2025-11-03 17:33:37 +00:00
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package poindexter
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// Helper builders for KDTree points with min-max normalization, optional inversion per-axis,
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// and per-axis weights. These are convenience utilities to make it easy to map domain
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// records into KD space for 2D/3D/4D use-cases.
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2025-11-03 18:36:09 +00:00
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// AxisStats holds the min/max observed for a single axis.
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type AxisStats struct {
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Min float64
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Max float64
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}
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// NormStats holds per-axis normalisation statistics.
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// For D dimensions, Stats has length D.
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type NormStats struct {
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Stats []AxisStats
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}
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2025-11-03 17:33:37 +00:00
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// minMax returns (min,max) of a slice.
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func minMax(xs []float64) (float64, float64) {
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if len(xs) == 0 {
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return 0, 0
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}
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mn, mx := xs[0], xs[0]
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for _, v := range xs[1:] {
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if v < mn {
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mn = v
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}
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if v > mx {
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mx = v
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}
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}
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return mn, mx
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}
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// scale01 maps v from [min,max] to [0,1]. If min==max, returns 0.
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func scale01(v, min, max float64) float64 {
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if max == min {
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return 0
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}
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return (v - min) / (max - min)
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}
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2025-11-03 18:36:09 +00:00
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// ComputeNormStats2D computes per-axis min/max for two features.
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func ComputeNormStats2D[T any](items []T, f1, f2 func(T) float64) NormStats {
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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return NormStats{Stats: []AxisStats{{mn1, mx1}, {mn2, mx2}}}
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}
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// ComputeNormStats3D computes per-axis min/max for three features.
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func ComputeNormStats3D[T any](items []T, f1, f2, f3 func(T) float64) NormStats {
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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vals3 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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vals3[i] = f3(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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mn3, mx3 := minMax(vals3)
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return NormStats{Stats: []AxisStats{{mn1, mx1}, {mn2, mx2}, {mn3, mx3}}}
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}
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// ComputeNormStats4D computes per-axis min/max for four features.
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func ComputeNormStats4D[T any](items []T, f1, f2, f3, f4 func(T) float64) NormStats {
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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vals3 := make([]float64, len(items))
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vals4 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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vals3[i] = f3(it)
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vals4[i] = f4(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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mn3, mx3 := minMax(vals3)
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mn4, mx4 := minMax(vals4)
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return NormStats{Stats: []AxisStats{{mn1, mx1}, {mn2, mx2}, {mn3, mx3}, {mn4, mx4}}}
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}
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2025-11-03 17:33:37 +00:00
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// Build2D constructs normalized-and-weighted KD points from items using two feature extractors.
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// - id: function to provide a stable string ID (can return "" if you don't need DeleteByID)
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// - f1,f2: feature extractors (raw values)
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// - weights: per-axis weights applied after normalization
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// - invert: per-axis flags; if true, the axis is inverted (1-norm) so that higher raw values become lower cost
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func Build2D[T any](items []T, id func(T) string, f1, f2 func(T) float64, weights [2]float64, invert [2]bool) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(vals1[i], mn1, mx1)
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n2 := scale01(vals2[i], mn2, mx2)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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n2 = 1 - n2
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}
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pts[i] = KDPoint[T]{
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ID: id(it),
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Value: it,
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Coords: []float64{
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weights[0] * n1,
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weights[1] * n2,
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},
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}
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}
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return pts, nil
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}
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2025-11-03 18:36:09 +00:00
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// Build2DWithStats builds points using provided normalisation stats.
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func Build2DWithStats[T any](items []T, id func(T) string, f1, f2 func(T) float64, weights [2]float64, invert [2]bool, stats NormStats) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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if len(stats.Stats) != 2 {
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return nil, nil
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}
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(f1(it), stats.Stats[0].Min, stats.Stats[0].Max)
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n2 := scale01(f2(it), stats.Stats[1].Min, stats.Stats[1].Max)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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n2 = 1 - n2
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}
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pts[i] = KDPoint[T]{
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ID: id(it),
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Value: it,
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Coords: []float64{weights[0] * n1, weights[1] * n2},
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}
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}
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return pts, nil
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}
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2025-11-03 17:33:37 +00:00
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// Build3D constructs normalized-and-weighted KD points using three feature extractors.
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func Build3D[T any](items []T, id func(T) string, f1, f2, f3 func(T) float64, weights [3]float64, invert [3]bool) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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vals3 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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vals3[i] = f3(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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mn3, mx3 := minMax(vals3)
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(vals1[i], mn1, mx1)
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n2 := scale01(vals2[i], mn2, mx2)
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n3 := scale01(vals3[i], mn3, mx3)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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n2 = 1 - n2
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}
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if invert[2] {
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n3 = 1 - n3
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}
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pts[i] = KDPoint[T]{
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ID: id(it),
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Value: it,
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Coords: []float64{
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weights[0] * n1,
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weights[1] * n2,
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weights[2] * n3,
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},
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}
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}
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return pts, nil
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}
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2025-11-03 18:36:09 +00:00
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// Build3DWithStats builds points using provided normalisation stats.
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func Build3DWithStats[T any](items []T, id func(T) string, f1, f2, f3 func(T) float64, weights [3]float64, invert [3]bool, stats NormStats) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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if len(stats.Stats) != 3 {
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return nil, nil
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}
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(f1(it), stats.Stats[0].Min, stats.Stats[0].Max)
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n2 := scale01(f2(it), stats.Stats[1].Min, stats.Stats[1].Max)
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n3 := scale01(f3(it), stats.Stats[2].Min, stats.Stats[2].Max)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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n2 = 1 - n2
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}
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if invert[2] {
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n3 = 1 - n3
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}
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pts[i] = KDPoint[T]{
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ID: id(it),
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Value: it,
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Coords: []float64{weights[0] * n1, weights[1] * n2, weights[2] * n3},
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}
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}
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return pts, nil
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}
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2025-11-03 17:33:37 +00:00
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// Build4D constructs normalized-and-weighted KD points using four feature extractors.
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func Build4D[T any](items []T, id func(T) string, f1, f2, f3, f4 func(T) float64, weights [4]float64, invert [4]bool) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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vals1 := make([]float64, len(items))
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vals2 := make([]float64, len(items))
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vals3 := make([]float64, len(items))
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vals4 := make([]float64, len(items))
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for i, it := range items {
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vals1[i] = f1(it)
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vals2[i] = f2(it)
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vals3[i] = f3(it)
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vals4[i] = f4(it)
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}
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mn1, mx1 := minMax(vals1)
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mn2, mx2 := minMax(vals2)
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mn3, mx3 := minMax(vals3)
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mn4, mx4 := minMax(vals4)
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(vals1[i], mn1, mx1)
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n2 := scale01(vals2[i], mn2, mx2)
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n3 := scale01(vals3[i], mn3, mx3)
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n4 := scale01(vals4[i], mn4, mx4)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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n2 = 1 - n2
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}
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if invert[2] {
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n3 = 1 - n3
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}
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if invert[3] {
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n4 = 1 - n4
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}
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pts[i] = KDPoint[T]{
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ID: id(it),
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Value: it,
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Coords: []float64{
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weights[0] * n1,
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weights[1] * n2,
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weights[2] * n3,
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weights[3] * n4,
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},
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}
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}
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return pts, nil
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}
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2025-11-03 18:36:09 +00:00
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// Build4DWithStats builds points using provided normalisation stats.
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func Build4DWithStats[T any](items []T, id func(T) string, f1, f2, f3, f4 func(T) float64, weights [4]float64, invert [4]bool, stats NormStats) ([]KDPoint[T], error) {
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if len(items) == 0 {
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return nil, nil
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}
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if len(stats.Stats) != 4 {
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return nil, nil
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}
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pts := make([]KDPoint[T], len(items))
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for i, it := range items {
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n1 := scale01(f1(it), stats.Stats[0].Min, stats.Stats[0].Max)
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n2 := scale01(f2(it), stats.Stats[1].Min, stats.Stats[1].Max)
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n3 := scale01(f3(it), stats.Stats[2].Min, stats.Stats[2].Max)
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n4 := scale01(f4(it), stats.Stats[3].Min, stats.Stats[3].Max)
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if invert[0] {
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n1 = 1 - n1
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}
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if invert[1] {
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|
|
|
|
n2 = 1 - n2
|
|
|
|
|
}
|
|
|
|
|
if invert[2] {
|
|
|
|
|
n3 = 1 - n3
|
|
|
|
|
}
|
|
|
|
|
if invert[3] {
|
|
|
|
|
n4 = 1 - n4
|
|
|
|
|
}
|
|
|
|
|
pts[i] = KDPoint[T]{
|
|
|
|
|
ID: id(it),
|
|
|
|
|
Value: it,
|
|
|
|
|
Coords: []float64{weights[0] * n1, weights[1] * n2, weights[2] * n3, weights[3] * n4},
|
|
|
|
|
}
|
|
|
|
|
}
|
|
|
|
|
return pts, nil
|
|
|
|
|
}
|
