FrameTransformation: Add two tests for int32 and uint16
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@@ -282,3 +282,133 @@ TEST_CASE("FrameTransformation_Converted_bshuf_zstd_rle" ,"") {
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REQUIRE(input_1[(511+512)*1024] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030]);
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REQUIRE(input_1[(511+512)*1024 + 800] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030 + 800 + 6]);
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}
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TEST_CASE("FrameTransformation_Converted_bshuf_zstd_32bit" ,"") {
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const uint16_t nmodules = 4;
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const uint16_t ndatastreams = 2;
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DiffractionExperiment experiment(DetectorGeometry(ndatastreams * nmodules, 2));
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experiment.DataStreams(ndatastreams);
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experiment.Mode(DetectorMode::Conversion).Compression(JFJochProtoBuf::BSHUF_ZSTD).FPGAOutputMode(JFJochProtoBuf::INT32);
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FrameTransformation transformation(experiment);
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std::mt19937 g1(1987);
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std::uniform_int_distribution<int32_t> dist;
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std::vector<int32_t> input_0(nmodules*RAW_MODULE_SIZE);
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for (int i = 0; i < nmodules*RAW_MODULE_SIZE; i++)
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input_0[i] = dist(g1);
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input_0[311*1024+256] = INT32_MAX-1;
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input_0[311*1024+255] = INT32_MIN;
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std::vector<int32_t> input_1(nmodules*RAW_MODULE_SIZE);
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for (int i = 0; i < nmodules*RAW_MODULE_SIZE; i++)
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input_1[i] = dist(g1);
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std::vector<char> output_compressed(experiment.GetMaxCompressedSize());
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for (int i = 0; i < nmodules; i++) {
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REQUIRE_NOTHROW(transformation.ProcessModule(input_0.data() + i * RAW_MODULE_SIZE, i, 0));
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REQUIRE_NOTHROW(transformation.ProcessModule(input_1.data() + i * RAW_MODULE_SIZE, i, 1));
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}
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size_t compressed_size;
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REQUIRE_NOTHROW(compressed_size = transformation.SaveCompressedImage(output_compressed.data()));
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REQUIRE(bshuf_read_uint64_BE(output_compressed.data()) == experiment.GetPixelsNum() * experiment.GetPixelDepth());
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REQUIRE(bshuf_read_uint32_BE(output_compressed.data()+8) == JFJochBitShuffleCompressor::DefaultBlockSize * experiment.GetPixelDepth());
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output_compressed.resize(compressed_size);
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std::vector<int32_t> output;
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REQUIRE_NOTHROW(JFJochDecompress(output, experiment.GetCompressionAlgorithmEnum(), output_compressed,
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experiment.GetPixelsNum()));
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REQUIRE(input_0[511*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 0]);
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REQUIRE(input_0[511*1024+256]/2 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 258]);
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REQUIRE(input_0[256*1024+256]/4 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 2 * 1030 * 255 + 257]);
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REQUIRE(input_0[311*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 0]);
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REQUIRE(input_0[311*1024+255] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 255]);
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REQUIRE(input_0[311*1024+256] / 2 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 258]);
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REQUIRE(input_0[(511+512)*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 1030]);
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REQUIRE(input_0[(511+512)*1024 + 800] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 1030 + 800 + 6]);
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REQUIRE(input_1[511*1024] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 0]);
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REQUIRE(input_1[511*1024+256] /2 == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 258]);
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REQUIRE(input_1[(311+2*512)*1024] == output[200 * 1030 * 2 + 0]);
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REQUIRE(input_1[(311+2*512)*1024+512] / 2 == output[200 * 1030 * 2 + 256*2+3]);
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REQUIRE(input_1[(511+512)*1024] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030]);
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REQUIRE(input_1[(511+512)*1024 + 800] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030 + 800 + 6]);
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}
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TEST_CASE("FrameTransformation_Converted_bshuf_zstd_unsigned_16bit" ,"") {
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const uint16_t nmodules = 4;
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const uint16_t ndatastreams = 2;
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DiffractionExperiment experiment(DetectorGeometry(ndatastreams * nmodules, 2));
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experiment.DataStreams(ndatastreams);
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experiment.Mode(DetectorMode::Conversion).Compression(JFJochProtoBuf::BSHUF_ZSTD).FPGAOutputMode(JFJochProtoBuf::UINT16);
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REQUIRE(!experiment.IsPixelSigned());
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REQUIRE(experiment.GetPixelDepth() == 2);
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FrameTransformation transformation(experiment);
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std::mt19937 g1(1987);
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std::uniform_int_distribution<uint16_t> dist(0, UINT16_MAX - 2);
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std::vector<uint16_t> input_0(nmodules*RAW_MODULE_SIZE);
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for (int i = 0; i < nmodules*RAW_MODULE_SIZE; i++)
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input_0[i] = dist(g1);
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input_0[311*1024+256] = UINT16_MAX - 2;
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input_0[311*1024+255] = UINT16_MAX - 1;
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std::vector<uint16_t> input_1(nmodules*RAW_MODULE_SIZE);
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for (int i = 0; i < nmodules*RAW_MODULE_SIZE; i++)
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input_1[i] = dist(g1);
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std::vector<char> output_compressed(experiment.GetMaxCompressedSize());
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for (int i = 0; i < nmodules; i++) {
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REQUIRE_NOTHROW(transformation.ProcessModule(input_0.data() + i * RAW_MODULE_SIZE, i, 0));
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REQUIRE_NOTHROW(transformation.ProcessModule(input_1.data() + i * RAW_MODULE_SIZE, i, 1));
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}
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size_t compressed_size;
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REQUIRE_NOTHROW(compressed_size = transformation.SaveCompressedImage(output_compressed.data()));
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REQUIRE(bshuf_read_uint64_BE(output_compressed.data()) == experiment.GetPixelsNum() * experiment.GetPixelDepth());
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REQUIRE(bshuf_read_uint32_BE(output_compressed.data()+8) == JFJochBitShuffleCompressor::DefaultBlockSize * experiment.GetPixelDepth());
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output_compressed.resize(compressed_size);
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std::vector<uint16_t> output;
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REQUIRE_NOTHROW(JFJochDecompress(output, experiment.GetCompressionAlgorithmEnum(), output_compressed,
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experiment.GetPixelsNum()));
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REQUIRE(input_0[511*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 0]);
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REQUIRE(input_0[511*1024+256]/2 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 258]);
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REQUIRE(input_0[256*1024+256]/4 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 2 * 1030 * 255 + 257]);
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REQUIRE(input_0[311*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 0]);
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REQUIRE(input_0[311*1024+255] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 255]);
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REQUIRE(input_0[311*1024+256] / 2 == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 200 * 1030 * 2 + 258]);
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REQUIRE(input_0[(511+512)*1024] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 1030]);
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REQUIRE(input_0[(511+512)*1024 + 800] == output[CONVERTED_MODULE_SIZE * (2 * nmodules - 2) + 1030 + 800 + 6]);
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REQUIRE(input_1[511*1024] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 0]);
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REQUIRE(input_1[511*1024+256] /2 == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 258]);
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REQUIRE(input_1[(311+2*512)*1024] == output[200 * 1030 * 2 + 0]);
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REQUIRE(input_1[(311+2*512)*1024+512] / 2 == output[200 * 1030 * 2 + 256*2+3]);
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REQUIRE(input_1[(511+512)*1024] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030]);
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REQUIRE(input_1[(511+512)*1024 + 800] == output[CONVERTED_MODULE_SIZE * (nmodules - 2) + 1030 + 800 + 6]);
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}
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