import os
import io
import gradio as gr
import torch
import numpy as np
import re
import pronouncing
import functools
from transformers import (
AutoModelForAudioClassification,
AutoFeatureExtractor,
AutoTokenizer,
pipeline,
AutoModelForCausalLM,
BitsAndBytesConfig
)
from huggingface_hub import login
from utils import (
load_audio,
extract_audio_duration,
extract_mfcc_features,
format_genre_results,
ensure_cuda_availability
)
from emotionanalysis import MusicAnalyzer
import librosa
from beat_analysis import BeatAnalyzer # Import the BeatAnalyzer class
# Initialize beat analyzer
beat_analyzer = BeatAnalyzer()
# Login to Hugging Face Hub if token is provided
if "HF_TOKEN" in os.environ:
login(token=os.environ["HF_TOKEN"])
# Constants
GENRE_MODEL_NAME = "dima806/music_genres_classification"
MUSIC_DETECTION_MODEL = "MIT/ast-finetuned-audioset-10-10-0.4593"
LLM_MODEL_NAME = "Qwen/Qwen3-32B"
SAMPLE_RATE = 22050 # Standard sample rate for audio processing
# Check CUDA availability (for informational purposes)
CUDA_AVAILABLE = ensure_cuda_availability()
# Load models at initialization time
print("Loading genre classification model...")
try:
genre_feature_extractor = AutoFeatureExtractor.from_pretrained(GENRE_MODEL_NAME)
genre_model = AutoModelForAudioClassification.from_pretrained(
GENRE_MODEL_NAME,
device_map="auto" if CUDA_AVAILABLE else None
)
# Create a convenience wrapper function with the same interface as before
def get_genre_model():
return genre_model, genre_feature_extractor
except Exception as e:
print(f"Error loading genre model: {str(e)}")
genre_model = None
genre_feature_extractor = None
# Load LLM and tokenizer at initialization time
print("Loading Qwen LLM model with 4-bit quantization...")
try:
# Configure 4-bit quantization for better performance
quantization_config = BitsAndBytesConfig(
load_in_4bit=True,
bnb_4bit_quant_type="nf4",
bnb_4bit_compute_dtype=torch.float16,
bnb_4bit_use_double_quant=True
)
llm_tokenizer = AutoTokenizer.from_pretrained(LLM_MODEL_NAME)
llm_model = AutoModelForCausalLM.from_pretrained(
LLM_MODEL_NAME,
quantization_config=quantization_config,
device_map="auto",
trust_remote_code=True,
torch_dtype=torch.float16,
use_cache=True
)
except Exception as e:
print(f"Error loading LLM model: {str(e)}")
llm_tokenizer = None
llm_model = None
# Create music analyzer instance
music_analyzer = MusicAnalyzer()
# Process uploaded audio file
def process_audio(audio_file):
if audio_file is None:
return "No audio file provided", None, None, None, None, None, None, None
try:
# Load and analyze audio
y, sr = load_audio(audio_file, sr=SAMPLE_RATE)
# Basic audio information
duration = extract_audio_duration(y, sr)
# Analyze music with MusicAnalyzer
music_analysis = music_analyzer.analyze_music(audio_file)
# Extract key information
tempo = music_analysis["rhythm_analysis"]["tempo"]
emotion = music_analysis["emotion_analysis"]["primary_emotion"]
theme = music_analysis["theme_analysis"]["primary_theme"]
# Use genre classification directly instead of pipeline
if genre_model is not None and genre_feature_extractor is not None:
# Resample audio to 16000 Hz for the genre model
y_16k = librosa.resample(y, orig_sr=sr, target_sr=16000)
# Extract features
inputs = genre_feature_extractor(
y_16k,
sampling_rate=16000,
return_tensors="pt"
).to(genre_model.device)
# Classify genre
with torch.no_grad():
outputs = genre_model(**inputs)
logits = outputs.logits
probs = torch.nn.functional.softmax(logits, dim=-1)
# Get top genres
values, indices = torch.topk(probs[0], k=5)
top_genres = [(genre_model.config.id2label[idx.item()], val.item()) for val, idx in zip(values, indices)]
else:
# Fallback if model loading failed
top_genres = [("Unknown", 1.0)]
# Format genre results for display
genre_results_text = format_genre_results(top_genres)
primary_genre = top_genres[0][0]
# Override time signature for pop and disco genres to always be 4/4
if any(genre.lower() in primary_genre.lower() for genre in ['pop', 'disco']):
music_analysis["rhythm_analysis"]["estimated_time_signature"] = "4/4"
time_signature = "4/4"
else:
# Use detected time signature for other genres
time_signature = music_analysis["rhythm_analysis"]["estimated_time_signature"]
# Ensure time signature is one of the supported ones (4/4, 3/4, 6/8)
if time_signature not in ["4/4", "3/4", "6/8"]:
time_signature = "4/4" # Default to 4/4 if unsupported
music_analysis["rhythm_analysis"]["estimated_time_signature"] = time_signature
# Analyze beat patterns and create lyrics template using the time signature
beat_analysis = beat_analyzer.analyze_beat_pattern(audio_file, time_signature=time_signature)
lyric_templates = beat_analyzer.create_lyric_template(beat_analysis)
# Store these in the music_analysis dict for use in lyrics generation
music_analysis["beat_analysis"] = beat_analysis
music_analysis["lyric_templates"] = lyric_templates
# Prepare analysis summary
analysis_summary = f"""
### Music Analysis Results
**Duration:** {duration:.2f} seconds
**Tempo:** {tempo:.1f} BPM
**Time Signature:** {time_signature}
**Key:** {music_analysis["tonal_analysis"]["key"]} {music_analysis["tonal_analysis"]["mode"]}
**Primary Emotion:** {emotion}
**Primary Theme:** {theme}
**Top Genre:** {primary_genre}
{genre_results_text}
"""
# Add beat analysis summary
if lyric_templates:
analysis_summary += f"""
### Beat Analysis
**Total Phrases:** {len(lyric_templates)}
**Average Beats Per Phrase:** {np.mean([t['num_beats'] for t in lyric_templates]):.1f}
**Beat Pattern Examples:**
- Phrase 1: {lyric_templates[0]['stress_pattern'] if lyric_templates else 'N/A'}
- Phrase 2: {lyric_templates[1]['stress_pattern'] if len(lyric_templates) > 1 else 'N/A'}
"""
# Check if genre is supported for lyrics generation
# Use the supported_genres list from BeatAnalyzer
genre_supported = any(genre.lower() in primary_genre.lower() for genre in beat_analyzer.supported_genres)
# Generate lyrics only for supported genres
if genre_supported:
lyrics = generate_lyrics(music_analysis, primary_genre, duration)
beat_match_analysis = analyze_lyrics_rhythm_match(lyrics, lyric_templates, primary_genre)
else:
supported_genres_str = ", ".join([genre.capitalize() for genre in beat_analyzer.supported_genres])
lyrics = f"Lyrics generation is only supported for the following genres: {supported_genres_str}.\n\nDetected genre '{primary_genre}' doesn't have strong syllable-to-beat patterns required for our lyric generation algorithm."
beat_match_analysis = "Lyrics generation not available for this genre."
return analysis_summary, lyrics, tempo, time_signature, emotion, theme, primary_genre, beat_match_analysis
except Exception as e:
error_msg = f"Error processing audio: {str(e)}"
print(error_msg)
return error_msg, None, None, None, None, None, None, None
def generate_lyrics(music_analysis, genre, duration):
try:
# Extract meaningful information for context
tempo = music_analysis["rhythm_analysis"]["tempo"]
key = music_analysis["tonal_analysis"]["key"]
mode = music_analysis["tonal_analysis"]["mode"]
emotion = music_analysis["emotion_analysis"]["primary_emotion"]
theme = music_analysis["theme_analysis"]["primary_theme"]
# Get beat analysis and templates
lyric_templates = music_analysis.get("lyric_templates", [])
# Verify LLM is loaded
if llm_model is None or llm_tokenizer is None:
return "Error: LLM model not properly loaded"
# If no templates, fall back to original method
if not lyric_templates:
# Simplified prompt
prompt = f"""Write song lyrics for a {genre} song in {key} {mode} with tempo {tempo} BPM. The emotion is {emotion} and theme is {theme}.
ONLY WRITE THE ACTUAL LYRICS. NO EXPLANATIONS OR META-TEXT.
"""
else:
# Calculate the typical syllable range for this genre
if num_phrases > 0:
# Get max syllables per line from templates
max_syllables = max([t.get('max_expected', 7) for t in lyric_templates]) if lyric_templates[0].get('max_expected') else 7
min_syllables = min([t.get('min_expected', 2) for t in lyric_templates]) if lyric_templates[0].get('min_expected') else 2
avg_syllables = (min_syllables + max_syllables) // 2
else:
min_syllables = 2
max_syllables = 7
avg_syllables = 4
# Create a more direct prompt with examples and specific syllable count guidance
prompt = f"""Write song lyrics for a {genre} song in {key} {mode} with tempo {tempo} BPM. The emotion is {emotion} and theme is {theme}.
I need EXACTLY {num_phrases} lines of lyrics - one line for each musical phrase. Not one more, not one less.
CRITICAL INSTRUCTIONS:
- Each line MUST be VERY SHORT with only {min_syllables}-{max_syllables} syllables (aim for {avg_syllables} or fewer)
- PRIORITIZE BREVITY - use fewer syllables rather than more
- Keep each line SIMPLE and DIRECT - avoid complex phrases
- Break complete thoughts across MULTIPLE LINES rather than fitting them into one line
- Think of each line as part of a flowing conversation, not a complete sentence
- Each phrase should fit into one measure of music
- Use simple, short words whenever possible
- End each line at a natural speaking pause point
FORMAT:
- Just write {num_phrases} plain text lines
- Each line should be simple song lyrics (no annotations)
- Don't include any explanations or commentary
- Don't use any tags or markers
- Don't include section labels like [Verse] or [Chorus]
EXAMPLE OF WHAT I WANT:
Empty chair ({min_syllables} syllables)
Waiting by the door ({avg_syllables} syllables)
Memories fade ({min_syllables+1} syllables)
Into silence ({avg_syllables-1} syllables)
Your ghost remains ({avg_syllables} syllables)
(... and so on)
JUST THE PLAIN LYRICS, EXACTLY {num_phrases} LINES, KEEPING EACH LINE TO {min_syllables}-{max_syllables} SYLLABLES.
"""
# Generate lyrics using the LLM model
messages = [
{"role": "user", "content": prompt}
]
# Apply chat template
text = llm_tokenizer.apply_chat_template(
messages,
tokenize=False,
add_generation_prompt=True
)
# Tokenize and move to model device
model_inputs = llm_tokenizer([text], return_tensors="pt").to(llm_model.device)
# Generate with optimized parameters
generated_ids = llm_model.generate(
**model_inputs,
max_new_tokens=1024,
do_sample=True,
temperature=0.7,
top_p=0.9,
repetition_penalty=1.2,
pad_token_id=llm_tokenizer.eos_token_id
)
# Decode the output
output_ids = generated_ids[0][len(model_inputs.input_ids[0]):].tolist()
lyrics = llm_tokenizer.decode(output_ids, skip_special_tokens=True).strip()
# ULTRA AGGRESSIVE CLEANING - COMPLETELY REVISED
# ------------------------------------------------
# 1. First, look for any standard dividers that might separate thinking from lyrics
divider_patterns = [
r'Here are the lyrics:',
r'Here is my song:',
r'The lyrics:',
r'My lyrics:',
r'Song lyrics:',
r'\*\*\*+',
r'===+',
r'---+',
r'```',
r'Lyrics:'
]
for pattern in divider_patterns:
matches = re.finditer(pattern, lyrics, re.IGNORECASE)
for match in matches:
# Keep only content after the divider
lyrics = lyrics[match.end():].strip()
# 2. Remove thinking tags completely before splitting into lines
lyrics = re.sub(r'.*?', '', lyrics, flags=re.DOTALL)
lyrics = re.sub(r'\[thinking\].*?\[/thinking\]', '', lyrics, flags=re.DOTALL)
lyrics = re.sub(r'', '', lyrics, flags=re.DOTALL)
lyrics = re.sub(r'', '', lyrics, flags=re.DOTALL)
lyrics = re.sub(r'\[thinking\]', '', lyrics, flags=re.DOTALL)
lyrics = re.sub(r'\[/thinking\]', '', lyrics, flags=re.DOTALL)
# 3. Split text into lines for aggressive line-by-line filtering
lines = lyrics.strip().split('\n')
clean_lines = []
# 4. Define comprehensive patterns for non-lyrical content
non_lyric_patterns = [
# Meta-commentary
r'^(note|thinking|thoughts|let me|i will|i am going|i would|i can|i need to|i have to|i should|let\'s|here|now)',
r'^(first|second|third|next|finally|importantly|remember|so|ok|okay|as requested|as asked|considering)',
# Explanations
r'syllable[s]?|phrase|rhythm|beats?|tempo|bpm|instruction|follow|alignment|match|corresponding',
r'verses?|chorus|bridge|section|stanza|part|template|format|pattern|example',
r'requirements?|guidelines?|song structure|stressed|unstressed',
# Technical language
r'generated|output|result|provide|create|write|draft|version',
# Annotations and numbering
r'^line \d+|^\d+[\.\):]|^\[\w+\]|^[\*\-\+] ',
# Questions or analytical statements
r'\?$|analysis|evaluate|review|check|ensure',
# Instruction-like statements
r'make sure|please note|important|notice|pay attention'
]
# 5. Identify which lines are likely actual lyrics vs non-lyrics
for line in lines:
line = line.strip()
# Skip empty lines or lines with just spaces/tabs
if not line or line.isspace():
continue
# Skip lines that match any non-lyric pattern
should_skip = False
for pattern in non_lyric_patterns:
if re.search(pattern, line.lower()):
should_skip = True
break
if should_skip:
continue
# Skip section headers
if (line.startswith('[') and ']' in line) or (line.startswith('(') and ')' in line and len(line) < 20):
continue
# Skip lines that look like annotations (not prose-like)
if ':' in line and not any(word in line.lower() for word in ['like', 'when', 'where', 'how', 'why', 'what']):
if len(line.split(':')[0]) < 15: # Short prefixes followed by colon are likely annotations
continue
# Skip very short lines that aren't likely to be lyrics (unless it's just a few words which could be valid)
if len(line) < 3:
continue
# Skip lines that are numbered or bulleted
if re.match(r'^\d+\.|\(#\d+\)|\d+\)', line):
continue
# Skip markdown-style emphasis or headers
if re.match(r'^#{1,6} |^\*\*|^__', line):
continue
# Skip lines with think tags
if '' in line.lower() or '' in line.lower() or '[thinking]' in line.lower() or '[/thinking]' in line.lower():
continue
# Add this line as it passed all filters
clean_lines.append(line)
# 6. Additional block-level filters for common patterns
# Check beginning of lyrics for common prefixes
if clean_lines and any(clean_lines[0].lower().startswith(prefix) for prefix in
['here are', 'these are', 'below are', 'following are']):
clean_lines = clean_lines[1:] # Skip the first line
# 7. Process blocks of lines to detect explanation blocks
if len(clean_lines) > 3:
# Check for explanation blocks at the beginning
first_three = ' '.join(clean_lines[:3]).lower()
if any(term in first_three for term in ['i will', 'i have created', 'i\'ll provide', 'i\'ll write']):
# This looks like an explanation, skip the first few lines
start_idx = 0
for i, line in enumerate(clean_lines):
if i >= 3 and not any(term in line.lower() for term in ['i will', 'created', 'write', 'provide']):
start_idx = i
break
clean_lines = clean_lines[start_idx:]
# Check for explanation blocks at the end
last_three = ' '.join(clean_lines[-3:]).lower()
if any(term in last_three for term in ['hope this', 'these lyrics', 'as you can see', 'this song', 'i have']):
# This looks like an explanation at the end, truncate
end_idx = len(clean_lines)
for i in range(len(clean_lines) - 1, max(0, len(clean_lines) - 4), -1):
if i < len(clean_lines) and not any(term in clean_lines[i].lower() for term in
['hope', 'these lyrics', 'as you can see', 'this song']):
end_idx = i + 1
break
clean_lines = clean_lines[:end_idx]
# 8. Cleanup - Remove remaining annotations or thinking
for i in range(len(clean_lines)):
# Remove trailing thoughts/annotations
clean_lines[i] = re.sub(r'\s+//.*$', '', clean_lines[i])
clean_lines[i] = re.sub(r'\s+\(.*?\)$', '', clean_lines[i])
# Remove thinking tags completely
clean_lines[i] = re.sub(r'.*?', '', clean_lines[i], flags=re.DOTALL)
clean_lines[i] = re.sub(r'\[thinking\].*?\[/thinking\]', '', clean_lines[i], flags=re.DOTALL)
clean_lines[i] = re.sub(r'', '', clean_lines[i])
clean_lines[i] = re.sub(r'', '', clean_lines[i])
clean_lines[i] = re.sub(r'\[thinking\]', '', clean_lines[i])
clean_lines[i] = re.sub(r'\[/thinking\]', '', clean_lines[i])
# Remove syllable count annotations
clean_lines[i] = re.sub(r'\s*\(\d+\s*syllables?\)', '', clean_lines[i])
# 9. Filter out any remaining empty lines after tag removal
clean_lines = [line for line in clean_lines if line.strip() and not line.isspace()]
# 10. If we have lyric templates, ensure we have the correct number of lines
if lyric_templates:
num_required = len(lyric_templates)
# If we have too many lines, keep just the best ones
if len(clean_lines) > num_required:
# Keep the first num_required lines
clean_lines = clean_lines[:num_required]
# If we don't have enough lines, generate placeholders that fit the syllable count
while len(clean_lines) < num_required:
i = len(clean_lines)
if i < len(lyric_templates):
template = lyric_templates[i]
target_syllables = min(max_syllables, (template.get('min_expected', 2) + template.get('max_expected', 7)) // 2)
# Create a diverse set of placeholders that match the theme/emotion
placeholders = {
# 2-3 syllables
2: [
"Night falls",
"Time stops",
"Hearts beat",
"Rain falls",
"Stars shine"
],
# 3-4 syllables
3: [
"Empty chair",
"Shadows dance",
"Whispers fade",
"Memories",
"Silent room"
],
# 4-5 syllables
4: [
"Moonlight shimmers",
"Echoes of time",
"Footsteps fading",
"Memories drift",
"Silence speaks loud"
],
# 5-6 syllables
5: [
"Walking in the rain",
"Whispers in the dark",
"Echoes of your voice",
"Traces left behind",
"Time moves ever on"
],
# 6-7 syllables
6: [
"Dancing in the moonlight",
"Shadows play on the wall",
"Memories fade to silence",
"Moments lost in the wind",
"Whispers of a better time"
]
}
# Get the closest matching syllable group
closest_group = min(placeholders.keys(), key=lambda k: abs(k - target_syllables))
# Choose a placeholder that hasn't been used yet
available_placeholders = [p for p in placeholders[closest_group]
if p not in clean_lines]
if available_placeholders:
placeholder = available_placeholders[i % len(available_placeholders)]
else:
# If we've used all placeholders in this group, create a custom one
if emotion.lower() in ["sad", "nostalgic", "calm"]:
placeholder = f"Memories of {emotion}"
elif emotion.lower() in ["happy", "energetic"]:
placeholder = f"Dancing through {emotion}"
else:
placeholder = f"Feeling {emotion} now"
else:
placeholder = "Silence speaks volumes"
clean_lines.append(placeholder)
# Assemble final lyrics
final_lyrics = '\n'.join(clean_lines)
# 11. Final sanity check - if we have nothing or garbage, return an error
if not final_lyrics or len(final_lyrics) < 10:
return "The model generated only thinking content but no actual lyrics. Please try again."
return final_lyrics
except Exception as e:
error_msg = f"Error generating lyrics: {str(e)}"
print(error_msg)
return error_msg
def analyze_lyrics_rhythm_match(lyrics, lyric_templates, genre="pop"):
"""Analyze how well the generated lyrics match the beat patterns and syllable requirements"""
if not lyric_templates or not lyrics:
return "No beat templates or lyrics available for analysis."
# Split lyrics into lines
lines = lyrics.strip().split('\n')
lines = [line for line in lines if line.strip()] # Remove empty lines
# Prepare analysis result
result = "### Beat & Syllable Match Analysis\n\n"
result += "| Line | Syllables | Target Range | Match | Stress Pattern |\n"
result += "| ---- | --------- | ------------ | ----- | -------------- |\n"
# Maximum number of lines to analyze (either all lines or all templates)
line_count = min(len(lines), len(lyric_templates))
# Track overall match statistics
total_matches = 0
total_range_matches = 0
total_stress_matches = 0
total_stress_percentage = 0
total_ideal_matches = 0
for i in range(line_count):
line = lines[i]
template = lyric_templates[i]
# Check match between line and template with genre awareness
check_result = beat_analyzer.check_syllable_stress_match(line, template, genre)
# Get match symbols
if check_result["close_to_ideal"]:
syllable_match = "✓" # Ideal or very close
elif check_result["within_range"]:
syllable_match = "✓*" # Within range but not ideal
else:
syllable_match = "✗" # Outside range
stress_match = "✓" if check_result["stress_matches"] else f"{int(check_result['stress_match_percentage']*100)}%"
# Update stats
if check_result["close_to_ideal"]:
total_matches += 1
total_ideal_matches += 1
elif check_result["within_range"]:
total_range_matches += 1
if check_result["stress_matches"]:
total_stress_matches += 1
total_stress_percentage += check_result["stress_match_percentage"]
# Create visual representation of the stress pattern
stress_visual = ""
for char in template['stress_pattern']:
if char == "S":
stress_visual += "X" # Strong
elif char == "M":
stress_visual += "x" # Medium
else:
stress_visual += "." # Weak
# Add line to results table
result += f"| {i+1} | {check_result['syllable_count']} | {check_result['min_expected']}-{check_result['max_expected']} | {syllable_match} | {stress_visual} |\n"
# Add summary statistics
if line_count > 0:
exact_match_rate = (total_matches / line_count) * 100
range_match_rate = ((total_matches + total_range_matches) / line_count) * 100
ideal_match_rate = (total_ideal_matches / line_count) * 100
stress_match_rate = (total_stress_matches / line_count) * 100
avg_stress_percentage = (total_stress_percentage / line_count) * 100
result += f"\n**Summary:**\n"
result += f"- Ideal or near-ideal syllable match rate: {exact_match_rate:.1f}%\n"
result += f"- Genre-appropriate syllable range match rate: {range_match_rate:.1f}%\n"
result += f"- Perfect stress pattern match rate: {stress_match_rate:.1f}%\n"
result += f"- Average stress pattern accuracy: {avg_stress_percentage:.1f}%\n"
result += f"- Overall rhythmic accuracy: {((range_match_rate + avg_stress_percentage) / 2):.1f}%\n"
# Add guidance on ideal distribution for syllables
result += f"\n**Syllable Distribution Guidance:**\n"
result += f"- Aim for {min([t.get('min_expected', 3) for t in lyric_templates])}-{max([t.get('max_expected', 7) for t in lyric_templates])} syllables per line\n"
result += f"- Break complete thoughts across multiple lines for a more natural flow\n"
result += f"- Allow sentences to span 2-3 measures for better musical phrasing\n"
# Add genre-specific notes
result += f"\n**Genre Notes ({genre}):**\n"
# Add appropriate genre notes based on genre
if genre.lower() == "pop":
result += "- Pop lyrics are typically concise with 3-7 syllables per musical phrase\n"
result += "- Strong beats often align with stressed syllables in important words\n"
elif genre.lower() == "rock":
result += "- Rock lyrics favor brevity with 3-6 syllables per musical phrase\n"
result += "- Emphasis on strong beats for rhythmic impact\n"
elif genre.lower() == "country":
result += "- Country lyrics tend toward clear storytelling with 3-6 syllables per phrase\n"
result += "- Natural speech rhythms are important for authentic delivery\n"
elif genre.lower() == "disco":
result += "- Disco lyrics work well with 4-7 syllables per musical phrase\n"
result += "- Rhythmic patterns often emphasize dance-friendly phrasing\n"
elif genre.lower() == "metal":
result += "- Metal lyrics balance intensity with 3-7 syllables per musical phrase\n"
result += "- Strong syllables on strong beats create powerful impact\n"
else:
result += "- This genre typically works well with concise, focused phrasing\n"
result += "- Consider breaking complete thoughts across multiple lines\n"
return result
# Create Gradio interface
def create_interface():
with gr.Blocks(title="Music Analysis & Lyrics Generator") as demo:
gr.Markdown("# Music Analysis & Lyrics Generator")
gr.Markdown("Upload a music file or record audio to analyze it and generate matching lyrics")
with gr.Row():
with gr.Column(scale=1):
audio_input = gr.Audio(
label="Upload or Record Audio",
type="filepath",
sources=["upload", "microphone"]
)
analyze_btn = gr.Button("Analyze and Generate Lyrics", variant="primary")
with gr.Column(scale=2):
with gr.Tab("Analysis"):
analysis_output = gr.Textbox(label="Music Analysis Results", lines=10)
with gr.Row():
tempo_output = gr.Number(label="Tempo (BPM)")
time_sig_output = gr.Textbox(label="Time Signature")
emotion_output = gr.Textbox(label="Primary Emotion")
theme_output = gr.Textbox(label="Primary Theme")
genre_output = gr.Textbox(label="Primary Genre")
with gr.Tab("Generated Lyrics"):
lyrics_output = gr.Textbox(label="Generated Lyrics", lines=20)
with gr.Tab("Beat Matching"):
beat_match_output = gr.Markdown(label="Beat & Syllable Matching Analysis")
# Set up event handlers
analyze_btn.click(
fn=process_audio,
inputs=[audio_input],
outputs=[analysis_output, lyrics_output, tempo_output, time_sig_output,
emotion_output, theme_output, genre_output, beat_match_output]
)
# Format supported genres for display
supported_genres_md = "\n".join([f"- {genre.capitalize()}" for genre in beat_analyzer.supported_genres])
gr.Markdown(f"""
## How it works
1. Upload or record a music file
2. The system analyzes tempo, beats, time signature and other musical features
3. It detects emotion, theme, and music genre
4. Using beat patterns and syllable stress analysis, it generates perfectly aligned lyrics
5. Each line of the lyrics is matched to the beat pattern of the corresponding musical phrase
## Supported Genres
**Note:** Lyrics generation is currently only supported for the following genres:
{supported_genres_md}
These genres have consistent syllable-to-beat patterns that work well with our algorithm.
For other genres, only music analysis will be provided.
""")
return demo
# Launch the app
demo = create_interface()
if __name__ == "__main__":
demo.launch()
else:
# For Hugging Face Spaces
app = demo