469 lines
13 KiB
Go
469 lines
13 KiB
Go
package overlap
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import (
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"fmt"
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"sort"
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"strings"
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"gitea.maximumdirect.net/eric/seriatim/internal/model"
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)
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// ResolutionSummary records deterministic counters for a resolve-overlaps pass.
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type ResolutionSummary struct {
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GroupsProcessed int
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GroupsChanged int
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OriginalsRemoved int
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ReplacementsCreated int
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}
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// Resolve replaces detected overlap-group segments with word-run segments when
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// word-level timing is available.
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func Resolve(in model.MergedTranscript, wordRunGap float64, wordRunReorderWindow float64, contextWindow float64) (model.MergedTranscript, ResolutionSummary, error) {
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summary := ResolutionSummary{
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GroupsProcessed: len(in.OverlapGroups),
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}
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if len(in.OverlapGroups) == 0 {
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return in, summary, nil
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}
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refToIndex := make(map[string]int, len(in.Segments))
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for index, segment := range in.Segments {
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refToIndex[SegmentRef(segment)] = index
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}
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overlapRefs := make(map[string]struct{})
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for _, group := range in.OverlapGroups {
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for _, ref := range group.Segments {
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overlapRefs[ref] = struct{}{}
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}
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}
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removeRefs := make(map[string]struct{})
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clearAnnotationRefs := make(map[string]struct{})
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removeGroupIDs := make(map[int]struct{})
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replacements := make([]model.Segment, 0)
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replacementOrder := make(map[string]replacementOrder)
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for _, group := range in.OverlapGroups {
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resolved, err := resolveGroup(in, group, refToIndex, overlapRefs, wordRunGap, wordRunReorderWindow, contextWindow)
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if err != nil {
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return model.MergedTranscript{}, ResolutionSummary{}, err
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}
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if len(resolved.replacements) == 0 {
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continue
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}
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summary.GroupsChanged++
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removeGroupIDs[group.ID] = struct{}{}
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replacements = append(replacements, resolved.replacements...)
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for sourceRef, order := range resolved.replacementOrder {
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replacementOrder[sourceRef] = order
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}
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for _, ref := range group.Segments {
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clearAnnotationRefs[ref] = struct{}{}
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}
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for _, ref := range resolved.removeRefs {
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if _, exists := removeRefs[ref]; !exists {
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summary.OriginalsRemoved++
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}
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removeRefs[ref] = struct{}{}
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}
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summary.ReplacementsCreated += len(resolved.replacements)
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}
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if summary.GroupsChanged == 0 {
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return in, summary, nil
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}
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segments := make([]model.Segment, 0, len(in.Segments)-len(removeRefs)+len(replacements))
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for _, segment := range in.Segments {
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ref := SegmentRef(segment)
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if _, remove := removeRefs[ref]; remove {
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continue
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}
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if _, clear := clearAnnotationRefs[ref]; clear {
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segment.OverlapGroupID = 0
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}
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segments = append(segments, segment)
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}
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segments = append(segments, replacements...)
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sort.SliceStable(segments, func(i, j int) bool {
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return resolvedSegmentLess(segments[i], segments[j], replacementOrder)
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})
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overlapGroups := make([]model.OverlapGroup, 0, len(in.OverlapGroups)-len(removeGroupIDs))
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for _, group := range in.OverlapGroups {
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if _, remove := removeGroupIDs[group.ID]; remove {
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continue
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}
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overlapGroups = append(overlapGroups, group)
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}
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return model.MergedTranscript{
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Segments: segments,
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OverlapGroups: overlapGroups,
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}, summary, nil
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}
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type resolvedGroup struct {
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removeRefs []string
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replacements []model.Segment
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replacementOrder map[string]replacementOrder
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}
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type replacementOrder struct {
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cluster string
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rank int
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anchor float64
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}
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type resolutionWord struct {
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word model.Word
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source string
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ref string
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sequence int
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}
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type wordRun struct {
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timedWords []resolutionWord
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untimedWords []resolutionWord
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start float64
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end float64
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}
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func resolveGroup(in model.MergedTranscript, group model.OverlapGroup, refToIndex map[string]int, overlapRefs map[string]struct{}, wordRunGap float64, wordRunReorderWindow float64, contextWindow float64) (resolvedGroup, error) {
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segmentsBySpeaker := make(map[string][]model.Segment)
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refsBySpeaker := make(map[string][]string)
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groupRefs := make(map[string]struct{}, len(group.Segments))
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groupSpeakers := make(map[string]struct{})
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for _, ref := range group.Segments {
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index, exists := refToIndex[ref]
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if !exists {
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return resolvedGroup{}, fmt.Errorf("overlap group %d references missing segment %q", group.ID, ref)
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}
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groupRefs[ref] = struct{}{}
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segment := in.Segments[index]
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groupSpeakers[segment.Speaker] = struct{}{}
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}
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expandedStart := group.Start - contextWindow
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expandedEnd := group.End + contextWindow
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for _, segment := range in.Segments {
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ref := SegmentRef(segment)
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if _, exists := groupRefs[ref]; !exists {
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if _, exists := overlapRefs[ref]; exists {
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continue
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}
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if _, exists := groupSpeakers[segment.Speaker]; !exists {
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continue
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}
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if !intervalIntersects(segment.Start, segment.End, expandedStart, expandedEnd) {
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continue
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}
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if !segmentNearGroupBoundary(segment, group, contextWindow) {
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continue
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}
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}
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segmentsBySpeaker[segment.Speaker] = append(segmentsBySpeaker[segment.Speaker], segment)
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refsBySpeaker[segment.Speaker] = append(refsBySpeaker[segment.Speaker], ref)
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}
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speakers := groupSpeakerOrder(group, segmentsBySpeaker)
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resolved := resolvedGroup{}
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for speakerIndex, speaker := range speakers {
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timedWords, untimedWords := gatherResolutionWords(segmentsBySpeaker[speaker])
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if len(timedWords) == 0 {
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continue
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}
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runs := buildWordRuns(timedWords, wordRunGap)
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if len(runs) == 0 {
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continue
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}
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attachUntimedWords(runs, untimedWords)
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resolved.removeRefs = append(resolved.removeRefs, refsBySpeaker[speaker]...)
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for runIndex, run := range runs {
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resolved.replacements = append(resolved.replacements, replacementSegment(group.ID, speakerIndex+1, runIndex+1, speaker, run))
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}
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}
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resolved.replacements, resolved.replacementOrder = reorderReplacementSegments(group.ID, resolved.replacements, wordRunReorderWindow)
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return resolved, nil
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}
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func intervalIntersects(start float64, end float64, windowStart float64, windowEnd float64) bool {
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return end > windowStart && start < windowEnd
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}
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func segmentNearGroupBoundary(segment model.Segment, group model.OverlapGroup, window float64) bool {
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return withinWindow(segment.Start, group.Start, window) ||
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withinWindow(segment.End, group.Start, window) ||
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withinWindow(segment.Start, group.End, window) ||
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withinWindow(segment.End, group.End, window)
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}
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func withinWindow(value float64, boundary float64, window float64) bool {
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diff := value - boundary
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if diff < 0 {
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diff = -diff
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}
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return diff <= window
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}
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func reorderReplacementSegments(groupID int, replacements []model.Segment, wordRunReorderWindow float64) ([]model.Segment, map[string]replacementOrder) {
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if len(replacements) == 0 {
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return replacements, nil
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}
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ordered := append([]model.Segment(nil), replacements...)
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sort.SliceStable(ordered, func(i, j int) bool {
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return model.SegmentLess(ordered[i], ordered[j])
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})
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ranks := make(map[string]replacementOrder, len(ordered))
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clusterStart := 0
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clusterIndex := 1
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for clusterStart < len(ordered) {
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clusterEnd := clusterStart + 1
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for clusterEnd < len(ordered) && ordered[clusterEnd].Start-ordered[clusterEnd-1].Start <= wordRunReorderWindow {
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clusterEnd++
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}
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cluster := ordered[clusterStart:clusterEnd]
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anchor := cluster[0].Start
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sort.SliceStable(cluster, func(i, j int) bool {
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leftDuration := cluster[i].End - cluster[i].Start
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rightDuration := cluster[j].End - cluster[j].Start
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if leftDuration != rightDuration {
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return leftDuration < rightDuration
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}
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return model.SegmentLess(cluster[i], cluster[j])
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})
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clusterKey := fmt.Sprintf("%d:%d", groupID, clusterIndex)
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for index := range cluster {
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ranks[cluster[index].SourceRef] = replacementOrder{
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cluster: clusterKey,
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rank: index,
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anchor: anchor,
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}
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}
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clusterStart = clusterEnd
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clusterIndex++
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}
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return ordered, ranks
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}
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func resolvedSegmentLess(left model.Segment, right model.Segment, replacementOrder map[string]replacementOrder) bool {
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leftOrder, leftHasOrder := replacementOrder[left.SourceRef]
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rightOrder, rightHasOrder := replacementOrder[right.SourceRef]
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if leftHasOrder && rightHasOrder && leftOrder.cluster == rightOrder.cluster && leftOrder.rank != rightOrder.rank {
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return leftOrder.rank < rightOrder.rank
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}
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leftStart := left.Start
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if leftHasOrder {
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leftStart = leftOrder.anchor
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}
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rightStart := right.Start
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if rightHasOrder {
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rightStart = rightOrder.anchor
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}
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if leftStart != rightStart {
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return leftStart < rightStart
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}
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return model.SegmentLess(left, right)
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}
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func groupSpeakerOrder(group model.OverlapGroup, segmentsBySpeaker map[string][]model.Segment) []string {
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seen := make(map[string]struct{}, len(group.Speakers))
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speakers := make([]string, 0, len(group.Speakers))
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for _, speaker := range group.Speakers {
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if _, exists := segmentsBySpeaker[speaker]; !exists {
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continue
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}
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if _, exists := seen[speaker]; exists {
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continue
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}
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seen[speaker] = struct{}{}
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speakers = append(speakers, speaker)
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}
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extra := make([]string, 0)
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for speaker := range segmentsBySpeaker {
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if _, exists := seen[speaker]; exists {
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continue
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}
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extra = append(extra, speaker)
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}
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sort.Strings(extra)
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speakers = append(speakers, extra...)
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return speakers
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}
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func gatherResolutionWords(segments []model.Segment) ([]resolutionWord, []resolutionWord) {
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timedWords := make([]resolutionWord, 0)
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untimedWords := make([]resolutionWord, 0)
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sequence := 0
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for _, segment := range segments {
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ref := SegmentRef(segment)
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for _, word := range segment.Words {
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candidate := resolutionWord{
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word: word,
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source: segment.Source,
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ref: ref,
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sequence: sequence,
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}
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sequence++
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if !word.Timed {
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untimedWords = append(untimedWords, candidate)
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continue
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}
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timedWords = append(timedWords, candidate)
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}
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}
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sort.SliceStable(timedWords, func(i, j int) bool {
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left := timedWords[i].word
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right := timedWords[j].word
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if left.Start != right.Start {
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return left.Start < right.Start
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}
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if left.End != right.End {
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return left.End < right.End
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}
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return left.Text < right.Text
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})
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return timedWords, untimedWords
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}
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func buildWordRuns(words []resolutionWord, wordRunGap float64) []wordRun {
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if len(words) == 0 {
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return nil
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}
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runs := make([]wordRun, 0)
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current := newWordRun(words[0])
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previousEnd := words[0].word.End
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for _, word := range words[1:] {
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if word.word.Start-previousEnd <= wordRunGap {
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current.add(word)
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} else {
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runs = append(runs, current.finish())
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current = newWordRun(word)
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}
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previousEnd = word.word.End
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}
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runs = append(runs, current.finish())
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return runs
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}
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func newWordRun(word resolutionWord) wordRun {
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return wordRun{
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timedWords: []resolutionWord{word},
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start: word.word.Start,
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end: word.word.End,
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}
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}
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func (r *wordRun) add(word resolutionWord) {
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r.timedWords = append(r.timedWords, word)
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if word.word.Start < r.start {
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r.start = word.word.Start
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}
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if word.word.End > r.end {
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r.end = word.word.End
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}
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}
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func (r wordRun) finish() wordRun {
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return r
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}
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func attachUntimedWords(runs []wordRun, untimedWords []resolutionWord) {
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if len(runs) == 0 || len(untimedWords) == 0 {
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return
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}
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for _, word := range untimedWords {
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target := 0
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for index, run := range runs {
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if word.sequence < run.firstSequence() {
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if index == 0 {
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target = 0
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} else {
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target = index - 1
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}
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break
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}
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target = index
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}
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runs[target].untimedWords = append(runs[target].untimedWords, word)
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}
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}
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func (r wordRun) firstSequence() int {
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first := r.timedWords[0].sequence
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for _, word := range r.timedWords[1:] {
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if word.sequence < first {
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first = word.sequence
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}
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}
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return first
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}
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func (r wordRun) allWordsInTextOrder() []resolutionWord {
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words := make([]resolutionWord, 0, len(r.timedWords)+len(r.untimedWords))
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words = append(words, r.timedWords...)
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words = append(words, r.untimedWords...)
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sort.SliceStable(words, func(i, j int) bool {
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return words[i].sequence < words[j].sequence
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})
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return words
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}
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func replacementSegment(groupID int, speakerIndex int, runIndex int, speaker string, run wordRun) model.Segment {
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orderedWords := run.allWordsInTextOrder()
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words := make([]model.Word, 0, len(orderedWords))
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text := make([]string, 0, len(orderedWords))
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refs := make([]string, 0, len(orderedWords))
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source := ""
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for _, word := range orderedWords {
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words = append(words, word.word)
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text = append(text, word.word.Text)
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refs = append(refs, word.ref)
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if source == "" {
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source = word.source
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} else if source != word.source {
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source = "derived"
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}
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}
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return model.Segment{
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Source: source,
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SourceRef: fmt.Sprintf("word-run:%d:%d:%d", groupID, speakerIndex, runIndex),
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DerivedFrom: uniqueSortedStrings(refs),
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Speaker: speaker,
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Start: run.start,
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End: run.end,
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Text: strings.Join(text, " "),
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Words: words,
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}
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}
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func uniqueSortedStrings(values []string) []string {
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seen := make(map[string]struct{}, len(values))
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unique := make([]string, 0, len(values))
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for _, value := range values {
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if _, exists := seen[value]; exists {
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continue
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}
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seen[value] = struct{}{}
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unique = append(unique, value)
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}
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sort.Strings(unique)
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return unique
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}
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