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add loading LightProject from JSON

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This commit is contained in:
Michael Ehrenreich
2023-02-20 03:00:30 +01:00
parent 62ca7647c3
commit 7ef15472d9
3 changed files with 251 additions and 0 deletions
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1
CMakeLists.txt
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@@ -21,6 +21,7 @@ qt_add_executable(applightcontrol
registergroupsmodel.h registergroupsmodel.cpp registergroupsmodel.h registergroupsmodel.cpp
deviceregistervaluehelper.h deviceregistervaluehelper.cpp deviceregistervaluehelper.h deviceregistervaluehelper.cpp
registergroupmodel.h registergroupmodel.cpp registergroupmodel.h registergroupmodel.cpp
projectloader.h projectloader.cpp
) )
qt_add_qml_module(applightcontrol qt_add_qml_module(applightcontrol

1
projectloader.cpp Normal file
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@@ -0,0 +1 @@
#include "projectloader.h"

249
projectloader.h Normal file
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@@ -0,0 +1,249 @@
#ifndef PROJECTLOADER_H
#define PROJECTLOADER_H
#include <expected>
#include <vector>
#include <QJsonArray>
#include <QJsonObject>
#include "lightproject.h"
namespace ProjectLoader {
namespace {
namespace detail {
template<typename Test, template<typename...> class Ref>
struct is_specialization_t : std::false_type {};
template<template<typename...> class Ref, typename... Args>
struct is_specialization_t<Ref<Args...>, Ref>: std::true_type {};
// broken
//template<typename ...T>
//constexpr bool is_specialization_v = is_specialization_t<T...>::value;
template<typename T>
concept Listific = is_specialization_t<T, std::list>::value ||
is_specialization_t<T, std::vector>::value ||
std::same_as<T, DeviceTypesContainer> ||
std::same_as<T, DevicesContainer> ||
std::same_as<T, RegisterGroupsContainer>;
template<typename T>
concept OtherLoadableFromArray = std::same_as<T, QVector3D>;
template<typename T>
concept LoadableFromArray = Listific<T> || OtherLoadableFromArray<T>;
template<typename T>
concept LoadableFromObject = std::same_as<T, LightProject> ||
std::same_as<T, DeviceConfig> ||
std::same_as<T, DeviceTypeConfig> ||
std::same_as<T, DeviceTypeRegisterConfig> ||
std::same_as<T, RegisterGroupConfig>;
template<typename T>
concept JsonNumber = (std::integral<T> && !std::same_as<T, bool> && !std::is_enum_v<T>) ||
std::floating_point<T>;
}
template <detail::LoadableFromArray T>
std::expected<T, QString> load(const QJsonValue &json) {
if (!json.isArray())
return std::unexpected("Not a JSON array");
return load<T>(json.toArray());
}
template <detail::LoadableFromObject T>
std::expected<T, QString> load(const QJsonValue &json) {
if (!json.isObject())
return std::unexpected("Not a JSON object");
return load<T>(json.toObject());
}
template<detail::Listific T>
std::expected<T, QString> load(const QJsonArray &json) {
T result;
for (size_t i = 0; i < json.size(); i++) {
auto &el = json[i];
auto res = load<typename T::value_type>(el);
if (res.has_value()) {
result.push_back(res.value());
} else {
return std::unexpected(QString("%1: %2").arg(i).arg(res.error()));
}
}
return result;
}
template<detail::JsonNumber T>
std::expected<T, QString> load(const QJsonValue &json) {
if (json.isDouble()) {
return (T)json.toDouble();
} else {
return std::unexpected(QString("Not a number"));
}
}
template<std::same_as<QString> T>
std::expected<T, QString> load(const QJsonValue &json) {
if (json.isString()) {
return json.toString();
} else {
return std::unexpected(QString("Not a string"));
}
}
template<std::same_as<QVector3D> T>
std::expected<T, QString> load(const QJsonArray &json) {
QVector3D vec;
if (json.size() != 3) {
return std::unexpected("Vector has wrong number of components");
}
for (size_t i = 0; i < json.size(); i++) {
auto &el = json[i];
if (auto val = load<float>(el); val) {
vec[i] = val.value();
} else {
return std::unexpected(QString("%1: %2").arg(i).arg(val.error()));
}
}
return vec;
}
template<typename T>
std::expected<T, QString> loadIfExists(const QJsonObject &json, const QString &key) {
if (json.contains(key)) {
return load<T>(json[key]);
} else {
return std::unexpected(QString("does not exist"));
}
}
template<std::same_as<LightProject> T>
std::expected<T, QString> load(const QJsonObject &json) {
LightProject lp;
if (auto deviceTypes = loadIfExists<decltype(lp.deviceTypes)>(json, "deviceTypes"); deviceTypes) {
lp.deviceTypes = std::move(deviceTypes.value());
} else {
return std::unexpected(QString("deviceTypes: %1").arg(deviceTypes.error()));
}
if (auto devices = loadIfExists<decltype(lp.devices)>(json, "devices"); devices) {
lp.devices = std::move(devices.value());
} else {
return std::unexpected(QString("devices: %1").arg(devices.error()));
}
return lp;
}
template<std::same_as<DeviceTypeConfig> T>
std::expected<T, QString> load(const QJsonObject &json) {
DeviceTypeConfig dtc;
if (auto val = loadIfExists<decltype(dtc.id)>(json, "id"); val) {
dtc.id = val.value();
} else {
return std::unexpected(QString("id: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dtc.name)>(json, "name"); val) {
dtc.name = val.value();
} else {
return std::unexpected(QString("name: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dtc.iconName)>(json, "iconName"); val) {
dtc.iconName = val.value();
} else {
return std::unexpected(QString("iconName: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dtc.registers)>(json, "registers"); val) {
dtc.registers = std::move(val.value());
} else {
return std::unexpected(QString("registers: %1").arg(val.error()));
}
return dtc;
}
template<std::same_as<DeviceTypeRegisterConfig> T>
std::expected<T, QString> load(const QJsonObject &json) {
DeviceTypeRegisterConfig dtrc;
if (auto val = loadIfExists<decltype(dtrc.type)>(json, "type"); val) {
dtrc.type = val.value();
} else {
return std::unexpected(QString("type: %1").arg(val.error()));
}
}
template<std::same_as<DeviceConfig> T>
std::expected<T, QString> load(const QJsonObject &json) {
DeviceConfig dc;
if (auto val = loadIfExists<decltype(dc.id)>(json, "id"); val) {
dc.id = val.value();
} else {
return std::unexpected(QString("id: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dc.name)>(json, "name"); val) {
dc.name = val.value();
} else {
return std::unexpected(QString("name: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dc.deviceTypeId)>(json, "deviceTypeId"); val) {
dc.deviceTypeId = val.value();
} else {
return std::unexpected(QString("deviceTypeId: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dc.address)>(json, "address"); val) {
dc.address = val.value();
} else {
return std::unexpected(QString("address: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(dc.position)>(json, "position"); val) {
dc.position = val.value();
} else {
return std::unexpected(QString("position: %1").arg(val.error()));
}
return dc;
}
template<std::same_as<RegisterGroupConfig> T>
std::expected<T, QString> load(const QJsonObject &json) {
RegisterGroupConfig rgc;
if (auto val = loadIfExists<decltype(rgc.id)>(json, "id"); val) {
rgc.id = val.value();
} else {
return std::unexpected(QString("id: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(rgc.name)>(json, "name"); val) {
rgc.name = val.value();
} else {
return std::unexpected(QString("name: %1").arg(val.error()));
}
if (auto val = loadIfExists<decltype(rgc.sliders)>(json, "sliders"); val) {
rgc.sliders = val.value();
} else {
return std::unexpected(QString("sliders: %1").arg(val.error()));
}
return rgc;
}
} // namespace
std::expected<LightProject, QString> loadProject(const QJsonObject &json) {
return load<LightProject>(json);
}
} // namespace ProjectLoader
#endif // PROJECTLOADER_H