # if sending_add != msg.sender: self.approved[sending_add][msg.sender] -= transfer_amount def transferFrom(sending_add, receiving_add, transfer_amount): # # Transfers funds between accounts. # result = False if self.valid_transfer(sending_add, receiving_add, transfer_amount): self.balance[sending_add] -= transfer_amount self.balance[receiving_add] += transfer_amount self.update_approved(sending_add, transfer_amount) result = True return result def transfer(receiving_add, transfer_amount): # # Transfers funds between accounts. # return self.transferFrom(msg.sender, recieving_add, transfer_amount) def approve(approved_add, approved_amount): # # Allows other accounts to also transfer funds. # self.approved[msg.sender][approved_add] = approved_amount return True def allowance(shared_add, approved_add): # # Returns approved amounts. # return self.approved[shared_add][approved_add]

Conclusion

ICOs are a new way to raise funds and the ETC platform is an excellent choice for the required cryptocurrency smart contracts. Vigilance due to the lack of regulations remains important. Hopefully, mechanisms to protect against abuse will allow an ever growing number of people to reap the benefits.

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Acknowledgements

I would like to thank IOHK (Input Output Hong Kong) for funding this effort.

License

This work is licensed under the Creative Commons Attribution ShareAlike 4.0 International License.