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merge: 4b salida markdown del AutomaticEDA (render_md, render_automatic_eda emite aeda_md_path, verificado met)

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Egutierrez
2026-06-30 18:59:33 +02:00
parent ab21e5d90b 48de3ce3da
commit 4099d88eaf
7 changed files with 805 additions and 8 deletions
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python/functions/datascience/__init__.py
+2
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@@ -64,6 +64,7 @@ from .exploratory_caveats import exploratory_caveats
from .render_eda_pdf import render_eda_pdf, render_eda_pdf_relational
from .render_automatic_eda_pdf import render_automatic_eda_pdf
from .render_automatic_eda_pptx import render_automatic_eda_pptx
from .render_automatic_eda_markdown import render_automatic_eda_markdown
from .detect_time_column import detect_time_column
from .extract_timeseries_raw import extract_timeseries_raw
from .build_eda_render_ctx import build_eda_render_ctx
@@ -82,6 +83,7 @@ __all__ = [
"resample_timeseries",
"render_automatic_eda_pdf",
"render_automatic_eda_pptx",
"render_automatic_eda_markdown",
"decode_qr_image",
"adf_kpss_stationarity",
"acf_pacf",
python/functions/datascience/automatic_eda/__init__.py
+2
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@@ -36,6 +36,7 @@ from .model import ( # noqa: F401
from .chapters_registry import CHAPTER_ORDER, build_chapter, build_document # noqa: F401
from .render_pdf_impl import render_pdf # noqa: F401
from .render_pptx_impl import render_pptx # noqa: F401
from .render_md_impl import render_md # noqa: F401
__all__ = [
"ENGINE_NAME",
@@ -60,4 +61,5 @@ __all__ = [
"build_document",
"render_pdf",
"render_pptx",
"render_md",
]
python/functions/datascience/automatic_eda/render_md_impl.py
+458
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@@ -0,0 +1,458 @@
"""AutomaticEDA Markdown serializer — one self-contained file to paste to an LLM.
Same document model as the PDF/PPTX renderers (an ordered list of
:class:`Chapter`, each a list of format-independent blocks) but emitted as plain
**Markdown** instead of a binary. The goal is different from the other two
renderers: a Markdown EDA is meant to be *pasted into an LLM*, so it prioritises
TEXT and DATA over visuals. Tables become Markdown tables (every row dumped, no
pagination — nothing is cut because there are no pages); a ``Figure`` becomes its
caption plus, when possible, the underlying bar/histogram data as a Markdown
table (an LLM cannot see the image); glossary term markers are stripped while
``**bold**`` is kept (it is valid Markdown).
dict-no-throw (the ``eda`` group style): :func:`render_md` never raises. On a
fatal error it returns ``{path: None, ...}`` with a ``note`` explaining why; a
malformed block degrades to a readable note rather than crashing the document.
"""
from __future__ import annotations
import os
import re
from . import model
# Glossary span markers (kept text, dropped markers). We intentionally do NOT use
# ``text_layout.strip_inline_md`` for Markdown blocks because that also removes
# ``**bold**`` — valid Markdown we want to preserve when pasting to an LLM.
_TERM_OPEN_RE = re.compile(r"\[\[term:[A-Za-z0-9_]+\]\]")
_MAX_BAR_ROWS = 100
# --------------------------------------------------------------------------- #
# Small helpers.
# --------------------------------------------------------------------------- #
def _clean_terms(s) -> str:
"""Drop glossary term markers, keeping the visible text (and any **bold**)."""
s = model._safe_str(s)
s = _TERM_OPEN_RE.sub("", s)
return s.replace("[[/term]]", "")
def _cell(v) -> str:
"""Render a value as a safe Markdown table cell.
Escapes pipes (``|`` -> ``\\|``) so they do not break the column layout and
folds newlines to ``<br>`` so a multi-line value stays inside one cell. None
becomes an empty string.
"""
s = model._safe_str(v)
s = s.replace("|", "\\|")
s = s.replace("\r\n", "\n").replace("\r", "\n").replace("\n", "<br>")
return s
def _slug(text: str) -> str:
"""GitHub-style heading anchor: lowercase, spaces->'-', drop other symbols."""
s = model._safe_str(text).strip().lower()
out = []
for ch in s:
if ch.isalnum():
out.append(ch)
elif ch in " -":
out.append("-")
# any other symbol is dropped.
slug = "".join(out)
while "--" in slug:
slug = slug.replace("--", "-")
return slug.strip("-")
def _fmt_num(v) -> str:
"""Compact number for the figure data tables (ints as ints, else 4 sig figs)."""
try:
f = float(v)
except Exception: # noqa: BLE001
return model._safe_str(v)
if f != f: # NaN
return "NaN"
if f == int(f) and abs(f) < 1e15:
return str(int(f))
return f"{f:.4g}"
def _fmt_int(v) -> str:
try:
return str(int(v))
except Exception: # noqa: BLE001
return model._safe_str(v)
def _now_iso() -> str:
from datetime import datetime, timezone
return datetime.now(timezone.utc).strftime("%Y-%m-%d %H:%M:%S UTC")
# --------------------------------------------------------------------------- #
# Document header (title + metadata blockquote + numbered index).
# --------------------------------------------------------------------------- #
def _meta_block(meta: dict) -> list:
"""Build the metadata lines for the header blockquote (omitting absentees)."""
ctx = meta.get("ctx") if isinstance(meta.get("ctx"), dict) else {}
lines: list = []
def add(label, value) -> None:
if value is None:
return
s = model._safe_str(value).strip()
if s and s.lower() != "none":
lines.append(f"**{label}:** {s}")
add("Dataset", ctx.get("dataset_name") or meta.get("dataset_name"))
add("Fuente", ctx.get("source_origin") or meta.get("source_origin"))
add("Almacenamiento", ctx.get("storage") or meta.get("storage"))
n_rows = ctx.get("n_rows", meta.get("n_rows"))
n_cols = ctx.get("n_cols", meta.get("n_cols"))
if n_rows is not None and n_cols is not None:
lines.append(
f"**Dimensiones:** {_fmt_int(n_rows)} filas × {_fmt_int(n_cols)} columnas")
add("Generado", meta.get("generated_at") or _now_iso())
lines.append(f"**Motor:** {model.ENGINE_NAME} v{model.ENGINE_VERSION}")
return lines
# --------------------------------------------------------------------------- #
# Per-block serializers. Each returns a Markdown string (no surrounding blanks;
# the caller separates blocks with a blank line).
# --------------------------------------------------------------------------- #
def _md_heading(block) -> str:
level = int(getattr(block, "level", 1) or 1)
hashes = "#" * min(level + 2, 6) # level1 -> ###; '#'/'##' reserved for doc/chapter.
text = _clean_terms(getattr(block, "text", "")).strip()
return f"{hashes} {text}"
def _md_markdown(block) -> str:
# Keep the text verbatim, dropping only glossary markers (keep **bold**).
return _clean_terms(getattr(block, "text", "")).rstrip("\n")
def _md_kv_table(block) -> str:
lines: list = []
title = getattr(block, "title", None)
if title:
lines.append(f"**{_clean_terms(title).strip()}**")
lines.append("")
lines.append("| Campo | Valor |")
lines.append("| --- | --- |")
for row in (getattr(block, "rows", []) or []):
try:
label, value = row[0], row[1]
except Exception: # noqa: BLE001
label, value = row, ""
lines.append(f"| {_cell(label)} | {_cell(value)} |")
return "\n".join(lines)
def _md_data_table(block) -> str:
lines: list = []
title = getattr(block, "title", None)
if title:
lines.append(f"**{_clean_terms(title).strip()}**")
lines.append("")
header = list(getattr(block, "header", []) or [])
rows = list(getattr(block, "rows", []) or [])
if not header:
ncol = max((len(r) for r in rows), default=1)
header = [f"col{i + 1}" for i in range(ncol)]
ncol = len(header)
lines.append("| " + " | ".join(_cell(h) for h in header) + " |")
lines.append("| " + " | ".join(["---"] * ncol) + " |")
for r in rows: # dump every row — no pagination, nothing cut.
cells = [_cell(r[c]) if c < len(r) else "" for c in range(ncol)]
lines.append("| " + " | ".join(cells) + " |")
note = getattr(block, "note", None)
if note:
lines.append("")
lines.append(f"*{_clean_terms(note).strip()}*")
return "\n".join(lines)
def _bars_table(bars: list) -> str:
"""Render extracted bar/histogram data as a Markdown table (Desde/Hasta/Frec)."""
lines = ["| Desde | Hasta | Frecuencia |", "| --- | --- | --- |"]
shown = bars[:_MAX_BAR_ROWS]
for x0, x1, h in shown:
lines.append(f"| {_fmt_num(x0)} | {_fmt_num(x1)} | {_fmt_num(h)} |")
out = "\n".join(lines)
extra = len(bars) - len(shown)
if extra > 0:
out += f"\n\n*… ({extra} filas más)*"
return out
def _extract_bars(fig) -> list:
"""Collect (x_from, x_to, height) of the rectangular bars of a matplotlib fig.
Histogram / bar-chart bars are ``matplotlib.patches.Rectangle`` with positive
width and height; spines, legends and zero-area artists are skipped. Never
raises — returns ``[]`` on any problem.
"""
bars: list = []
try:
for ax in fig.get_axes():
# Collect this axes' positive-area rectangles, then keep only the ones
# that look like actual histogram/bar bins. Reference shapes that
# matplotlib also stores in ``ax.patches`` — most notably the ``±1σ``
# band drawn by ``axvspan`` (a single rectangle far wider than a bin)
# and a lone Tukey boxplot box — would otherwise show up as fake
# "bins". A histogram axes has several near-equal-width bars, so we
# drop any rectangle whose width is more than twice the median width
# of that axes' rectangles (the σ-band spans many bins; uniform bins
# all sit at the median width and stay).
ax_bars: list = []
for patch in list(getattr(ax, "patches", []) or []):
try:
w = patch.get_width()
h = patch.get_height()
x = patch.get_x()
except Exception: # noqa: BLE001 — not a Rectangle-like patch.
continue
if w and w > 0 and h and h > 0:
ax_bars.append((x, x + w, h))
if len(ax_bars) >= 3:
widths = sorted(b[1] - b[0] for b in ax_bars)
median_w = widths[len(widths) // 2]
if median_w > 0:
ax_bars = [b for b in ax_bars
if (b[1] - b[0]) <= 2.0 * median_w]
bars.extend(ax_bars)
except Exception: # noqa: BLE001
return []
return bars
def _md_figure(block, meta: dict, out_path: str, counter: list) -> str:
"""Serialize a Figure prioritising TEXT + DATA (an LLM cannot see the image).
Emits the caption, then — if the matplotlib figure has bars — a Markdown table
of the underlying (Desde, Hasta, Frecuencia) values. Optionally (when
``meta['embed_figures']`` is True) also exports a PNG beside the .md and adds
an image link; off by default so the Markdown stays self-contained.
"""
caption = model._safe_str(getattr(block, "caption", "")).strip()
parts = [f"*Figura: {caption}*" if caption else "*Figura*"]
fig = None
try:
import matplotlib
matplotlib.use("Agg") # defensive: headless rasterization backend.
fig = getattr(block, "fig", None)
make = getattr(block, "make", None)
if fig is None and callable(make):
fig = make()
if fig is not None:
bars = _extract_bars(fig)
if bars:
parts.append(_bars_table(bars))
if meta.get("embed_figures"):
png = _embed_png(fig, out_path, counter)
if png:
parts.append(f"![{caption}]({png})")
except Exception: # noqa: BLE001 — a bad figure degrades to just its caption.
pass
finally:
if fig is not None:
try:
import matplotlib.pyplot as plt
plt.close(fig)
except Exception: # noqa: BLE001
pass
return "\n\n".join(parts)
def _embed_png(fig, out_path: str, counter: list) -> str:
"""Export the figure to ``<basename>_figN.png`` beside the .md; return its name."""
try:
counter[0] += 1
base = os.path.splitext(os.path.basename(out_path))[0] or "figura"
name = f"{base}_fig{counter[0]}.png"
path = os.path.join(os.path.dirname(os.path.abspath(out_path)), name)
fig.savefig(path, format="png", dpi=120, bbox_inches="tight")
return name
except Exception: # noqa: BLE001
return ""
def _md_image(block) -> str:
path = model._safe_str(getattr(block, "path", ""))
caption = model._safe_str(getattr(block, "caption", "")).strip()
out = f"![{caption}]({path})"
if caption:
out += f"\n\n*{caption}*"
return out
def _md_caption(block) -> str:
return f"*{_clean_terms(getattr(block, 'text', '')).strip()}*"
def _md_note(block) -> str:
text = _clean_terms(getattr(block, "text", "")).strip()
lines = text.split("\n")
return "\n".join((f"> {ln}" if ln.strip() else ">") for ln in lines)
def _md_group(block, meta: dict, out_path: str, counter: list) -> str:
parts: list = []
title = getattr(block, "title", None)
if title:
parts.append(f"### {_clean_terms(title).strip()}")
for b in (getattr(block, "blocks", []) or []):
try:
seg = _serialize_block(b, meta, out_path, counter)
except Exception: # noqa: BLE001
seg = ""
if seg:
parts.append(seg)
return "\n\n".join(parts)
def _md_glossary_entry(block) -> str:
label = (model._safe_str(getattr(block, "label", "")).strip()
or model._safe_str(getattr(block, "key", "")).strip())
definition = _clean_terms(getattr(block, "definition", "")).strip()
out = f"### {label}"
if definition:
out += f"\n\n{definition}"
return out
def _serialize_block(block, meta: dict, out_path: str, counter: list) -> str:
"""Dispatch a single block to its Markdown serializer. Unknown -> note."""
kind = getattr(block, "kind", "")
if kind == "heading":
return _md_heading(block)
if kind == "markdown":
return _md_markdown(block)
if kind == "kv_table":
return _md_kv_table(block)
if kind == "data_table":
return _md_data_table(block)
if kind == "figure":
return _md_figure(block, meta, out_path, counter)
if kind == "image":
return _md_image(block)
if kind == "caption":
return _md_caption(block)
if kind == "note":
return _md_note(block)
if kind == "group":
return _md_group(block, meta, out_path, counter)
if kind == "glossary_entry":
return _md_glossary_entry(block)
# Unknown content -> readable note (mirrors the model's defensive coercion).
return _md_note(model.Note(text=model._safe_str(block)))
# --------------------------------------------------------------------------- #
# Entry point.
# --------------------------------------------------------------------------- #
def render_md(chapters: list, out_path: str, meta: dict = None) -> dict:
"""Serialize a list of Chapters into a single self-contained Markdown file.
The output leads with ``# <title>``, a metadata blockquote and a numbered
``## Índice`` linking each chapter, then one ``## N. <title>`` section per
chapter with its blocks. Tables become Markdown tables (every row dumped),
figures become caption + underlying data table, glossary markers are stripped
while ``**bold**`` is kept. Designed to be pasted into an LLM.
Args:
chapters: a list of ``Chapter`` (dataclasses or dicts); normalized
defensively with ``model.as_chapters``.
out_path: filesystem path for the ``.md`` (parent dirs are created).
meta: optional dict. Recognised keys: ``title``, ``ctx`` (dict with
``dataset_name``/``source_origin``/``storage``/``n_rows``/``n_cols``),
``generated_at``, ``embed_figures`` (export PNGs beside the .md,
default False).
Returns:
dict (never raises): ``{path: str|None, n_chars: int,
chapters: list[{id, version}], note: str}``. On a fatal error ``path`` is
None and ``note`` explains why.
"""
meta = meta or {}
chapters = model.as_chapters(chapters)
title = model._safe_str(meta.get("title")) or model.ENGINE_NAME
# Edge: nothing to render -> a minimal but valid Markdown document.
if not chapters:
content = (f"# {title}\n\n"
"*(documento vacío — sin capítulos aplicables)*\n")
return _write(out_path, content, [], "documento vacío")
counter = [0] # document-wide figure counter for unique PNG names.
notes: list = []
segments: list = [f"# {title}"]
meta_lines = _meta_block(meta)
if meta_lines:
segments.append("\n".join(f"> {ln}" for ln in meta_lines))
# Numbered index. The anchor matches the chapter heading emitted below
# (``## N. <title>``) in GitHub slug style.
chap_heads = []
idx_lines = ["## Índice"]
for i, ch in enumerate(chapters, 1):
head_text = f"{i}. {model._safe_str(ch.title)}"
anchor = _slug(head_text)
chap_heads.append((head_text, anchor))
idx_lines.append(f"{i}. [{model._safe_str(ch.title)}](#{anchor})")
segments.append("\n".join(idx_lines))
chapters_meta = []
for i, ch in enumerate(chapters, 1):
segments.append("---")
head_text, _anchor = chap_heads[i - 1]
segments.append(f"## {head_text}")
blocks = list(ch.blocks or [])
# Omit a leading level-1 Heading that just repeats the chapter title.
if blocks:
b0 = blocks[0]
if (getattr(b0, "kind", "") == "heading"
and int(getattr(b0, "level", 1) or 1) == 1
and _clean_terms(getattr(b0, "text", "")).strip()
== model._safe_str(ch.title).strip()):
blocks = blocks[1:]
for block in blocks:
try:
seg = _serialize_block(block, meta, out_path, counter)
except Exception as e: # noqa: BLE001
seg = _md_note(model.Note(text=model._safe_str(block)))
notes.append(
f"bloque '{getattr(block, 'kind', '?')}' del capítulo "
f"'{ch.id}' degradado: {e}")
if seg:
segments.append(seg)
chapters_meta.append({"id": ch.id, "version": ch.version})
content = "\n\n".join(segments) + "\n"
note = f"{len(content)} caracteres"
if notes:
note += " · " + "; ".join(notes)
return _write(out_path, content, chapters_meta, note)
def _write(out_path: str, content: str, chapters_meta: list, note: str) -> dict:
"""Write the Markdown to disk (creating parents). dict-no-throw."""
try:
parent = os.path.dirname(os.path.abspath(out_path))
os.makedirs(parent, exist_ok=True)
with open(out_path, "w", encoding="utf-8") as fh:
fh.write(content)
except Exception as e: # noqa: BLE001 — never raise from the writer.
return {"path": None, "n_chars": 0, "chapters": [],
"note": f"no se pudo escribir el Markdown: {e}"}
return {"path": out_path, "n_chars": len(content),
"chapters": chapters_meta, "note": note}
python/functions/datascience/render_automatic_eda_markdown.md
+89
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@@ -0,0 +1,89 @@
---
name: render_automatic_eda_markdown
kind: function
lang: py
domain: datascience
version: "1.0.0"
purity: impure
signature: "def render_automatic_eda_markdown(chapters_or_profile, out_path: str, meta: dict = None) -> dict"
description: "Renderiza un documento AutomaticEDA por CAPÍTULOS (modelo de bloques independiente del formato) en un único MARKDOWN autocontenido pensado para PEGAR A UN LLM. Acepta una lista de capítulos del modelo o directamente un TableProfile del grupo eda (construye los capítulos canónicos con build_document). Prioriza TEXTO + DATOS sobre lo visual: las tablas se vuelcan como tablas markdown con TODAS las filas (sin paginar — no hay páginas que cortar), una figura matplotlib se reduce a su caption más la tabla de datos subyacente (Desde/Hasta/Frecuencia de las barras del histograma) porque un LLM no ve la imagen, y los marcadores de glosario se eliminan conservando el **negrita**. Lleva cabecera (# título), bloque de metadatos en blockquote e índice numerado con anclas GitHub. Espejo de render_automatic_eda_pdf/render_automatic_eda_pptx pero SIN manifest (KISS, el markdown es un único artefacto de texto). dict-no-throw: nunca lanza, devuelve {path, n_chars, chapters, note}; en error fatal path es None y note explica la causa. Flag opcional meta['embed_figures'] exporta PNGs junto al .md (off por defecto)."
tags: [eda, markdown, render, report, llm, automatic-eda, chapters, versioned, no-cut, text, datascience, python]
uses_functions: []
uses_types: []
returns: []
returns_optional: false
error_type: "error_go_core"
imports: [os, re, matplotlib, "datascience.automatic_eda"]
params:
- name: chapters_or_profile
desc: "una lista de capítulos del modelo AutomaticEDA (dataclasses Chapter o dicts {id,title,version,blocks}) O un TableProfile dict del grupo eda. Si es un TableProfile, los capítulos canónicos se construyen con build_document(profile, meta['ctx']). Bloques soportados: heading, markdown, kv_table, data_table, figure, image, caption, note, group, glossary_entry. Lectura defensiva: lo no reconocido se degrada a Note, nunca lanza."
- name: out_path
desc: "ruta del archivo .md de salida. Los directorios padre se crean si faltan. Directorio no escribible → {path:None, note:<causa>} sin lanzar."
- name: meta
desc: "dict opcional. Claves: title (título del documento), ctx (dict con dataset_name→Dataset, source_origin→Fuente, storage→Almacenamiento, n_rows/n_cols→Dimensiones; también lo consumen los builders de capítulo cuando se da un profile), generated_at (timestamp; si falta se genera ISO UTC), embed_figures (True para exportar PNGs <basename>_figN.png junto al .md; por defecto False y el markdown queda autocontenido)."
output: "dict (nunca lanza): {path: str|None, n_chars: int, chapters: list[{id,version}], note: str}. En error fatal (p.ej. directorio no escribible) path es None y note explica la causa. Un documento sin capítulos aplicables produce un markdown mínimo válido con 'documento vacío' y chapters=[]."
tested: true
tests: ["test_golden_bloques_sinteticos_serializa_todo_a_markdown", "test_edge_documento_vacio_no_revienta", "test_profile_path_construye_capitulos_y_escribe"]
test_file_path: "python/functions/datascience/render_automatic_eda_markdown_test.py"
file_path: "python/functions/datascience/render_automatic_eda_markdown.py"
---
## Ejemplo
```python
from datascience import render_automatic_eda_markdown
# Desde un TableProfile del grupo eda (mismo modelo que los renderers PDF/PPTX).
profile = {
"table": "ventas", "source": "/data/ventas.csv",
"n_rows": 1000, "n_cols": 2, "quality_score": 92.5,
"columns": [
{"name": "precio", "inferred_type": "numeric", "null_pct": 0.01,
"numeric": {"mean": 42.5, "median": 40.0, "min": 1.0, "max": 100.0,
"std": 12.3}},
{"name": "categoria", "inferred_type": "categorical", "null_pct": 0.0,
"categorical": {"top": [{"value": "neumaticos", "count": 500}]}},
],
}
res = render_automatic_eda_markdown(
profile, "reports/ventas_aeda.md",
{"title": "EDA — ventas",
"ctx": {"dataset_name": "Ventas", "source_origin": "ERP export",
"n_rows": 1000, "n_cols": 2}})
print(res["path"], res["n_chars"], res["chapters"])
# -> reports/ventas_aeda.md 4123 [{'id':'portada','version':'1.0.0'}, ...]
```
## Cuando usarla
Cuando quieras **pegar el EDA a un LLM** (ChatGPT, Claude, ...) o tenerlo en texto
plano versionable: mismo documento por capítulos que el PDF/PPTX, pero serializado a
Markdown sin binarios. Úsala como tercera salida junto a `render_automatic_eda_pdf`
(móvil) y `render_automatic_eda_pptx` (compartir) desde el MISMO modelo de capítulos.
A diferencia de esas dos, no hay páginas ni slides: todas las filas de cada tabla se
vuelcan (nada se corta) y cada figura se reduce a su caption + la tabla de datos
subyacente, que es lo que un LLM puede leer. Para añadir capítulos al documento, ver
`docs/capabilities/automatic_eda.md`.
## Gotchas
- **Impura**: escribe el `.md` en `out_path` (crea los directorios padre). Con
`meta['embed_figures']=True` además exporta un PNG `<basename>_figN.png` por figura
junto al `.md`; por defecto NO exporta nada y el markdown queda autocontenido.
- **Nunca lanza** (dict-no-throw): un bloque que falle se degrada a una nota y se anota
en `note`; el documento se escribe igual. Un profile/lista vacíos producen un markdown
mínimo válido con `*(documento vacío …)*` y `chapters=[]`.
- **Figuras = datos, no imagen**: un bloque `figure` se serializa como `*Figura: caption*`
más, si la figura matplotlib trae barras (histograma / barras), una tabla
`| Desde | Hasta | Frecuencia |` extraída de los `Rectangle` patches (máx 100 filas;
el resto se trunca con `*… (N filas más)*`). Si no hay barras o algo falla, solo sale
el caption. La figura se cierra (`plt.close`) tras leerla.
- **Glosario vs negrita**: se eliminan SOLO los marcadores de glosario
`[[term:key]]visible[[/term]]` (queda `visible`); el `**negrita**` markdown SE
CONSERVA (es válido). No se usa `strip_inline_md` aquí porque ese también quita el bold.
- **Anclas del índice**: el `## Índice` enlaza cada capítulo con un ancla estilo GitHub
del encabezado `## N. Título` (minúsculas, espacios→`-`, sin signos). Si dos capítulos
comparten título exacto sus anclas colisionan (caso raro; los capítulos canónicos tienen
títulos únicos).
- **Tablas**: las celdas escapan `|` (→ `\|`) y pliegan saltos de línea a `<br>` para no
romper la columna. No hay reparto por ancho — un LLM no lo necesita.
python/functions/datascience/render_automatic_eda_markdown.py
+55
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@@ -0,0 +1,55 @@
"""render_automatic_eda_markdown — chapter-based EDA report as one Markdown file.
Public ``eda``-group entry point that serializes an AutomaticEDA document (a list
of chapters, or an ``eda`` TableProfile from which the canonical chapters are
built) into a single self-contained Markdown file optimised to be **pasted into
an LLM**: plain text, Markdown tables (every row dumped — there are no pages to
cut), figures reduced to caption + underlying data, no binaries. It mirrors
``render_automatic_eda_pdf`` / ``render_automatic_eda_pptx`` but for text output;
unlike those it writes no manifest (KISS — Markdown is a single text artefact).
dict-no-throw: never raises. Returns ``{path, n_chars, chapters, note}``; on a
fatal error ``path`` is None and ``note`` explains why.
"""
from __future__ import annotations
from datascience.automatic_eda import build_document, render_md
from datascience.automatic_eda.model import as_chapter, as_chapters
def _coerce_chapters(chapters_or_profile, meta: dict) -> list:
"""Accept chapters OR an eda profile and return a list of Chapter."""
arg = chapters_or_profile
if isinstance(arg, (list, tuple)):
return as_chapters(list(arg))
if isinstance(arg, dict):
if "blocks" in arg and "columns" not in arg:
ch = as_chapter(arg)
return [ch] if ch is not None else []
return build_document(arg, (meta or {}).get("ctx"))
return []
def render_automatic_eda_markdown(chapters_or_profile, out_path: str,
meta: dict = None) -> dict:
"""Render an AutomaticEDA document into a single self-contained Markdown file.
Args:
chapters_or_profile: a list of chapters (``Chapter`` dataclasses or
dicts) or an ``eda`` TableProfile dict (chapters built via
``build_document(profile, meta['ctx'])``).
out_path: filesystem path for the ``.md`` (parent dirs are created).
meta: optional dict. Recognised keys: ``title``, ``ctx`` (dict with
``dataset_name``/``source_origin``/``storage``/``n_rows``/``n_cols``),
``generated_at``, ``embed_figures`` (export PNGs beside the .md,
default False — off keeps the Markdown self-contained).
Returns:
dict (never raises): ``{path: str|None, n_chars: int,
chapters: list[{id, version}], note: str}``. On a fatal error ``path`` is
None and ``note`` explains the cause.
"""
meta = dict(meta or {})
chapters = _coerce_chapters(chapters_or_profile, meta)
return render_md(chapters, out_path, meta)
python/functions/datascience/render_automatic_eda_markdown_test.py
+168
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@@ -0,0 +1,168 @@
"""Tests for render_automatic_eda_markdown — DoD: golden + edge + profile path.
Self-contained synthetic blocks (no DuckDB). Verifies every block kind serializes
to Markdown (heading, markdown with glossary+bold, kv/data tables, a figure whose
histogram bars become a data table, caption, note, group, glossary entry), that a
leading level-1 heading equal to the chapter title is omitted, that an empty
document degrades to a valid minimal Markdown without raising, and that passing a
minimal TableProfile builds chapters and writes the file.
"""
import os
import tempfile
from datascience.render_automatic_eda_markdown import render_automatic_eda_markdown
from datascience.automatic_eda.model import (
Caption, Chapter, DataTable, Figure, GlossaryEntry, Group, Heading, KVTable,
Markdown, Note,
)
def _hist_fig():
import matplotlib
matplotlib.use("Agg")
import matplotlib.pyplot as plt
fig, ax = plt.subplots()
ax.hist([1, 1, 2, 2, 2, 3, 4, 4, 5, 5, 5, 5], bins=5)
return fig
def _chapters() -> list:
blocks = [
Heading("Demo", 1), # == chapter title -> omitted.
Heading("Seccion dos", 2), # -> ####
Markdown("Texto con [[term:ent]]entropia[[/term]] y **bold** aqui."),
KVTable(rows=[("Filas", 1000), ("Columnas", 5)], title="Resumen"),
DataTable(header=["col", "valor"],
rows=[["alpha", "111"], ["beta", "222"], ["gamma", "333"]],
title="Datos", note="nota inferior"),
Figure(make=_hist_fig, caption="Histograma demo"),
Caption("pie de figura"),
Note("una nota aparte"),
Group(title="Grupo X", blocks=[Markdown("dentro del grupo")]),
GlossaryEntry(key="ent", label="Entropia",
definition="Medida de incertidumbre."),
]
return [Chapter(id="demo", title="Demo", version="1.0.0", blocks=blocks)]
def _read(path: str) -> str:
with open(path, "r", encoding="utf-8") as fh:
return fh.read()
def test_golden_bloques_sinteticos_serializa_todo_a_markdown():
with tempfile.TemporaryDirectory() as d:
out = os.path.join(d, "demo.md")
res = render_automatic_eda_markdown(
_chapters(), out,
{"title": "EDA Demo",
"ctx": {"dataset_name": "Demo", "n_rows": 12, "n_cols": 2}})
assert res["path"] == out
assert os.path.exists(out)
assert res["n_chars"] > 0
assert res["chapters"] == [{"id": "demo", "version": "1.0.0"}]
content = _read(out)
# Document structure.
assert content.startswith("# ")
assert "## Índice" in content
# A Markdown table is present (header + separator row).
assert "| " in content and "| --- " in content
# DataTable values are all dumped.
for v in ("alpha", "111", "beta", "222", "gamma", "333"):
assert v in content
# Glossary markers stripped, bold kept.
assert "[[term" not in content
assert "[[/term]]" not in content
assert "**bold**" in content
assert "entropia" in content # visible glossary text preserved.
# Figure histogram bars became a data table.
assert "| Desde | Hasta | Frecuencia |" in content
# Glossary entry rendered as a level-3 heading.
assert "### Entropia" in content
# Level-2 heading -> ####.
assert "#### Seccion dos" in content
# Leading level-1 heading equal to the title was omitted.
assert "### Demo" not in content
# Group title rendered.
assert "### Grupo X" in content
def _hist_fig_with_span():
"""Histogram with a wide ``axvspan`` (±1σ band) over it.
Reproduces the num_distr figure shape: matplotlib keeps the span as a lone
Rectangle in ``ax.patches`` alongside the bin bars; it must NOT leak into the
extracted bins table as a fake bin (it is ~5x wider than a bin)."""
import matplotlib
matplotlib.use("Agg")
import matplotlib.pyplot as plt
fig, ax = plt.subplots()
data = [1, 1, 2, 2, 2, 3, 4, 4, 5, 5, 5, 5]
ax.hist(data, bins=5)
ax.axvspan(2.0, 4.0, alpha=0.2) # mean±σ band — a wide stray rectangle.
return fig
def test_figura_descarta_axvspan_de_la_tabla_de_bins():
"""The ±1σ band rectangle must not appear as a row in the bins table."""
blocks = [Figure(make=_hist_fig_with_span, caption="Hist con banda")]
chapters = [Chapter(id="f", title="Fig", version="1.0.0", blocks=blocks)]
with tempfile.TemporaryDirectory() as d:
out = os.path.join(d, "fig.md")
render_automatic_eda_markdown(chapters, out, {"title": "T"})
content = _read(out)
assert "| Desde | Hasta | Frecuencia |" in content
# Extract the rows of the bins table: lines between the header/separator
# and the next blank line.
lines = content.splitlines()
hi = next(i for i, ln in enumerate(lines)
if ln.startswith("| Desde | Hasta | Frecuencia |"))
rows = []
for ln in lines[hi + 2:]: # skip header + separator
if not ln.startswith("|"):
break
rows.append(ln)
# 5 histogram bins, no extra wide span row.
assert len(rows) == 5, rows
# No row spans a width of ~2.0 (the axvspan from x=2 to x=4).
for ln in rows:
cells = [c.strip() for c in ln.strip("|").split("|")]
lo, hi_v = float(cells[0]), float(cells[1])
assert (hi_v - lo) < 1.5, f"wide span leaked: {ln}"
def test_edge_documento_vacio_no_revienta():
with tempfile.TemporaryDirectory() as d:
out = os.path.join(d, "empty.md")
res = render_automatic_eda_markdown([], out, {})
assert res["path"] == out
assert os.path.exists(out)
assert res["chapters"] == []
content = _read(out)
assert "documento vacío" in content
assert content.startswith("# ")
def test_profile_path_construye_capitulos_y_escribe():
profile = {
"table": "mini",
"source": "/data/mini.csv",
"n_rows": 10,
"n_cols": 1,
"quality_score": 88.0,
"columns": [
{"name": "x", "inferred_type": "numeric", "null_pct": 0.0,
"null_count": 0,
"numeric": {"mean": 1.0, "median": 1.0, "min": 0.0, "max": 2.0,
"std": 0.5}},
],
}
with tempfile.TemporaryDirectory() as d:
out = os.path.join(d, "mini.md")
res = render_automatic_eda_markdown(
profile, out, {"title": "Mini", "ctx": {"dataset_name": "Mini"}})
assert res["path"] == out # not None — no exception, file written.
assert os.path.exists(out)
assert res["n_chars"] > 0
python/functions/pipelines/render_automatic_eda.py
+31 -8
View File
@@ -1,9 +1,10 @@
"""render_automatic_eda — EDA completo one-shot: perfil → ctx → PDF + PPTX.
"""render_automatic_eda — EDA completo one-shot: perfil → ctx → PDF + PPTX + MD.
Pipeline impuro del grupo de capacidad `eda`. Dada UNA tabla DuckDB (o
PostgreSQL), produce el informe AutomaticEDA COMPLETO en sus dos formatos a la
vez (PDF móvil A5 + PPTX 16:9) con los 11 capítulos POBLADOS, en una sola
llamada. Compone, sin reimplementar su lógica, cuatro funciones del registry:
PostgreSQL), produce el informe AutomaticEDA COMPLETO en sus tres formatos a la
vez (PDF móvil A5 + PPTX 16:9 + Markdown autocontenido para pegar a un LLM) con
los capítulos POBLADOS, en una sola llamada. Compone, sin reimplementar su
lógica, varias funciones del registry:
- profile_table : perfila la tabla end-to-end (TableProfile agregado),
opcionalmente con modelos baratos y análisis de serie.
@@ -12,8 +13,11 @@ llamada. Compone, sin reimplementar su lógica, cuatro funciones del registry:
modelos/geo, timeseries_raw para series, geo_points
para el mapa, db_path/table para la agregación
push-down). Sin él, esos capítulos degradan.
- render_automatic_eda_pdf : renderiza el documento por capítulos a PDF.
- render_automatic_eda_pptx : renderiza el mismo documento a PPTX.
- render_automatic_eda_pdf : renderiza el documento por capítulos a PDF.
- render_automatic_eda_pptx : renderiza el mismo documento a PPTX.
- render_automatic_eda_markdown : serializa el mismo documento a Markdown
autocontenido (texto + tablas markdown, sin
binarios) para incorporar a un LLM.
El TableProfile agregado basta para portada/overview/distribuciones/calidad/
correlación, pero los capítulos `modelos`, `timeseries`, `geospatial` y
@@ -32,6 +36,7 @@ from datetime import datetime, timezone
from datascience import (
build_eda_render_ctx,
render_automatic_eda_markdown,
render_automatic_eda_pdf,
render_automatic_eda_pptx,
run_eda_models,
@@ -93,6 +98,7 @@ def render_automatic_eda(
out_dir: str = "reports",
basename: str = None,
ctx_extra: dict = None,
emit_md: bool = True,
) -> dict:
"""Perfila una tabla y emite el informe AutomaticEDA completo (PDF + PPTX).
@@ -140,13 +146,19 @@ def render_automatic_eda(
ctx_extra: dict opcional con claves de presentación/contexto extra que se
mezclan en el ctx (p.ej. dataset_name, description, source_origin).
No pisan las claves de datos calculadas por build_eda_render_ctx.
emit_md: además del PDF y el PPTX, emite un Markdown autocontenido del
MISMO documento por capítulos (texto plano + tablas markdown, sin
binarios), pensado para pegar a un LLM. Default True. La ruta sale en
la clave de retorno ``aeda_md_path``. No altera las demás salidas.
Returns:
dict (nunca lanza). En éxito::
{"status": "ok", "pdf_path": str, "pptx_path": str,
"manifest_path": str|None, "n_pages": int, "n_slides": int,
"pdf_note": str, "pptx_note": str, "profile": <TableProfile>}
"aeda_md_path": str|None, "manifest_path": str|None,
"n_pages": int, "n_slides": int, "md_chars": int|None,
"pdf_note": str, "pptx_note": str, "md_note": str|None,
"profile": <TableProfile>}
En error: {"status": "error", "error": str}.
"""
@@ -243,15 +255,26 @@ def render_automatic_eda(
rpdf = render_automatic_eda_pdf(prof, pdf_path, meta) or {}
rpptx = render_automatic_eda_pptx(prof, pptx_path, meta) or {}
# Salida Markdown autocontenida (mismo documento por capítulos) para
# pegar a un LLM. Aditiva: no afecta a PDF/PPTX/manifest. dict-no-throw.
rmd = {}
md_path = None
if emit_md:
md_path = os.path.join(out_dir, base + ".md")
rmd = render_automatic_eda_markdown(prof, md_path, meta) or {}
return {
"status": "ok",
"pdf_path": rpdf.get("path"),
"pptx_path": rpptx.get("path"),
"aeda_md_path": rmd.get("path"),
"manifest_path": rpdf.get("manifest_path"),
"n_pages": rpdf.get("n_pages"),
"n_slides": rpptx.get("n_slides"),
"md_chars": rmd.get("n_chars"),
"pdf_note": rpdf.get("note"),
"pptx_note": rpptx.get("note"),
"md_note": rmd.get("note"),
"profile": prof,
}
except Exception as e: # noqa: BLE001 — dict-no-throw: degradar, nunca lanzar.