# Copyright (c) Facebook, Inc. and its affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.

import re


WHITESPACE_NORMALIZER = re.compile(r"\s+")
SPACE = chr(32)
SPACE_ESCAPE = chr(9601)
# excluding non-breaking space (160) here
PRINTABLE_LATIN = set(
    list(range(32, 126 + 1)) + list(range(161, 172 + 1)) + list(range(174, 255 + 1))
)
BYTE_TO_BCHAR = {
    b: chr(b) if b in PRINTABLE_LATIN else chr(256 + b) for b in range(256)
}
BCHAR_TO_BYTE = {bc: b for b, bc in BYTE_TO_BCHAR.items()}


def byte_encode(x: str) -> str:
    normalized = WHITESPACE_NORMALIZER.sub(SPACE, x)
    return "".join([BYTE_TO_BCHAR[b] for b in normalized.encode("utf-8")])


def byte_decode(x: str) -> str:
    try:
        return bytes([BCHAR_TO_BYTE[bc] for bc in x]).decode("utf-8")
    except ValueError:
        return ""


def smart_byte_decode(x: str) -> str:
    output = byte_decode(x)
    if output == "":
        # DP the best recovery (max valid chars) if it's broken
        n_bytes = len(x)
        f = [0 for _ in range(n_bytes + 1)]
        pt = [0 for _ in range(n_bytes + 1)]
        for i in range(1, n_bytes + 1):
            f[i], pt[i] = f[i - 1], i - 1
            for j in range(1, min(4, i) + 1):
                if f[i - j] + 1 > f[i] and len(byte_decode(x[i - j : i])) > 0:
                    f[i], pt[i] = f[i - j] + 1, i - j
        cur_pt = n_bytes
        while cur_pt > 0:
            if f[cur_pt] == f[pt[cur_pt]] + 1:
                output = byte_decode(x[pt[cur_pt] : cur_pt]) + output
            cur_pt = pt[cur_pt]
    return output