---

name: technical-debt-assessment description: Assess, quantify, and prioritize technical debt using code analysis, metrics, and impact analysis. Use when planning refactoring, evaluating codebases, or making architectural decisions.

Technical Debt Assessment

Overview

Systematically identify, measure, and manage technical debt to make informed decisions about code quality investments.

When to Use

• Legacy code evaluation
• Refactoring prioritization
• Sprint planning
• Code quality initiatives
• Acquisition due diligence
• Architectural decisions

Implementation Examples

1. Technical Debt Calculator

interface DebtItem {
  id: string;
  title: string;
  description: string;
  category: 'code' | 'architecture' | 'test' | 'documentation' | 'security';
  severity: 'low' | 'medium' | 'high' | 'critical';
  effort: number; // hours
  impact: number; // 1-10 scale
  interest: number; // cost per sprint if not fixed
}

class TechnicalDebtAssessment {
  private items: DebtItem[] = [];

  addDebtItem(item: DebtItem): void {
    this.items.push(item);
  }

  calculatePriority(item: DebtItem): number {
    const severityWeight = {
      low: 1,
      medium: 2,
      high: 3,
      critical: 4
    };

    const priority =
      (item.impact * 10 + item.interest * 5 + severityWeight[item.severity] * 3) /
      (item.effort + 1);

    return priority;
  }

  getPrioritizedList(): Array<DebtItem & { priority: number }> {
    return this.items
      .map(item => ({
        ...item,
        priority: this.calculatePriority(item)
      }))
      .sort((a, b) => b.priority - a.priority);
  }

  getDebtByCategory(): Record<string, DebtItem[]> {
    return this.items.reduce((acc, item) => {
      acc[item.category] = acc[item.category] || [];
      acc[item.category].push(item);
      return acc;
    }, {} as Record<string, DebtItem[]>);
  }

  getTotalEffort(): number {
    return this.items.reduce((sum, item) => sum + item.effort, 0);
  }

  getTotalInterest(): number {
    return this.items.reduce((sum, item) => sum + item.interest, 0);
  }

  generateReport(): string {
    const prioritized = this.getPrioritizedList();
    const byCategory = this.getDebtByCategory();

    let report = '# Technical Debt Assessment\n\n';

    // Summary
    report += '## Summary\n\n';
    report += `- Total Items: ${this.items.length}\n`;
    report += `- Total Effort: ${this.getTotalEffort()} hours\n`;
    report += `- Monthly Interest: ${this.getTotalInterest()} hours\n\n`;

    // By Category
    report += '## By Category\n\n';
    for (const [category, items] of Object.entries(byCategory)) {
      const effort = items.reduce((sum, item) => sum + item.effort, 0);
      report += `- ${category}: ${items.length} items (${effort} hours)\n`;
    }
    report += '\n';

    // Top Priority Items
    report += '## Top Priority Items\n\n';
    for (const item of prioritized.slice(0, 10)) {
      report += `### ${item.title} (Priority: ${item.priority.toFixed(2)})\n`;
      report += `- Category: ${item.category}\n`;
      report += `- Severity: ${item.severity}\n`;
      report += `- Effort: ${item.effort} hours\n`;
      report += `- Impact: ${item.impact}/10\n`;
      report += `- Interest: ${item.interest} hours/sprint\n`;
      report += `\n${item.description}\n\n`;
    }

    return report;
  }
}

// Usage
const assessment = new TechnicalDebtAssessment();

assessment.addDebtItem({
  id: 'debt-1',
  title: 'Legacy API endpoints',
  description: 'Old API v1 endpoints still in use, need migration',
  category: 'architecture',
  severity: 'high',
  effort: 40,
  impact: 8,
  interest: 5
});

assessment.addDebtItem({
  id: 'debt-2',
  title: 'Missing unit tests',
  description: '30% of codebase lacks test coverage',
  category: 'test',
  severity: 'medium',
  effort: 80,
  impact: 7,
  interest: 3
});

console.log(assessment.generateReport());

2. Code Quality Scanner

import * as ts from 'typescript';
import * as fs from 'fs';

interface QualityIssue {
  file: string;
  line: number;
  issue: string;
  severity: 'info' | 'warning' | 'error';
  debtHours: number;
}

class CodeQualityScanner {
  private issues: QualityIssue[] = [];

  scanProject(directory: string): QualityIssue[] {
    this.issues = [];

    const files = this.getTypeScriptFiles(directory);

    for (const file of files) {
      this.scanFile(file);
    }

    return this.issues;
  }

  private scanFile(filePath: string): void {
    const sourceCode = fs.readFileSync(filePath, 'utf-8');
    const sourceFile = ts.createSourceFile(
      filePath,
      sourceCode,
      ts.ScriptTarget.Latest,
      true
    );

    // Check for anti-patterns
    this.checkForAnyTypes(sourceFile, filePath);
    this.checkForLongFunctions(sourceFile, filePath);
    this.checkForMagicNumbers(sourceFile, filePath);
    this.checkForConsoleStatements(sourceFile, filePath);
    this.checkForTodoComments(sourceFile, filePath);
  }

  private checkForAnyTypes(sourceFile: ts.SourceFile, filePath: string): void {
    const visit = (node: ts.Node) => {
      if (ts.isTypeReferenceNode(node) && node.typeName.getText() === 'any') {
        const { line } = ts.getLineAndCharacterOfPosition(
          sourceFile,
          node.getStart()
        );

        this.issues.push({
          file: filePath,
          line: line + 1,
          issue: 'Use of any type reduces type safety',
          severity: 'warning',
          debtHours: 0.5
        });
      }

      ts.forEachChild(node, visit);
    };

    visit(sourceFile);
  }

  private checkForLongFunctions(sourceFile: ts.SourceFile, filePath: string): void {
    const visit = (node: ts.Node) => {
      if (ts.isFunctionDeclaration(node) || ts.isMethodDeclaration(node)) {
        if (node.body) {
          const lines = node.body.getFullText().split('\n').length;

          if (lines > 50) {
            const { line } = ts.getLineAndCharacterOfPosition(
              sourceFile,
              node.getStart()
            );

            this.issues.push({
              file: filePath,
              line: line + 1,
              issue: `Function has ${lines} lines, should be refactored`,
              severity: 'warning',
              debtHours: Math.ceil(lines / 10)
            });
          }
        }
      }

      ts.forEachChild(node, visit);
    };

    visit(sourceFile);
  }

  private checkForMagicNumbers(sourceFile: ts.SourceFile, filePath: string): void {
    const visit = (node: ts.Node) => {
      if (ts.isNumericLiteral(node)) {
        const value = parseFloat(node.text);

        // Ignore common constants
        if (![0, 1, -1, 2].includes(value)) {
          const { line } = ts.getLineAndCharacterOfPosition(
            sourceFile,
            node.getStart()
          );

          this.issues.push({
            file: filePath,
            line: line + 1,
            issue: `Magic number ${value} should be a named constant`,
            severity: 'info',
            debtHours: 0.1
          });
        }
      }

      ts.forEachChild(node, visit);
    };

    visit(sourceFile);
  }

  private checkForConsoleStatements(sourceFile: ts.SourceFile, filePath: string): void {
    const text = sourceFile.getFullText();
    const lines = text.split('\n');

    lines.forEach((line, index) => {
      if (line.includes('console.log') || line.includes('console.error')) {
        this.issues.push({
          file: filePath,
          line: index + 1,
          issue: 'Console statement should use proper logger',
          severity: 'info',
          debtHours: 0.1
        });
      }
    });
  }

  private checkForTodoComments(sourceFile: ts.SourceFile, filePath: string): void {
    const text = sourceFile.getFullText();
    const lines = text.split('\n');

    lines.forEach((line, index) => {
      if (/\/\/\s*TODO/.test(line)) {
        this.issues.push({
          file: filePath,
          line: index + 1,
          issue: 'TODO comment indicates incomplete work',
          severity: 'warning',
          debtHours: 2
        });
      }
    });
  }

  private getTypeScriptFiles(dir: string): string[] {
    // Implementation
    return [];
  }

  getTotalDebt(): number {
    return this.issues.reduce((sum, issue) => sum + issue.debtHours, 0);
  }

  generateReport(): string {
    let report = '# Code Quality Report\n\n';

    const bySeverity = this.issues.reduce((acc, issue) => {
      acc[issue.severity] = acc[issue.severity] || [];
      acc[issue.severity].push(issue);
      return acc;
    }, {} as Record<string, QualityIssue[]>);

    report += `## Summary\n\n`;
    report += `- Total Issues: ${this.issues.length}\n`;
    report += `- Estimated Debt: ${this.getTotalDebt()} hours\n\n`;

    for (const [severity, issues] of Object.entries(bySeverity)) {
      report += `### ${severity.toUpperCase()} (${issues.length})\n\n`;

      for (const issue of issues.slice(0, 10)) {
        report += `- ${issue.file}:${issue.line} - ${issue.issue}\n`;
      }

      report += '\n';
    }

    return report;
  }
}

Best Practices

✅ DO

• Quantify debt impact
• Prioritize by ROI
• Track debt over time
• Include debt in sprints
• Document debt decisions
• Set quality gates

❌ DON'T

• Ignore technical debt
• Fix everything at once
• Skip impact analysis
• Make emotional decisions

Debt Categories

• Code Quality: Complex code, duplicates
• Architecture: Poor design, tight coupling
• Testing: Missing tests, flaky tests
• Documentation: Missing docs, outdated
• Security: Vulnerabilities, outdated deps
• Performance: Inefficient code, N+1 queries

Resources

• Technical Debt Quadrant
• SonarQube
• Code Climate