151 lines
5.2 KiB
C++
151 lines
5.2 KiB
C++
#include "main_loop_stub.h"
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#include "homing.h"
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#include "../../modules/stubs/stub_adc.h"
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#include "../../modules/stubs/stub_eeprom.h"
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#include "../../modules/stubs/stub_timebase.h"
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#include "../../../../src/modules/buttons.h"
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#include "../../../../src/modules/finda.h"
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#include "../../../../src/modules/fsensor.h"
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#include "../../../../src/modules/globals.h"
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#include "../../../../src/modules/idler.h"
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#include "../../../../src/modules/leds.h"
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#include "../../../../src/modules/motion.h"
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#include "../../../../src/modules/permanent_storage.h"
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#include "../../../../src/modules/pulley.h"
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#include "../../../../src/modules/selector.h"
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#include "../../../../src/modules/user_input.h"
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#include "../../../../src/logic/no_command.h"
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#include "../stubs/stub_motion.h"
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#include <new> // bring in placement new
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#include <stddef.h>
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void main_loop() {
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mb::buttons.Step();
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ml::leds.Step();
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mf::finda.Step();
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mfs::fsensor.Step();
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mi::idler.Step();
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mpu::pulley.Step();
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ms::selector.Step();
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mm::motion.Step();
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mui::userInput.Step();
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mt::IncMillis();
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}
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void ForceReinitAllAutomata() {
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// This woodoo magic with placement new is just a forced reinit of global instances of firmware's state machines
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// just for the purposes of separate unit tests. Each unit test needs a "freshly booted firmware" and since all unit tests
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// in the test binary share the same global data structures, we need some way of making them fresh each time.
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//
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// This approach mimics the firmware behavior closely as the firmware initializes its global data structures
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// on its very start once (by copying static init data from PROGMEM into RAM) - and we need exactly this approach in the unit tests.
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//
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// There are multiple other approaches, one of them is adding a special Init() function into each of these state machines.
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// As this approach might look like a standard and safer way of doing stuff, it has several drawbacks, especially
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// it needs an explicit call to the Init function every time an object like this is created - this can have negative influence on firmware's code size
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new (&mb::buttons) mb::Buttons();
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new (&ml::leds) ml::LEDs();
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new (&mf::finda) mf::FINDA();
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new (&mfs::fsensor) mfs::FSensor();
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new (&mi::idler) mi::Idler();
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new (&mpu::pulley) mpu::Pulley();
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new (&ms::selector) ms::Selector();
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new (&mm::motion) mm::Motion();
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hal::eeprom::ClearEEPROM();
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// no buttons involved ;)
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hal::adc::ReinitADC(config::buttonsADCIndex, hal::adc::TADCData({ 1023 }), 1);
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// finda OFF
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hal::gpio::WritePin(FINDA_PIN, hal::gpio::Level::low);
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// reinit timing
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mt::ReinitTimebase();
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// reinit axes positions
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mm::ReinitMotion();
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// let's assume we have the filament NOT loaded and active slot 0
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mg::globals.SetFilamentLoaded(mg::globals.ActiveSlot(), mg::FilamentLoadState::AtPulley);
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}
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void HomeIdlerAndSelector() {
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ms::selector.InvalidateHoming();
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mi::idler.InvalidateHoming();
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logic::NoCommand nc; // just a dummy instance which has an empty Step()
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SimulateIdlerAndSelectorHoming(nc);
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}
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bool EnsureActiveSlotIndex(uint8_t slot, mg::FilamentLoadState loadState) {
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HomeIdlerAndSelector();
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// move selector to the right spot
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if (ms::selector.MoveToSlot(slot) == ms::Selector::OperationResult::Refused)
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return false;
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while (ms::selector.Slot() != slot)
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main_loop();
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// mg::globals.SetActiveSlot(slot);
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mg::globals.SetFilamentLoaded(slot, loadState);
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return true;
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}
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void SetFINDAStateAndDebounce(bool press) {
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hal::gpio::WritePin(FINDA_PIN, press ? hal::gpio::Level::high : hal::gpio::Level::low);
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for (size_t i = 0; i < config::findaDebounceMs + 1; ++i)
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main_loop();
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}
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// The idea is to set fsOff and findaOff to some reasonable values (like 10 and 1000)
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// for normal situations.
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// For errorneous situations set fsOff or findaOff to some number higher than the number of steps
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// the testing routine is allowed to do -> thus effectively blocking the corresponding moment for fsensor
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// and finda switching off
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bool SimulateUnloadToFINDA(uint32_t step, uint32_t fsOff, uint32_t findaOff) {
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if (step == fsOff) { // make FSensor switch off
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mfs::fsensor.ProcessMessage(false);
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return true;
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} else if (step == findaOff) { // make FINDA switch off
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hal::gpio::WritePin(FINDA_PIN, hal::gpio::Level::low);
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}
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return mf::finda.Pressed();
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}
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bool SimulateFeedToFINDA(uint32_t step, uint32_t findaOn) {
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if (step == findaOn) {
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hal::gpio::WritePin(FINDA_PIN, hal::gpio::Level::high);
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}
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return !mf::finda.Pressed();
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}
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bool SimulateRetractFromFINDA(uint32_t step, uint32_t findaOff) {
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if (step == findaOff) {
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hal::gpio::WritePin(FINDA_PIN, hal::gpio::Level::low);
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}
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return mf::finda.Pressed();
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}
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void PressButtonAndDebounce(logic::CommandBase &cb, uint8_t btnIndex) {
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hal::adc::SetADC(config::buttonsADCIndex, config::buttonADCLimits[btnIndex][0] + 1);
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while (!mb::buttons.ButtonPressed(btnIndex)) {
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main_loop();
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cb.Step(); // Inner
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}
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}
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void ClearButtons(logic::CommandBase &cb) {
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hal::adc::SetADC(config::buttonsADCIndex, config::buttonADCMaxValue);
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while (mb::buttons.AnyButtonPressed()) {
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main_loop();
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cb.Step(); // Inner
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}
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}
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