#include "encoder.h" #include "math.h" #include #define TAG "SubGhzBlockEncoder" void subghz_protocol_blocks_set_bit_array( bool bit_value, uint8_t data_array[], size_t set_index_bit, size_t max_size_array) { furi_check(set_index_bit < max_size_array * 8); bit_write(data_array[set_index_bit >> 3], 7 - (set_index_bit & 0x7), bit_value); } bool subghz_protocol_blocks_get_bit_array(uint8_t data_array[], size_t read_index_bit) { return bit_read(data_array[read_index_bit >> 3], 7 - (read_index_bit & 0x7)); } size_t subghz_protocol_blocks_get_upload_from_bit_array( uint8_t data_array[], size_t count_bit_data_array, LevelDuration* upload, size_t max_size_upload, uint32_t duration_bit, SubGhzProtocolBlockAlignBit align_bit) { size_t bias_bit = 0; size_t size_upload = 0; uint32_t duration = duration_bit; if(align_bit == SubGhzProtocolBlockAlignBitRight) { if(count_bit_data_array & 0x7) { bias_bit = 8 - (count_bit_data_array & 0x7); } } size_t index_bit = bias_bit; bool last_bit = subghz_protocol_blocks_get_bit_array(data_array, index_bit++); for(size_t i = 1 + bias_bit; i < count_bit_data_array + bias_bit; i++) { if(last_bit == subghz_protocol_blocks_get_bit_array(data_array, index_bit)) { duration += duration_bit; } else { if(size_upload > max_size_upload) { furi_crash("SubGhz: Encoder buffer overflow"); } upload[size_upload++] = level_duration_make( subghz_protocol_blocks_get_bit_array(data_array, index_bit - 1), duration); last_bit = !last_bit; duration = duration_bit; } index_bit++; } upload[size_upload++] = level_duration_make( subghz_protocol_blocks_get_bit_array(data_array, index_bit - 1), duration); return size_upload; }