OpenAssetTools/src/ObjLoading/Game/IW4/AssetLoaders/AssetLoaderWeapon.cpp

#include "AssetLoaderWeapon.h"

#include "Game/IW4/IW4.h"
#include "Game/IW4/InfoString/EnumStrings.h"
#include "Game/IW4/InfoString/InfoStringToStructConverter.h"
#include "Game/IW4/InfoString/WeaponFields.h"
#include "Game/IW4/ObjConstantsIW4.h"
#include "InfoString/InfoString.h"
#include "ObjLoading.h"
#include "Pool/GlobalAssetPool.h"
#include "Utils/StringUtils.h"

#include <cstring>
#include <format>
#include <iostream>

using namespace IW4;

namespace
{
    class InfoStringToWeaponConverter final : public InfoStringToStructConverter
    {
        bool ConvertHideTags(const cspField_t& field, const std::string& value)
        {
            std::vector<std::string> valueArray;
            if (!ParseAsArray(value, valueArray))
            {
                std::cerr << "Failed to parse hide tags as array\n";
                return false;
            }

            if (valueArray.size() > std::extent_v<decltype(WeaponFullDef::hideTags)>)
            {
                std::cerr << "Cannot have more than " << std::extent_v<decltype(WeaponFullDef::hideTags)> << " hide tags!\n";
                return false;
            }

            auto* hideTags = reinterpret_cast<scr_string_t*>(reinterpret_cast<uintptr_t>(m_structure) + field.iOffset);

            if (valueArray.size() < std::extent_v<decltype(WeaponFullDef::hideTags)>)
            {
                m_used_script_string_list.emplace(m_zone_script_strings.AddOrGetScriptString(nullptr));
            }

            auto currentHideTag = 0u;
            for (; currentHideTag < valueArray.size(); currentHideTag++)
            {
                const auto& currentValue = valueArray[currentHideTag];
                const auto scrString =
                    !currentValue.empty() ? m_zone_script_strings.AddOrGetScriptString(currentValue) : m_zone_script_strings.AddOrGetScriptString(nullptr);
                hideTags[currentHideTag] = scrString;
                m_used_script_string_list.emplace(scrString);
            }

            for (; currentHideTag < std::extent_v<decltype(WeaponFullDef::hideTags)>; currentHideTag++)
            {
                hideTags[currentHideTag] = m_zone_script_strings.GetScriptString(nullptr);
            }

            return true;
        }

        _NODISCARD bool ConvertBounceSounds(const cspField_t& field, const std::string& value) const
        {
            auto** bounceSound = reinterpret_cast<SndAliasCustom**>(reinterpret_cast<uintptr_t>(m_structure) + field.iOffset);
            if (value.empty())
            {
                *bounceSound = nullptr;
                return true;
            }

            assert(std::extent_v<decltype(bounceSoundSuffixes)> == SURF_TYPE_NUM);
            *bounceSound = m_memory->Alloc<SndAliasCustom>(SURF_TYPE_NUM);
            for (auto i = 0u; i < SURF_TYPE_NUM; i++)
            {
                const auto currentBounceSound = value + bounceSoundSuffixes[i];

                (*bounceSound)[i].name = m_memory->Alloc<snd_alias_list_name>();
                (*bounceSound)[i].name->soundName = m_memory->Dup(currentBounceSound.c_str());
            }

            return true;
        }

        _NODISCARD bool ConvertNotetrackMap(const cspField_t& field, const std::string& value, const char* mapName, const size_t keyAndValueCount)
        {
            std::vector<std::array<std::string, 2>> pairs;
            if (!ParseAsArray(value, pairs))
            {
                std::cerr << "Failed to parse notetrack" << mapName << "map as pairs\n";
                return false;
            }

            if (pairs.size() > std::extent_v<decltype(WeaponFullDef::notetrackSoundMapKeys)>)
            {
                std::cerr << "Cannot have more than " << std::extent_v<decltype(WeaponFullDef::notetrackSoundMapKeys)> << " notetrack" << mapName
                          << "map entries!\n";
                return false;
            }

            auto* keys = reinterpret_cast<scr_string_t*>(reinterpret_cast<uintptr_t>(m_structure) + field.iOffset);
            auto* values = &keys[keyAndValueCount];
            auto currentEntryNum = 0u;

            if (pairs.size() < keyAndValueCount)
            {
                m_used_script_string_list.emplace(m_zone_script_strings.AddOrGetScriptString(nullptr));
            }

            for (; currentEntryNum < pairs.size(); currentEntryNum++)
            {
                const auto& currentValue = pairs[currentEntryNum];
                const auto keyScriptString = !currentValue[0].empty() ? m_zone_script_strings.AddOrGetScriptString(currentValue[0])
                                                                      : m_zone_script_strings.AddOrGetScriptString(nullptr);
                const auto valueScriptString = !currentValue[1].empty() ? m_zone_script_strings.AddOrGetScriptString(currentValue[1])
                                                                        : m_zone_script_strings.AddOrGetScriptString(nullptr);

                keys[currentEntryNum] = keyScriptString;
                m_used_script_string_list.emplace(keyScriptString);

                values[currentEntryNum] = valueScriptString;
                m_used_script_string_list.emplace(valueScriptString);
            }

            for (; currentEntryNum < keyAndValueCount; currentEntryNum++)
            {
                const auto emptyScr = m_zone_script_strings.GetScriptString(nullptr);
                keys[currentEntryNum] = emptyScr;
                values[currentEntryNum] = emptyScr;
            }

            return true;
        }

        bool ConvertAnimName(const cspField_t& field, const std::string& value)
        {
            if (ConvertString(value, field.iOffset))
            {
                if (!value.empty())
                    m_indirect_asset_references.emplace(m_loading_manager->LoadIndirectAssetReference<AssetXAnim>(value));

                return true;
            }

            return false;
        }

    protected:
        bool ConvertExtensionField(const cspField_t& field, const std::string& value) override
        {
            switch (static_cast<weapFieldType_t>(field.iFieldType))
            {
            case WFT_WEAPONTYPE:
                return ConvertEnumInt(value, field.iOffset, szWeapTypeNames, std::extent_v<decltype(szWeapTypeNames)>);

            case WFT_WEAPONCLASS:
                return ConvertEnumInt(value, field.iOffset, szWeapClassNames, std::extent_v<decltype(szWeapClassNames)>);

            case WFT_OVERLAYRETICLE:
                return ConvertEnumInt(value, field.iOffset, szWeapOverlayReticleNames, std::extent_v<decltype(szWeapOverlayReticleNames)>);

            case WFT_PENETRATE_TYPE:
                return ConvertEnumInt(value, field.iOffset, penetrateTypeNames, std::extent_v<decltype(penetrateTypeNames)>);

            case WFT_IMPACT_TYPE:
                return ConvertEnumInt(value, field.iOffset, impactTypeNames, std::extent_v<decltype(impactTypeNames)>);

            case WFT_STANCE:
                return ConvertEnumInt(value, field.iOffset, szWeapStanceNames, std::extent_v<decltype(szWeapStanceNames)>);

            case WFT_PROJ_EXPLOSION:
                return ConvertEnumInt(value, field.iOffset, szProjectileExplosionNames, std::extent_v<decltype(szProjectileExplosionNames)>);

            case WFT_OFFHAND_CLASS:
                return ConvertEnumInt(value, field.iOffset, offhandClassNames, std::extent_v<decltype(offhandClassNames)>);

            case WFT_ANIMTYPE:
                return ConvertEnumInt(value, field.iOffset, playerAnimTypeNames, std::extent_v<decltype(playerAnimTypeNames)>);

            case WFT_ACTIVE_RETICLE_TYPE:
                return ConvertEnumInt(value, field.iOffset, activeReticleNames, std::extent_v<decltype(activeReticleNames)>);

            case WFT_GUIDED_MISSILE_TYPE:
                return ConvertEnumInt(value, field.iOffset, guidedMissileNames, std::extent_v<decltype(guidedMissileNames)>);

            case WFT_BOUNCE_SOUND:
                return ConvertBounceSounds(field, value);

            case WFT_STICKINESS:
                return ConvertEnumInt(value, field.iOffset, stickinessNames, std::extent_v<decltype(stickinessNames)>);

            case WFT_OVERLAYINTERFACE:
                return ConvertEnumInt(value, field.iOffset, overlayInterfaceNames, std::extent_v<decltype(overlayInterfaceNames)>);

            case WFT_INVENTORYTYPE:
                return ConvertEnumInt(value, field.iOffset, szWeapInventoryTypeNames, std::extent_v<decltype(szWeapInventoryTypeNames)>);

            case WFT_FIRETYPE:
                return ConvertEnumInt(value, field.iOffset, szWeapFireTypeNames, std::extent_v<decltype(szWeapFireTypeNames)>);

            case WFT_AMMOCOUNTER_CLIPTYPE:
                return ConvertEnumInt(value, field.iOffset, ammoCounterClipNames, std::extent_v<decltype(ammoCounterClipNames)>);

            case WFT_ICONRATIO_HUD:
            case WFT_ICONRATIO_PICKUP:
            case WFT_ICONRATIO_AMMOCOUNTER:
            case WFT_ICONRATIO_KILL:
            case WFT_ICONRATIO_DPAD:
                return ConvertEnumInt(value, field.iOffset, weapIconRatioNames, std::extent_v<decltype(weapIconRatioNames)>);

            case WFT_HIDETAGS:
                return ConvertHideTags(field, value);

            case WFT_NOTETRACKSOUNDMAP:
                return ConvertNotetrackMap(field, value, "sound", std::extent_v<decltype(WeaponFullDef::notetrackSoundMapKeys)>);

            case WFT_NOTETRACKRUMBLEMAP:
                return ConvertNotetrackMap(field, value, "rumble", std::extent_v<decltype(WeaponFullDef::notetrackRumbleMapKeys)>);

            case WFT_ANIM_NAME:
                return ConvertAnimName(field, value);

            default:
                assert(false);
                return false;
            }
        }

    public:
        InfoStringToWeaponConverter(const InfoString& infoString,
                                    WeaponFullDef* weaponFullDef,
                                    ZoneScriptStrings& zoneScriptStrings,
                                    MemoryManager* memory,
                                    IAssetLoadingManager* manager,
                                    const cspField_t* fields,
                                    const size_t fieldCount)
            : InfoStringToStructConverter(infoString, weaponFullDef, zoneScriptStrings, memory, manager, fields, fieldCount)
        {
        }
    };

    void InitWeaponFullDef(WeaponFullDef* weapon)
    {
        weapon->weapCompleteDef.weapDef = &weapon->weapDef;
        weapon->weapCompleteDef.hideTags = weapon->hideTags;
        weapon->weapCompleteDef.szXAnims = weapon->szXAnims;
        weapon->weapDef.gunXModel = weapon->gunXModel;
        weapon->weapDef.szXAnimsRightHanded = weapon->szXAnimsRightHanded;
        weapon->weapDef.szXAnimsLeftHanded = weapon->szXAnimsLeftHanded;
        weapon->weapDef.notetrackSoundMapKeys = weapon->notetrackSoundMapKeys;
        weapon->weapDef.notetrackSoundMapValues = weapon->notetrackSoundMapValues;
        weapon->weapDef.notetrackRumbleMapKeys = weapon->notetrackRumbleMapKeys;
        weapon->weapDef.notetrackRumbleMapValues = weapon->notetrackRumbleMapValues;
        weapon->weapDef.worldModel = weapon->worldModel;
        weapon->weapDef.parallelBounce = weapon->parallelBounce;
        weapon->weapDef.perpendicularBounce = weapon->perpendicularBounce;
        weapon->weapDef.locationDamageMultipliers = weapon->locationDamageMultipliers;

        for (const auto& field : weapon_fields)
        {
            if (field.iFieldType != CSPFT_STRING)
                continue;

            *reinterpret_cast<const char**>(reinterpret_cast<char*>(weapon) + field.iOffset) = "";
        }
    }

    void CheckProjectileValues(const WeaponCompleteDef& weaponCompleteDef, const WeaponDef& weaponDef)
    {
        if (weaponDef.iProjectileSpeed <= 0)
            std::cerr << std::format("Projectile speed for WeapType {} must be greater than 0.0", weaponCompleteDef.szDisplayName);
        if (weaponDef.destabilizationCurvatureMax >= 1000000000.0f || weaponDef.destabilizationCurvatureMax < 0.0f)
            std::cerr << std::format("Destabilization angle for for WeapType {} must be between 0 and 45 degrees", weaponCompleteDef.szDisplayName);
        if (weaponDef.destabilizationRateTime < 0.0f)
            std::cerr << std::format("Destabilization rate time for for WeapType {} must be non-negative", weaponCompleteDef.szDisplayName);
    }

    void CheckTurretBarrelSpin(const WeaponCompleteDef& weaponCompleteDef, const WeaponDef& weaponDef)
    {
        if (weaponDef.weapClass != WEAPCLASS_TURRET)
            std::cerr << std::format("Rotating barrel set for non-turret weapon {}.", weaponCompleteDef.szInternalName);

        if (0.0f == weaponDef.turretBarrelSpinSpeed)
        {
            std::cerr << std::format(
                "Rotating barrel spin speed '{}' is invalid for weapon {}.", weaponDef.turretBarrelSpinSpeed, weaponCompleteDef.szInternalName);
        }
        if (0.0f < weaponDef.turretOverheatUpRate && 0.0f >= weaponDef.turretOverheatDownRate)
        {
            std::cerr << std::format("Turret overheat Up rate is set, but the down rate '{}' is invalid for weapon {}.",
                                     weaponDef.turretOverheatDownRate,
                                     weaponCompleteDef.szInternalName);
        }
    }

    void CheckThermalScope(const WeaponCompleteDef& weaponCompleteDef, const WeaponDef& weaponDef)
    {
        if (0.0f != weaponDef.fAdsZoomInFrac)
        {
            std::cerr << std::format("Weapon {} ({}) has thermal scope set. ADS Zoom In frac should be 0 to prevent zoom-in blur ({}).\n",
                                     weaponCompleteDef.szInternalName,
                                     weaponCompleteDef.szDisplayName,
                                     weaponDef.fAdsZoomInFrac);
        }

        if (0.0f != weaponDef.fAdsZoomOutFrac)
        {
            std::cerr << std::format("Weapon {} ({}) has thermal scope set. ADS Zoom Out frac should be 0 to prevent zoom-out blur ({}).\n",
                                     weaponCompleteDef.szInternalName,
                                     weaponCompleteDef.szDisplayName,
                                     weaponDef.fAdsZoomOutFrac);
        }
    }

    void CalculateWeaponFields(WeaponFullDef* weapon, MemoryManager* memory)
    {
        auto& weaponCompleteDef = weapon->weapCompleteDef;
        auto& weaponDef = weapon->weapDef;

        if (!weaponDef.viewLastShotEjectEffect)
            weaponDef.viewLastShotEjectEffect = weaponDef.viewShellEjectEffect;
        if (!weaponDef.worldLastShotEjectEffect)
            weaponDef.worldLastShotEjectEffect = weaponDef.worldShellEjectEffect;

        if (weaponCompleteDef.iAdsTransInTime <= 0)
            weaponDef.fOOPosAnimLength[0] = 0.0033333334f;
        else
            weaponDef.fOOPosAnimLength[0] = 1.0f / static_cast<float>(weaponCompleteDef.iAdsTransInTime);

        if (weaponCompleteDef.iAdsTransOutTime <= 0)
            weaponDef.fOOPosAnimLength[1] = 0.0020000001f;
        else
            weaponDef.fOOPosAnimLength[1] = 1.0f / static_cast<float>(weaponCompleteDef.iAdsTransOutTime);

        if (weaponDef.fMaxDamageRange < 0.0f)
            weaponDef.fMaxDamageRange = 999999.0f;
        if (weaponDef.fMinDamageRange < 0.0f)
            weaponDef.fMinDamageRange = 999999.12f;

        if (weaponDef.enemyCrosshairRange > 15000.0f)
            std::cerr << std::format("Enemy crosshair ranges should be less than {}\n", 15000.0f);

        if (weaponDef.weapType == WEAPTYPE_PROJECTILE)
            CheckProjectileValues(weaponCompleteDef, weaponDef);

        if (weaponDef.turretBarrelSpinEnabled)
            CheckTurretBarrelSpin(weaponCompleteDef, weaponDef);

        if (weaponDef.thermalScope)
            CheckThermalScope(weaponCompleteDef, weaponDef);

        if (weaponDef.offhandClass && !weaponDef.bClipOnly)
        {
            std::cerr << std::format(
                "Weapon {} ({}) is an offhand weapon but is not set to clip only, which is not supported since we can't reload the offhand slot.\n",
                weaponCompleteDef.szInternalName,
                weaponCompleteDef.szDisplayName);
        }

        if (weaponDef.weapType == WEAPTYPE_BULLET)
        {
            if (weaponDef.bulletExplDmgMult <= 0.0f)
                std::cerr << std::format("Detected invalid bulletExplDmgMult of '{}' for weapon '{}'; please update weapon settings.\n",
                                         weaponDef.bulletExplDmgMult,
                                         weaponCompleteDef.szInternalName);
            if (weaponDef.bulletExplRadiusMult <= 0.0f)
                std::cerr << std::format("Detected invalid bulletExplRadiusMult of '{}' for weapon '{}'; please update weapon settings.\n",
                                         weaponDef.bulletExplRadiusMult,
                                         weaponCompleteDef.szInternalName);
        }
    }

    bool LoadFromInfoString(const InfoString& infoString, const std::string& assetName, MemoryManager* memory, IAssetLoadingManager* manager, Zone* zone)
    {
        auto* weaponFullDef = memory->Create<WeaponFullDef>();
        memset(weaponFullDef, 0, sizeof(WeaponFullDef));
        InitWeaponFullDef(weaponFullDef);
        weaponFullDef->weapCompleteDef.szInternalName = memory->Dup(assetName.c_str());

        InfoStringToWeaponConverter converter(
            infoString, weaponFullDef, zone->m_script_strings, memory, manager, weapon_fields, std::extent_v<decltype(weapon_fields)>);
        if (!converter.Convert())
        {
            std::cerr << "Failed to parse weapon: \"" << assetName << "\"\n";
            return true;
        }

        CalculateWeaponFields(weaponFullDef, memory);

        manager->AddAsset(ASSET_TYPE_WEAPON,
                          assetName,
                          &weaponFullDef->weapCompleteDef,
                          converter.GetDependencies(),
                          converter.GetUsedScriptStrings(),
                          converter.GetIndirectAssetReferences());

        return true;
    }
} // namespace

void* AssetLoaderWeapon::CreateEmptyAsset(const std::string& assetName, MemoryManager* memory)
{
    auto* weapon = memory->Create<WeaponCompleteDef>();
    memset(weapon, 0, sizeof(WeaponCompleteDef));
    weapon->szInternalName = memory->Dup(assetName.c_str());
    return weapon;
}

bool AssetLoaderWeapon::CanLoadFromGdt() const
{
    return true;
}

bool AssetLoaderWeapon::LoadFromGdt(
    const std::string& assetName, IGdtQueryable* gdtQueryable, MemoryManager* memory, IAssetLoadingManager* manager, Zone* zone) const
{
    const auto* gdtEntry = gdtQueryable->GetGdtEntryByGdfAndName(ObjConstants::GDF_FILENAME_WEAPON, assetName);
    if (gdtEntry == nullptr)
        return false;

    InfoString infoString;
    if (!infoString.FromGdtProperties(*gdtEntry))
    {
        std::cerr << "Failed to read weapon gdt entry: \"" << assetName << "\"\n";
        return true;
    }

    return LoadFromInfoString(infoString, assetName, memory, manager, zone);
}

bool AssetLoaderWeapon::CanLoadFromRaw() const
{
    return true;
}

bool AssetLoaderWeapon::LoadFromRaw(
    const std::string& assetName, ISearchPath* searchPath, MemoryManager* memory, IAssetLoadingManager* manager, Zone* zone) const
{
    const auto fileName = "weapons/" + assetName;
    const auto file = searchPath->Open(fileName);
    if (!file.IsOpen())
        return false;

    InfoString infoString;
    if (!infoString.FromStream(ObjConstants::INFO_STRING_PREFIX_WEAPON, *file.m_stream))
    {
        std::cerr << "Failed to read weapon raw file: \"" << fileName << "\"\n";
        return true;
    }

    return LoadFromInfoString(infoString, assetName, memory, manager, zone);
}