# Infection ### ~avatar avatar There is a disease outbreak! Will you find patient zero?!? ### ~ **Infection** is a distributed game which simulates the propagation of an illness. **The goal is to stop the outbreak before every player dies!** * **Number of players:** 1 Master, 4 or more players. Each Master and players need a @boardname@ with battery pack. In this game, a master @boardname@ infects a "patient zero" player with the sickness. The infected player will be contagious immediately but won't show any sign during the incubation time. The sickness gets transmitted when two @boardname@ get close to each other. After the incubation period, the sad face will appear on the screen. After the sickness period, the player will eventually die and a skull will display on the screen. Dead players are out of the game. If any player survives the outbreak, the game is won. Otherwise try again! ### ~ hint **Infection** is an engaging game that will get your students running around. We recommend playing it outside to give more space for the students. ### ~ ### How to play Press `A+B` to enter master mode (1 per game). Wait for players to be paired. The number of paired player will display on screen. A letter will appear on the player's screen, this letter is the player's identity. Once all your players are registered, press `A+B` to start the infection game. The game will pick a random player as **patient zero**. A player will transmit the disease if close enough (`RSSI`) and with a certain probability (`TRANSMISSIONPROB`). During the incudation phase (`INCUBATION`), the player does not show any sign of illness (happy face). After that phase, the player gets sick and shows a sad face on the screen. After the sick face, the player dies and a skull shows up. Once the game is over, the @boardname@ will show the player id (A,B,C...), health and who infected him. The master @boardname@ will show the identity of patient zero. Icons used in the game: * Pairing: IconNames.Ghost * Paired: IconNames.Happy * Dead: IconNames.Skull * Sick: IconNames.Sad * Incubating: IconNames.Confused * Healthy: IconNames.Happy https://makecode.microbit.org/_gymCJCWPbiDu ### JavaScript code ```typescript /** * Infection game * * Flash all micro:bit will this script * * Press A+B to enter master mode (1 per game) * * Wait for players to be paired. The number of paired player will display on screen. * An icon will appear on player's screen. * * Press A+B to start the infection game. The master will pick a random * player as patient zero. * * A player will transmit the disease if close enough (RSSI) * and with a certain probability (TRANSMISSIONPROB). * During the incudation phase (INCUBATION), the player does not show any sign * of illness. After that phase, the sad face shows up. * * The game will automatically stop once all players are dead or healthy. The master can * also press A+B again to stop the game. * * Once the game is over, the micro:bit will show the player id (A,B,C...), health and * who infected him. * * Icons used in the game: * * Pairing: IconNames.Ghost * Paired: IconNames.Happy * Dead: IconNames.Skull * Sick: IconNames.Sad * Incubating: IconNames.Confused * Healthy: IconNames.Happy * */ const INCUBATION = 20000; // time before showing symptoms const DEATH = 40000; // time before dying off the disease const RSSI = -45; // db const TRANSMISSIONPROB = 40; // % probability to transfer disease enum GameState { Stopped, Pairing, Running, Over } enum HealthState { Healthy, Incubating, Sick, Dead } const GameIcons = { Pairing: IconNames.Ghost, Paired: IconNames.Happy, Dead: IconNames.Skull, Sick: IconNames.Sad, Incubating: IconNames.Confused, Healthy: IconNames.Happy } const playerIcons = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; class Player { id: number; icon: number; health: HealthState; show() { basic.showString(playerIcons[this.icon]); } } // common state let state = GameState.Stopped; // master state let master = false; let patientZero: Player; const players: Player[] = []; // player state let paired = false; let infectedBy = -1; // who infected (playerIcon) let infectedTime = 0; // local time when infection happened let playerIcon = -1; // player icon and identity let health = HealthState.Healthy; // get a player instance (creates one as needed) function player(id: number): Player { for (const p of players) if (p.id == id) return p; // add player to game let p = new Player(); p.id = id; p.icon = (players.length + 1) % playerIcons.length; p.health = HealthState.Healthy; players.push(p); serial.writeLine(`player ==> ${p.id}`) return p; } function allDead(): boolean { for (const p of players) if (p.health != HealthState.Dead) return false; return true; } function gameOver() { state = GameState.Over; if (patientZero) patientZero.show(); } function gameFace() { switch (state) { case GameState.Stopped: basic.showIcon(GameIcons.Pairing); break; case GameState.Pairing: if (playerIcon > -1) basic.showString(playerIcons[playerIcon]); else basic.showIcon(paired ? GameIcons.Paired : GameIcons.Pairing, 1); break; case GameState.Running: switch (health) { case HealthState.Dead: basic.showIcon(GameIcons.Dead, 1); break; case HealthState.Sick: basic.showIcon(GameIcons.Sick, 1); break; default: basic.showIcon(GameIcons.Healthy, 1); break; } break; case GameState.Over: // show id basic.showString(playerIcons[playerIcon]); basic.pause(2000); // show health switch (health) { case HealthState.Dead: basic.showIcon(GameIcons.Dead, 2000); break; case HealthState.Sick: basic.showIcon(GameIcons.Sick, 2000); break; case HealthState.Incubating: basic.showIcon(GameIcons.Incubating, 2000); break; default: basic.showIcon(GameIcons.Healthy, 2000); break; } // show how infected if (infectedBy > -1) { basic.showString(" INFECTED BY"); basic.showString(playerIcons[infectedBy]); basic.pause(2000); } else { basic.showString(" PATIENT ZERO"); basic.pause(2000); } // show score game.showScore(); basic.pause(1000); break; } } // master button controller input.onButtonPressed(Button.AB, () => { // register as master if (state == GameState.Stopped && !master) { master = true; paired = true; state = GameState.Pairing; serial.writeLine("registered as master"); radio.setTransmitPower(7); // beef up master signal basic.showString("0"); return; } if (!master) return; // master only beyond this // launch game if (state == GameState.Pairing) { // pick 1 player and infect him patientZero = players[Math.random(players.length)]; while (patientZero.health == HealthState.Healthy) { radio.sendValue("infect", patientZero.id); basic.pause(100); } // all ready state = GameState.Running; serial.writeLine(`game started ${players.length} players`); // show startup basic.showIcon(GameIcons.Dead); } // end game else if (state == GameState.Running) { gameOver(); } }) radio.setGroup(42); radio.setTransmitSerialNumber(true) radio.onDataPacketReceived(({ time, receivedNumber, receivedString, signal, serial: id }) => { if (master) { if (receivedString == "pair") { // register player let n = players.length; let p = player(id); // show player number if changed if (n != players.length) { led.stopAnimation(); basic.showNumber(players.length); } } else if (receivedString == "health") { let p = player(id); p.health = receivedNumber; // check if all infected if (allDead()) gameOver(); } } else { if (receivedString == "state") { // update game state state = receivedNumber as GameState; } else if (infectedBy < 0 && receivedString == "infect" && receivedNumber == control.deviceSerialNumber()) { // infected by master infectedBy = 0; // infected my master infectedTime = input.runningTime(); health = HealthState.Incubating; serial.writeLine(`infected ${control.deviceSerialNumber()}`); } if (receivedString == "h" + control.deviceSerialNumber().toString() && health < receivedNumber) { health = receivedNumber; } switch (state) { case GameState.Pairing: // medium range in pairing mode if (!paired && receivedString == "paired" && receivedNumber == control.deviceSerialNumber()) { // paired! serial.writeLine(`player paired ==> ${control.deviceSerialNumber()}`) paired = true; return; } else if (paired && receivedString == "i" + control.deviceSerialNumber().toString()) { playerIcon = receivedNumber; } break; case GameState.Running: // broadcast infection status if (health == HealthState.Healthy && receivedString == "transmit") { serial.writeLine(`signal: ${signal}`); if (signal > RSSI && Math.random(100) > TRANSMISSIONPROB) { infectedBy = receivedNumber; infectedTime = input.runningTime(); health = HealthState.Incubating; } } else if (health != HealthState.Dead && receivedString == "health" && signal > RSSI) { game.addScore(1); } break; } } }) // main game loop basic.forever(() => { if (master) { switch (state) { case GameState.Pairing: // tell each player they are registered for (const p of players) { radio.sendValue("paired", p.id); radio.sendValue("i" + p.id, p.icon); } serial.writeLine(`pairing ${players.length} players`); basic.pause(500); break; case GameState.Running: for (const p of players) { radio.sendValue("h" + p.id, p.health); } break; case GameState.Over: if (patientZero) patientZero.show(); break; } radio.sendValue("state", state); // keep broadcasting the game state } else { // player loop switch (state) { case GameState.Pairing: // broadcast player id if (playerIcon < 0) radio.sendValue("pair", control.deviceSerialNumber()); else if (infectedBy > -1) radio.sendValue("health", health); break; case GameState.Running: // update health status if (health != HealthState.Healthy && input.runningTime() - infectedTime > DEATH) health = HealthState.Dead; else if (health != HealthState.Healthy && input.runningTime() - infectedTime > INCUBATION) health = HealthState.Sick; // transmit disease if (health == HealthState.Incubating || health == HealthState.Sick) radio.sendValue("transmit", playerIcon); radio.sendValue("health", health); break; } // show current animation gameFace(); } }) basic.showIcon(GameIcons.Pairing) ``` ```package radio ```