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model.go
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package kong
import (
"errors"
"log"
"sort"
"strings"
"time"
"unicode"
"github.com/andygrunwald/go-jira"
)
var (
errJiraKeyEmpty = errors.New("key cannot be empty")
errJiraFieldEmpty = errors.New("fields cannot be nil")
errJiraSummaryEmpty = errors.New("summary cannot be empty")
errJiraPriorityNil = errors.New("priority cannot be nil")
errJiraPriorityNameEmpty = errors.New("priority name cannot be empty")
errJiraTransitionsEmpty = errors.New("transitions cannot be empty")
)
// Issues is a list of issues which conveniently exposes a Print method to
// display the issue's data.
type Issues []Issue
// Sprints is a list of sprints which conveniently exposes a Print method to
// display sprints.
type Sprints []Sprint
// Issue is a Jira issue abstraction. The type primarily exists to only
// serialize a subset of the data to disk.
type Issue struct {
Key string `yaml:"-"`
Summary string `yaml:"summary"`
Priority string `yaml:"-"`
Status Status `yaml:"-"`
Transitions []Transition `yaml:"-"`
TransitionsByAcronym map[string]Transition `yaml:"-"`
OrderByTransitionStatus map[string]int `yaml:"-"`
SprintID int `yaml:"sprintID"`
}
// Transition is a Jira transition abstraction. The type primarily exists to
// only serialize a subset of data to disk.
type Transition struct {
ID string
Name string
Description string
Acronym string
}
// Status is a Jira status abstraction.
type Status struct {
Name string
Acronym string
IsDone bool
}
// Sprint is a Jira sprint abstraction. The type primarily exists to only
// serialize a subset of the data to disk.
type Sprint struct {
ID int
Name string
State string
EndDate time.Time
}
// NewIssues returns a new instance of Issues by converting jira.Issue to
// Issue.
func NewIssues(jiraIssues []jira.Issue, customFields CustomFields) (Issues, error) {
result := make(Issues, 0, len(jiraIssues))
transitions := make([]Transition, 0)
transitionsByAcronym := make(map[string]Transition)
orderByTransitionStatus := make(map[string]int, len(transitions))
var acronyms map[string]string
for _, jiraIssue := range jiraIssues {
issue, err := NewIssue(jiraIssue)
if err != nil {
log.Print("NewIssues: " + err.Error())
continue
}
// only initialize list of transitions once
if len(transitions) == 0 {
acronyms = statusAcronyms(jiraIssue.Transitions)
transitions = make([]Transition, len(jiraIssue.Transitions))
for j, transition := range jiraIssue.Transitions {
acronym := acronyms[transition.Name]
t := Transition{
ID: transition.ID,
Name: transition.To.Name,
Description: transition.To.Description,
Acronym: acronym,
}
transitions[j] = t
transitionsByAcronym[acronym] = t
orderByTransitionStatus[transition.To.Name] = j
}
}
// then reference the initialized lists
issue.Transitions = transitions
issue.TransitionsByAcronym = transitionsByAcronym
issue.OrderByTransitionStatus = orderByTransitionStatus
issue.Status.Acronym = acronyms[issue.Status.Name]
// set sprint
if jiraIssue.Fields.Unknowns[customFields.Sprints] != nil {
sprints := jiraIssue.Fields.Unknowns[customFields.Sprints].([]interface{})
for _, item := range sprints {
sprint := item.(map[string]interface{})
if sprint["state"] == "active" {
issue.SprintID = int(sprint["id"].(float64))
break
}
}
}
result = append(result, issue)
}
return result, nil
}
// NewIssue returns a new instance of Issue by converting jira.Issue to Issue.
func NewIssue(issue jira.Issue) (Issue, error) {
if err := validateJiraIssue(issue); err != nil {
return Issue{}, err
}
result := Issue{
Key: issue.Key,
Summary: issue.Fields.Summary,
Priority: issue.Fields.Priority.Name,
Status: NewStatus(issue),
}
return result, nil
}
func validateJiraIssue(issue jira.Issue) error {
if issue.Key == "" {
return errJiraKeyEmpty
}
if issue.Fields == nil {
return errJiraFieldEmpty
}
if issue.Fields.Summary == "" {
return errJiraSummaryEmpty
}
if issue.Fields.Priority == nil {
return errJiraPriorityNil
}
if issue.Fields.Priority.Name == "" {
return errJiraPriorityNameEmpty
}
if len(issue.Transitions) == 0 {
return errJiraTransitionsEmpty
}
return nil
}
// NewStatus returns a new instance of Status by converting the status field of
// jira.Issue.
func NewStatus(issue jira.Issue) Status {
if issue.Fields == nil {
return Status{}
}
if issue.Fields.Status == nil {
return Status{}
}
return Status{
Name: issue.Fields.Status.Name,
IsDone: issue.Fields.Status.StatusCategory.Key == "done",
}
}
// NewSprints returns a new instance of Sprints by converting jira.Sprint to
// Sprint.
func NewSprints(sprints []jira.Sprint) Sprints {
result := make(Sprints, len(sprints))
for i, sprint := range sprints {
result[i] = NewSprint(sprint)
}
return result
}
// NewSprint returns a new instance of Sprint by converting jira.Sprint to
// Sprint.
func NewSprint(sprint jira.Sprint) Sprint {
s := Sprint{
ID: sprint.ID,
Name: sprint.Name,
State: sprint.State,
}
if sprint.EndDate != nil {
s.EndDate = *sprint.EndDate
}
return s
}
// ActiveSprint returns the currently active sprint or an error if there is no
// active sprint.
func (s Sprints) ActiveSprint() (Sprint, error) {
for _, sprint := range s {
if sprint.State == "active" {
return sprint, nil
}
}
return Sprint{}, ErrNoActiveSprint
}
// Transitions returns a list of transitions from one of the issues since each
// issue should have the same set of transitions.
func (i Issues) Transitions() []Transition {
if len(i) == 0 {
return nil
}
return i[0].Transitions
}
func (i Issues) Sort() Issues {
sort.Slice(i, func(a, b int) bool {
return i[a].OrderByTransitionStatus[i[a].Status.Name] <
i[b].OrderByTransitionStatus[i[b].Status.Name]
})
return i
}
// order by implicit transition status order returned from the Jira API
func statusAcronyms(transitions []jira.Transition) map[string]string {
acronymByTransition := make(map[string]string, len(transitions))
acronyms := make(map[string]struct{}, len(transitions))
for _, transition := range transitions {
var (
s strings.Builder
n int
)
for {
for _, word := range strings.Split(transition.To.Name, " ") {
s.WriteRune(unicode.ToLower(rune(word[n])))
}
if _, ok := acronyms[s.String()]; !ok {
acronyms[s.String()] = struct{}{}
acronymByTransition[transition.To.Name] = s.String()
break
}
n++
}
}
return acronymByTransition
}