systematic-debugging

anexpn/systematic-debugging

Coding

3 installs

About

SKILL.md

systematic-debugging

anexpn/systematic-debugging

Coding

3 installs

About

Structured debugging methodology for investigating and resolving technical issues...

SKILL.md

Systematic Debugging Process

Overview

This skill provides a disciplined, phase-based approach to debugging that ensures root cause identification rather than symptom treatment. The methodology emphasizes systematic investigation, hypothesis testing, and minimal incremental fixes.

When to Use This Skill

Use this skill whenever:

Debugging a technical issue or error
Investigating unexpected behavior
Troubleshooting test failures
Resolving performance problems
Analyzing system failures

Core Principle

ALWAYS find the root cause of any issue. NEVER fix a symptom or add a workaround instead of finding the root cause, even if it appears faster or more expedient.

Four-Phase Debugging Framework

Phase 1: Root Cause Investigation

Perform BEFORE attempting any fixes. This phase focuses on understanding the problem completely.

Read Error Messages Carefully

Don't skip past errors or warnings
Error messages often contain the exact solution
Note stack traces, line numbers, and context
Look for patterns in multiple error occurrences

Reproduce Consistently

Ensure the issue can be reliably reproduced
Identify the minimal steps to trigger the problem
Note any conditions that affect reproducibility
Document the exact environment and context

Check Recent Changes

Review what changed that could have caused this
Use git diff to examine recent modifications
Check recent commits and their impact
Consider dependency updates or configuration changes

Phase 2: Pattern Analysis

This phase involves comparing working and non-working states to identify differences.

Find Working Examples

Locate similar working code in the same codebase
Identify what makes the working example successful
Note the context and dependencies of working code

Compare Against References

If implementing a pattern, read the reference implementation completely
Don't skim documentation—read it thoroughly
Understand the intended usage and requirements
Identify any prerequisites or setup steps

Identify Differences

What's different between working and broken code?
Compare structure, dependencies, and configuration
Look for missing imports, incorrect types, or wrong parameters
Check for environmental differences

Understand Dependencies

What other components does this code depend on?
Are there configuration files or settings required?
What initialization or setup is needed?
Are there version compatibility issues?

Phase 3: Hypothesis and Testing

This phase requires forming clear hypotheses and testing them methodically.

1. Form Single Hypothesis

State clearly what you think is the root cause
Base the hypothesis on evidence from previous phases
Be specific about the suspected problem
Example: "The error occurs because X is undefined when Y runs"

2. Test Minimally

Make the smallest possible change to test the hypothesis
Change only ONE thing at a time
Avoid adding multiple fixes simultaneously
Keep changes reversible and isolated

3. Verify Before Continuing

Did the test work? Did it fix the problem?
If not, form a new hypothesis—don't add more fixes
Understand why the hypothesis was wrong
Learn from failed hypotheses to refine the investigation

4. When You Don't Know

Say "I don't understand X" rather than pretending to know
Ask for clarification or additional information
Admit knowledge gaps honestly
Seek help when needed

Phase 4: Implementation Rules

Once the root cause is confirmed, follow these rules during implementation:

Always Have a Failing Test Case

Create the simplest possible test that reproduces the issue
If there's no test framework, write a one-off test script
The test should fail before the fix and pass after
Keep the test case minimal and focused

Never Add Multiple Fixes at Once

Fix one thing at a time
Test after each change
Understand the impact of each modification
Avoid the temptation to "fix everything"

Never Claim to Implement a Pattern Without Reading It

Read reference implementations completely first
Understand the pattern thoroughly before implementing
Don't guess at how something should work
Follow documented patterns exactly

Always Test After Each Change

Run tests immediately after each modification
Verify the fix works as expected
Check for regressions in other functionality
Confirm the original error is resolved

If First Fix Doesn't Work, STOP and Re-analyze

Don't pile on additional fixes
Return to Phase 1 or Phase 2
Form a new hypothesis based on new information
Avoid the "shotgun debugging" anti-pattern

Anti-Patterns to Avoid

Symptom Treatment: Fixing what appears broken without understanding why
Shotgun Debugging: Making multiple changes hoping something works
Assumption-Based Fixes: Guessing at solutions without investigation
Workaround Mentality: Adding code to bypass problems rather than fixing them
Impatient Debugging: Rushing to fix without understanding the root cause

About

SKILL.md

About

Structured debugging methodology for investigating and resolving technical issues...

SKILL.md

Systematic Debugging Process

Overview

When to Use This Skill

Use this skill whenever:

Debugging a technical issue or error
Investigating unexpected behavior
Troubleshooting test failures
Resolving performance problems
Analyzing system failures

Core Principle

ALWAYS find the root cause of any issue. NEVER fix a symptom or add a workaround instead of finding the root cause, even if it appears faster or more expedient.

Four-Phase Debugging Framework

Phase 1: Root Cause Investigation

Perform BEFORE attempting any fixes. This phase focuses on understanding the problem completely.

Read Error Messages Carefully

Don't skip past errors or warnings
Error messages often contain the exact solution
Note stack traces, line numbers, and context
Look for patterns in multiple error occurrences

Reproduce Consistently

Ensure the issue can be reliably reproduced
Identify the minimal steps to trigger the problem
Note any conditions that affect reproducibility
Document the exact environment and context

Check Recent Changes

Review what changed that could have caused this
Use git diff to examine recent modifications
Check recent commits and their impact
Consider dependency updates or configuration changes

Phase 2: Pattern Analysis

This phase involves comparing working and non-working states to identify differences.

Find Working Examples

Locate similar working code in the same codebase
Identify what makes the working example successful
Note the context and dependencies of working code

Compare Against References

If implementing a pattern, read the reference implementation completely
Don't skim documentation—read it thoroughly
Understand the intended usage and requirements
Identify any prerequisites or setup steps

Identify Differences

What's different between working and broken code?
Compare structure, dependencies, and configuration
Look for missing imports, incorrect types, or wrong parameters
Check for environmental differences

Understand Dependencies

What other components does this code depend on?
Are there configuration files or settings required?
What initialization or setup is needed?
Are there version compatibility issues?

Phase 3: Hypothesis and Testing

This phase requires forming clear hypotheses and testing them methodically.

1. Form Single Hypothesis

State clearly what you think is the root cause
Base the hypothesis on evidence from previous phases
Be specific about the suspected problem
Example: "The error occurs because X is undefined when Y runs"

2. Test Minimally

Make the smallest possible change to test the hypothesis
Change only ONE thing at a time
Avoid adding multiple fixes simultaneously
Keep changes reversible and isolated

3. Verify Before Continuing

Did the test work? Did it fix the problem?
If not, form a new hypothesis—don't add more fixes
Understand why the hypothesis was wrong
Learn from failed hypotheses to refine the investigation

4. When You Don't Know

Say "I don't understand X" rather than pretending to know
Ask for clarification or additional information
Admit knowledge gaps honestly
Seek help when needed

Phase 4: Implementation Rules

Once the root cause is confirmed, follow these rules during implementation:

Always Have a Failing Test Case

Create the simplest possible test that reproduces the issue
If there's no test framework, write a one-off test script
The test should fail before the fix and pass after
Keep the test case minimal and focused

Never Add Multiple Fixes at Once

Fix one thing at a time
Test after each change
Understand the impact of each modification
Avoid the temptation to "fix everything"

Never Claim to Implement a Pattern Without Reading It

Read reference implementations completely first
Understand the pattern thoroughly before implementing
Don't guess at how something should work
Follow documented patterns exactly

Always Test After Each Change

Run tests immediately after each modification
Verify the fix works as expected
Check for regressions in other functionality
Confirm the original error is resolved

If First Fix Doesn't Work, STOP and Re-analyze

Don't pile on additional fixes
Return to Phase 1 or Phase 2
Form a new hypothesis based on new information
Avoid the "shotgun debugging" anti-pattern

Anti-Patterns to Avoid

Symptom Treatment: Fixing what appears broken without understanding why
Shotgun Debugging: Making multiple changes hoping something works
Assumption-Based Fixes: Guessing at solutions without investigation
Workaround Mentality: Adding code to bypass problems rather than fixing them
Impatient Debugging: Rushing to fix without understanding the root cause