Optimize finetune and nanosec faces to work with rtc-counter32
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@@ -27,7 +27,6 @@
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#include <math.h>
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#include "finetune_face.h"
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#include "nanosec_face.h"
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#include "watch_utility.h"
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#include "delay.h"
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extern nanosec_state_t nanosec_state;
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@@ -51,7 +50,7 @@ void finetune_face_activate(void *context) {
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}
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static float finetune_get_hours_passed(void) {
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uint32_t current_time = watch_utility_date_time_to_unix_time(watch_rtc_get_date_time(), 0);
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uint32_t current_time = movement_get_utc_timestamp();
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return (current_time - nanosec_state.last_correction_time) / 3600.0f;
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}
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@@ -64,7 +63,7 @@ static void finetune_update_display(void) {
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if (finetune_page == 0) {
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watch_display_text_with_fallback(WATCH_POSITION_TOP_LEFT, "FTU", "FT");
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watch_date_time_t date_time = watch_rtc_get_date_time();
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watch_date_time_t date_time = movement_get_utc_date_time();
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sprintf(buf, "%04d%02d", abs(total_adjustment), date_time.unit.second);
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watch_display_text(WATCH_POSITION_BOTTOM, buf);
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@@ -106,17 +105,9 @@ static void finetune_adjust_subseconds(int delta) {
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watch_rtc_enable(false);
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delay_ms(delta);
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if (delta > 500) {
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watch_date_time_t date_time = movement_get_utc_date_time();
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date_time.unit.second = (date_time.unit.second + 1) % 60;
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if (date_time.unit.second == 0) { // Overflow
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date_time.unit.minute = (date_time.unit.minute + 1) % 60;
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if (date_time.unit.minute == 0) { // Overflow
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date_time.unit.hour = (date_time.unit.hour + 1) % 24;
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if (date_time.unit.hour == 0) // Overflow
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date_time.unit.day++;
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}
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}
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movement_set_utc_date_time(date_time);
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uint32_t timestamp = movement_get_utc_timestamp();
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timestamp += 1;
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movement_set_utc_timestamp(timestamp);
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}
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watch_rtc_enable(true);
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}
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@@ -126,7 +117,7 @@ static void finetune_update_correction_time(void) {
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nanosec_state.freq_correction += roundf(nanosec_get_aging() * 100);
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// Remember when we last corrected time
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nanosec_state.last_correction_time = watch_utility_date_time_to_unix_time(watch_rtc_get_date_time(), 0);
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nanosec_state.last_correction_time = movement_get_utc_timestamp();
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nanosec_save();
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movement_move_to_face(0); // Go to main face after saving settings
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}
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@@ -146,7 +137,7 @@ bool finetune_face_loop(movement_event_t event, void *context) {
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// We flash green LED once per minute to measure clock error, when we are not on first screen
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if (finetune_page!=0) {
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watch_date_time_t date_time;
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date_time = watch_rtc_get_date_time();
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date_time = movement_get_utc_date_time();
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if (date_time.unit.second == 0) {
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watch_set_led_green();
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#ifndef __EMSCRIPTEN__
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@@ -44,11 +44,6 @@
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* worry about aging only on second/third years of watch calibration (if you
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* are really looking at less than 10 seconds per year of error).
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*
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* Warning, do not use at the first second of a month, as you might stay at
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* the same month and it will surprise you. Just wait 1 second...We are not
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* fully replicating RTC timer behavior when RTC is off.
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* Simulating months and years is... too much complexity.
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*
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* For full usage instructions, please refer to the wiki:
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* https://www.sensorwatch.net/docs/watchfaces/nanosec/
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*/
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@@ -27,7 +27,6 @@
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#include <math.h>
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#include "nanosec_face.h"
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#include "filesystem.h"
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#include "watch_utility.h"
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int16_t freq_correction_residual = 0; // Dithering 0.1ppm correction, does not need to be configured.
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int16_t freq_correction_previous = -30000;
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@@ -44,8 +43,7 @@ const float voltage_coefficient = 0.241666667 * dithering; // 10 * ppm/V. Nomina
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static void nanosec_init_profile(void) {
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nanosec_changed = true;
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nanosec_state.correction_cadence = 10;
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watch_date_time_t date_time = watch_rtc_get_date_time();
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nanosec_state.last_correction_time = watch_utility_date_time_to_unix_time(date_time, 0);
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nanosec_state.last_correction_time = movement_get_utc_timestamp();
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// init data after changing profile - do that once per profile selection
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switch (nanosec_state.correction_profile) {
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@@ -265,8 +263,8 @@ static void nanosec_next_edit_screen(void) {
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float nanosec_get_aging() // Returns aging correction in ppm
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{
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watch_date_time_t date_time = watch_rtc_get_date_time();
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float years = (watch_utility_date_time_to_unix_time(date_time, 0) - nanosec_state.last_correction_time) / 31536000.0f; // Years passed since finetune
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uint32_t timestamp = movement_get_utc_timestamp();
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float years = (timestamp - nanosec_state.last_correction_time) / 31536000.0f; // Years passed since finetune
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return years*nanosec_state.aging_ppm_pa/100.0f;
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}
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@@ -377,7 +375,7 @@ movement_watch_face_advisory_t nanosec_face_advise(void *context) {
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// No need for background correction if we are on profile 0 - static hardware correction.
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if (nanosec_state.correction_profile != 0) {
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watch_date_time_t date_time = watch_rtc_get_date_time();
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watch_date_time_t date_time = movement_get_utc_date_time();
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retval.wants_background_task = date_time.unit.minute % nanosec_state.correction_cadence == 0;
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}
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