// Copyright 2017 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 time_test
import (
"strings"
"testing"
. "time"
)
func TestHasMonotonicClock(t *testing.T) {
yes := func(expr string, tt Time) {
if GetMono(&tt) == 0 {
t.Errorf("%s: missing monotonic clock reading", expr)
}
}
no := func(expr string, tt Time) {
if GetMono(&tt) != 0 {
t.Errorf("%s: unexpected monotonic clock reading", expr)
}
}
yes("<-After(1)", <-After(1))
ticker := NewTicker(1)
yes("<-Tick(1)", <-ticker.C)
ticker.Stop()
no("Date(2009, 11, 23, 0, 0, 0, 0, UTC)", Date(2009, 11, 23, 0, 0, 0, 0, UTC))
tp, _ := Parse(UnixDate, "Sat Mar 7 11:06:39 PST 2015")
no(`Parse(UnixDate, "Sat Mar 7 11:06:39 PST 2015")`, tp)
no("Unix(1486057371, 0)", Unix(1486057371, 0))
yes("Now()", Now())
tu := Unix(1486057371, 0)
tm := tu
SetMono(&tm, 123456)
no("tu", tu)
yes("tm", tm)
no("tu.Add(1)", tu.Add(1))
no("tu.In(UTC)", tu.In(UTC))
no("tu.AddDate(1, 1, 1)", tu.AddDate(1, 1, 1))
no("tu.AddDate(0, 0, 0)", tu.AddDate(0, 0, 0))
no("tu.Local()", tu.Local())
no("tu.UTC()", tu.UTC())
no("tu.Round(2)", tu.Round(2))
no("tu.Truncate(2)", tu.Truncate(2))
yes("tm.Add(1)", tm.Add(1))
no("tm.AddDate(1, 1, 1)", tm.AddDate(1, 1, 1))
no("tm.AddDate(0, 0, 0)", tm.AddDate(0, 0, 0))
no("tm.In(UTC)", tm.In(UTC))
no("tm.Local()", tm.Local())
no("tm.UTC()", tm.UTC())
no("tm.Round(2)", tm.Round(2))
no("tm.Truncate(2)", tm.Truncate(2))
}
func TestMonotonicAdd(t *testing.T) {
tm := Unix(1486057371, 123456)
SetMono(&tm, 123456789012345)
t2 := tm.Add(1e8)
if t2.Nanosecond() != 100123456 {
t.Errorf("t2.Nanosecond() = %d, want 100123456", t2.Nanosecond())
}
if GetMono(&t2) != 123456889012345 {
t.Errorf("t2.mono = %d, want 123456889012345", GetMono(&t2))
}
t3 := tm.Add(-9e18) // wall now out of range
if t3.Nanosecond() != 123456 {
t.Errorf("t3.Nanosecond() = %d, want 123456", t3.Nanosecond())
}
if GetMono(&t3) != 0 {
t.Errorf("t3.mono = %d, want 0 (wall time out of range for monotonic reading)", GetMono(&t3))
}
t4 := tm.Add(+9e18) // wall now out of range
if t4.Nanosecond() != 123456 {
t.Errorf("t4.Nanosecond() = %d, want 123456", t4.Nanosecond())
}
if GetMono(&t4) != 0 {
t.Errorf("t4.mono = %d, want 0 (wall time out of range for monotonic reading)", GetMono(&t4))
}
tn := Now()
tn1 := tn.Add(1 * Hour)
Sleep(100 * Millisecond)
d := Until(tn1)
if d < 59*Minute {
t.Errorf("Until(Now().Add(1*Hour)) = %v, wanted at least 59m", d)
}
now := Now()
if now.After(tn1) {
t.Errorf("Now().After(Now().Add(1*Hour)) = true, want false")
}
if !tn1.After(now) {
t.Errorf("Now().Add(1*Hour).After(now) = false, want true")
}
if tn1.Before(now) {
t.Errorf("Now().Add(1*Hour).Before(Now()) = true, want false")
}
if !now.Before(tn1) {
t.Errorf("Now().Before(Now().Add(1*Hour)) = false, want true")
}
}
func TestMonotonicSub(t *testing.T) {
t1 := Unix(1483228799, 995e6)
SetMono(&t1, 123456789012345)
t2 := Unix(1483228799, 5e6)
SetMono(&t2, 123456789012345+10e6)
t3 := Unix(1483228799, 995e6)
SetMono(&t3, 123456789012345+1e9)
t1w := t1.AddDate(0, 0, 0)
if GetMono(&t1w) != 0 {
t.Fatalf("AddDate didn't strip monotonic clock reading")
}
t2w := t2.AddDate(0, 0, 0)
if GetMono(&t2w) != 0 {
t.Fatalf("AddDate didn't strip monotonic clock reading")
}
t3w := t3.AddDate(0, 0, 0)
if GetMono(&t3w) != 0 {
t.Fatalf("AddDate didn't strip monotonic clock reading")
}
sub := func(txs, tys string, tx, txw, ty, tyw Time, d, dw Duration) {
check := func(expr string, d, want Duration) {
if d != want {
t.Errorf("%s = %v, want %v", expr, d, want)
}
}
check(txs+".Sub("+tys+")", tx.Sub(ty), d)
check(txs+"w.Sub("+tys+")", txw.Sub(ty), dw)
check(txs+".Sub("+tys+"w)", tx.Sub(tyw), dw)
check(txs+"w.Sub("+tys+"w)", txw.Sub(tyw), dw)
}
sub("t1", "t1", t1, t1w, t1, t1w, 0, 0)
sub("t1", "t2", t1, t1w, t2, t2w, -10*Millisecond, 990*Millisecond)
sub("t1", "t3", t1, t1w, t3, t3w, -1000*Millisecond, 0)
sub("t2", "t1", t2, t2w, t1, t1w, 10*Millisecond, -990*Millisecond)
sub("t2", "t2", t2, t2w, t2, t2w, 0, 0)
sub("t2", "t3", t2, t2w, t3, t3w, -990*Millisecond, -990*Millisecond)
sub("t3", "t1", t3, t3w, t1, t1w, 1000*Millisecond, 0)
sub("t3", "t2", t3, t3w, t2, t2w, 990*Millisecond, 990*Millisecond)
sub("t3", "t3", t3, t3w, t3, t3w, 0, 0)
cmp := func(txs, tys string, tx, txw, ty, tyw Time, c, cw int) {
check := func(expr string, b, want bool) {
if b != want {
t.Errorf("%s = %v, want %v", expr, b, want)
}
}
check(txs+".After("+tys+")", tx.After(ty), c > 0)
check(txs+"w.After("+tys+")", txw.After(ty), cw > 0)
check(txs+".After("+tys+"w)", tx.After(tyw), cw > 0)
check(txs+"w.After("+tys+"w)", txw.After(tyw), cw > 0)
check(txs+".Before("+tys+")", tx.Before(ty), c < 0)
check(txs+"w.Before("+tys+")", txw.Before(ty), cw < 0)
check(txs+".Before("+tys+"w)", tx.Before(tyw), cw < 0)
check(txs+"w.Before("+tys+"w)", txw.Before(tyw), cw < 0)
check(txs+".Equal("+tys+")", tx.Equal(ty), c == 0)
check(txs+"w.Equal("+tys+")", txw.Equal(ty), cw == 0)
check(txs+".Equal("+tys+"w)", tx.Equal(tyw), cw == 0)
check(txs+"w.Equal("+tys+"w)", txw.Equal(tyw), cw == 0)
}
cmp("t1", "t1", t1, t1w, t1, t1w, 0, 0)
cmp("t1", "t2", t1, t1w, t2, t2w, -1, +1)
cmp("t1", "t3", t1, t1w, t3, t3w, -1, 0)
cmp("t2", "t1", t2, t2w, t1, t1w, +1, -1)
cmp("t2", "t2", t2, t2w, t2, t2w, 0, 0)
cmp("t2", "t3", t2, t2w, t3, t3w, -1, -1)
cmp("t3", "t1", t3, t3w, t1, t1w, +1, 0)
cmp("t3", "t2", t3, t3w, t2, t2w, +1, +1)
cmp("t3", "t3", t3, t3w, t3, t3w, 0, 0)
}
func TestMonotonicOverflow(t *testing.T) {
t1 := Now().Add(-30 * Second)
d := Until(t1)
if d < -35*Second || -30*Second < d {
t.Errorf("Until(Now().Add(-30s)) = %v, want roughly -30s (-35s to -30s)", d)
}
t1 = Now().Add(30 * Second)
d = Until(t1)
if d < 25*Second || 30*Second < d {
t.Errorf("Until(Now().Add(-30s)) = %v, want roughly 30s (25s to 30s)", d)
}
t0 := Now()
t1 = t0.Add(Duration(1<<63 - 1))
if GetMono(&t1) != 0 {
t.Errorf("Now().Add(maxDuration) has monotonic clock reading (%v => %v %d %d)", t0.String(), t1.String(), t0.Unix(), t1.Unix())
}
t2 := t1.Add(-Duration(1<<63 - 1))
d = Since(t2)
if d < -10*Second || 10*Second < d {
t.Errorf("Since(Now().Add(max).Add(-max)) = %v, want [-10s, 10s]", d)
}
t0 = Now()
t1 = t0.Add(1 * Hour)
Sleep(100 * Millisecond)
t2 = Now().Add(-5 * Second)
if !t1.After(t2) {
t.Errorf("Now().Add(1*Hour).After(Now().Add(-5*Second)) = false, want true\nt1=%v\nt2=%v", t1, t2)
}
if t2.After(t1) {
t.Errorf("Now().Add(-5*Second).After(Now().Add(1*Hour)) = true, want false\nt1=%v\nt2=%v", t1, t2)
}
if t1.Before(t2) {
t.Errorf("Now().Add(1*Hour).Before(Now().Add(-5*Second)) = true, want false\nt1=%v\nt2=%v", t1, t2)
}
if !t2.Before(t1) {
t.Errorf("Now().Add(-5*Second).Before(Now().Add(1*Hour)) = false, want true\nt1=%v\nt2=%v", t1, t2)
}
}
var monotonicStringTests = []struct {
mono int64
want string
}{
{0, "m=+0.000000000"},
{123456789, "m=+0.123456789"},
{-123456789, "m=-0.123456789"},
{123456789000, "m=+123.456789000"},
{-123456789000, "m=-123.456789000"},
{9e18, "m=+9000000000.000000000"},
{-9e18, "m=-9000000000.000000000"},
{-1 << 63, "m=-9223372036.854775808"},
}
func TestMonotonicString(t *testing.T) {
t1 := Now()
t.Logf("Now() = %v", t1)
for _, tt := range monotonicStringTests {
t1 := Now()
SetMono(&t1, tt.mono)
s := t1.String()
got := s[strings.LastIndex(s, " ")+1:]
if got != tt.want {
t.Errorf("with mono=%d: got %q; want %q", tt.mono, got, tt.want)
}
}
}