1package cache
  2
  3import (
  4	"encoding/gob"
  5	"fmt"
  6
  7	"github.com/MichaelMure/git-bug/bug"
  8	"github.com/MichaelMure/git-bug/entity"
  9	"github.com/MichaelMure/git-bug/identity"
 10	"github.com/MichaelMure/git-bug/util/lamport"
 11)
 12
 13// Package initialisation used to register the type for (de)serialization
 14func init() {
 15	gob.Register(BugExcerpt{})
 16}
 17
 18// BugExcerpt hold a subset of the bug values to be able to sort and filter bugs
 19// efficiently without having to read and compile each raw bugs.
 20type BugExcerpt struct {
 21	Id entity.Id
 22
 23	CreateLamportTime lamport.Time
 24	EditLamportTime   lamport.Time
 25	CreateUnixTime    int64
 26	EditUnixTime      int64
 27
 28	Status       bug.Status
 29	Labels       []bug.Label
 30	Title        string
 31	LenComments  int
 32	Actors       []entity.Id
 33	Participants []entity.Id
 34
 35	// If author is identity.Bare, LegacyAuthor is set
 36	// If author is identity.Identity, AuthorId is set and data is deported
 37	// in a IdentityExcerpt
 38	LegacyAuthor LegacyAuthorExcerpt
 39	AuthorId     entity.Id
 40
 41	CreateMetadata map[string]string
 42}
 43
 44// identity.Bare data are directly embedded in the bug excerpt
 45type LegacyAuthorExcerpt struct {
 46	Name  string
 47	Login string
 48}
 49
 50func (l LegacyAuthorExcerpt) DisplayName() string {
 51	switch {
 52	case l.Name == "" && l.Login != "":
 53		return l.Login
 54	case l.Name != "" && l.Login == "":
 55		return l.Name
 56	case l.Name != "" && l.Login != "":
 57		return fmt.Sprintf("%s (%s)", l.Name, l.Login)
 58	}
 59
 60	panic("invalid person data")
 61}
 62
 63func NewBugExcerpt(b bug.Interface, snap *bug.Snapshot) *BugExcerpt {
 64	participantsIds := make([]entity.Id, 0, len(snap.Participants))
 65	for _, participant := range snap.Participants {
 66		if _, ok := participant.(*identity.Identity); ok {
 67			participantsIds = append(participantsIds, participant.Id())
 68		}
 69	}
 70
 71	actorsIds := make([]entity.Id, 0, len(snap.Actors))
 72	for _, actor := range snap.Actors {
 73		if _, ok := actor.(*identity.Identity); ok {
 74			actorsIds = append(actorsIds, actor.Id())
 75		}
 76	}
 77
 78	e := &BugExcerpt{
 79		Id:                b.Id(),
 80		CreateLamportTime: b.CreateLamportTime(),
 81		EditLamportTime:   b.EditLamportTime(),
 82		CreateUnixTime:    b.FirstOp().GetUnixTime(),
 83		EditUnixTime:      snap.LastEditUnix(),
 84		Status:            snap.Status,
 85		Labels:            snap.Labels,
 86		Actors:            actorsIds,
 87		Participants:      participantsIds,
 88		Title:             snap.Title,
 89		LenComments:       len(snap.Comments),
 90		CreateMetadata:    b.FirstOp().AllMetadata(),
 91	}
 92
 93	switch snap.Author.(type) {
 94	case *identity.Identity:
 95		e.AuthorId = snap.Author.Id()
 96	case *identity.Bare:
 97		e.LegacyAuthor = LegacyAuthorExcerpt{
 98			Login: snap.Author.Login(),
 99			Name:  snap.Author.Name(),
100		}
101	default:
102		panic("unhandled identity type")
103	}
104
105	return e
106}
107
108/*
109 * Sorting
110 */
111
112type BugsById []*BugExcerpt
113
114func (b BugsById) Len() int {
115	return len(b)
116}
117
118func (b BugsById) Less(i, j int) bool {
119	return b[i].Id < b[j].Id
120}
121
122func (b BugsById) Swap(i, j int) {
123	b[i], b[j] = b[j], b[i]
124}
125
126type BugsByCreationTime []*BugExcerpt
127
128func (b BugsByCreationTime) Len() int {
129	return len(b)
130}
131
132func (b BugsByCreationTime) Less(i, j int) bool {
133	if b[i].CreateLamportTime < b[j].CreateLamportTime {
134		return true
135	}
136
137	if b[i].CreateLamportTime > b[j].CreateLamportTime {
138		return false
139	}
140
141	// When the logical clocks are identical, that means we had a concurrent
142	// edition. In this case we rely on the timestamp. While the timestamp might
143	// be incorrect due to a badly set clock, the drift in sorting is bounded
144	// by the first sorting using the logical clock. That means that if users
145	// synchronize their bugs regularly, the timestamp will rarely be used, and
146	// should still provide a kinda accurate sorting when needed.
147	return b[i].CreateUnixTime < b[j].CreateUnixTime
148}
149
150func (b BugsByCreationTime) Swap(i, j int) {
151	b[i], b[j] = b[j], b[i]
152}
153
154type BugsByEditTime []*BugExcerpt
155
156func (b BugsByEditTime) Len() int {
157	return len(b)
158}
159
160func (b BugsByEditTime) Less(i, j int) bool {
161	if b[i].EditLamportTime < b[j].EditLamportTime {
162		return true
163	}
164
165	if b[i].EditLamportTime > b[j].EditLamportTime {
166		return false
167	}
168
169	// When the logical clocks are identical, that means we had a concurrent
170	// edition. In this case we rely on the timestamp. While the timestamp might
171	// be incorrect due to a badly set clock, the drift in sorting is bounded
172	// by the first sorting using the logical clock. That means that if users
173	// synchronize their bugs regularly, the timestamp will rarely be used, and
174	// should still provide a kinda accurate sorting when needed.
175	return b[i].EditUnixTime < b[j].EditUnixTime
176}
177
178func (b BugsByEditTime) Swap(i, j int) {
179	b[i], b[j] = b[j], b[i]
180}