Changes for page 12 Validation and Transformation Language (VTL)

Last modified by Artur on 2025/09/10 11:19

From 1.23 to 1.22 From 3.1 to 2.1

From version 2.1

edited by Helena
on 2025/06/16 13:40

Change comment: There is no comment for this version

To version 1.23

edited by Helena
on 2025/06/16 13:27

Change comment: There is no comment for this version

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@@ -313,12 +313,11 @@
  The summary mapping table of the **unpivot** mapping method is the following:
--(% style="width:638.294px" %)
--|(% style="width:200px" %)**VTL**|(% style="width:435px" %)**SDMX**
--|(% style="width:200px" %)(Simple) Identifier|(% style="width:435px" %)Dimension
--|(% style="width:200px" %)(Time) Identifier|(% style="width:435px" %)TimeDimension
--|(% style="width:200px" %)All Measure Components|(% style="width:435px" %)MeasureDimension (having one Code for each VTL measure component) & one Measure
--|(% style="width:200px" %)Attribute|(% style="width:435px" %)DataAttribute depending on all SDMX Dimensions including the TimeDimension and except the MeasureDimension
++|**VTL**|**SDMX**
++|(Simple) Identifier|Dimension
++|(Time) Identifier|TimeDimension
++|All Measure Components|MeasureDimension (having one Code for each VTL measure component) & one Measure
++|Attribute|DataAttribute depending on all SDMX Dimensions including the TimeDimension and except the MeasureDimension
  At observation / data point level:
@@ -340,13 +340,12 @@
  The mapping table is the following:
--(% style="width:467.294px" %)
--|(% style="width:214px" %)VTL|(% style="width:250px" %)SDMX
--|(% style="width:214px" %)(Simple) Identifier|(% style="width:250px" %)Dimension
--|(% style="width:214px" %)(Time) Identifier|(% style="width:250px" %)TimeDimension
--|(% style="width:214px" %)Some Measures|(% style="width:250px" %)Measure
--|(% style="width:214px" %)Other Measures|(% style="width:250px" %)DataAttribute
--|(% style="width:214px" %)Attribute|(% style="width:250px" %)DataAttribute
++|VTL|SDMX
++|(Simple) Identifier|Dimension
++|(Time) Identifier|TimeDimension
++|Some Measures|Measure
++|Other Measures|DataAttribute
++|Attribute|DataAttribute
  Even in this case, the resulting SDMX definitions must be compliant with the SDMX consistency rules. For example, the SDMX DSD must have the attributeRelationship for the DataAttributes, which does not exist in VTL.
@@ -384,11 +384,11 @@
  Therefore, the generic name of this kind of VTL datasets would be:
--> 'DF(1.0.0)/INDICATORvalue.COUNTRYvalue'
++'DF(1.0.0)/INDICATORvalue.COUNTRYvalue'
  Where DF(1.0.0) is the Dataflow and //INDICATORvalue// and //COUNTRYvalue //are placeholders for one value of the INDICATOR and COUNTRY dimensions. Instead the specific name of one of these VTL datasets would be:
--> ‘DF(1.0.0)/POPULATION.USA’
++‘DF(1.0.0)/POPULATION.USA’
  In particular, this is the VTL dataset that contains all the observations of the Dataflow DF(1.0.0) for which //INDICATOR// = POPULATION and //COUNTRY// = USA.
@@ -402,22 +402,26 @@
  SDMX Dataflow having INDICATOR=//INDICATORvalue //and COUNTRY=// COUNTRYvalue//. For example, the VTL dataset ‘DF1(1.0.0)/POPULATION.USA’ would contain all the observations of DF1(1.0.0) having INDICATOR = POPULATION and COUNTRY = USA.
--In order to obtain the data structure of these VTL Data Sets from the SDMX one, it is assumed that the SDMX DimensionComponents on which the mapping is based are dropped, i.e. not maintained in the VTL data structure; this is possible because their values are fixed for each one of the invoked VTL Data Sets{{footnote}}If these DimensionComponents would not be dropped, the various VTL Data Sets resulting from this kind of mapping would have non-matching values for the Identifiers corresponding to the mapping Dimensions (e.g. POPULATION and COUNTRY). As a consequence, taking into account that the typical binary VTL operations at dataset level (+, -, *, / and so on) are executed on the observations having matching values for the identifiers, it would not be possible to compose the resulting VTL datasets one another (e.g. it would not be possible to calculate the population ratio between USA and CANADA).{{/footnote}}. After that, the mapping method from SDMX to VTL specified for the Dataflow DF1(1.0.0) is applied (i.e. basic, pivot …).
++In order to obtain the data structure of these VTL Data Sets from the SDMX one, it is assumed that the SDMX DimensionComponents on which the mapping is based are dropped, i.e. not maintained in the VTL data structure; this is possible because their values are fixed for each one of the invoked VTL Data Sets{{footnote}}If these DimensionComponents would not be dropped, the various VTL Data Sets resulting from this kind of mapping would have non-matching values for the Identifiers corresponding to the mapping Dimensions (e.g. POPULATION and COUNTRY). As a consequence, taking into account that the typical binary VTL operations at dataset level (+, -, *, / and so on) are executed on the observations having matching values for the identifiers, it would not be possible to compose the resulting VTL datasets one another (e.g. it would not be possible to calculate the population ratio between USA and CANADA).{{/footnote}}. After that, the mapping method from SDMX to VTL specified for the Dataflow DF1(1.0.0) is applied (i.e.
++basic, pivot …).
++
  In the example above, for all the datasets of the kind
--> ‘DF1(1.0.0)///INDICATORvalue//.//COUNTRYvalue//’, the dimensions INDICATOR and COUNTRY would be dropped so that the data structure of all the resulting VTL Data Sets would have the identifier TIME_PERIOD only.
++‘DF1(1.0.0)///INDICATORvalue//.//COUNTRYvalue//’, the dimensions INDICATOR and COUNTRY would be dropped so that the data structure of all the resulting VTL Data Sets would have the identifier TIME_PERIOD only.
  It should be noted that the desired VTL Data Sets (i.e. of the kind ‘DF1(1.0.0)/// INDICATORvalue//.//COUNTRYvalue//’) can be obtained also by applying the VTL operator “**sub**” (subspace) to the Dataflow DF1(1.0.0), like in the following VTL expression:
--> ‘DF1(1.0.0)/POPULATION.USA’ :=
--> DF1(1.0.0) [ sub INDICATOR=“POPULATION”, COUNTRY=“USA” ];
-->
--> ‘DF1(1.0.0)/POPULATION.CANADA’ :=
--> DF1(1.0.0) [ sub INDICATOR=“POPULATION”, COUNTRY=“CANADA” ];
-->
--> … … …
++‘DF1(1.0.0)/POPULATION.USA’ :=
++DF1(1.0.0) [ sub INDICATOR=“POPULATION”, COUNTRY=“USA” ];
++
++‘DF1(1.0.0)/POPULATION.CANADA’ :=
++
++DF1(1.0.0) [ sub INDICATOR=“POPULATION”, COUNTRY=“CANADA” ];
++
++… … …
++
  In fact the VTL operator “sub” has exactly the same behaviour. Therefore, mapping different parts of a SDMX Dataflow to different VTL Data Sets in the direction from SDMX to VTL through the ordered concatenation notation is equivalent to a proper use of the operator “**sub**” on such a Dataflow.{{footnote}}In case the ordered concatenation notation is used, the VTL Transformation described above, e.g. ‘DF1(1.0)/POPULATION.USA’ := DF1(1.0) [ sub INDICATOR=“POPULATION”, COUNTRY=“USA”], is implicitly executed. In order to test the overall compliance of the VTL program to the VTL consistency rules, it has to be considered as part of the VTL program even if it is not explicitly coded.{{/footnote}}
  In the direction from SDMX to VTL it is allowed to omit the value of one or more DimensionComponents on which the mapping is based, but maintaining all the separating dots (therefore it may happen to find two or more consecutive dots and dots in the beginning or in the end). The absence of value means that for the corresponding Dimension all the values are kept and the Dimension is not dropped.
@@ -426,9 +426,10 @@
  This is equivalent to the application of the VTL “sub” operator only to the identifier //INDICATOR//:
--> ‘DF1(1.0.0)/POPULATION.’ :=
--> DF1(1.0.0) [ sub INDICATOR=“POPULATION” ];
++‘DF1(1.0.0)/POPULATION.’ :=
++DF1(1.0.0) [ sub INDICATOR=“POPULATION” ];
++
  Therefore the VTL Data Set ‘DF1(1.0.0)/POPULATION.’ would have the identifiers COUNTRY and TIME_PERIOD.
  Heterogeneous invocations of the same Dataflow are allowed, i.e. omitting different Dimensions in different invocations.
@@ -446,38 +446,41 @@
  The corresponding VTL Transformations, assuming that the result needs to be persistent, would be of this kind:{{footnote}}the symbol of the VTL persistent assignment is used (<-){{/footnote}}
--> ‘DF2(1.0.0)/INDICATORvalue.COUNTRYvalue’ <- expression
++‘DF2(1.0.0)/INDICATORvalue.COUNTRYvalue’ <- expression
  Some examples follow, for some specific values of INDICATOR and COUNTRY:
--> ‘DF2(1.0.0)/GDPPERCAPITA.USA’ <- expression11; ‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ <- expression12;
--> … … …
--> ‘DF2(1.0.0)/POPGROWTH.USA’  <- expression21;
--> ‘DF2(1.0.0)/POPGROWTH.CANADA’ <- expression22;
--> … … …
++‘DF2(1.0.0)/GDPPERCAPITA.USA’ <- expression11; ‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ <- expression12;
++… … …
++‘DF2(1.0.0)/POPGROWTH.USA’  <- expression21;
++‘DF2(1.0.0)/POPGROWTH.CANADA’ <- expression22;
++… … …
++
  As said, it is assumed that these VTL derived Data Sets have the TIME_PERIOD as the only identifier. In the mapping from VTL to SMDX, the Dimensions INDICATOR and COUNTRY are added to the VTL data structure on order to obtain the SDMX one, with the following values respectively:
  VTL dataset   INDICATOR value COUNTRY value
--> ‘DF2(1.0.0)/GDPPERCAPITA.USA’  GDPPERCAPITA USA
--> ‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ GDPPERCAPITA CANADA … … …
--> ‘DF2(1.0.0)/POPGROWTH.USA’  POPGROWTH USA
--> ‘DF2(1.0.0)/POPGROWTH.CANADA’  POPGROWTH CANADA
--> … … …
++‘DF2(1.0.0)/GDPPERCAPITA.USA’  GDPPERCAPITA USA
++‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ GDPPERCAPITA CANADA … … …
++‘DF2(1.0.0)/POPGROWTH.USA’  POPGROWTH USA
++‘DF2(1.0.0)/POPGROWTH.CANADA’  POPGROWTH CANADA
++… … …
++
  It should be noted that the application of this many-to-one mapping from VTL to SDMX is equivalent to an appropriate sequence of VTL Transformations. These use the VTL operator “calc” to add the proper VTL identifiers (in the example, INDICATOR and COUNTRY) and to assign to them the proper values and the operator “union” in order to obtain the final VTL dataset (in the example DF2(1.0.0)), that can be mapped oneto-one to the homonymous SDMX Dataflow. Following the same example, these VTL Transformations would be:
--> DF2bis_GDPPERCAPITA_USA := ‘DF2(1.0.0)/GDPPERCAPITA.USA’ [calc identifier INDICATOR := ”GDPPERCAPITA”, identifier COUNTRY := ”USA”];
--> DF2bis_GDPPERCAPITA_CANADA := ‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ [calc identifier INDICATOR:=”GDPPERCAPITA”, identifier COUNTRY:=”CANADA”]; … … …
--> DF2bis_POPGROWTH_USA  := ‘DF2(1.0.0)/POPGROWTH.USA’  [calc identifier INDICATOR := ”POPGROWTH”, identifier COUNTRY := ”USA”];
--> DF2bis_POPGROWTH_CANADA’ := ‘DF2(1.0.0)/POPGROWTH.CANADA’ [calc identifier INDICATOR := ”POPGROWTH”, identifier COUNTRY := ”CANADA”]; … … …
--> DF2(1.0) <- UNION   (DF2bis_GDPPERCAPITA_USA’,
--> DF2bis_GDPPERCAPITA_CANADA’,
--> … ,
--> DF2bis_POPGROWTH_USA’,
--> DF2bis_POPGROWTH_CANADA’
--> …);
++DF2bis_GDPPERCAPITA_USA := ‘DF2(1.0.0)/GDPPERCAPITA.USA’ [calc identifier INDICATOR := ”GDPPERCAPITA”, identifier COUNTRY := ”USA”];
++DF2bis_GDPPERCAPITA_CANADA := ‘DF2(1.0.0)/GDPPERCAPITA.CANADA’ [calc identifier INDICATOR:=”GDPPERCAPITA”, identifier COUNTRY:=”CANADA”]; … … …
++DF2bis_POPGROWTH_USA  := ‘DF2(1.0.0)/POPGROWTH.USA’
++[calc identifier INDICATOR := ”POPGROWTH”, identifier COUNTRY := ”USA”];
++DF2bis_POPGROWTH_CANADA’ := ‘DF2(1.0.0)/POPGROWTH.CANADA’ [calc identifier INDICATOR := ”POPGROWTH”, identifier COUNTRY := ”CANADA”]; … … …
++DF2(1.0) <- UNION   (DF2bis_GDPPERCAPITA_USA’,
++DF2bis_GDPPERCAPITA_CANADA’,
++… ,
++DF2bis_POPGROWTH_USA’,
++DF2bis_POPGROWTH_CANADA’
++…);
  In other words, starting from the datasets explicitly calculated through VTL (in the example ‘DF2(1.0)/GDPPERCAPITA.USA’ and so on), the first step consists in calculating other (non-persistent) VTL datasets (in the example DF2bis_GDPPERCAPITA_USA and so on) by adding the identifiers INDICATOR and COUNTRY with the desired values (//INDICATORvalue// and //COUNTRYvalue)//. Finally, all these non-persistent Data Sets are united and give the final result DF2(1.0){{footnote}}The result is persistent in this example but it can be also non persistent if needed.{{/footnote}}, which can be mapped one-to-one to the homonymous SDMX Dataflow having the dimension components TIME_PERIOD, INDICATOR and COUNTRY.
@@ -489,26 +489,25 @@
  With reference to the VTL “model for Variables and Value domains”, the following additional mappings have to be considered:
--(% style="width:706.294px" %)
--|(% style="width:257px" %)VTL|(% style="width:446px" %)SDMX
--|(% style="width:257px" %)**Data Set Component**|(% style="width:446px" %)Although this abstraction exists in SDMX, it does not have an explicit definition and correspond to a Component (either a DimensionComponent or a Measure or a DataAttribute) belonging to one specific Dataflow^^43^^
--|(% style="width:257px" %)**Represented Variable**|(% style="width:446px" %)**Concept** with a definite Representation
--|(% style="width:257px" %)**Value Domain**|(% style="width:446px" %)(((
++|VTL|SDMX
++|**Data Set Component**|Although this abstraction exists in SDMX, it does not have an explicit definition and correspond to a Component (either a DimensionComponent or a Measure or a DataAttribute) belonging to one specific Dataflow^^43^^
++|**Represented Variable**|**Concept** with a definite Representation
++|**Value Domain**|(((
  **Representation** (see the Structure
  Pattern in the Base Package)
  )))
--|(% style="width:257px" %)**Enumerated Value Domain / Code List**|(% style="width:446px" %)**Codelist**
--|(% style="width:257px" %)**Code**|(% style="width:446px" %)**Code** (for enumerated DimensionComponent, Measure, DataAttribute)
--|(% style="width:257px" %)**Described Value Domain**|(% style="width:446px" %)(((
++|**Enumerated Value Domain / Code List**|**Codelist**
++|**Code**|**Code** (for enumerated DimensionComponent, Measure, DataAttribute)
++|**Described Value Domain**|(((
  non-enumerated** Representation**
  (having Facets / ExtendedFacets, see the Structure Pattern in the Base Package)
  )))
--|(% style="width:257px" %)**Value**|(% style="width:446px" %)Although this abstraction exists in SDMX, it does not have an explicit definition and correspond to a **Code** of a Codelist (for enumerated Representations) or
--|(% style="width:257px" %) |(% style="width:446px" %)to a valid **value **(for non-enumerated** **Representations)
--|(% style="width:257px" %)**Value Domain Subset / Set**|(% style="width:446px" %)This abstraction does not exist in SDMX
--|(% style="width:257px" %)**Enumerated Value Domain Subset / Enumerated Set**|(% style="width:446px" %)This abstraction does not exist in SDMX
--|(% style="width:257px" %)**Described Value Domain Subset / Described Set**|(% style="width:446px" %)This abstraction does not exist in SDMX
--|(% style="width:257px" %)**Set list**|(% style="width:446px" %)This abstraction does not exist in SDMX
++|**Value**|Although this abstraction exists in SDMX, it does not have an explicit definition and correspond to a **Code** of a Codelist (for enumerated Representations) or
++| |to a valid **value **(for non-enumerated** **Representations)
++|**Value Domain Subset / Set**|This abstraction does not exist in SDMX
++|**Enumerated Value Domain Subset / Enumerated Set**|This abstraction does not exist in SDMX
++|**Described Value Domain Subset / Described Set**|This abstraction does not exist in SDMX
++|**Set list**|This abstraction does not exist in SDMX
  The main difference between VTL and SDMX relies on the fact that the VTL artefacts for defining subsets of Value Domains do not exist in SDMX, therefore the VTL features for referring to predefined subsets are not available in SDMX. These artefacts are the Value Domain Subset (or Set), either enumerated or described, the Set List (list of values belonging to enumerated subsets) and the Data Set Component (aimed at defining the set of values that the Component of a Data Set can take, possibly a subset of the codes of Value Domain).
@@ -516,10 +516,8 @@
  Therefore, it is important to be aware that some VTL operations (for example the binary operations at data set level) are consistent only if the components having the same names in the operated VTL Data Sets have also the same representation (i.e. the same Value Domain as for VTL). For example, it is possible to obtain correct results from the VTL expression
--> DS_c := DS_a + DS_b (where DS_a, DS_b, DS_c are VTL Data Sets)
++DS_c := DS_a + DS_b (where DS_a, DS_b, DS_c are VTL Data Sets) if the matching components in DS_a and DS_b (e.g. ref_date, geo_area, sector …) refer to the same general representation. In simpler words, DS_a and DS_b must use the same values/codes (for ref_date, geo_area, sector … ), otherwise the relevant values would not match and the result of the operation would be wrong.
--if the matching components in DS_a and DS_b (e.g. ref_date, geo_area, sector …) refer to the same general representation. In simpler words, DS_a and DS_b must use the same values/codes (for ref_date, geo_area, sector … ), otherwise the relevant values would not match and the result of the operation would be wrong.
--
  As mentioned, the property above is not enforced by construction in SDMX, and different representations of the same Concept can be not compatible one another (for example, it may happen that geo_area is represented by ISO-alpha-3 codes in DS_a and by ISO alpha-2 codes in DS_b). Therefore, it will be up to the definer of VTL
  Transformations to ensure that the VTL expressions are consistent with the actual representations of the correspondent SDMX Concepts.
@@ -534,9 +534,8 @@
  The VTL data types are sub-divided in scalar types (like integers, strings, etc.), which are the types of the scalar values, and compound types (like Data Sets, Components, Rulesets, etc.), which are the types of the compound structures. See below the diagram of the VTL data types, taken from the VTL User Manual:
++[[image:1750067055028-964.png]]
--[[image:1750070288958-132.png]]
--
  **Figure 22 – VTL Data Types**
  The VTL scalar types are in turn subdivided in basic scalar types, which are elementary (not defined in term of other data types) and Value Domain and Set scalar types, which are defined in terms of the basic scalar types.
@@ -543,8 +543,6 @@
  The VTL basic scalar types are listed below and follow a hierarchical structure in terms of supersets/subsets (e.g. "scalar" is the superset of all the basic scalar types):
--[[image:1750070310572-584.png]]
--
  **Figure 23 – VTL Basic Scalar Types**
  === 12.4.2 VTL basic scalar types and SDMX data types ===
@@ -569,157 +569,158 @@
  The following table describes the default mapping for converting from the SDMX data types to the VTL basic scalar types.
--(% style="width:583.294px" %)
--|(% style="width:360px" %)SDMX data type (BasicComponentDataType)|(% style="width:221px" %)Default VTL basic scalar type
--|(% style="width:360px" %)(((
++|SDMX data type (BasicComponentDataType)|Default VTL basic scalar type
++|(((
  String
  (string allowing any character)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
--Alpha
++)))|string
++|(((
++Alpha
++
  (string which only allows A-z)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  AlphaNumeric
  (string which only allows A-z and 0-9)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  Numeric
++
  (string which only allows 0-9, but is not numeric so that is can having leading zeros)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  BigInteger
  (corresponds to XML Schema xs:integer datatype; infinite set of integer values)
--)))|(% style="width:221px" %)integer
--|(% style="width:360px" %)(((
++)))|integer
++|(((
  Integer
  (corresponds to XML Schema xs:int datatype; between -2147483648 and +2147483647
  (inclusive))
--)))|(% style="width:221px" %)integer
--|(% style="width:360px" %)(((
++)))|integer
++|(((
  Long
  (corresponds to XML Schema xs:long datatype; between -9223372036854775808 and
  +9223372036854775807 (inclusive))
--)))|(% style="width:221px" %)integer
--|(% style="width:360px" %)(((
++)))|integer
++|(((
  Short
  (corresponds to XML Schema xs:short datatype; between -32768 and -32767 (inclusive))
--)))|(% style="width:221px" %)integer
--|(% style="width:360px" %)Decimal (corresponds to XML Schema xs:decimal datatype; subset of real numbers that can be represented as decimals)|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|integer
++|Decimal (corresponds to XML Schema xs:decimal datatype; subset of real numbers that can be represented as decimals)|number
++|(((
  Float
  (corresponds to XML Schema xs:float datatype; patterned after the IEEE single-precision 32-bit floating point type)
--)))|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|number
++|(((
  Double
  (corresponds to XML Schema xs:double datatype; patterned after the IEEE double-precision 64-bit floating point type)
--)))|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|number
++|(((
  Boolean
  (corresponds to the XML Schema xs:boolean datatype; support the mathematical concept of
  binary-valued logic: {true, false})
--)))|(% style="width:221px" %)boolean
--|(% style="width:360px" %)(((
++)))|boolean
++|(((
  URI
  (corresponds to the XML Schema xs:anyURI; absolute or relative Uniform Resource Identifier Reference)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  Count
  (an integer following a sequential pattern, increasing by 1 for each occurrence)
--)))|(% style="width:221px" %)integer
--|(% style="width:360px" %)(((
++)))|integer
++|(((
  InclusiveValueRange
  (decimal number within a closed interval, whose bounds are specified in the SDMX representation by the facets minValue and maxValue)
--)))|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|number
++|(((
  ExclusiveValueRange
  (decimal number within an open interval, whose bounds are specified in the SDMX representation by the facets minValue and maxValue)
--)))|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|number
++|(((
  Incremental
  (decimal number the increased by a specific interval (defined by the interval facet), which is typically enforced outside of the XML validation)
--)))|(% style="width:221px" %)number
--|(% style="width:360px" %)(((
++)))|number
++|(((
  ObservationalTimePeriod
  (superset of StandardTimePeriod and TimeRange)
--)))|(% style="width:221px" %)time
--|(% style="width:360px" %)(((
++)))|time
++|(((
  StandardTimePeriod
  (superset of BasicTimePeriod and ReportingTimePeriod)
--)))|(% style="width:221px" %)time
--|(% style="width:360px" %)(((
++)))|time
++|(((
  BasicTimePeriod
  (superset of GregorianTimePeriod and DateTime)
--)))|(% style="width:221px" %)date
--|(% style="width:360px" %)(((
++)))|date
++|(((
  GregorianTimePeriod
  (superset of GregorianYear, GregorianYearMonth, and GregorianDay)
--)))|(% style="width:221px" %)date
--|(% style="width:360px" %)GregorianYear  (YYYY)|(% style="width:221px" %)date
--|(% style="width:360px" %)GregorianYearMonth / GregorianMonth (YYYY-MM)|(% style="width:221px" %)date
--|(% style="width:360px" %)GregorianDay (YYYY-MM-DD)|(% style="width:221px" %)date
--|(% style="width:360px" %)(((
++)))|date
++|GregorianYear  (YYYY)|date
++|GregorianYearMonth / GregorianMonth (YYYY-MM)|date
++|GregorianDay (YYYY-MM-DD)|date
++|(((
  ReportingTimePeriod
  (superset of RepostingYear, ReportingSemester, ReportingTrimester, ReportingQuarter, ReportingMonth, ReportingWeek, ReportingDay)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  ReportingYear
  (YYYY-A1 – 1 year period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  ReportingSemester
  (YYYY-Ss – 6 month period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  ReportingTrimester
  (YYYY-Tt – 4 month period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  ReportingQuarter
  (YYYY-Qq – 3 month period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  ReportingMonth
  (YYYY-Mmm – 1 month period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)ReportingWeek|(% style="width:221px" %)time_period
--|(% style="width:360px" %) (YYYY-Www – 7 day period; following ISO 8601 definition of a week in a year)|(% style="width:221px" %)
--|(% style="width:360px" %)(((
++)))|time_period
++|ReportingWeek|time_period
++| (YYYY-Www – 7 day period; following ISO 8601 definition of a week in a year)|
++|(((
  ReportingDay
  (YYYY-Dddd – 1 day period)
--)))|(% style="width:221px" %)time_period
--|(% style="width:360px" %)(((
++)))|time_period
++|(((
  DateTime
  (YYYY-MM-DDThh:mm:ss)
--)))|(% style="width:221px" %)date
--|(% style="width:360px" %)(((
++)))|date
++|(((
  TimeRange
  (YYYY-MM-DD(Thh:mm:ss)?/<duration>)
--)))|(% style="width:221px" %)time
--|(% style="width:360px" %)(((
++)))|time
++|(((
  Month
  (~-~-MM; speicifies a month independent of a year; e.g. February is black history month in the United States)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  MonthDay
  (~-~-MM-DD; specifies a day within a month independent of a year; e.g. Christmas is December 25^^th^^; used to specify reporting year start day)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  Day
  (~-~--DD; specifies a day independent of a month or year; e.g. the 15^^th^^ is payday)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  Time
  (hh:mm:ss; time independent of a date; e.g. coffee break is at 10:00 AM)
--)))|(% style="width:221px" %)string
--|(% style="width:360px" %)(((
++)))|string
++|(((
  Duration
  (corresponds to XML Schema xs:duration datatype)
--)))|(% style="width:221px" %)duration
--|(% style="width:360px" %)XHTML|(% style="width:221px" %)Metadata type – not applicable
--|(% style="width:360px" %)KeyValues|(% style="width:221px" %)Metadata type – not applicable
--|(% style="width:360px" %)IdentifiableReference|(% style="width:221px" %)Metadata type – not applicable
--|(% style="width:360px" %)DataSetReference|(% style="width:221px" %)Metadata type – not applicable
++)))|duration
++|XHTML|Metadata type – not applicable
++|KeyValues|Metadata type – not applicable
++|IdentifiableReference|Metadata type – not applicable
++|DataSetReference|Metadata type – not applicable
  **Figure 14 – Mappings from SDMX data types to VTL Basic Scalar Types**
@@ -729,82 +729,84 @@
  The following table describes the default conversion from the VTL basic scalar types to the SDMX data types .
--(% style="width:748.294px" %)
--|(% style="width:164px" %)(((
--VTL basic scalar type
--)))|(% style="width:304px" %)(((
++|(((
++VTL          basic
++scalar type
++)))|(((
  Default SDMX data type
--(BasicComponentDataType)
--)))|(% style="width:277px" %)Default output format
--|(% style="width:164px" %)String|(% style="width:304px" %)String|(% style="width:277px" %)Like XML (xs:string)
--|(% style="width:164px" %)Number|(% style="width:304px" %)Float|(% style="width:277px" %)Like XML (xs:float)
--|(% style="width:164px" %)Integer|(% style="width:304px" %)Integer|(% style="width:277px" %)Like XML (xs:int)
--|(% style="width:164px" %)Date|(% style="width:304px" %)DateTime|(% style="width:277px" %)YYYY-MM-DDT00:00:00Z
--|(% style="width:164px" %)Time|(% style="width:304px" %)StandardTimePeriod|(% style="width:277px" %)<date>/<date> (as defined above)
--|(% style="width:164px" %)time_period|(% style="width:304px" %)(((
++(BasicComponentDataType
++)
++)))|Default output format
++|String|String|Like XML (xs:string)
++|Number|Float|Like XML (xs:float)
++|Integer|Integer|Like XML (xs:int)
++|Date|DateTime|YYYY-MM-DDT00:00:00Z
++|Time|StandardTimePeriod|<date>/<date> (as defined above)
++|time_period|(((
  ReportingTimePeriod
  (StandardReportingPeriod)
--)))|(% style="width:277px" %)(((
++)))|(((
   YYYY-Pppp
  (according to SDMX )
  )))
--|(% style="width:164px" %)Duration|(% style="width:304px" %)Duration|(% style="width:277px" %)Like XML (xs:duration) PnYnMnDTnHnMnS
--|(% style="width:164px" %)Boolean|(% style="width:304px" %)Boolean|(% style="width:277px" %)Like XML (xs:boolean) with the values "true" or "false"
++|Duration|Duration|Like     XML    (xs:duration) PnYnMnDTnHnMnS
++|Boolean|Boolean|Like XML (xs:boolean) with the values "true" or "false"
  **Figure 14 – Mappings from SDMX data types to VTL Basic Scalar Types**
--In case a different default conversion is desired, it can be achieved through the CustomTypeScheme and CustomType artefacts (see also the section Transformations and Expressions of the SDMX information model).
++In case a different default conversion is desired, it can be achieved through the CustomTypeScheme and CustomType artefacts (see also the section
++Transformations and Expressions of the SDMX information model).
++
  The custom output formats can be specified by means of the VTL formatting mask described in the section "Type Conversion and Formatting Mask" of the VTL Reference Manual. Such a section describes the masks for the VTL basic scalar types "number", "integer", "date", "time", "time_period" and "duration" and gives examples. As for the types "string" and "boolean" the VTL conventions are extended with some other special characters as described in the following table.
--(% style="width:717.294px" %)
--|(% colspan="2" style="width:714px" %)VTL special characters for the formatting masks
--|(% colspan="2" style="width:714px" %)
--|(% colspan="2" style="width:714px" %)Number
--|(% style="width:122px" %)D|(% style="width:591px" %)one numeric digit (if the scientific notation is adopted, D is only for the mantissa)
--|(% style="width:122px" %)E|(% style="width:591px" %)one numeric digit (for the exponent of the scientific notation)
--|(% style="width:122px" %). (dot)|(% style="width:591px" %)possible separator between the integer and the decimal parts.
--|(% style="width:122px" %), (comma)|(% style="width:591px" %)possible separator between the integer and the decimal parts.
--|(% style="width:122px" %) |(% style="width:591px" %)
--|(% colspan="2" style="width:714px" %)Time and duration
--|(% style="width:122px" %)C|(% style="width:591px" %)century
--|(% style="width:122px" %)Y|(% style="width:591px" %)year
--|(% style="width:122px" %)S|(% style="width:591px" %)semester
--|(% style="width:122px" %)Q|(% style="width:591px" %)quarter
--|(% style="width:122px" %)M|(% style="width:591px" %)month
--|(% style="width:122px" %)W|(% style="width:591px" %)week
--|(% style="width:122px" %)D|(% style="width:591px" %)day
--|(% style="width:122px" %)h|(% style="width:591px" %)hour digit (by default on 24 hours)
--|(% style="width:122px" %)M|(% style="width:591px" %)minute
--|(% style="width:122px" %)S|(% style="width:591px" %)second
--|(% style="width:122px" %)D|(% style="width:591px" %)decimal of second
--|(% style="width:122px" %)P|(% style="width:591px" %)period indicator (representation in one digit for the duration)
--|(% style="width:122px" %)P|(% style="width:591px" %)number of the periods specified in the period indicator
--|(% style="width:122px" %)AM/PM|(% style="width:591px" %)indicator of AM / PM (e.g. am/pm for "am" or "pm")
--|(% style="width:122px" %)MONTH|(% style="width:591px" %)uppercase textual representation of the month (e.g., JANUARY for January)
--|(% style="width:122px" %)DAY|(% style="width:591px" %)uppercase textual representation of the day (e.g., MONDAY for Monday)
--|(% style="width:122px" %)Month|(% style="width:591px" %)lowercase textual representation of the month (e.g., january)
--|(% style="width:122px" %)Day|(% style="width:591px" %)lowercase textual representation of the month (e.g., monday)
--|(% style="width:122px" %)Month|(% style="width:591px" %)First character uppercase, then lowercase textual representation of the month (e.g., January)
--|(% style="width:122px" %)Day|(% style="width:591px" %)First character uppercase, then lowercase textual representation of the day using (e.g. Monday)
--|(% style="width:122px" %) |(% style="width:591px" %)
--|(% colspan="2" style="width:714px" %)String
--|(% style="width:122px" %)X|(% style="width:591px" %)any string character
--|(% style="width:122px" %)Z|(% style="width:591px" %)any string character from "A" to "z"
--|(% style="width:122px" %)9|(% style="width:591px" %)any string character from "0" to "9"
--|(% style="width:122px" %) |(% style="width:591px" %)
--|(% colspan="2" style="width:714px" %)Boolean
--|(% style="width:122px" %)B|(% style="width:591px" %)Boolean using "true" for True and "false" for False
--|(% style="width:122px" %)1|(% style="width:591px" %)Boolean using "1" for True and "0" for False
--|(% style="width:122px" %)0|(% style="width:591px" %)Boolean using "0" for True and "1" for False
--|(% style="width:122px" %) |(% style="width:591px" %)
--|(% colspan="2" style="width:714px" %)Other qualifiers
--|(% style="width:122px" %)*|(% style="width:591px" %)an arbitrary number of digits (of the preceding type)
--|(% style="width:122px" %)+|(% style="width:591px" %)at least one digit (of the preceding type)
--|(% style="width:122px" %)( )|(% style="width:591px" %)optional digits (specified within the brackets)
--|(% style="width:122px" %)\|(% style="width:591px" %)prefix for the special characters that must appear in the mask
--|(% style="width:122px" %)N|(% style="width:591px" %)fixed number of digits used in the preceding textual representation of the month or the day
--|(% style="width:122px" %) |(% style="width:591px" %)
++|(% colspan="2" %)VTL special characters for the formatting masks
++|(% colspan="2" %)
++|(% colspan="2" %)Number
++|D|one numeric digit (if the scientific notation is adopted, D is only for the mantissa)
++|E|one numeric digit (for the exponent of the scientific notation)
++|. (dot)|possible separator between the integer and the decimal parts.
++|, (comma)|possible separator between the integer and the decimal parts.
++| |
++|(% colspan="2" %)Time and duration
++|C|century
++|Y|year
++|S|semester
++|Q|quarter
++|M|month
++|W|week
++|D|day
++|h|hour digit (by default on 24 hours)
++|M|minute
++|S|second
++|D|decimal of second
++|P|period indicator (representation in one digit for the duration)
++|P|number of the periods specified in the period indicator
++|AM/PM|indicator of AM / PM (e.g. am/pm for "am" or "pm")
++|MONTH|uppercase textual representation of the month (e.g., JANUARY for January)
++|DAY|uppercase textual representation of the day (e.g., MONDAY for Monday)
++|Month|lowercase textual representation of the month (e.g., january)
++|Day|lowercase textual representation of the month (e.g., monday)
++|Month|First character uppercase, then lowercase textual representation of the month (e.g., January)
++|Day|First character uppercase, then lowercase textual representation of the day using (e.g. Monday)
++| |
++|(% colspan="2" %)String
++|X|any string character
++|Z|any string character from "A" to "z"
++|9|any string character from "0" to "9"
++| |
++|(% colspan="2" %)Boolean
++|B|Boolean using "true" for True and "false" for False
++|1|Boolean using "1" for True and "0" for False
++|0|Boolean using "0" for True and "1" for False
++| |
++|(% colspan="2" %)Other qualifiers
++|*|an arbitrary number of digits (of the preceding type)
++|+|at least one digit (of the preceding type)
++|( )|optional digits (specified within the brackets)
++|\|prefix for the special characters that must appear in the mask
++|N|fixed number of digits used in the preceding textual representation of the month or the day
++| |
  The default conversion, either standard or customized, can be used to deduce automatically the representation of the components of the result of a VTL Transformation. In alternative, the representation of the resulting SDMX Dataflow can be given explicitly by providing its DataStructureDefinition. In other words, the representation specified in the DSD, if available, overrides any default conversion{{footnote}}The representation given in the DSD should obviously be compatible with the VTL data type.{{/footnote}}.

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