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import streamlit as st
import os
import ast
import pandas as pd
import gspread
from google.oauth2.service_account import Credentials
import glob
import soundfile as sf
from maad import sound
from maad.util import power2dB
from skimage import transform
import logging
import zipfile
import tempfile
from datetime import datetime
import matplotlib.pyplot as plt
# Set up logging
logging.basicConfig(level=logging.DEBUG)
logger = logging.getLogger(__name__)
gcp_service_account = ast.literal_eval(os.getenv("gcp_service_account"))
@st.cache_resource
def authorize_google_sheets():
scope = ["https://www.googleapis.com/auth/spreadsheets", "https://www.googleapis.com/auth/drive"]
creds = Credentials.from_service_account_info(gcp_service_account, scopes=scope)
client = gspread.authorize(creds)
return client
def get_google_sheet_data(rec_name):
client = authorize_google_sheets()
sheet = client.open("Annotações_Parque_das_Neblinas").worksheet(rec_name)
data = sheet.get_all_records()
df = pd.DataFrame(data)
return df
def get_annotation_status():
client = authorize_google_sheets()
sheet = client.open("XP_annotation_status").worksheet("status")
data = sheet.get_all_records()
df = pd.DataFrame(data)
# Ensure required columns are present
if 'cluster_folder' not in df.columns:
df['cluster_folder'] = ''
if 'user' not in df.columns:
df['user'] = ''
if 'status' not in df.columns:
df['status'] = ''
if 'timestamp' not in df.columns:
df['timestamp'] = ''
return df
def update_annotation_status(cluster_folder, user, status):
client = authorize_google_sheets()
sheet = client.open("XP_annotation_status").worksheet("status")
df = get_annotation_status()
idx = df[df['cluster_folder'] == cluster_folder].index
if not idx.empty:
sheet.update_cell(idx[0] + 2, 2, user)
sheet.update_cell(idx[0] + 2, 3, status)
sheet.update_cell(idx[0] + 2, 4, datetime.now().strftime("%Y-%m-%d %H:%M:%S"))
else:
sheet.append_row([cluster_folder, user, status, datetime.now().strftime("%Y-%m-%d %H:%M:%S")])
@st.cache_data
def load_audio_files(folder):
audio_files = glob.glob(os.path.join(folder, "*.WAV"))
logger.debug(f"Audio files loaded from {folder}: {audio_files}")
return sorted(audio_files) # Sort audio files alphabetically
#@st.cache_data
def plot_spec(file_path, cmap: str):
import matplotlib.pyplot as plt
s, fs = sound.load(file_path)
duration = len(s) / fs
# Adjust figure size based on the duration of the audio file
if duration < 1:
fig_size = (2, 2)
elif duration < 2:
fig_size = (2.5, 2)
elif duration < 3:
fig_size = (4, 2.5)
else:
fig_size = (5, 3.5)
Sxx, tn, fn, ext = sound.spectrogram(s, fs, nperseg=1024, noverlap=512, flims=(0, fs // 2))
Sxx_db = power2dB(Sxx, db_range=70)
Sxx_db = transform.rescale(Sxx_db, 0.5, anti_aliasing=True, channel_axis=None)
fig, ax = plt.subplots(figsize=fig_size)
img = ax.imshow(Sxx_db, aspect='auto', extent=ext, origin='lower', interpolation='bilinear', cmap=cmap)
fig.colorbar(img, ax=ax, format="%+2.0f dB")
ax.set(title='', xlabel='Time [s]', ylabel='Frequency [Hz]')
plt.tight_layout()
spectrogram_path = 'temp_spectrogram.png'
plt.savefig(spectrogram_path)
plt.close(fig)
st.image(spectrogram_path)
@st.cache_data
def spacing():
st.markdown("<br></br>", unsafe_allow_html=True)
def update_google_sheet(client, rec_name, annotations_df):
sheet = client.open("Annotações_Parque_das_Neblinas").worksheet(rec_name)
sheet.clear() # Clear existing data
sheet.update([annotations_df.columns.values.tolist()] + annotations_df.values.tolist())
def plot_pie_chart(annotations_df):
total_clusters = len(annotations_df['cluster_number'].unique())
annotated_clusters = annotations_df[annotations_df['validated_class'] != 0]['cluster_number'].nunique()
remaining_clusters = total_clusters - annotated_clusters
labels = 'Annotated', 'Unannotated'
sizes = [annotated_clusters, remaining_clusters]
colors = ['#1fd655', '#ff9999']
explode = (0.1, 0) # explode the 1st slice
fig1, ax1 = plt.subplots(figsize=(1, 1))
ax1.pie(sizes, explode=explode, labels=labels, colors=colors, autopct='%1.0f%%',
shadow=True, startangle=90)
ax1.axis('equal') # Equal aspect ratio ensures that pie is drawn as a circle.
plt.rcParams['font.size'] = 9.0
st.pyplot(fig1)
def iden():
# Set up the credentials and client
st.markdown('#####')
st.header("Bamscape Clusters Annotator")
client = authorize_google_sheets()
# Select a recorder to analyze
rec_name = st.selectbox('**:violet[Please, select a recorder to analyze]**',
options=['C1_G01', 'C1_G01_v2', 'C1_G02', 'C1_G03', 'C1_G04', 'C1_G05', 'T24_G06', 'T24_G07', 'T24_G08', 'T24_G09', 'T24_G10', 'T28_G11', 'T28_G12', 'T28_G13', 'T28_G14', 'T28_G15'])
if rec_name:
# Load the CSV files and Google Sheets
sheet = client.open("Annotações_Parque_das_Neblinas").worksheet(f"{rec_name}")
final_annotations = pd.DataFrame(sheet.get_all_records())
st.session_state.final_annotations = final_annotations
annotations_df = st.session_state.final_annotations
csv_file = f'{rec_name}_all_CLUSTERS_COMBINED.csv'
# Display the pie chart
plot_pie_chart(annotations_df)
# Filter out the annotated rows based on specific columns
unannotated_df = annotations_df[(annotations_df['validated_class'] == 0) |
(annotations_df['validated_specie'] == 0) |
(annotations_df['validator_name'] == 0)]
# Load the initial state from the Google Sheet
if 'folders' not in st.session_state:
folders = unannotated_df['cluster_number'].astype(str).unique()
st.session_state.folders = {
folder: unannotated_df[unannotated_df['cluster_number'] == int(folder)]['period'].astype(
str).unique().tolist() for folder in folders}
# Get current annotation status
annotation_status = get_annotation_status()
# Check if user has previously uploaded files for the selected rec_name and store in session state
if 'uploaded_files' not in st.session_state:
st.session_state.uploaded_files = {}
# Allow the user to upload a ZIP file
uploaded_files = st.file_uploader(f"**:violet[Upload a ZIP file containing Clusters folders of {rec_name}]**", type=["zip"], accept_multiple_files=True)
if uploaded_files:
# Create a temporary directory to extract the ZIP file
with tempfile.TemporaryDirectory() as tmpdir:
for uploaded_file in uploaded_files:
with zipfile.ZipFile(uploaded_file, 'r') as zip_ref:
zip_ref.extractall(tmpdir)
st.success(f"Clusters folders extracted successfully")
# Log the extracted files and directories
for root, dirs, files in os.walk(tmpdir):
logger.debug(f"Extracted root: {root}")
logger.debug(f"Extracted dirs: {dirs}")
logger.debug(f"Extracted files: {files}")
# Use the extracted directory as the base path
base_path = tmpdir
col1, col2, col3 = st.columns(3)
selected_folder = None
selected_subfolder = None
with st.container():
with col1:
if st.session_state.folders:
selected_folder = st.selectbox("**:violet[Select a cluster folder to analyze]**",
list(st.session_state.folders.keys()))
logger.debug(f"Selected folder: {selected_folder}")
else:
st.success("Congratulations, all the clusters have been annotated! Please select another recorder to annotate.")
with col2:
if selected_folder:
subfolders = st.session_state.folders[selected_folder]
if subfolders:
selected_subfolder = st.selectbox("**:violet[Select a subfolder to analyze]**", subfolders)
logger.debug(f"Selected subfolder: {selected_subfolder}")
with col3:
selected_cmap = st.selectbox("**:violet[Choose a colormap to display spectrograms]**",
options=['jet', 'Greys', 'plasma', 'viridis', 'inferno'])
if selected_folder and selected_subfolder:
subfolder_path = os.path.join(base_path, selected_folder, selected_subfolder)
logger.debug(f"Subfolder path: {subfolder_path}")
for root, dirs, files in os.walk(subfolder_path, topdown=False):
targetfolder = files
logger.debug(f"Files in subfolder: {files}")
st.write(targetfolder)
st.markdown("---")
audio_files = load_audio_files(subfolder_path)
logger.debug(f"Audio files found: {audio_files}")
if audio_files:
form = st.form(key=f"user_form")
annotations = [] # Initialize annotations list here
with form:
for i, audio_file in enumerate(audio_files):
file_name = os.path.basename(audio_file)
cols = [1.70, 1, 1, 1, 1, 1]
col1, col2, col3, col4, col5, col6 = st.columns(cols)
with col1:
with st.spinner('Processing...'):
st.markdown(
f"<h6 style='text-align: center; color: green;'>ROI: {file_name} </h10>",
unsafe_allow_html=True)
plot_spec(audio_file, cmap=selected_cmap)
with col2:
st.markdown(f"<h2 style='text-align: center; color: black;'></h10>",
unsafe_allow_html=True)
st.markdown('######')
audio_data, audio_sr = sf.read(audio_file)
st.audio(audio_data, format='audio/wav', sample_rate=audio_sr, )
with col3:
st.markdown('#####')
st.markdown(f"<h4 style='text-align: center; color: blue;'>Group</h5>",
unsafe_allow_html=True)
suggested_group = annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'suggested_class'].values[0]
group_input = st.text_input(f"*(modify the text if needed)*", value=suggested_group,
key=f"group_{file_name}")
with col4:
st.markdown('#####')
st.markdown(f"<h4 style='text-align: center; color: blue;'>Species</h5>",
unsafe_allow_html=True)
suggested_label = annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'suggested_label'].values[0]
scientific_name_input = st.text_input("*(modify the text if needed)*",
value=suggested_label,
key=f"scientific_name_{file_name}")
with col5:
st.markdown('#####')
st.markdown(f"<h4 style='text-align: center; color: blue;'>Validator</h5>",
unsafe_allow_html=True)
validator_name = annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'validator_name'].values[0]
validator_name_input = st.text_input("*(please, enter your name)*",
value=validator_name,
key=f"validator_name_{file_name}")
with col6:
st.markdown('#####')
st.markdown(f"<h4 style='text-align: center; color: blue;'>Comment</h5>",
unsafe_allow_html=True)
comment = annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'comment'].values[0]
comment_input = st.text_input("*(feel free to tell something)*", value=comment,
key=f"validator_comment_{file_name}")
annotations.append({
'file_name': file_name,
'group_input': group_input,
'scientific_name_input': scientific_name_input,
'validator_name_input': validator_name_input,
'comment_input': comment_input
})
submitButton = form.form_submit_button(label="Submit annotations")
if submitButton:
with st.spinner('Saving annotations...'):
for annotation in annotations:
file_name = annotation['file_name']
group_input = annotation['group_input']
scientific_name_input = annotation['scientific_name_input']
validator_name_input = annotation['validator_name_input']
comment_input = annotation['comment_input']
# Update the annotations_df DataFrame with new annotations
annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'validated_class'] = group_input
annotations_df.loc[
annotations_df[
'filename_ts'] == file_name, 'validated_specie'] = scientific_name_input
annotations_df.loc[
annotations_df[
'filename_ts'] == file_name, 'validator_name'] = validator_name_input
annotations_df.loc[
annotations_df['filename_ts'] == file_name, 'comment'] = comment_input
annotations_df['validated_class'] = annotations_df['validated_class'].astype(str)
# Save to CSV file
annotations_df.to_csv(csv_file, index=False)
# Update the Google Sheet
update_google_sheet(client, rec_name, annotations_df)
st.success("All annotations have been saved.")
# Remove the analyzed subfolder from the list
st.session_state.folders[selected_folder].remove(selected_subfolder)
# If no more subfolders in the main folder, remove the main folder as well
if not st.session_state.folders[selected_folder]:
del st.session_state.folders[selected_folder]
st.rerun()
else:
st.error("No audio files found in the selected subfolder.")
spacing()
# Display the DataFrame
st.header("Annotated DataFrame")
st.write(
":orange[Feel free to also access the dataframe on google sheet [link](https://docs.google.com/spreadsheets/d/1_-Zeg3lqif3_a5QnM4LQApVC8kdcyOksqdg1lOxRXcc/edit?gid=458225708#gid=458225708)]")
df = get_google_sheet_data(rec_name)
df_display = df.astype(str)
st.write(df_display)
st.markdown('#####')
if __name__ == "__main__":
iden()
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