"""Tests for cli._cprint's bg-thread cooperation with prompt_toolkit.

Background: when a prompt_toolkit Application is running, a bg thread that
calls ``_pt_print`` directly can race with the input-area redraw and the
printed line can end up visually buried behind the prompt.  ``_cprint`` now
routes cross-thread prints through ``run_in_terminal`` via
``loop.call_soon_threadsafe`` so the self-improvement background review's
``💾 Self-improvement review: …`` summary actually surfaces to the user.

These tests verify the routing logic without spinning up a real PT app.
"""

from __future__ import annotations

import sys
import types
from types import SimpleNamespace

import pytest

import cli


@pytest.fixture(autouse=True)
def reset_output_history():
    cli._configure_output_history(False, 200)
    yield
    cli._configure_output_history(True, 200)


def test_cprint_no_app_direct_print(monkeypatch):
    """No active app → direct _pt_print, no run_in_terminal involvement."""
    calls = []
    monkeypatch.setattr(cli, "_pt_print", lambda x: calls.append(("pt_print", x)))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: ("ANSI", t))

    # Patch the prompt_toolkit import the function performs internally.
    fake_pt_app = types.ModuleType("prompt_toolkit.application")
    fake_pt_app.get_app_or_none = lambda: None
    fake_pt_app.run_in_terminal = lambda *a, **kw: calls.append(("run_in_terminal",))
    monkeypatch.setitem(sys.modules, "prompt_toolkit.application", fake_pt_app)

    cli._cprint("hello")

    assert calls == [("pt_print", ("ANSI", "hello"))]


def test_cprint_app_not_running_direct_print(monkeypatch):
    """App exists but not running (e.g. teardown) → direct print."""
    calls = []
    monkeypatch.setattr(cli, "_pt_print", lambda x: calls.append(("pt_print", x)))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: t)

    fake_app = SimpleNamespace(_is_running=False, loop=None)
    fake_pt_app = types.ModuleType("prompt_toolkit.application")
    fake_pt_app.get_app_or_none = lambda: fake_app
    fake_pt_app.run_in_terminal = lambda *a, **kw: calls.append(("run_in_terminal",))
    monkeypatch.setitem(sys.modules, "prompt_toolkit.application", fake_pt_app)

    cli._cprint("x")

    assert calls == [("pt_print", "x")]


def test_cprint_bg_thread_schedules_on_app_loop(monkeypatch):
    """App running + different thread → schedules via call_soon_threadsafe."""
    scheduled = []
    direct_prints = []

    monkeypatch.setattr(cli, "_pt_print", lambda x: direct_prints.append(x))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: t)

    class FakeLoop:
        def is_running(self):
            return True

        def call_soon_threadsafe(self, cb, *args):
            scheduled.append(cb)

    fake_loop = FakeLoop()

    # Install a fake "current loop" that is NOT the app's loop, so the
    # cross-thread branch is taken.
    fake_current_loop = SimpleNamespace(is_running=lambda: True)
    fake_asyncio = types.ModuleType("asyncio")

    class _Policy:
        def get_event_loop(self):
            return fake_current_loop

    fake_asyncio.get_event_loop_policy = lambda: _Policy()
    monkeypatch.setitem(sys.modules, "asyncio", fake_asyncio)

    fake_app = SimpleNamespace(_is_running=True, loop=fake_loop)
    fake_pt_app = types.ModuleType("prompt_toolkit.application")
    fake_pt_app.get_app_or_none = lambda: fake_app

    run_in_terminal_calls = []

    def _fake_run_in_terminal(func, **kw):
        run_in_terminal_calls.append(func)
        # Simulate run_in_terminal actually calling func (as the real PT
        # impl would once the app loop tick picks it up).
        func()
        return None

    fake_pt_app.run_in_terminal = _fake_run_in_terminal
    monkeypatch.setitem(sys.modules, "prompt_toolkit.application", fake_pt_app)

    cli._cprint("💾 Self-improvement review: Skill updated")

    # call_soon_threadsafe must have been called with a scheduling cb.
    assert len(scheduled) == 1

    # Invoking the scheduled callback should hit run_in_terminal.
    scheduled[0]()
    assert len(run_in_terminal_calls) == 1

    # And run_in_terminal's inner func should have emitted a pt_print.
    assert direct_prints == ["💾 Self-improvement review: Skill updated"]


def test_cprint_same_thread_as_app_loop_direct_print(monkeypatch):
    """App running on same thread → direct print (no scheduling)."""
    direct_prints = []
    monkeypatch.setattr(cli, "_pt_print", lambda x: direct_prints.append(x))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: t)

    class FakeLoop:
        def is_running(self):
            return True

        def call_soon_threadsafe(self, cb, *args):
            raise AssertionError(
                "call_soon_threadsafe must not be used on the app's own thread"
            )

    fake_loop = FakeLoop()
    fake_asyncio = types.ModuleType("asyncio")

    class _Policy:
        def get_event_loop(self):
            return fake_loop  # same as app loop

    fake_asyncio.get_event_loop_policy = lambda: _Policy()
    monkeypatch.setitem(sys.modules, "asyncio", fake_asyncio)

    fake_app = SimpleNamespace(_is_running=True, loop=fake_loop)
    fake_pt_app = types.ModuleType("prompt_toolkit.application")
    fake_pt_app.get_app_or_none = lambda: fake_app
    fake_pt_app.run_in_terminal = lambda *a, **kw: None
    monkeypatch.setitem(sys.modules, "prompt_toolkit.application", fake_pt_app)

    cli._cprint("x")

    assert direct_prints == ["x"]


def test_cprint_swallows_app_loop_attr_error(monkeypatch):
    """Loop missing on app → fall back to direct print, no crash."""
    direct_prints = []
    monkeypatch.setattr(cli, "_pt_print", lambda x: direct_prints.append(x))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: t)

    class WeirdApp:
        _is_running = True

        @property
        def loop(self):
            raise RuntimeError("no loop for you")

    fake_pt_app = types.ModuleType("prompt_toolkit.application")
    fake_pt_app.get_app_or_none = lambda: WeirdApp()
    fake_pt_app.run_in_terminal = lambda *a, **kw: None
    monkeypatch.setitem(sys.modules, "prompt_toolkit.application", fake_pt_app)

    cli._cprint("fallback")

    assert direct_prints == ["fallback"]


def test_cprint_swallows_prompt_toolkit_import_error(monkeypatch):
    """If prompt_toolkit.application itself fails to import, fall back."""
    direct_prints = []
    monkeypatch.setattr(cli, "_pt_print", lambda x: direct_prints.append(x))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda t: t)

    # Drop cached prompt_toolkit.application AND install a meta-path finder
    # that raises ImportError on re-import.
    monkeypatch.delitem(sys.modules, "prompt_toolkit.application", raising=False)

    class _BlockFinder:
        def find_module(self, name, path=None):
            if name == "prompt_toolkit.application":
                return self
            return None

        def load_module(self, name):
            raise ImportError("blocked for test")

        def find_spec(self, name, path=None, target=None):
            if name == "prompt_toolkit.application":
                # Returning a bogus spec that will fail on load works too,
                # but raising here keeps the test simple.
                raise ImportError("blocked for test")
            return None

    blocker = _BlockFinder()
    sys.meta_path.insert(0, blocker)
    try:
        cli._cprint("fallback2")
    finally:
        sys.meta_path.remove(blocker)

    assert direct_prints == ["fallback2"]


def test_output_history_strips_ansi_and_keeps_recent_lines():
    cli._configure_output_history(True, 10)

    for idx in range(12):
        cli._record_output_history(f"\x1b[31mline-{idx}\x1b[0m")

    assert list(cli._OUTPUT_HISTORY) == [f"line-{idx}" for idx in range(2, 12)]


def test_replay_output_history_does_not_record_replayed_lines(monkeypatch):
    cli._configure_output_history(True, 10)
    cli._record_output_history("visible output")
    printed = []

    def _fake_print(value):
        printed.append(value)
        cli._record_output_history("duplicated replay")

    monkeypatch.setattr(cli, "_pt_print", _fake_print)
    monkeypatch.setattr(cli, "_PT_ANSI", lambda text: text)

    cli._replay_output_history()

    assert printed == ["visible output"]
    assert list(cli._OUTPUT_HISTORY) == ["visible output"]


def test_replay_output_history_rerenders_callable_entries(monkeypatch):
    cli._configure_output_history(True, 10)
    widths_seen = []
    printed = []

    def _render_current_width():
        widths_seen.append("called")
        return ["top border", "body"]

    cli._record_output_history_entry(_render_current_width)
    monkeypatch.setattr(cli, "_pt_print", lambda value: printed.append(value))
    monkeypatch.setattr(cli, "_PT_ANSI", lambda text: text)

    cli._replay_output_history()

    assert widths_seen == ["called"]
    assert printed == ["top border", "body"]
    assert list(cli._OUTPUT_HISTORY) == [_render_current_width]


def test_suspend_output_history_blocks_recording():
    cli._configure_output_history(True, 10)

    with cli._suspend_output_history():
        cli._record_output_history("hidden")
        cli._record_output_history_entry("also hidden")

    assert list(cli._OUTPUT_HISTORY) == []


def test_clear_output_history_removes_replayable_lines():
    cli._configure_output_history(True, 10)
    cli._record_output_history("before clear")

    cli._clear_output_history()

    assert list(cli._OUTPUT_HISTORY) == []