public AsteroidField(StarSystem parent, Section section, FreelancerData data) : base(parent, section, data) { Cube = new List <CubeAsteroid>(); DynamicAsteroids = new List <DynamicAsteroids>(); LootableZones = new List <LootableZone>(); foreach (Section s in ParseFile(data.Freelancer.DataPath + file, data.VFS)) { switch (s.Name.ToLowerInvariant()) { case "texturepanels": TexturePanels = new TexturePanelsRef(s, data); break; case "properties": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "flag": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } Properties.Add(e[0].ToString()); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "exclusion zones": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "exclusion": case "exclude": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } ExclusionZones.Add(new ExclusionZone(parent, e[0].ToString())); break; case "fog_far": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].FogFar = e[0].ToSingle(); break; case "zone_shell": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } break; case "shell_scalar": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].ShellScalar = e[0].ToSingle(); break; case "max_alpha": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].MaxAlpha = e[0].ToSingle(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].Color = new Color4(e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, 1f); break; case "exclusion_tint": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].Tint = new Color3f(e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, e[0].ToInt32() / 255f); break; case "exclude_billboards": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].ExcludeBillboards = e[0].ToInt32(); break; case "exclude_dynamic_asteroids": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].ExcludeDynamicAsteroids = e[0].ToInt32(); break; case "empty_cube_frequency": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].EmptyCubeFrequency = e[0].ToSingle(); break; case "billboard_count": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].BillboardCount = e[0].ToInt32(); break; default: FLLog.Warning("Ini", "Invalid Entry in " + s.Name + ": " + e.Name); break; } } break; case "field": Field = new Field(s); break; case "cube": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "xaxis_rotation": Cube_RotationX = new Vector4(e[0].ToSingle(), e[1].ToSingle(), e[2].ToSingle(), e[3].ToSingle()); break; case "yaxis_rotation": Cube_RotationY = new Vector4(e[0].ToSingle(), e[1].ToSingle(), e[2].ToSingle(), e[3].ToSingle()); break; case "zaxis_rotation": Cube_RotationZ = new Vector4(e[0].ToSingle(), e[1].ToSingle(), e[2].ToSingle(), e[3].ToSingle()); break; case "asteroid": //if (e.Count < 7 || e.Count > 8) throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); Cube.Add(new CubeAsteroid(e)); break; } } break; case "band": Band = new Band(parent, s); break; case "exclusionband": ExclusionBand = new Band(parent, s); break; case "asteroidbillboards": AsteroidBillboards = new AsteroidBillboards(s); break; case "dynamicasteroids": DynamicAsteroids.Add(new DynamicAsteroids(s)); break; case "lootablezone": LootableZones.Add(new LootableZone(s)); break; default: throw new Exception("Invalid Section in " + file + ": " + s.Name); } } }
public Nebula(StarSystem parent, Section section, FreelancerData data) : base(parent, section, data) { ExteriorShape = new List <string>(); NebulaLights = new List <NebulaLight>(); foreach (Section s in ParseFile(data.Freelancer.DataPath + file, data.VFS)) { switch (s.Name.ToLowerInvariant()) { case "texturepanels": TexturePanels = new TexturePanelsRef(s, data); break; case "properties": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "flag": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } Properties.Add(e[0].ToString()); break; default: FLLog.Warning("Ini", "Invalid Entry in " + s.Name + ": " + e.Name); break; } } break; case "fog": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "fog_enabled": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (FogEnabled != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } FogEnabled = e[0].ToInt32(); break; case "near": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (FogNear != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } FogNear = e[0].ToInt32(); break; case "distance": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (FogDistance != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } FogDistance = e[0].ToInt32(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (FogColor != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } FogColor = new Color4(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f, 1f); break; case "opacity": FLLog.Warning("Nebula", "unimplemented fog opacity"); break; case "max_alpha": FLLog.Warning("Nebula", "unimplemented max alpha"); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "exclusion zones": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "exclusion": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } ExclusionZones.Add(new ExclusionZone(parent, e[0].ToString())); break; case "fog_far": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].FogFar = e[0].ToSingle(); break; case "fog_near": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].FogNear = e[0].ToSingle(); break; case "zone_shell": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].ZoneShellPath = e[0].ToString(); break; case "shell_scalar": //if (e.Count != 1) throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].ShellScalar = e[0].ToSingle(); break; case "max_alpha": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].MaxAlpha = e[0].ToSingle(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].Color = new Color4(e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, 1f); break; case "exclusion_tint": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExclusionZones.Count == 0) { throw new Exception(e.Name + " before exclusion"); } ExclusionZones[ExclusionZones.Count - 1].Tint = new Color3f(e[0].ToInt32() / 255f, e[0].ToInt32() / 255f, e[0].ToInt32() / 255f); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "exterior": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "shape": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } ExteriorShape.Add(e[0].ToString()); break; case "shape_weights": //if (e.Count != 4) throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); if (ExteriorShapeWeights != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorShapeWeights = new List <int>(); foreach (IValue i in e) { ExteriorShapeWeights.Add(i.ToInt32()); } break; case "fill_shape": if (e.Count == 0) { FLLog.Warning("Nebula", "empty fill_shape in " + file); break; } if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorFillShape != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorFillShape = e[0].ToString(); break; case "plane_slices": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorPlaneSlices != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorPlaneSlices = e[0].ToInt32(); break; case "bit_radius": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorBitRadius != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorBitRadius = e[0].ToInt32(); break; case "bit_radius_random_variation": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorBitRadiusRandomVariation != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorBitRadiusRandomVariation = e[0].ToSingle(); break; case "min_bits": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorMinBits != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorMinBits = e[0].ToInt32(); break; case "max_bits": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorMaxBits != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorMaxBits = e[0].ToInt32(); break; case "move_bit_percent": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorMoveBitPercent != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorMoveBitPercent = e[0].ToSingle(); break; case "equator_bias": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorEquatorBias != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorEquatorBias = e[0].ToSingle(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (ExteriorColor != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } ExteriorColor = new Color4(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f, 1f); break; case "opacity": FLLog.Warning("Nebula", "Exterior opacity not implemented"); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "nebulalight": NebulaLights.Add(new NebulaLight(s)); break; case "clouds": if (CloudsMaxDistance != null) { FLLog.Warning("Ini", "Multiple [Clouds] in Nebula " + ZoneName); break; } foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "max_distance": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsMaxDistance != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsMaxDistance = e[0].ToInt32(); break; case "puff_count": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffCount != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffCount = e[0].ToInt32(); break; case "puff_radius": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffRadius != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffRadius = e[0].ToInt32(); break; case "puff_cloud_size": FLLog.Warning("Nebula", "puff_cloud_size unimplemented"); break; case "puff_colora": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffColorA != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffColorA = new Color3f(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f); break; case "puff_colorb": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffColorB != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffColorB = new Color3f(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f); break; case "puff_max_alpha": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffMaxAlpha != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffMaxAlpha = e[0].ToSingle(); break; case "puff_shape": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffShape == null) { CloudsPuffShape = new List <string>(); } CloudsPuffShape.Add(e[0].ToString()); break; case "puff_weights": if (e.Count != 4) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffWeights != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffWeights = new List <int>(); foreach (IValue i in e) { CloudsPuffWeights.Add(i.ToInt32()); } break; case "puff_drift": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsPuffDrift != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsPuffDrift = e[0].ToSingle(); break; case "near_fade_distance": if (e.Count != 2) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsNearFadeDistance != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsNearFadeDistance = new Vector2(e[0].ToSingle(), e[1].ToSingle()); break; case "lightning_intensity": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsLightningIntensity != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsLightningIntensity = e[0].ToSingle(); break; case "lightning_color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsLightningColor != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsLightningColor = new Color4(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f, 1f); break; case "lightning_gap": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsLightningGap != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsLightningGap = e[0].ToSingle(); break; case "lightning_duration": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (CloudsLightningDuration != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } CloudsLightningDuration = e[0].ToSingle(); break; case "disable_clouds": FLLog.Warning("Nebula", "disable_clouds not implemented"); break; case "zwrite_clouds": FLLog.Warning("Nebula", "disable_clouds not implemented"); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "backgroundlightning": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "duration": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (BackgroundLightningDuration != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } BackgroundLightningDuration = e[0].ToSingle(); break; case "gap": if (e.Count != 1) { FLLog.Warning("Ini", "Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (BackgroundLightningGap != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } BackgroundLightningGap = e[0].ToSingle(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (BackgroundLightningColor != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } BackgroundLightningColor = BackgroundLightningColor = new Color4(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f, 1f); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; case "dynamiclightning": foreach (Entry e in s) { switch (e.Name.ToLowerInvariant()) { case "gap": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (DynamicLightningGap != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } DynamicLightningGap = e[0].ToSingle(); break; case "duration": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (DynamicLightningDuration != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } DynamicLightningDuration = e[0].ToSingle(); break; case "color": if (e.Count != 3) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (DynamicLightningColor != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } DynamicLightningColor = new Color4(e[0].ToInt32() / 255f, e[1].ToInt32() / 255f, e[2].ToInt32() / 255f, 1f); break; case "ambient_intensity": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (DynamicLightningAmbientIntensity != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } DynamicLightningAmbientIntensity = e[0].ToSingle(); break; case "intensity_increase": if (e.Count != 1) { throw new Exception("Invalid number of values in " + s.Name + " Entry " + e.Name + ": " + e.Count); } if (DynamicLightningIntensityIncrease != null) { throw new Exception("Duplicate " + e.Name + " Entry in " + s.Name); } DynamicLightningIntensityIncrease = e[0].ToInt32(); break; default: throw new Exception("Invalid Entry in " + s.Name + ": " + e.Name); } } break; default: throw new Exception("Invalid Section in " + file + ": " + s.Name); } } }