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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [index/] [suffixarray/] [suffixarray_test.go] - Rev 801

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// 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 suffixarray

import (
        "bytes"
        "math/rand"
        "regexp"
        "sort"
        "strings"
        "testing"
)

type testCase struct {
        name     string   // name of test case
        source   string   // source to index
        patterns []string // patterns to lookup
}

var testCases = []testCase{
        {
                "empty string",
                "",
                []string{
                        "",
                        "foo",
                        "(foo)",
                        ".*",
                        "a*",
                },
        },

        {
                "all a's",
                "aaaaaaaaaa", // 10 a's
                []string{
                        "",
                        "a",
                        "aa",
                        "aaa",
                        "aaaa",
                        "aaaaa",
                        "aaaaaa",
                        "aaaaaaa",
                        "aaaaaaaa",
                        "aaaaaaaaa",
                        "aaaaaaaaaa",
                        "aaaaaaaaaaa", // 11 a's
                        ".",
                        ".*",
                        "a+",
                        "aa+",
                        "aaaa[b]?",
                        "aaa*",
                },
        },

        {
                "abc",
                "abc",
                []string{
                        "a",
                        "b",
                        "c",
                        "ab",
                        "bc",
                        "abc",
                        "a.c",
                        "a(b|c)",
                        "abc?",
                },
        },

        {
                "barbara*3",
                "barbarabarbarabarbara",
                []string{
                        "a",
                        "bar",
                        "rab",
                        "arab",
                        "barbar",
                        "bara?bar",
                },
        },

        {
                "typing drill",
                "Now is the time for all good men to come to the aid of their country.",
                []string{
                        "Now",
                        "the time",
                        "to come the aid",
                        "is the time for all good men to come to the aid of their",
                        "to (come|the)?",
                },
        },

        {
                "godoc simulation",
                "package main\n\nimport(\n    \"rand\"\n    ",
                []string{},
        },
}

// find all occurrences of s in source; report at most n occurrences
func find(src, s string, n int) []int {
        var res []int
        if s != "" && n != 0 {
                // find at most n occurrences of s in src
                for i := -1; n < 0 || len(res) < n; {
                        j := strings.Index(src[i+1:], s)
                        if j < 0 {
                                break
                        }
                        i += j + 1
                        res = append(res, i)
                }
        }
        return res
}

func testLookup(t *testing.T, tc *testCase, x *Index, s string, n int) {
        res := x.Lookup([]byte(s), n)
        exp := find(tc.source, s, n)

        // check that the lengths match
        if len(res) != len(exp) {
                t.Errorf("test %q, lookup %q (n = %d): expected %d results; got %d", tc.name, s, n, len(exp), len(res))
        }

        // if n >= 0 the number of results is limited --- unless n >= all results,
        // we may obtain different positions from the Index and from find (because
        // Index may not find the results in the same order as find) => in general
        // we cannot simply check that the res and exp lists are equal

        // check that each result is in fact a correct match and there are no duplicates
        sort.Ints(res)
        for i, r := range res {
                if r < 0 || len(tc.source) <= r {
                        t.Errorf("test %q, lookup %q, result %d (n = %d): index %d out of range [0, %d[", tc.name, s, i, n, r, len(tc.source))
                } else if !strings.HasPrefix(tc.source[r:], s) {
                        t.Errorf("test %q, lookup %q, result %d (n = %d): index %d not a match", tc.name, s, i, n, r)
                }
                if i > 0 && res[i-1] == r {
                        t.Errorf("test %q, lookup %q, result %d (n = %d): found duplicate index %d", tc.name, s, i, n, r)
                }
        }

        if n < 0 {
                // all results computed - sorted res and exp must be equal
                for i, r := range res {
                        e := exp[i]
                        if r != e {
                                t.Errorf("test %q, lookup %q, result %d: expected index %d; got %d", tc.name, s, i, e, r)
                        }
                }
        }
}

func testFindAllIndex(t *testing.T, tc *testCase, x *Index, rx *regexp.Regexp, n int) {
        res := x.FindAllIndex(rx, n)
        exp := rx.FindAllStringIndex(tc.source, n)

        // check that the lengths match
        if len(res) != len(exp) {
                t.Errorf("test %q, FindAllIndex %q (n = %d): expected %d results; got %d", tc.name, rx, n, len(exp), len(res))
        }

        // if n >= 0 the number of results is limited --- unless n >= all results,
        // we may obtain different positions from the Index and from regexp (because
        // Index may not find the results in the same order as regexp) => in general
        // we cannot simply check that the res and exp lists are equal

        // check that each result is in fact a correct match and the result is sorted
        for i, r := range res {
                if r[0] < 0 || r[0] > r[1] || len(tc.source) < r[1] {
                        t.Errorf("test %q, FindAllIndex %q, result %d (n == %d): illegal match [%d, %d]", tc.name, rx, i, n, r[0], r[1])
                } else if !rx.MatchString(tc.source[r[0]:r[1]]) {
                        t.Errorf("test %q, FindAllIndex %q, result %d (n = %d): [%d, %d] not a match", tc.name, rx, i, n, r[0], r[1])
                }
        }

        if n < 0 {
                // all results computed - sorted res and exp must be equal
                for i, r := range res {
                        e := exp[i]
                        if r[0] != e[0] || r[1] != e[1] {
                                t.Errorf("test %q, FindAllIndex %q, result %d: expected match [%d, %d]; got [%d, %d]",
                                        tc.name, rx, i, e[0], e[1], r[0], r[1])
                        }
                }
        }
}

func testLookups(t *testing.T, tc *testCase, x *Index, n int) {
        for _, pat := range tc.patterns {
                testLookup(t, tc, x, pat, n)
                if rx, err := regexp.Compile(pat); err == nil {
                        testFindAllIndex(t, tc, x, rx, n)
                }
        }
}

// index is used to hide the sort.Interface
type index Index

func (x *index) Len() int           { return len(x.sa) }
func (x *index) Less(i, j int) bool { return bytes.Compare(x.at(i), x.at(j)) < 0 }
func (x *index) Swap(i, j int)      { x.sa[i], x.sa[j] = x.sa[j], x.sa[i] }
func (a *index) at(i int) []byte    { return a.data[a.sa[i]:] }

func testConstruction(t *testing.T, tc *testCase, x *Index) {
        if !sort.IsSorted((*index)(x)) {
                t.Errorf("failed testConstruction %s", tc.name)
        }
}

func equal(x, y *Index) bool {
        if !bytes.Equal(x.data, y.data) {
                return false
        }
        for i, j := range x.sa {
                if j != y.sa[i] {
                        return false
                }
        }
        return true
}

// returns the serialized index size
func testSaveRestore(t *testing.T, tc *testCase, x *Index) int {
        var buf bytes.Buffer
        if err := x.Write(&buf); err != nil {
                t.Errorf("failed writing index %s (%s)", tc.name, err)
        }
        size := buf.Len()
        var y Index
        if err := y.Read(&buf); err != nil {
                t.Errorf("failed reading index %s (%s)", tc.name, err)
        }
        if !equal(x, &y) {
                t.Errorf("restored index doesn't match saved index %s", tc.name)
        }
        return size
}

func TestIndex(t *testing.T) {
        for _, tc := range testCases {
                x := New([]byte(tc.source))
                testConstruction(t, &tc, x)
                testSaveRestore(t, &tc, x)
                testLookups(t, &tc, x, 0)
                testLookups(t, &tc, x, 1)
                testLookups(t, &tc, x, 10)
                testLookups(t, &tc, x, 2e9)
                testLookups(t, &tc, x, -1)
        }
}

// Of all possible inputs, the random bytes have the least amount of substring
// repetition, and the repeated bytes have the most. For most algorithms,
// the running time of every input will be between these two.
func benchmarkNew(b *testing.B, random bool) {
        b.StopTimer()
        data := make([]byte, 1e6)
        if random {
                for i := range data {
                        data[i] = byte(rand.Intn(256))
                }
        }
        b.StartTimer()
        for i := 0; i < b.N; i++ {
                New(data)
        }
}

func BenchmarkNewIndexRandom(b *testing.B) {
        benchmarkNew(b, true)
}
func BenchmarkNewIndexRepeat(b *testing.B) {
        benchmarkNew(b, false)
}

func BenchmarkSaveRestore(b *testing.B) {
        b.StopTimer()
        r := rand.New(rand.NewSource(0x5a77a1)) // guarantee always same sequence
        data := make([]byte, 10<<20)            // 10MB of data to index
        for i := range data {
                data[i] = byte(r.Intn(256))
        }
        x := New(data)
        size := testSaveRestore(nil, nil, x)       // verify correctness
        buf := bytes.NewBuffer(make([]byte, size)) // avoid growing
        b.SetBytes(int64(size))
        b.StartTimer()
        for i := 0; i < b.N; i++ {
                x.Write(buf)
                var y Index
                y.Read(buf)
        }
}

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