1 files changed, 263 insertions, 0 deletions

diff --git a/lib/seg/mask_data.c b/lib/seg/mask_data.c
new file mode 100644
index 0000000..8c4b037
--- /dev/null
+++ b/lib/seg/mask_data.c
@@ -0,0 +1,263 @@
+#include <lib/seg/mask_data.h>
+#include <lib/seg/util.h>
+
+#include <stdio.h>
+
+// Allocate Mask Data for Label
+struct MaskData* create_mask_data(uint16_t label)
+{
+  struct MaskData *data = (struct MaskData*)malloc(sizeof(struct MaskData));
+  data->label = label;
+  data->area = 0;
+  data->perimeter = 0;
+  return data;
+}
+
+// Compare mask data labels
+bool_t compare_labels(struct MaskData* left, struct MaskData* right)
+{
+  return left->label < right->label;
+}
+
+// Create AVL Mask node
+struct AVLNode* create_avl_mask_node(struct MaskData* data)
+{
+  struct AVLNode* node = (struct AVLNode*)malloc(sizeof(struct AVLNode));
+  if (node == NULL) {
+    return NULL;
+  }
+  node->data = data;
+  node->compare = (bool_t (*)(void*,void*))&compare_labels;
+  node->left = NULL;
+  node->right = NULL;
+  node->height = 1; // Leaf initially
+  return node;
+}
+
+// Insert MaskData into the AVL Tree
+struct Result insert_mask(struct AVLNode* node, struct MaskData* data)
+{
+  struct Result result;
+  // 1. Standard BST insertion
+  if (node == NULL) {
+    return (struct Result) {create_avl_mask_node(data), TRUE};
+  }
+
+  struct MaskData *node_data = (struct MaskData*)node->data;
+  if (node->compare(data, node_data)) {
+    result = insert_mask(node->left, data);
+    if (!result.success) {
+      fprintf(stderr, "Failed to insert!");
+      return result;
+    }
+    node->left = (struct AVLNode*)result.data;
+  } else if (node->compare(node->data, data)) {
+    result = insert_mask(node->right, data);
+    if (!result.success) {
+      fprintf(stderr, "Failed to insert!");
+      return result;
+    }
+    node->right = (struct AVLNode*)result.data;
+  } else {
+    return (struct Result) {node, FALSE};
+  }
+
+  // 2. Update height of the ancestor node
+  node->height = 1 + max_height(get_height(node->left), get_height(node->right));
+
+  ssize_t balance = get_balance_factor(node);
+
+  // 4. If the node becomes unbalanced
+
+  // LeftLeft
+  if ((balance > 1) && node->compare(data, node->left->data)) {
+    return (struct Result) {right_rotate(node), TRUE};
+  }
+  // RightRight
+  if ((balance < -1) && node->compare(node->right->data, data)) {
+    return (struct Result) {left_rotate(node), TRUE};
+  }
+  // LeftRight
+  if ((balance > 1) && node->compare(node->left->data, data)) {
+    return (struct Result) {right_rotate(node), TRUE};
+  }
+  // RightLeft
+  if ((balance < -1) && node->compare(data,node->right->data)) {
+    return (struct Result) {left_rotate(node), TRUE};
+  }
+  return (struct Result) {node, TRUE};
+}
+
+// Allocate a label's Mask data in a tree
+//  If it already exists, skip the allocation
+struct AVLNode* insert_mask_alloc(struct AVLNode* node, uint16_t label)
+{
+  struct MaskData* data = create_mask_data(label);
+  struct Result result = insert_mask(node, data);
+  if (!result.success) {
+    free(data);
+  }
+  return (struct AVLNode*)result.data;
+}
+
+// Print AVL Node Mask Data Label
+void print_label(struct AVLNode* root)
+{
+  if (root != NULL) {
+    print_label(root->left);
+    struct MaskData* data = root->data;
+    printf("%d: (%zu, %zu) ", data->label, data->area, data->perimeter);
+    print_label(root->right);
+  }
+}
+
+// Increase the label's area
+bool_t increase_label_area(struct AVLNode* root, uint16_t label)
+{
+  if (root == NULL) {
+    return FALSE;
+  }
+  struct MaskData* data = (struct MaskData*)root->data;
+  if (data->label == label) {
+    data->area++;
+  }
+  else if (data->label > label) {
+    return increase_label_area(root->left, label);
+  }
+  else if (data->label < label) {
+    return increase_label_area(root->right, label);
+  }
+  return TRUE;
+}
+
+// Increase the label's perimeter
+bool_t increase_label_perimeter(struct AVLNode* root, uint16_t label)
+{
+  if (root == NULL) {
+    return FALSE;
+  }
+  struct MaskData* data = (struct MaskData*)root->data;
+  if (data->label == label) {
+    data->perimeter++;
+  }
+  else if (data->label > label) {
+    return increase_label_perimeter(root->left, label);
+  }
+  else if (data->label < label) {
+    return increase_label_perimeter(root->right, label);
+  }
+  return TRUE;
+}
+
+// Increase the label's area
+//  Create an AVL node if it doesn't exist
+struct AVLNode* increase_label_area_alloc(struct AVLNode* root, uint16_t label)
+{
+  struct AVLNode* new_root = root;
+  bool_t success = increase_label_area(new_root, label);
+  if (success == FALSE) {
+    new_root = insert_mask_alloc(new_root, label);
+    increase_label_area(new_root, label);
+  }
+  return new_root;
+}
+
+// Increase the label's perimeter
+//  Create an AVL node if it doesn't exist
+struct AVLNode* increase_label_perimeter_alloc(struct AVLNode* root, uint16_t label)
+{
+  struct AVLNode* new_root = root;
+  bool_t success = increase_label_perimeter(new_root, label);
+  if (success == FALSE) {
+    new_root = insert_mask_alloc(new_root, label);
+    increase_label_perimeter(new_root, label);
+  }
+  return new_root;
+}
+
+// Comparison of uint16_ts
+bool_t compare_uint16_t(uint16_t* s1, uint16_t* s2)
+{
+  return *s1 < *s2;
+}
+
+// In-order traversal print pointer
+void print_in_order_uint16_t(struct AVLNode* root)
+{
+  if (root != NULL) {
+    print_in_order_uint16_t(root->left);
+    printf("%d ", *((uint16_t*)root->data));
+    print_in_order_uint16_t(root->right);
+  }
+}
+
+// Check if uint16_t in AVLTree with uint16_t* data
+bool_t in_uint16_t_tree(struct AVLNode* root, uint16_t value)
+{
+  if (root == NULL) {
+    return FALSE;
+  }
+  if (*((uint16_t*)root->data) == value) {
+    return TRUE;
+  } else if (value < *((uint16_t*)root->data)) {
+    return in_uint16_t_tree(root->left, value);
+  } else {
+    return in_uint16_t_tree(root->right, value);
+  }
+}
+
+// Filter out small masks
+//  Assumption: Contiguous labeling
+struct AVLNode* get_small_labels(struct AVLNode* removal_tree, struct AVLNode* label_tree, size_t min_area, size_t min_perimeter)
+{
+  struct AVLNode* return_tree = removal_tree;
+  if (label_tree != NULL) {
+    return_tree = get_small_labels(return_tree, label_tree->left, min_area, min_perimeter);
+    struct MaskData* node_data = (struct MaskData*)label_tree->data;
+    if ((node_data->area < min_area) || (node_data->perimeter < min_perimeter)) {
+      // Insert
+      struct Result result = avl_insert(return_tree, &node_data->label, (bool_t (*)(void*,void*))compare_uint16_t);
+      if (result.success) {
+	return_tree = result.data;
+      }
+    }
+    return_tree = get_small_labels(return_tree, label_tree->right, min_area, min_perimeter);
+  }
+  return return_tree;
+}
+
+// Get mask label data
+struct AVLNode* get_mask_data(uint16_t* masks, uint32_t width, uint32_t height)
+{
+  struct AVLNode* root = NULL;
+  for (size_t y = 0; y < height; y++) {
+    for (size_t x = 0; x < width; x++) {
+      size_t coord = x + y*width;
+      if (masks[coord] != 0) {
+	root = increase_label_area_alloc(root, masks[coord]);
+	if (is_on_mask_boundary(masks, width, height, x, y)) {
+	  increase_label_perimeter(root, masks[coord]);
+	}
+      }
+    }
+  }
+  return root;
+}
+
+// Filter out small masks in mask
+void filter_small_masks(uint16_t* masks, uint32_t width, uint32_t height, size_t min_area, size_t min_perimeter)
+{
+  struct AVLNode* root = get_mask_data(masks, width, height);
+  struct AVLNode* small_label_tree = NULL;
+  small_label_tree = get_small_labels(NULL, root, min_area, min_perimeter);
+  for (size_t y = 0; y < height; y++) {
+    for (size_t x = 0; x < width; x++) {
+      size_t coord = x + y*width;
+      if (in_uint16_t_tree(small_label_tree, masks[coord])) {
+	masks[coord] = 0;
+      }
+    }
+  }
+  free_avl_tree(small_label_tree);
+  free_avl_tree_nodes(root);
+}