Marketplace debugging
Systematically debug code issues using proven methodologies. Use when encountering errors, unexpected behavior, or performance problems. Handles error analysis, root cause identification, debugging strategies, and fix verification.
install
source · Clone the upstream repo
git clone https://github.com/aiskillstore/marketplace
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/aiskillstore/marketplace "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/supercent-io/debugging" ~/.claude/skills/aiskillstore-marketplace-debugging-e06618 && rm -rf "$T"
manifest:
skills/supercent-io/debugging/SKILL.mdsource content
Debugging
When to use this skill
- Encountering runtime errors or exceptions
- Code produces unexpected output or behavior
- Performance degradation or memory issues
- Intermittent or hard-to-reproduce bugs
- Understanding unfamiliar error messages
- Post-incident analysis and prevention
Instructions
Step 1: Gather Information
Collect all relevant context about the issue:
Error details:
- Full error message and stack trace
- Error type (syntax, runtime, logic, etc.)
- When did it start occurring?
- Is it reproducible?
Environment:
- Language and version
- Framework and dependencies
- OS and runtime environment
- Recent changes to code or config
# Check recent changes git log --oneline -10 git diff HEAD~5 # Check dependency versions npm list --depth=0 # Node.js pip freeze # Python
Step 2: Reproduce the Issue
Create a minimal, reproducible example:
# Bad: Vague description "The function sometimes fails" # Good: Specific reproduction steps """ 1. Call process_data() with input: {"id": None} 2. Error occurs: TypeError at line 45 3. Expected: Return empty dict 4. Actual: Raises exception """ # Minimal reproduction def test_reproduce_bug(): result = process_data({"id": None}) # Fails here assert result == {}
Step 3: Isolate the Problem
Use binary search debugging to narrow down the issue:
Print/Log debugging:
def problematic_function(data): print(f"[DEBUG] Input: {data}") # Entry point result = step_one(data) print(f"[DEBUG] After step_one: {result}") result = step_two(result) print(f"[DEBUG] After step_two: {result}") # Issue here? return step_three(result)
Divide and conquer:
# Comment out half the code # If error persists: bug is in remaining half # If error gone: bug is in commented half # Repeat until isolated
Step 4: Analyze Root Cause
Common bug patterns and solutions:
| Pattern | Symptom | Solution |
|---|---|---|
| Off-by-one | Index out of bounds | Check loop bounds |
| Null reference | NullPointerException | Add null checks |
| Race condition | Intermittent failures | Add synchronization |
| Memory leak | Gradual slowdown | Check resource cleanup |
| Type mismatch | Unexpected behavior | Validate types |
Questions to ask:
- What changed recently?
- Does it fail with specific inputs?
- Is it environment-specific?
- Are there any patterns in failures?
Step 5: Implement Fix
Apply the fix with proper verification:
# Before: Bug def get_user(user_id): return users[user_id] # KeyError if not found # After: Fix with proper handling def get_user(user_id): if user_id not in users: return None # Or raise custom exception return users[user_id]
Fix checklist:
- Addresses root cause, not just symptom
- Doesn't break existing functionality
- Handles edge cases
- Includes appropriate error handling
- Has test coverage
Step 6: Verify and Prevent
Ensure the fix works and prevent regression:
# Add test for the specific bug def test_bug_fix_issue_123(): """Regression test for issue #123: KeyError on missing user""" result = get_user("nonexistent_id") assert result is None # Should not raise # Add edge case tests @pytest.mark.parametrize("input,expected", [ (None, None), ("", None), ("valid_id", {"name": "User"}), ]) def test_get_user_edge_cases(input, expected): assert get_user(input) == expected
Examples
Example 1: TypeError debugging
Error:
TypeError: cannot unpack non-iterable NoneType object File "app.py", line 25, in process name, email = get_user_info(user_id)
Analysis:
# Problem: get_user_info returns None when user not found def get_user_info(user_id): user = db.find_user(user_id) if user: return user.name, user.email # Missing: return None case! # Fix: Handle None case def get_user_info(user_id): user = db.find_user(user_id) if user: return user.name, user.email return None, None # Or raise UserNotFoundError
Example 2: Race condition debugging
Symptom: Test passes locally, fails in CI intermittently
Analysis:
# Problem: Shared state without synchronization class Counter: def __init__(self): self.value = 0 def increment(self): self.value += 1 # Not atomic! # Fix: Add thread safety import threading class Counter: def __init__(self): self.value = 0 self._lock = threading.Lock() def increment(self): with self._lock: self.value += 1
Example 3: Memory leak debugging
Tool: Use memory profiler
from memory_profiler import profile @profile def process_large_data(): results = [] for item in large_dataset: results.append(transform(item)) # Memory grows return results # Fix: Use generator for large datasets def process_large_data(): for item in large_dataset: yield transform(item) # Memory efficient
Best practices
- Reproduce first: Never fix what you can't reproduce
- One change at a time: Isolate variables when debugging
- Read the error: Error messages usually point to the issue
- Check assumptions: Verify what you think is true
- Use version control: Easy to revert and compare changes
- Document findings: Help future debugging efforts
- Write tests: Prevent regression of fixed bugs
Debugging Tools
| Language | Debugger | Profiler |
|---|---|---|
| Python | pdb, ipdb | cProfile, memory_profiler |
| JavaScript | Chrome DevTools | Performance tab |
| Java | IntelliJ Debugger | JProfiler, VisualVM |
| Go | Delve | pprof |
| Rust | rust-gdb | cargo-flamegraph |