from __future__ import annotations

import sys

import pytest

from PIL import Image

from .helper import is_pypy


def test_get_stats() -> None:
    # Create at least one image
    Image.new("RGB", (10, 10))

    stats = Image.core.get_stats()
    assert "new_count" in stats
    assert "reused_blocks" in stats
    assert "freed_blocks" in stats
    assert "allocated_blocks" in stats
    assert "reallocated_blocks" in stats
    assert "blocks_cached" in stats


def test_reset_stats() -> None:
    Image.core.reset_stats()

    stats = Image.core.get_stats()
    assert stats["new_count"] == 0
    assert stats["reused_blocks"] == 0
    assert stats["freed_blocks"] == 0
    assert stats["allocated_blocks"] == 0
    assert stats["reallocated_blocks"] == 0
    assert stats["blocks_cached"] == 0


class TestCoreMemory:
    def teardown_method(self) -> None:
        # Restore default values
        Image.core.set_alignment(1)
        Image.core.set_block_size(1024 * 1024)
        Image.core.set_blocks_max(0)
        Image.core.clear_cache()

    def test_get_alignment(self) -> None:
        alignment = Image.core.get_alignment()

        assert alignment > 0

    def test_set_alignment(self) -> None:
        for i in [1, 2, 4, 8, 16, 32]:
            Image.core.set_alignment(i)
            alignment = Image.core.get_alignment()
            assert alignment == i

            # Try to construct new image
            Image.new("RGB", (10, 10))

        with pytest.raises(ValueError):
            Image.core.set_alignment(0)
        with pytest.raises(ValueError):
            Image.core.set_alignment(-1)
        with pytest.raises(ValueError):
            Image.core.set_alignment(3)

    def test_get_block_size(self) -> None:
        block_size = Image.core.get_block_size()

        assert block_size >= 4096

    def test_set_block_size(self) -> None:
        for i in [4096, 2 * 4096, 3 * 4096]:
            Image.core.set_block_size(i)
            block_size = Image.core.get_block_size()
            assert block_size == i

            # Try to construct new image
            Image.new("RGB", (10, 10))

        with pytest.raises(ValueError):
            Image.core.set_block_size(0)
        with pytest.raises(ValueError):
            Image.core.set_block_size(-1)
        with pytest.raises(ValueError):
            Image.core.set_block_size(4000)

    def test_set_block_size_stats(self) -> None:
        Image.core.reset_stats()
        Image.core.set_blocks_max(0)
        Image.core.set_block_size(4096)
        Image.new("RGB", (256, 256))

        stats = Image.core.get_stats()
        assert stats["new_count"] >= 1
        assert stats["allocated_blocks"] >= 64
        if not is_pypy():
            assert stats["freed_blocks"] >= 64

    def test_get_blocks_max(self) -> None:
        blocks_max = Image.core.get_blocks_max()

        assert blocks_max >= 0

    def test_set_blocks_max(self) -> None:
        for i in [0, 1, 10]:
            Image.core.set_blocks_max(i)
            blocks_max = Image.core.get_blocks_max()
            assert blocks_max == i

            # Try to construct new image
            Image.new("RGB", (10, 10))

        with pytest.raises(ValueError):
            Image.core.set_blocks_max(-1)
        if sys.maxsize < 2**32:
            with pytest.raises(ValueError):
                Image.core.set_blocks_max(2**29)

    @pytest.mark.skipif(is_pypy(), reason="Images not collected")
    def test_set_blocks_max_stats(self) -> None:
        Image.core.reset_stats()
        Image.core.set_blocks_max(128)
        Image.core.set_block_size(4096)
        Image.new("RGB", (256, 256))
        Image.new("RGB", (256, 256))

        stats = Image.core.get_stats()
        assert stats["new_count"] >= 2
        assert stats["allocated_blocks"] >= 64
        assert stats["reused_blocks"] >= 64
        assert stats["freed_blocks"] == 0
        assert stats["blocks_cached"] == 64

    @pytest.mark.skipif(is_pypy(), reason="Images not collected")
    def test_clear_cache_stats(self) -> None:
        Image.core.reset_stats()
        Image.core.clear_cache()
        Image.core.set_blocks_max(128)
        Image.core.set_block_size(4096)
        Image.new("RGB", (256, 256))
        Image.new("RGB", (256, 256))
        # Keep 16 blocks in cache
        Image.core.clear_cache(16)

        stats = Image.core.get_stats()
        assert stats["new_count"] >= 2
        assert stats["allocated_blocks"] >= 64
        assert stats["reused_blocks"] >= 64
        assert stats["freed_blocks"] >= 48
        assert stats["blocks_cached"] == 16

    def test_large_images(self) -> None:
        Image.core.reset_stats()
        Image.core.set_blocks_max(0)
        Image.core.set_block_size(4096)
        Image.new("RGB", (2048, 16))
        Image.core.clear_cache()

        stats = Image.core.get_stats()
        assert stats["new_count"] >= 1
        assert stats["allocated_blocks"] >= 16
        assert stats["reused_blocks"] >= 0
        assert stats["blocks_cached"] == 0
        if not is_pypy():
            assert stats["freed_blocks"] >= 16


class TestEnvVars:
    def teardown_method(self) -> None:
        # Restore default values
        Image.core.set_alignment(1)
        Image.core.set_block_size(1024 * 1024)
        Image.core.set_blocks_max(0)
        Image.core.clear_cache()

    def test_units(self) -> None:
        Image._apply_env_variables({"PILLOW_BLOCKS_MAX": "2K"})
        assert Image.core.get_blocks_max() == 2 * 1024
        Image._apply_env_variables({"PILLOW_BLOCK_SIZE": "2m"})
        assert Image.core.get_block_size() == 2 * 1024 * 1024

    @pytest.mark.parametrize(
        "var",
        (
            {"PILLOW_ALIGNMENT": "15"},
            {"PILLOW_BLOCK_SIZE": "1024"},
            {"PILLOW_BLOCKS_MAX": "wat"},
        ),
    )
    def test_warnings(self, var: dict[str, str]) -> None:
        with pytest.warns(UserWarning):
            Image._apply_env_variables(var)