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... ... @@ -10,26 +10,26 @@
10 10  
11 11  There are several different representations in SDMX-ML, taken from XML Schemas and common programming languages. The table below describes the various representations, which are found in SDMX-ML, and their equivalents.
12 12  
13 -|(% style="width:191px" %)**SDMX-ML Data Type**|(% style="width:232px" %)**XML Schema Data Type**|(% style="width:212px" %)**.NET Framework Type**|(% style="width:980px" %)(((
14 -**Java Data Type**
13 +|SDMX-ML Data Type|XML Schema Data Type|.NET Framework Type|(((
14 +Java Data Type
15 15  )))
16 -|(% style="width:191px" %)String|(% style="width:232px" %)xsd:string|(% style="width:212px" %)System.String|(% style="width:980px" %)java.lang.String
17 -|(% style="width:191px" %)Big Integer|(% style="width:232px" %)xsd:integer|(% style="width:212px" %)System.Decimal|(% style="width:980px" %)java.math.BigInteger
18 -|(% style="width:191px" %)Integer|(% style="width:232px" %)xsd:int|(% style="width:212px" %)System.Int32|(% style="width:980px" %)int
19 -|(% style="width:191px" %)Long|(% style="width:232px" %)xsd.long|(% style="width:212px" %)System.Int64|(% style="width:980px" %)long
20 -|(% style="width:191px" %)Short|(% style="width:232px" %)xsd:short|(% style="width:212px" %)System.Int16|(% style="width:980px" %)short
21 -|(% style="width:191px" %)Decimal|(% style="width:232px" %)xsd:decimal|(% style="width:212px" %)System.Decimal|(% style="width:980px" %)java.math.BigDecimal
22 -|(% style="width:191px" %)Float|(% style="width:232px" %)xsd:float|(% style="width:212px" %)System.Single|(% style="width:980px" %)float
23 -|(% style="width:191px" %)Double|(% style="width:232px" %)xsd:double|(% style="width:212px" %)System.Double|(% style="width:980px" %)double
24 -|(% style="width:191px" %)Boolean|(% style="width:232px" %)xsd:boolean|(% style="width:212px" %)System.Boolean|(% style="width:980px" %)boolean
25 -|(% style="width:191px" %)URI|(% style="width:232px" %)xsd:anyURI|(% style="width:212px" %)System.Uri|(% style="width:980px" %)Java.net.URI or java.lang.String
26 -|(% style="width:191px" %)DateTime|(% style="width:232px" %)xsd:dateTime|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
27 -|(% style="width:191px" %)Time|(% style="width:232px" %)xsd:time|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
28 -|(% style="width:191px" %)GregorianYear|(% style="width:232px" %)xsd:gYear|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
29 -|(% style="width:191px" %)GregorianMonth|(% style="width:232px" %)xsd:gYearMonth|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
30 -|(% style="width:191px" %)GregorianDay|(% style="width:232px" %)xsd:date|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
31 -|(% style="width:191px" %)Day, MonthDay, Month|(% style="width:232px" %)xsd:g*|(% style="width:212px" %)System.DateTime|(% style="width:980px" %)javax.xml.datatype.XMLGregorianCalendar
32 -|(% style="width:191px" %)Duration|(% style="width:232px" %)xsd:duration|(% style="width:212px" %)System.TimeSpan|(% style="width:980px" %)javax.xml.datatype.Duration
16 +|**String**|**xsd:string**|**System.String**|**java.lang.String**
17 +|**Big Integer**|**xsd:integer**|**System.Decimal**|**java.math.BigInteger**
18 +|**Integer**|**xsd:int**|**System.Int32**|**int**
19 +|**Long**|**xsd.long**|**System.Int64**|**long**
20 +|**Short**|**xsd:short**|**System.Int16**|**short**
21 +|**Decimal**|**xsd:decimal**|**System.Decimal**|**java.math.BigDecimal**
22 +|**Float**|**xsd:float**|**System.Single**|**float**
23 +|**Double**|**xsd:double**|**System.Double**|**double**
24 +|**Boolean**|**xsd:boolean**|**System.Boolean**|**boolean**
25 +|**URI**|**xsd:anyURI**|**System.Uri**|**Java.net.URI or java.lang.String**
26 +|**DateTime**|**xsd:dateTime**|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
27 +|**Time**|**xsd:time**|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
28 +|**GregorianYear**|**xsd:gYear**|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
29 +|**GregorianMonth**|**xsd:gYearMonth**|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
30 +|**GregorianDay**|**xsd:date**|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
31 +|**Day, MonthDay, Month**|**xsd:g***|**System.DateTime**|**javax.xml.datatype.XMLG regorianCalendar**
32 +|**Duration**|**xsd:duration**|**System.TimeSpan**|**javax.xml.datatype.Dura tion**
33 33  
34 34  There are also a number of SDMX-ML data types which do not have these direct correspondences, often because they are composite representations or restrictions of a broader data type. For most of these, there are simple types which can be referenced from the SDMX schemas, for others a derived simple type will be necessary:
35 35  
... ... @@ -76,7 +76,7 @@
76 76  
77 77  Note that code lists may also have textual representations assigned to them, in addition to their enumeration of codes.
78 78  
79 -=== 4.1.1 Data Types ===
79 +4.1.1 Data Types
80 80  
81 81  XML and JSON schemas support a variety of data types that, although rich, are not mapped one-to-one in all cases. This section provides an explanation of the mapping performed in SDMX 3.0, between such cases.
82 82  
... ... @@ -95,8 +95,8 @@
95 95  The above looks like this, in JSON schema:
96 96  
97 97  > "idType": {
98 -> "type": "string",
99 -> "pattern": "^[A-Za-z0-9_@$-]+$"
98 +> "type": "string",
99 +> "pattern": "^[A-Za-z0-9_@$-]+$"
100 100  > }
101 101  
102 102  There are also cases, though, that data types cannot be mapped like above. One such case is the array data type, which was introduced in SDMX 3.0 as a new representation. In JSON schema an array is already natively foreseen, while in the XML schema, this has to be defined as a complex type, with an SDMX specific definition (i.e., specific element/attribute names for SDMX). Beyond that, the minimum and/or maximum number of items within an array is possible in both cases.
... ... @@ -103,28 +103,47 @@
103 103  
104 104  Further to the above, the mapping between the non-native data types is presented in the table below:
105 105  
106 -(% style="width:1005.83px" %)
107 -|(% style="width:198px" %)**SDMX Facet**|(% style="width:241px" %)**XML Schema**|(% style="width:563px" %)**JSON schema **"**pattern**"{{footnote}}Regular expressions, as specified in W3C XML Schema Definition Language (XSD) 1.1 Part 2: Datatypes.{{/footnote}} **for "string" type**
108 -|(% style="width:198px" %)GregorianYear|(% style="width:241px" %)xsd:gYear|(% style="width:563px" %)(((
109 -"^-?([1-9][0-9]{3,}|0[0-9]{3})(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
106 +|**SDMX Facet**|**XML Schema**|**JSON schema **"**pattern**"[[^^~[1~]^^>>path:#_ftn1]] **for "string" type**
107 +|GregorianYear|xsd:gYear|(((
108 +"^-?([1-9][0-9]{3,}|0[0-9]{3})(Z|(\+|-)((0[0-
109 +
110 +9]|1[0-3]):[0-5][0-9]|14:00))?$"
110 110  )))
111 -|(% style="width:198px" %)GregorianMonth|(% style="width:241px" %)xsd:gYearMonth|(% style="width:563px" %)(((
112 -"^-?([1-9][0-9]{3,}|0[0-9]{3})-(0[1-9]|1[0-2])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
112 +|GregorianMonth|xsd:gYearMonth|(((
113 +"^-?([1-9][0-9]{3,}|0[0-9]{3})-(0[1-9]|1[0-
114 +
115 +2])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-
116 +
117 +9]|14:00))?$"
113 113  )))
114 -|(% style="width:198px" %)GregorianDay|(% style="width:241px" %)xsd:date|(% style="width:563px" %)(((
115 -"^-?([1-9][0-9]{3,}|0[0-9]{3})-(0[1-9]|1[0-2])-(0[1-9]|[12][0-9]|3[01])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
119 +|GregorianDay|xsd:date|(((
120 +"^-?([1-9][0-9]{3,}|0[0-9]{3})-(0[1-9]|1[0-2])-
121 +
122 +(0[1-9]|[12][0-9]|3[01])(Z|(\+|-)((0[0-9]|1[0-
123 +
124 +3]):[0-5][0-9]|14:00))?$"
116 116  )))
117 -|(% style="width:198px" %)Day|(% style="width:241px" %)xsd:gDay|(% style="width:563px" %)(((
118 -"^~-~--(0[1-9]|[12][0-9]|3[01])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
126 +|Day|xsd:gDay|(((
127 +"^~-~--(0[1-9]|[12][0-9]|3[01])(Z|(\+|-
128 +
129 +)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
119 119  )))
120 -|(% style="width:198px" %)MonthDay|(% style="width:241px" %)xsd:gMonthDay|(% style="width:563px" %)(((
121 -"^~-~-(0[1-9]|1[0-2])-(0[1-9]|[12][0-9]|3[01])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
131 +|MonthDay|xsd:gMonthDay|(((
132 +"^~-~-(0[1-9]|1[0-2])-(0[1-9]|[12][0-
133 +
134 +9]|3[01])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-
135 +
136 +9]|14:00))?$"
122 122  )))
123 -|(% style="width:198px" %)Month|(% style="width:241px" %)xsd:Month|(% style="width:563px" %)(((
124 -"^~-~-(0[1-9]|1[0-2])(Z|(\+|-)((0[0-9]|1[0-3]):[0-5][0-9]|14:00))?$"
138 +|Month|xsd:Month|(((
139 +"^~-~-(0[1-9]|1[0-2])(Z|(\+|-)((0[0-9]|1[0-
140 +
141 +3]):[0-5][0-9]|14:00))?$"
125 125  )))
126 -|(% style="width:198px" %)Duration|(% style="width:241px" %)xsd:duration|(% style="width:563px" %)(((
127 -"^-?P[0-9]+Y?([0-9]+M)?([0-9]+D)?(T([0-9]+H)?([0-9]+M)?([0-9]+(\.[0-9]+)?S)?)?$"
143 +|Duration|xsd:duration|(((
144 +"^-?P[0-9]+Y?([0-9]+M)?([0-9]+D)?(T([0-
145 +
146 +9]+H)?([0-9]+M)?([0-9]+(\.[0-9]+)?S)?)?$"
128 128  )))
129 129  
130 130  == 4.2 Time and Time Format ==
... ... @@ -139,14 +139,15 @@
139 139  
140 140  The hierarchy of time formats is as follows (**bold** indicates a category which is made up of multiple formats, //italic// indicates a distinct format):
141 141  
142 -* **Observational Time Period**
143 -** **Standard Time Period**
144 -*** **Basic Time Period**
145 -**** **Gregorian Time Period**
146 -**** //Date Time//
147 -*** **Reporting Time Period**
148 -** //Time Range//
161 +* **Observational Time Period **o **Standard Time Period**
149 149  
163 + § **Basic Time Period**
164 +
165 +* **Gregorian Time Period**
166 +* //Date Time//
167 +
168 +§ **Reporting Time Period **o //Time Range//
169 +
150 150  The details of these time period categories and of the distinct formats which make them up are detailed in the sections to follow.
151 151  
152 152  === 4.2.2 Observational Time Period ===
... ... @@ -161,23 +161,32 @@
161 161  
162 162  A Gregorian time period is always represented by a Gregorian year, year-month, or day. These are all based on ISO 8601 dates. The representation in SDMX-ML messages and the period covered by each of the Gregorian time periods are as follows:
163 163  
184 +
164 164  **Gregorian Year:**
186 +
165 165  Representation: xs:gYear (YYYY)
166 -Period: the start of January 1 to the end of December 31
167 -**Gregorian Year Month**:
188 +
189 +Period: the start of January 1 to the end of December 31 **Gregorian Year Month**:
190 +
168 168  Representation: xs:gYearMonth (YYYY-MM)
169 -Period: the start of the first day of the month to end of the last day of the month
170 -**Gregorian Day**:
192 +
193 +Period: the start of the first day of the month to end of the last day of the month **Gregorian Day**:
194 +
171 171  Representation: xs:date (YYYY-MM-DD)
196 +
172 172  Period: the start of the day (00:00:00) to the end of the day (23:59:59)
173 173  
174 -=== 4.2.5 Date Time ===
199 +1.
200 +11.
201 +111. Date Time
175 175  
176 176  This is used to unambiguously state that a date-time represents an observation at a single point in time. Therefore, if one wants to use SDMX for data which is measured at a distinct point in time rather than being reported over a period, the date-time representation can be used.
177 177  
178 -Representation: xs:dateTime (YYYY-MM-DDThh:mm:ss){{footnote}}The seconds can be reported fractionally{{/footnote}}
205 +Representation: xs:dateTime (YYYY-MM-DDThh:mm:ss)[[^^~[2~]^^>>path:#_ftn2]]
179 179  
180 -=== 4.2.6 Standard Reporting Period ===
207 +1.
208 +11.
209 +111. Standard Reporting Period
181 181  
182 182  Standard reporting periods are periods of time in relation to a reporting year. Each of these standard reporting periods has a duration (based on the ISO 8601 definition) associated with it. The general format of a reporting period is as follows:
183 183  
... ... @@ -186,53 +186,85 @@
186 186  Where:
187 187  
188 188  REPORTING_YEAR represents the reporting year as four digits (YYYY) PERIOD_INDICATOR identifies the type of period which determines the duration of the period
218 +
189 189  PERIOD_VALUE indicates the actual period within the year
190 190  
191 191  The following section details each of the standard reporting periods defined in SDMX:
192 192  
193 193  **Reporting Year**:
194 -Period Indicator: A
224 +
225 + Period Indicator: A
226 +
195 195  Period Duration: P1Y (one year)
228 +
196 196  Limit per year: 1
197 -Representation: common:ReportingYearType (YYYY-A1, e.g. 2000-A1)
198 -**Reporting Semester:**
199 -Period Indicator: S
230 +
231 +Representation: common:ReportingYearType (YYYY-A1, e.g. 2000-A1) **Reporting Semester:**
232 +
233 + Period Indicator: S
234 +
200 200  Period Duration: P6M (six months)
236 +
201 201  Limit per year: 2
238 +
202 202  Representation: common:ReportingSemesterType (YYYY-Ss, e.g. 2000-S2)
240 +
203 203  **Reporting Trimester:**
204 -Period Indicator: T
242 +
243 + Period Indicator: T
244 +
205 205  Period Duration: P4M (four months)
246 +
206 206  Limit per year: 3
207 -Representation: common:ReportingTrimesterType (YYYY-Tt, e.g. 2000-T3)
208 -**Reporting Quarter:**
209 -Period Indicator: Q
248 +
249 +Representation: common:ReportingTrimesterType (YYYY-Tt, e.g. 2000-T3) **Reporting Quarter:**
250 +
251 + Period Indicator: Q
252 +
210 210  Period Duration: P3M (three months)
254 +
211 211  Limit per year: 4
212 -Representation: common:ReportingQuarterType (YYYY-Qq, e.g. 2000-Q4)
213 -**Reporting Month**:
256 +
257 +Representation: common:ReportingQuarterType (YYYY-Qq, e.g. 2000-Q4) **Reporting Month**:
258 +
214 214  Period Indicator: M
260 +
215 215  Period Duration: P1M (one month)
262 +
216 216  Limit per year: 1
264 +
217 217  Representation: common:ReportingMonthType (YYYY-Mmm, e.g. 2000-M12) Notes: The reporting month is always represented as two digits, therefore 1-9 are 0 padded (e.g. 01). This allows the values to be sorted chronologically using textual sorting methods.
266 +
218 218  **Reporting Week**:
268 +
219 219  Period Indicator: W
270 +
220 220  Period Duration: P7D (seven days)
272 +
221 221  Limit per year: 53
274 +
222 222  Representation: common:ReportingWeekType (YYYY-Www, e.g. 2000-W53)
223 -Notes: There are either 52 or 53 weeks in a reporting year. This is based on the ISO 8601 definition of a week (Monday - Saturday), where the first week of a reporting year is defined as the week with the first Thursday on or after the reporting year start day.{{footnote}}ISO 8601 defines alternative definitions for the first week, all of which produce equivalent results. Any of these definitions could be substituted so long as they are in
224 -relation to the reporting year start day.{{/footnote}} The reporting week is always represented as two digits, therefore 1-9 are 0 padded (e.g. 01). This allows the values to be sorted chronologically using textual sorting methods.
276 +
277 +Notes: There are either 52 or 53 weeks in a reporting year. This is based on the ISO 8601 definition of a week (Monday - Saturday), where the first week of a reporting year is defined as the week with the first Thursday on or after the reporting year start day.[[^^~[3~]^^>>path:#_ftn3]] The reporting week is always represented as two digits, therefore 1-9 are 0 padded (e.g. 01). This allows the values to be sorted chronologically using textual sorting methods.
278 +
225 225  **Reporting Day**:
280 +
226 226  Period Indicator: D
282 +
227 227  Period Duration: P1D (one day)
284 +
228 228  Limit per year: 366
286 +
229 229  Representation: common:ReportingDayType (YYYY-Dddd, e.g. 2000-D366) Notes: There are either 365 or 366 days in a reporting year, depending on whether the reporting year includes leap day (February 29). The reporting day is always represented as three digits, therefore 1-99 are 0 padded (e.g. 001). This allows the values to be sorted chronologically using textual sorting methods.
288 +
230 230  The meaning of a reporting year is always based on the start day of the year and requires that the reporting year is expressed as the year at the start of the period. This start day is always the same for a reporting year, and is expressed as a day and a month (e.g. July 1). Therefore, the reporting year 2000 with a start day of July 1 begins on July 1, 2000.
231 231  
232 -A specialized attribute (reporting year start day) exists for the purpose of communicating the reporting year start day. This attribute has a fixed identifier (REPORTING_YEAR_START_DAY) and a fixed representation (xs:gMonthDay) so that it can always be easily identified and processed in a data message. Although this attribute exists in specialized sub-class, it functions the same as any other attribute outside of its identification and representation. It must takes its identity from a concept and state its relationship with other components of the data structure definition. The ability to state this relationship allows this reporting year start day attribute to exist at the appropriate levels of a data message. In the absence of this attribute, the reporting year start date is assumed to be January 1; therefore if the reporting year coincides with the calendar year, this Attribute is not necessary.
291 +A specialized attribute (reporting year start day) exists for the purpose of communicating the reporting year start day. This attribute has a fixed identifier
233 233  
234 -Since the duration and the reporting year start day are known for any reporting period, it is possible to relate any reporting period to a distinct calendar period. The actual Gregorian calendar period covered by the reporting period can be computed as follows (based on the standard format of [REPROTING_YEAR]-
293 +(REPORTING_YEAR_START_DAY) and a fixed representation (xs:gMonthDay) so that it can always be easily identified and processed in a data message. Although this attribute exists in specialized sub-class, it functions the same as any other attribute outside of its identification and representation. It must takes its identity from a concept and state its relationship with other components of the data structure definition. The ability to state this relationship allows this reporting year start day attribute to exist at the appropriate levels of a data message. In the absence of this attribute, the reporting year start date is assumed to be January 1; therefore if the reporting year coincides with the calendar year, this Attribute is not necessary.
235 235  
295 +Since the duration and the reporting year start day are known for any reporting period, it is possible to relate any reporting period to a distinct calendar period. The actual Gregorian calendar period covered by the reporting period can be computed as follows (based on the standard format of [REPROTING_YEAR]-
296 +
236 236  [PERIOD_INDICATOR][PERIOD_VALUE] and the reporting year start day as [REPORTING_YEAR_START_DAY]):
237 237  
238 238  1. **Determine [REPORTING_YEAR_BASE]:**
... ... @@ -245,7 +245,7 @@
245 245  11. **If the [PERIOD_INDICATOR] is W:**
246 246  111. **If [REPORTING_YEAR_START_DATE] is a Friday, Saturday, or Sunday:**
247 247  
248 -Add[[(% class="wikiinternallink wikiinternallink wikiinternallink wikiinternallink wikiinternallink wikiinternallink" %)^^~[4~]^^>>path:#_ftn4]](%%) (P3D, P2D, or P1D respectively) to the [REPORTING_YEAR_START_DATE]. The result is the [REPORTING_YEAR_BASE].
309 +Add[[^^~[4~]^^>>path:#_ftn4]] (P3D, P2D, or P1D respectively) to the [REPORTING_YEAR_START_DATE]. The result is the [REPORTING_YEAR_BASE].
249 249  
250 250  1.
251 251  11.
... ... @@ -326,38 +326,45 @@
326 326  
327 327  The actual calendar range covered by 2011-W36 (assuming the reporting year begins July 1) is 2012-03-05T00:00:00/2012-03-11T23:59:59
328 328  
329 -=== 4.2.7 Distinct Range ===
390 +1.
391 +11.
392 +111. Distinct Range
330 330  
331 331  In the case that the reporting period does not fit into one of the prescribe periods above, a distinct time range can be used. The value of these ranges is based on the ISO 8601 time interval format of start/duration. Start can be expressed as either an ISO 8601 date or a date-time, and duration is expressed as an ISO 8601 duration. However, the duration can only be positive.
332 332  
333 -=== 4.2.8 Time Format ===
396 +1.
397 +11.
398 +111. Time Format
334 334  
335 335  In version 2.0 of SDMX there is a recommendation to use the time format attribute to gives additional information on the way time is represented in the message. Following an appraisal of its usefulness this is no longer required. However, it is still possible, if required , to include the time format attribute in SDMX-ML.
336 336  
337 -|(% style="width:95px" %)Code|(% style="width:1520px" %)Format
338 -|(% style="width:95px" %)OTP|(% style="width:1520px" %)Observational Time Period: Superset of all SDMX time formats (Gregorian Time Period, Reporting Time Period, and Time Range)
339 -|(% style="width:95px" %)STP|(% style="width:1520px" %)Standard Time Period: Superset of Gregorian and Reporting Time Periods
340 -|(% style="width:95px" %)GTP|(% style="width:1520px" %)Superset of all Gregorian Time Periods and date-time
341 -|(% style="width:95px" %)RTP|(% style="width:1520px" %)Superset of all Reporting Time Periods
342 -|(% style="width:95px" %)TR|(% style="width:1520px" %)(((
343 -Time Range: Start time and duration (YYYY-MM-DD(Thh:mm:ss)?/<duration>)
402 +|Code|Format
403 +|OTP|Observational Time Period: Superset of all SDMX time formats (Gregorian Time Period, Reporting Time Period, and Time Range)
404 +|STP|Standard Time Period: Superset of Gregorian and Reporting Time Periods
405 +|GTP|Superset of all Gregorian Time Periods and date-time
406 +|RTP|Superset of all Reporting Time Periods
407 +|TR|(((
408 +Time Range: Start time and duration (YYYY-MM-
409 +
410 +DD(Thh:mm:ss)?/<duration>)
344 344  )))
345 -|(% style="width:95px" %)GY|(% style="width:1520px" %)Gregorian Year (YYYY)
346 -|(% style="width:95px" %)GTM|(% style="width:1520px" %)Gregorian Year Month (YYYY-MM)
347 -|(% style="width:95px" %)GD|(% style="width:1520px" %)Gregorian Day (YYYY-MM-DD)
348 -|(% style="width:95px" %)DT|(% style="width:1520px" %)Distinct Point: date-time (YYYY-MM-DDThh:mm:ss)
349 -|(% style="width:95px" %)RY|(% style="width:1520px" %)Reporting Year (YYYY-A1)
350 -|(% style="width:95px" %)RS|(% style="width:1520px" %)Reporting Semester (YYYY-Ss)
351 -|(% style="width:95px" %)RT|(% style="width:1520px" %)Reporting Trimester (YYYY-Tt)
352 -|(% style="width:95px" %)RQ|(% style="width:1520px" %)Reporting Quarter (YYYY-Qq)
353 -|(% style="width:95px" %)RM|(% style="width:1520px" %)Reporting Month (YYYY-Mmm)
354 -|(% style="width:95px" %)RW|(% style="width:1520px" %)Reporting Week (YYYY-Www)
355 -|(% style="width:95px" %)RD|(% style="width:1520px" %)Reporting Day (YYYY-Dddd)
412 +|GY|Gregorian Year (YYYY)
413 +|GTM|Gregorian Year Month (YYYY-MM)
414 +|GD|Gregorian Day (YYYY-MM-DD)
415 +|DT|Distinct Point: date-time (YYYY-MM-DDThh:mm:ss)
416 +|RY|Reporting Year (YYYY-A1)
417 +|RS|Reporting Semester (YYYY-Ss)
418 +|RT|Reporting Trimester (YYYY-Tt)
419 +|RQ|Reporting Quarter (YYYY-Qq)
420 +|RM|Reporting Month (YYYY-Mmm)
421 +|RW|Reporting Week (YYYY-Www)
422 +|RD|Reporting Day (YYYY-Dddd)
356 356  
357 -(% class="wikigeneratedid" id="HTable1:SDMX-MLTimeFormatCodes" %)
358 -**Table 1: SDMX-ML Time Format Codes**
424 +==== Table 1: SDMX-ML Time Format Codes ====
359 359  
360 -=== 4.2.9 Time Zones ===
426 +1.
427 +11.
428 +111. Time Zones
361 361  
362 362  In alignment with ISO 8601, SDMX allows the specification of a time zone on all time periods and on the reporting year start day. If a time zone is provided on a reporting year start day, then the same time zone (or none) should be reported for each reporting time period. If the reporting year start day and the reporting period time zone differ, the time zone of the reporting period will take precedence. Examples of each format with time zones are as follows (time zone indicated in bold):
363 363  
... ... @@ -378,25 +378,33 @@
378 378  
379 379  According to ISO 8601, a date without a time-zone is considered "local time". SDMX assumes that local time is that of the sender of the message. In this version of SDMX, an optional field is added to the sender definition in the header for specifying a time zone. This field has a default value of 'Z' (UTC). This determination of local time applies for all dates in a message.
380 380  
381 -=== 4.2.10 Representing Time Spans Elsewhere ===
449 +1.
450 +11.
451 +111. Representing Time Spans Elsewhere
382 382  
383 383  It has been possible since SDMX 2.0 for a Component to specify a representation of a time span. Depending on the format of the data message, this resulted in either an element with 2 XML attributes for holding the start time and the duration or two separate XML attributes based on the underlying Component identifier. For example, if REF_PERIOD were given a representation of time span, then in the Compact data format, it would be represented by two XML attributes; REF_PERIODStartTime (holding the start) and REF_PERIOD (holding the duration). If a new simple type is introduced in the SDMX schemas that can hold ISO 8601 time intervals, then this will no longer be necessary. What was represented as this:
384 384  
385 ->(% style="font-size:18px" %) <Series REF_PERIODStartTime="2000-01-01T00:00:00" REF_PERIOD="P2M"/>
455 +<Series REF_PERIODStartTime="2000-01-01T00:00:00" REF_PERIOD="P2M"/>
386 386  
387 387  can now be represented with this:
388 388  
389 ->(% style="font-size:18px" %) <Series REF_PERIOD="2000-01-01T00:00:00/P2M"/>
459 +<Series REF_PERIOD="2000-01-01T00:00:00/P2M"/>
390 390  
391 -=== 4.2.11 Notes on Formats ===
461 +1.
462 +11.
463 +111. Notes on Formats
392 392  
393 393  There is no ambiguity in these formats so that for any given value of time, the category of the period (and thus the intended time period range) is always clear. It should also be noted that by utilizing the ISO 8601 format, and a format loosely based on it for the report periods, the values of time can easily be sorted chronologically without additional parsing.
394 394  
395 -=== 4.2.12 Effect on Time Ranges ===
467 +1.
468 +11.
469 +111. Effect on Time Ranges
396 396  
397 397  All SDMX-ML data messages are capable of functioning in a manner similar to SDMXEDI if the Dimension at the observation level is time: the time period for the first observation can be stated and the rest of the observations can omit the time value as it can be derived from the start time and the frequency. Since the frequency can be determined based on the actual format of the time value for everything but distinct points in time and time ranges, this makes is even simpler to process as the interval between time ranges is known directly from the time value.
398 398  
399 -=== 4.2.13 Time in Query Messages ===
473 +1.
474 +11.
475 +111. Time in Query Messages
400 400  
401 401  When querying for time values, the value of a time parameter can be provided as any of the Observational Time Period formats and must be paired with an operator. This section will detail how systems processing query messages should interpret these parameters.
402 402  
... ... @@ -450,11 +450,9 @@
450 450  * 2010-M07 or later (any reporting year start day)
451 451  * 2010-W27 or later (reporting year start day ~-~-01-01)^^5^^
452 452  * 2010-D182 or later (reporting year start day ~-~-01-01)
453 -* 2010-W28 or later (reporting year start day ~-~-07-01)^^6^^
454 -* 2010-D185 or later (reporting year start day ~-~-07-01)
529 +* 2010-W28 or later (reporting year start day ~-~-07-01)^^6^^ • 2010-D185 or later (reporting year start day ~-~-07-01)
530 +*1. Versioning
455 455  
456 -== 4.3 Versioning ==
457 -
458 458  Versioning operates at the level of versionable and maintainable objects in the SDMX information model. Within the SDMX Structure and MetadataSet messages, there is a well-defined pattern for artefact versioning and referencing. The artefact identifiers are qualified by their version numbers – that is, an object with an Agency of "A", and ID of "X" and a version of "1.0.0" is a different object than one with an Agency of "A", an ID of "X", and a version of "1.1.0".
459 459  
460 460  As of SDMX 3.0, the versioning rules are extended to allow for truly versioned artefacts through the implementation of the rules of the well-known practice called "Semantic Versioning" [[(>>url:http://semver.org/]][[http:~~/~~/semver.org>>url:http://semver.org/]][[)>>url:http://semver.org/]], in addition to the legacy non-restrictive versioning scheme. In addition, the "isFinal" property is removed from
... ... @@ -463,13 +463,17 @@
463 463  
464 464  ‘1.0’.
465 465  
466 -=== 4.3.1 Non-versioned artefacts ===
540 +1.
541 +11.
542 +111. Non-versioned artefacts
467 467  
468 468  Indeed, some use cases do not need or are incompatible with versioning for some or all their structural artefacts, such as the Agency, Data Providers, Metadata Providers and Data Consumer Schemes. These artefacts follow the legacy versioning, with a fixed version set to ‘1.0’.
469 469  
470 470  Many existing organisation’s data management systems work with version-less structures and apply ad-hoc structural metadata governance processes. The new nonversioned artefacts will allow supporting those numerous situations, where organisations do not manage version numbers.
471 471  
472 -=== 4.3.2 Semantically versioned artefacts ===
548 +1.
549 +11.
550 +111. Semantically versioned artefacts
473 473  
474 474  Since the purpose of SDMX versioning is to allow communicating the structural artefact changes to data exchange partners and connected systems, SDMX 3.0 offers Semantic Versioning (aka SemVer) with a clear and unambiguous syntax to all semantically versioned SDMX 3.0 structural artefacts. Semantic versioning will thus better respond to situations where the SDMX standard itself is the only structural contract between data providers and data consumers and where changes in structures can only be communicated through the version number increases.
475 475  
... ... @@ -493,13 +493,17 @@
493 493  
494 494  The production versions of identifiable artefacts are assumed stable, i.e., they do not have an EXTENSION. This is because once in production, an artefact cannot change in any way, or it must change the version. For cases where an artefact is not static, like during the drafting, the version must indicate this by including an EXTENSION. Draft artefacts should not be used outside of a specific system designed to accommodate them. For most purposes, all artefacts should become stable before being used in production.
495 495  
496 -=== 4.3.3 Legacy-versioned artefacts ===
574 +1.
575 +11.
576 +111. Legacy-versioned artefacts
497 497  
498 498  Organisations wishing to keep a maximum of backwards compatibility with existing implementations can continue using the previous 2-digit convention for version numbers (MAJOR.MINOR) as in the past, such as '2.3', but without the ‘isFinal’ property. The new SDMX 3.0 standard does not add any strict rules or guarantees about changes in those artefacts, since the legacy versioning rules were rather loose and non-binding, including the meaning of the ‘isFinal’ property, and their implementations were varying.
499 499  
500 500  In order to make artefacts immutable or changes truly predictable, a move to the new semantic versioning syntax is required.
501 501  
502 -=== 4.3.4 Dependency management and references ===
582 +1.
583 +11.
584 +111. Dependency management and references
503 503  
504 504  New flexible dependency specifications with wildcarding allow for easier data model maintenance and enhancements for semantically versioned SDMX artefacts. This allows implementing a smart referencing mechanism, whereby an artefact may reference:
505 505  
... ... @@ -528,7 +528,8 @@
528 528  
529 529  Full details can be found in the SDMX RESTful web services specification.
530 530  
531 -== 4.4 Structural Metadata Querying Best Practices ==
613 +1.
614 +11. Structural Metadata Querying Best Practices
532 532  
533 533  When querying for structural metadata, the ability to state how references should be resolved is quite powerful. However, this mechanism is not always necessary and can create an undue burden on the systems processing the queries if it is not used properly.
534 534  
... ... @@ -536,6 +536,7 @@
536 536  
537 537  When the referenced object is not known, then the reference resolution mechanism could be used. For example, suppose one wanted to find all category schemes and the related categorisations for a given maintenance agency. In this case, one could query for the category scheme by the maintenance agency and specify that parent and sibling references should be resolved. This would result in the categorisations which reference the categories in the matched schemes to be returned, as well as the object which they categorise.
538 538  
622 +
539 539  ----
540 540  
541 541  [[~[1~]>>path:#_ftnref1]] Regular expressions, as specified in [[W3C XML Schema Definition Language (XSD)>>url:https://www.w3.org/TR/xmlschema11-2/]][[ >>url:https://www.w3.org/TR/xmlschema11-2/]][[1.1 Part 2: Datatypes>>url:https://www.w3.org/TR/xmlschema11-2/]][[.>>url:https://www.w3.org/TR/xmlschema11-2/]]
... ... @@ -546,5 +546,4 @@
546 546  
547 547  [[~[4~]>>path:#_ftnref4]] The rules for adding durations to a date time are described in the W3C XML Schema specification. See [[http:~~/~~/www.w3.org/TR/xmlschema>>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[->>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[2/#adding>>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[->>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[durations>>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[->>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[to>>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[dateTimes>>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]][[ >>url:http://www.w3.org/TR/xmlschema-2/#adding-durations-to-dateTimes]]for further details.
548 548  
549 -
550 -{{putFootnotes/}}
633 +