advent-of-code/aoc_test.go

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package aoc_test
import (
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"fmt"
"sort"
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"testing"
"github.com/matryer/is"
aoc "go.sour.is/advent-of-code"
)
func TestReverse(t *testing.T) {
is := is.New(t)
is.Equal(aoc.Reverse([]int{1, 2, 3, 4}), []int{4, 3, 2, 1})
}
func TestLCM(t *testing.T) {
is := is.New(t)
is.Equal(aoc.LCM([]int{}...), 0)
is.Equal(aoc.LCM(5), 5)
is.Equal(aoc.LCM(5, 3), 15)
is.Equal(aoc.LCM(5, 3, 2), 30)
}
func TestReadStringToInts(t *testing.T) {
is := is.New(t)
is.Equal(aoc.ReadStringToInts([]string{"1", "2", "3"}), []int{1, 2, 3})
}
func TestRepeat(t *testing.T) {
is := is.New(t)
is.Equal(aoc.Repeat(5, 3), []int{5, 5, 5})
}
func TestPower2(t *testing.T) {
is := is.New(t)
is.Equal(aoc.Power2(0), 1)
is.Equal(aoc.Power2(1), 2)
is.Equal(aoc.Power2(2), 4)
}
func TestABS(t *testing.T) {
is := is.New(t)
is.Equal(aoc.ABS(1), 1)
is.Equal(aoc.ABS(0), 0)
is.Equal(aoc.ABS(-1), 1)
}
func TestTranspose(t *testing.T) {
is := is.New(t)
is.Equal(
aoc.Transpose(
[][]int{
{1, 1},
{0, 0},
{1, 1},
},
),
[][]int{
{1, 0, 1},
{1, 0, 1},
},
)
}
func TestList(t *testing.T) {
is := is.New(t)
lis := aoc.NewList[int](nil)
lis.Add(5, 0)
a, _ := lis.Head().Value()
is.Equal(a, 5)
}
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func TestPriorityQueue(t *testing.T) {
is := is.New(t)
type elem [2]int
less := func(b, a *elem) bool {
return (*a)[0] < (*b)[0]
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}
pq := aoc.PriorityQueue(less)
pq.Insert(&elem{1, 4})
pq.Insert(&elem{3, 2})
pq.Insert(&elem{2, 3})
pq.Insert(&elem{4, 1})
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v := pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{4, 1})
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v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{3, 2})
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v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{2, 3})
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v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{1, 4})
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v = pq.ExtractMin()
is.True(v == nil)
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}
func TestSet(t *testing.T) {
is := is.New(t)
s := aoc.Set(1, 2, 3)
is.True(!s.Has(0))
is.True(s.Has(1))
is.True(s.Has(2))
is.True(s.Has(3))
is.True(!s.Has(4))
s.Add(4)
is.True(s.Has(4))
items := s.Items()
sort.Ints(items)
is.Equal(items, []int{1, 2, 3, 4})
}
func ExamplePriorityQueue() {
type memo struct {
pt int
score int
}
less := func(a, b *memo) bool { return a.score < b.score }
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adj := map[int][][2]int{
0: {{1, 2}, {2, 6}},
1: {{3, 5}},
2: {{3, 8}},
3: {{4, 10}, {5, 15}},
4: {{6, 2}},
5: {{6, 6}},
}
pq := aoc.PriorityQueue(less)
visited := aoc.Set([]int{}...)
dist := aoc.DefaultMap[int](int(^uint(0) >> 1))
dist.Set(0, 0)
pq.Insert(&memo{0, 0})
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for !pq.IsEmpty() {
m := pq.ExtractMin()
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u := m.pt
if visited.Has(u) {
continue
}
visited.Add(u)
du, _ := dist.Get(u)
for _, edge := range adj[u] {
v, w := edge[0], edge[1]
dv, _ := dist.Get(v)
if !visited.Has(v) && du+w < dv {
dist.Set(v, du+w)
pq.Insert(&memo{v, du + w})
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}
}
}
items := dist.Items()
sort.Slice(items, func(i, j int) bool { return items[i].K < items[j].K })
for _, v := range items {
fmt.Printf("point %d is %d steps away.\n", v.K, v.V)
}
// Output:
// point 0 is 0 steps away.
// point 1 is 2 steps away.
// point 2 is 6 steps away.
// point 3 is 7 steps away.
// point 4 is 17 steps away.
// point 5 is 22 steps away.
// point 6 is 19 steps away.
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}
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func TestStack(t *testing.T) {
is := is.New(t)
s := aoc.Stack(1, 2, 3, 4)
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is.True(!s.IsEmpty())
is.Equal(s.Pop(), 4)
is.Equal(s.Pop(), 3)
is.Equal(s.Pop(), 2)
is.Equal(s.Pop(), 1)
is.True(s.IsEmpty())
s.Push(4, 3, 2, 1)
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is.True(!s.IsEmpty())
is.Equal(s.Pop(), 1)
is.Equal(s.Pop(), 2)
is.Equal(s.Pop(), 3)
is.Equal(s.Pop(), 4)
is.True(s.IsEmpty())
}
func TestGraph(t *testing.T) {
is := is.New(t)
var adjacencyList = map[int][]int{
2: {3, 5, 1},
1: {2, 4},
3: {6, 2},
4: {1, 5, 7},
5: {2, 6, 8, 4},
6: {3, 0, 9, 5},
7: {4, 8},
8: {5, 9, 7},
9: {6, 0, 8},
}
g := aoc.Graph(aoc.WithAdjacencyList[int, int](adjacencyList))
is.Equal(g.Neighbors(1), []int{2, 4})
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is.Equal(map[int][]int(g.AdjacencyList()), adjacencyList)
}
func ExampleFibHeap() {
type memo struct {
pt int
score int
}
less := func(a, b *memo) bool { return (*a).score < (*b).score }
adj := map[int][][2]int{
0: {{1, 2}, {2, 6}},
1: {{3, 5}},
2: {{3, 8}},
3: {{4, 10}, {5, 15}},
4: {{6, 2}},
5: {{6, 6}},
}
pq := aoc.FibHeap(less)
visited := aoc.Set([]int{}...)
dist := aoc.DefaultMap[int](int(^uint(0) >> 1))
dist.Set(0, 0)
pq.Insert(&memo{0, 0})
for !pq.IsEmpty() {
m := pq.ExtractMin()
u := m.pt
if visited.Has(u) {
continue
}
visited.Add(u)
du, _ := dist.Get(u)
for _, edge := range adj[u] {
v, w := edge[0], edge[1]
dv, _ := dist.Get(v)
if !visited.Has(v) && du+w < dv {
dist.Set(v, du+w)
pq.Insert(&memo{v, du + w})
}
}
}
items := dist.Items()
sort.Slice(items, func(i, j int) bool { return items[i].K < items[j].K })
for _, v := range items {
fmt.Printf("point %d is %d steps away.\n", v.K, v.V)
}
// Output:
// point 0 is 0 steps away.
// point 1 is 2 steps away.
// point 2 is 6 steps away.
// point 3 is 7 steps away.
// point 4 is 17 steps away.
// point 5 is 22 steps away.
// point 6 is 19 steps away.
}
func TestFibHeap(t *testing.T) {
is := is.New(t)
type elem [2]int
less := func(a, b *elem) bool {
return (*a)[0] < (*b)[0]
}
pq := aoc.FibHeap(less)
pq.Insert(&elem{1, 4})
pq.Insert(&elem{3, 2})
pq.Insert(&elem{2, 3})
pq.Insert(&elem{4, 1})
v := pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{1, 4})
pq.Insert(&elem{5, 8})
pq.Insert(&elem{6, 7})
pq.Insert(&elem{7, 6})
pq.Insert(&elem{8, 5})
v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{2, 3})
v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{3, 2})
v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{4, 1})
v = pq.ExtractMin()
is.True(v != nil)
is.Equal(v, &elem{5, 8})
m := aoc.FibHeap(less)
m.Insert(&elem{12, 9})
m.Insert(&elem{11, 10})
m.Insert(&elem{10, 11})
m.Insert(&elem{9, 12})
pq.Merge(m)
var keys []int
for !pq.IsEmpty() {
v := pq.ExtractMin()
fmt.Println(v)
keys = append(keys, v[0])
}
is.Equal(keys, []int{6, 7, 8, 9, 10, 11, 12})
}