SpaceWar! meets CoreWars
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Phl0cks is a programming game in which two or more programs control one or more spaceships in a SpaceWar-like environment with the goal of eliminating every other enemy ships and survive as long as possible.

Since it is a SpaceWar-like environment, there is a physical simulation going on. Physics are simulated by simple newtonian integration with a predefined step.

Knwon as phl0cks, the programs are written in JavaScript and interfaced with the simulation through a unique function control called at periodic interval in the simulation. The simulation runs for 5mn after which a draw is declared.

Phl0cks must be entirely contained within a single file when submitted to the engine. Each call to the control function should take no longer than 10ms. Additionally the memory used at any time should not exceed 100MB.

Simulation and Data Model

A pl0ck is a javascript file with the following structure. The file is executed in a nodeJS module context so global variable as save to use within a phl0ck.

 * --------------
 * Initialization
 * --------------
 *  The `init` function is called with the number of ships active per
 *  phl0cks in this game. The `init` function is a good place to
 *  initialize your data structure and prepare everything for the
 *  first call to control. Any global variable defined here will be
 *  preserved and accessible by the control function at each control
 *  phase.
 * @param size number of ships per phl0ck
 * @param spec specifications of the simulated world
exports.init = function(size, spec) {
  // Your Implementation

 * -------
 * Control
 * -------
 *  The `control` function is called at each control phase. The funciton
 *  is called once for every ship controlled by this fl0ck. The control
 *  function should implement your AI algorithm and return an object with
 *  two fields `theta` and `sigma`.
 *  `theta`  if defined the angle of the thrust to apply over the next
 *           control period (in radians)
 *  `sigma`  if defined the angle to use to shoot a new missile in the
 *           current simulation step if the ship still has missiles
 * @param step     the current simulation step
 * @param t        the time equivalent of the current step in ms 
 * @param ship     the state and description of the ship to control 
 * @param ships    the array of all other ships still alive
 * @param missiles the array of all the missiles still in the wild
 * @return { theta, sigma } control values
exports.control = function(step, t, ship, ships, missiles) {
  // Your Implementation
  return { 
    theta: Math.random() * 2 * Math.PI,
    sigma: Math.random() * 2 * Math.PI