This parser accepts JsonLogic rules and executes them in C++ programs.

The JsonLogic format is designed to allow you to share rules (logic) between front-end and back-end code (regardless of language difference), even to store logic along with a record in a database. JsonLogic is documented extensively at JsonLogic.com, including examples of every supported operation and a place to try out rules in your browser.

The same format can also be executed in JavaScript by the library json-logic-js

This C++ port of JsonLogic makes heavy use of Niels Lohmann's JSON library, such that each and every JSON value, be it a number, string, boolean, object or array, is treated as the unique type nlohmann::json.

In that sense, all operations and the main IJsonLogic::Apply method all have the same signature:

#include "json.hpp" // https://github.com/nlohmann/json

using namespace nlohmann;

json Apply(const json& logic, const json& data);

From the previous description and the method signature above, each argument, as well as the method's return type, can be any C++ type (typically int, double, std::string, std::map and std::vector) and its the caller's responsibility to assert that the values being passed to and received from the IJsonLogic::Apply call are the expected types, which can be done by using nlohmann/json's convenience type checker methods.

// convenience type checkers
json j;

j.is_null();
j.is_boolean();
j.is_number();
j.is_object();
j.is_array();
j.is_string();

This is the first example with actual C++ code that can be compiled and run and, as such, it contains include statements, the main function, etc. For the sake of brevity, some of these "boilerplate" lines of code will be omitted from the next examples.

#include <iostream>

#include "json_logic.h"

using namespace JsonLogic;

int main()
{
    const IJsonLogic* json_logic = JsonLogic::GetInstance();

    const json logic = R"(
        {
            "==": [1, 1]
        }
    )"_json;

    const json result = json_logic->Apply(logic);

    std::cout << std::boolalpha;
    std::cout << result << std::endl; // true

    return 0;
}

This is a simple test, equivalent to 1 == 1. A few things about the format:

1. The operator is always in the "key" position. There is only one key per JsonLogic rule.
2. The values are typically an array.
3. Each value can be a string, number, boolean, array, or null

Here we're beginning to nest rules.

const json logic = R"(
    {
        "and": [
            { ">": [3, 1] },
            { "<": [1, 3] }
        ]
    }
)"_json;

json_logic->Apply(logic); // true

Which is equivalent to the C++ statement:

((3 > 1) && (1 < 3));

Obviously these rules aren't very interesting if they can only take static literal data. Typically JsonLogic::Apply will be called with a rule object and a data object. You can use the var operator to get attributes of the data object:

const json logic = R"(
    {
        "var": ["a"]
    }
)"_json;

const json data = R"(
    {
        "a": 1,
        "b": 2
    }
)"_json;

json_logic->Apply(logic, data); // 1

If you like, we support syntactic sugar on unary operators to skip the array around values:

{
    "var": "a"
}

You can also use the var operator to access an array by numeric index:

const json logic = R"(
    {
        "var": 1
    }
)"_json;

const json data = R"(
    [
        "apple",
        "banana",
        "carrot"
    ]
)"_json;

json_logic->Apply(logic, data); // "banana"

Here's a complex rule that mixes literals and data. The pie isn't ready to eat unless it's cooler than 110 degrees, and filled with apples.

const json logic = R"(
    {
        "and": [
            { "<": [{ "var": "temp" }, 110] },
            { "==": [{ "var": "pie.filling" }, "apple"] }
        ]
    }
)"_json;

const json data = R"(
    {
        "temp": 100,
        "pie": {
            "filling": "apple"
        }
    }
)"_json;

json_logic->Apply(logic, data); // true

Sometimes the rule you want to process is "Always" or "Never". If the first parameter passed to JsonLogic::Apply is a non-object, non-associative-array, it is returned immediately.

const json data = R"(
    {
        "will_this_be_ignored": true
    }
)"_json;

// Always
json_logic->Apply(true, data); // true

// Never
json_logic->Apply(false, data); // false

The best way to use this library on your C++ application is via CMake:

cmake_minimum_required(VERSION 3.18)
project(my-app VERSION 0.1 LANGUAGES CXX)

set(CMAKE_CXX_STANDARD 17)

# Assuming that json-logic-cpp was added under the lib directory
include_directories(lib/json-logic-cpp/src)

add_executable(${PROJECT_NAME} main.cpp)

target_link_libraries(
        ${PROJECT_NAME}

        jsonlogic
)

add_subdirectory(lib/json-logic-cpp)