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Create Soldering.cpp

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Ben V. Brown
2022-11-22 18:07:38 +11:00
parent 7a3527c680
commit 24ab228f5a
1 changed files with 245 additions and 0 deletions
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source/Core/Threads/OperatingModes/Soldering.cpp Normal file
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#include "OperatingModes.h"
void gui_solderingMode(uint8_t jumpToSleep) {
/*
* * Soldering (gui_solderingMode)
* -> Main loop where we draw temp, and animations
* --> User presses buttons and they goto the temperature adjust screen
* ---> Display the current setpoint temperature
* ---> Use buttons to change forward and back on temperature
* ---> Both buttons or timeout for exiting
* --> Long hold front button to enter boost mode
* ---> Just temporarily sets the system into the alternate temperature for
* PID control
* --> Long hold back button to exit
* --> Double button to exit
* --> Long hold double button to toggle key lock
*/
bool boostModeOn = false;
bool buttonsLocked = false;
if (jumpToSleep) {
if (gui_SolderingSleepingMode(jumpToSleep == 2, true) == 1) {
lastButtonTime = xTaskGetTickCount();
return; // If the function returns non-0 then exit
}
}
for (;;) {
ButtonState buttons = getButtonState();
if (buttonsLocked && (getSettingValue(SettingsOptions::LockingMode) != 0)) { // If buttons locked
switch (buttons) {
case BUTTON_NONE:
boostModeOn = false;
break;
case BUTTON_BOTH_LONG:
// Unlock buttons
buttonsLocked = false;
warnUser(translatedString(Tr->UnlockingKeysString), TICKS_SECOND);
break;
case BUTTON_F_LONG:
// if boost mode is enabled turn it on
if (getSettingValue(SettingsOptions::BoostTemp) && (getSettingValue(SettingsOptions::LockingMode) == 1)) {
boostModeOn = true;
}
break;
// fall through
case BUTTON_BOTH:
case BUTTON_B_LONG:
case BUTTON_F_SHORT:
case BUTTON_B_SHORT:
// Do nothing and display a lock warning
warnUser(translatedString(Tr->WarningKeysLockedString), TICKS_SECOND / 2);
break;
default:
break;
}
} else { // Button not locked
switch (buttons) {
case BUTTON_NONE:
// stay
boostModeOn = false;
break;
case BUTTON_BOTH:
case BUTTON_B_LONG:
return; // exit on back long hold
case BUTTON_F_LONG:
// if boost mode is enabled turn it on
if (getSettingValue(SettingsOptions::BoostTemp))
boostModeOn = true;
break;
case BUTTON_F_SHORT:
case BUTTON_B_SHORT: {
uint16_t oldTemp = getSettingValue(SettingsOptions::SolderingTemp);
gui_solderingTempAdjust(); // goto adjust temp mode
if (oldTemp != getSettingValue(SettingsOptions::SolderingTemp)) {
saveSettings(); // only save on change
}
} break;
case BUTTON_BOTH_LONG:
if (getSettingValue(SettingsOptions::LockingMode) != 0) {
// Lock buttons
buttonsLocked = true;
warnUser(translatedString(Tr->LockingKeysString), TICKS_SECOND);
}
break;
default:
break;
}
}
// else we update the screen information
OLED::clearScreen();
// Draw in the screen details
if (getSettingValue(SettingsOptions::DetailedSoldering)) {
if (OLED::getRotation()) {
OLED::setCursor(50, 0);
} else {
OLED::setCursor(-1, 0);
}
gui_drawTipTemp(true, FontStyle::LARGE);
#ifndef NO_SLEEP_MODE
if (getSettingValue(SettingsOptions::Sensitivity) && getSettingValue(SettingsOptions::SleepTime)) {
if (OLED::getRotation()) {
OLED::setCursor(32, 0);
} else {
OLED::setCursor(47, 0);
}
printCountdownUntilSleep(getSleepTimeout());
}
#endif
if (boostModeOn) {
if (OLED::getRotation()) {
OLED::setCursor(38, 8);
} else {
OLED::setCursor(55, 8);
}
OLED::print(SymbolPlus, FontStyle::SMALL);
}
if (OLED::getRotation()) {
OLED::setCursor(0, 0);
} else {
OLED::setCursor(67, 0);
}
OLED::printNumber(x10WattHistory.average() / 10, 2, FontStyle::SMALL);
OLED::print(SymbolDot, FontStyle::SMALL);
OLED::printNumber(x10WattHistory.average() % 10, 1, FontStyle::SMALL);
OLED::print(SymbolWatts, FontStyle::SMALL);
if (OLED::getRotation()) {
OLED::setCursor(0, 8);
} else {
OLED::setCursor(67, 8);
}
printVoltage();
OLED::print(SymbolVolts, FontStyle::SMALL);
} else {
OLED::setCursor(0, 0);
// We switch the layout direction depending on the orientation of the oled
if (OLED::getRotation()) {
// battery
gui_drawBatteryIcon();
OLED::print(SymbolSpace, FontStyle::LARGE); // Space out gap between battery <-> temp
gui_drawTipTemp(true, FontStyle::LARGE); // Draw current tip temp
// We draw boost arrow if boosting, or else gap temp <-> heat
// indicator
if (boostModeOn)
OLED::drawSymbol(2);
else
OLED::print(SymbolSpace, FontStyle::LARGE);
// Draw heating/cooling symbols
OLED::drawHeatSymbol(X10WattsToPWM(x10WattHistory.average()));
} else {
// Draw heating/cooling symbols
OLED::drawHeatSymbol(X10WattsToPWM(x10WattHistory.average()));
// We draw boost arrow if boosting, or else gap temp <-> heat
// indicator
if (boostModeOn)
OLED::drawSymbol(2);
else
OLED::print(SymbolSpace, FontStyle::LARGE);
gui_drawTipTemp(true, FontStyle::LARGE); // Draw current tip temp
OLED::print(SymbolSpace, FontStyle::LARGE); // Space out gap between battery <-> temp
gui_drawBatteryIcon();
}
}
OLED::refresh();
// Update the setpoints for the temperature
if (boostModeOn) {
if (getSettingValue(SettingsOptions::TemperatureInF))
currentTempTargetDegC = TipThermoModel::convertFtoC(getSettingValue(SettingsOptions::BoostTemp));
else {
currentTempTargetDegC = (getSettingValue(SettingsOptions::BoostTemp));
}
} else {
if (getSettingValue(SettingsOptions::TemperatureInF))
currentTempTargetDegC = TipThermoModel::convertFtoC(getSettingValue(SettingsOptions::SolderingTemp));
else {
currentTempTargetDegC = (getSettingValue(SettingsOptions::SolderingTemp));
}
}
#ifdef POW_DC
// Undervoltage test
if (checkForUnderVoltage()) {
lastButtonTime = xTaskGetTickCount();
return;
}
#endif
#ifdef ACCEL_EXITS_ON_MOVEMENT
// If the accel works in reverse where movement will cause exiting the soldering mode
if (getSettingValue(SettingsOptions::Sensitivity)) {
if (lastMovementTime) {
if (lastMovementTime > TICKS_SECOND * 10) {
// If we have moved recently; in the last second
// Then exit soldering mode
if (((TickType_t)(xTaskGetTickCount() - lastMovementTime)) < (TickType_t)(TICKS_SECOND)) {
currentTempTargetDegC = 0;
return;
}
}
}
}
#endif
#ifdef NO_SLEEP_MODE
// No sleep mode, but still want shutdown timeout
if (shouldShutdown()) {
// shutdown
currentTempTargetDegC = 0;
return; // we want to exit soldering mode
}
#endif
if (shouldBeSleeping()) {
if (gui_SolderingSleepingMode(false, false)) {
return; // If the function returns non-0 then exit
}
}
// Update LED status
int error = currentTempTargetDegC - TipThermoModel::getTipInC();
if (error >= -10 && error <= 10) {
// converged
setStatusLED(LED_HOT);
} else {
setStatusLED(LED_HEATING);
}
// If we have tripped thermal runaway, turn off heater and show warning
if (heaterThermalRunaway) {
currentTempTargetDegC = 0; // heater control off
warnUser(translatedString(Tr->WarningThermalRunaway), 10 * TICKS_SECOND);
heaterThermalRunaway = false;
return;
}
// slow down ui update rate
GUIDelay();
}
}