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Types ¶
type Indexer ¶
type Indexer interface { internal.Indexer Index(ctx context.Context, issue ...*IndexerData) error Delete(ctx context.Context, ids ...int64) error Search(ctx context.Context, options *SearchOptions) (*SearchResult, error) }
Indexer defines an interface to indexer issues contents
type IndexerData ¶
type IndexerData struct { ID int64 `json:"id"` RepoID int64 `json:"repo_id"` IsPublic bool `json:"is_public"` // If the repo is public // Fields used for keyword searching Title string `json:"title"` Content string `json:"content"` Comments []string `json:"comments"` // Fields used for filtering IsPull bool `json:"is_pull"` IsClosed bool `json:"is_closed"` LabelIDs []int64 `json:"label_ids"` NoLabel bool `json:"no_label"` // True if LabelIDs is empty MilestoneID int64 `json:"milestone_id"` ProjectID int64 `json:"project_id"` ProjectBoardID int64 `json:"project_board_id"` PosterID int64 `json:"poster_id"` AssigneeID int64 `json:"assignee_id"` MentionIDs []int64 `json:"mention_ids"` ReviewedIDs []int64 `json:"reviewed_ids"` ReviewRequestedIDs []int64 `json:"review_requested_ids"` SubscriberIDs []int64 `json:"subscriber_ids"` UpdatedUnix timeutil.TimeStamp `json:"updated_unix"` // Fields used for sorting // UpdatedUnix is both used for filtering and sorting. // ID is used for sorting too, to make the sorting stable. CreatedUnix timeutil.TimeStamp `json:"created_unix"` DeadlineUnix timeutil.TimeStamp `json:"deadline_unix"` CommentCount int64 `json:"comment_count"` }
IndexerData data stored in the issue indexer
type SearchOptions ¶
type SearchOptions struct { Keyword string // keyword to search IsFuzzyKeyword bool // if false the levenshtein distance is 0 RepoIDs []int64 // repository IDs which the issues belong to AllPublic bool // if include all public repositories IsPull optional.Option[bool] // if the issues is a pull request IsClosed optional.Option[bool] // if the issues is closed IncludedLabelIDs []int64 // labels the issues have ExcludedLabelIDs []int64 // labels the issues don't have IncludedAnyLabelIDs []int64 // labels the issues have at least one. It will be ignored if IncludedLabelIDs is not empty. It's an uncommon filter, but it has been supported accidentally by issues.IssuesOptions.IncludedLabelNames. NoLabelOnly bool // if the issues have no label, if true, IncludedLabelIDs and ExcludedLabelIDs, IncludedAnyLabelIDs will be ignored MilestoneIDs []int64 // milestones the issues have ProjectID optional.Option[int64] // project the issues belong to ProjectBoardID optional.Option[int64] // project board the issues belong to PosterID optional.Option[int64] // poster of the issues AssigneeID optional.Option[int64] // assignee of the issues, zero means no assignee MentionID optional.Option[int64] // mentioned user of the issues ReviewedID optional.Option[int64] // reviewer of the issues ReviewRequestedID optional.Option[int64] // requested reviewer of the issues SubscriberID optional.Option[int64] // subscriber of the issues UpdatedAfterUnix optional.Option[int64] UpdatedBeforeUnix optional.Option[int64] Paginator *db.ListOptions SortBy SortBy // sort by field }
SearchOptions represents search options.
It has a slightly different design from database query options. In database query options, a field is never a pointer, so it could be confusing when it's zero value: Do you want to find data with a field value of 0, or do you not specify the field in the options? To avoid this confusion, db introduced db.NoConditionID(-1). So zero value means the field is not specified in the search options, and db.NoConditionID means "== 0" or "id NOT IN (SELECT id FROM ...)" It's still not ideal, it trapped developers many times. And sometimes -1 could be a valid value, like issue ID, negative numbers indicate exclusion. Since db.NoConditionID is for "db" (the package name is db), it makes sense not to use it in the indexer: Why do bleve/elasticsearch/meilisearch indexers need to know about db.NoConditionID? So in SearchOptions, we use pointer for fields which could be not specified, and always use the value to filter if it's not nil, even if it's zero or negative. It can handle almost all cases, if there is an exception, we can add a new field, like NoLabelOnly. Unfortunately, we still use db for the indexer and have to convert between db.NoConditionID and nil for legacy reasons.
func (*SearchOptions) Copy ¶
func (o *SearchOptions) Copy(edit ...func(options *SearchOptions)) *SearchOptions
Copy returns a copy of the options. Be careful, it's not a deep copy, so `SearchOptions.RepoIDs = {...}` is OK while `SearchOptions.RepoIDs[0] = ...` is not.
type SearchResult ¶
SearchResult represents search results
type SortBy ¶
type SortBy string
const ( SortByCreatedDesc SortBy = "-created_unix" SortByUpdatedDesc SortBy = "-updated_unix" SortByCommentsDesc SortBy = "-comment_count" SortByDeadlineDesc SortBy = "-deadline_unix" SortByCreatedAsc SortBy = "created_unix" SortByUpdatedAsc SortBy = "updated_unix" SortByCommentsAsc SortBy = "comment_count" SortByDeadlineAsc SortBy = "deadline_unix" )