// Copyright (2019-2023) Paul Scherrer Institute #include #include "../frame_serialize/CBORStream2Serializer.h" #include "../frame_serialize/CBORStream2Deserializer.h" #include "../compression/JFJochCompressor.h" #include "../frame_serialize/CborUtil.h" TEST_CASE("CBORSerialize_Start", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); StartMessage message { .detector_distance = 0.0005, .beam_center_x = 456.6, .beam_center_y = 124.3, .number_of_images = 34567, .image_size_x = 456, .image_size_y = 457, .pixel_bit_depth = 32, .pixel_signed = true, .countrate_correction_enabled = true, .incident_energy = 12400, .incident_wavelength = 0.988, .frame_time = 0.0001, .count_time = 0.000098, .saturation_value = 65534, .error_value = 65535, .pixel_size_x = 0.000075, .pixel_size_y = 0.000075, .sensor_thickness = 0.0005, .sensor_material = "Si", .unit_cell = UnitCell{.a = 45,.b = 37, .c = 45, .alpha = 90, .beta = 108,. gamma = 120}, .space_group_number = 154, .max_spot_count = 250, .storage_cell_number = 16, .storage_cell_delay_ns = 15345, .pixel_mask_enabled = true, .arm_date = "abc", .sample_name = "lyso", .file_prefix = "lyso1/dir/file", .images_per_file = 12345, .channels = {"default", "sc2"}, .detector_description = "EIGER 16M", .detector_serial_number = "123", .series_unique_id = "bla", .series_id = 4567, .gain_file_names = {"abc" , "def", "/dsadasdsa/dadsadas/dsadsa/M056.bin"}, .roi_names = {"roi0", "roi1"}, .omega = { .increment = 0.1f, .start = 10.0f, .axis = {0,-1.0, 0.0} }, .detector_translation = {0.5f, 0.0f, 0.5f}, .source_name = "Swiss Light Source", .source_name_short = "SLS", .instrument_name = "X06SA", .instrument_name_short = "PXIII", .az_int_bin_number = 35, .summation = 567, .az_int_bin_to_q = {0.1, 0.2, 0.3, 0.5}, .total_flux = 123, .attenuator_transmission = 0.345, .write_master_file = true, .user_data = "Some random string 12345", .data_reduction_factor_serialmx = 0.75 }; REQUIRE_NOTHROW(serializer.SerializeSequenceStart(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::START); REQUIRE(deserialized->start_message); StartMessage &output_message = *deserialized->start_message; CHECK(output_message.images_per_file == message.images_per_file); CHECK(output_message.detector_distance == Catch::Approx(message.detector_distance)); CHECK(output_message.beam_center_x == Catch::Approx(message.beam_center_x)); CHECK(output_message.beam_center_y == Catch::Approx(message.beam_center_y)); CHECK(output_message.number_of_images == message.number_of_images); CHECK(output_message.image_size_x == message.image_size_x); CHECK(output_message.image_size_y == message.image_size_y); CHECK(output_message.pixel_bit_depth == message.pixel_bit_depth); CHECK(output_message.incident_energy == Catch::Approx(message.incident_energy)); CHECK(output_message.incident_wavelength == Catch::Approx(message.incident_wavelength)); CHECK(output_message.frame_time == Catch::Approx(message.frame_time)); CHECK(output_message.count_time == Catch::Approx(message.count_time)); CHECK(output_message.saturation_value == message.saturation_value); CHECK(output_message.error_value == message.error_value); CHECK(output_message.pixel_size_x == Catch::Approx(message.pixel_size_x)); CHECK(output_message.pixel_size_y == Catch::Approx(message.pixel_size_y)); CHECK(output_message.sensor_thickness == Catch::Approx(message.sensor_thickness)); CHECK(output_message.sensor_material == message.sensor_material); CHECK(output_message.pixel_mask_enabled == message.pixel_mask_enabled); CHECK(output_message.space_group_number == message.space_group_number); CHECK(output_message.arm_date == message.arm_date); CHECK(output_message.storage_cell_number == message.storage_cell_number); CHECK(output_message.storage_cell_delay_ns == message.storage_cell_delay_ns); CHECK(output_message.pixel_signed == message.pixel_signed); CHECK(output_message.sample_name == message.sample_name); CHECK(output_message.file_prefix == message.file_prefix); CHECK(output_message.max_spot_count == message.max_spot_count); CHECK(output_message.channels == message.channels); CHECK(output_message.detector_description == message.detector_description); CHECK(output_message.detector_serial_number == message.detector_serial_number); CHECK(output_message.series_unique_id == message.series_unique_id); CHECK(output_message.series_id == message.series_id); CHECK(output_message.source_name == message.source_name); CHECK(output_message.source_name_short == message.source_name_short); CHECK(output_message.instrument_name == message.instrument_name); CHECK(output_message.instrument_name_short == message.instrument_name_short); CHECK(output_message.az_int_bin_number == message.az_int_bin_number); CHECK(output_message.summation == message.summation); CHECK(output_message.az_int_bin_to_q == message.az_int_bin_to_q); for (int i = 0; i < 3; i++) CHECK(output_message.detector_translation[i] == message.detector_translation[i]); CHECK(output_message.unit_cell); CHECK(output_message.unit_cell->a == message.unit_cell->a); CHECK(output_message.unit_cell->b == message.unit_cell->b); CHECK(output_message.unit_cell->c == message.unit_cell->c); CHECK(output_message.unit_cell->alpha == message.unit_cell->alpha); CHECK(output_message.unit_cell->beta == message.unit_cell->beta); CHECK(output_message.unit_cell->gamma == message.unit_cell->gamma); CHECK(output_message.omega.increment == message.omega.increment); CHECK(output_message.omega.start == message.omega.start); for (int i = 0; i < 3; i++) CHECK(output_message.omega.axis[i] == message.omega.axis[i]); REQUIRE (output_message.total_flux); CHECK(output_message.total_flux.value() == message.total_flux.value()); REQUIRE (output_message.attenuator_transmission); CHECK(output_message.attenuator_transmission.value() == message.attenuator_transmission.value()); CHECK(output_message.user_data == message.user_data); CHECK(output_message.gain_file_names == message.gain_file_names); CHECK(output_message.roi_names == message.roi_names); CHECK(output_message.countrate_correction_enabled == message.countrate_correction_enabled); CHECK(output_message.flatfield_enabled == message.flatfield_enabled); CHECK(output_message.write_master_file == message.write_master_file); CHECK(output_message.data_reduction_factor_serialmx == message.data_reduction_factor_serialmx); } TEST_CASE("CBORSerialize_Start_PixelMask", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector mask(456*457, 15); CompressedImage image_mask { .data = reinterpret_cast(mask.data()), .size = 456 * 457 * sizeof(uint32_t), .xpixel = 456, .ypixel = 457, .pixel_depth_bytes = 4, .pixel_is_signed = false, .pixel_is_float = false, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "sc0" }; StartMessage message {}; message.AddPixelMask(image_mask); REQUIRE_NOTHROW(serializer.SerializeSequenceStart(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::START); REQUIRE(deserialized->start_message); StartMessage &output_message = *deserialized->start_message; REQUIRE(output_message.pixel_mask.size() == 1); CHECK(!output_message.pixel_mask[0].pixel_is_float); CHECK(output_message.pixel_mask[0].xpixel == 456); CHECK(output_message.pixel_mask[0].ypixel == 457); CHECK(output_message.pixel_mask[0].channel == "sc0"); CHECK(output_message.pixel_mask[0].algorithm == CompressionAlgorithm::NO_COMPRESSION); CHECK(memcmp(output_message.pixel_mask[0].data, mask.data(), mask.size() * sizeof(float)) == 0); } TEST_CASE("CBORSerialize_Calibration", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector calib1(256); for (int i = 0; i < 256; i++) { calib1[i] = i * 34.567; } CompressedImage image1 { .data = reinterpret_cast(calib1.data()), .size = 16 * 16 * sizeof(float), .xpixel = 16, .ypixel = 16, .pixel_depth_bytes = 4, .pixel_is_signed = true, .pixel_is_float = true, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "calib1" }; REQUIRE_NOTHROW(serializer.SerializeCalibration(image1)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::CALIBRATION); REQUIRE(deserialized->calibration); CompressedImage &output_message = *deserialized->calibration; CHECK(output_message.pixel_is_float); CHECK(output_message.xpixel == 16); CHECK(output_message.ypixel == 16); CHECK(output_message.channel == "calib1"); CHECK(memcmp(output_message.data, calib1.data(), 256 * sizeof(float)) == 0); } TEST_CASE("CBORSerialize_End", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); EndMessage message { .max_image_number = 57789, .images_collected_count = 50000, .images_sent_to_write_count = 40000, .max_receiver_delay = 3456, .efficiency = 0.99, .end_date = "ccc", .series_unique_id = "bla5", .series_id = 45676782 }; REQUIRE_NOTHROW(serializer.SerializeSequenceEnd(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::END); REQUIRE(deserialized->end_message); EndMessage &output_message = *deserialized->end_message; REQUIRE(output_message.max_receiver_delay == message.max_receiver_delay); REQUIRE(output_message.max_image_number == message.max_image_number); REQUIRE(output_message.images_collected_count == message.images_collected_count); REQUIRE(output_message.images_sent_to_write_count == message.images_sent_to_write_count); REQUIRE(output_message.efficiency); REQUIRE(output_message.efficiency == Catch::Approx(message.efficiency.value())); REQUIRE(output_message.end_date == message.end_date); REQUIRE(output_message.series_id == message.series_id); REQUIRE(output_message.series_unique_id == message.series_unique_id); REQUIRE(output_message.az_int_result.empty()); } TEST_CASE("CBORSerialize_End_RadIntResult", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); EndMessage message { .max_image_number = 57789, .max_receiver_delay = 3456, .efficiency = 0.99, .end_date = "ccc", .series_unique_id = "bla5", .series_id = 45676782 }; message.az_int_result["avg"] = {11.0, 12.0, 13.0}; message.az_int_result["file0"] = {56.0, 75.0, 34.0}; REQUIRE_NOTHROW(serializer.SerializeSequenceEnd(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::END); EndMessage &output_message = *deserialized->end_message; REQUIRE(output_message.az_int_result.size() == 2); REQUIRE(output_message.az_int_result.contains("avg")); REQUIRE(output_message.az_int_result.contains("file0")); CHECK(message.az_int_result["avg"] == output_message.az_int_result["avg"]); CHECK(message.az_int_result["file0"] == output_message.az_int_result["file0"]); } TEST_CASE("CBORSerialize_End_ADUHistogram", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); EndMessage message { .max_image_number = 57789, .max_receiver_delay = 3456, .efficiency = 0.99, .end_date = "ccc", .series_unique_id = "bla5", .series_id = 45676782, .adu_histogram_bin_width = 55 }; message.adu_histogram["avg"] = {11, 12, 13}; message.adu_histogram["file0"] = {56, 75, 34}; REQUIRE_NOTHROW(serializer.SerializeSequenceEnd(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::END); REQUIRE(deserialized->end_message); EndMessage &output_message = *deserialized->end_message; REQUIRE(output_message.adu_histogram.size() == 2); REQUIRE(output_message.adu_histogram.contains("avg")); REQUIRE(output_message.adu_histogram.contains("file0")); CHECK(message.adu_histogram["avg"] == output_message.adu_histogram["avg"]); CHECK(message.adu_histogram["file0"] == output_message.adu_histogram["file0"]); CHECK(message.adu_histogram_bin_width == output_message.adu_histogram_bin_width); } TEST_CASE("CBORSerialize_Image", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector spots; std::vector test(1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image { .data = test.data(), .size = 1024, .xpixel = 256, .ypixel = 2, .pixel_depth_bytes = 2, .pixel_is_signed = true, .pixel_is_float = false, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message { .number = 456, .image = image, .image_collection_efficiency = 0.11, .spots = spots, .bkg_estimate = 12.345f, .indexing_result = 1, .adu_histogram = {3, 4, 5, 8}, .timestamp = 1ul<<27 | 1ul <<35, .exptime = 1000, .series_unique_id = "bla2", .series_id = 4567678, .saturated_pixel_count = 378, .error_pixel_count = 123, .strong_pixel_count = 1234, .user_data = "Some random string ABCDEF", .jf_info = UINT32_MAX, .receiver_aq_dev_delay = 2323, .storage_cell = 0xF, .xfel_pulse_id = UINT64_MAX - 5678, .xfel_event_code = UINT64_MAX - 123, .original_number = 12789 }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.image.algorithm == CompressionAlgorithm::NO_COMPRESSION); REQUIRE(image_array.image.xpixel == 256); REQUIRE(image_array.image.ypixel == 2); REQUIRE(image_array.image.pixel_depth_bytes == 2); REQUIRE(image_array.image.pixel_is_signed); REQUIRE(!image_array.image.pixel_is_float); REQUIRE(image_array.image.channel == "default"); REQUIRE(image_array.image.size == test.size()); REQUIRE(image_array.indexing_result == message.indexing_result); REQUIRE(image_array.number == 456); REQUIRE(image_array.series_id == message.series_id); REQUIRE(image_array.series_unique_id == message.series_unique_id); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); REQUIRE(image_array.xfel_pulse_id == message.xfel_pulse_id); REQUIRE(image_array.xfel_event_code == message.xfel_event_code); REQUIRE(image_array.jf_info == message.jf_info); REQUIRE(image_array.timestamp == message.timestamp); REQUIRE(image_array.storage_cell == message.storage_cell); REQUIRE(image_array.exptime == message.exptime); REQUIRE(image_array.receiver_aq_dev_delay == image_array.receiver_aq_dev_delay); REQUIRE(image_array.adu_histogram == message.adu_histogram); REQUIRE(image_array.saturated_pixel_count == message.saturated_pixel_count); REQUIRE(image_array.error_pixel_count == message.error_pixel_count); REQUIRE(image_array.strong_pixel_count == message.strong_pixel_count); REQUIRE(image_array.bkg_estimate == message.bkg_estimate); REQUIRE(image_array.image_collection_efficiency == message.image_collection_efficiency); REQUIRE(image_array.user_data == message.user_data); REQUIRE(image_array.original_number == message.original_number); } TEST_CASE("CBORSerialize_Image_2", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector spots; std::vector test(512*1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image { .data = test.data(), .size = 1024 * 512, .xpixel = 1024, .ypixel = 512, .pixel_depth_bytes = 1, .pixel_is_signed = false, .pixel_is_float = false, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message { .number = 480, .image = image, .spots = spots, .indexing_result = true }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.image.algorithm == CompressionAlgorithm::NO_COMPRESSION); REQUIRE(image_array.image.xpixel == 1024); REQUIRE(image_array.image.ypixel == 512); REQUIRE(image_array.image.pixel_depth_bytes == 1); REQUIRE(!image_array.image.pixel_is_signed); REQUIRE(!image_array.image.pixel_is_float); REQUIRE(image_array.image.channel == "default"); REQUIRE(image_array.image.size == test.size()); REQUIRE(image_array.indexing_result == message.indexing_result); REQUIRE(image_array.number == 480); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); REQUIRE(!image_array.original_number); } TEST_CASE("CBORSerialize_Image_Float", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector spots; std::vector test(512*1024); for (int i = 0; i < test.size(); i++) test[i] = i * 0.1f; CompressedImage image { .data = reinterpret_cast(test.data()), .size = 1024 * 512 * sizeof(float), .xpixel = 1024, .ypixel = 512, .pixel_depth_bytes = 4, .pixel_is_signed = true, .pixel_is_float = true, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message { .number = 480, .image = image, .spots = spots, .indexing_result = false }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.image.algorithm == CompressionAlgorithm::NO_COMPRESSION); REQUIRE(image_array.image.xpixel == 1024); REQUIRE(image_array.image.ypixel == 512); REQUIRE(image_array.image.pixel_is_float); REQUIRE(image_array.image.pixel_depth_bytes == 4); REQUIRE(image_array.image.pixel_is_signed); REQUIRE(image_array.image.channel == "default"); REQUIRE(image_array.image.size == test.size() * sizeof(float)); REQUIRE(image_array.indexing_result == message.indexing_result); REQUIRE(image_array.number == 480); REQUIRE(memcmp(image_array.image.data, test.data(), test.size() * sizeof(float)) == 0); } TEST_CASE("CBORSerialize_Image_Compressed", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector spots; std::vector test(512); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image { .data = test.data(), .size = 512, .xpixel = 256, .ypixel = 2, .pixel_depth_bytes = 4, .pixel_is_signed = true, .pixel_is_float = false, .algorithm = CompressionAlgorithm::BSHUF_LZ4, .channel = "default" }; DataMessage message { .number = 456, .image = image, .spots = spots }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.image.algorithm == CompressionAlgorithm::BSHUF_LZ4); REQUIRE(image_array.image.xpixel == 256); REQUIRE(image_array.image.ypixel == 2); REQUIRE(image_array.image.pixel_depth_bytes == 4); REQUIRE(!image_array.image.pixel_is_float); REQUIRE(image_array.image.channel == "default"); REQUIRE(image_array.image.size == test.size()); REQUIRE(image_array.image.pixel_is_signed == true); REQUIRE(image_array.number == 456); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); } TEST_CASE("CBORSerialize_Image_Rad_Int_Profile", "[CBOR]") { std::vector buffer(8 * 1024 * 1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector test(1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image{ .data = test.data(), .size = 1024, .xpixel = 256, .ypixel = 2, .pixel_depth_bytes = 2, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message{ .number = 789, .image = image, .az_int_profile = {4.0, 5.0, 7.0, 12.0, 13.25, 0.125} }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.number == 789); REQUIRE(image_array.image.size == test.size()); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); REQUIRE(image_array.az_int_profile == message.az_int_profile); } TEST_CASE("CBORSerialize_Image_Spots", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector spots; spots.push_back(SpotToSave{.x = 7, .y = 8, .intensity = 34, .indexed = false}); spots.push_back(SpotToSave{.x = 37, .y = 48, .intensity = 123, .indexed = true}); std::vector test(1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image { .data = test.data(), .size = 1024, .xpixel = 256, .ypixel = 2, .pixel_depth_bytes = 2, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message { .number = 789, .image = image, .spots = spots }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.number == 789); REQUIRE(image_array.image.size == test.size()); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); REQUIRE(image_array.spots.size() == 2); REQUIRE(image_array.spots[0].intensity == 34); REQUIRE(!image_array.spots[0].indexed); REQUIRE(image_array.spots[1].x == 37); REQUIRE(image_array.spots[1].y == 48); REQUIRE(image_array.spots[1].intensity == 123); REQUIRE(image_array.spots[1].indexed); } TEST_CASE("CBORSerialize_Image_ROI", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector test(1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image { .data = test.data(), .size = 1024, .xpixel = 256, .ypixel = 2, .pixel_depth_bytes = 2, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message { .number = 789, .image = image, }; message.roi["roi0"] = {.sum = -876, .sum_square = 89998, .max_count = -1, .pixels = 4567}; message.roi["roi1"] = {.sum = 876, .sum_square = 998, .max_count = 12, .pixels = 234}; REQUIRE_NOTHROW(serializer.SerializeImage(message)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.number == 789); REQUIRE(image_array.roi.size() == 2); REQUIRE(image_array.roi.contains("roi0")); REQUIRE(image_array.roi.contains("roi1")); CHECK(image_array.roi["roi0"].sum == message.roi["roi0"].sum); CHECK(image_array.roi["roi0"].sum_square == message.roi["roi0"].sum_square); CHECK(image_array.roi["roi0"].max_count == message.roi["roi0"].max_count); CHECK(image_array.roi["roi0"].pixels == message.roi["roi0"].pixels); CHECK(image_array.roi["roi1"].sum == message.roi["roi1"].sum); CHECK(image_array.roi["roi1"].sum_square == message.roi["roi1"].sum_square); CHECK(image_array.roi["roi1"].max_count == message.roi["roi1"].max_count); CHECK(image_array.roi["roi1"].pixels == message.roi["roi1"].pixels); } TEST_CASE("CBORSerialize_Image_Append", "[CBOR]") { std::vector buffer(8*1024*1024); CBORStream2Serializer serializer(buffer.data(), buffer.size()); std::vector test(512 * 1024); for (int i = 0; i < test.size(); i++) test[i] = (i * 253 + 56) % 256; CompressedImage image{ .data = nullptr, .size = 0, .xpixel = 1024, .ypixel = 512, .pixel_depth_bytes = 1, .pixel_is_signed = false, .algorithm = CompressionAlgorithm::NO_COMPRESSION, .channel = "default" }; DataMessage message{ .number = 480, .image = image }; REQUIRE_NOTHROW(serializer.SerializeImage(message)); memcpy(buffer.data() + serializer.GetImageAppendOffset(), test.data(), 512 * 1024); //REQUIRE_THROWS(serializer.AppendImage(16*1024*1024)); REQUIRE_NOTHROW(serializer.AppendImage(512 * 1024)); auto deserialized = CBORStream2Deserialize(buffer.data(), serializer.GetBufferSize()); REQUIRE(deserialized); REQUIRE(deserialized->msg_type == CBORImageType::IMAGE); REQUIRE(deserialized->data_message); DataMessage &image_array = *deserialized->data_message; REQUIRE(image_array.image.algorithm == CompressionAlgorithm::NO_COMPRESSION); REQUIRE(image_array.image.xpixel == 1024); REQUIRE(image_array.image.ypixel == 512); REQUIRE(image_array.image.pixel_depth_bytes == 1); REQUIRE(!image_array.image.pixel_is_signed); REQUIRE(image_array.image.channel == "default"); REQUIRE(image_array.image.size == test.size()); REQUIRE(image_array.indexing_result == message.indexing_result); REQUIRE(image_array.number == 480); REQUIRE(memcmp(image_array.image.data, test.data(), test.size()) == 0); }