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PowerToys/src/modules/fancyzones/FancyZonesTests/UnitTests/JsonHelpers.Tests.cpp
Seraphima Zykova 9e0781d86c [FancyZones Editor] UI fixes (#18966) 
* canvas scaling

* moved editor params saving

* show monitor size

* removed unused cmd args

* separate dpi unaware thread

* tests

* dpi unaware monitor size

* spell

* early return on editor params saving error

* show scaling value

* changed font
2022-06-29 16:39:03 +01:00

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41 KiB
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#include "pch.h"
#include <filesystem>
#include <fstream>
#include <utility>
#include <FancyZonesLib/FancyZonesData/AppZoneHistory.h>
#include <FancyZonesLib/FancyZonesData/LayoutDefaults.h>
#include <FancyZonesLib/FancyZonesDataTypes.h>
#include <FancyZonesLib/JsonHelpers.h>
#include <FancyZonesLib/util.h>
#include "util.h"
#include <CppUnitTestLogger.h>
using namespace JSONHelpers;
using namespace FancyZonesDataTypes;
using namespace FancyZonesUtils;
using namespace Microsoft::VisualStudio::CppUnitTestFramework;
namespace FancyZonesUnitTests
{
TEST_CLASS (IdValidationUnitTest)
{
TEST_METHOD (GuidValid)
{
const auto guidStr = Helpers::CreateGuidString();
Assert::IsTrue(IsValidGuid(guidStr));
}
TEST_METHOD (GuidInvalidForm)
{
const auto guidStr = L"33A2B101-06E0-437B-A61E-CDBECF502906";
Assert::IsFalse(IsValidGuid(guidStr));
}
TEST_METHOD (GuidInvalidSymbols)
{
const auto guidStr = L"{33A2B101-06E0-437B-A61E-CDBECF50290*}";
Assert::IsFalse(IsValidGuid(guidStr));
}
TEST_METHOD (GuidInvalid)
{
const auto guidStr = L"guid";
Assert::IsFalse(IsValidGuid(guidStr));
}
TEST_METHOD (DeviceId)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsTrue(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdWithoutHashInName)
{
const auto deviceId = L"LOCALDISPLAY_5120_1440_{00000000-0000-0000-0000-000000000000}";
Assert::IsTrue(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdWithoutHashInNameButWithUnderscores)
{
const auto deviceId = L"LOCAL_DISPLAY_5120_1440_{00000000-0000-0000-0000-000000000000}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdWithUnderscoresInName)
{
const auto deviceId = L"Default_Monitor#1&1f0c3c2f&0&UID256_5120_1440_{00000000-0000-0000-0000-000000000000}";
Assert::IsTrue(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidFormat)
{
const auto deviceId = L"_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidFormat2)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_19201200_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidDecimals)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_aaaa_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidDecimals2)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_19a0_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidDecimals3)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_1900_120000000000000_{39B25DD2-130D-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
TEST_METHOD (DeviceIdInvalidGuid)
{
const auto deviceId = L"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-4B5D-8851-4791D66B1539}";
Assert::IsFalse(BackwardsCompatibility::DeviceIdData::IsValidDeviceId(deviceId));
}
};
TEST_CLASS (ZoneSetLayoutTypeUnitTest)
{
TEST_METHOD (ZoneSetLayoutTypeToString)
{
std::map<int, std::wstring> expectedMap = {
std::make_pair(-2, L"TypeToString_ERROR"),
std::make_pair(-1, L"blank"),
std::make_pair(0, L"focus"),
std::make_pair(1, L"columns"),
std::make_pair(2, L"rows"),
std::make_pair(3, L"grid"),
std::make_pair(4, L"priority-grid"),
std::make_pair(5, L"custom"),
std::make_pair(6, L"TypeToString_ERROR"),
};
for (const auto& expected : expectedMap)
{
auto actual = FancyZonesDataTypes::TypeToString(static_cast<ZoneSetLayoutType>(expected.first));
Assert::AreEqual(expected.second, actual);
}
}
TEST_METHOD (ZoneSetLayoutTypeFromString)
{
std::map<ZoneSetLayoutType, std::wstring> expectedMap = {
std::make_pair(ZoneSetLayoutType::Focus, L"focus"),
std::make_pair(ZoneSetLayoutType::Columns, L"columns"),
std::make_pair(ZoneSetLayoutType::Rows, L"rows"),
std::make_pair(ZoneSetLayoutType::Grid, L"grid"),
std::make_pair(ZoneSetLayoutType::PriorityGrid, L"priority-grid"),
std::make_pair(ZoneSetLayoutType::Custom, L"custom"),
};
for (const auto& expected : expectedMap)
{
auto actual = FancyZonesDataTypes::TypeFromString(expected.second);
Assert::AreEqual(static_cast<int>(expected.first), static_cast<int>(actual));
}
}
};
TEST_CLASS (CanvasLayoutInfoUnitTests)
{
json::JsonObject m_json = json::JsonObject::Parse(L"{\"ref-width\": 123, \"ref-height\": 321, \"zones\": [{\"X\": 11, \"Y\": 22, \"width\": 33, \"height\": 44}, {\"X\": 55, \"Y\": 66, \"width\": 77, \"height\": 88}], \"sensitivity-radius\": 50}");
json::JsonObject m_jsonWithoutOptionalValues = json::JsonObject::Parse(L"{\"ref-width\": 123, \"ref-height\": 321, \"zones\": [{\"X\": 11, \"Y\": 22, \"width\": 33, \"height\": 44}, {\"X\": 55, \"Y\": 66, \"width\": 77, \"height\": 88}]}");
TEST_METHOD (ToJson)
{
CanvasLayoutInfo info;
info.lastWorkAreaWidth = 123;
info.lastWorkAreaHeight = 321;
info.zones = { CanvasLayoutInfo::Rect{ 11, 22, 33, 44 }, CanvasLayoutInfo::Rect{ 55, 66, 77, 88 } };
info.sensitivityRadius = 50;
auto actual = CanvasLayoutInfoJSON::ToJson(info);
auto res = CustomAssert::CompareJsonObjects(m_json, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (FromJson)
{
CanvasLayoutInfo expected;
expected.lastWorkAreaWidth = 123;
expected.lastWorkAreaHeight = 321;
expected.zones = { CanvasLayoutInfo::Rect{ 11, 22, 33, 44 }, CanvasLayoutInfo::Rect{ 55, 66, 77, 88 } };
expected.sensitivityRadius = 50;
auto actual = CanvasLayoutInfoJSON::FromJson(m_json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.lastWorkAreaHeight, actual->lastWorkAreaHeight);
Assert::AreEqual(expected.lastWorkAreaWidth, actual->lastWorkAreaWidth);
Assert::AreEqual(expected.zones.size(), actual->zones.size());
Assert::AreEqual(expected.sensitivityRadius, actual->sensitivityRadius);
for (int i = 0; i < expected.zones.size(); i++)
{
Assert::AreEqual(expected.zones[i].x, actual->zones[i].x);
Assert::AreEqual(expected.zones[i].y, actual->zones[i].y);
Assert::AreEqual(expected.zones[i].width, actual->zones[i].width);
Assert::AreEqual(expected.zones[i].height, actual->zones[i].height);
}
}
TEST_METHOD (FromJsonWithoutOptionalValues)
{
CanvasLayoutInfo expected;
expected.lastWorkAreaWidth = 123;
expected.lastWorkAreaHeight = 321;
expected.zones = { CanvasLayoutInfo::Rect{ 11, 22, 33, 44 }, CanvasLayoutInfo::Rect{ 55, 66, 77, 88 } };
auto actual = CanvasLayoutInfoJSON::FromJson(m_jsonWithoutOptionalValues);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.lastWorkAreaHeight, actual->lastWorkAreaHeight);
Assert::AreEqual(expected.lastWorkAreaWidth, actual->lastWorkAreaWidth);
Assert::AreEqual(expected.zones.size(), actual->zones.size());
Assert::AreEqual(DefaultValues::SensitivityRadius, actual->sensitivityRadius);
for (int i = 0; i < expected.zones.size(); i++)
{
Assert::AreEqual(expected.zones[i].x, actual->zones[i].x);
Assert::AreEqual(expected.zones[i].y, actual->zones[i].y);
Assert::AreEqual(expected.zones[i].width, actual->zones[i].width);
Assert::AreEqual(expected.zones[i].height, actual->zones[i].height);
}
}
TEST_METHOD (FromJsonMissingKeys)
{
CanvasLayoutInfo info{ 123, 321, { CanvasLayoutInfo::Rect{ 11, 22, 33, 44 }, CanvasLayoutInfo::Rect{ 55, 66, 77, 88 } }, 50 };
const auto json = CanvasLayoutInfoJSON::ToJson(info);
auto iter = json.First();
while (iter.HasCurrent())
{
json::JsonObject modifiedJson = json::JsonObject::Parse(json.Stringify());
modifiedJson.Remove(iter.Current().Key());
if (iter.Current().Key() == L"sensitivity-radius")
{
iter.MoveNext();
continue;
}
auto actual = CanvasLayoutInfoJSON::FromJson(modifiedJson);
Assert::IsFalse(actual.has_value());
iter.MoveNext();
}
}
TEST_METHOD (FromJsonInvalidTypes)
{
json::JsonObject m_json = json::JsonObject::Parse(L"{\"ref-width\": true, \"ref-height\": \"string\", \"zones\": [{\"X\": \"11\", \"Y\": \"22\", \"width\": \".\", \"height\": \"*\"}, {\"X\": null, \"Y\": {}, \"width\": [], \"height\": \"абвгд\"}]}");
Assert::IsFalse(CanvasLayoutInfoJSON::FromJson(m_json).has_value());
}
};
TEST_CLASS (GridLayoutInfoUnitTests)
{
GridLayoutInfo m_info = GridLayoutInfo(GridLayoutInfo::Minimal{ .rows = 3, .columns = 4 });
json::JsonObject m_gridJson = json::JsonObject();
json::JsonArray m_rowsArray, m_columnsArray, m_cells;
void compareSizes(int expectedRows, int expectedColumns, const GridLayoutInfo& actual)
{
Assert::AreEqual(expectedRows, actual.rows());
Assert::AreEqual(expectedColumns, actual.columns());
Assert::AreEqual((size_t)expectedRows, actual.rowsPercents().size());
Assert::AreEqual((size_t)expectedColumns, actual.columnsPercents().size());
Assert::AreEqual((size_t)expectedRows, actual.cellChildMap().size());
for (int i = 0; i < expectedRows; i++)
{
Assert::AreEqual((size_t)expectedColumns, actual.cellChildMap()[i].size());
}
}
void compareVectors(const std::vector<int>& expected, const std::vector<int>& actual)
{
Assert::AreEqual(expected.size(), actual.size());
for (int i = 0; i < expected.size(); i++)
{
Assert::AreEqual(expected[i], actual[i]);
}
}
void compareGridInfos(const GridLayoutInfo& expected, const GridLayoutInfo& actual)
{
compareSizes(expected.rows(), expected.columns(), actual);
compareVectors(expected.rowsPercents(), actual.rowsPercents());
compareVectors(expected.columnsPercents(), actual.columnsPercents());
for (int i = 0; i < expected.cellChildMap().size(); i++)
{
compareVectors(expected.cellChildMap()[i], actual.cellChildMap()[i]);
}
}
TEST_METHOD_INITIALIZE(Init)
{
m_info = GridLayoutInfo(GridLayoutInfo::Minimal{ .rows = 3, .columns = 4 });
for (int i = 0; i < m_info.rows(); i++)
{
int row = rand() % 100;
m_rowsArray.Append(json::JsonValue::CreateNumberValue(row));
m_info.rowsPercents()[i] = row;
}
for (int i = 0; i < m_info.columns(); i++)
{
int column = rand() % 100;
m_columnsArray.Append(json::JsonValue::CreateNumberValue(column));
m_info.columnsPercents()[i] = column;
}
for (int i = 0; i < m_info.rows(); i++)
{
json::JsonArray cellsArray;
for (int j = 0; j < m_info.columns(); j++)
{
int cell = rand() % 100;
m_info.cellChildMap()[i][j] = cell;
cellsArray.Append(json::JsonValue::CreateNumberValue(cell));
}
m_cells.Append(cellsArray);
}
m_gridJson = json::JsonObject::Parse(L"{\"rows\": 3, \"columns\": 4}");
m_gridJson.SetNamedValue(L"rows-percentage", m_rowsArray);
m_gridJson.SetNamedValue(L"columns-percentage", m_columnsArray);
m_gridJson.SetNamedValue(L"cell-child-map", m_cells);
}
TEST_METHOD_CLEANUP(Cleanup)
{
m_rowsArray.Clear();
m_cells.Clear();
m_columnsArray.Clear();
m_gridJson.Clear();
m_info = GridLayoutInfo(GridLayoutInfo::Minimal{ .rows = 3, .columns = 4 });
}
TEST_METHOD (CreationZero)
{
const int expectedRows = 0, expectedColumns = 0;
GridLayoutInfo info(GridLayoutInfo::Minimal{ .rows = expectedRows, .columns = expectedColumns });
compareSizes(expectedRows, expectedColumns, info);
}
TEST_METHOD (Creation)
{
const int expectedRows = 3, expectedColumns = 4;
const std::vector<int> expectedRowsPercents = { 0, 0, 0 };
const std::vector<int> expectedColumnsPercents = { 0, 0, 0, 0 };
GridLayoutInfo info(GridLayoutInfo::Minimal{ .rows = expectedRows, .columns = expectedColumns });
compareSizes(expectedRows, expectedColumns, info);
compareVectors(expectedRowsPercents, info.rowsPercents());
compareVectors(expectedColumnsPercents, info.columnsPercents());
for (int i = 0; i < info.cellChildMap().size(); i++)
{
compareVectors({ 0, 0, 0, 0 }, info.cellChildMap()[i]);
}
}
TEST_METHOD (CreationFull)
{
const int expectedRows = 3, expectedColumns = 4;
const std::vector<int> expectedRowsPercents = { 1, 2, 3 };
const std::vector<int> expectedColumnsPercents = { 4, 3, 2, 1 };
const std::vector<std::vector<int>> expectedCells = { expectedColumnsPercents, expectedColumnsPercents, expectedColumnsPercents };
GridLayoutInfo info(GridLayoutInfo::Full{
.rows = expectedRows,
.columns = expectedColumns,
.rowsPercents = expectedRowsPercents,
.columnsPercents = expectedColumnsPercents,
.cellChildMap = expectedCells });
compareSizes(expectedRows, expectedColumns, info);
compareVectors(expectedRowsPercents, info.rowsPercents());
compareVectors(expectedColumnsPercents, info.columnsPercents());
for (int i = 0; i < info.cellChildMap().size(); i++)
{
compareVectors(expectedCells[i], info.cellChildMap()[i]);
}
}
TEST_METHOD (CreationFullVectorsSmaller)
{
const int expectedRows = 3, expectedColumns = 4;
const std::vector<int> expectedRowsPercents = { 1, 2, 0 };
const std::vector<int> expectedColumnsPercents = { 4, 3, 0, 0 };
const std::vector<std::vector<int>> expectedCells = { { 0, 0, 0, 0 }, { 1, 0, 0, 0 }, { 1, 2, 0, 0 } };
GridLayoutInfo info(GridLayoutInfo::Full{
.rows = expectedRows,
.columns = expectedColumns,
.rowsPercents = { 1, 2 },
.columnsPercents = { 4, 3 },
.cellChildMap = { {}, { 1 }, { 1, 2 } } });
compareSizes(expectedRows, expectedColumns, info);
compareVectors(expectedRowsPercents, info.rowsPercents());
compareVectors(expectedColumnsPercents, info.columnsPercents());
for (int i = 0; i < info.cellChildMap().size(); i++)
{
compareVectors(expectedCells[i], info.cellChildMap()[i]);
}
}
TEST_METHOD (CreationFullVectorsBigger)
{
const int expectedRows = 3, expectedColumns = 4;
const std::vector<int> expectedRowsPercents = { 1, 2, 3 };
const std::vector<int> expectedColumnsPercents = { 4, 3, 2, 1 };
const std::vector<std::vector<int>> expectedCells = { expectedColumnsPercents, expectedColumnsPercents, expectedColumnsPercents };
GridLayoutInfo info(GridLayoutInfo::Full{
.rows = expectedRows,
.columns = expectedColumns,
.rowsPercents = { 1, 2, 3, 4, 5 },
.columnsPercents = { 4, 3, 2, 1, 0, -1 },
.cellChildMap = { { 4, 3, 2, 1, 0, -1 }, { 4, 3, 2, 1, 0, -1 }, { 4, 3, 2, 1, 0, -1 } } });
compareSizes(expectedRows, expectedColumns, info);
compareVectors(expectedRowsPercents, info.rowsPercents());
compareVectors(expectedColumnsPercents, info.columnsPercents());
for (int i = 0; i < info.cellChildMap().size(); i++)
{
compareVectors(expectedCells[i], info.cellChildMap()[i]);
}
}
TEST_METHOD (ToJson)
{
json::JsonObject expected = json::JsonObject(m_gridJson);
GridLayoutInfo info = m_info;
auto actual = GridLayoutInfoJSON::ToJson(info);
auto res = CustomAssert::CompareJsonObjects(expected, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (ToJsonWithOptionals)
{
json::JsonObject expected = json::JsonObject();
expected = json::JsonObject::Parse(L"{\"rows\": 3, \"columns\": 4}");
expected.SetNamedValue(L"rows-percentage", m_rowsArray);
expected.SetNamedValue(L"columns-percentage", m_columnsArray);
expected.SetNamedValue(L"cell-child-map", m_cells);
expected.SetNamedValue(L"show-spacing", json::value(true));
expected.SetNamedValue(L"spacing", json::value(99));
expected.SetNamedValue(L"sensitivity-radius", json::value(55));
GridLayoutInfo info = m_info;
info.m_sensitivityRadius = 55;
info.m_showSpacing = true;
info.m_spacing = 99;
auto actual = GridLayoutInfoJSON::ToJson(info);
auto res = CustomAssert::CompareJsonObjects(expected, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (FromJson)
{
json::JsonObject json = json::JsonObject(m_gridJson);
GridLayoutInfo expected = m_info;
auto actual = GridLayoutInfoJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
compareGridInfos(expected, *actual);
}
TEST_METHOD (FromJsonEmptyArray)
{
json::JsonObject json = json::JsonObject::Parse(L"{\"rows\": 0, \"columns\": 0}");
GridLayoutInfo expected(GridLayoutInfo::Minimal{ 0, 0 });
json.SetNamedValue(L"rows-percentage", json::JsonArray());
json.SetNamedValue(L"columns-percentage", json::JsonArray());
json.SetNamedValue(L"cell-child-map", json::JsonArray());
auto actual = GridLayoutInfoJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
compareGridInfos(expected, *actual);
}
TEST_METHOD (FromJsonSmallerArray)
{
GridLayoutInfo expected = m_info;
expected.rowsPercents().pop_back();
expected.columnsPercents().pop_back();
expected.cellChildMap().pop_back();
expected.cellChildMap()[0].pop_back();
json::JsonObject json = GridLayoutInfoJSON::ToJson(expected);
auto actual = GridLayoutInfoJSON::FromJson(json);
Assert::IsFalse(actual.has_value());
}
TEST_METHOD (FromJsonBiggerArray)
{
GridLayoutInfo expected = m_info;
//extra
for (int i = 0; i < 5; i++)
{
expected.rowsPercents().push_back(rand() % 100);
expected.columnsPercents().push_back(rand() % 100);
expected.cellChildMap().push_back({});
for (int j = 0; j < 5; j++)
{
expected.cellChildMap()[i].push_back(rand() % 100);
}
}
auto json = GridLayoutInfoJSON::ToJson(expected);
auto actual = GridLayoutInfoJSON::FromJson(json);
Assert::IsFalse(actual.has_value());
}
TEST_METHOD (FromJsonMissingKeys)
{
GridLayoutInfo info = m_info;
const auto json = json::JsonObject(m_gridJson);
auto iter = json.First();
while (iter.HasCurrent())
{
json::JsonObject modifiedJson = json::JsonObject::Parse(json.Stringify());
modifiedJson.Remove(iter.Current().Key());
auto actual = GridLayoutInfoJSON::FromJson(modifiedJson);
Assert::IsFalse(actual.has_value());
iter.MoveNext();
}
}
TEST_METHOD(FromJsonWithOptionals)
{
json::JsonObject json = json::JsonObject();
json = json::JsonObject::Parse(L"{\"rows\": 3, \"columns\": 4}");
json.SetNamedValue(L"rows-percentage", m_rowsArray);
json.SetNamedValue(L"columns-percentage", m_columnsArray);
json.SetNamedValue(L"cell-child-map", m_cells);
json.SetNamedValue(L"show-spacing", json::value(true));
json.SetNamedValue(L"spacing", json::value(99));
json.SetNamedValue(L"sensitivity-radius", json::value(55));
GridLayoutInfo expected = m_info;
expected.m_sensitivityRadius = 55;
expected.m_showSpacing = true;
expected.m_spacing = 99;
auto actual = GridLayoutInfoJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
compareGridInfos(expected, *actual);
}
TEST_METHOD (FromJsonInvalidTypes)
{
json::JsonObject gridJson = json::JsonObject::Parse(L"{\"rows\": \"три\", \"columns\": \"четыре\"}");
Assert::IsFalse(GridLayoutInfoJSON::FromJson(gridJson).has_value());
}
};
TEST_CLASS (CustomZoneSetUnitTests)
{
TEST_METHOD (ToJsonGrid)
{
CustomZoneSetJSON zoneSet{ L"uuid", CustomLayoutData{ L"name", CustomLayoutType::Grid, GridLayoutInfo(GridLayoutInfo::Minimal{}) } };
json::JsonObject expected = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"name\": \"name\", \"type\": \"grid\"}");
expected.SetNamedValue(L"info", GridLayoutInfoJSON::ToJson(std::get<GridLayoutInfo>(zoneSet.data.info)));
auto actual = CustomZoneSetJSON::ToJson(zoneSet);
auto res = CustomAssert::CompareJsonObjects(expected, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (ToJsonCanvas)
{
CustomZoneSetJSON zoneSet{ L"uuid", CustomLayoutData{ L"name", CustomLayoutType::Canvas, CanvasLayoutInfo{} } };
json::JsonObject expected = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"name\": \"name\", \"type\": \"canvas\"}");
expected.SetNamedValue(L"info", CanvasLayoutInfoJSON::ToJson(std::get<CanvasLayoutInfo>(zoneSet.data.info)));
auto actual = CustomZoneSetJSON::ToJson(zoneSet);
auto res = CustomAssert::CompareJsonObjects(expected, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (FromJsonGrid)
{
const auto grid = GridLayoutInfo(GridLayoutInfo::Full{ 1, 3, { 10000 }, { 2500, 5000, 2500 }, { { 0, 1, 2 } } });
CustomZoneSetJSON expected{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", CustomLayoutData{ L"name", CustomLayoutType::Grid, grid } };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"name\": \"name\", \"type\": \"grid\"}");
json.SetNamedValue(L"info", GridLayoutInfoJSON::ToJson(std::get<GridLayoutInfo>(expected.data.info)));
auto actual = CustomZoneSetJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.uuid.c_str(), actual->uuid.c_str());
Assert::AreEqual(expected.data.name.c_str(), actual->data.name.c_str());
Assert::AreEqual((int)expected.data.type, (int)actual->data.type);
auto expectedGrid = std::get<GridLayoutInfo>(expected.data.info);
auto actualGrid = std::get<GridLayoutInfo>(actual->data.info);
Assert::AreEqual(expectedGrid.rows(), actualGrid.rows());
Assert::AreEqual(expectedGrid.columns(), actualGrid.columns());
}
TEST_METHOD (FromJsonCanvas)
{
CustomZoneSetJSON expected{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", CustomLayoutData{ L"name", CustomLayoutType::Canvas, CanvasLayoutInfo{ 2, 1 } } };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"name\": \"name\", \"type\": \"canvas\"}");
json.SetNamedValue(L"info", CanvasLayoutInfoJSON::ToJson(std::get<CanvasLayoutInfo>(expected.data.info)));
auto actual = CustomZoneSetJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.uuid.c_str(), actual->uuid.c_str());
Assert::AreEqual(expected.data.name.c_str(), actual->data.name.c_str());
Assert::AreEqual((int)expected.data.type, (int)actual->data.type);
auto expectedGrid = std::get<CanvasLayoutInfo>(expected.data.info);
auto actualGrid = std::get<CanvasLayoutInfo>(actual->data.info);
Assert::AreEqual(expectedGrid.lastWorkAreaWidth, actualGrid.lastWorkAreaWidth);
Assert::AreEqual(expectedGrid.lastWorkAreaHeight, actualGrid.lastWorkAreaHeight);
}
TEST_METHOD (FromJsonGridInvalidUuid)
{
const auto grid = GridLayoutInfo(GridLayoutInfo::Full{ 1, 3, { 10000 }, { 2500, 5000, 2500 }, { { 0, 1, 2 } } });
CustomZoneSetJSON expected{ L"uuid", CustomLayoutData{ L"name", CustomLayoutType::Grid, grid } };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"name\": \"name\", \"type\": \"grid\"}");
json.SetNamedValue(L"info", GridLayoutInfoJSON::ToJson(std::get<GridLayoutInfo>(expected.data.info)));
auto actual = CustomZoneSetJSON::FromJson(json);
Assert::IsFalse(actual.has_value());
}
TEST_METHOD (FromJsonCanvasInvalidUuid)
{
CustomZoneSetJSON expected{ L"uuid", CustomLayoutData{ L"name", CustomLayoutType::Canvas, CanvasLayoutInfo{ 2, 1 } } };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"name\": \"name\", \"type\": \"canvas\"}");
json.SetNamedValue(L"info", CanvasLayoutInfoJSON::ToJson(std::get<CanvasLayoutInfo>(expected.data.info)));
auto actual = CustomZoneSetJSON::FromJson(json);
Assert::IsFalse(actual.has_value());
}
TEST_METHOD (FromJsonMissingKeys)
{
CustomZoneSetJSON zoneSet{ L"uuid", CustomLayoutData{ L"name", CustomLayoutType::Canvas, CanvasLayoutInfo{ 2, 1 } } };
const auto json = CustomZoneSetJSON::ToJson(zoneSet);
auto iter = json.First();
while (iter.HasCurrent())
{
json::JsonObject modifiedJson = json::JsonObject::Parse(json.Stringify());
modifiedJson.Remove(iter.Current().Key());
auto actual = CustomZoneSetJSON::FromJson(modifiedJson);
Assert::IsFalse(actual.has_value());
iter.MoveNext();
}
}
TEST_METHOD (FromJsonInvalidTypes)
{
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": null, \"name\": \"имя\", \"type\": true}");
Assert::IsFalse(CustomZoneSetJSON::FromJson(json).has_value());
json = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"name\": \"name\", \"type\": \"unknown type\"}");
Assert::IsFalse(CustomZoneSetJSON::FromJson(json).has_value());
}
};
TEST_CLASS (ZoneSetDataUnitTest)
{
TEST_METHOD (ToJsonGeneral)
{
json::JsonObject expected = json::JsonObject::Parse(L"{\"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"type\": \"rows\"}");
ZoneSetData data{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", ZoneSetLayoutType::Rows };
const auto actual = ZoneSetDataJSON::ToJson(data);
auto res = CustomAssert::CompareJsonObjects(expected, actual);
Assert::IsTrue(res.first, res.second.c_str());
}
TEST_METHOD (FromJsonGeneral)
{
ZoneSetData expected{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", ZoneSetLayoutType::Columns };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"type\": \"columns\"}");
auto actual = ZoneSetDataJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.uuid.c_str(), actual->uuid.c_str());
Assert::AreEqual((int)expected.type, (int)actual->type);
}
TEST_METHOD (FromJsonTypeInvalid)
{
ZoneSetData expected{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", ZoneSetLayoutType::Blank };
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"type\": \"invalid_type\"}");
auto actual = ZoneSetDataJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(expected.uuid.c_str(), actual->uuid.c_str());
Assert::AreEqual((int)expected.type, (int)actual->type);
}
TEST_METHOD (FromJsonUuidInvalid)
{
json::JsonObject json = json::JsonObject::Parse(L"{\"uuid\": \"uuid\", \"type\": \"invalid_type\"}");
auto actual = ZoneSetDataJSON::FromJson(json);
Assert::IsFalse(actual.has_value());
}
TEST_METHOD (FromJsonMissingKeys)
{
ZoneSetData data{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", ZoneSetLayoutType::Columns };
const auto json = ZoneSetDataJSON::ToJson(data);
auto iter = json.First();
while (iter.HasCurrent())
{
json::JsonObject modifiedJson = json::JsonObject::Parse(json.Stringify());
modifiedJson.Remove(iter.Current().Key());
auto actual = ZoneSetDataJSON::FromJson(modifiedJson);
Assert::IsFalse(actual.has_value());
iter.MoveNext();
}
}
};
TEST_CLASS (DeviceInfoUnitTests)
{
private:
FancyZonesDataTypes::DeviceIdData m_defaultDeviceId{ .deviceName = L"AOC2460#4&fe3a015&0&UID65793", .virtualDesktopId = FancyZonesUtils::GuidFromString(L"{33A2B101-06E0-437B-A61E-CDBECF502907}").value() };
DeviceInfoJSON m_defaultDeviceInfo = DeviceInfoJSON{ BackwardsCompatibility::DeviceIdData::ParseDeviceId(L"AOC2460#4&fe3a015&0&UID65793_1920_1080_{33A2B101-06E0-437B-A61E-CDBECF502907}").value(), DeviceInfoData{ ZoneSetData{ L"{33A2B101-06E0-437B-A61E-CDBECF502906}", ZoneSetLayoutType::Custom }, true, 16, 3 } };
json::JsonObject m_defaultJson = json::JsonObject::Parse(L"{\"device-id\": \"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}\", \"active-zoneset\": {\"type\": \"custom\", \"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\"}, \"editor-show-spacing\": true, \"editor-spacing\": 16, \"editor-zone-count\": 3}");
TEST_METHOD_INITIALIZE(Init)
{
CLSIDFromString(L"{39B25DD2-130D-4B5D-8851-4791D66B1539}", &m_defaultDeviceId.virtualDesktopId);
}
public:
TEST_METHOD (FromJson)
{
DeviceInfoJSON expected = m_defaultDeviceInfo;
expected.data.spacing = true;
json::JsonObject json = json::JsonObject::Parse(L"{\"device-id\":\"AOC2460#4&fe3a015&0&UID65793_1920_1080_{33A2B101-06E0-437B-A61E-CDBECF502907}\",\"active-zoneset\":{\"uuid\":\"{33A2B101-06E0-437B-A61E-CDBECF502906}\",\"type\":\"custom\"},\"editor-show-spacing\":true,\"editor-spacing\":16,\"editor-zone-count\":3, \"sensitivity-radius\":20}");
auto actual = DeviceInfoJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::IsTrue(expected.deviceId == actual->deviceId);
Assert::AreEqual(expected.data.zoneCount, actual->data.zoneCount, L"zone count");
Assert::AreEqual((int)expected.data.activeZoneSet.type, (int)actual->data.activeZoneSet.type, L"zone set type");
Assert::AreEqual(expected.data.activeZoneSet.uuid.c_str(), actual->data.activeZoneSet.uuid.c_str(), L"zone set uuid");
}
TEST_METHOD (FromJsonMissingSensitivityRadiusUsesDefault)
{
//json without "editor-sensitivity-radius"
json::JsonObject json = json::JsonObject::Parse(L"{\"device-id\":\"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}\",\"active-zoneset\":{\"uuid\":\"{33A2B101-06E0-437B-A61E-CDBECF502906}\",\"type\":\"custom\"},\"editor-show-spacing\":true,\"editor-spacing\":16,\"editor-zone-count\":3}");
auto actual = DeviceInfoJSON::FromJson(json);
Assert::IsTrue(actual.has_value());
Assert::AreEqual(DefaultValues::SensitivityRadius, actual->data.sensitivityRadius);
}
TEST_METHOD (FromJsonInvalid)
{
json::JsonObject json = json::JsonObject::Parse(L"{\"device-id\": true, \"active-zoneset\": {\"type\": \"custom\", \"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\"}, \"editor-show-spacing\": true, \"editor-spacing\": 16, \"editor-zone-count\": 3}");
Assert::IsFalse(DeviceInfoJSON::FromJson(json).has_value());
}
};
TEST_CLASS (FancyZonesDataUnitTests)
{
private:
const std::wstring_view m_moduleName = L"FancyZonesUnitTests";
const std::wstring m_defaultCustomDeviceStr = L"{\"device-id\": \"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}\", \"active-zoneset\": {\"type\": \"custom\", \"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\"}, \"editor-show-spacing\": true, \"editor-spacing\": 16, \"editor-zone-count\": 3}";
const std::wstring m_defaultCustomLayoutStr = L"{\"device-id\": \"AOC2460#4&fe3a015&0&UID65793_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}\", \"applied-layout\": {\"type\": \"custom\", \"uuid\": \"{33A2B101-06E0-437B-A61E-CDBECF502906}\", \"show-spacing\": true, \"spacing\": 16, \"zone-count\": 3, \"sensitivity-radius\": 30}}";
const json::JsonValue m_defaultCustomDeviceValue = json::JsonValue::Parse(m_defaultCustomDeviceStr);
const FancyZonesDataTypes::DeviceIdData m_defaultDeviceId = FancyZonesDataTypes::DeviceIdData{ .deviceName = L"AOC2460#4&fe3a015&0&UID65793", .virtualDesktopId = FancyZonesUtils::GuidFromString(L"{39B25DD2-130D-4B5D-8851-4791D66B1539}").value() };
TEST_METHOD_INITIALIZE(Init)
{
std::filesystem::remove_all(PTSettingsHelper::get_module_save_folder_location(m_moduleName));
}
TEST_METHOD_CLEANUP(CleanUp)
{
std::filesystem::remove_all(PTSettingsHelper::get_module_save_folder_location(m_moduleName));
std::filesystem::remove_all(AppZoneHistory::AppZoneHistoryFileName());
}
public:
TEST_METHOD (FancyZonesDataDeviceInfoMapParseEmpty)
{
json::JsonObject deviceInfoJson;
const auto& deviceInfoMap = ParseDeviceInfos(deviceInfoJson);
Assert::IsFalse(deviceInfoMap.has_value());
}
TEST_METHOD (FancyZonesDataDeviceInfoMapParseValidEmpty)
{
json::JsonObject deviceInfoJson;
json::JsonArray zoneSets;
deviceInfoJson.SetNamedValue(L"devices", zoneSets);
const auto& deviceInfoMap = ParseDeviceInfos(deviceInfoJson);
Assert::IsTrue(deviceInfoMap.has_value());
Assert::IsTrue(deviceInfoMap->empty());
}
TEST_METHOD (FancyZonesDataDeviceInfoMapParseValidAndInvalid)
{
json::JsonArray devices;
devices.Append(json::JsonObject::Parse(m_defaultCustomDeviceStr));
devices.Append(json::JsonObject::Parse(L"{\"device-id\": \"device_id\"}"));
json::JsonObject deviceInfoJson;
deviceInfoJson.SetNamedValue(L"devices", devices);
const auto& deviceInfoMap = ParseDeviceInfos(deviceInfoJson);
Assert::AreEqual((size_t)1, deviceInfoMap->size());
}
TEST_METHOD (FancyZonesDataDeviceInfoMapParseInvalid)
{
json::JsonArray devices;
devices.Append(json::JsonObject::Parse(L"{\"device-id\": \"device_id\"}"));
json::JsonObject deviceInfoJson;
deviceInfoJson.SetNamedValue(L"devices", devices);
const auto& deviceInfoMap = ParseDeviceInfos(deviceInfoJson);
Assert::IsTrue(deviceInfoMap->empty());
}
TEST_METHOD (FancyZonesDataDeviceInfoMapParseSingle)
{
json::JsonArray devices;
devices.Append(m_defaultCustomDeviceValue);
json::JsonObject deviceInfoJson;
deviceInfoJson.SetNamedValue(L"devices", devices);
const auto& deviceInfoMap = ParseDeviceInfos(deviceInfoJson);
Assert::AreEqual((size_t)1, deviceInfoMap->size());
}
TEST_METHOD (FancyZonesDataDeviceInfoMapParseMany)
{
json::JsonArray devices;
for (int i = 0; i < 10; i++)
{
json::JsonObject obj = json::JsonObject::Parse(m_defaultCustomDeviceStr);
obj.SetNamedValue(L"device-id", json::JsonValue::CreateStringValue(std::to_wstring(i) + L"_1920_1200_{39B25DD2-130D-4B5D-8851-4791D66B1539}"));
devices.Append(obj);
}
json::JsonObject expected;
expected.SetNamedValue(L"devices", devices);
Logger::WriteMessage(expected.Stringify().c_str());
Logger::WriteMessage("\n");
const auto& deviceInfoMap = ParseDeviceInfos(expected);
Assert::AreEqual((size_t)10, deviceInfoMap->size());
}
};
}
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