Base StructureDefinition for SampledData Type: A series of measurements taken by a device, with upper and lower limits. There may be more than one dimension in the data.
Subclass of core.model.Element (Base StructureDefinition for Element Type: Base definition for all elements in a resource.)
- Value parameters:
- data
- A series of data points which are decimal values separated by a single space (character u20). The special values "E" (error), "L" (below detection limit) and "U" (above detection limit) can also be used in place of a decimal value.
- dimensions
- The number of sample points at each time point. If this value is greater than one, then the dimensions will be interlaced
- all the sample points for a point in time will be recorded at once.
- extension
- May be used to represent additional information that is not part of the basic definition of the element. To make the use of extensions safe and manageable, there is a strict set of governance applied to the definition and use of extensions. Though any implementer can define an extension, there is a set of requirements that SHALL be met as part of the definition of the extension.
- factor
- A correction factor that is applied to the sampled data points before they are added to the origin.
- id
- Unique id for the element within a resource (for internal references). This may be any string value that does not contain spaces.
- lowerLimit
- The lower limit of detection of the measured points. This is needed if any of the data points have the value "L" (lower than detection limit).
- origin
- The base quantity that a measured value of zero represents. In addition, this provides the units of the entire measurement series.
- period
- The length of time between sampling times, measured in milliseconds.
- upperLimit
- The upper limit of detection of the measured points. This is needed if any of the data points have the value "U" (higher than detection limit).
- Constructor:
Introduces the fields data, origin, period, factor, lowerLimit, upperLimit, dimensions.
- Companion:
- object
Type members
Inherited types
Value members
Concrete methods
Inherited methods
Slower than nodalMap, but should work with subtypes (e.g. PositiveInt). If you must use it, then:
Slower than nodalMap, but should work with subtypes (e.g. PositiveInt). If you must use it, then:
T
should not be a Choice[_], a LitSeq[_] or an Option[_]- It may require a type parameter sometimes (e.g.
sampleResource >>[BUNDLE_TYPE] { (_: BUNDLE_TYPE) => BUNDLE_TYPE.SEARCHSET }
)
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
Extract values of type From, and map to LitSeq[To] using fn: From => To. Unlike >>, this is safe even if From is a Choice[], a LitSeq[] or an Option[_] Quite slow, slower than nodalExtract
Extract values of type From, and map to LitSeq[To] using fn: From => To. Unlike >>, this is safe even if From is a Choice[], a LitSeq[] or an Option[_] Quite slow, slower than nodalExtract
- Inherited from:
- FHIRObject
- Inherited from:
- Utils
- Inherited from:
- Utils
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
Convenience alias for nodalGetByClass andThen map to LitSeq[To] using fn: From => To.
Convenience alias for nodalGetByClass andThen map to LitSeq[To] using fn: From => To.
- Inherited from:
- FHIRObject
Extract values of type From Unlike nodalMap, this is safe even if From is a Choice[_], a LitSeq[_] or an Option[_], however there remains a caveat with 'subtyped' types (eg PositiveInt), in that we can't differentiate them from the parent class Quite slow but faster than ^^
Extract values of type From Unlike nodalMap, this is safe even if From is a Choice[_], a LitSeq[_] or an Option[_], however there remains a caveat with 'subtyped' types (eg PositiveInt), in that we can't differentiate them from the parent class Quite slow but faster than ^^
- Inherited from:
- FHIRObject
Bit faster than >>
, but still much slower than using update$foo
when possible. If you must use it, then:
Bit faster than >>
, but still much slower than using update$foo
when possible. If you must use it, then:
T
should not be a Choice[_], a LitSeq[_], an Option[_], or any 'subtyped' type (eg PositiveInt). You should ensure, if T is a supertype of multiple valid choice values (e.g. T =:= Object), that the return value of fn retains the same type as the input value.
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject
- Inherited from:
- FHIRObject