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Sensor-Watch/movement/watch_faces/sensor/lightmeter_face.c
Alex Utter 7802994854
Fix missing documentation for many clock faces: 
* Move from .c to .h as needed for consistency.
* When missing from both, copy from pull request or wiki.
* When missing entirely, infer functionality from source code.
2023-11-27 23:06:19 -05:00

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C
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/*
* MIT License
*
* Copyright (c) 2022 CC
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include "lightmeter_face.h"
#include "watch_utility.h"
#include "watch_slcd.h"
uint16_t lightmeter_mod(uint16_t m, uint16_t n) { return (m%n + n)%n; }
void lightmeter_face_setup(movement_settings_t *settings, uint8_t watch_face_index, void ** context_ptr) {
(void) settings;
(void) watch_face_index;
if (*context_ptr == NULL) {
*context_ptr = malloc(sizeof(lightmeter_state_t));
lightmeter_state_t *state = (lightmeter_state_t*) *context_ptr;
state->waiting_for_conversion = 0;
state->lux = 0.0;
state->mode = 0;
state->iso = LIGHTMETER_ISO_100;
state->ap = LIGHTMETER_AP_4P0;
}
}
void lightmeter_face_activate(movement_settings_t *settings, void *context) {
(void) settings;
lightmeter_state_t *state = (lightmeter_state_t*) context;
state->waiting_for_conversion = 0;
lightmeter_show_ev(state); // Print most current reading
watch_enable_i2c();
return;
}
void lightmeter_show_ev(lightmeter_state_t *state) {
float ev = max(min(
log2(state->lux) +
lightmeter_isos[state->iso].ev +
LIGHTMETER_CALIBRATION,
99), -9);
int evt = round(2*ev); // Truncated EV
// Print EV
char strbuff[7];
watch_clear_all_indicators();
watch_display_string("EV ", 0);
sprintf(strbuff, "%2i", (uint16_t) abs(evt/2)); // Print whole part of EV
watch_display_string(strbuff, 2);
if(evt%2) watch_set_indicator(WATCH_INDICATOR_LAP); // Indicate half stop
if(ev<0) watch_set_pixel(1,9); // Indicate negative EV
// Handle lux mode
if(state->mode == 1) {
sprintf(strbuff, "%6.0f", min(state->lux, 999999.0));
watch_display_string(strbuff, 4);
return;
}
// Find and print best shutter speed
uint16_t bestsh = 0;
float besterr = 1.0/0.0;
float errbuf = 1.0/0.0;
float comp_ev = ev + lightmeter_aps[state->ap].ev;
for(uint16_t ind = 2; ind < LIGHTMETER_N_SHS; ind++) {
errbuf = comp_ev + lightmeter_shs[ind].ev;
if( fabs(errbuf) < fabs(besterr)) {
besterr = errbuf;
bestsh = ind;
}
}
if(besterr >= 0.5) watch_display_string(lightmeter_shs[LIGHTMETER_SH_HIGH].str, 4);
else if(besterr <= -0.5) watch_display_string(lightmeter_shs[LIGHTMETER_SH_LOW].str, 4);
else watch_display_string(lightmeter_shs[bestsh].str, 4);
// Print aperture
watch_display_string(lightmeter_aps[state->ap].str, 7);
return;
}
bool lightmeter_face_loop(movement_event_t event, movement_settings_t *settings, void *context) {
(void) settings;
lightmeter_state_t *state = (lightmeter_state_t*) context;
opt3001_Config_t c;
switch (event.event_type) {
case EVENT_TICK:
if(state->waiting_for_conversion) { // Check if measurement is ready...
c = opt3001_readConfig(lightmeter_addr);
if(c.ConversionReady) {
state->waiting_for_conversion = 0;
opt3001_t result = opt3001_readResult(lightmeter_addr);
state->lux = result.lux;
lightmeter_show_ev(state);
}
}
break;
case EVENT_ALARM_BUTTON_UP: // Increment aperture
state->ap = lightmeter_mod(state->ap+1, LIGHTMETER_N_APS);
lightmeter_show_ev(state);
break;
case EVENT_LIGHT_BUTTON_UP: // Decrement aperture
if(state->ap == 0) state->ap = LIGHTMETER_N_APS-1;
else state->ap = lightmeter_mod(state->ap-1, LIGHTMETER_N_APS);
lightmeter_show_ev(state);
break;
case EVENT_LIGHT_LONG_PRESS: // Cycle ISO
state->iso = lightmeter_mod(state->iso+1, LIGHTMETER_N_ISOS);
watch_clear_all_indicators();
watch_display_string("EV ", 0);
watch_display_string(lightmeter_isos[state->iso].str, 4);
break;
case EVENT_ALARM_LONG_PRESS: // Take measurement
opt3001_writeConfig(lightmeter_addr, lightmeter_takeNewReading);
state->waiting_for_conversion = 1;
watch_clear_all_indicators();
watch_display_string("EV ", 0);
watch_display_string(lightmeter_isos[state->iso].str, 4);
watch_set_indicator(WATCH_INDICATOR_SIGNAL);
break;
case EVENT_MODE_LONG_PRESS: // Toggle mode
state->mode = !state->mode;
lightmeter_show_ev(state);
break;
case EVENT_TIMEOUT:
movement_move_to_face(0);
break;
default:
movement_default_loop_handler(event, settings);
break;
}
return true;
}
void lightmeter_face_resign(movement_settings_t *settings, void *context) {
(void) settings;
(void) context;
opt3001_writeConfig(lightmeter_addr, lightmeter_off);
watch_disable_i2c();
return;
}
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