diff --git a/lab-python-data-structures.ipynb b/lab-python-data-structures.ipynb index 5b3ce9e0..d2804be7 100644 --- a/lab-python-data-structures.ipynb +++ b/lab-python-data-structures.ipynb @@ -50,11 +50,97 @@ "\n", "Solve the exercise by implementing the steps using the Python concepts of lists, dictionaries, sets, and basic input/output operations. " ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": {}, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "{'t-shirt': 5, 'mug': 5, 'hat': 5, 'book': 5, 'keychain': 5}\n", + "New orders are as follows: {'hat', 'book', 'mug'}\n", + "Order Statistics:\n", + "Total Products Ordered: 3\n", + "Percentage of Products Ordered: 60.0 %\n", + "Updated Inventory:\n", + "Amount of t-shirts in the inventory: 5\n", + "Amount of mugs in the inventory: 4\n", + "Amount of hats in the inventory: 4\n", + "Amount of books in the inventory: 4\n", + "Amount of keychains in the inventory: 5\n" + ] + } + ], + "source": [ + "# Define a list\n", + "products = [\"t-shirt\", \"mug\", \"hat\", \"book\", \"keychain\"]\n", + "# Create empty dictionary\n", + "inventory = {}\n", + "# Ask for input for each product\n", + "inventory[\"t-shirt\"] = int(input(\"Enter the quantity of the t-shirt: \"))\n", + "inventory[\"mug\"] = int(input(\"Enter the quantity of the mug: \"))\n", + "inventory[\"hat\"] = int(input(\"Enter the quantity of the hat: \"))\n", + "inventory[\"book\"] = int(input(\"Enter the quantity of the book: \"))\n", + "inventory[\"keychain\"] = int(input(\"Enter the quantity of the keychain: \"))\n", + "\n", + "print(inventory)\n", + "# Empty set \n", + "customer_orders = set()\n", + "\n", + "# Three products orders from the customer\n", + "order_1 = input(\"Enter product 1: \").strip().lower()\n", + "order_2 = input(\"Enter product 2: \").strip().lower()\n", + "order_3 = input(\"Enter product 3: \").strip().lower()\n", + "\n", + "# validation\n", + "if order_1 in products: \n", + " customer_orders.add(order_1)\n", + "if order_2 in products:\n", + " customer_orders.add(order_2)\n", + "if order_3 in products:\n", + " customer_orders.add(order_3)\n", + "\n", + "# Print orders\n", + "print(f\"New orders are as follows: {customer_orders}\")\n", + "\n", + "# Calculate order statistics\n", + "total_products_ordered = len(customer_orders)\n", + "percentage_ordered = (total_products_ordered / len(products)) * 100\n", + "order_status= (total_products_ordered, percentage_ordered)\n", + "\n", + "# Print statistics\n", + "print(\"Order Statistics:\")\n", + "print(f\"Total Products Ordered: {order_status[0]}\")\n", + "print(f\"Percentage of Products Ordered: {order_status[1]} %\")\n", + "\n", + "#Update inventory\n", + "if \"t-shirt\" in customer_orders and inventory[\"t-shirt\"] > 0:\n", + " inventory[\"t-shirt\"] -= 1\n", + "if \"mug\" in customer_orders and inventory[\"mug\"] > 0:\n", + " inventory[\"mug\"] -= 1\n", + "if \"hat\" in customer_orders and inventory[\"hat\"] > 0:\n", + " inventory[\"hat\"] -= 1\n", + "if \"book\" in customer_orders and inventory[\"book\"] > 0:\n", + " inventory[\"book\"] -= 1\n", + "if \"keychain\" in customer_orders and inventory[\"keychain\"] > 0:\n", + " inventory[\"keychain\"] -= 1\n", + "\n", + "# Print inventory\n", + "print(\"Updated Inventory:\")\n", + "print(f\"Amount of t-shirts in the inventory: {inventory['t-shirt']}\")\n", + "print(f\"Amount of mugs in the inventory: {inventory['mug']}\")\n", + "print(f\"Amount of hats in the inventory: {inventory['hat']}\")\n", + "print(f\"Amount of books in the inventory: {inventory['book']}\")\n", + "print(f\"Amount of keychains in the inventory: {inventory['keychain']}\")" + ] } ], "metadata": { "kernelspec": { - "display_name": "Python 3 (ipykernel)", + "display_name": "base", "language": "python", "name": "python3" }, @@ -68,7 +154,7 @@ "name": "python", "nbconvert_exporter": "python", "pygments_lexer": "ipython3", - "version": "3.9.13" + "version": "3.11.7" } }, "nbformat": 4,