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#include "output.h"
#include <util/string/cast.h>
#include "format.h"
#include <util/memory/tempbuf.h>
#include <util/generic/singleton.h>
#include <util/generic/yexception.h>
#include <util/charset/utf8.h>
#include <util/charset/wide.h>
#if defined(_android_)
#include <util/system/dynlib.h>
#include <util/system/guard.h>
#include <util/system/mutex.h>
#include <android/log.h>
#endif
#include <cerrno>
#include <string>
#include <string_view>
#include <cstdio>
#if defined(_win_)
#include <io.h>
#endif
constexpr size_t MAX_UTF8_BYTES = 4; // UTF-8-encoded code point takes between 1 and 4 bytes
IOutputStream::IOutputStream() noexcept = default;
IOutputStream::~IOutputStream() = default;
void IOutputStream::DoFlush() {
/*
* do nothing
*/
}
void IOutputStream::DoFinish() {
Flush();
}
void IOutputStream::DoWriteV(const TPart* parts, size_t count) {
for (size_t i = 0; i < count; ++i) {
const TPart& part = parts[i];
DoWrite(part.buf, part.len);
}
}
void IOutputStream::DoWriteC(char ch) {
DoWrite(&ch, 1);
}
template <>
void Out<wchar16>(IOutputStream& o, wchar16 ch) {
const wchar32 w32ch = ReadSymbol(&ch, &ch + 1);
size_t length;
unsigned char buffer[MAX_UTF8_BYTES];
WriteUTF8Char(w32ch, length, buffer);
o.Write(buffer, length);
}
template <>
void Out<wchar32>(IOutputStream& o, wchar32 ch) {
size_t length;
unsigned char buffer[MAX_UTF8_BYTES];
WriteUTF8Char(ch, length, buffer);
o.Write(buffer, length);
}
static void WriteString(IOutputStream& o, const wchar16* w, size_t n) {
const size_t buflen = (n * MAX_UTF8_BYTES); // * 4 because the conversion functions can convert unicode character into maximum 4 bytes of UTF8
TTempBuf buffer(buflen + 1);
char* const data = buffer.Data();
size_t written = 0;
WideToUTF8(w, n, data, written);
data[written] = 0;
o.Write(data, written);
}
static void WriteString(IOutputStream& o, const wchar32* w, size_t n) {
const size_t buflen = (n * MAX_UTF8_BYTES); // * 4 because the conversion functions can convert unicode character into maximum 4 bytes of UTF8
TTempBuf buffer(buflen + 1);
char* const data = buffer.Data();
size_t written = 0;
WideToUTF8(w, n, data, written);
data[written] = 0;
o.Write(data, written);
}
template <>
void Out<TString>(IOutputStream& o, const TString& p) {
o.Write(p.data(), p.size());
}
template <>
void Out<std::string>(IOutputStream& o, const std::string& p) {
o.Write(p.data(), p.length());
}
template <>
void Out<std::string_view>(IOutputStream& o, const std::string_view& p) {
o.Write(p.data(), p.length());
}
template <>
void Out<std::u16string_view>(IOutputStream& o, const std::u16string_view& p) {
WriteString(o, p.data(), p.length());
}
template <>
void Out<std::u32string_view>(IOutputStream& o, const std::u32string_view& p) {
WriteString(o, p.data(), p.length());
}
template <>
void Out<TStringBuf>(IOutputStream& o, const TStringBuf& p) {
o.Write(p.data(), p.length());
}
template <>
void Out<TWtringBuf>(IOutputStream& o, const TWtringBuf& p) {
WriteString(o, p.data(), p.length());
}
template <>
void Out<TUtf32StringBuf>(IOutputStream& o, const TUtf32StringBuf& p) {
WriteString(o, p.data(), p.length());
}
template <>
void Out<const wchar16*>(IOutputStream& o, const wchar16* w) {
if (w) {
WriteString(o, w, std::char_traits<wchar16>::length(w));
} else {
o.Write("(null)");
}
}
template <>
void Out<const wchar32*>(IOutputStream& o, const wchar32* w) {
if (w) {
WriteString(o, w, std::char_traits<wchar32>::length(w));
} else {
o.Write("(null)");
}
}
template <>
void Out<TUtf16String>(IOutputStream& o, const TUtf16String& w) {
WriteString(o, w.c_str(), w.size());
}
template <>
void Out<TUtf32String>(IOutputStream& o, const TUtf32String& w) {
WriteString(o, w.c_str(), w.size());
}
#define DEF_CONV_DEFAULT(type) \
template <> \
void Out<type>(IOutputStream & o, type p) { \
o << ToString(p); \
}
#define DEF_CONV_CHR(type) \
template <> \
void Out<type>(IOutputStream & o, type p) { \
o.Write((char)p); \
}
#define DEF_CONV_NUM(type, len) \
template <> \
void Out<type>(IOutputStream & o, type p) { \
char buf[len]; \
o.Write(buf, ToString(p, buf, sizeof(buf))); \
} \
\
template <> \
void Out<volatile type>(IOutputStream & o, volatile type p) { \
Out<type>(o, p); \
}
DEF_CONV_NUM(bool, 64)
DEF_CONV_CHR(char)
DEF_CONV_CHR(signed char)
DEF_CONV_CHR(unsigned char)
DEF_CONV_NUM(signed short, 64)
DEF_CONV_NUM(signed int, 64)
DEF_CONV_NUM(signed long int, 64)
DEF_CONV_NUM(signed long long int, 64)
DEF_CONV_NUM(unsigned short, 64)
DEF_CONV_NUM(unsigned int, 64)
DEF_CONV_NUM(unsigned long int, 64)
DEF_CONV_NUM(unsigned long long int, 64)
DEF_CONV_NUM(float, 512)
DEF_CONV_NUM(double, 512)
DEF_CONV_NUM(long double, 512)
#if !defined(_YNDX_LIBCXX_ENABLE_VECTOR_BOOL_COMPRESSION) || (_YNDX_LIBCXX_ENABLE_VECTOR_BOOL_COMPRESSION == 1)
// TODO: acknowledge std::bitset::reference for both libc++ and libstdc++
template <>
void Out<typename std::vector<bool>::reference>(IOutputStream& o, const std::vector<bool>::reference& bit) {
return Out<bool>(o, static_cast<bool>(bit));
}
#endif
#ifndef TSTRING_IS_STD_STRING
template <>
void Out<TBasicCharRef<TString>>(IOutputStream& o, const TBasicCharRef<TString>& c) {
o << static_cast<char>(c);
}
template <>
void Out<TBasicCharRef<TUtf16String>>(IOutputStream& o, const TBasicCharRef<TUtf16String>& c) {
o << static_cast<wchar16>(c);
}
template <>
void Out<TBasicCharRef<TUtf32String>>(IOutputStream& o, const TBasicCharRef<TUtf32String>& c) {
o << static_cast<wchar32>(c);
}
#endif
template <>
void Out<const void*>(IOutputStream& o, const void* t) {
o << Hex(size_t(t));
}
template <>
void Out<void*>(IOutputStream& o, void* t) {
Out<const void*>(o, t);
}
using TNullPtr = decltype(nullptr);
template <>
void Out<TNullPtr>(IOutputStream& o, TTypeTraits<TNullPtr>::TFuncParam) {
o << TStringBuf("nullptr");
}
#if defined(_android_)
namespace {
class TAndroidStdIOStreams {
public:
TAndroidStdIOStreams()
: LogLibrary("liblog.so")
, LogFuncPtr((TLogFuncPtr)LogLibrary.Sym("__android_log_write"))
, Out(LogFuncPtr)
, Err(LogFuncPtr)
{
}
public:
using TLogFuncPtr = void (*)(int, const char*, const char*);
class TAndroidStdOutput: public IOutputStream {
public:
inline TAndroidStdOutput(TLogFuncPtr logFuncPtr) noexcept
: Buffer()
, LogFuncPtr(logFuncPtr)
{
}
virtual ~TAndroidStdOutput() {
}
private:
virtual void DoWrite(const void* buf, size_t len) override {
with_lock (BufferMutex) {
Buffer.Write(buf, len);
}
}
virtual void DoFlush() override {
with_lock (BufferMutex) {
LogFuncPtr(ANDROID_LOG_DEBUG, GetTag(), Buffer.Data());
Buffer.Clear();
}
}
virtual const char* GetTag() const = 0;
private:
TMutex BufferMutex;
TStringStream Buffer;
TLogFuncPtr LogFuncPtr;
};
class TStdErr: public TAndroidStdOutput {
public:
TStdErr(TLogFuncPtr logFuncPtr)
: TAndroidStdOutput(logFuncPtr)
{
}
virtual ~TStdErr() {
}
private:
virtual const char* GetTag() const override {
return "stderr";
}
};
class TStdOut: public TAndroidStdOutput {
public:
TStdOut(TLogFuncPtr logFuncPtr)
: TAndroidStdOutput(logFuncPtr)
{
}
virtual ~TStdOut() {
}
private:
virtual const char* GetTag() const override {
return "stdout";
}
};
static bool Enabled;
TDynamicLibrary LogLibrary; // field order is important, see constructor
TLogFuncPtr LogFuncPtr;
TStdOut Out;
TStdErr Err;
static inline TAndroidStdIOStreams& Instance() {
return *SingletonWithPriority<TAndroidStdIOStreams, 4>();
}
};
bool TAndroidStdIOStreams::Enabled = false;
}
#endif // _android_
namespace {
class TStdOutput: public IOutputStream {
public:
inline TStdOutput(FILE* f) noexcept
: F_(f)
{
}
~TStdOutput() override = default;
private:
void DoWrite(const void* buf, size_t len) override {
if (len != fwrite(buf, 1, len, F_)) {
#if defined(_win_)
// On Windows, if 'F_' is console -- 'fwrite' returns count of written characters.
// If, for example, console output codepage is UTF-8, then returned value is
// not equal to 'len'. So, we ignore some 'errno' values...
if ((errno == 0 || errno == EINVAL || errno == EILSEQ) && _isatty(fileno(F_))) {
return;
}
#endif
ythrow TSystemError() << "write failed";
}
}
void DoFlush() override {
if (fflush(F_) != 0) {
ythrow TSystemError() << "fflush failed";
}
}
private:
FILE* F_;
};
struct TStdIOStreams {
struct TStdErr: public TStdOutput {
inline TStdErr()
: TStdOutput(stderr)
{
}
~TStdErr() override = default;
};
struct TStdOut: public TStdOutput {
inline TStdOut()
: TStdOutput(stdout)
{
}
~TStdOut() override = default;
};
TStdOut Out;
TStdErr Err;
static inline TStdIOStreams& Instance() {
return *SingletonWithPriority<TStdIOStreams, 4>();
}
};
}
IOutputStream& NPrivate::StdErrStream() noexcept {
#if defined(_android_)
if (TAndroidStdIOStreams::Enabled) {
return TAndroidStdIOStreams::Instance().Err;
}
#endif
return TStdIOStreams::Instance().Err;
}
IOutputStream& NPrivate::StdOutStream() noexcept {
#if defined(_android_)
if (TAndroidStdIOStreams::Enabled) {
return TAndroidStdIOStreams::Instance().Out;
}
#endif
return TStdIOStreams::Instance().Out;
}
void RedirectStdioToAndroidLog(bool redirect) {
#if defined(_android_)
TAndroidStdIOStreams::Enabled = redirect;
#else
Y_UNUSED(redirect);
#endif
}
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