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### This is example of the script that will be run in the test environment.
### You can change the rest of the code to define and test your solution.
### However, you should not change the signature of the provided function.
### The script saves "submission.parquet" file in the current directory.
### You can use any additional files and subdirectories to organize your code.
from pathlib import Path
from tqdm import tqdm
import pandas as pd
import numpy as np
from datasets import load_dataset
from typing import Dict
from joblib import Parallel, delayed
import os
import json
import gc
from hoho2025.example_solutions import predict_wireframe
# check the https://github.com/s23dr/hoho2025/blob/main/hoho2025/example_solutions.py for the example solution
def empty_solution():
'''Return a minimal valid solution, i.e. 2 vertices and 1 edge.'''
return np.zeros((2,3)), [(0, 1)]
class Sample(Dict):
def pick_repr_data(self, x):
if hasattr(x, 'shape'):
return x.shape
if isinstance(x, (str, float, int)):
return x
if isinstance(x, list):
return [type(x[0])] if len(x) > 0 else []
return type(x)
def __repr__(self):
# return str({k: v.shape if hasattr(v, 'shape') else [type(v[0])] if isinstance(v, list) else type(v) for k,v in self.items()})
return str({k: self.pick_repr_data(v) for k,v in self.items()})
if __name__ == "__main__":
print ("------------ Loading dataset------------ ")
param_path = Path('params.json')
print(param_path)
with param_path.open() as f:
params = json.load(f)
print(params)
import os
print('pwd:')
os.system('pwd')
print(os.system('ls -lahtr'))
print('/tmp/data/')
print(os.system('ls -lahtr /tmp/data/'))
print('/tmp/data/data')
print(os.system('ls -lahtrR /tmp/data/data'))
data_path_test_server = Path('/tmp/data')
data_path_local = Path().home() / '.cache/huggingface/datasets/usm3d___hoho25k_test_x/'
if data_path_test_server.exists():
# data_path = data_path_test_server
TEST_ENV = True
else:
# data_path = data_path_local
TEST_ENV = False
from huggingface_hub import snapshot_download
_ = snapshot_download(
repo_id=params['dataset'],
local_dir="/tmp/data",
repo_type="dataset",
)
data_path = data_path_test_server
print(data_path)
# dataset = load_dataset(params['dataset'], trust_remote_code=True, use_auth_token=params['token'])
# data_files = {
# "validation": [str(p) for p in [*data_path.rglob('*validation*.arrow')]+[*data_path.rglob('*public*/**/*.tar')]],
# "test": [str(p) for p in [*data_path.rglob('*test*.arrow')]+[*data_path.rglob('*private*/**/*.tar')]],
# }
data_files = {
"validation": [str(p) for p in data_path.rglob('*public*/**/*.tar')],
"test": [str(p) for p in data_path.rglob('*private*/**/*.tar')],
}
print(data_files)
dataset = load_dataset(
str(data_path / 'hoho25k_test_x.py'),
data_files=data_files,
trust_remote_code=True,
writer_batch_size=100
)
print('load with webdataset')
print(dataset, flush=True)
print('------------ Now you can do your solution ---------------')
solution = []
def process_sample(sample, i):
try:
pred_vertices, pred_edges = predict_wireframe(sample)
except:
pred_vertices, pred_edges = empty_solution()
if i %10 == 0:
gc.collect()
return {
'order_id': sample['order_id'],
'wf_vertices': pred_vertices.tolist(),
'wf_edges': pred_edges
}
num_cores = 4
for subset_name in dataset.keys():
print (f"Predicting {subset_name}")
for i, sample in enumerate(tqdm(dataset[subset_name])):
res = process_sample(sample, i)
solution.append(res)
print('------------ Saving results ---------------')
sub = pd.DataFrame(solution, columns=["order_id", "wf_vertices", "wf_edges"])
sub.to_parquet("submission.parquet")
print("------------ Done ------------ ") |