zolfa
/
tendermint


								package common


								import (

									"bytes"

									"encoding/json"

									"fmt"

									mrand "math/rand"

									"sync"

									"testing"

									"time"


									"github.com/stretchr/testify/assert"

								)


								func TestRandStr(t *testing.T) {

									l := 243

									s := RandStr(l)

									assert.Equal(t, l, len(s))

								}


								func TestRandBytes(t *testing.T) {

									l := 243

									b := RandBytes(l)

									assert.Equal(t, l, len(b))

								}


								func TestRandIntn(t *testing.T) {

									n := 243

									for i := 0; i < 100; i++ {

										x := RandIntn(n)

										assert.True(t, x < n)

									}

								}


								// Test to make sure that we never call math.rand().

								// We do this by ensuring that outputs are deterministic.

								func TestDeterminism(t *testing.T) {

									var firstOutput string


									// Set math/rand's seed for the sake of debugging this test.

									// (It isn't strictly necessary).

									mrand.Seed(1)


									for i := 0; i < 100; i++ {

										output := testThemAll()

										if i == 0 {

											firstOutput = output

										} else {

											if firstOutput != output {

												t.Errorf("Run #%d's output was different from first run.\nfirst: %v\nlast: %v",

													i, firstOutput, output)

											}

										}

									}

								}


								func testThemAll() string {


									// Such determinism.

									grand.reset(1)


									// Use it.

									out := new(bytes.Buffer)

									perm := RandPerm(10)

									blob, _ := json.Marshal(perm)

									fmt.Fprintf(out, "perm: %s\n", blob)

									fmt.Fprintf(out, "randInt: %d\n", RandInt())

									fmt.Fprintf(out, "randUint: %d\n", RandUint())

									fmt.Fprintf(out, "randIntn: %d\n", RandIntn(97))

									fmt.Fprintf(out, "randInt31: %d\n", RandInt31())

									fmt.Fprintf(out, "randInt32: %d\n", RandInt32())

									fmt.Fprintf(out, "randInt63: %d\n", RandInt63())

									fmt.Fprintf(out, "randInt64: %d\n", RandInt64())

									fmt.Fprintf(out, "randUint32: %d\n", RandUint32())

									fmt.Fprintf(out, "randUint64: %d\n", RandUint64())

									fmt.Fprintf(out, "randUint16Exp: %d\n", RandUint16Exp())

									fmt.Fprintf(out, "randUint32Exp: %d\n", RandUint32Exp())

									fmt.Fprintf(out, "randUint64Exp: %d\n", RandUint64Exp())

									return out.String()

								}


								func TestRngConcurrencySafety(t *testing.T) {

									var wg sync.WaitGroup

									for i := 0; i < 100; i++ {

										wg.Add(1)

										go func() {

											defer wg.Done()


											_ = RandUint64()

											<-time.After(time.Millisecond * time.Duration(RandIntn(100)))

											_ = RandPerm(3)

										}()

									}

									wg.Wait()

								}


								func BenchmarkRandBytes10B(b *testing.B) {

									benchmarkRandBytes(b, 10)

								}

								func BenchmarkRandBytes100B(b *testing.B) {

									benchmarkRandBytes(b, 100)

								}

								func BenchmarkRandBytes1KiB(b *testing.B) {

									benchmarkRandBytes(b, 1024)

								}

								func BenchmarkRandBytes10KiB(b *testing.B) {

									benchmarkRandBytes(b, 10*1024)

								}

								func BenchmarkRandBytes100KiB(b *testing.B) {

									benchmarkRandBytes(b, 100*1024)

								}

								func BenchmarkRandBytes1MiB(b *testing.B) {

									benchmarkRandBytes(b, 1024*1024)

								}


								func benchmarkRandBytes(b *testing.B, n int) {

									for i := 0; i < b.N; i++ {

										_ = RandBytes(n)

									}

									b.ReportAllocs()

								}