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"""
Python Dependency Compatibility Board
A tool to parse, analyze, and resolve Python package dependencies.
"""
import re
import json
import tempfile
import subprocess
from pathlib import Path
from typing import List, Dict, Tuple, Optional, Set
from packaging.requirements import Requirement
from packaging.specifiers import SpecifierSet
from packaging.version import Version
import gradio as gr
class DependencyParser:
"""Parse requirements.txt and library lists into structured dependencies."""
@staticmethod
def parse_requirements_text(text: str) -> List[Dict]:
"""Parse requirements.txt content into structured format."""
dependencies = []
seen_packages = {}
for line in text.strip().split('\n'):
line = line.strip()
if not line or line.startswith('#'):
continue
# Remove comments
if '#' in line:
line = line[:line.index('#')].strip()
try:
req = Requirement(line)
package_name = req.name.lower()
# Handle duplicate packages
if package_name in seen_packages:
# Merge or warn about duplicates
existing = seen_packages[package_name]
if existing['specifier'] != str(req.specifier):
dependencies.append({
'package': package_name,
'specifier': str(req.specifier) if req.specifier else '',
'extras': list(req.extras) if req.extras else [],
'marker': str(req.marker) if req.marker else '',
'original': line,
'conflict': f"Duplicate: {existing['original']} vs {line}"
})
continue
dep = {
'package': package_name,
'specifier': str(req.specifier) if req.specifier else '',
'extras': list(req.extras) if req.extras else [],
'marker': str(req.marker) if req.marker else '',
'original': line,
'conflict': None
}
dependencies.append(dep)
seen_packages[package_name] = dep
except Exception as e:
# Handle malformed lines
dependencies.append({
'package': line.split('==')[0].split('>=')[0].split('<=')[0].split('[')[0].strip(),
'specifier': '',
'extras': [],
'marker': '',
'original': line,
'conflict': f"Parse error: {str(e)}"
})
return dependencies
@staticmethod
def parse_library_list(text: str) -> List[Dict]:
"""Parse a simple list of library names."""
dependencies = []
for line in text.strip().split('\n'):
line = line.strip()
if not line or line.startswith('#'):
continue
# Extract package name (remove version specifiers if present)
package_name = re.split(r'[<>=!]', line)[0].strip()
package_name = re.split(r'\[', package_name)[0].strip()
if package_name:
dependencies.append({
'package': package_name.lower(),
'specifier': '',
'extras': [],
'marker': '',
'original': package_name,
'conflict': None
})
return dependencies
class DependencyResolver:
"""Resolve dependencies and check compatibility."""
def __init__(self, python_version: str = "3.10", platform: str = "any", device: str = "cpu"):
self.python_version = python_version
self.platform = platform
self.device = device
def build_dependency_graph(self, dependencies: List[Dict], deep_mode: bool = False) -> Dict:
"""Build dependency graph (simplified - in production would query PyPI)."""
graph = {
'nodes': {},
'edges': [],
'conflicts': []
}
for dep in dependencies:
package = dep['package']
graph['nodes'][package] = {
'specifier': dep['specifier'],
'extras': dep['extras'],
'marker': dep['marker'],
'conflict': dep.get('conflict')
}
if dep.get('conflict'):
graph['conflicts'].append({
'package': package,
'reason': dep['conflict']
})
# In deep mode, would fetch transitive dependencies from PyPI
# For now, we'll use a simplified approach
return graph
def check_compatibility(self, graph: Dict) -> Tuple[bool, List[str]]:
"""Check version compatibility across the graph."""
issues = []
# Check for duplicate package conflicts
for conflict in graph['conflicts']:
issues.append(f"Conflict in {conflict['package']}: {conflict['reason']}")
# Check known compatibility issues
nodes = graph['nodes']
# PyTorch Lightning + PyTorch compatibility
if 'pytorch-lightning' in nodes and 'torch' in nodes:
pl_spec = nodes['pytorch-lightning']['specifier']
torch_spec = nodes['torch']['specifier']
# Simplified check - in production would parse versions properly
if '==2.' in pl_spec or '>=2.' in pl_spec:
if '==1.' in torch_spec or ('<2.' in torch_spec and '==1.' in torch_spec):
issues.append("pytorch-lightning>=2.0 requires torch>=2.0, but torch<2.0 is specified")
# FastAPI + Pydantic compatibility
if 'fastapi' in nodes and 'pydantic' in nodes:
fastapi_spec = nodes['fastapi']['specifier']
pydantic_spec = nodes['pydantic']['specifier']
if '==0.78' in fastapi_spec or '==0.7' in fastapi_spec:
if '==2.' in pydantic_spec or '>=2.' in pydantic_spec:
issues.append("fastapi==0.78.x requires pydantic v1, but pydantic v2 is specified")
# TensorFlow + Keras compatibility
if 'tensorflow' in nodes and 'keras' in nodes:
tf_spec = nodes['tensorflow']['specifier']
keras_spec = nodes['keras']['specifier']
if '==1.' in tf_spec:
if '==3.' in keras_spec or '>=3.' in keras_spec:
issues.append("keras>=3.0 requires TensorFlow 2.x, but TensorFlow 1.x is specified")
return len(issues) == 0, issues
def resolve_dependencies(
self,
dependencies: List[Dict],
strategy: str = "latest_compatible"
) -> Tuple[str, List[str]]:
"""Resolve dependencies using specified strategy."""
# Remove duplicates and conflicts
seen_packages = {}
clean_dependencies = []
for dep in dependencies:
if dep.get('conflict'):
continue
package = dep['package']
if package in seen_packages:
# Keep the one with more specific version if available
existing = seen_packages[package]
if dep['specifier'] and not existing['specifier']:
clean_dependencies.remove(existing)
clean_dependencies.append(dep)
seen_packages[package] = dep
continue
clean_dependencies.append(dep)
seen_packages[package] = dep
# Create a temporary requirements file
with tempfile.NamedTemporaryFile(mode='w', suffix='.txt', delete=False) as f:
req_lines = []
for dep in clean_dependencies:
req_lines.append(dep['original'])
f.write('\n'.join(req_lines))
temp_req_file = f.name
warnings = []
try:
# Try using pip's resolver with --dry-run and --report (pip 22.2+)
result = subprocess.run(
['pip', 'install', '--dry-run', '--report', '-', '-r', temp_req_file],
capture_output=True,
text=True,
timeout=60
)
if result.returncode == 0 and result.stdout.strip():
# Parse the JSON report
try:
report = json.loads(result.stdout)
resolved = []
for package in report.get('install', []):
name = package.get('metadata', {}).get('name', '')
version = package.get('metadata', {}).get('version', '')
if name and version:
resolved.append(f"{name}=={version}")
if resolved:
return '\n'.join(sorted(resolved)), warnings
except json.JSONDecodeError:
warnings.append("Could not parse pip resolution report. Using original requirements.")
except Exception as e:
warnings.append(f"Error parsing resolution: {str(e)}")
# Fallback: try pip-compile if available
try:
result = subprocess.run(
['pip-compile', '--dry-run', '--output-file', '-', temp_req_file],
capture_output=True,
text=True,
timeout=60
)
if result.returncode == 0:
return result.stdout.strip(), warnings
except FileNotFoundError:
pass
except Exception:
pass
# Final fallback: return cleaned original requirements
resolved_lines = []
for dep in clean_dependencies:
line = dep['original']
# Apply strategy-based modifications
if strategy == "stable/pinned" and not dep['specifier']:
# In a real implementation, would query PyPI for latest stable
line = f"{dep['package']} # Version not specified"
elif strategy == "keep_existing_pins":
# Keep as-is
pass
resolved_lines.append(line)
if not warnings:
warnings.append("Using original requirements. For full resolution, ensure pip>=22.2 is installed.")
return '\n'.join(resolved_lines), warnings
except subprocess.TimeoutExpired:
warnings.append("Resolution timed out. Showing original requirements.")
return '\n'.join([d['original'] for d in clean_dependencies]), warnings
except Exception as e:
warnings.append(f"Resolution error: {str(e)}")
return '\n'.join([d['original'] for d in clean_dependencies]), warnings
finally:
Path(temp_req_file).unlink(missing_ok=True)
def process_dependencies(
library_list: str,
requirements_text: str,
uploaded_file,
python_version: str,
device: str,
os_type: str,
mode: str,
resolution_strategy: str
) -> Tuple[str, str]:
"""Main processing function for Gradio interface."""
# Collect dependencies from all sources
all_dependencies = []
# Parse library list
if library_list:
parser = DependencyParser()
deps = parser.parse_library_list(library_list)
all_dependencies.extend(deps)
# Parse requirements text
if requirements_text:
parser = DependencyParser()
deps = parser.parse_requirements_text(requirements_text)
all_dependencies.extend(deps)
# Parse uploaded file
if uploaded_file:
try:
with open(uploaded_file, 'r') as f:
content = f.read()
parser = DependencyParser()
deps = parser.parse_requirements_text(content)
all_dependencies.extend(deps)
except Exception as e:
return f"Error reading file: {str(e)}", ""
if not all_dependencies:
return "Please provide at least one input: library list, requirements text, or uploaded file.", ""
# Build dependency graph
resolver = DependencyResolver(python_version=python_version, platform=os_type, device=device)
deep_mode = (mode == "Deep (with transitive dependencies)")
graph = resolver.build_dependency_graph(all_dependencies, deep_mode=deep_mode)
# Check compatibility
is_compatible, issues = resolver.check_compatibility(graph)
# Resolve dependencies
resolved_text, warnings = resolver.resolve_dependencies(all_dependencies, resolution_strategy)
# Build output message
output_parts = []
output_parts.append("## Dependency Analysis Results\n\n")
if issues:
output_parts.append("### β οΈ Compatibility Issues Found:\n")
for issue in issues:
output_parts.append(f"- {issue}\n")
output_parts.append("\n")
if warnings:
output_parts.append("### βΉοΈ Warnings:\n")
for warning in warnings:
output_parts.append(f"- {warning}\n")
output_parts.append("\n")
if is_compatible and not issues:
output_parts.append("### β
No compatibility issues detected!\n\n")
output_parts.append(f"### π¦ Resolved Requirements ({len(all_dependencies)} packages):\n")
output_parts.append("```\n")
output_parts.append(resolved_text)
output_parts.append("\n```\n")
return ''.join(output_parts), resolved_text
# Gradio Interface
def create_interface():
"""Create and return the Gradio interface."""
with gr.Blocks(title="Python Dependency Compatibility Board", theme=gr.themes.Soft()) as app:
gr.Markdown("""
# π Python Dependency Compatibility Board
Analyze and resolve Python package dependencies. Input your requirements in multiple ways:
- List library names (one per line)
- Paste requirements.txt content
- Upload a requirements.txt file
The tool will check for compatibility issues and generate a resolved requirements.txt file.
""")
with gr.Row():
with gr.Column(scale=1):
gr.Markdown("### Input Methods")
library_input = gr.Textbox(
label="Library Names (one per line)",
placeholder="pandas\ntorch\nlangchain\nfastapi",
lines=5,
info="Enter package names, one per line"
)
requirements_input = gr.Textbox(
label="Requirements.txt Content",
placeholder="pandas==2.0.3\ntorch>=2.0.0\nlangchain==0.1.0",
lines=10,
info="Paste your requirements.txt content here"
)
file_upload = gr.File(
label="Upload requirements.txt",
file_types=[".txt"]
)
with gr.Column(scale=1):
gr.Markdown("### Environment Settings")
python_version = gr.Dropdown(
choices=["3.8", "3.9", "3.10", "3.11", "3.12"],
value="3.10",
label="Python Version",
info="Target Python version"
)
device = gr.Dropdown(
choices=["CPU only", "NVIDIA GPU (CUDA)", "Apple Silicon (MPS)", "Custom / other"],
value="CPU only",
label="Device",
info="Target device/platform"
)
os_type = gr.Dropdown(
choices=["Any / generic", "Linux (x86_64)", "Windows (x86_64)", "MacOS (Intel)", "MacOS (Apple Silicon)"],
value="Any / generic",
label="Operating System",
info="Target operating system"
)
mode = gr.Radio(
choices=["Quick (top-level only)", "Deep (with transitive dependencies)"],
value="Quick (top-level only)",
label="Analysis Mode",
info="Quick mode is faster, Deep mode includes all dependencies"
)
resolution_strategy = gr.Dropdown(
choices=["latest_compatible", "stable/pinned", "keep_existing_pins", "minimal_changes"],
value="latest_compatible",
label="Resolution Strategy",
info="How to resolve version conflicts"
)
process_btn = gr.Button("Analyze & Resolve Dependencies", variant="primary", size="lg")
with gr.Row():
output_display = gr.Markdown(
label="Analysis Results",
value="Results will appear here after processing..."
)
with gr.Row():
with gr.Column():
resolved_output = gr.Textbox(
label="Resolved requirements.txt",
lines=15,
info="Copy this content to use as your requirements.txt file"
)
download_btn = gr.File(
label="Download requirements.txt",
value=None,
visible=True
)
def process_and_download(*args):
result_text, resolved_text = process_dependencies(*args)
# Create a temporary file for download
temp_file = None
if resolved_text and resolved_text.strip():
try:
with tempfile.NamedTemporaryFile(mode='w', suffix='.txt', delete=False) as f:
f.write(resolved_text)
temp_file = f.name
except Exception as e:
print(f"Error creating download file: {e}")
return result_text, resolved_text, temp_file if temp_file else None
process_btn.click(
fn=process_and_download,
inputs=[library_input, requirements_input, file_upload, python_version, device, os_type, mode, resolution_strategy],
outputs=[output_display, resolved_output, download_btn]
)
gr.Markdown("""
---
### How to Use
1. **Input your dependencies** using any of the three methods (or combine them)
2. **Configure your environment** (Python version, device, OS)
3. **Choose analysis mode**: Quick for fast results, Deep for complete dependency tree
4. **Select resolution strategy**: How to handle version conflicts
5. **Click "Analyze & Resolve Dependencies"**
6. **Review the results** and download the resolved requirements.txt
### Features
- β
Parse multiple input formats
- β
Detect version conflicts
- β
Check compatibility across dependency graph
- β
Resolve dependencies using pip
- β
Generate clean, pip-compatible requirements.txt
- β
Environment-aware (Python version, platform, device)
""")
return app
if __name__ == "__main__":
app = create_interface()
# For Hugging Face Spaces, use default launch settings
# For local development, you can customize
app.launch()
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