Webscout-API / utils.py
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Create utils.py
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import re
from decimal import Decimal
from html import unescape
from math import atan2, cos, radians, sin, sqrt
from typing import Any, Dict, List, Union
from urllib.parse import unquote
import orjson
from .exceptions import WebscoutE
REGEX_STRIP_TAGS = re.compile("<.*?>")
def json_dumps(obj: Any) -> str:
try:
return orjson.dumps(obj).decode("utf-8")
except Exception as ex:
raise WebscoutE(f"{type(ex).__name__}: {ex}") from ex
def json_loads(obj: Union[str, bytes]) -> Any:
try:
return orjson.loads(obj)
except Exception as ex:
raise WebscoutE(f"{type(ex).__name__}: {ex}") from ex
def _extract_vqd(html_bytes: bytes, keywords: str) -> str:
"""Extract vqd from html bytes."""
for c1, c1_len, c2 in (
(b'vqd="', 5, b'"'),
(b"vqd=", 4, b"&"),
(b"vqd='", 5, b"'"),
):
try:
start = html_bytes.index(c1) + c1_len
end = html_bytes.index(c2, start)
return html_bytes[start:end].decode()
except ValueError:
pass
raise WebscoutE(f"_extract_vqd() {keywords=} Could not extract vqd.")
def _text_extract_json(html_bytes: bytes, keywords: str) -> List[Dict[str, str]]:
"""text(backend="api") -> extract json from html."""
try:
start = html_bytes.index(b"DDG.pageLayout.load('d',") + 24
end = html_bytes.index(b");DDG.duckbar.load(", start)
data = html_bytes[start:end]
result: List[Dict[str, str]] = json_loads(data)
return result
except Exception as ex:
raise WebscoutE(f"_text_extract_json() {keywords=} {type(ex).__name__}: {ex}") from ex
raise WebscoutE(f"_text_extract_json() {keywords=} return None")
def _normalize(raw_html: str) -> str:
"""Strip HTML tags from the raw_html string."""
return unescape(REGEX_STRIP_TAGS.sub("", raw_html)) if raw_html else ""
def _normalize_url(url: str) -> str:
"""Unquote URL and replace spaces with '+'."""
return unquote(url.replace(" ", "+")) if url else ""
def _calculate_distance(lat1: Decimal, lon1: Decimal, lat2: Decimal, lon2: Decimal) -> float:
"""Calculate distance between two points in km. Haversine formula."""
R = 6371.0087714 # Earth's radius in km
rlat1, rlon1, rlat2, rlon2 = map(radians, [float(lat1), float(lon1), float(lat2), float(lon2)])
dlon, dlat = rlon2 - rlon1, rlat2 - rlat1
a = sin(dlat / 2) ** 2 + cos(rlat1) * cos(rlat2) * sin(dlon / 2) ** 2
c = 2 * atan2(sqrt(a), sqrt(1 - a))
return R * c