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 from transformers import FlaxAutoModelForSeq2SeqLM, AutoTokenizer # AutoModel entfernt
import torch # Beibehalten
import numpy as np # Beibehalten
import random
import json
from fastapi import FastAPI
from fastapi.responses import JSONResponse
from pydantic import BaseModel
# Lade RecipeBERT Modell (KOMPLETT ENTFERNT für diesen Schritt)
# bert_model_name = "alexdseo/RecipeBERT"
# bert_tokenizer = AutoTokenizer.from_pretrained(bert_model_name)
# bert_model = AutoModel.from_pretrained(bert_model_name)
# bert_model.eval()
# Lade T5 Rezeptgenerierungsmodell
MODEL_NAME_OR_PATH = "flax-community/t5-recipe-generation"
t5_tokenizer = AutoTokenizer.from_pretrained(MODEL_NAME_OR_PATH, use_fast=True)
t5_model = FlaxAutoModelForSeq2SeqLM.from_pretrained(MODEL_NAME_OR_PATH)
# Token Mapping für die T5 Modell-Ausgabe
special_tokens = t5_tokenizer.all_special_token
tokens_map = {
"<sep>": "--",
"<section>": "\n"
}
# --- RecipeBERT-spezifische Funktionen sind entfernt oder vereinfacht ---
# get_embedding, average_embedding, get_cosine_similarity, get_combined_scores sind entfernt.
# find_best_ingredients (modifiziert, um KEINE Embeddings zu nutzen)
def find_best_ingredients(required_ingredients, available_ingredients, max_ingredients=6, avg_weight=0.6):
"""
Findet die besten Zutaten. Für diesen einfachen Test wird nur
die Liste der benötigten Zutaten um zufällig ausgewählte
verfügbare Zutaten ergänzt, OHNE Embeddings zu nutzen.
"""
required_ingredients = list(set(required_ingredients))
available_ingredients = list(set([i for i in available_ingredients if i not in required_ingredients]))
# Sonderfall: Wenn keine benötigten Zutaten vorhanden sind, wähle zufällig eine aus den verfügbaren Zutaten
if not required_ingredients and available_ingredients:
random_ingredient = random.choice(available_ingredients)
required_ingredients = [random_ingredient]
available_ingredients = [i for i in available_ingredients if i != random_ingredient]
# Wenn bereits maximale Kapazität erreicht ist
if len(required_ingredients) >= max_ingredients:
return required_ingredients[:max_ingredients]
# Wenn keine zusätzlichen Zutaten verfügbar sind
if not available_ingredients:
return required_ingredients
# Füge zufällig weitere Zutaten hinzu, bis max_ingredients erreicht ist
current_ingredients = required_ingredients.copy()
num_to_add = min(max_ingredients - len(current_ingredients), len(available_ingredients))
# Wähle zufällig aus den verfügbaren Zutaten
selected_from_available = random.sample(available_ingredients, num_to_add)
current_ingredients.extend(selected_from_available)
return current_ingredients
def skip_special_tokens(text, special_tokens):
"""Entfernt spezielle Tokens aus dem Text"""
for token in special_tokens:
text = text.replace(token, "")
return text
def target_postprocessing(texts, special_tokens):
"""Post-processed generierten Text"""
if not isinstance(texts, list):
texts = [texts]
new_texts = []
for text in texts:
text = skip_special_tokens(text, special_tokens)
for k, v in tokens_map.items():
text = text.replace(k, v)
new_texts.append(text)
return new_texts
def validate_recipe_ingredients(recipe_ingredients, expected_ingredients, tolerance=0):
"""
Validiert, ob das Rezept ungefähr die erwarteten Zutaten enthält.
"""
recipe_count = len([ing for ing in recipe_ingredients if ing and ing.strip()])
expected_count = len(expected_ingredients)
return abs(recipe_count - expected_count) == tolerance
def generate_recipe_with_t5(ingredients_list, max_retries=5):
"""Generiert ein Rezept mit dem T5 Rezeptgenerierungsmodell mit Validierung."""
original_ingredients = ingredients_list.copy()
for attempt in range(max_retries):
try:
if attempt > 0:
current_ingredients = original_ingredients.copy()
random.shuffle(current_ingredients)
else:
current_ingredients = ingredients_list
ingredients_string = ", ".join(current_ingredients)
prefix = "items: "
generation_kwargs = {
"max_length": 512,
"min_length": 64,
"do_sample": True,
"top_k": 60,
"top_p": 0.95
}
inputs = t5_tokenizer(
prefix + ingredients_string,
max_length=256,
padding="max_length",
truncation=True,
return_tensors="jax"
)
output_ids = t5_model.generate(
input_ids=inputs.input_ids,
attention_mask=inputs.attention_mask,
**generation_kwargs
)
generated = output_ids.sequences
generated_text = target_postprocessing(
t5_tokenizer.batch_decode(generated, skip_special_tokens=False),
special_tokens
)[0]
recipe = {}
sections = generated_text.split("\n")
for section in sections:
section = section.strip()
if section.startswith("title:"):
recipe["title"] = section.replace("title:", "").strip().capitalize()
elif section.startswith("ingredients:"):
ingredients_text = section.replace("ingredients:", "").strip()
recipe["ingredients"] = [item.strip().capitalize() for item in ingredients_text.split("--") if item.strip()]
elif section.startswith("directions:"):
directions_text = section.replace("directions:", "").strip()
recipe["directions"] = [step.strip().capitalize() for step in directions_text.split("--") if step.strip()]
if "title" not in recipe:
recipe["title"] = f"Rezept mit {', '.join(current_ingredients[:3])}"
if "ingredients" not in recipe:
recipe["ingredients"] = current_ingredients
if "directions" not in recipe:
recipe["directions"] = ["Keine Anweisungen generiert"]
if validate_recipe_ingredients(recipe["ingredients"], original_ingredients):
return recipe
else:
if attempt == max_retries - 1:
return recipe
except Exception as e:
if attempt == max_retries - 1:
return {
"title": f"Rezept mit {original_ingredients[0] if original_ingredients else 'Zutaten'}",
"ingredients": original_ingredients,
"directions": ["Fehler beim Generieren der Rezeptanweisungen"]
}
return {
"title": f"Rezept mit {original_ingredients[0] if original_ingredients else 'Zutaten'}",
"ingredients": original_ingredients,
"directions": ["Fehler beim Generieren der Rezeptanweisungen"]
}
def process_recipe_request_logic(required_ingredients, available_ingredients, max_ingredients, max_retries):
"""
Kernlogik zur Verarbeitung einer Rezeptgenerierungsanfrage.
"""
if not required_ingredients and not available_ingredients:
return {"error": "Keine Zutaten angegeben"}
try:
# Hier wird die vereinfachte find_best_ingredients verwendet, die KEINE Embeddings nutzt.
optimized_ingredients = find_best_ingredients(
required_ingredients, available_ingredients, max_ingredients
)
recipe = generate_recipe_with_t5(optimized_ingredients, max_retries)
result = {
'title': recipe['title'],
'ingredients': recipe['ingredients'],
'directions': recipe['directions'],
'used_ingredients': optimized_ingredients
}
return result
except Exception as e:
return {"error": f"Fehler bei der Rezeptgenerierung: {str(e)}"}
# --- FastAPI-Implementierung ---
app = FastAPI(title="AI Recipe Generator API") # Deine FastAPI-Instanz
class RecipeRequest(BaseModel):
required_ingredients: list[str] = []
available_ingredients: list[str] = []
max_ingredients: int = 7
max_retries: int = 5
ingredients: list[str] = [] # Für Abwärtskompatibilität
@app.post("/generate_recipe") # Der API-Endpunkt für Flutter
async def generate_recipe_api(request_data: RecipeRequest):
"""
Standard-REST-API-Endpunkt für die Flutter-App.
Nimmt direkt JSON-Daten an und gibt direkt JSON zurück.
"""
final_required_ingredients = request_data.required_ingredients
if not final_required_ingredients and request_data.ingredients:
final_required_ingredients = request_data.ingredients
result_dict = process_recipe_request_logic(
final_required_ingredients,
request_data.available_ingredients,
request_data.max_ingredients,
request_data.max_retries
)
return JSONResponse(content=result_dict)
# Optionaler Root-Endpunkt für Health-Checks
@app.get("/")
async def read_root():
return {"message": "AI Recipe Generator API is running (T5 only)!"} # Angepasste Nachricht
print("INFO: FastAPI application script finished execution and defined 'app' variable.")