/TWANG

Arduino-based 1D dungeon crawler

Primary LanguageC++MIT LicenseMIT

TWANG

A Arduino-based, 1D, LED loving, dungeon crawler. inspired by Line Wobbler by Robin B

Video playlist

A playlist that shows the development of TWANG and the game in both a desktop and house-sized form can be found here: https://www.youtube.com/watch?v=9yf_VINmbTE&list=PL1_Z89_x_Dff-XhOxlx6sQ38wJqe1X2M0

Required libraries:

Hardware used:

  • Arduino MEGA/NANO
  • 3 LEDs for life indicator
  • APA102-C LED light strip. The more the better, maximum of 1000. Tested with 2x 144/meter and 12x 60/meter strips. The FastLED lib works with the less expensive WS2812 LEDs, i've not tried them but should be fine.
  • 5v power supply, assume around 40mW per LED to calculate size
  • MPU6050 accelerometer
  • Spring doorstop, I used these: http://smile.amazon.com/gp/product/B00J4Y5BU2

Enclosure

Files to print your own enclosure can be found here: http://www.thingiverse.com/thing:1116899

Overview

TWANG was developed quickly to make my Halloween lights interactive, the code is fairly well commmented but could be improved. The following is a quick overview of the code to help you understand and tweak the game to your needs.

The game is played on a 1000 unit line, the position of enemies, the player, lava etc range from 0 to 1000 and the LEDs that represent them are derived using the getLED() function. You don't need to worry about this but it's good to know for things like the width of the attack and player max move speed. Regardles of the number of LEDs, everything takes place in this 1000 unit wide line.

ATMEGA4809 The TWANG4809 sketch is intended for use with the Arduino Nano Every and the Uno Wifi REV2 both of which use the Atmega 4809 processor. At the time of writing, these boards do not have out of the box support for FastLED or ToneAC. This sketch removes the ToneAC functionality. For FastLED to function, install this library instead of the one listed in Arduino IDE.

//LED SETUP Defines the quantity of LEDs as well as the data and clock pins used. I've tested several APA102-C strips and the color order sometimes changes from BGR to GBR or GRB, if the player is not blue, the exit green and the enemies red, this is the bit you want to change. Brightness should range from 50 to 255, use a lower number if playing at night or wanting to use a smaller power supply. "DIRECTION" can be set to 0 or 1 to flip the game orientation. In setup() there is a "FastLED.addLeds()" line, in there you could change it to another brand of LED strip like the cheaper WS2812.

The game also has 3 regular LEDs for life indicators (the player gets 3 lives which reset each time they level up). The pins for these LEDs are stored in lifeLEDs[] and are updated in the updateLives() function

//JOYSTICK SETUP All parameters are commented in the code, you can set it to work in both forward/backward as well as side-to-side mode by changing JOYSTICK_ORIENTATION. Adjust the ATTACK_THRESHOLD if the "Twanging" is overly sensitive and the JOYSTICK_DEADZONE if the player slowly drifts when there is no input (because it's hard to get the MPU6050 dead level).

//WOBBLE ATTACK Sets the width, duration (ms) of the attack.

//POOLS These are the object pools for enemies, particles, lava, conveyors etc. You can modify the quantity of any of them if your levels use more or if you want to save some memory, just remember to update the respective counts to avoid errors.

//USE_GRAVITY 0/1 to set if particles created by the player getting killed should fall towards the start point, the BEND_POINT variable can be set to mark the point at which the strip of LEDs goes from been horizontal to vertical. The game is 1000 units wide (regardless of number of LED's) so 500 would be the mid point. If this is confusing just set USE_GRAVITY to 0.

Modifying / Creating levels

Find the loadLevel() function, in there you can see a switch statment with the 10 levels I created. They all call different functions and variables to setup the level. Each one is described below:

playerPosition; Where the player starts on the 0 to 1000 line. If not set it defaults to 0. I set it to 200 in the first level so the player can see movement even if the first action they take is to push the joystick left

spawnEnemy(position, direction, speed, wobble);

  • position: 0 to 1000
  • direction: 0/1, initial direction of travel
  • speed: >=0, speed of the enemy, remember the game is 1000 wide and runs at 60fps. I recommend between 1 and 4
  • wobble: 0=regular moving enemy, 1=sine wave enemy, in this case speed sets the width of the wave

spawnPool[poolNumber].Spawn(position, rate, speed, direction);

  • A spawn pool is a point which spawns enemies forever
  • position: 0 to 1000
  • rate: milliseconds between spawns, 1000 = 1 second
  • speed: speed of the enemis it spawns
  • direction: 0=towards start, 1=away from start

spawnLava(startPoint, endPoint, ontime, offtime, offset);

  • startPoint: 0 to 1000
  • endPoint: 0 to 1000, combined with startPoint this sets the location and size of the lava
  • ontime: How lomg (ms) the lava is ON for
  • offset: How long (ms) after the level starts before the lava turns on, use this to create patterns with multiple lavas

spawnConveyor(startPoint, endPoint, direction);

  • startPoint, endPoint: Same as lava
  • direction: the direction of travel 0/1

spawnBoss()

  • There are no parramaters for a boss, they always spawn in the same place and have 3 lives. Tweak the values of Boss.h to modify

Feel free to edit, comment on the YouTube video (link at top) if you have any questions.