code-metrics-analysis
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ChineseCode Metrics Analysis
代码指标分析
Overview
概述
Measure and analyze code quality metrics to identify complexity, maintainability issues, and areas for improvement.
衡量并分析代码质量指标,以识别复杂度、可维护性问题以及需要改进的领域。
When to Use
适用场景
- Code quality assessment
- Identifying refactoring candidates
- Technical debt monitoring
- Code review automation
- CI/CD quality gates
- Team performance tracking
- Legacy code analysis
- 代码质量评估
- 识别重构候选代码
- 技术债务监控
- 代码审查自动化
- CI/CD质量门禁
- 团队绩效跟踪
- 遗留代码分析
Key Metrics
核心指标
| Metric | Description | Good Range |
|---|---|---|
| Cyclomatic Complexity | Number of linearly independent paths | 1-10 |
| Cognitive Complexity | Measure of code understandability | <15 |
| Lines of Code | Total lines (LOC) | Function: <50 |
| Maintainability Index | Overall maintainability score | >65 |
| Code Churn | Frequency of changes | Low |
| Test Coverage | Percentage covered by tests | >80% |
| 指标 | 说明 | 理想范围 |
|---|---|---|
| Cyclomatic Complexity(圈复杂度) | 线性独立路径的数量 | 1-10 |
| Cognitive Complexity(认知复杂度) | 代码可理解性的衡量指标 | <15 |
| Lines of Code(代码行数) | 总行数(LOC) | 函数:<50 |
| Maintainability Index(可维护性指数) | 整体可维护性得分 | >65 |
| Code Churn(代码变更频率) | 代码变更的频繁程度 | 低 |
| Test Coverage(测试覆盖率) | 被测试覆盖的代码百分比 | >80% |
Implementation Examples
实现示例
1. TypeScript Complexity Analyzer
1. TypeScript复杂度分析器
typescript
import * as ts from 'typescript';
import * as fs from 'fs';
interface ComplexityMetrics {
cyclomaticComplexity: number;
cognitiveComplexity: number;
linesOfCode: number;
functionCount: number;
classCount: number;
maxNestingDepth: number;
}
class CodeMetricsAnalyzer {
analyzeFile(filePath: string): ComplexityMetrics {
const sourceCode = fs.readFileSync(filePath, 'utf-8');
const sourceFile = ts.createSourceFile(
filePath,
sourceCode,
ts.ScriptTarget.Latest,
true
);
const metrics: ComplexityMetrics = {
cyclomaticComplexity: 0,
cognitiveComplexity: 0,
linesOfCode: sourceCode.split('\n').length,
functionCount: 0,
classCount: 0,
maxNestingDepth: 0
};
this.visit(sourceFile, metrics);
return metrics;
}
private visit(node: ts.Node, metrics: ComplexityMetrics, depth: number = 0): void {
metrics.maxNestingDepth = Math.max(metrics.maxNestingDepth, depth);
// Count functions
if (
ts.isFunctionDeclaration(node) ||
ts.isMethodDeclaration(node) ||
ts.isArrowFunction(node)
) {
metrics.functionCount++;
metrics.cyclomaticComplexity++;
}
// Count classes
if (ts.isClassDeclaration(node)) {
metrics.classCount++;
}
// Cyclomatic complexity contributors
if (
ts.isIfStatement(node) ||
ts.isConditionalExpression(node) ||
ts.isWhileStatement(node) ||
ts.isForStatement(node) ||
ts.isCaseClause(node)
) {
metrics.cyclomaticComplexity++;
}
// Cognitive complexity (simplified)
if (ts.isIfStatement(node)) {
metrics.cognitiveComplexity += 1 + depth;
}
if (ts.isWhileStatement(node) || ts.isForStatement(node)) {
metrics.cognitiveComplexity += 1 + depth;
}
// Recurse
const newDepth = this.increasesNesting(node) ? depth + 1 : depth;
ts.forEachChild(node, child => {
this.visit(child, metrics, newDepth);
});
}
private increasesNesting(node: ts.Node): boolean {
return (
ts.isIfStatement(node) ||
ts.isWhileStatement(node) ||
ts.isForStatement(node) ||
ts.isFunctionDeclaration(node) ||
ts.isMethodDeclaration(node)
);
}
calculateMaintainabilityIndex(metrics: ComplexityMetrics): number {
// Simplified maintainability index
const halsteadVolume = metrics.linesOfCode * 4.5; // Simplified
const cyclomaticComplexity = metrics.cyclomaticComplexity;
const linesOfCode = metrics.linesOfCode;
const mi = Math.max(
0,
(171 - 5.2 * Math.log(halsteadVolume) -
0.23 * cyclomaticComplexity -
16.2 * Math.log(linesOfCode)) * 100 / 171
);
return Math.round(mi);
}
analyzeProject(directory: string): Record<string, ComplexityMetrics> {
const results: Record<string, ComplexityMetrics> = {};
const files = this.getTypeScriptFiles(directory);
for (const file of files) {
results[file] = this.analyzeFile(file);
}
return results;
}
private getTypeScriptFiles(dir: string): string[] {
const files: string[] = [];
const items = fs.readdirSync(dir);
for (const item of items) {
const fullPath = `${dir}/${item}`;
const stat = fs.statSync(fullPath);
if (stat.isDirectory() && !item.startsWith('.') && item !== 'node_modules') {
files.push(...this.getTypeScriptFiles(fullPath));
} else if (item.endsWith('.ts') && !item.endsWith('.d.ts')) {
files.push(fullPath);
}
}
return files;
}
generateReport(results: Record<string, ComplexityMetrics>): string {
let report = '# Code Metrics Report\n\n';
// Summary
const totalFiles = Object.keys(results).length;
const avgComplexity = Object.values(results).reduce(
(sum, m) => sum + m.cyclomaticComplexity, 0
) / totalFiles;
report += `## Summary\n\n`;
report += `- Total Files: ${totalFiles}\n`;
report += `- Average Complexity: ${avgComplexity.toFixed(2)}\n\n`;
// High complexity files
report += `## High Complexity Files\n\n`;
const highComplexity = Object.entries(results)
.filter(([_, m]) => m.cyclomaticComplexity > 10)
.sort((a, b) => b[1].cyclomaticComplexity - a[1].cyclomaticComplexity);
if (highComplexity.length === 0) {
report += 'None found.\n\n';
} else {
for (const [file, metrics] of highComplexity) {
report += `- ${file}\n`;
report += ` - Cyclomatic: ${metrics.cyclomaticComplexity}\n`;
report += ` - Cognitive: ${metrics.cognitiveComplexity}\n`;
report += ` - LOC: ${metrics.linesOfCode}\n\n`;
}
}
return report;
}
}
// Usage
const analyzer = new CodeMetricsAnalyzer();
const results = analyzer.analyzeProject('./src');
const report = analyzer.generateReport(results);
console.log(report);typescript
import * as ts from 'typescript';
import * as fs from 'fs';
interface ComplexityMetrics {
cyclomaticComplexity: number;
cognitiveComplexity: number;
linesOfCode: number;
functionCount: number;
classCount: number;
maxNestingDepth: number;
}
class CodeMetricsAnalyzer {
analyzeFile(filePath: string): ComplexityMetrics {
const sourceCode = fs.readFileSync(filePath, 'utf-8');
const sourceFile = ts.createSourceFile(
filePath,
sourceCode,
ts.ScriptTarget.Latest,
true
);
const metrics: ComplexityMetrics = {
cyclomaticComplexity: 0,
cognitiveComplexity: 0,
linesOfCode: sourceCode.split('\n').length,
functionCount: 0,
classCount: 0,
maxNestingDepth: 0
};
this.visit(sourceFile, metrics);
return metrics;
}
private visit(node: ts.Node, metrics: ComplexityMetrics, depth: number = 0): void {
metrics.maxNestingDepth = Math.max(metrics.maxNestingDepth, depth);
// Count functions
if (
ts.isFunctionDeclaration(node) ||
ts.isMethodDeclaration(node) ||
ts.isArrowFunction(node)
) {
metrics.functionCount++;
metrics.cyclomaticComplexity++;
}
// Count classes
if (ts.isClassDeclaration(node)) {
metrics.classCount++;
}
// Cyclomatic complexity contributors
if (
ts.isIfStatement(node) ||
ts.isConditionalExpression(node) ||
ts.isWhileStatement(node) ||
ts.isForStatement(node) ||
ts.isCaseClause(node)
) {
metrics.cyclomaticComplexity++;
}
// Cognitive complexity (simplified)
if (ts.isIfStatement(node)) {
metrics.cognitiveComplexity += 1 + depth;
}
if (ts.isWhileStatement(node) || ts.isForStatement(node)) {
metrics.cognitiveComplexity += 1 + depth;
}
// Recurse
const newDepth = this.increasesNesting(node) ? depth + 1 : depth;
ts.forEachChild(node, child => {
this.visit(child, metrics, newDepth);
});
}
private increasesNesting(node: ts.Node): boolean {
return (
ts.isIfStatement(node) ||
ts.isWhileStatement(node) ||
ts.isForStatement(node) ||
ts.isFunctionDeclaration(node) ||
ts.isMethodDeclaration(node)
);
}
calculateMaintainabilityIndex(metrics: ComplexityMetrics): number {
// Simplified maintainability index
const halsteadVolume = metrics.linesOfCode * 4.5; // Simplified
const cyclomaticComplexity = metrics.cyclomaticComplexity;
const linesOfCode = metrics.linesOfCode;
const mi = Math.max(
0,
(171 - 5.2 * Math.log(halsteadVolume) -
0.23 * cyclomaticComplexity -
16.2 * Math.log(linesOfCode)) * 100 / 171
);
return Math.round(mi);
}
analyzeProject(directory: string): Record<string, ComplexityMetrics> {
const results: Record<string, ComplexityMetrics> = {};
const files = this.getTypeScriptFiles(directory);
for (const file of files) {
results[file] = this.analyzeFile(file);
}
return results;
}
private getTypeScriptFiles(dir: string): string[] {
const files: string[] = [];
const items = fs.readdirSync(dir);
for (const item of items) {
const fullPath = `${dir}/${item}`;
const stat = fs.statSync(fullPath);
if (stat.isDirectory() && !item.startsWith('.') && item !== 'node_modules') {
files.push(...this.getTypeScriptFiles(fullPath));
} else if (item.endsWith('.ts') && !item.endsWith('.d.ts')) {
files.push(fullPath);
}
}
return files;
}
generateReport(results: Record<string, ComplexityMetrics>): string {
let report = '# Code Metrics Report\n\n';
// Summary
const totalFiles = Object.keys(results).length;
const avgComplexity = Object.values(results).reduce(
(sum, m) => sum + m.cyclomaticComplexity, 0
) / totalFiles;
report += `## Summary\n\n`;
report += `- Total Files: ${totalFiles}\n`;
report += `- Average Complexity: ${avgComplexity.toFixed(2)}\n\n`;
// High complexity files
report += `## High Complexity Files\n\n`;
const highComplexity = Object.entries(results)
.filter(([_, m]) => m.cyclomaticComplexity > 10)
.sort((a, b) => b[1].cyclomaticComplexity - a[1].cyclomaticComplexity);
if (highComplexity.length === 0) {
report += 'None found.\n\n';
} else {
for (const [file, metrics] of highComplexity) {
report += `- ${file}\n`;
report += ` - Cyclomatic: ${metrics.cyclomaticComplexity}\n`;
report += ` - Cognitive: ${metrics.cognitiveComplexity}\n`;
report += ` - LOC: ${metrics.linesOfCode}\n\n`;
}
}
return report;
}
}
// Usage
const analyzer = new CodeMetricsAnalyzer();
const results = analyzer.analyzeProject('./src');
const report = analyzer.generateReport(results);
console.log(report);2. Python Code Metrics (using radon)
2. Python代码指标分析(使用radon)
python
from radon.complexity import cc_visit
from radon.metrics import mi_visit, h_visit
from radon.raw import analyze
import os
from typing import Dict, List
import json
class CodeMetricsAnalyzer:
def analyze_file(self, file_path: str) -> Dict:
"""Analyze a single Python file."""
with open(file_path, 'r') as f:
code = f.read()
# Cyclomatic complexity
complexity = cc_visit(code)
# Maintainability index
mi = mi_visit(code, True)
# Halstead metrics
halstead = h_visit(code)
# Raw metrics
raw = analyze(code)
return {
'file': file_path,
'complexity': [{
'name': block.name,
'complexity': block.complexity,
'lineno': block.lineno
} for block in complexity],
'maintainability_index': mi,
'halstead': {
'volume': halstead.total.volume if halstead.total else 0,
'difficulty': halstead.total.difficulty if halstead.total else 0,
'effort': halstead.total.effort if halstead.total else 0
},
'raw': {
'loc': raw.loc,
'lloc': raw.lloc,
'sloc': raw.sloc,
'comments': raw.comments,
'multi': raw.multi,
'blank': raw.blank
}
}
def analyze_project(self, directory: str) -> List[Dict]:
"""Analyze all Python files in a project."""
results = []
for root, dirs, files in os.walk(directory):
# Skip common directories
dirs[:] = [d for d in dirs if d not in ['.git', '__pycache__', 'venv', 'node_modules']]
for file in files:
if file.endswith('.py'):
file_path = os.path.join(root, file)
try:
result = self.analyze_file(file_path)
results.append(result)
except Exception as e:
print(f"Error analyzing {file_path}: {e}")
return results
def generate_report(self, results: List[Dict]) -> str:
"""Generate a markdown report."""
report = "# Code Metrics Report\n\n"
# Summary
total_files = len(results)
avg_mi = sum(r['maintainability_index'] for r in results) / total_files if total_files > 0 else 0
total_loc = sum(r['raw']['loc'] for r in results)
report += "## Summary\n\n"
report += f"- Total Files: {total_files}\n"
report += f"- Total LOC: {total_loc}\n"
report += f"- Average Maintainability Index: {avg_mi:.2f}\n\n"
# High complexity functions
report += "## High Complexity Functions\n\n"
high_complexity = []
for result in results:
for func in result['complexity']:
if func['complexity'] > 10:
high_complexity.append({
'file': result['file'],
**func
})
high_complexity.sort(key=lambda x: x['complexity'], reverse=True)
if not high_complexity:
report += "None found.\n\n"
else:
for func in high_complexity[:10]: # Top 10
report += f"- {func['file']}:{func['lineno']} - {func['name']}\n"
report += f" Complexity: {func['complexity']}\n\n"
# Low maintainability files
report += "## Low Maintainability Files\n\n"
low_mi = [r for r in results if r['maintainability_index'] < 65]
low_mi.sort(key=lambda x: x['maintainability_index'])
if not low_mi:
report += "None found.\n\n"
else:
for file in low_mi[:10]:
report += f"- {file['file']}\n"
report += f" MI: {file['maintainability_index']:.2f}\n"
report += f" LOC: {file['raw']['loc']}\n\n"
return report
def export_json(self, results: List[Dict], output_file: str):
"""Export results as JSON."""
with open(output_file, 'w') as f:
json.dump(results, f, indent=2)python
from radon.complexity import cc_visit
from radon.metrics import mi_visit, h_visit
from radon.raw import analyze
import os
from typing import Dict, List
import json
class CodeMetricsAnalyzer:
def analyze_file(self, file_path: str) -> Dict:
"""Analyze a single Python file."""
with open(file_path, 'r') as f:
code = f.read()
# Cyclomatic complexity
complexity = cc_visit(code)
# Maintainability index
mi = mi_visit(code, True)
# Halstead metrics
halstead = h_visit(code)
# Raw metrics
raw = analyze(code)
return {
'file': file_path,
'complexity': [{
'name': block.name,
'complexity': block.complexity,
'lineno': block.lineno
} for block in complexity],
'maintainability_index': mi,
'halstead': {
'volume': halstead.total.volume if halstead.total else 0,
'difficulty': halstead.total.difficulty if halstead.total else 0,
'effort': halstead.total.effort if halstead.total else 0
},
'raw': {
'loc': raw.loc,
'lloc': raw.lloc,
'sloc': raw.sloc,
'comments': raw.comments,
'multi': raw.multi,
'blank': raw.blank
}
}
def analyze_project(self, directory: str) -> List[Dict]:
"""Analyze all Python files in a project."""
results = []
for root, dirs, files in os.walk(directory):
# Skip common directories
dirs[:] = [d for d in dirs if d not in ['.git', '__pycache__', 'venv', 'node_modules']]
for file in files:
if file.endswith('.py'):
file_path = os.path.join(root, file)
try:
result = self.analyze_file(file_path)
results.append(result)
except Exception as e:
print(f"Error analyzing {file_path}: {e}")
return results
def generate_report(self, results: List[Dict]) -> str:
"""Generate a markdown report."""
report = "# Code Metrics Report\n\n"
# Summary
total_files = len(results)
avg_mi = sum(r['maintainability_index'] for r in results) / total_files if total_files > 0 else 0
total_loc = sum(r['raw']['loc'] for r in results)
report += "## Summary\n\n"
report += f"- Total Files: {total_files}\n"
report += f"- Total LOC: {total_loc}\n"
report += f"- Average Maintainability Index: {avg_mi:.2f}\n\n"
# High complexity functions
report += "## High Complexity Functions\n\n"
high_complexity = []
for result in results:
for func in result['complexity']:
if func['complexity'] > 10:
high_complexity.append({
'file': result['file'],
**func
})
high_complexity.sort(key=lambda x: x['complexity'], reverse=True)
if not high_complexity:
report += "None found.\n\n"
else:
for func in high_complexity[:10]: # Top 10
report += f"- {func['file']}:{func['lineno']} - {func['name']}\n"
report += f" Complexity: {func['complexity']}\n\n"
# Low maintainability files
report += "## Low Maintainability Files\n\n"
low_mi = [r for r in results if r['maintainability_index'] < 65]
low_mi.sort(key=lambda x: x['maintainability_index'])
if not low_mi:
report += "None found.\n\n"
else:
for file in low_mi[:10]:
report += f"- {file['file']}\n"
report += f" MI: {file['maintainability_index']:.2f}\n"
report += f" LOC: {file['raw']['loc']}\n\n"
return report
def export_json(self, results: List[Dict], output_file: str):
"""Export results as JSON."""
with open(output_file, 'w') as f:
json.dump(results, f, indent=2)Usage
Usage
analyzer = CodeMetricsAnalyzer()
results = analyzer.analyze_project('./src')
report = analyzer.generate_report(results)
print(report)
analyzer = CodeMetricsAnalyzer()
results = analyzer.analyze_project('./src')
report = analyzer.generate_report(results)
print(report)
Export to JSON
Export to JSON
analyzer.export_json(results, 'metrics.json')
undefinedanalyzer.export_json(results, 'metrics.json')
undefined3. ESLint Plugin for Complexity
3. 用于复杂度分析的ESLint插件
javascript
// eslint-plugin-complexity.js
module.exports = {
rules: {
'max-complexity': {
create(context) {
const maxComplexity = context.options[0] || 10;
let complexity = 0;
function increaseComplexity(node) {
complexity++;
}
function checkComplexity(node) {
if (complexity > maxComplexity) {
context.report({
node,
message: `Function has complexity of ${complexity}. Maximum allowed is ${maxComplexity}.`
});
}
}
return {
FunctionDeclaration(node) {
complexity = 1;
},
'FunctionDeclaration:exit': checkComplexity,
IfStatement: increaseComplexity,
SwitchCase: increaseComplexity,
ForStatement: increaseComplexity,
WhileStatement: increaseComplexity,
DoWhileStatement: increaseComplexity,
ConditionalExpression: increaseComplexity,
LogicalExpression(node) {
if (node.operator === '&&' || node.operator === '||') {
increaseComplexity();
}
}
};
}
}
}
};javascript
// eslint-plugin-complexity.js
module.exports = {
rules: {
'max-complexity': {
create(context) {
const maxComplexity = context.options[0] || 10;
let complexity = 0;
function increaseComplexity(node) {
complexity++;
}
function checkComplexity(node) {
if (complexity > maxComplexity) {
context.report({
node,
message: `Function has complexity of ${complexity}. Maximum allowed is ${maxComplexity}.`
});
}
}
return {
FunctionDeclaration(node) {
complexity = 1;
},
'FunctionDeclaration:exit': checkComplexity,
IfStatement: increaseComplexity,
SwitchCase: increaseComplexity,
ForStatement: increaseComplexity,
WhileStatement: increaseComplexity,
DoWhileStatement: increaseComplexity,
ConditionalExpression: increaseComplexity,
LogicalExpression(node) {
if (node.operator === '&&' || node.operator === '||') {
increaseComplexity();
}
}
};
}
}
}
};4. CI/CD Quality Gates
4. CI/CD质量门禁
yaml
undefinedyaml
undefined.github/workflows/code-quality.yml
.github/workflows/code-quality.yml
name: Code Quality
on: [pull_request]
jobs:
metrics:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Setup Node.js
uses: actions/setup-node@v2
with:
node-version: '18'
- name: Install dependencies
run: npm install
- name: Run complexity analysis
run: npx ts-node analyze-metrics.ts
- name: Check quality gates
run: |
COMPLEXITY=$(cat metrics.json | jq '.avgComplexity')
if (( $(echo "$COMPLEXITY > 10" | bc -l) )); then
echo "Average complexity too high: $COMPLEXITY"
exit 1
fi
- name: Upload metrics
uses: actions/upload-artifact@v2
with:
name: code-metrics
path: metrics.jsonundefinedname: Code Quality
on: [pull_request]
jobs:
metrics:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Setup Node.js
uses: actions/setup-node@v2
with:
node-version: '18'
- name: Install dependencies
run: npm install
- name: Run complexity analysis
run: npx ts-node analyze-metrics.ts
- name: Check quality gates
run: |
COMPLEXITY=$(cat metrics.json | jq '.avgComplexity')
if (( $(echo "$COMPLEXITY > 10" | bc -l) )); then
echo "Average complexity too high: $COMPLEXITY"
exit 1
fi
- name: Upload metrics
uses: actions/upload-artifact@v2
with:
name: code-metrics
path: metrics.jsonundefinedBest Practices
最佳实践
✅ DO
✅ 建议
- Monitor metrics over time
- Set reasonable thresholds
- Focus on trends, not absolute numbers
- Automate metric collection
- Use metrics to guide refactoring
- Combine multiple metrics
- Include metrics in code reviews
- 长期监控指标变化
- 设置合理的阈值
- 关注趋势而非绝对数值
- 自动化指标收集
- 利用指标指导重构工作
- 结合多种指标进行分析
- 将指标纳入代码审查流程
❌ DON'T
❌ 避免
- Use metrics as sole quality indicator
- Set unrealistic thresholds
- Ignore context and domain
- Punish developers for metrics
- Focus only on one metric
- Skip documentation
- 将指标作为代码质量的唯一判断标准
- 设置不切实际的阈值
- 忽略业务场景和领域特性
- 因指标问题惩罚开发者
- 只关注单一指标
- 跳过指标文档记录
Tools
工具推荐
- TypeScript/JavaScript: ESLint, ts-morph, complexity-report
- Python: radon, mccabe, pylint
- Java: PMD, Checkstyle, SonarQube
- C#: NDepend, SonarQube
- Multi-language: SonarQube, CodeClimate
- TypeScript/JavaScript:ESLint、ts-morph、complexity-report
- Python:radon、mccabe、pylint
- Java:PMD、Checkstyle、SonarQube
- C#:NDepend、SonarQube
- 多语言:SonarQube、CodeClimate