public void ExampleTest3_CalculateSnowLoad_Success()
{
var buildingSite = new BuildingSite(Zones.FirstZone, Topographies.Normal, 127);
buildingSite.CalculateExposureCoefficient();
var snowLoad = new SnowLoad(buildingSite, DesignSituation.B2, true);
snowLoad.CalculateSnowLoad();
var building = new Building(snowLoad);
building.CalculateThermalCoefficient();
var roofAbuttingToTallerConstruction5Degrees = new ExceptionalRoofAbuttingToTallerConstruction(building, 12, 14.6, 4.5, 5);
roofAbuttingToTallerConstruction5Degrees.CalculateDriftLength();
roofAbuttingToTallerConstruction5Degrees.CalculateSnowLoad();
var roofAbuttingToTallerConstruction35Degrees = new ExceptionalRoofAbuttingToTallerConstruction(building, 12, 14.6, 4.5, 35);
roofAbuttingToTallerConstruction35Degrees.CalculateDriftLength();
roofAbuttingToTallerConstruction35Degrees.CalculateSnowLoad();
Assert.AreEqual(14.6, Math.Round(roofAbuttingToTallerConstruction5Degrees.DriftLength, 3),
"Drift length is not calculated properly.");
Assert.AreEqual(1.4, Math.Round(roofAbuttingToTallerConstruction5Degrees.SnowLoadNearTheTop, 3),
"Snow load for roof is not calculated properly.");
Assert.AreEqual(1.4, Math.Round(roofAbuttingToTallerConstruction5Degrees.SnowLoadNearTheEdge, 3),
"Snow load for roof is not calculated properly.");
Assert.AreEqual(0, Math.Round(roofAbuttingToTallerConstruction35Degrees.SnowLoadNearTheTop, 3),
"Snow load for roof is not calculated properly.");
Assert.AreEqual(1.167, Math.Round(roofAbuttingToTallerConstruction35Degrees.SnowLoadNearTheEdge, 3),
"Snow load for roof is not calculated properly.");
}
public void ExternalWindPressureCalculationsTest_Roof2_MaxValues_Success()
{
//Arrange:
var windZone = WindZone.III;
var building = new FlatRoof(20, 10, 15);
var terrainOrography = new CliffEscarpmentOrography(
actualLengthUpwindSlope: 15,
effectiveFeatureHeight: 5,
horizontalDistanceFromCrestTop: 2);
var terrain = new TerrainCategoryIII(terrainOrography);
var directionalFactor = new DirectionalFactor(windZone, windDirection: 40);
var buildingSite = new BuildingSite(
325, windZone, terrain,
directionalFactor: directionalFactor);
var windLoadData = new WindLoadData(buildingSite, building);
var flatRoofWindLoads = new FlatRoofWindLoads(building, windLoadData);
//Act:
var result = flatRoofWindLoads.GetExternalWindPressureMaxAt(building.Height);
//Assert:
Assert.Multiple(() =>
{
Assert.That(result[Field.F], Is.EqualTo(-0.818).Within(0.001));
Assert.That(result[Field.G], Is.EqualTo(-0.530).Within(0.001));
Assert.That(result[Field.H], Is.EqualTo(-0.258).Within(0.001));
Assert.That(result[Field.I], Is.EqualTo(0.073).Within(0.001));
});
}
public static bool OpenProjectFromFile()
{
try
{
win32.OpenFileDialog openFileDialog = new win32.OpenFileDialog();
openFileDialog.Filter = "XML file (*.xml)|*.xml";
if (openFileDialog.ShowDialog() == true)
{
FilePath = openFileDialog.FileName;
}
else
{
return(false);
}
ClearAll();
InicializeNew();
XmlDocument xmlDocument = new XmlDocument();
xmlDocument.Load(FilePath);
XmlElement xmlRoot = xmlDocument.DocumentElement;
foreach (XmlNode childNode in xmlRoot.ChildNodes)
{
if (childNode.Name == "BuildingSite")
{
BuildingSite = new BuildingSite(childNode);
}
}
IsDataChanged = false;
return(true);
}
catch (Exception ex)
{
MessageBox.Show("Ошибка загрузки: " + ex.Message);
return(false);
}
}
public IResult Calculate()
{
BuildingSite buildingSite = GetBuildingSite();
SnowLoad snowLoad = GetSnowLoad(buildingSite);
Building building = GetBuilding(snowLoad);
DriftingAtProjectionsObstructions driftingAtProjectionsObstructions = GetDriftingAtProjectionsObstructions(building);
if (!ExposureCoefficient.HasValue)
{
buildingSite.CalculateExposureCoefficient();
}
snowLoad.CalculateSnowLoad();
building.CalculateThermalCoefficient();
driftingAtProjectionsObstructions.CalculateSnowLoad();
var result = new Result();
result.Properties.Add("C_e_", buildingSite.ExposureCoefficient);
result.Properties.Add("s_k_", snowLoad.DefaultCharacteristicSnowLoad);
result.Properties.Add("V", snowLoad.VariationCoefficient);
result.Properties.Add("C_esl_", snowLoad.ExceptionalSnowLoadCoefficient);
result.Properties.Add("s_n_", snowLoad.SnowLoadForSpecificReturnPeriod);
result.Properties.Add("s_Ad_", snowLoad.DesignExceptionalSnowLoadForSpecificReturnPeriod);
result.Properties.Add("t_i_", building.InternalTemperature);
result.Properties.Add("∆_t_", building.TempreatureDifference);
result.Properties.Add("U", building.OverallHeatTransferCoefficient);
result.Properties.Add("C_t_", building.ThermalCoefficient);
result.Properties.Add("μ_1_", driftingAtProjectionsObstructions.FirstShapeCoefficient);
result.Properties.Add("μ_2_", driftingAtProjectionsObstructions.SecondShapeCoefficient);
result.Properties.Add("l_s_", driftingAtProjectionsObstructions.DriftLength);
result.Properties.Add("s_2_", driftingAtProjectionsObstructions.SnowLoadOnRoofValue);
result.Properties.Add("s_1_", driftingAtProjectionsObstructions.SnowLoadOnRoofValueAtTheEnd);
return(result);
}
public IResult Calculate()
{
BuildingSite buildingSite = GetBuildingSite();
SnowLoad snowLoad = GetSnowLoad(buildingSite);
Building building = GetBuilding(snowLoad);
ExceptionalSnowBehindParapet exceptionalSnowBehindParapet
= GetExceptionalSnowBehindParapet(building);
if (!ExposureCoefficient.HasValue)
{
buildingSite.CalculateExposureCoefficient();
}
snowLoad.CalculateSnowLoad();
building.CalculateThermalCoefficient();
exceptionalSnowBehindParapet.CalculateDriftLength();
exceptionalSnowBehindParapet.CalculateSnowLoad();
var result = new Result();
result.Properties.Add("C_e_", buildingSite.ExposureCoefficient);
result.Properties.Add("s_k_", snowLoad.DefaultCharacteristicSnowLoad);
result.Properties.Add("V", snowLoad.VariationCoefficient);
result.Properties.Add("C_esl_", snowLoad.ExceptionalSnowLoadCoefficient);
result.Properties.Add("s_n_", snowLoad.SnowLoadForSpecificReturnPeriod);
result.Properties.Add("s_Ad_", snowLoad.DesignExceptionalSnowLoadForSpecificReturnPeriod);
result.Properties.Add("t_i_", building.InternalTemperature);
result.Properties.Add("∆_t_", building.TempreatureDifference);
result.Properties.Add("U", building.OverallHeatTransferCoefficient);
result.Properties.Add("C_t_", building.ThermalCoefficient);
result.Properties.Add("l_s_", exceptionalSnowBehindParapet.DriftLength);
result.Properties.Add("μ_1_", exceptionalSnowBehindParapet.ShapeCoefficient);
result.Properties.Add("s", exceptionalSnowBehindParapet.SnowLoad);
return(result);
}
public IResult Calculate()
{
BuildingSite buildingSite = GetBuildingSite();
SnowLoad snowLoad = GetSnowLoad(buildingSite);
Building building = GetBuilding(snowLoad);
ExceptionalMultiSpanRoof exceptionalMultiSpanRoof = GetExceptionalMultiSpanRoof(building);
if (!ExposureCoefficient.HasValue)
{
buildingSite.CalculateExposureCoefficient();
}
snowLoad.CalculateSnowLoad();
building.CalculateThermalCoefficient();
exceptionalMultiSpanRoof.CalculateSnowLoad();
var result = new Result();
result.Properties.Add("C_e_", buildingSite.ExposureCoefficient);
result.Properties.Add("s_k_", snowLoad.DefaultCharacteristicSnowLoad);
result.Properties.Add("V", snowLoad.VariationCoefficient);
result.Properties.Add("C_esl_", snowLoad.ExceptionalSnowLoadCoefficient);
result.Properties.Add("s_n_", snowLoad.SnowLoadForSpecificReturnPeriod);
result.Properties.Add("s_Ad_", snowLoad.DesignExceptionalSnowLoadForSpecificReturnPeriod);
result.Properties.Add("t_i_", building.InternalTemperature);
result.Properties.Add("∆_t_", building.TempreatureDifference);
result.Properties.Add("U", building.OverallHeatTransferCoefficient);
result.Properties.Add("C_t_", building.ThermalCoefficient);
result.Properties.Add("b_3_", exceptionalMultiSpanRoof.HorizontalDimensionOfThreeSlopes);
result.Properties.Add("μ_1_", exceptionalMultiSpanRoof.ShapeCoefficient);
result.Properties.Add("s", exceptionalMultiSpanRoof.SnowLoad);
return(result);
}
public void DirectionalFactorTest_Success()
{
var terrain = new Mock <ITerrain>();
var buildingSite = new BuildingSite(heightAboveSeaLevel: 250, windZone: WindZone.II,
terrain: terrain.Object);
Assert.That(buildingSite.DirectionalFactor, Is.EqualTo(1.0));
}
public void CalculateExposureCoefficientTest_NoneTopography_Success()
{
var buildingSite = new BuildingSite(currentTopography: Topographies.None);
buildingSite.CalculateExposureCoefficient();
Assert.AreEqual(1.2, buildingSite.ExposureCoefficient, "Exposure coefficient is wrong.");
}
public void BasicWindVelocityTest_Success()
{
var terrain = new Mock <ITerrain>();
var buildingSite = new BuildingSite(heightAboveSeaLevel: 350, windZone: WindZone.II,
terrain: terrain.Object);
Assert.That(buildingSite.BasicWindVelocity, Is.EqualTo(26));
}
public void FundamentalValueBasicWindVelocityTest_Success(
double heightAboveSeaLevel, WindZone windZone, double expectedResult)
{
var terrain = new Mock <ITerrain>();
var buildingSite = new BuildingSite(heightAboveSeaLevel, windZone, terrain.Object);
Assert.That(buildingSite.FundamentalValueBasicWindVelocity, Is.EqualTo(expectedResult));
}
public static BuildingSite InstantiateNew(BuildingBlueprint blueprint)
{
GameObject prefab = PrefabLoader.GetPrefab <GameObject>(prefabPath);
GameObject gObj = Instantiate(prefab) as GameObject;
BuildingSite site = gObj.GetComponent <BuildingSite>();
site.data.blueprint = blueprint;
return(site);
}
protected SnowLoad GetSnowLoad(BuildingSite buildingSite)
{
if (SnowDensity.HasValue &&
ReturnPeriod.HasValue)
{
return(new SnowLoad(buildingSite,
SnowDensity.Value,
ReturnPeriod.Value,
DesignSituation.HasValue ? DesignSituation.Value : default,
public void ConstructionTest_Success()
{
var terrain = new Mock <ITerrain>();
var buildingSite = new BuildingSite(heightAboveSeaLevel: 250, windZone: WindZone.II,
terrain: terrain.Object);
Assert.That(buildingSite.HeightAboveSeaLevel, Is.EqualTo(250));
Assert.That(buildingSite.WindZone, Is.EqualTo(WindZone.II));
}
public void CalculateExposureCoefficientTest_WindsweptTopography_Success()
{
var buildingSite = new BuildingSite();
buildingSite.CurrentTopography = TopographyEnum.Windswept;
buildingSite.CalculateExposureCoefficient();
Assert.AreEqual(0.8, buildingSite.ExposureCoefficient, "Exposure coefficient is wrong.");
}
public void CalculateExposureCoefficientTest_ShelteredTopography_Success()
{
var buildingSite = new BuildingSite();
buildingSite.CurrentTopography = TopographyEnum.Sheltered;
buildingSite.CalculateExposureCoefficient();
Assert.AreEqual(1.2, buildingSite.ExposureCoefficient, "Exposure coefficient is wrong.");
}
public void ExampleTest4_CalculateSnowLoad_Success()
{
var buildingSite = new BuildingSite(Zones.SecondZone, Topographies.Normal, altitudeAboveSea: 175);
var snowLoad = new SnowLoad(buildingSite);
var building = new Building(snowLoad);
var monopitchRoof = new MonopitchRoof(building, 10);
buildingSite.CalculateExposureCoefficient();
snowLoad.CalculateSnowLoad();
building.CalculateThermalCoefficient();
monopitchRoof.CalculateSnowLoad();
Assert.AreEqual(0.72, Math.Round(monopitchRoof.SnowLoadOnRoofValue, 3),
"Snow load is not calculated properly.");
}
private BuildingData CreateBuildingData(
DesignSituation designSituation = DesignSituation.A, bool exceptional = false)
{
var buildingSite = new BuildingSite(ZoneEnum.FirstZone, TopographyEnum.Sheltered, 250);
var snowLoad = new SnowLoad(buildingSite, designSituation, exceptional);
var building = new Building(snowLoad);
return(new BuildingData()
{
BuildingSite = buildingSite,
SnowLoad = snowLoad,
Building = building
});
}
/// <summary>
/// Generate Buildings on the edges of the road
/// </summary>
private void GenerateBuildingsOnRoad(Road road)
{
//create building parent if none exists
if (_buildingParent == null)
{
_buildingParent = new GameObject("Buildings");
_buildingParent.SetParent(_townParent);
}
var cell = road.ParentCell;
int offset = _terrainSettings.RoadWidth;
const float minDistance = 0.2f;
//access building prefabs for this cell
var prefabs = GetPrefabsForType(cell.DistrictType);
if (prefabs == null)
{
return;
}
//Create an offset line of this road towards the inside of the cell
var offsetLine = road.GenerateOffsetParallelTowardsPoint(offset, cell.SitePoint);
//calculate total length of the line
var length = offsetLine.Length();
var traveled = minDistance * 2;
//keep repeating until the end is reached
while (traveled < length - (minDistance * 2))
{
//get point on line using normalized values [0,1]
var pc = traveled / length;
var pos = offsetLine.FindRandomPointOnLine(pc, pc);
//Select a random prefab
var prefab = prefabs.GetRandomValue();
//Create a building site from this point
var bs = BuildingSite.FromPoint(pos);
bs.ParentRoad = road;
//Spawn the building
SpawnBuilding(pos.ToVector3(), prefab, bs);
//travel along the line using the width of the building site
traveled += (minDistance + bs.Width / 2);
}
}
public void GetPeakVelocityPressureTest_Success()
{
//Arrange:
var building = new EqualHeightWalls(10, 10, 10);
var terrain = new TerrainCategoryI();
var buildingSite = new BuildingSite(325, WindZone.I, terrain);
var windLoadData = new WindLoadData(buildingSite, building);
//Act:
var result = windLoadData.GetPeakVelocityPressureAt(10);
//Assert:
Assert.That(result, Is.EqualTo(0.904).Within(0.001));
}
public void ExampleTest2_CalculateSnowLoad_Success()
{
var buildingSite = new BuildingSite(Zones.ThirdZone, Topographies.Normal, 360);
var snowLoad = new SnowLoad(buildingSite);
var building = new Building(snowLoad);
var monopitchRoof = new MonopitchRoof(building, 5);
buildingSite.CalculateExposureCoefficient();
snowLoad.CalculateSnowLoad();
building.CalculateThermalCoefficient();
monopitchRoof.CalculateSnowLoad();
Assert.AreEqual(1.248, Math.Round(monopitchRoof.SnowLoadOnRoofValue, 3),
"Snow load for roof is not calculated properly.");
}
public IResult Calculate()
{
EqualHeightWalls structureData = GetStructureData();
HeightDisplacement heightDisplacement = GetHeightDisplacement(structureData);
Terrain terrain = GetTerrainCategory(heightDisplacement);
BuildingSite buildingSite = GetBuildingSite();
WindLoadData windLoadData = GetWindLoadData();
WallsWindLoads wallsWindLoads = GetWallsWindLoads();
//snowguards.CalculateSnowLoad();
//var result = new Result();
//result.Properties.Add("F_s_", snowguards.ForceExertedBySnow);
// return result;
throw new NotImplementedException();
}
/// <summary>
/// Spawn a building on the position
/// </summary>
private void SpawnBuilding(Vector3 position, GameObject prefab, BuildingSite building)
{
var road = building.ParentRoad;
//Make the building face the road, make a perpendicular line from the building pos to the road
var lookAtPos = road.FindPerpendicularPointOnLine(new Point(position.x, position.z)).ToVector3();
//get correct spawn height from the terrain
position.y = _terrain.SampleHeight(position);
lookAtPos.y = position.y;
//Get bounds of the prefab and store them
var size = prefab.GetPrefabBounds();
building.Width = (int)size.x;
building.Height = (int)size.z;
//don't spawn when there is a collision
var colliderPos = position;
colliderPos.y += size.y / 2;
if (isOverlapping(prefab, position))
{
return;
}
//instantiate the building
var go = (GameObject)Object.Instantiate(prefab, position, prefab.transform.rotation);
//look at the road
go.transform.LookAt(lookAtPos);
//flip on Y
go.transform.RotateAround(position, go.transform.up, 180);
go.isStatic = true;
go.SetParent(_buildingParent);
building.UserData = go;
//Remove grass and other details around the object
//RemoveDetailsAroundGameObject((GameObject)go);
//Add to the buildings list
_buildings.Add(building);
}
public async Task <IActionResult> Insert(BuildingSiteModel model)
{
if (ModelState.IsValid)
{
var storageAccount = CloudStorageAccount.Parse(_configuration["BlobStorageConnectionString"]);
var blobClient = storageAccount.CreateCloudBlobClient();
var container =
blobClient.GetContainerReference(model.BuildingSiteLocation.ToLower().Replace(" ", "-"));
await container.CreateIfNotExistsAsync();
var folder = "BuildigSitePhotos";
foreach (var file in model.Photos)
{
var id = Guid.NewGuid();
var fileExtension = Path.GetExtension(file.FileName);
var blobName = $"{folder}/{id}{fileExtension}";
var blobRef = container.GetBlockBlobReference(blobName);
using (var stream = file.OpenReadStream())
{
await blobRef.UploadFromStreamAsync(stream);
}
}
var buildingSite = new BuildingSite
{
CustomerName = model.CustomerName,
CutomerEmail = model.CustomerEMail,
BuildingSiteLocation = model.BuildingSiteLocation,
PhotoFolderUri = $"{container.Name}/{folder}"
};
_buildingSiteRepository.Insert(buildingSite);
return(RedirectToAction("Index"));
}
ModelState.AddModelError("", "Errore generico");
return(View(model));
}
public void BasicWindVelocityTest_WithFactors_Success()
{
var terrain = new Mock <ITerrain>();
var seasonalFactor = new Mock <IFactor>();
seasonalFactor.Setup(sf => sf.GetFactor()).Returns(0.5);
var directionalFactor = new Mock <IFactor>();
directionalFactor.Setup(sf => sf.GetFactor()).Returns(0.1);
var buildingSite = new BuildingSite(
heightAboveSeaLevel: 250,
windZone: WindZone.I,
terrain: terrain.Object,
seasonalFactor: seasonalFactor.Object,
directionalFactor: directionalFactor.Object);
Assert.That(buildingSite.BasicWindVelocity, Is.EqualTo(1.1));
}
public void createBuilding(BuildingSite site, GameObject prefab)
{
var Village = Instantiate(prefab, site.Position, Quaternion.LookRotation(site.Position), BottomModels).GetComponent <Destructible>();
Village.transform.localPosition = new Vector3(Village.transform.localPosition.x, 0, Village.transform.localPosition.z);
villageObjects.Add(Village);
Village.AddOnDestroyListener(delegate()
{
villageObjects.Remove(Village);
UiText.addVillage();
Timer(2, delegate
{
villagesToSpawn.Add(site);
villagesSpawned.Remove(site);
});
});
}
public void ExternalWindPressureCalculationsTest_AS_SX01a_Success()
{
//Arrange:
var building = new EqualHeightWalls(
length: 72, width: 30, height: 7.3);
var terrain = new TerrainCategoryII();
var buildingSite = new BuildingSite(325, WindZone.II, terrain);
var windLoadData = new WindLoadData(buildingSite, building);
var verticalWallOfRectangularBuilding = new WallsWindLoads(building, windLoadData);
//Act:
var result = verticalWallOfRectangularBuilding.GetExternalWindPressureMaxAt(building.Height);
//Assert:
Assert.Multiple(() =>
{
Assert.That(result[Field.D], Is.EqualTo(0.638).Within(0.001));
Assert.That(result[Field.E], Is.EqualTo(-0.273).Within(0.001));
});
}
public void ExampleTest1_CalculateSnowLoad_Success()
{
var buildingSite = new BuildingSite(Zones.FirstZone, Topographies.Normal, 127);
buildingSite.CalculateExposureCoefficient();
var snowLoad = new SnowLoad(buildingSite);
snowLoad.CalculateSnowLoad();
var building = new Building(snowLoad);
building.CalculateThermalCoefficient();
var pitchedRoof = new PitchedRoof(building, 35, 5);
pitchedRoof.CalculateSnowLoad();
Assert.AreEqual(0.467, Math.Round(pitchedRoof.LeftRoof.SnowLoadOnRoofValue, 3),
"Snow load for left roof is not calculated properly.");
Assert.AreEqual(0.56, Math.Round(pitchedRoof.RightRoof.SnowLoadOnRoofValue, 3),
"Snow load for right roof is not calculated properly.");
}
public void ExternalWindPressureCalculationsTest_Walls_Success()
{
//Arrange:
var building = new EqualHeightWalls(10, 10, 15);
var terrain = new TerrainCategoryIII();
var buildingSite = new BuildingSite(325, WindZone.I_III, terrain);
var windLoadData = new WindLoadData(buildingSite, building);
var verticalWallOfRectangularBuilding = new WallsWindLoads(building, windLoadData);
//Act:
var result = verticalWallOfRectangularBuilding.GetExternalWindPressureMaxAt(building.Height);
//Assert:
Assert.Multiple(() =>
{
Assert.That(result[Field.A], Is.EqualTo(-0.754).Within(0.001));
Assert.That(result[Field.B], Is.EqualTo(-0.503).Within(0.001));
Assert.That(result[Field.D], Is.EqualTo(0.503).Within(0.001));
Assert.That(result[Field.E], Is.EqualTo(-0.330).Within(0.001));
});
}
public void Insert(BuildingSite value)
{
using (var connection = new SqlConnection(_connectionString))
{
connection.Open();
string query = @"
INSERT INTO [dbo].[BuildingSite]
([CustomerName]
,[CutomerEmail]
,[BuildingSiteLocation]
,[PhotoFolderUri])
VALUES
(@CustomerName
,@CutomerEmail
,@BuildingSiteLocation
,@PhotoFolderUri)";
connection.Query(query, value);
}
}
public static void InicializeNew()
{
BuildingSite = new BuildingSite();
BuildingSite.BuildingList.Add(new Building(BuildingSite));
IsDataChanged = false;
#region
ForceParamKinds = new List <ForceParamKind>();
ForceParamKinds.Add(new ForceParamKind
{
Label = "Продольная сила N",
UnitLabel = "Н",
Addition = "Положительному значению силы соответствует направление вдоль оси Z (направлена вертикально вверх)"
});
ForceParamKinds.Add(new ForceParamKind
{
Label = "Изгибающий момент Mx",
UnitLabel = "Н*м",
Addition = "За положительное значение момента принят момент против часовой стрелки если смотреть с конца оси X"
});
ForceParamKinds.Add(new ForceParamKind
{
Label = "Изгибающий момент My",
UnitLabel = "Н*м",
Addition = "За положительное значение момента принят момент против часовой стрелки если смотреть с конца оси Y"
});
ForceParamKinds.Add(new ForceParamKind
{
Label = "Поперечная сила Qx",
UnitLabel = "Н",
Addition = "Положительному значению силы соответствует направление вдоль оси X (направлена вправо по плану)"
});
ForceParamKinds.Add(new ForceParamKind
{
Label = "Поперечная сила Qy",
UnitLabel = "Н",
Addition = "Положительному значению силы соответствует направление вдоль оси Y (направлена вверх по плану)"
});
#endregion
}
