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import math
from typing import NamedTuple, Literal, Callable
from functools import partial

import torch
from torch.optim.lr_scheduler import LambdaLR

from diffusers.optimization import (
    get_scheduler as get_scheduler_,
    get_cosine_with_hard_restarts_schedule_with_warmup,
)
from transformers.optimization import get_adafactor_schedule


class OneCyclePhase(NamedTuple):
    step_min: int
    step_max: int
    min: float
    max: float
    func: Callable[[float], float]


def warmup_linear(progress: float):
    return progress


def warmup_cos(exp: int, progress: float):
    lr = 0.5 * (1.0 + math.cos(math.pi * (1 + progress)))
    lr = lr ** (exp - (exp - 1) * progress)
    return lr


def anneal_linear(progress: float):
    return 1 - progress


def anneal_half_cos(exp: int, progress: float):
    lr = 1.0 + math.cos(math.pi * (0.5 + 0.5 * progress))
    lr = lr ** (exp - (exp - 1) * progress)
    return lr


def anneal_cos(exp: int, progress: float):
    lr = 0.5 * (1.0 + math.cos(math.pi * progress))
    lr = lr ** (exp - (exp - 1) * progress)
    return lr


def get_one_cycle_schedule(
    optimizer: torch.optim.Optimizer,
    num_training_steps: int,
    warmup: Literal["cos", "linear"] = "cos",
    annealing: Literal["cos", "half_cos", "linear"] = "cos",
    warmup_exp: int = 1,
    annealing_exp: int = 1,
    min_lr: float = 0.04,
    mid_point: float = 0.3,
    last_epoch: int = -1,
):
    if warmup == "linear":
        warmup_func = warmup_linear
    else:
        warmup_func = partial(warmup_cos, warmup_exp)

    if annealing == "linear":
        anneal_func = anneal_linear
    elif annealing == "half_cos":
        anneal_func = partial(anneal_half_cos, annealing_exp)
    else:
        anneal_func = partial(anneal_cos, annealing_exp)

    thresh_up = int(num_training_steps * min(mid_point, 0.5))

    if annealing == "linear":
        thresh_down = thresh_up * 2
        phases = [
            OneCyclePhase(0, thresh_up, min_lr, 1, warmup_func),
            OneCyclePhase(thresh_up, thresh_down, min_lr, 1, anneal_func),
            OneCyclePhase(thresh_down, num_training_steps, 0, min_lr, anneal_func),
        ]
    else:
        phases = [
            OneCyclePhase(0, thresh_up, min_lr, 1, warmup_func),
            OneCyclePhase(thresh_up, num_training_steps, 0, 1, anneal_func),
        ]

    def lr_lambda(current_step: int):
        phase = [p for p in phases if current_step >= p.step_min][-1]
        return phase.min + phase.func(
            (current_step - phase.step_min) / (phase.step_max - phase.step_min)
        ) * (phase.max - phase.min)

    return LambdaLR(optimizer, lr_lambda, last_epoch)


def get_exponential_growing_schedule(
    optimizer, end_lr: float, num_training_steps: int, last_epoch: int = -1
):
    def lr_lambda(base_lr: float, current_step: int):
        return (end_lr / base_lr) ** (current_step / num_training_steps)

    lr_lambdas = [partial(lr_lambda, group["lr"]) for group in optimizer.param_groups]

    return LambdaLR(optimizer, lr_lambdas, last_epoch)


def get_scheduler(
    id: str,
    optimizer: torch.optim.Optimizer,
    num_training_steps_per_epoch: int,
    gradient_accumulation_steps: int = 1,
    min_lr: float = 0.04,
    mid_point: float = 0.3,
    warmup_func: Literal["cos", "linear"] = "cos",
    annealing_func: Literal["cos", "half_cos", "linear"] = "cos",
    warmup_exp: int = 1,
    annealing_exp: int = 1,
    end_lr: float = 1e3,
    cycles: int = 1,
    train_epochs: int = 100,
    warmup_epochs: int = 10,
):
    num_training_steps_per_epoch = math.ceil(
        num_training_steps_per_epoch / gradient_accumulation_steps
    )  # * gradient_accumulation_steps
    num_training_steps = train_epochs * num_training_steps_per_epoch
    num_warmup_steps = warmup_epochs * num_training_steps_per_epoch

    if id == "one_cycle":
        lr_scheduler = get_one_cycle_schedule(
            optimizer=optimizer,
            num_training_steps=num_training_steps,
            warmup=warmup_func,
            annealing=annealing_func,
            warmup_exp=warmup_exp,
            annealing_exp=annealing_exp,
            min_lr=min_lr,
            mid_point=mid_point,
        )
    elif id == "exponential_growth":
        if cycles is None:
            cycles = math.ceil(
                math.sqrt(
                    (
                        (num_training_steps - num_warmup_steps)
                        / num_training_steps_per_epoch
                    )
                )
            )

        lr_scheduler = get_exponential_growing_schedule(
            optimizer=optimizer,
            end_lr=end_lr,
            num_training_steps=num_training_steps,
        )
    elif id == "cosine_with_restarts":
        if cycles is None:
            cycles = math.ceil(
                math.sqrt(
                    (
                        (num_training_steps - num_warmup_steps)
                        / num_training_steps_per_epoch
                    )
                )
            )

        lr_scheduler = get_cosine_with_hard_restarts_schedule_with_warmup(
            optimizer=optimizer,
            num_warmup_steps=num_warmup_steps,
            num_training_steps=num_training_steps,
            num_cycles=cycles,
        )
    elif id == "adafactor":
        lr_scheduler = get_adafactor_schedule(optimizer, initial_lr=min_lr)
    else:
        lr_scheduler = get_scheduler_(
            id,
            optimizer=optimizer,
            num_warmup_steps=num_warmup_steps,
            num_training_steps=num_training_steps,
        )

    return lr_scheduler