tdlight/td/telegram/Location.cpp

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//
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// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2024
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#include "td/telegram/Location.h"
#include "td/telegram/AuthManager.h"
#include "td/telegram/Td.h"
#include <cmath>
#include <limits>
namespace td {
double Location::fix_accuracy(double accuracy) {
if (!std::isfinite(accuracy) || accuracy <= 0.0) {
return 0.0;
}
if (accuracy >= 1500.0) {
return 1500.0;
}
return accuracy;
}
void Location::init(Td *td, double latitude, double longitude, double horizontal_accuracy, int64 access_hash) {
if (std::isfinite(latitude) && std::isfinite(longitude) && std::abs(latitude) <= 90 && std::abs(longitude) <= 180) {
is_empty_ = false;
latitude_ = latitude;
longitude_ = longitude;
horizontal_accuracy_ = fix_accuracy(horizontal_accuracy);
access_hash_ = access_hash;
if (td != nullptr && !td->auth_manager_->is_bot()) {
G()->add_location_access_hash(latitude_, longitude_, access_hash_);
}
}
}
Location::Location(Td *td, double latitude, double longitude, double horizontal_accuracy, int64 access_hash) {
init(td, latitude, longitude, horizontal_accuracy, access_hash);
}
Location::Location(const tl_object_ptr<secret_api::decryptedMessageMediaGeoPoint> &geo_point)
: Location(nullptr, geo_point->lat_, geo_point->long_, 0.0, 0) {
}
Location::Location(Td *td, const tl_object_ptr<telegram_api::GeoPoint> &geo_point_ptr) {
if (geo_point_ptr == nullptr) {
return;
}
switch (geo_point_ptr->get_id()) {
case telegram_api::geoPointEmpty::ID:
break;
case telegram_api::geoPoint::ID: {
auto geo_point = static_cast<const telegram_api::geoPoint *>(geo_point_ptr.get());
init(td, geo_point->lat_, geo_point->long_, geo_point->accuracy_radius_, geo_point->access_hash_);
break;
}
default:
UNREACHABLE();
break;
}
}
Location::Location(const tl_object_ptr<td_api::location> &location) {
if (location == nullptr) {
return;
}
init(nullptr, location->latitude_, location->longitude_, location->horizontal_accuracy_, 0);
}
bool Location::empty() const {
return is_empty_;
}
bool Location::is_valid_map_point() const {
const double MAX_VALID_MAP_LATITUDE = 85.05112877;
return !empty() && std::abs(latitude_) <= MAX_VALID_MAP_LATITUDE;
}
tl_object_ptr<td_api::location> Location::get_location_object() const {
if (empty()) {
return nullptr;
}
return make_tl_object<td_api::location>(latitude_, longitude_, horizontal_accuracy_);
}
tl_object_ptr<telegram_api::InputGeoPoint> Location::get_input_geo_point() const {
if (empty()) {
return make_tl_object<telegram_api::inputGeoPointEmpty>();
}
int32 flags = 0;
if (horizontal_accuracy_ > 0) {
flags |= telegram_api::inputGeoPoint::ACCURACY_RADIUS_MASK;
}
return make_tl_object<telegram_api::inputGeoPoint>(flags, latitude_, longitude_,
static_cast<int32>(std::ceil(horizontal_accuracy_)));
}
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telegram_api::object_ptr<telegram_api::GeoPoint> Location::get_fake_geo_point() const {
if (empty()) {
return make_tl_object<telegram_api::geoPointEmpty>();
}
int32 flags = 0;
if (horizontal_accuracy_ > 0) {
flags |= telegram_api::geoPoint::ACCURACY_RADIUS_MASK;
}
return telegram_api::make_object<telegram_api::geoPoint>(flags, longitude_, latitude_, 0,
static_cast<int32>(std::ceil(horizontal_accuracy_)));
}
tl_object_ptr<telegram_api::inputMediaGeoPoint> Location::get_input_media_geo_point() const {
return make_tl_object<telegram_api::inputMediaGeoPoint>(get_input_geo_point());
}
SecretInputMedia Location::get_secret_input_media_geo_point() const {
return SecretInputMedia{nullptr, make_tl_object<secret_api::decryptedMessageMediaGeoPoint>(latitude_, longitude_)};
}
bool operator==(const Location &lhs, const Location &rhs) {
if (lhs.is_empty_) {
return rhs.is_empty_;
}
return !rhs.is_empty_ && std::abs(lhs.latitude_ - rhs.latitude_) < 1e-6 &&
std::abs(lhs.longitude_ - rhs.longitude_) < 1e-6 &&
std::abs(lhs.horizontal_accuracy_ - rhs.horizontal_accuracy_) < 1e-6;
}
bool operator!=(const Location &lhs, const Location &rhs) {
return !(lhs == rhs);
}
StringBuilder &operator<<(StringBuilder &string_builder, const Location &location) {
if (location.empty()) {
return string_builder << "Location[empty]";
}
return string_builder << "Location[latitude = " << location.latitude_ << ", longitude = " << location.longitude_
<< ", accuracy = " << location.horizontal_accuracy_ << "]";
}
Result<InputMessageLocation> process_input_message_location(
tl_object_ptr<td_api::InputMessageContent> &&input_message_content) {
CHECK(input_message_content != nullptr);
CHECK(input_message_content->get_id() == td_api::inputMessageLocation::ID);
auto input_location = static_cast<const td_api::inputMessageLocation *>(input_message_content.get());
Location location(input_location->location_);
if (location.empty()) {
return Status::Error(400, "Wrong location specified");
}
constexpr int32 MIN_LIVE_LOCATION_PERIOD = 60; // seconds, server side limit
constexpr int32 MAX_LIVE_LOCATION_PERIOD = 86400; // seconds, server side limit
auto period = input_location->live_period_;
if (period != 0 && period != std::numeric_limits<int32>::max() &&
(period < MIN_LIVE_LOCATION_PERIOD || period > MAX_LIVE_LOCATION_PERIOD)) {
return Status::Error(400, "Wrong live location period specified");
}
constexpr int32 MIN_LIVE_LOCATION_HEADING = 1; // degrees, server side limit
constexpr int32 MAX_LIVE_LOCATION_HEADING = 360; // degrees, server side limit
auto heading = input_location->heading_;
if (heading != 0 && (heading < MIN_LIVE_LOCATION_HEADING || heading > MAX_LIVE_LOCATION_HEADING)) {
return Status::Error(400, "Wrong live location heading specified");
}
constexpr int32 MAX_PROXIMITY_ALERT_RADIUS = 100000; // meters, server side limit
auto proximity_alert_radius = input_location->proximity_alert_radius_;
if (proximity_alert_radius < 0 || proximity_alert_radius > MAX_PROXIMITY_ALERT_RADIUS) {
return Status::Error(400, "Wrong live location proximity alert radius specified");
}
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return InputMessageLocation(std::move(location), period, heading, proximity_alert_radius);
}
} // namespace td