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Marlin 2.0 for Flying Bear 4S/5
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Marlin_FB4S/Marlin/src/lcd/dogm/status_screen_DOGM.cpp

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/**
* Marlin 3D Printer Firmware
* Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*
*/
//
// status_screen_DOGM.cpp
// Standard Status Screen for Graphical Display
//
#include "../../inc/MarlinConfigPre.h"
#if HAS_MARLINUI_U8GLIB && DISABLED(LIGHTWEIGHT_UI)
#include "dogm_Statusscreen.h"
#include "marlinui_DOGM.h"
#include "../marlinui.h"
#include "../lcdprint.h"
#include "../../libs/numtostr.h"
#include "../../module/motion.h"
#include "../../module/temperature.h"
#include "../../gcode/parser.h" // for units (and volumetric)
#if ENABLED(LCD_SHOW_E_TOTAL)
#include "../../MarlinCore.h" // for printingIsActive()
#endif
#if ENABLED(FILAMENT_LCD_DISPLAY)
#include "../../feature/filwidth.h"
#include "../../module/planner.h"
#endif
#if HAS_CUTTER
#include "../../feature/spindle_laser.h"
#endif
#if EITHER(HAS_COOLER, LASER_COOLANT_FLOW_METER)
#include "../../feature/cooler.h"
#endif
#if ENABLED(I2C_AMMETER)
#include "../../feature/ammeter.h"
#endif
#if HAS_POWER_MONITOR
#include "../../feature/power_monitor.h"
#endif
#if ENABLED(SDSUPPORT)
#include "../../sd/cardreader.h"
#endif
#if HAS_PRINT_PROGRESS
#include "../../module/printcounter.h"
#endif
#if HAS_DUAL_MIXING
#include "../../feature/mixing.h"
#endif
#define X_LABEL_POS 3
#define X_VALUE_POS 11
#define XYZ_SPACING 37
#define X_LABEL_POS_IN (X_LABEL_POS - 2)
#define X_VALUE_POS_IN (X_VALUE_POS - 5)
#define XYZ_SPACING_IN (XYZ_SPACING + 9)
#define XYZ_BASELINE (30 + INFO_FONT_ASCENT)
#define EXTRAS_BASELINE (40 + INFO_FONT_ASCENT)
#define STATUS_BASELINE (LCD_PIXEL_HEIGHT - INFO_FONT_DESCENT)
#if ANIM_HBCC
enum HeatBits : uint8_t {
DRAWBIT_HOTEND,
DRAWBIT_BED = HOTENDS,
DRAWBIT_CHAMBER,
DRAWBIT_CUTTER
};
IF<(DRAWBIT_CUTTER > 7), uint16_t, uint8_t>::type draw_bits;
#endif
#if ANIM_HOTEND
#define HOTEND_ALT(N) TEST(draw_bits, DRAWBIT_HOTEND + N)
#else
#define HOTEND_ALT(N) false
#endif
#if ANIM_BED
#define BED_ALT() TEST(draw_bits, DRAWBIT_BED)
#else
#define BED_ALT() false
#endif
#if ANIM_CHAMBER
#define CHAMBER_ALT() TEST(draw_bits, DRAWBIT_CHAMBER)
#else
#define CHAMBER_ALT() false
#endif
#if ANIM_CUTTER
#define CUTTER_ALT(N) TEST(draw_bits, DRAWBIT_CUTTER)
#else
#define CUTTER_ALT() false
#endif
#if DO_DRAW_HOTENDS
#define MAX_HOTEND_DRAW _MIN(HOTENDS, ((LCD_PIXEL_WIDTH - (STATUS_LOGO_BYTEWIDTH + STATUS_FAN_BYTEWIDTH) * 8) / (STATUS_HEATERS_XSPACE)))
#endif
#if EITHER(DO_DRAW_BED, DO_DRAW_HOTENDS)
#define STATUS_HEATERS_BOT (STATUS_HEATERS_Y + STATUS_HEATERS_HEIGHT - 1)
#endif
#if HAS_POWER_MONITOR
void display_power_monitor(const uint8_t x, const uint8_t y) {
lcd_moveto(x, y);
#if HAS_POWER_MONITOR_WATTS
const bool wflag = power_monitor.power_display_enabled();
#endif
#if ENABLED(POWER_MONITOR_CURRENT)
const bool iflag = power_monitor.current_display_enabled();
#endif
#if ENABLED(POWER_MONITOR_VOLTAGE)
const bool vflag = power_monitor.voltage_display_enabled();
#endif
#if HAS_POWER_MONITOR_WATTS
// Cycle between current, voltage, and power
if (ELAPSED(millis(), power_monitor.display_item_ms)) {
power_monitor.display_item_ms = millis() + 1000UL;
++power_monitor.display_item;
}
#elif ENABLED(POWER_MONITOR_CURRENT)
power_monitor.display_item = 0;
#elif ENABLED(POWER_MONITOR_VOLTAGE)
power_monitor.display_item = 1;
#endif
// ensure we have the right one selected for display
for (uint8_t i = 0; i < 3; i++) {
#if ENABLED(POWER_MONITOR_CURRENT)
if (power_monitor.display_item == 0 && !iflag) ++power_monitor.display_item;
#endif
#if ENABLED(POWER_MONITOR_VOLTAGE)
if (power_monitor.display_item == 1 && !vflag) ++power_monitor.display_item;
#endif
#if HAS_POWER_MONITOR_WATTS
if (power_monitor.display_item == 2 && !wflag) ++power_monitor.display_item;
#endif
if (power_monitor.display_item >= 3) power_monitor.display_item = 0;
}
switch (power_monitor.display_item) {
#if ENABLED(POWER_MONITOR_CURRENT) // Current
case 0: if (iflag) power_monitor.draw_current(); break;
#endif
#if ENABLED(POWER_MONITOR_VOLTAGE) // Voltage
case 1: if (vflag) power_monitor.draw_voltage(); break;
#endif
#if HAS_POWER_MONITOR_WATTS // Power
case 2: if (wflag) power_monitor.draw_power(); break;
#endif
default: break;
}
}
#endif
#define PROGRESS_BAR_X 54
#define PROGRESS_BAR_Y (EXTRAS_BASELINE + 1)
#define PROGRESS_BAR_WIDTH (LCD_PIXEL_WIDTH - PROGRESS_BAR_X)
FORCE_INLINE void _draw_centered_temp(const celsius_t temp, const uint8_t tx, const uint8_t ty) {
if (temp < 0)
lcd_put_u8str(tx - 3 * (INFO_FONT_WIDTH) / 2 + 1, ty, F("err"));
else {
const char *str = i16tostr3rj(temp);
const uint8_t len = str[0] != ' ' ? 3 : str[1] != ' ' ? 2 : 1;
lcd_put_u8str(tx - len * (INFO_FONT_WIDTH) / 2 + 1, ty, &str[3-len]);
lcd_put_wchar(LCD_STR_DEGREE[0]);
}
}
#if DO_DRAW_FLOWMETER
FORCE_INLINE void _draw_centered_flowrate(const float flow, const uint8_t tx, const uint8_t ty) {
const char *str = ftostr11ns(flow);
const uint8_t len = str[0] != ' ' ? 3 : str[1] != ' ' ? 2 : 1;
lcd_put_u8str(tx - len * (INFO_FONT_WIDTH) / 2 + 1, ty, &str[3-len]);
lcd_put_u8str("L");
}
#endif
#if DO_DRAW_AMMETER
FORCE_INLINE void _draw_centered_current(const float current, const uint8_t tx, const uint8_t ty) {
const char *str = ftostr31ns(current);
const uint8_t len = str[0] != ' ' ? 3 : str[1] != ' ' ? 2 : 1;
lcd_put_u8str(tx - len * (INFO_FONT_WIDTH) / 2 + 1, ty, &str[3-len]);
}
#endif
#if DO_DRAW_HOTENDS
// Draw hotend bitmap with current and target temperatures
FORCE_INLINE void _draw_hotend_status(const heater_id_t heater_id, const bool blink) {
#if !HEATER_IDLE_HANDLER
UNUSED(blink);
#endif
const bool isHeat = HOTEND_ALT(heater_id);
const uint8_t tx = STATUS_HOTEND_TEXT_X(heater_id);
const celsius_t temp = thermalManager.wholeDegHotend(heater_id),
target = thermalManager.degTargetHotend(heater_id);
#if DISABLED(STATUS_HOTEND_ANIM)
#define STATIC_HOTEND true
#define HOTEND_DOT isHeat
#else
#define STATIC_HOTEND false
#define HOTEND_DOT false
#endif
#if ENABLED(STATUS_HOTEND_NUMBERLESS)
#define OFF_BMP(N) TERN(STATUS_HOTEND_INVERTED, status_hotend_b_bmp, status_hotend_a_bmp)
#define ON_BMP(N) TERN(STATUS_HOTEND_INVERTED, status_hotend_a_bmp, status_hotend_b_bmp)
#else
#define OFF_BMP(N) TERN(STATUS_HOTEND_INVERTED, status_hotend##N##_b_bmp, status_hotend##N##_a_bmp)
#define ON_BMP(N) TERN(STATUS_HOTEND_INVERTED, status_hotend##N##_a_bmp, status_hotend##N##_b_bmp)
#endif
#if STATUS_HOTEND_BITMAPS > 1
#define _OFF_BMP(N) OFF_BMP(N),
#define _ON_BMP(N) ON_BMP(N),
static const unsigned char* const status_hotend_gfx[STATUS_HOTEND_BITMAPS] PROGMEM = { REPEAT_1(STATUS_HOTEND_BITMAPS, _OFF_BMP) };
#if ANIM_HOTEND
static const unsigned char* const status_hotend_on_gfx[STATUS_HOTEND_BITMAPS] PROGMEM = { REPEAT_1(STATUS_HOTEND_BITMAPS, _ON_BMP) };
#define HOTEND_BITMAP(N,S) (unsigned char*)pgm_read_ptr((S) ? &status_hotend_on_gfx[(N) % (STATUS_HOTEND_BITMAPS)] : &status_hotend_gfx[(N) % (STATUS_HOTEND_BITMAPS)])
#else
#define HOTEND_BITMAP(N,S) (unsigned char*)pgm_read_ptr(&status_hotend_gfx[(N) % (STATUS_HOTEND_BITMAPS)])
#endif
#elif ANIM_HOTEND
#define HOTEND_BITMAP(N,S) ((S) ? ON_BMP() : OFF_BMP())
#else
#define HOTEND_BITMAP(N,S) status_hotend_a_bmp
#endif
#if DISABLED(STATUS_COMBINE_HEATERS)
if (PAGE_CONTAINS(STATUS_HEATERS_Y, STATUS_HEATERS_BOT)) {
#define BAR_TALL (STATUS_HEATERS_HEIGHT - 2)
const float prop = target - 20,
perc = prop > 0 && temp >= 20 ? (temp - 20) / prop : 0;
uint8_t tall = uint8_t(perc * BAR_TALL + 0.5f);
NOMORE(tall, BAR_TALL);
// Draw hotend bitmap, either whole or split by the heating percent
const uint8_t hx = STATUS_HOTEND_X(heater_id),
bw = STATUS_HOTEND_BYTEWIDTH(heater_id);
#if ENABLED(STATUS_HEAT_PERCENT)
if (isHeat && tall <= BAR_TALL) {
const uint8_t ph = STATUS_HEATERS_HEIGHT - 1 - tall;
u8g.drawBitmapP(hx, STATUS_HEATERS_Y, bw, ph, HOTEND_BITMAP(TERN(HAS_MMU, active_extruder, heater_id), false));
u8g.drawBitmapP(hx, STATUS_HEATERS_Y + ph, bw, tall + 1, HOTEND_BITMAP(TERN(HAS_MMU, active_extruder, heater_id), true) + ph * bw);
}
else
#endif
u8g.drawBitmapP(hx, STATUS_HEATERS_Y, bw, STATUS_HEATERS_HEIGHT, HOTEND_BITMAP(TERN(HAS_MMU, active_extruder, heater_id), isHeat));
} // PAGE_CONTAINS
#endif // !STATUS_COMBINE_HEATERS
if (PAGE_UNDER(7)) {
#if HEATER_IDLE_HANDLER
const bool dodraw = (blink || !thermalManager.heater_idle[heater_id].timed_out);
#else
constexpr bool dodraw = true;
#endif
if (dodraw) _draw_centered_temp(target, tx, 7);
}
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_temp(temp, tx, 28);
if (STATIC_HOTEND && HOTEND_DOT && PAGE_CONTAINS(17, 19)) {
u8g.setColorIndex(0); // set to white on black
u8g.drawBox(tx, 20 - 3, 2, 2);
u8g.setColorIndex(1); // restore black on white
}
}
#endif // DO_DRAW_HOTENDS
#if DO_DRAW_BED
// Draw bed bitmap with current and target temperatures
FORCE_INLINE void _draw_bed_status(const bool blink) {
#if !HEATER_IDLE_HANDLER
UNUSED(blink);
#endif
const uint8_t tx = STATUS_BED_TEXT_X;
const celsius_t temp = thermalManager.wholeDegBed(),
target = thermalManager.degTargetBed();
#if ENABLED(STATUS_HEAT_PERCENT) || DISABLED(STATUS_BED_ANIM)
const bool isHeat = BED_ALT();
#endif
#if DISABLED(STATUS_BED_ANIM)
#define STATIC_BED true
#define BED_DOT isHeat
#else
#define STATIC_BED false
#define BED_DOT false
#endif
if (PAGE_CONTAINS(STATUS_HEATERS_Y, STATUS_HEATERS_BOT)) {
#define BAR_TALL (STATUS_HEATERS_HEIGHT - 2)
const float prop = target - 20,
perc = prop > 0 && temp >= 20 ? (temp - 20) / prop : 0;
uint8_t tall = uint8_t(perc * BAR_TALL + 0.5f);
NOMORE(tall, BAR_TALL);
// Draw a heating progress bar, if specified
#if ENABLED(STATUS_HEAT_PERCENT)
if (isHeat) {
const uint8_t bx = STATUS_BED_X + STATUS_BED_WIDTH;
u8g.drawFrame(bx, STATUS_HEATERS_Y, 3, STATUS_HEATERS_HEIGHT);
if (tall) {
const uint8_t ph = STATUS_HEATERS_HEIGHT - 1 - tall;
if (PAGE_OVER(STATUS_HEATERS_Y + ph))
u8g.drawVLine(bx + 1, STATUS_HEATERS_Y + ph, tall);
}
}
#endif
} // PAGE_CONTAINS
if (PAGE_UNDER(7)) {
#if HEATER_IDLE_HANDLER
const bool dodraw = (blink || !thermalManager.heater_idle[thermalManager.IDLE_INDEX_BED].timed_out);
#else
constexpr bool dodraw = true;
#endif
if (dodraw) _draw_centered_temp(target, tx, 7);
}
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_temp(temp, tx, 28);
if (STATIC_BED && BED_DOT && PAGE_CONTAINS(17, 19)) {
u8g.setColorIndex(0); // set to white on black
u8g.drawBox(tx, 20 - 2, 2, 2);
u8g.setColorIndex(1); // restore black on white
}
}
#endif // DO_DRAW_BED
#if DO_DRAW_CHAMBER
FORCE_INLINE void _draw_chamber_status() {
#if HAS_HEATED_CHAMBER
if (PAGE_UNDER(7))
_draw_centered_temp(thermalManager.degTargetChamber(), STATUS_CHAMBER_TEXT_X, 7);
#endif
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_temp(thermalManager.wholeDegChamber(), STATUS_CHAMBER_TEXT_X, 28);
}
#endif
#if DO_DRAW_COOLER
FORCE_INLINE void _draw_cooler_status() {
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_temp(thermalManager.wholeDegCooler(), STATUS_COOLER_TEXT_X, 28);
}
#endif
#if DO_DRAW_FLOWMETER
FORCE_INLINE void _draw_flowmeter_status() {
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_flowrate(cooler.flowrate, STATUS_FLOWMETER_TEXT_X, 28);
}
#endif
#if DO_DRAW_AMMETER
FORCE_INLINE void _draw_ammeter_status() {
if (PAGE_CONTAINS(28 - INFO_FONT_ASCENT, 28 - 1))
_draw_centered_current(ammeter.read(), STATUS_AMMETER_TEXT_X, 28);
}
#endif
//
// Before homing, blink '123' <-> '???'.
// Homed but unknown... '123' <-> ' '.
// Homed and known, display constantly.
//
FORCE_INLINE void _draw_axis_value(const AxisEnum axis, const char *value, const bool blink) {
const bool is_inch = parser.using_inch_units();
const AxisEnum a = TERN(LCD_SHOW_E_TOTAL, axis == E_AXIS ? X_AXIS : axis, axis);
const uint8_t offs = a * (is_inch ? XYZ_SPACING_IN : XYZ_SPACING);
lcd_put_wchar((is_inch ? X_LABEL_POS_IN : X_LABEL_POS) + offs, XYZ_BASELINE, axis_codes[axis]);
lcd_moveto((is_inch ? X_VALUE_POS_IN : X_VALUE_POS) + offs, XYZ_BASELINE);
if (blink)
lcd_put_u8str(value);
else if (axis_should_home(axis))
while (const char c = *value++) lcd_put_wchar(c <= '.' ? c : '?');
else if (NONE(HOME_AFTER_DEACTIVATE, DISABLE_REDUCED_ACCURACY_WARNING) && !axis_is_trusted(axis))
lcd_put_u8str(axis == Z_AXIS ? F(" ") : F(" "));
else
lcd_put_u8str(value);
}
/**
* Draw the Status Screen for a 128x64 DOGM (U8glib) display.
*
* Called as needed to update the current display stripe.
* Use the PAGE_CONTAINS macros to avoid pointless draw calls.
*/
void MarlinUI::draw_status_screen() {
constexpr int xystorage = TERN(INCH_MODE_SUPPORT, 8, 5);
static char xstring[TERN(LCD_SHOW_E_TOTAL, 12, xystorage)], ystring[xystorage], zstring[8];
#if ENABLED(FILAMENT_LCD_DISPLAY)
static char wstring[5], mstring[4];
#endif
#if HAS_PRINT_PROGRESS
#if DISABLED(SHOW_SD_PERCENT)
#define _SD_INFO_X(len) (PROGRESS_BAR_X + (PROGRESS_BAR_WIDTH) / 2 - (len) * (MENU_FONT_WIDTH) / 2)
#else
#define _SD_INFO_X(len) (LCD_PIXEL_WIDTH - (len) * (MENU_FONT_WIDTH))
#endif
#if ENABLED(SHOW_SD_PERCENT)
static char progress_string[5];
#endif
static uint8_t lastElapsed = 0xFF, lastProgress = 0xFF;
static u8g_uint_t elapsed_x_pos = 0, progress_bar_solid_width = 0;
static char elapsed_string[16];
#if ENABLED(SHOW_REMAINING_TIME)
static u8g_uint_t estimation_x_pos = 0;
static char estimation_string[10];
#if BOTH(SHOW_SD_PERCENT, ROTATE_PROGRESS_DISPLAY)
static u8g_uint_t progress_x_pos = 0;
static uint8_t progress_state = 0;
static bool prev_blink = 0;
#endif
#endif
#endif
const bool show_e_total = TERN0(LCD_SHOW_E_TOTAL, printingIsActive());
// At the first page, generate new display values
if (first_page) {
#if ANIM_HBCC
uint8_t new_bits = 0;
#if ANIM_HOTEND
HOTEND_LOOP() if (thermalManager.isHeatingHotend(e)) SBI(new_bits, DRAWBIT_HOTEND + e);
#endif
if (TERN0(ANIM_BED, thermalManager.isHeatingBed())) SBI(new_bits, DRAWBIT_BED);
#if DO_DRAW_CHAMBER && HAS_HEATED_CHAMBER
if (thermalManager.isHeatingChamber()) SBI(new_bits, DRAWBIT_CHAMBER);
#endif
if (TERN0(ANIM_CUTTER, cutter.enabled())) SBI(new_bits, DRAWBIT_CUTTER);
draw_bits = new_bits;
#endif
const xyz_pos_t lpos = current_position.asLogical();
const bool is_inch = parser.using_inch_units();
strcpy(zstring, is_inch ? ftostr42_52(LINEAR_UNIT(lpos.z)) : ftostr52sp(lpos.z));
if (show_e_total) {
#if ENABLED(LCD_SHOW_E_TOTAL)
const uint8_t escale = e_move_accumulator >= 100000.0f ? 10 : 1; // After 100m switch to cm
sprintf_P(xstring, PSTR("%ld%cm"), uint32_t(_MAX(e_move_accumulator, 0.0f)) / escale, escale == 10 ? 'c' : 'm'); // 1234567mm
#endif
}
else {
strcpy(xstring, is_inch ? ftostr53_63(LINEAR_UNIT(lpos.x)) : ftostr4sign(lpos.x));
strcpy(ystring, is_inch ? ftostr53_63(LINEAR_UNIT(lpos.y)) : ftostr4sign(lpos.y));
}
#if ENABLED(FILAMENT_LCD_DISPLAY)
strcpy(wstring, ftostr12ns(filwidth.measured_mm));
strcpy(mstring, i16tostr3rj(planner.volumetric_percent(parser.volumetric_enabled)));
#endif
// Progress / elapsed / estimation updates and string formatting to avoid float math on each LCD draw
#if HAS_PRINT_PROGRESS
const progress_t progress = TERN(HAS_PRINT_PROGRESS_PERMYRIAD, get_progress_permyriad, get_progress_percent)();
duration_t elapsed = print_job_timer.duration();
const uint8_t p = progress & 0xFF, ev = elapsed.value & 0xFF;
if (p != lastProgress) {
lastProgress = p;
progress_bar_solid_width = u8g_uint_t((PROGRESS_BAR_WIDTH - 2) * (progress / (PROGRESS_SCALE)) * 0.01f);
#if ENABLED(SHOW_SD_PERCENT)
if (progress == 0) {
progress_string[0] = '\0';
#if ENABLED(SHOW_REMAINING_TIME)
estimation_string[0] = '\0';
estimation_x_pos = _SD_INFO_X(0);
#endif
}
else
strcpy(progress_string, TERN(PRINT_PROGRESS_SHOW_DECIMALS, permyriadtostr4(progress), ui8tostr3rj(progress / (PROGRESS_SCALE))));
#if BOTH(SHOW_REMAINING_TIME, ROTATE_PROGRESS_DISPLAY) // Tri-state progress display mode
progress_x_pos = _SD_INFO_X(strlen(progress_string) + 1);
#endif
#endif
}
constexpr bool can_show_days = DISABLED(SHOW_SD_PERCENT) || ENABLED(ROTATE_PROGRESS_DISPLAY);
if (ev != lastElapsed) {
lastElapsed = ev;
const uint8_t len = elapsed.toDigital(elapsed_string, can_show_days && elapsed.value >= 60*60*24L);
elapsed_x_pos = _SD_INFO_X(len);
#if ENABLED(SHOW_REMAINING_TIME)
if (!(ev & 0x3)) {
uint32_t timeval = (0
#if BOTH(LCD_SET_PROGRESS_MANUALLY, USE_M73_REMAINING_TIME)
+ get_remaining_time()
#endif
);
if (!timeval && progress > 0) timeval = elapsed.value * (100 * (PROGRESS_SCALE) - progress) / progress;
if (!timeval) {
estimation_string[0] = '\0';
estimation_x_pos = _SD_INFO_X(0);
}
else {
duration_t estimation = timeval;
const uint8_t len = estimation.toDigital(estimation_string, can_show_days && estimation.value >= 60*60*24L);
estimation_x_pos = _SD_INFO_X(len + !BOTH(SHOW_SD_PERCENT, ROTATE_PROGRESS_DISPLAY));
}
}
#endif
}
#endif
}
const bool blink = get_blink();
// Status Menu Font
set_font(FONT_STATUSMENU);
#if DO_DRAW_LOGO
if (PAGE_CONTAINS(STATUS_LOGO_Y, STATUS_LOGO_Y + STATUS_LOGO_HEIGHT - 1))
u8g.drawBitmapP(STATUS_LOGO_X, STATUS_LOGO_Y, STATUS_LOGO_BYTEWIDTH, STATUS_LOGO_HEIGHT, status_logo_bmp);
#endif
#if STATUS_HEATERS_WIDTH
// Draw all heaters (and maybe the bed) in one go
if (PAGE_CONTAINS(STATUS_HEATERS_Y, STATUS_HEATERS_Y + STATUS_HEATERS_HEIGHT - 1))
u8g.drawBitmapP(STATUS_HEATERS_X, STATUS_HEATERS_Y, STATUS_HEATERS_BYTEWIDTH, STATUS_HEATERS_HEIGHT, status_heaters_bmp);
#endif
#if DO_DRAW_CUTTER && DISABLED(STATUS_COMBINE_HEATERS)
#if ANIM_CUTTER
#define CUTTER_BITMAP(S) ((S) ? status_cutter_on_bmp : status_cutter_bmp)
#else
#define CUTTER_BITMAP(S) status_cutter_bmp
#endif
const uint8_t cuttery = STATUS_CUTTER_Y(CUTTER_ALT()),
cutterh = STATUS_CUTTER_HEIGHT(CUTTER_ALT());
if (PAGE_CONTAINS(cuttery, cuttery + cutterh - 1))
u8g.drawBitmapP(STATUS_CUTTER_X, cuttery, STATUS_CUTTER_BYTEWIDTH, cutterh, CUTTER_BITMAP(CUTTER_ALT()));
#endif
#if DO_DRAW_BED && DISABLED(STATUS_COMBINE_HEATERS)
#if ANIM_BED
#define BED_BITMAP(S) ((S) ? status_bed_on_bmp : status_bed_bmp)
#else
#define BED_BITMAP(S) status_bed_bmp
#endif
const uint8_t bedy = STATUS_BED_Y(BED_ALT()),
bedh = STATUS_BED_HEIGHT(BED_ALT());
if (PAGE_CONTAINS(bedy, bedy + bedh - 1))
u8g.drawBitmapP(STATUS_BED_X, bedy, STATUS_BED_BYTEWIDTH, bedh, BED_BITMAP(BED_ALT()));
#endif
#if DO_DRAW_CHAMBER && DISABLED(STATUS_COMBINE_HEATERS)
#if ANIM_CHAMBER
#define CHAMBER_BITMAP(S) ((S) ? status_chamber_on_bmp : status_chamber_bmp)
#else
#define CHAMBER_BITMAP(S) status_chamber_bmp
#endif
const uint8_t chambery = STATUS_CHAMBER_Y(CHAMBER_ALT()),
chamberh = STATUS_CHAMBER_HEIGHT(CHAMBER_ALT());
if (PAGE_CONTAINS(chambery, chambery + chamberh - 1))
u8g.drawBitmapP(STATUS_CHAMBER_X, chambery, STATUS_CHAMBER_BYTEWIDTH, chamberh, CHAMBER_BITMAP(CHAMBER_ALT()));
#endif
#if DO_DRAW_FAN
#if STATUS_FAN_FRAMES > 2
static bool old_blink;
static uint8_t fan_frame;
if (old_blink != blink) {
old_blink = blink;
if (!thermalManager.fan_speed[0] || ++fan_frame >= STATUS_FAN_FRAMES) fan_frame = 0;
}
#endif
if (PAGE_CONTAINS(STATUS_FAN_Y, STATUS_FAN_Y + STATUS_FAN_HEIGHT - 1))
u8g.drawBitmapP(STATUS_FAN_X, STATUS_FAN_Y, STATUS_FAN_BYTEWIDTH, STATUS_FAN_HEIGHT,
#if STATUS_FAN_FRAMES > 2
fan_frame == 1 ? status_fan1_bmp :
fan_frame == 2 ? status_fan2_bmp :
#if STATUS_FAN_FRAMES > 3
fan_frame == 3 ? status_fan3_bmp :
#endif
#elif STATUS_FAN_FRAMES > 1
blink && thermalManager.fan_speed[0] ? status_fan1_bmp :
#endif
status_fan0_bmp
);
#endif
//
// Temperature Graphics and Info
//
if (PAGE_UNDER(6 + 1 + 12 + 1 + 6 + 1)) {
// Extruders
#if DO_DRAW_HOTENDS
LOOP_L_N(e, MAX_HOTEND_DRAW)
_draw_hotend_status((heater_id_t)e, blink);
#endif
// Laser / Spindle
#if DO_DRAW_CUTTER
if (cutter.isReady && PAGE_CONTAINS(STATUS_CUTTER_TEXT_Y - INFO_FONT_ASCENT, STATUS_CUTTER_TEXT_Y - 1)) {
#if CUTTER_UNIT_IS(PERCENT)
lcd_put_u8str(STATUS_CUTTER_TEXT_X, STATUS_CUTTER_TEXT_Y, cutter_power2str(cutter.unitPower));
#elif CUTTER_UNIT_IS(RPM)
lcd_put_u8str(STATUS_CUTTER_TEXT_X - 2, STATUS_CUTTER_TEXT_Y, ftostr51rj(float(cutter.unitPower) / 1000));
lcd_put_wchar('K');
#else
lcd_put_u8str(STATUS_CUTTER_TEXT_X, STATUS_CUTTER_TEXT_Y, cutter_power2str(cutter.unitPower));
#endif
}
#endif
// Laser Cooler
#if DO_DRAW_COOLER
const uint8_t coolery = STATUS_COOLER_Y(status_cooler_bmp1),
coolerh = STATUS_COOLER_HEIGHT(status_cooler_bmp1);
if (PAGE_CONTAINS(coolery, coolery + coolerh - 1))
u8g.drawBitmapP(STATUS_COOLER_X, coolery, STATUS_COOLER_BYTEWIDTH, coolerh, blink && cooler.enabled ? status_cooler_bmp2 : status_cooler_bmp1);
#endif
// Laser Cooler Flow Meter
#if DO_DRAW_FLOWMETER
const uint8_t flowmetery = STATUS_FLOWMETER_Y(status_flowmeter_bmp1),
flowmeterh = STATUS_FLOWMETER_HEIGHT(status_flowmeter_bmp1);
if (PAGE_CONTAINS(flowmetery, flowmetery + flowmeterh - 1))
u8g.drawBitmapP(STATUS_FLOWMETER_X, flowmetery, STATUS_FLOWMETER_BYTEWIDTH, flowmeterh, blink && cooler.flowpulses ? status_flowmeter_bmp2 : status_flowmeter_bmp1);
#endif
// Laser Ammeter
#if DO_DRAW_AMMETER
const uint8_t ammetery = STATUS_AMMETER_Y(status_ammeter_bmp_mA),
ammeterh = STATUS_AMMETER_HEIGHT(status_ammeter_bmp_mA);
if (PAGE_CONTAINS(ammetery, ammetery + ammeterh - 1))
u8g.drawBitmapP(STATUS_AMMETER_X, ammetery, STATUS_AMMETER_BYTEWIDTH, ammeterh, (ammeter.current < 0.1f) ? status_ammeter_bmp_mA : status_ammeter_bmp_A);
#endif
// Heated Bed
TERN_(DO_DRAW_BED, _draw_bed_status(blink));
// Heated Chamber
TERN_(DO_DRAW_CHAMBER, _draw_chamber_status());
// Cooler
TERN_(DO_DRAW_COOLER, _draw_cooler_status());
// Flowmeter
TERN_(DO_DRAW_FLOWMETER, _draw_flowmeter_status());
// Flowmeter
TERN_(DO_DRAW_AMMETER, _draw_ammeter_status());
// Fan, if a bitmap was provided
#if DO_DRAW_FAN
if (PAGE_CONTAINS(STATUS_FAN_TEXT_Y - INFO_FONT_ASCENT, STATUS_FAN_TEXT_Y - 1)) {
char c = '%';
uint16_t spd = thermalManager.fan_speed[0];
if (spd) {
#if ENABLED(ADAPTIVE_FAN_SLOWING)
if (!blink && thermalManager.fan_speed_scaler[0] < 128) {
spd = thermalManager.scaledFanSpeed(0, spd);
c = '*';
}
#endif
lcd_put_u8str(STATUS_FAN_TEXT_X, STATUS_FAN_TEXT_Y, i16tostr3rj(thermalManager.pwmToPercent(spd)));
lcd_put_wchar(c);
}
}
#endif
}
#if ENABLED(SDSUPPORT)
//
// SD Card Symbol
//
if (card.isFileOpen() && PAGE_CONTAINS(42, 51)) {
// Upper box
u8g.drawBox(42, 42, 8, 7); // 42-48 (or 41-47)
// Right edge
u8g.drawBox(50, 44, 2, 5); // 44-48 (or 43-47)
// Bottom hollow box
u8g.drawFrame(42, 49, 10, 4); // 49-52 (or 48-51)
// Corner pixel
u8g.drawPixel(50, 43); // 43 (or 42)
}
#endif // SDSUPPORT
#if HAS_PRINT_PROGRESS
//
// Progress bar frame
//
if (PAGE_CONTAINS(PROGRESS_BAR_Y, PROGRESS_BAR_Y + 3))
u8g.drawFrame(PROGRESS_BAR_X, PROGRESS_BAR_Y, PROGRESS_BAR_WIDTH, 4);
//
// Progress bar solid part
//
if (PAGE_CONTAINS(PROGRESS_BAR_Y + 1, PROGRESS_BAR_Y + 2))
u8g.drawBox(PROGRESS_BAR_X + 1, PROGRESS_BAR_Y + 1, progress_bar_solid_width, 2);
if (PAGE_CONTAINS(EXTRAS_BASELINE - INFO_FONT_ASCENT, EXTRAS_BASELINE - 1)) {
#if ALL(SHOW_SD_PERCENT, SHOW_REMAINING_TIME, ROTATE_PROGRESS_DISPLAY)
if (prev_blink != blink) {
prev_blink = blink;
if (++progress_state >= 3) progress_state = 0;
}
if (progress_state == 0) {
if (progress_string[0]) {
lcd_put_u8str(progress_x_pos, EXTRAS_BASELINE, progress_string);
lcd_put_wchar('%');
}
}
else if (progress_state == 2 && estimation_string[0]) {
lcd_put_u8str(PROGRESS_BAR_X, EXTRAS_BASELINE, F("R:"));
lcd_put_u8str(estimation_x_pos, EXTRAS_BASELINE, estimation_string);
}
else if (elapsed_string[0]) {
lcd_put_u8str_P(PROGRESS_BAR_X, EXTRAS_BASELINE, E_LBL);
lcd_put_u8str(elapsed_x_pos, EXTRAS_BASELINE, elapsed_string);
}
#else // !SHOW_SD_PERCENT || !SHOW_REMAINING_TIME || !ROTATE_PROGRESS_DISPLAY
//
// SD Percent Complete
//
#if ENABLED(SHOW_SD_PERCENT)
if (progress_string[0]) {
lcd_put_u8str(55, EXTRAS_BASELINE, progress_string); // Percent complete
lcd_put_wchar('%');
}
#endif
//
// Elapsed Time
//
#if ENABLED(SHOW_REMAINING_TIME)
if (blink && estimation_string[0]) {
lcd_put_wchar(estimation_x_pos, EXTRAS_BASELINE, 'R');
lcd_put_u8str(estimation_string);
}
else
#endif
lcd_put_u8str(elapsed_x_pos, EXTRAS_BASELINE, elapsed_string);
#endif // !SHOW_SD_PERCENT || !SHOW_REMAINING_TIME || !ROTATE_PROGRESS_DISPLAY
}
#endif // HAS_PRINT_PROGRESS
//
// XYZ Coordinates
//
#if EITHER(XYZ_NO_FRAME, XYZ_HOLLOW_FRAME)
#define XYZ_FRAME_TOP 29
#define XYZ_FRAME_HEIGHT INFO_FONT_ASCENT + 3
#else
#define XYZ_FRAME_TOP 30
#define XYZ_FRAME_HEIGHT INFO_FONT_ASCENT + 1
#endif
if (PAGE_CONTAINS(XYZ_FRAME_TOP, XYZ_FRAME_TOP + XYZ_FRAME_HEIGHT - 1)) {
#if DISABLED(XYZ_NO_FRAME)
#if ENABLED(XYZ_HOLLOW_FRAME)
u8g.drawFrame(0, XYZ_FRAME_TOP, LCD_PIXEL_WIDTH, XYZ_FRAME_HEIGHT); // 8: 29-40 7: 29-39
#else
u8g.drawBox(0, XYZ_FRAME_TOP, LCD_PIXEL_WIDTH, XYZ_FRAME_HEIGHT); // 8: 30-39 7: 30-37
#endif
#endif
if (PAGE_CONTAINS(XYZ_BASELINE - (INFO_FONT_ASCENT - 1), XYZ_BASELINE)) {
#if NONE(XYZ_NO_FRAME, XYZ_HOLLOW_FRAME)
u8g.setColorIndex(0); // white on black
#endif
#if HAS_DUAL_MIXING
// Two-component mix / gradient instead of XY
char mixer_messages[15];
PGM_P mix_label;
#if ENABLED(GRADIENT_MIX)
if (mixer.gradient.enabled) {
mixer.update_mix_from_gradient();
mix_label = PSTR("Gr");
}
else
#endif
{
mixer.update_mix_from_vtool();
mix_label = PSTR("Mx");
}
#if GCC_VERSION <= 50000
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wformat-overflow"
#endif
sprintf_P(mixer_messages, PSTR(S_FMT " %d;%d%% "), mix_label, int(mixer.mix[0]), int(mixer.mix[1]));
lcd_put_u8str(X_LABEL_POS, XYZ_BASELINE, mixer_messages);
#if GCC_VERSION <= 50000
#pragma GCC diagnostic pop
#endif
#else
if (show_e_total) {
#if ENABLED(LCD_SHOW_E_TOTAL)
_draw_axis_value(E_AXIS, xstring, true);
lcd_put_u8str(F(" "));
#endif
}
else {
_draw_axis_value(X_AXIS, xstring, blink);
_draw_axis_value(Y_AXIS, ystring, blink);
}
#endif
_draw_axis_value(Z_AXIS, zstring, blink);
#if NONE(XYZ_NO_FRAME, XYZ_HOLLOW_FRAME)
u8g.setColorIndex(1); // black on white
#endif
}
}
//
// Feedrate
//
#define EXTRAS_2_BASELINE (EXTRAS_BASELINE + 3)
if (PAGE_CONTAINS(EXTRAS_2_BASELINE - INFO_FONT_ASCENT, EXTRAS_2_BASELINE - 1)) {
set_font(FONT_MENU);
lcd_put_wchar(3, EXTRAS_2_BASELINE, LCD_STR_FEEDRATE[0]);
set_font(FONT_STATUSMENU);
lcd_put_u8str(12, EXTRAS_2_BASELINE, i16tostr3rj(feedrate_percentage));
lcd_put_wchar('%');
//
// Filament sensor display if SD is disabled
//
#if ENABLED(FILAMENT_LCD_DISPLAY) && DISABLED(SDSUPPORT)
lcd_put_u8str(56, EXTRAS_2_BASELINE, wstring);
lcd_put_u8str(102, EXTRAS_2_BASELINE, mstring);
lcd_put_wchar('%');
set_font(FONT_MENU);
lcd_put_wchar(47, EXTRAS_2_BASELINE, LCD_STR_FILAM_DIA[0]); // lcd_put_u8str(F(LCD_STR_FILAM_DIA));
lcd_put_wchar(93, EXTRAS_2_BASELINE, LCD_STR_FILAM_MUL[0]);
#endif
}
//
// Status line
//
if (PAGE_CONTAINS(STATUS_BASELINE - INFO_FONT_ASCENT, STATUS_BASELINE + INFO_FONT_DESCENT)) {
lcd_moveto(0, STATUS_BASELINE);
#if BOTH(FILAMENT_LCD_DISPLAY, SDSUPPORT)
// Alternate Status message and Filament display
if (ELAPSED(millis(), next_filament_display)) {
lcd_put_u8str(F(LCD_STR_FILAM_DIA));
lcd_put_wchar(':');
lcd_put_u8str(wstring);
lcd_put_u8str(F(" " LCD_STR_FILAM_MUL));
lcd_put_wchar(':');
lcd_put_u8str(mstring);
lcd_put_wchar('%');
return;
}
#endif
draw_status_message(blink);
}
}
/**
* Draw the Status Message area
*/
void MarlinUI::draw_status_message(const bool blink) {
// Get the UTF8 character count of the string
uint8_t lcd_width = LCD_WIDTH, pixel_width = LCD_PIXEL_WIDTH,
slen = utf8_strlen(status_message);
#if HAS_POWER_MONITOR
if (power_monitor.display_enabled()) {
// make room at the end of the status line for the power monitor reading
lcd_width -= 6;
pixel_width -= (MENU_FONT_WIDTH) * 6;
}
#endif
#if ENABLED(STATUS_MESSAGE_SCROLLING)
static bool last_blink = false;
if (slen <= lcd_width) {
// The string fits within the line. Print with no scrolling
lcd_put_u8str(status_message);
while (slen < lcd_width) { lcd_put_wchar(' '); ++slen; }
}
else {
// String is longer than the available space
if (blink != last_blink) {
last_blink = blink;
advance_status_scroll();
}
// Get a pointer to the next valid UTF8 character
// and the string remaining length
uint8_t rlen;
const char *stat = status_and_len(rlen);
lcd_put_u8str_max(stat, pixel_width);
// If the remaining string doesn't completely fill the screen
if (rlen < lcd_width) {
uint8_t chars = lcd_width - rlen; // Amount of space left in characters
lcd_put_wchar(' '); // Always at 1+ spaces left, draw a space
if (--chars) { // Draw a second space if there's room
lcd_put_wchar(' ');
if (--chars) { // Draw a third space if there's room
lcd_put_wchar(' ');
if (--chars) { // Print a second copy of the message
lcd_put_u8str_max(status_message, pixel_width - (rlen + 2) * (MENU_FONT_WIDTH));
lcd_put_wchar(' ');
}
}
}
}
}
#else // !STATUS_MESSAGE_SCROLLING
UNUSED(blink);
// Just print the string to the LCD
lcd_put_u8str_max(status_message, pixel_width);
// Fill the rest with spaces
for (; slen < lcd_width; ++slen) lcd_put_wchar(' ');
#endif // !STATUS_MESSAGE_SCROLLING
#if HAS_POWER_MONITOR
display_power_monitor(pixel_width + MENU_FONT_WIDTH, STATUS_BASELINE);
#endif
}
#endif // HAS_MARLINUI_U8GLIB && !LIGHTWEIGHT_UI