# SPDX-License-Identifier: Apache-2.0
"""Compare the with and without prefix caching.

Run `pytest tests/prefix_caching/test_prefix_caching.py`.
"""

from __future__ import annotations

import pytest

from tests.conftest import VllmRunner
from tests.core.utils import SchedulerProxy, create_dummy_prompt
from vllm import SamplingParams, TokensPrompt
from vllm.core.scheduler import Scheduler
from vllm.engine.llm_engine import LLMEngine
from vllm.platforms import current_platform
from vllm.utils import STR_BACKEND_ENV_VAR

from ..models.utils import check_outputs_equal


@pytest.fixture(scope="function", autouse=True)
def use_v0_only(monkeypatch: pytest.MonkeyPatch):
    """
    This module relies on V0 internals, so set VLLM_USE_V1=0.
    """
    with monkeypatch.context() as m:
        m.setenv('VLLM_USE_V1', '0')
        yield


MODELS = [
    "distilbert/distilgpt2",
]

UNSTABLE_PROMPT_SEQUENCE = [
    ([0] * 588) + ([1] * 1332) + ([2] * 30) + ([3] * 1),
    ([0] * 588) + ([1] * 1332) + ([4] * 3) + ([5] * 50),
    ([0] * 588) + ([1] * 1332) + ([2] * 30) + ([6] * 95),
    ([0] * 588) + ([1] * 1332) + ([4] * 3) + ([7] * 174),
    ([0] * 588) + ([8] * 1539),
]


@pytest.mark.parametrize("model", MODELS)
@pytest.mark.parametrize("backend", ["FLASH_ATTN", "FLASHINFER", "XFORMERS"])
@pytest.mark.parametrize("dtype", ["half"])
@pytest.mark.parametrize("max_tokens", [5])
@pytest.mark.parametrize("cached_position", [0, 1])
@pytest.mark.parametrize("enable_chunked_prefill", [True, False])
@pytest.mark.parametrize("block_size", [16])
def test_mixed_requests(
    hf_runner,
    vllm_runner,
    example_prompts,
    model: str,
    backend: str,
    dtype: str,
    max_tokens: int,
    cached_position: int,
    enable_chunked_prefill: bool,
    block_size: int,
    monkeypatch: pytest.MonkeyPatch,
) -> None:
    """
    Test the case when some sequences have the prefix cache hit
    and the others don't. The cached position determines where
    the sequence is at among the batch of prefills.
    """
    if backend == "FLASHINFER" and current_platform.is_rocm():
        pytest.skip("Flashinfer does not support ROCm/HIP.")
    if backend == "XFORMERS" and current_platform.is_rocm():
        pytest.skip("Xformers does not support ROCm/HIP.")
    with monkeypatch.context() as m:
        m.setenv(STR_BACKEND_ENV_VAR, backend)

        with hf_runner(model, dtype=dtype) as hf_model:
            hf_outputs = hf_model.generate_greedy(example_prompts, max_tokens)

        cached_prompt = example_prompts[cached_position]
        with vllm_runner(
                model,
                dtype=dtype,
                enable_prefix_caching=True,
                enable_chunked_prefill=enable_chunked_prefill,
                block_size=block_size,
        ) as vllm_model:
            # Run the first prompt so the cache is populated
            vllm_outputs = vllm_model.generate_greedy([cached_prompt],
                                                      max_tokens)

            # Run all the promopts
            greedy_params = SamplingParams(temperature=0.0,
                                           max_tokens=max_tokens)
            req_outputs = vllm_model.model.generate(example_prompts,
                                                    greedy_params)

            # Verify number of cached tokens
            for i in range(len(req_outputs)):
                if i == cached_position:
                    expected_num_cached_tokens = (
                        len(req_outputs[i].prompt_token_ids) //
                        block_size) * block_size
                else:
                    expected_num_cached_tokens = 0
                assert (req_outputs[i].num_cached_tokens ==
                        expected_num_cached_tokens)

            vllm_outputs = [(
                output.prompt_token_ids + list(output.outputs[0].token_ids),
                output.prompt + output.outputs[0].text,
            ) for output in req_outputs]

        check_outputs_equal(
            outputs_0_lst=hf_outputs,
            outputs_1_lst=vllm_outputs,
            name_0="hf",
            name_1="vllm",
        )


@pytest.mark.parametrize("backend", ["FLASH_ATTN", "FLASHINFER", "XFORMERS"])
def test_unstable_prompt_sequence(
    vllm_runner,
    backend: str,
    monkeypatch: pytest.MonkeyPatch,
) -> None:

    if backend == "FLASHINFER" and current_platform.is_rocm():
        pytest.skip("Flashinfer does not support ROCm/HIP.")
    if backend == "XFORMERS" and current_platform.is_rocm():
        pytest.skip("Xformers does not support ROCm/HIP.")
    with monkeypatch.context() as m:
        m.setenv(STR_BACKEND_ENV_VAR, backend)

        with vllm_runner(
                "Qwen/Qwen2.5-0.5B-Instruct",
                enable_chunked_prefill=True,
                enable_prefix_caching=True,
                max_model_len=4096,
        ) as vllm_model:
            for prompt in UNSTABLE_PROMPT_SEQUENCE:
                vllm_model.generate(TokensPrompt(prompt_token_ids=prompt),
                                    SamplingParams(max_tokens=1))


@pytest.mark.parametrize("model", MODELS)
def test_fully_cached_prefill_needs_uncached_token(model):
    block_size = 16
    max_num_batched_tokens = 16
    num_output_tokens = 5
    # Make a vllm engine
    runner = VllmRunner(
        model_name=model,
        gpu_memory_utilization=0.7,
        enable_chunked_prefill=True,
        enforce_eager=True,
        enable_prefix_caching=True,
        block_size=block_size,
        max_num_batched_tokens=max_num_batched_tokens,
        max_num_seqs=max_num_batched_tokens,
    )
    engine: LLMEngine = runner.model.llm_engine

    scheduler: Scheduler = SchedulerProxy(engine.scheduler[0])  # type: ignore
    engine.scheduler[0] = scheduler

    # SeqA
    seqA_tokens = list(range(2 * block_size))
    seqA, seq_groupA = create_dummy_prompt(
        request_id="0",
        prompt_tokens=seqA_tokens,
        max_tokens=num_output_tokens,
        block_size=block_size,
    )

    scheduler.add_seq_group(seq_groupA)

    assert seqA.data.get_num_computed_tokens() == 0

    # Prefill seqA
    while not seqA.is_finished():
        engine.step()

    # seqB
    seqB_tokens = [t + 1 for t in seqA_tokens]  # shift by 1
    seqB, seq_groupB = create_dummy_prompt(
        request_id="1",
        prompt_tokens=seqB_tokens,
        max_tokens=num_output_tokens,
        block_size=block_size,
    )

    # seqC is the same as seqA
    seqC, seq_groupC = create_dummy_prompt(
        request_id="2",
        prompt_tokens=seqA_tokens,
        max_tokens=num_output_tokens,
        block_size=block_size,
    )

    scheduler.add_seq_group(seq_groupB)
    scheduler.add_seq_group(seq_groupC)

    # Even seqC is fully cached, it should not be prefilled since we
    # require at least 1 uncached token.
    engine.step()

    sched_metas, sched_out, _ = scheduler.last_schedule_ret()
    assert len(sched_out.scheduled_seq_groups) == 1
    assert (sched_out.scheduled_seq_groups[0].seq_group.request_id ==
            seq_groupB.request_id)
    assert (sched_out.scheduled_seq_groups[0].token_chunk_size ==
            max_num_batched_tokens)

    # When seqB is finished, seqC could be prefilled.
    while not seqB.is_finished():
        engine.step()
        sched_metas, sched_out, _ = scheduler.last_schedule_ret()
        assert len(sched_out.scheduled_seq_groups) == 1
        assert (sched_out.scheduled_seq_groups[0].seq_group.request_id ==
                seq_groupB.request_id)

    engine.step()
    sched_metas, sched_out, _ = scheduler.last_schedule_ret()
    assert len(sched_out.scheduled_seq_groups) == 1
    assert (sched_out.scheduled_seq_groups[0].seq_group.request_id ==
            seq_groupC.request_id)
    assert sched_out.scheduled_seq_groups[0].token_chunk_size == len(
        seqA_tokens)