176 lines
6.8 KiB
C++
176 lines
6.8 KiB
C++
#include "catch2/catch.hpp"
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#include "../stubs/stub_adc.h"
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#include "../stubs/stub_timebase.h"
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#include "buttons.h"
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#include "../hal/adc.h"
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bool Step_Basic_One_Button_Test(mb::Buttons &b, uint8_t oversampleFactor, uint8_t testedButtonIndex, uint8_t otherButton1, uint8_t otherButton2) {
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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b.Step(); // should detect the press but remain in detected state - wait for debounce
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mt::IncMillis();
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}
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CHECK(!b.ButtonPressed(testedButtonIndex));
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CHECK(!b.ButtonPressed(otherButton1));
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CHECK(!b.ButtonPressed(otherButton2));
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for (uint8_t i = 0; i < oversampleFactor - 1; ++i) {
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b.Step();
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mt::IncMillis();
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}
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// just before the debounce trigger
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CHECK(!b.ButtonPressed(testedButtonIndex));
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CHECK(!b.ButtonPressed(otherButton1));
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CHECK(!b.ButtonPressed(otherButton2));
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// Tune the alg to overcome an edge case in debouncing timing - just in the unit test
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// This is very brittle, needs some work @TODO to clean up
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mt::IncMillis(4);
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b.Step(); // reset to waiting
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CHECK(b.ButtonPressed(testedButtonIndex));
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CHECK(!b.ButtonPressed(otherButton1));
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CHECK(!b.ButtonPressed(otherButton2));
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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b.Step(); // pressed again, still in debouncing state
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mt::IncMillis();
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}
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CHECK(!b.ButtonPressed(testedButtonIndex));
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CHECK(!b.ButtonPressed(otherButton1));
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CHECK(!b.ButtonPressed(otherButton2));
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return true;
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}
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/// This test verifies the behaviour of a single button. The other buttons must remain intact.
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bool Step_Basic_One_Button(hal::adc::TADCData &&d, uint8_t testedButtonIndex) {
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mt::ReinitTimebase();
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mb::Buttons b;
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// need to oversample the data as debouncing takes some cycles to accept a pressed button
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constexpr uint8_t oversampleFactor = config::buttonsDebounceMs;
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hal::adc::ReinitADC(config::buttonsADCIndex, std::move(d), oversampleFactor);
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uint8_t otherButton1 = 1, otherButton2 = 2;
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switch (testedButtonIndex) {
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case 1:
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otherButton1 = 0;
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break;
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case 2:
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otherButton2 = 0;
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break;
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default:
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break; // no change
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}
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return Step_Basic_One_Button_Test(b, oversampleFactor, testedButtonIndex, otherButton1, otherButton2);
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}
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constexpr uint16_t M1(uint16_t v) {
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return static_cast<uint16_t>(v - 1U);
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}
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TEST_CASE("buttons::Step-basic-button", "[buttons]") {
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for (uint8_t i = 0; i < config::buttonCount; ++i) {
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CHECK(Step_Basic_One_Button({ M1(config::buttonADCLimits[i][0]),
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config::buttonADCLimits[i][1],
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config::buttonADCMaxValue },
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i));
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}
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}
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/// This test has to verify the independency of buttons - the ADC reads one button after the other
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/// and the Buttons class should press first button and release, then the second one and then the third one
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/// without being reinitialized.
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TEST_CASE("buttons::Step-basic-button-one-after-other", "[buttons]") {
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hal::adc::TADCData d({ M1(config::buttonADCLimits[0][0]), config::buttonADCLimits[0][0] + 1, config::buttonADCMaxValue,
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M1(config::buttonADCLimits[1][0]), config::buttonADCLimits[1][0] + 1, config::buttonADCMaxValue,
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M1(config::buttonADCLimits[2][0]), config::buttonADCLimits[2][0] + 1, config::buttonADCMaxValue });
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mb::Buttons b;
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// need to oversample the data as debouncing takes some cycles to accept a pressed button
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constexpr uint8_t oversampleFactor = config::buttonsDebounceMs;
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hal::adc::ReinitADC(config::buttonsADCIndex, std::move(d), oversampleFactor);
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CHECK(Step_Basic_One_Button_Test(b, oversampleFactor, 0, 1, 2));
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CHECK(Step_Basic_One_Button_Test(b, oversampleFactor, 1, 0, 2));
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CHECK(Step_Basic_One_Button_Test(b, oversampleFactor, 2, 0, 1));
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}
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void StepAndCheck(mb::Buttons &b, uint8_t oversampleFactor, bool rightPressed, bool middlePressed, bool leftPressed) {
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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b.Step(); // should detect the press but remain in detected state - wait for debounce
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mt::IncMillis();
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}
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CHECK(b.ButtonPressed(mb::Right) == rightPressed);
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CHECK(b.ButtonPressed(mb::Middle) == middlePressed);
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CHECK(b.ButtonPressed(mb::Left) == leftPressed);
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}
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/// This test tries to simulate a bouncing effect on data from ADC on the first button
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TEST_CASE("buttons::Step-debounce-one-button", "[buttons]") {
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// make a bounce event on the first press
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hal::adc::TADCData d({ 5, config::buttonADCMaxValue, 5, 9, 6, 7, 8, config::buttonADCMaxValue, config::buttonADCMaxValue });
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// need to oversample the data as debouncing takes 100 cycles to accept a pressed button
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constexpr uint8_t oversampleFactor = config::buttonsDebounceMs / 4;
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hal::adc::ReinitADC(config::buttonsADCIndex, std::move(d), oversampleFactor);
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mt::ReinitTimebase();
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mb::Buttons b;
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// 5: should detect the press but remain in detected state - wait for debounce
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 1023: reset to waiting
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 5: pressed again, still in debouncing state
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 9: no change
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 6: no change
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 7: one step from "pressed"
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 8: fifth set of samples - should report "pressed" finally
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StepAndCheck(b, oversampleFactor, true, false, false);
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// 1023: sixth set of samples - button released (no debouncing on release)
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StepAndCheck(b, oversampleFactor, false, false, false);
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// 1023: seventh set of samples - still released
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StepAndCheck(b, oversampleFactor, false, false, false);
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}
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TEST_CASE("buttons::verify_ADC_stub", "[buttons]") {
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hal::adc::TADCData d({ 5, config::buttonADCMaxValue, 5, 9, 6, 7, 8, config::buttonADCMaxValue, config::buttonADCMaxValue });
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// need to oversample the data as debouncing takes 100 cycles to accept a pressed button
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constexpr uint8_t oversampleFactor = config::buttonsDebounceMs / 4;
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hal::adc::ReinitADC(config::buttonsADCIndex, std::move(d), oversampleFactor);
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mt::ReinitTimebase();
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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uint16_t v = hal::adc::ReadADC(config::buttonsADCIndex);
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REQUIRE(v == 5);
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mt::IncMillis();
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}
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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uint16_t v = hal::adc::ReadADC(config::buttonsADCIndex);
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REQUIRE(v == config::buttonADCMaxValue);
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mt::IncMillis();
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}
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for (uint8_t i = 0; i < oversampleFactor; ++i) {
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uint16_t v = hal::adc::ReadADC(config::buttonsADCIndex);
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REQUIRE(v == 5);
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mt::IncMillis();
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}
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}
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