| # Licensed to the Apache Software Foundation (ASF) under one |
| # or more contributor license agreements. See the NOTICE file |
| # distributed with this work for additional information |
| # regarding copyright ownership. The ASF licenses this file |
| # to you under the Apache License, Version 2.0 (the |
| # "License"); you may not use this file except in compliance |
| # with the License. You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, |
| # software distributed under the License is distributed on an |
| # "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY |
| # KIND, either express or implied. See the License for the |
| # specific language governing permissions and limitations |
| # under the License. |
| |
| Feature: Step - filter() |
| |
| Scenario: g_V_filterXfalseX |
| Given the modern graph |
| And using the parameter l1 defined as "c[false]" |
| And the traversal of |
| """ |
| g.V().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be empty |
| |
| Scenario: g_V_filterXtrueX |
| Given the modern graph |
| And using the parameter l1 defined as "c[true]" |
| And the traversal of |
| """ |
| g.V().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | v[marko] | |
| | v[vadas] | |
| | v[lop] | |
| | v[josh] | |
| | v[ripple] | |
| | v[peter] | |
| |
| Scenario: g_V_filterXlang_eq_javaX |
| Given the modern graph |
| And using the parameter l1 defined as "c[it.get().property('lang').orElse('none').equals('java')]" |
| And the traversal of |
| """ |
| g.V().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | v[ripple] | |
| | v[lop] | |
| |
| Scenario: g_VX1X_filterXage_gt_30X |
| Given the modern graph |
| And using the parameter v1Id defined as "v[marko].id" |
| And using the parameter l1 defined as "c[it.get().property('age').orElse(0) > 30]" |
| And the traversal of |
| """ |
| g.V(v1Id).filter(l1) |
| """ |
| When iterated to list |
| Then the result should be empty |
| |
| Scenario: g_VX2X_filterXage_gt_30X |
| Given the modern graph |
| And using the parameter v2Id defined as "v[josh].id" |
| And using the parameter l1 defined as "c[it.get().property('age').orElse(0) > 30]" |
| And the traversal of |
| """ |
| g.V(v2Id).filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | v[josh] | |
| |
| Scenario: g_VX1X_out_filterXage_gt_30X |
| Given the modern graph |
| And using the parameter v1Id defined as "v[marko].id" |
| And using the parameter l1 defined as "c[it.get().property('age').orElse(0) > 30]" |
| And the traversal of |
| """ |
| g.V(v1Id).out().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | v[josh] | |
| |
| Scenario: g_V_filterXname_startsWith_m_OR_name_startsWith_pX |
| Given the modern graph |
| And using the parameter l1 defined as "c[{name = it.get().value('name'); name.startsWith('m') || name.startsWith('p')}]" |
| And the traversal of |
| """ |
| g.V().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | v[marko] | |
| | v[peter] | |
| |
| Scenario: g_E_filterXfalseX |
| Given the modern graph |
| And using the parameter l1 defined as "c[false]" |
| And the traversal of |
| """ |
| g.E().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be empty |
| |
| Scenario: g_E_filterXtrueX |
| Given the modern graph |
| And using the parameter l1 defined as "c[true]" |
| And the traversal of |
| """ |
| g.E().filter(l1) |
| """ |
| When iterated to list |
| Then the result should be unordered |
| | result | |
| | e[marko-created->lop] | |
| | e[marko-knows->josh] | |
| | e[marko-knows->vadas] | |
| | e[peter-created->lop] | |
| | e[josh-created->lop] | |
| | e[josh-created->ripple] | |