一 环境准备
1 下载智能合约IDE
https://github.com/gxchain/gxchain-alpha/releases/latest
2 注册测试账户
https://testnet.wallet.gxchain.org/#/
3 认领测试网代币
https://testnet.gxchain.org/gxc/get_token?init0
init0为你的账户名
二 智能合约基本结构
#include <graphenelib/contract.hpp>
#include <graphenelib/dispatcher.hpp>
#include <graphenelib/print.hpp>
#include <graphenelib/types.h>
using namespace graphene;
class helloworld : public contract // 继承合约类
{
public:
helloworld(uint64_t id) // 定义带参构造函数,参数为部署合约的用户id
: contract(id)
{ }
/// @abi action // 给action加入注释,方便导出abi
void hi(std::string user)
{
for (int i = 0; i < 2; ++i) {
print("hi, ", user, "\n");
}
}
};
GRAPHENE_ABI(helloworld, (hi)) // 实现apply函数接口
三 多索引表结构
仅1个一级索引
最多支持16个二级索引
仅支持uint64_t类型
//@abi table offer i64 // 给table加入注释,方便导出abi
struct offer {
uint64_t id;
uint64_t idx1;
uint64_t idx2;
uint64_t stringidx;
uint64_t primary_key() const { return id; } //定义一级索引函数,这段代码的函数名和类型都是固定的,不能改动,用于指定唯一主键,这里把id作为主键
uint64_t by_index1() const { return idx1; } //定义二级索引函数
uint64_t by_index2() const { return idx2; } //定义二级索引函数
uint64_t by_stringidx() const {return stringidx; }//定义二级索引函数
GRAPHENE_SERIALIZE(offer, (id)(idx1)(idx2)(stringidx)) //序列化table成员变量
};
typedef multi_index<N(offer), offer,
indexed_by<N(idx1), const_mem_fun<offer, uint64_t, &offer::by_index1>>,
indexed_by<N(idx2), const_mem_fun<offer, uint64_t, &offer::by_index2>>,
indexed_by<N(stringidx), const_mem_fun<offer, uint64_t, &offer::by_stringidx>>>
offer_index; //定义多索引容器类型
offer_index offers; //定义成员多索引容器对象,需要在构造函数中用offers(_self, _self)初始化
四 多索引表的增删改查
增
emplace-增加
uint64_t pk = offers.available_primary_key();
print("pk=", pk);
offers.emplace(0, [&](auto &o) {
o.id = pk;
o.idx1 = i1;
o.idx2 = i2;
o.stringidx = graphenelib::string_to_name(name.c_str());
删
erase-删除
auto it = offers.find(5);
graphene_assert(it != offers.end(), “not find item”);
offers.erase(it)
改
modify-修改
auto it = offers.find(5);
offers.modify(it, 0, [&](auto &o) {
//这里是对象的修改代码
o.idx1 = 1000;
});
查
查询
//一级索引查询
auto it = offers.find(5);
//二级索引查询
auto idx = offers.template get_index<N(stringidx)>();
auto matched_offer_itr = idx.lower_bound(N(key));
if (matched_offer_itr != idx.end()) {
dump_item(*matched_offer_itr);
}
五 常用迭代器
begin 返回最小主键值开始的迭代器
end 返回尾部的迭代器
available_primary_key-返回下个可用主键
lower_bound-查找小于等于给定主键值的对象
upper_bound-查找大于给定主键值的对象
六 前端和智能合约交互
gscatter
gscatter-js
七 后续学习资源
https://docs.gxchain.org/zh/contract/ 官方文档
https://mp.weixin.qq.com/s/HZ-_pJ5gvjGjPpQtBEI98A 官方视频教程《简介与运行原理》
https://mp.weixin.qq.com/s/xtmxOPI9YAUrJkgsBcPR5A 官方视频教程 《内置数据类型与持久化存储》
八 完整代码示例
后端
#include <graphenelib/system.h>
#include <graphenelib/contract.hpp>
#include <graphenelib/dispatcher.hpp>
#include <graphenelib/multi_index.hpp>
#include <graphenelib/print.hpp>
#include <graphenelib/types.h>
#include <graphenelib/global.h>
using namespace graphene;
class todolist : public contract
{
public:
todolist(uint64_t id)
: contract(id),
todos(_self, _self)
{
}
/// @abi action
void create(const uint32_t id, const std::string& description){
uint64_t sender = get_trx_sender();
todos.emplace(sender, [&](auto& todo){
todo.id = id;
todo.description = description;
todo.completed = 0;
});
}
/// @abi action
void destory(const uint32_t id){
auto it = todos.find(id);
graphene_assert(it != todos.end(), "todo does not exist!");
todos.erase(it);
print("todo#", id, " destory");
}
/// @abi action
void complete(const uint32_t id){
auto it = todos.find(id);
graphene_assert(it != todos.end(), "todo does not exist!");
uint64_t sender = get_trx_sender();
todos.modify(it,sender, [&](auto& todo){
todo.completed = 1;
});
print("todo#", id, " complete");
}
private:
//@abi table todo i64
struct todo{
uint64_t id;
std::string description;
uint64_t completed;
uint64_t primary_key() const {return id;}
GRAPHENE_SERIALIZE(todo, (id)(description)(completed))
};
typedef multi_index<N(todo), todo> todo_index;
todo_index todos;
};
GRAPHENE_ABI(todolist, (create)(complete)(destory))
前端 待补充
