test/Validator.cpp - platform/external/xmlrpcpp - Git at Google

 // Validator.cpp : XMLRPC server based on the compliancy test at validator.xmlrpc.com.
 //
 #include "XmlRpc.h"
 using namespace XmlRpc;

 #include <iostream>


 XmlRpcServer s;


 // One argument is passed, an array of structs, each with a member named curly with
 // an integer value. Return the sum of those values.

 class ArrayOfStructsTest : public XmlRpcServerMethod
 {
 public:
   ArrayOfStructsTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.arrayOfStructsTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "ArrayOfStructsTest\n";
     XmlRpcValue& arg1 = params[0];
     int n = arg1.size(), sum = 0;
     for (int i=0; i<n; ++i)
       sum += int(arg1[i]["curly"]);

     result = sum;
   }
 } arrayOfStructsTest(&s);


 // This handler takes a single parameter, a string, that contains any number of predefined
 // entities, namely <, >, &, ' and ".
 // The handler must return a struct that contains five fields, all numbers: ctLeftAngleBrackets,
 // ctRightAngleBrackets, ctAmpersands, ctApostrophes, ctQuotes.
 // To validate, the numbers must be correct.

 class CountTheEntities : public XmlRpcServerMethod
 {
 public:
   CountTheEntities(XmlRpcServer* s) : XmlRpcServerMethod("validator1.countTheEntities", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "CountTheEntities\n";
     std::string& arg = params[0];
     int ctLeftAngleBrackets = 0;
     int ctRightAngleBrackets = 0;
     int ctAmpersands = 0;
     int ctApostrophes = 0;
     int ctQuotes = 0;

     int n = int(arg.length());
     for (int i=0; i<n; ++i)
       switch (arg[i])
       {
         case '<': ++ctLeftAngleBrackets; break;
         case '>': ++ctRightAngleBrackets; break;
         case '&': ++ctAmpersands; break;
         case '\'': ++ctApostrophes; break;
         case '\"': ++ctQuotes; break;
       }

     result["ctLeftAngleBrackets"] = ctLeftAngleBrackets;
     result["ctRightAngleBrackets"] = ctRightAngleBrackets;
     result["ctAmpersands"] = ctAmpersands;
     result["ctApostrophes"] = ctApostrophes;
     result["ctQuotes"] = ctQuotes;
   }
 } countTheEntities(&s);


 // This handler takes a single parameter, a struct, containing at least three elements
 // named moe, larry and curly, all <i4>s. Your handler must add the three numbers and
 // return the result.

 class EasyStructTest : public XmlRpcServerMethod
 {
 public:
   EasyStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.easyStructTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "EasyStructTest\n";
     XmlRpcValue& arg1 = params[0];
     int sum = int(arg1["moe"]) + int(arg1["larry"]) + int(arg1["curly"]);
     result = sum;
   }
 } easyStructTest(&s);


 // This handler takes a single parameter, a struct. Your handler must return the struct.

 class EchoStructTest : public XmlRpcServerMethod
 {
 public:
   EchoStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.echoStructTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "EchoStructTest\n";
     result = params[0];
   }
 } echoStructTest(&s);


 // This handler takes six parameters, and returns an array containing all the parameters.

 class ManyTypesTest : public XmlRpcServerMethod
 {
 public:
   ManyTypesTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.manyTypesTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "ManyTypesTest\n";
     result = params;
   }
 } manyTypesTest(&s);


 // This handler takes a single parameter, which is an array containing between 100 and
 // 200 elements. Each of the items is a string, your handler must return a string
 // containing the concatenated text of the first and last elements.


 class ModerateSizeArrayCheck : public XmlRpcServerMethod
 {
 public:
   ModerateSizeArrayCheck(XmlRpcServer* s) : XmlRpcServerMethod("validator1.moderateSizeArrayCheck", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "ModerateSizeArrayCheck\n";
     std::string s = params[0][0];
     s += params[0][params[0].size()-1];
     result = s;
   }
 } moderateSizeArrayCheck(&s);


 // This handler takes a single parameter, a struct, that models a daily calendar.
 // At the top level, there is one struct for each year. Each year is broken down
 // into months, and months into days. Most of the days are empty in the struct
 // you receive, but the entry for April 1, 2000 contains a least three elements
 // named moe, larry and curly, all <i4>s. Your handler must add the three numbers
 // and return the result.

 class NestedStructTest : public XmlRpcServerMethod
 {
 public:
   NestedStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.nestedStructTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "NestedStructTest\n";
     XmlRpcValue& dayStruct = params[0]["2000"]["04"]["01"];
     int sum = int(dayStruct["moe"]) + int(dayStruct["larry"]) + int(dayStruct["curly"]);
     result = sum;
   }
 } nestedStructTest(&s);


 // This handler takes one parameter, and returns a struct containing three elements,
 // times10, times100 and times1000, the result of multiplying the number by 10, 100 and 1000.

 class SimpleStructReturnTest : public XmlRpcServerMethod
 {
 public:
   SimpleStructReturnTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.simpleStructReturnTest", s) {}

   void execute(XmlRpcValue& params, XmlRpcValue& result)
   {
     std::cerr << "SimpleStructReturnTest\n";
     int n = params[0];
     result["times10"] = n * 10;
     result["times100"] = n * 100;
     result["times1000"] = n * 1000;
   }
 } simpleStructReturnTest(&s);


 int main(int argc, char* argv[])
 {
   if (argc != 2) {
     std::cerr << "Usage: Validator port\n";
     return -1;
   }
   int port = atoi(argv[1]);

   XmlRpc::setVerbosity(5);

   // Create the server socket on the specified port
   s.bindAndListen(port);

   // Wait for requests indefinitely
   s.work(-1.0);

   return 0;
 }
	// Validator.cpp : XMLRPC server based on the compliancy test at validator.xmlrpc.com.
	//
	#include "XmlRpc.h"
	using namespace XmlRpc;

	#include <iostream>


	XmlRpcServer s;


	// One argument is passed, an array of structs, each with a member named curly with
	// an integer value. Return the sum of those values.

	class ArrayOfStructsTest : public XmlRpcServerMethod
	{
	public:
	ArrayOfStructsTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.arrayOfStructsTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "ArrayOfStructsTest\n";
	XmlRpcValue& arg1 = params[0];
	int n = arg1.size(), sum = 0;
	for (int i=0; i<n; ++i)
	sum += int(arg1[i]["curly"]);

	result = sum;
	}
	} arrayOfStructsTest(&s);


	// This handler takes a single parameter, a string, that contains any number of predefined
	// entities, namely <, >, &, ' and ".
	// The handler must return a struct that contains five fields, all numbers: ctLeftAngleBrackets,
	// ctRightAngleBrackets, ctAmpersands, ctApostrophes, ctQuotes.
	// To validate, the numbers must be correct.

	class CountTheEntities : public XmlRpcServerMethod
	{
	public:
	CountTheEntities(XmlRpcServer* s) : XmlRpcServerMethod("validator1.countTheEntities", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "CountTheEntities\n";
	std::string& arg = params[0];
	int ctLeftAngleBrackets = 0;
	int ctRightAngleBrackets = 0;
	int ctAmpersands = 0;
	int ctApostrophes = 0;
	int ctQuotes = 0;

	int n = int(arg.length());
	for (int i=0; i<n; ++i)
	switch (arg[i])
	{
	case '<': ++ctLeftAngleBrackets; break;
	case '>': ++ctRightAngleBrackets; break;
	case '&': ++ctAmpersands; break;
	case '\'': ++ctApostrophes; break;
	case '\"': ++ctQuotes; break;
	}

	result["ctLeftAngleBrackets"] = ctLeftAngleBrackets;
	result["ctRightAngleBrackets"] = ctRightAngleBrackets;
	result["ctAmpersands"] = ctAmpersands;
	result["ctApostrophes"] = ctApostrophes;
	result["ctQuotes"] = ctQuotes;
	}
	} countTheEntities(&s);



	// This handler takes a single parameter, a struct, containing at least three elements
	// named moe, larry and curly, all <i4>s. Your handler must add the three numbers and
	// return the result.

	class EasyStructTest : public XmlRpcServerMethod
	{
	public:
	EasyStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.easyStructTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "EasyStructTest\n";
	XmlRpcValue& arg1 = params[0];
	int sum = int(arg1["moe"]) + int(arg1["larry"]) + int(arg1["curly"]);
	result = sum;
	}
	} easyStructTest(&s);


	// This handler takes a single parameter, a struct. Your handler must return the struct.

	class EchoStructTest : public XmlRpcServerMethod
	{
	public:
	EchoStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.echoStructTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "EchoStructTest\n";
	result = params[0];
	}
	} echoStructTest(&s);



	// This handler takes six parameters, and returns an array containing all the parameters.

	class ManyTypesTest : public XmlRpcServerMethod
	{
	public:
	ManyTypesTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.manyTypesTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "ManyTypesTest\n";
	result = params;
	}
	} manyTypesTest(&s);



	// This handler takes a single parameter, which is an array containing between 100 and
	// 200 elements. Each of the items is a string, your handler must return a string
	// containing the concatenated text of the first and last elements.


	class ModerateSizeArrayCheck : public XmlRpcServerMethod
	{
	public:
	ModerateSizeArrayCheck(XmlRpcServer* s) : XmlRpcServerMethod("validator1.moderateSizeArrayCheck", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "ModerateSizeArrayCheck\n";
	std::string s = params[0][0];
	s += params[0][params[0].size()-1];
	result = s;
	}
	} moderateSizeArrayCheck(&s);


	// This handler takes a single parameter, a struct, that models a daily calendar.
	// At the top level, there is one struct for each year. Each year is broken down
	// into months, and months into days. Most of the days are empty in the struct
	// you receive, but the entry for April 1, 2000 contains a least three elements
	// named moe, larry and curly, all <i4>s. Your handler must add the three numbers
	// and return the result.

	class NestedStructTest : public XmlRpcServerMethod
	{
	public:
	NestedStructTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.nestedStructTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "NestedStructTest\n";
	XmlRpcValue& dayStruct = params[0]["2000"]["04"]["01"];
	int sum = int(dayStruct["moe"]) + int(dayStruct["larry"]) + int(dayStruct["curly"]);
	result = sum;
	}
	} nestedStructTest(&s);



	// This handler takes one parameter, and returns a struct containing three elements,
	// times10, times100 and times1000, the result of multiplying the number by 10, 100 and 1000.

	class SimpleStructReturnTest : public XmlRpcServerMethod
	{
	public:
	SimpleStructReturnTest(XmlRpcServer* s) : XmlRpcServerMethod("validator1.simpleStructReturnTest", s) {}

	void execute(XmlRpcValue& params, XmlRpcValue& result)
	{
	std::cerr << "SimpleStructReturnTest\n";
	int n = params[0];
	result["times10"] = n * 10;
	result["times100"] = n * 100;
	result["times1000"] = n * 1000;
	}
	} simpleStructReturnTest(&s);



	int main(int argc, char* argv[])
	{
	if (argc != 2) {
	std::cerr << "Usage: Validator port\n";
	return -1;
	}
	int port = atoi(argv[1]);

	XmlRpc::setVerbosity(5);

	// Create the server socket on the specified port
	s.bindAndListen(port);

	// Wait for requests indefinitely
	s.work(-1.0);

	return 0;
	}