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recipe-gen / app.py

OmPrakashSingh1704

Update app.py

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	import os
	import re
	import ast
	import json
	import pickle
	import secrets
	import random
	import datetime
	import pandas as pd
	from huggingface_hub import login, InferenceClient
	from sklearn.metrics.pairwise import cosine_similarity
	import streamlit as st
	import wordcloud
	import matplotlib.pyplot as plt
	from pygwalker.api.streamlit import StreamlitRenderer
	import plotly.express as px

	st.set_page_config(layout="wide")

	# Load environment token
	login(token=os.getenv("TOKEN"))

	# Load data from pickled files
	with open('cv.pkl', 'rb') as file:
	cv = pickle.load(file)

	with open('vectors.pkl', 'rb') as file:
	vectors = pickle.load(file)

	with open('items_dict.pkl', 'rb') as file:
	items_dict = pd.DataFrame.from_dict(pickle.load(file))


	mode = st.toggle(label="MART")


	def get_recommendations(user_description, count_vectorizer, count_matrix):
	user_description = preprocess_text(user_description)
	user_vector = count_vectorizer.transform([user_description])
	cosine_similarities = cosine_similarity(user_vector, count_matrix).flatten()
	similar_indices = cosine_similarities.argsort()[::-1]
	return similar_indices


	def show_recipe(recipe):
	with st.spinner("HANG TIGHT, RECIPE INCOMING..."):
	name_and_dis = f'# {recipe["name"]}\n\n'
	name_and_dis += f'{recipe["description"]}\n\n'
	ingredients = '## Ingredients:\n'
	instructions = '\n## Instructions:\n'
	for instruction in recipe["instructions"]:
	instructions += f"{instruction['step_number']}. {instruction['instruction']}\n"

	st.write(name_and_dis)
	col01, col02 = st.columns(2)
	with col01:
	cont = st.container(border=True, height=500)
	cont.write(ingredients)
	for j, i in enumerate(recipe["ingredients"]):
	cont.selectbox(i['name'],
	options=items_dict.iloc[get_recommendations(i['name'], cv, vectors)][
	"PRODUCT_NAME"].values,
	key=f"selectbox_{j}_{i['name']}{random.random() * 100}")
	with col02:
	cont = st.container(border=True, height=500)
	cont.write(instructions)


	# Initialize the inference client for the Mixtral model

	if not mode:
	cook, saved = st.tabs(['COOK', 'SAVED'])
	with cook:
	client = InferenceClient("mistralai/Mixtral-8x7B-Instruct-v0.1")

	if 'recipe' not in st.session_state:
	st.session_state.recipe = None

	if 'recipe_saved' not in st.session_state:
	st.session_state.recipe_saved = None

	if 'user_direction' not in st.session_state:
	st.session_state.user_direction = None

	if 'serving_size' not in st.session_state:
	st.session_state.serving_size = 2

	if 'selected_difficulty' not in st.session_state:
	st.session_state.selected_difficulty = "Quick & Easy"

	if 'exclusions' not in st.session_state:
	st.session_state.exclusions = None


	def preprocess_text(text):
	# Remove non-alphabet characters and extra spaces
	text = re.sub(r'[^a-zA-Z\s]', '', text)
	text = re.sub(r'\s+', ' ', text).strip()
	return text.lower()


	def create_detailed_prompt(user_direction, exclusions, serving_size, difficulty):
	if difficulty == "Quick & Easy":
	prompt = (
	f"Provide a 'Quick and Easy' recipe for {user_direction} that excludes {exclusions} and has a serving size of {serving_size}. "
	f"It should require as few ingredients as possible and should be ready in as little time as possible. "
	f"The steps should be simple, and the ingredients should be commonly found in a household pantry. "
	f"Provide a detailed ingredient list and step-by-step guide that explains the instructions to prepare in detail."
	)
	elif difficulty == "Intermediate":
	prompt = (
	f"Provide a classic recipe for {user_direction} that excludes {exclusions} and has a serving size of {serving_size}. "
	f"The recipe should offer a bit of a cooking challenge but should not require professional skills. "
	f"The recipe should feature traditional ingredients and techniques that are authentic to its cuisine. "
	f"Provide a detailed ingredient list and step-by-step guide that explains the instructions to prepare in detail."
	)
	elif difficulty == "Professional":
	prompt = (
	f"Provide an advanced recipe for {user_direction} that excludes {exclusions} and has a serving size of {serving_size}. "
	f"The recipe should push the boundaries of culinary arts, integrating unique ingredients, advanced cooking techniques, and innovative presentations. "
	f"The recipe should be able to be served at a high-end restaurant or would impress at a gourmet food competition. "
	f"Provide a detailed ingredient list and step-by-step guide that explains the instructions to prepare in detail."
	)
	return prompt


	def generate_recipe(user_inputs):
	with st.spinner('Building the perfect recipe...'):
	prompt = create_detailed_prompt(user_inputs['user_direction'], user_inputs['exclusions'],
	user_inputs['serving_size'], user_inputs['difficulty'])

	functions = [
	{
	"name": "provide_recipe",
	"description": "Provides a detailed recipe strictly adhering to the user input/specifications, especially ingredient exclusions and the recipe difficulty",
	"parameters": {
	"type": "object",
	"properties": {
	"name": {
	"type": "string",
	"description": "A creative name for the recipe"
	},
	"description": {
	"type": "string",
	"description": "a brief one-sentence description of the provided recipe"
	},
	"ingredients": {
	"type": "array",
	"items": {
	"type": "object",
	"properties": {
	"name": {
	"type": "string",
	"description": "Quantity and name of the ingredient"
	}
	}
	}
	},
	"instructions": {
	"type": "array",
	"items": {
	"type": "object",
	"properties": {
	"step_number": {
	"type": "number",
	"description": "The sequence number of this step"
	},
	"instruction": {
	"type": "string",
	"description": "Detailed description of what to do in this step"
	}
	}
	}
	}
	},
	"required": [
	"name",
	"description",
	"ingredients",
	"instructions"
	],
	},
	}
	]

	generate_kwargs = dict(
	temperature=0.9,
	max_new_tokens=10000,
	top_p=0.9,
	repetition_penalty=1.0,
	do_sample=True,
	)

	prompt += f"\nPlease format the output in JSON. The JSON should include fields for 'name', 'description', 'ingredients', and 'instructions', with each field structured as described below.\n\n{json.dumps(functions)}"

	response = client.text_generation(prompt, **generate_kwargs)
	st.session_state.recipe = response
	st.session_state.recipe_saved = False


	def clear_inputs():
	st.session_state.user_direction = None
	st.session_state.exclusions = None
	st.session_state.serving_size = 2
	st.session_state.selected_difficulty = "Quick & Easy"
	st.session_state.recipe = None


	st.title("Let's get cooking")
	col1, col2 = st.columns(2)
	with col1:
	st.session_state.user_direction = st.text_area(
	"What do you want to cook? Describe anything - a dish, cuisine, event, or vibe.",
	value=st.session_state.user_direction,
	placeholder="quick snack, asian style bowl with either noodles or rice, something italian",
	)
	with col2:
	st.session_state.serving_size = st.number_input(
	"How many servings would you like to cook?",
	min_value=1,
	max_value=100,
	value=st.session_state.serving_size,
	step=1
	)

	difficulty_dictionary = {
	"Quick & Easy": {
	"description": "Easy recipes with straightforward instructions. Ideal for beginners or those seeking quick and simple cooking.",
	},
	"Intermediate": {
	"description": "Recipes with some intricate steps that invite a little challenge. Perfect for regular cooks wanting to expand their repertoire with new ingredients and techniques.",
	},
	"Professional": {
	"description": "Complex recipes that demand a high level of skill and precision. Suited for seasoned cooks aspiring to professional-level sophistication and creativity.",
	}
	}

	st.session_state.selected_difficulty = st.radio(
	"Choose a difficulty level for your recipe.",
	[
	list(difficulty_dictionary.keys())[0],
	list(difficulty_dictionary.keys())[1],
	list(difficulty_dictionary.keys())[2]
	],
	captions=[
	difficulty_dictionary["Quick & Easy"]["description"],
	difficulty_dictionary["Intermediate"]["description"],
	difficulty_dictionary["Professional"]["description"]
	],
	index=list(difficulty_dictionary).index(st.session_state.selected_difficulty)
	)

	st.session_state.exclusions = st.text_area(
	"Any ingredients you want to exclude?",
	value=st.session_state.exclusions,
	placeholder="gluten, dairy, nuts, cilantro",
	)

	fancy_exclusions = ""

	if st.session_state.selected_difficulty == "Professional":
	exclude_fancy = st.checkbox(
	"Exclude cliche professional ingredients? (gold leaf, truffle, edible flowers, microgreens)",
	value=True)
	if exclude_fancy:
	fancy_exclusions = "gold leaf, truffle, edible flowers, microgreens, gold dust"

	user_inputs = {
	"user_direction": st.session_state.user_direction,
	"exclusions": f"{st.session_state.exclusions}, {fancy_exclusions}".strip(", "),
	"serving_size": st.session_state.serving_size,
	"difficulty": st.session_state.selected_difficulty
	}

	button_cols_submit = st.columns([1, 1, 4])
	with button_cols_submit[0]:
	st.button(label='Submit', on_click=generate_recipe, kwargs=dict(user_inputs=user_inputs), type="primary",
	use_container_width=True)
	with button_cols_submit[1]:
	st.button(label='Reset', on_click=clear_inputs, type="secondary", use_container_width=True)
	with button_cols_submit[2]:
	st.empty()


	def create_safe_filename(recipe_name):
	# format and generate random URL-safe text string
	safe_name = recipe_name.lower()
	safe_name = safe_name.replace(" ", "_")
	safe_name = re.sub(r"[^a-zA-Z0-9_]", "", safe_name)
	safe_name = (safe_name[:50]) if len(safe_name) > 50 else safe_name
	unique_token = secrets.token_hex(8)
	safe_filename = f"{unique_token}_{safe_name}"
	return safe_filename


	def save_recipe():
	with st.spinner('WAIT SAVING YOUR DISH...'):
	filename = create_safe_filename(recipe["name"])
	os.makedirs('data', exist_ok=True)
	with open(f'./data/{filename}.pkl', 'wb') as f:
	pickle.dump(recipe, f)
	st.session_state.recipe_saved = True


	if st.session_state.recipe is not None:
	st.divider()
	print(st.session_state.recipe)
	recipe = json.loads(st.session_state.recipe)
	if not st.session_state.recipe_saved:
	show_recipe(recipe)
	recipe['timestamp'] = str(datetime.datetime.now())
	if st.session_state.recipe_saved == True:
	disable_button = True
	else:
	disable_button = False
	button_cols_save = st.columns([1, 1, 4])
	with button_cols_save[0]:
	st.button("Save Recipe", on_click=save_recipe, disabled=disable_button, type="primary")
	with button_cols_save[1]:
	st.empty()
	with button_cols_save[2]:
	st.empty()
	if st.session_state.recipe_saved == True:
	st.success("Recipe Saved!")
	with saved:
	st.title("Saved Recipes")
	with st.spinner('LOADING YOUR RECIPE...'):
	def load_saved_recipes_from_pickle(directory_path):
	os.makedirs('data', exist_ok=True)
	recipes = []
	# Iterate through all files in the directory
	for filename in os.listdir(directory_path):
	if filename.endswith('.pkl'):
	file_path = os.path.join(directory_path, filename)
	with open(file_path, 'rb') as file:
	recipe = pickle.load(file)
	recipes.append(recipe)
	return recipes


	# get all saved files
	directory_path = 'data'
	recipes = load_saved_recipes_from_pickle(directory_path)
	print(recipes)

	cols = st.columns([4, 1])
	with cols[1]:
	user_sort = st.selectbox("Sort", ('Recent', 'Oldest', 'A-Z', 'Z-A', 'Random'))
	if user_sort == 'Recent':
	recipes.sort(key=lambda x: x['timestamp'], reverse=True)
	elif user_sort == 'Oldest':
	recipes.sort(key=lambda x: x['timestamp'])
	elif user_sort == 'A-Z':
	recipes.sort(key=lambda x: x['name'])
	elif user_sort == 'Z-A':
	recipes.sort(key=lambda x: x['name'], reverse=True)
	elif user_sort == 'Random':
	recipes.sort(key=lambda x: x['file'])
	with cols[0]:
	user_search = st.selectbox("Search Recipes", [""] + [recipe['name'] for recipe in recipes])
	st.write("") # just some space

	if user_search != "":
	st.divider()
	filtered_recipes = [recipe for recipe in recipes if recipe['name'] == user_search]
	if filtered_recipes:
	show_recipe(filtered_recipes[0])
	else:
	st.write("No recipe found.")
	else:
	st.markdown("# :eyes: PEOPLE SEARCHING FOR...")
	print(st.session_state.ind)
	flattened_indices = list(set(index for sublist in st.session_state.ind for index in sublist))
	df = items_dict.iloc[flattened_indices]
	if st.session_state.ind != []:
	with st.spinner("LET'S SEE, WHAT PEOPLE WANT..."):
	cont1 = st.container(border=True, height=500)
	with cont1:
	wc = wordcloud.WordCloud(width=1000, height=320, background_color='white').generate(
	' '.join(df['CATEGORY']))

	# Display word cloud
	fig, ax = plt.subplots()
	ax.imshow(wc, interpolation='bilinear')
	ax.axis('off')

	st.pyplot(fig, use_container_width=True)

	with st.container(border=True, height=500):
	col1, col2 = st.columns(2)
	with col1:
	st.markdown('## DEMAND AS PER CATEGORY')
	with plt.style.context('Solarize_Light2'):
	fig0 = px.pie(df, names='CATEGORY', hole=0.5)
	fig0.update_traces(text=df['CATEGORY'], textposition='outside')
	st.plotly_chart(fig0, use_container_width=True)

	with col2:
	st.markdown('## DEMAND AS PER AVAILABILITY')
	with plt.style.context('Solarize_Light2'):
	fig1 = px.pie(df, names='AVAILABILITY', hole=0.5)
	fig1.update_traces(text=df['AVAILABILITY'], textposition='outside')
	st.plotly_chart(fig1, use_container_width=True)

	with st.container(border=True, height=620):
	st.markdown('## :deciduous_tree: Hierarchical view of Sales using TreeMap')
	fig4 = px.treemap(df, path=['CATEGORY', 'AVAILABILITY','PRODUCT'],color='AVAILABILITY')
	fig4.update_layout(height=550)
	st.plotly_chart(fig4, use_container_width=True,scrolling=False)

	with st.container(border=True, height=500):
	fig = px.bar(df,
	y='CATEGORY',
	x='BREADCRUMBS',
	color='BRAND',
	# title='Gross Sales of Every Segment Country-wise',
	barmode='relative',
	title="Segment Vs. Gross Sales"
	)
	st.plotly_chart(fig, use_container_width=True)

	@st.cache_resource
	def pygwalerapp(df):
	return StreamlitRenderer(df)
	# st.markdown("## :desktop_computer: DO YOUR OWN RESEARCH...")
	with st.expander("## :desktop_computer: LOOKING FOR SOMETHING ELSE..."):
	pygwalerapp(df).explorer()