Files
FabledCurator/backend/app/services/importer.py
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2026-05-17 22:05:43 -04:00

335 lines
12 KiB
Python

"""Single-file import pipeline.
The Importer is the synchronous core of FC-2a's import path. A Celery task
(tasks/import_file.py) instantiates one per job and calls import_one().
The service is intentionally not async — Celery tasks are run in a
synchronous worker process, and the DB session is a sync session passed in
by the task. The Quart side uses an async session via the same models.
"""
import hashlib
import shutil
from dataclasses import dataclass
from enum import StrEnum
from pathlib import Path
from PIL import Image
from sqlalchemy import select
from sqlalchemy.orm import Session
from ..models import Artist, ImageRecord, ImportSettings, Tag, TagKind
from ..models.tag import image_tag
from ..utils.paths import derive_subdir, derive_top_level_artist, hash_suffixed_name
from ..utils.phash import compute_phash, find_similar
from ..utils.slug import slugify
from .thumbnailer import Thumbnailer
class SkipReason(StrEnum):
too_small = "too_small"
too_transparent = "too_transparent"
single_color = "single_color"
duplicate_hash = "duplicate_hash"
duplicate_phash = "duplicate_phash"
invalid_image = "invalid_image"
@dataclass(frozen=True)
class ImportResult:
status: str # 'imported' | 'skipped' | 'failed' | 'superseded'
image_id: int | None = None
skip_reason: SkipReason | None = None
error: str | None = None
IMAGE_EXTS = {".png", ".jpg", ".jpeg", ".gif", ".webp", ".bmp", ".tif", ".tiff"}
VIDEO_EXTS = {".mp4", ".mov", ".avi", ".mkv", ".webm", ".m4v", ".wmv", ".flv"}
ALL_EXTS = IMAGE_EXTS | VIDEO_EXTS
def is_supported(path: Path) -> bool:
return path.suffix.lower() in ALL_EXTS
def is_video(path: Path) -> bool:
return path.suffix.lower() in VIDEO_EXTS
def _mime_for(path: Path) -> str:
suffix = path.suffix.lower()
image_mimes = {
".png": "image/png",
".jpg": "image/jpeg",
".jpeg": "image/jpeg",
".gif": "image/gif",
".webp": "image/webp",
".bmp": "image/bmp",
".tif": "image/tiff",
".tiff": "image/tiff",
}
video_mimes = {
".mp4": "video/mp4",
".mov": "video/quicktime",
".avi": "video/x-msvideo",
".mkv": "video/x-matroska",
".webm": "video/webm",
".m4v": "video/x-m4v",
".wmv": "video/x-ms-wmv",
".flv": "video/x-flv",
}
return image_mimes.get(suffix) or video_mimes.get(suffix) or "application/octet-stream"
def _sha256_of(path: Path, chunk_size: int = 1 << 20) -> str:
h = hashlib.sha256()
with path.open("rb") as fp:
while True:
block = fp.read(chunk_size)
if not block:
break
h.update(block)
return h.hexdigest()
class Importer:
"""Imports one file at a time. Constructed per-task by the Celery task."""
def __init__(
self,
session: Session,
images_root: Path,
import_root: Path,
thumbnailer: Thumbnailer,
settings: ImportSettings,
):
self.session = session
self.images_root = images_root
self.import_root = import_root
self.thumbnailer = thumbnailer
self.settings = settings
def import_one(self, source: Path) -> ImportResult:
"""The full pipeline for a single file.
Returns an ImportResult; callers (the Celery task) are responsible for
translating that into ImportTask.status and ImageRecord linkage.
"""
if not is_supported(source):
return ImportResult(
status="skipped", skip_reason=SkipReason.invalid_image,
error=f"unsupported extension {source.suffix}",
)
# Compute file dimensions (images only) and apply filters.
width = height = None
has_alpha = False
if not is_video(source):
try:
with Image.open(source) as im:
im.verify()
with Image.open(source) as im:
width, height = im.size
has_alpha = im.mode in ("RGBA", "LA") or (
im.mode == "P" and "transparency" in im.info
)
except Exception as exc:
return ImportResult(
status="skipped", skip_reason=SkipReason.invalid_image, error=str(exc),
)
if (self.settings.min_width and width < self.settings.min_width) or (
self.settings.min_height and height < self.settings.min_height
):
return ImportResult(
status="skipped", skip_reason=SkipReason.too_small,
error=f"{width}x{height} below min {self.settings.min_width}x{self.settings.min_height}",
)
if self.settings.skip_transparent and has_alpha:
pct = self._transparency_pct(source)
if pct >= self.settings.transparency_threshold:
return ImportResult(
status="skipped", skip_reason=SkipReason.too_transparent,
error=f"{pct:.2%} transparent",
)
# Hash dedup (exact).
sha = _sha256_of(source)
existing_stmt = select(ImageRecord).where(ImageRecord.sha256 == sha)
existing = self.session.execute(existing_stmt).scalar_one_or_none()
if existing:
return ImportResult(
status="skipped", skip_reason=SkipReason.duplicate_hash,
image_id=existing.id, error="sha256 already present",
)
# Perceptual near-dup (images only; videos keep phash NULL).
phash = None
if not is_video(source):
with Image.open(source) as im:
phash = compute_phash(im)
if phash is not None:
cand_rows = self.session.execute(
select(
ImageRecord.phash,
ImageRecord.width,
ImageRecord.height,
ImageRecord.id,
).where(ImageRecord.phash.is_not(None))
).all()
candidates = [
(c.phash, c.width or 0, c.height or 0, c.id)
for c in cand_rows
]
rel, match_id = find_similar(
phash, width or 0, height or 0,
candidates, self.settings.phash_threshold,
)
if rel == "larger_exists":
return ImportResult(
status="skipped",
skip_reason=SkipReason.duplicate_phash,
image_id=match_id,
error="perceptual near-duplicate of larger existing image",
)
if rel == "smaller_exists":
target = self.session.get(ImageRecord, match_id)
self._supersede(target, source, sha, phash, width, height)
return ImportResult(
status="superseded", image_id=match_id
)
# Destination path.
subdir = derive_subdir(source, self.import_root)
dest_dir = self.images_root / subdir if subdir else self.images_root
dest_dir.mkdir(parents=True, exist_ok=True)
dest_name = hash_suffixed_name(source.stem, sha, source.suffix)
dest = dest_dir / dest_name
# Atomic copy: write to .partial, rename. Avoids half-imported files on crash.
partial = dest.with_suffix(dest.suffix + ".partial")
shutil.copy2(source, partial)
partial.rename(dest)
record = ImageRecord(
path=str(dest),
sha256=sha,
phash=phash,
size_bytes=dest.stat().st_size,
mime=_mime_for(source),
width=width,
height=height,
origin="imported_filesystem",
integrity_status="unknown",
)
self.session.add(record)
self.session.flush()
# Folder→artist auto-tag.
artist_name = derive_top_level_artist(source, self.import_root)
if artist_name:
self._attach_artist_tag(record.id, artist_name)
# Thumbnail is queued separately by the calling task; the importer
# does not generate thumbnails inline so the import queue stays moving.
self.session.commit()
return ImportResult(status="imported", image_id=record.id)
def _attach_artist_tag(self, image_id: int, artist_name: str) -> None:
"""Idempotently creates Artist + artist tag, attaches to image."""
slug = slugify(artist_name)
artist = self.session.execute(
select(Artist).where(Artist.slug == slug)
).scalar_one_or_none()
if artist is None:
artist = Artist(name=artist_name, slug=slug, is_subscription=False)
self.session.add(artist)
self.session.flush()
tag = self.session.execute(
select(Tag).where(Tag.name == artist_name).where(Tag.kind == TagKind.artist)
).scalar_one_or_none()
if tag is None:
tag = Tag(name=artist_name, kind=TagKind.artist)
self.session.add(tag)
self.session.flush()
# Idempotent association; using a raw insert + on-conflict-do-nothing
# is cleaner here than fetching first, but for a sync session we just
# check existence.
already = self.session.execute(
select(image_tag.c.tag_id)
.where(image_tag.c.image_record_id == image_id)
.where(image_tag.c.tag_id == tag.id)
).scalar_one_or_none()
if already is None:
self.session.execute(
image_tag.insert().values(
image_record_id=image_id, tag_id=tag.id, source="auto",
)
)
def _supersede(
self, existing: ImageRecord, source: Path, sha: str,
phash: str, width: int | None, height: int | None,
) -> None:
"""Replace `existing`'s file with the larger `source`, keeping the
row id (so tags/series/curation stay attached). ML is cleared so
the import task re-derives it on the new pixels."""
subdir = derive_subdir(source, self.import_root)
dest_dir = self.images_root / subdir if subdir else self.images_root
dest_dir.mkdir(parents=True, exist_ok=True)
dest = dest_dir / hash_suffixed_name(source.stem, sha, source.suffix)
partial = dest.with_suffix(dest.suffix + ".partial")
shutil.copy2(source, partial)
partial.rename(dest)
old_path = existing.path
old_thumb = existing.thumbnail_path
existing.path = str(dest)
existing.sha256 = sha
existing.phash = phash
existing.size_bytes = dest.stat().st_size
existing.mime = _mime_for(source)
existing.width = width
existing.height = height
existing.thumbnail_path = None
existing.integrity_status = "unknown"
existing.tagger_predictions = None
existing.tagger_model_version = None
existing.siglip_embedding = None
existing.siglip_model_version = None
existing.centroid_scores = None
# created_at intentionally preserved; updated_at auto-bumps.
self.session.flush()
self.session.commit()
for stale in (old_path, old_thumb):
if not stale:
continue
try:
p = Path(stale)
if p.exists():
p.unlink()
except Exception:
# Benign orphan; the DB swap already committed. Don't undo it.
pass
def _transparency_pct(self, source: Path) -> float:
"""Fraction of fully-transparent pixels in the image. 0.0 if no alpha."""
with Image.open(source) as im:
if im.mode not in ("RGBA", "LA") and not (
im.mode == "P" and "transparency" in im.info
):
return 0.0
if im.mode != "RGBA":
im = im.convert("RGBA")
alpha = im.getchannel("A")
histogram = alpha.histogram()
transparent = histogram[0]
total = sum(histogram)
return transparent / total if total else 0.0