private static ObservableCollection <FoodComposition> ConvertToList(JToken foodComposition)
{
IList <JToken> compositionList = foodComposition.Children().ToList();
var list = new ObservableCollection <FoodComposition>();
for (int i = 0; i < compositionList.Count; i++)
{
JToken children = compositionList[i];
var foodGroup = children["Food Group"].Value <int>();
var itemNo = children["Item No."].Value <int>();
var indexNo = children["Index No."].Value <int>();
var foodAndDescription = children["Food and Description"].Value <string>();
var refuse = Nutrient.Parse(children["Refuse"].Value <string>(), UnitKind.percent);
var energy_kcal = Nutrient.Parse(children["Energy (kcal)"].Value <string>(), UnitKind.kcal);
var energy_kj = Nutrient.Parse(children["Energy (kJ)"].Value <string>(), UnitKind.kj);
var water = Nutrient.Parse(children["Water"].Value <string>(), UnitKind.g);
var protein = Nutrient.Parse(children["Protein, calculated from reference nitrogen"].Value <string>(), UnitKind.g);
var protein_AminoAcidResidues = Nutrient.Parse(children["Protein, calculated as the sum of amino acid residues"].Value <string>(), UnitKind.g);
var lipid = Nutrient.Parse(children["Lipid"].Value <string>(), UnitKind.g);
var fattyAcid_TriacylGlycerol = Nutrient.Parse(children["Fatty acid, triacyl-glycerol equivalents"].Value <string>(), UnitKind.g);
var fattyAcid_Saturated = Nutrient.Parse(children["Fatty acid, saturated"].Value <string>(), UnitKind.g);
var fattyAcid_MonoUnsaturated = Nutrient.Parse(children["Fatty acid, mono-unsaturated"].Value <string>(), UnitKind.g);
var fattyAcid_PolyUnsaturated = Nutrient.Parse(children["Fatty acid, poly-unsaturated"].Value <string>(), UnitKind.g);
var cholesterol = Nutrient.Parse(children["Cholesterol"].Value <string>(), UnitKind.g);
var carbohydrate = Nutrient.Parse(children["Carbohydrate, total, calculated by difference"].Value <string>(), UnitKind.g);
//var carbohydrate_Available = Nutrient.Parse(children["Carbohydrate, available; expressed in mono-saccharide equivalents"].Value<string>(), UnitKind.g);
var carbohydrate_Available = Nutrient.Parse(children["Carbohydrate, available, expressed in mono-saccharide equivalents"].Value <string>(), UnitKind.g);
var dietaryFiber_Soluble = Nutrient.Parse(children["Dietary fiber, soluble"].Value <string>(), UnitKind.g);
var dietaryFiber_Insoluble = Nutrient.Parse(children["Dietary fiber, insoluble"].Value <string>(), UnitKind.g);
var dietaryFiber_Total = Nutrient.Parse(children["Dietary fiber, total"].Value <string>(), UnitKind.g);
var ash = Nutrient.Parse(children["Ash"].Value <string>(), UnitKind.g);
var sodium = Nutrient.Parse(children["Sodium"].Value <string>(), UnitKind.mg);
var potassium = Nutrient.Parse(children["Potassium"].Value <string>(), UnitKind.mg);
var calcium = Nutrient.Parse(children["Calcium"].Value <string>(), UnitKind.mg);
var magnesium = Nutrient.Parse(children["Magnesium"].Value <string>(), UnitKind.mg);
var phosphorus = Nutrient.Parse(children["Phosphorus"].Value <string>(), UnitKind.mg);
var iron = Nutrient.Parse(children["Iron"].Value <string>(), UnitKind.mg);
var zinc = Nutrient.Parse(children["Zinc"].Value <string>(), UnitKind.mg);
var copper = Nutrient.Parse(children["Copper"].Value <string>(), UnitKind.mg);
var manganese = Nutrient.Parse(children["Manganese"].Value <string>(), UnitKind.mg);
var iodine = Nutrient.Parse(children["Iodine"].Value <string>(), UnitKind.micro_g);
var selenium = Nutrient.Parse(children["Selenium"].Value <string>(), UnitKind.micro_g);
var chromium = Nutrient.Parse(children["Chromium"].Value <string>(), UnitKind.micro_g);
var molybdenum = Nutrient.Parse(children["Molybdenum"].Value <string>(), UnitKind.micro_g);
var retinol = Nutrient.Parse(children["Retinol"].Value <string>(), UnitKind.micro_g);
var alpha_Carotene = Nutrient.Parse(children["alpha-Carotene"].Value <string>(), UnitKind.micro_g);
var beta_Carotene = Nutrient.Parse(children["beta-Carotene"].Value <string>(), UnitKind.micro_g);
var beta_Cryptoxathin = Nutrient.Parse(children["beta-Cryptoxanthin"].Value <string>(), UnitKind.micro_g);
var beta_Caroteneequivalents = Nutrient.Parse(children["beta-Caroteneequivalents"].Value <string>(), UnitKind.micro_g);
var retinon_ActivityEquivalents = Nutrient.Parse(children["Retinol activityequivalents"].Value <string>(), UnitKind.micro_g);
var vitamin_D = Nutrient.Parse(children["Vitamin D"].Value <string>(), UnitKind.micro_g);
var alpha_Tocopherol = Nutrient.Parse(children["alpha-Tocopherol"].Value <string>(), UnitKind.mg);
var beta_Tocopherol = Nutrient.Parse(children["beta-Tocopherol"].Value <string>(), UnitKind.mg);
var gamma_Tocopherol = Nutrient.Parse(children["gamma-Tocopherol"].Value <string>(), UnitKind.mg);
var delta_Tocopherol = Nutrient.Parse(children["delta-Tocopherol"].Value <string>(), UnitKind.mg);
var vitamin_K = Nutrient.Parse(children["Vitamin K"].Value <string>(), UnitKind.micro_g);
var thiamin = Nutrient.Parse(children["Thiamin"].Value <string>(), UnitKind.mg);
var riboflavin = Nutrient.Parse(children["Riboflavin"].Value <string>(), UnitKind.mg);
var niacin = Nutrient.Parse(children["Niacin"].Value <string>(), UnitKind.mg);
var vitamin_B6 = Nutrient.Parse(children["Vitamin B-6"].Value <string>(), UnitKind.mg);
var vitamin_B12 = Nutrient.Parse(children["Vitamin B-12"].Value <string>(), UnitKind.micro_g);
var folate = Nutrient.Parse(children["Folate"].Value <string>(), UnitKind.micro_g);
var pantothenic_Acid = Nutrient.Parse(children["Pantothenic acid"].Value <string>(), UnitKind.mg);
var biotin = Nutrient.Parse(children["Biotin"].Value <string>(), UnitKind.micro_g);
var ascorbic_Acid = Nutrient.Parse(children["Ascorbic acid"].Value <string>(), UnitKind.mg);
var salt_Equivalents = Nutrient.Parse(children["Salt equivalents"].Value <string>(), UnitKind.g);
var alcohol = Nutrient.Parse(children["Alcohol"].Value <string>(), UnitKind.g);
var nitrate_Ion = Nutrient.Parse(children["Nitrate ion "].Value <string>(), UnitKind.g);
var theobromine = Nutrient.Parse(children["Theobromine"].Value <string>(), UnitKind.g);
var caffeine = Nutrient.Parse(children["Caffeine"].Value <string>(), UnitKind.g);
var tannin = Nutrient.Parse(children["Tannin"].Value <string>(), UnitKind.g);
var polyphenol = Nutrient.Parse(children["Polyphenol"].Value <string>(), UnitKind.g);
var acetic_Acid = Nutrient.Parse(children["Acetic acid"].Value <string>(), UnitKind.g);
var cooking_Oil = Nutrient.Parse(children["Cooking oil"].Value <string>(), UnitKind.g);
var organic_Acids = Nutrient.Parse(children["Organic acids, total"].Value <string>(), UnitKind.g);
var yield = Nutrient.Parse(children["Yield"].Value <string>(), UnitKind.percent);
list.Add(
new FoodComposition(foodGroup, itemNo, indexNo, foodAndDescription, refuse,
energy_kcal, energy_kj, water, protein, protein_AminoAcidResidues,
lipid, fattyAcid_TriacylGlycerol, fattyAcid_Saturated,
fattyAcid_MonoUnsaturated, fattyAcid_PolyUnsaturated, cholesterol, carbohydrate,
carbohydrate_Available, dietaryFiber_Soluble, dietaryFiber_Insoluble, dietaryFiber_Total,
ash, sodium, potassium, calcium, magnesium, phosphorus,
iron, zinc, copper, manganese, iodine, selenium,
chromium, molybdenum, retinol, alpha_Carotene, beta_Carotene,
beta_Cryptoxathin, beta_Caroteneequivalents, retinon_ActivityEquivalents, vitamin_D,
alpha_Tocopherol, beta_Tocopherol, gamma_Tocopherol, delta_Tocopherol, vitamin_K,
thiamin, riboflavin, niacin, vitamin_B6, vitamin_B12, folate, pantothenic_Acid,
biotin, ascorbic_Acid, salt_Equivalents, alcohol, nitrate_Ion, theobromine, caffeine,
tannin, polyphenol, acetic_Acid, cooking_Oil, organic_Acids, yield)
);
}
return(list);
}