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Mod: Update UI to store microphone input in microphone_conette_record.wav file, raises an error when the audio is too short or too long, update main description and show other candidates in outputs.
Browse files- .gitignore +1 -1
- app.py +63 -26
.gitignore
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microphone_conette_record.wav
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app.py
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# -*- coding: utf-8 -*-
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from tempfile import NamedTemporaryFile, _TemporaryFileWrapper
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from typing import Any, Optional
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import streamlit as st
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from st_audiorec import st_audiorec
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from streamlit.runtime.uploaded_file_manager import UploadedFile
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from conette import CoNeTTEModel, conette
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from conette.utils.collections import dict_list_to_list_dict
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MAX_BEAM_SIZE = 20
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MAX_PRED_SIZE = 30
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MAX_BATCH_SIZE = 32
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RECORD_AUDIO_FNAME = "
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DEFAULT_THRESHOLD = 0.3
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THRESHOLD_PRECISION = 100
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@st.cache_resource
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model: CoNeTTEModel,
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audio_files: dict[str, bytes],
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generate_kwds: dict[str, Any],
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) -> dict[str, dict[str, Any]]:
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# Get audio to be processed
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audio_to_predict: dict[str, bytes] = {}
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for audio_fname, audio in audio_files.items():
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result_hash = get_result_hash(audio_fname, generate_kwds)
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if result_hash not in st.session_state or audio_fname == RECORD_AUDIO_FNAME:
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audio_to_predict[result_hash] = audio
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# Save audio to be processed
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tmp_files: dict[str, _TemporaryFileWrapper] = {}
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for result_hash, audio in audio_to_predict.items():
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tmp_file = NamedTemporaryFile()
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tmp_file.write(audio)
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# Generate predictions and store them in session state
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for start in range(0, len(tmp_files), MAX_BATCH_SIZE):
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tmp_paths_j,
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**generate_kwds,
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)
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for tmp_file in tmp_files_j:
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tmp_file.close()
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outputs_lst = dict_list_to_list_dict(outputs_j) # type: ignore
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for result_hash, output_i in zip(result_hashes_j, outputs_lst):
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st.session_state[result_hash] = output_i
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return outputs
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def show_results(outputs: dict[str, dict[str, Any]]) -> None:
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st.divider()
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for audio_fname, output in outputs.items():
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cand = format_candidate(cand)
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tags = format_tags(tags)
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prob = lprobs.exp().tolist()
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if audio_fname == RECORD_AUDIO_FNAME:
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header = "##### Result for microphone input:"
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else:
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header = f'##### Result for "{audio_fname}"'
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content =
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st.divider()
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def main() -> None:
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st.header("Describe audio content with CoNeTTE")
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model = load_conette(model_kwds=dict(device="cpu"))
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record_data = st_audiorec()
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audio_files: Optional[list[UploadedFile]] = st.file_uploader(
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"**Or upload audio files here:**",
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type=["wav", "flac", "mp3", "ogg", "avi"],
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accept_multiple_files=True,
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)
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with st.expander("Model hyperparameters"):
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# -*- coding: utf-8 -*-
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from tempfile import NamedTemporaryFile, _TemporaryFileWrapper
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from typing import Any, Optional, Union
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import streamlit as st
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import torchaudio
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from st_audiorec import st_audiorec
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from streamlit.runtime.uploaded_file_manager import UploadedFile
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from torch import Tensor
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from conette import CoNeTTEModel, conette
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from conette.utils.collections import dict_list_to_list_dict
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MAX_BEAM_SIZE = 20
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MAX_PRED_SIZE = 30
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MAX_BATCH_SIZE = 32
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RECORD_AUDIO_FNAME = "microphone_conette_record.wav"
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DEFAULT_THRESHOLD = 0.3
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THRESHOLD_PRECISION = 100
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MIN_AUDIO_DURATION_SEC = 0.3
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MAX_AUDIO_DURATION_SEC = 60
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@st.cache_resource
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model: CoNeTTEModel,
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audio_files: dict[str, bytes],
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generate_kwds: dict[str, Any],
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) -> dict[str, Union[dict[str, Any], str]]:
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# Get audio to be processed
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audio_to_predict: dict[str, tuple[str, bytes]] = {}
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for audio_fname, audio in audio_files.items():
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result_hash = get_result_hash(audio_fname, generate_kwds)
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if result_hash not in st.session_state or audio_fname == RECORD_AUDIO_FNAME:
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audio_to_predict[result_hash] = (audio_fname, audio)
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# Save audio to be processed
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tmp_files: dict[str, _TemporaryFileWrapper] = {}
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for result_hash, (audio_fname, audio) in audio_to_predict.items():
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tmp_file = NamedTemporaryFile(delete=False)
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tmp_file.write(audio)
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tmp_file.close()
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metadata = torchaudio.info(tmp_file.name) # type: ignore
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duration = metadata.num_frames / metadata.sample_rate
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if MIN_AUDIO_DURATION_SEC > duration:
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error_msg = f"Audio file is too short. (found {duration:.2f}s but the model expect audio in range [{MIN_AUDIO_DURATION_SEC}, {MAX_AUDIO_DURATION_SEC}])"
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st.session_state[result_hash] = error_msg
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elif duration > MAX_AUDIO_DURATION_SEC:
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error_msg = f"Audio file is too long. (found {duration:.2f}s but the model expect audio in range [{MIN_AUDIO_DURATION_SEC}, {MAX_AUDIO_DURATION_SEC}])"
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st.session_state[result_hash] = error_msg
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else:
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tmp_files[result_hash] = tmp_file
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# Generate predictions and store them in session state
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for start in range(0, len(tmp_files), MAX_BATCH_SIZE):
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tmp_paths_j,
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**generate_kwds,
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)
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outputs_lst = dict_list_to_list_dict(outputs_j) # type: ignore
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for result_hash, output_i in zip(result_hashes_j, outputs_lst):
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st.session_state[result_hash] = output_i
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return outputs
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def show_results(outputs: dict[str, Union[dict[str, Any], str]]) -> None:
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st.divider()
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for audio_fname, output in outputs.items():
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if isinstance(output, str):
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st.error(output)
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st.divider()
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continue
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cand: str = output["cands"]
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lprobs: Tensor = output["lprobs"]
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tags_lst = output.get("tags")
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mult_cands: list[str] = output["mult_cands"]
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mult_lprobs: Tensor = output["mult_lprobs"]
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cand = format_candidate(cand)
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prob = lprobs.exp().tolist()
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tags = format_tags(tags_lst)
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mult_cands = [format_candidate(cand_i) for cand_i in mult_cands]
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mult_probs = mult_lprobs.exp()
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indexes = mult_probs.argsort(descending=True)[1:]
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mult_probs = mult_probs[indexes].tolist()
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mult_cands = [mult_cands[idx] for idx in indexes]
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if audio_fname == RECORD_AUDIO_FNAME:
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header = "##### Result for microphone input:"
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else:
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header = f'##### Result for "{audio_fname}"'
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content = [
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header,
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f'- **Description:** "{cand}" ({prob*100:.1f}%)',
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f"- **Tags:** {tags}",
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]
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if len(mult_cands) > 0:
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msg = f"- **Other descriptions:**"
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content.append(msg)
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for cand_i, prob_i in zip(mult_cands, mult_probs):
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msg = f' - "{cand_i}" ({prob_i*100:.1f}%)'
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content.append(msg)
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st.success("\n".join(content))
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st.divider()
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def main() -> None:
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model = load_conette(model_kwds=dict(device="cpu"))
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st.header("Describe audio content with CoNeTTE")
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st.markdown(
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"This interface allows you to generate a short description of the sound events of any recording. You can try it from your microphone or upload a file below."
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)
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record_data = st_audiorec()
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audio_files: Optional[list[UploadedFile]] = st.file_uploader(
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"**Or upload audio files here:**",
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type=["wav", "flac", "mp3", "ogg", "avi"],
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accept_multiple_files=True,
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help="Recommanded audio: lasting from **1 to 30s**, sampled at **32 kHz** minimum.",
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)
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with st.expander("Model hyperparameters"):
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