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forgejo/modules/timeutil/since_test.go
zeripath bb0ff77e46
Share HTML template renderers and create a watcher framework (#20218)
The recovery, API, Web and package frameworks all create their own HTML
Renderers. This increases the memory requirements of Gitea
unnecessarily with duplicate templates being kept in memory.

Further the reloading framework in dev mode for these involves locking
and recompiling all of the templates on each load. This will potentially
hide concurrency issues and it is inefficient.

This PR stores the templates renderer in the context and stores this
context in the NormalRoutes, it then creates a fsnotify.Watcher
framework to watch files.

The watching framework is then extended to the mailer templates which
were previously not being reloaded in dev.

Then the locales are simplified to a similar structure.

Fix #20210 
Fix #20211
Fix #20217

Signed-off-by: Andrew Thornton <art27@cantab.net>
2022-08-28 10:43:25 +01:00

183 lines
6.3 KiB
Go

// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package timeutil
import (
"context"
"fmt"
"os"
"testing"
"time"
"code.gitea.io/gitea/modules/setting"
"code.gitea.io/gitea/modules/translation"
"github.com/stretchr/testify/assert"
)
var BaseDate time.Time
// time durations
const (
DayDur = 24 * time.Hour
WeekDur = 7 * DayDur
MonthDur = 30 * DayDur
YearDur = 12 * MonthDur
)
func TestMain(m *testing.M) {
setting.StaticRootPath = "../../"
setting.Names = []string{"english"}
setting.Langs = []string{"en-US"}
// setup
translation.InitLocales(context.Background())
BaseDate = time.Date(2000, time.January, 1, 0, 0, 0, 0, time.UTC)
// run the tests
retVal := m.Run()
os.Exit(retVal)
}
func TestTimeSince(t *testing.T) {
assert.Equal(t, "now", timeSince(BaseDate, BaseDate, translation.NewLocale("en-US")))
// test that each diff in `diffs` yields the expected string
test := func(expected string, diffs ...time.Duration) {
t.Run(expected, func(t *testing.T) {
for _, diff := range diffs {
actual := timeSince(BaseDate, BaseDate.Add(diff), translation.NewLocale("en-US"))
assert.Equal(t, translation.NewLocale("en-US").Tr("tool.ago", expected), actual)
actual = timeSince(BaseDate.Add(diff), BaseDate, translation.NewLocale("en-US"))
assert.Equal(t, translation.NewLocale("en-US").Tr("tool.from_now", expected), actual)
}
})
}
test("1 second", time.Second, time.Second+50*time.Millisecond)
test("2 seconds", 2*time.Second, 2*time.Second+50*time.Millisecond)
test("1 minute", time.Minute, time.Minute+29*time.Second)
test("2 minutes", 2*time.Minute, time.Minute+30*time.Second)
test("2 minutes", 2*time.Minute, 2*time.Minute+29*time.Second)
test("1 hour", time.Hour, time.Hour+29*time.Minute)
test("2 hours", 2*time.Hour, time.Hour+30*time.Minute)
test("2 hours", 2*time.Hour, 2*time.Hour+29*time.Minute)
test("3 hours", 3*time.Hour, 2*time.Hour+30*time.Minute)
test("1 day", DayDur, DayDur+11*time.Hour)
test("2 days", 2*DayDur, DayDur+12*time.Hour)
test("2 days", 2*DayDur, 2*DayDur+11*time.Hour)
test("3 days", 3*DayDur, 2*DayDur+12*time.Hour)
test("1 week", WeekDur, WeekDur+3*DayDur)
test("2 weeks", 2*WeekDur, WeekDur+4*DayDur)
test("2 weeks", 2*WeekDur, 2*WeekDur+3*DayDur)
test("3 weeks", 3*WeekDur, 2*WeekDur+4*DayDur)
test("1 month", MonthDur, MonthDur+14*DayDur)
test("2 months", 2*MonthDur, MonthDur+15*DayDur)
test("2 months", 2*MonthDur, 2*MonthDur+14*DayDur)
test("1 year", YearDur, YearDur+5*MonthDur)
test("2 years", 2*YearDur, YearDur+6*MonthDur)
test("2 years", 2*YearDur, 2*YearDur+5*MonthDur)
test("3 years", 3*YearDur, 2*YearDur+6*MonthDur)
}
func TestTimeSincePro(t *testing.T) {
assert.Equal(t, "now", timeSincePro(BaseDate, BaseDate, translation.NewLocale("en-US")))
// test that a difference of `diff` yields the expected string
test := func(expected string, diff time.Duration) {
actual := timeSincePro(BaseDate, BaseDate.Add(diff), translation.NewLocale("en-US"))
assert.Equal(t, expected, actual)
assert.Equal(t, "future", timeSincePro(BaseDate.Add(diff), BaseDate, translation.NewLocale("en-US")))
}
test("1 second", time.Second)
test("2 seconds", 2*time.Second)
test("1 minute", time.Minute)
test("1 minute, 1 second", time.Minute+time.Second)
test("1 minute, 59 seconds", time.Minute+59*time.Second)
test("2 minutes", 2*time.Minute)
test("1 hour", time.Hour)
test("1 hour, 1 second", time.Hour+time.Second)
test("1 hour, 59 minutes, 59 seconds", time.Hour+59*time.Minute+59*time.Second)
test("2 hours", 2*time.Hour)
test("1 day", DayDur)
test("1 day, 23 hours, 59 minutes, 59 seconds",
DayDur+23*time.Hour+59*time.Minute+59*time.Second)
test("2 days", 2*DayDur)
test("1 week", WeekDur)
test("2 weeks", 2*WeekDur)
test("1 month", MonthDur)
test("3 months", 3*MonthDur)
test("1 year", YearDur)
test("2 years, 3 months, 1 week, 2 days, 4 hours, 12 minutes, 17 seconds",
2*YearDur+3*MonthDur+WeekDur+2*DayDur+4*time.Hour+
12*time.Minute+17*time.Second)
}
func TestHtmlTimeSince(t *testing.T) {
setting.TimeFormat = time.UnixDate
setting.DefaultUILocation = time.UTC
// test that `diff` yields a result containing `expected`
test := func(expected string, diff time.Duration) {
actual := htmlTimeSince(BaseDate, BaseDate.Add(diff), translation.NewLocale("en-US"))
assert.Contains(t, actual, `data-content="Sat Jan 1 00:00:00 UTC 2000"`)
assert.Contains(t, actual, expected)
}
test("1 second", time.Second)
test("3 minutes", 3*time.Minute+5*time.Second)
test("1 day", DayDur+11*time.Hour)
test("1 week", WeekDur+3*DayDur)
test("3 months", 3*MonthDur+2*WeekDur)
test("2 years", 2*YearDur)
test("3 years", 2*YearDur+11*MonthDur+4*WeekDur)
}
func TestComputeTimeDiff(t *testing.T) {
// test that for each offset in offsets,
// computeTimeDiff(base + offset) == (offset, str)
test := func(base int64, str string, offsets ...int64) {
for _, offset := range offsets {
t.Run(fmt.Sprintf("%s:%d", str, offset), func(t *testing.T) {
diff, diffStr := computeTimeDiff(base+offset, translation.NewLocale("en-US"))
assert.Equal(t, offset, diff)
assert.Equal(t, str, diffStr)
})
}
}
test(0, "now", 0)
test(1, "1 second", 0)
test(2, "2 seconds", 0)
test(Minute, "1 minute", 0, 1, 29)
test(Minute, "2 minutes", 30, Minute-1)
test(2*Minute, "2 minutes", 0, 29)
test(2*Minute, "3 minutes", 30, Minute-1)
test(Hour, "1 hour", 0, 1, 29*Minute)
test(Hour, "2 hours", 30*Minute, Hour-1)
test(5*Hour, "5 hours", 0, 29*Minute)
test(Day, "1 day", 0, 1, 11*Hour)
test(Day, "2 days", 12*Hour, Day-1)
test(5*Day, "5 days", 0, 11*Hour)
test(Week, "1 week", 0, 1, 3*Day)
test(Week, "2 weeks", 4*Day, Week-1)
test(3*Week, "3 weeks", 0, 3*Day)
test(Month, "1 month", 0, 1)
test(Month, "2 months", 16*Day, Month-1)
test(10*Month, "10 months", 0, 13*Day)
test(Year, "1 year", 0, 179*Day)
test(Year, "2 years", 180*Day, Year-1)
test(3*Year, "3 years", 0, 179*Day)
}
func TestMinutesToFriendly(t *testing.T) {
// test that a number of minutes yields the expected string
test := func(expected string, minutes int) {
actual := MinutesToFriendly(minutes, translation.NewLocale("en-US"))
assert.Equal(t, expected, actual)
}
test("1 minute", 1)
test("2 minutes", 2)
test("1 hour", 60)
test("1 hour, 1 minute", 61)
test("1 hour, 2 minutes", 62)
test("2 hours", 120)
}