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这篇文章将为大家详细讲解有关如何使用EOS多索引表,文章内容质量较高,因此小编分享给大家做个参考,希望大家阅读完这篇文章后对相关知识有一定的了解。
为了深入和清晰的了解多索引表,最终的.cpp文件部分将被进一步详细讨论和讨论。注意,完整的.cpp文件可以在页面的底部找到。
code :是指已公布智能合约的account_name。
scope:account_name所涉及数据范围。
table_name: 存储在内存中的表的名称。
要在多索引表中存储的数据是limit_order结构。primary_key(),get_expiration(),get_price()函数用于返回表。返回的表将根据调用的函数排序。
struct limit_order {
uint64_t id;
uint128_t price;
uint64_t expiration;
account_name owner;
auto primary_key() const { return id; }
uint64_t get_expiration() const { return expiration; }
uint128_t get_price() const { return price; }
EOSLIB_SERIALIZE( limit_order, ( id )( price )( expiration )( owner ) )
};auto payer = ilm.get_account(); ...
payer是保存帐户的变量,它将账单元素添加到多索引表中,并修改已经在多索引表中的元素。
... eosio::multi_index< N( orders ), limit_order, ...
N(orders)是多索引表的名称,limit_order是要存储在表中的数据。
... indexed_by< N( byexp ), const_mem_fun< limit_order, uint64_t, &limit_order::get_expiration> >, ...
indexed_by< N( byexp ), const_mem_fun< limit_order, uint64_t, &limit_order::get_expiration> >定义了多索引表的索引方式。N(byexp)是这个索引的名称。const_mem_fun表示正在查询的数据类型、limit_order的变量的类型是uint64_t,将使用get_expiration函数获取变量。
... indexed_by< N( byprice ), const_mem_fun< limit_order, uint128_t, &limit_order::get_price> > ...
indexed_by< N( byprice ), const_mem_fun< limit_order, uint128_t, &limit_order::get_price> >定义了多索引表的索引方式。N(byprice)是这个索引的名称。const_mem_fun表示正在查询的数据类型、limit_order的变量的类型是uint128_t,将使用get_price函数获取变量。
orders( N( limitorders ), N( limitorders )
orders即是多索引表。
auto payer = ilm.get_account();
print("Creating multi index table 'orders'.\n");
eosio::multi_index< N( orders ), limit_order,
indexed_by< N( byexp ), const_mem_fun< limit_order, uint64_t, &limit_order::get_expiration> >,
indexed_by< N( byprice ), const_mem_fun< limit_order, uint128_t, &limit_order::get_price> >
> orders( N( limitorders ), N( limitorders ) );下面,将两个limit_order添加到orders表中。请注意,payer是正在修改orders表的“账单”帐户。
orders.emplace( payer, [&]( auto& o ) {
o.id = 1;
o.expiration = 300;
o.owner = N(dan);
});
auto order2 = orders.emplace( payer, [&]( auto& o ) {
o.id = 2;
o.expiration = 200;
o.owner = N(thomas);
});默认的orders表按照主键排序。
print("Items sorted by primary key:\n");
for( const auto& item : orders ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}orders表通过expiration进行排序并分配给expidx。
auto expidx = orders.get_index<N(byexp)>();
print("Items sorted by expiration:\n");
for( const auto& item : expidx ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}orders表通过price进行排序并分配给oridx。
auto pridx = orders.get_index<N(byprice)>();
print("Items sorted by price:\n");
for( const auto& item : pridx ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}下面,“ID=2”的条目被修改。请注意,payer是正在修改orders表的“账单”帐户。
print("Modifying expiration of order with ID=2 to 400.\n");
orders.modify( order2, payer, [&]( auto& o ) {
o.expiration = 400;
});auto lower = expidx.lower_bound(100);
print("First order with an expiration of at least 100 has ID=", lower->id, " and expiration=", lower->get_expiration(), "\n");#include <eosiolib/eosio.hpp>
#include <eosiolib/dispatcher.hpp>
#include <eosiolib/multi_index.hpp>
using namespace eosio;
namespace limit_order_table {
struct limit_order {
uint64_t id;
uint128_t price;
uint64_t expiration;
account_name owner;
auto primary_key() const { return id; }
uint64_t get_expiration() const { return expiration; }
uint128_t get_price() const { return price; }
EOSLIB_SERIALIZE( limit_order, ( id )( price )( expiration )( owner ) )
};
class limit_order_table {
public:
ACTION( N( limitorders ), issue_limit_order ) {
EOSLIB_SERIALIZE( issue_limit_order )
};
static void on( const issue_limit_order& ilm ) {
auto payer = ilm.get_account();
print("Creating multi index table 'orders'.\n");
eosio::multi_index< N( orders ), limit_order,
indexed_by< N( byexp ), const_mem_fun< limit_order, uint64_t, &limit_order::get_expiration> >,
indexed_by< N( byprice ), const_mem_fun< limit_order, uint128_t, &limit_order::get_price> >
> orders( N( limitorders ), N( limitorders ) );
orders.emplace( payer, [&]( auto& o ) {
o.id = 1;
o.expiration = 300;
o.owner = N(dan);
});
auto order2 = orders.emplace( payer, [&]( auto& o ) {
o.id = 2;
o.expiration = 200;
o.owner = N(thomas);
});
print("Items sorted by primary key:\n");
for( const auto& item : orders ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}
auto expidx = orders.get_index<N(byexp)>();
print("Items sorted by expiration:\n");
for( const auto& item : expidx ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}
auto pridx = orders.get_index<N(byprice)>();
print("Items sorted by price:\n");
for( const auto& item : pridx ) {
print(" ID=", item.id, ", expiration=", item.expiration, ", owner=", name{item.owner}, "\n");
}
print("Modifying expiration of order with ID=2 to 400.\n");
orders.modify( order2, payer, [&]( auto& o ) {
o.expiration = 400;
});
auto lower = expidx.lower_bound(100);
print("First order with an expiration of at least 100 has ID=", lower->id, " and expiration=", lower->get_expiration(), "\n");
};
} /// limit_order_table
namespace limit_order_table {
extern "C" {
/// The apply method implements the dispatch of events to this contract
void apply( uint64_t code, uint64_t action ) {
require_auth( code );
eosio_assert( eosio::dispatch< limit_order_table, limit_order_table::issue_limit_order >( code, action ), "Could not dispatch" );
}
}
}表不能直接删除,但是,在删除所有行之后,表将自动删除。
关于如何使用EOS多索引表就分享到这里了,希望以上内容可以对大家有一定的帮助,可以学到更多知识。如果觉得文章不错,可以把它分享出去让更多的人看到。
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