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combine separation tests

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combined separation tests, because classify_audio would fail when other models ran on GPU
This commit is contained in:
Joel Mathew Thomas
2025-01-29 00:28:54 +05:30
parent 7f973db1d0
commit 489a37c007
2 changed files with 50 additions and 54 deletions
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tests/test_convtasnet_wrapper.py
-54
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@@ -1,54 +0,0 @@
import os
import pytest
from src.input.file_reader import read_audio
from src.separation.convtasnet_wrapper import separate
from src.postprocessing.audio_writer import export_audio
def test_convtasnet_separation_with_output_files():
"""
Test to ensure ConvTasNet separation creates expected source audio files.
"""
input_audio_path = "tests/test_audio/female-female-mixture.wav"
output_dir = "/tmp/convtasnet"
model_name = "mpariente/ConvTasNet_WHAM!_sepclean"
audio, sr = read_audio(input_audio_path)
if not os.path.exists(output_dir):
os.makedirs(output_dir)
separated_sources = separate(audio, model_name)
for i, source in enumerate(separated_sources):
output_path = os.path.join(output_dir, f"source_{i+1}.wav")
export_audio(source, output_path, sr)
# Check if the output directory exists
assert os.path.exists(output_dir), "Output directory does not exist."
# Check if source_1.wav and source_2.wav are created
source_1_path = os.path.join(output_dir, "source_1.wav")
source_2_path = os.path.join(output_dir, "source_2.wav")
assert os.path.exists(source_1_path), "source_1.wav was not created."
assert os.path.exists(source_2_path), "source_2.wav was not created."
# Check if the files have content (not just created)
# For example, you can check if the length of the audio files is greater than a certain threshold
# Here, we'll just verify the files are not empty.
import soundfile as sf
def is_file_non_empty(file_path):
try:
data, _ = sf.read(file_path)
return data.size > 0
except Exception as e:
return False
assert is_file_non_empty(source_1_path), "source_1.wav is empty."
assert is_file_non_empty(source_2_path), "source_2.wav is empty."
print("Test passed: source_1.wav and source_2.wav are present and non-empty.")
tests/test_demucs_wrapper.py → tests/test_separation.py
+50
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@@ -7,6 +7,8 @@ from src.input.file_reader import read_audio
from src.preprocessing.trim import trim_audio from src.preprocessing.trim import trim_audio
from src.preprocessing.resample import resample from src.preprocessing.resample import resample
from src.separation.demucs_wrapper import separate_audio_with_demucs from src.separation.demucs_wrapper import separate_audio_with_demucs
from src.separation.convtasnet_wrapper import separate
from src.postprocessing.audio_writer import export_audio
def test_demucs_separation_with_preprocessing(): def test_demucs_separation_with_preprocessing():
@@ -51,3 +53,51 @@ def test_demucs_separation_with_preprocessing():
for expected_file in expected_files: for expected_file in expected_files:
file_path = file_folder / expected_file file_path = file_folder / expected_file
assert file_path.exists(), f"Expected file {expected_file} not found in {file_name} folder." assert file_path.exists(), f"Expected file {expected_file} not found in {file_name} folder."
def test_convtasnet_separation_with_output_files():
"""
Test to ensure ConvTasNet separation creates expected source audio files.
"""
input_audio_path = "tests/test_audio/female-female-mixture.wav"
output_dir = "/tmp/convtasnet"
model_name = "mpariente/ConvTasNet_WHAM!_sepclean"
audio, sr = read_audio(input_audio_path)
if not os.path.exists(output_dir):
os.makedirs(output_dir)
separated_sources = separate(audio, model_name)
for i, source in enumerate(separated_sources):
output_path = os.path.join(output_dir, f"source_{i+1}.wav")
export_audio(source, output_path, sr)
# Check if the output directory exists
assert os.path.exists(output_dir), "Output directory does not exist."
# Check if source_1.wav and source_2.wav are created
source_1_path = os.path.join(output_dir, "source_1.wav")
source_2_path = os.path.join(output_dir, "source_2.wav")
assert os.path.exists(source_1_path), "source_1.wav was not created."
assert os.path.exists(source_2_path), "source_2.wav was not created."
# Check if the files have content (not just created)
# For example, you can check if the length of the audio files is greater than a certain threshold
# Here, we'll just verify the files are not empty.
import soundfile as sf
def is_file_non_empty(file_path):
try:
data, _ = sf.read(file_path)
return data.size > 0
except Exception as e:
return False
assert is_file_non_empty(source_1_path), "source_1.wav is empty."
assert is_file_non_empty(source_2_path), "source_2.wav is empty."
print("Test passed: source_1.wav and source_2.wav are present and non-empty.")