✨ Laser support for TFT GLCD (#22391)
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@ -213,7 +213,7 @@
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#define LCD_PROGRESS_BAR
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#define LCD_PROGRESS_BAR
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#endif
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#endif
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#if ENABLED(TFTGLCD_PANEL_I2C)
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#if ENABLED(TFTGLCD_PANEL_I2C)
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#define LCD_I2C_ADDRESS 0x27 // Must be equal to panel's I2C slave addres
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#define LCD_I2C_ADDRESS 0x33 // Must be 0x33 for STM32 main boards and equal to panel's I2C slave addres
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#endif
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#endif
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#define LCD_USE_I2C_BUZZER // Enable buzzer on LCD, used for both I2C and SPI buses (LiquidTWI2 not required)
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#define LCD_USE_I2C_BUZZER // Enable buzzer on LCD, used for both I2C and SPI buses (LiquidTWI2 not required)
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#define STD_ENCODER_PULSES_PER_STEP 2
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#define STD_ENCODER_PULSES_PER_STEP 2
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@ -57,6 +57,18 @@
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#include "../../gcode/parser.h"
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#include "../../gcode/parser.h"
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#endif
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#endif
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#if EITHER(HAS_COOLER, LASER_COOLANT_FLOW_METER)
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#include "../../feature/cooler.h"
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#endif
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#if ENABLED(I2C_AMMETER)
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#include "../../feature/ammeter.h"
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#endif
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#if HAS_CUTTER
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#include "../../feature/spindle_laser.h"
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#endif
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#if ENABLED(AUTO_BED_LEVELING_UBL)
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#if ENABLED(AUTO_BED_LEVELING_UBL)
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#include "../../feature/bedlevel/bedlevel.h"
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#include "../../feature/bedlevel/bedlevel.h"
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#endif
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#endif
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@ -64,12 +76,12 @@
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TFTGLCD lcd;
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TFTGLCD lcd;
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#define ICON_LOGO B00000001
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#define ICON_LOGO B00000001
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#define ICON_TEMP1 B00000010 //hotend 1
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#define ICON_TEMP1 B00000010 // Hotend 1
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#define ICON_TEMP2 B00000100 //hotend 2
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#define ICON_TEMP2 B00000100 // Hotend 2
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#define ICON_TEMP3 B00001000 //hotend 3
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#define ICON_TEMP3 B00001000 // Hotend 3
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#define ICON_BED B00010000
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#define ICON_BED B00010000
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#define ICON_FAN B00100000
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#define ICON_FAN B00100000
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#define ICON_HOT B01000000 //when any T > 50deg
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#define ICON_HOT B01000000 // When any T > 50deg
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#define PIC_MASK 0x7F
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#define PIC_MASK 0x7F
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// LEDs not used, for compatibility with Smoothieware
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// LEDs not used, for compatibility with Smoothieware
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@ -433,69 +445,161 @@ FORCE_INLINE void _draw_axis_value(const AxisEnum axis, const char *value, const
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lcd_put_u8str(value);
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lcd_put_u8str(value);
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}
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}
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FORCE_INLINE void _draw_heater_status(const heater_id_t heater_id, const char *prefix, const bool blink) {
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#if HAS_HOTEND || HAS_HEATED_BED
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uint8_t pic_hot_bits;
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#if HAS_HEATED_BED
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const bool isBed = heater_id < 0;
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const celsius_t t1 = (isBed ? thermalManager.wholeDegBed() : thermalManager.wholeDegHotend(heater_id)),
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t2 = (isBed ? thermalManager.degTargetBed() : thermalManager.degTargetHotend(heater_id));
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#else
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const celsius_t t1 = thermalManager.wholeDegHotend(heater_id), t2 = thermalManager.degTargetHotend(heater_id);
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#endif
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#if HOTENDS < 2
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FORCE_INLINE void _draw_heater_status(const heater_id_t heater_id, const char *prefix, const bool blink) {
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if (heater_id == H_E0) {
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uint8_t pic_hot_bits;
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lcd.setCursor(2, 5); lcd.print(prefix); //HE
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#if HAS_HEATED_BED
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lcd.setCursor(1, 6); lcd.print(i16tostr3rj(t1));
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const bool isBed = heater_id < 0;
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lcd.setCursor(1, 7);
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const celsius_t t1 = (isBed ? thermalManager.wholeDegBed() : thermalManager.wholeDegHotend(heater_id)),
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}
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t2 = (isBed ? thermalManager.degTargetBed() : thermalManager.degTargetHotend(heater_id));
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else {
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#else
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lcd.setCursor(6, 5); lcd.print(prefix); //BED
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const celsius_t t1 = thermalManager.wholeDegHotend(heater_id), t2 = thermalManager.degTargetHotend(heater_id);
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lcd.setCursor(6, 6); lcd.print(i16tostr3rj(t1));
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#endif
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lcd.setCursor(6, 7);
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}
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#else
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if (heater_id > H_BED) {
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lcd.setCursor(heater_id * 4, 5); lcd.print(prefix); // HE1 or HE2 or HE3
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lcd.setCursor(heater_id * 4, 6); lcd.print(i16tostr3rj(t1));
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lcd.setCursor(heater_id * 4, 7);
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}
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else {
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lcd.setCursor(13, 5); lcd.print(prefix); //BED
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lcd.setCursor(13, 6); lcd.print(i16tostr3rj(t1));
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lcd.setCursor(13, 7);
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}
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#endif // HOTENDS <= 1
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#if !HEATER_IDLE_HANDLER
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#if HOTENDS < 2
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UNUSED(blink);
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if (heater_id == H_E0) {
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#else
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lcd.setCursor(2, 5); lcd.print(prefix); //HE
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if (!blink && thermalManager.heater_idle[thermalManager.idle_index_for_id(heater_id)].timed_out) {
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lcd.setCursor(1, 6); lcd.print(i16tostr3rj(t1));
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lcd.write(' ');
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lcd.setCursor(1, 7);
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if (t2 >= 10) lcd.write(' ');
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}
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if (t2 >= 100) lcd.write(' ');
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else {
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}
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lcd.setCursor(6, 5); lcd.print(prefix); //BED
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else
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lcd.setCursor(6, 6); lcd.print(i16tostr3rj(t1));
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#endif // !HEATER_IDLE_HANDLER
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lcd.setCursor(6, 7);
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lcd.print(i16tostr3rj(t2));
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}
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#else
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if (heater_id > H_BED) {
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lcd.setCursor(heater_id * 4, 5); lcd.print(prefix); // HE1 or HE2 or HE3
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lcd.setCursor(heater_id * 4, 6); lcd.print(i16tostr3rj(t1));
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lcd.setCursor(heater_id * 4, 7);
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}
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else {
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lcd.setCursor(13, 5); lcd.print(prefix); //BED
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lcd.setCursor(13, 6); lcd.print(i16tostr3rj(t1));
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lcd.setCursor(13, 7);
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}
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#endif // HOTENDS <= 1
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switch (heater_id) {
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#if !HEATER_IDLE_HANDLER
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case H_BED: pic_hot_bits = ICON_BED; break;
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UNUSED(blink);
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case H_E0: pic_hot_bits = ICON_TEMP1; break;
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#else
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case H_E1: pic_hot_bits = ICON_TEMP2; break;
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if (!blink && thermalManager.heater_idle[thermalManager.idle_index_for_id(heater_id)].timed_out) {
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case H_E2: pic_hot_bits = ICON_TEMP3;
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lcd.write(' ');
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default: break;
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if (t2 >= 10) lcd.write(' ');
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if (t2 >= 100) lcd.write(' ');
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}
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else
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#endif // !HEATER_IDLE_HANDLER
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lcd.print(i16tostr3rj(t2));
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switch (heater_id) {
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case H_BED: pic_hot_bits = ICON_BED; break;
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case H_E0: pic_hot_bits = ICON_TEMP1; break;
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case H_E1: pic_hot_bits = ICON_TEMP2; break;
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case H_E2: pic_hot_bits = ICON_TEMP3;
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default: break;
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}
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if (t2) picBits |= pic_hot_bits;
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else picBits &= ~pic_hot_bits;
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if (t1 > 50) hotBits |= pic_hot_bits;
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else hotBits &= ~pic_hot_bits;
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if (hotBits) picBits |= ICON_HOT;
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else picBits &= ~ICON_HOT;
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}
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}
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if (t2) picBits |= pic_hot_bits;
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#endif // HAS_HOTEND || HAS_HEATED_BED
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else picBits &= ~pic_hot_bits;
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if (t1 > 50) hotBits |= pic_hot_bits;
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#if HAS_COOLER
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else hotBits &= ~pic_hot_bits;
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if (hotBits) picBits |= ICON_HOT;
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FORCE_INLINE void _draw_cooler_status(const bool blink) {
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else picBits &= ~ICON_HOT;
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const celsius_t t2 = thermalManager.degTargetCooler();
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}
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lcd.setCursor(0, 5); lcd_put_u8str_P(PSTR("COOL"));
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lcd.setCursor(1, 6); lcd_put_u8str(i16tostr3rj(thermalManager.wholeDegCooler()));
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lcd.setCursor(1, 7);
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#if !HEATER_IDLE_HANDLER
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UNUSED(blink);
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#else
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if (!blink && thermalManager.heater_idle[thermalManager.idle_index_for_id(heater_id)].timed_out) {
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lcd_put_wchar(' ');
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if (t2 >= 10) lcd_put_wchar(' ');
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if (t2 >= 100) lcd_put_wchar(' ');
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}
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else
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#endif
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lcd_put_u8str(i16tostr3left(t2));
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lcd_put_wchar(' ');
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if (t2 < 10) lcd_put_wchar(' ');
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if (t2) picBits |= ICON_TEMP1;
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else picBits &= ~ICON_TEMP1;
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}
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#endif // HAS_COOLER
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#if ENABLED(LASER_COOLANT_FLOW_METER)
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FORCE_INLINE void _draw_flowmeter_status() {
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lcd.setCursor(5, 5); lcd_put_u8str_P(PSTR("FLOW"));
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lcd.setCursor(7, 6); lcd_put_wchar('L');
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lcd.setCursor(6, 7); lcd_put_u8str(ftostr11ns(cooler.flowrate));
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if (cooler.flowrate) picBits |= ICON_FAN;
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else picBits &= ~ICON_FAN;
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}
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#endif
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#if ENABLED(I2C_AMMETER)
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FORCE_INLINE void _draw_ammeter_status() {
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lcd.setCursor(10, 5); lcd_put_u8str_P(PSTR("ILAZ"));
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ammeter.read();
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lcd.setCursor(11, 6);
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if (ammeter.current <= 0.999f)
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{
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lcd_put_u8str("mA");
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lcd.setCursor(10, 7);
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lcd_put_wchar(' '); lcd_put_u8str(ui16tostr3rj(uint16_t(ammeter.current * 1000 + 0.5f)));
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}
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else {
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lcd_put_u8str(" A");
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lcd.setCursor(10, 7);
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lcd_put_u8str(ftostr12ns(ammeter.current));
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}
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if (ammeter.current) picBits |= ICON_BED;
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else picBits &= ~ICON_BED;
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}
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#endif // I2C_AMMETER
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#if HAS_CUTTER
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FORCE_INLINE void _draw_cutter_status() {
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lcd.setCursor(15, 5); lcd_put_u8str_P(PSTR("CUTT"));
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#if CUTTER_UNIT_IS(RPM)
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lcd.setCursor(16, 6); lcd_put_u8str_P(PSTR("RPM"));
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lcd.setCursor(15, 7); lcd_put_u8str(ftostr31ns(float(cutter.unitPower) / 1000));
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lcd_put_wchar('K');
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#elif CUTTER_UNIT_IS(PERCENT)
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lcd.setCursor(17, 6); lcd_put_wchar('%');
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lcd.setCursor(18, 7); lcd_put_u8str(cutter_power2str(cutter.unitPower));
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#else
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lcd.setCursor(17, 7); lcd_put_u8str(cutter_power2str(cutter.unitPower));
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#endif
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if (cutter.unitPower) picBits |= ICON_HOT;
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else picBits &= ~ICON_HOT;
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}
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#endif // HAS_CUTTER
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#if HAS_PRINT_PROGRESS
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#if HAS_PRINT_PROGRESS
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@ -533,7 +637,7 @@ FORCE_INLINE void _draw_heater_status(const heater_id_t heater_id, const char *p
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}
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}
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}
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}
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#endif
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#endif // LCD_PROGRESS_BAR
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void MarlinUI::draw_status_message(const bool blink) {
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void MarlinUI::draw_status_message(const bool blink) {
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if (!PanelDetected) return;
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if (!PanelDetected) return;
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@ -648,6 +752,19 @@ or
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or
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or
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|X 000 Y 000 Z 000.00|
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|FR100% SD100% C--:--|
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| Progress bar line |
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|Status message |
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|COOL FLOW ILAZ CUTT |
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| ttc L mA RPM |
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| tts f.f aaa rr.rK|
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| ICO ICO ICO ICO |
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| ICO ICO ICO ICO |
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or
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Equal to 24x10 text LCD
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Equal to 24x10 text LCD
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|X 000 Y 000 Z 000.00 |
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|X 000 Y 000 Z 000.00 |
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@ -745,50 +862,61 @@ void MarlinUI::draw_status_screen() {
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#endif
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#endif
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//
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//
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// Line 6..8 Temperatures, FAN
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// Line 6..8 Temperatures, FAN for printer or Cooler, Flowmetter, Ampermeter, Cutter for laser/spindle
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//
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//
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#if HOTENDS < 2
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#if HAS_HOTEND
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_draw_heater_status(H_E0, "HE", blink); // Hotend Temperature
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#else
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_draw_heater_status(H_E0, "HE1", blink); // Hotend 1 Temperature
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_draw_heater_status(H_E1, "HE2", blink); // Hotend 2 Temperature
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#if HOTENDS > 2
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_draw_heater_status(H_E2, "HE3", blink); // Hotend 3 Temperature
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#endif
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#endif
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#if HAS_HEATED_BED
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#if HAS_LEVELING
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_draw_heater_status(H_BED, (planner.leveling_active && blink ? "___" : "BED"), blink);
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#else
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_draw_heater_status(H_BED, "BED", blink);
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#endif
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#endif
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#if HAS_FAN
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uint16_t spd = thermalManager.fan_speed[0];
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#if ENABLED(ADAPTIVE_FAN_SLOWING)
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if (!blink) spd = thermalManager.scaledFanSpeed(0, spd);
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#endif
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uint16_t per = thermalManager.pwmToPercent(spd);
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#if HOTENDS < 2
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#if HOTENDS < 2
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#define FANX 11
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_draw_heater_status(H_E0, "HE", blink); // Hotend Temperature
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#else
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#else
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#define FANX 17
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_draw_heater_status(H_E0, "HE1", blink); // Hotend 1 Temperature
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_draw_heater_status(H_E1, "HE2", blink); // Hotend 2 Temperature
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#if HOTENDS > 2
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_draw_heater_status(H_E2, "HE3", blink); // Hotend 3 Temperature
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#endif
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#endif
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#endif
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lcd.setCursor(FANX, 5); lcd_put_u8str_P(PSTR("FAN"));
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lcd.setCursor(FANX + 1, 6); lcd.write('%');
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lcd.setCursor(FANX, 7);
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lcd.print(i16tostr3rj(per));
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if (TERN0(HAS_FAN0, thermalManager.fan_speed[0]) || TERN0(HAS_FAN1, thermalManager.fan_speed[1]) || TERN0(HAS_FAN2, thermalManager.fan_speed[2]))
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#if HAS_HEATED_BED
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picBits |= ICON_FAN;
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#if HAS_LEVELING
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else
|
_draw_heater_status(H_BED, (planner.leveling_active && blink ? "___" : "BED"), blink);
|
||||||
picBits &= ~ICON_FAN;
|
#else
|
||||||
|
_draw_heater_status(H_BED, "BED", blink);
|
||||||
|
#endif
|
||||||
|
#endif
|
||||||
|
|
||||||
#endif // HAS_FAN
|
#if HAS_FAN
|
||||||
|
uint16_t spd = thermalManager.fan_speed[0];
|
||||||
|
#if ENABLED(ADAPTIVE_FAN_SLOWING)
|
||||||
|
if (!blink) spd = thermalManager.scaledFanSpeed(0, spd);
|
||||||
|
#endif
|
||||||
|
uint16_t per = thermalManager.pwmToPercent(spd);
|
||||||
|
|
||||||
|
#if HOTENDS < 2
|
||||||
|
#define FANX 11
|
||||||
|
#else
|
||||||
|
#define FANX 17
|
||||||
|
#endif
|
||||||
|
lcd.setCursor(FANX, 5); lcd_put_u8str_P(PSTR("FAN"));
|
||||||
|
lcd.setCursor(FANX + 1, 6); lcd.write('%');
|
||||||
|
lcd.setCursor(FANX, 7);
|
||||||
|
lcd.print(i16tostr3rj(per));
|
||||||
|
|
||||||
|
if (TERN0(HAS_FAN0, thermalManager.fan_speed[0]) || TERN0(HAS_FAN1, thermalManager.fan_speed[1]) || TERN0(HAS_FAN2, thermalManager.fan_speed[2]))
|
||||||
|
picBits |= ICON_FAN;
|
||||||
|
else
|
||||||
|
picBits &= ~ICON_FAN;
|
||||||
|
|
||||||
|
#endif // HAS_FAN
|
||||||
|
|
||||||
|
#else
|
||||||
|
|
||||||
|
TERN_(HAS_COOLER, _draw_cooler_status(blink));
|
||||||
|
TERN_(LASER_COOLANT_FLOW_METER, _draw_flowmeter_status());
|
||||||
|
TERN_(I2C_AMMETER, _draw_ammeter_status());
|
||||||
|
TERN_(HAS_CUTTER, _draw_cutter_status());
|
||||||
|
|
||||||
|
#endif
|
||||||
|
|
||||||
//
|
//
|
||||||
// Line 9, 10 - icons
|
// Line 9, 10 - icons
|
||||||
|
Loading…
Reference in New Issue
Block a user