// 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 . 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 := >smodel.Status{ID: "F"} b := >smodel.Status{ID: "B", InReplyToID: f.ID} a := >smodel.Status{ID: "A", InReplyToID: b.ID} d := >smodel.Status{ID: "D", InReplyToID: b.ID} c := >smodel.Status{ID: "C", InReplyToID: d.ID} e := >smodel.Status{ID: "E", InReplyToID: d.ID} g := >smodel.Status{ID: "G", InReplyToID: f.ID} i := >smodel.Status{ID: "I", InReplyToID: g.ID} h := >smodel.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 := >smodel.Account{ID: "1"} otherAccount := >smodel.Account{ID: "2"} f := >smodel.Status{ ID: "F", Account: targetAccount, } b := >smodel.Status{ ID: "B", Account: targetAccount, AccountID: targetAccount.ID, InReplyToID: f.ID, InReplyToAccountID: f.Account.ID, } d := >smodel.Status{ ID: "D", Account: targetAccount, AccountID: targetAccount.ID, InReplyToID: b.ID, InReplyToAccountID: b.Account.ID, } e := >smodel.Status{ ID: "E", Account: targetAccount, AccountID: targetAccount.ID, InReplyToID: d.ID, InReplyToAccountID: d.Account.ID, } c := >smodel.Status{ ID: "C", Account: otherAccount, AccountID: otherAccount.ID, InReplyToID: d.ID, InReplyToAccountID: d.Account.ID, } a := >smodel.Status{ ID: "A", Account: otherAccount, AccountID: otherAccount.ID, InReplyToID: b.ID, InReplyToAccountID: b.Account.ID, } g := >smodel.Status{ ID: "G", Account: otherAccount, AccountID: otherAccount.ID, InReplyToID: f.ID, InReplyToAccountID: f.Account.ID, } i := >smodel.Status{ ID: "I", Account: targetAccount, AccountID: targetAccount.ID, InReplyToID: g.ID, InReplyToAccountID: g.Account.ID, } h := >smodel.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 := >smodel.Status{ID: "F"} b := >smodel.Status{ID: "B", InReplyToID: f.ID} dID := "D" e := >smodel.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 := >smodel.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 := >smodel.Status{ID: "X", InReplyToID: yID} y := >smodel.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 := >smodel.Status{ID: "X", InReplyToID: yID} y := >smodel.Status{ID: yID, InReplyToID: x.ID} z := >smodel.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{}) }