#include "breakout_encoder.hpp" #include namespace pimoroni { bool BreakoutEncoder::init(bool skip_chip_id_check) { bool success = false; if(ioe.init(skip_chip_id_check)) { if(interrupt_pin != PIN_UNUSED) ioe.enable_interrupt_out(true); ioe.setup_rotary_encoder(ENC_CHANNEL, ENC_TERM_A, ENC_TERM_B, ENC_TERM_C); // Calculate a period large enough to get 0-255 steps at the desired brightness uint16_t period = (uint16_t)(255.0f / brightness); ioe.set_pwm_period(period); ioe.set_pwm_control(2); // PWM as fast as we can to avoid LED flicker ioe.set_mode(LED_R, IOExpander::PIN_PWM, false, INVERT_OUTPUT); ioe.set_mode(LED_G, IOExpander::PIN_PWM, false, INVERT_OUTPUT); ioe.set_mode(LED_B, IOExpander::PIN_PWM, false, INVERT_OUTPUT); success = true; } return success; } i2c_inst_t* BreakoutEncoder::get_i2c() const { return ioe.get_i2c(); } int BreakoutEncoder::get_sda() const { return ioe.get_sda(); } int BreakoutEncoder::get_scl() const { return ioe.get_scl(); } int BreakoutEncoder::get_int() const { return ioe.get_int(); } void BreakoutEncoder::set_address(uint8_t address) { ioe.set_address(address); } bool BreakoutEncoder::get_direction(void) { return direction_cw; } void BreakoutEncoder::set_direction(bool clockwise) { direction_cw = clockwise; } void BreakoutEncoder::set_brightness(float brightness) { this->brightness = std::min(std::max(brightness, 0.01f), 1.0f); // Calculate a period large enough to get 0-255 steps at the desired brightness uint16_t period = (uint16_t)(255.0f / this->brightness); ioe.set_pwm_period(period); } void BreakoutEncoder::set_led(uint8_t r, uint8_t g, uint8_t b) { ioe.output(LED_R, r, false); // Hold off pwm load until the last ioe.output(LED_G, g, false); // Hold off pwm load until the last ioe.output(LED_B, b); // Loads all 3 pwms } bool BreakoutEncoder::available() { return (ioe.get_interrupt_flag() > 0); } int16_t BreakoutEncoder::read() { int16_t count = ioe.read_rotary_encoder(ENC_CHANNEL); if(!direction_cw) count = 0 - count; ioe.clear_interrupt_flag(); return count; } }