Claude-skill-registry ameba-custom-rules
Use when creating custom Ameba rules for Crystal code analysis including rule development, AST traversal, issue reporting, and rule testing.
install
source · Clone the upstream repo
git clone https://github.com/majiayu000/claude-skill-registry
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/majiayu000/claude-skill-registry "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/data/ameba-custom-rules" ~/.claude/skills/majiayu000-claude-skill-registry-ameba-custom-rules && rm -rf "$T"
manifest:
skills/data/ameba-custom-rules/SKILL.mdsource content
Ameba Custom Rules
Create custom linting rules for Ameba to enforce project-specific code quality standards and catch domain-specific code smells in Crystal projects.
Understanding Custom Rules
Custom Ameba rules allow you to:
- Enforce project-specific coding standards
- Catch domain-specific anti-patterns
- Validate business logic constraints
- Ensure consistency across large codebases
- Create reusable rule libraries for your organization
- Extend Ameba's built-in capabilities
Rule Anatomy
Basic Rule Structure
Every Ameba rule inherits from
Ameba::Rule::Basemodule Ameba::Rule::Custom # Rule that enforces documentation on public classes class DocumentedClasses < Base properties do description "Enforces public classes to be documented" end MSG = "Class must be documented with a comment" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::ClassDef) return unless node.visibility.public? doc = node.doc issue_for(node, MSG) if doc.nil? || doc.empty? end end end
Key Components
- Module namespace - Custom rules typically use
orAmeba::Rule::CustomAmeba::Rule::<Category> - Base class - All rules inherit from
Ameba::Rule::Base - Properties block - Defines rule metadata and configuration
- Message constant - The error message shown to users
- Test method - Entry point that initializes the AST visitor
- Overloaded test methods - Handle specific AST node types
Creating Your First Custom Rule
Step 1: Project Setup
Create a Crystal library for your custom rules:
# Initialize a new Crystal library crystal init lib ameba-custom-rules cd ameba-custom-rules
Update
shard.ymlname: ameba-custom-rules version: 0.1.0 authors: - Your Name <your.email@example.com> description: Custom Ameba rules for your project crystal: ">= 1.0.0" license: MIT development_dependencies: ameba: github: crystal-ameba/ameba version: ~> 1.6.0
Important: Ameba should be a development dependency to avoid version conflicts.
Step 2: Implement a Simple Rule
Create
src/ameba-custom-rules/no_sleep_in_production.crrequire "ameba" module Ameba::Rule::Custom # Prevents sleep() calls in production code class NoSleepInProduction < Base properties do description "Prevents sleep calls in production code" enabled true end MSG = "Avoid using sleep() in production code; use proper background jobs" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::Call) return unless node.name == "sleep" issue_for node, MSG end end end
Step 3: Register and Use the Rule
Create main file
src/ameba-custom-rules.crrequire "ameba" require "./ameba-custom-rules/*" # Rules are automatically registered through inheritance
Update your project's Ameba configuration:
# .ameba.yml Custom/NoSleepInProduction: Enabled: true Severity: Warning
Step 4: Test Your Rule
Create
spec/ameba-custom-rules/no_sleep_in_production_spec.crrequire "../spec_helper" module Ameba::Rule::Custom describe NoSleepInProduction do it "reports sleep calls" do rule = NoSleepInProduction.new source = Source.new %( def process sleep 5.seconds end ) rule.test(source) source.issues.size.should eq(1) end it "allows code without sleep" do rule = NoSleepInProduction.new source = Source.new %( def process puts "Processing" end ) rule.test(source) source.issues.should be_empty end end end
Advanced Rule Examples
Enforcing Naming Conventions
module Ameba::Rule::Custom # Enforces that service classes end with "Service" class ServiceClassNaming < Base properties do description "Service classes must end with 'Service'" enabled true end MSG = "Service class name should end with 'Service'" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::ClassDef) class_name = node.name.to_s # Check if class is in services directory return unless source.path.includes?("/services/") # Check if name ends with Service unless class_name.ends_with?("Service") issue_for node.name, MSG end end end end
Detecting Dangerous Method Calls
module Ameba::Rule::Custom # Prevents dangerous ActiveRecord-like methods class NoDangerousDatabaseCalls < Base properties do description "Prevents dangerous database operations" dangerous_methods ["delete_all", "destroy_all", "update_all"] end MSG = "Dangerous method %s without conditions" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::Call) return unless dangerous_methods.includes?(node.name) # Check if call has arguments (conditions) if node.args.empty? message = MSG % node.name issue_for node, message end end end end
Enforcing Error Handling
module Ameba::Rule::Custom # Ensures HTTP client calls have error handling class HttpErrorHandling < Base properties do description "HTTP client calls must handle errors" enabled true end MSG = "HTTP client calls should be wrapped in begin/rescue" def test(source) @in_rescue_block = false AST::NodeVisitor.new self, source end def test(source, node : Crystal::ExceptionHandler) @in_rescue_block = true true # Continue visiting children end def test(source, node : Crystal::Call) return if @in_rescue_block # Check for HTTP client calls if node.obj.try(&.to_s.includes?("HTTP")) issue_for node, MSG end end end end
Validating Method Complexity
module Ameba::Rule::Custom # Limits method complexity class MethodComplexity < Base properties do description "Methods should not be too complex" max_complexity 10 end MSG = "Method complexity (%d) exceeds maximum (%d)" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::Def) complexity = calculate_complexity(node) if complexity > max_complexity message = MSG % [complexity, max_complexity] issue_for node, message end end private def calculate_complexity(node) counter = ComplexityCounter.new node.accept(counter) counter.complexity end private class ComplexityCounter < Crystal::Visitor getter complexity : Int32 = 1 def visit(node : Crystal::If) @complexity += 1 true end def visit(node : Crystal::Case) @complexity += 1 true end def visit(node : Crystal::While) @complexity += 1 true end def visit(node : Crystal::Call) # Count logical operators if node.name.in?("&&", "||") @complexity += 1 end true end def visit(node : Crystal::ASTNode) true end end end end
Enforcing Documentation Standards
module Ameba::Rule::Custom # Requires documentation with specific format class DocumentationFormat < Base properties do description "Public methods must have documentation with examples" enabled true require_examples true end MSG_NO_DOC = "Public method must have documentation" MSG_NO_EXAMPLE = "Documentation must include usage examples" def test(source) AST::NodeVisitor.new self, source end def test(source, node : Crystal::Def) return unless node.visibility.public? return if node.name.starts_with?("initialize") doc = node.doc if doc.nil? || doc.empty? issue_for node, MSG_NO_DOC return end if require_examples && !has_example?(doc) issue_for node, MSG_NO_EXAMPLE end end private def has_example?(doc : String) doc.includes?("```") || doc.includes?("Example:") end end end
Working with AST Nodes
Common AST Node Types
# Class definitions def test(source, node : Crystal::ClassDef) node.name # Class name node.visibility # public?, private?, protected? node.doc # Documentation comment node.abstract? # Is abstract class? node.superclass # Parent class end # Method definitions def test(source, node : Crystal::Def) node.name # Method name node.args # Arguments node.body # Method body node.return_type # Return type annotation node.visibility # Visibility modifier node.doc # Documentation end # Method calls def test(source, node : Crystal::Call) node.name # Method name node.obj # Receiver object node.args # Arguments node.named_args # Named arguments node.block # Block argument end # Variable assignments def test(source, node : Crystal::Assign) node.target # Left side (variable) node.value # Right side (value) end # Conditionals def test(source, node : Crystal::If) node.cond # Condition node.then # Then branch node.else # Else branch end # Loops def test(source, node : Crystal::While) node.cond # Loop condition node.body # Loop body end
Traversal Patterns
# Pattern 1: Track state during traversal class MyRule < Base def test(source) @inside_block = false @depth = 0 AST::NodeVisitor.new self, source end def test(source, node : Crystal::Block) @inside_block = true @depth += 1 true # Continue visiting children end end # Pattern 2: Collect information then analyze class MyRule < Base def test(source) @method_names = [] of String visitor = AST::NodeVisitor.new self, source analyze_collected_data(source) end def test(source, node : Crystal::Def) @method_names << node.name end private def analyze_collected_data(source) # Analyze @method_names end end # Pattern 3: Parent-child relationships class MyRule < Base def test(source, node : Crystal::ClassDef) # Visit only methods in this class node.body.accept(MethodVisitor.new(self, source)) end private class MethodVisitor < Crystal::Visitor def initialize(@rule : MyRule, @source : Source) end def visit(node : Crystal::Def) @rule.check_method(node, @source) true end def visit(node : Crystal::ASTNode) true end end end
Rule Configuration
Configurable Properties
module Ameba::Rule::Custom class ConfigurableRule < Base properties do description "A rule with configurable properties" # Boolean properties enabled true strict_mode false # Numeric properties max_length 100 min_length 3 # String properties prefix "test_" suffix "_spec" # Array properties allowed_names ["foo", "bar", "baz"] excluded_paths ["spec/**/*", "lib/**/*"] end def test(source) # Use properties return unless enabled if strict_mode # Apply strict checks end AST::NodeVisitor.new self, source end end end
Configuration in .ameba.yml
Custom/ConfigurableRule: Enabled: true Severity: Warning StrictMode: true MaxLength: 120 MinLength: 5 Prefix: "app_" AllowedNames: - "primary" - "secondary" ExcludedPaths: - "spec/fixtures/**" - "db/migrations/**"
Issue Reporting
Basic Issue Reporting
# Simple issue issue_for node, "Error message" # Issue with interpolation issue_for node, "Found #{count} violations" # Issue at specific location issue_for node.name, "Method name violates convention" # Issue with custom location issue_for( {node.location.try(&.line_number) || 1, 1}, node.end_location, "Custom message" )
Issue Severity
# Controlled by configuration Custom/MyRule: Severity: Error # Blocks CI # or Severity: Warning # Important but not blocking # or Severity: Convention # Style preference
Rich Issue Messages
module Ameba::Rule::Custom class RichMessages < Base MSG_TEMPLATE = <<-MSG Method '%{method}' is too long (%{actual} lines, max %{max} allowed) Consider extracting to smaller methods or using composition. MSG def test(source, node : Crystal::Def) line_count = count_lines(node) if line_count > max_lines message = MSG_TEMPLATE % { method: node.name, actual: line_count, max: max_lines } issue_for node, message end end end end
Testing Custom Rules
Comprehensive Test Suite
require "../spec_helper" module Ameba::Rule::Custom describe DocumentedClasses do context "with documented class" do it "passes" do rule = DocumentedClasses.new source = Source.new %( # This is a documented class class MyClass end ) rule.test(source) source.issues.should be_empty end end context "with undocumented public class" do it "reports an issue" do rule = DocumentedClasses.new source = Source.new %( class MyClass end ) rule.test(source) source.issues.size.should eq(1) source.issues.first.message.should contain("documented") end end context "with private class" do it "allows undocumented private classes" do rule = DocumentedClasses.new source = Source.new %( private class InternalClass end ) rule.test(source) source.issues.should be_empty end end context "with empty documentation" do it "reports an issue" do rule = DocumentedClasses.new source = Source.new %( # class MyClass end ) rule.test(source) source.issues.size.should eq(1) end end context "configuration" do it "can be disabled" do rule = DocumentedClasses.new rule.enabled = false source = Source.new %( class MyClass end ) rule.test(source) source.issues.should be_empty end end end end
Test Helpers
# spec/spec_helper.cr require "spec" require "ameba" require "../src/ameba-custom-rules" module Ameba # Helper to create test sources def self.source(code : String, path = "source.cr") Source.new(code, path) end # Helper to expect issues def self.expect_issue(rule, code) source = Source.new(code) rule.test(source) source.issues.empty?.should be_false end # Helper to expect no issues def self.expect_no_issue(rule, code) source = Source.new(code) rule.test(source) source.issues.should be_empty end end # Usage in specs describe MyRule do it "reports violations" do rule = MyRule.new Ameba.expect_issue rule, %( def bad_code end ) end end
Packaging and Distribution
Creating a Reusable Rule Package
# shard.yml name: ameba-company-rules version: 1.0.0 description: | Company-specific Ameba rules for Crystal projects. Enforces coding standards and best practices. authors: - Company DevTools <devtools@company.com> crystal: ">= 1.0.0" license: MIT development_dependencies: ameba: github: crystal-ameba/ameba version: ~> 1.6.0 # Optional: Add to targets for binary targets: ameba-company: main: src/cli.cr
Distribution Strategy
# Option 1: As a shard dependency # In user's shard.yml development_dependencies: ameba: github: crystal-ameba/ameba ameba-company-rules: github: company/ameba-company-rules # Option 2: As vendored rules # Copy rule files to project's lib/ameba-rules/ # Include in custom ameba binary # Option 3: As a plugin # Create standalone executable that extends ameba
Custom Ameba Binary
# bin/ameba-custom.cr require "ameba/cli" require "../lib/ameba-company-rules/src/ameba-company-rules" # Rules are automatically discovered Ameba::CLI.run
Build and distribute:
crystal build bin/ameba-custom.cr -o bin/ameba-custom # Distribute binary or build from source
Real-World Rule Examples
Preventing N+1 Queries
module Ameba::Rule::Custom class PreventNPlusOne < Base properties do description "Detects potential N+1 query patterns" end MSG = "Potential N+1 query: accessing association in loop" def test(source) @in_loop = false AST::NodeVisitor.new self, source end def test(source, node : Crystal::While | Crystal::Call) if node.is_a?(Crystal::Call) && node.name.in?("each", "map") @in_loop = true node.block.try(&.accept(self)) @in_loop = false return false # Don't visit block again end true end def test(source, node : Crystal::Call) return unless @in_loop # Detect association access patterns if looks_like_association?(node) issue_for node, MSG end end private def looks_like_association?(node) # Simplified detection node.name.in?("user", "posts", "comments") && node.obj != nil end end end
Enforcing API Versioning
module Ameba::Rule::Custom class ApiVersioning < Base properties do description "API controllers must be versioned" end MSG = "API controller must be in a versioned namespace (e.g., V1::)" def test(source) return unless source.path.includes?("/api/") AST::NodeVisitor.new self, source end def test(source, node : Crystal::ClassDef) return unless node.name.to_s.ends_with?("Controller") unless has_version_namespace?(node) issue_for node.name, MSG end end private def has_version_namespace?(node) # Check if class name includes version (V1::, V2::, etc.) node.name.to_s.matches?(/V\d+::/) end end end
When to Use This Skill
Use the ameba-custom-rules skill when:
- Enforcing project-specific coding standards not covered by built-in rules
- Detecting domain-specific anti-patterns or code smells
- Validating business logic constraints in code
- Creating organization-wide linting standards
- Migrating from another language and enforcing new patterns
- Preventing specific bugs that have occurred in production
- Ensuring consistency across microservices
- Teaching team members about code quality through automated feedback
- Enforcing architectural decisions (e.g., layer boundaries)
- Standardizing error handling, logging, or monitoring patterns
Best Practices
- Start simple - Begin with basic rules before tackling complex AST traversals
- Test thoroughly - Write comprehensive specs covering edge cases
- Provide clear messages - Error messages should explain what's wrong and suggest fixes
- Make rules configurable - Use properties for thresholds and options
- Document your rules - Include description and examples in properties block
- Use specific node types - Overload
for specific AST nodes, not generic traversaltest - Consider performance - Avoid complex operations in hot paths; cache results when possible
- Follow naming conventions - Use descriptive rule names that match their purpose
- Provide fix suggestions - When possible, explain how to resolve the issue
- Scope appropriately - Only check relevant files (use source.path checks)
- Handle nil safely - Use try(&.) when accessing potentially nil AST properties
- Avoid false positives - Better to miss some cases than flag correct code
- Version your rules - Track rule versions and breaking changes
- Keep rules focused - One rule should check one thing (Single Responsibility)
- Integrate with CI - Ensure custom rules work in automated environments
Common Pitfalls
- Overly broad matching - Catching too many cases and producing false positives
- Not handling nil - AST nodes may have nil properties causing crashes
- Ignoring visibility - Checking private methods when only public API matters
- Complex visitor logic - Making traversal code hard to understand and maintain
- Missing edge cases - Not testing unusual but valid code patterns
- Poor error messages - Vague messages that don't help developers fix issues
- Hard-coded values - Not making thresholds and options configurable
- Checking generated code - Flagging auto-generated files that shouldn't be changed
- Performance issues - Complex rules that slow down analysis significantly
- Dependency conflicts - Using Ameba as regular dependency instead of development_dependencies
- Not using properties - Hard-coding configuration instead of using properties block
- Incomplete testing - Not testing disabled state, edge cases, or configuration
- Tight coupling - Rules that depend on other rules or specific file structures
- Unclear scope - Rules that apply to wrong files or contexts
- Version incompatibility - Not testing against multiple Ameba versions