Build AI Method using the MTHDS standard (Agentic)

Create new MTHDS bundles through an adaptive, phase-based approach. This skill guides you through drafting (markdown), structuring (CLI/JSON), and assembling complete .mthds bundles.

Philosophy

• Drafting phases: Generate human-readable markdown documents

• Structuring phases: Use agent CLI commands for JSON-to-TOML conversion

• Visualization: Present ASCII graphs at overview and detail levels

• Iterative: Refine at each phase before proceeding

Mode Selection

See Mode Selection for general mode behavior.

Default: Automatic for simple-to-moderate methods. Interactive for complex multi-step methods or when the user's request is ambiguous.

Detection heuristics:

• User provides a clear one-sentence goal → automatic

• User describes a complex multi-step process → interactive

• User mentions batching, conditions, or parallel execution → interactive

• User says "create a pipeline for X" with no elaboration → automatic

Existing Method Detection

Goal: Before starting a new build, check whether the project already contains methods that overlap with the user's request.

When to check: Always, before entering automatic or interactive mode — with these exceptions:

• Skip entirely if the user's request signals intent to create something new. This includes phrases like "new method", "a new method", "brand new", "from scratch", "create a method", or similar.

• Targeted search if the user references a specific existing method by name or path, search specifically for that method instead of scanning broadly. If the specific method cannot be found, fall back to the general search approach below.

For the general case, scan mthds-wip/ and any other directories containing .mthds files in the project.

How to check:

• List all .mthds files in the project (glob for **/*.mthds )

• For each file found, read the file header (domain, main pipe code, description) to understand what it does

• Compare with the user's current request — look for overlap in topic, domain, or purpose

If no existing methods overlap: Proceed normally with the build.

If one or more existing methods overlap, present the user with three options:

I found an existing method that seems related to what you're asking for:

• <path/to/bundle.mthds> —

How would you like to proceed?

• Start fresh — Create a wholly new method from scratch (ignoring the existing one)

• Use the existing method — It already does what you need; cancel this build

• Build upon it — Extend the existing method by adding pipes before or after the current flow

Handling each choice:

• Start fresh: Proceed with the build as normal (automatic or interactive path below).

• Use the existing method: End the build. Remind the user they can run it with /run and point them to its inputs.json if available.

• Build upon it: Switch to the /edit skill, framing the task as an extension — ask the user what additional processing they want to add (e.g., a preprocessing step before the main pipe, a postprocessing step after, or additional parallel branches). Pass the existing .mthds file path to the edit workflow.

Prerequisites

See CLI Prerequisites

Phase 1: Understand Requirements

Goal: Gather complete information before planning.

Ask the user:

• What are the method's inputs? (documents, images, text, structured data)

• What outputs should it produce?

• What transformations are needed?

• Are there conditional branches or parallel operations?

• Should items be processed in batches?

Output: Requirements summary (keep in context)

Phase 2: Draft the Plan

Goal: Create a pseudo-code narrative of the method.

Draft a plan in markdown that describes:

• The overall flow from inputs to outputs

• Each processing step with its purpose

• Variable names (snake_case) for inputs and outputs of each step

• Where structured data or lists are involved

Rules:

• Name variables consistently across steps

• Use plural names for lists (e.g., documents ), singular for items (e.g., document )

• Don't detail types yet - focus on the flow

Show ASCII Overview — see Manual Build Phases for the diagram template.

Output: Plan draft (markdown)

Phase 3: Draft Concepts

Goal: Identify all data types needed in the method.

From the plan, identify input, intermediate, and output concepts.

For each concept, draft:

• Name: PascalCase, singular noun (e.g., Invoice not Invoices )

• Description: What it represents

• Type: Either refines: NativeConcept OR structure: {...}

Native concepts (built-in, do NOT redefine): Text , Html , Image , Document , Number , Page , TextAndImages , ImgGenPrompt , JSON , Anything , Dynamic . See MTHDS Language Reference — Native Concepts

Note: Document is the native concept for any document (PDF, Word, etc.). Image is for any image format (JPEG, PNG, etc.). File formats like "PDF" or "JPEG" are not concepts.

Each native concept has accessible attributes (e.g., Image has url , public_url , filename , caption ...; Document has url , public_url , filename ...; Page has text_and_images and page_view ). See Native Content Types for the full attribute reference — essential for $var.field prompts and construct blocks.

Concept naming rules:

• No adjectives: Article not LongArticle

• No circumstances: Argument not CounterArgument

• Always singular: Employee not Employees

Output: Concepts draft (markdown)

Phase 4: Structure Concepts

Goal: Convert concept drafts to validated TOML using the CLI.

Prepare JSON specs for all concepts, then convert them in parallel by making multiple concurrent tool calls.

Example (3 concepts converted in parallel):

Call all three in parallel (single response, multiple tool calls):

mthds-agent pipelex concept --spec '{"the_concept_code": "Invoice", "description": "A commercial invoice document", "structure": {"invoice_number": "The unique identifier", "vendor_name": {"type": "text", "description": "Vendor name", "required": true}, "total_amount": {"type": "number", "description": "Total amount", "required": true}}}' mthds-agent pipelex concept --spec '{"the_concept_code": "LineItem", "description": "A single line item on an invoice", "structure": {"description": "Item description", "quantity": {"type": "integer", "required": true}, "unit_price": {"type": "number", "required": true}}}' mthds-agent pipelex concept --spec '{"the_concept_code": "Summary", "description": "A text summary of content", "refines": "Text"}'

Field types: text , integer , boolean , number , date , concept , list

Choices (enum-like constrained values):

status = {choices = ["pending", "processing", "completed"], description = "Order status", required = true} score = {type = "number", choices = ["0", "0.5", "1", "1.5", "2"], description = "Score on a half-point scale"}

When choices is present, type defaults to text if omitted. You can also pair choices with integer or number types explicitly.

Nested concept references in structures:

field = {type = "concept", concept_ref = "my_domain.OtherConcept", description = "...", required = true} items = {type = "list", item_type = "concept", item_concept_ref = "my_domain.OtherConcept", description = "..."}

Output: Validated concept TOML fragments

Partial failures: If some commands fail, fix the failing specs using the error JSON (error_domain: "input" means the spec is wrong). Re-run only the failed commands.

Phase 5: Draft the Flow

Goal: Design the complete pipeline structure with controller selection.

Controller Selection Guide

Controller Use When Key Pattern

PipeSequence Steps must execute in order step1 → step2 → step3

PipeBatch Same operation on each list item map(items, transform)

PipeParallel Independent operations run together fork → join

PipeCondition Route based on data values if-then-else

Operator Selection Guide

Operator Use When

PipeLLM Generate text or structured objects with AI

PipeExtract Extract content from PDF/Image → Page[]

PipeCompose Template text or construct objects

PipeImgGen Generate images from text prompts

PipeFunc Custom Python logic

Note: Page[] outputs from PipeExtract automatically convert to text when inserted into prompts using @variable .

Show detailed ASCII flow — see Manual Build Phases for all controller flow diagrams.

Output: Flow draft with pipe contracts (markdown)

Phase 6: Review & Refine

Goal: Validate consistency before structuring.

Check:

• Main pipe is clearly identified and handles method inputs

• Variable names are consistent across all pipes

• Input/output types match between connected pipes

• PipeBatch branches receive singular items, not lists

• PipeBatch: input_item_name (singular) differs from input_list_name (plural) and all inputs keys

• PipeSequence batch steps: batch_as (singular) differs from batch_over (plural)

• PipeImgGen inputs are text (add PipeLLM if needed to generate prompt)

• No circular dependencies

Confirm with user before proceeding to structuring.

Phase 7: Structure Pipes

Goal: Convert pipe drafts to validated TOML using the CLI.

Default to talent names from Talents and Presets. Only look up specific model presets when the user has explicit instructions about model choice. In all cases, verify that referenced presets exist:

mthds-agent pipelex models --type llm # when structuring PipeLLM pipes mthds-agent pipelex models --type extract # when structuring PipeExtract pipes mthds-agent pipelex models --type img_gen # when structuring PipeImgGen pipes

Prepare JSON specs for all pipes, then convert them in parallel by making multiple concurrent tool calls.

For detailed CLI examples for each pipe type (PipeLLM, PipeSequence, PipeBatch, PipeCondition, PipeCompose, PipeParallel, PipeExtract, PipeImgGen), see Manual Build Phases.

Output: Validated pipe TOML fragments

Partial failures: Fix failing specs using the error JSON. Re-run only the failed commands.

Phase 8: Assemble Bundle

Goal: Combine all parts into a complete .mthds file.

Save location: Always save method bundles to mthds-wip/ . Do not ask the user for the save location.

For the assemble CLI command and direct .mthds writing examples, see Manual Build Phases.

Phase 9: Validate & Test

Goal: Ensure the bundle is valid and works correctly.

Always use -L pointing to the bundle's own directory to avoid namespace collisions with other bundles in the project.

Validate (isolated from other bundles)

mthds-agent pipelex validate mthds-wip/pipeline_01/bundle.mthds -L mthds-wip/pipeline_01/

Generate example inputs

mthds-agent pipelex inputs mthds-wip/pipeline_01/bundle.mthds -L mthds-wip/pipeline_01/

Dry run (directory mode: auto-detects bundle, inputs, library dir)

mthds-agent pipelex run pipe mthds-wip/pipeline_01/ --dry-run --mock-inputs

Fix any validation errors and re-validate. If validation fails unexpectedly or errors are unclear, re-run with --log-level debug for additional context:

mthds-agent --log-level debug pipelex validate mthds-wip/pipeline_01/bundle.mthds -L mthds-wip/pipeline_01/

Phase 10: Deliver

Goal: Generate input template after a successful build.

After validation passes (Phase 9), generate the input template:

Input template (extracts the input schema as JSON)

mthds-agent pipelex inputs <mthds_file> -L <output_dir>/

Replace <mthds_file> and <output_dir> with actual paths from the build output.

Present Results

After the command succeeds:

Input template: Show the inputs JSON from the inputs command output. Save it to <output_dir>/inputs.json for the user to fill in.

Next steps — try it now: If the method requires inputs, the saved inputs.json still contains placeholder values, so suggest a dry run first:

To try this method right now, use /run or from the terminal:

mthds run <output_dir>/ --dry-run --mock-inputs

Next steps — run with real data: Explain how to prepare real inputs, then run for real:

To run with real data, use /inputs to prepare your inputs (provide your own files, or generate synthetic test data), then:

mthds run <output_dir>/

Replace <output_dir> with the actual output directory path used throughout the build.

Quick Reference

Multiplicity Notation

• Text

• single item

• Text[]

• variable-length list

• Text[3]

• exactly 3 items

Prompt Variables

• @variable

• Block insertion (multi-line, with delimiters)

• $variable

• Inline insertion (short text)

• $var.field

• Access nested field

Naming Conventions

• Domain: snake_case

• Concepts: PascalCase , singular

• Pipes: snake_case

• Variables: snake_case

Reference

• CLI Prerequisites — read at skill start to check CLI availability

• Error Handling — read when CLI returns an error to determine recovery

• MTHDS Agent Guide — read for CLI command syntax or output format details

• MTHDS Language Reference — read when writing or modifying .mthds TOML syntax

• Native Content Types — read when using $var.field in prompts or from in construct blocks, to know which attributes each native concept exposes

• Manual Build Phases — read for detailed ASCII diagrams and CLI examples per phase

• Talents and Presets — read when selecting model talents for pipe structuring