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baf2f26e59
* Starting GUI render refactor to be more immediate mode Update TemperatureAdjust.cpp . Cleanup Soldering Sleep SolderingProfiles Soldering Rework Rough pass GUI Temp Adjust Cleanup old OperatingMode Debug Menu * Update TemperatureAdjust.cpp * Roughing some transition work * Fixup! Hook in the init starter helper * Better home screen button handler * FIXUP! Fix typo's . * Update SettingsMenu.cpp * More settings rework * More settings rendering * Fixup * Transitions Update SolderingProfile.cpp Hook in transistions * Update TemperatureAdjust.cpp * Update push.yml * Add auto-repeat to settings menu * Miniware: Use IT for I2C writes * Update USBPDDebug_HUSB238.cpp * Force write screen on side animation cancel . * Refactor moving down the settings list * Update settingsGUI.cpp * Update I2C_Wrapper.cpp * Update OLED.cpp * Rework button handling * Fix PD debug at boot * Fixup not showing right menu options * silence some warnings * Style cleanup * Fkit use bit-bang I2C for Miniware * Update GUIRendering.md * Fixup transition on enter soldering mode * Save Settings * Fixes for some animations not running Dont bail on animations if keypress is still held * Fixup settings acceleration * OLED Up animation * Link up/down on debug meny * Make all accelerometers I2C bus aware Update accelerometers_common.h * Make I2C mag optional * Miniware -> Only Bit-Bang I2C * Fixup for scrollbar FIXUP! Debug menu returns to home screen FIXUP! Up oled animation Fix temp exit * Settings menu -> Both buttons return a menu layer * Merge fixup * Update BMA223.cpp * Re-Enable OLED sleep * Save Setting on temp adjust exit * WiP on startup mode * Some autostart working * Add hibernation mode & more autostart fixes * If cant CJC; go to startup * Hibernate in sleep * Cleanup scroll indicator * FIXUP! Ensure startup warnings are linked in * FIXUP! Ensure we render out temp change before timing out * Ensure 100ms delay between CJC samples * Fix not re-calculating menu length on entering menu * Implement NegotiationinProgress for USB-PD * Mask heating until PD finishes negotiation * Fixup staying in hibernate correctly * Warning timeout * Show reset settings warning * Correctly compensate help text start time * Update GUIThread.cpp * Update USBPD.cpp * . * Fixup sleep time * Update printSleepCountdown.cpp * replacing countdown with big plus while in boost mode * bringing back the + 1 since it was missing when not in boost mode * Bail on USB-PD check after 3 seconds incase of DC source * Fix hibernate * Update PIDThread.cpp * did center plus symbol (boost mode) * Big refactor to not make settings increment handler handle the "is last item" return * Fixup boot logo * Fix flashing * Fixup recalculate the menu length on long hold * Fixup missing menu entries * Fix junk left on screen after user confirmation * Re-order button handler to use custom, then default order to allow setting associated setting * Attach setting for settings using custom handler * Fix swap +/- keys * Fix boost temp * Implement last menu option for Language selector * Wait for init before CJC runs * Check last setting via increment value * Update BSP.cpp * removed = from >= Otherwise incrementing would stop and the scroll bar would already flash at the second to last value. * (Hacky) Fix for Settings reset --------- Co-authored-by: discip <53649486+discip@users.noreply.github.com>
87 lines
4.1 KiB
C++
87 lines
4.1 KiB
C++
#include "OperatingModes.h"
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#ifdef POW_PD
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#ifdef HAS_POWER_DEBUG_MENU
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OperatingMode showPDDebug(const ButtonState buttons, guiContext *cxt) {
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// Print out the USB-PD state
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// Basically this is like the Debug menu, but instead we want to print out the PD status
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uint16_t *screen = &(cxt->scratch_state.state1);
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OLED::setCursor(0, 0); // Position the cursor at the 0,0 (top left)
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OLED::print(SmallSymbolPDDebug, FontStyle::SMALL); // Print Title
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OLED::setCursor(0, 8); // second line
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if ((*screen) == 0) {
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// Print the PD state machine
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OLED::print(SmallSymbolState, FontStyle::SMALL);
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OLED::print(SmallSymbolSpace, FontStyle::SMALL);
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OLED::printNumber(USBPowerDelivery::getStateNumber(), 2, FontStyle::SMALL, true);
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OLED::print(SmallSymbolSpace, FontStyle::SMALL);
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// Also print vbus mod status
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if (USBPowerDelivery::fusbPresent()) {
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if (USBPowerDelivery::negotiationComplete() || (xTaskGetTickCount() > (TICKS_SECOND * 10))) {
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if (!USBPowerDelivery::isVBUSConnected()) {
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OLED::print(SmallSymbolNoVBus, FontStyle::SMALL);
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} else {
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OLED::print(SmallSymbolVBus, FontStyle::SMALL);
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}
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}
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}
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} else {
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// Print out the Proposed power options one by one
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auto lastCaps = USBPowerDelivery::getLastSeenCapabilities();
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if (((*screen) - 1) < 11) {
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int voltage_mv = 0;
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int min_voltage = 0;
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int current_a_x100 = 0;
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int wattage = 0;
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if ((lastCaps[(*screen) - 1] & PD_PDO_TYPE) == PD_PDO_TYPE_FIXED) {
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voltage_mv = PD_PDV2MV(PD_PDO_SRC_FIXED_VOLTAGE_GET(lastCaps[(*screen) - 1])); // voltage in mV units
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current_a_x100 = PD_PDO_SRC_FIXED_CURRENT_GET(lastCaps[(*screen) - 1]); // current in 10mA units
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} else if (((lastCaps[(*screen) - 1] & PD_PDO_TYPE) == PD_PDO_TYPE_AUGMENTED) && ((lastCaps[(*screen) - 1] & PD_APDO_TYPE) == PD_APDO_TYPE_AVS)) {
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voltage_mv = PD_PAV2MV(PD_APDO_AVS_MAX_VOLTAGE_GET(lastCaps[(*screen) - 1]));
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min_voltage = PD_PAV2MV(PD_APDO_PPS_MIN_VOLTAGE_GET(lastCaps[(*screen) - 1]));
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// Last value is wattage
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wattage = PD_APDO_AVS_MAX_POWER_GET(lastCaps[(*screen) - 1]);
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} else if (((lastCaps[(*screen) - 1] & PD_PDO_TYPE) == PD_PDO_TYPE_AUGMENTED) && ((lastCaps[(*screen) - 1] & PD_APDO_TYPE) == PD_APDO_TYPE_PPS)) {
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voltage_mv = PD_PAV2MV(PD_APDO_PPS_MAX_VOLTAGE_GET(lastCaps[(*screen) - 1]));
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min_voltage = PD_PAV2MV(PD_APDO_PPS_MIN_VOLTAGE_GET(lastCaps[(*screen) - 1]));
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current_a_x100 = PD_PAI2CA(PD_APDO_PPS_CURRENT_GET(lastCaps[(*screen) - 1])); // max current in 10mA units
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}
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// Skip not used entries
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if (voltage_mv == 0) {
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(*screen) += 1;
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} else {
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// print out this entry of the proposal
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OLED::printNumber(*screen, 2, FontStyle::SMALL, true); // print the entry number
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OLED::print(SmallSymbolSpace, FontStyle::SMALL);
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if (min_voltage > 0) {
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OLED::printNumber(min_voltage / 1000, 2, FontStyle::SMALL, true); // print the voltage
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OLED::print(SmallSymbolMinus, FontStyle::SMALL);
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}
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OLED::printNumber(voltage_mv / 1000, 2, FontStyle::SMALL, true); // print the voltage
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OLED::print(SmallSymbolVolts, FontStyle::SMALL);
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OLED::print(SmallSymbolSpace, FontStyle::SMALL);
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if (wattage) {
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OLED::printNumber(wattage, 3, FontStyle::SMALL, true); // print the current in 0.1A res
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OLED::print(SmallSymbolWatts, FontStyle::SMALL);
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} else {
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OLED::printNumber(current_a_x100 / 100, 2, FontStyle::SMALL, true); // print the current in 0.1A res
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OLED::print(SmallSymbolDot, FontStyle::SMALL);
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OLED::printNumber(current_a_x100 % 100, 2, FontStyle::SMALL, false); // print the current in 0.1A res
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OLED::print(SmallSymbolAmps, FontStyle::SMALL);
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}
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}
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} else {
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(*screen) = 0;
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}
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}
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if (buttons == BUTTON_B_SHORT) {
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return OperatingMode::InitialisationDone;
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} else if (buttons == BUTTON_F_SHORT) {
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(*screen) += 1;
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}
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return OperatingMode::UsbPDDebug;
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}
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#endif
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#endif
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