import time
import re
import pandas as pd
import numpy as np
import torch
import torch.nn.functional as F
from transformers import AutoTokenizer, AutoModel
from tokenizers import Tokenizer, AddedToken
import streamlit as st
from st_click_detector import click_detector

# This lil dealio is my test of the new experiemntal primitives which promise to put cach in streamlit within striking distance of simulating cognitive episodic memory (personalized feelings about a moment through space time), and semantic memory (factual memories we are ready to share and communicate like your email address or physical address yo


# callback to update query param on selectbox change
def update_params():
    try:
        print("update1")
        #st.experimental_set_query_params(option=st.session_state.query)
    except ValueError:
        pass
        
# RADIO BUTTON SET PERSIST
# radio button persistance - plan is to hydrate when selected and change url along with textbox and search
options = ["ai", "nlp", "iot", "vr", "genomics", "graph", "cognitive"]
query_params = st.experimental_get_query_params()
ix = 0
if query_params:
    try:
        q0 = query_params['query'][0]
        ix = options.index(q0)
    except ValueError:
        pass
selected_option = st.radio(
    "Param", options, index=ix, key="query", on_change=update_params
)
st.experimental_set_query_params(option=selected_option)


try:
    st.session_state.query = query  # if set already above.  this prevents two interface elements setting it first time once
except: # catch exception and set query param to predefined value
    print("Error cant set after init")


# Text Input, check the query params  set the text input to query value if in session
# check if here for the first time then set the query
if 'query' not in st.session_state:
    #st.session_state['query'] = 'AI'
    query = st.text_input("", value="artificial intelligence", key="query")
    #st.session_state.query = 'AI' 
    st.write(st.session_state.query)
else:
    query = st.text_input("", value=st.session_state["query"], key="query")
try:
    query_params = st.experimental_get_query_params()
    query_option = query_params['query'][0] #throws an exception when visiting http://host:port
    option_selected = st.sidebar.selectbox('Pick option', options, index=options.index(query_option))
except: # catch exception and set query param to predefined value
    st.experimental_set_query_params(query="Genomics") # set default
    query_params = st.experimental_get_query_params()
    query_option = query_params['query'][0]
    query_option = "ai"
    
    

# What impresses me about these two beautiful new streamlit persist prims is that one called the singleton can share memory across sessions (think all users yo)
#@st.experimental_singleton
#def get_sessionmaker(search_param):
#	url = "https://en.wikipedia.org/wiki/"
#	return url
#search_param = "Star_Trek:_Discovery"
#sm=  get_sessionmaker(search_param)

# What is supercool about the second prim the memo is it makes unwieldy data very wieldy.  Like the Lord of Rings in reverse re "you cannot wield it!  none of us can." ->  "You can wield it, now everyone can."
#@st.experimental_memo
#def factorial(n):
#	if n < 1:
#		return 1
#	return n * factorial(n - 1)
#em10 = factorial(10)
#em09 = factorial(9)  # Returns instantly!




DEVICE = "cpu"
MODEL_OPTIONS = ["msmarco-distilbert-base-tas-b", "all-mpnet-base-v2"]
DESCRIPTION = """
# Semantic search
**Enter your query and hit enter**
Built with 🤗 Hugging Face's [transformers](https://huggingface.co/transformers/) library, [SentenceBert](https://www.sbert.net/) models, [Streamlit](https://streamlit.io/) and 44k movie descriptions from the Kaggle [Movies Dataset](https://www.kaggle.com/rounakbanik/the-movies-dataset)
"""

# Session state - search parms
if 'key' not in st.session_state:
    st.session_state['key'] = 'value'
if 'key' not in st.session_state:
    st.session_state.key = 'value'
st.write(st.session_state.key)
st.write(st.session_state)
#st.session_state
for key in st.session_state.keys():
    del st.session_state[key]
#st.text_input("Your name", key="name")
#st.session_state.name

@st.cache(
    show_spinner=False,
    hash_funcs={
        AutoModel: lambda _: None,
        AutoTokenizer: lambda _: None,
        dict: lambda _: None,
    },
)
def load():
    models, tokenizers, embeddings = [], [], []
    for model_option in MODEL_OPTIONS:
        tokenizers.append(
            AutoTokenizer.from_pretrained(f"sentence-transformers/{model_option}")
        )
        models.append(
            AutoModel.from_pretrained(f"sentence-transformers/{model_option}").to(
                DEVICE
            )
        )
    embeddings.append(np.load("embeddings.npy"))
    embeddings.append(np.load("embeddings2.npy"))
    df = pd.read_csv("movies.csv")
    return tokenizers, models, embeddings, df


tokenizers, models, embeddings, df = load()


def pooling(model_output):
    return model_output.last_hidden_state[:, 0]


def compute_embeddings(texts):
    encoded_input = tokenizers[0](
        texts, padding=True, truncation=True, return_tensors="pt"
    ).to(DEVICE)

    with torch.no_grad():
        model_output = models[0](**encoded_input, return_dict=True)

    embeddings = pooling(model_output)

    return embeddings.cpu().numpy()


def pooling2(model_output, attention_mask):
    token_embeddings = model_output[0]
    input_mask_expanded = (
        attention_mask.unsqueeze(-1).expand(token_embeddings.size()).float()
    )
    return torch.sum(token_embeddings * input_mask_expanded, 1) / torch.clamp(
        input_mask_expanded.sum(1), min=1e-9
    )


def compute_embeddings2(list_of_strings):
    encoded_input = tokenizers[1](
        list_of_strings, padding=True, truncation=True, return_tensors="pt"
    ).to(DEVICE)
    with torch.no_grad():
        model_output = models[1](**encoded_input)
    sentence_embeddings = pooling2(model_output, encoded_input["attention_mask"])
    return F.normalize(sentence_embeddings, p=2, dim=1).cpu().numpy()


@st.cache(
    show_spinner=False,
    hash_funcs={Tokenizer: lambda _: None, AddedToken: lambda _: None},
)
def semantic_search(query, model_id):
    start = time.time()
    if len(query.strip()) == 0:
        return ""
    if "[Similar:" not in query:
        if model_id == 0:
            query_embedding = compute_embeddings([query])
        else:
            query_embedding = compute_embeddings2([query])
    else:
        match = re.match(r"\[Similar:(\d{1,5}).*", query)
        if match:
            idx = int(match.groups()[0])
            query_embedding = embeddings[model_id][idx : idx + 1, :]
            if query_embedding.shape[0] == 0:
                return ""
        else:
            return ""
    indices = np.argsort(embeddings[model_id] @ np.transpose(query_embedding)[:, 0])[
        -1:-11:-1
    ]
    if len(indices) == 0:
        return ""
    result = "<ol>"
    for i in indices:
        result += f"<li style='padding-top: 10px'><b>{df.iloc[i].title}</b> ({df.iloc[i].release_date}). {df.iloc[i].overview} "
        result += f"<a id='{i}' href='#'>Similar movies</a></li>"
    delay = "%.3f" % (time.time() - start)
    return f"<p><i>Computation time: {delay} seconds</i></p>{result}</ol>"


st.sidebar.markdown(DESCRIPTION)

model_choice = st.sidebar.selectbox("Similarity model", options=MODEL_OPTIONS)
model_id = 0 if model_choice == MODEL_OPTIONS[0] else 1




clicked = click_detector(semantic_search(query, model_id))

if clicked != "":
    st.markdown(clicked)
    change_query = False
    if "last_clicked" not in st.session_state:
        st.session_state["last_clicked"] = clicked
        change_query = True
    else:
        if clicked != st.session_state["last_clicked"]:
            st.session_state["last_clicked"] = clicked
            change_query = True
    if change_query:
        st.session_state["query"] = f"[Similar:{clicked}] {df.iloc[int(clicked)].title}"
        st.experimental_rerun()