import fire
import numpy as np 

from utils import *
#from nn import compile_b
from constants import INPUTS
from model import Model
from draw import draw
from train import A_params

def predicted_map(B, change=0, path=None):
    year = MAX_YEAR - 1

    df = pd.read_pickle('data.p')

    logger.info('temperature change of %s', change)

    inputs = list(INPUTS)

    for season in SEASONS:
        inputs += [
            'temp_{}_{}'.format(season, year),
            'precip_{}_{}'.format(season, year)
        ]

    frame = df[inputs + ['longitude']]
    frame_cp = df[inputs + ['longitude']]

    for season in SEASONS:
        frame.loc[:, 'temp_{}_{}'.format(season, year)] += change

    columns = ['latitude', 'longitude', 'biome_num']
    new_data = pd.DataFrame(columns=columns)
    nframe = pd.DataFrame(columns=frame.columns, data=normalize_ndarray(frame.to_numpy(), frame_cp.to_numpy()))

    for i, (chunk, chunk_original) in enumerate(zip(chunker(nframe, B.batch_size), chunker(frame, B.batch_size))):
        if chunk.shape[0] < B.batch_size:
            continue
        input_data = chunk.loc[:, inputs].values
        out = B.predict_class(input_data)

        f = pd.DataFrame({
            'longitude': chunk_original.loc[:, 'longitude'], 
            'latitude': chunk_original.loc[:, 'latitude'],
            'biome_num': out
        }, columns=columns)
        new_data = new_data.append(f)

    draw(new_data, path=path)

def predicted_map_cmd(checkpoint='checkpoints/save.h5', change=0, path=None):
    B = Model('b', epochs=1)
    B.prepare_for_use()
    B.restore(checkpoint)
    predicted_map(B, change=change, path=path)

def predicted_temps(A, year=2000):
    columns = INPUTS

    df = pd.read_pickle('data.p')

    print(columns)
    # print(df[0:A.batch_size])
    inputs = df[INPUTS]

    all_temps = ['temp_{}_{}'.format(season, year) for season in SEASONS]
    all_precips = ['precip_{}_{}'.format(season, year) for season in SEASONS]
    inputs.loc[:, 'mean_temp'] = np.mean(df[all_temps].values)
    inputs.loc[:, 'mean_precip'] = np.mean(df[all_precips].values)

    inputs = inputs.to_numpy()
    inputs = normalize_ndarray(inputs)
    print(inputs[0:A.batch_size])

    out_columns = all_temps + all_precips
    print(out_columns)

    out = A.predict(inputs)
    # print(out.shape, out[0].shape)
    # print(out)
    # print(out[0])
    print(normalize_ndarray(df[out_columns])[0:A.batch_size])
    print(pd.DataFrame(data=out, columns=out_columns))
    # print(df[out_columns][0:A.batch_size])
    # print(pd.DataFrame(data=denormalize(out, df[out_columns].to_numpy()), columns=out_columns))

def predicted_temps_cmd(checkpoint='checkpoints/a.h5', year=2000):
    batch_size = A_params['batch_size']['grid_search'][0]
    layers = A_params['layers']['grid_search'][0]
    optimizer = A_params['optimizer']['grid_search'][0](A_params['lr']['grid_search'][0])

    A = Model('a', epochs=1)
    A.prepare_for_use(
        batch_size=batch_size,
        layers=layers,
        dataset_fn=dataframe_to_dataset_temp_precip,
        optimizer=optimizer,
        out_activation=None,
        loss='mse',
        metrics=['mae']
    )
    A.restore(checkpoint)
    predicted_temps(A, year=year)

if __name__ == "__main__":
    fire.Fire({ 'map': predicted_map_cmd, 'temp': predicted_temps_cmd })