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saba_viewer.cpp
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//
// Copyright(c) 2016-2017 benikabocha.
// Distributed under the MIT License (http://opensource.org/licenses/MIT)
//
#include <Saba/Base/Log.h>
#include <Saba/Viewer/Viewer.h>
#include <Saba/Viewer/ViewerCommand.h>
#include <nlohmann/json.hpp>
#include <sol.hpp>
#include <fstream>
#include <vector>
namespace
{
/*
@brief Load initial setting from "init.json".
*/
void ReadInitParameterFromJson(
saba::Viewer::InitializeParameter& viewerInitParam,
std::vector<saba::ViewerCommand>& viewerCommands
)
{
bool msaaEnable = false;
int msaaCount = 4;
std::ifstream initJsonFile;
initJsonFile.open("init.json");
if (initJsonFile.is_open())
{
nlohmann::json initJ;
initJsonFile >> initJ;
initJsonFile.close();
if (initJ["MSAAEnable"].is_boolean())
{
viewerInitParam.m_msaaEnable = initJ["MSAAEnable"].get<bool>();
}
if (initJ["MSAACount"].is_number_integer())
{
viewerInitParam.m_msaaCount = initJ["MSAACount"].get<int>();
}
if (initJ["Commands"].is_array())
{
viewerCommands.clear();
for (auto& commandJ : initJ["Commands"])
{
if (commandJ.is_object())
{
saba::ViewerCommand viewerCmd;
if (commandJ["Cmd"].is_string())
{
viewerCmd.SetCommand(commandJ["Cmd"].get<std::string>());
}
if (commandJ["Args"].is_array())
{
for (auto& argJ : commandJ["Args"])
{
if (argJ.is_string())
{
viewerCmd.AddArg(argJ.get<std::string>());
}
}
}
}
}
}
}
}
/*
@brief Load initial setting from "init.lua".
*/
void ReadInitParameterFromLua(
const std::vector<std::string>& args,
saba::Viewer::InitializeParameter& viewerInitParam,
std::vector<saba::ViewerCommand>& viewerCommands
)
{
try
{
sol::state lua;
lua.open_libraries(sol::lib::base, sol::lib::package);
auto result = lua.load_file("init.lua");
if (result)
{
sol::table argsTable = lua.create_table(args.size(), 0);
for (const auto& arg : args)
{
argsTable.add(arg.c_str());
}
lua["Args"] = argsTable;
result();
auto msaa = lua["MSAA"];
if (msaa)
{
viewerInitParam.m_msaaEnable = msaa["Enable"].get_or(false);
viewerInitParam.m_msaaCount = msaa["Count"].get_or(4);
}
auto initCamera = lua["InitCamera"];
if (initCamera)
{
bool useInitCamera = true;
auto center = initCamera["Center"];
auto eye = initCamera["Eye"];
auto nearClip = initCamera["NearClip"];
auto farClip = initCamera["FarClip"];
auto radius = initCamera["Radius"];
if (center.valid() &&
eye.valid() &&
nearClip.valid() &&
farClip.valid() &&
radius.valid()
)
{
if (center["x"].valid() && center["y"].valid() && center["z"].valid())
{
viewerInitParam.m_initCameraCenter.x = center["x"].get<float>();
viewerInitParam.m_initCameraCenter.y = center["y"].get<float>();
viewerInitParam.m_initCameraCenter.z = center["z"].get<float>();
}
else
{
useInitCamera = false;
}
if (eye["x"].valid() && eye["y"].valid() && eye["z"].valid())
{
viewerInitParam.m_initCameraEye.x = eye["x"].get<float>();
viewerInitParam.m_initCameraEye.y = eye["y"].get<float>();
viewerInitParam.m_initCameraEye.z = eye["z"].get<float>();
}
else
{
useInitCamera = false;
}
viewerInitParam.m_initCameraNearClip = nearClip.get<float>();
viewerInitParam.m_initCameraFarClip = farClip.get<float>();
viewerInitParam.m_initCameraRadius = radius.get<float>();
viewerInitParam.m_initCamera = useInitCamera;
}
auto initScene = lua["InitScene"];
if (initScene)
{
auto unitScale = initScene["UnitScale"];
if (unitScale.valid())
{
viewerInitParam.m_initSceneUnitScale = unitScale.get<float>();
viewerInitParam.m_initScene = true;
}
}
}
sol::object commandsObj = lua["Commands"];
if (commandsObj.is<sol::table>())
{
sol::table commands = commandsObj;
viewerCommands.clear();
for (auto cmdIt = commands.begin(); cmdIt != commands.end(); ++cmdIt)
{
sol::table cmd = (*cmdIt).second;
saba::ViewerCommand viewerCmd;
std::string cmdText = cmd["Cmd"].get_or(std::string(""));
viewerCmd.SetCommand(cmdText);
sol::object argsObj = cmd["Args"];
if (argsObj.is<sol::table>())
{
sol::table args = argsObj;
for (auto argIt = args.begin(); argIt != args.end(); ++argIt)
{
std::string argText = (*argIt).second.as<std::string>();
viewerCmd.AddArg(argText);
}
}
viewerCommands.emplace_back(viewerCmd);
}
}
}
}
catch (sol::error e)
{
SABA_ERROR("Failed to load init.lua.\n{}", e.what());
}
}
} // namespace
int SabaViewerMain(const std::vector<std::string>& args)
{
SABA_INFO("Start");
saba::Viewer viewer;
saba::Viewer::InitializeParameter viewerInitParam;
std::vector<saba::ViewerCommand> viewerCommands;
ReadInitParameterFromJson(viewerInitParam, viewerCommands);
ReadInitParameterFromLua(args, viewerInitParam, viewerCommands);
if (viewerInitParam.m_msaaEnable)
{
SABA_INFO("Enable MSAA");
if (viewerInitParam.m_msaaCount != 2 &&
viewerInitParam.m_msaaCount != 4 &&
viewerInitParam.m_msaaCount != 8
)
{
SABA_WARN("MSAA Count Force Change : 4");
viewerInitParam.m_msaaCount = 4;
}
SABA_INFO("MSAA Count : {}", viewerInitParam.m_msaaCount);
}
else
{
SABA_INFO("Disable MSAA");
}
if (!viewer.Initialize(viewerInitParam))
{
return -1;
}
for (const auto& viewerCommand : viewerCommands)
{
viewer.ExecuteCommand(viewerCommand);
}
int ret = viewer.Run();
viewer.Uninitislize();
SABA_INFO("Exit");
return ret;
}
#if _WIN32
#include <Windows.h>
#include <shellapi.h>
#endif
int main(int argc, char** argv)
{
std::vector<std::string> args(argc);
#if _WIN32
{
WCHAR* cmdline = GetCommandLineW();
int wArgc;
WCHAR** wArgs = CommandLineToArgvW(cmdline, &wArgc);
for (int i = 0; i < argc; i++)
{
args[i] = saba::ToUtf8String(wArgs[i]);
}
}
#else // _WIN32
for (int i = 0; i < argc; i++)
{
args[i] = argv[i];
}
#endif
auto ret = SabaViewerMain(args);
saba::SingletonFinalizer::Finalize();
return ret;
}