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require("../env");

var vows = require("vows"),
    assert = require("assert");

var suite = vows.describe("d3.scale.linear");

suite.addBatch({
  "linear": {
    topic: function() {
      return d3.scale.linear;
    },

    "domain": {
      "defaults to [0, 1]": function(linear) {
        var x = linear();
        assert.deepEqual(x.domain(), [0, 1]);
        assert.inDelta(x(.5), .5, 1e-6);
      },
      "coerces domain values to numbers": function(linear) {
        var x = linear().domain([new Date(1990, 0, 1), new Date(1991, 0, 1)]);
        assert.equal(typeof x.domain()[0], "number");
        assert.equal(typeof x.domain()[1], "number");
        assert.inDelta(x(new Date(1989, 09, 20)), -.2, 1e-2);
        assert.inDelta(x(new Date(1990, 00, 01)), 0, 1e-2);
        assert.inDelta(x(new Date(1990, 02, 15)), .2, 1e-2);
        assert.inDelta(x(new Date(1990, 04, 27)), .4, 1e-2);
        assert.inDelta(x(new Date(1991, 00, 01)), 1, 1e-2);
        assert.inDelta(x(new Date(1991, 02, 15)), 1.2, 1e-2);
        var x = linear().domain(["0", "1"]);
        assert.equal(typeof x.domain()[0], "number");
        assert.equal(typeof x.domain()[1], "number");
        assert.inDelta(x(.5), .5, 1e-6);
        var x = linear().domain([new Number(0), new Number(1)]);
        assert.equal(typeof x.domain()[0], "number");
        assert.equal(typeof x.domain()[1], "number");
        assert.inDelta(x(.5), .5, 1e-6);
      },
      "can specify a polylinear domain and range": function(linear) {
        var x = linear().domain([-10, 0, 100]).range(["red", "white", "green"]);
        assert.equal(x(-5), "#ff8080");
        assert.equal(x(50), "#80c080");
        assert.equal(x(75), "#40a040");
      },
      "the smaller of the domain or range is observed": function(linear) {
        var x = linear().domain([-10, 0]).range(["red", "white", "green"]).clamp(true);
        assert.equal(x(-5), "#ff8080");
        assert.equal(x(50), "#ffffff");
        var x = linear().domain([-10, 0, 100]).range(["red", "white"]).clamp(true);
        assert.equal(x(-5), "#ff8080");
        assert.equal(x(50), "#ffffff");
      },
      "an empty domain maps to the range start": function(linear) {
        var x = linear().domain([0, 0]).range(["red", "green"]);
        assert.equal(x(0), "#ff0000");
        assert.equal(x(-1), "#ff0000");
        assert.equal(x(1), "#ff0000");
      }
    },

    "range": {
      "defaults to [0, 1]": function(linear) {
        var x = linear();
        assert.deepEqual(x.range(), [0, 1]);
        assert.inDelta(x.invert(.5), .5, 1e-6);
      },
      "does not coerce range to numbers": function(linear) {
        var x = linear().range(["0", "2"]);
        assert.equal(typeof x.range()[0], "string");
        assert.equal(typeof x.range()[1], "string");
      },
      "can specify range values as colors": function(linear) {
        var x = linear().range(["red", "blue"]);
        assert.equal(x(.5), "#800080");
        var x = linear().range(["#ff0000", "#0000ff"]);
        assert.equal(x(.5), "#800080");
        var x = linear().range(["#f00", "#00f"]);
        assert.equal(x(.5), "#800080");
        var x = linear().range([d3.rgb(255,0,0), d3.hsl(240,1,.5)]);
        assert.equal(x(.5), "#800080");
        var x = linear().range(["hsl(0,100%,50%)", "hsl(240,100%,50%)"]);
        assert.equal(x(.5), "#800080");
      },
      "can specify range values as arrays or objects": function(linear) {
        var x = linear().range([{color: "red"}, {color: "blue"}]);
        assert.deepEqual(x(.5), {color: "#800080"});
        var x = linear().range([["red"], ["blue"]]);
        assert.deepEqual(x(.5), ["#800080"]);
      }
    },

    "interpolate": {
      "defaults to d3.interpolate": function(linear) {
        var x = linear().range(["red", "blue"]);
        assert.equal(x.interpolate(), d3.interpolate);
        assert.equal(x(.5), "#800080");
      },
      "can specify a custom interpolator": function(linear) {
        var x = linear().range(["red", "blue"]).interpolate(d3.interpolateHsl);
        assert.equal(x(.5), "#ff00ff");
      }
    },

    "clamp": {
      "defaults to false": function(linear) {
        var x = linear();
        assert.isFalse(x.clamp());
        assert.inDelta(x(-.5), -.5, 1e-6);
        assert.inDelta(x(1.5), 1.5, 1e-6);
      },
      "can clamp to the domain": function(linear) {
        var x = linear().clamp(true);
        assert.inDelta(x(-.5), 0, 1e-6);
        assert.inDelta(x(.5), .5, 1e-6);
        assert.inDelta(x(1.5), 1, 1e-6);
        var x = linear().domain([1, 0]).clamp(true);
        assert.inDelta(x(-.5), 1, 1e-6);
        assert.inDelta(x(.5), .5, 1e-6);
        assert.inDelta(x(1.5), 0, 1e-6);
      },
      "can clamp to the range": function(linear) {
        var x = linear().clamp(true);
        assert.inDelta(x.invert(-.5), 0, 1e-6);
        assert.inDelta(x.invert(.5), .5, 1e-6);
        assert.inDelta(x.invert(1.5), 1, 1e-6);
        var x = linear().range([1, 0]).clamp(true);
        assert.inDelta(x.invert(-.5), 1, 1e-6);
        assert.inDelta(x.invert(.5), .5, 1e-6);
        assert.inDelta(x.invert(1.5), 0, 1e-6);
      }
    },

    "maps a number to a number": function(linear) {
      var x = linear().domain([1, 2]);
      assert.inDelta(x(.5), -.5, 1e-6);
      assert.inDelta(x(1), 0, 1e-6);
      assert.inDelta(x(1.5), .5, 1e-6);
      assert.inDelta(x(2), 1, 1e-6);
      assert.inDelta(x(2.5), 1.5, 1e-6);
    },

    "invert": {
      "maps a number to a number": function(linear) {
        var x = linear().range([1, 2]);
        assert.inDelta(x.invert(.5), -.5, 1e-6);
        assert.inDelta(x.invert(1), 0, 1e-6);
        assert.inDelta(x.invert(1.5), .5, 1e-6);
        assert.inDelta(x.invert(2), 1, 1e-6);
        assert.inDelta(x.invert(2.5), 1.5, 1e-6);
      },
      "coerces range value to numbers": function(linear) {
        var x = linear().range(["0", "2"]);
        assert.inDelta(x.invert("1"), .5, 1e-6);
        var x = linear().range([new Date(1990, 0, 1), new Date(1991, 0, 1)]);
        assert.inDelta(x.invert(new Date(1990, 6, 2, 13)), .5, 1e-6);
        var x = linear().range(["#000", "#fff"]);
        assert.isNaN(x.invert("#999"));
      },
      "can invert a polylinear descending domain": function(linear) {
        var x = linear().domain([4, 2, 1]).range([1, 2, 4]);
        assert.inDelta(x(1.5), 3, 1e-6);
        assert.inDelta(x(3), 1.5, 1e-6);
        assert.inDelta(x.invert(1.5), 3, 1e-6);
        assert.inDelta(x.invert(3), 1.5, 1e-6);
      },
      "can invert a polylinear descending range": function(linear) {
        var x = linear().domain([1, 2, 4]).range([4, 2, 1]);
        assert.inDelta(x(1.5), 3, 1e-6);
        assert.inDelta(x(3), 1.5, 1e-6);
        assert.inDelta(x.invert(1.5), 3, 1e-6);
        assert.inDelta(x.invert(3), 1.5, 1e-6);
      }
    },

    "ticks": {
      "generates ticks of varying degree": function(linear) {
        var x = linear();
        assert.deepEqual(x.ticks(1).map(x.tickFormat(1)), [0, 1]);
        assert.deepEqual(x.ticks(2).map(x.tickFormat(2)), [0, .5, 1]);
        assert.deepEqual(x.ticks(5).map(x.tickFormat(5)), [0, .2, .4, .6, .8, 1]);
        assert.deepEqual(x.ticks(10).map(x.tickFormat(10)), [0, .1, .2, .3, .4, .5, .6, .7, .8, .9, 1]);
        var x = linear().domain([1, 0]);
        assert.deepEqual(x.ticks(1).map(x.tickFormat(1)), [0, 1]);
        assert.deepEqual(x.ticks(2).map(x.tickFormat(2)), [0, .5, 1]);
        assert.deepEqual(x.ticks(5).map(x.tickFormat(5)), [0, .2, .4, .6, .8, 1]);
        assert.deepEqual(x.ticks(10).map(x.tickFormat(10)), [0, .1, .2, .3, .4, .5, .6, .7, .8, .9, 1]);
      },
      "formats ticks with the appropriate precision": function(linear) {
        var x = linear().domain([.123456789, 1.23456789]);
        assert.strictEqual(x.tickFormat(1)(x.ticks(1)[0]), "1");
        assert.strictEqual(x.tickFormat(2)(x.ticks(2)[0]), "0.5");
        assert.strictEqual(x.tickFormat(4)(x.ticks(4)[0]), "0.2");
        assert.strictEqual(x.tickFormat(8)(x.ticks(8)[0]), "0.2");
        assert.strictEqual(x.tickFormat(16)(x.ticks(16)[0]), "0.2");
        assert.strictEqual(x.tickFormat(32)(x.ticks(32)[0]), "0.15");
        assert.strictEqual(x.tickFormat(64)(x.ticks(64)[0]), "0.14");
        assert.strictEqual(x.tickFormat(128)(x.ticks(128)[0]), "0.13");
        assert.strictEqual(x.tickFormat(256)(x.ticks(256)[0]), "0.125");
      }
    },

    "nice": {
      "nices the domain, extending it to round numbers": function(linear) {
        var x = linear().domain([1.1, 10.9]).nice();
        assert.deepEqual(x.domain(), [1, 11]);
        var x = linear().domain([10.9, 1.1]).nice();
        assert.deepEqual(x.domain(), [11, 1]);
        var x = linear().domain([.7, 11.001]).nice();
        assert.deepEqual(x.domain(), [0, 12]);
        var x = linear().domain([123.1, 6.7]).nice();
        assert.deepEqual(x.domain(), [130, 0]);
        var x = linear().domain([0, .49]).nice();
        assert.deepEqual(x.domain(), [0, .5]);
      },
      "has no effect on degenerate domains": function(linear) {
        var x = linear().domain([0, 0]).nice();
        assert.deepEqual(x.domain(), [0, 0]);
        var x = linear().domain([.5, .5]).nice();
        assert.deepEqual(x.domain(), [.5, .5]);
      },
      "nicing a polylinear domain only affects the extent": function(linear) {
        var x = linear().domain([1.1, 1, 2, 3, 10.9]).nice();
        assert.deepEqual(x.domain(), [1, 1, 2, 3, 11]);
        var x = linear().domain([123.1, 1, 2, 3, -.9]).nice();
        assert.deepEqual(x.domain(), [130, 1, 2, 3, -10]);
      }
    },

    "copy": {
      "changes to the domain are isolated": function(linear) {
        var x = linear(), y = x.copy();
        x.domain([1, 2]);
        assert.deepEqual(y.domain(), [0, 1]);
        assert.equal(x(1), 0);
        assert.equal(y(1), 1);
        y.domain([2, 3]);
        assert.equal(x(2), 1);
        assert.equal(y(2), 0);
        assert.deepEqual(x.domain(), [1, 2]);
        assert.deepEqual(y.domain(), [2, 3]);
      },
      "changes to the range are isolated": function(linear) {
        var x = linear(), y = x.copy();
        x.range([1, 2]);
        assert.equal(x.invert(1), 0);
        assert.equal(y.invert(1), 1);
        assert.deepEqual(y.range(), [0, 1]);
        y.range([2, 3]);
        assert.equal(x.invert(2), 1);
        assert.equal(y.invert(2), 0);
        assert.deepEqual(x.range(), [1, 2]);
        assert.deepEqual(y.range(), [2, 3]);
      },
      "changes to the interpolator are isolated": function(linear) {
        var x = linear().range(["red", "blue"]), y = x.copy();
        x.interpolate(d3.interpolateHsl);
        assert.equal(x(0.5), "#ff00ff");
        assert.equal(y(0.5), "#800080");
        assert.equal(y.interpolate(), d3.interpolate);
      },
      "changes to clamping are isolated": function(linear) {
        var x = linear().clamp(true), y = x.copy();
        x.clamp(false);
        assert.equal(x(2), 2);
        assert.equal(y(2), 1);
        assert.isTrue(y.clamp());
        y.clamp(false);
        assert.equal(x(2), 2);
        assert.equal(y(2), 2);
        assert.isFalse(x.clamp());
      }
    }
  }
});

suite.export(module);
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