import argparse
import random
import os

# Read arguments
parser = argparse.ArgumentParser(description="Generate test and val splits for the inter_dataset ood detection")
parser.add_argument("-v", "--val_perc", default="0.5", help="Percentage (as ratio, between 0 and 1) of images to be used as validation set. Remaining images are used as test set")
parser.add_argument("-s", "--seed", default="42", help="PRNG seed used to generate random numbers")
args = parser.parse_args()

datasets = ['places_val', 'in_train']
ID  = 0
OOD = 1
val_perc = float(args.val_perc)
random.seed(int(args.seed))

counters = [0, 0]

# Stratified sampling to obtain test and val splits
# Output format: oodness (0/1), dataset_index (0-3), class_index (dataset dependent), image_path (relative to the dataset folder)


# Create output files
with open("inter_dataset_val.txt", "w") as f_val:
    with open("inter_dataset_test.txt", "w") as f_test:

        # Places365-Standard validation set

        with open("../places365-standard-small/places365_val.txt", "r") as places_val_list:

            places_val = {}

            for line in places_val_list:

                fields = line.split()

                if not fields[1] in places_val:
                    places_val[fields[1]] = []

                places_val[fields[1]].append(fields[0])


        for class_index, images in places_val.items():

            output_line = str(ID) + " places_val " + class_index + " "

            class_count = len(images)
            val_num     = round(class_count * val_perc)

            # flags = random.sample([True, False], counts=[val_num, class_count-val_num], k=class_count)  # Python 3.9+ 

            flags = random.sample([True for _ in range(val_num)] + [False for _ in range(class_count - val_num)], k=class_count)

            for i in range(class_count):

                if flags[i]:
                    f_val.write(output_line + images[i] + "\n")
                else:
                    f_test.write(output_line + images[i] + "\n")

                counters[ID] += 1



        # ImageNet train
        # Improvable code

        missing_ood_samples = counters[ID] - counters[OOD]

        if missing_ood_samples > 0:

            imagenet_synsets   = []
            imagenet_train_dir = "../imagenet2012/ILSVRC/Data/CLS-LOC/train/" 
            imagenet = {}

            with open("../imagenet2012/LOC_synset_mapping.txt", "r") as f:

                for line in f:
                    imagenet_synsets.append(line.split()[0])

            with open("ImageNet_only_classes.txt", "r") as f:

                for line in f:

                    class_index = int(line.split(":")[0])
                    synset = imagenet_synsets[class_index]
                    imagenet[str(class_index)] = synset

            ood_classes = len(imagenet.keys())
            samples_per_class = missing_ood_samples // ood_classes
            remainder         = missing_ood_samples % ood_classes

            for class_index, synset in imagenet.items():

                class_images = os.listdir(imagenet_train_dir + synset)
                sample = random.sample(class_images, k=samples_per_class if remainder == 0 else samples_per_class + 1)

                if remainder > 0:
                    remainder -= 1
                
                # Split between test and val
                class_tot = len(sample)
                val_count = round(class_tot * val_perc)

                flags = random.sample([True for _ in range(val_count)] + [False for _ in range(class_tot - val_count)], k=class_tot)

                output_line = str(OOD) + " in_train " + class_index + " " + synset + "/"

                for i in range(class_tot):
                    
                    if flags[i]:
                        f_val.write(output_line + sample[i] + "\n")
                    else:
                        f_test.write(output_line + sample[i] + "\n")

                    counters[OOD] += 1



print("Tot id samples:", counters[ID])
print("Tot ood samples:", counters[OOD])