#include <CRingScaleritem.h>
class CRingScalerItem {CRingScalerItem(size_t numScalers);
CRingScalerItem(uint32_t startTime, uint32_t stopTime, time_t timestamp, std::vector<uint32_t> scalers);
CRingScalerItem(const CRingItem& rhs) throws std::bad_cast;
CRingScalerItem(const CRingScalerItem& rhs);
virtual ~CRingScalerItem();
CRingScalerItem& operator=(const CRingScalerItem& rhs);
const int operator==(const CRingScalerItem& rhs);
int operator!=(const CRingScalerItem& rhsconst );
void setStartTime(uint32_t startTime);
const uint32_t getStartTime();
void setEndTime(uint32_t endTime);
const uint32_t getEndTime();
void setTimestamp(time_t stamp);
const time_t getTimestamp();
void setScaler(uint32_t channel, uint32_t value) throws CRangeError;
const uint32_t getScaler(uint32_t channel) throws CRangeError;
const std::vector<uint32_t> getScalers();
const uint32_t getScalerCount();
}
CRingScalerItem
encapsulates scaler items
that either have been gotten from a ring or are being formatted
to be inserted into a ring.
CRingScalerItem(size_t numScalers);
Constructor for a ring scaler item that will hold
numScalers
incremental scaler values.
The interval start and stop times are set to zero and the
timestamp to the current time. Scaler values are not initialized
(specifically don't assume they are zero).
CRingScalerItem(uint32_t startTime, uint32_t stopTime, time_t timestamp, std::vector<uint32_t> scalers);
Full constructor for a scaler ring item.
startTime
is the number of seconds of active run time at the start of the
interval measured by these scalers, and
stopTime
the end.
timestamp
is the absolute time of the end of
the measurement interval (or more accurately, the time at which
the scaler item was formatted).
sclaers
are a vector of scaler values.
CRingScalerItem(const CRingItem& rhs)
throws std::bad_cast;
Constructs a scaler item from an existing ring item
rhs
.
If rsh
's type is not
INCREMENTAL_SCALERS,
a std::bad_cast exception is thrown.
CRingScalerItem(const CRingScalerItem& rhs);
Constructs a functional duplicate of the scaler item
rhs
(copy construction).
CRingScalerItem& operator=(const CRingScalerItem& rhs);
Assigns to this object from rhs
.
The object will become a functional equivalent of rhs
.
If later compared to rhs
equality will be true.
const int operator==(const CRingScalerItem& rhs);
Compares rhs
with the object for
functional equivalency.
int operator!=(const CRingScalerItem& rhsconst );
Compares the item for functional equivalency and returns the logical inverse of the result.
void setStartTime(uint32_t startTime);
Sets the interval start time offset to
startTime
. This is supposed to be the
time into the run at which this set of scalers started counting.
Inactive run time is not counted.
const uint32_t getStartTime();
Returns the counting interval start time.
void setEndTime(uint32_t endTime);
Sets the intervale end time to
endTime
.
This is supposed to be the number of seconds in to the run
at which the scalers for this item were read and cleared.
Note that only active seconds are acounted.
const uint32_t getEndTime();
Returns the time offset into the run at which the scalers were read.
For a properly formatted item, this value should be larger than
that returned by getStartTime
.
void setTimestamp(time_t stamp);
Sets the timestamp for the item. This should be the time at which
the buffer was formatted. It is a time_t as described
in documentation of the unix time
function.
const time_t getTimestamp();
Returns the timestamp for an item. This is supopsed to be
compatible for the argument to e.g. ctime
in the byte order of the creating system.
void setScaler(uint32_t channel, uint32_t value)
throws CRangeError;
Sets the value of scaler number channel
to value
. If channel
is larger than the number of scalers the item was constructed with,
CRangError is thrown.
const uint32_t getScaler(uint32_t channel)
throws CRangeError;
Returns the value of the scaler channel channel
.
If the channel
is too large a
CRangeError is thrown.
const std::vector<uint32_t> getScalers();
Returns a vector that consists of the values of all of the incremental scalers in the item.
const uint32_t getScalerCount();
Returns the number of scalers in the item.
This is thrown in the event an attempt is made
to construct a
CRingScalerItem
object
from a
CRingItem
whose type is not
INCREMENTAL_SCALERS.
Thrown in the event an effort is made to access a scaler channel that does not exist.
In the following example, an item is gotten from a ring buffer.
If it is a scaler item, it is used to construct a new scaler
item. ring is assumed to be a
CRingBuffer
object or a reference to one.
Example 1. Constructing a scaler item from an item gotten from a ring
#include <DataFormat.h> #include <CRingItem.h> #include <CRingScalerItem> ... CAllButPredicate all; CRingItem* pItem = CRingItem::getFromRing(ring, all); if (pItem->type() == INCREMENTAL_SCALERS) { CRingScalerItem scalers(*pItem); ... } else { ... } delete pItem;
CAllButPredicate
accepts all ring
types without sampling except those explicitly defined.
CRingScalerItem
object, it's important
to ensure the object is atually a scaler item. Without this
check it would be necessary to wrap this code in a
try/catch block for std::bad_cast.
CScalerItem
and processed.
CRingItem
object must be deleted.