// xml.cpp : 定义控制台应用程序的入口点。 // #include "stdafx.h" #include using namespace std; static void test(void) { const char *data = "\r\n" "\r\n" "xmllint\">\r\n" "]>\r\n" "test\r\n" " - -->\r\n" " zsx\r\n" " 38\r\n" " \r\n" "\r\n" " -->\r\n" "\r\n" "\r\n" "test\r\n"; acl::xml1 xml; #if 1 const char* p = data; char tmp[2]; while (*p) { tmp[0] = *p++; tmp[1] = 0; xml.update(tmp); } #else xml.update(data); #endif const vector& elements = xml.getElementsByTagName("user"); if (!elements.empty()) { vector::const_iterator cit = elements.begin(); for (; cit != elements.end(); cit++) { acl::xml_node *node = *cit; printf("tagname: %s, text: %s\n", node->tag_name() ? node->tag_name() : "", node->text() ? node->text() : ""); const acl::xml_attr* attr = (*cit)->first_attr(); while (attr) { printf("test1: %s=%s\r\n", attr->get_name(), attr->get_value()); attr = (*cit)->next_attr(); } } } xml.reset(); ////////////////////////////////////////////////////////////////////// const char* s2 = "Title\r\n各位同学:\r\n" "本月考勤统计日为20日,烦请各位同学在19日下班之前尽快将个人需要申诉的事由找部门领导审批通\r\n" "过。逾期不再修改考勤。\r\n" "另烦请本月有请年假、事假、病假的同学补发邮件给部门领导审批并转发给行政部。谢谢各位同学配合。\r\n" "如在考勤日未收到以上邮件,我部门将按照考勤严格执行不再做任何修改。\r\n"; xml.update(""); xml.update(s2); xml.update(""); const acl::string& r2 = xml.getText(); printf("\r\n|%s|\r\n", r2.c_str()); printf("------------ the result is: ------------------\r\n"); acl::string buf; xml.build_xml(buf); printf("%s\r\n", buf.c_str()); ////////////////////////////////////////////////////////////////////////// acl::xml1 xml2; acl::xml_node& root = xml2.get_root(); acl::xml_node* node1, *node2, *node3, *node4; node1 = &xml2.create_node("test1"); (*node1).add_attr("name1_1", "value1_1") .add_attr("name1_2", "value1_2") .add_attr("name1_3", "value1_3"); root.add_child(node1); printf("----------------------node1's attr valuse list----------------\r\n"); const acl::xml_attr* attr1 = node1->first_attr(); while (attr1) { printf("node1: %s=%s\r\n", attr1->get_name(), attr1->get_value()); attr1 = node1->next_attr(); } printf("----------------------node1's attr end list------------------\r\n"); node2 = &xml2.create_node("test2"); (*node2).add_attr("name2_1", "value2_1") .add_attr("name2_2", "value2_2"); root.add_child(node2); node2 = &xml2.create_node("test11"); (*node2).add_attr("name11_1", "value11_1") .add_attr("name11_2", "value11_2") .add_attr("name11_3", "value11_3"); node1->add_child(node2); node2->set_text("hello world!"); node1 = &xml2.create_node("test3"); (*node1).add_attr("name3_1", "value3_1") .add_attr("name3_2", "value3_2"); node2 = &xml2.create_node("test4"); (*node2).add_attr("name4_1", "value4_1") .add_attr("name4_2", "value4_2") .add_attr("name4_3", "value4_3"); root.add_child(node1).add_child(node2); node1 = &xml2.create_node("test5"); root.add_child(node1); node2 = &xml2.create_node("test51"); (*node2).add_attr("name51_1", "value51_1") .add_attr("name51_2", "value51_2"); (*node1).add_child(node2); node3 = &xml2.create_node("test52"); (*node3).add_attr("name52_1", "value52_1") .add_attr("name52_2", "value52_2"); node4 = &xml2.create_node("test53"); (*node4).add_attr("name53_1", "value53\"_1") .add_attr("name53_2", "value53_2"); (*node1).add_child(node3).add_child(node4); root.add_child("test6", true, "text6") .add_child("test61", true, "text61") .add_attr("name61_1", "value61_1") .add_attr("name61_2", "value61_2") .add_attr("name61_3", "value61_3") .add_child("test611", true, "text611") .add_attr("name611_1", "value611_1") .add_attr("name611_2", "value611_2") .add_attr("name611_3", "value611_3") .get_parent() .get_parent() .add_child("test62", true, "text62") .add_attr("name62_1", "value62_1") .add_attr("name62_2", "value62_2") .add_attr("name62_3", "value62_3") .get_parent() .add_attr("name6_1", "value6_1") .add_attr("name6_2", "value6_2") .add_attr("name6_3", "value6_3"); buf.clear(); xml2.build_xml(buf); printf("-----------------xml2------------------------\r\n"); printf("%s\r\n", buf.c_str()); printf("-----------------xml2 iterator --------------\r\n"); acl::xml_node* iter = xml2.first_node(); while (iter) { if (iter->tag_name()) { printf("tag: %s", iter->tag_name()); if (iter->text()) printf(", text: %s\r\n", iter->text()); else printf("\r\n"); } iter = xml2.next_node(); } printf("------------------root first level child---------\r\n"); iter = xml2.get_root().first_child(); int n = 0; while (iter) { n++; if (iter->tag_name()) printf("tag: %s", iter->tag_name()); if (iter->text()) printf(", text: %s\r\n", iter->text()); else printf("\r\n"); iter = xml2.get_root().next_child(); } if (n == xml2.get_root().children_count()) printf("ok, children_count: %d\n", n); else { printf("error, n: %d, children_count: %d, enter any key to continue\r\n", n, xml2.get_root().children_count()); getchar(); } } static void test2(void) { acl::xml1 body; body.get_root().add_child("test", true) .add_attr("mail", "\"zsxxsz1\" zsxxsz1@test.com") .add_attr("title", "中<国>人\',中国人\",中国人\\\"") .add_attr("from", "\"zsxxsz2\" zsxxsz2@test.com"); acl::string buf; body.build_xml(buf); printf("data: %s\r\n", buf.c_str()); printf("------------------------------------------\r\n"); acl::xml1 xml(buf.c_str()); const acl::xml_node* node = xml.getFirstElementByTag("test"); if (node == NULL) printf("test tag null\r\n"); else { const char* mail = (*node)["mail"]; const char* title = (*node)["title"]; const char* from = (*node)["from"]; printf("mail: %s\r\n", mail ? mail : "null"); printf("title: %s\r\n", title ? title : "null"); printf("from: %s\r\n", from ? from : "null"); } } static void get_html(const char* file) { acl::string buf; if (acl::ifstream::load(file, &buf) == false) { printf("load %s error %s\r\n", file, acl::last_serror()); return; } acl::xml1 xml(buf.c_str()); const acl::string& text = xml.getText(); printf("text:{%s}\r\n", text.c_str()); } int main(int argc, char* argv[]) { if (argc >= 2) { get_html(argv[1]); return 0; } test2(); test(); printf("enter any key to exit\r\n"); getchar(); return 0; }