// Ensure a cursor with a single ref value can be converted into an iterator.
func TestFloatCursorIterator_SingleValue(t *testing.T) {
cur := NewCursor([]CursorItem{
{Key: 0, Value: float64(100)},
{Key: 3, Value: float64(200)},
}, true)
opt := influxql.IteratorOptions{
Expr: &influxql.VarRef{Val: "value"},
Ascending: true,
StartTime: influxql.MinTime,
EndTime: influxql.MaxTime,
}
itr := tsdb.NewFloatCursorIterator("series0", map[string]string{"host": "serverA"}, cur, opt)
defer itr.Close()
if p := itr.Next(); !deep.Equal(p, &influxql.FloatPoint{
Name: "series0",
Time: 0,
Value: float64(100),
}) {
t.Fatalf("unexpected point(0): %s", spew.Sdump(p))
}
if p := itr.Next(); !deep.Equal(p, &influxql.FloatPoint{
Name: "series0",
Time: 3,
Value: float64(200),
}) {
t.Fatalf("unexpected point(1): %s", spew.Sdump(p))
}
if p := itr.Next(); p != nil {
t.Fatalf("expected eof, got: %s", spew.Sdump(p))
}
}
// Ensure the emitter can group iterators together into rows.
func TestEmitter_Emit(t *testing.T) {
// Build an emitter that pulls from two iterators.
e := influxql.NewEmitter([]influxql.Iterator{
&FloatIterator{Points: []influxql.FloatPoint{
{Name: "cpu", Tags: ParseTags("region=west"), Time: 0, Value: 1},
{Name: "cpu", Tags: ParseTags("region=west"), Time: 1, Value: 2},
}},
&FloatIterator{Points: []influxql.FloatPoint{
{Name: "cpu", Tags: ParseTags("region=west"), Time: 1, Value: 4},
{Name: "cpu", Tags: ParseTags("region=north"), Time: 0, Value: 4},
{Name: "mem", Time: 4, Value: 5},
}},
}, true, 0)
e.Columns = []string{"col1", "col2"}
// Verify the cpu region=west is emitted first.
if row := e.Emit(); !deep.Equal(row, &models.Row{
Name: "cpu",
Tags: map[string]string{"region": "west"},
Columns: []string{"col1", "col2"},
Values: [][]interface{}{
{time.Unix(0, 0).UTC(), float64(1), nil},
{time.Unix(0, 1).UTC(), float64(2), float64(4)},
},
}) {
t.Fatalf("unexpected row(0): %s", spew.Sdump(row))
}
// Verify the cpu region=north is emitted next.
if row := e.Emit(); !deep.Equal(row, &models.Row{
Name: "cpu",
Tags: map[string]string{"region": "north"},
Columns: []string{"col1", "col2"},
Values: [][]interface{}{
{time.Unix(0, 0).UTC(), nil, float64(4)},
},
}) {
t.Fatalf("unexpected row(1): %s", spew.Sdump(row))
}
// Verify the mem series is emitted last.
if row := e.Emit(); !deep.Equal(row, &models.Row{
Name: "mem",
Columns: []string{"col1", "col2"},
Values: [][]interface{}{
{time.Unix(0, 4).UTC(), nil, float64(5)},
},
}) {
t.Fatalf("unexpected row(2): %s", spew.Sdump(row))
}
// Verify EOF.
if row := e.Emit(); row != nil {
t.Fatalf("unexpected eof: %s", spew.Sdump(row))
}
}
// Ensure limit iterators work with limit and offset.
func TestLimitIterator_Boolean(t *testing.T) {
input := &BooleanIterator{Points: []influxql.BooleanPoint{
{Name: "cpu", Time: 0, Value: true},
{Name: "cpu", Time: 5, Value: false},
{Name: "cpu", Time: 10, Value: true},
{Name: "mem", Time: 5, Value: false},
{Name: "mem", Time: 7, Value: true},
}}
itr := influxql.NewLimitIterator(input, influxql.IteratorOptions{
Limit: 1,
Offset: 1,
})
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.BooleanPoint{Name: "cpu", Time: 5, Value: false}},
{&influxql.BooleanPoint{Name: "mem", Time: 7, Value: true}},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
if !input.Closed {
t.Error("iterator not closed")
}
}
// Ensure that a string iterator can be created for a count() call.
func TestCallIterator_Count_String(t *testing.T) {
itr, _ := influxql.NewCallIterator(
&StringIterator{Points: []influxql.StringPoint{
{Name: "cpu", Time: 0, Value: "d", Tags: ParseTags("region=us-east,host=hostA")},
{Name: "cpu", Time: 1, Value: "c", Tags: ParseTags("region=us-west,host=hostB")},
{Name: "cpu", Time: 2, Value: "b", Tags: ParseTags("region=us-east,host=hostA")},
{Name: "cpu", Time: 1, Value: "b", Tags: ParseTags("region=us-west,host=hostA")},
{Name: "cpu", Time: 5, Value: "e", Tags: ParseTags("region=us-east,host=hostA")},
{Name: "cpu", Time: 23, Value: "a", Tags: ParseTags("region=us-west,host=hostB")},
{Name: "mem", Time: 23, Value: "b", Tags: ParseTags("region=us-west,host=hostB")},
}},
influxql.IteratorOptions{
Expr: MustParseExpr(`count("value")`),
Dimensions: []string{"host"},
Interval: influxql.Interval{Duration: 5 * time.Nanosecond},
},
)
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.IntegerPoint{Name: "cpu", Time: 0, Value: 3, Tags: ParseTags("host=hostA"), Aggregated: 3}},
{&influxql.IntegerPoint{Name: "cpu", Time: 0, Value: 1, Tags: ParseTags("host=hostB"), Aggregated: 1}},
{&influxql.IntegerPoint{Name: "cpu", Time: 5, Value: 1, Tags: ParseTags("host=hostA"), Aggregated: 1}},
{&influxql.IntegerPoint{Name: "cpu", Time: 20, Value: 1, Tags: ParseTags("host=hostB"), Aggregated: 1}},
{&influxql.IntegerPoint{Name: "mem", Time: 20, Value: 1, Tags: ParseTags("host=hostB"), Aggregated: 1}},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
}
// Ensure that a boolean iterator can be created for a last() call.
func TestCallIterator_Last_Boolean(t *testing.T) {
itr, _ := influxql.NewCallIterator(
&BooleanIterator{Points: []influxql.BooleanPoint{
{Time: 1, Value: true, Tags: ParseTags("region=us-west,host=hostB")},
{Time: 2, Value: false, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 0, Value: true, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 1, Value: false, Tags: ParseTags("region=us-west,host=hostA")},
{Time: 6, Value: false, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 23, Value: false, Tags: ParseTags("region=us-west,host=hostB")},
}},
influxql.IteratorOptions{
Expr: MustParseExpr(`last("value")`),
Dimensions: []string{"host"},
Interval: influxql.Interval{Duration: 5 * time.Nanosecond},
},
)
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.BooleanPoint{Time: 2, Value: false, Tags: ParseTags("host=hostA"), Aggregated: 3}},
{&influxql.BooleanPoint{Time: 1, Value: true, Tags: ParseTags("host=hostB"), Aggregated: 1}},
{&influxql.BooleanPoint{Time: 6, Value: false, Tags: ParseTags("host=hostA"), Aggregated: 1}},
{&influxql.BooleanPoint{Time: 23, Value: false, Tags: ParseTags("host=hostB"), Aggregated: 1}},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
}
// Ensure that a integer iterator can be created for a min() call.
func TestCallIterator_Min_Integer(t *testing.T) {
itr, _ := influxql.NewCallIterator(
&IntegerIterator{Points: []influxql.IntegerPoint{
{Time: 0, Value: 15, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 1, Value: 11, Tags: ParseTags("region=us-west,host=hostB")},
{Time: 2, Value: 10, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 4, Value: 12, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 1, Value: 10, Tags: ParseTags("region=us-west,host=hostA")},
{Time: 5, Value: 20, Tags: ParseTags("region=us-east,host=hostA")},
{Time: 23, Value: 8, Tags: ParseTags("region=us-west,host=hostB")},
}},
influxql.IteratorOptions{
Expr: MustParseExpr(`min("value")`),
Dimensions: []string{"host"},
Interval: influxql.Interval{Duration: 5 * time.Nanosecond},
},
)
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.IntegerPoint{Time: 1, Value: 10, Tags: ParseTags("host=hostA"), Aggregated: 4}},
{&influxql.IntegerPoint{Time: 1, Value: 11, Tags: ParseTags("host=hostB"), Aggregated: 1}},
{&influxql.IntegerPoint{Time: 5, Value: 20, Tags: ParseTags("host=hostA"), Aggregated: 1}},
{&influxql.IntegerPoint{Time: 23, Value: 8, Tags: ParseTags("host=hostB"), Aggregated: 1}},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
}
// Ensure engine can create an iterator with auxilary fields.
func TestEngine_CreateIterator_Aux(t *testing.T) {
t.Parallel()
e := MustOpenEngine()
defer e.Close()
e.Index().CreateMeasurementIndexIfNotExists("cpu")
e.MeasurementFields("cpu").CreateFieldIfNotExists("value", influxql.Float, false)
e.MeasurementFields("cpu").CreateFieldIfNotExists("F", influxql.Float, false)
e.Index().CreateSeriesIndexIfNotExists("cpu", tsdb.NewSeries("cpu,host=A", map[string]string{"host": "A"}))
if err := e.WritePointsString(
`cpu,host=A value=1.1 1000000000`,
`cpu,host=A F=100 1000000000`,
`cpu,host=A value=1.2 2000000000`,
`cpu,host=A value=1.3 3000000000`,
`cpu,host=A F=200 3000000000`,
); err != nil {
t.Fatalf("failed to write points: %s", err.Error())
}
itr, err := e.CreateIterator(influxql.IteratorOptions{
Expr: influxql.MustParseExpr(`value`),
Aux: []string{"F"},
Dimensions: []string{"host"},
Sources: []influxql.Source{&influxql.Measurement{Name: "cpu"}},
StartTime: influxql.MinTime,
EndTime: influxql.MaxTime,
Ascending: true,
})
if err != nil {
t.Fatal(err)
}
fitr := itr.(influxql.FloatIterator)
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 1000000000, Value: 1.1, Aux: []interface{}{float64(100)}}) {
t.Fatalf("unexpected point(0): %v", p)
}
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 2000000000, Value: 1.2, Aux: []interface{}{(*float64)(nil)}}) {
t.Fatalf("unexpected point(1): %v", p)
}
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 3000000000, Value: 1.3, Aux: []interface{}{float64(200)}}) {
t.Fatalf("unexpected point(2): %v", p)
}
if p := fitr.Next(); p != nil {
t.Fatalf("expected eof: %v", p)
}
}
func TestPoint_Clone_Boolean(t *testing.T) {
p := &influxql.BooleanPoint{
Name: "cpu",
Tags: ParseTags("host=server01"),
Time: 5,
Value: true,
Aux: []interface{}{float64(45)},
}
c := p.Clone()
if p == c {
t.Errorf("clone has the same address as the original: %v == %v", p, c)
}
if !deep.Equal(p, c) {
t.Errorf("mismatched point: %s", spew.Sdump(c))
}
if &p.Aux[0] == &c.Aux[0] {
t.Errorf("aux values share the same address: %v == %v", p.Aux, c.Aux)
} else if !deep.Equal(p.Aux, c.Aux) {
t.Errorf("mismatched aux fields: %v != %v", p.Aux, c.Aux)
}
}
// Ensure the emitter will limit the chunked output from a series.
func TestEmitter_ChunkSize(t *testing.T) {
// Build an emitter that pulls from one iterator with multiple points in the same series.
e := influxql.NewEmitter([]influxql.Iterator{
&FloatIterator{Points: []influxql.FloatPoint{
{Name: "cpu", Tags: ParseTags("region=west"), Time: 0, Value: 1},
{Name: "cpu", Tags: ParseTags("region=west"), Time: 1, Value: 2},
}},
}, true, 1)
e.Columns = []string{"col1"}
// Verify the cpu region=west is emitted first.
if row := e.Emit(); !deep.Equal(row, &models.Row{
Name: "cpu",
Tags: map[string]string{"region": "west"},
Columns: []string{"col1"},
Values: [][]interface{}{
{time.Unix(0, 0).UTC(), float64(1)},
},
}) {
t.Fatalf("unexpected row(0): %s", spew.Sdump(row))
}
// Verify the cpu region=north is emitted next.
if row := e.Emit(); !deep.Equal(row, &models.Row{
Name: "cpu",
Tags: map[string]string{"region": "west"},
Columns: []string{"col1"},
Values: [][]interface{}{
{time.Unix(0, 1).UTC(), float64(2)},
},
}) {
t.Fatalf("unexpected row(1): %s", spew.Sdump(row))
}
// Verify EOF.
if row := e.Emit(); row != nil {
t.Fatalf("unexpected eof: %s", spew.Sdump(row))
}
}
func TestSortedMergeIterator_Cast_Float(t *testing.T) {
inputs := []influxql.Iterator{
&IntegerIterator{Points: []influxql.IntegerPoint{
{Name: "cpu", Tags: ParseTags("host=A"), Time: 0, Value: 1},
{Name: "cpu", Tags: ParseTags("host=A"), Time: 12, Value: 3},
{Name: "cpu", Tags: ParseTags("host=A"), Time: 30, Value: 4},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 1, Value: 2},
{Name: "mem", Tags: ParseTags("host=B"), Time: 4, Value: 8},
}},
&FloatIterator{Points: []influxql.FloatPoint{
{Name: "cpu", Tags: ParseTags("host=A"), Time: 20, Value: 7},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 11, Value: 5},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 13, Value: 6},
{Name: "mem", Tags: ParseTags("host=A"), Time: 25, Value: 9},
}},
}
itr := influxql.NewSortedMergeIterator(inputs, influxql.IteratorOptions{
Interval: influxql.Interval{
Duration: 10 * time.Nanosecond,
},
Ascending: true,
})
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 0, Value: 1}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 12, Value: 3}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 20, Value: 7}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 30, Value: 4}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 1, Value: 2}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 11, Value: 5}},
{&influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 13, Value: 6}},
{&influxql.FloatPoint{Name: "mem", Tags: ParseTags("host=A"), Time: 25, Value: 9}},
{&influxql.FloatPoint{Name: "mem", Tags: ParseTags("host=B"), Time: 4, Value: 8}},
}) {
t.Errorf("unexpected points: %s", spew.Sdump(a))
}
for i, input := range inputs {
switch input := input.(type) {
case *FloatIterator:
if !input.Closed {
t.Errorf("iterator %d not closed", i)
}
case *IntegerIterator:
if !input.Closed {
t.Errorf("iterator %d not closed", i)
}
}
}
}
// Ensure a cursor with multiple values can be converted into an iterator.
func TestFloatCursorIterator_Aux_MultipleValues(t *testing.T) {
cur := NewCursor([]CursorItem{
{Key: 0, Value: map[string]interface{}{"val1": float64(100), "val2": "foo"}},
{Key: 3, Value: map[string]interface{}{"val1": float64(200), "val2": "bar"}},
}, true)
opt := influxql.IteratorOptions{
Aux: []string{"val1", "val2"},
Ascending: true,
StartTime: influxql.MinTime,
EndTime: influxql.MaxTime,
}
itr := tsdb.NewFloatCursorIterator("series0", map[string]string{"host": "serverA"}, cur, opt)
defer itr.Close()
if p := itr.Next(); !deep.Equal(p, &influxql.FloatPoint{
Name: "series0",
Time: 0,
Value: math.NaN(),
Aux: []interface{}{float64(100), "foo"},
}) {
t.Fatalf("unexpected point(0): %s", spew.Sdump(p))
}
if p := itr.Next(); !deep.Equal(p, &influxql.FloatPoint{
Name: "series0",
Time: 3,
Value: math.NaN(),
Aux: []interface{}{float64(200), "bar"},
}) {
t.Fatalf("unexpected point(1): %s", spew.Sdump(p))
}
if p := itr.Next(); p != nil {
t.Fatalf("expected eof, got: %s", spew.Sdump(p))
}
}
// Ensure that a set of iterators can be merged together, sorted by window and name/tag.
func TestMergeIterator_Boolean(t *testing.T) {
inputs := []*BooleanIterator{
{Points: []influxql.BooleanPoint{
{Name: "cpu", Tags: ParseTags("host=A"), Time: 0, Value: true},
{Name: "cpu", Tags: ParseTags("host=A"), Time: 12, Value: true},
{Name: "cpu", Tags: ParseTags("host=A"), Time: 30, Value: false},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 1, Value: false},
{Name: "mem", Tags: ParseTags("host=B"), Time: 11, Value: true},
}},
{Points: []influxql.BooleanPoint{
{Name: "cpu", Tags: ParseTags("host=A"), Time: 20, Value: true},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 11, Value: true},
{Name: "cpu", Tags: ParseTags("host=B"), Time: 13, Value: false},
{Name: "mem", Tags: ParseTags("host=A"), Time: 25, Value: false},
}},
{Points: []influxql.BooleanPoint{}},
}
itr := influxql.NewMergeIterator(BooleanIterators(inputs), influxql.IteratorOptions{
Interval: influxql.Interval{
Duration: 10 * time.Nanosecond,
},
Ascending: true,
})
if a := Iterators([]influxql.Iterator{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 0, Value: true}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 12, Value: true}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 20, Value: true}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=A"), Time: 30, Value: false}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 1, Value: false}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 11, Value: true}},
{&influxql.BooleanPoint{Name: "cpu", Tags: ParseTags("host=B"), Time: 13, Value: false}},
{&influxql.BooleanPoint{Name: "mem", Tags: ParseTags("host=A"), Time: 25, Value: false}},
{&influxql.BooleanPoint{Name: "mem", Tags: ParseTags("host=B"), Time: 11, Value: true}},
}) {
t.Errorf("unexpected points: %s", spew.Sdump(a))
}
for i, input := range inputs {
if !input.Closed {
t.Errorf("iterator %d not closed", i)
}
}
}
// Ensure limit iterator returns a subset of points.
func TestLimitIterator(t *testing.T) {
itr := influxql.NewLimitIterator(
&FloatIterator{Points: []influxql.FloatPoint{
{Time: 0, Value: 0},
{Time: 1, Value: 1},
{Time: 2, Value: 2},
{Time: 3, Value: 3},
}},
influxql.IteratorOptions{
Limit: 2,
Offset: 1,
StartTime: influxql.MinTime,
EndTime: influxql.MaxTime,
},
)
if a := (Iterators{itr}).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{&influxql.FloatPoint{Time: 1, Value: 1}},
{&influxql.FloatPoint{Time: 2, Value: 2}},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
}
// Ensure auxilary iterators can be created for auxilary fields.
func TestFloatAuxIterator(t *testing.T) {
itr := influxql.NewAuxIterator(
&FloatIterator{Points: []influxql.FloatPoint{
{Time: 0, Value: 1, Aux: []interface{}{float64(100), float64(200)}},
{Time: 1, Value: 2, Aux: []interface{}{float64(500), math.NaN()}},
}},
[]influxql.Series{
{Aux: []influxql.DataType{influxql.Float, influxql.Float}},
},
influxql.IteratorOptions{Aux: []string{"f0", "f1"}},
)
itrs := []influxql.Iterator{
itr,
itr.Iterator("f0"),
itr.Iterator("f1"),
itr.Iterator("f0"),
}
itr.Start()
if a := Iterators(itrs).ReadAll(); !deep.Equal(a, [][]influxql.Point{
{
&influxql.FloatPoint{Time: 0, Value: 1, Aux: []interface{}{float64(100), float64(200)}},
&influxql.FloatPoint{Time: 0, Value: float64(100)},
&influxql.FloatPoint{Time: 0, Value: float64(200)},
&influxql.FloatPoint{Time: 0, Value: float64(100)},
},
{
&influxql.FloatPoint{Time: 1, Value: 2, Aux: []interface{}{float64(500), math.NaN()}},
&influxql.FloatPoint{Time: 1, Value: float64(500)},
&influxql.FloatPoint{Time: 1, Value: math.NaN()},
&influxql.FloatPoint{Time: 1, Value: float64(500)},
},
}) {
t.Fatalf("unexpected points: %s", spew.Sdump(a))
}
}
// Ensure shards can create iterators.
func TestShards_CreateIterator(t *testing.T) {
s := MustOpenStore()
defer s.Close()
// Create shard #0 with data.
s.MustCreateShardWithData("db0", "rp0", 0,
`cpu,host=serverA value=1 0`,
`cpu,host=serverA value=2 10`,
`cpu,host=serverB value=3 20`,
)
// Create shard #1 with data.
s.MustCreateShardWithData("db0", "rp0", 1,
`cpu,host=serverA value=1 30`,
`mem,host=serverA value=2 40`, // skip: wrong source
`cpu,host=serverC value=3 60`,
)
// Retrieve shards and convert to iterator creators.
shards := s.Shards([]uint64{0, 1})
ics := make(influxql.IteratorCreators, len(shards))
for i := range ics {
ics[i] = shards[i]
}
// Create iterator.
itr, err := ics.CreateIterator(influxql.IteratorOptions{
Expr: influxql.MustParseExpr(`value`),
Dimensions: []string{"host"},
Sources: []influxql.Source{&influxql.Measurement{Name: "cpu"}},
Ascending: true,
StartTime: influxql.MinTime,
EndTime: influxql.MaxTime,
})
if err != nil {
t.Fatal(err)
}
defer itr.Close()
fitr := itr.(influxql.FloatIterator)
// Read values from iterator. The host=serverA points should come first.
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=serverA"), Time: time.Unix(0, 0).UnixNano(), Value: 1}) {
t.Fatalf("unexpected point(0): %s", spew.Sdump(p))
} else if p = fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=serverA"), Time: time.Unix(10, 0).UnixNano(), Value: 2}) {
t.Fatalf("unexpected point(1): %s", spew.Sdump(p))
} else if p = fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=serverA"), Time: time.Unix(30, 0).UnixNano(), Value: 1}) {
t.Fatalf("unexpected point(2): %s", spew.Sdump(p))
}
// Next the host=serverB point.
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=serverB"), Time: time.Unix(20, 0).UnixNano(), Value: 3}) {
t.Fatalf("unexpected point(3): %s", spew.Sdump(p))
}
// And finally the host=serverC point.
if p := fitr.Next(); !deep.Equal(p, &influxql.FloatPoint{Name: "cpu", Tags: ParseTags("host=serverC"), Time: time.Unix(60, 0).UnixNano(), Value: 3}) {
t.Fatalf("unexpected point(4): %s", spew.Sdump(p))
}
// Then an EOF should occur.
if p := fitr.Next(); p != nil {
t.Fatalf("expected eof, got: %s", spew.Sdump(p))
}
}
