homebox/backend/internal/data/repo/repo_locations.go
2024-05-24 19:46:32 -05:00

457 lines
11 KiB
Go

package repo
import (
"context"
"strings"
"time"
"github.com/google/uuid"
"github.com/hay-kot/homebox/backend/internal/core/services/reporting/eventbus"
"github.com/hay-kot/homebox/backend/internal/data/ent"
"github.com/hay-kot/homebox/backend/internal/data/ent/group"
"github.com/hay-kot/homebox/backend/internal/data/ent/location"
"github.com/hay-kot/homebox/backend/internal/data/ent/predicate"
)
type LocationRepository struct {
db *ent.Client
bus *eventbus.EventBus
}
type (
LocationCreate struct {
Name string `json:"name"`
ParentID uuid.UUID `json:"parentId" extensions:"x-nullable"`
Description string `json:"description"`
}
LocationUpdate struct {
ParentID uuid.UUID `json:"parentId" extensions:"x-nullable"`
ID uuid.UUID `json:"id"`
Name string `json:"name"`
Description string `json:"description"`
}
LocationSummary struct {
ID uuid.UUID `json:"id"`
Name string `json:"name"`
Description string `json:"description"`
CreatedAt time.Time `json:"createdAt"`
UpdatedAt time.Time `json:"updatedAt"`
}
LocationOutCount struct {
LocationSummary
ItemCount int `json:"itemCount"`
}
LocationOut struct {
Parent *LocationSummary `json:"parent,omitempty"`
LocationSummary
Children []LocationSummary `json:"children"`
}
)
func mapLocationSummary(location *ent.Location) LocationSummary {
return LocationSummary{
ID: location.ID,
Name: location.Name,
Description: location.Description,
CreatedAt: location.CreatedAt,
UpdatedAt: location.UpdatedAt,
}
}
var mapLocationOutErr = mapTErrFunc(mapLocationOut)
func mapLocationOut(location *ent.Location) LocationOut {
var parent *LocationSummary
if location.Edges.Parent != nil {
p := mapLocationSummary(location.Edges.Parent)
parent = &p
}
children := make([]LocationSummary, 0, len(location.Edges.Children))
for _, c := range location.Edges.Children {
children = append(children, mapLocationSummary(c))
}
return LocationOut{
Parent: parent,
Children: children,
LocationSummary: LocationSummary{
ID: location.ID,
Name: location.Name,
Description: location.Description,
CreatedAt: location.CreatedAt,
UpdatedAt: location.UpdatedAt,
},
}
}
func (r *LocationRepository) publishMutationEvent(groupID uuid.UUID) {
if r.bus != nil {
r.bus.Publish(eventbus.EventLocationMutation, eventbus.GroupMutationEvent{GID: groupID})
}
}
type LocationQuery struct {
FilterChildren bool `json:"filterChildren" schema:"filterChildren"`
}
// GetAll returns all locations with item count field populated
func (r *LocationRepository) GetAll(ctx context.Context, groupID uuid.UUID, filter LocationQuery) ([]LocationOutCount, error) {
query := `--sql
SELECT
id,
name,
description,
created_at,
updated_at,
(
SELECT
SUM(items.quantity)
FROM
items
WHERE
items.location_items = locations.id
AND items.archived = false
) as item_count
FROM
locations
WHERE
locations.group_locations = ? {{ FILTER_CHILDREN }}
ORDER BY
locations.name ASC
`
if filter.FilterChildren {
query = strings.Replace(query, "{{ FILTER_CHILDREN }}", "AND locations.location_children IS NULL", 1)
} else {
query = strings.Replace(query, "{{ FILTER_CHILDREN }}", "", 1)
}
rows, err := r.db.Sql().QueryContext(ctx, query, groupID)
if err != nil {
return nil, err
}
defer func() { _ = rows.Close() }()
list := []LocationOutCount{}
for rows.Next() {
var ct LocationOutCount
var maybeCount *int
err := rows.Scan(&ct.ID, &ct.Name, &ct.Description, &ct.CreatedAt, &ct.UpdatedAt, &maybeCount)
if err != nil {
return nil, err
}
if maybeCount != nil {
ct.ItemCount = *maybeCount
}
list = append(list, ct)
}
return list, err
}
func (r *LocationRepository) getOne(ctx context.Context, where ...predicate.Location) (LocationOut, error) {
return mapLocationOutErr(r.db.Location.Query().
Where(where...).
WithGroup().
WithParent().
WithChildren().
Only(ctx))
}
func (r *LocationRepository) Get(ctx context.Context, locationID uuid.UUID) (LocationOut, error) {
return r.getOne(ctx, location.ID(locationID))
}
func (r *LocationRepository) GetOneByGroup(ctx context.Context, groupID, locationID uuid.UUID) (LocationOut, error) {
return r.getOne(ctx, location.ID(locationID), location.HasGroupWith(group.ID(groupID)))
}
func (r *LocationRepository) Create(ctx context.Context, groupID uuid.UUID, data LocationCreate) (LocationOut, error) {
q := r.db.Location.Create().
SetName(data.Name).
SetDescription(data.Description).
SetGroupID(groupID)
if data.ParentID != uuid.Nil {
q.SetParentID(data.ParentID)
}
location, err := q.Save(ctx)
if err != nil {
return LocationOut{}, err
}
location.Edges.Group = &ent.Group{ID: groupID} // bootstrap group ID
r.publishMutationEvent(groupID)
return mapLocationOut(location), nil
}
func (r *LocationRepository) update(ctx context.Context, data LocationUpdate, where ...predicate.Location) (LocationOut, error) {
q := r.db.Location.Update().
Where(where...).
SetName(data.Name).
SetDescription(data.Description)
if data.ParentID != uuid.Nil {
q.SetParentID(data.ParentID)
} else {
q.ClearParent()
}
_, err := q.Save(ctx)
if err != nil {
return LocationOut{}, err
}
return r.Get(ctx, data.ID)
}
func (r *LocationRepository) UpdateByGroup(ctx context.Context, groupID, locationID uuid.UUID, data LocationUpdate) (LocationOut, error) {
v, err := r.update(ctx, data, location.ID(locationID), location.HasGroupWith(group.ID(groupID)))
if err != nil {
return LocationOut{}, err
}
r.publishMutationEvent(groupID)
return v, err
}
// delete should only be used after checking that the location is owned by the
// group. Otherwise, use DeleteByGroup
func (r *LocationRepository) delete(ctx context.Context, locationID uuid.UUID) error {
return r.db.Location.DeleteOneID(locationID).Exec(ctx)
}
func (r *LocationRepository) DeleteByGroup(ctx context.Context, groupID, locationID uuid.UUID) error {
_, err := r.db.Location.Delete().Where(location.ID(locationID), location.HasGroupWith(group.ID(groupID))).Exec(ctx)
if err != nil {
return err
}
r.publishMutationEvent(groupID)
return err
}
type TreeItem struct {
ID uuid.UUID `json:"id"`
Name string `json:"name"`
Type string `json:"type"`
Children []*TreeItem `json:"children"`
}
type FlatTreeItem struct {
ID uuid.UUID
Name string
Type string
ParentID uuid.UUID
Level int
}
type TreeQuery struct {
WithItems bool `json:"withItems" schema:"withItems"`
}
type ItemType string
const (
ItemTypeLocation ItemType = "location"
ItemTypeItem ItemType = "item"
)
type ItemPath struct {
Type ItemType `json:"type"`
ID uuid.UUID `json:"id"`
Name string `json:"name"`
}
func (r *LocationRepository) PathForLoc(ctx context.Context, groupID, locID uuid.UUID) ([]ItemPath, error) {
query := `WITH RECURSIVE location_path AS (
SELECT id, name, location_children
FROM locations
WHERE id = ? -- Replace ? with the ID of the item's location
AND group_locations = ? -- Replace ? with the ID of the group
UNION ALL
SELECT loc.id, loc.name, loc.location_children
FROM locations loc
JOIN location_path lp ON loc.id = lp.location_children
)
SELECT id, name
FROM location_path`
rows, err := r.db.Sql().QueryContext(ctx, query, locID, groupID)
if err != nil {
return nil, err
}
defer func() { _ = rows.Close() }()
var locations []ItemPath
for rows.Next() {
var location ItemPath
location.Type = ItemTypeLocation
if err := rows.Scan(&location.ID, &location.Name); err != nil {
return nil, err
}
locations = append(locations, location)
}
if err := rows.Err(); err != nil {
return nil, err
}
// Reverse the order of the locations so that the root is last
for i := len(locations)/2 - 1; i >= 0; i-- {
opp := len(locations) - 1 - i
locations[i], locations[opp] = locations[opp], locations[i]
}
return locations, nil
}
func (r *LocationRepository) Tree(ctx context.Context, groupID uuid.UUID, tq TreeQuery) ([]TreeItem, error) {
query := `
WITH recursive location_tree(id, NAME, parent_id, level, node_type) AS
(
SELECT id,
NAME,
location_children AS parent_id,
0 AS level,
'location' AS node_type
FROM locations
WHERE location_children IS NULL
AND group_locations = ?
UNION ALL
SELECT c.id,
c.NAME,
c.location_children AS parent_id,
level + 1,
'location' AS node_type
FROM locations c
JOIN location_tree p
ON c.location_children = p.id
WHERE level < 10 -- prevent infinite loop & excessive recursion
){{ WITH_ITEMS }}
SELECT id,
NAME,
level,
parent_id,
node_type
FROM (
SELECT *
FROM location_tree
{{ WITH_ITEMS_FROM }}
) tree
ORDER BY node_type DESC, -- sort locations before items
level,
lower(NAME)`
if tq.WithItems {
itemQuery := `, item_tree(id, NAME, parent_id, level, node_type) AS
(
SELECT id,
NAME,
location_items as parent_id,
0 AS level,
'item' AS node_type
FROM items
WHERE item_children IS NULL
AND location_items IN (SELECT id FROM location_tree)
UNION ALL
SELECT c.id,
c.NAME,
c.item_children AS parent_id,
level + 1,
'item' AS node_type
FROM items c
JOIN item_tree p
ON c.item_children = p.id
WHERE c.item_children IS NOT NULL
AND level < 10 -- prevent infinite loop & excessive recursion
)`
// Conditional table joined to main query
itemsFrom := `
UNION ALL
SELECT *
FROM item_tree`
query = strings.ReplaceAll(query, "{{ WITH_ITEMS }}", itemQuery)
query = strings.ReplaceAll(query, "{{ WITH_ITEMS_FROM }}", itemsFrom)
} else {
query = strings.ReplaceAll(query, "{{ WITH_ITEMS }}", "")
query = strings.ReplaceAll(query, "{{ WITH_ITEMS_FROM }}", "")
}
rows, err := r.db.Sql().QueryContext(ctx, query, groupID)
if err != nil {
return nil, err
}
defer func() { _ = rows.Close() }()
var locations []FlatTreeItem
for rows.Next() {
var location FlatTreeItem
if err := rows.Scan(&location.ID, &location.Name, &location.Level, &location.ParentID, &location.Type); err != nil {
return nil, err
}
locations = append(locations, location)
}
if err := rows.Err(); err != nil {
return nil, err
}
return ConvertLocationsToTree(locations), nil
}
func ConvertLocationsToTree(locations []FlatTreeItem) []TreeItem {
locationMap := make(map[uuid.UUID]*TreeItem, len(locations))
var rootIds []uuid.UUID
for _, location := range locations {
loc := &TreeItem{
ID: location.ID,
Name: location.Name,
Type: location.Type,
Children: []*TreeItem{},
}
locationMap[location.ID] = loc
if location.ParentID != uuid.Nil {
parent, ok := locationMap[location.ParentID]
if ok {
parent.Children = append(parent.Children, loc)
}
} else {
rootIds = append(rootIds, location.ID)
}
}
roots := make([]TreeItem, 0, len(rootIds))
for _, id := range rootIds {
roots = append(roots, *locationMap[id])
}
return roots
}