/*
* ============LICENSE_START=======================================================
- * Copyright (C) 2021-2022 Nordix Foundation
+ * Copyright (C) 2021-2023 Nordix Foundation
* Modifications Copyright (C) 2021 Pantheon.tech
* Modifications Copyright (C) 2021-2022 Bell Canada.
+ * Modifications Copyright (C) 2022-2023 TechMahindra Ltd.
* ================================================================================
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* SPDX-License-Identifier: Apache-2.0
* ============LICENSE_END=========================================================
*/
+
package org.onap.cps.spi.impl
-import com.fasterxml.jackson.databind.ObjectMapper
import com.google.common.collect.ImmutableSet
-import org.onap.cps.cpspath.parser.PathParsingException
import org.onap.cps.spi.CpsDataPersistenceService
import org.onap.cps.spi.entities.FragmentEntity
-import org.onap.cps.spi.exceptions.AlreadyDefinedException
+import org.onap.cps.spi.exceptions.AlreadyDefinedExceptionBatch
import org.onap.cps.spi.exceptions.AnchorNotFoundException
import org.onap.cps.spi.exceptions.CpsAdminException
import org.onap.cps.spi.exceptions.CpsPathException
import org.onap.cps.spi.exceptions.DataspaceNotFoundException
import org.onap.cps.spi.model.DataNode
import org.onap.cps.spi.model.DataNodeBuilder
-import org.onap.cps.utils.JsonObjectMapper
import org.springframework.beans.factory.annotation.Autowired
import org.springframework.test.context.jdbc.Sql
+
import javax.validation.ConstraintViolationException
import static org.onap.cps.spi.FetchDescendantsOption.INCLUDE_ALL_DESCENDANTS
@Autowired
CpsDataPersistenceService objectUnderTest
- static final JsonObjectMapper jsonObjectMapper = new JsonObjectMapper(new ObjectMapper())
+ static DataNodeBuilder dataNodeBuilder = new DataNodeBuilder()
static final String SET_DATA = '/data/fragment.sql'
- static final int DATASPACE_1001_ID = 1001L
- static final int ANCHOR_3003_ID = 3003L
- static final long ID_DATA_NODE_WITH_DESCENDANTS = 4001
- static final String XPATH_DATA_NODE_WITH_DESCENDANTS = '/parent-1'
- static final String XPATH_DATA_NODE_WITH_LEAVES = '/parent-100'
- static final long DATA_NODE_202_FRAGMENT_ID = 4202L
- static final long CHILD_OF_DATA_NODE_202_FRAGMENT_ID = 4203L
- static final long LIST_DATA_NODE_PARENT201_FRAGMENT_ID = 4206L
- static final long LIST_DATA_NODE_PARENT203_FRAGMENT_ID = 4214L
- static final long LIST_DATA_NODE_PARENT202_FRAGMENT_ID = 4211L
- static final long PARENT_3_FRAGMENT_ID = 4003L
-
- static final DataNode newDataNode = new DataNodeBuilder().build()
- static DataNode existingDataNode
- static DataNode existingChildDataNode
-
- def expectedLeavesByXpathMap = [
- '/parent-100' : ['parent-leaf': 'parent-leaf value'],
- '/parent-100/child-001' : ['first-child-leaf': 'first-child-leaf value'],
- '/parent-100/child-002' : ['second-child-leaf': 'second-child-leaf value'],
- '/parent-100/child-002/grand-child': ['grand-child-leaf': 'grand-child-leaf value']
- ]
-
- static {
- existingDataNode = createDataNodeTree(XPATH_DATA_NODE_WITH_DESCENDANTS)
- existingChildDataNode = createDataNodeTree('/parent-1/child-1')
- }
-
- @Sql([CLEAR_DATA, SET_DATA])
- def 'StoreDataNode with descendants.'() {
+ static long ID_DATA_NODE_WITH_DESCENDANTS = 4001
+ static String XPATH_DATA_NODE_WITH_DESCENDANTS = '/parent-1'
+ static long DATA_NODE_202_FRAGMENT_ID = 4202L
+ static long CHILD_OF_DATA_NODE_202_FRAGMENT_ID = 4203L
+ static long LIST_DATA_NODE_PARENT201_FRAGMENT_ID = 4206L
+ static long LIST_DATA_NODE_PARENT203_FRAGMENT_ID = 4214L
+ static long LIST_DATA_NODE_PARENT202_FRAGMENT_ID = 4211L
+ static long PARENT_3_FRAGMENT_ID = 4003L
+
+ static Collection<DataNode> newDataNodes = [new DataNodeBuilder().build()]
+ static Collection<DataNode> existingDataNodes = [createDataNodeTree(XPATH_DATA_NODE_WITH_DESCENDANTS)]
+ static Collection<DataNode> existingChildDataNodes = [createDataNodeTree('/parent-1/child-1')]
+
+ def static deleteTestParentXPath = '/parent-200'
+ def static deleteTestChildXpath = "${deleteTestParentXPath}/child-with-slash[@key='a/b']"
+ def static deleteTestGrandChildXPath = "${deleteTestChildXpath}/grandChild"
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Get all datanodes with descendants .'() {
+ when: 'data nodes are retrieved by their xpath'
+ def dataNodes = objectUnderTest.getDataNodesForMultipleXpaths(DATASPACE_NAME, ANCHOR_NAME1, ['/parent-1'], INCLUDE_ALL_DESCENDANTS)
+ then: 'same data nodes are returned by getDataNodesForMultipleXpaths method'
+ assert objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME1, '/parent-1', INCLUDE_ALL_DESCENDANTS) == dataNodes
+ and: 'the dataNodes have no prefix (to be addressed by CPS-1301)'
+ assert dataNodes[0].moduleNamePrefix == null
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Storing and Retrieving a new DataNodes with descendants.'() {
when: 'a fragment with descendants is stored'
- def parentXpath = "/parent-new"
- def childXpath = "/parent-new/child-new"
- def grandChildXpath = "/parent-new/child-new/grandchild-new"
- objectUnderTest.storeDataNode(DATASPACE_NAME, ANCHOR_NAME1,
- createDataNodeTree(parentXpath, childXpath, grandChildXpath))
+ def parentXpath = '/parent-new'
+ def childXpath = '/parent-new/child-new'
+ def grandChildXpath = '/parent-new/child-new/grandchild-new'
+ def dataNodes = [createDataNodeTree(parentXpath, childXpath, grandChildXpath)]
+ objectUnderTest.storeDataNodes(DATASPACE_NAME, ANCHOR_NAME1, dataNodes)
then: 'it can be retrieved by its xpath'
- def parentFragment = getFragmentByXpath(DATASPACE_NAME, ANCHOR_NAME1, parentXpath)
- and: 'it contains the children'
- parentFragment.childFragments.size() == 1
- def childFragment = parentFragment.childFragments[0]
- childFragment.xpath == childXpath
- and: "and its children's children"
- childFragment.childFragments.size() == 1
- def grandchildFragment = childFragment.childFragments[0]
- grandchildFragment.xpath == grandChildXpath
+ def dataNode = objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, INCLUDE_ALL_DESCENDANTS)
+ assert dataNode[0].xpath == parentXpath
+ and: 'it has the correct child'
+ assert dataNode[0].childDataNodes.size() == 1
+ def childDataNode = dataNode[0].childDataNodes[0]
+ assert childDataNode.xpath == childXpath
+ and: 'and its grandchild'
+ assert childDataNode.childDataNodes.size() == 1
+ def grandChildDataNode = childDataNode.childDataNodes[0]
+ assert grandChildDataNode.xpath == grandChildXpath
}
@Sql([CLEAR_DATA, SET_DATA])
def 'Store data node for multiple anchors using the same schema.'() {
- def xpath = "/parent-new"
+ def xpath = '/parent-new'
given: 'a fragment is stored for an anchor'
- objectUnderTest.storeDataNode(DATASPACE_NAME, ANCHOR_NAME1, createDataNodeTree(xpath))
+ objectUnderTest.storeDataNodes(DATASPACE_NAME, ANCHOR_NAME1, [createDataNodeTree(xpath)])
when: 'another fragment is stored for an other anchor, using the same schema set'
- objectUnderTest.storeDataNode(DATASPACE_NAME, ANCHOR_NAME3, createDataNodeTree(xpath))
+ objectUnderTest.storeDataNodes(DATASPACE_NAME, ANCHOR_NAME3, [createDataNodeTree(xpath)])
then: 'both fragments can be retrieved by their xpath'
def fragment1 = getFragmentByXpath(DATASPACE_NAME, ANCHOR_NAME1, xpath)
fragment1.anchor.name == ANCHOR_NAME1
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Store datanode error scenario: #scenario.'() {
+ def 'Store datanodes error scenario: #scenario.'() {
when: 'attempt to store a data node with #scenario'
- objectUnderTest.storeDataNode(dataspaceName, anchorName, dataNode)
+ objectUnderTest.storeDataNodes(dataspaceName, anchorName, dataNodes)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'the following data is used'
- scenario | dataspaceName | anchorName | dataNode || expectedException
- 'dataspace does not exist' | 'unknown' | 'not-relevant' | newDataNode || DataspaceNotFoundException
- 'schema set does not exist' | DATASPACE_NAME | 'unknown' | newDataNode || AnchorNotFoundException
- 'anchor already exists' | DATASPACE_NAME | ANCHOR_NAME1 | newDataNode || ConstraintViolationException
- 'datanode already exists' | DATASPACE_NAME | ANCHOR_NAME1 | existingDataNode || AlreadyDefinedException
+ scenario | dataspaceName | anchorName | dataNodes || expectedException
+ 'dataspace does not exist' | 'unknown' | 'not-relevant' | newDataNodes || DataspaceNotFoundException
+ 'schema set does not exist' | DATASPACE_NAME | 'unknown' | newDataNodes || AnchorNotFoundException
+ 'anchor already exists' | DATASPACE_NAME | ANCHOR_NAME1 | newDataNodes || ConstraintViolationException
+ 'datanode already exists' | DATASPACE_NAME | ANCHOR_NAME1 | existingDataNodes || AlreadyDefinedExceptionBatch
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Add a child to a Fragment that already has a child.'() {
- given: ' a new child node'
- def newChild = createDataNodeTree('xpath for new child')
+ def 'Add children to a Fragment that already has a child.'() {
+ given: 'collection of new child data nodes'
+ def newChild1 = createDataNodeTree('/parent-1/child-2')
+ def newChild2 = createDataNodeTree('/parent-1/child-3')
+ def newChildrenCollection = [newChild1, newChild2]
when: 'the child is added to an existing parent with 1 child'
- objectUnderTest.addChildDataNode(DATASPACE_NAME, ANCHOR_NAME1, XPATH_DATA_NODE_WITH_DESCENDANTS, newChild)
- then: 'the parent is now has to 2 children'
+ objectUnderTest.addChildDataNodes(DATASPACE_NAME, ANCHOR_NAME1, XPATH_DATA_NODE_WITH_DESCENDANTS, newChildrenCollection)
+ then: 'the parent is now has to 3 children'
def expectedExistingChildPath = '/parent-1/child-1'
def parentFragment = fragmentRepository.findById(ID_DATA_NODE_WITH_DESCENDANTS).orElseThrow()
- parentFragment.childFragments.size() == 2
+ parentFragment.childFragments.size() == 3
and: 'it still has the old child'
parentFragment.childFragments.find({ it.xpath == expectedExistingChildPath })
- and: 'it has the new child'
- parentFragment.childFragments.find({ it.xpath == newChild.xpath })
+ and: 'it has the new children'
+ parentFragment.childFragments.find({ it.xpath == newChildrenCollection[0].xpath })
+ parentFragment.childFragments.find({ it.xpath == newChildrenCollection[1].xpath })
}
@Sql([CLEAR_DATA, SET_DATA])
def 'Add child error scenario: #scenario.'() {
when: 'attempt to add a child data node with #scenario'
- objectUnderTest.addChildDataNode(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, dataNode)
+ objectUnderTest.addChildDataNodes(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, dataNodes)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'the following data is used'
- scenario | parentXpath | dataNode || expectedException
- 'parent does not exist' | '/unknown' | newDataNode || DataNodeNotFoundException
- 'already existing child' | XPATH_DATA_NODE_WITH_DESCENDANTS | existingChildDataNode || AlreadyDefinedException
+ scenario | parentXpath | dataNodes || expectedException
+ 'parent does not exist' | '/unknown' | newDataNodes || DataNodeNotFoundException
+ 'already existing child' | XPATH_DATA_NODE_WITH_DESCENDANTS | existingChildDataNodes || AlreadyDefinedExceptionBatch
}
@Sql([CLEAR_DATA, SET_DATA])
def grandChild = buildDataNode('/parent-201/child-204[@key="NEW1"]/grand-child-204[@key2="NEW1-CHILD"]', [leave:'value'], [])
listElements[0].childDataNodes = [grandChild]
when: 'the new data node (list elements) are added to an existing parent node'
- objectUnderTest.addListElementsBatch(DATASPACE_NAME, ANCHOR_NAME3, '/parent-201', [listElements])
+ objectUnderTest.addMultipleLists(DATASPACE_NAME, ANCHOR_NAME3, '/parent-201', [listElements])
then: 'new entries are successfully persisted, parent node now contains 5 children (2 new + 3 existing before)'
- def parentFragment = fragmentRepository.getById(LIST_DATA_NODE_PARENT201_FRAGMENT_ID)
+ def parentFragment = fragmentRepository.getReferenceById(LIST_DATA_NODE_PARENT201_FRAGMENT_ID)
def allChildXpaths = parentFragment.childFragments.collect { it.xpath }
assert allChildXpaths.size() == 5
assert allChildXpaths.containsAll(listElementXpaths)
and: 'the (grand)child node of the new list entry is also present'
def dataspaceEntity = dataspaceRepository.getByName(DATASPACE_NAME)
def anchorEntity = anchorRepository.getByDataspaceAndName(dataspaceEntity, ANCHOR_NAME3)
- def grandChildFragmentEntity = fragmentRepository.findByDataspaceAndAnchorAndXpath(dataspaceEntity, anchorEntity, grandChild.xpath)
+ def grandChildFragmentEntity = fragmentRepository.findByAnchorAndXpath(anchorEntity, grandChild.xpath)
assert grandChildFragmentEntity.isPresent()
}
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Add multiple list with a mix of existing and new elements'() {
+ given: 'two new child list elements for an existing parent'
+ def existingDataNode = dataNodeBuilder.withXpath('/parent-207/child-001').withLeaves(['id': '001']).build()
+ def newDataNode1 = dataNodeBuilder.withXpath('/parent-207/child-new1').withLeaves(['id': 'new1']).build()
+ def newDataNode2 = dataNodeBuilder.withXpath('/parent-200/child-new2').withLeaves(['id': 'new2']).build()
+ def dataNodeList1 = [existingDataNode, newDataNode1]
+ def dataNodeList2 = [newDataNode2]
+ when: 'duplicate data node is requested to be added'
+ objectUnderTest.addMultipleLists(DATASPACE_NAME, ANCHOR_HAVING_SINGLE_TOP_LEVEL_FRAGMENT, '/', [dataNodeList1, dataNodeList2])
+ then: 'already defined batch exception is thrown'
+ def thrown = thrown(AlreadyDefinedExceptionBatch)
+ and: 'it only contains the xpath(s) of the duplicated elements'
+ assert thrown.alreadyDefinedXpaths.size() == 1
+ assert thrown.alreadyDefinedXpaths.contains('/parent-207/child-001')
+ and: 'it does NOT contains the xpaths of the new element that were not combined with existing elements'
+ assert !thrown.alreadyDefinedXpaths.contains('/parent-207/child-new1')
+ assert !thrown.alreadyDefinedXpaths.contains('/parent-207/child-new1')
+ and: 'the new entity is inserted correctly'
+ def dataspaceEntity = dataspaceRepository.getByName(DATASPACE_NAME)
+ def anchorEntity = anchorRepository.getByDataspaceAndName(dataspaceEntity, ANCHOR_HAVING_SINGLE_TOP_LEVEL_FRAGMENT)
+ fragmentRepository.findByAnchorAndXpath(anchorEntity, '/parent-200/child-new2').isPresent()
+ }
+
@Sql([CLEAR_DATA, SET_DATA])
def 'Add list element error scenario: #scenario.'() {
given: 'list element as a collection of data nodes'
- def listElementCollection = toDataNodes(listElementXpaths)
+ def listElements = toDataNodes(listElementXpaths)
when: 'attempt to add list elements to parent node'
- objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME3, parentNodeXpath, listElementCollection)
+ objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME3, parentNodeXpath, listElements)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'following parameters were used'
scenario | parentNodeXpath | listElementXpaths || expectedException
'parent node does not exist' | '/unknown' | ['irrelevant'] || DataNodeNotFoundException
- 'data fragment already exists' | '/parent-201' | ["/parent-201/child-204[@key='A']"] || AlreadyDefinedException
+ 'data fragment already exists' | '/parent-201' | ["/parent-201/child-204[@key='A']"] || AlreadyDefinedExceptionBatch
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Get data node by xpath without descendants.'() {
- when: 'data node is requested'
- def result = objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES,
- inputXPath, OMIT_DESCENDANTS)
- then: 'data node is returned with no descendants'
- assert result.xpath == XPATH_DATA_NODE_WITH_LEAVES
- and: 'expected leaves'
- assert result.childDataNodes.size() == 0
- assertLeavesMaps(result.leaves, expectedLeavesByXpathMap[XPATH_DATA_NODE_WITH_LEAVES])
- where: 'the following data is used'
+ def 'Get all data nodes by single xpath without descendants : #scenario'() {
+ when: 'data nodes are requested'
+ def result = objectUnderTest.getDataNodesForMultipleXpaths(DATASPACE_NAME, ANCHOR_WITH_MULTIPLE_TOP_LEVEL_FRAGMENTS,
+ [inputXPath], OMIT_DESCENDANTS)
+ then: 'data nodes under root are returned'
+ assert result.childDataNodes.size() == 2
+ and: 'no descendants of parent nodes are returned'
+ result.each {assert it.childDataNodes.size() == 0}
+ and: 'same data nodes are returned when V2 of get Data Nodes API is executed'
+ assert objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_WITH_MULTIPLE_TOP_LEVEL_FRAGMENTS,
+ inputXPath, OMIT_DESCENDANTS) == result
+ where: 'the following xpath is used'
scenario | inputXPath
- 'some xpath' | '/parent-100'
'root xpath' | '/'
'empty xpath' | ''
}
@Sql([CLEAR_DATA, SET_DATA])
def 'Cps Path query with syntax error throws a CPS Path Exception.'() {
when: 'trying to execute a query with a syntax (parsing) error'
- objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, 'invalid-cps-path/child' , OMIT_DESCENDANTS)
+ objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, 'invalid-cps-path/child' , OMIT_DESCENDANTS)
then: 'exception is thrown'
def exceptionThrown = thrown(CpsPathException)
- assert exceptionThrown.getDetails().contains('failed to parse at line 1 due to extraneous input \'invalid-cps-path\' expecting \'/\'')
+ assert exceptionThrown.getDetails() == "failed to parse at line 1 due to extraneous input 'invalid-cps-path' expecting '/'"
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Get data node by xpath with all descendants.'() {
- when: 'data node is requested with all descendants'
- def result = objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES,
- inputXPath, INCLUDE_ALL_DESCENDANTS)
- def mappedResult = treeToFlatMapByXpath(new HashMap<>(), result)
- then: 'data node is returned with all the descendants populated'
- assert mappedResult.size() == 4
+ def 'Get all data nodes by single xpath with all descendants : #scenario'() {
+ when: 'data nodes are requested with all descendants'
+ def result = objectUnderTest.getDataNodesForMultipleXpaths(DATASPACE_NAME, ANCHOR_WITH_MULTIPLE_TOP_LEVEL_FRAGMENTS,
+ [inputXPath], INCLUDE_ALL_DESCENDANTS)
+ def mappedResult = multipleTreesToFlatMapByXpath(new HashMap<>(), result)
+ then: 'data nodes are returned with all the descendants populated'
+ assert mappedResult.size() == 8
assert result.childDataNodes.size() == 2
- assert mappedResult.get('/parent-100/child-001').childDataNodes.size() == 0
- assert mappedResult.get('/parent-100/child-002').childDataNodes.size() == 1
- and: 'extracted leaves maps are matching expected'
- mappedResult.forEach(
- (xPath, dataNode) -> assertLeavesMaps(dataNode.leaves, expectedLeavesByXpathMap[xPath]))
+ assert mappedResult.get('/parent-208/child-001').childDataNodes.size() == 0
+ assert mappedResult.get('/parent-208/child-002').childDataNodes.size() == 1
+ assert mappedResult.get('/parent-209/child-001').childDataNodes.size() == 0
+ assert mappedResult.get('/parent-209/child-002').childDataNodes.size() == 1
+ and: 'same data nodes are returned when V2 of Get Data Nodes API is executed'
+ assert objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_WITH_MULTIPLE_TOP_LEVEL_FRAGMENTS,
+ inputXPath, INCLUDE_ALL_DESCENDANTS) == result
where: 'the following data is used'
scenario | inputXPath
- 'some xpath' | '/parent-100'
'root xpath' | '/'
'empty xpath' | ''
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Get data node error scenario: #scenario.'() {
- when: 'attempt to get data node with #scenario'
- objectUnderTest.getDataNode(dataspaceName, anchorName, xpath, OMIT_DESCENDANTS)
- then: 'a #expectedException is thrown'
+ def 'Get data nodes error scenario : #scenario.'() {
+ when: 'attempt to get data nodes with #scenario'
+ objectUnderTest.getDataNodes(dataspaceName, anchorName, xpath, OMIT_DESCENDANTS)
+ then: 'an #expectedException is thrown'
thrown(expectedException)
where: 'the following data is used'
- scenario | dataspaceName | anchorName | xpath || expectedException
- 'non-existing dataspace' | 'NO DATASPACE' | 'not relevant' | '/not relevant' || DataspaceNotFoundException
- 'non-existing anchor' | DATASPACE_NAME | 'NO ANCHOR' | '/not relevant' || AnchorNotFoundException
- 'non-existing xpath' | DATASPACE_NAME | ANCHOR_FOR_DATA_NODES_WITH_LEAVES | '/NO XPATH' || DataNodeNotFoundException
+ scenario | dataspaceName | anchorName | xpath || expectedException
+ 'non existing xpath' | DATASPACE_NAME | ANCHOR_FOR_DATA_NODES_WITH_LEAVES | '/NO-XPATH' || DataNodeNotFoundException
+ 'invalid Xpath' | DATASPACE_NAME | ANCHOR_FOR_DATA_NODES_WITH_LEAVES | 'INVALID XPATH' || CpsPathException
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node leaves.'() {
- when: 'update is performed for leaves'
- objectUnderTest.updateDataLeaves(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES,
- "/parent-200/child-201", ['leaf-value': 'new'])
- then: 'leaves are updated for selected data node'
- def updatedFragment = fragmentRepository.getById(DATA_NODE_202_FRAGMENT_ID)
- def updatedLeaves = getLeavesMap(updatedFragment)
- assert updatedLeaves.size() == 1
- assert updatedLeaves.'leaf-value' == 'new'
- and: 'existing child entry remains as is'
- def childFragment = updatedFragment.childFragments.iterator().next()
- def childLeaves = getLeavesMap(childFragment)
- assert childFragment.id == CHILD_OF_DATA_NODE_202_FRAGMENT_ID
- assert childLeaves.'leaf-value' == 'original'
+ def 'Get data nodes for multiple xpaths.'() {
+ when: 'fetch #scenario.'
+ def results = objectUnderTest.getDataNodesForMultipleXpaths(DATASPACE_NAME, ANCHOR_NAME3, inputXpaths, OMIT_DESCENDANTS)
+ then: 'the expected number of data nodes are returned'
+ assert results.size() == expectedResultSize
+ where: 'following parameters were used'
+ scenario | inputXpaths || expectedResultSize
+ '0 nodes' | [] || 0
+ '1 node' | ["/parent-200"] || 1
+ '2 unique nodes' | ["/parent-200", "/parent-201"] || 2
+ '3 unique nodes' | ["/parent-200", "/parent-201", "/parent-202"] || 3
+ '1 unique node with duplicate xpath' | ["/parent-200", "/parent-200"] || 1
+ '2 unique nodes with duplicate xpath' | ["/parent-200", "/parent-202", "/parent-200"] || 2
+ 'list element with key (single quote)' | ["/parent-201/child-204[@key='A']"] || 1
+ 'list element with key (double quote)' | ['/parent-201/child-204[@key="A"]'] || 1
+ 'whole list (not implemented)' | ["/parent-201/child-204"] || 0
+ 'non-existing xpath' | ["/NO-XPATH"] || 0
+ 'existing and non-existing xpaths' | ["/parent-200", "/NO-XPATH", "/parent-201"] || 2
+ 'invalid xpath' | ["INVALID XPATH"] || 0
+ 'valid and invalid xpaths' | ["/parent-200", "INVALID XPATH", "/parent-201"] || 2
+ 'root xpath' | ["/"] || 7
+ 'empty (root) xpath' | [""] || 7
+ 'root and top-level xpaths' | ["/", "/parent-200", "/parent-201"] || 7
+ 'root and child xpaths' | ["/", "/parent-200/child-201"] || 7
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data leaves error scenario: #scenario.'() {
- when: 'attempt to update data node for #scenario'
- objectUnderTest.updateDataLeaves(dataspaceName, anchorName, xpath, ['leaf-name': 'leaf-value'])
+ def 'Get data nodes for collection of xpath error scenario : #scenario.'() {
+ when: 'attempt to get data nodes with #scenario'
+ objectUnderTest.getDataNodesForMultipleXpaths(dataspaceName, anchorName, ['/not-relevant'], OMIT_DESCENDANTS)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'the following data is used'
- scenario | dataspaceName | anchorName | xpath || expectedException
- 'non-existing dataspace' | 'NO DATASPACE' | 'not relevant' | '/not relevant' || DataspaceNotFoundException
- 'non-existing anchor' | DATASPACE_NAME | 'NO ANCHOR' | '/not relevant' || AnchorNotFoundException
- 'non-existing xpath' | DATASPACE_NAME | ANCHOR_FOR_DATA_NODES_WITH_LEAVES | '/NON-EXISTING XPATH' || DataNodeNotFoundException
+ scenario | dataspaceName | anchorName || expectedException
+ 'non-existing dataspace' | 'NO DATASPACE' | 'not relevant' || DataspaceNotFoundException
+ 'non-existing anchor' | DATASPACE_NAME | 'NO ANCHOR' || AnchorNotFoundException
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node and descendants by removing descendants.'() {
- given: 'data node object with leaves updated, no children'
- def submittedDataNode = buildDataNode("/parent-200/child-201", ['leaf-value': 'new'], [])
+ def 'Update data nodes and descendants by removing descendants.'() {
+ given: 'data nodes with leaves updated, no children'
+ def submittedDataNodes = [buildDataNode('/parent-200/child-201', ['leaf-value': 'new'], [])]
when: 'update data nodes and descendants is performed'
- objectUnderTest.updateDataNodeAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNode)
+ objectUnderTest.updateDataNodesAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNodes)
then: 'leaves have been updated for selected data node'
- def updatedFragment = fragmentRepository.getById(DATA_NODE_202_FRAGMENT_ID)
+ def updatedFragment = fragmentRepository.getReferenceById(DATA_NODE_202_FRAGMENT_ID)
def updatedLeaves = getLeavesMap(updatedFragment)
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node and descendants with new descendants'() {
- given: 'data node object with leaves updated, having child with old content'
- def submittedDataNode = buildDataNode("/parent-200/child-201", ['leaf-value': 'new'], [
- buildDataNode("/parent-200/child-201/grand-child", ['leaf-value': 'original'], [])
- ])
+ def 'Update data nodes and descendants with new descendants'() {
+ given: 'data nodes with leaves updated, having child with old content'
+ def submittedDataNodes = [buildDataNode('/parent-200/child-201', ['leaf-value': 'new'], [
+ buildDataNode('/parent-200/child-201/grand-child', ['leaf-value': 'original'], [])
+ ])]
when: 'update is performed including descendants'
- objectUnderTest.updateDataNodeAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNode)
+ objectUnderTest.updateDataNodesAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNodes)
then: 'leaves have been updated for selected data node'
- def updatedFragment = fragmentRepository.getById(DATA_NODE_202_FRAGMENT_ID)
+ def updatedFragment = fragmentRepository.getReferenceById(DATA_NODE_202_FRAGMENT_ID)
def updatedLeaves = getLeavesMap(updatedFragment)
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node and descendants with same descendants but changed leaf value.'() {
- given: 'data node object with leaves updated, having child with old content'
- def submittedDataNode = buildDataNode("/parent-200/child-201", ['leaf-value': 'new'], [
- buildDataNode("/parent-200/child-201/grand-child", ['leaf-value': 'new'], [])
- ])
+ def 'Update data nodes and descendants with same descendants but changed leaf value.'() {
+ given: 'data nodes with leaves updated, having child with old content'
+ def submittedDataNodes = [buildDataNode('/parent-200/child-201', ['leaf-value': 'new'], [
+ buildDataNode('/parent-200/child-201/grand-child', ['leaf-value': 'new'], [])
+ ])]
when: 'update is performed including descendants'
- objectUnderTest.updateDataNodeAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNode)
+ objectUnderTest.updateDataNodesAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNodes)
then: 'leaves have been updated for selected data node'
- def updatedFragment = fragmentRepository.getById(DATA_NODE_202_FRAGMENT_ID)
+ def updatedFragment = fragmentRepository.getReferenceById(DATA_NODE_202_FRAGMENT_ID)
def updatedLeaves = getLeavesMap(updatedFragment)
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node and descendants with different descendants xpath'() {
- given: 'data node object with leaves updated, having child with old content'
- def submittedDataNode = buildDataNode("/parent-200/child-201", ['leaf-value': 'new'], [
- buildDataNode("/parent-200/child-201/grand-child-new", ['leaf-value': 'new'], [])
- ])
+ def 'Update data nodes and descendants with different descendants xpath'() {
+ given: 'data nodes with leaves updated, having child with old content'
+ def submittedDataNodes = [buildDataNode('/parent-200/child-201', ['leaf-value': 'new'], [
+ buildDataNode('/parent-200/child-201/grand-child-new', ['leaf-value': 'new'], [])
+ ])]
when: 'update is performed including descendants'
- objectUnderTest.updateDataNodeAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNode)
+ objectUnderTest.updateDataNodesAndDescendants(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES, submittedDataNodes)
then: 'leaves have been updated for selected data node'
- def updatedFragment = fragmentRepository.getById(DATA_NODE_202_FRAGMENT_ID)
+ def updatedFragment = fragmentRepository.getReferenceById(DATA_NODE_202_FRAGMENT_ID)
def updatedLeaves = getLeavesMap(updatedFragment)
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Update data node and descendants error scenario: #scenario.'() {
- given: 'data node object'
- def submittedDataNode = buildDataNode(xpath, ['leaf-name': 'leaf-value'], [])
+ def 'Update data nodes and descendants error scenario: #scenario.'() {
+ given: 'data nodes collection'
+ def submittedDataNodes = [buildDataNode(xpath, ['leaf-name': 'leaf-value'], [])]
when: 'attempt to update data node for #scenario'
- objectUnderTest.updateDataNodeAndDescendants(dataspaceName, anchorName, submittedDataNode)
+ objectUnderTest.updateDataNodesAndDescendants(dataspaceName, anchorName, submittedDataNodes)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'the following data is used'
scenario | dataspaceName | anchorName | xpath || expectedException
'non-existing dataspace' | 'NO DATASPACE' | 'not relevant' | '/not relevant' || DataspaceNotFoundException
'non-existing anchor' | DATASPACE_NAME | 'NO ANCHOR' | '/not relevant' || AnchorNotFoundException
- 'non-existing xpath' | DATASPACE_NAME | ANCHOR_FOR_DATA_NODES_WITH_LEAVES | '/NON-EXISTING XPATH' || DataNodeNotFoundException
}
@Sql([CLEAR_DATA, SET_DATA])
objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, originalListEntriesAsDataNodes)
}
and: 'each original list element has one child'
- def originalParentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ def originalParentFragment = fragmentRepository.getReferenceById(PARENT_3_FRAGMENT_ID)
originalParentFragment.childFragments.each {assert it.childFragments.size() == 1 }
when: 'it is updated with #scenario'
def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'new value', replacementKeys, false)
objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, replacementListEntriesAsDataNodes)
then: 'the result list ONLY contains the expected replacement elements'
- def parentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ def parentFragment = fragmentRepository.getReferenceById(PARENT_3_FRAGMENT_ID)
def allChildXpaths = parentFragment.childFragments.collect { it.xpath }
def expectedListEntriesAfterUpdateAsXpaths = keysToXpaths(parentXpath, replacementKeys)
assert allChildXpaths.size() == replacementKeys.size()
def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'new', ['A'], true)
objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, replacementListEntriesAsDataNodes)
then: 'The updated fragment has a child-list with ONLY element "A"'
- def parentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ def parentFragment = fragmentRepository.getReferenceById(PARENT_3_FRAGMENT_ID)
parentFragment.childFragments.size() == 1
def childListElementA = parentFragment.childFragments[0]
childListElementA.xpath == "/parent-3/child-list[@key='A']"
def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(XPATH_DATA_NODE_WITH_DESCENDANTS, 'new', ['A','B'], false)
objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, XPATH_DATA_NODE_WITH_DESCENDANTS, replacementListEntriesAsDataNodes)
then: 'the parent will have 3 children after the replacement'
- def parentFragment = fragmentRepository.getById(ID_DATA_NODE_WITH_DESCENDANTS)
+ def parentFragment = fragmentRepository.getReferenceById(ID_DATA_NODE_WITH_DESCENDANTS)
parentFragment.childFragments.size() == 3
def xpaths = parentFragment.childFragments.collect {it.xpath}
and: 'one of the children is the original child fragment'
def 'Delete list scenario: #scenario.'() {
when: 'deleting list is executed for: #scenario.'
objectUnderTest.deleteListDataNode(DATASPACE_NAME, ANCHOR_NAME3, targetXpaths)
- then: 'only the expected children remain'
- def parentFragment = fragmentRepository.getById(parentFragmentId)
+ and: 'remaining children are fetched'
+ def parentFragment = fragmentRepository.getReferenceById(parentFragmentId)
def remainingChildXpaths = parentFragment.childFragments.collect { it.xpath }
+ then: 'only the expected children remain'
assert remainingChildXpaths.size() == expectedRemainingChildXpaths.size()
assert remainingChildXpaths.containsAll(expectedRemainingChildXpaths)
where: 'following parameters were used'
'list element under list element' | '/parent-203/child-204[@key="B"]/grand-child-204[@key2="Y"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ["/parent-203/child-203", "/parent-203/child-204[@key='A']", "/parent-203/child-204[@key='B']"]
}
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete multiple data nodes using scenario: #scenario.'() {
+ when: 'deleting nodes is executed for: #scenario.'
+ objectUnderTest.deleteDataNodes(DATASPACE_NAME, ANCHOR_NAME3, targetXpaths)
+ and: 'remaining children are fetched'
+ def parentFragment = fragmentRepository.getReferenceById(LIST_DATA_NODE_PARENT203_FRAGMENT_ID)
+ def remainingChildXpaths = parentFragment.childFragments.collect { it.xpath }
+ then: 'only the expected children remain'
+ assert remainingChildXpaths.size() == expectedRemainingChildXpaths.size()
+ assert remainingChildXpaths.containsAll(expectedRemainingChildXpaths)
+ where: 'following parameters were used'
+ scenario | targetXpaths || expectedRemainingChildXpaths
+ 'delete nothing' | [] || ["/parent-203/child-203", "/parent-203/child-204[@key='A']", "/parent-203/child-204[@key='B']"]
+ 'datanode' | ['/parent-203/child-203'] || ["/parent-203/child-204[@key='A']", "/parent-203/child-204[@key='B']"]
+ '1 list element' | ['/parent-203/child-204[@key="A"]'] || ["/parent-203/child-203", "/parent-203/child-204[@key='B']"]
+ '2 list elements' | ['/parent-203/child-204[@key="A"]', '/parent-203/child-204[@key="B"]'] || ["/parent-203/child-203"]
+ 'whole list' | ['/parent-203/child-204'] || ['/parent-203/child-203']
+ 'list and element in same list' | ['/parent-203/child-204', '/parent-203/child-204[@key="A"]'] || ['/parent-203/child-203']
+ 'list element under list element' | ['/parent-203/child-204[@key="B"]/grand-child-204[@key2="Y"]'] || ["/parent-203/child-203", "/parent-203/child-204[@key='A']", "/parent-203/child-204[@key='B']"]
+ 'invalid xpath' | ['INVALID XPATH', '/parent-203/child-204'] || ['/parent-203/child-203']
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete multiple data nodes error scenario: #scenario.'() {
+ when: 'deleting nodes is executed for: #scenario.'
+ objectUnderTest.deleteDataNodes(dataspaceName, anchorName, targetXpaths)
+ then: 'a #expectedException is thrown'
+ thrown(expectedException)
+ where: 'the following data is used'
+ scenario | dataspaceName | anchorName | targetXpaths || expectedException
+ 'non-existing dataspace' | 'NO DATASPACE' | 'not relevant' | ['/not relevant'] || DataspaceNotFoundException
+ 'non-existing anchor' | DATASPACE_NAME | 'NO ANCHOR' | ['/not relevant'] || AnchorNotFoundException
+ 'non-existing datanode' | DATASPACE_NAME | ANCHOR_NAME3 | ['/NON-EXISTING-XPATH'] || DataNodeNotFoundException
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete data nodes with "/"-token in list key value: #scenario. (CPS-1409)'() {
+ given: 'a data nodes with list-element child with "/" in index value (and grandchild)'
+ def grandChild = new DataNodeBuilder().withXpath(deleteTestGrandChildXPath).build()
+ def child = new DataNodeBuilder().withXpath(deleteTestChildXpath).withChildDataNodes([grandChild]).build()
+ objectUnderTest.addChildDataNode(DATASPACE_NAME, ANCHOR_NAME3, deleteTestParentXPath, child)
+ and: 'number of children before delete is stored'
+ def numberOfChildrenBeforeDelete = objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME3, pathToParentOfDeletedNode, INCLUDE_ALL_DESCENDANTS)[0].childDataNodes.size()
+ when: 'target node is deleted'
+ objectUnderTest.deleteDataNode(DATASPACE_NAME, ANCHOR_NAME3, deleteTarget)
+ then: 'one child has been deleted'
+ def numberOfChildrenAfterDelete = objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME3, pathToParentOfDeletedNode, INCLUDE_ALL_DESCENDANTS)[0].childDataNodes.size()
+ assert numberOfChildrenAfterDelete == numberOfChildrenBeforeDelete - 1
+ where:
+ scenario | deleteTarget | pathToParentOfDeletedNode
+ 'list element with /' | deleteTestChildXpath | deleteTestParentXPath
+ 'child of list element' | deleteTestGrandChildXPath | deleteTestChildXpath
+ }
+
@Sql([CLEAR_DATA, SET_DATA])
def 'Delete list error scenario: #scenario.'() {
when: 'attempting to delete scenario: #scenario.'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Confirm deletion of #scenario.'() {
+ def 'Delete data node by xpath #scenario.'() {
given: 'a valid data node'
def dataNode
- def dataNodeXpath
- when: 'data nodes are deleted'
+ and: 'data nodes are deleted'
objectUnderTest.deleteDataNode(DATASPACE_NAME, ANCHOR_NAME3, xpathForDeletion)
- then: 'verify data nodes are removed'
- try {
- dataNode = objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_NAME3, getDataNodesXpaths, INCLUDE_ALL_DESCENDANTS)
- dataNodeXpath = dataNode.xpath
- assert dataNodeXpath == expectedXpaths
- } catch (DataNodeNotFoundException) {
- assert dataNodeXpath == expectedXpaths
+ when: 'verify data nodes are removed'
+ objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME3, xpathForDeletion, INCLUDE_ALL_DESCENDANTS)
+ then:
+ thrown(DataNodeNotFoundException)
+ and: 'some related object is not deleted'
+ if (xpathSurvivor!=null) {
+ dataNode = objectUnderTest.getDataNodes(DATASPACE_NAME, ANCHOR_NAME3, xpathSurvivor, INCLUDE_ALL_DESCENDANTS)
+ assert dataNode[0].xpath == xpathSurvivor
}
where: 'following parameters were used'
- scenario | xpathForDeletion | getDataNodesXpaths || expectedXpaths
- 'child of target' | '/parent-206/child-206' | '/parent-206/child-206' || null
- 'child data node, parent still exists' | '/parent-206/child-206' | '/parent-206' || '/parent-206'
- 'list element' | '/parent-206/child-206/grand-child-206[@key="A"]' | '/parent-206/child-206/grand-child-206[@key="A"]' || null
- 'list element, sibling still exists' | '/parent-206/child-206/grand-child-206[@key="A"]' | '/parent-206/child-206/grand-child-206[@key="X"]' || "/parent-206/child-206/grand-child-206[@key='X']"
- 'container node' | '/parent-206' | '/parent-206' || null
- 'container list node' | '/parent-206[@key="A"]' | '/parent-206[@key="B"]' || "/parent-206[@key='B']"
- 'root node with xpath /' | '/' | '/' || null
- 'root node with xpath passed as blank' | '' | '' || null
-
+ scenario | xpathForDeletion || xpathSurvivor
+ 'child data node, parent still exists' | '/parent-206/child-206' || '/parent-206'
+ 'list element, sibling still exists' | '/parent-206/child-206/grand-child-206[@key="A"]' || "/parent-206/child-206/grand-child-206[@key='X']"
+ 'container node' | '/parent-206' || null
+ 'container list node' | '/parent-206[@key="A"]' || "/parent-206[@key='B']"
+ 'root node with xpath /' | '/' || null
+ 'root node with xpath passed as blank' | '' || null
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Delete data node with #scenario.'() {
+ def 'Delete data node error scenario: #scenario.'() {
when: 'data node is deleted'
objectUnderTest.deleteDataNode(DATASPACE_NAME, ANCHOR_NAME3, datanodeXpath)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'the following parameters were used'
- scenario | datanodeXpath | expectedException
- 'valid data node, non existent child node' | '/parent-203/child-non-existent' | DataNodeNotFoundException
- 'invalid list element' | '/parent-206/child-206/grand-child-206@key="A"]' | PathParsingException
+ scenario | datanodeXpath | expectedException
+ 'valid data node, non existent child node' | '/parent-203/child-non-existent' | DataNodeNotFoundException
+ 'invalid list element' | '/parent-206/child-206/grand-child-206@key="A"]' | CpsPathException
}
@Sql([CLEAR_DATA, SET_DATA])
def 'Delete data node for an anchor.'() {
given: 'a data-node exists for an anchor'
- assert fragmentsExistInDB(DATASPACE_1001_ID, ANCHOR_3003_ID)
+ assert fragmentsExistInDB(3003)
when: 'data nodes are deleted '
objectUnderTest.deleteDataNodes(DATASPACE_NAME, ANCHOR_NAME3)
then: 'all data-nodes are deleted successfully'
- assert !fragmentsExistInDB(DATASPACE_1001_ID, ANCHOR_3003_ID)
+ assert !fragmentsExistInDB(3003)
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete data node for multiple anchors.'() {
+ given: 'a data-node exists for an anchor'
+ assert fragmentsExistInDB(3001)
+ assert fragmentsExistInDB(3003)
+ when: 'data nodes are deleted '
+ objectUnderTest.deleteDataNodes(DATASPACE_NAME, ['ANCHOR-001', 'ANCHOR-003'])
+ then: 'all data-nodes are deleted successfully'
+ assert !fragmentsExistInDB(3001)
+ assert !fragmentsExistInDB(3003)
}
- def fragmentsExistInDB(dataSpaceId, anchorId) {
- !fragmentRepository.findRootsByDataspaceAndAnchor(dataSpaceId, anchorId).isEmpty()
+ def fragmentsExistInDB(anchorId) {
+ fragmentRepository.existsByAnchorId(anchorId)
}
static Collection<DataNode> toDataNodes(xpaths) {
return xpaths.collect { new DataNodeBuilder().withXpath(it).build() }
}
+
static DataNode buildDataNode(xpath, leaves, childDataNodes) {
- return new DataNodeBuilder().withXpath(xpath).withLeaves(leaves).withChildDataNodes(childDataNodes).build()
+ return dataNodeBuilder.withXpath(xpath).withLeaves(leaves).withChildDataNodes(childDataNodes).build()
}
- static Map<String, Object> getLeavesMap(FragmentEntity fragmentEntity) {
+ Map<String, Object> getLeavesMap(FragmentEntity fragmentEntity) {
return jsonObjectMapper.convertJsonString(fragmentEntity.attributes, Map<String, Object>.class)
}
- def static assertLeavesMaps(actualLeavesMap, expectedLeavesMap) {
- expectedLeavesMap.forEach((key, value) -> {
- def actualValue = actualLeavesMap[key]
- if (value instanceof Collection<?> && actualValue instanceof Collection<?>) {
- assert value.size() == actualValue.size()
- assert value.containsAll(actualValue)
- } else {
- assert value == actualValue
- }
- })
- return true
- }
-
def static treeToFlatMapByXpath(Map<String, DataNode> flatMap, DataNode dataNodeTree) {
flatMap.put(dataNodeTree.xpath, dataNodeTree)
dataNodeTree.childDataNodes
return flatMap
}
+ def static multipleTreesToFlatMapByXpath(Map<String, DataNode> flatMap, Collection<DataNode> dataNodeTrees) {
+ for (DataNode dataNodeTree: dataNodeTrees){
+ flatMap.put(dataNodeTree.xpath, dataNodeTree)
+ dataNodeTree.childDataNodes
+ .forEach(childDataNode -> multipleTreesToFlatMapByXpath(flatMap, [childDataNode]))
+ }
+ return flatMap
+ }
+
def keysToXpaths(parent, Collection keys) {
return keys.collect { "${parent}/child-list[@key='${it}']".toString() }
}
def getFragmentByXpath(dataspaceName, anchorName, xpath) {
def dataspace = dataspaceRepository.getByName(dataspaceName)
def anchor = anchorRepository.getByDataspaceAndName(dataspace, anchorName)
- return fragmentRepository.findByDataspaceAndAnchorAndXpath(dataspace, anchor, xpath).orElseThrow()
+ return fragmentRepository.findByAnchorAndXpath(anchor, xpath).orElseThrow()
}
-
def createChildListAllHavingAttributeValue(parentXpath, tag, Collection keys, boolean addGrandChild) {
def listElementAsDataNodes = keysToXpaths(parentXpath, keys).collect {
new DataNodeBuilder()