#include "furi/check.h" #include "common/infrared_common_i.h" #include #include "../infrared_i.h" #include "infrared_protocol_defs_i.h" #include static const uint32_t repeat_timings[] = { INFRARED_SAMSUNG_REPEAT_PAUSE2, INFRARED_SAMSUNG_REPEAT_MARK, INFRARED_SAMSUNG_REPEAT_SPACE, INFRARED_SAMSUNG_BIT1_MARK, INFRARED_SAMSUNG_BIT1_SPACE, INFRARED_SAMSUNG_BIT1_MARK, }; void infrared_encoder_samsung32_reset(void* encoder_ptr, const InfraredMessage* message) { furi_assert(encoder_ptr); InfraredCommonEncoder* encoder = encoder_ptr; infrared_common_encoder_reset(encoder); uint8_t address = message->address; uint8_t command = message->command; uint8_t command_inverse = ~command; uint32_t* data = (void*)encoder->data; *data |= address; *data |= address << 8; *data |= command << 16; *data |= command_inverse << 24; encoder->bits_to_encode = encoder->protocol->databit_len[0]; } InfraredStatus infrared_encoder_samsung32_encode_repeat( InfraredCommonEncoder* encoder, uint32_t* duration, bool* level) { furi_assert(encoder); /* space + 2 timings preambule + payload + stop bit */ uint32_t timings_encoded_up_to_repeat = 1 + 2 + encoder->bits_encoded * 2 + 1; uint32_t repeat_cnt = encoder->timings_encoded - timings_encoded_up_to_repeat; furi_assert(encoder->timings_encoded >= timings_encoded_up_to_repeat); if(repeat_cnt > 0) *duration = repeat_timings[repeat_cnt % COUNT_OF(repeat_timings)]; else *duration = INFRARED_SAMSUNG_REPEAT_PAUSE1; *level = repeat_cnt % 2; ++encoder->timings_encoded; bool done = (!((repeat_cnt + 1) % COUNT_OF(repeat_timings))); return done ? InfraredStatusDone : InfraredStatusOk; } void* infrared_encoder_samsung32_alloc(void) { return infrared_common_encoder_alloc(&protocol_samsung32); } void infrared_encoder_samsung32_free(void* encoder_ptr) { infrared_common_encoder_free(encoder_ptr); } InfraredStatus infrared_encoder_samsung32_encode(void* encoder_ptr, uint32_t* duration, bool* level) { return infrared_common_encode(encoder_ptr, duration, level); }