/* ---------------------------------------------------------------------- LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator http://lammps.sandia.gov, Sandia National Laboratories Steve Plimpton, sjplimp@sandia.gov Copyright (2003) Sandia Corporation. Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains certain rights in this software. This software is distributed under the GNU General Public License. See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ #include "gtest/gtest.h" #include "gmock/gmock.h" #include "fmt/format.h" #include "utils.h" #include "../testing/core.h" #include "../testing/systems/melt.h" #include "../testing/utils.h" #include char * GZIP_BINARY = nullptr; using ::testing::Eq; class DumpAtomGZTest : public MeltTest { std::string dump_style = "atom"; public: void enable_triclinic() { if (!verbose) ::testing::internal::CaptureStdout(); command("change_box all triclinic"); if (!verbose) ::testing::internal::GetCapturedStdout(); } void generate_dump(std::string dump_file, std::string dump_modify_options, int ntimesteps) { if (!verbose) ::testing::internal::CaptureStdout(); command(fmt::format("dump id all {} 1 {}", dump_style, dump_file)); if (!dump_modify_options.empty()) { command(fmt::format("dump_modify id {}", dump_modify_options)); } command(fmt::format("run {}", ntimesteps)); if (!verbose) ::testing::internal::GetCapturedStdout(); } void generate_text_and_compressed_dump(std::string text_file, std::string compressed_file, std::string compression_style, std::string dump_modify_options, int ntimesteps) { if (!verbose) ::testing::internal::CaptureStdout(); command(fmt::format("dump id0 all {} 1 {}", dump_style, text_file)); command(fmt::format("dump id1 all {} 1 {}", compression_style, compressed_file)); if (!dump_modify_options.empty()) { command(fmt::format("dump_modify id0 {}", dump_modify_options)); command(fmt::format("dump_modify id1 {}", dump_modify_options)); } command(fmt::format("run {}", ntimesteps)); if (!verbose) ::testing::internal::GetCapturedStdout(); } std::string convert_compressed_to_text(std::string compressed_file) { if (!verbose) ::testing::internal::CaptureStdout(); std::string converted_file = compressed_file.substr(0, compressed_file.find_last_of('.')); std::string cmdline = fmt::format("{} -d -c {} > {}", GZIP_BINARY, compressed_file, converted_file); system(cmdline.c_str()); if (!verbose) ::testing::internal::GetCapturedStdout(); return converted_file; } }; //------------------------------------------------------------------------------------------------- // GZ compressed files //------------------------------------------------------------------------------------------------- TEST_F(DumpAtomGZTest, compressed_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_run0.melt"; auto compressed_file = "dump_compressed_run0.melt.gz"; generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_THAT(converted_file, Eq("dump_compressed_run0.melt")); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_with_units_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_with_units_run0.melt"; auto compressed_file = "dump_compressed_with_units_run0.melt.gz"; generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "scale no units yes", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_with_time_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_with_time_run0.melt"; auto compressed_file = "dump_compressed_with_time_run0.melt.gz"; generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "scale no time yes", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_triclinic_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_tri_run0.melt"; auto compressed_file = "dump_compressed_tri_run0.melt.gz"; enable_triclinic(); generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_triclinic_with_units_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_tri_with_units_run0.melt"; auto compressed_file = "dump_compressed_tri_with_units_run0.melt.gz"; enable_triclinic(); generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "scale no units yes", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_triclinic_with_time_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_tri_with_time_run0.melt"; auto compressed_file = "dump_compressed_tri_with_time_run0.melt.gz"; enable_triclinic(); generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "scale no time yes", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } TEST_F(DumpAtomGZTest, compressed_triclinic_with_image_run0) { if(!GZIP_BINARY) GTEST_SKIP(); auto text_file = "dump_text_tri_with_image_run0.melt"; auto compressed_file = "dump_compressed_tri_with_image_run0.melt.gz"; enable_triclinic(); generate_text_and_compressed_dump(text_file, compressed_file, "atom/gz", "image yes", 0); ASSERT_FILE_EXISTS(text_file); ASSERT_FILE_EXISTS(compressed_file); auto converted_file = convert_compressed_to_text(compressed_file); ASSERT_FILE_EXISTS(converted_file); ASSERT_FILE_EQUAL(text_file, converted_file); delete_file(text_file); delete_file(compressed_file); delete_file(converted_file); } int main(int argc, char **argv) { MPI_Init(&argc, &argv); ::testing::InitGoogleMock(&argc, argv); // handle arguments passed via environment variable if (const char *var = getenv("TEST_ARGS")) { std::vector env = utils::split_words(var); for (auto arg : env) { if (arg == "-v") { verbose = true; } } } GZIP_BINARY = getenv("GZIP_BINARY"); if ((argc > 1) && (strcmp(argv[1], "-v") == 0)) verbose = true; int rv = RUN_ALL_TESTS(); MPI_Finalize(); return rv; }