import numpy as np

def get_width(mask, keypoint_y):
    pred_np = mask.numpy()
    # Find the index of the first occurrence of the mask label
    first_index = np.argmax(pred_np[keypoint_y,:] > 0)

    # Find the index of the last occurrence of the mask label
    last_index = len(pred_np[keypoint_y,:]) - np.argmax(np.flip(pred_np[keypoint_y,:]) > 0) - 1

    return last_index-first_index

def calculate_all_measures(front_keypoints, side_keypoints, front_seg_mask, side_rcnn_mask):
    results_dict = {}

    # calculate the body length
    # pick the longer from the two ankle keypoints on y coordinate
    side_body_length = side_keypoints[15][1] if side_keypoints[15][1] > side_keypoints[16][1] else side_keypoints[16][1]

    #     5: 'left_shoulder'
    left_shoulder_y = round(front_keypoints[5][1])
    # print("shoulder width", get_width(front_seg_mask, left_shoulder_y))
    results_dict['shoulder_width'] = get_width(front_seg_mask, left_shoulder_y)

    # remove left-arm mask
    front_seg_mask[front_seg_mask == 14] = 0

    # remove right-arm mask
    front_seg_mask[front_seg_mask == 15] = 0

    #     11: 'left_hip'
    left_hip_y = round(front_keypoints[11][1])
    # print("hip width", get_width(front_seg_mask, left_hip_y))
    results_dict['hip_width'] = get_width(front_seg_mask, left_hip_y)

    # calculate shoulder_to_hip distance
    shoulder_to_hip_distance = front_keypoints[11][1] - front_keypoints[5][1]
    # print("Shoulder to hip distance:", shoulder_to_hip_distance)
    results_dict['shoulder_to_hip_distance'] = shoulder_to_hip_distance

    # calculate hip_to_ankle distance
    hip_to_ankle_distance = front_keypoints[16][1] - front_keypoints[12][1]
    # print("Hip to ankle distance:", hip_to_ankle_distance)
    results_dict['hip_to_ankle_distance'] = hip_to_ankle_distance

    # calculate torso_to_leg proportions
    torso_to_leg_proportions = shoulder_to_hip_distance / hip_to_ankle_distance
    # print("Torso to leg proportions:", torso_to_leg_proportions)
    results_dict['torso_to_leg_ratio'] = torso_to_leg_proportions

    # waist 
    # assuming waistline is x % higher from hips 
    # hip_y axis - (40 % of shoulder to hip distance)
    waist_y = round(front_keypoints[11][1] - (shoulder_to_hip_distance * 0.40))
    # print("waist width", get_width(front_seg_mask, waist_y))
    results_dict['waist_width'] = get_width(front_seg_mask, waist_y)

    # Calculate bounding box for thigh
    # right_knee = side_keypoints[side_keypoint_names.index("right_knee")]
    # right_hip = side_keypoints[side_keypoint_names.index("right_hip")]
    # # Calculate bounding box for torso
    # right_shoulder = side_keypoints[side_keypoint_names.index("right_shoulder")]

    # # Replace keypoints, keypoint_names, combined_mask, and original_image with your actual data
    # thigh_bbox = calculate_bbox(side_original_image, right_knee, right_hip)
    # torso_bbox = calculate_bbox(side_original_image, right_hip, right_shoulder)
    # # Calculate midpoint coordinates
    # torso_midpoint = [0, (right_hip[1] + right_shoulder[1]) / 2]
    # lower_torso_bbox = calculate_bbox(side_original_image, right_hip, torso_midpoint)
    # upper_torso_bbox = calculate_bbox(side_original_image, torso_midpoint, right_shoulder)

    # # Replace keypoints, keypoint_names, combined_mask, and original_image with your actual data
    # thigh_area = get_volume_result(side_rcnn_mask, side_original_image, thigh_bbox[1], thigh_bbox[0], thigh_bbox[3], thigh_bbox[2]) # Thigh volume
    # torso_area = get_volume_result(side_rcnn_mask, side_original_image, torso_bbox[1], torso_bbox[0], torso_bbox[3], torso_bbox[2]) # Torso volume
    # lower_torso_area = get_volume_result(side_rcnn_mask, side_original_image, lower_torso_bbox[1], lower_torso_bbox[0], lower_torso_bbox[3], lower_torso_bbox[2]) # Lower torso volume
    # upper_torso_area = get_volume_result(side_rcnn_mask, side_original_image, upper_torso_bbox[1], upper_torso_bbox[0], upper_torso_bbox[3], upper_torso_bbox[2]) # Upper torso volume
    # full_side_body_area = (side_rcnn_mask > 0).sum()
    # # print(f"Thigh area: {thigh_area}")
    # # print(f"Torso area: {torso_area}")
    # # print(f"Lower torso area: {lower_torso_area}")
    # # print(f"Upper torso area: {upper_torso_area}")
    # results_dict['thigh_area'] = thigh_area
    # results_dict['torso_area'] = torso_area
    # results_dict['lower_torso_area'] = lower_torso_area
    # results_dict['upper_torso_area'] = upper_torso_area
    # results_dict['full_side_body_area'] = full_side_body_area

    # # calculate ratios
    # results_dict['thigh_normalised'] = thigh_area / side_body_length
    # results_dict['torso_normalised'] = torso_area / side_body_length
    # results_dict['thigh_to_torso_ratio_normalised'] = results_dict['thigh_normalised'] / results_dict['torso_normalised']
    # results_dict['thigh_to_torso_ratio'] = thigh_area / torso_area
    # results_dict['upper_torso_normalised'] = upper_torso_area / side_body_length
    # results_dict['lower_torso_normalised'] = lower_torso_area / side_body_length
    # results_dict['upper_to_lower_torso_normalised_ratio'] =  results_dict['upper_torso_normalised'] / results_dict['lower_torso_normalised']
    # results_dict['upper_to_lower_torso_ratio'] = upper_torso_area / lower_torso_area
    # results_dict['shoulder_to_hip_ratio'] = results_dict['shoulder_width'] / results_dict['hip_width']
    # results_dict['shoulder_to_waist_ratio'] = results_dict['shoulder_width'] / results_dict['waist_width']
    # results_dict['waist_to_hip_ratio'] = results_dict['waist_width'] / results_dict['hip_width']
    # results_dict['thigh_to_body_ratio'] = thigh_area / full_side_body_area
    # results_dict['upper_torso_to_body_ratio'] = upper_torso_area / full_side_body_area
    # results_dict['upper_torso_to_body_ratio'] = upper_torso_area / full_side_body_area

    return dict