shooflenet/articles/dynamic_systems_in_games/engine.js
2013-09-12 01:41:58 -04:00

179 lines
6.0 KiB
JavaScript

var cfg = {
xaxis: { min:0, max:15, tickSize: 3 },
yaxis: { min:-20, max:20, show: false },
series: { lines: { lineWidth: 4, }, points: { radius: 0.1, } },
colors: ['gray'],
};
function engine(element, reaction_rate_function) {
var e = {}; // the engine object!
e.container = $(element);
var q = {};
e.reaction_rate_function = reaction_rate_function;
e.quantities = q;
q.temperature = {
"update": function () {
var old_value = this.value;
this.value += reaction_rate_function(q)*timestep/1000
if (this.value < 0) { this.value = 0; }
if (old_value != this.value) { return true; }
},
"out": function () {
e.container.find('.temp-out').html(this.value.toFixed(2));
if (this.value > q.damage_threshhold.value) { e.container.find('.damage').show();}
else { e.container.find('.damage').hide(); }
if (this.value < q.ignition_threshhold.value) { e.container.find('.noignition').show(); }
else { e.container.find('.noignition').hide(); }
for (var i=0; i<this.graph_data.data.length; i++) {
this.graph_data.data[i][0] = this.value;
}
this.graph_data.data[1][1] = get_current_potential(this.value);
},
"value": 0,
"graph_data": {
data: [[0,cfg.yaxis.max+2],[0,0],[0,cfg.yaxis.min-2]],
lines: {show: true, lineWidth: 1},
points: {show: true, radius: 3},
color: 'red',
},
};
function get_current_potential(t) {
var data_series = all_graph_data[0].data;
var number_of_points = data_series.length;
var width = e.graph_config.xaxis.max - e.graph_config.xaxis.min;
var index = Math.floor((t / width) * number_of_points);
var below = data_series[index], above = data_series[index+1];
if (!below) { return 0; }
if (!above) { return null; }
//console.log("got current potential");
return below[1] + ((t - below[0])/(above[0] - below[0]))*(above[1] - below[1]);
}
q.fuel_flow_rate = {
"update": function () {
var old_value = this.value;
this.value = parseFloat(e.container.find('[name=fuel]').val());
if (old_value != this.value) {
return true;
}
},
"out": function () { generate_graph_points(); q.temperature.out(); },
"value": 0,
};
q.ignition_threshhold = {
"update": function () {},
"out": function() {
this.graph_data.data = [[this.value, cfg.yaxis.max+2], [this.value, cfg.yaxis.min-2], [-this.value, cfg.yaxis.min-2], [-this.value, cfg.yaxis.max+2], [this.value, cfg.yaxis.max+2]];
},
"value": 2,
"graph_data": {
data: [],
lines: {show: true, lineWidth: 0, fill: 0.2},
points: {show: false},
color: 'blue',
},
};
q.damage_threshhold = {
"update": function () {},
"out": function() {
this.graph_data.data = [[this.value, cfg.yaxis.min-2], [this.value, cfg.yaxis.max+2], [20*this.value, cfg.yaxis.max+2], [20*this.value, cfg.yaxis.min-2], [this.value, cfg.yaxis.min-2]];
},
"value": 10,
"graph_data": {
data: [],
lines: {show: true, lineWidth: 0, fill: 0.2},
points: {show: false},
color: 'yellow',
},
};
q.ignition_boost = {
"update": function () {},
"out": function() {},
"value": 5,
};
q.temperature_decay = {
"update": function () {},
"out": function () {},
"value": 0.5,
};
var ghost_count = 1, ghost_separation = 0.05;
var ghost_data_points = Array(1 + ghost_count*2);
var all_graph_data = [{"data": [], lines: {show: true}, points: {show: false}}];
for (var s=1; s<=ghost_count; s++) {
all_graph_data.push({"data": [], lines: {show: true, lineWidth: 0.5}, points: {show: true}});
all_graph_data.push({"data": [], lines: {show: true, lineWidth: 0.5}, points: {show: true}});
}
all_graph_data.push(q.temperature.graph_data);
all_graph_data.push(q.ignition_threshhold.graph_data);
all_graph_data.push(q.damage_threshhold.graph_data);
e.graph_config = {
xaxis: { min:0, max:15, tickSize: 3 },
yaxis: { min:-20, max:20, show: false },
series: { lines: { lineWidth: 4, }, points: { radius: 0.1, } },
colors: ['gray'],
};
function generate_graph_points() {
var step_size = 0.3;
var flow_value = q.fuel_flow_rate.value;
ghost_data_points[0] = $.extend({}, q, {"fuel_flow_rate": {"value": flow_value}, "temperature": {"value": 0}});
var potentials = [0];
for (var s=1; s <= ghost_count; s++) {
ghost_data_points[s] = $.extend({}, q);
$.extend(ghost_data_points[s], {
"fuel_flow_rate": {"value": flow_value + ghost_separation * s},
"temperature": {"value": 0}
});
potentials.push(0);
ghost_data_points[s+ghost_count] = $.extend({}, q);
$.extend(ghost_data_points[s+ghost_count], {
"fuel_flow_rate": {"value": flow_value - ghost_separation * s},
"temperature": {"value": 0}
});
potentials.push(0);
}
for (var s=0; s<potentials.length; s++) { all_graph_data[s].data = []; }
for (var i=e.graph_config.xaxis.min; i<e.graph_config.xaxis.max; i+=step_size) {
for (var s=0; s<potentials.length; s++) {
all_graph_data[s].data.push([i, potentials[s]]);
ghost_data_points[s].temperature.value = i;
potentials[s] += -1 * step_size * reaction_rate_function(ghost_data_points[s]);
}
}
//console.log("regenerated graph points");
}
function update_graph() {
e.graph_plot.setData(all_graph_data);
e.graph_plot.draw();
}
var a, b;
var timestep = 30;
e.container.ready(function () {
e.graph = e.container.find('.potential_plot');
e.graph_plot = $.plot(e.graph, [[]], e.graph_config);
jQuery.each(q, function(name, x) { x.out(); });
e.container.find('[name=ignition]').on('click', function() { q.temperature.value += q.ignition_boost.value; });
a = setInterval(jQuery.each, timestep, q, function(name, x) { if (x.update()) { x.out(); } });
b = setInterval(update_graph, timestep);
});
return e;
}
function temperature_derivative (fn, step) {
return function (quantities) {
var next_input = $.extend({}, quantities);
next_input.temperature = {"value": quantities.temperature.value + step};
return (fn(next_input) - fn(quantities))/step;
};
};
var step = 0.005;
function alt_engine(element, reaction_rate_potential_function) {
return engine(element, temperature_derivative(reaction_rate_potential_function, step));
}