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blender-archive/source/blender/blenkernel/BKE_DerivedMesh.h
Hans Goudey 5876573e14 Mesh: Move face shade smooth flag to a generic attribute 
Currently the shade smooth status for mesh faces is stored as part of
`MPoly::flag`. As described in #95967, this moves that information
to a separate boolean attribute. It also flips its status, so the
attribute is now called `sharp_face`, which mirrors the existing
`sharp_edge` attribute. The attribute doesn't need to be allocated
when all faces are smooth. Forward compatibility is kept until
4.0 like the other mesh refactors.

This will reduce memory bandwidth requirements for some operations,
since the array of booleans uses 12 times less memory than `MPoly`.
It also allows faces to be stored more efficiently in the future, since
the flag is now unused. It's also possible to use generic functions to
process the values. For example, finding whether there is a sharp face
is just `sharp_faces.contains(true)`.

The `shade_smooth` attribute is no longer accessible with geometry nodes.
Since there were dedicated accessor nodes for that data, that shouldn't
be a problem. That's difficult to version automatically since the named
attribute nodes could be used in arbitrary combinations.

**Implementation notes:**
- The attribute and array variables in the code use the `sharp_faces`
  term, to be consistent with the user-facing "sharp faces" wording,
  and to avoid requiring many renames when #101689 is implemented.
- Cycles now accesses smooth face status with the generic attribute,
  to avoid overhead.
- Changing the zero-value from "smooth" to "flat" takes some care to
  make sure defaults are the same.
  - Versioning for the edge mode extrude node is particularly complex.
    New nodes are added by versioning to propagate the attribute in its
    old inverted state.
- A lot of access is still done through the `CustomData` API rather
  than the attribute API because of a few functions. That can be
  cleaned up easily in the future.
- In the future we would benefit from a way to store attributes as a
  single value for when all faces are sharp.

Pull Request: blender/blender#104422
2023-03-08 15:36:18 +01:00

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/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2001-2002 NaN Holding BV. All rights reserved. */
#pragma once
/** \file
* \ingroup bke
*
* Basic design of the DerivedMesh system:
*
* DerivedMesh is a common set of interfaces for mesh systems.
*
* There are three main mesh data structures in Blender:
* #Mesh, #CDDerivedMesh and #BMesh.
*
* These, and a few others, all implement DerivedMesh interfaces,
* which contains unified drawing interfaces, a few utility interfaces,
* and a bunch of read-only interfaces intended mostly for conversion from
* one format to another.
*
* All Mesh structures in blender make use of CustomData, which is used to store
* per-element attributes and interpolate them (e.g. uvs, vcols, vgroups, etc).
*
* Mesh is the "serialized" structure, used for storing object-mode mesh data
* and also for saving stuff to disk. Its interfaces are also what DerivedMesh
* uses to communicate with.
*
* CDDM is a little mesh library, that uses Mesh data structures in the backend.
* It's mostly used for modifiers, and has the advantages of not taking much
* resources.
*
* BMesh is a full-on brep, used for editmode, some modifiers, etc. It's much
* more capable (if memory-intensive) then CDDM.
*
* DerivedMesh is somewhat hackish. Many places assumes that a DerivedMesh is
* a CDDM (most of the time by simply copying it and converting it to one).
* CDDM is the original structure for modifiers, but has since been superseded
* by BMesh, at least for the foreseeable future.
*/
/*
* NOTE: This structure is read-only, for all practical purposes.
* At some point in the future, we may want to consider
* creating a replacement structure that implements a proper
* abstract mesh kernel interface. Or, we can leave this
* as it is and stick with using BMesh and CDDM.
*/
#include "BLI_compiler_attrs.h"
#include "DNA_customdata_types.h"
#ifdef __cplusplus
extern "C" {
#endif
struct BMEditMesh;
struct CCGElem;
struct CCGKey;
struct CustomData_MeshMasks;
struct Depsgraph;
struct MEdge;
struct MFace;
struct Mesh;
struct ModifierData;
struct Object;
struct Scene;
/*
* NOTE: all #MFace interfaces now officially operate on tessellated data.
* Also, the #MFace orig-index layer indexes #MPoly, not #MFace.
*/
/* keep in sync with MFace/MPoly types */
typedef struct DMFlagMat {
short mat_nr;
bool sharp;
} DMFlagMat;
typedef enum DerivedMeshType {
DM_TYPE_CDDM,
DM_TYPE_CCGDM,
} DerivedMeshType;
typedef struct DerivedMesh DerivedMesh;
struct DerivedMesh {
/** Private DerivedMesh data, only for internal DerivedMesh use */
CustomData vertData, edgeData, faceData, loopData, polyData;
int numVertData, numEdgeData, numTessFaceData, numLoopData, numPolyData;
int needsFree; /* checked on ->release, is set to 0 for cached results */
int deformedOnly; /* set by modifier stack if only deformed from original */
DerivedMeshType type;
/**
* \warning Typical access is done via #getLoopTriArray, #getNumLoopTri.
*/
struct {
/* WARNING! swapping between array (ready-to-be-used data) and array_wip
* (where data is actually computed) shall always be protected by same
* lock as one used for looptris computing. */
struct MLoopTri *array, *array_wip;
int num;
int num_alloc;
} looptris;
short tangent_mask; /* which tangent layers are calculated */
/** Loop tessellation cache (WARNING! Only call inside threading-protected code!) */
void (*recalcLoopTri)(DerivedMesh *dm);
/** accessor functions */
const struct MLoopTri *(*getLoopTriArray)(DerivedMesh *dm);
int (*getNumLoopTri)(DerivedMesh *dm);
/* Misc. Queries */
/* Also called in Editmode */
int (*getNumVerts)(DerivedMesh *dm);
int (*getNumEdges)(DerivedMesh *dm);
int (*getNumLoops)(DerivedMesh *dm);
int (*getNumPolys)(DerivedMesh *dm);
/** Return a pointer to the entire array of verts/edges/face from the
* derived mesh. if such an array does not exist yet, it will be created,
* and freed on the next ->release(). consider using getVert/Edge/Face if
* you are only interested in a few verts/edges/faces.
*/
/**
* \warning The real return type is `float(*)[3]`.
*/
float *(*getVertArray)(DerivedMesh *dm);
struct MEdge *(*getEdgeArray)(DerivedMesh *dm);
struct MLoop *(*getLoopArray)(DerivedMesh *dm);
struct MPoly *(*getPolyArray)(DerivedMesh *dm);
/** Copy all verts/edges/faces from the derived mesh into
* *{vert/edge/face}_r (must point to a buffer large enough)
*/
void (*copyVertArray)(DerivedMesh *dm, float (*r_positions)[3]);
void (*copyEdgeArray)(DerivedMesh *dm, struct MEdge *r_edge);
void (*copyLoopArray)(DerivedMesh *dm, struct MLoop *r_loop);
void (*copyPolyArray)(DerivedMesh *dm, struct MPoly *r_poly);
/** Return a pointer to the entire array of vert/edge/face custom data
* from the derived mesh (this gives a pointer to the actual data, not
* a copy)
*/
void *(*getVertDataArray)(DerivedMesh *dm, int type);
void *(*getEdgeDataArray)(DerivedMesh *dm, int type);
void *(*getLoopDataArray)(DerivedMesh *dm, int type);
void *(*getPolyDataArray)(DerivedMesh *dm, int type);
/** Optional grid access for subsurf */
int (*getNumGrids)(DerivedMesh *dm);
int (*getGridSize)(DerivedMesh *dm);
struct CCGElem **(*getGridData)(DerivedMesh *dm);
int *(*getGridOffset)(DerivedMesh *dm);
void (*getGridKey)(DerivedMesh *dm, struct CCGKey *key);
DMFlagMat *(*getGridFlagMats)(DerivedMesh *dm);
unsigned int **(*getGridHidden)(DerivedMesh *dm);
/** Direct Access Operations
* - Can be undefined
* - Must be defined for modifiers that only deform however */
/** Get vertex location, undefined if index is not valid */
void (*getVertCo)(DerivedMesh *dm, int index, float r_co[3]);
/** Get smooth vertex normal, undefined if index is not valid */
void (*getVertNo)(DerivedMesh *dm, int index, float r_no[3]);
/** Release reference to the DerivedMesh. This function decides internally
* if the DerivedMesh will be freed, or cached for later use. */
void (*release)(DerivedMesh *dm);
};
/**
* Utility function to initialize a #DerivedMesh's function pointers to
* the default implementation (for those functions which have a default).
*/
void DM_init_funcs(DerivedMesh *dm);
/**
* Utility function to initialize a #DerivedMesh for the desired number
* of vertices, edges and faces (doesn't allocate memory for them, just
* sets up the custom data layers)>
*/
void DM_init(DerivedMesh *dm,
DerivedMeshType type,
int numVerts,
int numEdges,
int numTessFaces,
int numLoops,
int numPolys);
/**
* Utility function to initialize a DerivedMesh for the desired number
* of vertices, edges and faces, with a layer setup copied from source
*/
void DM_from_template(DerivedMesh *dm,
DerivedMesh *source,
DerivedMeshType type,
int numVerts,
int numEdges,
int numTessFaces,
int numLoops,
int numPolys);
/**
* Utility function to release a DerivedMesh's layers
* returns true if DerivedMesh has to be released by the backend, false otherwise.
*/
bool DM_release(DerivedMesh *dm);
/**
* set the #CD_FLAG_NOCOPY flag in custom data layers where the mask is
* zero for the layer type, so only layer types specified by the mask
* will be copied
*/
void DM_set_only_copy(DerivedMesh *dm, const struct CustomData_MeshMasks *mask);
/* -------------------------------------------------------------------- */
/** \name Custom Data Layer Access Functions
*
* \return pointer to first data layer which matches type (a flat array)
* if they return NULL, data doesn't exist.
* \note these return pointers - any change modifies the internals of the mesh.
* \{ */
void *DM_get_vert_data_layer(struct DerivedMesh *dm, int type);
void *DM_get_edge_data_layer(struct DerivedMesh *dm, int type);
void *DM_get_poly_data_layer(struct DerivedMesh *dm, int type);
void *DM_get_loop_data_layer(struct DerivedMesh *dm, int type);
/** \} */
/**
* Custom data copy functions
* copy count elements from source_index in source to dest_index in dest
* these copy all layers for which the CD_FLAG_NOCOPY flag is not set.
*/
void DM_copy_vert_data(struct DerivedMesh *source,
struct DerivedMesh *dest,
int source_index,
int dest_index,
int count);
/**
* Ensure the array is large enough.
*
* \note This function must always be thread-protected by caller.
* It should only be used by internal code.
*/
void DM_ensure_looptri_data(DerivedMesh *dm);
/**
* Interpolates vertex data from the vertices indexed by `src_indices` in the
* source mesh using the given weights and stores the result in the vertex
* indexed by `dest_index` in the `dest` mesh.
*/
void DM_interp_vert_data(struct DerivedMesh *source,
struct DerivedMesh *dest,
int *src_indices,
float *weights,
int count,
int dest_index);
void mesh_get_mapped_verts_coords(struct Mesh *me_eval, float (*r_cos)[3], int totcos);
/**
* Same as above but won't use render settings.
*/
struct Mesh *editbmesh_get_eval_cage(struct Depsgraph *depsgraph,
const struct Scene *scene,
struct Object *obedit,
struct BMEditMesh *em,
const struct CustomData_MeshMasks *dataMask);
struct Mesh *editbmesh_get_eval_cage_from_orig(struct Depsgraph *depsgraph,
const struct Scene *scene,
struct Object *obedit,
const struct CustomData_MeshMasks *dataMask);
float (*editbmesh_vert_coords_alloc(struct BMEditMesh *em, int *r_vert_len))[3];
bool editbmesh_modifier_is_enabled(const struct Scene *scene,
const struct Object *ob,
struct ModifierData *md,
bool has_prev_mesh);
void makeDerivedMesh(struct Depsgraph *depsgraph,
const struct Scene *scene,
struct Object *ob,
const struct CustomData_MeshMasks *dataMask);
#ifdef __cplusplus
}
#endif
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