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visualizations.py
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visualizations.py
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import os
import cv2
import numpy as np
from tqdm import tqdm
from skimage.transform import rescale
from PIL import Image, ImageDraw, ImageFont
# Height and width of a single image
H = 512
W = 512
TEXT_H = 175
FONTSIZE = 80
SPACE = 50 # Space between two images
def write_labels_to_image(labels=["text1", "text2"]):
"""Creates an image with vertical text, spaced along rows."""
font = ImageFont.truetype("/usr/share/fonts/truetype/dejavu/DejaVuSans.ttf", FONTSIZE)
img = Image.new('RGB', ((W * len(labels)) + 50 * (len(labels)-1), TEXT_H), (1, 1, 1))
d = ImageDraw.Draw(img)
for i, text in enumerate(labels):
_, _, w, h = d.textbbox((0,0), text, font=font)
d.text(((W+SPACE)*i + W//2 - w//2, 1), text, fill=(0, 0, 0), font=font)
return np.array(img)
def draw(img, c=(0, 255, 0), thickness=20):
"""Draw a colored (usually red or green) box around an image."""
p = np.array([[0, 0], [0, img.shape[0]], [img.shape[1], img.shape[0]], [img.shape[1], 0]])
for i in range(3):
cv2.line(img, (p[i, 0], p[i, 1]), (p[i+1, 0], p[i+1, 1]), c, thickness=thickness*2)
return cv2.line(img, (p[3, 0], p[3, 1]), (p[0, 0], p[0, 1]), c, thickness=thickness*2)
def build_prediction_image(images_paths, preds_correct=None):
"""Build a row of images, where the first is the query and the rest are predictions.
For each image, if is_correct then draw a green/red box.
"""
assert len(images_paths) == len(preds_correct)
labels = ["Query"] + [f"Pr{i} - {is_correct}" for i, is_correct in enumerate(preds_correct[1:])]
num_images = len(images_paths)
images = [np.array(Image.open(path)) for path in images_paths]
for img, correct in zip(images, preds_correct):
if correct is None:
continue
color = (0, 255, 0) if correct else (255, 0, 0)
draw(img, color)
concat_image = np.ones([H, (num_images*W)+((num_images-1)*SPACE), 3])
rescaleds = [rescale(i, [min(H/i.shape[0], W/i.shape[1]), min(H/i.shape[0], W/i.shape[1]), 1]) for i in images]
for i, image in enumerate(rescaleds):
pad_width = (W - image.shape[1] + 1) // 2
pad_height = (H - image.shape[0] + 1) // 2
image = np.pad(image, [[pad_height, pad_height], [pad_width, pad_width], [0, 0]], constant_values=1)[:H, :W]
concat_image[: , i*(W+SPACE) : i*(W+SPACE)+W] = image
try:
labels_image = write_labels_to_image(labels)
final_image = np.concatenate([labels_image, concat_image])
except OSError: # Handle error in case of missing PIL ImageFont
final_image = concat_image
final_image = Image.fromarray((final_image*255).astype(np.uint8))
return final_image
def save_file_with_paths(query_path, preds_paths, positives_paths, output_path):
file_content = []
file_content.append("Query path:")
file_content.append(query_path + "\n")
file_content.append("Predictions paths:")
file_content.append("\n".join(preds_paths) + "\n")
file_content.append("Positives paths:")
file_content.append("\n".join(positives_paths) + "\n")
with open(output_path, "w") as file:
_ = file.write("\n".join(file_content))
def save_preds(predictions, eval_ds, output_folder, save_only_wrong_preds=None):
"""For each query, save an image containing the query and its predictions,
and a file with the paths of the query, its predictions and its positives.
Parameters
----------
predictions : np.array of shape [num_queries x num_preds_to_viz], with the preds
for each query
eval_ds : TestDataset
output_folder : str / Path with the path to save the predictions
save_only_wrong_preds : bool, if True save only the wrongly predicted queries,
i.e. the ones where the first pred is uncorrect (further than 25 m)
"""
positives_per_query = eval_ds.get_positives()
os.makedirs(f"{output_folder}/preds", exist_ok=True)
for query_index, preds in enumerate(tqdm(predictions, ncols=80, desc=f"Saving preds in {output_folder}")):
query_path = eval_ds.queries_paths[query_index]
list_of_images_paths = [query_path]
# List of None (query), True (correct preds) or False (wrong preds)
preds_correct = [None]
for pred_index, pred in enumerate(preds):
pred_path = eval_ds.database_paths[pred]
list_of_images_paths.append(pred_path)
is_correct = pred in positives_per_query[query_index]
preds_correct.append(is_correct)
if save_only_wrong_preds and preds_correct[1]:
continue
prediction_image = build_prediction_image(list_of_images_paths, preds_correct)
pred_image_path = f"{output_folder}/preds/{query_index:03d}.jpg"
prediction_image.save(pred_image_path)
positives_paths = [eval_ds.database_paths[idx] for idx in positives_per_query[query_index]]
save_file_with_paths(
query_path=list_of_images_paths[0],
preds_paths=list_of_images_paths[1:],
positives_paths=positives_paths,
output_path=f"{output_folder}/preds/{query_index:03d}.txt"
)