swift-openfoodfacts-sdk/Sources/OpenFoodFactsSDK/Schemas/Nutriments.swift

import Foundation
import Units

@dynamicMemberLookup
public struct Nutriments: Codable, Sendable, Sequence {
	// We separate values (Doubles) and units (Strings) for efficient, thread-safe storage
	private let values: [String: Double]
	private let units: [String: String]

	public init(from decoder: Decoder) throws {
		let container = try decoder.container(keyedBy: AnyCodingKey.self)
		var v = [String: Double]()
		var u = [String: String]()

		for key in container.allKeys {
			let keyStr = key.stringValue

			// Try decoding as Double first (most common for _100g, _serving)
			if let doubleVal = try? container.decode(Double.self, forKey: key) {
				v[keyStr] = doubleVal
			}
			// Try decoding as String (could be a unit OR a number in string format)
			else if let stringVal = try? container.decode(
				String.self, forKey: key)
			{
				if let doubleFromStr = Double(stringVal) {
					v[keyStr] = doubleFromStr
				} else {
					u[keyStr] = stringVal  // It's likely a unit like "kcal", "g", "kj"
				}
			}
		}
		self.values = v
		self.units = u
	}

	public func encode(to encoder: Encoder) throws {
		var container = encoder.container(keyedBy: AnyCodingKey.self)
		for (key, val) in values {
			try container.encode(val, forKey: AnyCodingKey(stringValue: key))
		}
		for (key, unit) in units {
			try container.encode(unit, forKey: AnyCodingKey(stringValue: key))
		}
	}

	/// Dynamic lookup: converts `nutriments.energyKcal` -> `Nutrient(name: "energy-kcal")`
	public subscript(dynamicMember member: String) -> Nutrient {
		let kebabName = member.camelCaseToKebabCase()
		return Nutrient(name: kebabName, values: values, units: units)
	}

	// MARK: - Sequence Conformance
	// Allows: nutriments.forEach { nutrient in ... }
	public func makeIterator() -> AnyIterator<Nutrient> {
		// 1. Collect all keys from values and units
		let allKeys = Set(values.keys).union(units.keys)

		// 2. Extract unique base names (e.g., "energy-kcal_100g" -> "energy-kcal")
		let baseNames = allKeys.compactMap { key -> String? in
			// Filter out keys that are not nutrient properties
			guard !key.isEmpty else { return nil }

			// Remove common suffixes to find the "root" nutrient name
			let suffixes = [
				"_100g", "_serving", "_unit", "_value", "_prepared", "_label",
			]
			var name = key

			// Sort suffixes by length (descending) to avoid partial matches
			for suffix in suffixes {
				if let range = name.range(of: suffix) {
					name.removeSubrange(range)
				}
			}
			return name
		}

		// 3. Create a unique sorted list
		let uniqueNames = Set(baseNames).sorted()
		var iterator = uniqueNames.makeIterator()

		// 4. Return an iterator that produces `Nutrient` views
		return AnyIterator {
			guard let name = iterator.next() else { return nil }
			return Nutrient(name: name, values: self.values, units: self.units)
		}
	}
}

// MARK: - Nutrient View
public struct Nutrient: Sendable {
	public let name: String
	private let values: [String: Double]
	private let units: [String: String]

	internal init(
		name: String, values: [String: Double], units: [String: String]
	) {
		self.name = name
		self.values = values
		self.units = units
	}

	// MARK: - Raw Properties (Mapped to V2 JSON keys)
	public var per100g: Double? { values["\(name)_100g"] }
	public var perServing: Double? { values["\(name)_serving"] }
	public var value: Double? { values["\(name)_value"] ?? values[name] }
	public var unit: String? { units["\(name)_unit"] }

	// Computed / Legacy
	public var valueComputed: Double? { values["\(name)_value"] }

	// Prepared
	public var preparedPer100g: Double? { values["\(name)_prepared_100g"] }
	public var preparedPerServing: Double? {
		values["\(name)_prepared_serving"]
	}
	public var preparedValue: Double? {
		values["\(name)_prepared_value"] ?? values["\(name)_prepared"]
	}
	public var preparedUnit: String? { units["\(name)_prepared_unit"] }
	public var preparedValueComputed: Double? {
		values["\(name)_prepared_value"]
	}

	// MARK: - UnitValue Helpers (Restored)

	public var per100gUnitValue: UnitValue<Double>? {
		guard let rawValue = per100g ?? value ?? valueComputed,
			let unitString = unit,
			let unitEnum = Unit(rawValue: unitString)
		else { return nil }
		return UnitValue(value: rawValue, unit: unitEnum)
	}

	public var perServingUnitValue: UnitValue<Double>? {
		guard let rawValue = perServing,
			let unitString = unit,
			let unitEnum = Unit(rawValue: unitString)
		else { return nil }
		return UnitValue(value: rawValue, unit: unitEnum)
	}

	public var preparedPer100gUnitValue: UnitValue<Double>? {
		guard
			let rawValue = preparedPer100g ?? preparedValue
				?? preparedValueComputed,
			let unitString = preparedUnit ?? unit,  // Fallback to main unit
			let unitEnum = Unit(rawValue: unitString)
		else { return nil }
		return UnitValue(value: rawValue, unit: unitEnum)
	}

	public var preparedPerServingUnitValue: UnitValue<Double>? {
		guard let rawValue = preparedPerServing,
			let unitString = preparedUnit ?? unit,
			let unitEnum = Unit(rawValue: unitString)
		else { return nil }
		return UnitValue(value: rawValue, unit: unitEnum)
	}
}

// MARK: - Helpers

private struct AnyCodingKey: CodingKey {
	var stringValue: String
	var intValue: Int?
	init(stringValue: String) { self.stringValue = stringValue }
	init?(intValue: Int) { return nil }
}

extension String {
	// Converts "energyKcal" -> "energy-kcal"
	fileprivate func camelCaseToKebabCase() -> String {
		let pattern = "([a-z0-9])([A-Z])"
		let regex = try! NSRegularExpression(pattern: pattern, options: [])
		let range = NSRange(location: 0, length: self.count)
		return regex.stringByReplacingMatches(
			in: self, options: [], range: range, withTemplate: "$1-$2"
		).lowercased()
	}
}