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unslothai--unsloth/studio/backend/tests/test_transformers_version.py
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chore: import upstream snapshot with attribution
2026-07-13 12:59:56 +08:00

2553 lines
105 KiB
Python

# SPDX-License-Identifier: AGPL-3.0-only
# Copyright 2026-present the Unsloth AI Inc. team. All rights reserved. See /studio/LICENSE.AGPL-3.0
"""Tests for transformers version detection with local checkpoint fallbacks."""
import json
import logging
import os
import pytest
from pathlib import Path
from unittest.mock import patch
# ---------------------------------------------------------------------------
# The studio backend uses relative-style imports (``from utils.…``), so
# add the backend directory to *sys.path* if not already present.
# ---------------------------------------------------------------------------
import sys
_BACKEND_DIR = str(Path(__file__).resolve().parent.parent)
if _BACKEND_DIR not in sys.path:
sys.path.insert(0, _BACKEND_DIR)
# Stub the custom logger before import so ``from loggers import
# get_logger`` doesn't fail.
import types as _types
_loggers_stub = _types.ModuleType("loggers")
_loggers_stub.get_logger = lambda name: __import__("logging").getLogger(name)
sys.modules.setdefault("loggers", _loggers_stub)
from utils.transformers_version import (
_resolve_base_model,
_is_lora_adapter_dir,
_has_adapter_weights,
_remote_lora_base,
_check_tokenizer_config_needs_v5,
_check_config_needs_510,
_check_config_needs_530,
_check_config_needs_550,
_config_needs_510,
_config_needs_530,
_norm_separators,
_tier_from_name,
_looks_like_hf_id,
_nemotron_h_needs_mlp_support,
_config_json_from_hf_cache,
_load_config_json,
_higher_tier,
_config_json_cache,
_tokenizer_class_cache,
_config_needs_510_cache,
_config_needs_530_cache,
_config_needs_550_cache,
_probe_tier_cache,
_probe_tier,
_stderr_is_transient,
needs_transformers_5,
get_transformers_tier,
activate_transformers_for_subprocess,
_venv_dir_is_valid,
_ensure_venv_dir,
hf_endpoint_unreachable,
)
@pytest.fixture(autouse = True)
def _capturable_logger(monkeypatch):
"""Make the ``caplog`` assertions independent of test collection order.
The ``sys.modules.setdefault("loggers", ...)`` stub above only installs the
stdlib-logger stub when ``loggers`` has not been imported yet. In a full
backend pytest run another module (e.g. ``test_log_filter_no_truncation``,
collected earlier) imports the real ``loggers`` first, so the stub is a
no-op and ``transformers_version.logger`` ends up a structlog/stdout logger
that ``caplog`` cannot see -- the tier/activation/install log assertions
would then fail even though the line was emitted. Bind a real stdlib logger
for the duration of each test so the module logs through ``logging`` and
``caplog`` captures them regardless of import order.
"""
monkeypatch.setattr(
"utils.transformers_version.logger",
logging.getLogger("utils.transformers_version"),
)
# ---------------------------------------------------------------------------
# _resolve_base_model — config.json fallback
# ---------------------------------------------------------------------------
class TestResolveBaseModel:
"""Tests for _resolve_base_model() local config fallbacks."""
def test_adapter_config_takes_priority(self, tmp_path: Path):
"""adapter_config.json should be preferred over config.json."""
adapter_cfg = {"base_model_name_or_path": "meta-llama/Llama-3-8B"}
config_cfg = {"_name_or_path": "different/model"}
(tmp_path / "adapter_config.json").write_text(json.dumps(adapter_cfg))
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
result = _resolve_base_model(str(tmp_path))
assert result == "meta-llama/Llama-3-8B"
def test_config_json_fallback_model_name(self, tmp_path: Path):
"""config.json model_name should resolve when no adapter_config."""
config_cfg = {"model_name": "Qwen/Qwen3.5-9B"}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
result = _resolve_base_model(str(tmp_path))
assert result == "Qwen/Qwen3.5-9B"
def test_config_json_fallback_name_or_path(self, tmp_path: Path):
"""config.json _name_or_path should resolve as secondary fallback."""
config_cfg = {"_name_or_path": "Qwen/Qwen3.5-9B"}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
result = _resolve_base_model(str(tmp_path))
assert result == "Qwen/Qwen3.5-9B"
def test_non_string_base_does_not_crash(self, tmp_path: Path):
"""A malformed config (list/dict for model_name) must not raise."""
config_cfg = {"model_name": ["x"], "_name_or_path": "Qwen/Qwen3.5-9B"}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
# Skips the non-string model_name and falls through to _name_or_path.
assert _resolve_base_model(str(tmp_path)) == "Qwen/Qwen3.5-9B"
def test_model_name_takes_priority_over_name_or_path(self, tmp_path: Path):
"""model_name should be preferred over _name_or_path."""
config_cfg = {
"model_name": "Qwen/Qwen3.5-9B",
"_name_or_path": "some/other-model",
}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
result = _resolve_base_model(str(tmp_path))
assert result == "Qwen/Qwen3.5-9B"
def test_config_json_skips_self_referencing(self, tmp_path: Path):
"""config.json should be ignored if model_name == the checkpoint path."""
config_cfg = {"model_name": str(tmp_path)}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
result = _resolve_base_model(str(tmp_path))
# Falls through; does not return the self-referencing path.
assert result == str(tmp_path)
def test_no_config_files(self, tmp_path: Path):
"""Returns original name when no config files are present."""
result = _resolve_base_model(str(tmp_path))
assert result == str(tmp_path)
def test_plain_hf_id_passthrough(self):
"""Plain HuggingFace model IDs pass through unchanged."""
result = _resolve_base_model("meta-llama/Llama-3-8B")
assert result == "meta-llama/Llama-3-8B"
class TestRemoteLoraBase:
"""_remote_lora_base reads a remote adapter's base from its Hub adapter_config.json."""
@staticmethod
def _resp(cfg: dict):
class _Resp:
def __enter__(self):
return self
def __exit__(self, *a):
return False
def read(self):
return json.dumps(cfg).encode()
return _Resp()
def test_fetches_base_from_remote_adapter_config(self, monkeypatch):
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
cfg = {"base_model_name_or_path": "nvidia/NVIDIA-Nemotron-3-Nano-4B"}
with patch("urllib.request.urlopen", return_value = self._resp(cfg)):
assert (
_remote_lora_base("someuser/my-nemotron-lora") == "nvidia/NVIDIA-Nemotron-3-Nano-4B"
)
def test_local_or_noncanonical_returns_none(self):
assert _remote_lora_base("/local/dir/adapter") is None
assert _remote_lora_base("plainname") is None
def test_respects_hf_endpoint(self, monkeypatch):
# Enterprise mirror: the fetch must target HF_ENDPOINT, not hardcoded huggingface.co.
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
monkeypatch.setenv("HF_ENDPOINT", "https://hf.mirror.internal")
seen = {}
def fake_urlopen(req, timeout = 10):
seen["url"] = req.full_url
return self._resp({"base_model_name_or_path": "org/base"})
with patch("urllib.request.urlopen", side_effect = fake_urlopen):
assert _remote_lora_base("user/adapter") == "org/base"
assert seen["url"].startswith("https://hf.mirror.internal/user/adapter/raw/main/")
@staticmethod
def _seed_adapter_cache(
hub: Path,
repo_id: str,
base: str,
commit: str = "deadbeef",
):
repo = hub / ("models--" + repo_id.replace("/", "--"))
snap = repo / "snapshots" / commit
snap.mkdir(parents = True)
(snap / "adapter_config.json").write_text(json.dumps({"base_model_name_or_path": base}))
(repo / "refs").mkdir(parents = True)
(repo / "refs" / "main").write_text(commit)
def test_offline_reads_base_from_hf_cache(self, tmp_path: Path, monkeypatch):
self._seed_adapter_cache(tmp_path, "user/cached-lora", "nvidia/Nemotron-H-8B")
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.setenv("HF_HUB_OFFLINE", "1")
with patch("urllib.request.urlopen") as mock_url:
assert _remote_lora_base("user/cached-lora") == "nvidia/Nemotron-H-8B"
mock_url.assert_not_called() # offline: cache only, no network
def test_fetch_failure_falls_back_to_cache(self, tmp_path: Path, monkeypatch):
self._seed_adapter_cache(tmp_path, "user/cached-lora", "nvidia/Nemotron-H-8B")
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
with patch("urllib.request.urlopen", side_effect = OSError("boom")):
assert _remote_lora_base("user/cached-lora") == "nvidia/Nemotron-H-8B"
def test_offline_uncached_makes_no_request(self, tmp_path: Path, monkeypatch):
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.setenv("HF_HUB_OFFLINE", "1")
with patch("urllib.request.urlopen") as mock_url:
assert _remote_lora_base("org/adapter") is None
mock_url.assert_not_called()
def test_non_adapter_repo_returns_none(self, tmp_path: Path, monkeypatch):
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
with patch("urllib.request.urlopen", side_effect = OSError("boom")):
assert _remote_lora_base("org/not-an-adapter") is None
def test_existing_relative_path_not_treated_as_repo(self, monkeypatch):
# An existing one-slash relative path (e.g. outputs/run1) is a local checkpoint, not
# a Hub repo: no request, no risk of matching an unrelated remote/cached adapter.
import utils.paths as paths
monkeypatch.setattr(paths, "is_local_path", lambda p: True)
with patch("urllib.request.urlopen") as mock_url:
assert _remote_lora_base("outputs/run1") is None
mock_url.assert_not_called()
def test_404_returns_none_not_stale_cache(self, tmp_path: Path, monkeypatch):
import urllib.error
# The repo is now a full model (adapter_config.json 404s) but a stale LoRA snapshot is
# cached: a definitive 404 must return None, not the stale base.
self._seed_adapter_cache(tmp_path, "user/was-a-lora", "old/base")
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
err = urllib.error.HTTPError("url", 404, "Not Found", {}, None)
with patch("urllib.request.urlopen", side_effect = err):
assert _remote_lora_base("user/was-a-lora") is None
def test_transient_http_error_falls_back_to_cache(self, tmp_path: Path, monkeypatch):
import urllib.error
self._seed_adapter_cache(tmp_path, "user/cached-lora", "nvidia/Nemotron-H-8B")
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
err = urllib.error.HTTPError("url", 503, "Service Unavailable", {}, None)
with patch("urllib.request.urlopen", side_effect = err):
assert _remote_lora_base("user/cached-lora") == "nvidia/Nemotron-H-8B"
# ---------------------------------------------------------------------------
# _check_tokenizer_config_needs_v5 — local file check
# ---------------------------------------------------------------------------
class TestCheckTokenizerConfigNeedsV5:
"""Tests for local tokenizer_config.json fallback."""
def setup_method(self):
_tokenizer_class_cache.clear()
def test_local_tokenizer_config_v5(self, tmp_path: Path):
"""Local tokenizer_config.json with v5 tokenizer should return True."""
tc = {"tokenizer_class": "TokenizersBackend"}
(tmp_path / "tokenizer_config.json").write_text(json.dumps(tc))
result = _check_tokenizer_config_needs_v5(str(tmp_path))
assert result is True
def test_local_tokenizer_config_v4(self, tmp_path: Path):
"""Local tokenizer_config.json with standard tokenizer should return False."""
tc = {"tokenizer_class": "LlamaTokenizerFast"}
(tmp_path / "tokenizer_config.json").write_text(json.dumps(tc))
result = _check_tokenizer_config_needs_v5(str(tmp_path))
assert result is False
def test_local_file_skips_network(self, tmp_path: Path):
"""When local file exists, no network request should be made."""
tc = {"tokenizer_class": "LlamaTokenizerFast"}
(tmp_path / "tokenizer_config.json").write_text(json.dumps(tc))
with patch("urllib.request.urlopen") as mock_urlopen:
result = _check_tokenizer_config_needs_v5(str(tmp_path))
mock_urlopen.assert_not_called()
assert result is False
def test_result_is_cached(self, tmp_path: Path):
"""Subsequent calls should use the cache."""
tc = {"tokenizer_class": "TokenizersBackend"}
(tmp_path / "tokenizer_config.json").write_text(json.dumps(tc))
key = (str(tmp_path), None)
_check_tokenizer_config_needs_v5(str(tmp_path))
assert key in _tokenizer_class_cache
assert _tokenizer_class_cache[key] is True
def test_token_cache_isolation_and_auth_fetch(self, monkeypatch):
# A gated repo: the unauthenticated miss (cached under (model, None)) must not block a
# later authed fetch (separate key), and the token rides in the Authorization header.
import utils.transformers_version as tv
monkeypatch.setattr(tv, "_env_offline", lambda: False)
seen_auth = []
class _Resp:
def __init__(self, body):
self._b = body
def read(self):
return self._b.encode()
def __enter__(self):
return self
def __exit__(self, *a):
return False
def fake_urlopen(req, timeout = 10):
auth = req.get_header("Authorization")
seen_auth.append(auth)
if auth:
return _Resp(json.dumps({"tokenizer_class": "TokenizersBackend"}))
raise OSError("HTTP 401")
monkeypatch.setattr("urllib.request.urlopen", fake_urlopen)
assert _check_tokenizer_config_needs_v5("org/gated") is False # unauth miss
assert _check_tokenizer_config_needs_v5("org/gated", "tok") is True # authed hit
assert seen_auth == [None, "Bearer tok"]
assert _tokenizer_class_cache[("org/gated", None)] is False # miss not poisoning
# ---------------------------------------------------------------------------
# needs_transformers_5 — integration-level
# ---------------------------------------------------------------------------
class TestNeedsTransformers5:
"""Integration tests for the top-level needs_transformers_5() function."""
def setup_method(self):
_tokenizer_class_cache.clear()
def test_qwen35_substring(self):
assert needs_transformers_5("Qwen/Qwen3.5-9B") is True
def test_qwen3_30b_a3b_substring(self):
assert needs_transformers_5("Qwen/Qwen3-30B-A3B-Instruct-2507") is True
def test_ministral_substring(self):
assert needs_transformers_5("mistralai/Ministral-3-8B-Instruct-2512") is True
def test_llama_does_not_need_v5(self):
"""Standard models should not trigger v5."""
# Patch network call to avoid a real fetch.
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5",
return_value = False,
):
assert needs_transformers_5("meta-llama/Llama-3-8B") is False
def test_local_checkpoint_resolved_via_config(self, tmp_path: Path):
"""Local checkpoint with config.json pointing to Qwen3.5 needs v5."""
config_cfg = {"model_name": "Qwen/Qwen3.5-9B"}
(tmp_path / "config.json").write_text(json.dumps(config_cfg))
# needs_transformers_5 only does substring matching, so test the
# full resolution chain via _resolve_base_model here.
resolved = _resolve_base_model(str(tmp_path))
assert needs_transformers_5(resolved) is True
# ---------------------------------------------------------------------------
# _check_config_needs_550 — config.json architecture/model_type check
# ---------------------------------------------------------------------------
class TestCheckConfigNeeds550:
"""Tests for _check_config_needs_550() local config.json checks."""
def setup_method(self):
_config_json_cache.clear()
_config_needs_550_cache.clear()
def test_gemma4_architecture(self, tmp_path: Path):
"""config.json with Gemma4ForConditionalGeneration should return True."""
cfg = {
"architectures": ["Gemma4ForConditionalGeneration"],
"model_type": "gemma4",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_550(str(tmp_path)) is True
def test_gemma4_model_type_only(self, tmp_path: Path):
"""config.json with model_type=gemma4 (no architectures) should return True."""
cfg = {"model_type": "gemma4"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_550(str(tmp_path)) is True
def test_llama_architecture(self, tmp_path: Path):
"""config.json with LlamaForCausalLM should return False."""
cfg = {"architectures": ["LlamaForCausalLM"], "model_type": "llama"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_550(str(tmp_path)) is False
def test_no_config_json(self, tmp_path: Path):
"""Missing config.json should return False (fail-open)."""
# Patch network call to avoid a real fetch.
with patch("urllib.request.urlopen") as mock_urlopen:
mock_urlopen.side_effect = Exception("no network")
assert _check_config_needs_550(str(tmp_path)) is False
def test_result_is_cached(self, tmp_path: Path):
"""Subsequent calls should use the cache."""
cfg = {"architectures": ["Gemma4ForConditionalGeneration"]}
(tmp_path / "config.json").write_text(json.dumps(cfg))
key = (str(tmp_path), None)
_check_config_needs_550(str(tmp_path))
assert key in _config_needs_550_cache
assert _config_needs_550_cache[key] is True
def test_local_file_skips_network(self, tmp_path: Path):
"""When local config.json exists, no network request should be made."""
cfg = {"architectures": ["LlamaForCausalLM"]}
(tmp_path / "config.json").write_text(json.dumps(cfg))
with patch("urllib.request.urlopen") as mock_urlopen:
_check_config_needs_550(str(tmp_path))
mock_urlopen.assert_not_called()
# ---------------------------------------------------------------------------
# _check_config_needs_510 — config.json architecture/model_type check
# ---------------------------------------------------------------------------
class TestCheckConfigNeeds510:
"""Tests for _check_config_needs_510() local config.json checks."""
def setup_method(self):
_config_json_cache.clear()
_config_needs_510_cache.clear()
def test_gemma4_unified_architecture(self, tmp_path: Path):
"""config.json with Gemma4UnifiedForConditionalGeneration should return True."""
cfg = {
"architectures": ["Gemma4UnifiedForConditionalGeneration"],
"model_type": "gemma4_unified",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_unified_model_type_only(self, tmp_path: Path):
"""config.json with model_type=gemma4_unified should return True."""
cfg = {"model_type": "gemma4_unified"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_unified_assistant_architecture(self, tmp_path: Path):
"""Assistant Gemma 4 Unified configs should return True."""
cfg = {
"architectures": ["Gemma4UnifiedAssistantForCausalLM"],
"model_type": "gemma4_unified_assistant",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_unified_assistant_model_type_only(self, tmp_path: Path):
"""Assistant Gemma 4 Unified model_type should return True."""
cfg = {"model_type": "gemma4_unified_assistant"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_assistant_architecture(self, tmp_path: Path):
"""Assistant Gemma 4 configs should return True."""
cfg = {
"architectures": ["Gemma4AssistantForCausalLM"],
"model_type": "gemma4_assistant",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_assistant_model_type_only(self, tmp_path: Path):
"""Assistant Gemma 4 model_type should return True."""
cfg = {"model_type": "gemma4_assistant"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is True
def test_gemma4_non_unified_returns_false(self, tmp_path: Path):
"""Older Gemma 4 config should stay on the 550 tier."""
cfg = {
"architectures": ["Gemma4ForConditionalGeneration"],
"model_type": "gemma4",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert _check_config_needs_510(str(tmp_path)) is False
def test_no_config_json(self, tmp_path: Path):
"""Missing config.json should return False (fail-open)."""
# Patch network call to avoid real fetch
with patch("urllib.request.urlopen") as mock_urlopen:
mock_urlopen.side_effect = Exception("no network")
assert _check_config_needs_510(str(tmp_path)) is False
def test_result_is_cached(self, tmp_path: Path):
"""Subsequent calls should use the cache."""
cfg = {"architectures": ["Gemma4UnifiedForConditionalGeneration"]}
(tmp_path / "config.json").write_text(json.dumps(cfg))
key = (str(tmp_path), None)
_check_config_needs_510(str(tmp_path))
assert key in _config_needs_510_cache
assert _config_needs_510_cache[key] is True
def test_local_file_skips_network(self, tmp_path: Path):
"""When local config.json exists, no network request should be made."""
cfg = {"architectures": ["LlamaForCausalLM"]}
(tmp_path / "config.json").write_text(json.dumps(cfg))
with patch("urllib.request.urlopen") as mock_urlopen:
_check_config_needs_510(str(tmp_path))
mock_urlopen.assert_not_called()
# ---------------------------------------------------------------------------
# NemotronH dense (MLP) models need the 5.10 tier
# ---------------------------------------------------------------------------
class TestNemotronHNeedsMlpSupport:
"""Dense NemotronH configs (MLP layers) require transformers >= 5.10."""
def test_hybrid_override_pattern_with_dash(self):
cfg = {
"model_type": "nemotron_h",
"hybrid_override_pattern": "M-M-M*-M-",
}
assert _nemotron_h_needs_mlp_support(cfg) is True
def test_layers_block_type_with_mlp(self):
cfg = {
"model_type": "nemotron_h",
"layers_block_type": ["mamba", "mlp", "attention", "mamba"],
}
assert _nemotron_h_needs_mlp_support(cfg) is True
def test_nemotron_h_moe_only_returns_false(self):
"""A pure MoE NemotronH (no MLP) does not need the 5.10 tier."""
cfg = {
"model_type": "nemotron_h",
"hybrid_override_pattern": "MEME*MEM",
}
assert _nemotron_h_needs_mlp_support(cfg) is False
def test_non_nemotron_with_dash_returns_false(self):
"""The dash heuristic only applies to nemotron_h configs."""
cfg = {"model_type": "llama", "hybrid_override_pattern": "M-M-"}
assert _nemotron_h_needs_mlp_support(cfg) is False
def test_config_needs_510_includes_dense_nemotron_h(self):
cfg = {
"model_type": "nemotron_h",
"hybrid_override_pattern": "M-M-M*-",
}
assert _config_needs_510(cfg) is True
def test_nested_llm_config_with_dash(self):
# VL wrapper (e.g. NemotronH_Nano_VL_V2): dense LM is under llm_config.
cfg = {
"model_type": "NemotronH_Nano_VL_V2",
"llm_config": {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"},
}
assert _nemotron_h_needs_mlp_support(cfg) is True
assert _config_needs_510(cfg) is True
def test_nested_text_config_with_mlp(self):
cfg = {
"model_type": "wrapper",
"text_config": {"model_type": "nemotron_h", "layers_block_type": ["mamba", "mlp"]},
}
assert _nemotron_h_needs_mlp_support(cfg) is True
def test_nested_non_nemotron_returns_false(self):
cfg = {"model_type": "wrapper", "llm_config": {"model_type": "llama"}}
assert _nemotron_h_needs_mlp_support(cfg) is False
def test_non_dict_and_missing_nested_do_not_raise(self):
assert _nemotron_h_needs_mlp_support(None) is False
assert _nemotron_h_needs_mlp_support({"model_type": "wrapper", "llm_config": None}) is False
def _hf_response(cfg: dict):
"""A urlopen() context-manager stand-in returning *cfg* as JSON bytes."""
class _Resp:
def __enter__(self):
return self
def __exit__(self, *a):
return False
def read(self):
return json.dumps(cfg).encode()
return _Resp()
class TestConfigJsonHfCacheFallback:
"""HF hub cache is consulted only offline or after a failed fetch (never stale online)."""
def setup_method(self):
_config_json_cache.clear()
@staticmethod
def _seed_cache(
hub: Path,
repo_id: str,
cfg: dict,
commit: str = "deadbeef",
):
repo = hub / ("models--" + repo_id.replace("/", "--"))
snap = repo / "snapshots" / commit
snap.mkdir(parents = True)
(snap / "config.json").write_text(json.dumps(cfg))
(repo / "refs").mkdir(parents = True)
(repo / "refs" / "main").write_text(commit)
def test_offline_reads_from_cache(self, tmp_path: Path, monkeypatch):
cfg = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "unsloth/NVIDIA-Nemotron-3-Nano-4B", cfg)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.setenv("HF_HUB_OFFLINE", "1")
with patch("urllib.request.urlopen") as mock_url:
assert _load_config_json("unsloth/NVIDIA-Nemotron-3-Nano-4B") == cfg
mock_url.assert_not_called()
def test_online_prefers_network_over_cache(self, tmp_path: Path, monkeypatch):
stale = {"model_type": "nemotron_h", "hybrid_override_pattern": "MMMM"}
fresh = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "org/model", stale)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
monkeypatch.delenv("TRANSFORMERS_OFFLINE", raising = False)
with patch("urllib.request.urlopen", return_value = _hf_response(fresh)):
assert _load_config_json("org/model") == fresh # network wins, not stale cache
def test_network_failure_falls_back_to_cache(self, tmp_path: Path, monkeypatch):
cfg = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "org/model", cfg)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
with patch("urllib.request.urlopen", side_effect = OSError("boom")):
assert _load_config_json("org/model") == cfg
def test_offline_uncached_returns_none(self, tmp_path: Path, monkeypatch):
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.setenv("HF_HUB_OFFLINE", "1")
with patch("urllib.request.urlopen") as mock_url:
assert _load_config_json("private/unknown") is None
mock_url.assert_not_called()
def test_helper_ignores_local_paths(self, tmp_path: Path):
# A filesystem path is not a repo id; never treat it as one.
assert _config_json_from_hf_cache(str(tmp_path)) is None
assert _config_json_from_hf_cache("plainname") is None
def test_no_refs_main_picks_newest_snapshot(self, tmp_path: Path, monkeypatch):
# No refs/main (commit-pinned downloads): lexicographic order would pick the older
# SHA; selection must follow mtime so the newest snapshot wins.
repo = tmp_path / "models--org--model"
old = repo / "snapshots" / "0000old"
new = repo / "snapshots" / "ffffnew"
old.mkdir(parents = True)
new.mkdir(parents = True)
(old / "config.json").write_text(json.dumps({"model_type": "stale"}))
(new / "config.json").write_text(json.dumps({"model_type": "fresh"}))
os.utime(old / "config.json", (1000, 1000))
os.utime(new / "config.json", (2000, 2000))
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
assert _config_json_from_hf_cache("org/model") == {"model_type": "fresh"}
def test_transient_failure_does_not_cache_fallback(self, tmp_path: Path, monkeypatch):
stale = {"model_type": "nemotron_h", "hybrid_override_pattern": "MMMM"}
fresh = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "org/model", stale)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
# Network fails -> serve the cached snapshot, but it must not be memoized.
with patch("urllib.request.urlopen", side_effect = OSError("boom")):
assert _load_config_json("org/model") == stale
# Connectivity returns: the next call must hit the network for the fresh config.
with patch("urllib.request.urlopen", return_value = _hf_response(fresh)):
assert _load_config_json("org/model") == fresh
def test_auth_failure_does_not_serve_cache(self, tmp_path: Path, monkeypatch):
import urllib.error
# config.json cached from an earlier authorized session; an unauthenticated 4xx
# must not be handed that private metadata.
cfg = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "private/model", cfg)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
for code in (401, 403, 404):
_config_json_cache.clear()
err = urllib.error.HTTPError("url", code, "denied", {}, None)
with patch("urllib.request.urlopen", side_effect = err):
assert _load_config_json("private/model") is None
def test_server_error_still_falls_back_to_cache(self, tmp_path: Path, monkeypatch):
import urllib.error
cfg = {"model_type": "nemotron_h", "hybrid_override_pattern": "M-M*-"}
self._seed_cache(tmp_path, "org/model", cfg)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
# A 5xx is transient, not an access decision: keep serving the cache.
err = urllib.error.HTTPError("url", 503, "busy", {}, None)
with patch("urllib.request.urlopen", side_effect = err):
assert _load_config_json("org/model") == cfg
class TestTierCheckTransientRetry:
"""tier-needs checks must not memoize a transient fetch fallback."""
def setup_method(self):
_config_json_cache.clear()
_config_needs_510_cache.clear()
_config_needs_550_cache.clear()
@staticmethod
def _seed_cache(
hub: Path,
repo_id: str,
cfg: dict,
commit: str = "deadbeef",
):
repo = hub / ("models--" + repo_id.replace("/", "--"))
snap = repo / "snapshots" / commit
snap.mkdir(parents = True)
(snap / "config.json").write_text(json.dumps(cfg))
(repo / "refs").mkdir(parents = True)
(repo / "refs" / "main").write_text(commit)
def test_transient_fallback_not_memoized_then_retries(self, tmp_path: Path, monkeypatch):
stale = {"model_type": "llama"} # does not need 510
fresh = {"architectures": ["Gemma4UnifiedForConditionalGeneration"]} # needs 510
self._seed_cache(tmp_path, "org/model", stale)
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
# Network blip -> serve the cache, but do NOT pin the tier result.
with patch("urllib.request.urlopen", side_effect = OSError("boom")):
assert _check_config_needs_510("org/model") is False
assert ("org/model", None) not in _config_needs_510_cache
# Connectivity returns: the next call re-fetches and sees the higher tier.
with patch("urllib.request.urlopen", return_value = _hf_response(fresh)):
assert _check_config_needs_510("org/model") is True
assert _config_needs_510_cache[("org/model", None)] is True # definitive read memoized
def test_definitive_network_read_is_memoized(self, tmp_path: Path, monkeypatch):
fresh = {"architectures": ["Gemma4ForConditionalGeneration"]} # needs 550
monkeypatch.setenv("HF_HUB_CACHE", str(tmp_path))
monkeypatch.delenv("HF_HUB_OFFLINE", raising = False)
with patch("urllib.request.urlopen", return_value = _hf_response(fresh)) as mock_url:
assert _check_config_needs_550("org/model") is True
assert _check_config_needs_550("org/model") is True
assert mock_url.call_count == 1 # second call served from the tier cache
class TestHigherTier:
def test_picks_stronger_tier(self):
assert _higher_tier("default", "510") == "510"
assert _higher_tier("530", "550") == "550"
assert _higher_tier("510", "default") == "510"
assert _higher_tier("default", "default") == "default"
# ---------------------------------------------------------------------------
# get_transformers_tier — tier detection
# ---------------------------------------------------------------------------
class TestGetTransformersTier:
"""Tests for get_transformers_tier() tiered version detection."""
def setup_method(self):
_tokenizer_class_cache.clear()
_config_json_cache.clear()
_config_needs_510_cache.clear()
_config_needs_550_cache.clear()
def test_gemma4_substring_returns_550(self):
assert get_transformers_tier("google/gemma-4-E2B-it") == "550"
def test_gemma4_12b_substring_returns_510(self):
assert get_transformers_tier("unsloth/gemma-4-12b-it") == "510"
def test_gemma4_assistant_substring_returns_510(self):
assert get_transformers_tier("google/gemma-4-E2B-it-assistant") == "510"
def test_gemma4_alt_substring_returns_550(self):
assert get_transformers_tier("unsloth/gemma4-E4B-it") == "550"
def test_gemma4_config_json_returns_550(self, tmp_path: Path):
"""Local checkpoint with Gemma4 architecture → 550."""
cfg = {
"architectures": ["Gemma4ForConditionalGeneration"],
"model_type": "gemma4",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert get_transformers_tier(str(tmp_path)) == "550"
def test_gemma4_unified_config_json_returns_510(self, tmp_path: Path):
"""Local checkpoint with Gemma4 Unified architecture → 510."""
cfg = {
"architectures": ["Gemma4UnifiedForConditionalGeneration"],
"model_type": "gemma4_unified",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert get_transformers_tier(str(tmp_path)) == "510"
def test_gemma4_assistant_config_json_returns_510(self, tmp_path: Path):
"""Local checkpoint with Gemma4 Assistant architecture → 510."""
cfg = {
"architectures": ["Gemma4AssistantForCausalLM"],
"model_type": "gemma4_assistant",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
assert get_transformers_tier(str(tmp_path)) == "510"
def test_dense_nemotron_h_config_json_returns_510(self, tmp_path: Path):
"""Local dense NemotronH checkpoint → 510 (MLP layers need >= 5.10)."""
cfg = {
"model_type": "nemotron_h",
"hybrid_override_pattern": "M-M-M*-M-",
}
(tmp_path / "config.json").write_text(json.dumps(cfg))
# A v5 tokenizer would otherwise route this to 530; 510 must win.
(tmp_path / "tokenizer_config.json").write_text(
json.dumps({"tokenizer_class": "TokenizersBackend"})
)
with patch("urllib.request.urlopen") as mock_urlopen:
assert get_transformers_tier(str(tmp_path)) == "510"
mock_urlopen.assert_not_called()
def test_dense_nemotron_h_remote_config_returns_510(self):
"""Remote dense NemotronH (HF id) → 510 via config.json fetch, not 530."""
class _Response:
def __enter__(self):
return self
def __exit__(self, exc_type, exc, tb):
return False
def read(self):
return json.dumps(
{
"model_type": "nemotron_h",
"hybrid_override_pattern": "M-M-M*-M-",
}
).encode()
with patch("urllib.request.urlopen", return_value = _Response()):
assert get_transformers_tier("unsloth/NVIDIA-Nemotron-3-Nano-4B") == "510"
def test_local_config_json_short_circuits_path_substrings(self, tmp_path: Path):
"""Local config.json should prevent false matches from parent directory names."""
model_dir = tmp_path / "gemma-4-12b-experiment" / "llama-checkpoint"
model_dir.mkdir(parents = True)
(model_dir / "config.json").write_text(
json.dumps(
{
"architectures": ["LlamaForCausalLM"],
"model_type": "llama",
}
)
)
(model_dir / "tokenizer_config.json").write_text(
json.dumps({"tokenizer_class": "LlamaTokenizerFast"})
)
with patch("urllib.request.urlopen") as mock_urlopen:
assert get_transformers_tier(str(model_dir)) == "default"
mock_urlopen.assert_not_called()
def test_remote_config_json_is_fetched_once_for_config_tiers(self):
"""510 and 550 slow-path checks should share one config.json fetch."""
class _Response:
def __enter__(self):
return self
def __exit__(self, exc_type, exc, tb):
return False
def read(self):
return json.dumps(
{
"architectures": ["Gemma4ForConditionalGeneration"],
"model_type": "gemma4",
}
).encode()
with patch("urllib.request.urlopen", return_value = _Response()) as mock_urlopen:
assert get_transformers_tier("org/no-fast-substring-model") == "550"
assert mock_urlopen.call_count == 1
def test_qwen35_returns_530(self):
with (
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
):
assert get_transformers_tier("Qwen/Qwen3.5-9B") == "530"
def test_ministral_returns_530(self):
with (
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
):
assert get_transformers_tier("mistralai/Ministral-3-8B-Instruct-2512") == "530"
def test_llama_returns_default(self):
with (
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
patch(
"utils.transformers_version._check_tokenizer_config_needs_v5",
return_value = False,
),
):
assert get_transformers_tier("meta-llama/Llama-3-8B") == "default"
def test_550_checked_before_530(self):
"""5.5.0 is checked before 5.3.0 - a model matching both gets 550."""
assert get_transformers_tier("gemma-4-model") == "550"
# ---- issue #6103: the tier decision must be traceable in the logs ----
def test_tier_550_selection_is_logged(self, caplog):
caplog.set_level(logging.INFO)
assert get_transformers_tier("google/gemma-4-E2B-it") == "550"
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "550" in text, f"tier selection not logged: {text!r}"
assert "gemma-4-e2b-it" in text, f"tier log omits the model: {text!r}"
def test_tier_530_selection_is_logged(self, caplog):
caplog.set_level(logging.INFO)
with patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
):
assert get_transformers_tier("Qwen/Qwen3.5-9B") == "530"
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "530" in text, f"tier selection not logged: {text!r}"
assert "qwen3.5-9b" in text, f"tier log omits the model: {text!r}"
def test_tier_default_selection_is_logged(self, caplog):
caplog.set_level(logging.INFO)
with (
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_tokenizer_config_needs_v5",
return_value = False,
),
):
assert get_transformers_tier("meta-llama/Llama-3-8B") == "default"
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "default" in text, f"tier selection not logged: {text!r}"
def test_local_config_json_selection_is_logged(self, tmp_path: Path, caplog):
cfg = {"architectures": ["Gemma4ForConditionalGeneration"], "model_type": "gemma4"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
caplog.set_level(logging.INFO)
assert get_transformers_tier(str(tmp_path)) == "550"
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "550" in text and "local config.json" in text, f"local tier not logged: {text!r}"
def test_needs_transformers_5_compat(self):
"""needs_transformers_5 should return True for 510, 530, and 550 models."""
assert needs_transformers_5("unsloth/gemma-4-12b-it") is True
assert needs_transformers_5("google/gemma-4-E2B-it") is True
with (
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
):
assert needs_transformers_5("Qwen/Qwen3.5-9B") is True
with (
patch(
"utils.transformers_version._check_config_needs_550",
return_value = False,
),
patch(
"utils.transformers_version._check_config_needs_510",
return_value = False,
),
patch(
"utils.transformers_version._check_tokenizer_config_needs_v5",
return_value = False,
),
):
assert needs_transformers_5("meta-llama/Llama-3-8B") is False
def _proc(returncode, stderr = ""):
from types import SimpleNamespace
return SimpleNamespace(returncode = returncode, stdout = "", stderr = stderr)
class TestProbeTier:
"""_probe_tier resolves the tier by parsing config in each sidecar and escalating."""
def setup_method(self):
_probe_tier_cache.clear()
def _patch_common(self, monkeypatch):
for fn in (
"_ensure_venv_t5_530_exists",
"_ensure_venv_t5_550_exists",
"_ensure_venv_t5_510_exists",
):
monkeypatch.setattr(f"utils.transformers_version.{fn}", lambda: True)
monkeypatch.delenv("UNSLOTH_DISABLE_TIER_PROBE", raising = False)
def _venv_dirs(self):
import utils.transformers_version as tv
return [tv._VENV_T5_530_DIR, tv._VENV_T5_550_DIR, tv._VENV_T5_510_DIR]
def test_escalates_to_first_parsing_tier(self, monkeypatch):
self._patch_common(monkeypatch)
seen = []
results = iter([_proc(1, "KeyError: '-'"), _proc(1, "KeyError: '-'"), _proc(0)])
def fake_run(cmd, **k):
seen.append(cmd[3]) # target_dir
return next(results)
monkeypatch.setattr("utils.transformers_version.subprocess.run", fake_run)
assert _probe_tier("org/dense-nemotron", None, "x") == "510"
assert seen == self._venv_dirs() # escalated 530 -> 550 -> 510
def test_first_success_stops_escalation(self, monkeypatch):
self._patch_common(monkeypatch)
calls = []
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: calls.append(cmd[3]) or _proc(0),
)
assert _probe_tier("org/m", None, "x") == "530"
assert len(calls) == 1
def test_middle_tier_parses(self, monkeypatch):
self._patch_common(monkeypatch)
results = iter([_proc(1, "ValueError: bad"), _proc(0)])
monkeypatch.setattr(
"utils.transformers_version.subprocess.run", lambda cmd, **k: next(results)
)
assert _probe_tier("org/m", None, "x") == "550"
def test_nothing_parses_stays_530_and_caches(self, monkeypatch):
# All tiers probed, none parse -> a remote-code model that loads via its own code;
# keep 530 (never jump to 510). Conclusive, so cached by model_name.
self._patch_common(monkeypatch)
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: _proc(1, "KeyError: '-'"),
)
assert _probe_tier("org/m", None, "x") == "530"
assert _probe_tier_cache["org/m"] == "530"
def test_partial_sidecars_no_parse_is_530_uncached(self, monkeypatch):
# 510 sidecar missing and 530/550 fail to parse -> environment is incomplete, so we
# cannot conclude; return 530 uncached so it is retried once 510 is available.
monkeypatch.delenv("UNSLOTH_DISABLE_TIER_PROBE", raising = False)
for fn in ("_ensure_venv_t5_530_exists", "_ensure_venv_t5_550_exists"):
monkeypatch.setattr(f"utils.transformers_version.{fn}", lambda: True)
monkeypatch.setattr("utils.transformers_version._ensure_venv_t5_510_exists", lambda: False)
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: _proc(1, "KeyError: '-'"),
)
assert _probe_tier("org/m", None, "x") == "530"
assert "org/m" not in _probe_tier_cache
def test_success_not_cached_when_lower_tier_skipped(self, monkeypatch):
# 530 sidecar unavailable but 550 parses: return 550 (best effort now) but do NOT
# cache it, since once 530 is installed it may be the lowest valid tier.
monkeypatch.delenv("UNSLOTH_DISABLE_TIER_PROBE", raising = False)
monkeypatch.setattr("utils.transformers_version._ensure_venv_t5_530_exists", lambda: False)
for fn in ("_ensure_venv_t5_550_exists", "_ensure_venv_t5_510_exists"):
monkeypatch.setattr(f"utils.transformers_version.{fn}", lambda: True)
monkeypatch.setattr("utils.transformers_version.subprocess.run", lambda cmd, **k: _proc(0))
assert _probe_tier("org/m", None, "x") == "550"
assert "org/m" not in _probe_tier_cache # skipped a lower tier -> not pinned
def test_cache_hit_skips_subprocess(self, monkeypatch):
self._patch_common(monkeypatch)
monkeypatch.setattr("utils.transformers_version.subprocess.run", lambda cmd, **k: _proc(0))
assert _probe_tier("org/m", None, "x") == "530"
def boom(cmd, **k):
raise AssertionError("should not re-probe a cached model_name")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert _probe_tier("org/m", None, "x") == "530"
def test_transient_failure_is_530_and_uncached(self, monkeypatch):
self._patch_common(monkeypatch)
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: _proc(1, "ConnectionError: Max retries exceeded"),
)
assert _probe_tier("org/m", None, "x") == "530"
assert "org/m" not in _probe_tier_cache # retried next load
def test_timeout_is_530_and_uncached(self, monkeypatch):
import subprocess as _sp
self._patch_common(monkeypatch)
def timeout(cmd, **k):
raise _sp.TimeoutExpired(cmd, 60)
monkeypatch.setattr("utils.transformers_version.subprocess.run", timeout)
assert _probe_tier("org/m", None, "x") == "530"
assert "org/m" not in _probe_tier_cache
def test_all_venvs_missing_is_530_no_spawn(self, monkeypatch):
for fn in (
"_ensure_venv_t5_530_exists",
"_ensure_venv_t5_550_exists",
"_ensure_venv_t5_510_exists",
):
monkeypatch.setattr(f"utils.transformers_version.{fn}", lambda: False)
def boom(cmd, **k):
raise AssertionError("no sidecar available; must not spawn")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert _probe_tier("org/m", None, "x") == "530"
assert "org/m" not in _probe_tier_cache # nothing probed -> uncached
def test_probe_does_not_import_hub(self, monkeypatch):
# The probe must not import huggingface_hub: that would land before the sidecar is on
# sys.path (activation never purges), pinning the default-env hub. So no in-process sha.
self._patch_common(monkeypatch)
monkeypatch.setattr("utils.transformers_version.subprocess.run", lambda cmd, **k: _proc(0))
sys.modules.pop("huggingface_hub", None)
_probe_tier("org/m", None, "x")
assert "huggingface_hub" not in sys.modules
def test_disable_flag_skips_probe(self, monkeypatch):
monkeypatch.setenv("UNSLOTH_DISABLE_TIER_PROBE", "1")
def boom(cmd, **k):
raise AssertionError("probe disabled; must not spawn")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert _probe_tier("org/m", None, "x") == "530"
def test_get_tier_uses_probe_for_remote_tokenizer_signal(self, monkeypatch):
# tokenizer says 5.x but no architecture/substring match -> probe (not a 530 guess).
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_510", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_550", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: True
)
monkeypatch.setattr("utils.transformers_version._probe_tier", lambda m, t, reason: "510")
assert get_transformers_tier("org/unknown-5x-arch") == "510"
def test_stderr_is_transient(self):
assert _stderr_is_transient("ConnectionError: x") is True
assert _stderr_is_transient("GatedRepoError: need token") is True
assert _stderr_is_transient("KeyError: '-'") is False
assert _stderr_is_transient("ValueError: bad pattern") is False
def test_get_tier_threads_token_to_checks(self, monkeypatch):
# A gated/private model: the token must reach the config/tokenizer checks (and the
# probe), otherwise the authed-only signal is missed and it falls to default 4.x.
seen = {}
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_510",
lambda m, t = None: seen.update({"510": t}) or False,
)
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_550",
lambda m, t = None: seen.update({"550": t}) or False,
)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5",
lambda m, t = None: seen.update({"tok": t}) or True,
)
monkeypatch.setattr(
"utils.transformers_version._probe_tier",
lambda m, t, reason: seen.update({"probe": t}) or "510",
)
assert get_transformers_tier("org/gated-5x", "hf_abc") == "510"
assert seen == {"510": "hf_abc", "550": "hf_abc", "tok": "hf_abc", "probe": "hf_abc"}
def test_activate_threads_token_to_tier(self, monkeypatch):
# activate_transformers_for_subprocess must forward hf_token to tier detection, or
# the gated-model checks above run unauthenticated and the fix is unreachable.
seen = {}
monkeypatch.setattr("utils.transformers_version._resolve_base_model", lambda m: m)
monkeypatch.setattr(
"utils.transformers_version.get_transformers_tier",
lambda m, t = None: seen.update({"model": m, "token": t}) or "default",
)
activate_transformers_for_subprocess("org/gated", "hf_xyz")
assert seen == {"model": "org/gated", "token": "hf_xyz"}
def test_local_checkpoint_reprobes_after_config_change(self, monkeypatch, tmp_path):
# A local checkpoint overwritten in place must re-probe: the cache key folds in the
# config.json signature, so a different config does not serve the stale tier.
self._patch_common(monkeypatch)
cfg = tmp_path / "config.json"
cfg.write_text(json.dumps({"model_type": "a"}))
local = str(tmp_path)
calls = []
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: calls.append(1) or _proc(0),
)
assert _probe_tier(local, None, "x") == "530"
assert _probe_tier(local, None, "x") == "530" # cache hit, no re-spawn
assert len(calls) == 1
cfg.write_text(json.dumps({"model_type": "a_longer_value_changing_the_size"}))
assert _probe_tier(local, None, "x") == "530"
assert len(calls) == 2 # signature changed -> re-probed
def test_probe_child_enables_implicit_token(self, monkeypatch):
# With a token, the probe child must clear an inherited HF_HUB_DISABLE_IMPLICIT_TOKEN=1
# so HF_TOKEN authenticates the gated config fetch instead of 401ing to 530.
self._patch_common(monkeypatch)
monkeypatch.setenv("HF_HUB_DISABLE_IMPLICIT_TOKEN", "1")
captured = {}
def fake_run(cmd, **k):
captured.update(k.get("env") or {})
return _proc(0)
monkeypatch.setattr("utils.transformers_version.subprocess.run", fake_run)
assert _probe_tier("org/gated", "secret-token", "x") == "530"
assert captured.get("HF_TOKEN") == "secret-token"
assert captured.get("HF_HUB_DISABLE_IMPLICIT_TOKEN") == "0"
class TestProbeGating:
"""probe=False suppresses sidecar probes (the log-only needs_transformers_5 path); a
config saved by transformers 5.x is probed default-first so a new 5.x-only arch is
caught without mis-routing a 4.57.x-loadable model onto a sidecar."""
def setup_method(self):
_probe_tier_cache.clear()
_config_json_cache.clear()
_config_needs_510_cache.clear()
_config_needs_550_cache.clear()
_tokenizer_class_cache.clear()
def _patch_venvs(self, monkeypatch):
for fn in (
"_ensure_venv_t5_530_exists",
"_ensure_venv_t5_550_exists",
"_ensure_venv_t5_510_exists",
):
monkeypatch.setattr(f"utils.transformers_version.{fn}", lambda: True)
monkeypatch.delenv("UNSLOTH_DISABLE_TIER_PROBE", raising = False)
def _patch_checks_to_tokenizer(self, monkeypatch):
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_510", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_550", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: True
)
# ---- needs_transformers_5 / probe=False must not spawn probes --------------
def test_needs_transformers_5_does_not_spawn_probe(self, monkeypatch):
self._patch_checks_to_tokenizer(monkeypatch)
def boom(cmd, **k):
raise AssertionError("needs_transformers_5 must not spawn a probe")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
# Still correctly reports 5.x from the tokenizer signal, just without probing.
assert needs_transformers_5("org/unknown-5x") is True
def test_probe_false_returns_530_for_tokenizer_signal(self, monkeypatch):
self._patch_checks_to_tokenizer(monkeypatch)
def boom(cmd, **k):
raise AssertionError("probe=False must not spawn a probe")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert get_transformers_tier("org/unknown-5x", probe = False) == "530"
# ---- version-field probe is default-first (no mis-routing of 4.x models) ----
def test_version_field_probe_stays_default_when_default_parses(self, monkeypatch):
self._patch_venvs(monkeypatch)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: False
)
_config_json_cache[("org/new", None)] = {
"model_type": "brandnew",
"transformers_version": "5.0.0",
}
seen = []
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: seen.append(cmd[3]) or _proc(0),
)
assert get_transformers_tier("org/new") == "default"
assert seen == [""] # probed the ambient default tier first, it parsed -> stayed default
def test_version_field_probe_escalates_when_default_fails(self, monkeypatch):
import utils.transformers_version as tv
self._patch_venvs(monkeypatch)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: False
)
_config_json_cache[("org/new", None)] = {
"model_type": "brandnew",
"transformers_version": "5.6.0",
}
results = iter([_proc(1, "KeyError: 'x'"), _proc(1, "KeyError: 'x'"), _proc(0)])
seen = []
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: seen.append(cmd[3]) or next(results),
)
assert get_transformers_tier("org/new") == "550"
assert seen == ["", tv._VENV_T5_530_DIR, tv._VENV_T5_550_DIR]
def test_ordinary_4x_config_does_not_probe(self, monkeypatch):
self._patch_venvs(monkeypatch)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: False
)
_config_json_cache[("org/llama", None)] = {
"model_type": "llama",
"transformers_version": "4.57.0",
}
def boom(cmd, **k):
raise AssertionError("a 4.x-saved config must not trigger a probe")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert get_transformers_tier("org/llama") == "default"
def test_needs_transformers_5_true_for_version_field_only(self, monkeypatch):
# A 5.x-saved standard-tokenizer model must report as 5.x (for vision routing)
# without spawning a probe.
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_510", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_config_needs_550", lambda m, t = None: False
)
monkeypatch.setattr(
"utils.transformers_version._check_tokenizer_config_needs_v5", lambda m, t = None: False
)
_config_json_cache[("org/new", None)] = {
"model_type": "brandnew",
"transformers_version": "5.2.0",
}
def boom(cmd, **k):
raise AssertionError("needs_transformers_5 must not spawn a probe")
monkeypatch.setattr("utils.transformers_version.subprocess.run", boom)
assert needs_transformers_5("org/new") is True
def test_default_first_result_not_reused_for_tokenizer_path(self, monkeypatch, tmp_path):
# A default-first probe can cache "default"; a later tokenizer/known-5.x call
# (floor=530) must re-probe, not reuse that "default".
self._patch_venvs(monkeypatch)
(tmp_path / "config.json").write_text(
json.dumps({"model_type": "brandnew", "transformers_version": "5.0.0"})
)
local = str(tmp_path)
monkeypatch.setattr("utils.transformers_version.subprocess.run", lambda cmd, **k: _proc(0))
assert (
_probe_tier(local, None, "version", include_default = True, floor = "default") == "default"
)
seen = []
monkeypatch.setattr(
"utils.transformers_version.subprocess.run",
lambda cmd, **k: seen.append(cmd[3]) or _proc(0),
)
# Tokenizer/known-5.x mode (floor=530): must re-probe and never reuse "default".
assert _probe_tier(local, None, "tokenizer needs 5.x") == "530"
assert seen, "tokenizer path reused the cached default result instead of re-probing"
class TestLocalCheckpointFilesAppear:
"""A local checkpoint dir inspected before its files exist must not cache the miss or hit
the network, so files written later in the same process are still read (in-progress
checkpoints)."""
def setup_method(self):
_tokenizer_class_cache.clear()
_config_json_cache.clear()
def test_tokenizer_config_appearing_later_is_read(self, tmp_path: Path, monkeypatch):
local = str(tmp_path)
def boom(*a, **k):
raise AssertionError("a local checkpoint must not be fetched from the Hub")
monkeypatch.setattr("urllib.request.urlopen", boom)
# Before the file exists: not 5.x, no network, and the miss must not be pinned.
assert _check_tokenizer_config_needs_v5(local) is False
# The file appears with a 5.x-only tokenizer -> the next call must read it.
(tmp_path / "tokenizer_config.json").write_text(
json.dumps({"tokenizer_class": "TokenizersBackend"})
)
assert _check_tokenizer_config_needs_v5(local) is True
def test_config_json_appearing_later_is_read(self, tmp_path: Path, monkeypatch):
local = str(tmp_path)
def boom(*a, **k):
raise AssertionError("a local checkpoint must not be fetched from the Hub")
monkeypatch.setattr("urllib.request.urlopen", boom)
assert _load_config_json(local) is None
(tmp_path / "config.json").write_text(json.dumps({"model_type": "gemma4"}))
assert _load_config_json(local) == {"model_type": "gemma4"}
# ---------------------------------------------------------------------------
# activate_transformers_for_subprocess — issue #6103
# The early log must make clear it only prepends to sys.path; the real
# confirmation comes later from "Subprocess loaded transformers X.X.X".
# ---------------------------------------------------------------------------
class TestActivateLoggingClarity:
"""issue #6103: 'Activated transformers' was misleading (path-prepend only)."""
def _snapshot_env(self):
return list(sys.path), os.environ.get("PYTHONPATH")
def _restore_env(self, snapshot):
saved_path, saved_pp = snapshot
sys.path[:] = saved_path
if saved_pp is None:
os.environ.pop("PYTHONPATH", None)
else:
os.environ["PYTHONPATH"] = saved_pp
def test_activate_550_log_clarifies_path_prepend_only(self, caplog):
caplog.set_level(logging.INFO)
snap = self._snapshot_env()
try:
with (
patch(
"utils.transformers_version._resolve_base_model",
side_effect = lambda m: m,
),
patch(
"utils.transformers_version.get_transformers_tier",
return_value = "550",
),
patch(
"utils.transformers_version._ensure_venv_t5_550_exists",
return_value = True,
),
):
activate_transformers_for_subprocess("google/gemma-4-E2B-it")
finally:
self._restore_env(snap)
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "5.5.0" in text, f"version not logged: {text!r}"
# Must signal this is only a sys.path manipulation, not a confirmed import.
assert (
"sys.path" in text or "path only" in text
), f"early activation log does not clarify it is path-prepend only: {text!r}"
def test_activate_530_log_clarifies_path_prepend_only(self, caplog):
caplog.set_level(logging.INFO)
snap = self._snapshot_env()
try:
with (
patch(
"utils.transformers_version._resolve_base_model",
side_effect = lambda m: m,
),
patch(
"utils.transformers_version.get_transformers_tier",
return_value = "530",
),
patch(
"utils.transformers_version._ensure_venv_t5_530_exists",
return_value = True,
),
):
activate_transformers_for_subprocess("Qwen/Qwen3.5-9B")
finally:
self._restore_env(snap)
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "5.3.0" in text, f"version not logged: {text!r}"
assert (
"sys.path" in text or "path only" in text
), f"early activation log does not clarify it is path-prepend only: {text!r}"
def test_activate_prefers_local_checkpoint_tier_over_resolved_base(self, caplog, tmp_path):
# Base resolves to an offline/private id (default tier); the local config.json wins.
(tmp_path / "config.json").write_text(json.dumps({"model_type": "llama"}))
local = str(tmp_path)
caplog.set_level(logging.INFO)
snap = self._snapshot_env()
tiers = {local: "510", "private/base": "default"}
try:
with (
patch(
"utils.transformers_version._resolve_base_model",
return_value = "private/base",
),
patch(
"utils.transformers_version.get_transformers_tier",
side_effect = lambda m, t = None: tiers[m],
),
patch(
"utils.transformers_version._ensure_venv_t5_510_exists",
return_value = True,
),
):
activate_transformers_for_subprocess(local)
finally:
self._restore_env(snap)
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "5.10.2" in text, f"local checkpoint tier did not win: {text!r}"
def test_activate_adapter_without_config_skips_path_name_recheck(self, caplog, tmp_path):
# LoRA adapter in a dir named 'gemma-4' (base resolves elsewhere): the resolved
# base drives the tier; the path name must not re-check or upgrade it.
adapter = tmp_path / "gemma-4-experiment" / "llama-lora"
adapter.mkdir(parents = True)
(adapter / "adapter_config.json").write_text(
json.dumps({"base_model_name_or_path": "meta/llama"})
)
local = str(adapter)
caplog.set_level(logging.INFO)
snap = self._snapshot_env()
seen = []
def fake_tier(m, t = None):
seen.append(m)
return "550" if "gemma-4" in m else "default"
try:
with (
patch(
"utils.transformers_version._resolve_base_model",
return_value = "meta/llama",
),
patch(
"utils.transformers_version.get_transformers_tier",
side_effect = fake_tier,
),
):
activate_transformers_for_subprocess(local)
finally:
self._restore_env(snap)
assert seen == ["meta/llama"], f"adapter path was re-checked via substrings: {seen!r}"
text = " ".join(r.getMessage() for r in caplog.records).lower()
assert "default transformers" in text, f"adapter wrongly upgraded: {text!r}"
# ---------------------------------------------------------------------------
# _venv_dir_is_valid — issue #6103
# A version mismatch triggers a full wipe + reinstall, so it must be logged
# at WARNING (not INFO) so the reinstall is visible.
# ---------------------------------------------------------------------------
class TestVenvDirIsValidLogging:
def _make_venv(self, venv_dir: Path, pkg: str, version: str):
"""Create a fake target-dir install of *pkg* at *version*."""
(venv_dir / pkg).mkdir(parents = True)
di = venv_dir / f"{pkg}-{version}.dist-info"
di.mkdir()
(di / "METADATA").write_text(f"Name: {pkg}\nVersion: {version}\n")
def test_version_mismatch_logged_at_warning(self, tmp_path: Path, caplog):
venv_dir = tmp_path / "venv"
self._make_venv(venv_dir, "transformers", "5.0.0") # wrong version
caplog.set_level(logging.INFO)
result = _venv_dir_is_valid(str(venv_dir), ("transformers==5.3.0",))
assert result is False
warnings = [r for r in caplog.records if r.levelno >= logging.WARNING]
assert warnings, (
"version mismatch must be logged at WARNING; got: "
f"{[(r.levelname, r.getMessage()) for r in caplog.records]!r}"
)
joined = " ".join(r.getMessage() for r in warnings)
assert (
"5.0.0" in joined and "5.3.0" in joined
), f"mismatch log omits the versions: {joined!r}"
def test_correct_version_does_not_warn(self, tmp_path: Path, caplog):
venv_dir = tmp_path / "venv"
self._make_venv(venv_dir, "transformers", "5.3.0") # correct version
caplog.set_level(logging.INFO)
result = _venv_dir_is_valid(str(venv_dir), ("transformers==5.3.0",))
assert result is True
assert not [
r for r in caplog.records if r.levelno >= logging.WARNING
], "no warning expected when the installed version matches"
# ---------------------------------------------------------------------------
# _ensure_venv_dir — issue #6103
# A slow runtime install must log each package as it starts, otherwise it
# looks like a hang.
# ---------------------------------------------------------------------------
class TestEnsureVenvDirProgressLogging:
def test_logs_each_package_with_progress(self, tmp_path: Path, caplog):
installed = []
caplog.set_level(logging.INFO)
with (
patch(
"utils.transformers_version._venv_dir_is_valid",
return_value = False,
),
patch(
"utils.transformers_version._install_to_dir",
side_effect = lambda pkg, d: (installed.append(pkg), True)[1],
),
):
ok = _ensure_venv_dir(
str(tmp_path / "venv"),
("transformers==5.3.0", "tokenizers==0.21.0"),
"transformers 5.3.0",
)
assert ok is True
assert installed == ["transformers==5.3.0", "tokenizers==0.21.0"]
msgs = " ".join(r.getMessage() for r in caplog.records)
assert "transformers==5.3.0" in msgs, f"first package not logged: {msgs!r}"
assert "tokenizers==0.21.0" in msgs, f"second package not logged: {msgs!r}"
# progress counter present so a slow install is not mistaken for a hang
assert "1/2" in msgs and "2/2" in msgs, f"progress count missing: {msgs!r}"
def test_no_install_logging_when_venv_already_valid(self, tmp_path: Path, caplog):
caplog.set_level(logging.INFO)
with (
patch(
"utils.transformers_version._venv_dir_is_valid",
return_value = True,
),
patch(
"utils.transformers_version._install_to_dir",
) as mock_install,
):
ok = _ensure_venv_dir(
str(tmp_path / "venv"),
("transformers==5.3.0",),
"transformers 5.3.0",
)
assert ok is True
mock_install.assert_not_called()
assert "Installing" not in " ".join(r.getMessage() for r in caplog.records)
# ---------------------------------------------------------------------------
# _tier_from_name — shared name-based detection helper
# ---------------------------------------------------------------------------
class TestTierFromName:
"""Unit tests for _tier_from_name(), which backs both the fast substring
path and the config _name_or_path fallback."""
def test_returns_none_for_unknown(self):
assert _tier_from_name("meta-llama/Llama-3-8B") is None
def test_gemma4_returns_550(self):
tier, _ = _tier_from_name("google/gemma-4-E2B-it")
assert tier == "550"
def test_gemma4_assistant_returns_510(self):
tier, match = _tier_from_name("google/gemma-4-E2B-it-assistant")
assert tier == "510"
assert "assistant" in match
def test_gemma4_12b_returns_510(self):
tier, _ = _tier_from_name("unsloth/gemma-4-12b-it")
assert tier == "510"
def test_qwen35_returns_530(self):
tier, match = _tier_from_name("Qwen/Qwen3.5-7B")
assert tier == "530"
assert "qwen3.5" in match
def test_ministral3_returns_530(self):
# The existing substring "ministral-3-" matches the 2512 naming style.
tier, _ = _tier_from_name("mistralai/Ministral-3-8B-Instruct-2512")
assert tier == "530"
def test_qwen3_moe_substring_returns_530(self):
tier, _ = _tier_from_name("Qwen/Qwen3-30B-A3B-Instruct-2507")
assert tier == "530"
def test_510_beats_550(self):
"""gemma-4-12b matches 510 (checked first), not 550."""
tier, _ = _tier_from_name("google/gemma-4-12b-it")
assert tier == "510"
def test_550_beats_530(self):
"""gemma-4 matches 550, not 530."""
tier, _ = _tier_from_name("gemma-4-model")
assert tier == "550"
# ---------------------------------------------------------------------------
# Local-folder tier detection via config.json
#
# When a local checkpoint's config.json architecture/model_type matches a known
# sidecar set, that's the authoritative answer. When it doesn't match (unknown
# or future family), the HF model ID from _name_or_path / model_name in the
# config is run through the same name-based rules so renamed folders are still
# routed correctly without introducing path false-positives.
# ---------------------------------------------------------------------------
class TestLocalConfig530Tier:
def setup_method(self):
_config_json_cache.clear()
_tokenizer_class_cache.clear()
_config_needs_530_cache.clear()
# --- config-set matches -------------------------------------------------
def test_config_needs_530_qwen3_5_model_type(self):
assert _config_needs_530({"model_type": "qwen3_5"}) is True
def test_config_needs_530_qwen3_5_conditional_generation(self):
assert _config_needs_530({"architectures": ["Qwen3_5ForConditionalGeneration"]}) is True
def test_config_needs_530_qwen3_moe(self):
assert _config_needs_530({"model_type": "qwen3_moe"}) is True
def test_config_needs_530_glm4_moe_lite(self):
assert _config_needs_530({"model_type": "glm4_moe_lite"}) is True
def test_config_needs_530_lfm2_vl(self):
assert _config_needs_530({"model_type": "lfm2_vl"}) is True
def test_config_needs_530_qwen3_5_moe(self):
"""Qwen3.5 MoE (Qwen3.5-35B-A3B / 122B-A10B) uses qwen3_5_moe ids."""
assert (
_config_needs_530(
{
"model_type": "qwen3_5_moe",
"architectures": ["Qwen3_5MoeForConditionalGeneration"],
}
)
is True
)
def test_config_needs_530_qwen3_next(self):
assert (
_config_needs_530(
{"model_type": "qwen3_next", "architectures": ["Qwen3NextForCausalLM"]}
)
is True
)
def test_config_needs_530_qwen3_5_text_towers(self):
"""Text-tower configs (architectures may be stripped) still need 5.3.0."""
assert _config_needs_530({"model_type": "qwen3_5_text"}) is True
assert _config_needs_530({"model_type": "qwen3_5_moe_text"}) is True
def test_config_needs_530_plain_qwen3_is_false(self):
"""Regular Qwen3 (non-MoE, non-3.5) must not be promoted to 5.3.0."""
assert _config_needs_530({"model_type": "qwen3"}) is False
def test_tier_local_qwen35_config_selects_530(self, tmp_path: Path):
"""Reported case: a local Qwen3.5 folder routes to 530 via config.json."""
d = tmp_path / "Qwen3.5-2B"
d.mkdir()
(d / "config.json").write_text(json.dumps({"model_type": "qwen3_5"}))
assert get_transformers_tier(str(d)) == "530"
def test_tier_local_qwen3_moe_config_selects_530(self, tmp_path: Path):
"""Local Qwen3 MoE checkpoint routes to 530 via config.json."""
d = tmp_path / "my-qwen3-moe"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"model_type": "qwen3_moe", "architectures": ["Qwen3MoeForCausalLM"]})
)
assert get_transformers_tier(str(d)) == "530"
def test_tier_local_glm4_moe_lite_config_selects_530(self, tmp_path: Path):
"""Local GLM-4.7-Flash checkpoint routes to 530 via config.json."""
d = tmp_path / "my-glm-model"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"model_type": "glm4_moe_lite", "architectures": ["Glm4MoeLiteForCausalLM"]})
)
assert get_transformers_tier(str(d)) == "530"
def test_tier_local_lfm2_vl_config_selects_530(self, tmp_path: Path):
"""Local LFM2.5-VL checkpoint routes to 530 via config.json."""
d = tmp_path / "my-liquid-model"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{"model_type": "lfm2_vl", "architectures": ["Lfm2VlForConditionalGeneration"]}
)
)
assert get_transformers_tier(str(d)) == "530"
def test_tier_local_qwen35_moe_config_selects_530(self, tmp_path: Path):
"""A renamed Qwen3.5 MoE folder (no name hint) routes to 530 via config."""
d = tmp_path / "my-custom-moe"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "qwen3_5_moe",
"architectures": ["Qwen3_5MoeForConditionalGeneration"],
}
)
)
assert get_transformers_tier(str(d)) == "530"
# --- Qwen3.6 reuses Qwen3.5 config ids but routes to 550 by name ---------
def test_local_qwen36_config_keeps_550_name_tier(self, tmp_path: Path):
"""Qwen3.6 config carries qwen3_5 ids; a higher-tier name match wins."""
d = tmp_path / "Qwen3.6-27B"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{"model_type": "qwen3_5", "architectures": ["Qwen3_5ForConditionalGeneration"]}
)
)
assert get_transformers_tier(str(d)) == "550"
def test_local_qwen36_moe_via_name_or_path_keeps_550(self, tmp_path: Path):
"""Renamed Qwen3.6 MoE folder: _name_or_path carries the 5.5 name signal."""
d = tmp_path / "renamed-q36-moe"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "qwen3_5_moe",
"architectures": ["Qwen3_5MoeForConditionalGeneration"],
"_name_or_path": "Qwen/Qwen3.6-35B-A3B",
}
)
)
assert get_transformers_tier(str(d)) == "550"
def test_stale_absolute_name_or_path_not_promoted(self, tmp_path: Path):
"""A non-5.x checkpoint with a stale absolute _name_or_path isn't name-matched."""
d = tmp_path / "my-llama-ckpt"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"model_type": "llama", "_name_or_path": "/old/run/qwen3.5-source"})
)
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5", return_value = False
):
assert get_transformers_tier(str(d)) == "default"
# --- _name_or_path fallback ---------------------------------------------
def test_renamed_folder_falls_back_to_hf_id_in_config(self, tmp_path: Path):
"""A renamed local folder with an unrecognised model_type but a known
HF ID in _name_or_path still routes to the correct tier."""
d = tmp_path / "my-custom-name"
d.mkdir()
# Simulate a future/unknown model_type; the HF ID carries the tier signal.
(d / "config.json").write_text(
json.dumps(
{
"model_type": "future_unknown_type",
"_name_or_path": "Qwen/Qwen3.5-7B",
}
)
)
assert get_transformers_tier(str(d)) == "530"
def test_hf_id_fallback_respects_550_tier(self, tmp_path: Path):
"""_name_or_path pointing to a Gemma-4 HF ID routes to 550."""
d = tmp_path / "renamed-gemma"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "future_unknown_type",
"_name_or_path": "google/gemma-4-E2B-it",
}
)
)
assert get_transformers_tier(str(d)) == "550"
def test_hf_id_fallback_skipped_when_same_as_path(self, tmp_path: Path):
"""If _name_or_path equals the model path, skip the name fallback to
avoid false positives from self-referencing configs."""
d = tmp_path / "qwen3.5-experiment"
d.mkdir()
# _name_or_path is the local path itself (e.g. saved via save_pretrained)
(d / "config.json").write_text(
json.dumps(
{
"model_type": "llama",
"_name_or_path": str(d),
}
)
)
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5", return_value = False
):
# "qwen3.5" is in the path but config says llama and _name_or_path
# is self-referencing — must not be promoted to 530.
assert get_transformers_tier(str(d)) == "default"
def test_hf_id_fallback_not_triggered_when_name_or_path_is_absolute_self(self, tmp_path: Path):
"""_name_or_path == absolute path of the same checkpoint while model_name
is a relative path: the two strings differ, but both point to the same
directory. The absolute path must not be scanned for tier substrings."""
d = tmp_path / "qwen3.5-experiment"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "llama",
# absolute path — textually different from a relative model_name
"_name_or_path": str(d),
}
)
)
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5", return_value = False
):
# Even though str(d) contains "qwen3.5", the local-dir branch recurses
# into config checks on the resolved path, which returns default.
assert get_transformers_tier(str(d)) == "default"
# --- false-positive guard -----------------------------------------------
def test_tier_local_plain_model_still_default(self, tmp_path: Path):
"""A local non-5.x checkpoint returns default; the directory-name
false-positive guard is preserved."""
d = tmp_path / "checkpoint-1000"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"architectures": ["LlamaForCausalLM"], "model_type": "llama"})
)
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5",
return_value = False,
):
assert get_transformers_tier(str(d)) == "default"
# ---------------------------------------------------------------------------
# _check_config_needs_530 — slow HF-ID path (network stub)
# ---------------------------------------------------------------------------
class TestCheckConfigNeeds530:
"""_check_config_needs_530 is used in the slow HF-ID fallback path for
private or renamed repos whose names don't contain a 5.3 substring."""
def setup_method(self):
_config_json_cache.clear()
_config_needs_530_cache.clear()
def test_returns_true_for_qwen3_5_model_type(self):
with patch(
"utils.transformers_version._load_config_json",
return_value = {"model_type": "qwen3_5"},
):
assert _check_config_needs_530("some-private/qwen3.5-variant") is True
def test_returns_true_for_qwen3_moe_architecture(self):
with patch(
"utils.transformers_version._load_config_json",
return_value = {"architectures": ["Qwen3MoeForCausalLM"]},
):
assert _check_config_needs_530("org/private-moe-model") is True
def test_returns_false_for_llama(self):
with patch(
"utils.transformers_version._load_config_json",
return_value = {"model_type": "llama", "architectures": ["LlamaForCausalLM"]},
):
assert _check_config_needs_530("meta-llama/Llama-3-8B") is False
def test_returns_false_when_config_unavailable(self):
with patch("utils.transformers_version._load_config_json", return_value = None):
assert _check_config_needs_530("org/unreachable-model") is False
def test_result_is_cached(self, tmp_path: Path):
"""A definitive (local) read is cached by (model, token), mirroring 510/550."""
cfg = {"model_type": "qwen3_5"}
(tmp_path / "config.json").write_text(json.dumps(cfg))
key = (str(tmp_path), None)
_check_config_needs_530(str(tmp_path))
assert key in _config_needs_530_cache
assert _config_needs_530_cache[key] is True
# ---------------------------------------------------------------------------
# _norm_separators
# ---------------------------------------------------------------------------
class TestNormSeparators:
def test_underscore_to_hyphen(self):
assert _norm_separators("qwen3_5") == "qwen3-5"
def test_dot_preserved(self):
assert _norm_separators("qwen3.5") == "qwen3.5"
def test_hyphen_unchanged(self):
assert _norm_separators("gemma-4") == "gemma-4"
def test_mixed(self):
assert _norm_separators("Qwen3_5.MoE") == "Qwen3-5.MoE"
def test_whitespace_to_hyphen(self):
assert _norm_separators("some model") == "some-model"
def test_empty(self):
assert _norm_separators("") == ""
# ---------------------------------------------------------------------------
# _tier_from_name — separator-insensitive matching
# ---------------------------------------------------------------------------
class TestTierFromNameSeparatorNorm:
"""Verify that underscore/dot aliases in model IDs resolve to the same
tier as their canonical hyphen/dot counterparts."""
def test_qwen3_underscore_5_returns_530(self):
tier, _ = _tier_from_name("Qwen/Qwen3_5-7B")
assert tier == "530"
def test_qwen3_next_underscore_returns_530(self):
tier, _ = _tier_from_name("org/Qwen3_Next-14B")
assert tier == "530"
def test_gemma_4_underscore_returns_550(self):
tier, _ = _tier_from_name("google/gemma_4_E2B_it")
assert tier == "550"
def test_gemma_4_12b_underscore_returns_510(self):
tier, _ = _tier_from_name("unsloth/gemma_4_12b_it")
assert tier == "510"
def test_canonical_dot_still_works(self):
tier, _ = _tier_from_name("Qwen/Qwen3.5-7B")
assert tier == "530"
def test_unrelated_underscores_not_promoted(self):
assert _tier_from_name("meta_llama/Llama_3_8B") is None
def test_qwen3_hyphen_6_size_not_promoted(self):
"""Qwen3-6B is a size name, not the qwen3.6 release line."""
assert _tier_from_name("Qwen/Qwen3-6B-Instruct") is None
def test_qwen3_hyphen_5_size_not_promoted(self):
assert _tier_from_name("Qwen/Qwen3-5B") is None
# ---------------------------------------------------------------------------
# _resolve_base_model — model_name-then-_name_or_path fallback
# ---------------------------------------------------------------------------
class TestResolveBaseModelNameOrPathFallback:
"""When config.json has both 'model_name' (self-referential local path) and
'_name_or_path' (original HF ID), _resolve_base_model must use _name_or_path."""
def test_name_or_path_used_when_model_name_is_self_ref(self, tmp_path: Path):
d = tmp_path / "my-qwen35-finetune"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_name": str(d),
"_name_or_path": "Qwen/Qwen3.5-7B",
}
)
)
assert _resolve_base_model(str(d)) == "Qwen/Qwen3.5-7B"
def test_model_name_used_when_not_self_ref(self, tmp_path: Path):
d = tmp_path / "adapter"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_name": "unsloth/Qwen3.5-7B-bnb-4bit",
"_name_or_path": "Qwen/Qwen3.5-7B",
}
)
)
# model_name is not the local path, so it wins
assert _resolve_base_model(str(d)) == "unsloth/Qwen3.5-7B-bnb-4bit"
def test_tier_resolved_via_name_or_path_when_model_name_self_refs(self, tmp_path: Path):
"""End-to-end: get_transformers_tier picks up the sidecar tier from
_name_or_path even when model_name is set to the checkpoint's own path."""
d = tmp_path / "my-custom-finetune"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "future_unknown_type",
"model_name": str(d),
"_name_or_path": "Qwen/Qwen3.5-7B",
}
)
)
assert get_transformers_tier(str(d)) == "530"
def test_local_config_tier_not_bypassed_by_private_name_or_path(self, tmp_path: Path):
"""Full checkpoint with model_type: qwen3_5 must still route to 530 even
when _name_or_path is a private HF ID with no recognisable tier substring.
Regression guard: before the adapter-only pre-resolve fix,
activate_transformers_for_subprocess would resolve to the private HF ID
and then fail to probe it offline, returning default instead of 530.
"""
d = tmp_path / "my-finetuned-model"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "qwen3_5",
"model_name": str(d),
"_name_or_path": "my-org/private-custom-id",
}
)
)
# get_transformers_tier reads config.json directly and returns 530
# without needing to probe the private HF ID.
assert get_transformers_tier(str(d)) == "530"
# ---------------------------------------------------------------------------
# adapter_model-only LoRA resolution (no adapter_config.json)
# ---------------------------------------------------------------------------
class TestAdapterModelOnlyLoRA:
"""A LoRA dir with adapter_model*.safetensors but no adapter_config.json must
still be detected as an adapter and resolved to its base model so the worker
activates the base model's sidecar instead of tiering off the adapter folder."""
def test_has_adapter_weights_detects_safetensors_and_bin(self, tmp_path: Path):
d = tmp_path / "adapter"
d.mkdir()
assert _has_adapter_weights(d) is False
(d / "adapter_model.safetensors").write_text("")
assert _has_adapter_weights(d) is True
d2 = tmp_path / "adapter_bin"
d2.mkdir()
(d2 / "adapter_model.bin").write_text("")
assert _has_adapter_weights(d2) is True
def test_is_lora_adapter_dir_for_config_and_weights_only(self, tmp_path: Path):
# adapter_config.json present
a = tmp_path / "cfg"
a.mkdir()
(a / "adapter_config.json").write_text("{}")
assert _is_lora_adapter_dir(a) is True
# adapter_model weights only, no config
b = tmp_path / "weights_only"
b.mkdir()
(b / "adapter_model.safetensors").write_text("")
assert _is_lora_adapter_dir(b) is True
# plain checkpoint dir (neither)
c = tmp_path / "plain"
c.mkdir()
(c / "config.json").write_text("{}")
assert _is_lora_adapter_dir(c) is False
# not a directory
assert _is_lora_adapter_dir(tmp_path / "missing") is False
def test_resolve_adapter_only_lora_via_unsloth_dir_name(self, tmp_path: Path):
"""adapter_model-only LoRA with the unsloth_<model>_<ts> naming resolves to
unsloth/<model> through the import-light directory-name parse."""
d = tmp_path / "unsloth_Qwen3.5-7B_20260620"
d.mkdir()
(d / "adapter_model.safetensors").write_text("")
assert _resolve_base_model(str(d)) == "unsloth/Qwen3.5-7B"
def test_activation_pre_resolves_adapter_only_lora(self, tmp_path: Path):
"""Regression: activate_transformers_for_subprocess must pre-resolve an
adapter_model-only LoRA dir (weights present, adapter_config.json absent).
Before the gate used _is_lora_adapter_dir, the adapter_config-only check
skipped resolution and the worker tiered off the adapter folder itself."""
d = tmp_path / "my-custom-lora"
d.mkdir()
(d / "adapter_model.safetensors").write_text("")
snap = (list(sys.path), os.environ.get("PYTHONPATH"))
try:
with (
patch(
"utils.transformers_version._resolve_base_model",
side_effect = lambda m: m,
) as mock_resolve,
patch(
"utils.transformers_version.get_transformers_tier",
return_value = "default",
),
):
activate_transformers_for_subprocess(str(d))
finally:
sys.path[:] = snap[0]
if snap[1] is None:
os.environ.pop("PYTHONPATH", None)
else:
os.environ["PYTHONPATH"] = snap[1]
mock_resolve.assert_called_once_with(str(d))
# ---------------------------------------------------------------------------
# 530-config override must not be flipped by stale local path hints
# ---------------------------------------------------------------------------
class TestConfig530OverrideGuard:
"""A correct 530 config must not be flipped to 550 by a 5.5-looking substring in
a stale/renamed local path; only a real Hub id or the folder basename may override."""
def test_stale_local_path_does_not_flip_530_to_550(self, tmp_path: Path):
d = tmp_path / "my-qwen35-run"
d.mkdir()
(d / "config.json").write_text(
json.dumps(
{
"model_type": "qwen3_5",
"_name_or_path": "/old/run/qwen3.6-source",
}
)
)
# Stale path is not a Hub id, so the 530 config wins over its qwen3.6 substring.
assert get_transformers_tier(str(d)) == "530"
def test_current_basename_can_still_override_to_550(self, tmp_path: Path):
d = tmp_path / "Qwen3.6-27B"
d.mkdir()
# Qwen3.6 reuses the qwen3_5 config id but is a 5.5 model by name.
(d / "config.json").write_text(
json.dumps({"model_type": "qwen3_5", "_name_or_path": str(d)})
)
assert get_transformers_tier(str(d)) == "550"
def test_real_hub_id_can_still_override_to_550(self, tmp_path: Path):
d = tmp_path / "my-finetune"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"model_type": "qwen3_5", "_name_or_path": "Qwen/Qwen3.6-27B"})
)
assert get_transformers_tier(str(d)) == "550"
def test_remote_qwen36_name_or_path_overrides_530(self):
"""Slow path: a fetched qwen3_5 config naming Qwen3.6 in _name_or_path -> 550."""
_config_needs_530_cache.clear()
_config_json_cache.clear()
with patch(
"utils.transformers_version._load_config_json",
return_value = {"model_type": "qwen3_5", "_name_or_path": "Qwen/Qwen3.6-27B"},
):
assert get_transformers_tier("private/renamed-q36") == "550"
class TestLooksLikeHfId:
def test_empty_and_whitespace_are_not_ids(self):
assert _looks_like_hf_id("") is False
assert _looks_like_hf_id(" ") is False
def test_plain_hub_id(self):
assert _looks_like_hf_id("Qwen/Qwen3.5-7B") is True
def test_absolute_and_dot_paths_are_not_ids(self):
assert _looks_like_hf_id("/old/run/qwen3.5-source") is False
assert _looks_like_hf_id("./qwen3.5-source") is False
def test_existing_local_path_is_not_an_id(self, tmp_path: Path):
d = tmp_path / "Qwen3.5-7B"
d.mkdir()
import os as _os
cwd = _os.getcwd()
try:
_os.chdir(tmp_path)
# "Qwen3.5-7B" exists relative to cwd, so it is a path, not a Hub id.
assert _looks_like_hf_id("Qwen3.5-7B") is False
finally:
_os.chdir(cwd)
class TestMalformedInputRobustness:
"""Tier detection fails open to default instead of crashing on bad input."""
def setup_method(self):
_config_json_cache.clear()
_config_needs_530_cache.clear()
def test_non_string_model_type_does_not_crash(self):
assert _config_needs_530({"model_type": ["qwen3_5"]}) is False
def test_non_list_architectures_does_not_crash(self):
assert _config_needs_530({"architectures": "Qwen3_5ForCausalLM"}) is False
def test_local_config_non_string_fields_returns_default(self, tmp_path: Path):
d = tmp_path / "weird"
d.mkdir()
(d / "config.json").write_text(
json.dumps({"model_type": ["qwen3_5"], "_name_or_path": {"x": 1}})
)
with patch(
"utils.transformers_version._check_tokenizer_config_needs_v5", return_value = False
):
assert get_transformers_tier(str(d)) == "default"
def test_pathological_long_name_does_not_crash(self):
# An over-long name makes is_file() raise OSError; must fail open.
assert get_transformers_tier("x" * 5000) == "default"
def test_empty_name_returns_default(self):
assert get_transformers_tier("") == "default"
# ---------------------------------------------------------------------------
# Offline negatives must not poison the version caches (persistent worker)
# ---------------------------------------------------------------------------
class TestOfflineCacheNotPoisoned:
"""An offline first load must not leave a stale negative for a later online read."""
def setup_method(self):
_tokenizer_class_cache.clear()
_config_json_cache.clear()
def test_offline_tokenizer_assumption_not_cached(self, monkeypatch):
import utils.transformers_version as tv
monkeypatch.setattr(tv, "_env_offline", lambda: True)
# No local file, not a local dir -> offline branch returns False without caching.
assert _check_tokenizer_config_needs_v5("org/uncached") is False
assert ("org/uncached", None) not in _tokenizer_class_cache
def test_offline_then_online_refetches(self, monkeypatch):
import utils.transformers_version as tv
# 1) Offline: returns False, nothing cached.
monkeypatch.setattr(tv, "_env_offline", lambda: True)
assert _check_tokenizer_config_needs_v5("org/needs5") is False
assert ("org/needs5", None) not in _tokenizer_class_cache
# 2) Back online: the real fetch runs (cache was not poisoned) and is honored.
monkeypatch.setattr(tv, "_env_offline", lambda: False)
class _Resp:
def read(self):
return json.dumps({"tokenizer_class": "TokenizersBackend"}).encode()
def __enter__(self):
return self
def __exit__(self, *a):
return False
monkeypatch.setattr("urllib.request.urlopen", lambda req, timeout = 10: _Resp())
assert _check_tokenizer_config_needs_v5("org/needs5") is True
def test_offline_config_miss_not_cached(self, monkeypatch):
import utils.transformers_version as tv
monkeypatch.setattr(tv, "_env_offline", lambda: True)
monkeypatch.setattr(tv, "_config_json_from_hf_cache", lambda name: None)
assert _load_config_json("org/uncached-config", None) is None
assert ("org/uncached-config", None) not in _config_json_cache
# ---------------------------------------------------------------------------
# hf_endpoint_unreachable — bounded, proxy/egress-aware reachability probe
# ---------------------------------------------------------------------------
class TestHfEndpointUnreachable:
def test_reachable_returns_false(self, monkeypatch):
class _Resp:
def __enter__(self):
return self
def __exit__(self, *a):
return False
monkeypatch.setattr("urllib.request.urlopen", lambda *a, **k: _Resp())
assert hf_endpoint_unreachable(timeout = 2) is False
def test_gateway_error_is_unreachable(self, monkeypatch):
import urllib.error
def _gw(*a, **k):
raise urllib.error.HTTPError("http://x", 504, "Gateway Timeout", {}, None)
monkeypatch.setattr("urllib.request.urlopen", _gw)
assert hf_endpoint_unreachable(timeout = 2) is True
def test_other_http_status_is_reachable(self, monkeypatch):
import urllib.error
def _405(*a, **k):
raise urllib.error.HTTPError("http://x", 405, "Method Not Allowed", {}, None)
monkeypatch.setattr("urllib.request.urlopen", _405)
assert hf_endpoint_unreachable(timeout = 2) is False
def test_tls_failure_is_reachable(self, monkeypatch):
import ssl
import urllib.error
def _tls(*a, **k):
raise urllib.error.URLError(ssl.SSLCertVerificationError("self-signed"))
monkeypatch.setattr("urllib.request.urlopen", _tls)
# TLS reached the server: treat as reachable so the load surfaces the cert error.
assert hf_endpoint_unreachable(timeout = 2) is False
def test_dns_failure_is_unreachable(self, monkeypatch):
import socket
import urllib.error
def _dns(*a, **k):
raise urllib.error.URLError(socket.gaierror(-2, "Name or service not known"))
monkeypatch.setattr("urllib.request.urlopen", _dns)
assert hf_endpoint_unreachable(timeout = 2) is True
def test_hung_probe_is_bounded(self, monkeypatch):
import time
def _hang(*a, **k):
time.sleep(30)
monkeypatch.setattr("urllib.request.urlopen", _hang)
t0 = time.time()
result = hf_endpoint_unreachable(timeout = 2)
assert result is True and (time.time() - t0) < 6.0