import gradio as gr
from transformers import AutoModelForSeq2SeqLM, AutoTokenizer

article='''
# Spanish Nahuatl Automatic Translation
Nahuatl is the most widely spoken indigenous language in Mexico. However, training a neural network for the task of neural machine tranlation is hard due to the lack of structured data. The most popular datasets such as the Axolot dataset and the bible-corpus only consists of ~16,000 and ~7,000 samples respectivly. Moreover, there are multiple variants of Nahuatl, which makes this task even more difficult. For example, a single word from the Axolot dataset can be found written in more than three different ways. Therefore, in this work we leverage the T5 text-to-text sufix training strategy to compensate the lack of data. We first teach the  multilingual model Spanish using English, then we make the transition to Spanish-Nahuatl. The resulting model successfully translates short sentences from Spanish to Nahuatl. We report Chrf and BLEU results.

## Motivation

One of the Sustainable Development Goals is "Reduced Inequalities". We know for sure that language is one 


## Model description
This model is a T5 Transformer ([t5-small](https://huggingface.co./t5-small)) fine-tuned on spanish and nahuatl sentences collected from the web. The dataset is normalized using 'sep' normalization from [py-elotl](https://github.com/ElotlMX/py-elotl).


## Usage
```python
from transformers import AutoModelForSeq2SeqLM
from transformers import AutoTokenizer

model = AutoModelForSeq2SeqLM.from_pretrained('hackathon-pln-es/t5-small-spanish-nahuatl')
tokenizer = AutoTokenizer.from_pretrained('hackathon-pln-es/t5-small-spanish-nahuatl')

model.eval()
sentence = 'muchas flores son blancas'
input_ids = tokenizer('translate Spanish to Nahuatl: ' + sentence, return_tensors='pt').input_ids
outputs = model.generate(input_ids)
# outputs = miak xochitl istak
outputs = tokenizer.batch_decode(outputs, skip_special_tokens=True)[0]
```

## Approach
### Dataset
Since the Axolotl corpus contains misaligments, we just select the best samples (12,207 samples). We also use the [bible-corpus](https://github.com/christos-c/bible-corpus) (7,821 samples). 

| Axolotl best aligned books                            | 
|:-----------------------------------------------------:|
| Anales de Tlatelolco                                  | 
| Diario                                                |  
| Documentos nauas de la Ciudad de México del siglo XVI |  
| Historia de México narrada en náhuatl y español       |  
| La tinta negra y roja (antología de poesía náhuatl)   |  
| Memorial Breve (Libro las ocho relaciones)            |  
| Método auto-didáctico náhuatl-español                 |  
| Nican Mopohua                                         | 
| Quinta Relación (Libro las ocho relaciones)           |   
| Recetario Nahua de Milpa Alta D.F                     | 
| Testimonios de la antigua palabra                     |
| Trece Poetas del Mundo Azteca                         |
| Una tortillita nomás - Se taxkaltsin saj              |
| Vida económica de Tenochtitlan                        |

Also, to increase the amount of data we collected 3,000 extra samples from the web.

### Model and training
We employ two training-stages using a multilingual T5-small. This model was chosen because it can handle different vocabularies and suffixes. T5-small is pretrained on different tasks and languages (French, Romanian, English, German).

### Training-stage 1 (learning Spanish)
In training stage 1 we first introduce Spanish to the model. The objective is to learn a new language rich in data (Spanish) and not lose the previous knowledge acquired. We use the English-Spanish [Anki](https://www.manythings.org/anki/) dataset, which consists of 118.964 text pairs. We train the model till convergence adding the suffix "Translate Spanish to English: ".

### Training-stage 2 (learning Nahuatl)
We use the pretrained Spanish-English model to learn Spanish-Nahuatl. Since the amount of Nahuatl pairs is limited, we also add to our dataset 20,000 samples from the English-Spanish Anki dataset. This two-task-training avoids overfitting end makes the model more robust.

### Training setup
We train the models on the same datasets for 660k steps using batch size = 16 and 2e-5 learning rate.


## Evaluation results
For a fair comparison, the models are evaluated on the same 505 validation  Nahuatl sentences. We report the results using chrf and sacrebleu hugging face metrics:

| English-Spanish pretraining  | Validation loss | BLEU | Chrf   |
|:----------------------------:|:---------------:|:-----|-------:|
| False                        | 1.34            | 6.17 | 26.96  | 
| True                         | 1.31            | 6.18 | 28.21  | 

The English-Spanish pretraining improves BLEU and Chrf, and leads to faster convergence.

# Team members
7	 - Emilio Alejandro Morales [(milmor)](https://huggingface.co./milmor)
8	 - Rodrigo Martínez Arzate  [(rockdrigoma)](https://huggingface.co./rockdrigoma)
9	 - Luis Armando Mercado [(luisarmando)](https://huggingface.co./luisarmando)
10	 - Jacobo del Valle [(jjdv)](https://huggingface.co./jjdv)

## References
- Colin Raffel, Noam Shazeer, Adam Roberts, Katherine Lee, Sharan Narang, Michael Matena, Yanqi Zhou, Wei Li, and Peter J Liu. 2019. Exploring the limits
of transfer learning with a unified Text-to-Text transformer.

- Ximena Gutierrez-Vasques, Gerardo Sierra, and Hernandez Isaac. 2016. Axolotl: a web accessible parallel corpus for Spanish-Nahuatl. In International Conference on Language Resources and Evaluation (LREC).
 
For more details visit [(our model approach description)](https://huggingface.co./hackathon-pln-es/t5-small-spanish-nahuatl)
'''

model = AutoModelForSeq2SeqLM.from_pretrained('hackathon-pln-es/t5-small-spanish-nahuatl')
tokenizer = AutoTokenizer.from_pretrained('hackathon-pln-es/t5-small-spanish-nahuatl')

def predict(input):
  input_ids = tokenizer('translate Spanish to Nahuatl: ' + input, return_tensors='pt').input_ids
  outputs = model.generate(input_ids, max_length=512)
  outputs = tokenizer.batch_decode(outputs, skip_special_tokens=True)[0]
  return outputs

gr.Interface(
   fn=predict,
   inputs=gr.inputs.Textbox(lines=1, label="Input Text in Spanish"),
   outputs=[
     gr.outputs.Textbox(label="Translated text in Nahuatl"),
     ],
   theme="peach",
   title='🌽 Spanish to Nahuatl Automatic Translation',
   description='This model is a T5 Transformer (t5-small) fine-tuned on spanish and nahuatl sentences collected from the web. The dataset is normalized using "sep" normalization from py-elotl.',
   examples=[
     'conejo',
     'estrella',
     'Muchos perros son blancos',
     'te amo',
     'quiero comer',
     'esto se llama agua',
     'Mi hermano es un ajolote',
     'mi abuelo se llama Juan',
     'El pueblo del ajolote',
     'te amo con todo mi corazón'],
   article=article,
   allow_flagging="manual",
   flagging_options=["right translation", "wrong translation", "error", "other"],
   flagging_dir="logs"
   ).launch(enable_queue=True)