#include "common.hpp" TEST(parse_pi_skip) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_declaration}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags)); CHECK(!doc.first_child()); CHECK(doc.load(STR(" value?>"), flags)); CHECK(!doc.first_child()); } } TEST(parse_pi_parse) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_pi)); xml_node pi1 = doc.first_child(); xml_node pi2 = doc.last_child(); CHECK(pi1 != pi2); CHECK(pi1.type() == node_pi); CHECK_STRING(pi1.name(), STR("pi1")); CHECK_STRING(pi1.value(), STR("")); CHECK(pi2.type() == node_pi); CHECK_STRING(pi2.name(), STR("pi2")); CHECK_STRING(pi2.value(), STR("value")); } TEST(parse_pi_parse_spaces) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_pi)); xml_node pi = doc.first_child(); CHECK(pi.type() == node_pi); CHECK_STRING(pi.name(), STR("target")); CHECK_STRING(pi.value(), STR("value ")); } TEST(parse_pi_error) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_pi}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags).status == status_bad_pi); CHECK(doc.load(STR(""), flags).status == status_bad_pi); CHECK(doc.load(STR(""), flags).status == status_bad_pi); CHECK(doc.load(STR(""), flags).status == status_bad_pi); CHECK(doc.load(STR(" "), flags).status == status_bad_pi); CHECK(doc.load(STR(""), parse_minimal | parse_pi).status == status_bad_pi); CHECK(doc.load(STR(""), parse_minimal | parse_pi).status == status_bad_pi); CHECK(doc.load(STR(""), parse_minimal | parse_pi).status == status_bad_pi); } TEST(parse_comments_skip) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK(!doc.first_child()); } TEST(parse_comments_parse) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_comments)); xml_node c1 = doc.first_child(); xml_node c2 = doc.last_child(); CHECK(c1 != c2); CHECK(c1.type() == node_comment); CHECK_STRING(c1.name(), STR("")); CHECK_STRING(c1.value(), STR("")); CHECK(c2.type() == node_comment); CHECK_STRING(c2.name(), STR("")); CHECK_STRING(c2.value(), STR("value")); } TEST(parse_comments_parse_no_eol) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_comments)); xml_node c = doc.first_child(); CHECK(c.type() == node_comment); CHECK_STRING(c.value(), STR("\r\rval1\rval2\r\nval3\nval4\r\r")); } TEST(parse_comments_parse_eol) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_comments | parse_eol)); xml_node c = doc.first_child(); CHECK(c.type() == node_comment); CHECK_STRING(c.value(), STR("\n\nval1\nval2\nval3\nval4\n\n")); } TEST(parse_comments_error) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_comments, parse_minimal | parse_comments | parse_eol}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags).status == status_bad_comment); CHECK(doc.load(STR(""), flags).status == status_bad_comment); CHECK(doc.load(STR(""), flags).status == status_bad_comment); } } TEST(parse_cdata_skip) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK(!doc.first_child()); } TEST(parse_cdata_skip_contents) { xml_document doc; CHECK(doc.load(STR("hello, world!"), parse_minimal)); CHECK_NODE(doc, STR("hello, world!")); } TEST(parse_cdata_parse) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_cdata)); xml_node c1 = doc.first_child(); xml_node c2 = doc.last_child(); CHECK(c1 != c2); CHECK(c1.type() == node_cdata); CHECK_STRING(c1.name(), STR("")); CHECK_STRING(c1.value(), STR("")); CHECK(c2.type() == node_cdata); CHECK_STRING(c2.name(), STR("")); CHECK_STRING(c2.value(), STR("value")); } TEST(parse_cdata_parse_no_eol) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_cdata)); xml_node c = doc.first_child(); CHECK(c.type() == node_cdata); CHECK_STRING(c.value(), STR("\r\rval1\rval2\r\nval3\nval4\r\r")); } TEST(parse_cdata_parse_eol) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_cdata | parse_eol)); xml_node c = doc.first_child(); CHECK(c.type() == node_cdata); CHECK_STRING(c.value(), STR("\n\nval1\nval2\nval3\nval4\n\n")); } TEST(parse_cdata_error) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_cdata, parse_minimal | parse_cdata | parse_eol}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags).status == status_bad_cdata); CHECK(doc.load(STR(""), flags).status == status_bad_cdata); } } TEST(parse_ws_pcdata_skip) { xml_document doc; CHECK(doc.load(STR(" "), parse_minimal)); CHECK(!doc.first_child()); CHECK(doc.load(STR(" "), parse_minimal)); xml_node root = doc.child(STR("root")); CHECK(root.first_child() == root.last_child()); CHECK(!root.first_child().first_child()); } TEST(parse_ws_pcdata_parse) { xml_document doc; CHECK(doc.load(STR(" "), parse_minimal | parse_ws_pcdata)); xml_node root = doc.child(STR("root")); xml_node c1 = root.first_child(); xml_node c2 = c1.next_sibling(); xml_node c3 = c2.next_sibling(); CHECK(c3 == root.last_child()); CHECK(c1.type() == node_pcdata); CHECK_STRING(c1.value(), STR(" ")); CHECK(c3.type() == node_pcdata); CHECK_STRING(c3.value(), STR(" ")); CHECK(c2.first_child() == c2.last_child()); CHECK(c2.first_child().type() == node_pcdata); CHECK_STRING(c2.first_child().value(), STR(" ")); } static int get_tree_node_count(xml_node n) { int result = 1; for (xml_node c = n.first_child(); c; c = c.next_sibling()) result += get_tree_node_count(c); return result; } TEST(parse_ws_pcdata_permutations) { struct test_data_t { unsigned int mask; // 1 = default flags, 2 = parse_ws_pcdata, 4 = parse_ws_pcdata_single const pugi::char_t* source; const pugi::char_t* result; int nodes; // negative if parsing should fail }; test_data_t test_data[] = { // external pcdata should be discarded (whitespace or not) {7, STR("ext1"), STR(""), 1}, {7, STR(" "), STR(""), 1}, {7, STR("ext1"), STR(""), 2}, {7, STR("ext1ext2"), STR(""), 2}, {7, STR(" "), STR(""), 2}, {7, STR(" "), STR(""), 2}, {7, STR(" "), STR(""), 2}, // inner pcdata should be preserved {7, STR("inner"), STR("inner"), 3}, {7, STR("inner1inner2"), STR("inner1inner2"), 5}, {7, STR("inner1deepinner2"), STR("inner1deepinner2"), 6}, // empty pcdata nodes should never be created {7, STR("inner1inner2"), STR("inner1inner2"), 5}, {7, STR("inner2"), STR("inner2"), 4}, {7, STR("inner1"), STR("inner1"), 4}, {7, STR(""), STR(""), 3}, // comments, pi or other nodes should not cause pcdata creation either {7, STR(""), STR(""), 4}, // leading/trailing pcdata whitespace should be preserved (note: this will change if parse_ws_pcdata_trim is introduced) {7, STR("\t \tinner1 deep \t\ninner2\n\t"), STR("\t \tinner1 deep \t\ninner2\n\t"), 6}, // whitespace-only pcdata preservation depends on the parsing mode {1, STR("\n\t \n\t \n\t\n\t"), STR(""), 5}, {2, STR("\n\t \n\t \n\t\n\t"), STR("\n\t \n\t \n\t\n\t"), 13}, {4, STR("\n\t \n\t \n\t\n\t"), STR(" "), 7}, // current implementation of parse_ws_pcdata_single has an unfortunate bug; reproduce it here {4, STR("\t\t\n\n"), STR("\n\n"), 3}, // error case: terminate PCDATA in the middle {7, STR("abcdef"), STR("abcde"), -3}, {7, STR(" "), STR(" "), -3}, // error case: terminate PCDATA as early as possible {7, STR(""), STR(""), -2}, {7, STR("a"), STR(""), -2}, {7, STR(" "), STR(""), -2}, }; for (size_t i = 0; i < sizeof(test_data) / sizeof(test_data[0]); ++i) { const test_data_t& td = test_data[i]; for (int flag = 0; flag < 3; ++flag) { if (td.mask & (1 << flag)) { unsigned int flags[] = {parse_default, parse_default | parse_ws_pcdata, parse_default | parse_ws_pcdata_single}; xml_document doc; CHECK((td.nodes > 0) == doc.load(td.source, flags[flag])); CHECK_NODE(doc, td.result); int nodes = get_tree_node_count(doc); CHECK((td.nodes < 0 ? -td.nodes : td.nodes) == nodes); } } } } TEST(parse_pcdata_no_eol) { xml_document doc; CHECK(doc.load(STR("\r\rval1\rval2\r\nval3\nval4\r\r"), parse_minimal)); CHECK_STRING(doc.child_value(STR("root")), STR("\r\rval1\rval2\r\nval3\nval4\r\r")); } TEST(parse_pcdata_eol) { xml_document doc; CHECK(doc.load(STR("\r\rval1\rval2\r\nval3\nval4\r\r"), parse_minimal | parse_eol)); CHECK_STRING(doc.child_value(STR("root")), STR("\n\nval1\nval2\nval3\nval4\n\n")); } TEST(parse_pcdata_skip_ext) { xml_document doc; CHECK(doc.load(STR("prepost"), parse_minimal)); CHECK(doc.first_child() == doc.last_child()); CHECK(doc.first_child().type() == node_element); } TEST(parse_pcdata_error) { xml_document doc; CHECK(doc.load(STR("pcdata"), parse_minimal).status == status_end_element_mismatch); } TEST(parse_escapes_skip) { xml_document doc; CHECK(doc.load(STR("<>&'""), parse_minimal)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR("<>&'"")); } TEST(parse_escapes_parse) { xml_document doc; CHECK(doc.load(STR("<>&'""), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("<>&'\"")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR("<>&'\"")); } TEST(parse_escapes_code) { xml_document doc; CHECK(doc.load(STR(" "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("\01 ")); } TEST(parse_escapes_code_exhaustive_dec) { xml_document doc; CHECK(doc.load(STR("&#/; &#:;&#a;&#A; "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&#/;\x1\x2\x3\x4\x5\x6\x7\x8\x9&#:;&#a;&#A; ")); } TEST(parse_escapes_code_exhaustive_hex) { xml_document doc; CHECK(doc.load(STR("&#x/; &#x:;&#x@; &#xG;&#x`; &#xg;"), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&#x/;\x1\x2\x3\x4\x5\x6\x7\x8\x9&#x:;&#x@;\xa\xb\xc\xd\xe\xf&#xG;&#x`;\xa\xb\xc\xd\xe\xf&#xg;")); } TEST(parse_escapes_code_restore) { xml_document doc; CHECK(doc.load(STR(" - - "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR(" - - ")); } TEST(parse_escapes_char_restore) { xml_document doc; CHECK(doc.load(STR("&q &qu &quo " "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&q &qu &quo " ")); CHECK(doc.load(STR("&a &ap &apo &apos "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&a &ap &apo &apos ")); CHECK(doc.load(STR("&a &am & "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&a &am & ")); CHECK(doc.load(STR("&l < "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&l < ")); CHECK(doc.load(STR("&g > "), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&g > ")); } TEST(parse_escapes_unicode) { xml_document doc; CHECK(doc.load(STR("γγ𤭢"), parse_minimal | parse_escapes)); #ifdef PUGIXML_WCHAR_MODE const pugi::char_t* v = doc.child_value(STR("node")); size_t wcharsize = sizeof(wchar_t); CHECK(v[0] == 0x3b3 && v[1] == 0x3b3 && (wcharsize == 2 ? v[2] == wchar_cast(0xd852) && v[3] == wchar_cast(0xdf62) : v[2] == wchar_cast(0x24b62))); #else CHECK_STRING(doc.child_value(STR("node")), "\xce\xb3\xce\xb3\xf0\xa4\xad\xa2"); #endif } TEST(parse_escapes_error) { xml_document doc; CHECK(doc.load(STR("g;&#ab;""), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("g;&#ab;"")); CHECK(!doc.load(STR("&#;&#x;&;&#x-;&#-;"), parse_minimal | parse_escapes)); CHECK_STRING(doc.child_value(STR("node")), STR("&#;&#x;&;&#x-;&#-;")); } TEST(parse_escapes_attribute) { xml_document doc; for (int wnorm = 0; wnorm < 2; ++wnorm) for (int eol = 0; eol < 2; ++eol) for (int wconv = 0; wconv < 2; ++wconv) { unsigned int flags = parse_escapes; flags |= (wnorm ? parse_wnorm_attribute : 0); flags |= (eol ? parse_eol : 0); flags |= (wconv ? parse_wconv_attribute : 0); CHECK(doc.load(STR(""), flags)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR("\"")); } } TEST(parse_attribute_spaces) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id1")).value(), STR("v1")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id2")).value(), STR("v2")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id3")).value(), STR("v3")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id4")).value(), STR("v4")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id5")).value(), STR("v5")); } TEST(parse_attribute_quot) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id1")).value(), STR("v1")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id2")).value(), STR("v2")); } TEST(parse_attribute_no_eol_no_wconv) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR(" \t\r\rval1 \rval2\r\nval3\nval4\r\r")); } TEST(parse_attribute_eol_no_wconv) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_eol)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR(" \t\n\nval1 \nval2\nval3\nval4\n\n")); } TEST(parse_attribute_no_eol_wconv) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_wconv_attribute)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR(" val1 val2 val3 val4 ")); } TEST(parse_attribute_eol_wconv) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_eol | parse_wconv_attribute)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR(" val1 val2 val3 val4 ")); } TEST(parse_attribute_wnorm) { xml_document doc; for (int eol = 0; eol < 2; ++eol) for (int wconv = 0; wconv < 2; ++wconv) { unsigned int flags = parse_minimal | parse_wnorm_attribute | (eol ? parse_eol : 0) | (wconv ? parse_wconv_attribute : 0); CHECK(doc.load(STR(""), flags)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR("val1 val2 val3 val4")); } } TEST(parse_attribute_variations) { xml_document doc; for (int wnorm = 0; wnorm < 2; ++wnorm) for (int eol = 0; eol < 2; ++eol) for (int wconv = 0; wconv < 2; ++wconv) for (int escapes = 0; escapes < 2; ++escapes) { unsigned int flags = parse_minimal; flags |= (wnorm ? parse_wnorm_attribute : 0); flags |= (eol ? parse_eol : 0); flags |= (wconv ? parse_wconv_attribute : 0); flags |= (escapes ? parse_escapes : 0); CHECK(doc.load(STR(""), flags)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id")).value(), STR("1")); } } TEST(parse_attribute_error) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); } TEST(parse_attribute_termination_error) { xml_document doc; for (int wnorm = 0; wnorm < 2; ++wnorm) for (int eol = 0; eol < 2; ++eol) for (int wconv = 0; wconv < 2; ++wconv) { unsigned int flags = parse_minimal; flags |= (wnorm ? parse_wnorm_attribute : 0); flags |= (eol ? parse_eol : 0); flags |= (wconv ? parse_wconv_attribute : 0); CHECK(doc.load(STR(""), flags)); CHECK_STRING(doc.child(STR("node")).attribute(STR("id1")).value(), STR("\"")); CHECK_STRING(doc.child(STR("node")).attribute(STR("id2")).value(), STR("'")); } } TEST(parse_tag_single) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK_NODE(doc, STR("")); } TEST(parse_tag_hierarchy) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal)); CHECK_NODE(doc, STR("")); } TEST(parse_tag_error) { xml_document doc; CHECK(doc.load(STR("<"), parse_minimal).status == status_unrecognized_tag); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR("<"), parse_minimal).status == status_unrecognized_tag); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_end_element_mismatch); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_end_element); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); CHECK(doc.load(STR(""), parse_minimal).status == status_bad_start_element); } TEST(parse_declaration_cases) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_pi)); CHECK(!doc.first_child()); } TEST(parse_declaration_attr_cases) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_pi)); CHECK(!doc.first_child()); } TEST(parse_declaration_skip) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_pi}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags)); CHECK(!doc.first_child()); CHECK(doc.load(STR(" ?>"), flags)); CHECK(!doc.first_child()); } } TEST(parse_declaration_parse) { xml_document doc; CHECK(doc.load(STR(""), parse_minimal | parse_declaration)); xml_node d1 = doc.first_child(); xml_node d2 = doc.last_child(); CHECK(d1 != d2); CHECK(d1.type() == node_declaration); CHECK_STRING(d1.name(), STR("xml")); CHECK(d2.type() == node_declaration); CHECK_STRING(d2.name(), STR("xml")); CHECK_STRING(d2.attribute(STR("version")).value(), STR("1.0")); } TEST(parse_declaration_error) { xml_document doc; unsigned int flag_sets[] = {parse_minimal, parse_minimal | parse_declaration}; for (unsigned int i = 0; i < sizeof(flag_sets) / sizeof(flag_sets[0]); ++i) { unsigned int flags = flag_sets[i]; CHECK(doc.load(STR(""), flags).status == status_bad_pi); CHECK(doc.load(STR(""), flags).status == status_bad_pi); } CHECK(doc.load(STR(""), parse_minimal | parse_declaration).status == status_bad_attribute); CHECK(doc.load(STR(""), parse_minimal | parse_declaration).status == status_bad_pi); } TEST(parse_empty) { xml_document doc; CHECK(doc.load(STR("")) && !doc.first_child()); } TEST(parse_out_of_memory) { test_runner::_memory_fail_threshold = 256; xml_document doc; CHECK(doc.load(STR("")).status == status_out_of_memory); CHECK(!doc.first_child()); } TEST(parse_out_of_memory_halfway) { const unsigned int count = 10000; static char_t text[count * 4]; for (unsigned int i = 0; i < count; ++i) { text[4*i + 0] = '<'; text[4*i + 1] = 'n'; text[4*i + 2] = '/'; text[4*i + 3] = '>'; } test_runner::_memory_fail_threshold = 65536; xml_document doc; CHECK(doc.load_buffer_inplace(text, count * 4).status == status_out_of_memory); CHECK_NODE(doc.first_child(), STR("")); } static bool test_offset(const char_t* contents, unsigned int options, pugi::xml_parse_status status, ptrdiff_t offset) { xml_document doc; xml_parse_result res = doc.load(contents, options); return res.status == status && res.offset == offset; } #define CHECK_OFFSET(contents, options, status, offset) CHECK(test_offset(STR(contents), options, status, offset)) TEST(parse_error_offset) { CHECK_OFFSET("", parse_default, status_ok, 0); test_runner::_memory_fail_threshold = 1; CHECK_OFFSET("", parse_default, status_out_of_memory, 0); test_runner::_memory_fail_threshold = 0; CHECK_OFFSET("<3d/>", parse_default, status_unrecognized_tag, 1); CHECK_OFFSET(" <3d/>", parse_default, status_unrecognized_tag, 2); CHECK_OFFSET(" <", parse_default, status_unrecognized_tag, 2); CHECK_OFFSET("", parse_default, status_bad_start_element, 5); CHECK_OFFSET("", parse_default, status_bad_attribute, 8); CHECK_OFFSET("