// Copyright 2011-2020 David Robillard // SPDX-License-Identifier: ISC #undef NDEBUG #include "serd/memory.h" #include "serd/node.h" #include "serd/status.h" #include "serd/string_view.h" #include "serd/uri.h" #include "serd/write_result.h" #include #include #include #include #include #include #include #define NS_XSD "http://www.w3.org/2001/XMLSchema#" #define NS_RDF "http://www.w3.org/1999/02/22-rdf-syntax-ns#" #if defined(__clang__) # define SERD_DISABLE_CONVERSION_WARNINGS \ _Pragma("clang diagnostic push") \ _Pragma("clang diagnostic ignored \"-Wconversion\"") \ _Pragma("clang diagnostic ignored \"-Wdouble-promotion\"") \ _Pragma("clang diagnostic ignored \"-Wc11-extensions\"") # define SERD_RESTORE_WARNINGS _Pragma("clang diagnostic pop") #elif defined(__GNUC__) && __GNUC__ >= 8 # define SERD_DISABLE_CONVERSION_WARNINGS \ _Pragma("GCC diagnostic push") \ _Pragma("GCC diagnostic ignored \"-Wconversion\"") \ _Pragma("GCC diagnostic ignored \"-Wfloat-conversion\"") \ _Pragma("GCC diagnostic ignored \"-Wdouble-promotion\"") # define SERD_RESTORE_WARNINGS _Pragma("GCC diagnostic pop") #else # define SERD_DISABLE_CONVERSION_WARNINGS # define SERD_RESTORE_WARNINGS #endif static void test_boolean(void) { SerdNode* const true_node = serd_new_boolean(true); assert(!strcmp(serd_node_string(true_node), "true")); assert(serd_get_boolean(true_node)); const SerdNode* const true_datatype = serd_node_datatype(true_node); assert(true_datatype); assert(!strcmp(serd_node_string(true_datatype), NS_XSD "boolean")); serd_node_free(true_node); SerdNode* const false_node = serd_new_boolean(false); assert(!strcmp(serd_node_string(false_node), "false")); assert(!serd_get_boolean(false_node)); const SerdNode* const false_datatype = serd_node_datatype(false_node); assert(false_datatype); assert(!strcmp(serd_node_string(false_datatype), NS_XSD "boolean")); serd_node_free(false_node); } static void check_get_boolean(const char* string, const char* datatype_uri, const bool expected) { SerdNode* const node = serd_new_typed_literal(serd_string(string), serd_string(datatype_uri)); assert(node); assert(serd_get_boolean(node) == expected); serd_node_free(node); } static void test_get_boolean(void) { check_get_boolean("false", NS_XSD "boolean", false); check_get_boolean("true", NS_XSD "boolean", true); check_get_boolean("0", NS_XSD "boolean", false); check_get_boolean("1", NS_XSD "boolean", true); check_get_boolean("0", NS_XSD "integer", false); check_get_boolean("1", NS_XSD "integer", true); check_get_boolean("0.0", NS_XSD "double", false); check_get_boolean("1.0", NS_XSD "double", true); check_get_boolean("unknown", NS_XSD "string", false); check_get_boolean("!invalid", NS_XSD "long", false); } static void test_decimal(void) { const double test_values[] = { 0.0, 9.0, 10.0, .01, 2.05, -16.00001, 5.000000005, 0.0000000001}; static const char* const test_strings[] = {"0.0", "9.0", "10.0", "0.01", "2.05", "-16.00001", "5.000000005", "0.0000000001"}; for (size_t i = 0; i < sizeof(test_values) / sizeof(double); ++i) { SerdNode* node = serd_new_decimal(test_values[i], NULL); const char* node_str = serd_node_string(node); assert(!strcmp(node_str, test_strings[i])); const size_t len = strlen(node_str); assert(serd_node_length(node) == len); const SerdNode* const datatype = serd_node_datatype(node); assert(datatype); assert(!strcmp(serd_node_string(datatype), NS_XSD "decimal")); const double value = serd_get_double(node); assert(!memcmp(&value, &test_values[i], sizeof(value))); serd_node_free(node); } } static void test_double(void) { const double test_values[] = {0.0, -0.0, 1.2, -2.3, 4567890}; const char* test_strings[] = { "0.0E0", "-0.0E0", "1.2E0", "-2.3E0", "4.56789E6"}; for (size_t i = 0; i < sizeof(test_values) / sizeof(double); ++i) { SerdNode* node = serd_new_double(test_values[i]); const char* node_str = serd_node_string(node); assert(!strcmp(node_str, test_strings[i])); const size_t len = strlen(node_str); assert(serd_node_length(node) == len); const SerdNode* const datatype = serd_node_datatype(node); assert(datatype); assert(!strcmp(serd_node_string(datatype), NS_XSD "double")); const double value = serd_get_double(node); assert(!memcmp(&value, &test_values[i], sizeof(value))); serd_node_free(node); } } static void check_get_double(const char* string, const char* datatype_uri, const double expected) { SerdNode* const node = serd_new_typed_literal(serd_string(string), serd_string(datatype_uri)); assert(node); const double value = serd_get_double(node); assert(!memcmp(&value, &expected, sizeof(value))); serd_node_free(node); } static void test_get_double(void) { check_get_double("1.2", NS_XSD "double", 1.2); check_get_double("-.5", NS_XSD "float", -0.5); check_get_double("-67", NS_XSD "long", -67.0); check_get_double("8.9", NS_XSD "decimal", 8.9); check_get_double("false", NS_XSD "boolean", 0.0); check_get_double("true", NS_XSD "boolean", 1.0); static const uint8_t blob[] = {1U, 2U, 3U, 4U}; SERD_DISABLE_CONVERSION_WARNINGS SerdNode* const nan = serd_new_string(serd_string("unknown")); assert(isnan(serd_get_double(nan))); serd_node_free(nan); SerdNode* const invalid = serd_new_typed_literal(serd_string("!invalid"), serd_string(NS_XSD "long")); assert(isnan(serd_get_double(invalid))); serd_node_free(invalid); SerdNode* const base64 = serd_new_base64(blob, sizeof(blob)); assert(isnan(serd_get_double(base64))); serd_node_free(base64); SERD_RESTORE_WARNINGS } static void test_float(void) { const float test_values[] = {0.0f, -0.0f, 1.5f, -2.5f, 4567890.0f}; const char* test_strings[] = { "0.0E0", "-0.0E0", "1.5E0", "-2.5E0", "4.56789E6"}; for (size_t i = 0; i < sizeof(test_values) / sizeof(float); ++i) { SerdNode* node = serd_new_float(test_values[i]); const char* node_str = serd_node_string(node); assert(!strcmp(node_str, test_strings[i])); const size_t len = strlen(node_str); assert(serd_node_length(node) == len); const SerdNode* const datatype = serd_node_datatype(node); assert(datatype); assert(!strcmp(serd_node_string(datatype), NS_XSD "float")); const float value = serd_get_float(node); assert(!memcmp(&value, &test_values[i], sizeof(value))); serd_node_free(node); } } static void check_get_float(const char* string, const char* datatype_uri, const float expected) { SerdNode* const node = serd_new_typed_literal(serd_string(string), serd_string(datatype_uri)); assert(node); const float value = serd_get_float(node); assert(!memcmp(&value, &expected, sizeof(value))); serd_node_free(node); } static void test_get_float(void) { check_get_float("1.2", NS_XSD "float", 1.2f); check_get_float("-.5", NS_XSD "float", -0.5f); check_get_float("-67", NS_XSD "long", -67.0f); check_get_float("1.5", NS_XSD "decimal", 1.5f); check_get_float("false", NS_XSD "boolean", 0.0f); check_get_float("true", NS_XSD "boolean", 1.0f); SERD_DISABLE_CONVERSION_WARNINGS SerdNode* const nan = serd_new_string(serd_string("unknown")); assert(isnan(serd_get_float(nan))); serd_node_free(nan); SerdNode* const invalid = serd_new_typed_literal(serd_string("!invalid"), serd_string(NS_XSD "long")); assert(isnan(serd_get_double(invalid))); SERD_RESTORE_WARNINGS serd_node_free(invalid); } static void test_integer(void) { const int64_t test_values[] = {0, -0, -23, 23, -12340, 1000, -1000}; const char* test_strings[] = { "0", "0", "-23", "23", "-12340", "1000", "-1000"}; for (size_t i = 0; i < sizeof(test_values) / sizeof(double); ++i) { SerdNode* node = serd_new_integer(test_values[i]); const char* node_str = serd_node_string(node); assert(!strcmp(node_str, test_strings[i])); const size_t len = strlen(node_str); assert(serd_node_length(node) == len); const SerdNode* const datatype = serd_node_datatype(node); assert(datatype); assert(!strcmp(serd_node_string(datatype), NS_XSD "integer")); assert(serd_get_integer(node) == test_values[i]); serd_node_free(node); } } static void check_get_integer(const char* string, const char* datatype_uri, const int64_t expected) { SerdNode* const node = serd_new_typed_literal(serd_string(string), serd_string(datatype_uri)); assert(node); assert(serd_get_integer(node) == expected); serd_node_free(node); } static void test_get_integer(void) { check_get_integer("12", NS_XSD "long", 12); check_get_integer("-34", NS_XSD "long", -34); check_get_integer("56", NS_XSD "integer", 56); check_get_integer("false", NS_XSD "boolean", 0); check_get_integer("true", NS_XSD "boolean", 1); check_get_integer("78.0", NS_XSD "decimal", 78); check_get_integer("unknown", NS_XSD "string", 0); check_get_integer("!invalid", NS_XSD "long", 0); } static void test_base64(void) { assert(!serd_new_base64(&SERD_URI_NULL, 0)); // Test valid base64 blobs with a range of sizes for (size_t size = 1; size < 256; ++size) { uint8_t* const data = (uint8_t*)malloc(size); for (size_t i = 0; i < size; ++i) { data[i] = (uint8_t)((size + i) % 256); } SerdNode* blob = serd_new_base64(data, size); const char* blob_str = serd_node_string(blob); const size_t max_size = serd_get_base64_size(blob); uint8_t* out = (uint8_t*)calloc(1, max_size); const SerdWriteResult r = serd_get_base64(blob, max_size, out); assert(r.status == SERD_SUCCESS); assert(r.count == size); assert(r.count <= max_size); assert(serd_node_length(blob) == strlen(blob_str)); for (size_t i = 0; i < size; ++i) { assert(out[i] == data[i]); } const SerdNode* const datatype = serd_node_datatype(blob); assert(datatype); assert(!strcmp(serd_node_string(datatype), NS_XSD "base64Binary")); serd_node_free(blob); serd_free(out); free(data); } } static void check_get_base64(const char* string, const char* datatype_uri, const char* expected) { SerdNode* const node = serd_new_typed_literal(serd_string(string), serd_string(datatype_uri)); assert(node); const size_t max_size = serd_get_base64_size(node); char* const decoded = (char*)calloc(1, max_size + 1); const SerdWriteResult r = serd_get_base64(node, max_size, decoded); assert(!r.status); assert(r.count <= max_size); assert(!strcmp(decoded, expected)); assert(strlen(decoded) <= max_size); free(decoded); serd_node_free(node); } static void test_get_base64(void) { check_get_base64("Zm9vYmFy", NS_XSD "base64Binary", "foobar"); check_get_base64("Zm9vYg==", NS_XSD "base64Binary", "foob"); check_get_base64(" \f\n\r\t\vZm9v \f\n\r\t\v", NS_XSD "base64Binary", "foo"); SerdNode* const node = serd_new_typed_literal( serd_string("Zm9v"), serd_string(NS_XSD "base64Binary")); char small[2] = {0}; const SerdWriteResult r = serd_get_base64(node, sizeof(small), small); assert(r.status == SERD_OVERFLOW); serd_node_free(node); } static void test_node_equals(void) { static const uint8_t replacement_char_str[] = {0xEF, 0xBF, 0xBD, 0}; static const SerdStringView replacement_char = { (const char*)replacement_char_str, 3}; SerdNode* lhs = serd_new_string(replacement_char); SerdNode* rhs = serd_new_string(serd_string("123")); assert(serd_node_equals(lhs, lhs)); assert(!serd_node_equals(lhs, rhs)); SerdNode* const qnode = serd_new_curie(serd_string("foo:bar")); assert(!serd_node_equals(lhs, qnode)); serd_node_free(qnode); assert(!serd_node_copy(NULL)); serd_node_free(lhs); serd_node_free(rhs); } static void test_node_from_string(void) { SerdNode* const hello = serd_new_string(serd_string("hello\"")); assert(serd_node_length(hello) == 6); assert(serd_node_flags(hello) == SERD_HAS_QUOTE); assert(!strncmp(serd_node_string(hello), "hello\"", 6)); assert(!strcmp(serd_node_string_view(hello).data, "hello\"")); assert(serd_node_string_view(hello).length == 6); serd_node_free(hello); SerdNode* const uri = serd_new_uri(serd_string("http://example.org/")); assert(serd_node_length(uri) == 19); assert(!strcmp(serd_node_string(uri), "http://example.org/")); assert(serd_node_uri_view(uri).authority.length == 11); assert(!strncmp(serd_node_uri_view(uri).authority.data, "example.org", 11)); serd_node_free(uri); } static void test_node_from_substring(void) { SerdNode* const a_b = serd_new_string(serd_substring("a\"bc", 3)); assert(serd_node_length(a_b) == 3); assert(serd_node_flags(a_b) == SERD_HAS_QUOTE); assert(strlen(serd_node_string(a_b)) == 3); assert(!strncmp(serd_node_string(a_b), "a\"b", 3)); serd_node_free(a_b); } static void check_copy_equals(const SerdNode* const node) { SerdNode* const copy = serd_node_copy(node); assert(serd_node_equals(node, copy)); serd_node_free(copy); } static void test_literal(void) { SerdNode* hello2 = serd_new_string(serd_string("hello\"")); assert(serd_node_length(hello2) == 6 && serd_node_flags(hello2) == SERD_HAS_QUOTE && !strcmp(serd_node_string(hello2), "hello\"")); check_copy_equals(hello2); SerdNode* hello3 = serd_new_plain_literal(serd_string("hello\""), serd_empty_string()); assert(serd_node_equals(hello2, hello3)); SerdNode* hello4 = serd_new_typed_literal(serd_string("hello\""), serd_empty_string()); assert(!serd_new_typed_literal(serd_string("plain"), serd_string(NS_RDF "langString"))); assert(serd_node_equals(hello4, hello2)); serd_node_free(hello4); serd_node_free(hello3); serd_node_free(hello2); const char* lang_lit_str = "\"Hello\"@en"; SerdNode* sliced_lang_lit = serd_new_plain_literal( serd_substring(lang_lit_str + 1, 5), serd_substring(lang_lit_str + 8, 2)); assert(!strcmp(serd_node_string(sliced_lang_lit), "Hello")); const SerdNode* const lang = serd_node_language(sliced_lang_lit); assert(lang); assert(!strcmp(serd_node_string(lang), "en")); check_copy_equals(sliced_lang_lit); serd_node_free(sliced_lang_lit); const char* type_lit_str = "\"Hallo\"^^"; SerdNode* sliced_type_lit = serd_new_typed_literal( serd_substring(type_lit_str + 1, 5), serd_substring(type_lit_str + 10, 27)); assert(!strcmp(serd_node_string(sliced_type_lit), "Hallo")); const SerdNode* const datatype = serd_node_datatype(sliced_type_lit); assert(datatype); assert(!strcmp(serd_node_string(datatype), "http://example.org/Greeting")); serd_node_free(sliced_type_lit); SerdNode* const plain_lit = serd_new_plain_literal(serd_string("Plain"), serd_empty_string()); assert(!strcmp(serd_node_string(plain_lit), "Plain")); serd_node_free(plain_lit); } static void test_blank(void) { SerdNode* blank = serd_new_blank(serd_string("b0")); assert(serd_node_length(blank) == 2); assert(serd_node_flags(blank) == 0); assert(!strcmp(serd_node_string(blank), "b0")); serd_node_free(blank); } static void test_compare(void) { SerdNode* xsd_short = serd_new_uri(serd_string("http://www.w3.org/2001/XMLSchema#short")); SerdNode* angst = serd_new_plain_literal(serd_string("angst"), serd_empty_string()); SerdNode* angst_de = serd_new_plain_literal(serd_string("angst"), serd_string("de")); SerdNode* angst_en = serd_new_plain_literal(serd_string("angst"), serd_string("en")); SerdNode* hallo = serd_new_plain_literal(serd_string("Hallo"), serd_string("de")); SerdNode* hello = serd_new_string(serd_string("Hello")); SerdNode* universe = serd_new_string(serd_string("Universe")); SerdNode* integer = serd_new_integer(4); SerdNode* blank = serd_new_blank(serd_string("b1")); SerdNode* uri = serd_new_uri(serd_string("http://example.org/")); SerdNode* aardvark = serd_new_typed_literal( serd_string("alex"), serd_string("http://example.org/Aardvark")); SerdNode* badger = serd_new_typed_literal( serd_string("bobby"), serd_string("http://example.org/Badger")); // Types are ordered according to their SerdNodeType (more or less arbitrary) assert(serd_node_compare(hello, uri) < 0); assert(serd_node_compare(uri, blank) < 0); // If the types are the same, then strings are compared assert(serd_node_compare(hello, universe) < 0); // If literal strings are the same, languages or datatypes are compared assert(serd_node_compare(angst, angst_de) < 0); assert(serd_node_compare(angst_de, angst_en) < 0); assert(serd_node_compare(aardvark, badger) < 0); serd_node_free(uri); serd_node_free(blank); serd_node_free(integer); serd_node_free(badger); serd_node_free(aardvark); serd_node_free(universe); serd_node_free(hello); serd_node_free(hallo); serd_node_free(angst_en); serd_node_free(angst_de); serd_node_free(angst); serd_node_free(xsd_short); } int main(void) { test_boolean(); test_get_boolean(); test_decimal(); test_double(); test_get_double(); test_float(); test_get_float(); test_integer(); test_get_integer(); test_base64(); test_get_base64(); test_node_equals(); test_node_from_string(); test_node_from_substring(); test_literal(); test_blank(); test_compare(); printf("Success\n"); return 0; }