Use temp_info_t for temp_redundant (#21715)

Fixes #21712

Co-authored-by: Scott Lahteine <github@thinkyhead.com>
This commit is contained in:
ellensp 2021-04-27 16:36:39 +12:00 committed by GitHub
parent 43fc1bd21c
commit 5f9aac2027
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2 changed files with 41 additions and 38 deletions

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@ -256,7 +256,11 @@ const char str_t_thermal_runaway[] PROGMEM = STR_T_THERMAL_RUNAWAY,
#endif #endif
#if HAS_HOTEND #if HAS_HOTEND
hotend_info_t Temperature::temp_hotend[HOTEND_TEMPS]; // = { 0 } hotend_info_t Temperature::temp_hotend[HOTENDS];
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
temp_info_t Temperature::temp_redundant;
#endif
#define _HMT(N) HEATER_##N##_MAXTEMP,
const celsius_t Temperature::hotend_maxtemp[HOTENDS] = ARRAY_BY_HOTENDS(HEATER_0_MAXTEMP, HEATER_1_MAXTEMP, HEATER_2_MAXTEMP, HEATER_3_MAXTEMP, HEATER_4_MAXTEMP, HEATER_5_MAXTEMP, HEATER_6_MAXTEMP, HEATER_7_MAXTEMP); const celsius_t Temperature::hotend_maxtemp[HOTENDS] = ARRAY_BY_HOTENDS(HEATER_0_MAXTEMP, HEATER_1_MAXTEMP, HEATER_2_MAXTEMP, HEATER_3_MAXTEMP, HEATER_4_MAXTEMP, HEATER_5_MAXTEMP, HEATER_6_MAXTEMP, HEATER_7_MAXTEMP);
#endif #endif
@ -420,11 +424,6 @@ const char str_t_thermal_runaway[] PROGMEM = STR_T_THERMAL_RUNAWAY,
bool Temperature::inited = false; bool Temperature::inited = false;
#endif #endif
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
int16_t Temperature::redundant_temperature_raw = 0;
celsius_float_t Temperature::redundant_temperature = 0.0;
#endif
volatile bool Temperature::raw_temps_ready = false; volatile bool Temperature::raw_temps_ready = false;
#if ENABLED(PID_EXTRUSION_SCALING) #if ENABLED(PID_EXTRUSION_SCALING)
@ -1225,12 +1224,12 @@ void Temperature::manage_heater() {
#if DISABLED(IGNORE_THERMOCOUPLE_ERRORS) #if DISABLED(IGNORE_THERMOCOUPLE_ERRORS)
#if TEMP_SENSOR_0_IS_MAX_TC #if TEMP_SENSOR_0_IS_MAX_TC
if (temp_hotend[0].celsius > _MIN(HEATER_0_MAXTEMP, TEMP_SENSOR_0_MAX_TC_TMAX - 1.0)) max_temp_error(H_E0); if (degHotend(0) > _MIN(HEATER_0_MAXTEMP, TEMP_SENSOR_0_MAX_TC_TMAX - 1.0)) max_temp_error(H_E0);
if (temp_hotend[0].celsius < _MAX(HEATER_0_MINTEMP, TEMP_SENSOR_0_MAX_TC_TMIN + .01)) min_temp_error(H_E0); if (degHotend(0) < _MAX(HEATER_0_MINTEMP, TEMP_SENSOR_0_MAX_TC_TMIN + .01)) min_temp_error(H_E0);
#endif #endif
#if TEMP_SENSOR_1_IS_MAX_TC #if TEMP_SENSOR_1_IS_MAX_TC
if (temp_hotend[1].celsius > _MIN(HEATER_1_MAXTEMP, TEMP_SENSOR_1_MAX_TC_TMAX - 1.0)) max_temp_error(H_E1); if (TERN(TEMP_SENSOR_1_AS_REDUNDANT, degHotendRedundant(), degHotend(1)) > _MIN(HEATER_1_MAXTEMP, TEMP_SENSOR_1_MAX_TC_TMAX - 1.0)) max_temp_error(H_E1);
if (temp_hotend[1].celsius < _MAX(HEATER_1_MINTEMP, TEMP_SENSOR_1_MAX_TC_TMIN + .01)) min_temp_error(H_E1); if (TERN(TEMP_SENSOR_1_AS_REDUNDANT, degHotendRedundant(), degHotend(1)) < _MAX(HEATER_1_MINTEMP, TEMP_SENSOR_1_MAX_TC_TMIN + .01)) min_temp_error(H_E1);
#endif #endif
#endif #endif
@ -1266,7 +1265,7 @@ void Temperature::manage_heater() {
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT) #if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
// Make sure measured temperatures are close together // Make sure measured temperatures are close together
if (ABS(temp_hotend[0].celsius - redundant_temperature) > MAX_REDUNDANT_TEMP_SENSOR_DIFF) if (ABS(degHotend(0) - degHotendRedundant()) > MAX_REDUNDANT_TEMP_SENSOR_DIFF)
_temp_error(H_E0, PSTR(STR_REDUNDANCY), GET_TEXT(MSG_ERR_REDUNDANT_TEMP)); _temp_error(H_E0, PSTR(STR_REDUNDANCY), GET_TEXT(MSG_ERR_REDUNDANT_TEMP));
#endif #endif
@ -1668,7 +1667,7 @@ void Temperature::manage_heater() {
SERIAL_EOL(); SERIAL_EOL();
} }
celsius_float_t Temperature::user_thermistor_to_deg_c(const uint8_t t_index, const int raw) { celsius_float_t Temperature::user_thermistor_to_deg_c(const uint8_t t_index, const int16_t raw) {
//#if (MOTHERBOARD == BOARD_RAMPS_14_EFB) //#if (MOTHERBOARD == BOARD_RAMPS_14_EFB)
// static uint32_t clocks_total = 0; // static uint32_t clocks_total = 0;
// static uint32_t calls = 0; // static uint32_t calls = 0;
@ -1717,8 +1716,8 @@ void Temperature::manage_heater() {
#if HAS_HOTEND #if HAS_HOTEND
// Derived from RepRap FiveD extruder::getTemperature() // Derived from RepRap FiveD extruder::getTemperature()
// For hot end temperature measurement. // For hot end temperature measurement.
celsius_float_t Temperature::analog_to_celsius_hotend(const int raw, const uint8_t e) { celsius_float_t Temperature::analog_to_celsius_hotend(const int16_t raw, const uint8_t e) {
if (e > HOTENDS - DISABLED(TEMP_SENSOR_1_AS_REDUNDANT)) { if (e >= HOTENDS + ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)) {
SERIAL_ERROR_START(); SERIAL_ERROR_START();
SERIAL_ECHO(e); SERIAL_ECHO(e);
SERIAL_ECHOLNPGM(STR_INVALID_EXTRUDER_NUM); SERIAL_ECHOLNPGM(STR_INVALID_EXTRUDER_NUM);
@ -1826,7 +1825,7 @@ void Temperature::manage_heater() {
#if HAS_HEATED_BED #if HAS_HEATED_BED
// For bed temperature measurement. // For bed temperature measurement.
celsius_float_t Temperature::analog_to_celsius_bed(const int raw) { celsius_float_t Temperature::analog_to_celsius_bed(const int16_t raw) {
#if TEMP_SENSOR_BED_IS_CUSTOM #if TEMP_SENSOR_BED_IS_CUSTOM
return user_thermistor_to_deg_c(CTI_BED, raw); return user_thermistor_to_deg_c(CTI_BED, raw);
#elif TEMP_SENSOR_BED_IS_THERMISTOR #elif TEMP_SENSOR_BED_IS_THERMISTOR
@ -1844,7 +1843,7 @@ void Temperature::manage_heater() {
#if HAS_TEMP_CHAMBER #if HAS_TEMP_CHAMBER
// For chamber temperature measurement. // For chamber temperature measurement.
celsius_float_t Temperature::analog_to_celsius_chamber(const int raw) { celsius_float_t Temperature::analog_to_celsius_chamber(const int16_t raw) {
#if TEMP_SENSOR_CHAMBER_IS_CUSTOM #if TEMP_SENSOR_CHAMBER_IS_CUSTOM
return user_thermistor_to_deg_c(CTI_CHAMBER, raw); return user_thermistor_to_deg_c(CTI_CHAMBER, raw);
#elif TEMP_SENSOR_CHAMBER_IS_THERMISTOR #elif TEMP_SENSOR_CHAMBER_IS_THERMISTOR
@ -1862,7 +1861,7 @@ void Temperature::manage_heater() {
#if HAS_TEMP_COOLER #if HAS_TEMP_COOLER
// For cooler temperature measurement. // For cooler temperature measurement.
celsius_float_t Temperature::analog_to_celsius_cooler(const int raw) { celsius_float_t Temperature::analog_to_celsius_cooler(const int16_t raw) {
#if TEMP_SENSOR_COOLER_IS_CUSTOM #if TEMP_SENSOR_COOLER_IS_CUSTOM
return user_thermistor_to_deg_c(CTI_COOLER, raw); return user_thermistor_to_deg_c(CTI_COOLER, raw);
#elif TEMP_SENSOR_COOLER_IS_THERMISTOR #elif TEMP_SENSOR_COOLER_IS_THERMISTOR
@ -1880,7 +1879,7 @@ void Temperature::manage_heater() {
#if HAS_TEMP_PROBE #if HAS_TEMP_PROBE
// For probe temperature measurement. // For probe temperature measurement.
celsius_float_t Temperature::analog_to_celsius_probe(const int raw) { celsius_float_t Temperature::analog_to_celsius_probe(const int16_t raw) {
#if TEMP_SENSOR_PROBE_IS_CUSTOM #if TEMP_SENSOR_PROBE_IS_CUSTOM
return user_thermistor_to_deg_c(CTI_PROBE, raw); return user_thermistor_to_deg_c(CTI_PROBE, raw);
#elif TEMP_SENSOR_PROBE_IS_THERMISTOR #elif TEMP_SENSOR_PROBE_IS_THERMISTOR
@ -1904,15 +1903,15 @@ void Temperature::manage_heater() {
*/ */
void Temperature::updateTemperaturesFromRawValues() { void Temperature::updateTemperaturesFromRawValues() {
TERN_(TEMP_SENSOR_0_IS_MAX_TC, temp_hotend[0].raw = READ_MAX_TC(0)); TERN_(TEMP_SENSOR_0_IS_MAX_TC, temp_hotend[0].raw = READ_MAX_TC(0));
TERN_(TEMP_SENSOR_1_IS_MAX_TC, temp_hotend[1].raw = READ_MAX_TC(1)); TERN_(TEMP_SENSOR_1_IS_MAX_TC, TERN(TEMP_SENSOR_1_AS_REDUNDANT, temp_redundant, temp_hotend[1]).raw = READ_MAX_TC(1));
#if HAS_HOTEND #if HAS_HOTEND
HOTEND_LOOP() temp_hotend[e].celsius = analog_to_celsius_hotend(temp_hotend[e].raw, e); HOTEND_LOOP() temp_hotend[e].celsius = analog_to_celsius_hotend(temp_hotend[e].raw, e);
#endif #endif
TERN_(TEMP_SENSOR_1_AS_REDUNDANT, temp_redundant.celsius = analog_to_celsius_hotend(temp_redundant.raw, 1));
TERN_(HAS_HEATED_BED, temp_bed.celsius = analog_to_celsius_bed(temp_bed.raw)); TERN_(HAS_HEATED_BED, temp_bed.celsius = analog_to_celsius_bed(temp_bed.raw));
TERN_(HAS_TEMP_CHAMBER, temp_chamber.celsius = analog_to_celsius_chamber(temp_chamber.raw)); TERN_(HAS_TEMP_CHAMBER, temp_chamber.celsius = analog_to_celsius_chamber(temp_chamber.raw));
TERN_(HAS_TEMP_COOLER, temp_cooler.celsius = analog_to_celsius_cooler(temp_cooler.raw)); TERN_(HAS_TEMP_COOLER, temp_cooler.celsius = analog_to_celsius_cooler(temp_cooler.raw));
TERN_(HAS_TEMP_PROBE, temp_probe.celsius = analog_to_celsius_probe(temp_probe.raw)); TERN_(HAS_TEMP_PROBE, temp_probe.celsius = analog_to_celsius_probe(temp_probe.raw));
TERN_(TEMP_SENSOR_1_AS_REDUNDANT, redundant_temperature = analog_to_celsius_hotend(redundant_temperature_raw, 1));
TERN_(FILAMENT_WIDTH_SENSOR, filwidth.update_measured_mm()); TERN_(FILAMENT_WIDTH_SENSOR, filwidth.update_measured_mm());
TERN_(HAS_POWER_MONITOR, power_monitor.capture_values()); TERN_(HAS_POWER_MONITOR, power_monitor.capture_values());
@ -2707,7 +2706,7 @@ void Temperature::update_raw_temperatures() {
#if HAS_TEMP_ADC_1 #if HAS_TEMP_ADC_1
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT) #if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
redundant_temperature_raw = temp_hotend[1].acc; temp_redundant.update();
#elif !TEMP_SENSOR_1_IS_MAX_TC #elif !TEMP_SENSOR_1_IS_MAX_TC
temp_hotend[1].update(); temp_hotend[1].update();
#endif #endif
@ -2741,7 +2740,7 @@ void Temperature::readings_ready() {
#if HAS_HOTEND #if HAS_HOTEND
HOTEND_LOOP() temp_hotend[e].reset(); HOTEND_LOOP() temp_hotend[e].reset();
TERN_(TEMP_SENSOR_1_AS_REDUNDANT, temp_hotend[1].reset()); TERN_(TEMP_SENSOR_1_AS_REDUNDANT, temp_redundant.reset());
#endif #endif
TERN_(HAS_HEATED_BED, temp_bed.reset()); TERN_(HAS_HEATED_BED, temp_bed.reset());
@ -3245,7 +3244,7 @@ void Temperature::isr() {
#if HAS_TEMP_ADC_1 #if HAS_TEMP_ADC_1
case PrepareTemp_1: HAL_START_ADC(TEMP_1_PIN); break; case PrepareTemp_1: HAL_START_ADC(TEMP_1_PIN); break;
case MeasureTemp_1: ACCUMULATE_ADC(temp_hotend[1]); break; case MeasureTemp_1: ACCUMULATE_ADC(TERN(TEMP_SENSOR_1_AS_REDUNDANT, temp_redundant, temp_hotend[1])); break;
#endif #endif
#if HAS_TEMP_ADC_2 #if HAS_TEMP_ADC_2
@ -3443,9 +3442,9 @@ void Temperature::isr() {
#endif #endif
); );
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT) #if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
if (include_r) print_heater_state(redundant_temperature, degTargetHotend(target_extruder) if (include_r) print_heater_state(degHotendRedundant(), degTargetHotend(0)
#if ENABLED(SHOW_TEMP_ADC_VALUES) #if ENABLED(SHOW_TEMP_ADC_VALUES)
, redundant_temperature_raw , rawHotendTempRedundant()
#endif #endif
, H_REDUNDANT , H_REDUNDANT
); );

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@ -321,8 +321,10 @@ class Temperature {
public: public:
#if HAS_HOTEND #if HAS_HOTEND
#define HOTEND_TEMPS (HOTENDS + ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)) #if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
static hotend_info_t temp_hotend[HOTEND_TEMPS]; static temp_info_t temp_redundant;
#endif
static hotend_info_t temp_hotend[HOTENDS];
static const celsius_t hotend_maxtemp[HOTENDS]; static const celsius_t hotend_maxtemp[HOTENDS];
static inline celsius_t hotend_max_target(const uint8_t e) { return hotend_maxtemp[e] - (HOTEND_OVERSHOOT); } static inline celsius_t hotend_max_target(const uint8_t e) { return hotend_maxtemp[e] - (HOTEND_OVERSHOOT); }
#endif #endif
@ -423,11 +425,6 @@ class Temperature {
static hotend_watch_t watch_hotend[HOTENDS]; static hotend_watch_t watch_hotend[HOTENDS];
#endif #endif
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
static uint16_t redundant_temperature_raw;
static celsius_t redundant_temperature;
#endif
#if ENABLED(PID_EXTRUSION_SCALING) #if ENABLED(PID_EXTRUSION_SCALING)
static int32_t last_e_position, lpq[LPQ_MAX_LEN]; static int32_t last_e_position, lpq[LPQ_MAX_LEN];
static lpq_ptr_t lpq_ptr; static lpq_ptr_t lpq_ptr;
@ -501,7 +498,7 @@ class Temperature {
static user_thermistor_t user_thermistor[USER_THERMISTORS]; static user_thermistor_t user_thermistor[USER_THERMISTORS];
static void log_user_thermistor(const uint8_t t_index, const bool eprom=false); static void log_user_thermistor(const uint8_t t_index, const bool eprom=false);
static void reset_user_thermistors(); static void reset_user_thermistors();
static celsius_float_t user_thermistor_to_deg_c(const uint8_t t_index, const int raw); static celsius_float_t user_thermistor_to_deg_c(const uint8_t t_index, const int16_t raw);
static inline bool set_pull_up_res(int8_t t_index, float value) { static inline bool set_pull_up_res(int8_t t_index, float value) {
//if (!WITHIN(t_index, 0, USER_THERMISTORS - 1)) return false; //if (!WITHIN(t_index, 0, USER_THERMISTORS - 1)) return false;
if (!WITHIN(value, 1, 1000000)) return false; if (!WITHIN(value, 1, 1000000)) return false;
@ -529,19 +526,19 @@ class Temperature {
#endif #endif
#if HAS_HOTEND #if HAS_HOTEND
static celsius_float_t analog_to_celsius_hotend(const int raw, const uint8_t e); static celsius_float_t analog_to_celsius_hotend(const int16_t raw, const uint8_t e);
#endif #endif
#if HAS_HEATED_BED #if HAS_HEATED_BED
static celsius_float_t analog_to_celsius_bed(const int raw); static celsius_float_t analog_to_celsius_bed(const int16_t raw);
#endif #endif
#if HAS_TEMP_PROBE #if HAS_TEMP_PROBE
static celsius_float_t analog_to_celsius_probe(const int raw); static celsius_float_t analog_to_celsius_probe(const int16_t raw);
#endif #endif
#if HAS_TEMP_CHAMBER #if HAS_TEMP_CHAMBER
static celsius_float_t analog_to_celsius_chamber(const int raw); static celsius_float_t analog_to_celsius_chamber(const int16_t raw);
#endif #endif
#if HAS_TEMP_COOLER #if HAS_TEMP_COOLER
static celsius_float_t analog_to_celsius_cooler(const int raw); static celsius_float_t analog_to_celsius_cooler(const int16_t raw);
#endif #endif
#if HAS_FAN #if HAS_FAN
@ -631,6 +628,10 @@ class Temperature {
return TERN0(HAS_HOTEND, temp_hotend[HOTEND_INDEX].celsius); return TERN0(HAS_HOTEND, temp_hotend[HOTEND_INDEX].celsius);
} }
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
static inline celsius_float_t degHotendRedundant() { return temp_redundant.celsius; }
#endif
static inline celsius_t wholeDegHotend(const uint8_t E_NAME) { static inline celsius_t wholeDegHotend(const uint8_t E_NAME) {
return TERN0(HAS_HOTEND, static_cast<celsius_t>(temp_hotend[HOTEND_INDEX].celsius + 0.5f)); return TERN0(HAS_HOTEND, static_cast<celsius_t>(temp_hotend[HOTEND_INDEX].celsius + 0.5f));
} }
@ -639,6 +640,9 @@ class Temperature {
static inline int16_t rawHotendTemp(const uint8_t E_NAME) { static inline int16_t rawHotendTemp(const uint8_t E_NAME) {
return TERN0(HAS_HOTEND, temp_hotend[HOTEND_INDEX].raw); return TERN0(HAS_HOTEND, temp_hotend[HOTEND_INDEX].raw);
} }
#if ENABLED(TEMP_SENSOR_1_AS_REDUNDANT)
static inline int16_t rawHotendTempRedundant() { return temp_redundant.raw; }
#endif
#endif #endif
static inline celsius_t degTargetHotend(const uint8_t E_NAME) { static inline celsius_t degTargetHotend(const uint8_t E_NAME) {