src/sort/search_test.go - go - Git at Google

 // Copyright 2010 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 sort_test

 import (
 	"runtime"
 	. "sort"
 	stringspkg "strings"
 	"testing"
 )

 func f(a []int, x int) func(int) bool {
 	return func(i int) bool {
 		return a[i] >= x
 	}
 }

 var data = []int{0: -10, 1: -5, 2: 0, 3: 1, 4: 2, 5: 3, 6: 5, 7: 7, 8: 11, 9: 100, 10: 100, 11: 100, 12: 1000, 13: 10000}

 var tests = []struct {
 	name string
 	n    int
 	f    func(int) bool
 	i    int
 }{
 	{"empty", 0, nil, 0},
 	{"1 1", 1, func(i int) bool { return i >= 1 }, 1},
 	{"1 true", 1, func(i int) bool { return true }, 0},
 	{"1 false", 1, func(i int) bool { return false }, 1},
 	{"1e9 991", 1e9, func(i int) bool { return i >= 991 }, 991},
 	{"1e9 true", 1e9, func(i int) bool { return true }, 0},
 	{"1e9 false", 1e9, func(i int) bool { return false }, 1e9},
 	{"data -20", len(data), f(data, -20), 0},
 	{"data -10", len(data), f(data, -10), 0},
 	{"data -9", len(data), f(data, -9), 1},
 	{"data -6", len(data), f(data, -6), 1},
 	{"data -5", len(data), f(data, -5), 1},
 	{"data 3", len(data), f(data, 3), 5},
 	{"data 11", len(data), f(data, 11), 8},
 	{"data 99", len(data), f(data, 99), 9},
 	{"data 100", len(data), f(data, 100), 9},
 	{"data 101", len(data), f(data, 101), 12},
 	{"data 10000", len(data), f(data, 10000), 13},
 	{"data 10001", len(data), f(data, 10001), 14},
 	{"descending a", 7, func(i int) bool { return []int{99, 99, 59, 42, 7, 0, -1, -1}[i] <= 7 }, 4},
 	{"descending 7", 1e9, func(i int) bool { return 1e9-i <= 7 }, 1e9 - 7},
 	{"overflow", 2e9, func(i int) bool { return false }, 2e9},
 }

 func TestSearch(t *testing.T) {
 	for _, e := range tests {
 		i := Search(e.n, e.f)
 		if i != e.i {
 			t.Errorf("%s: expected index %d; got %d", e.name, e.i, i)
 		}
 	}
 }

 func TestFind(t *testing.T) {
 	str1 := []string{"foo"}
 	str2 := []string{"ab", "ca"}
 	str3 := []string{"mo", "qo", "vo"}
 	str4 := []string{"ab", "ad", "ca", "xy"}

 	// slice with repeating elements
 	strRepeats := []string{"ba", "ca", "da", "da", "da", "ka", "ma", "ma", "ta"}

 	// slice with all element equal
 	strSame := []string{"xx", "xx", "xx"}

 	tests := []struct {
 		data      []string
 		target    string
 		wantPos   int
 		wantFound bool
 	}{
 		{[]string{}, "foo", 0, false},
 		{[]string{}, "", 0, false},

 		{str1, "foo", 0, true},
 		{str1, "bar", 0, false},
 		{str1, "zx", 1, false},

 		{str2, "aa", 0, false},
 		{str2, "ab", 0, true},
 		{str2, "ad", 1, false},
 		{str2, "ca", 1, true},
 		{str2, "ra", 2, false},

 		{str3, "bb", 0, false},
 		{str3, "mo", 0, true},
 		{str3, "nb", 1, false},
 		{str3, "qo", 1, true},
 		{str3, "tr", 2, false},
 		{str3, "vo", 2, true},
 		{str3, "xr", 3, false},

 		{str4, "aa", 0, false},
 		{str4, "ab", 0, true},
 		{str4, "ac", 1, false},
 		{str4, "ad", 1, true},
 		{str4, "ax", 2, false},
 		{str4, "ca", 2, true},
 		{str4, "cc", 3, false},
 		{str4, "dd", 3, false},
 		{str4, "xy", 3, true},
 		{str4, "zz", 4, false},

 		{strRepeats, "da", 2, true},
 		{strRepeats, "db", 5, false},
 		{strRepeats, "ma", 6, true},
 		{strRepeats, "mb", 8, false},

 		{strSame, "xx", 0, true},
 		{strSame, "ab", 0, false},
 		{strSame, "zz", 3, false},
 	}

 	for _, tt := range tests {
 		t.Run(tt.target, func(t *testing.T) {
 			cmp := func(i int) int {
 				return stringspkg.Compare(tt.target, tt.data[i])
 			}

 			pos, found := Find(len(tt.data), cmp)
 			if pos != tt.wantPos || found != tt.wantFound {
 				t.Errorf("Find got (%v, %v), want (%v, %v)", pos, found, tt.wantPos, tt.wantFound)
 			}
 		})
 	}
 }

 // log2 computes the binary logarithm of x, rounded up to the next integer.
 // (log2(0) == 0, log2(1) == 0, log2(2) == 1, log2(3) == 2, etc.)
 func log2(x int) int {
 	n := 0
 	for p := 1; p < x; p += p {
 		// p == 2**n
 		n++
 	}
 	// p/2 < x <= p == 2**n
 	return n
 }

 func TestSearchEfficiency(t *testing.T) {
 	n := 100
 	step := 1
 	for exp := 2; exp < 10; exp++ {
 		// n == 10**exp
 		// step == 10**(exp-2)
 		max := log2(n)
 		for x := 0; x < n; x += step {
 			count := 0
 			i := Search(n, func(i int) bool { count++; return i >= x })
 			if i != x {
 				t.Errorf("n = %d: expected index %d; got %d", n, x, i)
 			}
 			if count > max {
 				t.Errorf("n = %d, x = %d: expected <= %d calls; got %d", n, x, max, count)
 			}
 		}
 		n *= 10
 		step *= 10
 	}
 }

 // Smoke tests for convenience wrappers - not comprehensive.

 var fdata = []float64{0: -3.14, 1: 0, 2: 1, 3: 2, 4: 1000.7}
 var sdata = []string{0: "f", 1: "foo", 2: "foobar", 3: "x"}

 var wrappertests = []struct {
 	name   string
 	result int
 	i      int
 }{
 	{"SearchInts", SearchInts(data, 11), 8},
 	{"SearchFloat64s", SearchFloat64s(fdata, 2.1), 4},
 	{"SearchStrings", SearchStrings(sdata, ""), 0},
 	{"IntSlice.Search", IntSlice(data).Search(0), 2},
 	{"Float64Slice.Search", Float64Slice(fdata).Search(2.0), 3},
 	{"StringSlice.Search", StringSlice(sdata).Search("x"), 3},
 }

 func TestSearchWrappers(t *testing.T) {
 	for _, e := range wrappertests {
 		if e.result != e.i {
 			t.Errorf("%s: expected index %d; got %d", e.name, e.i, e.result)
 		}
 	}
 }

 func runSearchWrappers() {
 	SearchInts(data, 11)
 	SearchFloat64s(fdata, 2.1)
 	SearchStrings(sdata, "")
 	IntSlice(data).Search(0)
 	Float64Slice(fdata).Search(2.0)
 	StringSlice(sdata).Search("x")
 }

 func TestSearchWrappersDontAlloc(t *testing.T) {
 	if testing.Short() {
 		t.Skip("skipping malloc count in short mode")
 	}
 	if runtime.GOMAXPROCS(0) > 1 {
 		t.Skip("skipping; GOMAXPROCS>1")
 	}
 	allocs := testing.AllocsPerRun(100, runSearchWrappers)
 	if allocs != 0 {
 		t.Errorf("expected no allocs for runSearchWrappers, got %v", allocs)
 	}
 }

 func BenchmarkSearchWrappers(b *testing.B) {
 	for i := 0; i < b.N; i++ {
 		runSearchWrappers()
 	}
 }

 // Abstract exhaustive test: all sizes up to 100,
 // all possible return values. If there are any small
 // corner cases, this test exercises them.
 func TestSearchExhaustive(t *testing.T) {
 	for size := 0; size <= 100; size++ {
 		for targ := 0; targ <= size; targ++ {
 			i := Search(size, func(i int) bool { return i >= targ })
 			if i != targ {
 				t.Errorf("Search(%d, %d) = %d", size, targ, i)
 			}
 		}
 	}
 }

 // Abstract exhaustive test for Find.
 func TestFindExhaustive(t *testing.T) {
 	// Test Find for different sequence sizes and search targets.
 	// For each size, we have a (unmaterialized) sequence of integers:
 	//   2,4...size*2
 	// And we're looking for every possible integer between 1 and size*2 + 1.
 	for size := 0; size <= 100; size++ {
 		for x := 1; x <= size*2+1; x++ {
 			var wantFound bool
 			var wantPos int

 			cmp := func(i int) int {
 				// Encodes the unmaterialized sequence with elem[i] == (i+1)*2
 				return x - (i+1)*2
 			}
 			pos, found := Find(size, cmp)

 			if x%2 == 0 {
 				wantPos = x/2 - 1
 				wantFound = true
 			} else {
 				wantPos = x / 2
 				wantFound = false
 			}
 			if found != wantFound || pos != wantPos {
 				t.Errorf("Find(%d, %d): got (%v, %v), want (%v, %v)", size, x, pos, found, wantPos, wantFound)
 			}
 		}
 	}
 }
	// Copyright 2010 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 sort_test

	import (
	"runtime"
	. "sort"
	stringspkg "strings"
	"testing"
	)

	func f(a []int, x int) func(int) bool {
	return func(i int) bool {
	return a[i] >= x
	}
	}

	var data = []int{0: -10, 1: -5, 2: 0, 3: 1, 4: 2, 5: 3, 6: 5, 7: 7, 8: 11, 9: 100, 10: 100, 11: 100, 12: 1000, 13: 10000}

	var tests = []struct {
	name string
	n int
	f func(int) bool
	i int
	}{
	{"empty", 0, nil, 0},
	{"1 1", 1, func(i int) bool { return i >= 1 }, 1},
	{"1 true", 1, func(i int) bool { return true }, 0},
	{"1 false", 1, func(i int) bool { return false }, 1},
	{"1e9 991", 1e9, func(i int) bool { return i >= 991 }, 991},
	{"1e9 true", 1e9, func(i int) bool { return true }, 0},
	{"1e9 false", 1e9, func(i int) bool { return false }, 1e9},
	{"data -20", len(data), f(data, -20), 0},
	{"data -10", len(data), f(data, -10), 0},
	{"data -9", len(data), f(data, -9), 1},
	{"data -6", len(data), f(data, -6), 1},
	{"data -5", len(data), f(data, -5), 1},
	{"data 3", len(data), f(data, 3), 5},
	{"data 11", len(data), f(data, 11), 8},
	{"data 99", len(data), f(data, 99), 9},
	{"data 100", len(data), f(data, 100), 9},
	{"data 101", len(data), f(data, 101), 12},
	{"data 10000", len(data), f(data, 10000), 13},
	{"data 10001", len(data), f(data, 10001), 14},
	{"descending a", 7, func(i int) bool { return []int{99, 99, 59, 42, 7, 0, -1, -1}[i] <= 7 }, 4},
	{"descending 7", 1e9, func(i int) bool { return 1e9-i <= 7 }, 1e9 - 7},
	{"overflow", 2e9, func(i int) bool { return false }, 2e9},
	}

	func TestSearch(t *testing.T) {
	for _, e := range tests {
	i := Search(e.n, e.f)
	if i != e.i {
	t.Errorf("%s: expected index %d; got %d", e.name, e.i, i)
	}
	}
	}

	func TestFind(t *testing.T) {
	str1 := []string{"foo"}
	str2 := []string{"ab", "ca"}
	str3 := []string{"mo", "qo", "vo"}
	str4 := []string{"ab", "ad", "ca", "xy"}

	// slice with repeating elements
	strRepeats := []string{"ba", "ca", "da", "da", "da", "ka", "ma", "ma", "ta"}

	// slice with all element equal
	strSame := []string{"xx", "xx", "xx"}

	tests := []struct {
	data []string
	target string
	wantPos int
	wantFound bool
	}{
	{[]string{}, "foo", 0, false},
	{[]string{}, "", 0, false},

	{str1, "foo", 0, true},
	{str1, "bar", 0, false},
	{str1, "zx", 1, false},

	{str2, "aa", 0, false},
	{str2, "ab", 0, true},
	{str2, "ad", 1, false},
	{str2, "ca", 1, true},
	{str2, "ra", 2, false},

	{str3, "bb", 0, false},
	{str3, "mo", 0, true},
	{str3, "nb", 1, false},
	{str3, "qo", 1, true},
	{str3, "tr", 2, false},
	{str3, "vo", 2, true},
	{str3, "xr", 3, false},

	{str4, "aa", 0, false},
	{str4, "ab", 0, true},
	{str4, "ac", 1, false},
	{str4, "ad", 1, true},
	{str4, "ax", 2, false},
	{str4, "ca", 2, true},
	{str4, "cc", 3, false},
	{str4, "dd", 3, false},
	{str4, "xy", 3, true},
	{str4, "zz", 4, false},

	{strRepeats, "da", 2, true},
	{strRepeats, "db", 5, false},
	{strRepeats, "ma", 6, true},
	{strRepeats, "mb", 8, false},

	{strSame, "xx", 0, true},
	{strSame, "ab", 0, false},
	{strSame, "zz", 3, false},
	}

	for _, tt := range tests {
	t.Run(tt.target, func(t *testing.T) {
	cmp := func(i int) int {
	return stringspkg.Compare(tt.target, tt.data[i])
	}

	pos, found := Find(len(tt.data), cmp)
	if pos != tt.wantPos \|\| found != tt.wantFound {
	t.Errorf("Find got (%v, %v), want (%v, %v)", pos, found, tt.wantPos, tt.wantFound)
	}
	})
	}
	}

	// log2 computes the binary logarithm of x, rounded up to the next integer.
	// (log2(0) == 0, log2(1) == 0, log2(2) == 1, log2(3) == 2, etc.)
	func log2(x int) int {
	n := 0
	for p := 1; p < x; p += p {
	// p == 2**n
	n++
	}
	// p/2 < x <= p == 2**n
	return n
	}

	func TestSearchEfficiency(t *testing.T) {
	n := 100
	step := 1
	for exp := 2; exp < 10; exp++ {
	// n == 10**exp
	// step == 10**(exp-2)
	max := log2(n)
	for x := 0; x < n; x += step {
	count := 0
	i := Search(n, func(i int) bool { count++; return i >= x })
	if i != x {
	t.Errorf("n = %d: expected index %d; got %d", n, x, i)
	}
	if count > max {
	t.Errorf("n = %d, x = %d: expected <= %d calls; got %d", n, x, max, count)
	}
	}
	n *= 10
	step *= 10
	}
	}

	// Smoke tests for convenience wrappers - not comprehensive.

	var fdata = []float64{0: -3.14, 1: 0, 2: 1, 3: 2, 4: 1000.7}
	var sdata = []string{0: "f", 1: "foo", 2: "foobar", 3: "x"}

	var wrappertests = []struct {
	name string
	result int
	i int
	}{
	{"SearchInts", SearchInts(data, 11), 8},
	{"SearchFloat64s", SearchFloat64s(fdata, 2.1), 4},
	{"SearchStrings", SearchStrings(sdata, ""), 0},
	{"IntSlice.Search", IntSlice(data).Search(0), 2},
	{"Float64Slice.Search", Float64Slice(fdata).Search(2.0), 3},
	{"StringSlice.Search", StringSlice(sdata).Search("x"), 3},
	}

	func TestSearchWrappers(t *testing.T) {
	for _, e := range wrappertests {
	if e.result != e.i {
	t.Errorf("%s: expected index %d; got %d", e.name, e.i, e.result)
	}
	}
	}

	func runSearchWrappers() {
	SearchInts(data, 11)
	SearchFloat64s(fdata, 2.1)
	SearchStrings(sdata, "")
	IntSlice(data).Search(0)
	Float64Slice(fdata).Search(2.0)
	StringSlice(sdata).Search("x")
	}

	func TestSearchWrappersDontAlloc(t *testing.T) {
	if testing.Short() {
	t.Skip("skipping malloc count in short mode")
	}
	if runtime.GOMAXPROCS(0) > 1 {
	t.Skip("skipping; GOMAXPROCS>1")
	}
	allocs := testing.AllocsPerRun(100, runSearchWrappers)
	if allocs != 0 {
	t.Errorf("expected no allocs for runSearchWrappers, got %v", allocs)
	}
	}

	func BenchmarkSearchWrappers(b *testing.B) {
	for i := 0; i < b.N; i++ {
	runSearchWrappers()
	}
	}

	// Abstract exhaustive test: all sizes up to 100,
	// all possible return values. If there are any small
	// corner cases, this test exercises them.
	func TestSearchExhaustive(t *testing.T) {
	for size := 0; size <= 100; size++ {
	for targ := 0; targ <= size; targ++ {
	i := Search(size, func(i int) bool { return i >= targ })
	if i != targ {
	t.Errorf("Search(%d, %d) = %d", size, targ, i)
	}
	}
	}
	}

	// Abstract exhaustive test for Find.
	func TestFindExhaustive(t *testing.T) {
	// Test Find for different sequence sizes and search targets.
	// For each size, we have a (unmaterialized) sequence of integers:
	// 2,4...size*2
	// And we're looking for every possible integer between 1 and size*2 + 1.
	for size := 0; size <= 100; size++ {
	for x := 1; x <= size*2+1; x++ {
	var wantFound bool
	var wantPos int

	cmp := func(i int) int {
	// Encodes the unmaterialized sequence with elem[i] == (i+1)*2
	return x - (i+1)*2
	}
	pos, found := Find(size, cmp)

	if x%2 == 0 {
	wantPos = x/2 - 1
	wantFound = true
	} else {
	wantPos = x / 2
	wantFound = false
	}
	if found != wantFound \|\| pos != wantPos {
	t.Errorf("Find(%d, %d): got (%v, %v), want (%v, %v)", size, x, pos, found, wantPos, wantFound)
	}
	}
	}
	}