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mirror of synced 2024-12-15 09:11:15 +01:00
ImHex/plugins/visualizers/source/content/pl_visualizers/coordinates.cpp

117 lines
5.8 KiB
C++

#include <hex/helpers/utils.hpp>
#include <content/visualizer_helpers.hpp>
#include <imgui.h>
#include <hex/api/task_manager.hpp>
#include <hex/api/localization_manager.hpp>
#include <hex/helpers/http_requests.hpp>
#include <nlohmann/json.hpp>
#include <hex/ui/imgui_imhex_extensions.h>
#include <romfs/romfs.hpp>
namespace hex::plugin::visualizers {
void drawCoordinateVisualizer(pl::ptrn::Pattern &, pl::ptrn::IIterable &, bool shouldReset, std::span<const pl::core::Token::Literal> arguments) {
static ImVec2 coordinate;
static double latitude, longitude;
static std::string address;
static std::mutex addressMutex;
static TaskHolder addressTask;
static auto mapTexture = ImGuiExt::Texture::fromImage(romfs::get("assets/common/map.jpg").span(), ImGuiExt::Texture::Filter::Linear);
static ImVec2 mapSize = scaled(ImVec2(500, 500 / mapTexture.getAspectRatio()));
if (shouldReset) {
std::scoped_lock lock(addressMutex);
address.clear();
latitude = arguments[0].toFloatingPoint();
longitude = arguments[1].toFloatingPoint();
// Convert latitude and longitude to X/Y coordinates on the image
coordinate.x = float((longitude + 180) / 360 * mapSize.x);
coordinate.y = float((-latitude + 90) / 180 * mapSize.y);
}
const auto startPos = ImGui::GetWindowPos() + ImGui::GetCursorPos();
// Draw background image
ImGui::Image(mapTexture, mapSize);
// Draw Longitude / Latitude text below image
ImGui::PushTextWrapPos(startPos.x + mapSize.x);
ImGuiExt::TextFormattedWrapped("{}: {:.0f}° {:.0f}' {:.4f}\" {} | {}: {:.0f}° {:.0f}' {:.4f}\" {}",
"hex.visualizers.pl_visualizer.coordinates.latitude"_lang,
std::floor(std::abs(latitude)),
std::floor(std::abs(latitude - std::floor(latitude)) * 60),
(std::abs(latitude - std::floor(latitude)) * 60 - std::floor(std::abs(latitude - std::floor(latitude)) * 60)) * 60,
latitude >= 0 ? "N" : "S",
"hex.visualizers.pl_visualizer.coordinates.longitude"_lang,
std::floor(std::abs(longitude)),
std::floor(std::abs(longitude - std::floor(longitude)) * 60),
(std::abs(longitude - std::floor(longitude)) * 60 - std::floor(std::abs(longitude - std::floor(longitude)) * 60)) * 60,
longitude >= 0 ? "E" : "W"
);
ImGui::PopTextWrapPos();
if (addressTask.isRunning()) {
ImGuiExt::TextSpinner("hex.visualizers.pl_visualizer.coordinates.querying"_lang);
} else if (address.empty()) {
if (ImGuiExt::DimmedButton("hex.visualizers.pl_visualizer.coordinates.query"_lang)) {
addressTask = TaskManager::createBackgroundTask("hex.visualizers.pl_visualizer.coordinates.querying"_lang, [lat = latitude, lon = longitude](auto &) {
constexpr static auto ApiURL = "https://geocode.maps.co/reverse?lat={}&lon={}&format=jsonv2";
HttpRequest request("GET", hex::format(ApiURL, lat, lon));
auto response = request.execute().get();
if (!response.isSuccess())
return;
try {
auto json = nlohmann::json::parse(response.getData());
auto jsonAddr = json["address"];
std::scoped_lock lock(addressMutex);
if (jsonAddr.contains("village")) {
address = hex::format("{} {}, {} {}",
jsonAddr["village"].get<std::string>(),
jsonAddr["county"].get<std::string>(),
jsonAddr["state"].get<std::string>(),
jsonAddr["country"].get<std::string>());
} else if (jsonAddr.contains("city")) {
address = hex::format("{}, {} {}, {} {}",
jsonAddr["road"].get<std::string>(),
jsonAddr["quarter"].get<std::string>(),
jsonAddr["city"].get<std::string>(),
jsonAddr["state"].get<std::string>(),
jsonAddr["country"].get<std::string>());
}
} catch (std::exception &) {
address = std::string("hex.visualizers.pl_visualizer.coordinates.querying_no_address"_lang);
}
});
}
} else {
ImGui::PushTextWrapPos(startPos.x + mapSize.x);
ImGuiExt::TextFormattedWrapped("{}", address);
ImGui::PopTextWrapPos();
}
// Draw crosshair pointing to the coordinates
{
constexpr static u32 CrossHairColor = 0xFF00D0D0;
constexpr static u32 BorderColor = 0xFF000000;
auto drawList = ImGui::GetWindowDrawList();
drawList->AddLine(startPos + ImVec2(coordinate.x, 0), startPos + ImVec2(coordinate.x, mapSize.y), CrossHairColor, 2_scaled);
drawList->AddLine(startPos + ImVec2(0, coordinate.y), startPos + ImVec2(mapSize.x, coordinate.y), CrossHairColor, 2_scaled);
drawList->AddCircleFilled(startPos + coordinate, 5, CrossHairColor);
drawList->AddCircle(startPos + coordinate, 5, BorderColor);
}
}
}