qwen3_vllm.py
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"""
Qwen3-Reranker-0.6B backend using vLLM.
Reference: https://huggingface.co/Qwen/Qwen3-Reranker-0.6B
Requires: vllm>=0.8.5, transformers; GPU recommended.
"""
from __future__ import annotations
import logging
import math
import time
from typing import Any, Dict, List, Optional, Tuple
logger = logging.getLogger("reranker.backends.qwen3_vllm")
try:
import torch
from transformers import AutoTokenizer
from vllm import LLM, SamplingParams
from vllm.inputs import TokensPrompt
except ImportError as e:
raise ImportError(
"Qwen3-vLLM reranker backend requires vllm>=0.8.5 and transformers. "
"Install with: pip install vllm transformers"
) from e
def _format_instruction(instruction: str, query: str, doc: str) -> List[Dict[str, str]]:
"""Build chat messages for one (query, doc) pair."""
return [
{
"role": "system",
"content": "Judge whether the Document meets the requirements based on the Query and the Instruct provided. Note that the answer can only be \"yes\" or \"no\".",
},
{
"role": "user",
"content": f"<Instruct>: {instruction}\n\n<Query>: {query}\n\n<Document>: {doc}",
},
]
class Qwen3VLLMRerankerBackend:
"""
Qwen3-Reranker-0.6B with vLLM inference.
Config from services.rerank.backends.qwen3_vllm.
"""
def __init__(self, config: Dict[str, Any]) -> None:
self._config = config or {}
model_name = str(self._config.get("model_name") or "Qwen/Qwen3-Reranker-0.6B")
max_model_len = int(self._config.get("max_model_len", 2048))
tensor_parallel_size = int(self._config.get("tensor_parallel_size", 1))
gpu_memory_utilization = float(self._config.get("gpu_memory_utilization", 0.4))
enable_prefix_caching = bool(self._config.get("enable_prefix_caching", False))
enforce_eager = bool(self._config.get("enforce_eager", True))
dtype = str(self._config.get("dtype", "float16")).strip().lower()
self._instruction = str(
self._config.get("instruction")
or "Given a web search query, retrieve relevant passages that answer the query"
)
if not torch.cuda.is_available():
raise RuntimeError("qwen3_vllm backend requires CUDA GPU, but torch.cuda.is_available() is False")
if dtype not in {"float16", "half", "auto"}:
raise ValueError(f"Unsupported dtype for qwen3_vllm: {dtype!r}. Use float16/half/auto.")
logger.info(
"[Qwen3_VLLM] Loading model %s (max_model_len=%s, tp=%s, gpu_mem=%.2f, dtype=%s, prefix_caching=%s)",
model_name,
max_model_len,
tensor_parallel_size,
gpu_memory_utilization,
dtype,
enable_prefix_caching,
)
self._llm = LLM(
model=model_name,
tensor_parallel_size=tensor_parallel_size,
max_model_len=max_model_len,
gpu_memory_utilization=gpu_memory_utilization,
enable_prefix_caching=enable_prefix_caching,
enforce_eager=enforce_eager,
dtype=dtype,
)
self._tokenizer = AutoTokenizer.from_pretrained(model_name)
self._tokenizer.padding_side = "left"
self._tokenizer.pad_token = self._tokenizer.eos_token
# Suffix for generation prompt (assistant answer)
self._suffix = "<|im_end|>\n<|im_start|>assistant\n<think>\n\n</think>\n\n"
self._suffix_tokens = self._tokenizer.encode(
self._suffix, add_special_tokens=False
)
self._max_prompt_len = max_model_len - len(self._suffix_tokens)
self._true_token = self._tokenizer("yes", add_special_tokens=False).input_ids[0]
self._false_token = self._tokenizer("no", add_special_tokens=False).input_ids[0]
self._sampling_params = SamplingParams(
temperature=0,
max_tokens=1,
logprobs=20,
allowed_token_ids=[self._true_token, self._false_token],
)
self._model_name = model_name
logger.info("[Qwen3_VLLM] Model ready | model=%s", model_name)
def _process_inputs(
self,
pairs: List[Tuple[str, str]],
) -> List[TokensPrompt]:
"""Build tokenized prompts for vLLM from (query, doc) pairs."""
prompts = []
for q, d in pairs:
messages = _format_instruction(self._instruction, q, d)
# One conversation per call (apply_chat_template expects single conversation)
token_ids = self._tokenizer.apply_chat_template(
messages,
tokenize=True,
add_generation_prompt=False,
enable_thinking=False,
)
if isinstance(token_ids, list) and token_ids and isinstance(token_ids[0], list):
token_ids = token_ids[0]
ids = token_ids[: self._max_prompt_len] + self._suffix_tokens
prompts.append(TokensPrompt(prompt_token_ids=ids))
return prompts
def _compute_scores(
self,
prompts: List[TokensPrompt],
) -> List[float]:
"""Run vLLM generate and compute yes/no probability per prompt."""
if not prompts:
return []
outputs = self._llm.generate(prompts, self._sampling_params, use_tqdm=False)
scores = []
for i in range(len(outputs)):
out = outputs[i]
if not out.outputs:
scores.append(0.0)
continue
logprobs = out.outputs[0].logprobs
if not logprobs:
scores.append(0.0)
continue
last = logprobs[-1]
true_logp = last.get(self._true_token)
false_logp = last.get(self._false_token)
true_p = math.exp(true_logp.logprob) if true_logp else 1e-10
false_p = math.exp(false_logp.logprob) if false_logp else 1e-10
score = true_p / (true_p + false_p)
scores.append(float(score))
return scores
def score_with_meta(
self,
query: str,
docs: List[str],
normalize: bool = True,
) -> Tuple[List[float], Dict[str, Any]]:
start_ts = time.time()
total_docs = len(docs) if docs else 0
output_scores: List[float] = [0.0] * total_docs
query = "" if query is None else str(query).strip()
indexed: List[Tuple[int, str]] = []
for i, doc in enumerate(docs or []):
if doc is None:
continue
text = str(doc).strip()
if not text:
continue
indexed.append((i, text))
if not query or not indexed:
elapsed_ms = (time.time() - start_ts) * 1000.0
return output_scores, {
"input_docs": total_docs,
"usable_docs": len(indexed),
"unique_docs": 0,
"dedup_ratio": 0.0,
"elapsed_ms": round(elapsed_ms, 3),
"model": self._model_name,
"backend": "qwen3_vllm",
"normalize": normalize,
}
# Deduplicate by text, keep mapping to original indices
unique_texts: List[str] = []
position_to_unique: List[int] = []
prev: Optional[str] = None
for _idx, text in indexed:
if text != prev:
unique_texts.append(text)
prev = text
position_to_unique.append(len(unique_texts) - 1)
pairs = [(query, t) for t in unique_texts]
prompts = self._process_inputs(pairs)
unique_scores = self._compute_scores(prompts)
for (orig_idx, _), unique_idx in zip(indexed, position_to_unique):
# Score is already P(yes) in [0,1] from yes/(yes+no)
output_scores[orig_idx] = float(unique_scores[unique_idx])
elapsed_ms = (time.time() - start_ts) * 1000.0
dedup_ratio = 0.0
if indexed:
dedup_ratio = 1.0 - (len(unique_texts) / float(len(indexed)))
meta = {
"input_docs": total_docs,
"usable_docs": len(indexed),
"unique_docs": len(unique_texts),
"dedup_ratio": round(dedup_ratio, 4),
"elapsed_ms": round(elapsed_ms, 3),
"model": self._model_name,
"backend": "qwen3_vllm",
"normalize": normalize,
}
return output_scores, meta