acl/lib_acl_cpp/samples/xml/xml2/xml.cpp

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// xml.cpp : <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>̨Ӧ<CCA8>ó<EFBFBD><C3B3><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>ڵ㡣
//
#include "stdafx.h"
#include <list>
using namespace std;
static void test()
{
acl::string buf;
acl::xml1 xml;
acl::xml_node& root = xml.get_root();
acl::xml_node& server = xml.create_node("server");
root.add_child(server);
acl::xml_node& proc1 = xml.create_node("proc");
server.add_child(proc1);
proc1.add_child("pid", false, "1111");
proc1.add_child("conns", false, "111");
proc1.add_child("load", false, "0.5");
acl::xml_node& proc2 = xml.create_node("proc");
server.add_child(proc2);
proc2.add_child("pid", false, "2111");
proc2.add_child("conns", false, "211");
proc2.add_child("load", false, "2.5");
printf("-------------- after build_xml -------------------\r\n");
xml.build_xml(buf);
printf("%s\r\n", buf.c_str());
printf("Enter any key to continue ...\r\n");
getchar();
proc1.detach();
printf("--------------- after detach proc1 --------------\r\n");
size_t len;
printf("%s\r\n", xml.to_string(&len));
printf("Enter any key to continue ...\r\n");
getchar();
proc2.detach();
printf("--------------- after detach proc2 --------------\r\n");
printf("%s\r\n", xml.to_string(&len));
printf("Enter any key to continue ...\r\n");
getchar();
}
static void print_attrs(acl::xml_node& node)
{
const acl::xml_attr* iter = node.first_attr();
if (iter != NULL)
printf("; attrs:");
while (iter)
{
printf(" %s=%s;", iter->get_name(), iter->get_value());
iter = node.next_attr();
}
}
static void test2()
{
acl::xml1 xml;
acl::xml_node& root = xml.get_root();
root.add_child("users", true)
.add_child("user", true)
.add_attr("account", "\"zsxxsz\" <zsxxsz@263.net>")
.add_attr("sex", "<male>")
.add_attr("addr", "\"Beijing\"")
.add_attr("nick", "<xsz@sina.com>")
.add_child("name", false, "zsxxsz")
.add_child("email", false, "\'zsxxsz\' <zsxxsz@263.net>")
.add_child("sex", false, "male")
.get_parent()
.add_child("user", true)
.add_attr("account", "\"zsxxsz\" <zsxxsz@263.net>")
.add_attr("sex", "<male>")
.add_attr("addr", "\"&Beijing&\"")
.add_attr("nick", "<xsz@sina.com>")
.add_child("name", false, "zsx1")
.add_child("email", false, "\"zsx1\" <zsx1@263.net>")
.add_child("age", false, "22");
acl::string buf;
xml.build_xml(buf);
printf("%s\r\n", buf.c_str());
xml.reset();
xml.xml_decode(true);
const char* p = buf.c_str();
char tmp[2];
while (*p)
{
tmp[0] = *p;
tmp[1] = 0;
xml.update(tmp);
++p;
}
acl::xml_node* iter = xml.first_node();
while (iter)
{
const char* txt = iter->text();
printf("tag: %s; txt: %s", iter->tag_name(), txt ? txt : "null");
print_attrs(*iter);
printf("\r\n");
iter = xml.next_node();
}
}
static void test3()
{
const char* s = "<servers>"
"<proc><pid>1200</pid><load>2.5</load></proc>"
"<proc><pid>1300</pid><load>3.5</load></proc>"
"<proc><pid>1400</pid><load>4.5</load></proc>"
"</servers>";
acl::xml1 xml(s);
printf("---------------- after parse xml ---------------------\r\n");
if (strcmp(s, xml.to_string()) == 0)
{
printf("[%s]\r\n", xml.to_string());
printf("----OK----\r\n");
}
else
{
printf("[%s]\r\n", s);
printf("[%s]\r\n", xml.to_string());
printf("----Error----\r\n");
}
printf("Enter any key to continue ...\r\n");
getchar();
printf("--------------- after delete first pid ------------\r\n");
acl::xml_node* first_pid = xml.getFirstElementByTag("pid");
if (first_pid)
first_pid->detach();
printf("[%s]\r\n", xml.to_string());
printf("Enter any key to continue ...\r\n");
getchar();
printf("--------------- after delete all load --------------\r\n");
const std::vector<acl::xml_node*>& loads =
xml.getElementsByTagName("load");
for (std::vector<acl::xml_node*>::const_iterator cit = loads.begin();
cit != loads.end(); ++cit)
{
(*cit)->detach();
}
printf("[%s]\r\n", xml.to_string());
printf("Enter any key to continue ...\r\n");
getchar();
}
int main(void)
{
test();
test2();
test3();
#ifdef WIN32
printf("enter any key to exit\r\n");
getchar();
#endif
return 0;
}