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blender-archive/source/blender/draw/engines/basic/basic_engine.c
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Joseph Eagar 65900d88a8 Sculpt: Rewrite PBVH draw
Rewrite PBVH draw to allocate attributes into individual VBOs.
The old system tried to create a single VBO that could feed
every open viewport.  This required uploading every color and
UV attribute  to the viewport whether needed or not, often exceeding
the VBO limit.

This new system creates one VBO per attribute.  Each attribute layout is
given its own GPU batch which is cached inside the owning PBVH node.

Notes:

* This is a full C++ rewrite.  The old code is still there; ripping it out
can happen later.
* PBVH nodes now have a collection of batches, PBVHBatches, that keeps
track of all the batches inside the node.
* Batches are built exclusively from a list of attributes.
* Each attribute has its own VBO.
* Overlays, workbench and EEVEE can all have different attribute
  layouts, each of which will get its own batch.

Reviewed by: Clement Foucault
Differential Revision: https://developer.blender.org/D15428
Ref D15428
2022-09-28 14:51:23 -07:00

273 lines
9.1 KiB
C

/* SPDX-License-Identifier: GPL-2.0-or-later
* Copyright 2016 Blender Foundation. */
/** \file
* \ingroup draw_engine
*
* Simple engine for drawing color and/or depth.
* When we only need simple flat shaders.
*/
#include "DRW_render.h"
#include "BKE_object.h"
#include "BKE_paint.h"
#include "BKE_particle.h"
#include "BLI_alloca.h"
#include "DNA_particle_types.h"
#include "GPU_shader.h"
#include "basic_engine.h"
#include "basic_private.h"
#define BASIC_ENGINE "BLENDER_BASIC"
/* *********** LISTS *********** */
/* GPUViewport.storage
* Is freed every time the viewport engine changes. */
typedef struct BASIC_StorageList {
struct BASIC_PrivateData *g_data;
} BASIC_StorageList;
typedef struct BASIC_PassList {
struct DRWPass *depth_pass[2];
struct DRWPass *depth_pass_pointcloud[2];
struct DRWPass *depth_pass_cull[2];
} BASIC_PassList;
typedef struct BASIC_Data {
void *engine_type;
DRWViewportEmptyList *fbl;
DRWViewportEmptyList *txl;
BASIC_PassList *psl;
BASIC_StorageList *stl;
} BASIC_Data;
/* *********** STATIC *********** */
typedef struct BASIC_PrivateData {
DRWShadingGroup *depth_shgrp[2];
DRWShadingGroup *depth_shgrp_cull[2];
DRWShadingGroup *depth_hair_shgrp[2];
DRWShadingGroup *depth_curves_shgrp[2];
DRWShadingGroup *depth_pointcloud_shgrp[2];
bool use_material_slot_selection;
} BASIC_PrivateData; /* Transient data */
static void basic_cache_init(void *vedata)
{
BASIC_PassList *psl = ((BASIC_Data *)vedata)->psl;
BASIC_StorageList *stl = ((BASIC_Data *)vedata)->stl;
DRWShadingGroup *grp;
const DRWContextState *draw_ctx = DRW_context_state_get();
if (!stl->g_data) {
/* Alloc transient pointers */
stl->g_data = MEM_callocN(sizeof(*stl->g_data), __func__);
}
stl->g_data->use_material_slot_selection = DRW_state_is_material_select();
/* Twice for normal and in front objects. */
for (int i = 0; i < 2; i++) {
DRWState clip_state = (draw_ctx->sh_cfg == GPU_SHADER_CFG_CLIPPED) ? DRW_STATE_CLIP_PLANES : 0;
DRWState infront_state = (DRW_state_is_select() && (i == 1)) ? DRW_STATE_IN_FRONT_SELECT : 0;
DRWState state = DRW_STATE_WRITE_DEPTH | DRW_STATE_DEPTH_LESS_EQUAL;
GPUShader *sh = DRW_state_is_select() ?
BASIC_shaders_depth_conservative_sh_get(draw_ctx->sh_cfg) :
BASIC_shaders_depth_sh_get(draw_ctx->sh_cfg);
DRW_PASS_CREATE(psl->depth_pass[i], state | clip_state | infront_state);
stl->g_data->depth_shgrp[i] = grp = DRW_shgroup_create(sh, psl->depth_pass[i]);
DRW_shgroup_uniform_vec2(grp, "sizeViewport", DRW_viewport_size_get(), 1);
DRW_shgroup_uniform_vec2(grp, "sizeViewportInv", DRW_viewport_invert_size_get(), 1);
sh = DRW_state_is_select() ?
BASIC_shaders_pointcloud_depth_conservative_sh_get(draw_ctx->sh_cfg) :
BASIC_shaders_pointcloud_depth_sh_get(draw_ctx->sh_cfg);
DRW_PASS_CREATE(psl->depth_pass_pointcloud[i], state | clip_state | infront_state);
stl->g_data->depth_pointcloud_shgrp[i] = grp = DRW_shgroup_create(
sh, psl->depth_pass_pointcloud[i]);
DRW_shgroup_uniform_vec2(grp, "sizeViewport", DRW_viewport_size_get(), 1);
DRW_shgroup_uniform_vec2(grp, "sizeViewportInv", DRW_viewport_invert_size_get(), 1);
stl->g_data->depth_hair_shgrp[i] = grp = DRW_shgroup_create(
BASIC_shaders_depth_sh_get(draw_ctx->sh_cfg), psl->depth_pass[i]);
stl->g_data->depth_curves_shgrp[i] = grp = DRW_shgroup_create(
BASIC_shaders_curves_depth_sh_get(draw_ctx->sh_cfg), psl->depth_pass[i]);
sh = DRW_state_is_select() ? BASIC_shaders_depth_conservative_sh_get(draw_ctx->sh_cfg) :
BASIC_shaders_depth_sh_get(draw_ctx->sh_cfg);
state |= DRW_STATE_CULL_BACK;
DRW_PASS_CREATE(psl->depth_pass_cull[i], state | clip_state | infront_state);
stl->g_data->depth_shgrp_cull[i] = grp = DRW_shgroup_create(sh, psl->depth_pass_cull[i]);
DRW_shgroup_uniform_vec2(grp, "sizeViewport", DRW_viewport_size_get(), 1);
DRW_shgroup_uniform_vec2(grp, "sizeViewportInv", DRW_viewport_invert_size_get(), 1);
}
}
/* TODO(fclem): DRW_cache_object_surface_material_get needs a refactor to allow passing NULL
* instead of gpumat_array. Avoiding all this boilerplate code. */
static struct GPUBatch **basic_object_surface_material_get(Object *ob)
{
const int materials_len = DRW_cache_object_material_count_get(ob);
struct GPUMaterial **gpumat_array = BLI_array_alloca(gpumat_array, materials_len);
memset(gpumat_array, 0, sizeof(*gpumat_array) * materials_len);
return DRW_cache_object_surface_material_get(ob, gpumat_array, materials_len);
}
static void basic_cache_populate_particles(void *vedata, Object *ob)
{
const bool do_in_front = (ob->dtx & OB_DRAW_IN_FRONT) != 0;
BASIC_StorageList *stl = ((BASIC_Data *)vedata)->stl;
for (ParticleSystem *psys = ob->particlesystem.first; psys != NULL; psys = psys->next) {
if (!DRW_object_is_visible_psys_in_active_context(ob, psys)) {
continue;
}
ParticleSettings *part = psys->part;
const int draw_as = (part->draw_as == PART_DRAW_REND) ? part->ren_as : part->draw_as;
if (draw_as == PART_DRAW_PATH) {
struct GPUBatch *hairs = DRW_cache_particles_get_hair(ob, psys, NULL);
if (stl->g_data->use_material_slot_selection) {
const short material_slot = part->omat;
DRW_select_load_id(ob->runtime.select_id | (material_slot << 16));
}
DRW_shgroup_call(stl->g_data->depth_hair_shgrp[do_in_front], hairs, NULL);
}
}
}
static void basic_cache_populate(void *vedata, Object *ob)
{
BASIC_StorageList *stl = ((BASIC_Data *)vedata)->stl;
/* TODO(fclem): fix selection of smoke domains. */
if (!DRW_object_is_renderable(ob) || (ob->dt < OB_SOLID)) {
return;
}
const DRWContextState *draw_ctx = DRW_context_state_get();
if (ob != draw_ctx->object_edit) {
basic_cache_populate_particles(vedata, ob);
}
const bool do_in_front = (ob->dtx & OB_DRAW_IN_FRONT) != 0;
if (ob->type == OB_CURVES) {
DRW_shgroup_curves_create_sub(ob, stl->g_data->depth_curves_shgrp[do_in_front], NULL);
}
/* Make flat object selectable in ortho view if wireframe is enabled. */
if ((draw_ctx->v3d->overlay.flag & V3D_OVERLAY_WIREFRAMES) ||
(draw_ctx->v3d->shading.type == OB_WIRE) || (ob->dtx & OB_DRAWWIRE) || (ob->dt == OB_WIRE)) {
int flat_axis = 0;
bool is_flat_object_viewed_from_side = ((draw_ctx->rv3d->persp == RV3D_ORTHO) &&
DRW_object_is_flat(ob, &flat_axis) &&
DRW_object_axis_orthogonal_to_view(ob, flat_axis));
if (is_flat_object_viewed_from_side) {
/* Avoid losing flat objects when in ortho views (see T56549) */
struct GPUBatch *geom = DRW_cache_object_all_edges_get(ob);
if (geom) {
DRW_shgroup_call(stl->g_data->depth_shgrp[do_in_front], geom, ob);
}
return;
}
}
const bool use_sculpt_pbvh = BKE_sculptsession_use_pbvh_draw(ob, draw_ctx->v3d) &&
!DRW_state_is_image_render();
const bool do_cull = (draw_ctx->v3d &&
(draw_ctx->v3d->shading.flag & V3D_SHADING_BACKFACE_CULLING));
DRWShadingGroup *shgrp = NULL;
if (ob->type == OB_POINTCLOUD) {
shgrp = stl->g_data->depth_pointcloud_shgrp[do_in_front];
}
else {
shgrp = (do_cull) ? stl->g_data->depth_shgrp_cull[do_in_front] :
stl->g_data->depth_shgrp[do_in_front];
}
if (use_sculpt_pbvh) {
DRW_shgroup_call_sculpt(shgrp, ob, false, false, false, false, false);
}
else {
if (stl->g_data->use_material_slot_selection && BKE_object_supports_material_slots(ob)) {
struct GPUBatch **geoms = basic_object_surface_material_get(ob);
if (geoms) {
const int materials_len = DRW_cache_object_material_count_get(ob);
for (int i = 0; i < materials_len; i++) {
if (geoms[i] == NULL) {
continue;
}
const short material_slot_select_id = i + 1;
DRW_select_load_id(ob->runtime.select_id | (material_slot_select_id << 16));
DRW_shgroup_call(shgrp, geoms[i], ob);
}
}
}
else {
struct GPUBatch *geom = DRW_cache_object_surface_get(ob);
if (geom) {
DRW_shgroup_call(shgrp, geom, ob);
}
}
}
}
static void basic_cache_finish(void *vedata)
{
BASIC_StorageList *stl = ((BASIC_Data *)vedata)->stl;
UNUSED_VARS(stl);
}
static void basic_draw_scene(void *vedata)
{
BASIC_PassList *psl = ((BASIC_Data *)vedata)->psl;
DRW_draw_pass(psl->depth_pass[0]);
DRW_draw_pass(psl->depth_pass_pointcloud[0]);
DRW_draw_pass(psl->depth_pass_cull[0]);
DRW_draw_pass(psl->depth_pass[1]);
DRW_draw_pass(psl->depth_pass_pointcloud[1]);
DRW_draw_pass(psl->depth_pass_cull[1]);
}
static void basic_engine_free(void)
{
BASIC_shaders_free();
}
static const DrawEngineDataSize basic_data_size = DRW_VIEWPORT_DATA_SIZE(BASIC_Data);
DrawEngineType draw_engine_basic_type = {
NULL,
NULL,
N_("Basic"),
&basic_data_size,
NULL,
&basic_engine_free,
NULL, /* instance_free */
&basic_cache_init,
&basic_cache_populate,
&basic_cache_finish,
&basic_draw_scene,
NULL,
NULL,
NULL,
NULL,
};
#undef BASIC_ENGINE