// Package types defines core data structures for the bd issue tracker. package types import ( "crypto/sha256" "fmt" "strings" "time" ) // Issue represents a trackable work item type Issue struct { ID string `json:"id"` ContentHash string `json:"-"` // Internal: SHA256 hash of canonical content (excludes ID, timestamps) - NOT exported to JSONL Title string `json:"title"` Description string `json:"description,omitempty"` Design string `json:"design,omitempty"` AcceptanceCriteria string `json:"acceptance_criteria,omitempty"` Notes string `json:"notes,omitempty"` Status Status `json:"status,omitempty"` Priority int `json:"priority"` // No omitempty: 0 is valid (P0/critical) IssueType IssueType `json:"issue_type,omitempty"` Assignee string `json:"assignee,omitempty"` EstimatedMinutes *int `json:"estimated_minutes,omitempty"` CreatedAt time.Time `json:"created_at"` UpdatedAt time.Time `json:"updated_at"` ClosedAt *time.Time `json:"closed_at,omitempty"` CloseReason string `json:"close_reason,omitempty"` // Reason provided when closing the issue ExternalRef *string `json:"external_ref,omitempty"` // e.g., "gh-9", "jira-ABC" CompactionLevel int `json:"compaction_level,omitempty"` CompactedAt *time.Time `json:"compacted_at,omitempty"` CompactedAtCommit *string `json:"compacted_at_commit,omitempty"` // Git commit hash when compacted OriginalSize int `json:"original_size,omitempty"` SourceRepo string `json:"-"` // Internal: Which repo owns this issue (multi-repo support) - NOT exported to JSONL IDPrefix string `json:"-"` // Internal: Override prefix for ID generation (bd-hobo) - NOT exported to JSONL Labels []string `json:"labels,omitempty"` // Populated only for export/import Dependencies []*Dependency `json:"dependencies,omitempty"` // Populated only for export/import Comments []*Comment `json:"comments,omitempty"` // Populated only for export/import // Tombstone fields (bd-vw8): inline soft-delete support DeletedAt *time.Time `json:"deleted_at,omitempty"` // When the issue was deleted DeletedBy string `json:"deleted_by,omitempty"` // Who deleted the issue DeleteReason string `json:"delete_reason,omitempty"` // Why the issue was deleted OriginalType string `json:"original_type,omitempty"` // Issue type before deletion (for tombstones) // Messaging fields (bd-kwro): inter-agent communication support Sender string `json:"sender,omitempty"` // Who sent this (for messages) Wisp bool `json:"wisp,omitempty"` // Wisp = ephemeral vapor from the Steam Engine; bulk-deleted when closed // NOTE: RepliesTo, RelatesTo, DuplicateOf, SupersededBy moved to dependencies table // per Decision 004 (Edge Schema Consolidation). Use dependency API instead. // Pinned field (bd-7h5): persistent context markers Pinned bool `json:"pinned,omitempty"` // If true, issue is a persistent context marker, not a work item // Template field (beads-1ra): template molecule support IsTemplate bool `json:"is_template,omitempty"` // If true, issue is a read-only template molecule // Bonding fields (bd-rnnr): compound molecule lineage BondedFrom []BondRef `json:"bonded_from,omitempty"` // For compounds: constituent protos // HOP fields (bd-7pwh): entity tracking for CV chains Creator *EntityRef `json:"creator,omitempty"` // Who created this issue (human, agent, or org) Validations []Validation `json:"validations,omitempty"` // Who validated/approved this work // Gate fields (bd-udsi): async coordination primitives AwaitType string `json:"await_type,omitempty"` // Condition type: gh:run, gh:pr, timer, human, mail AwaitID string `json:"await_id,omitempty"` // Condition identifier (e.g., run ID, PR number) Timeout time.Duration `json:"timeout,omitempty"` // Max wait time before escalation Waiters []string `json:"waiters,omitempty"` // Mail addresses to notify when gate clears // Source tracing fields (gt-8tmz.18): track where this issue came from during cooking SourceFormula string `json:"source_formula,omitempty"` // Formula name where this step was defined SourceLocation string `json:"source_location,omitempty"` // Path within source: "steps[0]", "advice[0].after" } // ComputeContentHash creates a deterministic hash of the issue's content. // Uses all substantive fields (excluding ID, timestamps, and compaction metadata) // to ensure that identical content produces identical hashes across all clones. func (i *Issue) ComputeContentHash() string { h := sha256.New() // Hash all substantive fields in a stable order h.Write([]byte(i.Title)) h.Write([]byte{0}) // separator h.Write([]byte(i.Description)) h.Write([]byte{0}) h.Write([]byte(i.Design)) h.Write([]byte{0}) h.Write([]byte(i.AcceptanceCriteria)) h.Write([]byte{0}) h.Write([]byte(i.Notes)) h.Write([]byte{0}) h.Write([]byte(i.Status)) h.Write([]byte{0}) h.Write([]byte(fmt.Sprintf("%d", i.Priority))) h.Write([]byte{0}) h.Write([]byte(i.IssueType)) h.Write([]byte{0}) h.Write([]byte(i.Assignee)) h.Write([]byte{0}) if i.ExternalRef != nil { h.Write([]byte(*i.ExternalRef)) } h.Write([]byte{0}) if i.Pinned { h.Write([]byte("pinned")) } h.Write([]byte{0}) if i.IsTemplate { h.Write([]byte("template")) } h.Write([]byte{0}) // Hash bonded_from for compound molecules (bd-rnnr) for _, br := range i.BondedFrom { h.Write([]byte(br.ProtoID)) h.Write([]byte{0}) h.Write([]byte(br.BondType)) h.Write([]byte{0}) h.Write([]byte(br.BondPoint)) h.Write([]byte{0}) } // Hash creator for HOP entity tracking (bd-m7ib) if i.Creator != nil { h.Write([]byte(i.Creator.Name)) h.Write([]byte{0}) h.Write([]byte(i.Creator.Platform)) h.Write([]byte{0}) h.Write([]byte(i.Creator.Org)) h.Write([]byte{0}) h.Write([]byte(i.Creator.ID)) h.Write([]byte{0}) } // Hash validations for HOP proof-of-stake (bd-du9h) for _, v := range i.Validations { if v.Validator != nil { h.Write([]byte(v.Validator.Name)) h.Write([]byte{0}) h.Write([]byte(v.Validator.Platform)) h.Write([]byte{0}) h.Write([]byte(v.Validator.Org)) h.Write([]byte{0}) h.Write([]byte(v.Validator.ID)) h.Write([]byte{0}) } h.Write([]byte(v.Outcome)) h.Write([]byte{0}) h.Write([]byte(v.Timestamp.Format(time.RFC3339))) h.Write([]byte{0}) if v.Score != nil { h.Write([]byte(fmt.Sprintf("%f", *v.Score))) } h.Write([]byte{0}) } // Hash gate fields for async coordination (bd-udsi) h.Write([]byte(i.AwaitType)) h.Write([]byte{0}) h.Write([]byte(i.AwaitID)) h.Write([]byte{0}) h.Write([]byte(fmt.Sprintf("%d", i.Timeout))) h.Write([]byte{0}) for _, waiter := range i.Waiters { h.Write([]byte(waiter)) h.Write([]byte{0}) } return fmt.Sprintf("%x", h.Sum(nil)) } // DefaultTombstoneTTL is the default time-to-live for tombstones (30 days) const DefaultTombstoneTTL = 30 * 24 * time.Hour // MinTombstoneTTL is the minimum allowed TTL (7 days) to prevent data loss const MinTombstoneTTL = 7 * 24 * time.Hour // ClockSkewGrace is added to TTL to handle clock drift between machines const ClockSkewGrace = 1 * time.Hour // IsTombstone returns true if the issue has been soft-deleted (bd-vw8) func (i *Issue) IsTombstone() bool { return i.Status == StatusTombstone } // IsExpired returns true if the tombstone has exceeded its TTL. // Non-tombstone issues always return false. // ttl is the configured TTL duration: // - If zero, DefaultTombstoneTTL (30 days) is used // - If negative, the tombstone is immediately expired (for --hard mode) // - If positive, ClockSkewGrace is added only for TTLs > 1 hour func (i *Issue) IsExpired(ttl time.Duration) bool { // Non-tombstones never expire if !i.IsTombstone() { return false } // Tombstones without DeletedAt are not expired (safety: shouldn't happen in valid data) if i.DeletedAt == nil { return false } // Negative TTL means "immediately expired" - for --hard mode (bd-4q8 fix) if ttl < 0 { return true } // Use default TTL if not specified if ttl == 0 { ttl = DefaultTombstoneTTL } // Only add clock skew grace period for normal TTLs (> 1 hour). // For short TTLs (testing/development), skip grace period. effectiveTTL := ttl if ttl > ClockSkewGrace { effectiveTTL = ttl + ClockSkewGrace } // Check if the tombstone has exceeded its TTL expirationTime := i.DeletedAt.Add(effectiveTTL) return time.Now().After(expirationTime) } // Validate checks if the issue has valid field values (built-in statuses only) func (i *Issue) Validate() error { return i.ValidateWithCustomStatuses(nil) } // ValidateWithCustomStatuses checks if the issue has valid field values, // allowing custom statuses in addition to built-in ones. func (i *Issue) ValidateWithCustomStatuses(customStatuses []string) error { if len(i.Title) == 0 { return fmt.Errorf("title is required") } if len(i.Title) > 500 { return fmt.Errorf("title must be 500 characters or less (got %d)", len(i.Title)) } if i.Priority < 0 || i.Priority > 4 { return fmt.Errorf("priority must be between 0 and 4 (got %d)", i.Priority) } if !i.Status.IsValidWithCustom(customStatuses) { return fmt.Errorf("invalid status: %s", i.Status) } if !i.IssueType.IsValid() { return fmt.Errorf("invalid issue type: %s", i.IssueType) } if i.EstimatedMinutes != nil && *i.EstimatedMinutes < 0 { return fmt.Errorf("estimated_minutes cannot be negative") } // Enforce closed_at invariant: closed_at should be set if and only if status is closed if i.Status == StatusClosed && i.ClosedAt == nil { return fmt.Errorf("closed issues must have closed_at timestamp") } if i.Status != StatusClosed && i.ClosedAt != nil { return fmt.Errorf("non-closed issues cannot have closed_at timestamp") } // Enforce tombstone invariants (bd-md2): deleted_at must be set for tombstones, and only for tombstones if i.Status == StatusTombstone && i.DeletedAt == nil { return fmt.Errorf("tombstone issues must have deleted_at timestamp") } if i.Status != StatusTombstone && i.DeletedAt != nil { return fmt.Errorf("non-tombstone issues cannot have deleted_at timestamp") } return nil } // SetDefaults applies default values for fields omitted during JSONL import. // Call this after json.Unmarshal to ensure missing fields have proper defaults: // - Status: defaults to StatusOpen if empty // - Priority: defaults to 2 if zero (note: P0 issues must explicitly set priority=0) // - IssueType: defaults to TypeTask if empty // // This enables smaller JSONL output by using omitempty on these fields. func (i *Issue) SetDefaults() { if i.Status == "" { i.Status = StatusOpen } // Note: priority 0 (P0) is a valid value, so we can't distinguish between // "explicitly set to 0" and "omitted". For JSONL compactness, we treat // priority 0 in JSONL as P0, not as "use default". This is the expected // behavior since P0 issues are explicitly marked. // Priority default of 2 only applies to new issues via Create, not import. if i.IssueType == "" { i.IssueType = TypeTask } } // Status represents the current state of an issue type Status string // Issue status constants const ( StatusOpen Status = "open" StatusInProgress Status = "in_progress" StatusBlocked Status = "blocked" StatusDeferred Status = "deferred" // Deliberately put on ice for later (bd-4jr) StatusClosed Status = "closed" StatusTombstone Status = "tombstone" // Soft-deleted issue (bd-vw8) StatusPinned Status = "pinned" // Persistent bead that stays open indefinitely (bd-6v2) ) // IsValid checks if the status value is valid (built-in statuses only) func (s Status) IsValid() bool { switch s { case StatusOpen, StatusInProgress, StatusBlocked, StatusDeferred, StatusClosed, StatusTombstone, StatusPinned: return true } return false } // IsValidWithCustom checks if the status is valid, including custom statuses. // Custom statuses are user-defined via bd config set status.custom "status1,status2,..." func (s Status) IsValidWithCustom(customStatuses []string) bool { // First check built-in statuses if s.IsValid() { return true } // Then check custom statuses for _, custom := range customStatuses { if string(s) == custom { return true } } return false } // IssueType categorizes the kind of work type IssueType string // Issue type constants const ( TypeBug IssueType = "bug" TypeFeature IssueType = "feature" TypeTask IssueType = "task" TypeEpic IssueType = "epic" TypeChore IssueType = "chore" TypeMessage IssueType = "message" // Ephemeral communication between workers TypeMergeRequest IssueType = "merge-request" // Merge queue entry for refinery processing TypeMolecule IssueType = "molecule" // Template molecule for issue hierarchies (beads-1ra) TypeGate IssueType = "gate" // Async coordination gate (bd-udsi) ) // IsValid checks if the issue type value is valid func (t IssueType) IsValid() bool { switch t { case TypeBug, TypeFeature, TypeTask, TypeEpic, TypeChore, TypeMessage, TypeMergeRequest, TypeMolecule, TypeGate: return true } return false } // Dependency represents a relationship between issues type Dependency struct { IssueID string `json:"issue_id"` DependsOnID string `json:"depends_on_id"` Type DependencyType `json:"type"` CreatedAt time.Time `json:"created_at"` CreatedBy string `json:"created_by,omitempty"` // Metadata contains type-specific edge data (JSON blob) // Examples: similarity scores, approval details, skill proficiency Metadata string `json:"metadata,omitempty"` // ThreadID groups conversation edges for efficient thread queries // For replies-to edges, this identifies the conversation root ThreadID string `json:"thread_id,omitempty"` } // DependencyCounts holds counts for dependencies and dependents type DependencyCounts struct { DependencyCount int `json:"dependency_count"` // Number of issues this issue depends on DependentCount int `json:"dependent_count"` // Number of issues that depend on this issue } // IssueWithDependencyMetadata extends Issue with dependency relationship type // Note: We explicitly include all Issue fields to ensure proper JSON marshaling type IssueWithDependencyMetadata struct { Issue DependencyType DependencyType `json:"dependency_type"` } // IssueWithCounts extends Issue with dependency relationship counts type IssueWithCounts struct { *Issue DependencyCount int `json:"dependency_count"` DependentCount int `json:"dependent_count"` } // DependencyType categorizes the relationship type DependencyType string // Dependency type constants const ( // Workflow types (affect ready work calculation) DepBlocks DependencyType = "blocks" DepParentChild DependencyType = "parent-child" DepConditionalBlocks DependencyType = "conditional-blocks" // B runs only if A fails (bd-kzda) DepWaitsFor DependencyType = "waits-for" // Fanout gate: wait for dynamic children (bd-xo1o.2) // Association types DepRelated DependencyType = "related" DepDiscoveredFrom DependencyType = "discovered-from" // Graph link types (bd-kwro) DepRepliesTo DependencyType = "replies-to" // Conversation threading DepRelatesTo DependencyType = "relates-to" // Loose knowledge graph edges DepDuplicates DependencyType = "duplicates" // Deduplication link DepSupersedes DependencyType = "supersedes" // Version chain link // Entity types (HOP foundation - Decision 004) DepAuthoredBy DependencyType = "authored-by" // Creator relationship DepAssignedTo DependencyType = "assigned-to" // Assignment relationship DepApprovedBy DependencyType = "approved-by" // Approval relationship ) // IsValid checks if the dependency type value is valid. // Accepts any non-empty string up to 50 characters. // Use IsWellKnown() to check if it's a built-in type. func (d DependencyType) IsValid() bool { return len(d) > 0 && len(d) <= 50 } // IsWellKnown checks if the dependency type is a well-known constant. // Returns false for custom/user-defined types (which are still valid). func (d DependencyType) IsWellKnown() bool { switch d { case DepBlocks, DepParentChild, DepConditionalBlocks, DepWaitsFor, DepRelated, DepDiscoveredFrom, DepRepliesTo, DepRelatesTo, DepDuplicates, DepSupersedes, DepAuthoredBy, DepAssignedTo, DepApprovedBy: return true } return false } // AffectsReadyWork returns true if this dependency type blocks work. // Only blocking types affect the ready work calculation. func (d DependencyType) AffectsReadyWork() bool { return d == DepBlocks || d == DepParentChild || d == DepConditionalBlocks || d == DepWaitsFor } // WaitsForMeta holds metadata for waits-for dependencies (fanout gates). // Stored as JSON in the Dependency.Metadata field. type WaitsForMeta struct { // Gate type: "all-children" (wait for all), "any-children" (wait for first) Gate string `json:"gate"` // SpawnerID identifies which step/issue spawns the children to wait for. // If empty, waits for all direct children of the depends_on_id issue. SpawnerID string `json:"spawner_id,omitempty"` } // WaitsForGate constants const ( WaitsForAllChildren = "all-children" // Wait for all dynamic children to complete WaitsForAnyChildren = "any-children" // Proceed when first child completes (future) ) // FailureCloseKeywords are keywords that indicate an issue was closed due to failure. // Used by conditional-blocks dependencies to determine if the condition is met. var FailureCloseKeywords = []string{ "failed", "rejected", "wontfix", "won't fix", "canceled", "cancelled", //nolint:misspell // British spelling intentionally included "abandoned", "blocked", "error", "timeout", "aborted", } // IsFailureClose returns true if the close reason indicates the issue failed. // This is used by conditional-blocks dependencies: B runs only if A fails. // A "failure" close reason contains one of the FailureCloseKeywords (case-insensitive). func IsFailureClose(closeReason string) bool { if closeReason == "" { return false } lower := strings.ToLower(closeReason) for _, keyword := range FailureCloseKeywords { if strings.Contains(lower, keyword) { return true } } return false } // Label represents a tag on an issue type Label struct { IssueID string `json:"issue_id"` Label string `json:"label"` } // Comment represents a comment on an issue type Comment struct { ID int64 `json:"id"` IssueID string `json:"issue_id"` Author string `json:"author"` Text string `json:"text"` CreatedAt time.Time `json:"created_at"` } // Event represents an audit trail entry type Event struct { ID int64 `json:"id"` IssueID string `json:"issue_id"` EventType EventType `json:"event_type"` Actor string `json:"actor"` OldValue *string `json:"old_value,omitempty"` NewValue *string `json:"new_value,omitempty"` Comment *string `json:"comment,omitempty"` CreatedAt time.Time `json:"created_at"` } // EventType categorizes audit trail events type EventType string // Event type constants for audit trail const ( EventCreated EventType = "created" EventUpdated EventType = "updated" EventStatusChanged EventType = "status_changed" EventCommented EventType = "commented" EventClosed EventType = "closed" EventReopened EventType = "reopened" EventDependencyAdded EventType = "dependency_added" EventDependencyRemoved EventType = "dependency_removed" EventLabelAdded EventType = "label_added" EventLabelRemoved EventType = "label_removed" EventCompacted EventType = "compacted" ) // BlockedIssue extends Issue with blocking information type BlockedIssue struct { Issue BlockedByCount int `json:"blocked_by_count"` BlockedBy []string `json:"blocked_by"` } // TreeNode represents a node in a dependency tree type TreeNode struct { Issue Depth int `json:"depth"` ParentID string `json:"parent_id"` Truncated bool `json:"truncated"` } // Statistics provides aggregate metrics type Statistics struct { TotalIssues int `json:"total_issues"` OpenIssues int `json:"open_issues"` InProgressIssues int `json:"in_progress_issues"` ClosedIssues int `json:"closed_issues"` BlockedIssues int `json:"blocked_issues"` DeferredIssues int `json:"deferred_issues"` // Issues on ice (bd-4jr) ReadyIssues int `json:"ready_issues"` TombstoneIssues int `json:"tombstone_issues"` // Soft-deleted issues (bd-nyt) PinnedIssues int `json:"pinned_issues"` // Persistent issues (bd-6v2) EpicsEligibleForClosure int `json:"epics_eligible_for_closure"` AverageLeadTime float64 `json:"average_lead_time_hours"` } // IssueFilter is used to filter issue queries type IssueFilter struct { Status *Status Priority *int IssueType *IssueType Assignee *string Labels []string // AND semantics: issue must have ALL these labels LabelsAny []string // OR semantics: issue must have AT LEAST ONE of these labels TitleSearch string IDs []string // Filter by specific issue IDs Limit int // Pattern matching TitleContains string DescriptionContains string NotesContains string // Date ranges CreatedAfter *time.Time CreatedBefore *time.Time UpdatedAfter *time.Time UpdatedBefore *time.Time ClosedAfter *time.Time ClosedBefore *time.Time // Empty/null checks EmptyDescription bool NoAssignee bool NoLabels bool // Numeric ranges PriorityMin *int PriorityMax *int // Tombstone filtering (bd-1bu) IncludeTombstones bool // If false (default), exclude tombstones from results // Wisp filtering (bd-kwro.9) Wisp *bool // Filter by wisp flag (nil = any, true = only wisps, false = only non-wisps) // Pinned filtering (bd-7h5) Pinned *bool // Filter by pinned flag (nil = any, true = only pinned, false = only non-pinned) // Template filtering (beads-1ra) IsTemplate *bool // Filter by template flag (nil = any, true = only templates, false = exclude templates) // Parent filtering (bd-yqhh): filter children by parent issue ID ParentID *string // Filter by parent issue (via parent-child dependency) } // SortPolicy determines how ready work is ordered type SortPolicy string // Sort policy constants const ( // SortPolicyHybrid prioritizes recent issues by priority, older by age // Recent = created within 48 hours // This is the default for backwards compatibility SortPolicyHybrid SortPolicy = "hybrid" // SortPolicyPriority always sorts by priority first, then creation date // Use for autonomous execution, CI/CD, priority-driven workflows SortPolicyPriority SortPolicy = "priority" // SortPolicyOldest always sorts by creation date (oldest first) // Use for backlog clearing, preventing issue starvation SortPolicyOldest SortPolicy = "oldest" ) // IsValid checks if the sort policy value is valid func (s SortPolicy) IsValid() bool { switch s { case SortPolicyHybrid, SortPolicyPriority, SortPolicyOldest, "": return true } return false } // WorkFilter is used to filter ready work queries type WorkFilter struct { Status Status Type string // Filter by issue type (task, bug, feature, epic, merge-request, etc.) Priority *int Assignee *string Unassigned bool // Filter for issues with no assignee Labels []string // AND semantics: issue must have ALL these labels LabelsAny []string // OR semantics: issue must have AT LEAST ONE of these labels Limit int SortPolicy SortPolicy } // StaleFilter is used to filter stale issue queries type StaleFilter struct { Days int // Issues not updated in this many days Status string // Filter by status (open|in_progress|blocked), empty = all non-closed Limit int // Maximum issues to return } // EpicStatus represents an epic with its completion status type EpicStatus struct { Epic *Issue `json:"epic"` TotalChildren int `json:"total_children"` ClosedChildren int `json:"closed_children"` EligibleForClose bool `json:"eligible_for_close"` } // BondRef tracks compound molecule lineage (bd-rnnr). // When protos or molecules are bonded together, BondRefs record // which sources were combined and how they were attached. type BondRef struct { ProtoID string `json:"proto_id"` // Source proto/molecule ID BondType string `json:"bond_type"` // sequential, parallel, conditional BondPoint string `json:"bond_point,omitempty"` // Attachment site (issue ID or empty for root) } // Bond type constants for compound molecules const ( BondTypeSequential = "sequential" // B runs after A completes BondTypeParallel = "parallel" // B runs alongside A BondTypeConditional = "conditional" // B runs only if A fails BondTypeRoot = "root" // Marks the primary/root component ) // IsCompound returns true if this issue is a compound (bonded from multiple sources). func (i *Issue) IsCompound() bool { return len(i.BondedFrom) > 0 } // GetConstituents returns the BondRefs for this compound's constituent protos. // Returns nil for non-compound issues. func (i *Issue) GetConstituents() []BondRef { return i.BondedFrom } // EntityRef is a structured reference to an entity (human, agent, or org). // This is the foundation for HOP entity tracking and CV chains. // Can be rendered as a URI: entity://hop/// // // Example usage: // // ref := &EntityRef{ // Name: "polecat/Nux", // Platform: "gastown", // Org: "steveyegge", // ID: "polecat-nux", // } // uri := ref.URI() // "entity://hop/gastown/steveyegge/polecat-nux" type EntityRef struct { // Name is the human-readable identifier (e.g., "polecat/Nux", "mayor") Name string `json:"name,omitempty"` // Platform identifies the execution context (e.g., "gastown", "github") Platform string `json:"platform,omitempty"` // Org identifies the organization (e.g., "steveyegge", "anthropics") Org string `json:"org,omitempty"` // ID is the unique identifier within the platform/org (e.g., "polecat-nux") ID string `json:"id,omitempty"` } // IsEmpty returns true if all fields are empty. func (e *EntityRef) IsEmpty() bool { if e == nil { return true } return e.Name == "" && e.Platform == "" && e.Org == "" && e.ID == "" } // URI returns the entity as a HOP URI. // Format: entity://hop/// // Returns empty string if Platform, Org, or ID is missing. func (e *EntityRef) URI() string { if e == nil || e.Platform == "" || e.Org == "" || e.ID == "" { return "" } return fmt.Sprintf("entity://hop/%s/%s/%s", e.Platform, e.Org, e.ID) } // String returns a human-readable representation. // Prefers Name if set, otherwise returns URI or ID. func (e *EntityRef) String() string { if e == nil { return "" } if e.Name != "" { return e.Name } if uri := e.URI(); uri != "" { return uri } return e.ID } // Validation records who validated/approved work completion. // This is core to HOP's proof-of-stake concept - validators stake // their reputation on approvals. type Validation struct { // Validator is who approved/rejected the work Validator *EntityRef `json:"validator"` // Outcome is the validation result: accepted, rejected, revision_requested Outcome string `json:"outcome"` // Timestamp is when the validation occurred Timestamp time.Time `json:"timestamp"` // Score is an optional quality score (0.0-1.0) Score *float32 `json:"score,omitempty"` } // Validation outcome constants const ( ValidationAccepted = "accepted" ValidationRejected = "rejected" ValidationRevisionRequested = "revision_requested" ) // IsValidOutcome checks if the outcome is a known validation outcome. func (v *Validation) IsValidOutcome() bool { switch v.Outcome { case ValidationAccepted, ValidationRejected, ValidationRevisionRequested: return true } return false } // ParseEntityURI parses a HOP entity URI into an EntityRef. // Format: entity://hop/// // Returns nil and error if the URI is invalid. func ParseEntityURI(uri string) (*EntityRef, error) { const prefix = "entity://hop/" if !strings.HasPrefix(uri, prefix) { return nil, fmt.Errorf("invalid entity URI: must start with %q", prefix) } rest := uri[len(prefix):] parts := strings.SplitN(rest, "/", 3) if len(parts) != 3 || parts[0] == "" || parts[1] == "" || parts[2] == "" { return nil, fmt.Errorf("invalid entity URI: expected entity://hop///, got %q", uri) } return &EntityRef{ Platform: parts[0], Org: parts[1], ID: parts[2], }, nil }