#include "catch.hpp" #include "utils.hpp" #include #include #include TEST_CASE("Invalid file descriptor of gzip-compressed file") { REQUIRE_THROWS_AS(osmium::io::GzipDecompressor{-1}, osmium::gzip_error); } TEST_CASE("Non-open file descriptor of gzip-compressed file") { // 12345 is just a random file descriptor that should not be open osmium::io::GzipDecompressor decomp{12345}; REQUIRE_THROWS_AS(decomp.read(), osmium::gzip_error); } TEST_CASE("Empty gzip-compressed file") { const int count = count_fds(); const std::string input_file = with_data_dir("t/io/empty_file"); const int fd = osmium::io::detail::open_for_reading(input_file); REQUIRE(fd > 0); osmium::io::GzipDecompressor decomp{fd}; REQUIRE(decomp.read().empty()); decomp.close(); REQUIRE(count == count_fds()); } TEST_CASE("Read gzip-compressed file") { const int count = count_fds(); const std::string input_file = with_data_dir("t/io/data_gzip.txt.gz"); const int fd = osmium::io::detail::open_for_reading(input_file); REQUIRE(fd > 0); size_t size = 0; std::string all; { osmium::io::GzipDecompressor decomp{fd}; for (std::string data = decomp.read(); !data.empty(); data = decomp.read()) { size += data.size(); all += data; } decomp.close(); } REQUIRE(size >= 9); all.resize(8); REQUIRE("TESTDATA" == all); REQUIRE(count == count_fds()); } TEST_CASE("Read gzip-compressed file without explicit close") { const int count = count_fds(); const std::string input_file = with_data_dir("t/io/data_gzip.txt.gz"); const int fd = osmium::io::detail::open_for_reading(input_file); REQUIRE(fd > 0); size_t size = 0; std::string all; { osmium::io::GzipDecompressor decomp{fd}; for (std::string data = decomp.read(); !data.empty(); data = decomp.read()) { size += data.size(); all += data; } } REQUIRE(size >= 9); all.resize(8); REQUIRE("TESTDATA" == all); REQUIRE(count == count_fds()); } TEST_CASE("Corrupted gzip-compressed file") { const int count = count_fds(); const std::string input_file = with_data_dir("t/io/corrupt_data_gzip.txt.gz"); const int fd = osmium::io::detail::open_for_reading(input_file); REQUIRE(fd > 0); osmium::io::GzipDecompressor decomp{fd}; decomp.read(); REQUIRE_THROWS_AS(decomp.close(), osmium::gzip_error); REQUIRE(count == count_fds()); } TEST_CASE("Compressor: Invalid file descriptor for gzip-compressed file") { REQUIRE_THROWS_AS(osmium::io::GzipCompressor(-1, osmium::io::fsync::yes), std::system_error); } TEST_CASE("Compressor: Non-open file descriptor for gzip-compressed file") { // 12345 is just a random file descriptor that should not be open REQUIRE_THROWS_AS(osmium::io::GzipCompressor(12345, osmium::io::fsync::yes), std::system_error); } TEST_CASE("Write gzip-compressed file with explicit close") { const int count = count_fds(); const std::string output_file = "test_gzip_out.txt.gz"; const int fd = osmium::io::detail::open_for_writing(output_file, osmium::io::overwrite::allow); REQUIRE(fd > 0); osmium::io::GzipCompressor comp{fd, osmium::io::fsync::yes}; comp.write("foo"); comp.close(); REQUIRE(count == count_fds()); REQUIRE(osmium::file_size(output_file) > 10); } TEST_CASE("Write gzip-compressed file with implicit close") { const int count = count_fds(); const std::string output_file = "test_gzip_out.txt.gz"; const int fd = osmium::io::detail::open_for_writing(output_file, osmium::io::overwrite::allow); REQUIRE(fd > 0); { osmium::io::GzipCompressor comp{fd, osmium::io::fsync::yes}; comp.write("foo"); } REQUIRE(count == count_fds()); REQUIRE(osmium::file_size(output_file) > 10); }