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imagerepo/app/tasks/ml.py
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bvandeusen 0f35a0c484 feat: ML tag suggestions, character/fandom integrity, underscores, modal polish
Consolidated merge of feat/tag-suggestions branch. Original 64-commit history
was lost to git-object corruption in a Nextcloud-synced checkout; this single
commit captures the equivalent diff.

Includes:
- pgvector-backed tag suggestion infra (WD14 + SigLIP centroids, ml-worker
  container, Celery tasks, suggestion service, accept/reject endpoints + modal
  UI with green/red chip buttons)
- Character/fandom integrity: title-case normalization on every write path,
  fandom-id backfill, maintenance task + settings button, migrations g26041901
  + h26041901 to canonicalize legacy rows with case-only duplicate merging
- Tag-underscores + modal polish: WD14 name canonicalization at emit + accept
  + add/bulk-add paths, migration i26041901 for legacy-row rename-or-merge
  across character/fandom/NULL kinds, suggestion-accept refresh parity via
  awaited loadTags, persistent chip tint
2026-04-19 19:50:58 -04:00

240 lines
9.0 KiB
Python

"""ML inference Celery tasks (WD14 tagging, SigLIP embedding, centroid recompute)."""
from __future__ import annotations
import logging
import os
import time
import numpy as np
from sqlalchemy import and_, func
from sqlalchemy.dialects.postgresql import insert as pg_insert
from app.celery_app import celery
from app import db
from app.models import (
ImageRecord,
Tag,
ImageTagPrediction,
ImageEmbedding,
TagReferenceEmbedding,
TagSuggestionConfig,
image_tags,
)
log = logging.getLogger('celery.tasks.ml')
# Minimum raw WD14 confidence to bother storing. Below this, rows are noise.
WD14_STORE_FLOOR = float(os.environ.get('WD14_STORE_FLOOR', '0.05'))
def _config_value(key: str, default: str) -> str:
row = TagSuggestionConfig.query.filter_by(key=key).first()
return row.value if row else default
@celery.task(bind=True, name='app.tasks.ml.tag_and_embed',
max_retries=2, default_retry_delay=60,
soft_time_limit=120, time_limit=180)
def tag_and_embed(self, image_id: int):
"""Run WD14 + SigLIP on one image and persist predictions and embedding."""
from app.ml import wd14, siglip # lazy import so web process never loads torch
image = ImageRecord.query.get(image_id)
if image is None:
log.warning(f"tag_and_embed: image {image_id} not found")
return {'status': 'missing'}
if not os.path.exists(image.filepath):
log.warning(f"tag_and_embed: file missing at {image.filepath}")
return {'status': 'file_missing'}
try:
t0 = time.time()
raw = wd14.infer_filtered(image.filepath, min_any=WD14_STORE_FLOOR)
embedding = siglip.infer(image.filepath)
t_inf = time.time() - t0
# Remove any pre-existing predictions/embedding for this image+model_version pair
db.session.query(ImageTagPrediction).filter(
ImageTagPrediction.image_id == image_id,
ImageTagPrediction.model_version == wd14.MODEL_VERSION,
).delete(synchronize_session=False)
db.session.query(ImageEmbedding).filter(
ImageEmbedding.image_id == image_id,
ImageEmbedding.model_version == siglip.MODEL_VERSION,
).delete(synchronize_session=False)
for pred in raw:
db.session.add(ImageTagPrediction(
image_id=image_id,
tag_name=pred['name'],
tag_category=pred['category'],
confidence=pred['confidence'],
model_version=wd14.MODEL_VERSION,
))
db.session.add(ImageEmbedding(
image_id=image_id,
model_version=siglip.MODEL_VERSION,
embedding=embedding.tolist(),
))
db.session.commit()
log.info(f"tag_and_embed: image {image_id} done in {t_inf:.2f}s ({len(raw)} predictions)")
return {'status': 'ok', 'predictions': len(raw), 'duration_s': t_inf}
except Exception as e:
db.session.rollback()
log.error(f"tag_and_embed failed for image {image_id}: {e}", exc_info=True)
raise self.retry(exc=e)
@celery.task(bind=True, name='app.tasks.ml.backfill',
soft_time_limit=None, time_limit=None)
def backfill(self, batch_size: int = 50, pause_seconds: float = 0.5):
"""Enqueue tag_and_embed for every image missing predictions or embeddings for the current model versions.
Uses keyset pagination on image_record.id so the loop moves forward monotonically.
Re-running after some tag_and_embed tasks have completed is safe — those images
simply drop out of the filter on the next run.
Runs on the ml queue with concurrency=1, so enqueued tag_and_embed tasks only
start executing after this task finishes. Keyset pagination prevents the loop
from seeing its own pending enqueues as "still missing" and re-enqueueing them.
"""
from app.ml.wd14 import MODEL_VERSION as WD14_VER
from app.ml.siglip import MODEL_VERSION as SIGLIP_VER
enqueued_total = 0
last_id = 0
while True:
q = (
db.session.query(ImageRecord.id)
.outerjoin(
ImageTagPrediction,
and_(
ImageTagPrediction.image_id == ImageRecord.id,
ImageTagPrediction.model_version == WD14_VER,
),
)
.outerjoin(
ImageEmbedding,
and_(
ImageEmbedding.image_id == ImageRecord.id,
ImageEmbedding.model_version == SIGLIP_VER,
),
)
.filter(ImageRecord.id > last_id)
.filter(
(ImageTagPrediction.image_id.is_(None))
| (ImageEmbedding.image_id.is_(None))
)
.order_by(ImageRecord.id)
.limit(batch_size)
)
ids = [row[0] for row in q.all()]
if not ids:
break
for image_id in ids:
tag_and_embed.apply_async(args=[image_id], queue='ml')
enqueued_total += len(ids)
last_id = ids[-1]
log.info(f"backfill: enqueued batch of {len(ids)} (total {enqueued_total}, last_id {last_id})")
time.sleep(pause_seconds)
log.info(f"backfill: complete, enqueued {enqueued_total} images")
return {'status': 'ok', 'enqueued': enqueued_total}
@celery.task(bind=True, name='app.tasks.ml.recompute_centroid',
soft_time_limit=60, time_limit=120)
def recompute_centroid(self, tag_name: str):
"""Recompute the mean embedding for an eligible tag from its currently-associated images.
Eligible tag kinds are defined by ELIGIBLE_CENTROID_KINDS in
app.services.tag_suggestions. Tags of any other kind return early with
status='ineligible_kind' and do not write a centroid row.
"""
from app.ml.siglip import MODEL_VERSION as SIGLIP_VER
from app.services.tag_suggestions import ELIGIBLE_CENTROID_KINDS
tag = Tag.query.filter_by(name=tag_name).first()
if tag is None:
log.warning(f"recompute_centroid: tag {tag_name!r} not found")
return {'status': 'missing_tag'}
if tag.kind not in ELIGIBLE_CENTROID_KINDS:
log.info(f"recompute_centroid: tag {tag_name!r} has ineligible kind {tag.kind!r}")
return {'status': 'ineligible_kind'}
rows = (
db.session.query(ImageEmbedding.embedding)
.join(image_tags, image_tags.c.image_id == ImageEmbedding.image_id)
.filter(image_tags.c.tag_id == tag.id)
.filter(ImageEmbedding.model_version == SIGLIP_VER)
.all()
)
if not rows:
log.info(f"recompute_centroid: no embeddings yet for {tag_name}")
return {'status': 'no_embeddings'}
vectors = np.array([np.array(r[0], dtype=np.float32) for r in rows])
centroid = vectors.mean(axis=0)
stmt = pg_insert(TagReferenceEmbedding).values(
tag_name=tag_name,
tag_kind=tag.kind,
model_version=SIGLIP_VER,
centroid=centroid.tolist(),
reference_count=len(rows),
computed_at=func.now(),
)
stmt = stmt.on_conflict_do_update(
index_elements=['tag_name', 'model_version'],
set_={
'tag_kind': stmt.excluded.tag_kind,
'centroid': stmt.excluded.centroid,
'reference_count': stmt.excluded.reference_count,
'computed_at': func.now(),
},
)
db.session.execute(stmt)
db.session.commit()
log.info(f"recompute_centroid: {tag_name} (kind={tag.kind}) -> n={len(rows)}")
return {'status': 'ok', 'reference_count': len(rows), 'tag_kind': tag.kind}
@celery.task(bind=True, name='app.tasks.ml.recompute_all_centroids',
soft_time_limit=None, time_limit=None)
def recompute_all_centroids(self):
"""Enqueue recompute_centroid for every eligible tag with enough reference images.
Uses a single aggregate query to find tags with >= min_reference_images applied
images, then enqueues one recompute_centroid task per tag on the ml queue.
"""
from app.services.tag_suggestions import ELIGIBLE_CENTROID_KINDS
min_refs_row = TagSuggestionConfig.query.filter_by(key='min_reference_images').first()
min_refs = int(min_refs_row.value) if min_refs_row else 5
# Build an IS NULL / IN filter that covers ELIGIBLE_CENTROID_KINDS including None.
kinds_not_null = [k for k in ELIGIBLE_CENTROID_KINDS if k is not None]
allow_null = None in ELIGIBLE_CENTROID_KINDS
kind_filter = Tag.kind.in_(kinds_not_null)
if allow_null:
kind_filter = kind_filter | Tag.kind.is_(None)
rows = (
db.session.query(Tag.name, func.count(image_tags.c.image_id).label('n'))
.join(image_tags, image_tags.c.tag_id == Tag.id)
.filter(kind_filter)
.group_by(Tag.name)
.having(func.count(image_tags.c.image_id) >= min_refs)
.all()
)
enqueued = 0
for tag_name, n in rows:
recompute_centroid.apply_async(args=[tag_name], queue='ml')
enqueued += 1
log.info(f"recompute_all_centroids: enqueued {enqueued} tags (min_refs={min_refs})")
return {'status': 'ok', 'enqueued': enqueued, 'min_refs': min_refs}