private static Element GetObject(ref SqliteDataReader dr)
{
var element = new Element()
{
AtomicNumber = Convert.ToUInt32(dr["atomicNumber"]),
Symbol = dr["symbol"].ToString(),
AtomicMass = Convert.ToDecimal(dr["atomicMass"]),
Name = dr["name"].ToString()
};
if (!Convert.IsDBNull(dr["atomicRadius"]))
{
element.AtomicRadius = Convert.ToInt32(dr["atomicRadius"]);
}
if (!Convert.IsDBNull(dr["meltingPoint"]))
{
element.MeltingPoint = Convert.ToDecimal(dr["meltingPoint"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["boilingPoint"]))
{
element.BoilingPoint = Convert.ToDecimal(dr["boilingPoint"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["density"]))
{
element.Density = Convert.ToDecimal(dr["density"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["electronAffinity"]))
{
element.ElectronAffinity = Convert.ToInt32(dr["electronAffinity"]);
}
if (!Convert.IsDBNull(dr["electronegativity"]))
{
element.Electronegativity = Convert.ToDecimal(dr["electronegativity"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["electronicConfiguration"]))
{
element.ElectronicConfiguration = dr["electronicConfiguration"].ToString();
}
if (!Convert.IsDBNull(dr["groupBlock"]))
{
element.GroupBlock = GroupBlockDAO.Select(Convert.ToInt64(dr["groupBlock"]));
}
if (!Convert.IsDBNull(dr["ionRadius"]))
{
element.IonRadius = dr["ionRadius"].ToString();
}
if (!Convert.IsDBNull(dr["ionizationEnergy"]))
{
element.IonizationEnergy = Convert.ToDecimal(dr["ionizationEnergy"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["oxidationStates"]))
{
element.OxidationStates = new List <int>();
var oxidationStates = dr["oxidationStates"].ToString().Split(',');
foreach (var oxidationState in oxidationStates)
{
if (!string.IsNullOrEmpty(oxidationState))
{
element.OxidationStates.Add(Convert.ToInt32(oxidationState));
}
}
}
if (!Convert.IsDBNull(dr["standardState"]))
{
element.StandardState = StandardStateDAO.Select(Convert.ToInt64(dr["standardState"]));
}
if (!Convert.IsDBNull(dr["vanDerWaalsRadius"]))
{
element.VanDerWaalsRadius = Convert.ToDecimal(dr["vanDerWaalsRadius"], CultureInfo.InvariantCulture);
}
if (!Convert.IsDBNull(dr["yearDiscovered"]))
{
element.YearDiscovered = Convert.ToInt32(dr["yearDiscovered"]);
}
return(element);
}
private static Element GetObjectFromJSON(dynamic data)
{
if (data.ContainsKey("message"))
{
throw new PeriodicTableException("Element does not exist!");
}
var element = new Element();
if (data.ContainsKey("atomicNumber"))
{
element.AtomicNumber = Convert.ToUInt32(data["atomicNumber"]);
}
if (data.ContainsKey("symbol"))
{
element.Symbol = data["symbol"].ToString();
}
if (data.ContainsKey("atomicMass"))
{
if (data["atomicMass"] is JArray)
{
data["atomicMass"] = data["atomicMass"][0];
}
element.AtomicMass = string.IsNullOrWhiteSpace(data["atomicMass"].ToString()) ? null :
Convert.ToDecimal(Regex.Replace(data["atomicMass"].ToString(), @"\(.*\)", ""), CultureInfo.InvariantCulture);
}
if (data.ContainsKey("name"))
{
element.Name = data["name"].ToString();
}
if (data.ContainsKey("atomicRadius"))
{
element.AtomicRadius = string.IsNullOrWhiteSpace(data["atomicRadius"].ToString()) ? null :
Convert.ToInt32(data["atomicRadius"]);
}
if (data.ContainsKey("meltingPoint"))
{
element.MeltingPoint = string.IsNullOrWhiteSpace(data["meltingPoint"].ToString()) ? null :
Convert.ToDecimal(data["meltingPoint"], CultureInfo.InvariantCulture);
}
if (data.ContainsKey("boilingPoint"))
{
element.BoilingPoint = string.IsNullOrWhiteSpace(data["boilingPoint"].ToString()) ? null :
Convert.ToDecimal(data["boilingPoint"], CultureInfo.InvariantCulture);
}
if (data.ContainsKey("density"))
{
element.Density = string.IsNullOrWhiteSpace(data["density"].ToString()) ? null :
decimal.Parse(data["density"].ToString(), NumberStyles.Any, CultureInfo.InvariantCulture);
}
if (data.ContainsKey("electronAffinity"))
{
element.ElectronAffinity = string.IsNullOrWhiteSpace(data["electronAffinity"].ToString()) ? null :
Convert.ToInt32(data["electronAffinity"]);
}
if (data.ContainsKey("electronegativity"))
{
element.Electronegativity = string.IsNullOrWhiteSpace(data["electronegativity"].ToString()) ? null :
Convert.ToDecimal(data["electronegativity"], CultureInfo.InvariantCulture);
}
if (data.ContainsKey("electronicConfiguration"))
{
element.ElectronicConfiguration = data["electronicConfiguration"].ToString();
}
if (data.ContainsKey("groupBlock"))
{
element.GroupBlock = GroupBlockDAO.Select(data["groupBlock"].ToString());
}
if (data.ContainsKey("ionRadius"))
{
element.IonRadius = string.IsNullOrWhiteSpace(data["ionRadius"].ToString()) ? null :
data["ionRadius"].ToString();
}
if (data.ContainsKey("ionizationEnergy"))
{
element.IonizationEnergy = string.IsNullOrWhiteSpace(data["ionizationEnergy"].ToString()) ? null :
Convert.ToDecimal(data["ionizationEnergy"], CultureInfo.InvariantCulture);
}
if (data.ContainsKey("oxidationStates"))
{
element.OxidationStates = new List <int>();
var oxidationStates = data["oxidationStates"].ToString().Split(',');
foreach (var oxidationState in oxidationStates)
{
if (!string.IsNullOrEmpty(oxidationState))
{
element.OxidationStates.Add(Convert.ToInt32(oxidationState));
}
}
}
if (data.ContainsKey("standardState"))
{
element.StandardState = StandardStateDAO.Select(data["standardState"].ToString());
}
if (data.ContainsKey("vanDelWaalsRadius"))
{
element.VanDerWaalsRadius = string.IsNullOrWhiteSpace(data["vanDelWaalsRadius"].ToString()) ? null :
Convert.ToDecimal(data["vanDelWaalsRadius"], CultureInfo.InvariantCulture);
}
if (data.ContainsKey("yearDiscovered"))
{
element.YearDiscovered = (data["yearDiscovered"].ToString().Trim() == "Ancient") ? null : Convert.ToInt32(data["yearDiscovered"]);
}
return(element);
}