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0587b7043a9e415a5c6dbda3f97dae140215c7c4
allwpilib/simulation/halsim_gui/src/main/native/cpp/DriverStationGui.cpp
Peter Johnson 0587b7043a [glass] Use JSON files for storage instead of imgui ini 
Storage is now nested.

Separate "roots" can be configured which save to separate files.
In particular, this is used to save wpigui and ImGui window position
to a -window.json file.

ImGui's ini (for window position) is mapped to JSON.

You can optionally specify a directory to load from on the command line.
If one isn't provided, it uses the global system directory.
Any changes made are automatically saved here.

Workspace | Open: select directory, the current layout is replaced with that
workspace, and future auto-saves also switch to that location. The main
window size/location is not changed, only the contents.

Workspace | Save As: select directory, the current layout is saved there,
and future auto-saves also switch to that location.

Workspace | Reset: window locations are preserved, but all other settings
are reset to default (including e.g. removing plot windows). This will also
end up clearing the current save file. as with load, the main window
size/location is not changed.

Workspace | Save As Global: "save as" to the global system location

Notably, the main window size/location is only loaded at startup, but is
auto-saved as part of the current workspace.
2021-11-27 00:12:13 -08:00

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// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.
#include "DriverStationGui.h"
#include <glass/Context.h>
#include <glass/Storage.h>
#include <glass/other/FMS.h>
#include <glass/support/ExtraGuiWidgets.h>
#include <glass/support/NameSetting.h>
#include <algorithm>
#include <atomic>
#include <cstring>
#include <memory>
#include <string>
#include <string_view>
#include <vector>
#include <GLFW/glfw3.h>
#include <fmt/format.h>
#include <hal/DriverStationTypes.h>
#include <hal/simulation/DriverStationData.h>
#include <hal/simulation/MockHooks.h>
#include <imgui.h>
#include <imgui_internal.h>
#include <wpi/SmallVector.h>
#include <wpi/StringExtras.h>
#include <wpigui.h>
#include "HALDataSource.h"
#include "HALSimGui.h"
using namespace halsimgui;
namespace {
struct HALJoystickData {
HALJoystickData() {
std::memset(&desc, 0, sizeof(desc));
desc.type = -1;
std::memset(&axes, 0, sizeof(axes));
std::memset(&buttons, 0, sizeof(buttons));
std::memset(&povs, 0, sizeof(povs));
}
HAL_JoystickDescriptor desc;
HAL_JoystickAxes axes;
HAL_JoystickButtons buttons;
HAL_JoystickPOVs povs;
};
class SystemJoystick {
public:
virtual ~SystemJoystick() = default;
bool IsPresent() const { return m_present; }
bool IsAnyButtonPressed() const { return m_anyButtonPressed; }
bool IsGamepad() const { return m_isGamepad; }
virtual void SettingsDisplay() {}
virtual void Update() = 0;
virtual const char* GetName() const = 0;
virtual void GetData(HALJoystickData* data, bool mapGamepad) const = 0;
virtual const char* GetGUID() const = 0;
virtual int GetIndex() const = 0;
protected:
bool m_present = false;
bool m_anyButtonPressed = false;
bool m_isGamepad = false;
};
class GlfwSystemJoystick : public SystemJoystick {
public:
explicit GlfwSystemJoystick(int i) : m_index{i} {}
void Update() override;
const char* GetName() const override { return m_name ? m_name : "(null)"; }
void GetData(HALJoystickData* data, bool mapGamepad) const override;
const char* GetGUID() const override { return glfwGetJoystickGUID(m_index); }
int GetIndex() const override { return m_index; }
private:
int m_index;
int m_axisCount = 0;
const float* m_axes = nullptr;
int m_buttonCount = 0;
const unsigned char* m_buttons = nullptr;
int m_hatCount = 0;
const unsigned char* m_hats = nullptr;
const char* m_name = nullptr;
GLFWgamepadstate m_gamepadState;
};
class KeyboardJoystick : public SystemJoystick {
public:
KeyboardJoystick(glass::Storage& storage, int index);
void SettingsDisplay() override;
void Update() override;
const char* GetName() const override { return m_name; }
void GetData(HALJoystickData* data, bool mapGamepad) const override {
*data = m_data;
}
const char* GetGUID() const override { return m_guid; }
int GetIndex() const override { return m_index + GLFW_JOYSTICK_LAST + 1; }
void ClearKey(int key);
virtual const char* GetKeyName(int key) const = 0;
protected:
void EditKey(const char* label, int* key);
int m_index;
char m_name[20];
char m_guid[20];
static int* s_keyEdit;
HALJoystickData m_data;
int& m_axisCount;
int& m_buttonCount;
int& m_povCount;
struct AxisConfig {
explicit AxisConfig(glass::Storage& storage);
int& incKey;
int& decKey;
float& keyRate;
float& decayRate;
float& maxAbsValue;
};
std::vector<std::unique_ptr<glass::Storage>>& m_axisStorage;
std::vector<AxisConfig> m_axisConfig;
static constexpr int kMaxButtonCount = 32;
std::vector<int>& m_buttonKey;
struct PovConfig {
explicit PovConfig(glass::Storage& storage);
int& key0;
int& key45;
int& key90;
int& key135;
int& key180;
int& key225;
int& key270;
int& key315;
};
std::vector<std::unique_ptr<glass::Storage>>& m_povStorage;
std::vector<PovConfig> m_povConfig;
};
class GlfwKeyboardJoystick : public KeyboardJoystick {
public:
GlfwKeyboardJoystick(glass::Storage& storage, int index);
const char* GetKeyName(int key) const override;
};
struct RobotJoystick {
explicit RobotJoystick(glass::Storage& storage);
glass::NameSetting name;
std::string& guid;
const SystemJoystick* sys = nullptr;
bool& useGamepad; // = false;
HALJoystickData data;
void Clear() { data = HALJoystickData{}; }
void Update();
void SetHAL(int i);
void GetHAL(int i);
bool IsButtonPressed(int i) {
return (data.buttons.buttons & (1u << i)) != 0;
}
};
class JoystickModel {
public:
explicit JoystickModel(int index);
~JoystickModel() {
HALSIM_CancelDriverStationNewDataCallback(m_callback);
for (int i = 0; i < buttonCount; ++i) {
delete buttons[i];
}
}
JoystickModel(const JoystickModel&) = delete;
JoystickModel& operator=(const JoystickModel&) = delete;
int axisCount;
int buttonCount;
int povCount;
std::unique_ptr<glass::DataSource> axes[HAL_kMaxJoystickAxes];
// use pointer instead of unique_ptr to allow it to be passed directly
// to DrawLEDSources()
glass::DataSource* buttons[32];
std::unique_ptr<glass::DataSource> povs[HAL_kMaxJoystickPOVs];
private:
static void CallbackFunc(const char*, void* param, const HAL_Value*);
int m_index;
int32_t m_callback;
};
class FMSSimModel : public glass::FMSModel {
public:
FMSSimModel();
glass::DataSource* GetFmsAttachedData() override { return &m_fmsAttached; }
glass::DataSource* GetDsAttachedData() override { return &m_dsAttached; }
glass::DataSource* GetAllianceStationIdData() override {
return &m_allianceStationId;
}
glass::DataSource* GetMatchTimeData() override { return &m_matchTime; }
glass::DataSource* GetEStopData() override { return &m_estop; }
glass::DataSource* GetEnabledData() override { return &m_enabled; }
glass::DataSource* GetTestData() override { return &m_test; }
glass::DataSource* GetAutonomousData() override { return &m_autonomous; }
std::string_view GetGameSpecificMessage(
wpi::SmallVectorImpl<char>& buf) override {
HAL_MatchInfo info;
HALSIM_GetMatchInfo(&info);
buf.clear();
buf.append(info.gameSpecificMessage,
info.gameSpecificMessage + info.gameSpecificMessageSize);
return std::string_view(buf.begin(), buf.size());
}
void SetFmsAttached(bool val) override {
HALSIM_SetDriverStationFmsAttached(val);
}
void SetDsAttached(bool val) override {
HALSIM_SetDriverStationDsAttached(val);
}
void SetAllianceStationId(int val) override {
HALSIM_SetDriverStationAllianceStationId(
static_cast<HAL_AllianceStationID>(val));
}
void SetMatchTime(double val) override {
HALSIM_SetDriverStationMatchTime(val);
int32_t status = 0;
m_startMatchTime = HAL_GetFPGATime(&status) * 1.0e-6 - val;
}
void SetEStop(bool val) override { HALSIM_SetDriverStationEStop(val); }
void SetEnabled(bool val) override { HALSIM_SetDriverStationEnabled(val); }
void SetTest(bool val) override { HALSIM_SetDriverStationTest(val); }
void SetAutonomous(bool val) override {
HALSIM_SetDriverStationAutonomous(val);
}
void SetGameSpecificMessage(const char* val) override {
HALSIM_SetGameSpecificMessage(val);
}
void Update() override;
bool Exists() override { return true; }
bool IsReadOnly() override;
bool m_matchTimeEnabled = true;
private:
glass::DataSource m_fmsAttached{"FMS:FMSAttached"};
glass::DataSource m_dsAttached{"FMS:DSAttached"};
glass::DataSource m_allianceStationId{"FMS:AllianceStationID"};
glass::DataSource m_matchTime{"FMS:MatchTime"};
glass::DataSource m_estop{"FMS:EStop"};
glass::DataSource m_enabled{"FMS:RobotEnabled"};
glass::DataSource m_test{"FMS:TestMode"};
glass::DataSource m_autonomous{"FMS:AutonomousMode"};
double m_startMatchTime = 0.0;
double m_prevTime = 0.0;
};
} // namespace
// system joysticks
static std::vector<std::unique_ptr<SystemJoystick>> gGlfwJoysticks;
static int gNumGlfwJoysticks = 0;
static std::vector<std::unique_ptr<GlfwKeyboardJoystick>> gKeyboardJoysticks;
// robot joysticks
static std::vector<RobotJoystick> gRobotJoysticks;
static std::unique_ptr<JoystickModel> gJoystickSources[HAL_kMaxJoysticks];
// FMS
static std::unique_ptr<FMSSimModel> gFMSModel;
// Window management
std::unique_ptr<DSManager> DriverStationGui::dsManager;
static bool* gpDisableDS = nullptr;
static bool* gpZeroDisconnectedJoysticks = nullptr;
static bool* gpUseEnableDisableHotkeys = nullptr;
static bool* gpUseEstopHotkey = nullptr;
static std::atomic<bool>* gpDSSocketConnected = nullptr;
static inline bool IsDSDisabled() {
return (gpDisableDS != nullptr && *gpDisableDS) ||
(gpDSSocketConnected && *gpDSSocketConnected);
}
JoystickModel::JoystickModel(int index) : m_index{index} {
HAL_JoystickAxes halAxes;
HALSIM_GetJoystickAxes(index, &halAxes);
axisCount = halAxes.count;
for (int i = 0; i < axisCount; ++i) {
axes[i] = std::make_unique<glass::DataSource>(
fmt::format("Joystick[{}] Axis[{}]", index, i));
}
HAL_JoystickButtons halButtons;
HALSIM_GetJoystickButtons(index, &halButtons);
buttonCount = halButtons.count;
for (int i = 0; i < buttonCount; ++i) {
buttons[i] = new glass::DataSource(
fmt::format("Joystick[{}] Button[{}]", index, i + 1));
buttons[i]->SetDigital(true);
}
for (int i = buttonCount; i < 32; ++i) {
buttons[i] = nullptr;
}
HAL_JoystickPOVs halPOVs;
HALSIM_GetJoystickPOVs(index, &halPOVs);
povCount = halPOVs.count;
for (int i = 0; i < povCount; ++i) {
povs[i] = std::make_unique<glass::DataSource>(
fmt::format("Joystick[{}] POV [{}]", index, i));
}
m_callback =
HALSIM_RegisterDriverStationNewDataCallback(CallbackFunc, this, true);
}
void JoystickModel::CallbackFunc(const char*, void* param, const HAL_Value*) {
auto self = static_cast<JoystickModel*>(param);
HAL_JoystickAxes halAxes;
HALSIM_GetJoystickAxes(self->m_index, &halAxes);
for (int i = 0; i < halAxes.count; ++i) {
if (auto axis = self->axes[i].get()) {
axis->SetValue(halAxes.axes[i]);
}
}
HAL_JoystickButtons halButtons;
HALSIM_GetJoystickButtons(self->m_index, &halButtons);
for (int i = 0; i < halButtons.count; ++i) {
if (auto button = self->buttons[i]) {
button->SetValue((halButtons.buttons & (1u << i)) != 0 ? 1 : 0);
}
}
HAL_JoystickPOVs halPOVs;
HALSIM_GetJoystickPOVs(self->m_index, &halPOVs);
for (int i = 0; i < halPOVs.count; ++i) {
if (auto pov = self->povs[i].get()) {
pov->SetValue(halPOVs.povs[i]);
}
}
}
void GlfwSystemJoystick::Update() {
bool wasPresent = m_present;
m_present = glfwJoystickPresent(m_index);
if (!m_present) {
return;
}
m_axes = glfwGetJoystickAxes(m_index, &m_axisCount);
m_buttons = glfwGetJoystickButtons(m_index, &m_buttonCount);
m_hats = glfwGetJoystickHats(m_index, &m_hatCount);
m_isGamepad = glfwGetGamepadState(m_index, &m_gamepadState);
m_anyButtonPressed = false;
for (int j = 0; j < m_buttonCount; ++j) {
if (m_buttons[j]) {
m_anyButtonPressed = true;
break;
}
}
for (int j = 0; j < m_hatCount; ++j) {
if (m_hats[j] != GLFW_HAT_CENTERED) {
m_anyButtonPressed = true;
break;
}
}
if (!m_present || wasPresent) {
return;
}
m_name = glfwGetJoystickName(m_index);
// try to find matching GUID
if (const char* guid = glfwGetJoystickGUID(m_index)) {
for (auto&& joy : gRobotJoysticks) {
if (guid == joy.guid) {
joy.sys = this;
break;
}
}
}
}
static int HatToAngle(unsigned char hat) {
switch (hat) {
case GLFW_HAT_UP:
return 0;
case GLFW_HAT_RIGHT:
return 90;
case GLFW_HAT_DOWN:
return 180;
case GLFW_HAT_LEFT:
return 270;
case GLFW_HAT_RIGHT_UP:
return 45;
case GLFW_HAT_RIGHT_DOWN:
return 135;
case GLFW_HAT_LEFT_UP:
return 315;
case GLFW_HAT_LEFT_DOWN:
return 225;
default:
return -1;
}
}
void GlfwSystemJoystick::GetData(HALJoystickData* data, bool mapGamepad) const {
if (!m_present) {
return;
}
// use gamepad mappings if present and enabled
const float* sysAxes;
const unsigned char* sysButtons;
if (m_isGamepad && mapGamepad) {
sysAxes = m_gamepadState.axes;
// don't remap on windows
#ifdef _WIN32
sysButtons = m_buttons;
#else
sysButtons = m_gamepadState.buttons;
#endif
} else {
sysAxes = m_axes;
sysButtons = m_buttons;
}
// copy into HAL structures
data->desc.isXbox = m_isGamepad ? 1 : 0;
data->desc.type = m_isGamepad ? 21 : 20;
std::strncpy(data->desc.name, m_name, sizeof(data->desc.name) - 1);
data->desc.name[sizeof(data->desc.name) - 1] = '\0';
data->desc.axisCount = (std::min)(m_axisCount, HAL_kMaxJoystickAxes);
// desc.axisTypes ???
data->desc.buttonCount = (std::min)(m_buttonCount, 32);
data->desc.povCount = (std::min)(m_hatCount, HAL_kMaxJoystickPOVs);
data->buttons.count = data->desc.buttonCount;
for (int j = 0; j < data->buttons.count; ++j) {
data->buttons.buttons |= (sysButtons[j] ? 1u : 0u) << j;
}
data->axes.count = data->desc.axisCount;
if (m_isGamepad && mapGamepad) {
// the FRC DriverStation maps gamepad (XInput) trigger values to 0-1 range
// on axis 2 and 3.
data->axes.axes[0] = sysAxes[0];
data->axes.axes[1] = sysAxes[1];
data->axes.axes[2] = 0.5 + sysAxes[4] / 2.0;
data->axes.axes[3] = 0.5 + sysAxes[5] / 2.0;
data->axes.axes[4] = sysAxes[2];
data->axes.axes[5] = sysAxes[3];
// the start button for gamepads is not mapped on the FRC DriverStation
// platforms, so remove it if present
if (data->buttons.count == 11) {
--data->desc.buttonCount;
--data->buttons.count;
data->buttons.buttons = (data->buttons.buttons & 0xff) |
((data->buttons.buttons >> 1) & 0x300);
}
} else {
std::memcpy(data->axes.axes, sysAxes,
data->axes.count * sizeof(&data->axes.axes[0]));
}
data->povs.count = data->desc.povCount;
for (int j = 0; j < data->povs.count; ++j) {
data->povs.povs[j] = HatToAngle(m_hats[j]);
}
}
KeyboardJoystick::AxisConfig::AxisConfig(glass::Storage& storage)
: incKey{storage.GetInt("incKey", -1)},
decKey{storage.GetInt("decKey", -1)},
keyRate{storage.GetFloat("keyRate", 0.05f)},
decayRate{storage.GetFloat("decayRate", 0.05f)},
maxAbsValue{storage.GetFloat("maxAbsValue", 1.0f)} {
// sanity check the key ranges
if (incKey < -1 || incKey >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
incKey = -1;
}
if (decKey < -1 || decKey >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
decKey = -1;
}
}
KeyboardJoystick::PovConfig::PovConfig(glass::Storage& storage)
: key0{storage.GetInt("key0", -1)},
key45{storage.GetInt("key45", -1)},
key90{storage.GetInt("key90", -1)},
key135{storage.GetInt("key135", -1)},
key180{storage.GetInt("key180", -1)},
key225{storage.GetInt("key225", -1)},
key270{storage.GetInt("key270", -1)},
key315{storage.GetInt("key315", -1)} {
// sanity check the key ranges
if (key0 < -1 || key0 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key0 = -1;
}
if (key45 < -1 || key45 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key45 = -1;
}
if (key90 < -1 || key90 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key90 = -1;
}
if (key135 < -1 || key135 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key135 = -1;
}
if (key180 < -1 || key180 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key180 = -1;
}
if (key225 < -1 || key225 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key225 = -1;
}
if (key270 < -1 || key270 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key270 = -1;
}
if (key315 < -1 || key315 >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key315 = -1;
}
}
KeyboardJoystick::KeyboardJoystick(glass::Storage& storage, int index)
: m_index{index},
m_axisCount{storage.GetInt("axisCount", -1)},
m_buttonCount{storage.GetInt("buttonCount", -1)},
m_povCount{storage.GetInt("povCount", -1)},
m_axisStorage{storage.GetChildArray("axisConfig")},
m_buttonKey{storage.GetIntArray("buttonKeys")},
m_povStorage{storage.GetChildArray("povConfig")} {
std::snprintf(m_name, sizeof(m_name), "Keyboard %d", index);
std::snprintf(m_guid, sizeof(m_guid), "Keyboard%d", index);
// init axes
for (auto&& axisConfig : m_axisStorage) {
m_axisConfig.emplace_back(*axisConfig);
}
// sanity check the button key ranges
for (auto&& key : m_buttonKey) {
if (key < -1 || key >= IM_ARRAYSIZE(ImGuiIO::KeysDown)) {
key = -1;
}
}
// init POVs
for (auto&& povConfig : m_povStorage) {
m_povConfig.emplace_back(*povConfig);
}
// init desc structure
m_data.desc.isXbox = 0;
m_data.desc.type = 20;
std::strncpy(m_data.desc.name, m_name, 256);
}
int* KeyboardJoystick::s_keyEdit = nullptr;
void KeyboardJoystick::EditKey(const char* label, int* key) {
ImGui::PushID(label);
ImGui::Text("%s", label);
ImGui::SameLine();
char editLabel[32];
std::snprintf(editLabel, sizeof(editLabel), "%s###edit",
s_keyEdit == key ? "(press key)" : GetKeyName(*key));
if (ImGui::SmallButton(editLabel)) {
s_keyEdit = key;
}
ImGui::SameLine();
if (ImGui::SmallButton("Clear")) {
*key = -1;
}
ImGui::PopID();
}
void KeyboardJoystick::SettingsDisplay() {
if (s_keyEdit) {
ImGuiIO& io = ImGui::GetIO();
for (int i = 0; i < IM_ARRAYSIZE(io.KeysDown); ++i) {
if (io.KeysDown[i]) {
// remove all other uses
for (auto&& joy : gKeyboardJoysticks) {
joy->ClearKey(i);
}
*s_keyEdit = i;
s_keyEdit = nullptr;
break;
}
}
}
char label[64];
ImGui::PushItemWidth(ImGui::GetFontSize() * 6);
// axes
if (ImGui::CollapsingHeader("Axes", ImGuiTreeNodeFlags_DefaultOpen)) {
ImGui::PushID("Axes");
if (ImGui::InputInt("Count", &m_axisCount)) {
if (m_axisCount < 0) {
m_axisCount = 0;
} else if (m_axisCount > HAL_kMaxJoystickAxes) {
m_axisCount = HAL_kMaxJoystickAxes;
}
}
while (m_axisCount > static_cast<int>(m_axisConfig.size())) {
m_axisStorage.emplace_back(std::make_unique<glass::Storage>());
m_axisConfig.emplace_back(*m_axisStorage.back());
}
for (int i = 0; i < m_axisCount; ++i) {
std::snprintf(label, sizeof(label), "Axis %d", i);
if (ImGui::TreeNodeEx(label, ImGuiTreeNodeFlags_DefaultOpen)) {
EditKey("Increase", &m_axisConfig[i].incKey);
EditKey("Decrease", &m_axisConfig[i].decKey);
ImGui::InputFloat("Key Rate", &m_axisConfig[i].keyRate);
ImGui::InputFloat("Decay Rate", &m_axisConfig[i].decayRate);
float maxAbsValue = m_axisConfig[i].maxAbsValue;
if (ImGui::InputFloat("Max Absolute Value", &maxAbsValue)) {
m_axisConfig[i].maxAbsValue = std::clamp(maxAbsValue, -1.0f, 1.0f);
}
ImGui::TreePop();
}
}
ImGui::PopID();
}
// buttons
if (ImGui::CollapsingHeader("Buttons", ImGuiTreeNodeFlags_DefaultOpen)) {
ImGui::PushID("Buttons");
if (ImGui::InputInt("Count", &m_buttonCount)) {
if (m_buttonCount < 0) {
m_buttonCount = 0;
}
if (m_buttonCount > kMaxButtonCount) {
m_buttonCount = kMaxButtonCount;
}
}
while (m_buttonCount > static_cast<int>(m_buttonKey.size())) {
m_buttonKey.emplace_back(-1);
}
for (int i = 0; i < m_buttonCount; ++i) {
std::snprintf(label, sizeof(label), "Button %d", i + 1);
EditKey(label, &m_buttonKey[i]);
}
ImGui::PopID();
}
// povs
if (ImGui::CollapsingHeader("POVs", ImGuiTreeNodeFlags_DefaultOpen)) {
ImGui::PushID("POVs");
if (ImGui::InputInt("Count", &m_povCount)) {
if (m_povCount < 0) {
m_povCount = 0;
}
if (m_povCount > HAL_kMaxJoystickPOVs) {
m_povCount = HAL_kMaxJoystickPOVs;
}
}
while (m_povCount > static_cast<int>(m_povConfig.size())) {
m_povStorage.emplace_back(std::make_unique<glass::Storage>());
m_povConfig.emplace_back(*m_povStorage.back());
}
for (int i = 0; i < m_povCount; ++i) {
std::snprintf(label, sizeof(label), "POV %d", i);
if (ImGui::TreeNodeEx(label, ImGuiTreeNodeFlags_DefaultOpen)) {
EditKey(" 0 deg", &m_povConfig[i].key0);
EditKey(" 45 deg", &m_povConfig[i].key45);
EditKey(" 90 deg", &m_povConfig[i].key90);
EditKey("135 deg", &m_povConfig[i].key135);
EditKey("180 deg", &m_povConfig[i].key180);
EditKey("225 deg", &m_povConfig[i].key225);
EditKey("270 deg", &m_povConfig[i].key270);
EditKey("315 deg", &m_povConfig[i].key315);
ImGui::TreePop();
}
}
ImGui::PopID();
}
ImGui::PopItemWidth();
}
static inline bool IsKeyDown(ImGuiIO& io, int key) {
return key >= 0 && key < IM_ARRAYSIZE(ImGuiIO::KeysDown) && io.KeysDown[key];
}
void KeyboardJoystick::Update() {
ImGuiIO& io = ImGui::GetIO();
if (m_axisCount < 0) {
m_axisCount = 0;
}
if (m_buttonCount < 0) {
m_buttonCount = 0;
}
if (m_povCount < 0) {
m_povCount = 0;
}
m_data.axes.count =
(std::min)(m_axisCount, static_cast<int>(m_axisConfig.size()));
m_data.buttons.count =
(std::min)(m_buttonCount, static_cast<int>(m_buttonKey.size()));
m_data.povs.count =
(std::min)(m_povCount, static_cast<int>(m_povConfig.size()));
if (m_data.axes.count > 0 || m_data.buttons.count > 0 ||
m_data.povs.count > 0) {
m_present = true;
}
// axes
for (int i = 0; i < m_data.axes.count; ++i) {
auto& config = m_axisConfig[i];
float& axisValue = m_data.axes.axes[i];
// increase/decrease while key held down (to saturation); decay back to 0
if (IsKeyDown(io, config.incKey)) {
axisValue += config.keyRate;
if (axisValue > config.maxAbsValue) {
axisValue = config.maxAbsValue;
}
} else if (axisValue > 0) {
if (axisValue < config.decayRate) {
axisValue = 0;
} else {
axisValue -= config.decayRate;
}
}
if (IsKeyDown(io, config.decKey)) {
axisValue -= config.keyRate;
if (axisValue < -config.maxAbsValue) {
axisValue = -config.maxAbsValue;
}
} else if (axisValue < 0) {
if (axisValue > -config.decayRate) {
axisValue = 0;
} else {
axisValue += config.decayRate;
}
}
}
// buttons
m_data.buttons.buttons = 0;
m_anyButtonPressed = false;
for (int i = 0; i < m_data.buttons.count; ++i) {
if (IsKeyDown(io, m_buttonKey[i])) {
m_data.buttons.buttons |= 1u << i;
m_anyButtonPressed = true;
}
}
// povs
for (int i = 0; i < m_data.povs.count; ++i) {
auto& config = m_povConfig[i];
auto& povValue = m_data.povs.povs[i];
povValue = -1;
if (IsKeyDown(io, config.key0)) {
povValue = 0;
} else if (IsKeyDown(io, config.key45)) {
povValue = 45;
} else if (IsKeyDown(io, config.key90)) {
povValue = 90;
} else if (IsKeyDown(io, config.key135)) {
povValue = 135;
} else if (IsKeyDown(io, config.key180)) {
povValue = 180;
} else if (IsKeyDown(io, config.key225)) {
povValue = 225;
} else if (IsKeyDown(io, config.key270)) {
povValue = 270;
} else if (IsKeyDown(io, config.key315)) {
povValue = 315;
}
}
// try to find matching GUID
for (auto&& joy : gRobotJoysticks) {
if (m_guid == joy.guid) {
joy.sys = this;
break;
}
}
// update desc
m_data.desc.axisCount = m_data.axes.count;
m_data.desc.buttonCount = m_data.buttons.count;
m_data.desc.povCount = m_data.povs.count;
}
void KeyboardJoystick::ClearKey(int key) {
for (auto&& config : m_axisConfig) {
if (config.incKey == key) {
config.incKey = -1;
}
if (config.decKey == key) {
config.decKey = -1;
}
}
for (auto&& buttonKey : m_buttonKey) {
if (buttonKey == key) {
buttonKey = -1;
}
}
for (auto&& config : m_povConfig) {
if (config.key0 == key) {
config.key0 = -1;
}
if (config.key45 == key) {
config.key45 = -1;
}
if (config.key90 == key) {
config.key90 = -1;
}
if (config.key135 == key) {
config.key135 = -1;
}
if (config.key180 == key) {
config.key180 = -1;
}
if (config.key225 == key) {
config.key225 = -1;
}
if (config.key270 == key) {
config.key270 = -1;
}
if (config.key315 == key) {
config.key315 = -1;
}
}
}
GlfwKeyboardJoystick::GlfwKeyboardJoystick(glass::Storage& storage, int index)
: KeyboardJoystick{storage, index} {
// set up a default keyboard config for 0, 1, and 2
if (index == 0) {
if (m_axisCount == -1 && m_axisStorage.empty()) {
m_axisCount = 3;
for (int i = 0; i < 3; ++i) {
m_axisStorage.emplace_back(std::make_unique<glass::Storage>());
m_axisConfig.emplace_back(*m_axisStorage.back());
}
m_axisConfig[0].incKey = GLFW_KEY_D;
m_axisConfig[0].decKey = GLFW_KEY_A;
m_axisConfig[1].incKey = GLFW_KEY_S;
m_axisConfig[1].decKey = GLFW_KEY_W;
m_axisConfig[2].incKey = GLFW_KEY_R;
m_axisConfig[2].decKey = GLFW_KEY_E;
m_axisConfig[2].keyRate = 0.01f;
m_axisConfig[2].decayRate = 0; // works like a throttle
}
if (m_buttonCount == -1 && m_buttonKey.empty()) {
m_buttonCount = 4;
m_buttonKey.resize(4);
m_buttonKey[0] = GLFW_KEY_Z;
m_buttonKey[1] = GLFW_KEY_X;
m_buttonKey[2] = GLFW_KEY_C;
m_buttonKey[3] = GLFW_KEY_V;
}
if (m_povCount == -1 && m_povStorage.empty()) {
m_povCount = 1;
m_povStorage.emplace_back(std::make_unique<glass::Storage>());
m_povConfig.emplace_back(*m_povStorage.back());
m_povConfig[0].key0 = GLFW_KEY_KP_8;
m_povConfig[0].key45 = GLFW_KEY_KP_9;
m_povConfig[0].key90 = GLFW_KEY_KP_6;
m_povConfig[0].key135 = GLFW_KEY_KP_3;
m_povConfig[0].key180 = GLFW_KEY_KP_2;
m_povConfig[0].key225 = GLFW_KEY_KP_1;
m_povConfig[0].key270 = GLFW_KEY_KP_4;
m_povConfig[0].key315 = GLFW_KEY_KP_7;
}
} else if (index == 1) {
if (m_axisCount == -1 && m_axisStorage.empty()) {
m_axisCount = 2;
for (int i = 0; i < 2; ++i) {
m_axisStorage.emplace_back(std::make_unique<glass::Storage>());
m_axisConfig.emplace_back(*m_axisStorage.back());
}
m_axisConfig[0].incKey = GLFW_KEY_L;
m_axisConfig[0].decKey = GLFW_KEY_J;
m_axisConfig[1].incKey = GLFW_KEY_K;
m_axisConfig[1].decKey = GLFW_KEY_I;
}
if (m_buttonCount == -1 && m_buttonKey.empty()) {
m_buttonCount = 4;
m_buttonKey.resize(4);
m_buttonKey[0] = GLFW_KEY_M;
m_buttonKey[1] = GLFW_KEY_COMMA;
m_buttonKey[2] = GLFW_KEY_PERIOD;
m_buttonKey[3] = GLFW_KEY_SLASH;
}
} else if (index == 2) {
if (m_axisCount == -1 && m_axisStorage.empty()) {
m_axisCount = 2;
for (int i = 0; i < 2; ++i) {
m_axisStorage.emplace_back(std::make_unique<glass::Storage>());
m_axisConfig.emplace_back(*m_axisStorage.back());
}
m_axisConfig[0].incKey = GLFW_KEY_RIGHT;
m_axisConfig[0].decKey = GLFW_KEY_LEFT;
m_axisConfig[1].incKey = GLFW_KEY_DOWN;
m_axisConfig[1].decKey = GLFW_KEY_UP;
}
if (m_buttonCount == -1 && m_buttonKey.empty()) {
m_buttonCount = 6;
m_buttonKey.resize(6);
m_buttonKey[0] = GLFW_KEY_INSERT;
m_buttonKey[1] = GLFW_KEY_HOME;
m_buttonKey[2] = GLFW_KEY_PAGE_UP;
m_buttonKey[3] = GLFW_KEY_DELETE;
m_buttonKey[4] = GLFW_KEY_END;
m_buttonKey[5] = GLFW_KEY_PAGE_DOWN;
}
}
}
const char* GlfwKeyboardJoystick::GetKeyName(int key) const {
if (key < 0) {
return "(None)";
}
const char* name = glfwGetKeyName(key, 0);
if (name) {
return name;
}
// glfwGetKeyName sometimes doesn't have these keys
switch (key) {
case GLFW_KEY_RIGHT:
return "Right";
case GLFW_KEY_LEFT:
return "Left";
case GLFW_KEY_DOWN:
return "Down";
case GLFW_KEY_UP:
return "Up";
case GLFW_KEY_INSERT:
return "Insert";
case GLFW_KEY_HOME:
return "Home";
case GLFW_KEY_PAGE_UP:
return "PgUp";
case GLFW_KEY_DELETE:
return "Delete";
case GLFW_KEY_END:
return "End";
case GLFW_KEY_PAGE_DOWN:
return "PgDn";
}
return "(Unknown)";
}
RobotJoystick::RobotJoystick(glass::Storage& storage)
: name{storage.GetString("name")},
guid{storage.GetString("guid")},
useGamepad{storage.GetBool("useGamepad")} {}
void RobotJoystick::Update() {
Clear();
if (sys) {
sys->GetData(&data, useGamepad);
}
}
void RobotJoystick::SetHAL(int i) {
if ((gpZeroDisconnectedJoysticks != nullptr &&
!gpZeroDisconnectedJoysticks) &&
(!sys || !sys->IsPresent())) {
return;
}
// set at HAL level
HALSIM_SetJoystickDescriptor(i, &data.desc);
HALSIM_SetJoystickAxes(i, &data.axes);
HALSIM_SetJoystickButtons(i, &data.buttons);
HALSIM_SetJoystickPOVs(i, &data.povs);
}
void RobotJoystick::GetHAL(int i) {
HALSIM_GetJoystickDescriptor(i, &data.desc);
HALSIM_GetJoystickAxes(i, &data.axes);
HALSIM_GetJoystickButtons(i, &data.buttons);
HALSIM_GetJoystickPOVs(i, &data.povs);
}
static void DriverStationExecute() {
// update sources
for (int i = 0; i < HAL_kMaxJoysticks; ++i) {
auto& source = gJoystickSources[i];
int32_t axisCount, buttonCount, povCount;
HALSIM_GetJoystickCounts(i, &axisCount, &buttonCount, &povCount);
if (axisCount != 0 || buttonCount != 0 || povCount != 0) {
if (!source || source->axisCount != axisCount ||
source->buttonCount != buttonCount || source->povCount != povCount) {
source.reset();
source = std::make_unique<JoystickModel>(i);
}
} else {
source.reset();
}
}
static bool prevDisableDS = false;
bool disableDS = IsDSDisabled();
if (disableDS && !prevDisableDS) {
if (auto win = HALSimGui::manager->GetWindow("System Joysticks")) {
win->SetVisibility(glass::Window::kDisabled);
}
} else if (!disableDS && prevDisableDS) {
if (auto win = HALSimGui::manager->GetWindow("System Joysticks")) {
win->SetVisibility(glass::Window::kShow);
}
}
prevDisableDS = disableDS;
if (disableDS) {
return;
}
double curTime = glfwGetTime();
// update system joysticks
gNumGlfwJoysticks = 0;
for (int i = 0; i <= GLFW_JOYSTICK_LAST; ++i) {
gGlfwJoysticks[i]->Update();
if (gGlfwJoysticks[i]->IsPresent()) {
gNumGlfwJoysticks = i + 1;
}
}
for (auto&& joy : gKeyboardJoysticks) {
joy->Update();
}
// update robot joysticks
for (auto&& joy : gRobotJoysticks) {
joy.Update();
}
bool isEnabled = HALSIM_GetDriverStationEnabled();
bool isAuto = HALSIM_GetDriverStationAutonomous();
bool isTest = HALSIM_GetDriverStationTest();
// Robot state
{
// DS hotkeys
bool enableHotkey = false;
bool disableHotkey = false;
if (gpUseEnableDisableHotkeys != nullptr && *gpUseEnableDisableHotkeys) {
ImGuiIO& io = ImGui::GetIO();
if (io.KeysDown[GLFW_KEY_ENTER] || io.KeysDown[GLFW_KEY_KP_ENTER]) {
disableHotkey = true;
} else if (io.KeysDown[GLFW_KEY_LEFT_BRACKET] &&
io.KeysDown[GLFW_KEY_RIGHT_BRACKET] &&
io.KeysDown[GLFW_KEY_BACKSLASH]) {
enableHotkey = true;
}
}
if (gpUseEstopHotkey != nullptr && *gpUseEstopHotkey) {
ImGuiIO& io = ImGui::GetIO();
if (io.KeysDown[GLFW_KEY_SPACE]) {
HALSIM_SetDriverStationEnabled(false);
}
}
ImGui::SetNextWindowPos(ImVec2{5, 20}, ImGuiCond_FirstUseEver);
ImGui::Begin("Robot State", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
if (ImGui::Selectable("Disabled", !isEnabled) || disableHotkey) {
HALSIM_SetDriverStationEnabled(false);
}
if (ImGui::Selectable("Autonomous", isEnabled && isAuto && !isTest)) {
HALSIM_SetDriverStationAutonomous(true);
HALSIM_SetDriverStationTest(false);
HALSIM_SetDriverStationEnabled(true);
}
if (ImGui::Selectable("Teleoperated", isEnabled && !isAuto && !isTest) ||
enableHotkey) {
HALSIM_SetDriverStationAutonomous(false);
HALSIM_SetDriverStationTest(false);
HALSIM_SetDriverStationEnabled(true);
}
if (ImGui::Selectable("Test", isEnabled && isTest)) {
HALSIM_SetDriverStationAutonomous(false);
HALSIM_SetDriverStationTest(true);
HALSIM_SetDriverStationEnabled(true);
}
ImGui::End();
}
// Update HAL
for (int i = 0, end = gRobotJoysticks.size();
i < end && i < HAL_kMaxJoysticks; ++i) {
gRobotJoysticks[i].SetHAL(i);
}
// Send new data every 20 ms (may be slower depending on GUI refresh rate)
static double lastNewDataTime = 0.0;
if ((curTime - lastNewDataTime) > 0.02 && !HALSIM_IsTimingPaused()) {
lastNewDataTime = curTime;
HALSIM_NotifyDriverStationNewData();
}
}
FMSSimModel::FMSSimModel() {
m_fmsAttached.SetDigital(true);
m_dsAttached.SetDigital(true);
m_estop.SetDigital(true);
m_enabled.SetDigital(true);
m_test.SetDigital(true);
m_autonomous.SetDigital(true);
}
void FMSSimModel::Update() {
bool enabled = HALSIM_GetDriverStationEnabled();
m_fmsAttached.SetValue(HALSIM_GetDriverStationFmsAttached());
m_dsAttached.SetValue(HALSIM_GetDriverStationDsAttached());
m_allianceStationId.SetValue(HALSIM_GetDriverStationAllianceStationId());
m_estop.SetValue(HALSIM_GetDriverStationEStop());
m_enabled.SetValue(enabled);
m_test.SetValue(HALSIM_GetDriverStationTest());
m_autonomous.SetValue(HALSIM_GetDriverStationAutonomous());
double matchTime = HALSIM_GetDriverStationMatchTime();
if (m_matchTimeEnabled && !IsDSDisabled()) {
int32_t status = 0;
double curTime = HAL_GetFPGATime(&status) * 1.0e-6;
if (m_startMatchTime == 0.0) {
m_startMatchTime = curTime;
}
if (enabled) {
matchTime = curTime - m_startMatchTime;
HALSIM_SetDriverStationMatchTime(matchTime);
} else {
if (m_prevTime == 0.0) {
m_prevTime = curTime;
}
m_startMatchTime += (curTime - m_prevTime);
}
m_prevTime = curTime;
} else {
m_startMatchTime = 0.0;
m_prevTime = 0.0;
}
m_matchTime.SetValue(matchTime);
}
bool FMSSimModel::IsReadOnly() {
return IsDSDisabled();
}
static void DisplaySystemJoystick(SystemJoystick& joy, int i) {
char label[64];
std::snprintf(label, sizeof(label), "%d: %s", i, joy.GetName());
// highlight if any buttons pressed
bool anyButtonPressed = joy.IsAnyButtonPressed();
if (anyButtonPressed) {
ImGui::PushStyleColor(ImGuiCol_Text, IM_COL32(255, 255, 0, 255));
}
ImGui::Selectable(label, false,
joy.IsPresent() ? ImGuiSelectableFlags_None
: ImGuiSelectableFlags_Disabled);
if (anyButtonPressed) {
ImGui::PopStyleColor();
}
// drag and drop sources are the low level joysticks
if (ImGui::BeginDragDropSource()) {
SystemJoystick* joyPtr = &joy;
ImGui::SetDragDropPayload("Joystick", &joyPtr, sizeof(joyPtr)); // NOLINT
ImGui::Text("%d: %s", i, joy.GetName());
ImGui::EndDragDropSource();
}
}
static void DisplaySystemJoysticks() {
ImGui::Text("(Drag and drop to Joysticks)");
int numShowJoysticks = gNumGlfwJoysticks < 6 ? 6 : gNumGlfwJoysticks;
for (int i = 0; i < numShowJoysticks; ++i) {
DisplaySystemJoystick(*gGlfwJoysticks[i], i);
}
for (size_t i = 0; i < gKeyboardJoysticks.size(); ++i) {
auto joy = gKeyboardJoysticks[i].get();
DisplaySystemJoystick(*joy, i + GLFW_JOYSTICK_LAST + 1);
if (ImGui::BeginPopupContextItem()) {
char buf[64];
std::snprintf(buf, sizeof(buf), "%s Settings", joy->GetName());
if (ImGui::MenuItem(buf)) {
if (auto win = DriverStationGui::dsManager->GetWindow(buf)) {
win->SetVisible(true);
}
ImGui::CloseCurrentPopup();
}
ImGui::EndPopup();
}
}
}
static void DisplayJoysticks() {
bool disableDS = IsDSDisabled();
// imgui doesn't size columns properly with autoresize, so force it
ImGui::Dummy(ImVec2(ImGui::GetFontSize() * 10 * HAL_kMaxJoysticks, 0));
ImGui::Columns(HAL_kMaxJoysticks, "Joysticks", false);
for (int i = 0; i < HAL_kMaxJoysticks; ++i) {
auto& joy = gRobotJoysticks[i];
char label[128];
joy.name.GetLabel(label, sizeof(label), "Joystick", i);
if (!disableDS && joy.sys) {
ImGui::Selectable(label, false);
if (ImGui::BeginDragDropSource()) {
ImGui::SetDragDropPayload("Joystick", &joy.sys,
sizeof(joy.sys)); // NOLINT
ImGui::Text("%d: %s", joy.sys->GetIndex(), joy.sys->GetName());
ImGui::EndDragDropSource();
}
} else {
ImGui::Selectable(label, false, ImGuiSelectableFlags_Disabled);
}
if (!disableDS && ImGui::BeginDragDropTarget()) {
if (const ImGuiPayload* payload =
ImGui::AcceptDragDropPayload("Joystick")) {
IM_ASSERT(payload->DataSize == sizeof(SystemJoystick*)); // NOLINT
SystemJoystick* payload_sys =
*static_cast<SystemJoystick* const*>(payload->Data);
// clear it from the other joysticks
for (auto&& joy2 : gRobotJoysticks) {
if (joy2.sys == payload_sys) {
joy2.sys = nullptr;
joy2.guid.clear();
}
}
joy.sys = payload_sys;
joy.guid = payload_sys->GetGUID();
std::string_view name{payload_sys->GetName()};
joy.useGamepad =
wpi::starts_with(name, "Xbox") || wpi::contains(name, "pad");
}
ImGui::EndDragDropTarget();
}
joy.name.PopupEditName(i);
ImGui::NextColumn();
}
ImGui::Separator();
for (int i = 0; i < HAL_kMaxJoysticks; ++i) {
auto& joy = gRobotJoysticks[i];
auto source = gJoystickSources[i].get();
if (disableDS) {
joy.GetHAL(i);
}
if ((disableDS && joy.data.desc.type != 0) ||
(joy.sys && joy.sys->IsPresent())) {
// update GUI display
ImGui::PushID(i);
if (disableDS) {
ImGui::Text("%s", joy.data.desc.name);
ImGui::Text("Gamepad: %s", joy.data.desc.isXbox ? "Yes" : "No");
} else {
ImGui::Text("%d: %s", joy.sys->GetIndex(), joy.sys->GetName());
if (joy.sys->IsGamepad()) {
ImGui::Checkbox("Map gamepad", &joy.useGamepad);
}
}
for (int j = 0; j < joy.data.axes.count; ++j) {
if (source && source->axes[j]) {
char label[64];
std::snprintf(label, sizeof(label), "Axis[%d]", j);
ImGui::Selectable(label);
source->axes[j]->EmitDrag();
ImGui::SameLine();
ImGui::Text(": %.3f", joy.data.axes.axes[j]);
} else {
ImGui::Text("Axis[%d]: %.3f", j, joy.data.axes.axes[j]);
}
}
for (int j = 0; j < joy.data.povs.count; ++j) {
if (source && source->povs[j]) {
char label[64];
std::snprintf(label, sizeof(label), "POVs[%d]", j);
ImGui::Selectable(label);
source->povs[j]->EmitDrag();
ImGui::SameLine();
ImGui::Text(": %d", joy.data.povs.povs[j]);
} else {
ImGui::Text("POVs[%d]: %d", j, joy.data.povs.povs[j]);
}
}
// show buttons as multiple lines of LED indicators, 8 per line
static const ImU32 color = IM_COL32(255, 255, 102, 255);
wpi::SmallVector<int, 64> buttons;
buttons.resize(joy.data.buttons.count);
for (int j = 0; j < joy.data.buttons.count; ++j) {
buttons[j] = joy.IsButtonPressed(j) ? 1 : -1;
}
DrawLEDSources(buttons.data(), source ? source->buttons : nullptr,
buttons.size(), 8, &color);
ImGui::PopID();
} else {
ImGui::Text("Unassigned");
}
ImGui::NextColumn();
}
ImGui::Columns(1);
}
void DSManager::DisplayMenu() {
if (gpDSSocketConnected && *gpDSSocketConnected) {
ImGui::MenuItem("Turn off DS (real DS connected)", nullptr, true, false);
} else {
if (gpDisableDS != nullptr) {
ImGui::MenuItem("Turn off DS", nullptr, gpDisableDS);
}
if (gpZeroDisconnectedJoysticks != nullptr) {
ImGui::MenuItem("Zero disconnected joysticks", nullptr,
gpZeroDisconnectedJoysticks);
}
if (gpUseEnableDisableHotkeys != nullptr) {
ImGui::MenuItem("Enable on []\\ combo, Disable on Enter", nullptr,
gpUseEnableDisableHotkeys);
}
if (gpUseEstopHotkey != nullptr) {
ImGui::MenuItem("Disable on Spacebar", nullptr, gpUseEstopHotkey);
}
}
ImGui::Separator();
for (auto&& window : m_windows) {
window->DisplayMenuItem();
}
}
void DriverStationGui::GlobalInit() {
auto& storageRoot = glass::GetStorageRoot("ds");
dsManager = std::make_unique<DSManager>(storageRoot);
// set up system joysticks (both GLFW and keyboard)
for (int i = 0; i <= GLFW_JOYSTICK_LAST; ++i) {
gGlfwJoysticks.emplace_back(std::make_unique<GlfwSystemJoystick>(i));
}
dsManager->GlobalInit();
gFMSModel = std::make_unique<FMSSimModel>();
wpi::gui::AddEarlyExecute(DriverStationExecute);
wpi::gui::AddEarlyExecute([] { gFMSModel->Update(); });
storageRoot.SetCustomApply([&storageRoot] {
gpDisableDS = &storageRoot.GetBool("disable", false);
gpZeroDisconnectedJoysticks =
&storageRoot.GetBool("zeroDisconnectedJoysticks", true);
gpUseEnableDisableHotkeys =
&storageRoot.GetBool("useEnableDisableHotkeys", false);
gpUseEstopHotkey = &storageRoot.GetBool("useEstopHotkey", false);
auto& keyboardStorage = storageRoot.GetChildArray("keyboardJoysticks");
keyboardStorage.resize(4);
for (int i = 0; i < 4; ++i) {
if (!keyboardStorage[i]) {
keyboardStorage[i] = std::make_unique<glass::Storage>();
}
gKeyboardJoysticks.emplace_back(
std::make_unique<GlfwKeyboardJoystick>(*keyboardStorage[i], i));
}
auto& robotJoystickStorage = storageRoot.GetChildArray("robotJoysticks");
robotJoystickStorage.resize(HAL_kMaxJoysticks);
for (int i = 0; i < HAL_kMaxJoysticks; ++i) {
if (!robotJoystickStorage[i]) {
robotJoystickStorage[i] = std::make_unique<glass::Storage>();
}
gRobotJoysticks.emplace_back(*robotJoystickStorage[i]);
}
int i = 0;
for (auto&& joy : gKeyboardJoysticks) {
char label[64];
std::snprintf(label, sizeof(label), "%s Settings", joy->GetName());
if (auto win = dsManager->AddWindow(
label, [j = joy.get()] { j->SettingsDisplay(); },
glass::Window::kHide)) {
win->DisableRenamePopup();
win->SetDefaultPos(10 + 310 * i++, 50);
if (i > 3) {
i = 0;
}
win->SetDefaultSize(300, 560);
}
}
if (auto win = dsManager->AddWindow("FMS", [] {
DisplayFMS(gFMSModel.get(), &gFMSModel->m_matchTimeEnabled);
})) {
win->DisableRenamePopup();
win->SetFlags(ImGuiWindowFlags_AlwaysAutoResize);
win->SetDefaultPos(5, 540);
}
if (auto win =
dsManager->AddWindow("System Joysticks", DisplaySystemJoysticks)) {
win->DisableRenamePopup();
win->SetFlags(ImGuiWindowFlags_AlwaysAutoResize);
win->SetDefaultPos(5, 350);
}
if (auto win = dsManager->AddWindow("Joysticks", DisplayJoysticks)) {
win->DisableRenamePopup();
win->SetFlags(ImGuiWindowFlags_AlwaysAutoResize);
win->SetDefaultPos(250, 465);
}
});
storageRoot.SetCustomClear([&storageRoot] {
dsManager->EraseWindows();
gKeyboardJoysticks.clear();
gRobotJoysticks.clear();
storageRoot.GetChildArray("keyboardJoysticks").clear();
storageRoot.GetChildArray("robotJoysticks").clear();
storageRoot.ClearValues();
});
}
void DriverStationGui::SetDSSocketExtension(void* data) {
gpDSSocketConnected = static_cast<std::atomic<bool>*>(data);
}
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