#include "common.hpp" #include "writer_string.hpp" #include <string> #include <sstream> #include <stdexcept> TEST_XML(write_simple, "<node attr='1'><child>text</child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\">\n<child>text</child>\n</node>\n"), STR(""), 0); } TEST_XML(write_raw, "<node attr='1'><child>text</child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\"><child>text</child></node>"), STR(""), format_raw); } TEST_XML(write_indent, "<node attr='1'><child><sub>text</sub></child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\">\n\t<child>\n\t\t<sub>text</sub>\n\t</child>\n</node>\n"), STR("\t"), format_indent); } TEST_XML(write_indent_attributes, "<node attr='1' other='2'><child><sub>text</sub></child></node>") { CHECK_NODE_EX(doc, STR("<node\n\tattr=\"1\"\n\tother=\"2\">\n\t<child>\n\t\t<sub>text</sub>\n\t</child>\n</node>\n"), STR("\t"), format_indent_attributes); } TEST_XML(write_indent_attributes_empty_element, "<node attr='1' other='2' />") { CHECK_NODE_EX(doc, STR("<node\n\tattr=\"1\"\n\tother=\"2\" />\n"), STR("\t"), format_indent_attributes); } TEST_XML_FLAGS(write_indent_attributes_declaration, "<?xml version=\"1.0\" encoding=\"UTF-8\"?><node attr='1' other='2' />", parse_full) { CHECK_NODE_EX(doc, STR("<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n<node\n\tattr=\"1\"\n\tother=\"2\" />\n"), STR("\t"), format_indent_attributes); } TEST_XML(write_indent_attributes_raw, "<node attr='1' other='2'><child><sub>text</sub></child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\" other=\"2\"><child><sub>text</sub></child></node>"), STR("\t"), format_indent_attributes | format_raw); } TEST_XML(write_indent_attributes_empty_indent, "<node attr='1' other='2'><child><sub>text</sub></child></node>") { CHECK_NODE_EX(doc, STR("<node\nattr=\"1\"\nother=\"2\">\n<child>\n<sub>text</sub>\n</child>\n</node>\n"), STR(""), format_indent_attributes); } TEST_XML(write_pcdata, "<node attr='1'><child><sub/>text</child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\">\n\t<child>\n\t\t<sub />text</child>\n</node>\n"), STR("\t"), format_indent); } TEST_XML_FLAGS(write_cdata, "<![CDATA[value]]>", parse_cdata | parse_fragment) { CHECK_NODE(doc, STR("<![CDATA[value]]>")); CHECK_NODE_EX(doc, STR("<![CDATA[value]]>"), STR(""), 0); } TEST_XML_FLAGS(write_cdata_empty, "<![CDATA[]]>", parse_cdata | parse_fragment) { CHECK_NODE(doc, STR("<![CDATA[]]>")); CHECK_NODE_EX(doc, STR("<![CDATA[]]>"), STR(""), 0); } TEST_XML_FLAGS(write_cdata_escape, "<![CDATA[value]]>", parse_cdata | parse_fragment) { CHECK_NODE(doc, STR("<![CDATA[value]]>")); doc.first_child().set_value(STR("1]]>2]]>3")); CHECK_NODE(doc, STR("<![CDATA[1]]]]><![CDATA[>2]]]]><![CDATA[>3]]>")); doc.first_child().set_value(STR("1]")); CHECK_NODE(doc, STR("<![CDATA[1]]]>")); doc.first_child().set_value(STR("1]]")); CHECK_NODE(doc, STR("<![CDATA[1]]]]>")); } TEST_XML(write_cdata_inner, "<node><![CDATA[value]]></node>") { CHECK_NODE(doc, STR("<node><![CDATA[value]]></node>")); CHECK_NODE_EX(doc, STR("<node><![CDATA[value]]></node>\n"), STR(""), 0); } TEST(write_cdata_null) { xml_document doc; doc.append_child(node_cdata); doc.append_child(STR("node")).append_child(node_cdata); CHECK_NODE(doc, STR("<![CDATA[]]><node><![CDATA[]]></node>")); } TEST_XML_FLAGS(write_comment, "<!--text-->", parse_comments | parse_fragment) { CHECK_NODE(doc, STR("<!--text-->")); CHECK_NODE_EX(doc, STR("<!--text-->\n"), STR(""), 0); } TEST(write_comment_invalid) { xml_document doc; xml_node child = doc.append_child(node_comment); CHECK_NODE(doc, STR("<!---->")); child.set_value(STR("-")); CHECK_NODE(doc, STR("<!--- -->")); child.set_value(STR("--")); CHECK_NODE(doc, STR("<!--- - -->")); child.set_value(STR("---")); CHECK_NODE(doc, STR("<!--- - - -->")); child.set_value(STR("-->")); CHECK_NODE(doc, STR("<!--- ->-->")); child.set_value(STR("-->-")); CHECK_NODE(doc, STR("<!--- ->- -->")); } TEST(write_comment_null) { xml_document doc; doc.append_child(node_comment); CHECK_NODE(doc, STR("<!---->")); } TEST_XML_FLAGS(write_pi, "<?name value?>", parse_pi | parse_fragment) { CHECK_NODE(doc, STR("<?name value?>")); CHECK_NODE_EX(doc, STR("<?name value?>\n"), STR(""), 0); } TEST(write_pi_null) { xml_document doc; xml_node node = doc.append_child(node_pi); CHECK_NODE(doc, STR("<?:anonymous?>")); node.set_value(STR("value")); CHECK_NODE(doc, STR("<?:anonymous value?>")); } TEST(write_pi_invalid) { xml_document doc; xml_node node = doc.append_child(node_pi); node.set_name(STR("test")); node.set_value(STR("?")); CHECK_NODE(doc, STR("<?test ?") STR("?>")); node.set_value(STR("?>")); CHECK_NODE(doc, STR("<?test ? >?>")); node.set_value(STR("<?foo?>")); CHECK_NODE(doc, STR("<?test <?foo? >?>")); } TEST_XML_FLAGS(write_declaration, "<?xml version='2.0'?>", parse_declaration | parse_fragment) { CHECK_NODE(doc, STR("<?xml version=\"2.0\"?>")); CHECK_NODE_EX(doc, STR("<?xml version=\"2.0\"?>\n"), STR(""), 0); } TEST_XML_FLAGS(write_doctype, "<!DOCTYPE id [ foo ]>", parse_doctype | parse_fragment) { CHECK_NODE(doc, STR("<!DOCTYPE id [ foo ]>")); CHECK_NODE_EX(doc, STR("<!DOCTYPE id [ foo ]>\n"), STR(""), 0); } TEST(write_doctype_null) { xml_document doc; doc.append_child(node_doctype); CHECK_NODE(doc, STR("<!DOCTYPE>")); } TEST_XML(write_escape, "<node attr=''>text</node>") { doc.child(STR("node")).attribute(STR("attr")) = STR("<>'\"&\x04\r\n\t"); doc.child(STR("node")).first_child().set_value(STR("<>'\"&\x04\r\n\t")); CHECK_NODE(doc, STR("<node attr=\"<>'"& \t\"><>'\"&\r\n\t</node>")); } TEST_XML(write_escape_unicode, "<node attr='㰀'/>") { #ifdef PUGIXML_WCHAR_MODE #ifdef U_LITERALS CHECK_NODE(doc, STR("<node attr=\"\u3c00\"/>")); #else CHECK_NODE(doc, STR("<node attr=\"\x3c00\"/>")); #endif #else CHECK_NODE(doc, STR("<node attr=\"\xe3\xb0\x80\"/>")); #endif } TEST_XML(write_no_escapes, "<node attr=''>text</node>") { doc.child(STR("node")).attribute(STR("attr")) = STR("<>'\"&\x04\r\n\t"); doc.child(STR("node")).first_child().set_value(STR("<>'\"&\x04\r\n\t")); CHECK_NODE_EX(doc, STR("<node attr=\"<>'\"&\x04\r\n\t\"><>'\"&\x04\r\n\t</node>"), STR(""), format_raw | format_no_escapes); } struct test_writer: xml_writer { std::basic_string<pugi::char_t> contents; virtual void write(const void* data, size_t size) PUGIXML_OVERRIDE { CHECK(size % sizeof(pugi::char_t) == 0); contents.append(static_cast<const pugi::char_t*>(data), size / sizeof(pugi::char_t)); } }; TEST_XML(write_print_writer, "<node/>") { test_writer writer; doc.print(writer, STR(""), format_default, get_native_encoding()); CHECK(writer.contents == STR("<node />\n")); } #ifndef PUGIXML_NO_STL TEST_XML(write_print_stream, "<node/>") { std::ostringstream oss; doc.print(oss, STR(""), format_default, encoding_utf8); CHECK(oss.str() == "<node />\n"); } TEST_XML(write_print_stream_encode, "<n/>") { std::ostringstream oss; doc.print(oss, STR(""), format_default, encoding_utf16_be); CHECK(oss.str() == std::string("\x00<\x00n\x00 \x00/\x00>\x00\n", 12)); } TEST_XML(write_print_stream_wide, "<node/>") { std::basic_ostringstream<wchar_t> oss; doc.print(oss, STR(""), format_default, encoding_utf8); CHECK(oss.str() == L"<node />\n"); } #endif TEST_XML(write_huge_chunk, "<node/>") { std::basic_string<pugi::char_t> name(10000, STR('n')); doc.child(STR("node")).set_name(name.c_str()); test_writer writer; doc.print(writer, STR(""), format_default, get_native_encoding()); CHECK(writer.contents == STR("<") + name + STR(" />\n")); } TEST(write_encodings) { static char s_utf8[] = "<\x54\xC2\xA2\xE2\x82\xAC\xF0\xA4\xAD\xA2/>"; xml_document doc; CHECK(doc.load_buffer(s_utf8, sizeof(s_utf8), parse_default, encoding_utf8)); CHECK(write_narrow(doc, format_default, encoding_utf8) == "<\x54\xC2\xA2\xE2\x82\xAC\xF0\xA4\xAD\xA2 />\n"); CHECK(test_write_narrow(doc, format_default, encoding_utf32_le, "<\x00\x00\x00\x54\x00\x00\x00\xA2\x00\x00\x00\xAC\x20\x00\x00\x62\x4B\x02\x00 \x00\x00\x00/\x00\x00\x00>\x00\x00\x00\n\x00\x00\x00", 36)); CHECK(test_write_narrow(doc, format_default, encoding_utf32_be, "\x00\x00\x00<\x00\x00\x00\x54\x00\x00\x00\xA2\x00\x00\x20\xAC\x00\x02\x4B\x62\x00\x00\x00 \x00\x00\x00/\x00\x00\x00>\x00\x00\x00\n", 36)); CHECK(write_narrow(doc, format_default, encoding_utf32) == write_narrow(doc, format_default, is_little_endian() ? encoding_utf32_le : encoding_utf32_be)); CHECK(test_write_narrow(doc, format_default, encoding_utf16_le, "<\x00\x54\x00\xA2\x00\xAC\x20\x52\xd8\x62\xdf \x00/\x00>\x00\n\x00", 20)); CHECK(test_write_narrow(doc, format_default, encoding_utf16_be, "\x00<\x00\x54\x00\xA2\x20\xAC\xd8\x52\xdf\x62\x00 \x00/\x00>\x00\n", 20)); CHECK(write_narrow(doc, format_default, encoding_utf16) == write_narrow(doc, format_default, is_little_endian() ? encoding_utf16_le : encoding_utf16_be)); size_t wcharsize = sizeof(wchar_t); std::basic_string<wchar_t> v = write_wide(doc, format_default, encoding_wchar); if (wcharsize == 4) { CHECK(v.size() == 9 && v[0] == '<' && v[1] == 0x54 && v[2] == 0xA2 && v[3] == 0x20AC && v[4] == wchar_cast(0x24B62) && v[5] == ' ' && v[6] == '/' && v[7] == '>' && v[8] == '\n'); } else { CHECK(v.size() == 10 && v[0] == '<' && v[1] == 0x54 && v[2] == 0xA2 && v[3] == 0x20AC && v[4] == wchar_cast(0xd852) && v[5] == wchar_cast(0xdf62) && v[6] == ' ' && v[7] == '/' && v[8] == '>' && v[9] == '\n'); } CHECK(test_write_narrow(doc, format_default, encoding_latin1, "<\x54\xA2?? />\n", 9)); } #ifdef PUGIXML_WCHAR_MODE TEST(write_encoding_huge) { const unsigned int N = 16000; // make a large utf16 name consisting of 6-byte char pairs (6 does not divide internal buffer size, so will need split correction) std::string s_utf16 = std::string("\x00<", 2); for (unsigned int i = 0; i < N; ++i) s_utf16 += "\x20\xAC\xd8\x52\xdf\x62"; s_utf16 += std::string("\x00/\x00>", 4); xml_document doc; CHECK(doc.load_buffer(&s_utf16[0], s_utf16.length(), parse_default, encoding_utf16_be)); std::string s_utf8 = "<"; for (unsigned int j = 0; j < N; ++j) s_utf8 += "\xE2\x82\xAC\xF0\xA4\xAD\xA2"; s_utf8 += " />\n"; CHECK(test_write_narrow(doc, format_default, encoding_utf8, s_utf8.c_str(), s_utf8.length())); } TEST(write_encoding_huge_invalid) { size_t wcharsize = sizeof(wchar_t); if (wcharsize == 2) { const unsigned int N = 16000; // make a large utf16 name consisting of leading surrogate chars std::basic_string<wchar_t> s_utf16; for (unsigned int i = 0; i < N; ++i) s_utf16 += static_cast<wchar_t>(0xd852); xml_document doc; doc.append_child().set_name(s_utf16.c_str()); CHECK(test_write_narrow(doc, format_default, encoding_utf8, "< />\n", 5)); } } #else TEST(write_encoding_huge) { const unsigned int N = 16000; // make a large utf8 name consisting of 3-byte chars (3 does not divide internal buffer size, so will need split correction) std::string s_utf8 = "<"; for (unsigned int i = 0; i < N; ++i) s_utf8 += "\xE2\x82\xAC"; s_utf8 += "/>"; xml_document doc; CHECK(doc.load_buffer(&s_utf8[0], s_utf8.length(), parse_default, encoding_utf8)); std::string s_utf16 = std::string("\x00<", 2); for (unsigned int j = 0; j < N; ++j) s_utf16 += "\x20\xAC"; s_utf16 += std::string("\x00 \x00/\x00>\x00\n", 8); CHECK(test_write_narrow(doc, format_default, encoding_utf16_be, s_utf16.c_str(), s_utf16.length())); } TEST(write_encoding_huge_invalid) { const unsigned int N = 16000; // make a large utf8 name consisting of non-leading chars std::string s_utf8; for (unsigned int i = 0; i < N; ++i) s_utf8 += "\x82"; xml_document doc; doc.append_child().set_name(s_utf8.c_str()); std::string s_utf16 = std::string("\x00<\x00 \x00/\x00>\x00\n", 10); CHECK(test_write_narrow(doc, format_default, encoding_utf16_be, s_utf16.c_str(), s_utf16.length())); } #endif TEST(write_unicode_escape) { char s_utf8[] = "<\xE2\x82\xAC \xC2\xA2='\"\xF0\xA4\xAD\xA2
\"'>&\x14\xF0\xA4\xAD\xA2<</\xE2\x82\xAC>"; xml_document doc; CHECK(doc.load_buffer(s_utf8, sizeof(s_utf8), parse_default, encoding_utf8)); CHECK(write_narrow(doc, format_default, encoding_utf8) == "<\xE2\x82\xAC \xC2\xA2=\""\xF0\xA4\xAD\xA2 "\">&\xF0\xA4\xAD\xA2<</\xE2\x82\xAC>\n"); } #ifdef PUGIXML_WCHAR_MODE static bool test_write_unicode_invalid(const wchar_t* name, const char* expected) { xml_document doc; doc.append_child(node_pcdata).set_value(name); return write_narrow(doc, format_raw, encoding_utf8) == expected; } TEST(write_unicode_invalid_utf16) { size_t wcharsize = sizeof(wchar_t); if (wcharsize == 2) { // check non-terminated degenerate handling #ifdef U_LITERALS CHECK(test_write_unicode_invalid(L"a\uda1d", "a")); CHECK(test_write_unicode_invalid(L"a\uda1d_", "a_")); #else CHECK(test_write_unicode_invalid(L"a\xda1d", "a")); CHECK(test_write_unicode_invalid(L"a\xda1d_", "a_")); #endif // check incorrect leading code #ifdef U_LITERALS CHECK(test_write_unicode_invalid(L"a\ude24", "a")); CHECK(test_write_unicode_invalid(L"a\ude24_", "a_")); #else CHECK(test_write_unicode_invalid(L"a\xde24", "a")); CHECK(test_write_unicode_invalid(L"a\xde24_", "a_")); #endif } } #else static bool test_write_unicode_invalid(const char* name, const wchar_t* expected) { xml_document doc; doc.append_child(node_pcdata).set_value(name); return write_wide(doc, format_raw, encoding_wchar) == expected; } TEST(write_unicode_invalid_utf8) { // invalid 1-byte input CHECK(test_write_unicode_invalid("a\xb0", L"a")); CHECK(test_write_unicode_invalid("a\xb0_", L"a_")); // invalid 2-byte input CHECK(test_write_unicode_invalid("a\xc0", L"a")); CHECK(test_write_unicode_invalid("a\xd0", L"a")); CHECK(test_write_unicode_invalid("a\xc0_", L"a_")); CHECK(test_write_unicode_invalid("a\xd0_", L"a_")); // invalid 3-byte input CHECK(test_write_unicode_invalid("a\xe2\x80", L"a")); CHECK(test_write_unicode_invalid("a\xe2", L"a")); CHECK(test_write_unicode_invalid("a\xe2\x80_", L"a_")); CHECK(test_write_unicode_invalid("a\xe2_", L"a_")); // invalid 4-byte input CHECK(test_write_unicode_invalid("a\xf2\x97\x98", L"a")); CHECK(test_write_unicode_invalid("a\xf2\x97", L"a")); CHECK(test_write_unicode_invalid("a\xf2", L"a")); CHECK(test_write_unicode_invalid("a\xf2\x97\x98_", L"a_")); CHECK(test_write_unicode_invalid("a\xf2\x97_", L"a_")); CHECK(test_write_unicode_invalid("a\xf2_", L"a_")); // invalid 5-byte input CHECK(test_write_unicode_invalid("a\xf8_", L"a_")); } #endif TEST(write_no_name_element) { xml_document doc; xml_node root = doc.append_child(); root.append_child(); root.append_child().append_child(node_pcdata).set_value(STR("text")); CHECK_NODE(doc, STR("<:anonymous><:anonymous/><:anonymous>text</:anonymous></:anonymous>")); CHECK_NODE_EX(doc, STR("<:anonymous>\n\t<:anonymous />\n\t<:anonymous>text</:anonymous>\n</:anonymous>\n"), STR("\t"), format_default); } TEST(write_no_name_pi) { xml_document doc; doc.append_child(node_pi); CHECK_NODE(doc, STR("<?:anonymous?>")); } TEST(write_no_name_attribute) { xml_document doc; doc.append_child().set_name(STR("root")); doc.child(STR("root")).append_attribute(STR("")); CHECK_NODE(doc, STR("<root :anonymous=\"\"/>")); } TEST(write_print_empty) { test_writer writer; xml_node().print(writer); } #ifndef PUGIXML_NO_STL TEST(write_print_stream_empty) { std::ostringstream oss; xml_node().print(oss); } TEST(write_print_stream_empty_wide) { std::basic_ostringstream<wchar_t> oss; xml_node().print(oss); } #endif TEST(write_stackless) { unsigned int count = 20000; std::basic_string<pugi::char_t> data; for (unsigned int i = 0; i < count; ++i) data += STR("<a>"); data += STR("text"); for (unsigned int j = 0; j < count; ++j) data += STR("</a>"); xml_document doc; CHECK(doc.load_string(data.c_str())); CHECK_NODE(doc, data.c_str()); } TEST_XML(write_indent_custom, "<node attr='1'><child><sub>text</sub></child></node>") { CHECK_NODE_EX(doc, STR("<node attr=\"1\">\n<child>\n<sub>text</sub>\n</child>\n</node>\n"), STR(""), format_indent); CHECK_NODE_EX(doc, STR("<node attr=\"1\">\nA<child>\nAA<sub>text</sub>\nA</child>\n</node>\n"), STR("A"), format_indent); CHECK_NODE_EX(doc, STR("<node attr=\"1\">\nAB<child>\nABAB<sub>text</sub>\nAB</child>\n</node>\n"), STR("AB"), format_indent); CHECK_NODE_EX(doc, STR("<node attr=\"1\">\nABC<child>\nABCABC<sub>text</sub>\nABC</child>\n</node>\n"), STR("ABC"), format_indent); CHECK_NODE_EX(doc, STR("<node attr=\"1\">\nABCD<child>\nABCDABCD<sub>text</sub>\nABCD</child>\n</node>\n"), STR("ABCD"), format_indent); CHECK_NODE_EX(doc, STR("<node attr=\"1\">\nABCDE<child>\nABCDEABCDE<sub>text</sub>\nABCDE</child>\n</node>\n"), STR("ABCDE"), format_indent); } TEST(write_pcdata_null) { xml_document doc; doc.append_child(STR("node")).append_child(node_pcdata); CHECK_NODE(doc, STR("<node></node>")); CHECK_NODE_EX(doc, STR("<node></node>\n"), STR("\t"), format_indent); doc.first_child().append_child(node_pcdata); CHECK_NODE_EX(doc, STR("<node></node>\n"), STR("\t"), format_indent); } TEST(write_pcdata_whitespace_fixedpoint) { const char_t* data = STR("<node> test <child>\n <sub/>\n </child>\n</node>"); static const unsigned int flags_parse[] = { 0, parse_ws_pcdata, parse_ws_pcdata_single, parse_trim_pcdata }; static const unsigned int flags_format[] = { 0, format_raw, format_indent }; for (unsigned int i = 0; i < sizeof(flags_parse) / sizeof(flags_parse[0]); ++i) { xml_document doc; CHECK(doc.load_string(data, flags_parse[i])); for (unsigned int j = 0; j < sizeof(flags_format) / sizeof(flags_format[0]); ++j) { std::string saved = write_narrow(doc, flags_format[j], encoding_auto); xml_document rdoc; CHECK(rdoc.load_buffer(&saved[0], saved.size(), flags_parse[i])); std::string rsaved = write_narrow(rdoc, flags_format[j], encoding_auto); CHECK(saved == rsaved); } } } TEST_XML_FLAGS(write_mixed, "<node><child1/><child2>pre<![CDATA[data]]>mid<!--comment--><test/>post<?pi value?>fin</child2><child3/></node>", parse_full) { CHECK_NODE(doc, STR("<node><child1/><child2>pre<![CDATA[data]]>mid<!--comment--><test/>post<?pi value?>fin</child2><child3/></node>")); CHECK_NODE_EX(doc, STR("<node>\n<child1 />\n<child2>pre<![CDATA[data]]>mid<!--comment-->\n<test />post<?pi value?>fin</child2>\n<child3 />\n</node>\n"), STR("\t"), 0); CHECK_NODE_EX(doc, STR("<node>\n\t<child1 />\n\t<child2>pre<![CDATA[data]]>mid<!--comment-->\n\t\t<test />post<?pi value?>fin</child2>\n\t<child3 />\n</node>\n"), STR("\t"), format_indent); } TEST_XML(write_no_empty_element_tags, "<node><child1/><child2>text</child2><child3></child3></node>") { CHECK_NODE(doc, STR("<node><child1/><child2>text</child2><child3/></node>")); CHECK_NODE_EX(doc, STR("<node><child1></child1><child2>text</child2><child3></child3></node>"), STR("\t"), format_raw | format_no_empty_element_tags); CHECK_NODE_EX(doc, STR("<node>\n\t<child1></child1>\n\t<child2>text</child2>\n\t<child3></child3>\n</node>\n"), STR("\t"), format_indent | format_no_empty_element_tags); } TEST_XML_FLAGS(write_roundtrip, "<node><child1 attr1='value1' attr2='value2'/><child2 attr='value'>pre<![CDATA[data]]>mid<text&escape<!--comment--><test/>post<?pi value?>fin</child2><child3/></node>", parse_full) { const unsigned int flagset[] = { format_indent, format_raw, format_no_declaration, format_indent_attributes, format_no_empty_element_tags }; size_t flagcount = sizeof(flagset) / sizeof(flagset[0]); for (size_t i = 0; i < (size_t(1) << flagcount); ++i) { unsigned int flags = 0; for (size_t j = 0; j < flagcount; ++j) if (i & (size_t(1) << j)) flags |= flagset[j]; std::string contents = write_narrow(doc, flags, encoding_utf8); pugi::xml_document verify; CHECK(verify.load_buffer(contents.c_str(), contents.size(), parse_full)); CHECK(test_write_narrow(verify, flags, encoding_utf8, contents.c_str(), contents.size())); pugi::xml_document verifyws; CHECK(verifyws.load_buffer(contents.c_str(), contents.size(), parse_full | parse_ws_pcdata)); CHECK(test_write_narrow(verifyws, flags, encoding_utf8, contents.c_str(), contents.size())); } } #ifndef PUGIXML_NO_EXCEPTIONS struct throwing_writer: pugi::xml_writer { virtual void write(const void*, size_t) PUGIXML_OVERRIDE { throw std::runtime_error("write failed"); } }; TEST_XML(write_throw_simple, "<node><child/></node>") { try { throwing_writer w; doc.print(w); CHECK_FORCE_FAIL("Expected exception"); } catch (std::runtime_error&) { } } TEST_XML(write_throw_encoding, "<node><child/></node>") { try { throwing_writer w; doc.print(w, STR("\t"), format_default, encoding_utf32_be); CHECK_FORCE_FAIL("Expected exception"); } catch (std::runtime_error&) { } } #endif