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How to iterate and retrieve from multi-index table based on secondary index

Overview

This guide provides instructions on how iterate and retrieve data from a multi-index table based on a secondary index defined in the multi-index table.

Reference

See the following code reference:

Before you begin

Make sure you have the following prerequisites in place:

  • An Antelope development environment, for details consult the Documentation Portal.
  • A multi-index testab table instance which stores user objects indexed by the primary key which is of type eosio::name and a secondary index for data member secondary of type eosio::name accessible through by_secondary() method. Consult the section How to define a secondary index to learn how to set it up.

Procedure

Complete the following steps to iterate, retrieve and print data from the testtab multi-index table using the secondary index.

1. Define The bysec(...) Action

Add an action to the definition of the multi-index table which takes as parameter an account name. This action will retrieve the user object stored in the multi-index based on the passed in account name parameter. The action will use the secondary index.

  [[eosio::action]] void bysec( name secid );

Optionally, for ease of use add the action wrapper definition as well.

  [[eosio::action]] void bysec( name secid );

  +using bysec_action = action_wrapper<"bysec"_n, &multi_index_example::bysec>;

2. Implement The bysec(...) Action

Search for the user name in the multi-index table using the secondary index. If found, print out the value of field datum. Otherwise raise and error with a custom message. In the contract definition add the following implementation for print action:

// iterates the multi-index table rows using the secondary index and prints the row's values
[[eosio::action]] void multi_index_example::bysec( name secid ) {
  // access the secondary index
  auto idx = testtab.get_index<"secid"_n>();
  // iterate through secondary index
  for ( auto itr = idx.begin(); itr != idx.end(); itr++ ) {
    // print each row's values
    eosio::print_f("Test Table : {%, %, %}\n", itr->test_primary, itr->secondary, itr->datum);
  }
}

3. Put It All Together

The full definition and implementation files for the contract should look like this:

multi_index_example.hpp

#include <eosio/eosio.hpp>
using namespace eosio;

// multi-index example contract class
class [[eosio::contract]] multi_index_example : public contract {
   public:
      using contract::contract;

      // contract class constructor
      multi_index_example( name receiver, name code, datastream<const char*> ds ) :
         // contract base class contructor
         contract(receiver, code, ds),
         // instantiate multi-index instance as data member (find it defined below)
         testtab(receiver, receiver.value)
         { }

      // the row structure of the multi-index table, that is, each row of the table
      // will contain an instance of this type of structure
      struct [[eosio::table]] test_table {
        // this data member stores a name for each row of the multi-index table
        name test_primary;
        name secondary;
        // additional data stored in table row
        uint64_t datum;
        // mandatory definition for primary key getter
        uint64_t primary_key( ) const { return test_primary.value; }
        uint64_t by_secondary( ) const { return secondary.value; }
      };

      // the multi-index type definition, for ease of use define a type alias `test_table_t`, 
      // based on the multi_index template type, parametarized with a random name, the 
      // test_table data structure, and the secondary index
      typedef eosio::multi_index<"testtaba"_n, test_table, eosio::indexed_by<"secid"_n, eosio::const_mem_fun<test_table, uint64_t, &test_table::by_secondary>>> test_table_t;

      // the multi-index table instance declared as a data member of type test_table_t
      test_table_t testtab;

      [[eosio::action]] void set( name user );
      [[eosio::action]] void print( name user );
      [[eosio::action]] void bysec( name secid );

      using set_action = action_wrapper<"set"_n, &multi_index_example::set>;
      using print_action = action_wrapper<"print"_n, &multi_index_example::print>;
      using bysec_action = action_wrapper<"bysec"_n, &multi_index_example::bysec>;
};

multi_index_example.cpp

#include <multi_index_example.hpp>

[[eosio::action]] void multi_index_example::set( name user ) {
  // check if the user already exists
  auto itr = testtab.find(user.value);

  if ( itr == testtab.end() ) {
    // user is not found in table, use emplace to insert a new row data structure in table
    testtab.emplace( _self, [&]( auto& u ) {
      u.test_primary = user;
      u.secondary = "second"_n;
      u.datum = 0;
    });
  }
}

[[eosio::action]] void multi_index_example::print( name user ) {
  // searches for the row that corresponds to the user parameter
  auto itr = testtab.find(user.value);
  
  // asserts if the row was found for user parameter, if fails use the given message
  check( itr != testtab.end(), "user does not exist in table" );

  // prints the test_primary and datum fields stored for user parameter
  eosio::print_f("Test Table : {%, %}\n", itr->test_primary, itr->datum);
}

// iterates the multi-index table rows using the secondary index and prints the row's values
[[eosio::action]] void multi_index_example::bysec( name secid ) {
  // access the secondary index
  auto idx = testtab.get_index<"secid"_n>();

  // iterate through secondary index
  for ( auto itr = idx.begin(); itr != idx.end(); itr++ ) {
    // print each row's values
    eosio::print_f("Test Table : {%, %, %}\n", itr->test_primary, itr->secondary, itr->datum);
  }
}

[[info | Full example location]] | A full example project demonstrating the instantiation and usage of multi-index table can be found here.

Summary

In conclusion, the above instructions show how to iterate and retrieve a multi-index table based on secondary index.

Next Steps