struct timeval timeval() const
{
struct timeval t;
t.tv_sec = secs();
t.tv_usec = us() - (t.tv_sec * MILLISECONDS);
return t;
}
int main(int argc, char** argv){
UnicodeProperties props;
UnicodeString us(argv[1]);
BiDir bidi(&props);
bidi.determineBidiLevels(us);
return 0;
}
QMap<QString, shared_ptr<ChatUser> >
ConnectorOld::parseChatUsers(QStringList recvMessage)
{
QMap<QString, shared_ptr<ChatUser> > users;
QString channelId = recvMessage.at(0);
recvMessage.pop_front(); // Remove channelId
QStringList usersList = recvMessage.join("\t").split("\r");
usersList.pop_back(); // Remove empty string
QStringList::const_iterator it;
for (it = usersList.constBegin(); it != usersList.constEnd(); ++it)
{
QStringList user = (*it).split('\t');
shared_ptr<ChatUser> us(
new ChatUser(
this,
channelId,
user.at(0),
user.at(1),
user.at(2),
user.at(3)));
users.insert(us->id(), us);
}
return users;
}
void testUtf8Bwt(std::string const & fn)
{
::libmaus::util::Utf8String us(fn);
typedef ::libmaus::util::Utf8String::saidx_t saidx_t;
::libmaus::autoarray::AutoArray<saidx_t,::libmaus::autoarray::alloc_type_c> SA = us.computeSuffixArray32();
// produce bwt
for ( uint64_t i = 0; i < SA.size(); ++i )
if ( SA[i] )
SA[i] = us[SA[i]-1];
else
SA[i] = -1;
// produce huffman shaped wavelet tree of bwt
::std::map<int64_t,uint64_t> chist = us.getHistogramAsMap();
chist[-1] = 1;
::libmaus::huffman::HuffmanTreeNode::shared_ptr_type htree = ::libmaus::huffman::HuffmanBase::createTree(chist);
::libmaus::util::TempFileNameGenerator tmpgen(fn+"_tmp",3);
::libmaus::util::FileTempFileContainer tmpcnt(tmpgen);
::libmaus::wavelet::ImpExternalWaveletGeneratorHuffman IEWGH(htree.get(),tmpcnt);
IEWGH.putSymbol(us[us.size()-1]);
for ( uint64_t i = 0; i < SA.size(); ++i )
IEWGH.putSymbol(SA[i]);
IEWGH.createFinalStream(fn+".hwt");
// load huffman shaped wavelet tree of bwt
::libmaus::wavelet::ImpHuffmanWaveletTree::unique_ptr_type IHWT
(::libmaus::wavelet::ImpHuffmanWaveletTree::load(fn+".hwt"));
// check rank counts
for ( ::std::map<int64_t,uint64_t>::const_iterator ita = chist.begin(); ita != chist.end(); ++ita )
assert ( IHWT->rank(ita->first,SA.size()) == ita->second );
/* cumulative symbol freqs, shifted by 1 to accomodate for terminator -1 */
int64_t const maxsym = chist.rbegin()->first;
int64_t const shiftedmaxsym = maxsym+1;
::libmaus::autoarray::AutoArray<uint64_t> D(shiftedmaxsym+1);
for ( ::std::map<int64_t,uint64_t>::const_iterator ita = chist.begin(); ita != chist.end(); ++ita )
D [ ita->first + 1 ] = ita->second;
D.prefixSums();
// terminator has rank 0 and is at position us.size()
uint64_t rank = 0;
int64_t pos = us.size();
// decode text backward from bwt
while ( --pos >= 0 )
{
std::pair< int64_t,uint64_t> const is = IHWT->inverseSelect(rank);
rank = D[is.first+1] + is.second;
assert ( is.first == us[pos] );
}
// remove huffman shaped wavelet tree
remove ((fn+".hwt").c_str());
}
void testUtf8Circular(std::string const & fn)
{
::libmaus::util::Utf8String us(fn);
::libmaus::aio::Utf8CircularWrapper CW(fn);
for ( uint64_t i = 0; i < 16*us.size(); ++i )
assert ( us[i%us.size()] == static_cast<wchar_t>(CW.get()) );
}
static int FUNC(quantisation_table)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawQuantisationTable *current)
{
int err, i;
u(4, Pq, 0, 1);
u(4, Tq, 0, 3);
if (current->Pq) {
for (i = 0; i < 64; i++)
us(16, Q[i], i, 1, 255);
} else {
for (i = 0; i < 64; i++)
us(8, Q[i], i, 1, 255);
}
return 0;
}
void MainWindow::setFilterAmount()
{
QString amt;
QLocale us(QLocale::English,QLocale::UnitedStates);
amt = "Filter total: ";
amt.append(us.toCurrencyString(sumColumn(col_amount),us.currencySymbol()));
ui->lblFilterTotal->setText(amt);
}
TEST(QiOs, timeValCtor)
{
qi::os::timeval t0 = qi::os::timeval();
// t0 members are initialized to 0
EXPECT_EQ(0, t0.tv_sec);
EXPECT_EQ(0, t0.tv_usec);
qi::os::timeval t1;
// t1 members are initialized to 0
EXPECT_EQ(0, t1.tv_sec);
EXPECT_EQ(0, t1.tv_usec);
// t2 members are not normalized
qi::os::timeval t2(-1, -2);
EXPECT_EQ(-1, t2.tv_sec);
EXPECT_EQ(-2, t2.tv_usec);
qi::Seconds s(123456789);
qi::MicroSeconds us(123456);
qi::NanoSeconds ns(789);
qi::Duration d_us(s + us);
qi::Duration d_ns(d_us + ns);
qi::int64_t normalized_s = s.count();
qi::int64_t normalized_us = us.count();
// positive
{
qi::os::timeval tv0(d_us);
EXPECT_EQ(normalized_s, tv0.tv_sec);
EXPECT_EQ(normalized_us, tv0.tv_usec);
qi::Duration d_back = qi::Seconds(tv0.tv_sec) +
qi::MicroSeconds(tv0.tv_usec);
EXPECT_TRUE(d_us - d_back < qi::MicroSeconds(1));
qi::os::timeval tv1(d_us);
EXPECT_EQ(normalized_s, tv1.tv_sec);
EXPECT_EQ(normalized_us, tv1.tv_usec);
}
// negative
d_us = -d_us;
d_ns = -d_ns;
normalized_s = -s.count() - 1;
normalized_us = -us.count() + 1000000;
{
qi::os::timeval tv0(d_us);
EXPECT_EQ(normalized_s, tv0.tv_sec);
EXPECT_EQ(normalized_us, tv0.tv_usec);
qi::Duration d_back = qi::Seconds(tv0.tv_sec) +
qi::MicroSeconds(tv0.tv_usec);
EXPECT_TRUE(d_us - d_back < qi::MicroSeconds(1));
qi::os::timeval tv1(d_us);
EXPECT_EQ(normalized_s, tv1.tv_sec);
EXPECT_EQ(normalized_us, tv1.tv_usec);
}
}
inline std::string upcase(const std::string& s)
{
std::string us(s);
// Getting the character type facet for toupper().
// We use the classic (i.e. C) locale.
const std::ctype<char>& ct = std::use_facet< std::ctype<char> >(std::locale::classic());
for (int i = 0; i < int(s.size()); ++i) {
us[i] = ct.toupper(s[i]);
}
return us;
}
static int FUNC(huffman_table)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawHuffmanTable *current)
{
int err, i, j, ij;
u(4, Tc, 0, 1);
u(4, Th, 0, 3);
for (i = 0; i < 16; i++)
us(8, L[i], i, 0, 224);
ij = 0;
for (i = 0; i < 16; i++) {
for (j = 0; j < current->L[i]; j++) {
us(8, V[ij], ij, 0, 255);
++ij;
}
}
return 0;
}
int main(int argc, const char *argv[]) {
puts("verify");
UErrorCode errorCode = U_ZERO_ERROR;
#if defined (COLLUNSAFE_PATTERN)
puts("verify pattern");
const UnicodeString unsafeBackwardPattern(FALSE, collunsafe_pattern, collunsafe_len);
fprintf(stderr, "\n -- pat '%c%c%c%c%c'\n",
collunsafe_pattern[0],
collunsafe_pattern[1],
collunsafe_pattern[2],
collunsafe_pattern[3],
collunsafe_pattern[4]);
if(U_SUCCESS(errorCode)) {
UnicodeSet us(unsafeBackwardPattern, errorCode);
fprintf(stderr, "\n%s:%d: err creating set %s\n", __FILE__, __LINE__, u_errorName(errorCode));
}
#endif
#if defined (COLLUNSAFE_RANGE)
{
puts("verify range");
UnicodeSet u;
for(int32_t i=0;i<unsafe_rangeCount*2;i+=2) {
u.add(unsafe_ranges[i+0],unsafe_ranges[i+1]);
}
printf("Finished with %d ranges\n", u.getRangeCount());
}
#endif
#if defined (COLLUNSAFE_SERIALIZE)
{
puts("verify serialize");
UnicodeSet u(unsafe_serializedData, unsafe_serializedCount, UnicodeSet::kSerialized, errorCode);
fprintf(stderr, "\n%s:%d: err creating set %s\n", __FILE__, __LINE__, u_errorName(errorCode));
printf("Finished deserialize with %d ranges\n", u.getRangeCount());
}
#endif
// if(tailoring.unsafeBackwardSet == NULL) {
// errorCode = U_MEMORY_ALLOCATION_ERROR;
// fprintf(stderr, "\n%s:%d: err %s\n", __FILE__, __LINE__, u_errorName(errorCode));
// }
puts("verify col UCA");
if(U_SUCCESS(errorCode)) {
Collator *col = Collator::createInstance(Locale::getEnglish(), errorCode);
fprintf(stderr, "\n%s:%d: err %s creating collator\n", __FILE__, __LINE__, u_errorName(errorCode));
}
if(U_FAILURE(errorCode)) {
return 1;
} else {
return 0;
}
}
size_t StdStringToASUnicode(const std::string text, ASUnicode* buffer, size_t bufferMax)
{
char* cstr = new char [text.length()+1];
std::strcpy (cstr, text.c_str());
ai::UnicodeString us(cstr);
us.as_ASUnicode(buffer, bufferMax);
delete[] cstr;
return ai::UnicodeString(buffer).length();
}
int main() {
Undergrad us("Frodo Baggins", 5562, "Ring Theory", 4, 1220);
GradStudent gs("Bilbo Baggins", 3029, "History", 6,
GradStudent::fellowship);
cout << "Here is the data for the two students:\n";
cout << gs.toString() << endl;
cout << us.toString() << endl;
cout << "\nHere is what happens when they finish their studies:\n";
finish(&us);
finish(&gs);
return 0;
}
~Performance(void)
{
if (is_measured)
{
int counter = counters[tag_];
ms_results[tag_][counter] = ms();
us_results[tag_][counter] = us();
counters[tag_] = (counter+1) % RANGE;
}
}
shared_ptr<ChatUser>
ConnectorOld::parseEnteredUser(QStringList recvMessage)
{
shared_ptr<ChatUser> us(
new ChatUser(
this,
recvMessage.at(0),
recvMessage.at(2),
recvMessage.at(3),
recvMessage.at(4),
recvMessage.at(5)));
return us;
}
_Accum mulkD(_Accum x, _Accum y)
{
#if BYTE_ORDER == BIG_ENDIAN
# define LO 0
# define HI 1
#else
# define LO 1
# define HI 0
#endif
uint16_t xs[2];
uint16_t ys[2];
int8_t positive = ((x < 0 && y < 0) || (y > 0 && x > 0)) ? 1 : 0;
y = absk(y);
#ifndef TEST_ON_PC
//clang doesn't allow pragma's within function def's
//Ignore gcc warnings on the following
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wstrict-aliasing"
#endif
*((_Accum*)xs) = absk(x);
*((_Accum*)ys) = y;
x = sl(xs[HI])*y + sl(xs[LO])*sl(ys[HI]);
*((_Accum*)xs) = ul(xs[LO])*ul(ys[LO]);
#ifndef TEST_ON_PC
#pragma GCC diagnostic pop
#endif
if(positive)
return x + us(xs[HI]);
else
return -(x + us(xs[HI]));
#undef HI
#undef LO
}
void logTextview::writeLog(std::string const& _s)
{
// Add a timestamp.
boost::posix_time::ptime t(boost::posix_time::second_clock::local_time());
std::string timestamp = to_simple_string(t);
// Add the string.
Glib::ustring us("[" + timestamp + "] " + _s + "\n");
Gtk::TextIter iter = get_buffer()->end();
get_buffer()->insert(iter, us);
// Scroll to the end of the buffer.
scroll_to_mark(get_buffer()->create_mark("end", get_buffer()->end()), 0.0);
}
static int FUNC(scan_header)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawScanHeader *current)
{
int err, j;
HEADER("Scan");
u(16, Ls, 6, 6 + 2 * JPEG_MAX_COMPONENTS);
u(8, Ns, 1, 4);
for (j = 0; j < current->Ns; j++) {
us(8, Cs[j], j, 0, JPEG_MAX_COMPONENTS);
us(4, Td[j], j, 0, 3);
us(4, Ta[j], j, 0, 3);
}
u(8, Ss, 0, 63);
u(8, Se, 0, 63);
u(4, Ah, 0, 13);
u(4, Al, 0, 15);
return 0;
}
static int FUNC(frame_header)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawFrameHeader *current)
{
int err, i;
HEADER("Frame Header");
u(16, Lf, 8, 8 + 3 * JPEG_MAX_COMPONENTS);
u(8, P, 2, 16);
u(16, Y, 0, JPEG_MAX_HEIGHT);
u(16, X, 1, JPEG_MAX_WIDTH);
u(8, Nf, 1, JPEG_MAX_COMPONENTS);
for (i = 0; i < current->Nf; i++) {
us(8, C[i], i, 0, JPEG_MAX_COMPONENTS);
us(4, H[i], i, 1, 4);
us(4, V[i], i, 1, 4);
us(8, Tq[i], i, 0, 3);
}
return 0;
}
Time Time::operator+=(int usecs) {
int newUsecs = us() + usecs;
int dSec = 0;
while (newUsecs < 0) {
dSec--;
newUsecs += 1000000;
}
while (newUsecs > 1000000) {
dSec++;
newUsecs -= 1000000;
}
t.tv_usec = newUsecs;
t.tv_sec += dSec;
return *this;
}
void Logger::Impl::FormatTime() {
int64_t microSecondsSinceEpoch = timeStamp.GetMicroSecondsSinceEpoch();
time_t seconds = static_cast<time_t>(microSecondsSinceEpoch / TimeStamp::MICRO_SECOND_PER_SECOND);
int microSeconds = static_cast<int>(microSecondsSinceEpoch % TimeStamp::MICRO_SECOND_PER_SECOND);
if (seconds != t_lastSecond) {
t_lastSecond = seconds;
struct tm tm_time;
::gmtime_r(&seconds, &tm_time);
int len = snprintf(t_time, sizeof(t_time), "%4d%02d%02d %02d:%02d:%02d"
, tm_time.tm_year + 1900, tm_time.tm_mon + 1, tm_time.tm_mday
, tm_time.tm_hour, tm_time.tm_min, tm_time.tm_sec);
assert(len == 17);
}
Fmt us(".%06dZ ", microSeconds);
assert(us.GetLength() == 9);
stream << T(t_time, 17) << T(us.GetData(), 9);
}
char *get(char *buf, int maxbuf) {
CBuf mybuf(maxbuf);
char *pbuf = buf;
do {
int rc = readline(us(), pbuf, maxbuf);
if (rc < 0){
err("readLine err %d", rc);
exit(-errno);
}
/** BUG what if field is called ERROR ? should be on EOF line ? */
if (strstr(pbuf, "ERROR") || strstr(pbuf, "FAIL")){
++errors;
err("MDS ERROR: %s", pbuf);
}
pbuf = mybuf.buf;
} while (!strstr(pbuf, "EOF"));
return buf;
}
int main()
{
// exact conversions allowed for integral reps
{
boost::chrono::milliseconds ms(1);
boost::chrono::microseconds us = ms;
BOOST_TEST(us.count() == 1000);
}
// inexact conversions allowed for floating point reps
{
boost::chrono::duration<double, boost::micro> us(1);
boost::chrono::duration<double, boost::milli> ms = us;
BOOST_TEST(ms.count() == 1./1000);
}
// Convert int to float
{
boost::chrono::duration<int> i(3);
boost::chrono::duration<int> d = i;
BOOST_TEST(d.count() == 3);
}
// default constructor
{
check_default<boost::chrono::duration<Rep> >();
}
// constructor from rep
{
check_from_rep<boost::chrono::duration<int> >(5);
check_from_rep<boost::chrono::duration<int, boost::ratio<3, 2> > >(5);
check_from_rep<boost::chrono::duration<Rep, boost::ratio<3, 2> > >(Rep(3));
check_from_rep<boost::chrono::duration<double, boost::ratio<2, 3> > >(5.5);
}
// constructor from other rep
{
boost::chrono::duration<double> d(5);
BOOST_TEST(d.count() == 5);
return boost::report_errors();
}
return boost::report_errors();
}
QMap<QString, QString>
Session::lastSessionData()
{
Settings s;
QMap<QString, QString> sessionData;
//use the Username setting or the first username if there have been any logged in previously
QString username = s.value( "Username", QString() ).toString();
if( !username.isEmpty() )
{
UserSettings us( username );
sessionData[ "username" ] = username;
const QString sk = us.value( "SessionKey", "" ).toString();
if( !sk.isEmpty() )
sessionData[ "sessionKey" ] = sk;
}
return sessionData;
}
int wy(int m, int JL, int K7zL, int nQ4v, int UFv, int OTU1, int FZu0) {
int KH;
int w;
int G;
int C8x;
int W;
;
while (us(703691925, - VyCm < 1738169888 > 113986089 < LRrJ - g3Ra, s9K)) while (X(N <= osq, nA)) while (YoG) My1g;
break;
{
int sX;
int g_t;
int TOh;
int y;
int wDNG;
int uhu;
int i;
int Zev;
int r;
Wt;
}
}
static int FUNC(application_data)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawApplicationData *current)
{
int err, i;
HEADER("Application Data");
u(16, Lp, 2, 65535);
if (current->Lp > 2) {
#ifdef READ
current->Ap_ref = av_buffer_alloc(current->Lp - 2);
if (!current->Ap_ref)
return AVERROR(ENOMEM);
current->Ap = current->Ap_ref->data;
#endif
for (i = 0; i < current->Lp - 2; i++)
us(8, Ap[i], i, 0, 255);
}
return 0;
}
static int FUNC(comment)(CodedBitstreamContext *ctx, RWContext *rw,
JPEGRawComment *current)
{
int err, i;
HEADER("Comment");
u(16, Lc, 2, 65535);
if (current->Lc > 2) {
#ifdef READ
current->Cm_ref = av_buffer_alloc(current->Lc - 2);
if (!current->Cm_ref)
return AVERROR(ENOMEM);
current->Cm = current->Cm_ref->data;
#endif
for (i = 0; i < current->Lc - 2; i++)
us(8, Cm[i], i, 0, 255);
}
return 0;
}
status_t
ShowImageWindow::_LoadImage(bool forward)
{
BMessenger us(this);
status_t status = my_app->DefaultCache().RetrieveImage(
fNavigator.CurrentRef(), fNavigator.CurrentPage(), &us);
if (status != B_OK)
return status;
fProgressWindow->Start(this);
// Preload previous/next images - two in the navigation direction, one
// in the opposite direction.
entry_ref nextRef = fNavigator.CurrentRef();
if (_PreloadImage(forward, nextRef))
_PreloadImage(forward, nextRef);
entry_ref previousRef = fNavigator.CurrentRef();
_PreloadImage(!forward, previousRef);
return B_OK;
}
void Logger::formatTime()
{
int64_t microSecondsSinceEpoch = time_.microSecondsSinceEpoch();
time_t seconds = static_cast<time_t>(microSecondsSinceEpoch / Timestamp::kMicroSecondsPerSecond);
int microseconds = static_cast<int>(microSecondsSinceEpoch % Timestamp::kMicroSecondsPerSecond);
if (seconds != t_lastSecond) //如果seconds一样不用重新获取t_time,加快速度
{
t_lastSecond = seconds;
struct tm tm_time;
//::gmtime_r(&seconds, &tm_time); // FIXME TimeZone::fromUtcTime
#ifdef WIN
//gmtime_s(&tm_time, &seconds);//thread-safe gmtime
localtime_s(&tm_time, &seconds); //localtime_r得到小时数会多8,因为china是+8区。同样建议使用localtime_r版本。
#else
//gmtime_r(&seconds, &tm_time); //linux下gmtime_r为可重入版本
localtime_s(&tm_time, &seconds); //localtime_r得到小时数会多8,因为china是+8区。同样建议使用localtime_r版本。
#endif
int len = snprintf(t_time, sizeof(t_time), "%4d%02d%02d %02d:%02d:%02d",
tm_time.tm_year + 1900, tm_time.tm_mon + 1, tm_time.tm_mday,
tm_time.tm_hour, tm_time.tm_min, tm_time.tm_sec);
assert(len == 17); (void)len;
}
Fmt us(".%06dZ ", microseconds);
assert(us.length() == 9);
stream_ << T(t_time, 17) << T(us.data(), 9); //T类定义看本文件
}
void DdmSSAPIDriver::cbQueryAlarms(
U16 numberOfAlarms,
AlarmRecord* pAlarmRecords,
U16 numberOfAlarmLogEntries,
AlarmLogRecord* pAlarmLogEntries,
STATUS status_)
{
U32 i;
static U16 j = 0;
UnicodeString us(StringClass("Jaymie"));
TRACE_ENTRY(DdmSSAPIDriver::cbQueryAlarms(STATUS, void*));
if (j==1)
{
for (i = 0; i < numberOfAlarms; i++)
{
if ((pAlarmRecords[i].did != this->GetDid()) &&
(pAlarmRecords[i].clearable==TRUE))
{
RemitAlarmFromUser(pAlarmRecords[i].rid, us);
break;
}
}
for (i = 0; i < numberOfAlarms; i++)
{
if ((pAlarmRecords[i].did != this->GetDid()) &&
(pAlarmRecords[i].clearable==FALSE))
{
RemitAlarmFromUser(pAlarmRecords[i].rid, us);
break;
}
}
}
MessageControl();
j++;
}