KstObject::UpdateType KstEquation::update(int update_counter) {
Q_ASSERT(myLockStatus() == KstRWLock::WRITELOCKED);
bool force = dirty();
setDirty(false);
bool xUpdated = false;
bool usedUpdated = false;
if (KstObject::checkUpdateCounter(update_counter) && !force) {
return lastUpdateResult();
}
if (!_pe) {
return setLastUpdateResult(NO_CHANGE);
}
assert(update_counter >= 0);
if (_xInVector == _inputVectors.end()) {
_xInVector = _inputVectors.find(XINVECTOR);
if (!*_xInVector) { // This is technically sort of fatal
return setLastUpdateResult(NO_CHANGE);
}
}
writeLockInputsAndOutputs();
KstVectorPtr v = *_xInVector;
xUpdated = KstObject::UPDATE == v->update(update_counter);
Equation::Context ctx;
ctx.sampleCount = _ns;
ctx.xVector = v;
usedUpdated = _pe && KstObject::UPDATE == _pe->update(update_counter, &ctx);
KstObject::UpdateType rc = NO_CHANGE; // if force, rc = UPDATE anyway.
if (force || xUpdated || usedUpdated) {
_isValid = FillY(force);
rc = UPDATE;
}
v = *_yOutVector;
if (rc == UPDATE) {
v->setDirty();
}
v->update(update_counter);
unlockInputsAndOutputs();
return setLastUpdateResult(rc);
}
KstObject::UpdateType KstCPlugin::update(int update_counter) {
Q_ASSERT(myLockStatus() == KstRWLock::WRITELOCKED);
if (!isValid()) {
return setLastUpdateResult(NO_CHANGE);
}
if (recursed()) {
return setLastUpdateResult(NO_CHANGE);
}
bool force = dirty();
setDirty(false);
if (KstObject::checkUpdateCounter(update_counter) && !force) {
return lastUpdateResult();
}
#define CLEANUP() do {\
for (unsigned i = 0; i < _outStringCnt; ++i) { \
if (_outStrings[i]) { \
free(_outStrings[i]); \
_outStrings[i] = 0L; \
} \
} \
for (unsigned i = 0; i < _inStringCnt; ++i) { \
if (_inStrings[i]) { \
free(_inStrings[i]); \
_inStrings[i] = 0L; \
} \
} \
} while(0)
writeLockInputsAndOutputs();
const QValueList<Plugin::Data::IOValue>& itable = _plugin->data()._inputs;
const QValueList<Plugin::Data::IOValue>& otable = _plugin->data()._outputs;
int itcnt = 0, vitcnt = 0, sitcnt = 0;
bool doUpdate = force;
// Populate the input scalars and vectors
for (QValueList<Plugin::Data::IOValue>::ConstIterator it = itable.begin(); it != itable.end(); ++it) {
if ((*it)._type == Plugin::Data::IOValue::TableType) {
if (!_inputVectors.contains((*it)._name)) {
KstDebug::self()->log(i18n("Input vector [%1] for plugin %2 not found. Unable to continue.").arg((*it)._name).arg(tagName()), KstDebug::Error);
CLEANUP();
return setLastUpdateResult(NO_CHANGE);
}
KstVectorPtr iv = _inputVectors[(*it)._name];
if (!iv) {
kstdFatal() << "Input vector \"" << (*it)._name << "\" for plugin " << tag().displayString() << " is invalid." << endl;
}
doUpdate = (UPDATE == iv->update(update_counter)) || doUpdate;
_inVectors[vitcnt] = iv->value();
_inArrayLens[vitcnt++] = iv->length();
} else if ((*it)._type == Plugin::Data::IOValue::FloatType) {
KstScalarPtr is = _inputScalars[(*it)._name];
if (!is) {
kstdFatal() << "Input scalar \"" << (*it)._name << "\" for plugin " << tag().displayString() << " is invalid." << endl;
}
doUpdate = (UPDATE == is->update(update_counter)) || doUpdate;
_inScalars[itcnt++] = is->value();
} else if ((*it)._type == Plugin::Data::IOValue::StringType) {
KstStringPtr is = _inputStrings[(*it)._name];
if (!is) {
kstdFatal() << "Input string \"" << (*it)._name << "\" for plugin " << tag().displayString() << " is invalid." << endl;
}
doUpdate = (UPDATE == is->update(update_counter)) || doUpdate;
// Maybe we should use UTF-8 instead?
_inStrings[sitcnt++] = strdup(is->value().latin1());
} else if ((*it)._type == Plugin::Data::IOValue::PidType) {
_inScalars[itcnt++] = getpid();
}
}
if (!doUpdate) {
CLEANUP();
unlockInputsAndOutputs();
return setLastUpdateResult(NO_CHANGE);
}
vitcnt = 0;
// Populate the output vectors
for (QValueList<Plugin::Data::IOValue>::ConstIterator it = otable.begin();
it != otable.end();
++it) {
if ((*it)._type == Plugin::Data::IOValue::TableType) {
if (!_outputVectors.contains((*it)._name)) {
KstDebug::self()->log(i18n("Output vector [%1] for plugin %2 not found. Unable to continue.").arg((*it)._name).arg(tagName()), KstDebug::Error);
CLEANUP();
unlockInputsAndOutputs();
return setLastUpdateResult(NO_CHANGE);
}
_outVectors[vitcnt] = _outputVectors[(*it)._name]->value();
_outArrayLens[vitcnt++] = _outputVectors[(*it)._name]->length();
}
}
if (_outStringCnt > 0) {
memset(_outStrings, 0, _outStringCnt*sizeof(char *));
}
int rc;
if (_inStringCnt > 0 || _outStringCnt > 0) {
if (_plugin->data()._localdata) {
rc = _plugin->call(_inVectors, _inArrayLens, _inScalars,
_outVectors, _outArrayLens, _outScalars,
const_cast<const char**>(_inStrings), _outStrings, &_localData);
} else {
rc = _plugin->call(_inVectors, _inArrayLens, _inScalars,
_outVectors, _outArrayLens, _outScalars,
const_cast<const char**>(_inStrings), _outStrings);
}
} else {
if (_plugin->data()._localdata) {
rc = _plugin->call(_inVectors, _inArrayLens, _inScalars,
_outVectors, _outArrayLens, _outScalars, &_localData);
} else {
rc = _plugin->call(_inVectors, _inArrayLens, _inScalars,
_outVectors, _outArrayLens, _outScalars);
}
}
if (rc == 0) {
itcnt = 0;
vitcnt = 0;
sitcnt = 0;
setLastUpdateResult(UPDATE); // make sure that provider callbacks work
// Read back the output vectors and scalars
for (QValueList<Plugin::Data::IOValue>::ConstIterator it = otable.begin();
it != otable.end();
++it) {
if ((*it)._type == Plugin::Data::IOValue::TableType) {
KstVectorPtr vp = _outputVectors[(*it)._name];
vectorRealloced(vp, _outVectors[vitcnt], _outArrayLens[vitcnt]);
vp->setDirty();
// Inefficient, but do we have any other choice? We don't really know
// from the plugin how much of this vector is "new" or "shifted"
vp->setNewAndShift(vp->length(), vp->numShift());
vp->update(update_counter);
vitcnt++;
} else if ((*it)._type == Plugin::Data::IOValue::FloatType) {
KstScalarPtr sp = _outputScalars[(*it)._name];
sp->setValue(_outScalars[itcnt++]);
sp->update(update_counter);
} else if ((*it)._type == Plugin::Data::IOValue::StringType) {
KstStringPtr sp = _outputStrings[(*it)._name];
sp->setValue(_outStrings[sitcnt++]);
sp->update(update_counter);
}
}
// if we have a fit plugin then create the necessary scalars from the parameter vector
createFitScalars();
_lastError = QString::null;
} else if (rc > 0) {
if (_lastError.isEmpty()) {
const char *err = _plugin->errorCode(rc);
if (err && *err) {
_lastError = err;
KstDebug::self()->log(i18n("Plugin %1 produced error: %2.").arg(tagName()).arg(_lastError), KstDebug::Error);
} else {
_lastError = QString::null;
}
}
} else {
bool doSend = _lastError.isEmpty() ? true : false;
switch (rc) {
case -1:
_lastError = i18n("Generic Error");
break;
case -2:
_lastError = i18n("Input Error");
break;
case -3:
_lastError = i18n("Memory Error");
break;
default:
_lastError = i18n("Unknown Error");
break;
}
if (doSend) {
KstDebug::self()->log(i18n("Plugin %2 produced error: %1.").arg(_lastError).arg(tagName()), KstDebug::Error);
}
}
unlockInputsAndOutputs();
CLEANUP();
#undef CLEANUP
return setLastUpdateResult(UPDATE);
}
KstObject::UpdateType EventMonitorEntry::update(int updateCounter) {
Q_ASSERT(myLockStatus() == KstRWLock::WRITELOCKED);
bool force = dirty();
setDirty(false);
if (KstObject::checkUpdateCounter(updateCounter) && !force) {
return lastUpdateResult();
}
writeLockInputsAndOutputs();
if (!_pExpression) {
reparse();
}
KstVectorPtr xv = *_xVector;
KstVectorPtr yv = *_yVector;
int ns = 1;
for (KstVectorMap::ConstIterator i = _vectorsUsed.begin(); i != _vectorsUsed.end(); ++i) {
ns = qMax(ns, i.value()->length());
}
double *rawValuesX = 0L;
double *rawValuesY = 0L;
if (xv && yv) {
if (xv->resize(ns)) {
rawValuesX = xv->value();
}
if (yv->resize(ns)) {
rawValuesY = yv->value();
}
}
Equation::Context ctx;
ctx.sampleCount = ns;
ctx.x = 0.0;
if (needToEvaluate()) {
if (_pExpression) {
for (ctx.i = _numDone; ctx.i < ns; ++ctx.i) {
const double value = _pExpression->value(&ctx);
if (value != 0.0) { // The expression evaluates to true
log(ctx.i);
if (rawValuesX && rawValuesY) {
rawValuesX[ctx.i] = ctx.i;
rawValuesY[ctx.i] = 1.0;
}
} else {
if (rawValuesX && rawValuesY) {
rawValuesX[ctx.i] = ctx.i;
rawValuesY[ctx.i] = 0.0;
}
}
}
_numDone = ns;
logImmediately();
}
} else {
_numDone = ns;
}
if (xv) {
xv->setDirty();
xv->update(updateCounter);
}
if (yv) {
yv->setDirty();
yv->update(updateCounter);
}
unlockInputsAndOutputs();
return setLastUpdateResult(NO_CHANGE);
}