GoToSocial/internal/processing/status/context_test.go

207 lines
5.8 KiB
Go

// 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 status_test
import (
"testing"
"github.com/stretchr/testify/suite"
"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
"github.com/superseriousbusiness/gotosocial/internal/processing/status"
)
type topoSortTestSuite struct {
suite.Suite
}
func statusIDs(apiStatuses []*gtsmodel.Status) []string {
ids := make([]string, 0, len(apiStatuses))
for _, apiStatus := range apiStatuses {
ids = append(ids, apiStatus.ID)
}
return ids
}
func (suite *topoSortTestSuite) TestBranched() {
// https://commons.wikimedia.org/wiki/File:Sorted_binary_tree_ALL_RGB.svg
f := &gtsmodel.Status{ID: "F"}
b := &gtsmodel.Status{ID: "B", InReplyToID: f.ID}
a := &gtsmodel.Status{ID: "A", InReplyToID: b.ID}
d := &gtsmodel.Status{ID: "D", InReplyToID: b.ID}
c := &gtsmodel.Status{ID: "C", InReplyToID: d.ID}
e := &gtsmodel.Status{ID: "E", InReplyToID: d.ID}
g := &gtsmodel.Status{ID: "G", InReplyToID: f.ID}
i := &gtsmodel.Status{ID: "I", InReplyToID: g.ID}
h := &gtsmodel.Status{ID: "H", InReplyToID: i.ID}
expected := statusIDs([]*gtsmodel.Status{f, b, a, d, c, e, g, i, h})
list := []*gtsmodel.Status{a, b, c, d, e, f, g, h, i}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.Equal(expected, actual)
}
func (suite *topoSortTestSuite) TestBranchedWithSelfReplyChain() {
targetAccount := &gtsmodel.Account{ID: "1"}
otherAccount := &gtsmodel.Account{ID: "2"}
f := &gtsmodel.Status{
ID: "F",
Account: targetAccount,
}
b := &gtsmodel.Status{
ID: "B",
Account: targetAccount,
AccountID: targetAccount.ID,
InReplyToID: f.ID,
InReplyToAccountID: f.Account.ID,
}
d := &gtsmodel.Status{
ID: "D",
Account: targetAccount,
AccountID: targetAccount.ID,
InReplyToID: b.ID,
InReplyToAccountID: b.Account.ID,
}
e := &gtsmodel.Status{
ID: "E",
Account: targetAccount,
AccountID: targetAccount.ID,
InReplyToID: d.ID,
InReplyToAccountID: d.Account.ID,
}
c := &gtsmodel.Status{
ID: "C",
Account: otherAccount,
AccountID: otherAccount.ID,
InReplyToID: d.ID,
InReplyToAccountID: d.Account.ID,
}
a := &gtsmodel.Status{
ID: "A",
Account: otherAccount,
AccountID: otherAccount.ID,
InReplyToID: b.ID,
InReplyToAccountID: b.Account.ID,
}
g := &gtsmodel.Status{
ID: "G",
Account: otherAccount,
AccountID: otherAccount.ID,
InReplyToID: f.ID,
InReplyToAccountID: f.Account.ID,
}
i := &gtsmodel.Status{
ID: "I",
Account: targetAccount,
AccountID: targetAccount.ID,
InReplyToID: g.ID,
InReplyToAccountID: g.Account.ID,
}
h := &gtsmodel.Status{
ID: "H",
Account: otherAccount,
AccountID: otherAccount.ID,
InReplyToID: i.ID,
InReplyToAccountID: i.Account.ID,
}
expected := statusIDs([]*gtsmodel.Status{f, b, d, e, c, a, g, i, h})
list := []*gtsmodel.Status{a, b, c, d, e, f, g, h, i}
status.TopoSort(list, targetAccount.ID)
actual := statusIDs(list)
suite.Equal(expected, actual)
}
func (suite *topoSortTestSuite) TestDisconnected() {
f := &gtsmodel.Status{ID: "F"}
b := &gtsmodel.Status{ID: "B", InReplyToID: f.ID}
dID := "D"
e := &gtsmodel.Status{ID: "E", InReplyToID: dID}
expected := statusIDs([]*gtsmodel.Status{e, f, b})
list := []*gtsmodel.Status{b, e, f}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.Equal(expected, actual)
}
func (suite *topoSortTestSuite) TestTrivialCycle() {
xID := "X"
x := &gtsmodel.Status{ID: xID, InReplyToID: xID}
expected := statusIDs([]*gtsmodel.Status{x})
list := []*gtsmodel.Status{x}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.ElementsMatch(expected, actual)
}
func (suite *topoSortTestSuite) TestCycle() {
yID := "Y"
x := &gtsmodel.Status{ID: "X", InReplyToID: yID}
y := &gtsmodel.Status{ID: yID, InReplyToID: x.ID}
expected := statusIDs([]*gtsmodel.Status{x, y})
list := []*gtsmodel.Status{x, y}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.ElementsMatch(expected, actual)
}
func (suite *topoSortTestSuite) TestMixedCycle() {
yID := "Y"
x := &gtsmodel.Status{ID: "X", InReplyToID: yID}
y := &gtsmodel.Status{ID: yID, InReplyToID: x.ID}
z := &gtsmodel.Status{ID: "Z"}
expected := statusIDs([]*gtsmodel.Status{x, y, z})
list := []*gtsmodel.Status{x, y, z}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.ElementsMatch(expected, actual)
}
func (suite *topoSortTestSuite) TestEmpty() {
expected := statusIDs([]*gtsmodel.Status{})
list := []*gtsmodel.Status{}
status.TopoSort(list, "")
actual := statusIDs(list)
suite.Equal(expected, actual)
}
func (suite *topoSortTestSuite) TestNil() {
expected := statusIDs(nil)
var list []*gtsmodel.Status
status.TopoSort(list, "")
actual := statusIDs(list)
suite.Equal(expected, actual)
}
func TestTopoSortTestSuite(t *testing.T) {
suite.Run(t, &topoSortTestSuite{})
}