Campbell Barton
c434782e3a
Use a shorter/simpler license convention, stops the header taking so much space. Follow the SPDX license specification: https://spdx.org/licenses - C/C++/objc/objc++ - Python - Shell Scripts - CMake, GNUmakefile While most of the source tree has been included - `./extern/` was left out. - `./intern/cycles` & `./intern/atomic` are also excluded because they use different header conventions. doc/license/SPDX-license-identifiers.txt has been added to list SPDX all used identifiers. See P2788 for the script that automated these edits. Reviewed By: brecht, mont29, sergey Ref D14069
219 lines
7.2 KiB
C++
219 lines
7.2 KiB
C++
/* SPDX-License-Identifier: GPL-2.0-or-later
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* Copyright 2019 Blender Foundation. All rights reserved. */
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#include "IO_abstract_hierarchy_iterator.h"
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#include "testing/testing.h"
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#include "BLI_utildefines.h"
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#include <climits>
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namespace blender::io {
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namespace {
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/* Return object pointer for use in tests. This makes it possible to reliably test for
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* order/equality functions while using hard-coded values for simplicity. */
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Object *fake_pointer(int value)
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{
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return static_cast<Object *>(POINTER_FROM_INT(value));
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}
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/* PersistentID subclass for use in tests, making it easier to construct test values. */
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class TestPersistentID : public PersistentID {
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public:
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TestPersistentID(int value0,
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int value1,
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int value2,
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int value3,
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int value4,
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int value5,
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int value6,
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int value7)
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{
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persistent_id_[0] = value0;
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persistent_id_[1] = value1;
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persistent_id_[2] = value2;
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persistent_id_[3] = value3;
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persistent_id_[4] = value4;
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persistent_id_[5] = value5;
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persistent_id_[6] = value6;
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persistent_id_[7] = value7;
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}
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TestPersistentID(int value0, int value1, int value2)
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: TestPersistentID(value0, value1, value2, INT_MAX, INT_MAX, INT_MAX, INT_MAX, INT_MAX)
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{
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}
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TestPersistentID(int value0, int value1) : TestPersistentID(value0, value1, INT_MAX)
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{
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}
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explicit TestPersistentID(int value0) : TestPersistentID(value0, INT_MAX)
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{
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}
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};
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/* ObjectIdentifier subclass for use in tests, making it easier to construct test values. */
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class TestObjectIdentifier : public ObjectIdentifier {
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public:
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TestObjectIdentifier(Object *object, Object *duplicated_by, const PersistentID &persistent_id)
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: ObjectIdentifier(object, duplicated_by, persistent_id)
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{
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}
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};
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} // namespace
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class ObjectIdentifierOrderTest : public testing::Test {
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};
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TEST_F(ObjectIdentifierOrderTest, graph_root)
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{
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ObjectIdentifier id_root_1 = ObjectIdentifier::for_graph_root();
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ObjectIdentifier id_root_2 = ObjectIdentifier::for_graph_root();
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EXPECT_TRUE(id_root_1 == id_root_2);
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EXPECT_FALSE(id_root_1 < id_root_2);
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EXPECT_FALSE(id_root_2 < id_root_1);
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ObjectIdentifier id_a = ObjectIdentifier::for_real_object(fake_pointer(1));
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EXPECT_FALSE(id_root_1 == id_a);
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EXPECT_TRUE(id_root_1 < id_a);
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EXPECT_FALSE(id_a < id_root_1);
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ObjectIdentifier id_accidental_root = ObjectIdentifier::for_real_object(nullptr);
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EXPECT_TRUE(id_root_1 == id_accidental_root);
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EXPECT_FALSE(id_root_1 < id_accidental_root);
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EXPECT_FALSE(id_accidental_root < id_root_1);
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}
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TEST_F(ObjectIdentifierOrderTest, real_objects)
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{
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ObjectIdentifier id_a = ObjectIdentifier::for_real_object(fake_pointer(1));
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ObjectIdentifier id_b = ObjectIdentifier::for_real_object(fake_pointer(2));
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EXPECT_FALSE(id_a == id_b);
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EXPECT_TRUE(id_a < id_b);
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}
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TEST_F(ObjectIdentifierOrderTest, duplicated_objects)
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{
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ObjectIdentifier id_real_a = ObjectIdentifier::for_real_object(fake_pointer(1));
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TestObjectIdentifier id_dupli_a(fake_pointer(1), fake_pointer(2), TestPersistentID(0));
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TestObjectIdentifier id_dupli_b(fake_pointer(1), fake_pointer(3), TestPersistentID(0));
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TestObjectIdentifier id_different_dupli_b(fake_pointer(1), fake_pointer(3), TestPersistentID(1));
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EXPECT_FALSE(id_real_a == id_dupli_a);
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EXPECT_FALSE(id_dupli_a == id_dupli_b);
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EXPECT_TRUE(id_real_a < id_dupli_a);
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EXPECT_TRUE(id_real_a < id_dupli_b);
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EXPECT_TRUE(id_dupli_a < id_dupli_b);
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EXPECT_TRUE(id_dupli_a < id_different_dupli_b);
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EXPECT_FALSE(id_dupli_b == id_different_dupli_b);
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EXPECT_FALSE(id_dupli_a == id_different_dupli_b);
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EXPECT_TRUE(id_dupli_b < id_different_dupli_b);
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EXPECT_FALSE(id_different_dupli_b < id_dupli_b);
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}
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TEST_F(ObjectIdentifierOrderTest, behavior_as_map_keys)
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{
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ObjectIdentifier id_root = ObjectIdentifier::for_graph_root();
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ObjectIdentifier id_another_root = ObjectIdentifier::for_graph_root();
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ObjectIdentifier id_real_a = ObjectIdentifier::for_real_object(fake_pointer(1));
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TestObjectIdentifier id_dupli_a(fake_pointer(1), fake_pointer(2), TestPersistentID(0));
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TestObjectIdentifier id_dupli_b(fake_pointer(1), fake_pointer(3), TestPersistentID(0));
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AbstractHierarchyIterator::ExportGraph graph;
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/* This inserts the keys with default values. */
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graph[id_root];
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graph[id_real_a];
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graph[id_dupli_a];
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graph[id_dupli_b];
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graph[id_another_root];
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EXPECT_EQ(4, graph.size());
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graph.erase(id_another_root);
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EXPECT_EQ(3, graph.size());
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TestObjectIdentifier id_another_dupli_b(fake_pointer(1), fake_pointer(3), TestPersistentID(0));
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graph.erase(id_another_dupli_b);
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EXPECT_EQ(2, graph.size());
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}
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TEST_F(ObjectIdentifierOrderTest, map_copy_and_update)
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{
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ObjectIdentifier id_root = ObjectIdentifier::for_graph_root();
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ObjectIdentifier id_real_a = ObjectIdentifier::for_real_object(fake_pointer(1));
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TestObjectIdentifier id_dupli_a(fake_pointer(1), fake_pointer(2), TestPersistentID(0));
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TestObjectIdentifier id_dupli_b(fake_pointer(1), fake_pointer(3), TestPersistentID(0));
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TestObjectIdentifier id_dupli_c(fake_pointer(1), fake_pointer(3), TestPersistentID(1));
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AbstractHierarchyIterator::ExportGraph graph;
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/* This inserts the keys with default values. */
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graph[id_root];
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graph[id_real_a];
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graph[id_dupli_a];
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graph[id_dupli_b];
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graph[id_dupli_c];
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EXPECT_EQ(5, graph.size());
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AbstractHierarchyIterator::ExportGraph graph_copy = graph;
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EXPECT_EQ(5, graph_copy.size());
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/* Updating a value in a copy should not update the original. */
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HierarchyContext ctx1;
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HierarchyContext ctx2;
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ctx1.object = fake_pointer(1);
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ctx2.object = fake_pointer(2);
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graph_copy[id_root].insert(&ctx1);
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EXPECT_EQ(0, graph[id_root].size());
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/* Deleting a key in the copy should not update the original. */
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graph_copy.erase(id_dupli_c);
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EXPECT_EQ(4, graph_copy.size());
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EXPECT_EQ(5, graph.size());
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}
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class PersistentIDTest : public testing::Test {
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};
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TEST_F(PersistentIDTest, is_from_same_instancer)
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{
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PersistentID child_id_a = TestPersistentID(42, 327);
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PersistentID child_id_b = TestPersistentID(17, 327);
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PersistentID child_id_c = TestPersistentID(17);
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EXPECT_TRUE(child_id_a.is_from_same_instancer_as(child_id_b));
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EXPECT_FALSE(child_id_a.is_from_same_instancer_as(child_id_c));
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}
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TEST_F(PersistentIDTest, instancer_id)
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{
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PersistentID child_id = TestPersistentID(42, 327);
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PersistentID expect_instancer_id = TestPersistentID(327);
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EXPECT_EQ(expect_instancer_id, child_id.instancer_pid());
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PersistentID empty_id;
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EXPECT_EQ(empty_id, child_id.instancer_pid().instancer_pid());
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EXPECT_LT(child_id, expect_instancer_id);
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EXPECT_LT(expect_instancer_id, empty_id);
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}
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TEST_F(PersistentIDTest, as_object_name_suffix)
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{
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EXPECT_EQ("", PersistentID().as_object_name_suffix());
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EXPECT_EQ("47", TestPersistentID(47).as_object_name_suffix());
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EXPECT_EQ("327-47", TestPersistentID(47, 327).as_object_name_suffix());
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EXPECT_EQ("42-327-47", TestPersistentID(47, 327, 42).as_object_name_suffix());
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EXPECT_EQ("7-6-5-4-3-2-1-0", TestPersistentID(0, 1, 2, 3, 4, 5, 6, 7).as_object_name_suffix());
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EXPECT_EQ("0-0-0", TestPersistentID(0, 0, 0).as_object_name_suffix());
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EXPECT_EQ("0-0", TestPersistentID(0, 0).as_object_name_suffix());
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EXPECT_EQ("-3--2--1", TestPersistentID(-1, -2, -3).as_object_name_suffix());
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}
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} // namespace blender::io
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