/* * MIT License * * Copyright (c) 2022 Joey Castillo * * 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 #include #include "accel_interrupt_count_face.h" #include "lis2dw.h" #include "watch.h" // hacky hacky! uint32_t *ptr_to_count = 0; void accel_interrupt_handler(void); void accel_interrupt_handler(void) { (*ptr_to_count)++; } void sleep_interrupt_handler(void); void sleep_interrupt_handler(void) { if (HAL_GPIO_A3_read()) { movement_force_led_on(255, 0, 0); } else { movement_force_led_on(0, 255, 0); } } static void _accel_interrupt_count_face_update_display(accel_interrupt_count_state_t *state) { char buf[7]; if (state->running) { watch_set_indicator(WATCH_INDICATOR_SIGNAL); } else { watch_clear_indicator(WATCH_INDICATOR_SIGNAL); } // "AC"celerometer "IN"terrupts watch_display_text(WATCH_POSITION_TOP_LEFT, "AC"); watch_display_text(WATCH_POSITION_TOP_RIGHT, "1N"); snprintf(buf, 7, "%6ld", state->count); watch_display_text(WATCH_POSITION_BOTTOM, buf); printf("%s\n", buf); } static void _accel_interrupt_count_face_configure_threshold(uint8_t threshold) { lis2dw_enable_sleep(); lis2dw_configure_wakeup_threshold(threshold); // lis2dw_configure_int1(LIS2DW_CTRL4_INT1_WU); lis2dw_configure_int2(LIS2DW_CTRL5_INT2_SLEEP_CHG); lis2dw_enable_interrupts(); } void accel_interrupt_count_face_setup(uint8_t watch_face_index, void ** context_ptr) { (void) watch_face_index; if (*context_ptr == NULL) { *context_ptr = malloc(sizeof(accel_interrupt_count_state_t)); memset(*context_ptr, 0, sizeof(accel_interrupt_count_state_t)); ptr_to_count = &((accel_interrupt_count_state_t *)*context_ptr)->count; watch_enable_i2c(); lis2dw_begin(); lis2dw_set_mode(LIS2DW_MODE_LOW_POWER); lis2dw_set_low_power_mode(LIS2DW_LP_MODE_1); // lowest power mode lis2dw_set_low_noise_mode(true); // only marginally raises power consumption lis2dw_enable_sleep(); // sleep at 1.6Hz, wake to 12.5Hz? lis2dw_set_range(LIS2DW_CTRL6_VAL_RANGE_2G); // data sheet recommends 2G range lis2dw_set_data_rate(LIS2DW_DATA_RATE_LOWEST); // 1.6Hz in low power mode // threshold is 1/64th of full scale, so for a FS of ±2G this is 1.5G ((accel_interrupt_count_state_t *)*context_ptr)->threshold = 24; _accel_interrupt_count_face_configure_threshold(((accel_interrupt_count_state_t *)*context_ptr)->threshold); } } void accel_interrupt_count_face_activate(void *context) { accel_interrupt_count_state_t *state = (accel_interrupt_count_state_t *)context; // never in settings mode at the start state->is_setting = false; // force LE interval to never sleep movement_set_low_energy_timeout(0); state->running = true; watch_register_interrupt_callback(HAL_GPIO_A4_pin(), accel_interrupt_handler, INTERRUPT_TRIGGER_RISING); watch_register_interrupt_callback(HAL_GPIO_A3_pin(), sleep_interrupt_handler, INTERRUPT_TRIGGER_BOTH); } bool accel_interrupt_count_face_loop(movement_event_t event, void *context) { accel_interrupt_count_state_t *state = (accel_interrupt_count_state_t *)context; if (state->is_setting) { switch (event.event_type) { case EVENT_LIGHT_BUTTON_DOWN: state->new_threshold = (state->new_threshold + 1) % 64; // fall through case EVENT_TICK: { char buf[11]; watch_display_text(WATCH_POSITION_TOP_RIGHT, " "); watch_display_text_with_fallback(WATCH_POSITION_TOP, "W_THS", "TH"); watch_display_float_with_best_effort(state->new_threshold * 0.0625, " G"); printf("%s\n", buf); } break; case EVENT_ALARM_BUTTON_UP: lis2dw_configure_wakeup_threshold(state->new_threshold); state->threshold = state->new_threshold; state->is_setting = false; break; default: movement_default_loop_handler(event); break; } } else { switch (event.event_type) { case EVENT_LIGHT_BUTTON_DOWN: movement_illuminate_led(); // if stopped, reset the count if (!state->running) { state->count = 0; } _accel_interrupt_count_face_update_display(state); break; case EVENT_ALARM_BUTTON_UP: if (state->running) { state->running = false; watch_register_interrupt_callback(HAL_GPIO_A4_pin(), NULL, INTERRUPT_TRIGGER_RISING); } else { state->running = true; watch_register_interrupt_callback(HAL_GPIO_A4_pin(), accel_interrupt_handler, INTERRUPT_TRIGGER_RISING); } _accel_interrupt_count_face_update_display(state); break; case EVENT_ACTIVATE: case EVENT_TICK: _accel_interrupt_count_face_update_display(state); break; case EVENT_ALARM_LONG_PRESS: if (!state->running) { state->new_threshold = state->threshold; state->is_setting = true; } return false; default: movement_default_loop_handler(event); break; } } return true; } void accel_interrupt_count_face_resign(void *context) { (void) context; } movement_watch_face_advisory_t accel_interrupt_count_face_advise(void *context) { (void) context; movement_watch_face_advisory_t retval = { 0 }; return retval; }