From 4d3b8401559953a190d481644f66bd2033bcc8e2 Mon Sep 17 00:00:00 2001
From: Daniel Hutzschenreuter <daniel.hutzschenreuter@ptb.de>
Date: Tue, 2 Apr 2019 14:55:48 +0200
Subject: [PATCH] cleaned project
---
.../SI/Examples/D-SI_all_XML_examples.xml | 1193 -----------------
1 file changed, 1193 deletions(-)
delete mode 100644 Development/SI/Examples/D-SI_all_XML_examples.xml
diff --git a/Development/SI/Examples/D-SI_all_XML_examples.xml b/Development/SI/Examples/D-SI_all_XML_examples.xml
deleted file mode 100644
index e51d017..0000000
--- a/Development/SI/Examples/D-SI_all_XML_examples.xml
+++ /dev/null
@@ -1,1193 +0,0 @@
-<?xml version="1.0" encoding="UTF-8"?>
-<siTest:testDSIXML
- xmlns:siTest="https://gitlab1.ptb.de/D-SI-public/xml/tree/master/SI-Test"
- xmlns:si="https://gitlab1.ptb.de/D-SI-public/xml/tree/master/SI"
- xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
- xsi:schemaLocation="https://gitlab1.ptb.de/D-SI-public/xml/tree/master/SI platform:/resource/DSI_XML_Tools/xml/Development/SI/SI_Format_v1.1.xsd
- https://gitlab1.ptb.de/D-SI-public/xml/tree/master/SI-Test platform:/resource/DSI_XML_Tools/src/de/ptb/smartcom/xml/validation/SI_Format_TestData.xsd">
- <!-- einfache Beschreibung -->
- <siTest:metaData>
- <siTest:testDescription>All XML examples for the metadata format.
- The examples are validated against the XML scheme of the format.
- </siTest:testDescription>
- </siTest:metaData>
-
- <!-- Testbeispiele für reelle Elemente -->
- <siTest:testData id="EXAMPLE-1">
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-1-Escape">
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\newton</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-2-Escape">
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\rad</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-3-Escape">
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\metre\tothe{-2}</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-2-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:dateTime>2018-09-27T13:00:00</si:dateTime>
- <si:uncertainty>0.5</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-3-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-4-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:label> Temperature</si:label>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-4.1-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:label><![CDATA[<p>Text</p>]]></si:label>
- </si:real>
- </siTest:testData>
- <!-- -->
-
- <siTest:testData id="EXAMPLE-5-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit>\degreeCesius</si:unit>
- <si:label><![CDATA[Das ist eine CDATA <|/ Section>]]></si:label>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-6-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCesius</si:unit>
- <si:label> Temperature</si:label>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-7-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:uncertainty>0.5</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-8-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- <si:uncertainty>0.5</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-9-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:uncertainty>0.5</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution> Gaussian</si:distribution>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-10-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- <si:uncertainty>0.5</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution> Gaussian</si:distribution>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-11-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:intervalType>prosym</si:intervalType>
- <si:intervalMin>19.6</si:intervalMin>
- <si:intervalMax>20.6</si:intervalMax>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-12-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- <si:intervalType>prosym</si:intervalType>
- <si:intervalMin>19.6</si:intervalMin>
- <si:intervalMax>20.6</si:intervalMax>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-13-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:intervalType>prosym</si:intervalType>
- <si:intervalMin>19.6</si:intervalMin>
- <si:intervalMax>20.6</si:intervalMax>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution> Gaussian</si:distribution>
- </si:real>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-14-D-SI-Buch">
- <si:real>
- <si:value>20.1</si:value>
- <si:unit> \degreeCelsius</si:unit>
- <si:dateTime> 2018-09-27T13:00:00</si:dateTime>
- <si:intervalType>shortest</si:intervalType>
- <si:intervalMin>19.6</si:intervalMin>
- <si:intervalMax>20.6</si:intervalMax>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution> Gaussian</si:distribution>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-15">
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-16">
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <si:label>length</si:label>
- <si:dateTime>2018-11-16T12:30:01.67-01:00</si:dateTime>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-17">
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-18">
- <!-- real measurement quantity with coverage interval -->
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- uncertainty statement -->
- <si:intervalType>prosym</si:intervalType>
- <si:intervalMin>2.33</si:intervalMin>
- <si:intervalMax>2.35</si:intervalMax>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:real>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-19">
- <!-- real quantity with all elements that can be provided -->
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <si:label>length</si:label>
- <si:dateTime>2018-11-16T12:30:01.67-01:00</si:dateTime>
- <!-- uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>1.96</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:real>
- </siTest:testData>
-
-
-
- <!-- Testbeispiele für complexe Elemente -->
- <siTest:testData id="EXAMPLE-100">
- <si:complex>
- <si:value1>1.00</si:value1>
- <si:value2>1.00</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-101">
- <!-- Option B basic complex quantity - Cartesian form -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-102">
- <!-- Option B basic complex quantity - polar form -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- </siTest:testData>
-
-
-
- <siTest:testData id="EXAMPLE-103">
- <!-- Option B.2 Cartesian form with hyper-ellipsoid region -->
- <si:complex>
- <si:value1>-10.30</si:value1>
- <si:value2>0.05</si:value2>
- <si:unit>\metre</si:unit>
- <si:ellipsoidalRegion>
- <!-- upper triangular covariance matrix row by row -->
- <si:uncertainty>0.15</si:uncertainty>
- <si:covariance>-0.3</si:covariance>
- <si:uncertainty>0.15</si:uncertainty>
- <!-- additional information -->
- <si:coverageFactor>2.45</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal-bivariate</si:distribution>
- </si:ellipsoidalRegion>
- </si:complex>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-104">
- <!-- Option B.2 Cartesian form with hyper-rectangle region -->
- <si:complex>
- <si:value1>-10.30</si:value1>
- <si:value2>0.05</si:value2>
- <si:unit>\metre</si:unit>
- <si:rectangularRegion>
- <!-- list of uncertainty values -->
- <si:uncertainty>0.15</si:uncertainty>
- <si:uncertainty>0.15</si:uncertainty>
- <!-- additional information -->
- <si:coverageFactor>2.39</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal-bivariate</si:distribution>
- </si:rectangularRegion>
- </si:complex>
- </siTest:testData>
-
-
-
- <!-- Testbeispiele für Listenelemente -->
- <siTest:testData id="EXAMPLE-200">
- <si:list>
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\second</si:unit>
- </si:real>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-201">
- <!-- atomic list of real quantities -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>4.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-202">
- <!-- basic list of real quantities with
- global expanded measurement uncertainty -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <!-- global uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-202_1">
- <!-- list of real quantities with local uncertainty -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- local uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- local uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- </si:real>
- </si:list>
- </siTest:testData>
-
- <!--
- <siTest:testData id="EXAMPLE-203">
- basic list of real quantities - global unit
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- </si:real>
- <si:real>
- <si:value>4.34</si:value>
- </si:real>
- <si:unit>\metre</si:unit>
- </si:list>
- </siTest:testData>-->
-
- <siTest:testData id="EXAMPLE-204">
- <!-- basic list of real quantities - various labels -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- local label of real quantity -->
- <si:label>length of standard</si:label>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\kilogram</si:unit>
- <!-- local label of real quantity -->
- <si:label>mass of standard</si:label>
- </si:real>
- <si:real>
- <si:value>4.34</si:value>
- <si:unit>\ampere</si:unit>
- </si:real>
- <!-- global label of list -->
- <si:label>vector-quantity</si:label>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-205">
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <!-- ellipsoidal coverage region -->
- <si:ellipsoidalRegion>
- <!-- upper triangular covariance matrix row by row -->
- <si:uncertainty>0.9</si:uncertainty>
- <si:covariance>0.7</si:covariance>
- <si:uncertainty>0.6</si:uncertainty>
- <!-- additional information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal-multivariate</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-205-1">
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>unit_1</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>unit_2</si:unit>
- </si:real>
- <!-- ellipsoidal coverage region -->
- <si:ellipsoidalRegion>
- <!-- upper triangular covariance matrix row by row -->
- <si:uncertainty>0.9</si:uncertainty>
- <si:covariance>0.7</si:covariance>
- <si:uncertainty>0.6</si:uncertainty>
- <!-- additional information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal-multivariate</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-206">
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <!-- rectangular coverage region -->
- <si:rectangularRegion>
- <!-- expanded uncertainties (half length of box edges) -->
- <si:uncertainty>1</si:uncertainty>
- <si:uncertainty>2</si:uncertainty>
- <!-- additional information -->
- <si:coverageFactor>2.39</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal-multivariate</si:distribution>
- </si:rectangularRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-207">
- <!-- forbidden mix of local and global uncertainties - also applicable for global and local units -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- <!-- forbidden local uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <!-- global uncertainty statement -->
- <si:uncertainty>0.01</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208">
- <!-- list of complex quantities (option B) -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208-1">
- <!-- list of complex quantities -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>180.0</si:value2>
- <si:unit>\second</si:unit>
- <si:unitPhase>\degree</si:unitPhase>
- </si:complex>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208-2">
- <!-- list of complex quantities -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <si:complex>
- <si:value1>-12.3</si:value1>
- <si:value2>1.8</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208-3">
- <!-- list of complex quantities -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5</si:value2>
- </si:complex>
- <si:complex>
- <si:value1>-12.3</si:value1>
- <si:value2>1.8</si:value2>
- </si:complex>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208-4">
- <!-- list of complex quantities -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <si:complex>
- <si:value1>-12.3</si:value1>
- <si:value2>1.8</si:value2>
- </si:complex>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-208-5">
- <!-- list of complex quantities -->
- <si:list>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-12.3</si:value1>
- <si:value2>1.8</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:unitPhase>\rad</si:unitPhase>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-209">
- <!-- list of complex quantities (option B.2) with global bivariate uncertainty -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <!-- multivariate uncertainty -->
- <si:ellipsoidalRegion>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-209-1">
- <!-- list of complex quantities (option 1) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty1>0.2</si:uncertainty1>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty2>0.2</si:uncertainty2>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty1>0.2</si:uncertainty1>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty2>0.2</si:uncertainty2>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:complex>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-209-2">
- <!-- list of complex quantities (option 1) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <!-- global bivariate uncertainty -->
- <si:uncertainty1>0.2</si:uncertainty1>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty2>0.2</si:uncertainty2>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-209-3">
- <!-- list of complex quantities (option 2) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:ellipsoidalRegion>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:ellipsoidalRegion>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:complex>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-209-4">
- <!-- list of complex quantities (option 2) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <!-- global bivariate uncertainty -->
- <si:ellipsoidalRegion>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
-
- <siTest:testData id="EXAMPLE-209-5">
- <!-- list of complex quantities (option 2) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <!-- global bivariate uncertainty -->
- <si:ellipsoidalRegion>
- <!-- covariance matrix (2x2) -->
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-210">
- <!-- list of complex quantities (multivariate) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <!-- multivariate uncertainty -->
- <si:ellipsoidalRegion>
- <!-- covariance matrix (4x4) -->
- <si:uncertainty>0.1</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-210-1">
- <!-- list of complex quantities (multivariate) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>0.0</si:value2>
- <si:unit>\metre</si:unit>
- </si:complex>
- <!-- multivariate uncertainty -->
- <si:rectangularRegion>
- <!-- rectagular box lengths (dimension 4) -->
- <si:uncertainty>0.1</si:uncertainty>
- <si:uncertainty>0.2</si:uncertainty>
- <si:uncertainty>0.2</si:uncertainty>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:rectangularRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-210-2">
- <!-- list of complex quantities (multivariate) -->
- <si:list>
- <!-- list of complex quantities -->
- <si:complex>
- <si:value1>-10.3</si:value1>
- <si:value2>1.5.0</si:value2>
- <si:unit>\metre</si:unit>
- <si:unitPhase>\rad</si:unitPhase>
- </si:complex>
- <si:complex>
- <si:value1>-12.3</si:value1>
- <si:value2>180.0</si:value2>
- <si:unit>\second</si:unit>
- <si:unitPhase>\degree</si:unitPhase>
- </si:complex>
- <!-- multivariate uncertainty -->
- <si:ellipsoidalRegion>
- <!-- covariance matrix (4x4) -->
- <si:uncertainty>0.1</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <si:covariance>-0.5</si:covariance>
- <si:uncertainty>0.2</si:uncertainty>
- <!-- coverage information -->
- <si:coverageFactor>2.80</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:ellipsoidalRegion>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-211">
- <si:list>
- <!-- list with column one -->
- <si:list>
- <si:real>
- <si:value>2.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- </si:list>
- <!-- list with column two -->
- <si:list>
- <si:real>
- <si:value>4.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>5.34</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- </si:list>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-212">
- <si:list>
-
- <!-- Result data -->
- <si:list>
- <si:real>
- <si:value>0.999</si:value>
- <si:unit>\metre</si:unit>
- <si:label>calculated quantity value</si:label>
- <si:uncertainty>0.004</si:uncertainty>
- <si:coverageFactor>2</si:coverageFactor>
- <si:coverageProbability>0.95</si:coverageProbability>
- <si:distribution>normal</si:distribution>
- </si:real>
- <si:label>CalculationResult</si:label>
- </si:list>
- <!-- simple Monte Carlo steps -->
- <si:list>
- <si:real>
- <si:value>1.002</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>1.001</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>0.998</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>1.001</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>0.997</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>0.992</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>1.000</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:label>MonteCarloSample</si:label>
- </si:list>
- <!-- further elements with MCM parameter values -->
- <si:label>MonteCarloData</si:label>
- </si:list>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-213">
- <si:list>
- <!-- value of a multivariate quantity -->
- <si:list>
- <si:real>
- <si:value>1.0</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>2.0</si:value>
- <si:unit>\second</si:unit>
- </si:real>
- <si:label>quantity vector with real</si:label>
- </si:list>
- <!-- smallest coverage region by simple "box elements" -->
- <si:list>
- <!-- coverage probability and rectangular box size parameters -->
- <si:list>
- <si:real>
- <si:value>0.95</si:value>
- <si:unit>\one</si:unit>
- <si:label>coverageProbability</si:label>
- </si:real>
- <si:real>
- <si:value>0.01</si:value>
- <si:unit>\metre</si:unit>
- <si:label>boxSizeX</si:label>
- </si:real>
- <si:real>
- <si:value>0.01</si:value>
- <si:unit>\second</si:unit>
- <si:label>boxSizeY</si:label>
- </si:real>
- <si:label>coverage data</si:label>
- </si:list>
-
- <!-- center points of rectangular boxes of dimension (boxSizeX x boxSizeY) that provide the smallest region -->
- <si:list>
- <si:list>
- <si:real>
- <si:value>1.00</si:value>
- <si:unit>\metre</si:unit>
- <si:label>centerX</si:label>
- </si:real>
- <si:real>
- <si:value>2.00</si:value>
- <si:unit>\second</si:unit>
- <si:label>centerY</si:label>
- </si:real>
- </si:list>
- <si:list>
- <si:real>
- <si:value>1.01</si:value>
- <si:unit>\metre</si:unit>
- <si:label>centerX</si:label>
- </si:real>
- <si:real>
- <si:value>2.01</si:value>
- <si:unit>\second</si:unit>
- <si:label>centerY</si:label>
- </si:real>
- </si:list>
- <si:list>
- <si:real>
- <si:value>1.02</si:value>
- <si:unit>\metre</si:unit>
- <si:label>centerX</si:label>
- </si:real>
- <si:real>
- <si:value>2.02</si:value>
- <si:unit>\second</si:unit>
- <si:label>centerY</si:label>
- </si:real>
- </si:list>
- <si:list>
- <si:real>
- <si:value>1.03</si:value>
- <si:unit>\metre</si:unit>
- <si:label>centerX</si:label>
- </si:real>
- <si:real>
- <si:value>2.03</si:value>
- <si:unit>\second</si:unit>
- <si:label>centerY</si:label>
- </si:real>
- </si:list>
- <si:label>center point of boxes</si:label>
- </si:list>
- <si:label>smallest coverage region</si:label>
- </si:list>
- <si:label>Multivariate quantity with smallest region uncertainty statement</si:label>
- </si:list>
- </siTest:testData>
-
-
- <!-- Testbeispiele für durch Komma getrennte reelle Angaben -->
- <siTest:testData id="EXAMPLE-300">
- <si:realCS>
- <si:value>1.00,2.00,3.00</si:value>
- <si:unit>\metre</si:unit>
- </si:realCS>
- </siTest:testData>
-
- <!-- Testbeispiele für durch Komma getrennte complexe Angaben -->
- <siTest:testData id="EXAMPLE-400">
- <si:complexCS>
- <si:value1>1.00,2.00,3.00</si:value1>
- <si:value2>1.00,2.00,3.00</si:value2>
- <si:unit>\metre</si:unit>
- </si:complexCS>
- </siTest:testData>
-
- <!-- Testbeispiele für Elemente mit Konstanten -->
- <siTest:testData id="EXAMPLE-500">
- <si:constant>
- <si:value>3.14</si:value>
- <si:unit>\metre\per\metre</si:unit>
- <si:uncertainty>0.005</si:uncertainty>
- </si:constant>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-501">
- <si:constant>
- <si:value>1.054571800e-34</si:value>
- <si:unit>\joule\secound</si:unit>
- <si:label>reduced planck constant</si:label>
- <si:dateTime>2018-11-16T12:30:01.67-01:00</si:dateTime>
- <!-- standard uncertainty statement -->
- <si:uncertainty>1.3e-42</si:uncertainty>
- <si:distribution>normal</si:distribution>
- </si:constant>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-502">
- <si:constant>
- <si:value>3.140</si:value>
- <si:unit>\one</si:unit>
- <si:label>pi</si:label>
- <!-- theoretical rounding error -->
- <si:uncertainty>0.005</si:uncertainty>
- </si:constant>
- </siTest:testData>
-
-
- <!-- Testbeispiele für hybride Angaben -->
- <siTest:testData id="EXAMPLE-600">
- <si:hybrid>
- <!-- SI quantity value of the non-SI quantities -->
- <si:real>
- <si:value>3600</si:value>
- <si:unit>\second</si:unit>
- </si:real>
- <!-- non-SI quantity value -->
- <si:real>
- <si:value>60</si:value>
- <si:unit>\minute</si:unit>
- </si:real>
- <!-- non-SI quantity value -->
- <si:real>
- <si:value>1</si:value>
- <si:unit>\hour</si:unit>
- </si:real>
- </si:hybrid>
- </siTest:testData>
-
- <siTest:testData id="EXAMPLE-601">
- <!-- hybrid can also work with lists -->
- <si:hybrid>
- <!-- list with SI quantity values -->
- <si:list>
- <si:real>
- <si:value>1</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>3.14</si:value>
- <si:unit>\metre\per\metre</si:unit>
- </si:real>
- </si:list>
- <!-- list with non-SI quantities - each quantity value in this list must have an SI representation in the SI list above -->
- <si:list>
- <si:real>
- <si:value>1</si:value>
- <si:unit>\metre</si:unit>
- </si:real>
- <si:real>
- <si:value>5.34</si:value>
- <si:unit>gon</si:unit>
- </si:real>
- </si:list>
- </si:hybrid>
- </siTest:testData>
-
-</siTest:testDSIXML>
\ No newline at end of file
--
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