Index
- Lesson 1: CryptoZombies
- Chapter 2 Contracts
- Chapter 3: State Variables & Integers
- Chapter 4: Math Operations
- Chapter 5: Structs
- Chapter 6: Arrays
- Chapter 7: Function Declarations
- Chapter 8: Working With Structs and Arrays
- Chapter 9: Private / Public Functions
- Chapter 10: More on Functions
- Chapter 11: Keccak256 and Typecasting
- Chapter 12: Putting It Together
- Chapter 13: Events
- Chapter 14: Web3.js
- Lesson 2: Zombies Attack Their Victims
- Chapter 2: Mappings and Addresses
- Chapter 3: Msg.sender
- Chapter 4: Require
- Chapter 5: Inheritance
- Chapter 6: Import
- Chapter 7: Storage vs Memory
- Chapter 8: Zombie DNA
- Chapter 9: More on Function Visibility
- Chapter 10: What Do Zombies Eat?
- Chapter 11: Using an Interface
- Chapter 12: Handling Multiple Return Values
- Chapter 13: Bonus: Kitty Genes
- Chapter 14: Wrapping It Up
- Lesson 3: Advanced Solidity Concepts
- Chapter 2: Ownable Contracts
- Chapter 3: onlyOwner Function Modifier
- Chapter 4: Gas
- Chapter 5: Time Units
- Chapter 6: Zombie Cooldowns
- Chapter 7: Public Functions & Security
- Chapter 8: More on Function Modifiers
- Chapter 9: Zombie Modifiers
- Chapter 10: Saving Gas With 'View' Functions
- Chapter 11: Storage is Expensive
- Chapter 12: For Loops
- Chapter 13: Wrapping It Up
- Lesson 4: Zombie Battle System
- Chapter 1: Payable
- Chapter 2: Withdraws
- Chapter 3: Zombie Battles
- Chapter 4: Random Numbers
- Chapter 5: Zombie Fightin'
- Chapter 6: Refactoring Common Logic
- Chapter 7: More Refactoring
- Chapter 8: Back to Attack!
- Chapter 9: Zombie Wins and Losses
- Chapter 10: Zombie Victory 😄
- Chapter 11: Zombie Loss 😞
- Lesson 5: ERC721 & Crypto-Collectibles
- Chapter 1: Tokens on Ethereum
- Chapter 2: ERC721 Standard, Multiple Inheritance
- Chapter 3: balanceOf & ownerOf
- Chapter 4: Refactoring
- Chapter 5: ERC721: Transfer Logic
- Chapter 6: ERC721: Transfer Cont'd
- Chapter 7: ERC721: Approve
- Chapter 8: ERC721: Approve
- Chapter 9: Preventing Overflows
- Chapter 10: SafeMath Part 2
- Chapter 11: SafeMath Part 3
- Chapter 12: SafeMath Part 4
- Chapter 13: Comments
- Chapter 14: Wrapping It Up
- App Front-ends & Web3.js
- Chapter 1: Intro to Web3.js
- Chapter 2: Web3 Providers
- Chapter 3: Talking to Contracts
- Chapter 4: Calling Contract Functions
- Chapter 5: Metamask & Accounts
- Chapter 6: Displaying our Zombie Army
- Chapter 7: Sending Transactions
- Chapter 8: Calling Payable Functions
- Chapter 9: Subscribing to Events
- Chapter 10: Wrapping It Up
Chapter 10: Zombie Victory 😄
Chapter 10: Zombie Victory 😄
Now that we have a
winCount and lossCount, we can update them depending on which zombie wins the fight.In chapter 6 we calculated a random number from 0 to 100. Now let's use that number to determine who wins the fight, and update our stats accordingly.
Put it to the test
1. Create an
if statement that checks if rand is less than or equal to attackVictoryProbability.2. If this condition is true, our zombie wins! So:
a. Increment
myZombie's winCount.b. Increment
myZombie's level. (Level up!!!!!!!)c. Increment
enemyZombie's lossCount. (Loser!!!!!! 😫 😫 😫)d. Run the
feedAndMultiply function. Check zombiefeeding.sol to see the syntax for calling it. For the 3rd argument (_species), pass the string "zombie". (It doesn't actually do anything at the moment, but later we could add extra functionality for spawning zombie-based zombies if we wanted to).pragma solidity ^0.4.25;
import "./zombiehelper.sol";
contract ZombieAttack is ZombieHelper {
uint randNonce = 0;
uint attackVictoryProbability = 70;
function randMod(uint _modulus) internal returns(uint) {
randNonce++;
return uint(keccak256(abi.encodePacked(now, msg.sender, randNonce))) % _modulus;
}
function attack(uint _zombieId, uint _targetId) external ownerOf(_zombieId) {
Zombie storage myZombie = zombies[_zombieId];
Zombie storage enemyZombie = zombies[_targetId];
uint rand = randMod(100);
// Start here
if (rand <= attackVictoryProbability) {
myZombie.winCount++;
myZombie.level++;
enemyZombie.lossCount++;
feedAndMultiply(_zombieId, enemyZombie.dna, "zombie");
}
}
}
import "./zombiehelper.sol";
contract ZombieAttack is ZombieHelper {
uint randNonce = 0;
uint attackVictoryProbability = 70;
function randMod(uint _modulus) internal returns(uint) {
randNonce++;
return uint(keccak256(abi.encodePacked(now, msg.sender, randNonce))) % _modulus;
}
function attack(uint _zombieId, uint _targetId) external ownerOf(_zombieId) {
Zombie storage myZombie = zombies[_zombieId];
Zombie storage enemyZombie = zombies[_targetId];
uint rand = randMod(100);
// Start here
if (rand <= attackVictoryProbability) {
myZombie.winCount++;
myZombie.level++;
enemyZombie.lossCount++;
feedAndMultiply(_zombieId, enemyZombie.dna, "zombie");
}
}
}