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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package iterable
import (
"container/vector"
"testing"
)
func TestArrayTypes(t *testing.T) {
// Test that conversion works correctly.
bytes := ByteArray([]byte{1, 2, 3})
if x := Data(bytes)[1].(byte); x != 2 {
t.Error("Data(bytes)[1].(byte) = %v, want 2", x)
}
ints := IntArray([]int{1, 2, 3})
if x := Data(ints)[2].(int); x != 3 {
t.Error("Data(ints)[2].(int) = %v, want 3", x)
}
floats := FloatArray([]float{1, 2, 3})
if x := Data(floats)[0].(float); x != 1 {
t.Error("Data(floats)[0].(float) = %v, want 1", x)
}
strings := StringArray([]string{"a", "b", "c"})
if x := Data(strings)[1].(string); x != "b" {
t.Error(`Data(strings)[1].(string) = %q, want "b"`, x)
}
}
var (
oneToFive = IntArray{1, 2, 3, 4, 5}
sixToTen = IntArray{6, 7, 8, 9, 10}
elevenToTwenty = IntArray{11, 12, 13, 14, 15, 16, 17, 18, 19, 20}
)
func isNegative(n interface{}) bool { return n.(int) < 0 }
func isPositive(n interface{}) bool { return n.(int) > 0 }
func isAbove3(n interface{}) bool { return n.(int) > 3 }
func isEven(n interface{}) bool { return n.(int)%2 == 0 }
func doubler(n interface{}) interface{} { return n.(int) * 2 }
func addOne(n interface{}) interface{} { return n.(int) + 1 }
func adder(acc interface{}, n interface{}) interface{} {
return acc.(int) + n.(int)
}
// A stream of the natural numbers: 0, 1, 2, 3, ...
type integerStream struct{}
func (i integerStream) Iter() <-chan interface{} {
ch := make(chan interface{})
go func() {
for i := 0; ; i++ {
ch <- i
}
}()
return ch
}
func TestAll(t *testing.T) {
if !All(oneToFive, isPositive) {
t.Error("All(oneToFive, isPositive) == false")
}
if All(oneToFive, isAbove3) {
t.Error("All(oneToFive, isAbove3) == true")
}
}
func TestAny(t *testing.T) {
if Any(oneToFive, isNegative) {
t.Error("Any(oneToFive, isNegative) == true")
}
if !Any(oneToFive, isEven) {
t.Error("Any(oneToFive, isEven) == false")
}
}
func assertArraysAreEqual(t *testing.T, res []interface{}, expected []int) {
if len(res) != len(expected) {
t.Errorf("len(res) = %v, want %v", len(res), len(expected))
goto missing
}
for i := range res {
if v := res[i].(int); v != expected[i] {
t.Errorf("res[%v] = %v, want %v", i, v, expected[i])
goto missing
}
}
return
missing:
t.Errorf("res = %v\nwant %v", res, expected)
}
func TestFilter(t *testing.T) {
ints := integerStream{}
moreInts := Filter(ints, isAbove3).Iter()
res := make([]interface{}, 3)
for i := 0; i < 3; i++ {
res[i] = <-moreInts
}
assertArraysAreEqual(t, res, []int{4, 5, 6})
}
func TestFind(t *testing.T) {
ints := integerStream{}
first := Find(ints, isAbove3)
if first.(int) != 4 {
t.Errorf("Find(ints, isAbove3) = %v, want 4", first)
}
}
func TestInject(t *testing.T) {
res := Inject(oneToFive, 0, adder)
if res.(int) != 15 {
t.Errorf("Inject(oneToFive, 0, adder) = %v, want 15", res)
}
}
func TestMap(t *testing.T) {
res := Data(Map(Map(oneToFive, doubler), addOne))
assertArraysAreEqual(t, res, []int{3, 5, 7, 9, 11})
}
func TestPartition(t *testing.T) {
ti, fi := Partition(oneToFive, isEven)
assertArraysAreEqual(t, Data(ti), []int{2, 4})
assertArraysAreEqual(t, Data(fi), []int{1, 3, 5})
}
func TestTake(t *testing.T) {
res := Take(oneToFive, 2)
assertArraysAreEqual(t, Data(res), []int{1, 2})
assertArraysAreEqual(t, Data(res), []int{1, 2}) // second test to ensure that .Iter() returns a new channel
// take none
res = Take(oneToFive, 0)
assertArraysAreEqual(t, Data(res), []int{})
// try to take more than available
res = Take(oneToFive, 20)
assertArraysAreEqual(t, Data(res), oneToFive)
}
func TestTakeWhile(t *testing.T) {
// take some
res := TakeWhile(oneToFive, func(v interface{}) bool { return v.(int) <= 3 })
assertArraysAreEqual(t, Data(res), []int{1, 2, 3})
assertArraysAreEqual(t, Data(res), []int{1, 2, 3}) // second test to ensure that .Iter() returns a new channel
// take none
res = TakeWhile(oneToFive, func(v interface{}) bool { return v.(int) > 3000 })
assertArraysAreEqual(t, Data(res), []int{})
// take all
res = TakeWhile(oneToFive, func(v interface{}) bool { return v.(int) < 3000 })
assertArraysAreEqual(t, Data(res), oneToFive)
}
func TestDrop(t *testing.T) {
// drop none
res := Drop(oneToFive, 0)
assertArraysAreEqual(t, Data(res), oneToFive)
assertArraysAreEqual(t, Data(res), oneToFive) // second test to ensure that .Iter() returns a new channel
// drop some
res = Drop(oneToFive, 2)
assertArraysAreEqual(t, Data(res), []int{3, 4, 5})
assertArraysAreEqual(t, Data(res), []int{3, 4, 5}) // second test to ensure that .Iter() returns a new channel
// drop more than available
res = Drop(oneToFive, 88)
assertArraysAreEqual(t, Data(res), []int{})
}
func TestDropWhile(t *testing.T) {
// drop some
res := DropWhile(oneToFive, func(v interface{}) bool { return v.(int) < 3 })
assertArraysAreEqual(t, Data(res), []int{3, 4, 5})
assertArraysAreEqual(t, Data(res), []int{3, 4, 5}) // second test to ensure that .Iter() returns a new channel
// test case where all elements are dropped
res = DropWhile(oneToFive, func(v interface{}) bool { return v.(int) < 100 })
assertArraysAreEqual(t, Data(res), []int{})
// test case where none are dropped
res = DropWhile(oneToFive, func(v interface{}) bool { return v.(int) > 1000 })
assertArraysAreEqual(t, Data(res), oneToFive)
}
func TestCycle(t *testing.T) {
res := Cycle(oneToFive)
exp := []int{1, 2, 3, 4, 5, 1, 2, 3, 4, 5, 1, 2, 3, 4, 5, 1, 2, 3, 4}
// read the first nineteen values from the iterable
out := make([]interface{}, 19)
for i, it := 0, res.Iter(); i < 19; i++ {
out[i] = <-it
}
assertArraysAreEqual(t, out, exp)
res2 := Cycle(sixToTen)
exp2 := []int{6, 7, 8, 9, 10, 6, 7, 8, 9, 10, 6, 7, 8, 9, 10, 6, 7, 8, 9}
for i, it := 0, res2.Iter(); i < 19; i++ {
out[i] = <-it
}
assertArraysAreEqual(t, out, exp2)
// ensure first iterator was not harmed
for i, it := 0, res.Iter(); i < 19; i++ {
out[i] = <-it
}
assertArraysAreEqual(t, out, exp)
}
func TestChain(t *testing.T) {
exp := []int{1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20}
res := Chain([]Iterable{oneToFive, sixToTen, elevenToTwenty})
assertArraysAreEqual(t, Data(res), exp)
// reusing the same iterator should produce the same result again
assertArraysAreEqual(t, Data(res), exp)
// test short read from Chain
i := 0
out := make([]interface{}, 4)
for v := range res.Iter() {
out[i] = v
i++
if i == len(out) {
break
}
}
assertArraysAreEqual(t, out, exp[0:4])
// test zero length array
res = Chain([]Iterable{})
assertArraysAreEqual(t, Data(res), []int{})
}
func TestZipWith(t *testing.T) {
exp := []int{7, 9, 11, 13, 15}
// f with 2 args and 1 return value
f := func(a, b interface{}) interface{} { return a.(int) + b.(int) }
res := ZipWith2(f, oneToFive, sixToTen)
assertArraysAreEqual(t, Data(res), exp)
// test again to make sure returns new iter each time
assertArraysAreEqual(t, Data(res), exp)
// test a function with 3 args
f2 := func(a, b, c interface{}) interface{} { return a.(int) + b.(int) + c.(int) }
res = ZipWith3(f2, oneToFive, sixToTen, oneToFive)
exp = []int{8, 11, 14, 17, 20}
assertArraysAreEqual(t, Data(res), exp)
// test a function with multiple values returned
f3 := func(a, b interface{}) interface{} { return ([]interface{}{a.(int) + 1, b.(int) + 1}) }
res = ZipWith2(f3, oneToFive, sixToTen)
exp2 := [][]int{[]int{2, 7}, []int{3, 8}, []int{4, 9}, []int{5, 10}, []int{6, 11}}
i := 0
for v := range res.Iter() {
out := v.([]interface{})
assertArraysAreEqual(t, out, exp2[i])
i++
}
// test different length iterators--should stop after shortest is exhausted
res = ZipWith2(f, elevenToTwenty, oneToFive)
exp = []int{12, 14, 16, 18, 20}
assertArraysAreEqual(t, Data(res), exp)
}
func TestSlice(t *testing.T) {
out := Data(Slice(elevenToTwenty, 2, 6))
exp := []int{13, 14, 15, 16}
assertArraysAreEqual(t, out, exp)
// entire iterable
out = Data(Slice(elevenToTwenty, 0, len(elevenToTwenty)))
exp = []int{11, 12, 13, 14, 15, 16, 17, 18, 19, 20}
assertArraysAreEqual(t, out, exp)
// empty slice at offset 0
exp = []int{}
out = Data(Slice(elevenToTwenty, 0, 0))
assertArraysAreEqual(t, out, exp)
// slice upper bound exceeds length of iterable
exp = []int{1, 2, 3, 4, 5}
out = Data(Slice(oneToFive, 0, 88))
assertArraysAreEqual(t, out, exp)
// slice upper bounce is lower than lower bound
exp = []int{}
out = Data(Slice(oneToFive, 93, 4))
assertArraysAreEqual(t, out, exp)
// slice lower bound is greater than len of iterable
exp = []int{}
out = Data(Slice(oneToFive, 93, 108))
assertArraysAreEqual(t, out, exp)
}
func TestRepeat(t *testing.T) {
res := Repeat(42)
i := 0
for v := range res.Iter() {
if v.(int) != 42 {
t.Fatal("Repeat returned the wrong value")
}
if i == 9 {
break
}
i++
}
}
func TestRepeatTimes(t *testing.T) {
res := RepeatTimes(84, 9)
exp := []int{84, 84, 84, 84, 84, 84, 84, 84, 84}
assertArraysAreEqual(t, Data(res), exp)
assertArraysAreEqual(t, Data(res), exp) // second time to ensure new iter is returned
// 0 repeat
res = RepeatTimes(7, 0)
exp = []int{}
assertArraysAreEqual(t, Data(res), exp)
// negative repeat
res = RepeatTimes(7, -3)
exp = []int{}
assertArraysAreEqual(t, Data(res), exp)
}
// a type that implements Key for ints
type intkey struct{}
func (v intkey) Key(a interface{}) interface{} {
return a
}
func (v intkey) Equal(a, b interface{}) bool { return a.(int) == b.(int) }
func TestGroupBy(t *testing.T) {
in := IntArray{1, 2, 2, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 5}
exp := [][]int{[]int{1}, []int{2, 2}, []int{3, 3, 3}, []int{4, 4, 4, 4}, []int{5, 5, 5, 5, 5}}
i := 0
for x := range GroupBy(in, intkey{}).Iter() {
gr := x.(Group)
if gr.Key.(int) != i+1 {
t.Fatal("group key wrong; expected", i+1, "but got", gr.Key.(int))
}
vals := Data(gr.Vals)
assertArraysAreEqual(t, vals, exp[i])
i++
}
if i != 5 {
t.Fatal("did not return expected number of groups")
}
// test 0 length Iterable
for _ = range GroupBy(IntArray([]int{}), &intkey{}).Iter() {
t.Fatal("iterator should be empty")
}
// test case with only uniques
var out vector.Vector
for x := range GroupBy(elevenToTwenty, intkey{}).Iter() {
out.Push(x.(Group).Key)
}
assertArraysAreEqual(t, out.Data(), elevenToTwenty)
}
func TestUnique(t *testing.T) {
in := IntArray([]int{1, 2, 2, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 5})
exp := []int{1, 2, 3, 4, 5}
res := Unique(in, intkey{})
assertArraysAreEqual(t, Data(res), exp)
assertArraysAreEqual(t, Data(res), exp) // second time to ensure new iter is returned
// test case with only uniques
res = Unique(elevenToTwenty, intkey{})
assertArraysAreEqual(t, Data(res), elevenToTwenty)
}
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