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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / cf32412550e07365bb2afb6faed18e0e4c0ff7c1 / . / hal / src / main / native / sim / DriverStation.cpp
blob: c99493d2ab9e37f0dca09fd7cd16b8586a6fb3c7 [file] [log] [blame]
// 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 "hal/DriverStation.h"
#ifdef __APPLE__
#include <pthread.h>
#endif
#include <atomic>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <string>
#include <fmt/format.h>
#include <wpi/EventVector.h>
#include <wpi/condition_variable.h>
#include <wpi/mutex.h>
#include "HALInitializer.h"
#include "hal/Errors.h"
#include "hal/cpp/fpga_clock.h"
#include "hal/simulation/MockHooks.h"
#include "mockdata/DriverStationDataInternal.h"
static wpi::mutex msgMutex;
static std::atomic<HALSIM_SendErrorHandler> sendErrorHandler{nullptr};
static std::atomic<HALSIM_SendConsoleLineHandler> sendConsoleLineHandler{
nullptr};
using namespace hal;
static constexpr int kJoystickPorts = 6;
namespace {
struct JoystickDataCache {
JoystickDataCache() { std::memset(this, 0, sizeof(*this)); }
void Update();
HAL_JoystickAxes axes[kJoystickPorts];
HAL_JoystickPOVs povs[kJoystickPorts];
HAL_JoystickButtons buttons[kJoystickPorts];
HAL_AllianceStationID allianceStation;
double matchTime;
};
static_assert(std::is_standard_layout_v<JoystickDataCache>);
// static_assert(std::is_trivial_v<JoystickDataCache>);
static std::atomic_bool gShutdown{false};
struct FRCDriverStation {
~FRCDriverStation() { gShutdown = true; }
wpi::EventVector newDataEvents;
wpi::mutex cacheMutex;
};
} // namespace
void JoystickDataCache::Update() {
for (int i = 0; i < kJoystickPorts; i++) {
SimDriverStationData->GetJoystickAxes(i, &axes[i]);
SimDriverStationData->GetJoystickPOVs(i, &povs[i]);
SimDriverStationData->GetJoystickButtons(i, &buttons[i]);
}
allianceStation = SimDriverStationData->allianceStationId;
matchTime = SimDriverStationData->matchTime;
}
#define CHECK_JOYSTICK_NUMBER(stickNum) \
if ((stickNum) < 0 || (stickNum) >= HAL_kMaxJoysticks) \
return PARAMETER_OUT_OF_RANGE
static HAL_ControlWord newestControlWord;
static JoystickDataCache caches[3];
static JoystickDataCache* currentRead = &caches[0];
static JoystickDataCache* currentReadLocal = &caches[0];
static std::atomic<JoystickDataCache*> currentCache{&caches[1]};
static JoystickDataCache* lastGiven = &caches[1];
static JoystickDataCache* cacheToUpdate = &caches[2];
static ::FRCDriverStation* driverStation;
namespace hal::init {
void InitializeDriverStation() {
static FRCDriverStation ds;
driverStation = &ds;
}
} // namespace hal::init
namespace hal {
static void DefaultPrintErrorImpl(const char* line, size_t size) {
std::fwrite(line, size, 1, stderr);
}
} // namespace hal
static std::atomic<void (*)(const char* line, size_t size)> gPrintErrorImpl{
hal::DefaultPrintErrorImpl};
extern "C" {
void HALSIM_SetSendError(HALSIM_SendErrorHandler handler) {
sendErrorHandler.store(handler);
}
void HALSIM_SetSendConsoleLine(HALSIM_SendConsoleLineHandler handler) {
sendConsoleLineHandler.store(handler);
}
int32_t HAL_SendError(HAL_Bool isError, int32_t errorCode, HAL_Bool isLVCode,
const char* details, const char* location,
const char* callStack, HAL_Bool printMsg) {
auto errorHandler = sendErrorHandler.load();
if (errorHandler) {
return errorHandler(isError, errorCode, isLVCode, details, location,
callStack, printMsg);
}
// Avoid flooding console by keeping track of previous 5 error
// messages and only printing again if they're longer than 1 second old.
static constexpr int KEEP_MSGS = 5;
std::scoped_lock lock(msgMutex);
static std::string prevMsg[KEEP_MSGS];
static fpga_clock::time_point prevMsgTime[KEEP_MSGS];
static bool initialized = false;
if (!initialized) {
for (int i = 0; i < KEEP_MSGS; i++) {
prevMsgTime[i] = fpga_clock::now() - std::chrono::seconds(2);
}
initialized = true;
}
auto curTime = fpga_clock::now();
int i;
for (i = 0; i < KEEP_MSGS; ++i) {
if (prevMsg[i] == details) {
break;
}
}
int retval = 0;
if (i == KEEP_MSGS || (curTime - prevMsgTime[i]) >= std::chrono::seconds(1)) {
printMsg = true;
if (printMsg) {
fmt::memory_buffer buf;
if (location && location[0] != '\0') {
fmt::format_to(fmt::appender{buf},
"{} at {}: ", isError ? "Error" : "Warning", location);
}
fmt::format_to(fmt::appender{buf}, "{}\n", details);
if (callStack && callStack[0] != '\0') {
fmt::format_to(fmt::appender{buf}, "{}\n", callStack);
}
auto printError = gPrintErrorImpl.load();
printError(buf.data(), buf.size());
}
if (i == KEEP_MSGS) {
// replace the oldest one
i = 0;
auto first = prevMsgTime[0];
for (int j = 1; j < KEEP_MSGS; ++j) {
if (prevMsgTime[j] < first) {
first = prevMsgTime[j];
i = j;
}
}
prevMsg[i] = details;
}
prevMsgTime[i] = curTime;
}
return retval;
}
void HAL_SetPrintErrorImpl(void (*func)(const char* line, size_t size)) {
gPrintErrorImpl.store(func ? func : hal::DefaultPrintErrorImpl);
}
int32_t HAL_SendConsoleLine(const char* line) {
auto handler = sendConsoleLineHandler.load();
if (handler) {
return handler(line);
}
std::puts(line);
std::fflush(stdout);
return 0;
}
int32_t HAL_GetControlWord(HAL_ControlWord* controlWord) {
if (gShutdown) {
return INCOMPATIBLE_STATE;
}
std::scoped_lock lock{driverStation->cacheMutex};
*controlWord = newestControlWord;
return 0;
}
HAL_AllianceStationID HAL_GetAllianceStation(int32_t* status) {
if (gShutdown) {
return HAL_AllianceStationID_kRed1;
}
std::scoped_lock lock{driverStation->cacheMutex};
return currentRead->allianceStation;
}
int32_t HAL_GetJoystickAxes(int32_t joystickNum, HAL_JoystickAxes* axes) {
if (gShutdown) {
return INCOMPATIBLE_STATE;
}
CHECK_JOYSTICK_NUMBER(joystickNum);
std::scoped_lock lock{driverStation->cacheMutex};
*axes = currentRead->axes[joystickNum];
return 0;
}
int32_t HAL_GetJoystickPOVs(int32_t joystickNum, HAL_JoystickPOVs* povs) {
if (gShutdown) {
return INCOMPATIBLE_STATE;
}
CHECK_JOYSTICK_NUMBER(joystickNum);
std::scoped_lock lock{driverStation->cacheMutex};
*povs = currentRead->povs[joystickNum];
return 0;
}
int32_t HAL_GetJoystickButtons(int32_t joystickNum,
HAL_JoystickButtons* buttons) {
if (gShutdown) {
return INCOMPATIBLE_STATE;
}
CHECK_JOYSTICK_NUMBER(joystickNum);
std::scoped_lock lock{driverStation->cacheMutex};
*buttons = currentRead->buttons[joystickNum];
return 0;
}
void HAL_GetAllJoystickData(HAL_JoystickAxes* axes, HAL_JoystickPOVs* povs,
HAL_JoystickButtons* buttons) {
if (gShutdown) {
return;
}
std::scoped_lock lock{driverStation->cacheMutex};
std::memcpy(axes, currentRead->axes, sizeof(currentRead->axes));
std::memcpy(povs, currentRead->povs, sizeof(currentRead->povs));
std::memcpy(buttons, currentRead->buttons, sizeof(currentRead->buttons));
}
int32_t HAL_GetJoystickDescriptor(int32_t joystickNum,
HAL_JoystickDescriptor* desc) {
CHECK_JOYSTICK_NUMBER(joystickNum);
SimDriverStationData->GetJoystickDescriptor(joystickNum, desc);
return 0;
}
HAL_Bool HAL_GetJoystickIsXbox(int32_t joystickNum) {
HAL_JoystickDescriptor desc;
SimDriverStationData->GetJoystickDescriptor(joystickNum, &desc);
return desc.isXbox;
}
int32_t HAL_GetJoystickType(int32_t joystickNum) {
HAL_JoystickDescriptor desc;
SimDriverStationData->GetJoystickDescriptor(joystickNum, &desc);
return desc.type;
}
char* HAL_GetJoystickName(int32_t joystickNum) {
HAL_JoystickDescriptor desc;
SimDriverStationData->GetJoystickDescriptor(joystickNum, &desc);
size_t len = std::strlen(desc.name);
char* name = static_cast<char*>(std::malloc(len + 1));
std::memcpy(name, desc.name, len + 1);
return name;
}
void HAL_FreeJoystickName(char* name) {
std::free(name);
}
int32_t HAL_GetJoystickAxisType(int32_t joystickNum, int32_t axis) {
return 0;
}
int32_t HAL_SetJoystickOutputs(int32_t joystickNum, int64_t outputs,
int32_t leftRumble, int32_t rightRumble) {
SimDriverStationData->SetJoystickOutputs(joystickNum, outputs, leftRumble,
rightRumble);
return 0;
}
double HAL_GetMatchTime(int32_t* status) {
if (gShutdown) {
return 0;
}
std::scoped_lock lock{driverStation->cacheMutex};
return currentRead->matchTime;
}
int32_t HAL_GetMatchInfo(HAL_MatchInfo* info) {
SimDriverStationData->GetMatchInfo(info);
return 0;
}
void HAL_ObserveUserProgramStarting(void) {
HALSIM_SetProgramStarted();
}
void HAL_ObserveUserProgramDisabled(void) {
// TODO
}
void HAL_ObserveUserProgramAutonomous(void) {
// TODO
}
void HAL_ObserveUserProgramTeleop(void) {
// TODO
}
void HAL_ObserveUserProgramTest(void) {
// TODO
}
void HAL_RefreshDSData(void) {
if (gShutdown) {
return;
}
HAL_ControlWord controlWord;
std::memset(&controlWord, 0, sizeof(controlWord));
controlWord.enabled = SimDriverStationData->enabled;
controlWord.autonomous = SimDriverStationData->autonomous;
controlWord.test = SimDriverStationData->test;
controlWord.eStop = SimDriverStationData->eStop;
controlWord.fmsAttached = SimDriverStationData->fmsAttached;
controlWord.dsAttached = SimDriverStationData->dsAttached;
std::scoped_lock lock{driverStation->cacheMutex};
JoystickDataCache* prev = currentCache.exchange(nullptr);
if (prev != nullptr) {
currentRead = prev;
}
newestControlWord = controlWord;
}
void HAL_ProvideNewDataEventHandle(WPI_EventHandle handle) {
if (gShutdown) {
return;
}
hal::init::CheckInit();
driverStation->newDataEvents.Add(handle);
}
void HAL_RemoveNewDataEventHandle(WPI_EventHandle handle) {
if (gShutdown) {
return;
}
driverStation->newDataEvents.Remove(handle);
}
HAL_Bool HAL_GetOutputsEnabled(void) {
if (gShutdown) {
return false;
}
std::scoped_lock lock{driverStation->cacheMutex};
return newestControlWord.enabled && newestControlWord.dsAttached;
}
} // extern "C"
namespace hal {
void NewDriverStationData() {
if (gShutdown) {
return;
}
cacheToUpdate->Update();
JoystickDataCache* given = cacheToUpdate;
JoystickDataCache* prev = currentCache.exchange(cacheToUpdate);
if (prev == nullptr) {
cacheToUpdate = currentReadLocal;
currentReadLocal = lastGiven;
} else {
// Current read local does not update
cacheToUpdate = prev;
}
lastGiven = given;
driverStation->newDataEvents.Wakeup();
SimDriverStationData->CallNewDataCallbacks();
}
void InitializeDriverStation() {
SimDriverStationData->ResetData();
}
} // namespace hal