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gotosocial/internal/paging/page_test.go

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// GoToSocial
// Copyright (C) GoToSocial Authors admin@gotosocial.org
// SPDX-License-Identifier: AGPL-3.0-or-later
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package paging_test
import (
"math/rand"
"slices"
"testing"
"time"
"github.com/oklog/ulid"
"github.com/superseriousbusiness/gotosocial/internal/paging"
)
// random reader according to current-time source seed.
var randRd = rand.New(rand.NewSource(time.Now().Unix()))
type Case struct {
// Name is the test case name.
Name string
// Page to use for test.
Page *paging.Page
// Input contains test case input ID slice.
Input []string
// Expect contains expected test case output.
Expect []string
}
// CreateCase creates a new test case with random input for function defining test page parameters and expected output.
func CreateCase(name string, getParams func([]string) (input []string, page *paging.Page, expect []string)) Case {
i := randRd.Intn(100)
in := generateSlice(i)
input, page, expect := getParams(in)
return Case{
Name: name,
Page: page,
Input: input,
Expect: expect,
}
}
func TestPage(t *testing.T) {
for _, c := range cases {
t.Run(c.Name, func(t *testing.T) {
// Page the input slice.
out := c.Page.Page(c.Input)
// Log the results for case of error returns.
t.Logf("%s\npage=%+v input=%v expect=%v output=%v", c.Name, c.Page, c.Input, c.Expect, out)
// Check paged output is as expected.
if !slices.Equal(out, c.Expect) {
t.Error("unexpected paged output")
}
})
}
}
var cases = []Case{
CreateCase("minID and maxID set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted ascending for min_id
slices.SortFunc(ids, ascending)
// Select random indices in slice.
minIdx := randRd.Intn(len(ids))
maxIdx := randRd.Intn(len(ids))
// Select the boundaries.
minID := ids[minIdx]
maxID := ids[maxIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, minID)
expect = cutUpper(expect, maxID)
slices.Reverse(expect)
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.MinID(minID),
Max: paging.MaxID(maxID),
}, expect
}),
CreateCase("minID, maxID and limit set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted ascending for min_id
slices.SortFunc(ids, ascending)
// Select random parameters in slice.
minIdx := randRd.Intn(len(ids))
maxIdx := randRd.Intn(len(ids))
limit := randRd.Intn(len(ids)) + 1
// Select the boundaries.
minID := ids[minIdx]
maxID := ids[maxIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, minID)
expect = cutUpper(expect, maxID)
slices.Reverse(expect)
// Now limit the slice.
if limit < len(expect) {
expect = expect[:limit]
}
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.MinID(minID),
Max: paging.MaxID(maxID),
Limit: limit,
}, expect
}),
CreateCase("minID, maxID and too-large limit set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted ascending for min_id
slices.SortFunc(ids, ascending)
// Select random parameters in slice.
minIdx := randRd.Intn(len(ids))
maxIdx := randRd.Intn(len(ids))
// Select the boundaries.
minID := ids[minIdx]
maxID := ids[maxIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, minID)
expect = cutUpper(expect, maxID)
slices.Reverse(expect)
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.MinID(minID),
Max: paging.MaxID(maxID),
Limit: len(ids) * 2,
}, expect
}),
CreateCase("sinceID and maxID set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted descending for since_id
slices.SortFunc(ids, descending)
// Select random indices in slice.
sinceIdx := randRd.Intn(len(ids))
maxIdx := randRd.Intn(len(ids))
// Select the boundaries.
sinceID := ids[sinceIdx]
maxID := ids[maxIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, maxID)
expect = cutUpper(expect, sinceID)
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.SinceID(sinceID),
Max: paging.MaxID(maxID),
}, expect
}),
CreateCase("maxID set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted descending for max_id
slices.SortFunc(ids, descending)
// Select random indices in slice.
maxIdx := randRd.Intn(len(ids))
// Select the boundaries.
maxID := ids[maxIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, maxID)
// Return page and expected IDs.
return ids, &paging.Page{
Max: paging.MaxID(maxID),
}, expect
}),
CreateCase("sinceID set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted descending for since_id
slices.SortFunc(ids, descending)
// Select random indices in slice.
sinceIdx := randRd.Intn(len(ids))
// Select the boundaries.
sinceID := ids[sinceIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutUpper(expect, sinceID)
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.SinceID(sinceID),
}, expect
}),
CreateCase("minID set", func(ids []string) ([]string, *paging.Page, []string) {
// Ensure input slice sorted ascending for min_id
slices.SortFunc(ids, ascending)
// Select random indices in slice.
minIdx := randRd.Intn(len(ids))
// Select the boundaries.
minID := ids[minIdx]
// Create expected output.
expect := slices.Clone(ids)
expect = cutLower(expect, minID)
slices.Reverse(expect)
// Return page and expected IDs.
return ids, &paging.Page{
Min: paging.MinID(minID),
}, expect
}),
}
// cutLower cuts off the lower part of the slice from `bound` downwards.
func cutLower(in []string, bound string) []string {
for i := 0; i < len(in); i++ {
if in[i] == bound {
return in[i+1:]
}
}
return in
}
// cutUpper cuts off the upper part of the slice from `bound` onwards.
func cutUpper(in []string, bound string) []string {
for i := 0; i < len(in); i++ {
if in[i] == bound {
return in[:i]
}
}
return in
}
// generateSlice generates a new slice of len containing ascending sorted slice.
func generateSlice(len int) []string {
if len <= 0 {
// minimum testable
// pageable amount
len = 2
}
now := time.Now()
in := make([]string, len)
for i := 0; i < len; i++ {
// Convert now to timestamp.
t := ulid.Timestamp(now)
// Create anew ulid for now.
u := ulid.MustNew(t, randRd)
// Add to slice.
in[i] = u.String()
// Bump now by 1 second.
now = now.Add(time.Second)
}
return in
}
func ascending(a, b string) int {
if a > b {
return 1
} else if a < b {
return -1
}
return 0
}
func descending(a, b string) int {
if a < b {
return 1
} else if a > b {
return -1
}
return 0
}