acl/lib_acl_cpp/samples/url_coder/url_coder.cpp
2021-06-08 16:45:49 +08:00

121 lines
3.7 KiB
C++

// url_coder.cpp : 定义控制台应用程序的入口点。
//
#include "stdafx.h"
#include "acl_cpp/stdlib/string.hpp"
#include "acl_cpp/stdlib/url_coder.hpp"
#include "acl_cpp/http/http_utils.hpp"
using namespace acl;
int main(void)
{
url_coder coder1;
coder1.set("name1", "value1");
coder1.set("name2", 2);
coder1.set("name3", true, "value%d", 3);
coder1.set("name4", "中国人");
printf("coder1 >> %s, name1: %s, name2: %s, name3: %s, name4: %s\r\n",
coder1.to_string().c_str(),
coder1["name1"], coder1["name2"], coder1["name3"], coder1["name4"]);
coder1.del("name1");
const char* ptr = coder1["name1"];
printf("coder1 >> %s, name1: %s, name2: %s, name3: %s, name4: %s\r\n",
coder1.to_string().c_str(), ptr ? ptr : "null",
coder1["name2"], coder1["name3"], coder1["name4"]);
//////////////////////////////////////////////////////////////////////////
url_coder coder2;
coder2 = coder1;
coder2.set("name5", "&=value5=&");
ptr = coder2["name1"];
printf("--------------------------------------------------------\r\n");
printf("coder2 >> %s, name1: %s, name2: %s, name3: %s, name4: %s, name5: %s\r\n",
coder2.to_string().c_str(), ptr ? ptr : "null",
coder2["name2"], coder2["name3"], coder2["name4"], coder2["name5"]);
//////////////////////////////////////////////////////////////////////////
url_coder coder3(coder2);
coder3.set("name5", 5);
coder3.set("name6", "=&外国人&=");
ptr = coder3["name1"];
printf("--------------------------------------------------------\r\n");
printf("coder3 >> %s, name1: %s, name2: %s, name3: %s, name4: %s, name5: %s, name6: %s\r\n",
coder3.to_string().c_str(), ptr ? ptr : "null",
coder3["name2"], coder3["name3"], coder3["name4"],
coder3["name5"], coder3["name6"]);
//////////////////////////////////////////////////////////////////////////
url_coder coder4;
const char* s = "name1=value1&name2=2&name3=value3&name4=%D6%D0%B9%FA%C8%CB";
coder4.decode(s);
printf("--------------------------------------------------------\r\n");
printf("coder4 >> %s, name1: %s, name2: %s, name3: %s, name4: %s\r\n",
coder4.to_string().c_str(),
coder4["name1"], coder4["name2"], coder4["name3"], coder4["name4"]);
//////////////////////////////////////////////////////////////////////////
printf("--------------------------------------------------------\r\n");
acl::url_coder coder5;
coder5.set("n0", "").set("n1", "v1").set("n2", "");
acl::string s5 = coder5.to_string();
coder5.reset();
coder5.decode(s5);
bool found0, found3;
const char* v0 = coder5.get("n0", &found0);
const char* v3 = coder5.get("n3", &found3);
printf(">>>url=%s, n0=%s, %s, n1=%s, n3=%s, %s\r\n", s5.c_str(),
v0, found0 ? "found it" : "not found", coder5.get("n1"),
v3, found3 ? "found it" : "not found");
printf("enter any key to continue ...\r\n");
getchar();
printf("\r\n");
acl::http_url hu;
const char* urls[] = {
"http://www.google.com/",
"https://www.google.com/",
"https://www.google.com/test",
"http://www.google.com/test?name=value&name2=value2",
"/test",
"/",
"/test?",
"/test?name1=value1&name2=value2",
"/path/test",
"/path/test?name=value",
NULL,
};
for (size_t i = 0; urls[i] != NULL; i++) {
if (!hu.parse(urls[i])) {
printf("parse url=%s failed\r\n", urls[i]);
break;
}
printf("url:%s\r\n", urls[i]);
printf("proto=%s, port=%d, domain=%s, path=%s, params=%s\r\n",
hu.get_proto(), hu.get_port(), hu.get_domain(),
hu.get_url_path(), hu.get_url_params());
printf("\r\n");
hu.reset();
}
#if defined(_WIN32) || defined(_WIN64)
printf("Enter any key to exit ...\r\n");
getchar();
#endif
return 0;
}