@mytec: feat: Phase 3.0 Architecture Refactor ✅

Major refactoring of RFCP backend: - Modular propagation models (8 models) - SharedMemoryManager for terrain data - ProcessPoolExecutor parallel processing - WebSocket progress streaming - Building filtering pipeline (351k → 15k) - 82 unit tests Performance: Standard preset 38s → 5s (7.6x speedup) Known issue: Detailed preset timeout (fix in 3.1.0)
2026-02-01 23:12:26 +02:00
parent 1dde56705a
commit defa3ad440
71 changed files with 7134 additions and 256 deletions
--- a/backend/tests/test_integration/test_calculator.py
+++ b/backend/tests/test_integration/test_calculator.py
@@ -0,0 +1,127 @@
+"""
+Integration tests for the PointCalculator.
+
+Verifies end-to-end point calculation with various
+propagation models and environmental conditions.
+"""
+
+import sys
+import os
+
+sys.path.insert(0, os.path.join(os.path.dirname(__file__), '..', '..'))
+
+from app.core.calculator import PointCalculator
+from app.propagation.free_space import FreeSpaceModel
+from app.propagation.okumura_hata import OkumuraHataModel
+from app.propagation.cost231_hata import Cost231HataModel
+
+
+class TestPointCalculatorFSPL:
+    def test_basic_calculation(self):
+        calc = PointCalculator(FreeSpaceModel())
+        result = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.001, point_lon=30.0,
+            distance=111,
+        )
+        assert result.rsrp > -50  # Strong signal at short range
+        assert result.has_los is True
+        assert result.model_used == "Free-Space"
+        assert result.path_loss > 0
+        assert result.terrain_loss == 0
+        assert result.building_loss == 0
+
+    def test_signal_decreases_with_distance(self):
+        calc = PointCalculator(FreeSpaceModel())
+        near = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.001, point_lon=30.0, distance=100,
+        )
+        far = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.01, point_lon=30.0, distance=1000,
+        )
+        assert near.rsrp > far.rsrp
+
+    def test_terrain_obstruction(self):
+        calc = PointCalculator(FreeSpaceModel())
+        los = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.01, point_lon=30.0, distance=1000,
+        )
+        nlos = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.01, point_lon=30.0, distance=1000,
+            terrain_clearance=-10,
+        )
+        assert nlos.rsrp < los.rsrp
+        assert nlos.has_los is False
+        assert nlos.terrain_loss > 0
+
+    def test_building_loss_applied(self):
+        calc = PointCalculator(FreeSpaceModel())
+        no_building = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.01, point_lon=30.0, distance=1000,
+        )
+        with_building = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.01, point_lon=30.0, distance=1000,
+            building_loss=20,
+        )
+        assert abs(no_building.rsrp - with_building.rsrp - 20) < 0.1
+
+
+class TestPointCalculatorAntenna:
+    def test_off_axis_reduces_signal(self):
+        calc = PointCalculator(FreeSpaceModel())
+        omni = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.001, point_lon=30.0, distance=111,
+        )
+        directional = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=1800,
+            point_lat=50.001, point_lon=30.0, distance=111,
+            azimuth=90, beamwidth=65,  # Pointing East, point is North
+        )
+        assert directional.rsrp < omni.rsrp
+
+
+class TestPointCalculatorModelFallback:
+    def test_out_of_range_uses_fspl(self):
+        """When Okumura-Hata is out of valid range, should fall back to FSPL."""
+        calc = PointCalculator(OkumuraHataModel())
+        # 50m distance is below Okumura-Hata minimum (1km)
+        result = calc.calculate_point(
+            site_lat=50.0, site_lon=30.0, site_height=30,
+            site_power=43, site_gain=18, site_frequency=900,
+            point_lat=50.0, point_lon=30.0001, distance=50,
+        )
+        # Should still return a valid result (via FSPL fallback)
+        assert result.rsrp != 0
+        assert result.path_loss > 0
+
+
+if __name__ == "__main__":
+    for cls_name, cls in [
+        ("FSPL", TestPointCalculatorFSPL),
+        ("Antenna", TestPointCalculatorAntenna),
+        ("Fallback", TestPointCalculatorModelFallback),
+    ]:
+        instance = cls()
+        for method_name in [m for m in dir(instance) if m.startswith("test_")]:
+            try:
+                getattr(instance, method_name)()
+                print(f"  PASS  {cls_name}.{method_name}")
+            except Exception as e:
+                print(f"  FAIL  {cls_name}.{method_name}: {e}")
+    print("\nAll tests completed.")