from extension import extension_t
import plot as ot_
from soma import soma_t

from typing import Sequence, Tuple

import matplotlib.pyplot as pl_


def PrintConnectedExtensions(extensions: Sequence[extension_t]) -> None:
    #
    ext_uids = tuple(
        extension.uid for extension in extensions if extension.soma_uid is not None
    )
    print(
        f"    Connected Ext = {ext_uids.__len__()}"
        f"/{extensions.__len__()}\n"
        f"    {ext_uids}"
    )


def PlotSomas(somas: Sequence[soma_t], som_nfo: dict, axes: dict) -> None:
    #
    for soma in somas:
        axes[soma.uid] = ot_.PlotLMap(som_nfo["lmp"], labels=soma.uid)
        pl_.title(f"Soma.{soma.uid}")
    pl_.matshow(som_nfo["influence_map"].max(axis=0)), pl_.title("Soma Influencess")
    pl_.matshow(som_nfo["dist_to_closest"].max(axis=0)), pl_.title("Soma Distances")


def PlotExtensions(
    extensions: Sequence[extension_t], ext_nfo: dict, img_shape: Tuple[int, ...]
) -> None:
    #
    for extension in extensions:
        _ = ot_.PlotExtensions(extension, img_shape)
        pl_.title(f"Extension.{extension.uid}")
    pl_.matshow(ext_nfo["map"].max(axis=0))
    pl_.title("Extensions Extremities")


def PlotSomasWithExtensions(somas: Sequence[soma_t], som_nfo: dict, which: str) -> None:
    #
    any_plot = False
    for soma in filter(lambda elm: elm.has_extensions, somas):
        if which == "with_ext_of_ext":
            for extension in soma.extensions:
                if not extension.has_extensions:
                    continue
        _ = ot_.PlotSomaWithExtensions(soma, som_nfo["lmp"])
        pl_.title(f"Soma.{soma.uid} + Ext.{tuple(ext.uid for ext in soma.extensions)}")
        any_plot = True

    if any_plot:
        pl_.matshow(som_nfo["soma_w_ext_lmp"].max(axis=0))
        pl_.title("Somas + Extensions")