v811_spc009/external/parameter-framework/upstream/test/functional-tests/FixedPoint.cpp

/*
 * Copyright (c) 2017, Intel Corporation
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 * may be used to endorse or promote products derived from this software without
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#include "Config.hpp"
#include "ParameterFramework.hpp"
#include "ElementHandle.hpp"
#include "Test.hpp"

#include <catch.hpp>

#include <string>

using std::string;

namespace parameterFramework
{

const auto validFixedPointInstances =
    Config{&Config::instances,
           // Default for integers is unsigned/32bits
           R"(<FixedPointParameter Name="nominal" Size="16" Integral="2" Fractional="7"/>)"};
const auto &invalidFixedPointParameters =
    Tests<string>{{"U8 Dec + Fractional > 7",
                   "<FixedPointParameter Name='q2.6' Size='8' Integral='2' Fractional='6'/>"},
                  {"U16 Dec + Fractional > 15",
                   "<FixedPointParameter Name='q9.7' Size='16' Integral='9' Fractional='7'/>"},
                  {"U32 Fractional > 31",
                   "<FixedPointParameter Name='q0.32' Size='32' Integral='0' Fractional='32'/>"}};

struct FixedPointPF : public ParameterFramework
{
    FixedPointPF() : ParameterFramework{std::move(validFixedPointInstances)} {}
};

SCENARIO_METHOD(LazyPF, "Invalid FixedPoint types XML structure", "[FixedPoint types]")
{
    for (auto &vec : invalidFixedPointParameters) {
        GIVEN ("intentional error: " + vec.title) {
            create(Config{&Config::instances, vec.payload});
            THEN ("Start should fail") {
                CHECK_THROWS_AS(mPf->start(), Exception);
            }
        }
    }
}

SCENARIO_METHOD(FixedPointPF, "FixedPoint types", "[FixedPoint types]")
{
    GIVEN ("A valid XML structure file") {
        THEN ("Start should succeed") {
            CHECK_NOTHROW(start());
            REQUIRE_NOTHROW(setTuningMode(true));
            string path = "/test/test/nominal";

            AND_THEN ("Set/Get a Fixed Point type parameter in real value space") {
                for (auto &vec : Tests<string>{
                         {"(too high)", "4.0000000"},
                         {"(too low)", "-4.0078125"},
                         {"(not a number)", "foobar"},
                     }) {
                    GIVEN ("Invalid value " + vec.title) {
                        CHECK_THROWS_AS(setParameter(path, vec.payload), Exception);
                    }
                }
                for (auto &vec : Tests<string>{
                         {"(upper limit)", "3.9921875"},
                         {"(lower limit)", "-4.0000000"},
                         {"(inside range)", "0.0000000"},
                     }) {
                    GIVEN ("A valid value " + vec.title) {
                        CHECK_NOTHROW(setParameter(path, vec.payload));
                        string getValueBack;
                        REQUIRE_NOTHROW(getParameter(path, getValueBack));
                        CHECK(getValueBack == vec.payload);
                    }
                }
            }
            AND_THEN ("Set/Get a Fixed Point parameter in raw value space") {
                REQUIRE_NOTHROW(setRawValueSpace(true));

                for (auto &vec : Tests<string>{
                         {"(upper limit) as decimal", "32767"},
                         {"(lower limit) as decimal", "-32768"},
                         {"(inside range) as decimal", "0"},
                     }) {
                    GIVEN ("A valid value " + vec.title) {
                        CHECK_NOTHROW(setParameter(path, vec.payload));
                        string getValueBack;
                        REQUIRE_NOTHROW(getParameter(path, getValueBack));
                        CHECK(getValueBack == vec.payload);
                    }
                }
                for (auto &vec : Tests<string>{
                         {"(too high)", "32768"}, {"(too low)", "-32769"},
                     }) {
                    GIVEN ("Invalid value interger" + vec.title) {
                        CHECK_THROWS_AS(setParameter(path, vec.payload), Exception);
                    }
                }
                for (auto &vec : Tests<string>{
                         {"(too high)", "0x10000"}, {"(too low)", "0xfffe0000"},
                     }) {
                    GIVEN ("Invalid value hexa" + vec.title) {
                        CHECK_THROWS_AS(setParameter(path, vec.payload), Exception);
                    }
                }
            }
        }
    }
}
}