Try to avoid having unused palette items when the source image only uses a limited gamut region

Warp each empty cluster's centroid onto the closest dataset item
2024-10-03 10:18:02 +02:00 · 2024-10-03 10:18:02 +02:00 · 5f95f895d2
parent c91f4d79bd
commit 5f95f895d2
1 changed files with 17 additions and 3 deletions
--- a/img2cpi.c
+++ b/img2cpi.c
@ -95,6 +95,8 @@ struct k_means_state {
      float r, g, b;
    } sums;
    size_t count;
+    union color closest_present_item;
+    float closest_present_distance;
  } *centroid_intermediate;
  size_t item_count;
 };
@ -683,6 +685,12 @@ struct k_means_state k_means_init(const struct image *image, struct palette *sta
    .centroid_intermediate = calloc(cluster_count, sizeof(struct k_means_centroid_intermediate)),
    .item_count = item_count,
  };
+  if (state.centroid_intermediate) {
+    for (size_t i = 0; i < cluster_count; i++) {
+      state.centroid_intermediate[i].closest_present_item = starting_palette->colors[i];
+      state.centroid_intermediate[i].closest_present_distance = 1e20;
+    }
+  }
  return state;
 }

@ -697,11 +705,16 @@ bool k_means_iteration(struct k_means_state *state) {
    int closest_cluster = 0;
    float closest_distance = 1e20;
    for (int cluster = 0; cluster < state->clusters->count; cluster++) {
-      float dist = get_color_difference(state->clusters->colors[cluster], state->items->pixels[i]);
+      union color item = state->items->pixels[i];
+      float dist = get_color_difference(state->clusters->colors[cluster], item);
      if (dist <= closest_distance) {
        closest_distance = dist;
        closest_cluster = cluster;
      }
+      if (dist <= state->centroid_intermediate[cluster].closest_present_distance) {
+        state->centroid_intermediate[cluster].closest_present_item = item;
+        state->centroid_intermediate[cluster].closest_present_distance = dist;
+      }
    }
    if (!changed) {
      changed = state->predicted_cluster[i] != closest_cluster;
@ -731,9 +744,10 @@ bool k_means_iteration(struct k_means_state *state) {
      state->clusters->colors[i] = centroid;
    } else {
      // No pixels are closest to this color
-      // TODO: wiggle the centroid?
+      // Warp the centroid onto the closest item
+      state->clusters->colors[i] = intermediate.closest_present_item;
    }
-    state->centroid_intermediate[i] = (struct k_means_centroid_intermediate) { .sums = {0, 0, 0}, .count = 0 };
+    state->centroid_intermediate[i] = (struct k_means_centroid_intermediate) { .sums = {0, 0, 0}, .count = 0, .closest_present_item = state->clusters->colors[i], .closest_present_distance = 1e20 };
  }

  return changed;