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feat(release): v2 enricher pass for audio/video-meta/edition/language

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The EASY pipeline now extracts the full ParsedRelease surface from
known-group releases, not just the structural backbone. Behavior is
unchanged for releases that don't carry these tokens.

Pipeline (parser/pipeline.py):
- Structural walk (renamed _annotate_structural): no longer requires
  body to be fully consumed. Tokens passed over between schema chunks
  remain UNKNOWN so the enricher pass can claim them.
- _find_chunk(): scans forward in the body for the next token matching
  a given role, skipping already-annotated tokens. Lets optional and
  mandatory chunks both tolerate intercalated enricher tokens.
- _annotate_enrichers(): new non-positional pass. Walks UNKNOWN tokens
  and tags AUDIO_CODEC / AUDIO_CHANNELS / BIT_DEPTH / HDR / EDITION /
  LANGUAGE. Multi-token sequences from kb.audio / kb.video_meta /
  kb.editions are matched first (longest-first ordering preserved from
  the YAML), single tokens after.
- _apply_sequences(): mutates the token list, tagging the first token
  of a matched sequence with extra['sequence']=<canonical value> and
  trailing members with extra['sequence_member']='True' so assemble
  skips them.
- _detect_channel_pairs(): handles the '5.1' / '7.1' case where the
  '.' separator splits the layout into two tokens. Strips a trailing
  '-GROUP' suffix on the second before joining.

Assemble:
- New fields populated: languages (list), audio_codec, audio_channels,
  bit_depth, hdr_format, edition. Each role-handler skips
  sequence_member tokens.
- media_type heuristic extended: edition in {COMPLETE, INTEGRALE,
  COLLECTION} + no season → tv_complete (mirrors legacy).

Tests:
- 4 new TestEnrichers cases covering bit_depth+audio_codec+channels,
  HDR sequence + edition sequence + TrueHD.Atmos + 7.1, multi-language
  with DTS-HD.MA sequence, TV episode with single language.
- All 14 v2 tests + 30 fixture tests still green. Suite: 1011 passed,
  8 skipped.

Refs: project_release_parser_v2_specs (memory)
This commit is contained in:
Francwa
2026-05-20 00:26:05 +02:00
parent 075a827b0e
commit 7dc7f0c241
3 changed files with 446 additions and 172 deletions
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CHANGELOG.md
+13
View File
@@ -43,6 +43,19 @@ callers).
annotation (movie, TV episode, season pack with optional source), annotation (movie, TV episode, season pack with optional source),
and field assembly. and field assembly.
- **Release parser v2 — enricher pass** completes the EASY pipeline.
The structural schema walk now tolerates non-positional tokens
between chunks (instead of aborting on leftover tokens), and a second
pass tags them with audio / video-meta / edition / language roles.
Multi-token sequences from `audio.yaml`, `video.yaml`, `editions.yaml`
(e.g. `DTS.HD.MA`, `DV.HDR10`, `TrueHD.Atmos`, `DIRECTORS.CUT`) are
matched before single tokens. Channel layouts like `5.1` and `7.1`
(split into two tokens by the `.` separator) are detected as
consecutive pairs. Sequence members carry an `extra["sequence_member"]`
marker so `assemble` extracts the canonical value only from the
primary token. KONTRAST releases with audio / HDR / edition / language
metadata now produce a fully populated `ParsedRelease`.
- **Real-world release fixtures** under `tests/fixtures/releases/{easy,shitty,path_of_pain}/`, - **Real-world release fixtures** under `tests/fixtures/releases/{easy,shitty,path_of_pain}/`,
each documenting an expected `ParsedRelease` plus the future `routing` each documenting an expected `ParsedRelease` plus the future `routing`
(library / torrents / seed_hardlinks) for the upcoming `organize_media` (library / torrents / seed_hardlinks) for the upcoming `organize_media`
alfred/domain/release/parser/pipeline.py
+371 -172
View File
@@ -6,13 +6,21 @@ Three stages:
a separately-returned site tag (e.g. ``[YTS.MX]``) that is never a separately-returned site tag (e.g. ``[YTS.MX]``) that is never
tokenized. tokenized.
2. :func:`annotate` — promote each token's :class:`TokenRole` using the 2. :func:`annotate` — promote each token's :class:`TokenRole` using the
injected knowledge base. Group detection is right-to-left; if the injected knowledge base. Two sub-passes:
group has a registered :class:`GroupSchema` we run :func:`_annotate_easy`
(schema-driven, lockstep walk); otherwise we return the tokens with a. **Structural** (schema-driven, EASY only). Detects the group at
only the group annotated and the caller falls back to SHITTY in the right end, looks up its :class:`GroupSchema`, then matches
:func:`_legacy_assemble` (see :mod:`..services`). the schema's chunk sequence against the token stream. Between
two structural chunks, any number of unmatched tokens may
remain — they are left UNKNOWN for the enricher pass to handle.
b. **Enrichers** (non-positional). Walks UNKNOWN tokens and tags
audio / video-meta / edition / language roles. Multi-token
sequences (``DTS.HD.MA``, ``DV.HDR10``, ``DIRECTORS.CUT``) are
matched first, single tokens after.
3. :func:`assemble` — fold annotated tokens into a 3. :func:`assemble` — fold annotated tokens into a
:class:`~alfred.domain.release.value_objects.ParsedRelease`. :class:`~alfred.domain.release.value_objects.ParsedRelease`-compatible
dict.
The pipeline is **pure**: no I/O, no TMDB, no probe. All knowledge The pipeline is **pure**: no I/O, no TMDB, no probe. All knowledge
arrives through ``kb: ReleaseKnowledge``. arrives through ``kb: ReleaseKnowledge``.
@@ -78,7 +86,7 @@ def tokenize(name: str, kb: ReleaseKnowledge) -> tuple[list[Token], str | None]:
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Stage 2 — annotate # Helpers shared across passes
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
@@ -138,157 +146,8 @@ def _split_codec_group(text: str, kb: ReleaseKnowledge) -> tuple[str, str] | Non
return None return None
def _detect_group(tokens: list[Token], kb: ReleaseKnowledge) -> tuple[str, int | None]:
"""Identify the release group by walking tokens right-to-left.
Returns ``(group_name, token_index_carrying_group)`` — the index is
``None`` when the group is missing entirely (no trailing ``-`` token
in the stream).
Priority:
1. Rightmost token of shape ``codec-GROUP`` (clearest signal).
2. Rightmost token containing ``-`` whose head is *not* a known
source token (Web-DL etc. shouldn't be confused with a group).
"""
# Priority 1: codec-GROUP
for tok in reversed(tokens):
split = _split_codec_group(tok.text, kb)
if split is not None:
_, group = split
return (group or "UNKNOWN"), tok.index
# Priority 2: rightmost dash, excluding known dashed sources
for tok in reversed(tokens):
if "-" not in tok.text:
continue
head, _, tail = tok.text.rpartition("-")
# Skip dashed-source tokens like "Web-DL"
if (
head.lower() in kb.sources
or tok.text.lower().replace("-", "") in kb.sources
):
continue
if tail:
return tail, tok.index
return "UNKNOWN", None
def _annotate_easy(
tokens: list[Token],
kb: ReleaseKnowledge,
schema: GroupSchema,
group_token_index: int,
) -> list[Token] | None:
"""Annotate tokens following a known group schema (EASY path).
Returns the new token list on success, or ``None`` if the schema
walk fails — a mandatory chunk that doesn't match aborts EASY and
lets the caller fall back to SHITTY without crashing.
"""
result = list(tokens)
# The codec-GROUP token is special: it carries TWO roles (CODEC +
# GROUP). We split it conceptually and tag it as CODEC here; the
# group itself is propagated via ``extra["group"]`` so the assemble
# step can recover both pieces from one token. When we do this,
# ``codec_pre_consumed`` is True so the schema walk knows to skip
# the CODEC chunk (it has nothing left to match in the body).
group_token = result[group_token_index]
cg_split = _split_codec_group(group_token.text, kb)
codec_pre_consumed = False
if cg_split is not None:
codec, group = cg_split
result[group_token_index] = group_token.with_role(
TokenRole.CODEC, codec=codec, group=group or "UNKNOWN"
)
codec_pre_consumed = True
else:
# Group on a non-codec token (e.g. release without codec).
head, _, tail = group_token.text.rpartition("-")
result[group_token_index] = group_token.with_role(
TokenRole.GROUP, group=tail or "UNKNOWN", prefix=head
)
# Walk the schema left-to-right against tokens [0 .. group_token_index].
# The codec-GROUP token at `group_token_index` already consumed CODEC
# + GROUP, so we walk up to (not including) it.
body = result[:group_token_index]
chunk_idx = 0
tok_idx = 0
# 1) TITLE — special: consume contiguous UNKNOWN tokens until we hit
# a token whose text matches a non-title role.
while chunk_idx < len(schema.chunks) and schema.chunks[chunk_idx].role is TokenRole.TITLE:
title_end = _find_title_end(body, kb)
# All body tokens up to title_end are title parts.
for i in range(tok_idx, title_end):
result[i] = body[i].with_role(TokenRole.TITLE)
tok_idx = title_end
chunk_idx += 1
# 2) Remaining chunks. CODEC and GROUP that were pre-consumed by the
# codec-GROUP token at the end of the stream are skipped here.
for chunk in schema.chunks[chunk_idx:]:
if chunk.role is TokenRole.GROUP:
# Handled above via the trailing token.
continue
if chunk.role is TokenRole.CODEC and codec_pre_consumed:
# Already attached to the trailing token's extras.
continue
if tok_idx >= len(body):
if chunk.optional:
continue
return None
tok = body[tok_idx]
matched_role = _match_role(tok.text, chunk.role, kb)
if matched_role is None:
if chunk.optional:
continue
return None
result[tok_idx] = tok.with_role(matched_role)
tok_idx += 1
# Body must be fully consumed for EASY to succeed. Leftover tokens
# would mean we missed a chunk (e.g. extra audio/HDR tokens not in
# the schema yet) — fall back to SHITTY rather than silently dropping.
if tok_idx < len(body):
return None
return result
def _find_title_end(body: list[Token], kb: ReleaseKnowledge) -> int:
"""Return the exclusive index where the title ends.
The title is the leftmost run of tokens that don't match any known
structural/technical role. Stops at the first token that does.
"""
for i, tok in enumerate(body):
if _parse_season_episode(tok.text) is not None:
return i
if _is_year(tok.text):
return i
if tok.text.lower() in kb.resolutions:
return i
if tok.text.lower() in kb.sources:
return i
if tok.text.lower() in kb.codecs:
return i
return len(body)
def _match_role(text: str, role: TokenRole, kb: ReleaseKnowledge) -> TokenRole | None: def _match_role(text: str, role: TokenRole, kb: ReleaseKnowledge) -> TokenRole | None:
"""Return ``role`` if ``text`` matches it under ``kb``, else ``None``. """Return ``role`` if ``text`` matches it under ``kb``, else ``None``."""
Used by the schema walk: each chunk requests a specific role, and
this checks whether the current token can play it. Optional chunks
that don't match are silently skipped.
"""
lower = text.lower() lower = text.lower()
if role is TokenRole.YEAR: if role is TokenRole.YEAR:
@@ -313,12 +172,314 @@ def _match_role(text: str, role: TokenRole, kb: ReleaseKnowledge) -> TokenRole |
return None return None
# ---------------------------------------------------------------------------
# Stage 2a — group detection
# ---------------------------------------------------------------------------
def _detect_group(tokens: list[Token], kb: ReleaseKnowledge) -> tuple[str, int | None]:
"""Identify the release group by walking tokens right-to-left.
Returns ``(group_name, token_index_carrying_group)``. ``index`` is
``None`` when the group is absent (no trailing ``-`` in the stream).
"""
# Priority 1: codec-GROUP shape (clearest signal).
for tok in reversed(tokens):
split = _split_codec_group(tok.text, kb)
if split is not None:
_, group = split
return (group or "UNKNOWN"), tok.index
# Priority 2: rightmost dash, excluding dashed sources (Web-DL, etc.).
for tok in reversed(tokens):
if "-" not in tok.text:
continue
head, _, tail = tok.text.rpartition("-")
if (
head.lower() in kb.sources
or tok.text.lower().replace("-", "") in kb.sources
):
continue
if tail:
return tail, tok.index
return "UNKNOWN", None
# ---------------------------------------------------------------------------
# Stage 2b — structural annotation (schema-driven)
# ---------------------------------------------------------------------------
def _annotate_structural(
tokens: list[Token],
kb: ReleaseKnowledge,
schema: GroupSchema,
group_token_index: int,
) -> list[Token] | None:
"""Annotate structural tokens following a known group schema.
Walks the schema's chunks against the body (tokens up to the group
token). For each chunk, scans forward in the body for a matching
token — tokens passed over without match are left UNKNOWN (the
enricher pass will handle them).
Returns ``None`` if any mandatory chunk fails to find a match.
"""
result = list(tokens)
# The codec-GROUP token carries CODEC + GROUP. Split it now so the
# schema walk knows the codec is "pre-consumed" at the end.
group_token = result[group_token_index]
cg_split = _split_codec_group(group_token.text, kb)
codec_pre_consumed = False
if cg_split is not None:
codec, group = cg_split
result[group_token_index] = group_token.with_role(
TokenRole.CODEC, codec=codec, group=group or "UNKNOWN"
)
codec_pre_consumed = True
else:
head, _, tail = group_token.text.rpartition("-")
result[group_token_index] = group_token.with_role(
TokenRole.GROUP, group=tail or "UNKNOWN", prefix=head
)
body_end = group_token_index # exclusive
tok_idx = 0
chunk_idx = 0
# 1) TITLE — leftmost contiguous tokens up to the first structural
# boundary. Title is special because it can be multi-token.
while (
chunk_idx < len(schema.chunks)
and schema.chunks[chunk_idx].role is TokenRole.TITLE
):
title_end = _find_title_end(result, body_end, kb)
for i in range(tok_idx, title_end):
result[i] = result[i].with_role(TokenRole.TITLE)
tok_idx = title_end
chunk_idx += 1
# 2) Remaining structural chunks. For each, scan forward in the body
# for a matching token; tokens passed over remain UNKNOWN.
for chunk in schema.chunks[chunk_idx:]:
if chunk.role is TokenRole.GROUP:
continue
if chunk.role is TokenRole.CODEC and codec_pre_consumed:
continue
match_idx = _find_chunk(result, tok_idx, body_end, chunk.role, kb)
if match_idx is None:
if chunk.optional:
continue
return None
result[match_idx] = result[match_idx].with_role(chunk.role)
tok_idx = match_idx + 1
return result
def _find_title_end(
tokens: list[Token], body_end: int, kb: ReleaseKnowledge
) -> int:
"""Return the exclusive index where the title ends.
The title is the leftmost run of tokens whose text does not match
any structural role (year, season/episode, resolution, source,
codec). Enricher tokens (audio, HDR, language) are *not* boundaries
because they can appear in the middle of the structural sequence;
however, in canonical scene names they don't appear inside the title
itself, so this heuristic holds in practice.
"""
for i in range(body_end):
text = tokens[i].text
if _parse_season_episode(text) is not None:
return i
if _is_year(text):
return i
lower = text.lower()
if lower in kb.resolutions:
return i
if lower in kb.sources:
return i
if lower in kb.codecs:
return i
return body_end
def _find_chunk(
tokens: list[Token],
start: int,
end: int,
role: TokenRole,
kb: ReleaseKnowledge,
) -> int | None:
"""Return the first index in ``[start, end)`` whose token matches ``role``.
Returns ``None`` if no token in the range matches. Tokens already
annotated (non-UNKNOWN) are skipped — they belong to another chunk.
"""
for i in range(start, end):
if tokens[i].role is not TokenRole.UNKNOWN:
continue
if _match_role(tokens[i].text, role, kb) is not None:
return i
return None
# ---------------------------------------------------------------------------
# Stage 2c — enricher pass (non-positional roles)
# ---------------------------------------------------------------------------
def _annotate_enrichers(tokens: list[Token], kb: ReleaseKnowledge) -> list[Token]:
"""Tag the remaining UNKNOWN tokens with non-positional roles.
Multi-token sequences are matched first (so ``DTS.HD.MA`` wins over
a single-token ``DTS``). For each sequence match, the first token
receives the role + ``extra["sequence"]`` (the canonical joined
value), and the trailing members are marked with the same role +
``extra["sequence_member"]=True`` so :func:`assemble` extracts the
value only from the primary.
"""
result = list(tokens)
# Multi-token sequences first.
_apply_sequences(
result, kb.audio.get("sequences", []), "codec", TokenRole.AUDIO_CODEC
)
_apply_sequences(
result, kb.video_meta.get("sequences", []), "hdr", TokenRole.HDR
)
_apply_sequences(
result, kb.editions.get("sequences", []), "edition", TokenRole.EDITION
)
# Single tokens.
known_audio_codecs = {c.upper() for c in kb.audio.get("codecs", [])}
known_audio_channels = set(kb.audio.get("channels", []))
known_hdr = {h.upper() for h in kb.video_meta.get("hdr", [])} | kb.hdr_extra
known_bit_depth = {d.lower() for d in kb.video_meta.get("bit_depth", [])}
known_editions = {t.upper() for t in kb.editions.get("tokens", [])}
# Channel layouts like "5.1" are tokenized as two tokens ("5", "1")
# because "." is a separator. Detect consecutive pairs whose joined
# value (without any trailing "-GROUP") is in the channel set.
_detect_channel_pairs(result, known_audio_channels)
for i, tok in enumerate(result):
if tok.role is not TokenRole.UNKNOWN:
continue
text = tok.text
upper = text.upper()
lower = text.lower()
if upper in known_audio_codecs:
result[i] = tok.with_role(TokenRole.AUDIO_CODEC)
continue
if text in known_audio_channels:
result[i] = tok.with_role(TokenRole.AUDIO_CHANNELS)
continue
if upper in known_hdr:
result[i] = tok.with_role(TokenRole.HDR)
continue
if lower in known_bit_depth:
result[i] = tok.with_role(TokenRole.BIT_DEPTH)
continue
if upper in known_editions:
result[i] = tok.with_role(TokenRole.EDITION)
continue
if upper in kb.language_tokens:
result[i] = tok.with_role(TokenRole.LANGUAGE)
continue
return result
def _apply_sequences(
tokens: list[Token],
sequences: list[dict],
value_key: str,
role: TokenRole,
) -> None:
"""Mark the first occurrence of each sequence in place.
Mutates ``tokens`` (replacing entries with new role-tagged Token
instances). Sequences in the YAML must be ordered most-specific
first; the first match wins per starting position.
"""
if not sequences:
return
upper_texts = [t.text.upper() for t in tokens]
consumed: set[int] = set()
for seq in sequences:
seq_upper = [s.upper() for s in seq["tokens"]]
n = len(seq_upper)
for start in range(len(tokens) - n + 1):
if any(idx in consumed for idx in range(start, start + n)):
continue
if any(
tokens[start + k].role is not TokenRole.UNKNOWN for k in range(n)
):
continue
if upper_texts[start : start + n] == seq_upper:
tokens[start] = tokens[start].with_role(
role, sequence=seq[value_key]
)
for k in range(1, n):
tokens[start + k] = tokens[start + k].with_role(
role, sequence_member="True"
)
consumed.update(range(start, start + n))
def _detect_channel_pairs(
tokens: list[Token], known_channels: set[str]
) -> None:
"""Spot two consecutive numeric tokens that form a channel layout.
Example: ``["5", "1-KTH"]`` → joined ``"5.1"`` (after stripping the
``-GROUP`` suffix on the second). The second token may be the trailing
codec-GROUP token, in which case it's already tagged CODEC and we
skip — we'd corrupt its role.
"""
for i in range(len(tokens) - 1):
first = tokens[i]
second = tokens[i + 1]
if first.role is not TokenRole.UNKNOWN:
continue
# Strip a "-GROUP" suffix on the second token before joining.
second_text = second.text.split("-")[0]
candidate = f"{first.text}.{second_text}"
if candidate not in known_channels:
continue
# Only tag the first token (carries the channel value). The
# second token may legitimately remain UNKNOWN (or be the
# codec-GROUP token, already tagged CODEC).
tokens[i] = first.with_role(
TokenRole.AUDIO_CHANNELS, sequence=candidate
)
if second.role is TokenRole.UNKNOWN:
tokens[i + 1] = second.with_role(
TokenRole.AUDIO_CHANNELS, sequence_member="True"
)
# ---------------------------------------------------------------------------
# Stage 2 entry point
# ---------------------------------------------------------------------------
def annotate(tokens: list[Token], kb: ReleaseKnowledge) -> list[Token] | None: def annotate(tokens: list[Token], kb: ReleaseKnowledge) -> list[Token] | None:
"""Annotate token roles. Returns ``None`` when the EASY path fails. """Annotate token roles. Returns ``None`` when the EASY path fails.
A ``None`` return means: the group is unknown, OR the schema walk A ``None`` return means: the group is unknown, OR the schema walk
aborted on a mandatory mismatch. The caller (``services.parse_release``) aborted on a mandatory mismatch. The caller falls back to the legacy
falls back to the legacy SHITTY heuristic in that case. SHITTY heuristic in that case.
""" """
group_name, group_index = _detect_group(tokens, kb) group_name, group_index = _detect_group(tokens, kb)
if group_index is None: if group_index is None:
@@ -328,7 +489,11 @@ def annotate(tokens: list[Token], kb: ReleaseKnowledge) -> list[Token] | None:
if schema is None: if schema is None:
return None return None
return _annotate_easy(tokens, kb, schema, group_index) structural = _annotate_structural(tokens, kb, schema, group_index)
if structural is None:
return None
return _annotate_enrichers(structural, kb)
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
@@ -345,9 +510,8 @@ def assemble(
"""Fold annotated tokens into a ``ParsedRelease``-compatible dict. """Fold annotated tokens into a ``ParsedRelease``-compatible dict.
Returns a dict (not a ``ParsedRelease`` instance) so the caller can Returns a dict (not a ``ParsedRelease`` instance) so the caller can
layer in additional fields (``parse_path``, etc.) before instantiation. layer in additional fields (``parse_path``, ``raw``, …) before
The dict's keys mirror the :class:`ParsedRelease` constructor instantiation.
arguments.
""" """
title_parts = [t.text for t in annotated if t.role is TokenRole.TITLE] title_parts = [t.text for t in annotated if t.role is TokenRole.TITLE]
title = ".".join(title_parts) if title_parts else ( title = ".".join(title_parts) if title_parts else (
@@ -362,33 +526,62 @@ def assemble(
source: str | None = None source: str | None = None
codec: str | None = None codec: str | None = None
group = "UNKNOWN" group = "UNKNOWN"
audio_codec: str | None = None
audio_channels: str | None = None
bit_depth: str | None = None
hdr_format: str | None = None
edition: str | None = None
languages: list[str] = []
for tok in annotated: for tok in annotated:
if tok.role is TokenRole.YEAR: # Skip non-primary members of a multi-token sequence.
if tok.extra.get("sequence_member") == "True":
continue
role = tok.role
if role is TokenRole.YEAR:
year = int(tok.text) year = int(tok.text)
elif tok.role is TokenRole.SEASON_EPISODE: elif role is TokenRole.SEASON_EPISODE:
parsed = _parse_season_episode(tok.text) parsed = _parse_season_episode(tok.text)
if parsed is not None: if parsed is not None:
season, episode, episode_end = parsed season, episode, episode_end = parsed
elif tok.role is TokenRole.RESOLUTION: elif role is TokenRole.RESOLUTION:
quality = tok.text quality = tok.text
elif tok.role is TokenRole.SOURCE: elif role is TokenRole.SOURCE:
source = tok.text source = tok.text
elif tok.role is TokenRole.CODEC: elif role is TokenRole.CODEC:
# CODEC token may also carry the group (codec-GROUP shape).
codec = tok.extra.get("codec", tok.text) codec = tok.extra.get("codec", tok.text)
if "group" in tok.extra: if "group" in tok.extra:
group = tok.extra["group"] or "UNKNOWN" group = tok.extra["group"] or "UNKNOWN"
elif tok.role is TokenRole.GROUP: elif role is TokenRole.GROUP:
group = tok.extra.get("group", tok.text) or "UNKNOWN" group = tok.extra.get("group", tok.text) or "UNKNOWN"
elif role is TokenRole.AUDIO_CODEC:
if audio_codec is None:
audio_codec = tok.extra.get("sequence", tok.text)
elif role is TokenRole.AUDIO_CHANNELS:
if audio_channels is None:
audio_channels = tok.extra.get("sequence", tok.text)
elif role is TokenRole.BIT_DEPTH:
if bit_depth is None:
bit_depth = tok.text.lower()
elif role is TokenRole.HDR:
if hdr_format is None:
hdr_format = tok.extra.get("sequence", tok.text.upper())
elif role is TokenRole.EDITION:
if edition is None:
edition = tok.extra.get("sequence", tok.text.upper())
elif role is TokenRole.LANGUAGE:
languages.append(tok.text.upper())
tech_parts = [p for p in (quality, source, codec) if p] tech_parts = [p for p in (quality, source, codec) if p]
tech_string = ".".join(tech_parts) tech_string = ".".join(tech_parts)
# Media type: TV if a season was parsed, otherwise movie if we have # Media type heuristic — same rules as the legacy parser, minus the
# at least one tech marker, else unknown. # documentary/concert/integrale specials (handled by SHITTY for now).
if season is not None: if season is not None:
media_type = "tv_show" media_type = "tv_show"
elif edition in {"COMPLETE", "INTEGRALE", "COLLECTION"}:
media_type = "tv_complete"
elif any((quality, source, codec, year)): elif any((quality, source, codec, year)):
media_type = "movie" media_type = "movie"
else: else:
@@ -408,4 +601,10 @@ def assemble(
"tech_string": tech_string, "tech_string": tech_string,
"media_type": media_type, "media_type": media_type,
"site_tag": site_tag, "site_tag": site_tag,
"languages": languages,
"audio_codec": audio_codec,
"audio_channels": audio_channels,
"bit_depth": bit_depth,
"hdr_format": hdr_format,
"edition": edition,
} }
tests/domain/release/test_parser_v2_easy.py
+62
View File
@@ -140,3 +140,65 @@ class TestAssemble:
assert fields["source"] is None # ELiTE omits it assert fields["source"] is None # ELiTE omits it
assert fields["tech_string"] == "1080p.x265" assert fields["tech_string"] == "1080p.x265"
assert fields["group"] == "ELiTE" assert fields["group"] == "ELiTE"
class TestEnrichers:
"""Non-positional roles populated alongside the structural walk.
These releases would have failed the v2 EASY path before the enricher
pass landed (leftover unknown tokens would force a fallback). They
now succeed in v2 with rich metadata.
"""
def test_bit_depth_and_audio(self) -> None:
name = "Back.in.Action.2025.1080p.WEBRip.10bit.DDP.5.1.x265-KONTRAST"
tokens, tag = tokenize(name, _KB)
annotated = annotate(tokens, _KB)
assert annotated is not None
fields = assemble(annotated, tag, name, _KB)
assert fields["title"] == "Back.in.Action"
assert fields["bit_depth"] == "10bit"
assert fields["audio_codec"] == "DDP"
assert fields["audio_channels"] == "5.1"
def test_hdr_sequence(self) -> None:
# DV.HDR10 sequence + TrueHD.Atmos sequence + 7.1 channels +
# DIRECTORS.CUT edition all in one release.
name = (
"Some.Movie.2024.DIRECTORS.CUT.2160p.BluRay.DV.HDR10."
"TrueHD.Atmos.7.1.x265-KONTRAST"
)
tokens, tag = tokenize(name, _KB)
annotated = annotate(tokens, _KB)
assert annotated is not None
fields = assemble(annotated, tag, name, _KB)
assert fields["edition"] == "DIRECTORS.CUT"
assert fields["hdr_format"] == "DV.HDR10"
assert fields["audio_codec"] == "TrueHD.Atmos"
assert fields["audio_channels"] == "7.1"
def test_multiple_languages(self) -> None:
name = "Movie.2020.FRENCH.MULTI.1080p.WEBRip.DTS.HD.MA.5.1.x265-KONTRAST"
tokens, tag = tokenize(name, _KB)
annotated = annotate(tokens, _KB)
assert annotated is not None
fields = assemble(annotated, tag, name, _KB)
assert fields["languages"] == ["FRENCH", "MULTI"]
assert fields["audio_codec"] == "DTS-HD.MA"
assert fields["audio_channels"] == "5.1"
def test_tv_with_language(self) -> None:
name = "Show.S01E05.FRENCH.1080p.WEBRip.x265-KONTRAST"
tokens, tag = tokenize(name, _KB)
annotated = annotate(tokens, _KB)
assert annotated is not None
fields = assemble(annotated, tag, name, _KB)
assert fields["title"] == "Show"
assert fields["season"] == 1
assert fields["episode"] == 5
assert fields["languages"] == ["FRENCH"]
assert fields["media_type"] == "tv_show"