#include #define IW4X_MODEL_VERSION 3 namespace Assets { void IXModel::load(Game::XAssetHeader* header, std::string name, Components::ZoneBuilder::Zone* builder) { Components::FileSystem::File modelFile(fmt::sprintf("xmodel/%s.iw4xModel", name.data())); if (modelFile.exists()) { Game::XModel* baseModel = Components::AssetHandler::FindOriginalAsset(Game::XAssetType::ASSET_TYPE_XMODEL, "viewmodel_mp5k").model; // Allocate new model and copy the base data to it Game::XModel* model = builder->getAllocator()->allocate(); std::memcpy(model, baseModel, sizeof(Game::XModel)); Utils::Stream::Reader reader(builder->getAllocator(), modelFile.getBuffer()); if (reader.read<__int64>() != *reinterpret_cast<__int64*>("IW4xModl")) { Components::Logger::Error(0, "Reading model '%s' failed, header is invalid!", name.data()); } int version = reader.read(); if (version != IW4X_MODEL_VERSION) { Components::Logger::Error(0, "Reading model '%s' failed, expected version is %d, but it was %d!", name.data(), IW4X_MODEL_VERSION, version); } model->name = reader.readCString(); model->numBones = reader.readByte(); model->numRootBones = reader.readByte(); model->numSurfaces = reader.read(); model->numColSurfs = reader.read(); model->numLods = static_cast(reader.read()); model->collLod = reader.read(); // Read bone names model->boneNames = builder->getAllocator()->allocateArray(model->numBones); for (int i = 0; i < model->numBones; ++i) { model->boneNames[i] = Game::SL_GetString(reader.readCString(), 0); } // Bone count int boneCount = (model->numBones - model->numRootBones); // Read bone data model->parentList = reader.readArray(boneCount); model->tagAngles = reader.readArray(boneCount); model->tagPositions = reader.readArray(boneCount); model->partClassification = reader.readArray(boneCount); model->animMatrix = reader.readArray(boneCount); // Prepare surfaces Game::XModelSurfs surf; Utils::Memory::Allocator allocator; Game::XSurface* baseSurface = &baseModel->lods[0].modelSurfs[0].surfaces[0]; std::memcpy(&surf, baseModel->lods[0].modelSurfs, sizeof(Game::XModelSurfs)); surf.surfaces = allocator.allocateArray(model->numSurfaces); surf.numSurfaces = model->numSurfaces; for (int i = 0; i < 4; ++i) { model->lods[i].dist = reader.read(); model->lods[i].numsurfs = reader.read(); model->lods[i].surfIndex = reader.read(); model->lods[i].partBits[0] = reader.read(); model->lods[i].partBits[1] = reader.read(); model->lods[i].partBits[2] = reader.read(); model->lods[i].partBits[3] = reader.read(); model->lods[i].partBits[4] = 0; model->lods[i].partBits[5] = 0; } // Read surfaces for (int i = 0; i < surf.numSurfaces; ++i) { Game::XSurface* surface = &surf.surfaces[i]; std::memcpy(surface, baseSurface, sizeof(Game::XSurface)); surface->tileMode = reader.read(); surface->deformed = reader.read(); surface->streamHandle = reader.read(); surface->partBits[0] = reader.read(); surface->partBits[1] = reader.read(); surface->partBits[2] = reader.read(); surface->partBits[3] = reader.read(); surface->partBits[4] = 0; surface->partBits[5] = 0; surface->baseTriIndex = reader.read(); surface->baseVertIndex = reader.read(); surface->numVertices = reader.read(); surface->numPrimitives = reader.read(); surface->numCT = reader.read(); surface->blendNum1 = reader.read(); surface->blendNum2 = reader.read(); surface->blendNum3 = reader.read(); surface->blendNum4 = reader.read(); surface->blendInfo = reinterpret_cast(reader.read(2, surface->blendNum1 + (3 * surface->blendNum2) + (5 * surface->blendNum3) + (7 * surface->blendNum4))); surface->vertexBuffer = reader.readArray(surface->numVertices); surface->indexBuffer = reader.readArray(surface->numPrimitives); // Read vert list if (reader.readByte()) { surface->ct = reader.readArray(surface->numCT); for (int j = 0; j < surface->numCT; ++j) { Game::XRigidVertList* vertList = &surface->ct[j]; vertList->entry = reader.readArray(); vertList->entry->node = reinterpret_cast(reader.read(16, vertList->entry->numNode)); vertList->entry->leaf = reader.readArray(vertList->entry->numLeaf); } } else { surface->ct = nullptr; } } // When all surfaces are loaded, split them up. for (char i = 0; i < model->numLods; ++i) { Game::XModelSurfs* realSurf = builder->getAllocator()->allocate(); // Usually, a binary representation is used for the index, but meh. realSurf->name = builder->getAllocator()->duplicateString(fmt::sprintf("%s_lod%d", model->name, i & 0xFF)); realSurf->numSurfaces = model->lods[i].numsurfs; realSurf->surfaces = builder->getAllocator()->allocateArray(realSurf->numSurfaces); std::memcpy(realSurf->surfaces, &surf.surfaces[model->lods[i].surfIndex], sizeof(Game::XSurface) * realSurf->numSurfaces); std::memcpy(realSurf->partBits, model->lods[i].partBits, sizeof(realSurf->partBits)); model->lods[i].modelSurfs = realSurf; model->lods[i].surfs = realSurf->surfaces; // Store surfs for later writing Components::AssetHandler::StoreTemporaryAsset(Game::XAssetType::ASSET_TYPE_XMODELSURFS, { realSurf }); } // Read materials model->materials = builder->getAllocator()->allocateArray(model->numSurfaces); for (unsigned char i = 0; i < model->numSurfaces; ++i) { model->materials[i] = Components::AssetHandler::FindAssetForZone(Game::XAssetType::ASSET_TYPE_MATERIAL, reader.readString(), builder).material; } // Read collision surfaces if (reader.readByte()) { model->colSurf = reader.readArray(model->numColSurfs); for (int i = 0; i < model->numColSurfs; ++i) { if (model->colSurf[i].collTris) { model->colSurf[i].collTris = reader.readArray(model->colSurf[i].numCollTris); } } } else { model->colSurf = nullptr; } // Read bone info if (reader.readByte()) { model->boneInfo = reader.readArray(model->numBones); } else { model->boneInfo = nullptr; } if (!reader.end()) { Components::Logger::Error(0, "Reading model '%s' failed, remaining raw data found!", name.data()); } header->model = model; } } void IXModel::mark(Game::XAssetHeader header, Components::ZoneBuilder::Zone* builder) { Game::XModel* asset = header.model; if (asset->boneNames) { for (char i = 0; i < asset->numBones; ++i) { builder->addScriptString(asset->boneNames[i]); } } if (asset->materials) { for (unsigned char i = 0; i < asset->numSurfaces; ++i) { if (asset->materials[i]) { builder->loadAsset(Game::XAssetType::ASSET_TYPE_MATERIAL, asset->materials[i]); } } } for (int i = 0; i < 4; ++i) { if (asset->lods[i].modelSurfs) { builder->loadAsset(Game::XAssetType::ASSET_TYPE_XMODELSURFS, asset->lods[i].modelSurfs); } } if (asset->physPreset) { builder->loadAsset(Game::XAssetType::ASSET_TYPE_PHYSPRESET, asset->physPreset); } if (asset->physCollmap) { builder->loadAsset(Game::XAssetType::ASSET_TYPE_PHYS_COLLMAP, asset->physCollmap); } } void IXModel::save(Game::XAssetHeader header, Components::ZoneBuilder::Zone* builder) { AssertSize(Game::XModel, 304); Utils::Stream* buffer = builder->getBuffer(); Game::XModel* asset = header.model; Game::XModel* dest = buffer->dest(); buffer->save(asset); buffer->pushBlock(Game::XFILE_BLOCK_VIRTUAL); if (asset->name) { buffer->saveString(builder->getAssetName(this->getType(), asset->name)); Utils::Stream::ClearPointer(&dest->name); } if (asset->boneNames) { buffer->align(Utils::Stream::ALIGN_2); unsigned short* destBoneNames = buffer->dest(); buffer->saveArray(asset->boneNames, asset->numBones); for (char i = 0; i < asset->numBones; ++i) { builder->mapScriptString(&destBoneNames[i]); } Utils::Stream::ClearPointer(&dest->boneNames); } if (asset->parentList) { buffer->save(asset->parentList, asset->numBones - asset->numRootBones); Utils::Stream::ClearPointer(&dest->parentList); } if (asset->tagAngles) { AssertSize(Game::XModelAngle, 8); buffer->align(Utils::Stream::ALIGN_2); buffer->saveArray(asset->tagAngles, asset->numBones - asset->numRootBones); Utils::Stream::ClearPointer(&dest->tagAngles); } if (asset->tagPositions) { AssertSize(Game::XModelTagPos, 12); buffer->align(Utils::Stream::ALIGN_4); buffer->saveArray(asset->tagPositions, asset->numBones - asset->numRootBones); Utils::Stream::ClearPointer(&dest->tagPositions); } if (asset->partClassification) { buffer->save(asset->partClassification, asset->numBones); Utils::Stream::ClearPointer(&dest->partClassification); } if (asset->animMatrix) { AssertSize(Game::DObjAnimMat, 32); buffer->align(Utils::Stream::ALIGN_4); buffer->saveArray(asset->animMatrix, asset->numBones); Utils::Stream::ClearPointer(&dest->animMatrix); } if (asset->materials) { buffer->align(Utils::Stream::ALIGN_4); Game::Material** destMaterials = buffer->dest(); buffer->saveArray(asset->materials, asset->numSurfaces); for (unsigned char i = 0; i < asset->numSurfaces; ++i) { if (asset->materials[i]) { destMaterials[i] = builder->saveSubAsset(Game::XAssetType::ASSET_TYPE_MATERIAL, asset->materials[i]).material; } } Utils::Stream::ClearPointer(&dest->materials); } // Save_XModelLodInfoArray { AssertSize(Game::XModelLodInfo, 44); for (int i = 0; i < 4; ++i) { if (asset->lods[i].modelSurfs) { dest->lods[i].modelSurfs = builder->saveSubAsset(Game::XAssetType::ASSET_TYPE_XMODELSURFS, asset->lods[i].modelSurfs).surfaces; } } } // Save_XModelCollSurfArray if (asset->colSurf) { AssertSize(Game::XModelCollSurf, 44); buffer->align(Utils::Stream::ALIGN_4); Game::XModelCollSurf* destColSurfs = buffer->dest(); buffer->saveArray(asset->colSurf, asset->numColSurfs); for (int i = 0; i < asset->numColSurfs; ++i) { Game::XModelCollSurf* destColSurf = &destColSurfs[i]; Game::XModelCollSurf* colSurf = &asset->colSurf[i]; if (colSurf->collTris) { buffer->align(Utils::Stream::ALIGN_4); buffer->save(colSurf->collTris, 48, colSurf->numCollTris); Utils::Stream::ClearPointer(&destColSurf->collTris); } } Utils::Stream::ClearPointer(&dest->colSurf); } if (asset->boneInfo) { AssertSize(Game::XBoneInfo, 28); buffer->align(Utils::Stream::ALIGN_4); buffer->saveArray(asset->boneInfo, asset->numBones); Utils::Stream::ClearPointer(&dest->boneInfo); } if (asset->physPreset) { dest->physPreset = builder->saveSubAsset(Game::XAssetType::ASSET_TYPE_PHYSPRESET, asset->physPreset).physPreset; } if (asset->physCollmap) { dest->physCollmap = builder->saveSubAsset(Game::XAssetType::ASSET_TYPE_PHYS_COLLMAP, asset->physCollmap).physCollmap; } buffer->popBlock(); } }