π₯Quick Start β’ π»LLM code β’ π¨Tools β’ πCitation β’ πAcknowledgement
EvalPlus is a rigorous evaluation framework for LLM4Code, with:
- β¨ HumanEval+: 80x more tests than the original HumanEval!
- β¨ MBPP+: 35x more tests than the original MBPP!
- β¨ Evaluation framework: our packages/images/tools can easily and safely evaluate LLMs on above benchmarks.
Why EvalPlus?
- β¨ Precise evaluation & ranking: See our leaderboard for latest LLM rankings before & after rigorous evaluation.
- β¨ Coding rigorousness: Look at the score differences! esp. before and after using EvalPlus tests! Less drop is better as it means more rigorousness and less laxity in code generation; while a big drop means the generated code tends to be fragile.
- β¨ Pre-generated samples: EvalPlus accelerates LLM4Code research by open-sourcing LLM-generated samples for various models -- no need to re-run the expensive benchmarks!
Want to know more details? Read our NeurIPS'23 paper as well as our Google Slides!
Important
π§ MBPP+ update (v0.1.0
to v0.2.0
):
We recently improved and stablized MBPP+ dataset by removing some tasks whose test_list
is wrong (brought by the original MBPP dataset itself) to make it more reasonable to solve.
In v0.1.0
MBPP+ has 399 tasks while the new v0.2.0
has 378 tasks.
We also improved the oracle. Therefore, using v0.2.0
you might expect ~4pp pass@1 improvement for both base and plus tests.
Tip
EvalPlus β€οΈ bigcode-evaluation-harness! HumanEval+ and MBPP+ have been integrated to bigcode-evaluation-harness that you can also run EvalPlus datasets there!
To get started, please first setup the environment:
pip install evalplus --upgrade
β¬ Install nightly version :: click to expand ::
pip install "git+https://github.com/evalplus/evalplus.git" --upgrade
β¬ Using EvalPlus as a local repo? :: click to expand ::
git clone https://github.com/evalplus/evalplus.git
cd evalplus
export PYTHONPATH=$PYTHONPATH:$(pwd)
pip install -r requirements.txt
Implement the GEN_SOLUTION
function by calling the LLM to produce the complete solution (include the code) and save the samples to samples.jsonl
:
from evalplus.data import get_[human_eval|mbpp]_plus, write_jsonl
samples = [
dict(task_id=task_id, solution=GEN_SOLUTION(problem["prompt"]))
for task_id, problem in get_[human_eval|mbpp]_plus().items()
]
write_jsonl("samples.jsonl", samples)
π€ Structure of `problem`? :: click to expand ::
task_id
is the identifier string for the taskentry_point
is name of the functionprompt
is the function signature with docstring
canonical_solution
is the ground-truth implementation (re-implemented to fix bugs in HumanEval)base_input
is the test inputs in original HumanEvalplus_input
is the test inputs brought by EvalPlus
Note
Expected Schema of samples.jsonl
task_id
: Task ID, which are the keys ofget_[human_eval|mbpp]_plus()
solution
(optional): Self-contained solution (usually including the prompt)- Example:
{"task_id": "HumanEval/?", "solution": "def f():\n return 1"}
- Example:
completion
(optional): Function body without prompt- Example:
{"task_id": "HumanEval/?", "completion": " return 1"}
- Example:
Only one of solution
and completion
is required. If both are provided, solution
will be used.
We also accept solutions in the form of directory, i.e., --samples ${SAMPLE_DIR}
where ${SAMPLE_DIR}
is organized as: ${SAMPLE_DIR}/${TASK_ID}/{SAMPLE_ID}.py
(${TASK_ID} = task_id.replace("/", "_")
).
LLM-generated text may not be compilable code for including natural language lines or incomplete extra code.
We provide a tool namely evalplus.sanitize
to clean up the code:
# π‘ If you are storing codes in jsonl:
evalplus.sanitize --samples samples.jsonl
# Sanitized code will be produced to `samples-sanitized.jsonl`
# π‘ If you are storing codes in directories:
evalplus.sanitize --samples /path/to/vicuna-[??]b_temp_[??]
# Sanitized code will be produced to `/path/to/vicuna-[??]b_temp_[??]-sanitized`
π Checking the compilability of post-processed code:: click to expand ::
To double-check the post-processing results, you can use evalplus.syncheck
to check the code validity before and after sanitization, which will print erroneous code snippets and why they are wrong:
# π‘ If you are storing codes in jsonl:
evalplus.syncheck --samples samples.jsonl --dataset [humaneval|mbpp]
# π‘ If you are storing codes in directories:
evalplus.syncheck --samples /path/to/vicuna-[??]b_temp_[??] --dataset [humaneval|mbpp]
You are strongly recommended to use a sandbox such as docker:
docker run -v $(pwd):/app ganler/evalplus:latest --dataset [humaneval|mbpp] --samples samples.jsonl
...Or if you want to try it locally regardless of the risks
evalplus.evaluate --dataset [humaneval|mbpp] --samples samples.jsonl
To use a user-defined dataset locally, you can set HUMANEVAL_OVERRIDE_PATH
or MBPP_OVERRIDE_PATH
:
HUMANEVAL_OVERRIDE_PATH="/path/to/HumanEvalPlus.jsonl.gz" evalplus.evaluate --dataset humaneval --samples samples.jsonl
Tip
Do you use a very slow machine?
LLM solutions are regarded as failed on timeout (and OOM etc.).
Specifically, we set the timeout
-
$T_{base}$ is the minimal timeout (configurable by--min-time-limit
; default to 1s); -
$T_{gt}$ is the runtime of the ground-truth solutions (achieved via profiling); -
$k$ is a configurable factor--gt-time-limit-factor
(default to 4);
If your machine is too slow and you are getting high-variance results, try to use larger
Additionally, you are NOT encouraged to make your test-bed over stressed while running evaluation.
For example, using --parallel 64
on a 4-core machine or doing something else during evaluation are bad ideas...
π€ Evaluate with local GitHub repo? :: click to expand ::
export PYTHONPATH=$PYTHONPATH:$(pwd)
python evalplus/evaluate.py --dataset humaneval --samples samples.jsonl
β¨οΈ More command-line flags :: click to expand ::
--parallel
: by default half of the cores--base-only
(store_ture): only run base HumanEval tests--i-just-wanna-run
: force a re-run
The output should be like (below is GPT-4 greedy decoding example):
Computing expected output...
Expected outputs computed in 15.18s
Reading samples...
164it [00:04, 37.79it/s]
Evaluating samples...
100%|ββββββββββββββββββββββββββββββββββββββββββ| 164/164 [00:03<00:00, 44.75it/s]
Base
{'pass@1': 0.8841463414634146}
Base + Extra
{'pass@1': 0.768}
Base
is thepass@k
for the original HumanEvalBase + Extra
is thepass@k
for the our HumanEval+ (with extra tests)- The "k" includes
[1, 10, 100]
where k values<=
the sample size will be used - A cache file named like
samples_eval_results.jsonl
will be cached. Remove it to re-run the evaluation
π€ How long it would take? :: click to expand ::
If you do greedy decoding where there is only one sample for each task, the evaluation should take just a few seconds.
When running 200 samples x 164 tasks x ~700+ tests, it can take around 2-10 minutes by using --parallel 64
and --test-details
.
Here are some tips to speed up the evaluation:
- Use
--parallel $(nproc)
- Do NOT use
--test-details
if you just want to quickly get pass@k as--test-details
will run all tests (700+ on average for each task), while without--test-details
the testing for a sample stops immediately when it fails the first test. - Use our pre-evaluated results (see LLM-generated code)
- Use HumanEval+ Mini
Tip
π Try out HumanEvalPlus-Mini
! which selects a minimal set of additional tests with the highest quality, achieving almost the same effectiveness of the full version. Just add a --mini
flag, it can run 23+% faster! (even faster if you evaluate all tests without fail-stop with --test-details
).
docker run -v $(pwd):/app ganler/evalplus:latest --dataset humaneval --samples samples.jsonl --mini
# ...Or locally β οΈ
# evalplus.evaluate --dataset humaneval --samples samples.jsonl --mini
We also share pre-generated code samples from LLMs we have evaluated:
- HumanEval+: See the attachment of our v0.1.0 release.
- MBPP+: See the attachment of our v0.2.0 release.
Each sample file is packaged in a zip file named like ${model_name}_temp_${temperature}.zip
.
You can unzip them to a folder named like ${model_name}_temp_${temperature}
and run the evaluation from scratch with:
evalplus.evaluate --dataset humaneval --samples ${model_name}_temp_${temperature}
To use these tools, please first install the repository from GitHub:
git clone https://github.com/evalplus/evalplus.git
cd evalplus
pip install -r tools/requirements.txt
You can use codegen/generate.py
to performance code generation.
We currently support following backends:
vllm
: Set--model
as Hugging Face model ID such asmicrosoft/Phi-3-mini-128k-instruct
hf
: HuggingFace Transformers; same way to setup--model
openai
: ConfigureOPENAI_API_KEY
; one can configure--base-url
anthropic
: ConfigureANTHROPIC_API_KEY
mistral
: ConfigureMISTRAL_API_KEY
python codegen/generate.py --model "mistralai/Mistral-7B-Instruct-v0.2" --greedy --root [result_path] --dataset [mbpp|humaneval] --backend [vllm]
To perform code generation using user-defined tasks and datasets:
# Override HumanEval datasets
HUMANEVAL_OVERRIDE_PATH="/path/to/HumanEvalPlus.jsonl.gz" python codegen/generate.py --model "mistralai/Mistral-7B-Instruct-v0.2" --greedy --root [result_path] --dataset humaneval --backend [vllm|hf|openai]
# Override MBPP datasets
MBPP_OVERRIDE_PATH="/path/to/MbppPlus.jsonl.gz" python codegen/generate.py --model "mistralai/Mistral-7B-Instruct-v0.2" --greedy --root [result_path] --dataset mbpp --backend [vllm|hf|openai]
Please check evalplus/inputgen.py
.
@inproceedings{evalplus,
title = {Is Your Code Generated by Chat{GPT} Really Correct? Rigorous Evaluation of Large Language Models for Code Generation},
author = {Liu, Jiawei and Xia, Chunqiu Steven and Wang, Yuyao and Zhang, Lingming},
booktitle = {Thirty-seventh Conference on Neural Information Processing Systems},
year = {2023},
url = {https://openreview.net/forum?id=1qvx610Cu7},
}