import os
import gradio as gr
import re
import folium
from fastai.vision.all import *
from groq import Groq
from PIL import Image
# Load the trained model
learn = load_learner('export.pkl')
labels = learn.dls.vocab
# Initialize Groq client
client = Groq(
api_key=os.environ.get("GROQ_API_KEY"),
)
# Language translations
translations = {
"en": {
"app_title": "Bird Species Explorer: AI-Powered Identification for Researchers",
"app_description": "🔍 Upload a bird photo to instantly identify species and access comprehensive data on habitats, behaviors, and climate change impacts. A powerful tool for Tanzania-based ornithological research.",
"upload_label": "Upload Bird Image",
"identify_button": "Identify Bird",
"predictions_label": "Top 5 Predictions",
"bird_info_label": "Bird Information",
"research_questions": "Research Questions",
"question_placeholder": "Example: How has climate change affected this bird's migration pattern?",
"question_label": "Ask a question about this bird",
"submit_question": "Submit Question",
"clear_conversation": "Clear Conversation",
"upload_prompt": "Please upload an image",
"question_title": "Question:",
"answer_title": "Answer:",
"habitat_map_title": "Natural Habitat Map for",
"detailed_info_title": "Detailed Information",
"language_label": "Language / Lugha"
},
"sw": {
"app_title": "Mtafiti wa Ndege: Utambuzi wa Kiotomatiki kwa Watafiti",
"app_description": "🔍 Pakia picha ya ndege ili kutambua spishi mara moja na kupata data kamili kuhusu makazi, tabia, na athari za mabadiliko ya tabianchi. Zana yenye nguvu kwa utafiti wa ndege nchini Tanzania.",
"upload_label": "Pakia Picha ya Ndege",
"identify_button": "Tambua Ndege",
"predictions_label": "Utabiri Bora 5",
"bird_info_label": "Taarifa za Ndege",
"research_questions": "Maswali ya Utafiti",
"question_placeholder": "Mfano: Je, mabadiliko ya tabianchi yameathiri vipi mfumo wa uhamiaji wa ndege huyu?",
"question_label": "Uliza swali kuhusu ndege huyu",
"submit_question": "Wasilisha Swali",
"clear_conversation": "Futa Mazungumzo",
"upload_prompt": "Tafadhali pakia picha",
"question_title": "Swali:",
"answer_title": "Jibu:",
"habitat_map_title": "Ramani ya Makazi Asilia ya",
"detailed_info_title": "Taarifa za Kina",
"language_label": "Language / Lugha"
}
}
def clean_bird_name(name):
"""Clean bird name by removing numbers and special characters, and fix formatting"""
# Remove numbers and dots at the beginning
cleaned = re.sub(r'^\d+\.', '', name)
# Replace underscores with spaces
cleaned = cleaned.replace('_', ' ')
# Remove any remaining special characters
cleaned = re.sub(r'[^\w\s]', '', cleaned)
# Fix spacing
cleaned = ' '.join(cleaned.split())
return cleaned
def get_bird_habitat_map(bird_name, check_tanzania=True):
"""Get habitat map locations for the bird using Groq API"""
clean_name = clean_bird_name(bird_name)
# First check if the bird is endemic to Tanzania
if check_tanzania:
tanzania_check_prompt = f"""
Is the {clean_name} bird native to or commonly found in Tanzania?
Answer with ONLY "yes" or "no".
"""
try:
tanzania_check = client.chat.completions.create(
messages=[{"role": "user", "content": tanzania_check_prompt}],
model="llama-3.3-70b-versatile",
)
is_in_tanzania = "yes" in tanzania_check.choices[0].message.content.lower()
except:
# Default to showing Tanzania if we can't determine
is_in_tanzania = True
else:
is_in_tanzania = True
# Now get the habitat locations
prompt = f"""
Provide a JSON array of the main habitat locations for the {clean_name} bird in the world.
Return ONLY a JSON array with 3-5 entries, each containing:
1. "name": Location name
2. "lat": Latitude (numeric value)
3. "lon": Longitude (numeric value)
4. "description": Brief description of why this is a key habitat (2-3 sentences)
Example format:
[
{{"name": "Example Location", "lat": 12.34, "lon": 56.78, "description": "Brief description"}},
...
]
{'' if is_in_tanzania else 'DO NOT include any locations in Tanzania as this bird is not native to or commonly found there.'}
"""
try:
chat_completion = client.chat.completions.create(
messages=[
{
"role": "user",
"content": prompt,
}
],
model="llama-3.3-70b-versatile",
)
response = chat_completion.choices[0].message.content
# Extract JSON from response (in case there's additional text)
import json
import re
# Find JSON pattern in response
json_match = re.search(r'\[.*\]', response, re.DOTALL)
if json_match:
locations = json.loads(json_match.group())
else:
# Fallback if JSON extraction fails
locations = [
{"name": "Primary habitat region", "lat": 0, "lon": 0,
"description": "Could not retrieve specific habitat information for this bird."}
]
return locations, is_in_tanzania
except Exception as e:
return [{"name": "Error retrieving data", "lat": 0, "lon": 0,
"description": "Please try again or check your connection."}], False
def create_habitat_map(habitat_locations):
"""Create a folium map with the habitat locations"""
# Find center point based on valid coordinates
valid_coords = [(loc.get("lat", 0), loc.get("lon", 0))
for loc in habitat_locations
if loc.get("lat", 0) != 0 or loc.get("lon", 0) != 0]
if valid_coords:
# Calculate the average of the coordinates
avg_lat = sum(lat for lat, _ in valid_coords) / len(valid_coords)
avg_lon = sum(lon for _, lon in valid_coords) / len(valid_coords)
# Create map centered on the average coordinates
m = folium.Map(location=[avg_lat, avg_lon], zoom_start=3)
else:
# Default world map if no valid coordinates
m = folium.Map(location=[20, 0], zoom_start=2)
# Add markers for each habitat location
for location in habitat_locations:
name = location.get("name", "Unknown")
lat = location.get("lat", 0)
lon = location.get("lon", 0)
description = location.get("description", "No description available")
# Skip invalid coordinates
if lat == 0 and lon == 0:
continue
# Add marker
folium.Marker(
location=[lat, lon],
popup=folium.Popup(f"{name}
{description}", max_width=300),
tooltip=name
).add_to(m)
# Save map to HTML
map_html = m._repr_html_()
return map_html
def format_bird_info(raw_info, language="en"):
"""Improve the formatting of bird information"""
# Add proper line breaks between sections and ensure consistent heading levels
formatted = raw_info
# Get translation of warning text based on language
warning_text = "NOT TYPICALLY FOUND IN TANZANIA"
warning_translation = "HAPATIKANI SANA TANZANIA" if language == "sw" else warning_text
# Fix heading levels (make all main sections h3)
formatted = re.sub(r'#+\s+' + warning_text,
f'⚠️ {warning_translation}
',
formatted)
# Replace markdown headings with HTML headings for better control
formatted = re.sub(r'#+\s+(.*)', r'\1
', formatted)
# Add paragraph tags for better spacing
formatted = re.sub(r'\n\*\s+(.*)', r'• \1
', formatted)
formatted = re.sub(r'\n([^<\n].*)', r'\1
', formatted)
# Remove any duplicate paragraph tags
formatted = formatted.replace('', '
')
formatted = formatted.replace('
', '')
return formatted
def get_bird_info(bird_name, language="en"):
"""Get detailed information about a bird using Groq API"""
clean_name = clean_bird_name(bird_name)
# Adjust language for the prompt
lang_instruction = ""
if language == "sw":
lang_instruction = " Provide your response in Swahili language."
prompt = f"""
Provide detailed information about the {clean_name} bird, including:
1. Physical characteristics and appearance
2. Habitat and distribution
3. Diet and behavior
4. Migration patterns (emphasize if this pattern has changed in recent years due to climate change)
5. Conservation status
If this bird is not commonly found in Tanzania, explicitly flag that this bird is "NOT TYPICALLY FOUND IN TANZANIA" at the beginning of your response and explain why its presence might be unusual.
Format your response in markdown for better readability.{lang_instruction}
"""
try:
chat_completion = client.chat.completions.create(
messages=[
{
"role": "user",
"content": prompt,
}
],
model="llama-3.3-70b-versatile",
)
return chat_completion.choices[0].message.content
except Exception as e:
error_msg = "Hitilafu katika kupata taarifa" if language == "sw" else "Error fetching information"
return f"{error_msg}: {str(e)}"
def predict_and_get_info(img, language="en"):
"""Predict bird species and get detailed information"""
# Get translations
t = translations[language]
# Process the image
img = PILImage.create(img)
# Get prediction
pred, pred_idx, probs = learn.predict(img)
# Get top 5 predictions (or all if less than 5)
num_classes = min(5, len(labels))
top_indices = probs.argsort(descending=True)[:num_classes]
top_probs = probs[top_indices]
top_labels = [labels[i] for i in top_indices]
# Format as dictionary with cleaned names for display
prediction_results = {clean_bird_name(top_labels[i]): float(top_probs[i]) for i in range(num_classes)}
# Get top prediction (original format for info retrieval)
top_bird = str(pred)
# Also keep a clean version for display
clean_top_bird = clean_bird_name(top_bird)
# Get habitat locations and create map
habitat_locations, is_in_tanzania = get_bird_habitat_map(top_bird)
habitat_map_html = create_habitat_map(habitat_locations)
# Get detailed information about the top predicted bird
bird_info = get_bird_info(top_bird, language)
formatted_info = format_bird_info(bird_info, language)
# Create combined info with map at the top and properly formatted information
custom_css = """
"""
combined_info = f"""
{custom_css}
{t['habitat_map_title']} {clean_top_bird}
{habitat_map_html}
{t['detailed_info_title']}
{formatted_info}
"""
return prediction_results, combined_info, clean_top_bird
def follow_up_question(question, bird_name, language="en"):
"""Allow researchers to ask follow-up questions about the identified bird"""
t = translations[language]
if not question.strip() or not bird_name:
return "Please identify a bird first and ask a specific question about it." if language == "en" else "Tafadhali tambua ndege kwanza na uulize swali maalum kuhusu ndege huyo."
# Adjust language for the prompt
lang_instruction = ""
if language == "sw":
lang_instruction = " Provide your response in Swahili language."
prompt = f"""
The researcher is asking about the {bird_name} bird: "{question}"
Provide a detailed, scientific answer focusing on accurate ornithological information.
If the question relates to Tanzania or climate change impacts, emphasize those aspects in your response.
IMPORTANT: Do not repeat basic introductory information about the bird that would have already been provided in a general description.
Do not start your answer with phrases like "Introduction to the {bird_name}" or similar repetitive headers.
Directly answer the specific question asked.
Format your response in markdown for better readability.{lang_instruction}
"""
try:
chat_completion = client.chat.completions.create(
messages=[
{
"role": "user",
"content": prompt,
}
],
model="llama-3.3-70b-versatile",
)
return chat_completion.choices[0].message.content
except Exception as e:
error_msg = "Hitilafu katika kupata taarifa" if language == "sw" else "Error fetching information"
return f"{error_msg}: {str(e)}"
# Create the Gradio interface
with gr.Blocks(theme=gr.themes.Soft()) as app:
# Current language and bird state
current_lang = gr.State("en")
current_bird = gr.State("")
# Header with language switcher
with gr.Row():
with gr.Column(scale=3):
title_md = gr.Markdown(f"# {translations['en']['app_title']}")
with gr.Column(scale=1):
language_selector = gr.Radio(
choices=["English", "Kiswahili"],
label=translations['en']['language_label'],
value="English"
)
# App description
description_md = gr.Markdown(f"{translations['en']['app_description']}")
# Main identification section
with gr.Row():
with gr.Column(scale=1):
input_image = gr.Image(type="pil", label=translations['en']['upload_label'])
submit_btn = gr.Button(translations['en']['identify_button'], variant="primary")
with gr.Column(scale=2):
prediction_output = gr.Label(label=translations['en']['predictions_label'], num_top_classes=5)
bird_info_output = gr.HTML(label=translations['en']['bird_info_label'])
# Clear divider
gr.Markdown("---")
# Follow-up question section with improved UI
questions_header = gr.Markdown(f"## {translations['en']['research_questions']}")
conversation_history = gr.Markdown("")
with gr.Row():
follow_up_input = gr.Textbox(
label=translations['en']['question_label'],
placeholder=translations['en']['question_placeholder'],
lines=2
)
with gr.Row():
follow_up_btn = gr.Button(translations['en']['submit_question'], variant="primary")
clear_btn = gr.Button(translations['en']['clear_conversation'])
# Functions for event handlers
def process_image(img, lang):
if img is None:
return None, translations[lang]['upload_prompt'], "", ""
try:
pred_results, info, clean_bird_name = predict_and_get_info(img, lang)
return pred_results, info, clean_bird_name, ""
except Exception as e:
error_msg = "Hitilafu katika kuchakata picha" if lang == "sw" else "Error processing image"
return None, f"{error_msg}: {str(e)}", "", ""
def update_conversation(question, bird_name, history, lang):
t = translations[lang]
if not question.strip():
return history
answer = follow_up_question(question, bird_name, lang)
# Format the conversation with clear separation
new_exchange = f"""
### {t['question_title']}
{question}
### {t['answer_title']}
{answer}
---
"""
updated_history = new_exchange + history
return updated_history
def clear_conversation_history():
return ""
def update_language(choice):
# Convert selection to language code
lang = "sw" if choice == "Kiswahili" else "en"
t = translations[lang]
# Return updated UI components based on selected language
return (
lang,
f"# {t['app_title']}",
f"{t['app_description']}",
t['upload_label'],
t['identify_button'],
t['predictions_label'],
t['bird_info_label'],
f"## {t['research_questions']}",
t['question_label'],
t['question_placeholder'],
t['submit_question'],
t['clear_conversation']
)
# Set up event handlers
language_selector.change(
update_language,
inputs=[language_selector],
outputs=[
current_lang,
title_md,
description_md,
input_image,
submit_btn,
prediction_output,
bird_info_output,
questions_header,
follow_up_input,
follow_up_input,
follow_up_btn,
clear_btn
]
)
submit_btn.click(
process_image,
inputs=[input_image, current_lang],
outputs=[prediction_output, bird_info_output, current_bird, conversation_history]
)
follow_up_btn.click(
update_conversation,
inputs=[follow_up_input, current_bird, conversation_history, current_lang],
outputs=[conversation_history]
).then(
lambda: "",
outputs=follow_up_input
)
clear_btn.click(
clear_conversation_history,
outputs=[conversation_history]
)
# Launch the app
app.launch(share=True)