ProStock/tests/test_sync_real.py

"""Tests for data sync with REAL data (read-only).

Tests verify:
1. get_global_last_date() correctly reads local data's max date
2. Incremental sync date calculation (local_last_date + 1)
3. Full sync date calculation (20180101)
4. Multi-stock scenario with real data

⚠️ IMPORTANT: These tests ONLY read data, no write operations.
- NO sync_all() calls (writes daily.h5)
- NO check_sync_needed() calls (writes trade_cal.h5)
"""

import pytest
import pandas as pd
from pathlib import Path

from src.data.sync import (
    DataSync,
    get_next_date,
    DEFAULT_START_DATE,
)
from src.data.storage import Storage


class TestDataSyncReadOnly:
    """Read-only tests for data sync - verify date calculation logic."""

    @pytest.fixture
    def storage(self):
        """Create storage instance."""
        return Storage()

    @pytest.fixture
    def data_sync(self):
        """Create DataSync instance."""
        return DataSync()

    @pytest.fixture
    def daily_exists(self, storage):
        """Check if daily.h5 exists."""
        return storage.exists("daily")

    def test_daily_h5_exists(self, storage):
        """Verify daily.h5 data file exists before running tests."""
        assert storage.exists("daily"), (
            "daily.h5 not found. Please run full sync first: "
            "uv run python -c 'from src.data.sync import sync_all; sync_all(force_full=True)'"
        )

    def test_get_global_last_date(self, data_sync, daily_exists):
        """Test get_global_last_date returns correct max date from local data."""
        if not daily_exists:
            pytest.skip("daily.h5 not found")

        last_date = data_sync.get_global_last_date()

        # Verify it's a valid date string
        assert last_date is not None, "get_global_last_date returned None"
        assert isinstance(last_date, str), f"Expected str, got {type(last_date)}"
        assert len(last_date) == 8, f"Expected 8-digit date, got {last_date}"
        assert last_date.isdigit(), f"Expected numeric date, got {last_date}"

        # Verify by reading storage directly
        daily_data = data_sync.storage.load("daily")
        expected_max = str(daily_data["trade_date"].max())

        assert last_date == expected_max, (
            f"get_global_last_date returned {last_date}, "
            f"but actual max date is {expected_max}"
        )

        print(f"[TEST] Local data last date: {last_date}")

    def test_incremental_sync_date_calculation(self, data_sync, daily_exists):
        """Test incremental sync: start_date = local_last_date + 1.

        This verifies that when local data exists, incremental sync should
        fetch data from (local_last_date + 1), not from 20180101.
        """
        if not daily_exists:
            pytest.skip("daily.h5 not found")

        # Get local last date
        local_last_date = data_sync.get_global_last_date()
        assert local_last_date is not None, "No local data found"

        # Calculate expected incremental start date
        expected_start_date = get_next_date(local_last_date)

        # Verify the calculation is correct
        local_last_int = int(local_last_date)
        expected_int = local_last_int + 1
        actual_int = int(expected_start_date)

        assert actual_int == expected_int, (
            f"Incremental start date calculation error: "
            f"expected {expected_int}, got {actual_int}"
        )

        print(
            f"[TEST] Incremental sync: local_last={local_last_date}, "
            f"start_date should be {expected_start_date}"
        )

        # Verify this is NOT 20180101 (would be full sync)
        assert expected_start_date != DEFAULT_START_DATE, (
            f"Incremental sync should NOT start from {DEFAULT_START_DATE}"
        )

    def test_full_sync_date_calculation(self):
        """Test full sync: start_date = 20180101 when force_full=True.

        This verifies that force_full=True always starts from 20180101.
        """
        # Full sync should always use DEFAULT_START_DATE
        full_sync_start = DEFAULT_START_DATE

        assert full_sync_start == "20180101", (
            f"Full sync should start from 20180101, got {full_sync_start}"
        )

        print(f"[TEST] Full sync start date: {full_sync_start}")

    def test_date_comparison_logic(self, data_sync, daily_exists):
        """Test date comparison: incremental vs full sync selection logic.

        Verify that:
        - If local_last_date < today: incremental sync needed
        - If local_last_date >= today: no sync needed
        """
        if not daily_exists:
            pytest.skip("daily.h5 not found")

        from datetime import datetime

        local_last_date = data_sync.get_global_last_date()
        today = datetime.now().strftime("%Y%m%d")

        local_last_int = int(local_last_date)
        today_int = int(today)

        # Log the comparison
        print(
            f"[TEST] Date comparison: local_last={local_last_date} ({local_last_int}), "
            f"today={today} ({today_int})"
        )

        # This test just verifies the comparison logic works
        if local_last_int < today_int:
            print("[TEST] Local data is older than today - sync needed")
            # Incremental sync should fetch from local_last_date + 1
            sync_start = get_next_date(local_last_date)
            assert int(sync_start) > local_last_int, (
                "Sync start should be after local last"
            )
        else:
            print("[TEST] Local data is up-to-date - no sync needed")

    def test_get_all_stock_codes_real_data(self, data_sync, daily_exists):
        """Test get_all_stock_codes returns multiple real stock codes."""
        if not daily_exists:
            pytest.skip("daily.h5 not found")

        codes = data_sync.get_all_stock_codes()

        # Verify it's a list
        assert isinstance(codes, list), f"Expected list, got {type(codes)}"
        assert len(codes) > 0, "No stock codes found"

        # Verify multiple stocks
        assert len(codes) >= 10, (
            f"Expected at least 10 stocks for multi-stock test, got {len(codes)}"
        )

        # Verify format (should be like 000001.SZ, 600000.SH)
        sample_codes = codes[:5]
        for code in sample_codes:
            assert "." in code, f"Invalid stock code format: {code}"
            suffix = code.split(".")[-1]
            assert suffix in ["SZ", "SH"], f"Invalid exchange suffix: {suffix}"

        print(f"[TEST] Found {len(codes)} stock codes (sample: {sample_codes})")

    def test_multi_stock_date_range(self, data_sync, daily_exists):
        """Test that multiple stocks share the same date range in local data.

        This verifies that local data has consistent date coverage across stocks.
        """
        if not daily_exists:
            pytest.skip("daily.h5 not found")

        daily_data = data_sync.storage.load("daily")

        # Get date range for each stock
        stock_dates = daily_data.groupby("ts_code")["trade_date"].agg(["min", "max"])

        # Get global min and max
        global_min = str(daily_data["trade_date"].min())
        global_max = str(daily_data["trade_date"].max())

        print(f"[TEST] Global date range: {global_min} to {global_max}")
        print(f"[TEST] Total stocks: {len(stock_dates)}")

        # Verify we have data for multiple stocks
        assert len(stock_dates) >= 10, (
            f"Expected at least 10 stocks, got {len(stock_dates)}"
        )

        # Verify date range is reasonable (at least 1 year of data)
        global_min_int = int(global_min)
        global_max_int = int(global_max)
        days_span = global_max_int - global_min_int

        assert days_span > 100, (
            f"Date range too small: {days_span} days. "
            f"Expected at least 100 days of data."
        )

        print(f"[TEST] Date span: {days_span} days")


class TestDateUtilities:
    """Test date utility functions."""

    def test_get_next_date(self):
        """Test get_next_date correctly calculates next day."""
        # Test normal cases
        assert get_next_date("20240101") == "20240102"
        assert get_next_date("20240131") == "20240201"  # Month boundary
        assert get_next_date("20241231") == "20250101"  # Year boundary

    def test_incremental_vs_full_sync_logic(self):
        """Test the logic difference between incremental and full sync.

        Incremental: start_date = local_last_date + 1
        Full: start_date = 20180101
        """
        # Scenario 1: Local data exists
        local_last_date = "20240115"
        incremental_start = get_next_date(local_last_date)

        assert incremental_start == "20240116"
        assert incremental_start != DEFAULT_START_DATE

        # Scenario 2: Force full sync
        full_sync_start = DEFAULT_START_DATE  # "20180101"

        assert full_sync_start == "20180101"
        assert incremental_start != full_sync_start

        print("[TEST] Incremental vs Full sync logic verified")


if __name__ == "__main__":
    pytest.main([__file__, "-v", "-s"])