Spacing, const, comments
This commit is contained in:
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@ -243,7 +243,7 @@
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/* Custom characters defined in the first 8 characters of the LCD */
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/* Custom characters defined in the first 8 characters of the LCD */
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#define LCD_BEDTEMP_CHAR 0x00 // Print only as a char. This will have 'unexpected' results when used in a string!
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#define LCD_BEDTEMP_CHAR 0x00 // Print only as a char. This will have 'unexpected' results when used in a string!
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#define LCD_DEGREE_CHAR 0x01
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#define LCD_DEGREE_CHAR 0x01
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#define LCD_STR_THERMOMETER "\x02" // Too many places use preprocessor string concatination to change this to a char right now.
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#define LCD_STR_THERMOMETER "\x02" // Still used with string concatenation
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#define LCD_UPLEVEL_CHAR 0x03
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#define LCD_UPLEVEL_CHAR 0x03
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#define LCD_REFRESH_CHAR 0x04
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#define LCD_REFRESH_CHAR 0x04
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#define LCD_STR_FOLDER "\x05"
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#define LCD_STR_FOLDER "\x05"
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@ -225,13 +225,11 @@
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*/
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*/
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//#define CASE_LIGHT_ENABLE
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//#define CASE_LIGHT_ENABLE
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#if ENABLED(CASE_LIGHT_ENABLE)
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#if ENABLED(CASE_LIGHT_ENABLE)
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#define CASE_LIGHT_PIN 4 // can be defined here or in the pins_XXX.h file for your board
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//#define CASE_LIGHT_PIN 4 // Override the default pin if needed
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// pins_XXX.h file overrides this one
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#define INVERT_CASE_LIGHT false // Set true if Case Light is ON when pin is LOW
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#define INVERT_CASE_LIGHT false // set to true if case light is ON when pin is at 0
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#define CASE_LIGHT_DEFAULT_ON true // Set default power-up state on
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#define CASE_LIGHT_DEFAULT_ON true // set default power up state to on or off
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#define CASE_LIGHT_DEFAULT_BRIGHTNESS 105 // Set default power-up brightness (0-255, requires PWM pin)
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#define CASE_LIGHT_DEFAULT_BRIGHTNESS 105 // set power up brightness 0-255 ( only used if on PWM
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//#define MENU_ITEM_CASE_LIGHT // Add a Case Light option to the LCD main menu
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// and if CASE_LIGHT_DEFAULT is set to on
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//#define MENU_ITEM_CASE_LIGHT // Uncomment to have a Case Light entry in main menu
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#endif
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#endif
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//===========================================================================
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//===========================================================================
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@ -1394,7 +1394,7 @@ bool get_target_extruder_from_command(int code) {
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*
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*
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* Callers must sync the planner position after calling this!
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* Callers must sync the planner position after calling this!
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*/
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*/
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static void set_axis_is_at_home(AxisEnum axis) {
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static void set_axis_is_at_home(const AxisEnum axis) {
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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if (DEBUGGING(LEVELING)) {
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SERIAL_ECHOPAIR(">>> set_axis_is_at_home(", axis_codes[axis]);
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SERIAL_ECHOPAIR(">>> set_axis_is_at_home(", axis_codes[axis]);
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@ -1496,7 +1496,7 @@ static void set_axis_is_at_home(AxisEnum axis) {
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/**
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/**
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* Some planner shorthand inline functions
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* Some planner shorthand inline functions
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*/
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*/
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inline float get_homing_bump_feedrate(AxisEnum axis) {
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inline float get_homing_bump_feedrate(const AxisEnum axis) {
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int constexpr homing_bump_divisor[] = HOMING_BUMP_DIVISOR;
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int constexpr homing_bump_divisor[] = HOMING_BUMP_DIVISOR;
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int hbd = homing_bump_divisor[axis];
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int hbd = homing_bump_divisor[axis];
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if (hbd < 1) {
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if (hbd < 1) {
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@ -1507,20 +1507,19 @@ inline float get_homing_bump_feedrate(AxisEnum axis) {
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return homing_feedrate_mm_s[axis] / hbd;
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return homing_feedrate_mm_s[axis] / hbd;
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}
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}
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//
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/**
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// line_to_current_position
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* Move the planner to the current position from wherever it last moved
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// Move the planner to the current position from wherever it last moved
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* (or from wherever it has been told it is located).
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// (or from wherever it has been told it is located).
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*/
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//
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inline void line_to_current_position() {
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inline void line_to_current_position() {
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], feedrate_mm_s, active_extruder);
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planner.buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], feedrate_mm_s, active_extruder);
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}
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}
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//
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/**
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// line_to_destination
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* Move the planner to the position stored in the destination array, which is
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// Move the planner, not necessarily synced with current_position
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* used by G0/G1/G2/G3/G5 and many other functions to set a destination.
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//
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*/
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inline void line_to_destination(float fr_mm_s) {
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inline void line_to_destination(const float fr_mm_s) {
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planner.buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], fr_mm_s, active_extruder);
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planner.buffer_line(destination[X_AXIS], destination[Y_AXIS], destination[Z_AXIS], destination[E_AXIS], fr_mm_s, active_extruder);
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}
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}
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inline void line_to_destination() { line_to_destination(feedrate_mm_s); }
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inline void line_to_destination() { line_to_destination(feedrate_mm_s); }
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@ -2751,7 +2750,7 @@ static void clean_up_after_endstop_or_probe_move() {
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/**
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/**
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* Home an individual linear axis
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* Home an individual linear axis
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*/
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*/
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static void do_homing_move(const AxisEnum axis, float distance, float fr_mm_s=0.0) {
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static void do_homing_move(const AxisEnum axis, const float distance, const float fr_mm_s=0.0) {
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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if (DEBUGGING(LEVELING)) {
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@ -4907,7 +4906,7 @@ void home_all_axes() { gcode_G28(true); }
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if ( NEAR(current_position[X_AXIS], xProbe - (X_PROBE_OFFSET_FROM_EXTRUDER))
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if ( NEAR(current_position[X_AXIS], xProbe - (X_PROBE_OFFSET_FROM_EXTRUDER))
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&& NEAR(current_position[Y_AXIS], yProbe - (Y_PROBE_OFFSET_FROM_EXTRUDER))
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&& NEAR(current_position[Y_AXIS], yProbe - (Y_PROBE_OFFSET_FROM_EXTRUDER))
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) {
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) {
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float simple_z = current_position[Z_AXIS] - measured_z;
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const float simple_z = current_position[Z_AXIS] - measured_z;
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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#if ENABLED(DEBUG_LEVELING_FEATURE)
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if (DEBUGGING(LEVELING)) {
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if (DEBUGGING(LEVELING)) {
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SERIAL_ECHOPAIR("Z from Probe:", simple_z);
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SERIAL_ECHOPAIR("Z from Probe:", simple_z);
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@ -7667,45 +7666,32 @@ void report_current_position() {
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#ifdef M114_DETAIL
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#ifdef M114_DETAIL
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static const char axis_char[XYZE] = {'X','Y','Z','E'};
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void report_xyze(const float pos[XYZE], const uint8_t n = 4, const uint8_t precision = 3) {
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void report_xyze(const float pos[XYZE], uint8_t n = 4, uint8_t precision = 3) {
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char str[12];
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char str[12];
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for (uint8_t i = 0; i < n; i++) {
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for (uint8_t i = 0; i < n; i++) {
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SERIAL_CHAR(' ');
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SERIAL_CHAR(' ');
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SERIAL_CHAR(axis_char[i]);
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SERIAL_CHAR(axis_codes[i]);
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SERIAL_CHAR(':');
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SERIAL_CHAR(':');
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SERIAL_PROTOCOL(dtostrf(pos[i], 8, precision, str));
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SERIAL_PROTOCOL(dtostrf(pos[i], 8, precision, str));
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}
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}
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SERIAL_EOL;
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SERIAL_EOL;
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}
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}
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inline void report_xyz(const float pos[XYZ]) {
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inline void report_xyz(const float pos[XYZ]) { report_xyze(pos, 3); }
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report_xyze(pos,3);
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}
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void report_current_position_detail() {
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void report_current_position_detail() {
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stepper.synchronize();
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stepper.synchronize();
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SERIAL_EOL;
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SERIAL_PROTOCOLPGM("\nLogical:");
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SERIAL_PROTOCOLPGM("Logical:");
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report_xyze(current_position);
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report_xyze(current_position);
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SERIAL_PROTOCOLPGM("Raw: ");
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SERIAL_PROTOCOLPGM("Raw: ");
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const float raw[XYZ] = {
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const float raw[XYZ] = { RAW_X_POSITION(current_position[X_AXIS]), RAW_Y_POSITION(current_position[Y_AXIS]), RAW_Z_POSITION(current_position[Z_AXIS]) };
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RAW_X_POSITION(current_position[X_AXIS]),
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RAW_Y_POSITION(current_position[Y_AXIS]),
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RAW_Z_POSITION(current_position[Z_AXIS])
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};
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report_xyz(raw);
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report_xyz(raw);
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SERIAL_PROTOCOLPGM("Leveled:");
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SERIAL_PROTOCOLPGM("Leveled:");
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float leveled[XYZ] = {
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float leveled[XYZ] = { current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS] };
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current_position[X_AXIS],
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current_position[Y_AXIS],
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current_position[Z_AXIS]
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};
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planner.apply_leveling(leveled);
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planner.apply_leveling(leveled);
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report_xyz(leveled);
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report_xyz(leveled);
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@ -7725,12 +7711,7 @@ void report_current_position() {
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#endif
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#endif
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SERIAL_PROTOCOLPGM("Stepper:");
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SERIAL_PROTOCOLPGM("Stepper:");
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const float step_count[XYZE] = {
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const float step_count[XYZE] = { stepper.position(X_AXIS), stepper.position(Y_AXIS), stepper.position(Z_AXIS), stepper.position(E_AXIS) };
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(float)stepper.position(X_AXIS),
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(float)stepper.position(Y_AXIS),
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(float)stepper.position(Z_AXIS),
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(float)stepper.position(E_AXIS)
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};
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report_xyze(step_count, 4, 0);
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report_xyze(step_count, 4, 0);
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#if IS_SCARA
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#if IS_SCARA
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@ -7744,12 +7725,7 @@ void report_current_position() {
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SERIAL_PROTOCOLPGM("FromStp:");
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SERIAL_PROTOCOLPGM("FromStp:");
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get_cartesian_from_steppers(); // writes cartes[XYZ] (with forward kinematics)
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get_cartesian_from_steppers(); // writes cartes[XYZ] (with forward kinematics)
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const float from_steppers[XYZE] = {
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const float from_steppers[XYZE] = { cartes[X_AXIS], cartes[Y_AXIS], cartes[Z_AXIS], stepper.get_axis_position_mm(E_AXIS) };
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cartes[X_AXIS],
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cartes[Y_AXIS],
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cartes[Z_AXIS],
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stepper.get_axis_position_mm(E_AXIS)
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};
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report_xyze(from_steppers);
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report_xyze(from_steppers);
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const float diff[XYZE] = {
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const float diff[XYZE] = {
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@ -7764,7 +7740,7 @@ void report_current_position() {
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#endif // M114_DETAIL
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#endif // M114_DETAIL
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/**
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/**
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* M114: Output current position to serial port
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* M114: Report current position to host
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*/
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*/
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inline void gcode_M114() {
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inline void gcode_M114() {
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@ -7859,9 +7835,7 @@ inline void gcode_M115() {
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/**
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/**
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* M117: Set LCD Status Message
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* M117: Set LCD Status Message
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*/
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*/
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inline void gcode_M117() {
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inline void gcode_M117() { lcd_setstatus(parser.string_arg); }
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lcd_setstatus(parser.string_arg);
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}
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/**
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/**
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* M119: Output endstop states to serial output
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* M119: Output endstop states to serial output
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@ -104,7 +104,7 @@ class Buzzer {
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* @param duration Duration of the tone in milliseconds
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* @param duration Duration of the tone in milliseconds
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* @param frequency Frequency of the tone in hertz
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* @param frequency Frequency of the tone in hertz
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*/
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*/
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void tone(uint16_t const &duration, uint16_t const &frequency = 0) {
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void tone(const uint16_t &duration, const uint16_t &frequency = 0) {
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while (buffer.isFull()) {
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while (buffer.isFull()) {
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this->tick();
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this->tick();
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thermalManager.manage_heater();
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thermalManager.manage_heater();
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@ -457,10 +457,10 @@ void MarlinSettings::postprocess() {
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#endif
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#endif
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#if DISABLED(ULTIPANEL)
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#if DISABLED(ULTIPANEL)
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const int lcd_preheat_hotend_temp[2] = { PREHEAT_1_TEMP_HOTEND, PREHEAT_2_TEMP_HOTEND },
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constexpr int lcd_preheat_hotend_temp[2] = { PREHEAT_1_TEMP_HOTEND, PREHEAT_2_TEMP_HOTEND },
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lcd_preheat_bed_temp[2] = { PREHEAT_1_TEMP_BED, PREHEAT_2_TEMP_BED },
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lcd_preheat_bed_temp[2] = { PREHEAT_1_TEMP_BED, PREHEAT_2_TEMP_BED },
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lcd_preheat_fan_speed[2] = { PREHEAT_1_FAN_SPEED, PREHEAT_2_FAN_SPEED };
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lcd_preheat_fan_speed[2] = { PREHEAT_1_FAN_SPEED, PREHEAT_2_FAN_SPEED };
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#endif // !ULTIPANEL
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#endif
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EEPROM_WRITE(lcd_preheat_hotend_temp);
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EEPROM_WRITE(lcd_preheat_hotend_temp);
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EEPROM_WRITE(lcd_preheat_bed_temp);
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EEPROM_WRITE(lcd_preheat_bed_temp);
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@ -193,17 +193,18 @@ extern volatile uint8_t buttons; //an extended version of the last checked butt
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static void lcd_implementation_update_indicators();
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static void lcd_implementation_update_indicators();
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#endif
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#endif
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static void createChar_P(const char c, const byte * const ptr) {
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static void createChar_P(char c, PROGMEM byte *ptr) {
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byte temp[8];
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byte temp[8];
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int8_t i;
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for (uint8_t i = 0; i < 8; i++)
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for(i=0; i<8; i++) {
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temp[i] = pgm_read_byte(&ptr[i]);
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temp[i] = pgm_read_byte(&ptr[i]);
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}
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lcd.createChar(c, temp);
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lcd.createChar(c, temp);
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}
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}
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static void lcd_set_custom_characters(
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#if ENABLED(LCD_PROGRESS_BAR)
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const bool info_screen_charset = true
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#endif
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) {
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const static PROGMEM byte bedTemp[8] = {
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const static PROGMEM byte bedTemp[8] = {
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B00000,
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B00000,
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B11111,
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B11111,
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@ -324,12 +325,6 @@ const static PROGMEM byte clock[8] = {
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#endif
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#endif
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#endif
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#endif
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static void lcd_set_custom_characters(
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#if ENABLED(LCD_PROGRESS_BAR)
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const bool info_screen_charset = true
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#endif
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) {
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createChar_P(LCD_BEDTEMP_CHAR, bedTemp);
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createChar_P(LCD_BEDTEMP_CHAR, bedTemp);
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createChar_P(LCD_DEGREE_CHAR, degree);
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createChar_P(LCD_DEGREE_CHAR, degree);
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createChar_P(LCD_STR_THERMOMETER[0], thermometer);
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createChar_P(LCD_STR_THERMOMETER[0], thermometer);
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@ -638,10 +633,12 @@ FORCE_INLINE void _draw_heater_status(const int8_t heater, const char prefix, co
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#if ENABLED(LCD_PROGRESS_BAR)
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#if ENABLED(LCD_PROGRESS_BAR)
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inline void lcd_draw_progress_bar(const uint8_t percent) {
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inline void lcd_draw_progress_bar(const uint8_t percent) {
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int tix = (int)(percent * (LCD_WIDTH) * 3) / 100,
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const int tix = (int)(percent * (LCD_WIDTH) * 3) / 100,
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cel = tix / 3, rem = tix % 3, i = LCD_WIDTH;
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cel = tix / 3,
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rem = tix % 3;
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uint8_t i = LCD_WIDTH;
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char msg[LCD_WIDTH + 1], b = ' ';
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char msg[LCD_WIDTH + 1], b = ' ';
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msg[i] = '\0';
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msg[LCD_WIDTH] = '\0';
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while (i--) {
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while (i--) {
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if (i == cel - 1)
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if (i == cel - 1)
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b = LCD_STR_PROGRESS[2];
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b = LCD_STR_PROGRESS[2];
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