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107 lines
3.1 KiB
C++
107 lines
3.1 KiB
C++
#include "stdafx.h"
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#include "test_t.h"
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#include <cassert>
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#include <stdexcept>
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test_t::action test_t::to_action(std::string value) {
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if (value == "read")
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return action::read;
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if (value == "write")
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return action::write;
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throw new std::out_of_range("Unknown action");
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}
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std::string test_t::to_string(action value) {
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if (value == action::read)
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return "read";
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if (value == action::write)
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return "write";
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throw new std::out_of_range("Unknown action");
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}
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#ifdef USE_BOOST_JSON
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test_t::test_t(const boost::json::object& serialised) {
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initialise(serialised);
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}
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test_t::test_t(const boost::json::value& serialised) {
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assert(serialised.is_object());
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initialise(serialised.get_object());
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}
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void test_t::initialise(const boost::json::object& serialised) {
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m_name = get_string(serialised, "name");
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m_initial_state = state_t(get_value(serialised, "initial"));
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m_final_state = state_t(get_value(serialised, "final"));
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const auto& cycles_array = get_array(serialised, "cycles");
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m_cycles.reserve(cycles_array.size());
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for (const auto& cycles_entry : cycles_array) {
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const auto& cycle_array = get_array(cycles_entry);
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assert(cycle_array.size() == 3);
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const auto address = get_uint16(cycle_array[0]);
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const auto contents = get_uint8(cycle_array[1]);
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const auto action = to_action((std::string)get_string(cycle_array[2]));
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m_cycles.push_back({ address, contents, action });
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}
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}
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#endif
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#ifdef USE_NLOHMANN_JSON
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test_t::test_t(const nlohmann::json& serialised) {
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assert(serialised.is_object());
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initialise(serialised);
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}
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void test_t::initialise(const nlohmann::json& serialised) {
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m_name = serialised["name"].get<std::string>();
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m_initial_state = state_t(serialised["initial"]);
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m_final_state = state_t(serialised["final"]);
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const auto& cycles_array = serialised["cycles"];
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m_cycles.reserve(cycles_array.size());
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for (const auto& cycles_entry : cycles_array) {
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assert(cycles_entry.size() == 3);
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const auto address = cycles_entry[0].get<uint16_t>();
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const auto contents = cycles_entry[1].get<uint8_t>();
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const auto action = to_action(cycles_entry[2].get<std::string>());
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m_cycles.push_back({ address, contents, action });
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}
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}
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#endif
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#ifdef USE_JSONCPP_JSON
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test_t::test_t(const Json::Value& serialised) {
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assert(serialised.isObject());
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initialise(serialised);
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}
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void test_t::initialise(const Json::Value& serialised) {
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m_name = serialised["name"].asString();
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m_initial_state = state_t(serialised["initial"]);
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m_final_state = state_t(serialised["final"]);
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const auto& cycles_array = serialised["cycles"];
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m_cycles.reserve(cycles_array.size());
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for (const auto& cycles_entry : cycles_array) {
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assert(cycles_entry.size() == 3);
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const auto address = cycles_entry[0].asUInt();
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const auto contents = cycles_entry[1].asUInt();
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const auto action = to_action(cycles_entry[2].asString());
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m_cycles.push_back({ address, contents, action });
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}
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}
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#endif
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