Merge pull request #5060 from thinkyhead/rc_fix_ugly_code
Reduce, clean up MINTEMP / MAXTEMP test code
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commit
cfb47929ca
@ -3145,7 +3145,7 @@ inline void gcode_G4() {
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if (DEBUGGING(LEVELING)) DEBUG_POS(">>> home_delta", current_position);
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#endif
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// Init the current position of all carriages to 0,0,0
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memset(current_position, 0, sizeof(current_position));
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ZERO(current_position);
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sync_plan_position();
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// Move all carriages together linearly until an endstop is hit.
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@ -674,7 +674,7 @@ bool SdBaseFile::open(SdBaseFile* dirFile,
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index = 0;
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}
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// initialize as empty file
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memset(p, 0, sizeof(dir_t));
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ZERO(p);
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memcpy(p->name, dname, 11);
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// set timestamps
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@ -36,7 +36,7 @@ CardReader::CardReader() {
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sdpos = 0;
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workDirDepth = 0;
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file_subcall_ctr = 0;
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memset(workDirParents, 0, sizeof(workDirParents));
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ZERO(workDirParents);
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autostart_stilltocheck = true; //the SD start is delayed, because otherwise the serial cannot answer fast enough to make contact with the host software.
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autostart_index = 0;
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@ -40,7 +40,6 @@
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// Change EEPROM version if these are changed:
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#define EEPROM_OFFSET 100
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#define MAX_EXTRUDERS 4
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/**
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* V24 EEPROM Layout:
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@ -78,6 +78,7 @@
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#define NUMERIC(a) ((a) >= '0' && '9' >= (a))
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#define NUMERIC_SIGNED(a) (NUMERIC(a) || (a) == '-')
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#define COUNT(a) (sizeof(a)/sizeof(*a))
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#define ZERO(a) memset(a,0,sizeof(a))
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// Macros for initializing arrays
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#define ARRAY_6(v1, v2, v3, v4, v5, v6, args...) { v1, v2, v3, v4, v5, v6 }
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@ -31,7 +31,7 @@
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void mesh_bed_leveling::reset() {
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status = MBL_STATUS_NONE;
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z_offset = 0;
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memset(z_values, 0, sizeof(z_values));
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ZERO(z_values);
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}
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#endif // MESH_BED_LEVELING
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@ -275,6 +275,10 @@
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#define SUICIDE_PIN -1
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#endif
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#ifndef MAX_EXTRUDERS
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#define MAX_EXTRUDERS 4
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#endif
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// Marlin needs to account for pins that equal -1
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#define marlinAnalogInputToDigitalPin(p) ((p) == -1 ? -1 : analogInputToDigitalPin(p))
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@ -137,8 +137,8 @@ Planner::Planner() { init(); }
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void Planner::init() {
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block_buffer_head = block_buffer_tail = 0;
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memset(position, 0, sizeof(position));
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memset(previous_speed, 0, sizeof(previous_speed));
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ZERO(position);
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ZERO(previous_speed);
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previous_nominal_speed = 0.0;
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#if ABL_PLANAR
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bed_level_matrix.set_to_identity();
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@ -1266,7 +1266,7 @@ void Planner::_set_position_mm(const float &a, const float &b, const float &c, c
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stepper.set_position(na, nb, nc, ne);
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previous_nominal_speed = 0.0; // Resets planner junction speeds. Assumes start from rest.
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memset(previous_speed, 0, sizeof(previous_speed));
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ZERO(previous_speed);
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}
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void Planner::set_position_mm_kinematic(const float position[NUM_AXIS]) {
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@ -151,7 +151,7 @@ volatile bool Temperature::temp_meas_ready = false;
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millis_t Temperature::next_bed_check_ms;
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#endif
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unsigned long Temperature::raw_temp_value[4] = { 0 };
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unsigned long Temperature::raw_temp_value[MAX_EXTRUDERS] = { 0 };
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unsigned long Temperature::raw_temp_bed_value = 0;
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// Init min and max temp with extreme values to prevent false errors during startup
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@ -1758,6 +1758,9 @@ void Temperature::isr() {
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} // switch(temp_state)
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if (temp_count >= OVERSAMPLENR) { // 10 * 16 * 1/(16000000/64/256) = 164ms.
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temp_count = 0;
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// Update the raw values if they've been read. Else we could be updating them during reading.
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if (!temp_meas_ready) set_current_temp_raw();
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@ -1766,85 +1769,54 @@ void Temperature::isr() {
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current_raw_filwidth = raw_filwidth_value >> 10; // Divide to get to 0-16384 range since we used 1/128 IIR filter approach
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#endif
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temp_count = 0;
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for (int i = 0; i < 4; i++) raw_temp_value[i] = 0;
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ZERO(raw_temp_value);
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raw_temp_bed_value = 0;
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#if HAS_TEMP_0 && DISABLED(HEATER_0_USES_MAX6675)
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#if HEATER_0_RAW_LO_TEMP > HEATER_0_RAW_HI_TEMP
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#define GE0 <=
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int constexpr temp_dir[] = {
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#if ENABLED(HEATER_0_USES_MAX6675)
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0
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#elif HEATER_0_RAW_LO_TEMP > HEATER_0_RAW_HI_TEMP
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-1
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#else
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#define GE0 >=
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1
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#endif
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if (current_temperature_raw[0] GE0 maxttemp_raw[0]) max_temp_error(0);
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if (minttemp_raw[0] GE0 current_temperature_raw[0] && !is_preheating(0) && target_temperature[0] > 0.0f) {
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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if (++consecutive_low_temperature_error[0] >= MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED)
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#endif
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min_temp_error(0);
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}
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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else
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consecutive_low_temperature_error[0] = 0;
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#endif
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#endif
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#if HAS_TEMP_1 && HOTENDS > 1
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#if HEATER_1_RAW_LO_TEMP > HEATER_1_RAW_HI_TEMP
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#define GE1 <=
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, -1
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#else
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#define GE1 >=
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, 1
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#endif
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if (current_temperature_raw[1] GE1 maxttemp_raw[1]) max_temp_error(1);
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if (minttemp_raw[1] GE1 current_temperature_raw[1] && !is_preheating(1) && target_temperature[1] > 0.0f) {
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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if (++consecutive_low_temperature_error[1] >= MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED)
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#endif
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min_temp_error(1);
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}
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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else
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consecutive_low_temperature_error[1] = 0;
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#endif
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#endif // TEMP_SENSOR_1
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#if HAS_TEMP_2 && HOTENDS > 2
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#if HEATER_2_RAW_LO_TEMP > HEATER_2_RAW_HI_TEMP
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#define GE2 <=
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, -1
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#else
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#define GE2 >=
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, 1
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#endif
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if (current_temperature_raw[2] GE2 maxttemp_raw[2]) max_temp_error(2);
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if (minttemp_raw[2] GE2 current_temperature_raw[2] && !is_preheating(2) && target_temperature[2] > 0.0f) {
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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if (++consecutive_low_temperature_error[2] >= MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED)
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#endif
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min_temp_error(2);
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}
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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else
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consecutive_low_temperature_error[2] = 0;
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#endif
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#endif // TEMP_SENSOR_2
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#if HAS_TEMP_3 && HOTENDS > 3
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#if HEATER_3_RAW_LO_TEMP > HEATER_3_RAW_HI_TEMP
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#define GE3 <=
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, -1
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#else
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#define GE3 >=
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, 1
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#endif
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if (current_temperature_raw[3] GE3 maxttemp_raw[3]) max_temp_error(3);
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if (minttemp_raw[3] GE3 current_temperature_raw[3] && !is_preheating(3) && target_temperature[3] > 0.0f) {
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#endif
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};
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for (uint8_t e = 0; e < COUNT(temp_dir); e++) {
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const int tdir = temp_dir[e], rawtemp = current_temperature_raw[e] * tdir;
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if (rawtemp > maxttemp_raw[e] * tdir) max_temp_error(e);
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if (rawtemp < minttemp_raw[e] * tdir && !is_preheating(e) && target_temperature[e] > 0.0f) {
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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if (++consecutive_low_temperature_error[3] >= MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED)
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if (++consecutive_low_temperature_error[e] >= MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED)
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#endif
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min_temp_error(3);
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min_temp_error(e);
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}
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#ifdef MAX_CONSECUTIVE_LOW_TEMPERATURE_ERROR_ALLOWED
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else
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consecutive_low_temperature_error[3] = 0;
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consecutive_low_temperature_error[e] = 0;
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#endif
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#endif // TEMP_SENSOR_3
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}
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#if HAS_TEMP_BED
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#if HEATER_BED_RAW_LO_TEMP > HEATER_BED_RAW_HI_TEMP
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