kopia lustrzana https://github.com/pimoroni/pimoroni-pico
228 wiersze
6.3 KiB
C++
228 wiersze
6.3 KiB
C++
#include <cstdlib>
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#include <math.h>
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#include <map>
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#include <vector>
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#include <cstring>
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#include "as7262.hpp"
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namespace pimoroni {
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/***** Device registers and masks here *****/
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enum reg {
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DEVICE = 0x00,
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HW_VERSION = 0x01,
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FW_VERSION = 0x02, // + 0x03
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CONTROL = 0x04,
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INT_T = 0x05,
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TEMP = 0x06,
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LED_CONTROL = 0x07,
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V_HIGH = 0x08, // Violet
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V_LOW = 0x09,
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B_HIGH = 0x0A, // Blue
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B_LOW = 0x0B,
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G_HIGH = 0x0C, // Green
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G_LOW = 0x0D,
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Y_HIGH = 0x0E, // Yellow
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Y_LOW = 0x0F,
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O_HIGH = 0x10, // Orange
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O_LOW = 0x11,
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R_HIGH = 0x12, // Red
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R_LOW = 0x13,
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V_CAL_F = 0x14, // -> 0x17 Float (Violet)
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B_CAL_F = 0x18, // -> 0x1B Float (Blue)
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G_CAL_F = 0x1C, // -> 0x1F Float (Green)
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Y_CAL_F = 0x20, // -> 0x23 Float (Yellow)
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O_CAL_F = 0x24, // -> 0x27 Float (Orange)
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R_CAL_F = 0x28, // -> 0x27 Float (Red)
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};
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bool AS7262::init() {
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bool succeeded = false;
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i2c_init(i2c, 400000);
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gpio_set_function(sda, GPIO_FUNC_I2C);
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gpio_pull_up(sda);
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gpio_set_function(scl, GPIO_FUNC_I2C);
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gpio_pull_up(scl);
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if(interrupt != PIN_UNUSED) {
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gpio_set_function(interrupt, GPIO_FUNC_SIO);
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gpio_set_dir(interrupt, GPIO_IN);
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gpio_pull_up(interrupt);
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}
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reset();
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/***** Replace if(true) with any operations needed to initialise the device *****/
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if(true) {
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succeeded = true;
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}
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return succeeded;
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}
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void AS7262::reset() {
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i2c_reg_write_uint8(reg::CONTROL, 0b10000000);
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sleep_ms(1000);
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}
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i2c_inst_t* AS7262::get_i2c() const {
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return i2c;
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}
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int AS7262::get_sda() const {
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return sda;
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}
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int AS7262::get_scl() const {
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return scl;
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}
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int AS7262::get_int() const {
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return interrupt;
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}
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uint8_t AS7262::device_type() {
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return i2c_reg_read_uint8(reg::DEVICE);
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}
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uint8_t AS7262::hardware_version() {
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return i2c_reg_read_uint8(reg::HW_VERSION);
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}
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void AS7262::firmware_version(uint8_t &major_out, uint8_t &minor_out, uint8_t &sub_out) {
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uint16_t fw_version = i2c_reg_read_uint16(reg::FW_VERSION);
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major_out = (fw_version & 0x00F0) >> 4;
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minor_out = ((fw_version & 0x000F) << 2) | ((fw_version & 0xC000) >> 14);
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sub_out = (fw_version & 0x3F00) >> 8;
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}
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AS7262::reading AS7262::read() {
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while(!data_ready()) {}
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return AS7262::reading {
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i2c_reg_read_float(reg::R_CAL_F),
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i2c_reg_read_float(reg::O_CAL_F),
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i2c_reg_read_float(reg::Y_CAL_F),
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i2c_reg_read_float(reg::G_CAL_F),
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i2c_reg_read_float(reg::B_CAL_F),
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i2c_reg_read_float(reg::V_CAL_F)
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};
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}
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uint8_t AS7262::temperature() {
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return i2c_reg_read_uint8(reg::TEMP);
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}
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void AS7262::set_gain(gain gain) {
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uint8_t temp = i2c_reg_read_uint8(reg::CONTROL) & ~0b00110000;
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temp |= (uint8_t)gain << 4;
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i2c_reg_write_uint8(reg::CONTROL, temp);
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}
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void AS7262::set_measurement_mode(measurement_mode mode) {
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uint8_t temp = i2c_reg_read_uint8(reg::CONTROL) & ~0b00001100;
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temp |= (uint8_t)mode << 2;
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i2c_reg_write_uint8(reg::CONTROL, temp);
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}
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void AS7262::set_indicator_current(indicator_current current) {
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uint8_t temp = i2c_reg_read_uint8(reg::LED_CONTROL) & ~0b00000110;
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temp |= (uint8_t)current << 1;
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i2c_reg_write_uint8(reg::LED_CONTROL, temp);
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}
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void AS7262::set_illumination_current(illumination_current current) {
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uint8_t temp = i2c_reg_read_uint8(reg::LED_CONTROL) & ~0b00110000;
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temp |= (uint8_t)current << 4;
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i2c_reg_write_uint8(reg::LED_CONTROL, temp);
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}
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void AS7262::set_leds(bool illumination, bool indicator) {
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uint8_t temp = i2c_reg_read_uint8(reg::LED_CONTROL) & ~0b00001001;
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temp |= indicator ? 1 : 0;
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temp |= (illumination ? 1 : 0) << 3;
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i2c_reg_write_uint8(reg::LED_CONTROL, temp);
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}
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void AS7262::set_integration_time(float integration_time_ms) {
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uint8_t integration_time = uint8_t(integration_time_ms * 2.88);
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i2c_reg_write_uint8(reg::INT_T, integration_time);
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}
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bool AS7262::data_ready() {
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return i2c_reg_read_uint8(reg::CONTROL) & 0b00000010;
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}
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// i2c IO wrappers around the weird virtual i2c nonsense
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void AS7262::i2c_reg_write_uint8(uint8_t reg, uint8_t value) {
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i2c_write(reg, &value, 1);
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}
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// convert the AS7262s 4-byte big-endian float value into a native float
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float AS7262::i2c_reg_read_float(uint8_t reg) {
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uint32_t value;
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i2c_read(reg, (uint8_t *)&value, 4);
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value = __builtin_bswap32(value);
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// Fails due to -Werror=strict-aliasing in MicroPython build
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// return reinterpret_cast<float &>(value);
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// Assumes sizeof(uint32_t) == sizeof(float)
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float result;
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memcpy(&result, &value, sizeof(float));
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return result;
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}
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uint8_t AS7262::i2c_reg_read_uint8(uint8_t reg) {
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uint8_t value;
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i2c_read(reg, &value, 1);
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return value;
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}
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uint16_t AS7262::i2c_reg_read_uint16(uint8_t reg) {
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uint16_t value;
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i2c_read(reg, (uint8_t *)&value, 2);
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return value;
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}
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uint8_t AS7262::i2c_status() {
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return _i2c_reg_read_uint8(0x00);
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}
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uint8_t AS7262::i2c_read(uint8_t reg, uint8_t *values, uint8_t len) {
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for(uint8_t i = 0; i < len; i++){
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while((i2c_status() & 0b10) != 0) {}; // Wait for write-ready
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_i2c_reg_write_uint8(0x01, reg + i); // Set address pointer
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while((i2c_status() & 0b01) != 1) {}; // Wait for read-ready
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values[i] = _i2c_reg_read_uint8(0x02); // Read *one* byte :|
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}
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return 0;
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}
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uint8_t AS7262::i2c_write(uint8_t reg, uint8_t *values, uint8_t len) {
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for(uint8_t i = 0; i < len; i++){
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while((i2c_status() & 0b10) != 0) {}; // Wait for write-ready
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_i2c_reg_write_uint8(0x01, reg | 0x80); // Set address pointer
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while((i2c_status() & 0b10) != 0) {}; // Wait for write-ready
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_i2c_reg_write_uint8(0x01, values[i]); // Write *one* byte :|
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}
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return 0;
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}
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// Plumbing for virtual i2c
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void AS7262::_i2c_reg_write_uint8(uint8_t reg, uint8_t value) {
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uint8_t buffer[2] = {reg, value};
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i2c_write_blocking(i2c, address, buffer, 2, false);
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}
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uint8_t AS7262::_i2c_reg_read_uint8(uint8_t reg) {
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uint8_t value;
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i2c_write_blocking(i2c, address, ®, 1, false);
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i2c_read_blocking(i2c, address, (uint8_t *)&value, 1, false);
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return value;
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}
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} |