tdesktop/Telegram/SourceFiles/core/utils.h

178 lines
4.5 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#pragma once
#include "base/basic_types.h"
#include "base/flags.h"
#include "base/algorithm.h"
#include "base/bytes.h"
#include <crl/crl_time.h>
#include <QtCore/QReadWriteLock>
#include <QtCore/QRegularExpression>
#include <QtCore/QMimeData>
#include <QtNetwork/QNetworkProxy>
#include <cmath>
#include <set>
#include <filesystem>
#if __has_include(<kurlmimedata.h>)
#include <kurlmimedata.h>
#endif
#if __has_include(<ksandbox.h>)
#include <ksandbox.h>
#endif
#define qsl(s) QStringLiteral(s)
namespace base {
template <typename Value, typename From, typename Till>
inline bool in_range(Value &&value, From &&from, Till &&till) {
return (value >= from) && (value < till);
}
#if __has_include(<kurlmimedata.h>)
inline QList<QUrl> GetMimeUrls(const QMimeData *data) {
if (!data->hasUrls()) {
return {};
}
return KUrlMimeData::urlsFromMimeData(
data,
KUrlMimeData::PreferLocalUrls);
}
#endif
#if __has_include(<ksandbox.h>)
inline QString IconName() {
static const auto Result = KSandbox::isFlatpak()
? qEnvironmentVariable("FLATPAK_ID")
: u"telegram"_q;
return Result;
}
#endif
inline bool CanReadDirectory(const QString &path) {
#ifndef Q_OS_MAC // directory_iterator since 10.15
try {
std::filesystem::directory_iterator(path.toStdString());
return true;
} catch (...) {
return false;
}
#else
Unexpected("Not implemented.");
#endif
}
} // namespace base
static const int32 ScrollMax = INT_MAX;
extern uint64 _SharedMemoryLocation[];
template <typename T, unsigned int N>
T *SharedMemoryLocation() {
static_assert(N < 4, "Only 4 shared memory locations!");
return reinterpret_cast<T*>(_SharedMemoryLocation + N);
}
inline void mylocaltime(struct tm * _Tm, const time_t * _Time) {
#ifdef Q_OS_WIN
localtime_s(_Tm, _Time);
#else
localtime_r(_Time, _Tm);
#endif
}
namespace ThirdParty {
void start();
void finish();
} // namespace ThirdParty
const static uint32 _md5_block_size = 64;
class HashMd5 {
public:
HashMd5(const void *input = 0, uint32 length = 0);
void feed(const void *input, uint32 length);
int32 *result();
private:
void init();
void finalize();
void transform(const uchar *block);
bool _finalized;
uchar _buffer[_md5_block_size];
uint32 _count[2];
uint32 _state[4];
uchar _digest[16];
};
int32 *hashSha1(const void *data, uint32 len, void *dest); // dest - ptr to 20 bytes, returns (int32*)dest
inline std::array<char, 20> hashSha1(const void *data, int size) {
auto result = std::array<char, 20>();
hashSha1(data, size, result.data());
return result;
}
int32 *hashSha256(const void *data, uint32 len, void *dest); // dest - ptr to 32 bytes, returns (int32*)dest
inline std::array<char, 32> hashSha256(const void *data, int size) {
auto result = std::array<char, 32>();
hashSha256(data, size, result.data());
return result;
}
int32 *hashMd5(const void *data, uint32 len, void *dest); // dest = ptr to 16 bytes, returns (int32*)dest
inline std::array<char, 16> hashMd5(const void *data, int size) {
auto result = std::array<char, 16>();
hashMd5(data, size, result.data());
return result;
}
char *hashMd5Hex(const int32 *hashmd5, void *dest); // dest = ptr to 32 bytes, returns (char*)dest
inline char *hashMd5Hex(const void *data, uint32 len, void *dest) { // dest = ptr to 32 bytes, returns (char*)dest
return hashMd5Hex(HashMd5(data, len).result(), dest);
}
inline std::array<char, 32> hashMd5Hex(const void *data, int size) {
auto result = std::array<char, 32>();
hashMd5Hex(data, size, result.data());
return result;
}
QString translitRusEng(const QString &rus);
QString rusKeyboardLayoutSwitch(const QString &from);
inline int rowscount(int fullCount, int countPerRow) {
return (fullCount + countPerRow - 1) / countPerRow;
}
inline int floorclamp(int value, int step, int lowest, int highest) {
return std::clamp(value / step, lowest, highest);
}
inline int floorclamp(float64 value, int step, int lowest, int highest) {
return std::clamp(
static_cast<int>(std::floor(value / step)),
lowest,
highest);
}
inline int ceilclamp(int value, int step, int lowest, int highest) {
return std::clamp((value + step - 1) / step, lowest, highest);
}
inline int ceilclamp(float64 value, int32 step, int32 lowest, int32 highest) {
return std::clamp(
static_cast<int>(std::ceil(value / step)),
lowest,
highest);
}