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import re
from functools import partial

import numpy as np
import torch

from modules import RoPE, shared
from modules.callbacks import Iteratorize
from modules.logging_colors import logger
from modules.text_generation import get_max_prompt_length

try:
    import llama_cpp
except:
    llama_cpp = None

try:
    import llama_cpp_cuda
except:
    llama_cpp_cuda = None


def llama_cpp_lib():
    if (shared.args.cpu and llama_cpp is not None) or llama_cpp_cuda is None:
        return llama_cpp
    else:
        return llama_cpp_cuda


def ban_eos_logits_processor(eos_token, input_ids, logits):
    logits[eos_token] = -float('inf')
    return logits


def custom_token_ban_logits_processor(token_ids, input_ids, logits):
    for token_id in token_ids:
        logits[token_id] = -float('inf')

    return logits


class LlamaCppModel:
    def __init__(self):
        self.initialized = False
        self.grammar_string = ''
        self.grammar = None

    def __del__(self):
        self.model.__del__()

    @classmethod
    def from_pretrained(self, path):

        Llama = llama_cpp_lib().Llama
        LlamaCache = llama_cpp_lib().LlamaCache

        result = self()
        cache_capacity = 0
        if shared.args.cache_capacity is not None:
            if 'GiB' in shared.args.cache_capacity:
                cache_capacity = int(re.sub('[a-zA-Z]', '', shared.args.cache_capacity)) * 1000 * 1000 * 1000
            elif 'MiB' in shared.args.cache_capacity:
                cache_capacity = int(re.sub('[a-zA-Z]', '', shared.args.cache_capacity)) * 1000 * 1000
            else:
                cache_capacity = int(shared.args.cache_capacity)

        logger.info("Cache capacity is " + str(cache_capacity) + " bytes")

        if shared.args.tensor_split is None or shared.args.tensor_split.strip() == '':
            tensor_split_list = None
        else:
            tensor_split_list = [float(x) for x in shared.args.tensor_split.strip().split(",")]

        params = {
            'model_path': str(path),
            'n_ctx': shared.args.n_ctx,
            'seed': int(shared.args.llama_cpp_seed),
            'n_threads': shared.args.threads or None,
            'n_threads_batch': shared.args.threads_batch or None,
            'n_batch': shared.args.n_batch,
            'use_mmap': not shared.args.no_mmap,
            'use_mlock': shared.args.mlock,
            'mul_mat_q': not shared.args.no_mul_mat_q,
            'numa': shared.args.numa,
            'n_gpu_layers': shared.args.n_gpu_layers,
            'rope_freq_base': RoPE.get_rope_freq_base(shared.args.alpha_value, shared.args.rope_freq_base),
            'tensor_split': tensor_split_list,
            'rope_freq_scale': 1.0 / shared.args.compress_pos_emb,
        }

        result.model = Llama(**params)
        if cache_capacity > 0:
            result.model.set_cache(LlamaCache(capacity_bytes=cache_capacity))

        # This is ugly, but the model and the tokenizer are the same object in this library.
        return result, result

    def encode(self, string):
        if type(string) is str:
            string = string.encode()

        return self.model.tokenize(string)

    def decode(self, ids, **kwargs):
        return self.model.detokenize(ids).decode('utf-8')

    def get_logits(self, tokens):
        self.model.eval(tokens)
        logits = self.model._scores
        logits = np.expand_dims(logits, 0)  # batch dim is expected
        return torch.tensor(logits, dtype=torch.float32)

    def load_grammar(self, string):
        if string != self.grammar_string:
            self.grammar_string = string
            if string.strip() != '':
                self.grammar = llama_cpp_lib().LlamaGrammar.from_string(string)
            else:
                self.grammar = None

    def generate(self, prompt, state, callback=None):

        LogitsProcessorList = llama_cpp_lib().LogitsProcessorList

        prompt = prompt if type(prompt) is str else prompt.decode()

        # Handle truncation
        prompt = self.encode(prompt)
        prompt = prompt[-get_max_prompt_length(state):]
        prompt = self.decode(prompt)

        self.load_grammar(state['grammar_string'])
        logit_processors = LogitsProcessorList()
        if state['ban_eos_token']:
            logit_processors.append(partial(ban_eos_logits_processor, self.model.token_eos()))

        if state['custom_token_bans']:
            to_ban = [int(x) for x in state['custom_token_bans'].split(',')]
            if len(to_ban) > 0:
                logit_processors.append(partial(custom_token_ban_logits_processor, to_ban))

        completion_chunks = self.model.create_completion(
            prompt=prompt,
            max_tokens=state['max_new_tokens'],
            temperature=state['temperature'],
            top_p=state['top_p'],
            top_k=state['top_k'],
            repeat_penalty=state['repetition_penalty'],
            presence_penalty=state['presence_penalty'],
            frequency_penalty=state['frequency_penalty'],
            tfs_z=state['tfs'],
            mirostat_mode=int(state['mirostat_mode']),
            mirostat_tau=state['mirostat_tau'],
            mirostat_eta=state['mirostat_eta'],
            stream=True,
            logits_processor=logit_processors,
            grammar=self.grammar
        )

        output = ""
        for completion_chunk in completion_chunks:
            if shared.stop_everything:
                break
            text = completion_chunk['choices'][0]['text']
            output += text
            if callback:
                callback(text)

        return output

    def generate_with_streaming(self, *args, **kwargs):
        with Iteratorize(self.generate, args, kwargs, callback=None) as generator:
            reply = ''
            for token in generator:
                reply += token
                yield reply