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@ -16,64 +16,6 @@ const float sensor_analog_gains_AR0231[] = { |
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5.0 / 4.0, 6.0 / 4.0, 6.0 / 3.0, 7.0 / 3.0, // 8, 9, 10, 11
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7.0 / 2.0, 8.0 / 2.0, 8.0 / 1.0}; // 12, 13, 14, 15 = bypass
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std::map<uint16_t, std::pair<int, int>> ar0231_build_register_lut(const AR0231 *s, uint8_t *data) { |
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// This function builds a lookup table from register address, to a pair of indices in the
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// buffer where to read this address. The buffer contains padding bytes,
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// as well as markers to indicate the type of the next byte.
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//
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// 0xAA is used to indicate the MSB of the address, 0xA5 for the LSB of the address.
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// Every byte of data (MSB and LSB) is preceded by 0x5A. Specifying an address is optional
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// for contiguous ranges. See page 27-29 of the AR0231 Developer guide for more information.
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int max_i[] = {1828 / 2 * 3, 1500 / 2 * 3}; |
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auto get_next_idx = [](int cur_idx) { |
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return (cur_idx % 3 == 1) ? cur_idx + 2 : cur_idx + 1; // Every third byte is padding
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}; |
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std::map<uint16_t, std::pair<int, int>> registers; |
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for (int register_row = 0; register_row < 2; register_row++) { |
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uint8_t *registers_raw = data + s->frame_stride * register_row; |
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assert(registers_raw[0] == 0x0a); // Start of line
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int value_tag_count = 0; |
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int first_val_idx = 0; |
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uint16_t cur_addr = 0; |
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for (int i = 1; i <= max_i[register_row]; i = get_next_idx(get_next_idx(i))) { |
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int val_idx = get_next_idx(i); |
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uint8_t tag = registers_raw[i]; |
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uint16_t val = registers_raw[val_idx]; |
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if (tag == 0xAA) { // Register MSB tag
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cur_addr = val << 8; |
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} else if (tag == 0xA5) { // Register LSB tag
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cur_addr |= val; |
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cur_addr -= 2; // Next value tag will increment address again
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} else if (tag == 0x5A) { // Value tag
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// First tag
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if (value_tag_count % 2 == 0) { |
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cur_addr += 2; |
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first_val_idx = val_idx; |
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} else { |
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registers[cur_addr] = std::make_pair(first_val_idx + s->frame_stride * register_row, val_idx + s->frame_stride * register_row); |
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} |
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value_tag_count++; |
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} |
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} |
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} |
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return registers; |
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} |
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float ar0231_parse_temp_sensor(uint16_t calib1, uint16_t calib2, uint16_t data_reg) { |
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// See AR0231 Developer Guide - page 36
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float slope = (125.0 - 55.0) / ((float)calib1 - (float)calib2); |
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float t0 = 55.0 - slope * (float)calib2; |
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return t0 + slope * (float)data_reg; |
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} |
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} // namespace
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AR0231::AR0231() { |
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@ -169,33 +111,6 @@ AR0231::AR0231() { |
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}; |
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} |
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void AR0231::processRegisters(uint8_t *cur_buf, cereal::FrameData::Builder &framed) const { |
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const uint8_t expected_preamble[] = {0x0a, 0xaa, 0x55, 0x20, 0xa5, 0x55}; |
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uint8_t *data = cur_buf + registers_offset; |
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if (memcmp(data, expected_preamble, std::size(expected_preamble)) != 0) { |
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LOGE("unexpected register data found"); |
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return; |
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} |
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if (ar0231_register_lut.empty()) { |
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ar0231_register_lut = ar0231_build_register_lut(this, data); |
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} |
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std::map<uint16_t, uint16_t> registers; |
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for (uint16_t addr : {0x2000, 0x2002, 0x20b0, 0x20b2, 0x30c6, 0x30c8, 0x30ca, 0x30cc}) { |
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auto offset = ar0231_register_lut[addr]; |
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registers[addr] = ((uint16_t)data[offset.first] << 8) | data[offset.second]; |
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} |
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uint32_t frame_id = ((uint32_t)registers[0x2000] << 16) | registers[0x2002]; |
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framed.setFrameIdSensor(frame_id); |
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float temp_0 = ar0231_parse_temp_sensor(registers[0x30c6], registers[0x30c8], registers[0x20b0]); |
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float temp_1 = ar0231_parse_temp_sensor(registers[0x30ca], registers[0x30cc], registers[0x20b2]); |
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framed.setTemperaturesC({temp_0, temp_1}); |
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} |
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std::vector<i2c_random_wr_payload> AR0231::getExposureRegisters(int exposure_time, int new_exp_g, bool dc_gain_enabled) const { |
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uint16_t analog_gain_reg = 0xFF00 | (new_exp_g << 4) | new_exp_g; |
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return { |
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Adeeb Shihadeh
3 months ago
committed by
GitHub