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# DEPENDENCIES
import os
import gc
import json
import torch
import spacy
import threading
import subprocess
from typing import Any
from typing import Dict
from typing import Union
from pathlib import Path
from loguru import logger
from typing import Optional
from datetime import datetime
from transformers import pipeline
from collections import OrderedDict
from config.settings import settings
from transformers import GPT2Tokenizer
from transformers import AutoTokenizer
from transformers import GPT2LMHeadModel
from config.model_config import ModelType
from config.model_config import ModelConfig
from transformers import AutoModelForCausalLM
from transformers import AutoModelForMaskedLM
from config.model_config import MODEL_REGISTRY
from config.model_config import get_model_config
from config.model_config import get_required_models
from sentence_transformers import SentenceTransformer
from transformers import AutoModelForSequenceClassification
class ModelCache:
"""
LRU cache for models with size limit
"""
def __init__(self, max_size: int = 5):
self.max_size = max_size
self.cache : OrderedDict = OrderedDict()
self.lock = threading.Lock()
def get(self, key: str) -> Optional[Any]:
"""
Get model from cache
"""
with self.lock:
if key in self.cache:
# Move to end (most recently used)
self.cache.move_to_end(key)
logger.debug(f"Cache hit for model: {key}")
return self.cache[key]
logger.debug(f"Cache miss for model: {key}")
return None
def put(self, key: str, model: Any):
"""
Add model to cache
"""
with self.lock:
if key in self.cache:
self.cache.move_to_end(key)
else:
if (len(self.cache) >= self.max_size):
# Remove least recently used
removed_key = next(iter(self.cache))
removed_model = self.cache.pop(removed_key)
# Clean up memory
if hasattr(removed_model, 'to'):
removed_model.to('cpu')
del removed_model
if torch.cuda.is_available():
torch.cuda.empty_cache()
logger.info(f"Evicted model from cache: {removed_key}")
self.cache[key] = model
logger.info(f"Added model to cache: {key}")
def clear(self):
"""
Clear all cached models
"""
with self.lock:
for model in self.cache.values():
if hasattr(model, 'to'):
model.to('cpu')
del model
self.cache.clear()
if torch.cuda.is_available():
torch.cuda.empty_cache()
logger.info("Cleared model cache")
def size(self) -> int:
"""
Get current cache size
"""
return len(self.cache)
class ModelManager:
"""
Central model management system
"""
def __init__(self):
self.cache = ModelCache(max_size = settings.MAX_CACHED_MODELS)
self.device = torch.device(settings.DEVICE if torch.cuda.is_available() else "cpu")
self.cache_dir = settings.MODEL_CACHE_DIR
self.cache_dir.mkdir(parents = True,
exist_ok = True,
)
# Model metadata tracking
self.metadata_file = self.cache_dir / "model_metadata.json"
self.metadata = self._load_metadata()
logger.info(f"ModelManager initialized with device: {self.device}")
logger.info(f"Model cache directory: {self.cache_dir}")
def _load_metadata(self) -> Dict:
"""
Load model metadata from disk
"""
if self.metadata_file.exists():
try:
with open(self.metadata_file, 'r') as f:
return json.load(f)
except Exception as e:
logger.warning(f"Failed to load metadata: {repr(e)}")
return {}
def _save_metadata(self):
"""
Save model metadata to disk
"""
try:
with open(self.metadata_file, 'w') as f:
json.dump(obj = self.metadata,
fp = f,
indent = 4,
)
except Exception as e:
logger.error(f"Failed to save metadata: {repr(e)}")
def _update_metadata(self, model_name: str, model_config: ModelConfig):
"""
Update metadata for a model
"""
self.metadata[model_name] = {"model_id" : model_config.model_id,
"model_type" : model_config.model_type.value,
"downloaded_at" : datetime.now().isoformat(),
"size_mb" : model_config.size_mb,
"last_used" : datetime.now().isoformat(),
}
self._save_metadata()
def is_model_downloaded(self, model_name: str) -> bool:
"""
Check if model is already downloaded
"""
model_config = get_model_config(model_name = model_name)
if not model_config:
return False
# Check if model exists in cache directory
model_path = self.cache_dir / model_config.model_id.replace("/", "_")
return model_path.exists() and model_name in self.metadata
def load_model(self, model_name: str, force_download: bool = False) -> Any:
"""
Load a model by name
Arguments:
----------
model_name { str } : Name from MODEL_REGISTRY
force_download { bool } : Force re-download even if cached
Returns:
--------
{ Any } : Model instance
"""
# Check cache first
if not force_download:
cached = self.cache.get(key = model_name)
if cached is not None:
return cached
# Get model configuration
model_config = get_model_config(model_name = model_name)
if not model_config:
raise ValueError(f"Unknown model: {model_name}")
logger.info(f"Loading model: {model_name} ({model_config.model_id})")
try:
# Load based on model type
if (model_config.model_type == ModelType.SENTENCE_TRANSFORMER):
model = self._load_sentence_transformer(config = model_config)
elif (model_config.model_type == ModelType.GPT):
model = self._load_gpt_model(config = model_config)
elif (model_config.model_type == ModelType.CLASSIFIER):
model = self._load_classifier(config = model_config)
elif (model_config.model_type == ModelType.SEQUENCE_CLASSIFICATION):
model = self._load_sequence_classifier(config = model_config)
elif (model_config.model_type == ModelType.TRANSFORMER):
model = self._load_transformer(config = model_config)
elif (model_config.model_type == ModelType.CAUSAL_LM):
model = self._load_causal_lm(config = model_config)
elif (model_config.model_type == ModelType.MASKED_LM):
model = self._load_masked_lm(config = model_config)
elif (model_config.model_type == ModelType.RULE_BASED):
# Check if it's a spaCy model
if model_config.additional_params.get("is_spacy_model", False):
model = self._load_spacy_model(config = model_config)
else:
raise ValueError(f"Unknown rule-based model type: {model_name}")
else:
raise ValueError(f"Unsupported model type: {model_config.model_type}")
# Update metadata
self._update_metadata(model_name = model_name,
model_config = model_config,
)
# Cache the model
if model_config.cache_model:
self.cache.put(key = model_name,
model = model,
)
logger.success(f"Successfully loaded model: {model_name}")
return model
except Exception as e:
logger.error(f"Failed to load model {model_name}: {repr(e)}")
raise
def load_tokenizer(self, model_name: str) -> Any:
"""
Load tokenizer for a model
Arguments:
----------
model_name { str } : Name from MODEL_REGISTRY
Returns:
--------
{ Any } : Tokenizer instance
"""
model_config = get_model_config(model_name = model_name)
if not model_config:
raise ValueError(f"Unknown model: {model_name}")
logger.info(f"Loading tokenizer for: {model_name}")
try:
if (model_config.model_type in [ModelType.GPT,
ModelType.CLASSIFIER,
ModelType.SEQUENCE_CLASSIFICATION,
ModelType.TRANSFORMER,
ModelType.CAUSAL_LM,
ModelType.MASKED_LM]):
tokenizer = AutoTokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
logger.success(f"Successfully loaded tokenizer for: {model_name}")
return tokenizer
else:
raise ValueError(f"Model type {model_config.model_type} doesn't require a separate tokenizer")
except Exception as e:
logger.error(f"Failed to load tokenizer for {model_name}: {repr(e)}")
raise
def _load_sentence_transformer(self, config: ModelConfig) -> SentenceTransformer:
"""
Load SentenceTransformer model
"""
model = SentenceTransformer(model_name_or_path = config.model_id,
cache_folder = str(self.cache_dir),
device = str(self.device),
)
return model
def _load_gpt_model(self, config: ModelConfig) -> tuple:
"""
Load GPT-style model with tokenizer
"""
model = GPT2LMHeadModel.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
tokenizer = GPT2Tokenizer.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
# Move to device
model = model.to(self.device)
model.eval()
# Apply quantization if enabled
if (settings.USE_QUANTIZATION and config.quantizable):
model = self._quantize_model(model = model)
return (model, tokenizer)
def _load_causal_lm(self, config: ModelConfig) -> tuple:
"""
Load causal language model (like GPT-2) for text generation
"""
model = AutoModelForCausalLM.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
tokenizer = AutoTokenizer.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
# Move to device
model = model.to(self.device)
model.eval()
# Apply quantization if enabled
if (settings.USE_QUANTIZATION and config.quantizable):
model = self._quantize_model(model = model)
return (model, tokenizer)
def _load_masked_lm(self, config: ModelConfig) -> tuple:
"""
Load masked language model (like RoBERTa) for fill-mask tasks
"""
model = AutoModelForMaskedLM.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
tokenizer = AutoTokenizer.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
# Move to device
model = model.to(self.device)
model.eval()
# Apply quantization if enabled
if (settings.USE_QUANTIZATION and config.quantizable):
model = self._quantize_model(model = model)
return (model, tokenizer)
def _load_classifier(self, config: ModelConfig) -> Any:
"""
Load classification model (for zero-shot, etc.)
"""
# For zero-shot classification models
pipe = pipeline("zero-shot-classification",
model = config.model_id,
device = 0 if self.device.type == "cuda" else -1,
model_kwargs = {"cache_dir": str(self.cache_dir)},
)
return pipe
def _load_sequence_classifier(self, config: ModelConfig) -> Any:
"""
Load sequence classification model (for domain classification)
"""
model = AutoModelForSequenceClassification.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
num_labels = config.additional_params.get('num_labels', 2),
)
# Move to device
model = model.to(self.device)
model.eval()
# Apply quantization if enabled
if (settings.USE_QUANTIZATION and config.quantizable):
model = self._quantize_model(model = model)
return model
def _load_transformer(self, config: ModelConfig) -> tuple:
"""
Load masking transformer model
"""
model = AutoModelForMaskedLM.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
tokenizer = AutoTokenizer.from_pretrained(pretrained_model_name_or_path = config.model_id,
cache_dir = str(self.cache_dir),
)
# Move to device
model = model.to(self.device)
model.eval()
# Apply quantization if enabled
if (settings.USE_QUANTIZATION and config.quantizable):
model = self._quantize_model(model)
return (model, tokenizer)
def _quantize_model(self, model):
"""
Apply INT8 quantization to model
"""
try:
if hasattr(torch.quantization, 'quantize_dynamic'):
quantized_model = torch.quantization.quantize_dynamic(model = model,
qconfig_spec = {torch.nn.Linear},
dtype = torch.qint8,
)
logger.info("Applied INT8 quantization to model")
return quantized_model
except Exception as e:
logger.warning(f"Quantization failed: {repr(e)}, using original model")
return model
def load_pipeline(self, model_name: str, task: str) -> pipeline:
"""
Load a Hugging Face pipeline
"""
model_config = get_model_config(model_name = model_name)
if not model_config:
raise ValueError(f"Unknown model: {model_name}")
logger.info(f"Loading pipeline: {task} with {model_name}")
pipe = pipeline(task = task,
model = model_config.model_id,
device = 0 if self.device.type == "cuda" else -1,
model_kwargs = {"cache_dir": str(self.cache_dir)},
)
return pipe
def _load_spacy_model(self, config: ModelConfig):
"""
Load spaCy model
"""
try:
model = spacy.load(config.model_id)
logger.info(f"Loaded spaCy model: {config.model_id}")
return model
except OSError:
# Model not downloaded, install it
logger.info(f"Downloading spaCy model: {config.model_id}")
subprocess.run(["python", "-m", "spacy", "download", config.model_id], check = True)
model = spacy.load(config.model_id)
return model
def download_model(self, model_name: str) -> bool:
"""
Download model without loading it into memory
Arguments:
----------
model_name { str } : Name from MODEL_REGISTRY
Returns:
--------
{ bool } : True if successful, False otherwise
"""
model_config = get_model_config(model_name)
if not model_config:
logger.error(f"Unknown model: {model_name}")
return False
if self.is_model_downloaded(model_name):
logger.info(f"Model already downloaded: {model_name}")
return True
logger.info(f"Downloading model: {model_name} ({model_config.model_id})")
try:
if (model_config.model_type == ModelType.SENTENCE_TRANSFORMER):
SentenceTransformer(model_name_or_path = model_config.model_id,
cache_folder = str(self.cache_dir),
)
elif (model_config.model_type == ModelType.GPT):
GPT2LMHeadModel.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
GPT2Tokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
elif (model_config.model_type == ModelType.SEQUENCE_CLASSIFICATION):
AutoModelForSequenceClassification.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
AutoTokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
elif (model_config.model_type == ModelType.CAUSAL_LM):
AutoModelForCausalLM.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
AutoTokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
elif (model_config.model_type == ModelType.MASKED_LM):
AutoModelForMaskedLM.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
AutoTokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
elif (model_config.model_type == ModelType.RULE_BASED):
if model_config.additional_params.get("is_spacy_model", False):
subprocess.run(["python", "-m", "spacy", "download", model_config.model_id], check = True)
else:
logger.warning(f"Cannot pre-download rule-based model: {model_name}")
# Mark as "downloaded"
return True
else:
# Generic transformer models
AutoModelForSequenceClassification.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
AutoTokenizer.from_pretrained(pretrained_model_name_or_path = model_config.model_id,
cache_dir = str(self.cache_dir),
)
self._update_metadata(model_name, model_config)
logger.success(f"Successfully downloaded: {model_name}")
return True
except Exception as e:
logger.error(f"Failed to download {model_name}: {repr(e)}")
return False
def download_all_required(self) -> Dict[str, bool]:
"""
Download all required models
Returns:
--------
{ dict } : Dict mapping model names to success status
"""
required_models = get_required_models()
results = dict()
logger.info(f"Downloading {len(required_models)} required models...")
for model_name in required_models:
results[model_name] = self.download_model(model_name = model_name)
success_count = sum(1 for v in results.values() if v)
logger.info(f"Downloaded {success_count}/{len(required_models)} required models")
return results
def get_model_info(self, model_name: str) -> Optional[Dict]:
"""
Get information about a model
"""
return self.metadata.get(model_name)
def list_downloaded_models(self) -> list:
"""
List all downloaded models
"""
return list(self.metadata.keys())
def clear_cache(self):
"""
Clear model cache
"""
self.cache.clear()
logger.info("Model cache cleared")
def unload_model(self, model_name: str):
"""
Unload a specific model from cache
"""
with self.cache.lock:
if model_name in self.cache.cache:
model = self.cache.cache.pop(model_name)
if hasattr(model, 'to'):
model.to('cpu')
del model
if torch.cuda.is_available():
torch.cuda.empty_cache()
logger.info(f"Unloaded model: {model_name}")
def get_memory_usage(self) -> Dict[str, Any]:
"""
Get current memory usage statistics
"""
stats = {"cached_models" : self.cache.size(),
"device" : str(self.device),
}
if torch.cuda.is_available():
stats.update({"gpu_allocated_mb" : torch.cuda.memory_allocated() / 1024**2,
"gpu_reserved_mb" : torch.cuda.memory_reserved() / 1024**2,
"gpu_max_allocated_mb" : torch.cuda.max_memory_allocated() / 1024**2,
})
return stats
def optimize_memory(self):
"""
Optimize memory usage
"""
logger.info("Optimizing memory...")
# Clear unused cached models
self.cache.clear()
# Force garbage collection
gc.collect()
# Clear CUDA cache if available
if torch.cuda.is_available():
torch.cuda.empty_cache()
logger.info("Memory optimization complete")
logger.info(f"Memory usage: {self.get_memory_usage()}")
# Singleton instance
_model_manager_instance : Optional[ModelManager] = None
_manager_lock = threading.Lock()
def get_model_manager() -> ModelManager:
"""
Get singleton ModelManager instance
"""
global _model_manager_instance
if _model_manager_instance is None:
with _manager_lock:
if _model_manager_instance is None:
_model_manager_instance = ModelManager()
return _model_manager_instance
# Export
__all__ = ["ModelManager",
"ModelCache",
"get_model_manager",
] |