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FabledCurator/backend/app/api/ccip.py
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bvandeusen c6f38b0dac feat(tagging): SigLIP concept crops + max-over-bag scoring (#114)
Lift recall on small/local concepts (glasses, cum, stomach-bulge, xray,
lactation) that the whole-image SigLIP vector washes out: the GPU agent now
embeds figure crops with SigLIP too, stored as kind='concept' regions, and the
suggestion rail scores each image as a BAG (whole-image + every concept crop),
taking each head's MAX over the bag. The whole-image vector is always in the
bag, so this can never score lower than before.

Model-agnostic by construction: the server ANNOUNCES the embedding model
(HF name + version) in the lease, so the agent loads whatever the heads were
trained in and stays in lock-step — a model swap is a server setting + a
re-embed migration, never an agent change.

- agent: model-agnostic CropEmbedder (torch/transformers get_image_features,
  fp16 on CUDA, inference-locked); worker branches on job.task — 'ccip' emits
  figure(CCIP)+concept(SigLIP) in one pass, 'siglip' emits concept-only so the
  back-catalogue backfill never churns figure/CCIP regions; torch cu124 +
  transformers in the image.
- server: lease announces embed_model_name/embed_version; score_image is
  max-over-bag (version-filtered region embeddings); enqueue_gpu_backfill
  'siglip' gates on a missing concept region (drains the back-catalogue,
  retries failures, no double-enqueue); daily siglip-backfill beat; UI button;
  /api/ccip/overview reports images_with_concept_siglip.
- v1 scope: suggestion rail only — auto-apply stays whole-image (conservative;
  heads' thresholds were calibrated on whole-image). Bulk-apply bag = follow-up.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
Claude-Session: https://claude.ai/code/session_01Ttrj5P7upUTueSfoJcxEqa
2026-06-30 08:17:47 -04:00

125 lines
4.6 KiB
Python

"""CCIP / region observability API (#114) — read-only, analysis-shaped.
So the work can be checked through an API as the agent fills in vectors: overall
coverage (regions by kind, how many images have figure CCIP vectors, which
characters have enough reference examples to match on) + a per-image drill-down
(its regions + the CCIP character matches it would get). Mirrors the heads
metrics endpoint; no GPU, just reads what's stored.
"""
from quart import Blueprint, jsonify
from sqlalchemy import distinct, func, select
from ..extensions import get_session
from ..models import ImageRegion, Tag, TagKind
from ..models.tag import image_tag
from ..services.ml.ccip import match_image
ccip_bp = Blueprint("ccip", __name__, url_prefix="/api/ccip")
_FIGURE_KINDS = ("face", "figure")
@ccip_bp.route("/overview", methods=["GET"])
async def overview():
async with get_session() as session:
by_kind = dict(
(
await session.execute(
select(ImageRegion.kind, func.count()).group_by(ImageRegion.kind)
)
).all()
)
images_with_figure_ccip = (
await session.execute(
select(func.count(distinct(ImageRegion.image_record_id)))
.where(ImageRegion.kind.in_(_FIGURE_KINDS))
.where(ImageRegion.ccip_embedding.is_not(None))
)
).scalar_one()
# Concept-crop (SigLIP bag) coverage — how far the back-catalogue embed
# has progressed, so the max-over-bag scorer's reach is checkable.
images_with_concept_siglip = (
await session.execute(
select(func.count(distinct(ImageRegion.image_record_id)))
.where(ImageRegion.kind == "concept")
.where(ImageRegion.siglip_embedding.is_not(None))
)
).scalar_one()
# Per-character reference counts (no vectors loaded) — which characters
# have enough examples to match on.
ref_rows = (
await session.execute(
select(image_tag.c.tag_id, Tag.name, func.count())
.select_from(ImageRegion)
.join(
image_tag,
image_tag.c.image_record_id == ImageRegion.image_record_id,
)
.join(Tag, Tag.id == image_tag.c.tag_id)
.where(Tag.kind == TagKind.character)
.where(ImageRegion.kind.in_(_FIGURE_KINDS))
.where(ImageRegion.ccip_embedding.is_not(None))
.group_by(image_tag.c.tag_id, Tag.name)
.order_by(func.count().desc())
)
).all()
versions = [
v for (v,) in (
await session.execute(
select(distinct(ImageRegion.embedding_version))
)
).all() if v
]
auto_applied = (
await session.execute(
select(func.count()).select_from(image_tag).where(
image_tag.c.source == "ccip_auto"
)
)
).scalar_one()
return jsonify({
"regions_by_kind": by_kind,
"images_with_figure_ccip": images_with_figure_ccip,
"images_with_concept_siglip": images_with_concept_siglip,
"characters_with_references": len(ref_rows),
"character_references": [
{"tag_id": t, "name": n, "n_refs": c} for (t, n, c) in ref_rows
],
"embedding_versions": versions,
"auto_applied": auto_applied,
})
@ccip_bp.route("/images/<int:image_id>", methods=["GET"])
async def image_detail(image_id: int):
"""An image's stored regions + the CCIP character matches it would get —
for spot-checking the agent's output + the matcher."""
async with get_session() as session:
regions = (
await session.execute(
select(ImageRegion)
.where(ImageRegion.image_record_id == image_id)
.order_by(ImageRegion.id)
)
).scalars().all()
matches = await match_image(session, image_id)
return jsonify({
"image_id": image_id,
"regions": [
{
"id": r.id,
"kind": r.kind,
"bbox": [r.rx, r.ry, r.rw, r.rh],
"frame_time": r.frame_time,
"score": r.score,
"detector_version": r.detector_version,
"embedding_version": r.embedding_version,
"has_ccip": r.ccip_embedding is not None,
"has_siglip": r.siglip_embedding is not None,
}
for r in regions
],
"ccip_matches": matches,
})