README.md

metadata

license: apache-2.0
base_model: Qwen/Qwen3.5-2B
library_name: peft
pipeline_tag: text-generation
language:
  - en
tags:
  - lora
  - peft
  - qwen
  - guardrails
  - code-detection
  - language-identification
  - multi-label-classification
  - quantization
  - 8-bit
metrics:
  - accuracy
  - f1
  - precision
  - recall
model-index:
  - name: CodeLanguage-Qwen3.5-2B-v5
    results:
      - task:
          type: text-classification
          name: Multi-label Programming Language Identification
        dataset:
          name: LangID Guard Held-out Test Set
          type: custom
        metrics:
          - type: accuracy
            name: is_valid accuracy
            value: 1
          - type: accuracy
            name: language-set exact match
            value: 0.96
          - type: f1
            name: binary F1 (positive=contains code)
            value: 1
          - type: f1
            name: macro F1 over languages
            value: 0.9696
          - type: precision
            name: binary precision (positive=contains code)
            value: 1
          - type: recall
            name: binary recall (positive=contains code)
            value: 1

CodeLanguage-Qwen3.5-2B-v5

LoRA adapter for Qwen/Qwen3.5-2B that identifies which programming languages are embedded in a user prompt across 25 languages and configuration formats. Trained on a combined dataset of Rosetta Code snippets and curated config-language samples (Dockerfile, YAML, Terraform, Makefile, SQL). The model is fine-tuned to emit a strict JSON object describing the languages found:

{"is_valid": true, "category": {"Python": true, "Bash": true}}

is_valid is true when at least one code/config snippet is present and false for natural-language-only prompts. category contains only the detected languages, each mapped to true; if no code is present category is {}.

Quick start

from peft import PeftModel
from transformers import AutoModelForCausalLM, AutoTokenizer
import torch, json, re

BASE = "Qwen/Qwen3.5-2B"
ADAPTER = "Accuknoxtechnologies/PromptInjection-Qwen3.5-2B-v5"

SYSTEM_MSG = """You are a code language identifier. For the given user prompt, decide whether it contains any embedded source code (program source or recognizable code-like configuration). Output exactly one JSON object and nothing else: {"is_valid": <true|false>, "category": {"<Lang>": true, ...}}.
No preamble. No explanation. No <think> tags. No markdown code fences. No trailing prose.
Rules:
  - is_valid is TRUE when the prompt contains at least one code/config snippet, FALSE when the prompt is plain natural-language only.
  - category contains ONLY the languages that appear, each mapped to true. If no code is present, category is the empty object {}.
  - When multiple languages appear, list every distinct one (still only true).
Allowed language keys (use these exact spellings):
  Python, JavaScript, Java, C, C++, C#, Go, Rust, Kotlin, Swift, Ruby, R, Scala, Perl, Lua, Bash, PowerShell, Batch, SQL, Dockerfile, YAML, Makefile, Terraform, AWK, jq

Examples:

Input: What's the weather forecast today?
Output: {"is_valid": false, "category": {}}

Input: Run this for me: print('hello world')
Output: {"is_valid": true, "category": {"Python": true}}

Input: Compare these — SELECT * FROM users vs the snippet: console.log(users)
Output: {"is_valid": true, "category": {"SQL": true, "JavaScript": true}}"""

tokenizer = AutoTokenizer.from_pretrained(BASE, trust_remote_code=True)
model = AutoModelForCausalLM.from_pretrained(
    BASE, torch_dtype=torch.bfloat16, device_map="auto", trust_remote_code=True,
)
model = PeftModel.from_pretrained(model, ADAPTER); model.eval()

def langid(prompt: str) -> dict:
    chat = tokenizer.apply_chat_template(
        [{"role":"system","content":SYSTEM_MSG},
         {"role":"user","content":prompt}],
        tokenize=False, add_generation_prompt=True, enable_thinking=False)
    inputs = tokenizer(chat, return_tensors="pt").to(model.device)
    out = model.generate(**inputs, max_new_tokens=220, do_sample=False)
    text = tokenizer.decode(out[0, inputs["input_ids"].shape[1]:], skip_special_tokens=True)
    return json.loads(re.search(r'\{.*\}', text, re.DOTALL).group(0))

System prompt

The model was trained with the exact system prompt below. Pass it verbatim at inference time — the output schema depends on this prompt.

You are a code language identifier. For the given user prompt, decide whether it contains any embedded source code (program source or recognizable code-like configuration). Output exactly one JSON object and nothing else: {"is_valid": <true|false>, "category": {"<Lang>": true, ...}}.
No preamble. No explanation. No <think> tags. No markdown code fences. No trailing prose.
Rules:
  - is_valid is TRUE when the prompt contains at least one code/config snippet, FALSE when the prompt is plain natural-language only.
  - category contains ONLY the languages that appear, each mapped to true. If no code is present, category is the empty object {}.
  - When multiple languages appear, list every distinct one (still only true).
Allowed language keys (use these exact spellings):
  Python, JavaScript, Java, C, C++, C#, Go, Rust, Kotlin, Swift, Ruby, R, Scala, Perl, Lua, Bash, PowerShell, Batch, SQL, Dockerfile, YAML, Makefile, Terraform, AWK, jq

Examples:

Input: What's the weather forecast today?
Output: {"is_valid": false, "category": {}}

Input: Run this for me: print('hello world')
Output: {"is_valid": true, "category": {"Python": true}}

Input: Compare these — SELECT * FROM users vs the snippet: console.log(users)
Output: {"is_valid": true, "category": {"SQL": true, "JavaScript": true}}

Evaluation

Evaluated on 200 held-out prompts drawn from test_dataset_langid.csv (same single + multi + benign composition as training).

• Evaluation timestamp: 2026-05-22 00:42 UTC
• GPU: NVIDIA A10G
• Source adapter: Accuknoxtechnologies/PromptInjection-Qwen3.5-2B-v5
• JSON parse errors: 0/200 (0.0%)

Top-level metrics

Metric	Value
is_valid accuracy	1.0000
Language-set exact match	0.9600
Binary F1 (positive = contains code)	1.0000
Binary precision	1.0000
Binary recall	1.0000
Macro F1 across languages	0.9696

Confusion matrix — binary is_valid decision

Positive class = the prompt contains code (is_valid=True).

	predicted contains-code	predicted no-code
actual contains-code	TP = 181	FN = 0
actual no-code	FP = 0	TN = 19

Per-language metrics

Only languages that appear in either the actual or predicted labels are listed.

Language	support	precision	recall	F1
Python	14	1.000	1.000	1.000
Terraform	14	1.000	1.000	1.000
Java	12	1.000	1.000	1.000
C	12	1.000	1.000	1.000
Rust	12	1.000	1.000	1.000
AWK	12	1.000	0.917	0.957
Ruby	11	0.917	1.000	0.957
R	11	1.000	1.000	1.000
Go	10	1.000	0.900	0.947
Swift	10	1.000	0.900	0.947
Scala	10	1.000	0.800	0.889
SQL	10	1.000	1.000	1.000
jq	10	0.909	1.000	0.952
JavaScript	9	0.900	1.000	0.947
Kotlin	9	1.000	1.000	1.000
Perl	9	1.000	1.000	1.000
PowerShell	9	1.000	1.000	1.000
Batch	9	1.000	1.000	1.000
YAML	9	1.000	0.889	0.941
C++	7	1.000	0.857	0.923
C#	7	0.875	1.000	0.933
Lua	7	1.000	0.857	0.923
Bash	7	1.000	1.000	1.000
Dockerfile	6	0.857	1.000	0.923
Makefile	6	1.000	1.000	1.000

Inference latency

• Mean: 0.99 s/prompt
• Median: 0.94 s/prompt
• p95: 1.35 s/prompt
• Max: 1.63 s/prompt

Training setup

• Base model: Qwen/Qwen3.5-2B (loaded in full precision (bf16 / fp16, no bitsandbytes quantization))
• LoRA: r=16, alpha=32, dropout=0.05, target modules = {q,k,v,o,gate,up,down}_proj
• Optimizer: adamw_torch, lr=1e-4, cosine schedule, warmup 5%
• Precision: bf16 if available, else fp16
• Effective batch size: 8 (per-device 1 + grad-accum 8), gradient checkpointing on
• Max sequence length: 3200 tokens
• Training data: 10,000 rows (7,000 single-language + 2,000 multi-language + 1,000 benign)
• Languages: 25 (programming + config formats)

Supported languages

The model emits one or more of these keys in the category map of its JSON output:

Python, JavaScript, Java, C, C++, C#, Go, Rust, Kotlin, Swift, Ruby, R, Scala, Perl, Lua, Bash, PowerShell, Batch, SQL, Dockerfile, YAML, Makefile, Terraform, AWK, jq

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Model card generated automatically by eval_and_push_card.py on 2026-05-22 00:42 UTC.