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/*
* Copyright (c) 2017, NVIDIA CORPORATION. All rights reserved.
*
* NVIDIA CORPORATION and its licensors retain all intellectual property
* and proprietary rights in and to this software, related documentation
* and any modifications thereto. Any use, reproduction, disclosure or
* distribution of this software and related documentation without an express
* license agreement from NVIDIA CORPORATION is strictly prohibited.
*/
#include "NvBlastExtSerializationImpl.h"
#include <memory>
#include "PxPhysicsVersion.h"
#include "PxConvexMeshGeometryDTO.h"
#include "NvBlastExtDefs.h"
#include "PxPhysics.h"
#include "NvBlastAssert.h"
// This is terrible.
physx::PxPhysics* g_Physics = nullptr;
using namespace Nv::Blast;
std::shared_ptr<physx::PxCooking> getCooking()
{
physx::PxCookingParams cookingParams(g_Physics->getTolerancesScale());
cookingParams.buildGPUData = true;
std::shared_ptr<physx::PxCooking> m_Cooking = std::shared_ptr<physx::PxCooking>(PxCreateCooking(PX_PHYSICS_VERSION, g_Physics->getFoundation(), cookingParams), [=](physx::PxCooking* cooking)
{
cooking->release();
});
NVBLASTEXT_CHECK_ERROR(m_Cooking, "Error: failed to create PhysX Cooking\n", return nullptr);
return m_Cooking;
}
extern "C"
{
NVBLAST_API void setPhysXSDK(physx::PxPhysics* physXSDK)
{
g_Physics = physXSDK;
}
//////////////////////////////////////////////////////////////////////////
// TkAsset
//////////////////////////////////////////////////////////////////////////
NVBLAST_API Nv::Blast::TkAsset* deserializeTkAsset(const unsigned char* input, uint32_t size)
{
return Nv::Blast::ExtSerialization<Nv::Blast::TkAsset, Nv::Blast::Serialization::TkAsset::Reader, Nv::Blast::Serialization::TkAsset::Builder>::deserialize(input, size);
}
NVBLAST_API Nv::Blast::TkAsset* deserializeTkAssetFromStream(std::istream &inputStream)
{
return Nv::Blast::ExtSerialization<Nv::Blast::TkAsset, Nv::Blast::Serialization::TkAsset::Reader, Nv::Blast::Serialization::TkAsset::Builder>::deserializeFromStream(inputStream);
}
NVBLAST_API bool serializeTkAssetIntoStream(const Nv::Blast::TkAsset *asset, std::ostream &outputStream)
{
return Nv::Blast::ExtSerialization<Nv::Blast::TkAsset, Nv::Blast::Serialization::TkAsset::Reader, Nv::Blast::Serialization::TkAsset::Builder>::serializeIntoStream(reinterpret_cast<const Nv::Blast::TkAsset *>(asset), outputStream);
}
NVBLAST_API bool serializeTkAssetIntoNewBuffer(const Nv::Blast::TkAsset *asset, unsigned char **outBuffer, uint32_t &outSize)
{
return Nv::Blast::ExtSerialization<Nv::Blast::TkAsset, Nv::Blast::Serialization::TkAsset::Reader, Nv::Blast::Serialization::TkAsset::Builder>::serializeIntoNewBuffer(reinterpret_cast<const Nv::Blast::TkAsset *>(asset), outBuffer, outSize);
}
NVBLAST_API bool serializeTkAssetIntoExistingBuffer(const Nv::Blast::TkAsset *asset, unsigned char *buffer, uint32_t maxSize, uint32_t &usedSize)
{
return Nv::Blast::ExtSerialization<Nv::Blast::TkAsset, Nv::Blast::Serialization::TkAsset::Reader, Nv::Blast::Serialization::TkAsset::Builder>::serializeIntoExistingBuffer(reinterpret_cast<const Nv::Blast::TkAsset *>(asset), buffer, maxSize, usedSize);
}
//////////////////////////////////////////////////////////////////////////
// ExtPxAsset
//////////////////////////////////////////////////////////////////////////
NVBLAST_API Nv::Blast::ExtPxAsset* deserializeExtPxAsset(const unsigned char* input, uint32_t size)
{
NVBLAST_ASSERT(g_Physics != nullptr);
return Nv::Blast::ExtSerialization<Nv::Blast::ExtPxAsset, Nv::Blast::Serialization::ExtPxAsset::Reader, Nv::Blast::Serialization::ExtPxAsset::Builder>::deserialize(input, size);
}
NVBLAST_API Nv::Blast::ExtPxAsset* deserializeExtPxAssetFromStream(std::istream &inputStream)
{
NVBLAST_ASSERT(g_Physics != nullptr);
return Nv::Blast::ExtSerialization<Nv::Blast::ExtPxAsset, Nv::Blast::Serialization::ExtPxAsset::Reader, Nv::Blast::Serialization::ExtPxAsset::Builder>::deserializeFromStream(inputStream);
}
NVBLAST_API bool serializeExtPxAssetIntoStream(const Nv::Blast::ExtPxAsset *asset, std::ostream &outputStream)
{
NVBLAST_ASSERT(g_Physics != nullptr);
auto cooking = getCooking();
PxConvexMeshGeometryDTO::Cooking = cooking.get();
PxConvexMeshGeometryDTO::Physics = g_Physics;
return Nv::Blast::ExtSerialization<Nv::Blast::ExtPxAsset, Nv::Blast::Serialization::ExtPxAsset::Reader, Nv::Blast::Serialization::ExtPxAsset::Builder>::serializeIntoStream(reinterpret_cast<const Nv::Blast::ExtPxAsset *>(asset), outputStream);
}
NVBLAST_API bool serializeExtPxAssetIntoNewBuffer(const Nv::Blast::ExtPxAsset *asset, unsigned char **outBuffer, uint32_t &outSize)
{
NVBLAST_ASSERT(g_Physics != nullptr);
auto cooking = getCooking();
PxConvexMeshGeometryDTO::Cooking = cooking.get();
PxConvexMeshGeometryDTO::Physics = g_Physics;
return Nv::Blast::ExtSerialization<Nv::Blast::ExtPxAsset, Nv::Blast::Serialization::ExtPxAsset::Reader, Nv::Blast::Serialization::ExtPxAsset::Builder>::serializeIntoNewBuffer(reinterpret_cast<const Nv::Blast::ExtPxAsset *>(asset), outBuffer, outSize);
}
NVBLAST_API bool serializeExtPxAssetIntoExistingBuffer(const Nv::Blast::ExtPxAsset *asset, unsigned char *buffer, uint32_t maxSize, uint32_t &usedSize)
{
NVBLAST_ASSERT(g_Physics != nullptr);
auto cooking = getCooking();
PxConvexMeshGeometryDTO::Cooking = cooking.get();
PxConvexMeshGeometryDTO::Physics = g_Physics;
return Nv::Blast::ExtSerialization<Nv::Blast::ExtPxAsset, Nv::Blast::Serialization::ExtPxAsset::Reader, Nv::Blast::Serialization::ExtPxAsset::Builder>::serializeIntoExistingBuffer(reinterpret_cast<const Nv::Blast::ExtPxAsset *>(asset), buffer, maxSize, usedSize);
}
}
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