var vows = require(“vows”),

load = require("../load"),
assert = require("../assert");

var suite = vows.describe(“d3.ease”);

suite.addBatch({

"ease": {
  topic: load("interpolate/ease").expression("d3.ease"),
  "supports linear easing": function(ease) {
    var e = ease("linear");
    assert.inDelta(e(.5), .5, 1e-6);
  },
  "supports polynomial easing": function(ease) {
    var e = ease("poly", 2);
    assert.inDelta(e(.5), .25, 1e-6);
  },
  "supports quadratic easing": function(ease) {
    var e = ease("quad");
    assert.inDelta(e(.5), .25, 1e-6);
  },
  "supports cubic easing": function(ease) {
    var e = ease("cubic");
    assert.inDelta(e(.5), .125, 1e-6);
  },
  "supports sinusoidal easing": function(ease) {
    var e = ease("sin");
    assert.inDelta(e(.5), 1 - Math.cos(Math.PI / 4), 1e-6);
  },
  "supports exponential easing": function(ease) {
    var e = ease("exp");
    assert.inDelta(e(.5), 0.03125, 1e-6);
  },
  "supports circular easing": function(ease) {
    var e = ease("circle");
    assert.inDelta(e(.5), 0.133975, 1e-6);
  },
  "supports elastic easing": function(ease) {
    var e = ease("elastic");
    assert.inDelta(e(.5), 0.976061, 1e-6);
  },
  "supports back easing": function(ease) {
    var e = ease("back");
    assert.inDelta(e(.5), -0.0876975, 1e-6);
  },
  "supports bounce easing": function(ease) {
    var e = ease("bounce");
    assert.inDelta(e(.5), 0.765625, 1e-6);
  },
  "invalid eases and modes default to linear-in": function(ease) {
    var e = ease("__proto__-__proto__");
    assert.strictEqual(e(0), 0);
    assert.strictEqual(e(.5), .5);
    assert.strictEqual(e(1), 1);
    var e = ease("hasOwnProperty-constructor");
    assert.strictEqual(e(0), 0);
    assert.strictEqual(e(.5), .5);
    assert.strictEqual(e(1), 1);
  },
  "all easing functions return exactly 0 for t = 0": function(ease) {
    assert.strictEqual(ease("linear")(0), 0);
    assert.strictEqual(ease("poly", 2)(0), 0);
    assert.strictEqual(ease("quad")(0), 0);
    assert.strictEqual(ease("cubic")(0), 0);
    assert.strictEqual(ease("sin")(0), 0);
    assert.strictEqual(ease("exp")(0), 0);
    assert.strictEqual(ease("circle")(0), 0);
    assert.strictEqual(ease("elastic")(0), 0);
    assert.strictEqual(ease("back")(0), 0);
    assert.strictEqual(ease("bounce")(0), 0);
  },
  "all easing functions return exactly 1 for t = 1": function(ease) {
    assert.strictEqual(ease("linear")(1), 1);
    assert.strictEqual(ease("poly", 2)(1), 1);
    assert.strictEqual(ease("quad")(1), 1);
    assert.strictEqual(ease("cubic")(1), 1);
    assert.strictEqual(ease("sin")(1), 1);
    assert.strictEqual(ease("exp")(1), 1);
    assert.strictEqual(ease("circle")(1), 1);
    assert.strictEqual(ease("elastic")(1), 1);
    assert.strictEqual(ease("back")(1), 1);
    assert.strictEqual(ease("bounce")(1), 1);
  },
  "the -in suffix returns the identity": function(ease) {
    assert.inDelta(ease("linear-in")(.25), ease("linear")(.25), 1e-6);
    assert.inDelta(ease("quad-in")(.75), ease("quad")(.75), 1e-6);
  },
  "the -out suffix returns the reverse": function(ease) {
    assert.inDelta(ease("sin-out")(.25), 1 - ease("sin-in")(.75), 1e-6);
    assert.inDelta(ease("bounce-out")(.25), 1 - ease("bounce-in")(.75), 1e-6);
    assert.inDelta(ease("elastic-out")(.25), 1 - ease("elastic-in")(.75), 1e-6);
  },
  "the -in-out suffix returns the reflection": function(ease) {
    assert.inDelta(ease("sin-in-out")(.25), .5 * ease("sin-in")(.5), 1e-6);
    assert.inDelta(ease("bounce-in-out")(.25), .5 * ease("bounce-in")(.5), 1e-6);
    assert.inDelta(ease("elastic-in-out")(.25), .5 * ease("elastic-in")(.5), 1e-6);
  },
  "the -out-in suffix returns the reverse reflection": function(ease) {
    assert.inDelta(ease("sin-out-in")(.25), .5 * ease("sin-out")(.5), 1e-6);
    assert.inDelta(ease("bounce-out-in")(.25), .5 * ease("bounce-out")(.5), 1e-6);
    assert.inDelta(ease("elastic-out-in")(.25), .5 * ease("elastic-out")(.5), 1e-6);
  },
  "clamps input time": function(ease) {
    var e = ease("linear");
    assert.inDelta(e(-1), 0, 1e-6);
    assert.inDelta(e(2), 1, 1e-6);
  },
  "poly": {
    "supports an optional polynomial": function(ease) {
      var e = ease("poly", 1);
      assert.inDelta(e(.5), .5, 1e-6);
      var e = ease("poly", .5);
      assert.inDelta(e(.5), Math.SQRT1_2, 1e-6);
    }
  },
  "elastic": {
    "supports an optional amplifier (>1)": function(ease) {
      var e = ease("elastic", 1.5);
      assert.inDelta(e(.5), 0.998519, 1e-6);
    },
    "supports an optional amplifier (>1) and period (>0)": function(ease) {
      var e = ease("elastic", 1.5, .5);
      assert.inDelta(e(.5), 0.96875, 1e-6);
    }
  },
  "back": {
    "supports an optional speed": function(ease) {
      var e = ease("back", 2);
      assert.inDelta(e(.5), -0.125, 1e-6);
    }
  }
}

});

suite.export(module);