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test_jled_sequence.cpp
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// JLed Unit tests (run on host).
// Copyright 2017-2021 Jan Delgado [email protected]
#include "catch2/catch_amalgamated.hpp"
#include <jled_base.h> // NOLINT
#include "hal_mock.h" // NOLINT
using jled::TJLed;
using jled::TJLedSequence;
// TestJLed is a JLed class using the HalMock for tests. This allows to
// test the code abstracted from the actual hardware in use.
class TestJLed : public TJLed<HalMock, TestJLed> {
using TJLed<HalMock, TestJLed>::TJLed;
};
// a group of JLed objects which can be controlled simultanously
class TestJLedSequence : public TJLedSequence<TestJLed, TestJLedSequence> {
using TJLedSequence<TestJLed, TestJLedSequence>::TJLedSequence;
};
// instanciate for test coverage measurement
template class TJLed<HalMock, TestJLed>;
template class TJLedSequence<TestJLed, TestJLedSequence>;
TEST_CASE("parallel sequence performs all updates", "[jled_sequence]") {
constexpr uint8_t expected1[] = {255, 0, 0};
constexpr uint8_t expected2[] = {0, 255, 255};
REQUIRE(sizeof(expected1) == sizeof(expected2)); // enter criteria for test
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1).Repeat(1),
TestJLed(HalMock(2)).Blink(1, 1).Repeat(1).LowActive()};
TestJLedSequence seq(TestJLedSequence::eMode::PARALLEL, leds);
uint32_t time = 0;
for (auto i = 0u; i < 3; i++) {
auto res = seq.Update();
// Update() returns false on last Update, our example does 2 updates.
REQUIRE(res == (i < 1));
REQUIRE(expected1[i] == leds[0].Hal().Value());
REQUIRE(expected2[i] == leds[1].Hal().Value());
time++;
leds[0].Hal().SetMillis(time);
leds[1].Hal().SetMillis(time);
}
}
TEST_CASE("sequence performs all updates", "[jled_sequence]") {
constexpr uint8_t expected1[] = {255, // first led turns on ...
0, // and off
0, 0, 0};
constexpr uint8_t expected2[] = {0, 0,
255, // second led turns on ...
0, 0}; // and off
REQUIRE(sizeof(expected1) == sizeof(expected2)); // enter criteria for test
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1).Repeat(1),
TestJLed(HalMock(2)).Blink(1, 1).Repeat(1)};
TestJLedSequence seq(TestJLedSequence::eMode::SEQUENCE, leds);
uint32_t time = 0;
auto constexpr kSteps = sizeof(expected1) / sizeof(expected1[0]);
for (auto i = 0u; i < kSteps; i++) {
auto res = seq.Update();
INFO("time = " << time << ", i = " << i << ",res=" << res);
// Update() returns false on last Update. This example does only
// 4 updates in total, returning false starting from update 3
REQUIRE(res == (i < 3));
REQUIRE(expected1[i] == leds[0].Hal().Value());
REQUIRE(expected2[i] == leds[1].Hal().Value());
time++;
leds[0].Hal().SetMillis(time);
leds[1].Hal().SetMillis(time);
}
}
TEST_CASE("stop on sequence stops all JLeds and turns them off",
"[jled_sequence]") {
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("all leds are stopped and turned off") {
INFO("mode = " << mode);
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(100, 100)};
TestJLedSequence seq(mode, leds);
seq.Update();
REQUIRE(255 == leds[0].Hal().Value());
seq.Stop();
REQUIRE(0 == leds[0].Hal().Value());
REQUIRE(!leds[0].IsRunning());
}
}
TEST_CASE("sequence will stay off after stop when update is called"
" again (https://github.com/jandelgado/jled/issues/115)",
"[jled_sequence]") {
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("sequence stays off") {
INFO("mode = " << mode);
TestJLed leds[] = {TestJLed(HalMock(1)).On()};
auto seq = TestJLedSequence(mode, leds).Forever();
REQUIRE(seq.Update());
seq.Stop();
REQUIRE(!leds[0].IsRunning());
REQUIRE(!seq.Update());
}
}
TEST_CASE("repeat plays the sequence N times", "[jled_sequence]") {
constexpr uint8_t expected[]{255, 0, 255, 0, 0};
// TODO(JD): generate also over N
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("repeat plays the sequence N times") {
// 1 ms on, 1 ms off = 2ms off in total per iteration
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1)};
auto seq = TestJLedSequence(mode, leds).Repeat(2);
uint32_t time = 0;
for (const auto val : expected) {
INFO("mode = " << mode << ", time = " << time);
seq.Update();
REQUIRE(val == leds[0].Hal().Value());
leds[0].Hal().SetMillis(++time);
}
REQUIRE(!seq.Update());
}
}
TEST_CASE("Forever seems to play the sequence forever", "[jled_sequence]") {
constexpr uint8_t expected[]{255, 0, 0};
constexpr auto num = sizeof(expected) / sizeof(expected[0]);
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("forever plays sequence forever") {
INFO("mode = " << mode);
// 1 ms on, 2 ms off in total per iteration
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 2)};
auto seq = TestJLedSequence(mode, leds).Forever();
for (uint32_t time = 0; time < 1000; time++) {
INFO("mode = " << mode << ", time = " << time << ",num=" << num
<< ", mo=" << (time % num));
leds[0].Hal().SetMillis(time);
REQUIRE(seq.Update());
CHECK(expected[time % num] == leds[0].Hal().Value());
}
}
}
TEST_CASE("Forever flag is initially set to false", "[jled_sequence]") {
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("forever flag is initially off") {
INFO("mode = " << mode);
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1)};
auto seq = TestJLedSequence(mode, leds);
REQUIRE_FALSE(seq.IsForever());
}
}
TEST_CASE("Forever flag is set by call to Forever()", "[jled_sequence]") {
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("forever flag is set") {
INFO("mode = " << mode);
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1)};
auto seq = TestJLedSequence(mode, leds).Forever();
REQUIRE(seq.IsForever());
}
}
TEST_CASE("Forever and Repeat calls can be chained", "[jled_sequence]") {
// this is a compile time check only
TestJLed leds[] = {TestJLed(0)};
TestJLedSequence hal[[gnu::unused]] =
TestJLedSequence(TestJLedSequence::eMode::PARALLEL, leds)
.Repeat(1)
.Forever();
}
TEST_CASE("reset on sequence resets all JLeds", "[jled_sequence]") {
constexpr uint8_t expected[]{/* 1ms on */ 255,
/* 1ms off */ 0, 255, 0,
/* finally off */ 0};
auto mode = GENERATE(TestJLedSequence::eMode::SEQUENCE,
TestJLedSequence::eMode::PARALLEL);
SECTION("reset all leds in sequence") {
INFO("mode = " << mode);
TestJLed leds[] = {TestJLed(HalMock(1)).Blink(1, 1)};
TestJLedSequence seq(mode, leds);
uint32_t time = 0;
for (const auto val : expected) {
seq.Update();
REQUIRE(val == leds[0].Hal().Value());
++time;
leds[0].Hal().SetMillis(time);
if (time == 2) {
// expect sequence to stop after 2ms
REQUIRE(!seq.Update());
seq.Reset();
}
}
}
}