var vows = require("vows"), load = require("../load"), assert = require("../assert"); var suite = vows.describe("d3.range"); suite.addBatch({ "range": { topic: load("arrays/range").expression("d3.range"), "start is an inclusive lower bound": function(range) { assert.equal(range(5)[0], 0); assert.equal(range(1, 5)[0], 1); assert.equal(range(5, 1, -1)[0], 5); }, "stop is an exclusive upper bound": function(range) { assert.equal(range(5)[4], 4); assert.equal(range(1, 5)[3], 4); assert.equal(range(5, 1, -1)[3], 2); }, "with one argument, returns integers [0 … stop)": function(range) { assert.deepEqual(range(0), []); assert.deepEqual(range(1), [0]); assert.deepEqual(range(5), [0, 1, 2, 3, 4]); }, "with two arguments, returns integers [start … stop)": function(range) { assert.deepEqual(range(0, 5), [0, 1, 2, 3, 4]); assert.deepEqual(range(5, 9), [5, 6, 7, 8]); }, "with three arguments, returns start + k * step": function(range) { assert.deepEqual(range(0, 5, 1), [0, 1, 2, 3, 4]); assert.deepEqual(range(5, 9, .5), [5, 5.5, 6, 6.5, 7, 7.5, 8, 8.5]); assert.deepEqual(range(5, 8.5, .5), [5, 5.5, 6, 6.5, 7, 7.5, 8]); assert.deepEqual(range(2, 0, -.5), [2, 1.5, 1, .5]); }, "handles fractional steps without rounding errors": function(range) { assert.deepEqual(range(0, 0.5, 0.1), [0, 0.1, 0.2, 0.3, 0.4]); assert.deepEqual(range(-2, -1.2, 0.1), [-2, -1.9, -1.8, -1.7, -1.6, -1.5, -1.4, -1.3]); }, "handles extremely small steps without rounding errors": function(range) { assert.deepEqual(range(2.1e-31, 5e-31, 1.1e-31), [2.1e-31, 3.2e-31, 4.3e-31]); }, "handles extremely large steps without rounding errors": function(range) { assert.deepEqual(range(1e300, 2e300, 0.3e300), [1e300, 1.3e300, 1.6e300, 1.9e300]); }, "returns an ascending range if step is positive": function(range) { assert.deepEqual(range(0, 5, 1), [0, 1, 2, 3, 4]); }, "returns a descending range if step is negative": function(range) { assert.deepEqual(range(5, 0, -1), [5, 4, 3, 2, 1]); }, "returns an empty range if start, stop or step are NaN": function(range) { assert.isEmpty(range(0, NaN)); assert.isEmpty(range(1, NaN)); assert.isEmpty(range(-1, NaN)); assert.isEmpty(range(0, undefined)); assert.isEmpty(range(1, undefined)); assert.isEmpty(range(-1, undefined)); assert.isEmpty(range(NaN, 0)); assert.isEmpty(range(NaN, 1)); assert.isEmpty(range(NaN, -1)); assert.isEmpty(range(undefined, 0)); assert.isEmpty(range(undefined, 1)); assert.isEmpty(range(undefined, -1)); assert.isEmpty(range(NaN, NaN)); assert.isEmpty(range(undefined, undefined)); assert.isEmpty(range(NaN, NaN, NaN)); assert.isEmpty(range(undefined, undefined, undefined)); assert.isEmpty(range(0, 10, NaN)); assert.isEmpty(range(10, 0, NaN)); assert.isEmpty(range(0, 10, undefined)); assert.isEmpty(range(10, 0, undefined)); }, "returns an empty range if start equals stop": function(range) { assert.isEmpty(range(10, 10)); assert.isEmpty(range(10, 10, 1)); assert.isEmpty(range(10, 10, -1)); assert.isEmpty(range(10, 10, -.5)); assert.isEmpty(range(10, 10, .5)); assert.isEmpty(range(0, 0)); assert.isEmpty(range(0, 0, 1)); assert.isEmpty(range(0, 0, -1)); assert.isEmpty(range(0, 0, -.5)); assert.isEmpty(range(0, 0, .5)); }, "returns an empty range if stop is less than start and step is positive": function(range) { assert.isEmpty(range(20, 10)); assert.isEmpty(range(20, 10, 2)); assert.isEmpty(range(20, 10, 1)); assert.isEmpty(range(20, 10, .5)); }, "returns an empty range if stop is greater than start and step is negative": function(range) { assert.isEmpty(range(10, 20, -2)); assert.isEmpty(range(10, 20, -1)); assert.isEmpty(range(10, 20, -.5)); } } }); suite.export(module);