/**************************************************************************** ** gmio ** Copyright Fougue (2 Mar. 2015) ** contact@fougue.pro ** ** This software is a reusable library whose purpose is to provide complete ** I/O support for various CAD file formats (eg. STL) ** ** This software is governed by the CeCILL-B license under French law and ** abiding by the rules of distribution of free software. You can use, ** modify and/ or redistribute the software under the terms of the CeCILL-B ** license as circulated by CEA, CNRS and INRIA at the following URL ** "http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html". ****************************************************************************/ #include "utest_assert.h" #include "core_utils.h" #include "stl_utils.h" #include "../src/gmio_core/error.h" #include "../src/gmio_core/internal/min_max.h" #include "../src/gmio_stl/stl_error.h" #include "../src/gmio_stl/stl_io.h" #include #include static const char* stl_grabcad_arm11_filepath = "models/solid_grabcad_arm11_link0_hb.le_stlb"; struct stl_testcase_result { char solid_name[2048]; }; typedef struct stl_testcase_result stl_testcase_result_t; void stl_testcase_result__ascii_begin_solid( void* cookie, size_t stream_size, const char* solid_name) { stl_testcase_result_t* res = (stl_testcase_result_t*)cookie; GMIO_UNUSED(stream_size); if (res != NULL) { res->solid_name[0] = 0; if (solid_name != NULL) strcpy(&res->solid_name[0], solid_name); } } struct stl_testcase { const char* filepath; int errorcode; gmio_stl_format_t format; const char* solid_name; }; typedef struct stl_testcase stl_testcase; const char* test_stl_read() { const stl_testcase expected[] = { { "models/file_empty", GMIO_STL_ERROR_UNKNOWN_FORMAT, GMIO_STL_FORMAT_UNKNOWN, NULL }, { "models/solid_4vertex.stla", GMIO_STL_ERROR_PARSING, GMIO_STL_FORMAT_ASCII, NULL }, { "models/solid_anonymous_empty.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, NULL }, { "models/solid_empty.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, "emptysolid" }, { "models/solid_empty.stlb", GMIO_ERROR_OK, GMIO_STL_FORMAT_BINARY_LE, NULL }, { "models/solid_empty_name_many_words.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, "name with multiple words" }, { "models/solid_empty_name_many_words_single_letters.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, "a b c d e f\t\tg h" }, { "models/solid_grabcad_arm11_link0_hb.le_stlb", GMIO_ERROR_OK, GMIO_STL_FORMAT_BINARY_LE, NULL }, { "models/solid_lack_z.stla", GMIO_STL_ERROR_PARSING, GMIO_STL_FORMAT_ASCII, NULL }, { "models/solid_one_facet.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, NULL }, { "models/solid_one_facet.le_stlb", GMIO_ERROR_OK, GMIO_STL_FORMAT_BINARY_LE, NULL }, { "models/solid_one_facet.be_stlb", GMIO_ERROR_OK, GMIO_STL_FORMAT_BINARY_BE, NULL }, { "models/solid_one_facet_uppercase.stla", GMIO_ERROR_OK, GMIO_STL_FORMAT_ASCII, NULL } }; const size_t expected_count = sizeof(expected) / sizeof(stl_testcase); size_t i; /* for loop counter */ gmio_stl_mesh_creator_t meshc = {0}; stl_testcase_result_t result = {0}; meshc.cookie = &result; meshc.func_ascii_begin_solid = &stl_testcase_result__ascii_begin_solid; meshc.func_add_triangle = &gmio_stl_nop_add_triangle; for (i = 0; i < expected_count; ++i) { const gmio_stl_format_t format = gmio_stl_get_format_file(expected[i].filepath); const int err = gmio_stl_read_file(expected[i].filepath, &meshc, NULL); /* Check format */ if (format != expected[i].format) { printf("\nfilepath : %s\n" "expected format : %d\n" "actual format : %d\n", expected[i].filepath, expected[i].format, format); } UTEST_ASSERT(format == expected[i].format); /* Check error code */ if (err != expected[i].errorcode) { printf("\nfilepath : %s\n" "expected error : 0x%x\n" "actual error : 0x%x\n", expected[i].filepath, expected[i].errorcode, err); } UTEST_ASSERT(err == expected[i].errorcode); /* Check solid name */ if (expected[i].format == GMIO_STL_FORMAT_ASCII) { const char* expected_name = expected[i].solid_name != NULL ? expected[i].solid_name : ""; if (strcmp(result.solid_name, expected_name) != 0) { printf("\nfilepath : %s\n" "expected solidname : %s\n" "actual solidname : %s\n", expected[i].filepath, expected_name, result.solid_name); } UTEST_ASSERT(strcmp(result.solid_name, expected_name) == 0); } } return NULL; } const char* test_stlb_write_header() { const char* filepath = "temp/solid.stlb"; gmio_stlb_header_t header = { 0 }; const char* header_str = "temp/solid.stlb generated with gmio library"; int error = GMIO_ERROR_OK; { FILE* outfile = fopen(filepath, "wb"); gmio_stream_t stream = gmio_stream_stdio(outfile); memcpy(&header, header_str, GMIO_MIN(GMIO_STLB_HEADER_SIZE, strlen(header_str))); error = gmio_stlb_write_header( &stream, GMIO_ENDIANNESS_LITTLE, &header, 0); fclose(outfile); UTEST_ASSERT(error == GMIO_ERROR_OK); } { gmio_stl_data_t data = {0}; gmio_stl_mesh_creator_t mesh_creator = gmio_stl_data_mesh_creator(&data); error = gmio_stl_read_file(filepath, &mesh_creator, NULL); UTEST_ASSERT(error == GMIO_ERROR_OK); UTEST_ASSERT(gmio_stlb_header_equal(&header, &data.header)); UTEST_ASSERT(data.tri_array.count == 0); } return NULL; } const char* test_stlb_write() { const char* model_filepath = stl_grabcad_arm11_filepath; const char* model_filepath_out = "temp/solid.le_stlb"; const char* model_filepath_out_be = "temp/solid.be_stlb"; gmio_stl_data_t data = {0}; int error = GMIO_ERROR_OK; /* Read input model file */ { gmio_stl_mesh_creator_t creator = gmio_stl_data_mesh_creator(&data); error = gmio_stl_read_file(model_filepath, &creator, NULL); UTEST_ASSERT(error == GMIO_ERROR_OK); } /* Write back input model file * Write also the model file in big-endian STL format */ { gmio_stl_write_options_t options = {0}; const gmio_stl_mesh_t mesh = gmio_stl_data_mesh(&data); options.stlb_header_data = &data.header; error = gmio_stl_write_file( GMIO_STL_FORMAT_BINARY_LE, model_filepath_out, &mesh, NULL, &options); UTEST_ASSERT(error == GMIO_ERROR_OK); /* Big-endian version */ error = gmio_stl_write_file( GMIO_STL_FORMAT_BINARY_BE, model_filepath_out_be, &mesh, NULL, &options); } /* Check input and output models are equal */ { uint8_t buffer_in[2048] = {0}; uint8_t buffer_out[2048] = {0}; const size_t buff_size = 2048; size_t bytes_read_in = 0; size_t bytes_read_out = 0; FILE* in = fopen(model_filepath, "rb"); FILE* out = fopen(model_filepath_out, "rb"); UTEST_ASSERT(in != NULL && out != NULL); do { bytes_read_in = fread(&buffer_in[0], 1, buff_size, in); bytes_read_out = fread(&buffer_out[0], 1, buff_size, out); UTEST_ASSERT(bytes_read_in == bytes_read_out); UTEST_ASSERT(memcmp(&buffer_in[0], &buffer_out[0], buff_size) == 0); } while (!feof(in) && !feof(out) && bytes_read_in > 0 && bytes_read_out > 0); } /* Check output LE/BE models are equal */ { const uint32_t le_tri_count = data.tri_array.count; const gmio_stl_triangle_t* le_tri_ptr = data.tri_array.ptr; gmio_stl_data_t data_be = {0}; gmio_stl_mesh_creator_t creator = gmio_stl_data_mesh_creator(&data_be); error = gmio_stl_read_file(model_filepath_out_be, &creator, NULL); UTEST_ASSERT(error == GMIO_ERROR_OK); UTEST_ASSERT(gmio_stlb_header_equal(&data.header, &data_be.header)); UTEST_ASSERT(le_tri_count == data_be.tri_array.count); UTEST_ASSERT(memcmp(le_tri_ptr, data_be.tri_array.ptr, le_tri_count) == 0); free(data_be.tri_array.ptr); } free(data.tri_array.ptr); return NULL; } const char* test_stla_write() { const char* model_filepath = stl_grabcad_arm11_filepath; const char* model_filepath_out = "temp/solid.stla"; gmio_stl_data_t data = {0}; char header_str[GMIO_STLB_HEADER_SIZE + 1] = {0}; int error = GMIO_ERROR_OK; /* Read input model file */ { gmio_stl_mesh_creator_t creator = gmio_stl_data_mesh_creator(&data); error = gmio_stl_read_file(model_filepath, &creator, NULL); UTEST_ASSERT(error == GMIO_ERROR_OK); } /* Write the model to STL ascii format */ { gmio_stl_write_options_t options = {0}; const gmio_stl_mesh_t mesh = gmio_stl_data_mesh(&data); gmio_stlb_header_to_printable_string(&data.header, &header_str[0], '_'); options.stla_solid_name = &header_str[0]; options.stla_float32_prec = 7; options.stla_float32_format = GMIO_FLOAT_TEXT_FORMAT_SHORTEST_LOWERCASE; error = gmio_stl_write_file( GMIO_STL_FORMAT_ASCII, model_filepath_out, &mesh, NULL, &options); UTEST_ASSERT(error == GMIO_ERROR_OK); } /* Read the output STL ascii model */ { char trim_header_str[sizeof(header_str)] = {0}; gmio_stl_data_t data_stla = {0}; gmio_stl_mesh_creator_t creator = gmio_stl_data_mesh_creator(&data_stla); size_t i = 0; strncpy(&trim_header_str[0], &header_str[0], sizeof(header_str)); gmio_string_trim_from_end(trim_header_str, sizeof(header_str)); error = gmio_stl_read_file(model_filepath_out, &creator, NULL); UTEST_ASSERT(error == GMIO_ERROR_OK); UTEST_ASSERT(data.tri_array.count == data_stla.tri_array.count); UTEST_ASSERT(strcmp(&trim_header_str[0], &data_stla.solid_name[0]) == 0); for (i = 0; i < data.tri_array.count; ++i) { const gmio_stl_triangle_t* lhs = &data.tri_array.ptr[i]; const gmio_stl_triangle_t* rhs = &data_stla.tri_array.ptr[i]; const gmio_bool_t tri_equal = gmio_stl_triangle_equal(lhs, rhs, 5); UTEST_ASSERT(tri_equal); } } return NULL; } void generate_stlb_tests_models() { { FILE* outfile = fopen("models/solid_empty.stlb", "wb"); gmio_stream_t stream = gmio_stream_stdio(outfile); gmio_stlb_write_header(&stream, GMIO_ENDIANNESS_LITTLE, NULL, 0); fclose(outfile); } { gmio_stl_mesh_t mesh = {0}; gmio_stl_triangle_t tri = { { 0.f, 0.f, 1.f }, /* normal */ { 0.f, 0.f, 0.f }, /* v1 */ { 10.f, 0.f, 0.f }, /* v2 */ { 5.f, 10.f, 0.f }, /* v3 */ 0 /* attr */ }; gmio_stl_data_t data = {0}; data.tri_array.ptr = &tri; data.tri_array.count = 1; mesh = gmio_stl_data_mesh(&data); gmio_stl_write_file( GMIO_STL_FORMAT_BINARY_LE, "models/solid_one_facet.le_stlb", &mesh, NULL, NULL); gmio_stl_write_file( GMIO_STL_FORMAT_BINARY_BE, "models/solid_one_facet.be_stlb", &mesh, NULL, NULL); } }