import bpy

from contextlib import contextmanager

import lxml
import uuid
from fractions import Fraction
import struct
from os.path import dirname

import numpy

from time import strftime

from typing import List

from ear.fileio.utils import openBw64

from ear.fileio.bw64.chunks import (FormatInfoChunk, ChnaChunk)

from ear.fileio.adm import chna as adm_chna
from ear.fileio.adm.xml import adm_to_xml
from ear.fileio.adm.builder import (ADMBuilder)
from ear.fileio.adm.generate_ids import generate_ids

from .geom_utils import (speaker_active_time_range,
                         speakers_by_min_distance,
                         speakers_by_start_time)

from .object_mix import (ObjectMix, ObjectMixPool, object_mixes_from_source_groups)

from .speaker_utils import (all_speakers)


def group_speakers(speakers, scene) -> List[List[bpy.types.Object]]:
    def list_can_accept_speaker(speaker_list, speaker_to_test):
        test_range = speaker_active_time_range(speaker_to_test)

        def filter_f(spk):
            spk_range = speaker_active_time_range(spk)
            return test_range.overlaps(spk_range)

        result = next((x for x in speaker_list if filter_f(x) is True), None)
        return result is None

    by_priority = speakers_by_min_distance(scene, speakers)

    ret_val = [[]]
    for spk in by_priority:
        success = False  # flaggy-flag because I can't do a break->continue from the inner
        for elem in ret_val:
            if list_can_accept_speaker(elem, spk):
                elem.append(spk)
                success = True
                break
        if not success:
            ret_val.append([spk])

    for i in range(len(ret_val)):
        ret_val[i] = speakers_by_start_time(ret_val[i])

    return ret_val


def adm_for_object(scene, sound_object: ObjectMix, room_size, adm_builder, object_index):
    fps = scene.render.fps
    frame_start = scene.frame_start
    frame_end = scene.frame_end

    block_formats = sound_object.adm_block_formats(room_size=room_size)

    created = adm_builder.create_item_objects(track_index=object_index,
                                              name=sound_object.object_name,
                                              block_formats=block_formats)

    created.audio_object.start = Fraction(frame_start, fps)
    created.audio_object.duration = Fraction(frame_end - frame_start, fps)
    created.track_uid.sampleRate = sound_object.sample_rate
    created.track_uid.bitDepth = sound_object.bits_per_sample


def adm_for_scene(scene, sound_objects: List[ObjectMix], room_size):
    adm_builder = ADMBuilder()

    frame_start = scene.frame_start
    frame_end = scene.frame_end
    fps = scene.render.fps

    adm_builder.create_programme(audioProgrammeName=scene.name,
                                 start=Fraction(frame_start, fps),
                                 end=Fraction(frame_end, fps))

    adm_builder.create_content(audioContentName="Objects")

    for object_index, sound_object in enumerate(sound_objects):
        adm_for_object(scene, sound_object, room_size, adm_builder, object_index)

    adm = adm_builder.adm

    generate_ids(adm)
    chna = ChnaChunk()
    adm_chna.populate_chna_chunk(chna, adm)

    return adm_to_xml(adm), chna


def bext_data(scene, sample_rate, room_size):
    description = "SCENE={};ROOM_SIZE={}\n".format(scene.name, room_size).encode("ascii")
    originator_name = "Blender {}".format(bpy.app.version_string).encode("ascii")
    originator_ref = uuid.uuid1().hex.encode("ascii")
    date10 = strftime("%Y-%m-%d").encode("ascii")
    time8 = strftime("%H:%M:%S").encode("ascii")
    timeref = int(float(scene.frame_start) * sample_rate / float(scene.render.fps))
    version = 0
    umid = b"\0" * 64
    pad = b"\0" * 190

    data = struct.pack("<256s32s32s10s8sQH64s190s", description, originator_name,
                       originator_ref, date10, time8, timeref, version, umid, pad)

    return data


def attach_outfile_metadata(out_format, outfile, room_size, scene, sound_objects):
    adm, chna = adm_for_scene(scene, sound_objects, room_size=room_size)
    outfile.axml = lxml.etree.tostring(adm, pretty_print=True)
    outfile.chna = chna
    outfile.bext = bext_data(scene, out_format.sampleRate, room_size=room_size)


def write_outfile_audio_data(outfile, shortest_file, sound_objects):
    READ_BLOCK = 1024
    cursor = 0

    # Not sure if this is necessary but lets do it
    for obj in sound_objects:
        obj.mixdown_reader.seek(0)

    while True:
        remainder = shortest_file - cursor
        to_read = min(READ_BLOCK, remainder)
        if to_read == 0:
            break

        buffer = numpy.zeros((to_read, len(sound_objects)))
        for i, sound_object in enumerate(sound_objects):
            buffer[:, i] = sound_object.mixdown_reader.read(to_read)[:, 0]

        outfile.write(buffer)
        cursor = cursor + to_read


def write_muxed_wav(mix_pool: ObjectMixPool, scene, out_format, room_size, outfile, shortest_file):
    sound_objects = mix_pool.object_mixes
    attach_outfile_metadata(out_format, outfile, room_size, scene, sound_objects)
    write_outfile_audio_data(outfile, shortest_file, sound_objects)


def mux_adm_from_object_mix_pool(scene, mix_pool: ObjectMixPool, output_filename, room_size=1.):
    object_count = len(mix_pool.object_mixes)
    assert object_count > 0

    out_format = FormatInfoChunk(channelCount=object_count,
                                 sampleRate=scene.render.ffmpeg.audio_mixrate,
                                 bitsPerSample=24)

    with openBw64(output_filename, 'w', formatInfo=out_format) as outfile:
        write_muxed_wav(mix_pool, scene, out_format, room_size,
                        outfile, mix_pool.shortest_file_length)


def print_partition_results(object_groups, sound_sources, too_far_speakers):
    print("Will create {} objects for {} sources, ignoring {} sources".format(
        len(object_groups), len(sound_sources), len(too_far_speakers)))
    for i, group in enumerate(object_groups):
        print("Object Group %i" % i)
        for source in group:
            print(" - %s" % source.name)


def partition_sounds_to_objects(scene, max_objects):
    sound_sources = all_speakers(scene)

    if len(sound_sources) == 0:
        return []

    object_groups = group_speakers(sound_sources, scene)
    too_far_speakers = []

    if len(object_groups) > max_objects:
        too_far_speakers = object_groups[max_objects:]
        object_groups = object_groups[0:max_objects]

    print_partition_results(object_groups, sound_sources, too_far_speakers)

    return object_groups, too_far_speakers


def generate_adm(context: bpy.types.Context, filepath: str, room_size: float, max_objects: int):
    scene = context.scene

    object_groups, _ = partition_sounds_to_objects(scene, max_objects)

    if len(object_groups) == 0:
        return {'FINISHED'}

    mix_groups = object_mixes_from_source_groups(object_groups,
                                                 scene=scene,
                                                 base_dir=dirname(filepath))

    with ObjectMixPool(object_mixes=mix_groups) as pool:
        mux_adm_from_object_mix_pool(scene, mix_pool=pool,
                                     output_filename=filepath,
                                     room_size=room_size)
        print("Finished muxing ADM")

    print("generate_adm exiting")
    return {'FINISHED'}