建造者模式的引入
//C10_1.cpp
#include <stdio.h>
#include "SystemConfig.h"
int main() {
SystemConfig config("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda",
"redis://127.0.0.1/", "xiaomuredis", "xiaomuredispw",
"kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
SystemConfig config2("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda",
"", "", "",
"kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
SystemConfig config3("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda",
"kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw",
"", "", "");
return 0;
}在C10_1.cpp中,首先包含了SystemConfig.h头文件以访问SystemConfig类。然后在main函数中,创建了三个SystemConfig对象,每个对象都用不同的参数初始化。这三个对象分别为config、config2和config3,它们代表不同的配置集。每个对象的构造函数都传入了MySQL、Redis和Kafka的URL、用户名和密码。在config2和config3中,某些服务的参数为空字符串,表示不使用该服务。
//SystemConfig.h
#pragma once
#include <string>
class SystemConfig
{
public:
SystemConfig(const std::string & _MySQL_URL, const std::string & _MySQL_USER, const std::string & _MySQL_PW,
const std::string & _Redis_URL, const std::string & _Redis_USER, const std::string & _Redis_PW,
const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW);
std::string MySQL_URL;
std::string MySQL_USER;
std::string MySQL_PW;
std::string Redis_URL;
std::string Redis_USER;
std::string Redis_PW;
std::string Kafka_URL;
std::string Kafka_USER;
std::string Kafka_PW;
};
SystemConfig.h是SystemConfig类的头文件。它声明了SystemConfig类及其构造函数和成员变量。构造函数接受MySQL、Redis和Kafka的URL、用户名和密码作为参数。这些参数被用来初始化对象的公共成员变量。使用#pragma once防止头文件被多次包含。
//SystemConfig.cpp
#include "SystemConfig.h"
SystemConfig::SystemConfig(const std::string& _MySQL_URL, const std::string& _MySQL_USER, const std::string& _MySQL_PW,
const std::string& _Redis_URL, const std::string& _Redis_USER, const std::string& _Redis_PW,
const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW)
{
MySQL_URL = _MySQL_URL;
MySQL_USER = _MySQL_USER;
MySQL_PW = _MySQL_PW;
Redis_USER = _Redis_USER;
Redis_URL = _Redis_URL;
Redis_PW = _Redis_PW;
Kafka_USER = _Kafka_USER;
Kafka_URL = _Kafka_URL;
Kafka_PW = _Kafka_PW;
}SystemConfig.cpp是SystemConfig类的源文件。它定义了SystemConfig类构造函数内部的代码逻辑,利用接受的MySQL、Redis和Kafka的URL、用户名和密码的参数,对应的赋值给SystemConfig类的成员变量。
建造者模式
//C10_2.cpp
#include <stdio.h>
#include "SystemConfig.h"
#include "SystemConfigBuilder.h"
#include "CompanyA.h"
#include "CompanyB.h"
int main()
{
/*
SystemConfig config("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda",
"redis://127.0.0.1/", "xiaomuredis", "xiaomuredispw",
"kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
SystemConfig config2;
config2.setMySQL("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda");
config2.setRedis("redis://127.0.0.1/", "xiaomuredis", "xiaomuredispw");
config2.setKafka("kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
*/
SystemConfigBuilder builder;
builder.setMySQL("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda");
builder.setRedis("redis://127.0.0.1/", "xiaomuredis", "xiaomuredispw");
builder.setKafka("kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
SystemConfig config = builder.getSystemConfig();
printf("Mysql URL: %s\n", config.MySQL_URL.c_str());
printf("Mysql USER: %s\n", config.MySQL_USER.c_str());
printf("Mysql PW %s\n", config.MySQL_PW.c_str());
printf("Redis URL: %s\n", config.Redis_URL.c_str());
printf("Redis USER: %s\n", config.Redis_USER.c_str());
printf("Redis PW %s\n", config.Redis_PW.c_str());
printf("Kafka URL: %s\n", config.Kafka_URL.c_str());
printf("Kafka USER: %s\n", config.Kafka_USER.c_str());
printf("Kafka PW %s\n", config.Kafka_PW.c_str());
CompanyA companyA;
SystemConfig configA = companyA.buildSystemConfig();
CompanyB companyB;
SystemConfig configB = companyB.buildSystemConfig();
return 0;
}
//SystemConfig.h
#pragma once
#include <string>
class SystemConfig
{
public:
SystemConfig();
SystemConfig(const std::string & _MySQL_URL, const std::string & _MySQL_USER, const std::string & _MySQL_PW,
const std::string & _Redis_URL, const std::string & _Redis_USER, const std::string & _Redis_PW,
const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW);
std::string MySQL_URL;
std::string MySQL_USER;
std::string MySQL_PW;
std::string Redis_URL;
std::string Redis_USER;
std::string Redis_PW;
std::string Kafka_URL;
std::string Kafka_USER;
std::string Kafka_PW;
};
SystemConfig.h是SystemConfig类的头文件。它声明了SystemConfig类及其构造函数和成员变量。构造函数接受MySQL、Redis和Kafka的URL、用户名和密码作为参数。这些参数被用来初始化对象的公共成员变量。使用#pragma once防止头文件被多次包含。与之前的代码一致,没有发生改变。
//SystemConfig.cpp
#include "SystemConfig.h"
SystemConfig::SystemConfig()
{
}
SystemConfig::SystemConfig(const std::string& _MySQL_URL, const std::string& _MySQL_USER, const std::string& _MySQL_PW,
const std::string& _Redis_URL, const std::string& _Redis_USER, const std::string& _Redis_PW,
const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW)
{
MySQL_URL = _MySQL_USER;
MySQL_USER = _MySQL_URL;
MySQL_PW = _MySQL_PW;
Redis_USER = _Redis_USER;
Redis_URL = _Redis_URL;
Redis_PW = _Redis_PW;
Kafka_USER = _Kafka_USER;
Kafka_URL = _Kafka_URL;
Kafka_PW = _Kafka_PW;
}SystemConfig.cpp是SystemConfig类的源文件。它定义了SystemConfig类构造函数内部的代码逻辑,利用接受的MySQL、Redis和Kafka的URL、用户名和密码的参数,对应的赋值给SystemConfig类的成员变量。
//SystemConfigBuilder.h
#pragma once
#include "SystemConfig.h"
class SystemConfigBuilder
{
public:
SystemConfig config;
int setMySQL(const std::string& _MySQL_URL, const std::string& _MySQL_USER, const std::string& _MySQL_PW);
int setRedis(const std::string& _Redis_URL, const std::string& _Redis_USER, const std::string& _Redis_PW);
int setKafka(const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW);
SystemConfig& getSystemConfig();
};
SystemConfigBuilder.h是SystemConfigBuilder类的头文件,声明了SystemConfig类成员变量,以及setMySQL、setRedis、setKafka,三个成员函数,分别用来配置MySQL、Redis、Kafka。以及getSystemConfig成员函数用来获取对应的SystemConfig类系统配置。
//SystemConfigBuilder.cpp
#include "SystemConfigBuilder.h"
SystemConfig& SystemConfigBuilder::getSystemConfig()
{
return config;
}
int SystemConfigBuilder::setMySQL(const std::string& _MySQL_URL, const std::string& _MySQL_USER, const std::string& _MySQL_PW)
{
config.MySQL_URL = _MySQL_USER;
config.MySQL_USER = _MySQL_URL;
config.MySQL_PW = _MySQL_PW;
return 0;
}
int SystemConfigBuilder::setRedis(const std::string& _Redis_URL, const std::string& _Redis_USER, const std::string& _Redis_PW)
{
config.Redis_USER = _Redis_USER;
config.Redis_URL = _Redis_URL;
config.Redis_PW = _Redis_PW;
return 0;
}
int SystemConfigBuilder::setKafka(const std::string& _Kafka_URL, const std::string& _Kafka_USER, const std::string& _Kafka_PW)
{
config.Kafka_USER = _Kafka_USER;
config.Kafka_URL = _Kafka_URL;
config.Kafka_PW = _Kafka_PW;
return 0;
}SystemConfigBuilder.cpp是SystemConfigBuilder类的源文件,对SystemConfigBuilder.h中的声明进行了定义。
//Director.h
#pragma once
#include "SystemConfig.h"
#include "SystemConfigBuilder.h"
class Director
{
public:
SystemConfigBuilder builder;
virtual SystemConfig& buildSystemConfig() = 0;
};
Director.h是Director导演类的头文件,我们利用SystemConfigBuilder类可以很方便地完成系统的配置,但对于不同的公司他们提供的服务不同,有些公司只需要配置MySQL和Kafka,有些公司只配置MySQL和Redis。对于不同的公司运用SystemConfigBuilder类的情况不同,因此我们为不同的公司准备不同的调用方案,到时候只需要使用一个函数就可以完成配置。将调用函数配置行为进行封装。
Director的目的是为了封装控制SystemConfigBuilder 类,因此构造一个纯虚函数buildSystemConfig,用来表示不同公司对于SystemConfigBuilder 的使用情况。
//Director.cpp
#include "Director.h"
//CompanyA.h
#pragma once
#include "SystemConfig.h"
#include "SystemConfigBuilder.h"
#include "Director.h"
class CompanyA : public Director
{
public:
virtual SystemConfig & buildSystemConfig() override;
};
//CompanyA.cpp
#include "CompanyA.h"
SystemConfig& CompanyA::buildSystemConfig()
{
builder.setMySQL("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda");
builder.setRedis("", "", "");
builder.setKafka("kafka://127.0.0.1", "xiaomukafka", "xiaomukafkapw");
return builder.getSystemConfig();
}CompanyA公司只配置MySQL和Kafka,因此buildSystemConfig函数调用setRedis参数为空。
//CompanyB.h
#pragma once
#include "SystemConfig.h"
#include "SystemConfigBuilder.h"
#include "Director.h"
class CompanyB : public Director
{
public:
virtual SystemConfig& buildSystemConfig() override;
};
//CompanyB.cpp
#include "CompanyB.h"
SystemConfig& CompanyB::buildSystemConfig()
{
builder.setMySQL("mysql://127.0.0.1/", "xiaomu", "xiaomumemeda");
builder.setRedis("redis://127.0.0.1/", "xiaomuredis", "xiaomuredispw");
builder.setKafka("", "", "");
return builder.getSystemConfig();
}CompanyB公司只配置MySQL和Redis,因此buildSystemConfig函数调用setKafka参数为空。
结尾
最后,感谢您阅读我的文章,希望这些内容能够对您有所启发和帮助。如果您有任何问题或想要分享您的观点,请随时在评论区留言。
同时,不要忘记订阅我的博客以获取更多有趣的内容。在未来的文章中,我将继续探讨这个话题的不同方面,为您呈现更多深度和见解。
谢谢您的支持,期待与您在下一篇文章中再次相遇!
