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Migrating

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This commit is contained in:
Ben V. Brown
2024-02-18 11:09:27 +11:00
parent 6a0a19f0fd
commit 9ff4805068
31 changed files with 429 additions and 349 deletions
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1
source/Core/Inc/settingsGUI.hpp
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@@ -36,7 +36,6 @@ typedef struct {
} menuitem;
void enterSettingsMenu();
bool warnUser(const char *warning, const ButtonState buttons);
extern const menuitem rootSettingsMenu[];
extern const menuitem *subSettingsMenus[];

1
source/Core/Src/settingsGUI.cpp
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@@ -13,6 +13,7 @@
#include "cmsis_os.h"
#include "configuration.h"
#include "main.hpp"
#include "ui_drawing.hpp"
#ifdef POW_DC
static void displayInputVRange(void);

3
source/Core/Threads/GUIThread.cpp
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@@ -26,6 +26,7 @@ extern "C" {
#include "settingsGUI.hpp"
#include "stdlib.h"
#include "string.h"
#include "ui_drawing.hpp"
#ifdef POW_PD
#include "USBPD.h"
#include "pd.h"
@@ -216,7 +217,7 @@ void startGUITask(void const *argument) {
OLED::setInverseDisplay(getSettingValue(SettingsOptions::OLEDInversion));
bool buttonLockout = false;
renderHomeScreenAssets();
ui_pre_render_assets();
getTipRawTemp(1); // reset filter
memset(&context, 0, sizeof(context));

1
source/Core/Threads/UI/drawing/mono_96x16/PrintVoltage.cpp Normal file
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@@ -0,0 +1 @@
#include "OperatingModeUtilities.h"

11
source/Core/Threads/UI/drawing/mono_96x16/draw_cjc_sampling.cpp Normal file
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@@ -0,0 +1,11 @@
#include "ui_drawing.hpp"
void ui_draw_cjc_sampling(const uint8_t num_dots) {
OLED::setCursor(0, 0);
OLED::print(translatedString(Tr->CJCCalibrating), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
for (uint8_t x = 0; x < num_dots; x++) {
OLED::print(SmallSymbolDot, FontStyle::SMALL);
}
}

92
source/Core/Threads/UI/drawing/mono_96x16/draw_debug_menu.cpp Normal file
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@@ -0,0 +1,92 @@
#include "OperatingModes.h"
#include "TipThermoModel.h"
#include "main.hpp"
#include "ui_drawing.hpp"
extern osThreadId GUITaskHandle;
extern osThreadId MOVTaskHandle;
extern osThreadId PIDTaskHandle;
void ui_draw_debug_menu(const uint8_t item_number) {
OLED::setCursor(0, 0); // Position the cursor at the 0,0 (top left)
OLED::print(SmallSymbolVersionNumber, FontStyle::SMALL); // Print version number
OLED::setCursor(0, 8); // second line
OLED::print(DebugMenu[item_number], FontStyle::SMALL);
switch (item_number) {
case 0: // Build Date
break;
case 1: // Device ID
{
uint64_t id = getDeviceID();
#ifdef DEVICE_HAS_VALIDATION_CODE
// If device has validation code; then we want to take over both lines of the screen
OLED::clearScreen(); // Ensure the buffer starts clean
OLED::setCursor(0, 0); // Position the cursor at the 0,0 (top left)
OLED::print(DebugMenu[item_number], FontStyle::SMALL);
OLED::drawHex(getDeviceValidation(), FontStyle::SMALL, 8);
OLED::setCursor(0, 8); // second line
#endif
OLED::drawHex((uint32_t)(id >> 32), FontStyle::SMALL, 8);
OLED::drawHex((uint32_t)(id & 0xFFFFFFFF), FontStyle::SMALL, 8);
} break;
case 2: // ACC Type
OLED::print(AccelTypeNames[(int)DetectedAccelerometerVersion], FontStyle::SMALL);
break;
case 3: // Power Negotiation Status
OLED::print(PowerSourceNames[getPowerSourceNumber()], FontStyle::SMALL);
break;
case 4: // Input Voltage
printVoltage();
break;
case 5: // Temp in °C
OLED::printNumber(TipThermoModel::getTipInC(), 6, FontStyle::SMALL);
break;
case 6: // Handle Temp in °C
OLED::printNumber(getHandleTemperature(0) / 10, 6, FontStyle::SMALL);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(getHandleTemperature(0) % 10, 1, FontStyle::SMALL);
break;
case 7: // Max Temp Limit in °C
OLED::printNumber(TipThermoModel::getTipMaxInC(), 6, FontStyle::SMALL);
break;
case 8: // System Uptime
OLED::printNumber(xTaskGetTickCount() / TICKS_100MS, 8, FontStyle::SMALL);
break;
case 9: // Movement Timestamp
OLED::printNumber(lastMovementTime / TICKS_100MS, 8, FontStyle::SMALL);
break;
case 10: // Tip Resistance in Ω
OLED::printNumber(getTipResistanceX10() / 10, 6, FontStyle::SMALL); // large to pad over so that we cover ID left overs
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(getTipResistanceX10() % 10, 1, FontStyle::SMALL);
break;
case 11: // Raw Tip in µV
OLED::printNumber(TipThermoModel::convertTipRawADCTouV(getTipRawTemp(0), true), 8, FontStyle::SMALL);
break;
case 12: // Tip Cold Junction Compensation Offset in µV
OLED::printNumber(getSettingValue(SettingsOptions::CalibrationOffset), 8, FontStyle::SMALL);
break;
case 13: // High Water Mark for GUI
OLED::printNumber(uxTaskGetStackHighWaterMark(GUITaskHandle), 8, FontStyle::SMALL);
break;
case 14: // High Water Mark for Movement Task
OLED::printNumber(uxTaskGetStackHighWaterMark(MOVTaskHandle), 8, FontStyle::SMALL);
break;
case 15: // High Water Mark for PID Task
OLED::printNumber(uxTaskGetStackHighWaterMark(PIDTaskHandle), 8, FontStyle::SMALL);
break;
break;
#ifdef HALL_SENSOR
case 16: // Raw Hall Effect Value
{
int16_t hallEffectStrength = getRawHallEffect();
if (hallEffectStrength < 0) {
hallEffectStrength = -hallEffectStrength;
}
OLED::printNumber(hallEffectStrength, 6, FontStyle::SMALL);
} break;
#endif
default:
break;
}
}

55
source/Core/Threads/UI/drawing/mono_96x16/draw_homescreen_detailed.cpp Normal file
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@@ -0,0 +1,55 @@
#include "ui_drawing.hpp"
extern uint8_t buttonAF[sizeof(buttonA)];
extern uint8_t buttonBF[sizeof(buttonB)];
extern uint8_t disconnectedTipF[sizeof(disconnectedTip)];
void ui_draw_homescreen_detailed(TemperatureType_t tipTemp) {
if (isTipDisconnected()) {
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::drawArea(54, 0, 42, 16, disconnectedTipF);
} else {
OLED::drawArea(0, 0, 42, 16, disconnectedTip);
}
if (OLED::getRotation()) {
OLED::setCursor(-1, 0);
} else {
OLED::setCursor(42, 0);
}
uint32_t Vlt = getInputVoltageX10(getSettingValue(SettingsOptions::VoltageDiv), 0);
OLED::printNumber(Vlt / 10, 2, FontStyle::LARGE);
OLED::print(LargeSymbolDot, FontStyle::LARGE);
OLED::printNumber(Vlt % 10, 1, FontStyle::LARGE);
if (OLED::getRotation()) {
OLED::setCursor(48, 8);
} else {
OLED::setCursor(91, 8);
}
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
} else {
if (!(getSettingValue(SettingsOptions::CoolingTempBlink) && (tipTemp > 55) && (xTaskGetTickCount() % 1000 < 300))) {
// Blink temp if setting enable and temp < 55°
// 1000 tick/sec
// OFF 300ms ON 700ms
ui_draw_tip_temperature(true, FontStyle::LARGE); // draw in the temp
}
if (OLED::getRotation()) {
OLED::setCursor(6, 0);
} else {
OLED::setCursor(73, 0); // top right
}
// draw set temp
OLED::printNumber(getSettingValue(SettingsOptions::SolderingTemp), 3, FontStyle::SMALL);
OLED::printSymbolDeg(FontStyle::SMALL);
if (OLED::getRotation()) {
OLED::setCursor(0, 8);
} else {
OLED::setCursor(67, 8); // bottom right
}
printVoltage(); // draw voltage then symbol (v)
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
}
}

59
source/Core/Threads/UI/drawing/mono_96x16/draw_homescreen_simplified.cpp Normal file
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@@ -0,0 +1,59 @@
#include "ui_drawing.hpp"
extern uint8_t buttonAF[sizeof(buttonA)];
extern uint8_t buttonBF[sizeof(buttonB)];
extern uint8_t disconnectedTipF[sizeof(disconnectedTip)];
void ui_draw_homescreen_simplified(TemperatureType_t tipTemp) {
bool tempOnDisplay = false;
bool tipDisconnectedDisplay = false;
if (OLED::getRotation()) {
OLED::drawArea(54, 0, 42, 16, buttonAF);
OLED::drawArea(12, 0, 42, 16, buttonBF);
OLED::setCursor(0, 0);
ui_draw_power_source_icon();
} else {
OLED::drawArea(0, 0, 42, 16, buttonA); // Needs to be flipped so button ends up
OLED::drawArea(42, 0, 42, 16, buttonB); // on right side of screen
OLED::setCursor(84, 0);
ui_draw_power_source_icon();
}
tipDisconnectedDisplay = false;
if (tipTemp > 55) {
tempOnDisplay = true;
} else if (tipTemp < 45) {
tempOnDisplay = false;
}
if (isTipDisconnected()) {
tempOnDisplay = false;
tipDisconnectedDisplay = true;
}
if (tempOnDisplay || tipDisconnectedDisplay) {
// draw temp over the start soldering button
// Location changes on screen rotation
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::fillArea(55, 0, 41, 16, 0); // clear the area for the temp
OLED::setCursor(56, 0);
} else {
OLED::fillArea(0, 0, 41, 16, 0); // clear the area
OLED::setCursor(0, 0);
}
// If we have a tip connected draw the temp, if not we leave it blank
if (!tipDisconnectedDisplay) {
// draw in the temp
if (!(getSettingValue(SettingsOptions::CoolingTempBlink) && (xTaskGetTickCount() % 1000 < 300))) {
ui_draw_tip_temperature(false, FontStyle::LARGE); // draw in the temp
}
} else {
// Draw in missing tip symbol
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::drawArea(54, 0, 42, 16, disconnectedTipF);
} else {
OLED::drawArea(0, 0, 42, 16, disconnectedTip);
}
}
}
}

4
source/Core/Threads/UI/logic/utils/drawPowerSourceIcon.cpp → source/Core/Threads/UI/drawing/mono_96x16/draw_power_source_icon.cpp
View File

@@ -1,6 +1,6 @@
#include "OperatingModeUtilities.h"
#include "ui_drawing.hpp"
void gui_drawBatteryIcon(void) {
void ui_draw_power_source_icon(void) {
#if defined(POW_PD) || defined(POW_QC) || defined(POW_PD_EXT)
if (!getIsPoweredByDCIN()) {
// On non-DC inputs we replace this symbol with the voltage we are operating on

42
source/Core/Threads/UI/drawing/mono_96x16/draw_soldering_basic_status.cpp Normal file
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@@ -0,0 +1,42 @@
#include "power.hpp"
#include "ui_drawing.hpp"
void ui_draw_soldering_basic_status(bool boostModeOn) {
OLED::setCursor(0, 0);
// We switch the layout direction depending on the orientation of the oled
if (OLED::getRotation()) {
// battery
ui_draw_power_source_icon();
// Space out gap between battery <-> temp
OLED::print(LargeSymbolSpace, FontStyle::LARGE);
// Draw current tip temp
ui_draw_tip_temperature(true, FontStyle::LARGE);
// We draw boost arrow if boosting,
// or else gap temp <-> heat indicator
if (boostModeOn) {
OLED::drawSymbol(2);
} else {
OLED::print(LargeSymbolSpace, 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(LargeSymbolSpace, FontStyle::LARGE);
}
// Draw current tip temp
ui_draw_tip_temperature(true, FontStyle::LARGE);
// Space out gap between battery <-> temp
OLED::print(LargeSymbolSpace, FontStyle::LARGE);
ui_draw_power_source_icon();
}
}

32
source/Core/Threads/UI/drawing/mono_96x16/draw_soldering_power_status.cpp Normal file
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@@ -0,0 +1,32 @@
#include "power.hpp"
#include "ui_drawing.hpp"
void ui_draw_soldering_power_status(void) {
if (OLED::getRotation()) {
OLED::setCursor(0, 0);
} else {
OLED::setCursor(67, 0);
}
// Print wattage
{
uint32_t x10Watt = x10WattHistory.average();
if (x10Watt > 999) {
// If we exceed 99.9W we drop the decimal place to keep it all fitting
OLED::print(SmallSymbolSpace, FontStyle::SMALL);
OLED::printNumber(x10WattHistory.average() / 10, 3, FontStyle::SMALL);
} else {
OLED::printNumber(x10WattHistory.average() / 10, 2, FontStyle::SMALL);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(x10WattHistory.average() % 10, 1, FontStyle::SMALL);
}
OLED::print(SmallSymbolWatts, FontStyle::SMALL);
}
if (OLED::getRotation()) {
OLED::setCursor(0, 8);
} else {
OLED::setCursor(67, 8);
}
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
}

34
source/Core/Threads/UI/drawing/mono_96x16/draw_soldering_sleep_mode.cpp Normal file
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@@ -0,0 +1,34 @@
#include "ui_drawing.hpp"
void ui_draw_soldering_detailed_sleep(TemperatureType_t tipTemp) {
OLED::clearScreen();
OLED::setCursor(0, 0);
OLED::print(translatedString(Tr->SleepingAdvancedString), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(translatedString(Tr->SleepingTipAdvancedString), FontStyle::SMALL);
OLED::printNumber(tipTemp, 3, FontStyle::SMALL);
if (getSettingValue(SettingsOptions::TemperatureInF)) {
OLED::print(SmallSymbolDegF, FontStyle::SMALL);
} else {
OLED::print(SmallSymbolDegC, FontStyle::SMALL);
}
OLED::print(SmallSymbolSpace, FontStyle::SMALL);
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
OLED::refresh();
}
void ui_draw_soldering_basic_sleep(TemperatureType_t tipTemp) {
OLED::clearScreen();
OLED::setCursor(0, 0);
OLED::print(translatedString(Tr->SleepingSimpleString), FontStyle::LARGE);
OLED::printNumber(tipTemp, 3, FontStyle::LARGE);
OLED::printSymbolDeg(FontStyle::EXTRAS);
OLED::refresh();
}

2
source/Core/Threads/UI/logic/utils/DrawTipTemperature.cpp → source/Core/Threads/UI/drawing/mono_96x16/draw_tip_temperature.cpp
View File

@@ -3,7 +3,7 @@
#include "SolderingCommon.h"
#include "TipThermoModel.h"
void gui_drawTipTemp(bool symbol, const FontStyle font) {
void ui_draw_tip_temperature(bool symbol, const FontStyle font) {
// Draw tip temp handling unit conversion & tolerance near setpoint
TemperatureType_t Temp = getTipTemp();

20
source/Core/Threads/UI/drawing/mono_96x16/draw_warning_undervoltage.cpp Normal file
View File

@@ -0,0 +1,20 @@
#include "ui_drawing.hpp"
void ui_draw_warning_undervoltage(void) {
OLED::clearScreen();
OLED::setCursor(0, 0);
if (getSettingValue(SettingsOptions::DetailedSoldering)) {
OLED::print(translatedString(Tr->UndervoltageString), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(translatedString(Tr->InputVoltageString), FontStyle::SMALL);
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
} else {
OLED::print(translatedString(Tr->UVLOWarningString), FontStyle::LARGE);
}
OLED::refresh();
GUIDelay();
waitForButtonPress();
}

17
source/Core/Threads/UI/drawing/mono_96x16/pre_render_assets.cpp Normal file
View File

@@ -0,0 +1,17 @@
#include "ui_drawing.hpp"
uint8_t buttonAF[sizeof(buttonA)];
uint8_t buttonBF[sizeof(buttonB)];
uint8_t disconnectedTipF[sizeof(disconnectedTip)];
void ui_pre_render_assets(void) {
// Generate the flipped screen into ram for later use
// flipped is generated by flipping each row
for (int row = 0; row < 2; row++) {
for (int x = 0; x < 42; x++) {
buttonAF[(row * 42) + x] = buttonA[(row * 42) + (41 - x)];
buttonBF[(row * 42) + x] = buttonB[(row * 42) + (41 - x)];
disconnectedTipF[(row * 42) + x] = disconnectedTip[(row * 42) + (41 - x)];
}
}
}

0
source/Core/Threads/UI/logic/utils/printSleepCountdown.cpp → source/Core/Threads/UI/drawing/mono_96x16/printSleepCountdown.cpp
View File

2
source/Core/Threads/UI/logic/utils/PrintVoltage.cpp → source/Core/Threads/UI/drawing/mono_96x16/print_voltage.cpp
View File

@@ -1,4 +1,4 @@
#include "OperatingModeUtilities.h"
#include "ui_drawing.hpp"
void printVoltage(void) {
uint32_t volt = getInputVoltageX10(getSettingValue(SettingsOptions::VoltageDiv), 0);

0
source/Core/Threads/UI/logic/utils/ShowWarning.cpp → source/Core/Threads/UI/drawing/mono_96x16/show_warning.cpp
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26
source/Core/Threads/UI/drawing/ui_drawing.hpp Normal file
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@@ -0,0 +1,26 @@
#ifndef UI_DRAWING_UI_DRAWING_HPP_
#define UI_DRAWING_UI_DRAWING_HPP_
#include "Buttons.hpp"
#include "OLED.hpp"
#include "OperatingModeUtilities.h"
#include "configuration.h"
#include <stdbool.h>
#include <stdint.h>
#include <string.h>
void ui_draw_warning_undervoltage(void);
void ui_draw_power_source_icon(void); // Draw a single character wide power source icon
void ui_draw_tip_temperature(bool symbol, const FontStyle font); // Draw tip temp, aware of conversions
bool warnUser(const char *warning, const ButtonState buttons); // Print a full screen warning to the user
void ui_draw_cjc_sampling(const uint8_t num_dots); // Draws the CJC info text and progress dots
void ui_draw_debug_menu(const uint8_t item_number); // Draws the debug menu state
void ui_draw_homescreen_detailed(TemperatureType_t tipTemp); // Drawing the home screen -- Detailed mode
void ui_draw_homescreen_simplified(TemperatureType_t tipTemp); // Drawing the home screen -- Simple mode
void ui_pre_render_assets(void); // If any assets need to be pre-rendered into ram
// Soldering mode
void ui_draw_soldering_power_status(void);
void ui_draw_soldering_basic_status(bool boostModeOn);
void ui_draw_soldering_detailed_sleep(TemperatureType_t tipTemp);
void ui_draw_soldering_basic_sleep(TemperatureType_t tipTemp);
// Utils
void printVoltage(void);
#endif // UI_DRAWING_UI_DRAWING_HPP_

13
source/Core/Threads/UI/logic/CJC.cpp
View File

@@ -1,6 +1,6 @@
#include "OperatingModes.h"
#include "ui_drawing.hpp"
OperatingMode performCJCC(const ButtonState buttons, guiContext *cxt) {
// Calibrate Cold Junction Compensation directly at boot, before internal components get warm.
@@ -19,14 +19,7 @@ OperatingMode performCJCC(const ButtonState buttons, guiContext *cxt) {
cxt->scratch_state.state1++;
cxt->scratch_state.state4 = xTaskGetTickCount();
}
OLED::setCursor(0, 0);
OLED::print(translatedString(Tr->CJCCalibrating), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
for (uint8_t x = 0; x < (cxt->scratch_state.state1 / 4); x++) {
OLED::print(SmallSymbolDot, FontStyle::SMALL);
}
ui_draw_cjc_sampling(cxt->scratch_state.state1 / 4);
return OperatingMode::CJCCalibration;
}

86
source/Core/Threads/UI/logic/DebugMenu.cpp
View File

@@ -1,91 +1,9 @@
#include "OperatingModes.h"
extern osThreadId GUITaskHandle;
extern osThreadId MOVTaskHandle;
extern osThreadId PIDTaskHandle;
#include "ui_drawing.hpp"
OperatingMode showDebugMenu(const ButtonState buttons, guiContext *cxt) {
OLED::setCursor(0, 0); // Position the cursor at the 0,0 (top left)
OLED::print(SmallSymbolVersionNumber, FontStyle::SMALL); // Print version number
OLED::setCursor(0, 8); // second line
OLED::print(DebugMenu[cxt->scratch_state.state1], FontStyle::SMALL);
switch (cxt->scratch_state.state1) {
case 0: // Build Date
break;
case 1: // Device ID
{
uint64_t id = getDeviceID();
#ifdef DEVICE_HAS_VALIDATION_CODE
// If device has validation code; then we want to take over both lines of the screen
OLED::clearScreen(); // Ensure the buffer starts clean
OLED::setCursor(0, 0); // Position the cursor at the 0,0 (top left)
OLED::print(DebugMenu[cxt->scratch_state.state1], FontStyle::SMALL);
OLED::drawHex(getDeviceValidation(), FontStyle::SMALL, 8);
OLED::setCursor(0, 8); // second line
#endif
OLED::drawHex((uint32_t)(id >> 32), FontStyle::SMALL, 8);
OLED::drawHex((uint32_t)(id & 0xFFFFFFFF), FontStyle::SMALL, 8);
} break;
case 2: // ACC Type
OLED::print(AccelTypeNames[(int)DetectedAccelerometerVersion], FontStyle::SMALL);
break;
case 3: // Power Negotiation Status
OLED::print(PowerSourceNames[getPowerSourceNumber()], FontStyle::SMALL);
break;
case 4: // Input Voltage
printVoltage();
break;
case 5: // Temp in °C
OLED::printNumber(TipThermoModel::getTipInC(), 6, FontStyle::SMALL);
break;
case 6: // Handle Temp in °C
OLED::printNumber(getHandleTemperature(0) / 10, 6, FontStyle::SMALL);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(getHandleTemperature(0) % 10, 1, FontStyle::SMALL);
break;
case 7: // Max Temp Limit in °C
OLED::printNumber(TipThermoModel::getTipMaxInC(), 6, FontStyle::SMALL);
break;
case 8: // System Uptime
OLED::printNumber(xTaskGetTickCount() / TICKS_100MS, 8, FontStyle::SMALL);
break;
case 9: // Movement Timestamp
OLED::printNumber(lastMovementTime / TICKS_100MS, 8, FontStyle::SMALL);
break;
case 10: // Tip Resistance in Ω
OLED::printNumber(getTipResistanceX10() / 10, 6, FontStyle::SMALL); // large to pad over so that we cover ID left overs
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(getTipResistanceX10() % 10, 1, FontStyle::SMALL);
break;
case 11: // Raw Tip in µV
OLED::printNumber(TipThermoModel::convertTipRawADCTouV(getTipRawTemp(0), true), 8, FontStyle::SMALL);
break;
case 12: // Tip Cold Junction Compensation Offset in µV
OLED::printNumber(getSettingValue(SettingsOptions::CalibrationOffset), 8, FontStyle::SMALL);
break;
case 13: // High Water Mark for GUI
OLED::printNumber(uxTaskGetStackHighWaterMark(GUITaskHandle), 8, FontStyle::SMALL);
break;
case 14: // High Water Mark for Movement Task
OLED::printNumber(uxTaskGetStackHighWaterMark(MOVTaskHandle), 8, FontStyle::SMALL);
break;
case 15: // High Water Mark for PID Task
OLED::printNumber(uxTaskGetStackHighWaterMark(PIDTaskHandle), 8, FontStyle::SMALL);
break;
break;
#ifdef HALL_SENSOR
case 16: // Raw Hall Effect Value
{
int16_t hallEffectStrength = getRawHallEffect();
if (hallEffectStrength < 0) {
hallEffectStrength = -hallEffectStrength;
}
OLED::printNumber(hallEffectStrength, 6, FontStyle::SMALL);
} break;
#endif
default:
break;
}
ui_draw_debug_menu(cxt->scratch_state.state1);
if (buttons == BUTTON_B_SHORT) {
cxt->transitionMode = TransitionAnimation::Down;

125
source/Core/Threads/UI/logic/HomeScreen.cpp
View File

@@ -1,24 +1,9 @@
#include "Buttons.hpp"
#include "OperatingModes.h"
#include "ui_drawing.hpp"
uint8_t buttonAF[sizeof(buttonA)];
uint8_t buttonBF[sizeof(buttonB)];
uint8_t disconnectedTipF[sizeof(disconnectedTip)];
bool showExitMenuTransition = false;
void renderHomeScreenAssets(void) {
// Generate the flipped screen into ram for later use
// flipped is generated by flipping each row
for (int row = 0; row < 2; row++) {
for (int x = 0; x < 42; x++) {
buttonAF[(row * 42) + x] = buttonA[(row * 42) + (41 - x)];
buttonBF[(row * 42) + x] = buttonB[(row * 42) + (41 - x)];
disconnectedTipF[(row * 42) + x] = disconnectedTip[(row * 42) + (41 - x)];
}
}
}
bool showExitMenuTransition = false;
OperatingMode handleHomeButtons(const ButtonState buttons, guiContext *cxt) {
if (buttons != BUTTON_NONE && cxt->scratch_state.state1 == 0) {
@@ -66,108 +51,6 @@ OperatingMode handleHomeButtons(const ButtonState buttons, guiContext *cxt) {
return OperatingMode::HomeScreen;
}
void drawDetailedHomeScreen(uint32_t tipTemp) {
if (isTipDisconnected()) {
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::drawArea(54, 0, 42, 16, disconnectedTipF);
} else {
OLED::drawArea(0, 0, 42, 16, disconnectedTip);
}
if (OLED::getRotation()) {
OLED::setCursor(-1, 0);
} else {
OLED::setCursor(42, 0);
}
uint32_t Vlt = getInputVoltageX10(getSettingValue(SettingsOptions::VoltageDiv), 0);
OLED::printNumber(Vlt / 10, 2, FontStyle::LARGE);
OLED::print(LargeSymbolDot, FontStyle::LARGE);
OLED::printNumber(Vlt % 10, 1, FontStyle::LARGE);
if (OLED::getRotation()) {
OLED::setCursor(48, 8);
} else {
OLED::setCursor(91, 8);
}
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
} else {
if (!(getSettingValue(SettingsOptions::CoolingTempBlink) && (tipTemp > 55) && (xTaskGetTickCount() % 1000 < 300))) {
// Blink temp if setting enable and temp < 55°
// 1000 tick/sec
// OFF 300ms ON 700ms
gui_drawTipTemp(true, FontStyle::LARGE); // draw in the temp
}
if (OLED::getRotation()) {
OLED::setCursor(6, 0);
} else {
OLED::setCursor(73, 0); // top right
}
// draw set temp
OLED::printNumber(getSettingValue(SettingsOptions::SolderingTemp), 3, FontStyle::SMALL);
OLED::printSymbolDeg(FontStyle::SMALL);
if (OLED::getRotation()) {
OLED::setCursor(0, 8);
} else {
OLED::setCursor(67, 8); // bottom right
}
printVoltage(); // draw voltage then symbol (v)
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
}
}
void drawSimplifiedHomeScreen(uint32_t tipTemp) {
bool tempOnDisplay = false;
bool tipDisconnectedDisplay = false;
if (OLED::getRotation()) {
OLED::drawArea(54, 0, 42, 16, buttonAF);
OLED::drawArea(12, 0, 42, 16, buttonBF);
OLED::setCursor(0, 0);
gui_drawBatteryIcon();
} else {
OLED::drawArea(0, 0, 42, 16, buttonA); // Needs to be flipped so button ends up
OLED::drawArea(42, 0, 42, 16, buttonB); // on right side of screen
OLED::setCursor(84, 0);
gui_drawBatteryIcon();
}
tipDisconnectedDisplay = false;
if (tipTemp > 55) {
tempOnDisplay = true;
} else if (tipTemp < 45) {
tempOnDisplay = false;
}
if (isTipDisconnected()) {
tempOnDisplay = false;
tipDisconnectedDisplay = true;
}
if (tempOnDisplay || tipDisconnectedDisplay) {
// draw temp over the start soldering button
// Location changes on screen rotation
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::fillArea(55, 0, 41, 16, 0); // clear the area for the temp
OLED::setCursor(56, 0);
} else {
OLED::fillArea(0, 0, 41, 16, 0); // clear the area
OLED::setCursor(0, 0);
}
// If we have a tip connected draw the temp, if not we leave it blank
if (!tipDisconnectedDisplay) {
// draw in the temp
if (!(getSettingValue(SettingsOptions::CoolingTempBlink) && (xTaskGetTickCount() % 1000 < 300))) {
gui_drawTipTemp(false, FontStyle::LARGE); // draw in the temp
}
} else {
// Draw in missing tip symbol
if (OLED::getRotation()) {
// in right handed mode we want to draw over the first part
OLED::drawArea(54, 0, 42, 16, disconnectedTipF);
} else {
OLED::drawArea(0, 0, 42, 16, disconnectedTip);
}
}
}
}
OperatingMode drawHomeScreen(const ButtonState buttons, guiContext *cxt) {
currentTempTargetDegC = 0; // ensure tip is off
@@ -181,9 +64,9 @@ OperatingMode drawHomeScreen(const ButtonState buttons, guiContext *cxt) {
OLED::setCursor(-1, 0);
}
if (getSettingValue(SettingsOptions::DetailedIDLE)) {
drawDetailedHomeScreen(tipTemp);
ui_draw_homescreen_detailed(tipTemp);
} else {
drawSimplifiedHomeScreen(tipTemp);
ui_draw_homescreen_simplified(tipTemp);
}
return handleHomeButtons(buttons, cxt);
}

3
source/Core/Threads/UI/logic/OperatingModes.h
View File

@@ -80,8 +80,7 @@ OperatingMode showPDDebug(const ButtonState buttons, guiContext *cxt);
OperatingMode showWarnings(const ButtonState buttons, guiContext *cxt); // Shows user warnings if required
// Common helpers
int8_t getPowerSourceNumber(void); // Returns number ID of power source
void renderHomeScreenAssets(void); // Called to act as start delay and used to render out flipped images for home screen graphics
int8_t getPowerSourceNumber(void); // Returns number ID of power source
extern bool heaterThermalRunaway;
#endif

1
source/Core/Threads/UI/logic/ShowStartupWarnings.cpp
View File

@@ -1,6 +1,7 @@
#include "FS2711.hpp"
#include "HUB238.hpp"
#include "OperatingModes.h"
#include "ui_drawing.hpp"
OperatingMode showWarnings(const ButtonState buttons, guiContext *cxt) {
// Display alert if settings were reset

25
source/Core/Threads/UI/logic/Sleep.cpp
View File

@@ -1,5 +1,5 @@
#include "OperatingModes.h"
#include "ui_drawing.hpp"
OperatingMode gui_SolderingSleepingMode(const ButtonState buttons, guiContext *cxt) {
#ifdef NO_SLEEP_MODE
return OperatingMode::Soldering;
@@ -28,31 +28,12 @@ OperatingMode gui_SolderingSleepingMode(const ButtonState buttons, guiContext *c
// draw the lcd
uint16_t tipTemp = getSettingValue(SettingsOptions::TemperatureInF) ? TipThermoModel::getTipInF() : TipThermoModel::getTipInC();
OLED::clearScreen();
OLED::setCursor(0, 0);
if (getSettingValue(SettingsOptions::DetailedSoldering)) {
OLED::print(translatedString(Tr->SleepingAdvancedString), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(translatedString(Tr->SleepingTipAdvancedString), FontStyle::SMALL);
OLED::printNumber(tipTemp, 3, FontStyle::SMALL);
if (getSettingValue(SettingsOptions::TemperatureInF)) {
OLED::print(SmallSymbolDegF, FontStyle::SMALL);
} else {
OLED::print(SmallSymbolDegC, FontStyle::SMALL);
}
OLED::print(SmallSymbolSpace, FontStyle::SMALL);
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
ui_draw_soldering_detailed_sleep(tipTemp);
} else {
OLED::print(LargeSymbolSleep, FontStyle::LARGE);
OLED::printNumber(tipTemp, 3, FontStyle::LARGE);
OLED::printSymbolDeg(FontStyle::EXTRAS);
ui_draw_soldering_basic_sleep(tipTemp);
}
OLED::refresh();
GUIDelay();
if (!shouldBeSleeping()) {
return cxt->previousMode;
}

7
source/Core/Threads/UI/logic/Soldering.cpp
View File

@@ -1,6 +1,7 @@
#include "OperatingModes.h"
#include "SolderingCommon.h"
#include "ui_drawing.hpp"
// State 1 = button locking
// State 2 = boost mode
// State 3 = buzzer timer
@@ -113,7 +114,7 @@ OperatingMode gui_solderingMode(const ButtonState buttons, guiContext *cxt) {
OLED::setCursor(-1, 0);
}
gui_drawTipTemp(true, FontStyle::LARGE);
ui_draw_tip_temperature(true, FontStyle::LARGE);
if (cxt->scratch_state.state2) { // Boost mode is on
if (OLED::getRotation()) {
@@ -141,10 +142,10 @@ OperatingMode gui_solderingMode(const ButtonState buttons, guiContext *cxt) {
OLED::print(PowerSourceNames[getPowerSourceNumber()], FontStyle::SMALL, 2);
}
detailedPowerStatus();
ui_draw_soldering_power_status();
} else {
basicSolderingStatus(cxt->scratch_state.state2);
ui_draw_soldering_basic_status(cxt->scratch_state.state2);
}
// Check if we should bail due to undervoltage for example
if (checkExitSoldering()) {

5
source/Core/Threads/UI/logic/SolderingProfile.cpp
View File

@@ -1,6 +1,7 @@
#include "OperatingModes.h"
#include "SolderingCommon.h"
#include "ui_drawing.hpp"
OperatingMode gui_solderingProfileMode(const ButtonState buttons, guiContext *cxt) {
/*
@@ -178,10 +179,10 @@ OperatingMode gui_solderingProfileMode(const ButtonState buttons, guiContext *cx
}
}
detailedPowerStatus();
ui_draw_soldering_power_status();
} else {
basicSolderingStatus(false);
ui_draw_soldering_basic_status(false);
}
// Update the setpoints for the temperature

21
source/Core/Threads/UI/logic/utils/OperatingModeUtilities.h
View File

@@ -4,16 +4,13 @@
#include "OLED.hpp"
#include <stdbool.h>
void GUIDelay(); //
bool checkForUnderVoltage(void); //
uint32_t getSleepTimeout(void); //
bool shouldBeSleeping(); //
bool shouldShutdown(void); //
void gui_drawTipTemp(bool symbol, const FontStyle font); //
void printVoltage(void); //
bool warnUser(const char *warning, const ButtonState buttons); //
void gui_drawBatteryIcon(void); //
bool checkForUnderVoltage(void); //
uint16_t min(uint16_t a, uint16_t b); //
void printCountdownUntilSleep(int sleepThres); //
void GUIDelay(); //
bool checkForUnderVoltage(void); //
uint32_t getSleepTimeout(void); //
bool shouldBeSleeping(); //
bool shouldShutdown(void); //
void printVoltage(void); //
bool checkForUnderVoltage(void); //
uint16_t min(uint16_t a, uint16_t b); //
void printCountdownUntilSleep(int sleepThres); //
#endif

71
source/Core/Threads/UI/logic/utils/SolderingCommon.cpp
View File

@@ -7,79 +7,10 @@
#include "Types.h"
#include "configuration.h"
#include "history.hpp"
#include "ui_drawing.hpp"
extern bool heaterThermalRunaway;
void detailedPowerStatus() {
if (OLED::getRotation()) {
OLED::setCursor(0, 0);
} else {
OLED::setCursor(67, 0);
}
// Print wattage
{
uint32_t x10Watt = x10WattHistory.average();
if (x10Watt > 999) {
// If we exceed 99.9W we drop the decimal place to keep it all fitting
OLED::print(SmallSymbolSpace, FontStyle::SMALL);
OLED::printNumber(x10WattHistory.average() / 10, 3, FontStyle::SMALL);
} else {
OLED::printNumber(x10WattHistory.average() / 10, 2, FontStyle::SMALL);
OLED::print(SmallSymbolDot, FontStyle::SMALL);
OLED::printNumber(x10WattHistory.average() % 10, 1, FontStyle::SMALL);
}
OLED::print(SmallSymbolWatts, FontStyle::SMALL);
}
if (OLED::getRotation()) {
OLED::setCursor(0, 8);
} else {
OLED::setCursor(67, 8);
}
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
}
void basicSolderingStatus(bool boostModeOn) {
OLED::setCursor(0, 0);
// We switch the layout direction depending on the orientation of the oled
if (OLED::getRotation()) {
// battery
gui_drawBatteryIcon();
// Space out gap between battery <-> temp
OLED::print(LargeSymbolSpace, FontStyle::LARGE);
// Draw current tip temp
gui_drawTipTemp(true, FontStyle::LARGE);
// We draw boost arrow if boosting,
// or else gap temp <-> heat indicator
if (boostModeOn) {
OLED::drawSymbol(2);
} else {
OLED::print(LargeSymbolSpace, 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(LargeSymbolSpace, FontStyle::LARGE);
}
// Draw current tip temp
gui_drawTipTemp(true, FontStyle::LARGE);
// Space out gap between battery <-> temp
OLED::print(LargeSymbolSpace, FontStyle::LARGE);
gui_drawBatteryIcon();
}
}
bool checkExitSoldering(void) {
#ifdef POW_DC
// Undervoltage test

2
source/Core/Threads/UI/logic/utils/SolderingCommon.h
View File

@@ -3,8 +3,6 @@
#ifndef SOLDERING_COMMON_H_
#define SOLDERING_COMMON_H_
void detailedPowerStatus();
void basicSolderingStatus(bool boostModeOn);
bool checkExitSoldering();
TemperatureType_t getTipTemp(void);

17
source/Core/Threads/UI/logic/utils/checkUndervoltage.cpp
View File

@@ -1,6 +1,7 @@
#include "Buttons.hpp"
#include "OperatingModeUtilities.h"
#include "configuration.h"
#include "ui_drawing.hpp"
#ifdef POW_DC
extern volatile TemperatureType_t currentTempTargetDegC;
// returns true if undervoltage has occured
@@ -15,21 +16,7 @@ bool checkForUnderVoltage(void) {
if (xTaskGetTickCount() > (TICKS_SECOND * 2)) {
if ((v < lookupVoltageLevel())) {
currentTempTargetDegC = 0;
OLED::clearScreen();
OLED::setCursor(0, 0);
if (getSettingValue(SettingsOptions::DetailedSoldering)) {
OLED::print(translatedString(Tr->UndervoltageString), FontStyle::SMALL);
OLED::setCursor(0, 8);
OLED::print(translatedString(Tr->InputVoltageString), FontStyle::SMALL);
printVoltage();
OLED::print(SmallSymbolVolts, FontStyle::SMALL);
} else {
OLED::print(translatedString(Tr->UVLOWarningString), FontStyle::LARGE);
}
OLED::refresh();
GUIDelay();
waitForButtonPress();
ui_draw_warning_undervoltage();
return true;
}
}