Item AbstractFloatMathematician<isDouble>::calculate(const Item &o1,
const Operator op,
const Item &o2,
const QExplicitlySharedDataPointer<DynamicContext> &context) const
{
const Numeric *const num1 = o1.template as<Numeric>();
const Numeric *const num2 = o2.template as<Numeric>();
switch(op)
{
case Div:
return toItem(AbstractFloat<isDouble>::fromValue(num1->toDouble() / num2->toDouble()));
case IDiv:
{
if(num1->isNaN() || num2->isNaN())
{
context->error(QtXmlPatterns::tr("No operand in an integer division, %1, can be %2.")
.arg(formatKeyword("idiv"))
.arg(formatData("NaN")),
ReportContext::FOAR0002, this);
}
else if(num1->isInf())
{
context->error(QtXmlPatterns::tr("The first operand in an integer division, %1, cannot be infinity (%2).")
.arg(formatKeyword("idiv"))
.arg(formatData("INF")),
ReportContext::FOAR0002, this);
}
else if(num2->toInteger() == 0)
context->error(QtXmlPatterns::tr("The second operand in a division, %1, cannot be zero (%2).")
.arg(formatKeyword("idiv"))
.arg(formatData("0")),
ReportContext::FOAR0001, this);
return Integer::fromValue(static_cast<xsInteger>(num1->toDouble() / num2->toDouble()));
}
case Substract:
return toItem(AbstractFloat<isDouble>::fromValue(num1->toDouble() - num2->toDouble()));
case Mod:
return toItem(AbstractFloat<isDouble>::fromValue(::fmod(num1->toDouble(), num2->toDouble())));
case Multiply:
return toItem(AbstractFloat<isDouble>::fromValue(num1->toDouble() * num2->toDouble()));
case Add:
return toItem(AbstractFloat<isDouble>::fromValue(num1->toDouble() + num2->toDouble()));
}
Q_ASSERT(false);
return Item(); /* GCC unbarfer. */
}
jschar *
Statistics::formatJSON(uint64_t timestamp)
{
StatisticsSerializer ss(StatisticsSerializer::AsJSON);
formatData(ss, timestamp);
return ss.finishJSString();
}
/*
* Encrypt the given Payload, update sender context and output
* decryption in ciphermessage.
*
* ciphermessage pointer output array with size >= payload + MAC_LENGTH
* ENC_sender_ctx pointer to the encoding sender context
* Payload pointer to the plaintext to send
* Plen the length of Payload in bytes max size = MAX_MESSAGE_LENGTH - MAC_LENGTH
*/
void CCM_encrypt(message_ctx *ciphermessage, ENC_ctx *ENC_sender_ctx, const void *Payloadin, const unsigned int Plen)
{
const unsigned char *Payload = Payloadin;
unsigned char TEMP[((MAX_MESSAGE_LENGTH*2 - MAC_LENGTH-1)/BLOCK_LENGTH + 1 + 2)*BLOCK_LENGTH];
unsigned char MAC[MAC_LENGTH];
unsigned int * temp = (unsigned int *) (ENC_sender_ctx->nonce+2);
//increase counter part of Nonce, the counter part is written small endian
(ENC_sender_ctx->counter)++;
*temp = ENC_sender_ctx->counter;
formatData(TEMP, ENC_sender_ctx->nonce ,Payload, Plen);
generateMAC(MAC, ENC_sender_ctx->key,TEMP,(Plen-1)/BLOCK_LENGTH + 1 +2);
create_cyphered_counter_block(TEMP, ENC_sender_ctx->key, ENC_sender_ctx->nonce, (Plen-1)/BLOCK_LENGTH + 2);
XOR(MAC, MAC, TEMP, MAC_LENGTH);
XOR(ciphermessage->data, Payload, TEMP+BLOCK_LENGTH, Plen);
ciphermessage->seq_number = ENC_sender_ctx->counter;
ciphermessage->length = Plen + MAC_LENGTH;
memcpy(((unsigned char *) (ciphermessage->data)) + Plen,MAC,MAC_LENGTH);
}
jschar *
Statistics::formatMessage()
{
StatisticsSerializer ss(StatisticsSerializer::AsText);
formatData(ss, 0);
return ss.finishJSString();
}
void CastingPlatform<TSubClass, issueError>::issueCastError(const Item &validationError,
const Item &sourceValue,
const ReportContext::Ptr &context) const
{
Q_ASSERT(validationError);
Q_ASSERT(context);
Q_ASSERT(validationError.isAtomicValue());
Q_ASSERT(validationError.template as<AtomicValue>()->hasError());
const ValidationError::Ptr err(validationError.template as<ValidationError>());
QString msg(err->message());
if(msg.isNull())
{
msg = QtXmlPatterns::tr("It's not possible to cast the value %1 of type %2 to %3")
.arg(formatData(sourceValue.stringValue()))
.arg(formatType(context->namePool(), sourceValue.type()))
.arg(formatType(context->namePool(), targetType()));
}
else
{
Q_ASSERT(!msg.isEmpty());
msg = QtXmlPatterns::tr("Failure when casting from %1 to %2: %3")
.arg(formatType(context->namePool(), sourceValue.type()))
.arg(formatType(context->namePool(), targetType()))
.arg(msg);
}
/* If m_errorCode is FORG0001, we assume our sub-classer doesn't have a
* special wish about error code, so then we use the error object's code.
*/
context->error(msg, m_errorCode == ReportContext::FORG0001 ? err->errorCode() : m_errorCode,
static_cast<const TSubClass*>(this));
}
/*
* Decrypt the given ciphermessage, update receiver context and output
* decryption in payload.
*
* payload pointer to output array with size >= ciphermessage - MAC_LENGTH
* payload_size size of the output payload
* ENC_receiver_ctx pointer to the encoding receiver context
* ciphermessage pointer to the encrypted input message
*/
void CCM_decrypt(void *payloadin, unsigned int *payload_size, ENC_ctx *ENC_receiver_ctx, const message_ctx *ciphermessage){
unsigned char *payload = payloadin;
unsigned char MAC[MAC_LENGTH], MAC_check[MAC_LENGTH];
unsigned char temp[ (1+((MAX_MESSAGE_LENGTH*2 - MAC_LENGTH-1)/BLOCK_LENGTH)+2)*BLOCK_LENGTH];
unsigned char temp_payload[MAX_MESSAGE_LENGTH*2 - MAC_LENGTH];
//check of message is not sended again:
if (ENC_receiver_ctx->counter>=ciphermessage->seq_number){
if (PRINT_errors == 1){
printf("\n");
printf("resending of message");
printf("\n \n");};
*payload_size = 0;
return;
};
if (ciphermessage->length <= MAC_LENGTH){
if (PRINT_errors == 1){
printf("\n");
printf("invalid1\n");
printf("\n \n");};
*payload_size = 0;
return;
};
// set Nonce counter part to the received counter part (small endian)
memcpy(ENC_receiver_ctx->nonce+2, &ciphermessage->seq_number, 4);
create_cyphered_counter_block(temp, ENC_receiver_ctx->key, ENC_receiver_ctx->nonce, (ciphermessage->length -MAC_LENGTH-1)/BLOCK_LENGTH + 2);
XOR(MAC, ((unsigned char *) (ciphermessage->data)) + ciphermessage->length-MAC_LENGTH,temp, MAC_LENGTH);
XOR(temp_payload, ciphermessage->data, temp+BLOCK_LENGTH, ciphermessage->length - MAC_LENGTH);
formatData(temp, ENC_receiver_ctx->nonce ,temp_payload, ciphermessage->length - MAC_LENGTH);
generateMAC(MAC_check, ENC_receiver_ctx->key,temp,2+(ciphermessage->length - MAC_LENGTH-1)/BLOCK_LENGTH + 1);
if (memcmp(MAC, MAC_check, MAC_LENGTH) != 0){
if (PRINT_errors == 1){
printf("\n");
printf("invalid2\n");
printf("\n \n");};
*payload_size = 0;
return;
};
ENC_receiver_ctx->counter = ciphermessage->seq_number;
*payload_size = ciphermessage->length - MAC_LENGTH;
memcpy(payload,temp_payload, *payload_size);
}
void DataFileExporter::exportDataLine(double timeData, QList <double> dataValues)
{
/* QList correspond with activeGraphList */
if (_pSettingsModel->writeDuringLog())
{
// Use buffering
_dataExportBuffer.append(formatData(timeData, dataValues));
if ((QDateTime::currentMSecsSinceEpoch() - lastLogTime) > _cLogBufferTimeout)
{
flushExportBuffer();
}
}
}
void
Statistics::printStats()
{
if (fullFormat) {
fprintf(fp, "GC(T+%.3fs) %s\n",
t(slices[0].start - startupTime) / 1000.0,
formatData());
} else {
fprintf(fp, "%f %f %f\n",
t(gcDuration()),
t(phaseTimes[PHASE_MARK]),
t(phaseTimes[PHASE_SWEEP]));
}
fflush(fp);
}
void MainWindow::reload(){
cout<<"glv "<<this->path<<" "<<logStart<<" "<<logLength<<endl;
cout<<"dir:"<<this->path<<" start:"<<logStart<<" length:"<<logLength<<endl;
this->setWindowTitle("glv"+(this->path==""?"":" "+this->path));
QString split = "*********GLV***xiaozhuai***GLV*********";
QString result;
QString cmd;
cmd= "git";
QStringList argv;
argv<<"-C"<<this->path<<"log"<<"--pretty=format:%H*********GLV***xiaozhuai***GLV*********%an*********GLV***xiaozhuai***GLV*********%ae*********GLV***xiaozhuai***GLV*********%ct*********GLV***xiaozhuai***GLV*********%cr*********GLV***xiaozhuai***GLV*********%s";
//s = "(git -C '"+this->path+"' log --pretty=format:'%H %an %ae %d %s %ct %cr' --abbrev-commit) | (awk 'NR>="+QString::number(this->logStart)+"&&NR<="+QString::number(this->logLength+1)+"')";
result = this->runCmd(cmd,argv,this->logStart,this->logLength);
formatData(result);
render();
}
void
Statistics::printStats()
{
if (fullFormat) {
StatisticsSerializer ss(StatisticsSerializer::AsText);
formatData(ss, 0);
char *msg = ss.finishCString();
if (msg) {
fprintf(fp, "GC(T+%.3fs) %s\n", t(slices[0].start - startupTime) / 1000.0, msg);
js_free(msg);
}
} else {
fprintf(fp, "%f %f %f\n",
t(gcDuration()),
t(phaseTimes[PHASE_MARK]),
t(phaseTimes[PHASE_SWEEP]));
}
fflush(fp);
}
void
Statistics::endSlice()
{
slices.back().end = PRMJ_Now();
if (JSAccumulateTelemetryDataCallback cb = runtime->telemetryCallback)
(*cb)(JS_TELEMETRY_GC_SLICE_MS, t(slices.back().end - slices.back().start));
bool last = runtime->gcIncrementalState == gc::NO_INCREMENTAL;
if (last)
endGC();
if (GCSliceCallback cb = runtime->gcSliceCallback) {
if (last)
(*cb)(runtime, GC_CYCLE_END, GCDescription(formatData(), !!compartment));
else
(*cb)(runtime, GC_SLICE_END, GCDescription(NULL, !!compartment));
}
}
void DataFileExporter::exportDataFile(QString dataFile)
{
if (_pGraphDataModel->activeCount() != 0)
{
const QList<double> keyList = _pGraphView->graphTimeData();
QList<QCPDataMap *> dataList;
QStringList logData;
// Create header
logData.append(constructDataHeader(false));
// Create label row
logData.append(createLabelRow());
QList<quint16> activeGraphIndexes;
_pGraphDataModel->activeGraphIndexList(&activeGraphIndexes);
for(qint32 idx = 0; idx < activeGraphIndexes.size(); idx++)
{
// Save data lists
dataList.append(_pGraphDataModel->dataMap(activeGraphIndexes[idx]));
}
// Add data lines
for(qint32 i = 0; i < keyList.size(); i++)
{
QList<double> dataRowValues;
for(qint32 d = 0; d < dataList.size(); d++)
{
dataRowValues.append(dataList[d]->value(keyList[i]).value);
}
logData.append(formatData(keyList[i], dataRowValues));
}
// Clean file
clearFile(dataFile);
// Export data
writeToFile(dataFile, logData);
}
}
void AccelTreeBuilder<FromDocument>::attribute(const QXmlName &name, const QStringRef &value)
{
/* Attributes adds a namespace binding, so lets synthesize one.
*
* We optimize by checking whether we have a namespace for which a binding would
* be generated. Happens relatively rarely. */
if(name.hasPrefix())
namespaceBinding(QXmlName(name.namespaceURI(), 0, name.prefix()));
m_document->basicData.append(AccelTree::BasicNodeData(currentDepth(), currentParent(), QXmlNodeModelIndex::Attribute, 0, name));
++m_preNumber;
++m_size.top();
m_isPreviousAtomic = false;
if(name.namespaceURI() == StandardNamespaces::xml && name.localName() == StandardLocalNames::id)
{
const QString normalized(value.toString().simplified());
if(QXmlUtils::isNCName(normalized))
{
const QXmlName::LocalNameCode id = m_namePool->allocateLocalName(normalized);
const int oldSize = m_document->m_IDs.count();
m_document->m_IDs.insert(id, currentParent());
/* We don't run the value through m_attributeCompress here, because
* the likelyhood of it deing identical to another attribute is
* very small. */
m_document->data.insert(m_preNumber, normalized);
/**
* In the case that we're called for doc-available(), m_context is
* null, and we need to flag somehow that we failed to load this
* document.
*/
if(oldSize == m_document->m_IDs.count() && m_context) // TODO
{
Q_ASSERT(m_context);
m_context->error(QtXmlPatterns::tr("An %1-attribute with value %2 has already been declared.")
.arg(formatKeyword("xml:id"),
formatData(normalized)),
FromDocument ? ReportContext::FODC0002 : ReportContext::XQDY0091,
this);
}
}
else if(m_context) // TODO
{
Q_ASSERT(m_context);
/* If we're building from an XML Document(e.g, we're fed from QXmlStreamReader, we raise FODC0002,
* otherwise XQDY0091. */
m_context->error(QtXmlPatterns::tr("An %1-attribute must have a "
"valid %2 as value, which %3 isn't.").arg(formatKeyword("xml:id"),
formatType(m_namePool, BuiltinTypes::xsNCName),
formatData(value.toString())),
FromDocument ? ReportContext::FODC0002 : ReportContext::XQDY0091,
this);
}
}
else
m_document->data.insert(m_preNumber, *m_attributeCompress.insert(value.toString()));
}
DataRetrieval :: DataRetrieval(string file)
{
vector<string> lines = dataExtraction(file);
//particle = new ArrayList<ParticleInformation>();
formatData(lines);
}
