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annotate-source-files

pjt222
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Esta habilidad añade automáticamente anotaciones de flujo de trabajo PUT a los archivos fuente utilizando la sintaxis de comentarios correcta para más de 30 lenguajes de programación. Maneja la generación de anotaciones, comentarios multilínea, variables internas y validación, lo que la hace ideal para documentar flujos de trabajo en pipelines de datos o cálculos de múltiples pasos. Úsala después de analizar una base de código y crear un plan de anotaciones para integrar la documentación del flujo de trabajo directamente en tus archivos fuente.

Instalación rápida

Claude Code

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git clone https://github.com/pjt222/agent-almanac.git ~/.claude/skills/annotate-source-files

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Documentación

Annotate Source Files

Add PUT workflow annotations to source files. Putior can extract structured workflow data and generate Mermaid diagrams.

When Use

  • After analyzing codebase with analyze-codebase-workflow and having annotation plan
  • Adding workflow documentation to new or existing source files
  • Enriching auto-detected workflows with manual labels and connections
  • Documenting data pipelines, ETL processes, or multi-step computations

Inputs

  • Required: Source files to annotate
  • Required: Annotation plan or knowledge of workflow steps
  • Optional: Style preference: single-line or multiline (default: single-line)
  • Optional: Whether to use put_generate() for skeleton generation (default: yes)

Steps

Step 1: Determine Comment Prefix

Each language has specific comment prefix for PUT annotations. Use get_comment_prefix() to find correct one.

library(putior)

# Common prefixes
get_comment_prefix("R")    # "#"
get_comment_prefix("py")   # "#"
get_comment_prefix("sql")  # "--"
get_comment_prefix("js")   # "//"
get_comment_prefix("ts")   # "//"
get_comment_prefix("go")   # "//"
get_comment_prefix("rs")   # "//"
get_comment_prefix("m")    # "%"
get_comment_prefix("lua")  # "--"

Got: String like "#", "--", "//", or "%".

Line and block comments: putior detects annotations in both line comments (//, #, --) and C-style block comments (/* */, /** */). For JS/TS, both // and /* */ blocks scanned. Python triple-quote strings (''' ''') not detected — use # for Python annotations.

If fail: Extension not recognized? File language may not be supported. Check get_supported_extensions() for full list. For unsupported languages, use # as conventional default.

Step 2: Generate Annotation Skeletons

Use put_generate() to create annotation templates based on auto-detected I/O.

# Print suggestions to console
put_generate("./src/etl/")

# Single-line style (default)
put_generate("./src/etl/", style = "single")

# Multiline style for complex annotations
put_generate("./src/etl/", style = "multiline")

# Copy to clipboard for pasting
put_generate("./src/etl/", output = "clipboard")

Example output for R file:

# put id:'extract_data', label:'Extract Customer Data', input:'customers.csv', output:'raw_data.internal'

Example output for SQL:

-- put id:'load_data', label:'Load Customer Table', output:'customers'

Got: One or more annotation comment lines per source file, pre-filled with detected function names and I/O.

If fail: No suggestions generated? File may not contain recognizable I/O patterns. Write annotations manually based on understanding of code.

Step 3: Refine Annotations

Edit generated skeletons to add accurate labels, connections, metadata.

Annotation syntax reference:

<prefix> put id:'unique_id', label:'Human Readable Label', input:'file1.csv, file2.rds', output:'result.parquet, summary.internal'

Fields:

  • id (required): Unique identifier, used for node connections
  • label (required): Human-readable description shown in diagram
  • input: Comma-separated list of input files or variables
  • output: Comma-separated list of output files or variables
  • .internal extension: Marks in-memory variables (not persisted between scripts)
  • node_type: Controls Mermaid node shape and class styling. Values:
    • "input" — stadium shape ([...]) for data sources and configuration
    • "output" — subroutine shape [[...]] for generated artifacts
    • "process" — rectangle [...] for processing steps (default)
    • "decision" — diamond {...} for conditional logic
    • "start" / "end" — stadium shape ([...]) for entry/terminal nodes

Example with node_type:

# put id:'config', label:'Load Config', node_type:'input', output:'config.internal'
# put id:'transform', label:'Apply Rules', node_type:'process', input:'config.internal', output:'result.rds'
# put id:'report', label:'Generate Report', node_type:'output', input:'result.rds'

Multiline syntax (for complex annotations):

# put id:'complex_step', \
#   label:'Multi-line Label', \
#   input:'data.csv, config.yaml', \
#   output:'result.parquet'

Block comment syntax (for //-prefix languages only: JS, TS, Go, Rust, C, C++, Java, etc.):

Languages that use // for line comments also support PUT annotations inside /* */ and /** */ block comments. Use * put as line prefix inside block body:

/* put id:'init', label:'Initialize Config', output:'config.internal' */

/**
 * put id:'process', \
 *   label:'Process Records', \
 *   input:'config.internal, records.json', \
 *   output:'results.json'
 */
function processRecords(config, records) {
  // ...
}

JSDoc-style annotations particularly useful when documenting workflow steps alongside API documentation:

/**
 * Transform raw sensor data into normalized readings.
 * put id:'normalize', label:'Normalize Sensor Data', input:'raw_readings.json', output:'normalized.parquet'
 */
export function normalizeSensorData(readings: SensorReading[]): NormalizedData {
  // ...
}

Note: Block comment annotations not supported for #-prefix languages (R, Python, Shell) or ---prefix languages (SQL, Lua). Use only line comments for those languages. Block-originated annotations do not support backslash continuation across lines.

Cross-file data flow (connecting scripts via file-based I/O):

# Script 1: extract.R
# put id:'extract', label:'Extract Data', output:'raw_data.internal, raw_data.rds'
data <- read.csv("source.csv")
saveRDS(data, "raw_data.rds")

# Script 2: transform.R
# put id:'transform', label:'Transform Data', input:'raw_data.rds', output:'clean_data.parquet'
data <- readRDS("raw_data.rds")
arrow::write_parquet(clean, "clean_data.parquet")

Got: Annotations refined with accurate IDs, labels, and I/O fields that reflect actual data flow.

If fail: Unsure about I/O? Use .internal extension for in-memory intermediates and explicit file names for persisted data.

Step 4: Insert Annotations into Files

Place annotations at top of each file or immediately above relevant code block.

Placement conventions:

  1. File-level annotation: Place at top of file, after any shebang line or file header comment
  2. Block-level annotation: Place immediately above code block it describes
  3. Multiple annotations per file: Use for files with distinct workflow phases

Example placement in R file:

#!/usr/bin/env Rscript
# ETL Extract Script
#
# put id:'read_source', label:'Read Source Data', input:'raw_data.csv', output:'df.internal'

df <- read.csv("raw_data.csv")

# put id:'clean_data', label:'Clean and Validate', input:'df.internal', output:'clean.rds'

df_clean <- df[complete.cases(df), ]
saveRDS(df_clean, "clean.rds")

Use Edit tool to insert annotations into existing files without disturbing surrounding code.

Got: Annotations inserted at appropriate locations in each source file.

If fail: Annotations break syntax highlighting in editor? Ensure comment prefix correct for language. PUT annotations are standard comments and should not affect code execution.

Step 5: Validate Annotations

Run putior's validation to check annotation syntax and connectivity.

# Scan annotated files
workflow <- put("./src/", validate = TRUE)

# Check for validation issues
print(workflow)
cat(sprintf("Total nodes: %d\n", nrow(workflow)))

# Verify connections by checking input/output overlap
inputs <- unlist(strsplit(workflow$input, ",\\s*"))
outputs <- unlist(strsplit(workflow$output, ",\\s*"))
connected <- intersect(inputs, outputs)
cat(sprintf("Connected data flows: %d\n", length(connected)))

# Generate diagram to visually inspect
cat(put_diagram(workflow, theme = "github", show_source_info = TRUE))

# Merge with auto-detected for maximum coverage
merged <- put_merge("./src/", merge_strategy = "supplement")
cat(put_diagram(merged, theme = "github"))

Got: All annotations parse without errors. Diagram shows connected workflow. put_merge() fills in any gaps from auto-detection.

If fail: Common validation issues:

  • Missing closing quote: id:'nameid:'name'
  • Using double quotes inside: id:"name"id:'name'
  • Duplicate IDs across files: each id must be unique across entire scanned directory
  • Backslash continuation on wrong line: \ must be last character before newline

Checks

  • Every annotated file has syntactically valid PUT annotations
  • put("./src/") returns data frame with expected number of nodes
  • No duplicate id values across scanned directory
  • put_diagram() produces connected flowchart (not all isolated nodes)
  • Multiline annotations (if used) parse correctly with backslash continuation
  • .internal variables appear only as outputs, never as cross-file inputs
  • Files excluded via exclude parameter do not appear in workflow (e.g., put("./src/", exclude = "test_") skips test helpers)

Pitfalls

  • Quote nesting errors: PUT annotations use single quotes: id:'name'. Double quotes cause parsing issues when annotation inside string context.
  • Duplicate IDs: Every id must be globally unique within scanned scope. Use naming convention like <script>_<step> (e.g., extract_read, transform_clean).
  • .internal as cross-file input: .internal variables exist only during script execution. To pass data between scripts, use persisted file format (.rds, .csv, .parquet) as output of one script and input of next.
  • Missing connections: Diagram shows disconnected nodes? Check output filenames in one annotation exactly match input filenames in another (including extensions).
  • Wrong comment prefix: Using # in SQL file or // in Python causes annotation to be treated as code, not comment. Always verify with get_comment_prefix().
  • Forgetting multiline continuation: When using multiline annotations, every continued line must end with \ and next line must start with comment prefix.
  • Python triple-quote strings: putior does not scan Python triple-quote strings (''' ''', """ """). Always use # for Python PUT annotations.
  • Meta-pipeline annotations: Annotate build script that also scans for annotations (e.g., script that calls put() and put_diagram())? Script's own annotations will appear in generated diagram. Either exclude file from scanning (see generate-workflow-diagram Common Pitfalls) or avoid placing PUT annotations in build script itself.

See Also

  • analyze-codebase-workflow — prerequisite: produces annotation plan this skill follows
  • generate-workflow-diagram — next step: generate final diagram from annotations
  • install-putior — putior must be installed before annotating
  • configure-putior-mcp — MCP tools provide interactive annotation assistance

Repositorio GitHub

pjt222/agent-almanac
Ruta: i18n/caveman/skills/annotate-source-files
0
agentsagentskillsai-assisted-developmentclaude-codeskillsteams

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