package chart import ( "testing" "github.com/wcharczuk/go-chart/v2/testutil" ) func TestSeqEach(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} values.Each(func(i int, v float64) { testutil.AssertEqual(t, i, v-1) }) } func TestSeqMap(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} mapped := values.Map(func(i int, v float64) float64 { testutil.AssertEqual(t, i, v-1) return v * 2 }) testutil.AssertEqual(t, 4, mapped.Len()) } func TestSeqFoldLeft(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} ten := values.FoldLeft(func(_ int, vp, v float64) float64 { return vp + v }) testutil.AssertEqual(t, 10, ten) orderTest := Seq{NewArray(10, 3, 2, 1)} four := orderTest.FoldLeft(func(_ int, vp, v float64) float64 { return vp - v }) testutil.AssertEqual(t, 4, four) } func TestSeqFoldRight(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} ten := values.FoldRight(func(_ int, vp, v float64) float64 { return vp + v }) testutil.AssertEqual(t, 10, ten) orderTest := Seq{NewArray(10, 3, 2, 1)} notFour := orderTest.FoldRight(func(_ int, vp, v float64) float64 { return vp - v }) testutil.AssertEqual(t, -14, notFour) } func TestSeqSum(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} testutil.AssertEqual(t, 10, values.Sum()) } func TestSeqAverage(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4)} testutil.AssertEqual(t, 2.5, values.Average()) valuesOdd := Seq{NewArray(1, 2, 3, 4, 5)} testutil.AssertEqual(t, 3, valuesOdd.Average()) } func TestSequenceVariance(t *testing.T) { // replaced new assertions helper values := Seq{NewArray(1, 2, 3, 4, 5)} testutil.AssertEqual(t, 2, values.Variance()) } func TestSequenceNormalize(t *testing.T) { // replaced new assertions helper normalized := ValueSequence(1, 2, 3, 4, 5).Normalize().Values() testutil.AssertNotEmpty(t, normalized) testutil.AssertLen(t, normalized, 5) testutil.AssertEqual(t, 0, normalized[0]) testutil.AssertEqual(t, 0.25, normalized[1]) testutil.AssertEqual(t, 1, normalized[4]) } func TestLinearRange(t *testing.T) { // replaced new assertions helper values := LinearRange(1, 100) testutil.AssertLen(t, values, 100) testutil.AssertEqual(t, 1, values[0]) testutil.AssertEqual(t, 100, values[99]) } func TestLinearRangeWithStep(t *testing.T) { // replaced new assertions helper values := LinearRangeWithStep(0, 100, 5) testutil.AssertEqual(t, 100, values[20]) testutil.AssertLen(t, values, 21) } func TestLinearRangeReversed(t *testing.T) { // replaced new assertions helper values := LinearRange(10.0, 1.0) testutil.AssertEqual(t, 10, len(values)) testutil.AssertEqual(t, 10.0, values[0]) testutil.AssertEqual(t, 1.0, values[9]) } func TestLinearSequenceRegression(t *testing.T) { // replaced new assertions helper // note; this assumes a 1.0 step is implicitly set in the constructor. linearProvider := NewLinearSequence().WithStart(1.0).WithEnd(100.0) testutil.AssertEqual(t, 1, linearProvider.Start()) testutil.AssertEqual(t, 100, linearProvider.End()) testutil.AssertEqual(t, 100, linearProvider.Len()) values := Seq{linearProvider}.Values() testutil.AssertLen(t, values, 100) testutil.AssertEqual(t, 1.0, values[0]) testutil.AssertEqual(t, 100, values[99]) }