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0cd05d1a42aa7c08a212dfb40b00a28dea99efbe
allwpilib/wpilibcIntegrationTests/src/FakeEncoderTest.cpp
Tyler Veness 0cd05d1a42 Cleaned up integer type usage in wpilibc (#92) 
Replaced all unsigned types to signed and int32_t with int in wpilibc
2016-09-06 00:01:45 -07:00

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/*----------------------------------------------------------------------------*/
/* Copyright (c) FIRST 2014-2016. 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 "Encoder.h"
#include "AnalogOutput.h"
#include "AnalogTrigger.h"
#include "DigitalOutput.h"
#include "TestBench.h"
#include "Timer.h"
#include "gtest/gtest.h"
static const double kDelayTime = 0.001;
class FakeEncoderTest : public testing::Test {
protected:
DigitalOutput* m_outputA;
DigitalOutput* m_outputB;
AnalogOutput* m_indexOutput;
Encoder* m_encoder;
AnalogTrigger* m_indexAnalogTrigger;
std::shared_ptr<AnalogTriggerOutput> m_indexAnalogTriggerOutput;
void SetUp() override {
m_outputA = new DigitalOutput(TestBench::kLoop2OutputChannel);
m_outputB = new DigitalOutput(TestBench::kLoop1OutputChannel);
m_indexOutput = new AnalogOutput(TestBench::kAnalogOutputChannel);
m_outputA->Set(false);
m_outputB->Set(false);
m_encoder = new Encoder(TestBench::kLoop1InputChannel,
TestBench::kLoop2InputChannel);
m_indexAnalogTrigger =
new AnalogTrigger(TestBench::kFakeAnalogOutputChannel);
m_indexAnalogTrigger->SetLimitsVoltage(2.0, 3.0);
m_indexAnalogTriggerOutput =
m_indexAnalogTrigger->CreateOutput(AnalogTriggerType::kState);
}
void TearDown() override {
delete m_outputA;
delete m_outputB;
delete m_indexOutput;
delete m_encoder;
delete m_indexAnalogTrigger;
}
/**
* Output pulses to the encoder's input channels to simulate a change of 100
* ticks
*/
void Simulate100QuadratureTicks() {
for (int32_t i = 0; i < 100; i++) {
m_outputA->Set(true);
Wait(kDelayTime);
m_outputB->Set(true);
Wait(kDelayTime);
m_outputA->Set(false);
Wait(kDelayTime);
m_outputB->Set(false);
Wait(kDelayTime);
}
}
void SetIndexHigh() {
m_indexOutput->SetVoltage(5.0);
Wait(kDelayTime);
}
void SetIndexLow() {
m_indexOutput->SetVoltage(0.0);
Wait(kDelayTime);
}
};
/**
* Test the encoder by reseting it to 0 and reading the value.
*/
TEST_F(FakeEncoderTest, TestDefaultState) {
EXPECT_FLOAT_EQ(0.0f, m_encoder->Get()) << "The encoder did not start at 0.";
}
/**
* Test the encoder by setting the digital outputs and reading the value.
*/
TEST_F(FakeEncoderTest, TestCountUp) {
m_encoder->Reset();
Simulate100QuadratureTicks();
EXPECT_FLOAT_EQ(100.0f, m_encoder->Get()) << "Encoder did not count to 100.";
}
/**
* Test that the encoder can stay reset while the index source is high
*/
TEST_F(FakeEncoderTest, TestResetWhileHigh) {
m_encoder->SetIndexSource(*m_indexAnalogTriggerOutput,
Encoder::IndexingType::kResetWhileHigh);
SetIndexLow();
Simulate100QuadratureTicks();
SetIndexHigh();
EXPECT_EQ(0, m_encoder->Get());
Simulate100QuadratureTicks();
EXPECT_EQ(0, m_encoder->Get());
}
/**
* Test that the encoder can reset when the index source goes from low to high
*/
TEST_F(FakeEncoderTest, TestResetOnRisingEdge) {
m_encoder->SetIndexSource(*m_indexAnalogTriggerOutput,
Encoder::IndexingType::kResetOnRisingEdge);
SetIndexLow();
Simulate100QuadratureTicks();
SetIndexHigh();
EXPECT_EQ(0, m_encoder->Get());
Simulate100QuadratureTicks();
EXPECT_EQ(100, m_encoder->Get());
}
/**
* Test that the encoder can stay reset while the index source is low
*/
TEST_F(FakeEncoderTest, TestResetWhileLow) {
m_encoder->SetIndexSource(*m_indexAnalogTriggerOutput,
Encoder::IndexingType::kResetWhileLow);
SetIndexHigh();
Simulate100QuadratureTicks();
SetIndexLow();
EXPECT_EQ(0, m_encoder->Get());
Simulate100QuadratureTicks();
EXPECT_EQ(0, m_encoder->Get());
}
/**
* Test that the encoder can reset when the index source goes from high to low
*/
TEST_F(FakeEncoderTest, TestResetOnFallingEdge) {
m_encoder->SetIndexSource(*m_indexAnalogTriggerOutput,
Encoder::IndexingType::kResetOnFallingEdge);
SetIndexHigh();
Simulate100QuadratureTicks();
SetIndexLow();
EXPECT_EQ(0, m_encoder->Get());
Simulate100QuadratureTicks();
EXPECT_EQ(100, m_encoder->Get());
}
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