// ========================================================================== // ext_lh3 // ========================================================================== // Copyright (c) 2006-2011, Knut Reinert, FU Berlin // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of Knut Reinert or the FU Berlin nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE // ARE DISCLAIMED. IN NO EVENT SHALL KNUT REINERT OR THE FU BERLIN BE LIABLE // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT // LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY // OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH // DAMAGE. // // ========================================================================== // Author: Manuel Holtgrewe // ========================================================================== #ifndef EXTRAS_TESTS_STREAM_TEST_STREAM_BGZF_H_ #define EXTRAS_TESTS_STREAM_TEST_STREAM_BGZF_H_ #include #include #include "test_stream_generic.h" SEQAN_DEFINE_TEST(test_stream_bgzf_metafunctions) { using namespace seqan; { bool b = HasStreamFeature, IsInput>::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, IsOutput>::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, HasPeek>::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, HasFilename>::Type::VALUE; SEQAN_ASSERT_NOT(b); } { bool b = HasStreamFeature, Seek >::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, Seek >::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, Seek >::Type::VALUE; SEQAN_ASSERT(b); } { bool b = HasStreamFeature, Tell>::Type::VALUE; SEQAN_ASSERT(b); } } // Simple example of writing to FILE *. SEQAN_DEFINE_TEST(test_stream_bgzf_read_simple_usage) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "This is a string!\nWith two lines."; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamReadSimpleUsage(f2); gzclose(f); } // More complex example of writing to FILE *. SEQAN_DEFINE_TEST(test_stream_bgzf_read_complex_usage) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "This is a string!\nWith two lines."; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamReadComplexUsage(f2); gzclose(f); } // Simple example of reading from FILE *. SEQAN_DEFINE_TEST(test_stream_bgzf_write_simple_usage) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); streamWriteChar(f2, '1'); streamWriteChar(f2, '2'); gzclose(f); // Read in data and compare. gzFile gzIn = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(gzIn != NULL); char buffer[100]; int bytesRead = gzread(gzIn, buffer, 10); SEQAN_ASSERT_EQ(bytesRead, 2); buffer[bytesRead] = '\0'; SEQAN_ASSERT_EQ(strcmp(buffer, "12"), 0); gzclose(gzIn); } // A bit more complex usage of writing to FILE *. SEQAN_DEFINE_TEST(test_stream_bgzf_write_complex_usage) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); for (int i = 0; i < 10; ++i) streamWriteChar(f2, '0' + i); gzclose(f); // Read in data and compare. gzFile gzIn = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(gzIn != NULL); char buffer[100]; int bytesRead = gzread(gzIn, buffer, 10); SEQAN_ASSERT_EQ(bytesRead, 10); buffer[bytesRead] = '\0'; SEQAN_ASSERT_EQ(strcmp(buffer, "0123456789"), 0); gzclose(gzIn); } // Test of streamEof(). SEQAN_DEFINE_TEST(test_stream_bgzf_eof) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "This is a test."; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamEof(f2); gzclose(f); } // Test of streamPeek(). SEQAN_DEFINE_TEST(test_stream_bgzf_peek) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "This is a test."; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamPeek(f2); gzclose(f); } // Test of streamReadChar(). SEQAN_DEFINE_TEST(test_stream_bgzf_read_char) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "123"; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamReadChar(f2); gzclose(f); } // Test of streamReadBlock(). SEQAN_DEFINE_TEST(test_stream_bgzf_read_block) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "XXXXXXXXXX"; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); { gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamReadBlockHitLimit(f2); gzclose(f); } { gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamReadBlockHitNoLimit(f2); gzclose(f); } } // Test of streamWriteChar(). SEQAN_DEFINE_TEST(test_stream_bgzf_write_char) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamWriteChar(f2); gzclose(f); // Read in data and compare. gzFile gzIn = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(gzIn != NULL); char buffer[100]; int bytesRead = gzread(gzIn, buffer, 99); SEQAN_ASSERT_EQ(bytesRead, 3); buffer[bytesRead] = '\0'; SEQAN_ASSERT_EQ(strcmp(buffer, "345"), 0); gzclose(gzIn); } // Test of streamWrite(). SEQAN_DEFINE_TEST(test_stream_bgzf_write_block) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamWriteBlock(f2); gzclose(f); // Read in data and compare. gzFile gzIn = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(gzIn != NULL); char buffer[100]; int bytesRead = gzread(gzIn, buffer, 99); SEQAN_ASSERT_EQ(bytesRead, 8); buffer[bytesRead] = '\0'; SEQAN_ASSERT_EQ(strcmp(buffer, "ABCDEFGH"), 0); gzclose(gzIn); } // Test of streamWrite(). SEQAN_DEFINE_TEST(test_stream_bgzf_streamPut) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamPut(f2); gzclose(f); // Read in data and compare. gzFile gzIn = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(gzIn != NULL); char buffer[100]; int bytesRead = gzread(gzIn, buffer, 99); char cmp[] = "c\nseq\nsss\n12\n34\n56\n78\n5.4\n6.5\nA\nACGT\nACGTN\n"; buffer[bytesRead] = '\0'; SEQAN_ASSERT_EQ(bytesRead, int(sizeof(cmp) - sizeof(char))); SEQAN_ASSERT_EQ(strcmp(buffer, cmp), 0); gzclose(gzIn); } // Test of streamFlush(). SEQAN_DEFINE_TEST(test_stream_bgzf_flush) { using namespace seqan; // Only test that the function is there. const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); gzFile f = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(f != NULL); Stream f2(f); streamFlush(f2); gzclose(f); } // Test of streamSeek(). SEQAN_DEFINE_TEST(test_stream_bgzf_seek) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "0123456789"; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); testStreamSeek(f2); gzclose(f); } // Test of streamTell(). SEQAN_DEFINE_TEST(test_stream_bgzf_tell) { using namespace seqan; const char * tempFilename = SEQAN_TEMP_FILENAME(); char filenameBuffer[1000]; strcpy(filenameBuffer, tempFilename); // Write out test data. char const * STR = "0123456789"; gzFile gzOut = gzopen(filenameBuffer, "wb"); SEQAN_ASSERT(gzOut != NULL); gzwrite(gzOut, STR, strlen(STR)); gzclose(gzOut); gzFile f = gzopen(filenameBuffer, "rb"); SEQAN_ASSERT(f != NULL); Stream f2(f); char c; size_t pos = streamTell(f2); SEQAN_ASSERT_EQ(pos, 0u); int res = streamReadChar(c, f2); SEQAN_ASSERT_EQ(res, 0); res = streamReadChar(c, f2); SEQAN_ASSERT_EQ(res, 0); pos = streamTell(f2); SEQAN_ASSERT_EQ(pos, 2u); gzclose(f); } SEQAN_DEFINE_TEST(test_stream_bgzf_write_large_and_compare_with_file) { using namespace seqan; // ----------------------------------------------------------------------- // Generate Paths, Open Files // ----------------------------------------------------------------------- // Open test file for reading. const char * r = SEQAN_PATH_TO_ROOT(); char tempPath[1000]; strcpy(tempPath, r); strcat(tempPath, "/extras/tests/stream/SRR067601_1.1k.fasta"); FILE * fp = fopen(tempPath, "rb"); // Open BGZF stream for writing. const char * p = SEQAN_TEMP_FILENAME(); char outFilename[1000]; strcpy(outFilename, p); Stream stream; open(stream, outFilename, "w"); // ----------------------------------------------------------------------- // Write Data. // ----------------------------------------------------------------------- // Copy from fp to stream. String buffer; resize(buffer, 765); while (!feof(fp)) { int len = fread(&buffer[0], 1, 765, fp); streamWriteBlock(stream, &buffer[0], len); } // Close Stream. close(stream); // ----------------------------------------------------------------------- // Compare Data // ----------------------------------------------------------------------- char inPath1[1000]; strcpy(inPath1, SEQAN_PATH_TO_ROOT()); strcat(inPath1, "/extras/tests/stream/SRR067601_1.1k.fasta.gz"); FILE * fin1 = fopen(inPath1, "rb"); SEQAN_ASSERT(fin1 != NULL); // printf("inpath:%s\n", inPath1); FILE * fin2 = fopen(outFilename, "rb"); SEQAN_ASSERT(fin2 != NULL); // printf("inpath2:%s\n", outFilename); int i = 0; while (!feof(fin1) && !feof(fin2)) { int i1 = fgetc(fin1); int i2 = fgetc(fin2); SEQAN_ASSERT_EQ_MSG(i1, i2, "At character pos %d", i); ++i; } SEQAN_ASSERT(feof(fin1)); SEQAN_ASSERT(feof(fin2)); } SEQAN_DEFINE_TEST(test_stream_bgzf_from_file_and_compare) { using namespace seqan; // Define paths to BGZF and FASTA file. char gzPath[1000]; strcpy(gzPath, SEQAN_PATH_TO_ROOT()); strcat(gzPath, "/extras/tests/stream/SRR067601_1.1k.fasta.gz"); char fastaPath[1000]; strcpy(fastaPath, SEQAN_PATH_TO_ROOT()); strcat(fastaPath, "/extras/tests/stream/SRR067601_1.1k.fasta"); // Open files. Stream inBgzf; SEQAN_ASSERT(open(inBgzf, gzPath, "r")); FILE * inFasta = fopen(fastaPath, "rb"); SEQAN_ASSERT(inFasta != NULL); // Read files, expect both to be of the same length and have the same // (uncompressed) content. int i = 0; while (!streamEof(inBgzf) && !streamEof(inFasta)) { char c = '\0'; int res = streamReadChar(c, inBgzf); SEQAN_ASSERT_EQ_MSG(res, 0, "Failed at character pos %d", i); int i1 = c; int i2 = fgetc(inFasta); SEQAN_ASSERT_EQ_MSG(i1, i2, "At character pos %d", i); ++i; } SEQAN_ASSERT(streamEof(inBgzf)); // Note that BGZF files know that they are EOF before reading the last char. For normal files we have to read // beyond the end of the file. SEQAN_ASSERT_LT(fgetc(inFasta), 0); SEQAN_ASSERT(feof(inFasta)); } #endif // #ifndef EXTRAS_TESTS_STREAM_TEST_STREAM_BGZF_H_