123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285 |
- @** A Rate of Change Indicator.
-
- \noindent A common metric used for understanding roast profiles is the rate of
- temperature change over a given amount of time. When roasters discuss roast
- profiles it is not uncommon to hear references to the change in temperature per
- 30 seconds or per minute, often with the sloppy shorthand $\Delta$ or with the
- term Rate of Rise (RoR). This is most commonly calculated from the secant line
- defined by two measurement points at the desired separation, however this may
- not be the most useful way to calculate this value.
-
- The rate of change can be considered as its own data series which happens to be
- derived from a primary measurement series. The interface for producing this
- series can sensibly match other classes which store, forward, or manipulate
- measurement data.
-
- @<Class declarations@>=
- class RateOfChange : public QObject
- {
- Q_OBJECT
- public:
- RateOfChange(int cachetime = 1, int scaletime = 1);
- public slots:
- void newMeasurement(Measurement measure);
- void setCacheTime(int seconds);
- void setScaleTime(int seconds);
- signals:
- void newData(Measurement measure);
- private:
- int ct;
- int st;
- QList<Measurement> cache;
- QMap<double,double> smoothCache;
- };
-
- @ The interesting part of this class is in the |newMeasurement()| method. This
- is a slot method that will be called for every new measurement in the primary
- series. We require at least two measurements before calculating a rate of
- temperature change.
-
- @<RateOfChange implementation@>=
- void RateOfChange::newMeasurement(Measurement measure)
- {
- cache.append(measure);
- @<Remove stale measurements from rate cache@>@;
- if(cache.size() >= 2)
- {
- @<Calculate rate of change@>@;
- }
- }
-
- @ To calculate the rate of temperature change we require at least two cached
- measurements. Using only the most recent two measurements will result in a
- highly volatile rate of change while using two data points that are more
- separated will smooth out random fluctuations but provide a less immediate
- response to a change in the rate of change. For this reason we provide two
- parameters that can be adjusted independently: the amount of time we allow a
- measurement to stay in the cache determines how far apart the measurements
- used to calculate the rate of change are while a separate scale time is used
- to determine how the calculated value is presented. We never allow fewer than
- two cached values, but we can force the most volatile calculation by setting
- the cache time to 0 seconds.
-
- Measurement handling is a little bit different on a date transition.
-
- @<Remove stale measurements from rate cache@>=
- if(cache.size() > 2)
- {
- bool done = false;
- while(!done)
- {
- if(cache.front().time().secsTo(cache.back().time()) > ct)
- {
- cache.removeFirst();
- }
- else if(cache.back().time() < cache.front().time())
- {
- cache.removeFirst();
- done = true;
- }
- else
- {
- done = true;
- }
- if(cache.size() < 3)
- {
- done = true;
- }
- }
- }
-
- @ The calculation method here is subject to change as this is still noisier
- than I would like. What we are doing here is calculating the rate of change
- between each pair of adjacent measurements in the cache and averaging them to
- produce something that is a little less noisy than just using the first and
- last measurements in the cache. Other techniques may be useful for reducing the
- noise further.
-
- The measurement will carry the fact that it is a relative measurement.
-
- @<Calculate rate of change@>=
- QList<double> rates;
- for(int i = 1; i < cache.size(); i++)
- {
- double mdiff = cache.at(i).temperature() - cache.at(i-1).temperature();
- double tdiff = (double)(cache.at(i-1).time().msecsTo(cache.at(i).time())) / 1000.0;
- rates.append(mdiff/tdiff);
- }
- double acc = 0.0;
- for(int i = 0; i < rates.size(); i++)
- {
- acc += rates.at(i);
- }
- double pavg = acc /= rates.size();
- double v2 = pavg * st;
- double refm = cache.back().temperature() - cache.front().temperature();
- double reft = (double)(cache.front().time().msecsTo(cache.back().time())) / 1000.0;
- double ref = refm/reft;
- Measurement value(v2, cache.back().time(), cache.back().scale());
- value.insert("relative", true);
- emit newData(value);
- double calcdiff = ref - pavg;
- if(calcdiff < 0)
- {
- calcdiff = -calcdiff;
- }
- if(pavg < 0)
- {
- pavg = -pavg;
- }
- if(calcdiff > (pavg * 0.2))
- {
- Measurement save = cache.back();
- cache.clear();
- cache.append(save);
- }
-
- @ The rest of the class implementation is trivial.
-
- @<RateOfChange implementation@>=
- RateOfChange::RateOfChange(int cachetime, int scaletime) : ct(cachetime), st(1)
- {
- setScaleTime(scaletime);
- }
-
- void RateOfChange::setCacheTime(int seconds)
- {
- ct = seconds;
- }
-
- void RateOfChange::setScaleTime(int seconds)
- {
- st = (seconds > 0 ? seconds : 1);
- }
-
- @ This is exposed to the host environment in the usual way.
-
- @<Function prototypes for scripting@>=
- QScriptValue constructRateOfChange(QScriptContext *context, QScriptEngine *engine);
- void setRateOfChangeProperties(QScriptValue value, QScriptEngine *engine);
-
- @ The constructor is registered with the scripting engine.
-
- @<Set up the scripting engine@>=
- constructor = engine->newFunction(constructRateOfChange);
- value = engine->newQMetaObject(&RateOfChange::staticMetaObject, constructor);
- engine->globalObject().setProperty("RateOfChange", value);
-
- @ The constructor takes two arguments if they are provided.
-
- @<Functions for scripting@>=
- QScriptValue constructRateOfChange(QScriptContext *context, QScriptEngine *engine)
- {
- int cachetime = 1;
- int scaletime = 1;
- if(context->argumentCount() > 0)
- {
- cachetime = argument<int>(0, context);
- if(context->argumentCount() > 1)
- {
- scaletime = argument<int>(1, context);
- }
- }
- QScriptValue object = engine->newQObject(new RateOfChange(cachetime, scaletime));
- setRateOfChangeProperties(object, engine);
- return object;
- }
-
- void setRateOfChangeProperties(QScriptValue value, QScriptEngine *engine)
- {
- setQObjectProperties(value, engine);
- }
-
- @ To make use of this feature conveniently, we must integrate this with the
- in-program configuration system by providing a configuration widget.
-
- @<Class declarations@>=
- class RateOfChangeConfWidget : public BasicDeviceConfigurationWidget
- {
- Q_OBJECT
- public:
- Q_INVOKABLE RateOfChangeConfWidget(DeviceTreeModel *model, const QModelIndex &index);
- private slots:
- void updateColumn(const QString &column);
- void updateCacheTime(const QString &seconds);
- void updateScaleTime(const QString &seconds);
- };
-
- @ The constructor sets up the user interface.
-
- @<RateOfChangeConfWidget implementation@>=
- RateOfChangeConfWidget::RateOfChangeConfWidget(DeviceTreeModel *model, const QModelIndex &index)
- : BasicDeviceConfigurationWidget(model, index)
- {
- QFormLayout *layout = new QFormLayout;
- QLineEdit *column = new QLineEdit;
- layout->addRow(tr("Primary series column name:"), column);
- QSpinBox *cacheTime = new QSpinBox;
- cacheTime->setMinimum(0);
- cacheTime->setMaximum(300);
- layout->addRow(tr("Cache time:"), cacheTime);
- QSpinBox *scaleTime = new QSpinBox;
- scaleTime->setMinimum(1);
- scaleTime->setMaximum(300);
- layout->addRow(tr("Scale time:"), scaleTime);
- @<Get device configuration data for current node@>@;
- for(int i = 0; i < configData.size(); i++)
- {
- node = configData.at(i).toElement();
- if(node.attribute("name") == "column")
- {
- column->setText(node.attribute("value"));
- }
- else if(node.attribute("name") == "cache")
- {
- cacheTime->setValue(node.attribute("value").toInt());
- }
- else if(node.attribute("name") == "scale")
- {
- scaleTime->setValue(node.attribute("value").toInt());
- }
- }
- updateColumn(column->text());
- updateCacheTime(cacheTime->text());
- updateScaleTime(scaleTime->text());
- connect(column, SIGNAL(textEdited(QString)), this, SLOT(updateColumn(QString)));
- connect(cacheTime, SIGNAL(valueChanged(QString)), this, SLOT(updateCacheTime(QString)));
- connect(scaleTime, SIGNAL(valueChanged(QString)), this, SLOT(updateScaleTime(QString)));
- setLayout(layout);
- }
-
- @ A set of update methods modify the device configuration to reflect changes in
- the configuration widget.
-
- @<RateOfChangeConfWidget implementation@>=
- void RateOfChangeConfWidget::updateColumn(const QString &column)
- {
- updateAttribute("column", column);
- }
-
- void RateOfChangeConfWidget::updateCacheTime(const QString &seconds)
- {
- updateAttribute("cache", seconds);
- }
-
- void RateOfChangeConfWidget::updateScaleTime(const QString &seconds)
- {
- updateAttribute("scale", seconds);
- }
-
- @ This is registered with the configuration system.
-
- @<Register device configuration widgets@>=
- app.registerDeviceConfigurationWidget("rate", RateOfChangeConfWidget::staticMetaObject);
-
- @ This is accessed through the advanced features menu.
-
- @<Add node inserters to advanced features menu@>=
- NodeInserter *rateOfChangeInserter = new NodeInserter(tr("Rate of Change"), tr("Rate of Change"), "rate");
- connect(rateOfChangeInserter, SIGNAL(triggered(QString, QString)), this, SLOT(insertChildNode(QString, QString)));
- advancedMenu->addAction(rateOfChangeInserter);
-
- @ Our class implementation is currently expanded into |"typica.cpp"|.
-
- @<Class implementations@>=
- @<RateOfChangeConfWidget implementation@>
|