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// Copyright 2016 Dolphin Emulator Project / 2017 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.

#include <catch2/catch.hpp>

#include <array>
#include <bitset>
#include <chrono>
#include <cstdlib>
#include <memory>
#include <string>

#include "common/file_util.h"
#include "core/core.h"
#include "core/core_timing.h"

namespace {
// Numbers are chosen randomly to make sure the correct one is given.
constexpr std::array<u64, 5> CB_IDS{{42, 144, 93, 1026, UINT64_C(0xFFFF7FFFF7FFFF)}};
constexpr std::array<u64, 5> calls_order{{2, 0, 1, 4, 3}};
std::array<s64, 5> delays{};

std::bitset<CB_IDS.size()> callbacks_ran_flags;
u64 expected_callback = 0;

template <unsigned int IDX>
void HostCallbackTemplate(u64 userdata, std::chrono::nanoseconds ns_late) {
    static_assert(IDX < CB_IDS.size(), "IDX out of range");
    callbacks_ran_flags.set(IDX);
    REQUIRE(CB_IDS[IDX] == userdata);
    REQUIRE(CB_IDS[IDX] == CB_IDS[calls_order[expected_callback]]);
    delays[IDX] = ns_late.count();
    ++expected_callback;
}

struct ScopeInit final {
    ScopeInit() {
        core_timing.SetMulticore(true);
        core_timing.Initialize([]() {});
    }
    ~ScopeInit() {
        core_timing.Shutdown();
    }

    Core::Timing::CoreTiming core_timing;
};

#pragma optimize("", off)

u64 TestTimerSpeed(Core::Timing::CoreTiming& core_timing) {
    u64 start = core_timing.GetGlobalTimeNs().count();
    u64 placebo = 0;
    for (std::size_t i = 0; i < 1000; i++) {
        placebo += core_timing.GetGlobalTimeNs().count();
    }
    u64 end = core_timing.GetGlobalTimeNs().count();
    return (end - start);
}

#pragma optimize("", on)

} // Anonymous namespace

TEST_CASE("CoreTiming[BasicOrder]", "[core]") {
    ScopeInit guard;
    auto& core_timing = guard.core_timing;
    std::vector<std::shared_ptr<Core::Timing::EventType>> events{
        Core::Timing::CreateEvent("callbackA", HostCallbackTemplate<0>),
        Core::Timing::CreateEvent("callbackB", HostCallbackTemplate<1>),
        Core::Timing::CreateEvent("callbackC", HostCallbackTemplate<2>),
        Core::Timing::CreateEvent("callbackD", HostCallbackTemplate<3>),
        Core::Timing::CreateEvent("callbackE", HostCallbackTemplate<4>),
    };

    expected_callback = 0;

    core_timing.SyncPause(true);

    const u64 one_micro = 1000U;
    for (std::size_t i = 0; i < events.size(); i++) {
        const u64 order = calls_order[i];
        const auto future_ns = std::chrono::nanoseconds{static_cast<s64>(i * one_micro + 100)};

        core_timing.ScheduleEvent(future_ns, events[order], CB_IDS[order]);
    }
    /// test pause
    REQUIRE(callbacks_ran_flags.none());

    core_timing.Pause(false); // No need to sync

    while (core_timing.HasPendingEvents())
        ;

    REQUIRE(callbacks_ran_flags.all());

    for (std::size_t i = 0; i < delays.size(); i++) {
        const double delay = static_cast<double>(delays[i]);
        const double micro = delay / 1000.0f;
        const double mili = micro / 1000.0f;
        printf("HostTimer Pausing Delay[%zu]: %.3f %.6f\n", i, micro, mili);
    }
}

TEST_CASE("CoreTiming[BasicOrderNoPausing]", "[core]") {
    ScopeInit guard;
    auto& core_timing = guard.core_timing;
    std::vector<std::shared_ptr<Core::Timing::EventType>> events{
        Core::Timing::CreateEvent("callbackA", HostCallbackTemplate<0>),
        Core::Timing::CreateEvent("callbackB", HostCallbackTemplate<1>),
        Core::Timing::CreateEvent("callbackC", HostCallbackTemplate<2>),
        Core::Timing::CreateEvent("callbackD", HostCallbackTemplate<3>),
        Core::Timing::CreateEvent("callbackE", HostCallbackTemplate<4>),
    };

    core_timing.SyncPause(true);
    core_timing.SyncPause(false);

    expected_callback = 0;

    const u64 start = core_timing.GetGlobalTimeNs().count();
    const u64 one_micro = 1000U;

    for (std::size_t i = 0; i < events.size(); i++) {
        const u64 order = calls_order[i];
        const auto future_ns = std::chrono::nanoseconds{static_cast<s64>(i * one_micro + 100)};
        core_timing.ScheduleEvent(future_ns, events[order], CB_IDS[order]);
    }

    const u64 end = core_timing.GetGlobalTimeNs().count();
    const double scheduling_time = static_cast<double>(end - start);
    const double timer_time = static_cast<double>(TestTimerSpeed(core_timing));

    while (core_timing.HasPendingEvents())
        ;

    REQUIRE(callbacks_ran_flags.all());

    for (std::size_t i = 0; i < delays.size(); i++) {
        const double delay = static_cast<double>(delays[i]);
        const double micro = delay / 1000.0f;
        const double mili = micro / 1000.0f;
        printf("HostTimer No Pausing Delay[%zu]: %.3f %.6f\n", i, micro, mili);
    }

    const double micro = scheduling_time / 1000.0f;
    const double mili = micro / 1000.0f;
    printf("HostTimer No Pausing Scheduling Time: %.3f %.6f\n", micro, mili);
    printf("HostTimer No Pausing Timer Time: %.3f %.6f\n", timer_time / 1000.f,
           timer_time / 1000000.f);
}