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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / 8fce748cf331a21a94eca51b0c81c5dedb8fbdc5 / . / hal / src / main / native / athena / Counter.cpp
blob: 6d7e254f79d7001203975ccf4f845ffa02c3d5a4 [file] [log] [blame]
/*----------------------------------------------------------------------------*/
/* Copyright (c) 2016-2018 FIRST. All Rights Reserved. */
/* Open Source Software - may be modified and shared by FRC teams. The code */
/* must be accompanied by the FIRST BSD license file in the root directory of */
/* the project. */
/*----------------------------------------------------------------------------*/
#include "hal/Counter.h"
#include "ConstantsInternal.h"
#include "DigitalInternal.h"
#include "HALInitializer.h"
#include "PortsInternal.h"
#include "hal/HAL.h"
#include "hal/handles/LimitedHandleResource.h"
using namespace hal;
namespace {
struct Counter {
std::unique_ptr<tCounter> counter;
uint8_t index;
};
} // namespace
static LimitedHandleResource<HAL_CounterHandle, Counter, kNumCounters,
HAL_HandleEnum::Counter>* counterHandles;
namespace hal {
namespace init {
void InitializeCounter() {
static LimitedHandleResource<HAL_CounterHandle, Counter, kNumCounters,
HAL_HandleEnum::Counter>
ch;
counterHandles = &ch;
}
} // namespace init
} // namespace hal
extern "C" {
HAL_CounterHandle HAL_InitializeCounter(HAL_Counter_Mode mode, int32_t* index,
int32_t* status) {
hal::init::CheckInit();
auto handle = counterHandles->Allocate();
if (handle == HAL_kInvalidHandle) { // out of resources
*status = NO_AVAILABLE_RESOURCES;
return HAL_kInvalidHandle;
}
auto counter = counterHandles->Get(handle);
if (counter == nullptr) { // would only occur on thread issues
*status = HAL_HANDLE_ERROR;
return HAL_kInvalidHandle;
}
counter->index = static_cast<uint8_t>(getHandleIndex(handle));
*index = counter->index;
counter->counter.reset(tCounter::create(counter->index, status));
counter->counter->writeConfig_Mode(mode, status);
counter->counter->writeTimerConfig_AverageSize(1, status);
return handle;
}
void HAL_FreeCounter(HAL_CounterHandle counterHandle, int32_t* status) {
counterHandles->Free(counterHandle);
}
void HAL_SetCounterAverageSize(HAL_CounterHandle counterHandle, int32_t size,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeTimerConfig_AverageSize(size, status);
}
void HAL_SetCounterUpSource(HAL_CounterHandle counterHandle,
HAL_Handle digitalSourceHandle,
HAL_AnalogTriggerType analogTriggerType,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
bool routingAnalogTrigger = false;
uint8_t routingChannel = 0;
uint8_t routingModule = 0;
bool success =
remapDigitalSource(digitalSourceHandle, analogTriggerType, routingChannel,
routingModule, routingAnalogTrigger);
if (!success) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_UpSource_Module(routingModule, status);
counter->counter->writeConfig_UpSource_Channel(routingChannel, status);
counter->counter->writeConfig_UpSource_AnalogTrigger(routingAnalogTrigger,
status);
if (counter->counter->readConfig_Mode(status) == HAL_Counter_kTwoPulse ||
counter->counter->readConfig_Mode(status) ==
HAL_Counter_kExternalDirection) {
HAL_SetCounterUpSourceEdge(counterHandle, true, false, status);
}
counter->counter->strobeReset(status);
}
void HAL_SetCounterUpSourceEdge(HAL_CounterHandle counterHandle,
HAL_Bool risingEdge, HAL_Bool fallingEdge,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_UpRisingEdge(risingEdge, status);
counter->counter->writeConfig_UpFallingEdge(fallingEdge, status);
}
void HAL_ClearCounterUpSource(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_UpFallingEdge(false, status);
counter->counter->writeConfig_UpRisingEdge(false, status);
// Index 0 of digital is always 0.
counter->counter->writeConfig_UpSource_Channel(0, status);
counter->counter->writeConfig_UpSource_AnalogTrigger(false, status);
}
void HAL_SetCounterDownSource(HAL_CounterHandle counterHandle,
HAL_Handle digitalSourceHandle,
HAL_AnalogTriggerType analogTriggerType,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
uint8_t mode = counter->counter->readConfig_Mode(status);
if (mode != HAL_Counter_kTwoPulse && mode != HAL_Counter_kExternalDirection) {
// TODO: wpi_setWPIErrorWithContext(ParameterOutOfRange, "Counter only
// supports DownSource in TwoPulse and ExternalDirection modes.");
*status = PARAMETER_OUT_OF_RANGE;
return;
}
bool routingAnalogTrigger = false;
uint8_t routingChannel = 0;
uint8_t routingModule = 0;
bool success =
remapDigitalSource(digitalSourceHandle, analogTriggerType, routingChannel,
routingModule, routingAnalogTrigger);
if (!success) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_DownSource_Module(routingModule, status);
counter->counter->writeConfig_DownSource_Channel(routingChannel, status);
counter->counter->writeConfig_DownSource_AnalogTrigger(routingAnalogTrigger,
status);
HAL_SetCounterDownSourceEdge(counterHandle, true, false, status);
counter->counter->strobeReset(status);
}
void HAL_SetCounterDownSourceEdge(HAL_CounterHandle counterHandle,
HAL_Bool risingEdge, HAL_Bool fallingEdge,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_DownRisingEdge(risingEdge, status);
counter->counter->writeConfig_DownFallingEdge(fallingEdge, status);
}
void HAL_ClearCounterDownSource(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_DownFallingEdge(false, status);
counter->counter->writeConfig_DownRisingEdge(false, status);
// Index 0 of digital is always 0.
counter->counter->writeConfig_DownSource_Channel(0, status);
counter->counter->writeConfig_DownSource_AnalogTrigger(false, status);
}
void HAL_SetCounterUpDownMode(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_Mode(HAL_Counter_kTwoPulse, status);
}
void HAL_SetCounterExternalDirectionMode(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_Mode(HAL_Counter_kExternalDirection, status);
}
void HAL_SetCounterSemiPeriodMode(HAL_CounterHandle counterHandle,
HAL_Bool highSemiPeriod, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_Mode(HAL_Counter_kSemiperiod, status);
counter->counter->writeConfig_UpRisingEdge(highSemiPeriod, status);
HAL_SetCounterUpdateWhenEmpty(counterHandle, false, status);
}
void HAL_SetCounterPulseLengthMode(HAL_CounterHandle counterHandle,
double threshold, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeConfig_Mode(HAL_Counter_kPulseLength, status);
counter->counter->writeConfig_PulseLengthThreshold(
static_cast<uint32_t>(threshold * 1.0e6) *
kSystemClockTicksPerMicrosecond,
status);
}
int32_t HAL_GetCounterSamplesToAverage(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return 0;
}
return counter->counter->readTimerConfig_AverageSize(status);
}
void HAL_SetCounterSamplesToAverage(HAL_CounterHandle counterHandle,
int32_t samplesToAverage, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
if (samplesToAverage < 1 || samplesToAverage > 127) {
*status = PARAMETER_OUT_OF_RANGE;
}
counter->counter->writeTimerConfig_AverageSize(samplesToAverage, status);
}
void HAL_ResetCounter(HAL_CounterHandle counterHandle, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->strobeReset(status);
}
int32_t HAL_GetCounter(HAL_CounterHandle counterHandle, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return 0;
}
int32_t value = counter->counter->readOutput_Value(status);
return value;
}
double HAL_GetCounterPeriod(HAL_CounterHandle counterHandle, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return 0.0;
}
tCounter::tTimerOutput output = counter->counter->readTimerOutput(status);
double period;
if (output.Stalled) {
// Return infinity
double zero = 0.0;
period = 1.0 / zero;
} else {
// output.Period is a fixed point number that counts by 2 (24 bits, 25
// integer bits)
period = static_cast<double>(output.Period << 1) /
static_cast<double>(output.Count);
}
return static_cast<double>(period *
2.5e-8); // result * timebase (currently 25ns)
}
void HAL_SetCounterMaxPeriod(HAL_CounterHandle counterHandle, double maxPeriod,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeTimerConfig_StallPeriod(
static_cast<uint32_t>(maxPeriod * 4.0e8), status);
}
void HAL_SetCounterUpdateWhenEmpty(HAL_CounterHandle counterHandle,
HAL_Bool enabled, int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
counter->counter->writeTimerConfig_UpdateWhenEmpty(enabled, status);
}
HAL_Bool HAL_GetCounterStopped(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return false;
}
return counter->counter->readTimerOutput_Stalled(status);
}
HAL_Bool HAL_GetCounterDirection(HAL_CounterHandle counterHandle,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return false;
}
bool value = counter->counter->readOutput_Direction(status);
return value;
}
void HAL_SetCounterReverseDirection(HAL_CounterHandle counterHandle,
HAL_Bool reverseDirection,
int32_t* status) {
auto counter = counterHandles->Get(counterHandle);
if (counter == nullptr) {
*status = HAL_HANDLE_ERROR;
return;
}
if (counter->counter->readConfig_Mode(status) ==
HAL_Counter_kExternalDirection) {
if (reverseDirection)
HAL_SetCounterDownSourceEdge(counterHandle, true, true, status);
else
HAL_SetCounterDownSourceEdge(counterHandle, false, true, status);
}
}
} // extern "C"