* Combined members of TextureHeader_t and RTechTextureInfo_t.
* Renamed 's_pRTechBytesPerPixel' to 's_pBytesPerPixel' and declared const.
* Renamed 'dxgiToRPakFormat' to 's_DxgiToTxtrTable' and declared const.
* Renamed 'rpakToDxgiFormat' to 's_TxtrToDxgiTable' and declared const.
* Moved 'g_DxgiToTxtrTable' and 'g_TxtrToDxgiTable' to 'texture.g.h'.
* Moved 's_pBytesPerPixel' to 'texture.g.h'.
* Fixed defect where we used the [] operator on a std::map that should be const (s_TxtrToDxgiTable), replaced with the const version of std::map::at.
This commit implements missing material error logging.
When a material does not exist, it will get replaced with an error material, we log which material is missing, and with which error material it gets replaced with.
This commit also comes with some updates regarding the CMaterialGlue class, and some new types used by this class from the RePak project.
* Don't call copy constructor on entry blocks when building the directory file.
* Don't call copy constructor for string when we don't want to sanitize the directory file name.
The sanitizer can retrieve the directory file name from the block file name if this is passed instead. This was broken in the previous system. Sanitization can be opted out if the 3rd parameter of the 'fs_vpk_unpack' command is omitted.
* Make box's mins and maxs static const.
* Use SSE to pack 4 indices into 1 128bit register, and shuffle to prevent duplication. Only 2 indices are used at the moment.
This allows for loading the game with the client.dll without loading the main worker/sdk dll. gamesdk.dll is imported by the game executable, so we cannot circumvent its loading without some hacks, so instead, we just check if -noworkerdll is passed and not perform any init if its present.
CMaterial and CMaterialGlue derive from the same abstract classes. The function that builds the culling map uses IMaterialInternal, which is used by CMaterial, CMaterialInternal and CMaterialSubRect. Added a check for CMaterialGlue as these are valid too.
* Init vCamera once during call (MainViewOrigin() won't change during the execution of this function).
* Construct Vector3D for camera distance only once, using SIMD.
Some CMaterial instances are allocated on the heap, and we only check for bounds in .data/.pdata. Checking bounds is cheap, checking valid ptr's is not. However we are lucky most of the data is within the segments, so running this isn't too costly.
This fixes the problem where the large leaf model in worlds edge was missing.
* Use reference to array index.
* Only obtain array size once during loop.
* Use static buffer of 1024*1024 for decompressing.
* Removed extraneous goto.
* Fixed bug where shared data would be mapped wrong due to the last optimization.
* This increased packing performance by 40/60 seconds when rebuilding all vpk's.
* Hash chunk before compression to determine if it already exists or not (don't run compression if it does).
* Use the result of vector::insert for data sharing (insert already checks if it exists or not, and returns the iterator).
* This optimization saves around 20 seconds total when rebuilding all VPK's.
The ConVar 'bhit_abs_origin' will now draw a sphere at the predicted abs origin of the entity upon hit. This is useful for debugging lag compensation on the server (white star).
Obtain values of ConVar once a frame instead of checking within loop. There is no point changing the values while we are rendering. Thi sshould increase performance when drawing larger NavMeshes.
* Construct min/max for AI Script Network boxes using SIMD (significantly reduced instruction count!).
* Move NavMesh debug draw to dedicated class for future changes.
* Use SIMD to construct vertices into single XMM register.
* Use SIMD to construct origin and destination vectors from vertices.
* Deref 'navmesh_debug_camera_range' only once outside the render loop.
* Light code cleanup.
* Use SIMD to construct a Vector3D in a single instruction, instead of setting the vector fields individually.
* Store ConVar value as const bool outside loop.
* Slightly improved variable naming.
