// Architecture standard for building robust, type-safe TypeScript services using the "Spec and Handler" pattern. Use when building CLIs, libraries, or complex business logic.
| name | typed-service-contracts |
| description | Architecture standard for building robust, type-safe TypeScript services using the "Spec and Handler" pattern. Use when building CLIs, libraries, or complex business logic. |
This skill defines a Vertical Slice Architecture backed by Design by Contract (DbC) principles. It treats application logic as rigorously defined Units of Work where inputs are parsed (not just validated) and errors are treated as values (Result Pattern) rather than exceptions.
spec.ts)The "Contract" or "Port". It defines the What. It must contain:
DiscriminatedUnion of Success | Failure.interface ConfigureSpec).handler.ts)The "Implementation" or "Adapter". It defines the How. It must:
Result type.spec.ts)Follow this template to define the boundaries.
import { z } from 'zod';
// 1. VALIDATION HELPERS (Reusable Refinements)
export const SafePathSchema = z.string()
.min(1)
.refine(p => !p.includes('..'), "No traversal allowed");
// 2. INPUT (The Command) - "Parse, don't validate"
export const MyTaskInputSchema = z.object({
path: SafePathSchema,
force: z.boolean().default(false),
});
export type MyTaskInput = z.infer<typeof MyTaskInputSchema>;
// 3. ERROR CODES (Exhaustive)
export const MyTaskErrorCode = z.enum([
'FILE_NOT_FOUND',
'PERMISSION_DENIED',
'UNKNOWN_ERROR'
]);
// 4. RESULT (The Monad)
export const MyTaskSuccess = z.object({
success: z.literal(true),
data: z.string(), // The output payload
});
export const MyTaskFailure = z.object({
success: z.literal(false),
error: z.object({
code: MyTaskErrorCode,
message: z.string(),
suggestion: z.string().optional(),
recoverable: z.boolean(),
})
});
export type MyTaskResult =
| z.infer<typeof MyTaskSuccess>
| z.infer<typeof MyTaskFailure>;
// 5. INTERFACE (The Capability)
export interface MyTaskSpec {
execute(input: MyTaskInput): Promise<MyTaskResult>;
}
handler.ts)Follow this template to implement the logic.
import { MyTaskSpec, MyTaskInput, MyTaskResult } from './spec.js';
import * as fs from 'fs';
export class MyTaskHandler implements MyTaskSpec {
async execute(input: MyTaskInput): Promise<MyTaskResult> {
try {
// 1. Business Logic
if (!fs.existsSync(input.path)) {
// 2. Explicit Error Return (No Throwing)
return {
success: false,
error: {
code: 'FILE_NOT_FOUND',
message: `Path does not exist: ${input.path}`,
recoverable: true
}
};
}
// 3. Success Return
return {
success: true,
data: 'Operation complete'
};
} catch (error) {
// 4. Safety Net: Catch unknown runtime errors
return {
success: false,
error: {
code: 'UNKNOWN_ERROR',
message: error instanceof Error ? error.message : String(error),
recoverable: false
}
};
}
}
}
Do not write monolithic tests. Split them into Contract Tests and Logic Tests.
Test the Bouncer. Ensure invalid data is rejected before it reaches the handler.
// spec.test.ts
import { MyTaskInputSchema } from './spec';
const invalidCases = [
{ val: '../etc/passwd', err: 'No traversal allowed' },
{ val: '', err: 'min(1)' },
];
test.each(invalidCases)('validates paths', ({ val, err }) => {
const result = MyTaskInputSchema.safeParse({ path: val });
expect(result.success).toBe(false);
});
Test the Chef. Mock external dependencies (fs, network) and assert the Result Object.
// handler.test.ts
import { MyTaskHandler } from './handler';
import { vi } from 'vitest'; // or jest
test('returns FILE_NOT_FOUND if path missing', async () => {
// MOCK
vi.mocked(fs.existsSync).mockReturnValue(false);
// EXECUTE
const handler = new MyTaskHandler();
const result = await handler.execute({ path: '/fake' });
// ASSERT (Check the Result Object)
expect(result.success).toBe(false);
if (!result.success) {
expect(result.error.code).toBe('FILE_NOT_FOUND');
}
});